diff --git a/bsp/imxrt1052-evk/Kconfig b/bsp/imxrt1052-evk/Kconfig index 8bfb1e25892cae4f5e80279b65da8f99700f2734..a5c48884a7210df330df50a713fd249e0cef3f62 100644 --- a/bsp/imxrt1052-evk/Kconfig +++ b/bsp/imxrt1052-evk/Kconfig @@ -35,3 +35,16 @@ config RT_USING_HP_RTC default n endif +if RT_USING_USB_DEVICE + choice + prompt "select usb device controller" + default RT_USING_EHCI0_AS_DEVICE + + config RT_USING_EHCI0_AS_DEVICE + bool "set EHCI0 as device" + config RT_USING_EHCI1_AS_DEVICE + bool "set EHCI1 as device" + endchoice +endif + + diff --git a/bsp/imxrt1052-evk/drivers/SConscript b/bsp/imxrt1052-evk/drivers/SConscript index c18b8ca321e0042c793b3ce40eca1b35c0e9bac4..6ca466f3c8829578b16fe9f2060a1ee5aa681d5d 100644 --- a/bsp/imxrt1052-evk/drivers/SConscript +++ b/bsp/imxrt1052-evk/drivers/SConscript @@ -27,6 +27,13 @@ if GetDepend('RT_USING_LWIP'): if GetDepend('RT_USING_SDIO'): src += ['drv_sdio.c'] +if GetDepend('RT_USING_USB_DEVICE'): + src += Glob('usb/phy/*.c') + CPPDEFINES += ['ENDIANNESS'] + +if GetDepend('RT_USING_USB_DEVICE'): + src += ['drv_usbd.c'] + src += Glob('usb/device/*.c') if GetDepend('RT_USING_RTGUI') or GetDepend('PKG_USING_GUIENGINE'): src += ['drv_lcd.c', 'drv_ft5406.c', 'drv_i2c.c'] diff --git a/bsp/imxrt1052-evk/drivers/drv_usbd.c b/bsp/imxrt1052-evk/drivers/drv_usbd.c new file mode 100644 index 0000000000000000000000000000000000000000..118842b203a3185ec42d9d511f7fb75af9dc5f9e --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/drv_usbd.c @@ -0,0 +1,503 @@ +/* + * File : drv_usbc.c + * This file is part of RT-Thread RTOS + * COPYRIGHT (C) 2009 RT-Thread Develop Team + * + * The license and distribution terms for this file may be + * found in the file LICENSE in this distribution or at + * http://www.rt-thread.org/license/LICENSE + * + * Change Logs: + * Date Author Notes + * 2017-12-04 ZYH first implementation + */ +#include +#include +#include +#include +#include +#include +#include +#ifdef RT_USING_EHCI0_AS_DEVICE +#ifdef RT_USING_EHCI1_AS_DEVICE +#error Can not using 2 controller as usb device +#endif +#endif + + +/* USB PHY condfiguration */ +#define BOARD_USB_PHY_D_CAL (0x0CU) +#define BOARD_USB_PHY_TXCAL45DP (0x06U) +#define BOARD_USB_PHY_TXCAL45DM (0x06U) +#define BOARD_XTAL0_CLK_HZ 24000000U + +#ifdef RT_USING_EHCI0_AS_DEVICE +static usb_device_handle ehci0_handle; +static struct udcd _fsl_udc_0; +#endif +#ifdef RT_USING_EHCI1_AS_DEVICE +static usb_device_handle ehci1_handle; +static struct udcd _fsl_udc_1; +#endif + + + +static usb_status_t usb_device_callback(usb_device_handle handle, uint32_t callbackEvent, void *eventParam); +static usb_status_t usb_device_endpoint_callback(usb_device_handle handle, usb_device_endpoint_callback_message_struct_t *message, void *callbackParam); +void USB_DeviceIsrEnable(uint8_t controllerId) +{ + uint8_t irqNumber; +#if defined(USB_DEVICE_CONFIG_EHCI) && (USB_DEVICE_CONFIG_EHCI > 0U) + uint8_t usbDeviceEhciIrq[] = USBHS_IRQS; + irqNumber = usbDeviceEhciIrq[controllerId - kUSB_ControllerEhci0]; +#endif +/* Install isr, set priority, and enable IRQ. */ +#if defined(__GIC_PRIO_BITS) + GIC_SetPriority((IRQn_Type)irqNumber, 3); +#else + NVIC_SetPriority((IRQn_Type)irqNumber, 3); +#endif + EnableIRQ((IRQn_Type)irqNumber); +} +void USB_DeviceClockInit(uint8_t controllerId) +{ +#if defined(USB_DEVICE_CONFIG_EHCI) && (USB_DEVICE_CONFIG_EHCI > 0U) + usb_phy_config_struct_t phyConfig = { + BOARD_USB_PHY_D_CAL, BOARD_USB_PHY_TXCAL45DP, BOARD_USB_PHY_TXCAL45DM, + }; +#endif +#if defined(USB_DEVICE_CONFIG_EHCI) && (USB_DEVICE_CONFIG_EHCI > 0U) + if (controllerId == kUSB_ControllerEhci0) + { + CLOCK_EnableUsbhs0PhyPllClock(kCLOCK_Usbphy480M, 480000000U); + CLOCK_EnableUsbhs0Clock(kCLOCK_Usb480M, 480000000U); + } + else + { + CLOCK_EnableUsbhs1PhyPllClock(kCLOCK_Usbphy480M, 480000000U); + CLOCK_EnableUsbhs1Clock(kCLOCK_Usb480M, 480000000U); + } + USB_EhciPhyInit(controllerId, BOARD_XTAL0_CLK_HZ, &phyConfig); +#endif +} +#ifdef RT_USING_EHCI0_AS_DEVICE +static struct ep_id _ehci0_ep_pool[] = +{ + {0x0, USB_EP_ATTR_CONTROL, USB_DIR_INOUT, 64, ID_ASSIGNED }, + {0x1, USB_EP_ATTR_BULK, USB_DIR_IN, 64, ID_UNASSIGNED}, + {0x1, USB_EP_ATTR_BULK, USB_DIR_OUT, 64, ID_UNASSIGNED}, + {0x2, USB_EP_ATTR_INT, USB_DIR_IN, 64, ID_UNASSIGNED}, + {0x2, USB_EP_ATTR_INT, USB_DIR_OUT, 64, ID_UNASSIGNED}, + {0x3, USB_EP_ATTR_BULK, USB_DIR_IN, 64, ID_UNASSIGNED}, + {0x3, USB_EP_ATTR_BULK, USB_DIR_OUT, 64, ID_UNASSIGNED}, + {0x4, USB_EP_ATTR_INT, USB_DIR_IN, 64, ID_UNASSIGNED}, + {0x4, USB_EP_ATTR_INT, USB_DIR_OUT, 64, ID_UNASSIGNED}, + {0x5, USB_EP_ATTR_BULK, USB_DIR_IN, 64, ID_UNASSIGNED}, + {0x5, USB_EP_ATTR_BULK, USB_DIR_OUT, 64, ID_UNASSIGNED}, + {0x6, USB_EP_ATTR_INT, USB_DIR_IN, 64, ID_UNASSIGNED}, + {0x6, USB_EP_ATTR_INT, USB_DIR_OUT, 64, ID_UNASSIGNED}, + {0x7, USB_EP_ATTR_BULK, USB_DIR_IN, 64, ID_UNASSIGNED}, + {0x7, USB_EP_ATTR_BULK, USB_DIR_OUT, 64, ID_UNASSIGNED}, + {0xFF, USB_EP_ATTR_TYPE_MASK, USB_DIR_MASK, 0, ID_ASSIGNED }, +}; +void USB_OTG1_IRQHandler(void) +{ + /* enter interrupt */ + rt_interrupt_enter(); + + USB_DeviceEhciIsrFunction(ehci0_handle); + /* leave interrupt */ + rt_interrupt_leave(); +} +static rt_err_t _ehci0_ep_set_stall(rt_uint8_t address) +{ + USB_DeviceStallEndpoint(ehci0_handle, address); + return RT_EOK; +} +static rt_err_t _ehci0_ep_clear_stall(rt_uint8_t address) +{ + USB_DeviceUnstallEndpoint(ehci0_handle, address); + return RT_EOK; +} + +static rt_err_t _ehci0_set_address(rt_uint8_t address) +{ + USB_DeviceSetStatus(ehci0_handle, kUSB_DeviceStatusAddress, &address); + return RT_EOK; +} +static rt_err_t _ehci0_set_config(rt_uint8_t address) +{ + return RT_EOK; +} +static rt_err_t _ehci0_ep_enable(uep_t ep) +{ + usb_device_endpoint_init_struct_t ep_init; + usb_device_endpoint_callback_struct_t ep_callback; + RT_ASSERT(ep != RT_NULL); + RT_ASSERT(ep->ep_desc != RT_NULL); + ep_init.maxPacketSize = ep->ep_desc->wMaxPacketSize; + ep_init.endpointAddress = ep->ep_desc->bEndpointAddress; + ep_init.transferType = ep->ep_desc->bmAttributes; + ep_init.zlt = 0; + ep_callback.callbackFn = usb_device_endpoint_callback; + ep_callback.callbackParam = (void *)ep_init.endpointAddress; + ep_callback.isBusy = 0; + USB_DeviceInitEndpoint(ehci0_handle,&ep_init,&ep_callback); + return RT_EOK; +} +static rt_err_t _ehci0_ep_disable(uep_t ep) +{ + RT_ASSERT(ep != RT_NULL); + RT_ASSERT(ep->ep_desc != RT_NULL); + USB_DeviceDeinitEndpoint(ehci0_handle, ep->ep_desc->bEndpointAddress); + return RT_EOK; +} +static rt_size_t _ehci0_ep_read(rt_uint8_t address, void *buffer) +{ + rt_size_t size = 0; + + RT_ASSERT(buffer != RT_NULL); + + return size; +} +static rt_size_t _ehci0_ep_read_prepare(rt_uint8_t address, void *buffer, rt_size_t size) +{ + USB_DeviceRecvRequest(ehci0_handle, address, buffer, size); + return size; +} +static rt_size_t _ehci0_ep_write(rt_uint8_t address, void *buffer, rt_size_t size) +{ + USB_DeviceSendRequest(ehci0_handle, address, buffer, size); + return size; +} +static rt_err_t _ehci0_ep0_send_status(void) +{ + _ehci0_ep_write(0x00, NULL, 0); + return RT_EOK; +} +static rt_err_t _ehci0_suspend(void) +{ + return RT_EOK; +} + +static rt_err_t _ehci0_wakeup(void) +{ + return RT_EOK; +} +const static struct udcd_ops _ehci0_udc_ops = +{ + _ehci0_set_address, + _ehci0_set_config, + _ehci0_ep_set_stall, + _ehci0_ep_clear_stall, + _ehci0_ep_enable, + _ehci0_ep_disable, + _ehci0_ep_read_prepare, + _ehci0_ep_read, + _ehci0_ep_write, + _ehci0_ep0_send_status, + _ehci0_suspend, + _ehci0_wakeup, +}; +static rt_err_t drv_ehci0_usbd_init(rt_device_t device) +{ + usb_status_t result; + USB_DeviceClockInit(kUSB_ControllerEhci0); + + result = USB_DeviceInit(kUSB_ControllerEhci0,usb_device_callback,&ehci0_handle); + RT_ASSERT(ehci0_handle); + if(result == kStatus_USB_Success) + { + USB_DeviceIsrEnable(kUSB_ControllerEhci0); + USB_DeviceRun(ehci0_handle); + } + else + { + rt_kprintf("USB_DeviceInit ehci0 error\r\n"); + return RT_ERROR; + } + return RT_EOK; +} +#endif +#ifdef RT_USING_EHCI1_AS_DEVICE +static struct ep_id _ehci1_ep_pool[] = +{ + {0x0, USB_EP_ATTR_CONTROL, USB_DIR_INOUT, 64, ID_ASSIGNED }, + {0x1, USB_EP_ATTR_BULK, USB_DIR_IN, 64, ID_UNASSIGNED}, + {0x1, USB_EP_ATTR_BULK, USB_DIR_OUT, 64, ID_UNASSIGNED}, + {0x2, USB_EP_ATTR_INT, USB_DIR_IN, 64, ID_UNASSIGNED}, + {0x2, USB_EP_ATTR_INT, USB_DIR_OUT, 64, ID_UNASSIGNED}, + {0x3, USB_EP_ATTR_BULK, USB_DIR_IN, 64, ID_UNASSIGNED}, + {0x3, USB_EP_ATTR_BULK, USB_DIR_OUT, 64, ID_UNASSIGNED}, + {0x4, USB_EP_ATTR_INT, USB_DIR_IN, 64, ID_UNASSIGNED}, + {0x4, USB_EP_ATTR_INT, USB_DIR_OUT, 64, ID_UNASSIGNED}, + {0x5, USB_EP_ATTR_BULK, USB_DIR_IN, 64, ID_UNASSIGNED}, + {0x5, USB_EP_ATTR_BULK, USB_DIR_OUT, 64, ID_UNASSIGNED}, + {0x6, USB_EP_ATTR_INT, USB_DIR_IN, 64, ID_UNASSIGNED}, + {0x6, USB_EP_ATTR_INT, USB_DIR_OUT, 64, ID_UNASSIGNED}, + {0x7, USB_EP_ATTR_BULK, USB_DIR_IN, 64, ID_UNASSIGNED}, + {0x7, USB_EP_ATTR_BULK, USB_DIR_OUT, 64, ID_UNASSIGNED}, + {0xFF, USB_EP_ATTR_TYPE_MASK, USB_DIR_MASK, 0, ID_ASSIGNED }, +}; +void USB_OTG2_IRQHandler(void) +{ + /* enter interrupt */ + rt_interrupt_enter(); + USB_DeviceEhciIsrFunction(ehci1_handle); + /* leave interrupt */ + rt_interrupt_leave(); +} +static rt_err_t _ehci1_ep_set_stall(rt_uint8_t address) +{ + USB_DeviceStallEndpoint(ehci1_handle, address); + return RT_EOK; +} +static rt_err_t _ehci1_ep_clear_stall(rt_uint8_t address) +{ + USB_DeviceUnstallEndpoint(ehci1_handle, address); + return RT_EOK; +} + +static rt_err_t _ehci1_set_address(rt_uint8_t address) +{ + USB_DeviceSetStatus(ehci1_handle, kUSB_DeviceStatusAddress, &address); + return RT_EOK; +} +static rt_err_t _ehci1_set_config(rt_uint8_t address) +{ + return RT_EOK; +} +static rt_err_t _ehci1_ep_enable(uep_t ep) +{ + usb_device_endpoint_init_struct_t ep_init; + usb_device_endpoint_callback_struct_t ep_callback; + RT_ASSERT(ep != RT_NULL); + RT_ASSERT(ep->ep_desc != RT_NULL); + ep_init.maxPacketSize = ep->ep_desc->wMaxPacketSize; + ep_init.endpointAddress = ep->ep_desc->bEndpointAddress; + ep_init.transferType = ep->ep_desc->bmAttributes; + ep_init.zlt = 0; + ep_callback.callbackFn = usb_device_endpoint_callback; + ep_callback.callbackParam = (void *)ep_init.endpointAddress; + ep_callback.isBusy = 0; + USB_DeviceInitEndpoint(ehci1_handle,&ep_init,&ep_callback); + return RT_EOK; +} +static rt_err_t _ehci1_ep_disable(uep_t ep) +{ + RT_ASSERT(ep != RT_NULL); + RT_ASSERT(ep->ep_desc != RT_NULL); + USB_DeviceDeinitEndpoint(ehci1_handle, ep->ep_desc->bEndpointAddress); + return RT_EOK; +} +static rt_size_t _ehci1_ep_read(rt_uint8_t address, void *buffer) +{ + rt_size_t size = 0; + + RT_ASSERT(buffer != RT_NULL); + + return size; +} +static rt_size_t _ehci1_ep_read_prepare(rt_uint8_t address, void *buffer, rt_size_t size) +{ + USB_DeviceRecvRequest(ehci1_handle, address, buffer, size); + return size; +} +static rt_size_t _ehci1_ep_write(rt_uint8_t address, void *buffer, rt_size_t size) +{ + USB_DeviceSendRequest(ehci1_handle, address, buffer, size); + return size; +} +static rt_err_t _ehci1_ep0_send_status(void) +{ + _ehci1_ep_write(0x00, NULL, 0); + return RT_EOK; +} +static rt_err_t _ehci1_suspend(void) +{ + return RT_EOK; +} + +static rt_err_t _ehci1_wakeup(void) +{ + return RT_EOK; +} +const static struct udcd_ops _ehci1_udc_ops = +{ + _ehci1_set_address, + _ehci1_set_config, + _ehci1_ep_set_stall, + _ehci1_ep_clear_stall, + _ehci1_ep_enable, + _ehci1_ep_disable, + _ehci1_ep_read_prepare, + _ehci1_ep_read, + _ehci1_ep_write, + _ehci1_ep0_send_status, + _ehci1_suspend, + _ehci1_wakeup, +}; +static rt_err_t drv_ehci1_usbd_init(rt_device_t device) +{ + usb_status_t result; + USB_DeviceClockInit(kUSB_ControllerEhci1); + + result = USB_DeviceInit(kUSB_ControllerEhci1,usb_device_callback,&ehci1_handle); + RT_ASSERT(ehci1_handle); + if(result == kStatus_USB_Success) + { + USB_DeviceIsrEnable(kUSB_ControllerEhci1); + USB_DeviceRun(ehci1_handle); + } + else + { + rt_kprintf("USB_DeviceInit ehci1 error\r\n"); + return RT_ERROR; + } + return RT_EOK; +} +#endif + + + +#if defined(RT_USING_EHCI0_AS_DEVICE) && defined(RT_USING_EHCI1_AS_DEVICE) +#error Can not using both now +#endif +static int rt_usbd_init(void) +{ + #ifdef RT_USING_EHCI0_AS_DEVICE + rt_memset((void *)&_fsl_udc_0, 0, sizeof(struct udcd)); + _fsl_udc_0.parent.type = RT_Device_Class_USBDevice; + _fsl_udc_0.parent.init = drv_ehci0_usbd_init; + _fsl_udc_0.ops = &_ehci0_udc_ops; + /* Register endpoint infomation */ + _fsl_udc_0.ep_pool = _ehci0_ep_pool; + _fsl_udc_0.ep0.id = &_ehci0_ep_pool[0]; + rt_device_register((rt_device_t)&_fsl_udc_0, "usbd", 0); + rt_usb_device_init(); + #endif + #ifdef RT_USING_EHCI1_AS_DEVICE + rt_memset((void *)&_fsl_udc_1, 0, sizeof(struct udcd)); + _fsl_udc_1.parent.type = RT_Device_Class_USBDevice; + _fsl_udc_1.parent.init = drv_ehci1_usbd_init; + _fsl_udc_1.ops = &_ehci1_udc_ops; + /* Register endpoint infomation */ + _fsl_udc_1.ep_pool = _ehci1_ep_pool; + _fsl_udc_1.ep0.id = &_ehci1_ep_pool[0]; + rt_device_register((rt_device_t)&_fsl_udc_1, "usbd", 0); + rt_usb_device_init(); + #endif + return 0; +} +INIT_DEVICE_EXPORT(rt_usbd_init); +static usb_status_t usb_device_endpoint_callback(usb_device_handle handle, usb_device_endpoint_callback_message_struct_t *message, void *callbackParam) +{ + rt_uint32_t ep_addr = (rt_uint32_t)callbackParam; + usb_device_struct_t *deviceHandle = (usb_device_struct_t *)handle; + udcd_t udcd = RT_NULL; + uint8_t state; + if(deviceHandle->controllerId == kUSB_ControllerEhci0) + { + #ifdef RT_USING_EHCI0_AS_DEVICE + udcd = &_fsl_udc_0; + #endif + } + else + { + #ifdef RT_USING_EHCI1_AS_DEVICE + udcd = &_fsl_udc_1; + #endif + } + if(message->isSetup) + { + rt_usbd_ep0_setup_handler(udcd, (struct urequest*)message->buffer); + } + else if(ep_addr == 0x00) + { + USB_DeviceGetStatus(handle, kUSB_DeviceStatusDeviceState, &state); + if(state == kUSB_DeviceStateAddressing) + { + if (kStatus_USB_Success == USB_DeviceSetStatus(handle, kUSB_DeviceStatusAddress, NULL)) + { + state = kUSB_DeviceStateAddress; + USB_DeviceSetStatus(handle, kUSB_DeviceStatusDeviceState, &state); + } + } + rt_usbd_ep0_out_handler(udcd,message->length); + } + else if(ep_addr == 0x80) + { + USB_DeviceGetStatus(handle, kUSB_DeviceStatusDeviceState, &state); + if(state == kUSB_DeviceStateAddressing) + { + if (kStatus_USB_Success == USB_DeviceSetStatus(handle, kUSB_DeviceStatusAddress, NULL)) + { + state = kUSB_DeviceStateAddress; + USB_DeviceSetStatus(handle, kUSB_DeviceStatusDeviceState, &state); + } + } + rt_usbd_ep0_in_handler(udcd); + } + else if(ep_addr&0x80) + { + rt_usbd_ep_in_handler(udcd, ep_addr, message->length); + } + else + { + rt_usbd_ep_out_handler(udcd, ep_addr, message->length); + } + return kStatus_USB_Success; +} +static usb_status_t usb_device_callback(usb_device_handle handle, uint32_t callbackEvent, void *eventParam) +{ + usb_status_t error = kStatus_USB_Error; + usb_device_struct_t *deviceHandle = (usb_device_struct_t *)handle; + usb_device_endpoint_init_struct_t ep0_init = + { + 0x40, + 0x00, + USB_EP_ATTR_CONTROL, + 0 + }; + usb_device_endpoint_callback_struct_t ep0_callback = + { + usb_device_endpoint_callback, + 0, + 0 + }; + udcd_t udcd = RT_NULL; + if(deviceHandle->controllerId == kUSB_ControllerEhci0) + { + #ifdef RT_USING_EHCI0_AS_DEVICE + udcd = &_fsl_udc_0; + #endif + } + else + { + #ifdef RT_USING_EHCI1_AS_DEVICE + udcd = &_fsl_udc_1; + #endif + } + switch (callbackEvent) + { + case kUSB_DeviceEventBusReset: + ep0_init.endpointAddress = 0x00; + ep0_callback.callbackParam = (void *)0x00; + USB_DeviceInitEndpoint(deviceHandle,&ep0_init,&ep0_callback); + ep0_init.endpointAddress = 0x80; + ep0_callback.callbackParam = (void *)0x80; + USB_DeviceInitEndpoint(deviceHandle,&ep0_init,&ep0_callback); + rt_usbd_reset_handler(udcd); + break; + case kUSB_DeviceEventAttach: + rt_usbd_connect_handler(udcd); + break; + case kUSB_DeviceEventDetach: + rt_usbd_disconnect_handler(udcd); + break; + } + return error; +} + + + diff --git a/bsp/imxrt1052-evk/drivers/usb/device/usb_device.h b/bsp/imxrt1052-evk/drivers/usb/device/usb_device.h new file mode 100644 index 0000000000000000000000000000000000000000..99e8a879f86bfd358256b516f140b19a7656b9a0 --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/usb/device/usb_device.h @@ -0,0 +1,644 @@ +/* + * Copyright (c) 2015 - 2016, Freescale Semiconductor, Inc. + * Copyright 2016 NXP + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * o Redistributions of source code must retain the above copyright notice, this list + * of conditions and the following disclaimer. + * + * o Redistributions in binary form must reproduce the above copyright notice, this + * list of conditions and the following disclaimer in the documentation and/or + * other materials provided with the distribution. + * + * o Neither the name of the copyright holder nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#ifndef __FSL_USB_DEVICE_H__ +#define __FSL_USB_DEVICE_H__ + +/*! + * @addtogroup usb_device_driver + * @{ + */ + +/******************************************************************************* + * Definitions + ******************************************************************************/ + +/*! @brief Defines Get/Set status Types */ +typedef enum _usb_device_status +{ + kUSB_DeviceStatusTestMode = 1U, /*!< Test mode */ + kUSB_DeviceStatusSpeed, /*!< Current speed */ + kUSB_DeviceStatusOtg, /*!< OTG status */ + kUSB_DeviceStatusDevice, /*!< Device status */ + kUSB_DeviceStatusEndpoint, /*!< Endpoint state usb_device_endpoint_status_t */ + kUSB_DeviceStatusDeviceState, /*!< Device state */ + kUSB_DeviceStatusAddress, /*!< Device address */ + kUSB_DeviceStatusSynchFrame, /*!< Current frame */ + kUSB_DeviceStatusBus, /*!< Bus status */ + kUSB_DeviceStatusBusSuspend, /*!< Bus suspend */ + kUSB_DeviceStatusBusSleep, /*!< Bus suspend */ + kUSB_DeviceStatusBusResume, /*!< Bus resume */ + kUSB_DeviceStatusRemoteWakeup, /*!< Remote wakeup state */ + kUSB_DeviceStatusBusSleepResume, /*!< Bus resume */ +} usb_device_status_t; + +/*! @brief Defines USB 2.0 device state */ +typedef enum _usb_device_state +{ + kUSB_DeviceStateConfigured = 0U, /*!< Device state, Configured*/ + kUSB_DeviceStateAddress, /*!< Device state, Address*/ + kUSB_DeviceStateDefault, /*!< Device state, Default*/ + kUSB_DeviceStateAddressing, /*!< Device state, Address setting*/ + kUSB_DeviceStateTestMode, /*!< Device state, Test mode*/ +} usb_device_state_t; + +#if (defined(USB_DEVICE_CHARGER_DETECT_ENABLE) && (USB_DEVICE_CHARGER_DETECT_ENABLE > 0U)) +typedef enum _usb_dcd_detection_sequence_status +{ + kUSB_DcdDetectionNotEnabled = 0x0U, + kUSB_DcdDataPinDetectionCompleted = 0x01U, + kUSB_DcdChargingPortDetectionCompleted = 0x02U, + kUSB_DcdChargerTypeDetectionCompleted = 0x03U, +} usb_dcd_detection_sequence_status_t; + +typedef enum _usb_dcd_detection_sequence_results +{ + kUSB_DcdDetectionNoResults = 0x0U, + kUSB_DcdDetectionStandardHost = 0x01U, + kUSB_DcdDetectionChargingPort = 0x02U, + kUSB_DcdDetectionDedicatedCharger = 0x03U, +} usb_dcd_detection_sequence_results_t; +#endif + +/*! @brief Defines endpoint state */ +typedef enum _usb_endpoint_status +{ + kUSB_DeviceEndpointStateIdle = 0U, /*!< Endpoint state, idle*/ + kUSB_DeviceEndpointStateStalled, /*!< Endpoint state, stalled*/ +} usb_device_endpoint_status_t; + +/*! @brief Control endpoint index */ +#define USB_CONTROL_ENDPOINT (0U) +/*! @brief Control endpoint maxPacketSize */ +#define USB_CONTROL_MAX_PACKET_SIZE (64U) + +#if (USB_DEVICE_CONFIG_EHCI && (USB_CONTROL_MAX_PACKET_SIZE != (64U))) +#error For high speed, USB_CONTROL_MAX_PACKET_SIZE must be 64!!! +#endif + +/*! @brief The setup packet size of USB control transfer. */ +#define USB_SETUP_PACKET_SIZE (8U) +/*! @brief USB endpoint mask */ +#define USB_ENDPOINT_NUMBER_MASK (0x0FU) + +/*! @brief Default invalid value or the endpoint callback length of cancelled transfer */ +#define USB_UNINITIALIZED_VAL_32 (0xFFFFFFFFU) + +/*! @brief Available common EVENT types in device callback */ +typedef enum _usb_device_event +{ + kUSB_DeviceEventBusReset = 1U, /*!< USB bus reset signal detected */ + kUSB_DeviceEventSuspend, /*!< USB bus suspend signal detected */ + kUSB_DeviceEventResume, /*!< USB bus resume signal detected. The resume signal is driven by itself or a host */ + kUSB_DeviceEventSleeped, /*!< USB bus LPM suspend signal detected */ + kUSB_DeviceEventLPMResume, /*!< USB bus LPM resume signal detected. The resume signal is driven by itself or a host + */ + kUSB_DeviceEventError, /*!< An error is happened in the bus. */ + kUSB_DeviceEventDetach, /*!< USB device is disconnected from a host. */ + kUSB_DeviceEventAttach, /*!< USB device is connected to a host. */ + kUSB_DeviceEventSetConfiguration, /*!< Set configuration. */ + kUSB_DeviceEventSetInterface, /*!< Set interface. */ + + kUSB_DeviceEventGetDeviceDescriptor, /*!< Get device descriptor. */ + kUSB_DeviceEventGetConfigurationDescriptor, /*!< Get configuration descriptor. */ + kUSB_DeviceEventGetStringDescriptor, /*!< Get string descriptor. */ + kUSB_DeviceEventGetHidDescriptor, /*!< Get HID descriptor. */ + kUSB_DeviceEventGetHidReportDescriptor, /*!< Get HID report descriptor. */ + kUSB_DeviceEventGetHidPhysicalDescriptor, /*!< Get HID physical descriptor. */ + kUSB_DeviceEventGetBOSDescriptor, /*!< Get configuration descriptor. */ + kUSB_DeviceEventGetDeviceQualifierDescriptor, /*!< Get device qualifier descriptor. */ + kUSB_DeviceEventVendorRequest, /*!< Vendor request. */ + kUSB_DeviceEventSetRemoteWakeup, /*!< Enable or disable remote wakeup function. */ + kUSB_DeviceEventGetConfiguration, /*!< Get current configuration index */ + kUSB_DeviceEventGetInterface, /*!< Get current interface alternate setting value */ + kUSB_DeviceEventSetBHNPEnable, +#if (defined(USB_DEVICE_CHARGER_DETECT_ENABLE) && (USB_DEVICE_CHARGER_DETECT_ENABLE > 0U)) + kUSB_DeviceEventDcdTimeOut, /*!< Dcd detect result is timeout */ + kUSB_DeviceEventDcdUnknownType, /*!< Dcd detect result is unknown type */ + kUSB_DeviceEventSDPDetected, /*!< The SDP facility is detected */ + kUSB_DeviceEventChargingPortDetected, /*!< The charging port is detected */ + kUSB_DeviceEventChargingHostDetected, /*!< The CDP facility is detected */ + kUSB_DeviceEventDedicatedChargerDetected, /*!< The DCP facility is detected */ +#endif +} usb_device_event_t; + +/*! @brief Endpoint callback message structure */ +typedef struct _usb_device_endpoint_callback_message_struct +{ + uint8_t *buffer; /*!< Transferred buffer */ + uint32_t length; /*!< Transferred data length */ + uint8_t isSetup; /*!< Is in a setup phase */ +} usb_device_endpoint_callback_message_struct_t; + +/*! + * @brief Endpoint callback function typedef. + * + * This callback function is used to notify the upper layer what the transfer result is. + * This callback pointer is passed when a specified endpoint is initialized by calling API #USB_DeviceInitEndpoint. + * + * @param handle The device handle. It equals to the value returned from #USB_DeviceInit. + * @param message The result of a transfer, which includes transfer buffer, transfer length, and whether is in a + * setup phase. + * phase for control pipe. + * @param callbackParam The parameter for this callback. It is same with + * usb_device_endpoint_callback_struct_t::callbackParam. + * + * @return A USB error code or kStatus_USB_Success. + */ +typedef usb_status_t (*usb_device_endpoint_callback_t)(usb_device_handle handle, + usb_device_endpoint_callback_message_struct_t *message, + void *callbackParam); + +/*! + * @brief Device callback function typedef. + * + * This callback function is used to notify the upper layer that the device status has changed. + * This callback pointer is passed by calling API #USB_DeviceInit. + * + * @param handle The device handle. It equals the value returned from #USB_DeviceInit. + * @param callbackEvent The callback event type. See enumeration #usb_device_event_t. + * @param eventParam The event parameter for this callback. The parameter type is determined by the callback event. + * + * @return A USB error code or kStatus_USB_Success. + */ +typedef usb_status_t (*usb_device_callback_t)(usb_device_handle handle, uint32_t callbackEvent, void *eventParam); + +/*! @brief Endpoint callback structure */ +typedef struct _usb_device_endpoint_callback_struct +{ + usb_device_endpoint_callback_t callbackFn; /*!< Endpoint callback function*/ + void *callbackParam; /*!< Parameter for callback function*/ + uint8_t isBusy; +} usb_device_endpoint_callback_struct_t; + +/*! @brief Endpoint initialization structure */ +typedef struct _usb_device_endpoint_init_struct +{ + uint16_t maxPacketSize; /*!< Endpoint maximum packet size */ + uint8_t endpointAddress; /*!< Endpoint address*/ + uint8_t transferType; /*!< Endpoint transfer type*/ + uint8_t zlt; /*!< ZLT flag*/ +} usb_device_endpoint_init_struct_t; + +/*! @brief Endpoint status structure */ +typedef struct _usb_device_endpoint_status_struct +{ + uint8_t endpointAddress; /*!< Endpoint address */ + uint16_t endpointStatus; /*!< Endpoint status : idle or stalled */ +} usb_device_endpoint_status_struct_t; + +#if (defined(USB_DEVICE_CHARGER_DETECT_ENABLE) && (USB_DEVICE_CHARGER_DETECT_ENABLE > 0U)) +/*! @brief USB DCD charge timing specification structure */ +typedef struct _usb_device_dcd_charging_time +{ + uint16_t dcdSeqInitTime; /*!< The dcd sequence init time */ + uint16_t dcdDbncTime; /*!< The debounce time period on DP signal */ + uint16_t dcdDpSrcOnTime; /*!< The time period comparator enabled */ + uint16_t dcdTimeWaitAfterPrD; /*!< The time period between primary and secondary detection */ + uint8_t dcdTimeDMSrcOn; /*!< The amount of time that the modules enable the Vdm_src */ +} usb_device_dcd_charging_time_t; +#endif + +#if defined(__cplusplus) +extern "C" { +#endif /* __cplusplus*/ + +/*! + * @name USB device APIs + * @{ + */ + +/******************************************************************************* + * API + ******************************************************************************/ + +/*! + * @brief Initializes the USB device stack. + * + * This function initializes the USB device module specified by the controllerId. + * + * @param[in] controllerId The controller ID of the USB IP. See the enumeration #usb_controller_index_t. + * @param[in] deviceCallback Function pointer of the device callback. + * @param[out] handle It is an out parameter used to return the pointer of the device handle to the caller. + * + * @retval kStatus_USB_Success The device is initialized successfully. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer. + * @retval kStatus_USB_Busy Cannot allocate a device handle. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller according to the controller id. + * @retval kStatus_USB_InvalidControllerInterface The controller driver interfaces is invalid. There is an empty + * interface entity. + * @retval kStatus_USB_Error The macro USB_DEVICE_CONFIG_ENDPOINTS is more than the IP's endpoint number. + * Or, the device has been initialized. + * Or, the mutex or message queue is created failed. + */ +extern usb_status_t USB_DeviceInit(uint8_t controllerId, + usb_device_callback_t deviceCallback, + usb_device_handle *handle); + +/*! + * @brief Enables the device functionality. + * + * The function enables the device functionality, so that the device can be recognized by the host when the device + * detects that it has been connected to a host. + * + * @param[in] handle The device handle got from #USB_DeviceInit. + * + * @retval kStatus_USB_Success The device is run successfully. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + * @retval kStatus_USB_InvalidHandle The device handle is a NULL pointer. Or the controller handle is invalid. + * + */ +extern usb_status_t USB_DeviceRun(usb_device_handle handle); + +/*! + * @brief Disables the device functionality. + * + * The function disables the device functionality. After this function called, even if the device is detached to the + * host, + * it can't work. + * + * @param[in] handle The device handle received from #USB_DeviceInit. + * + * @retval kStatus_USB_Success The device is stopped successfully. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + * @retval kStatus_USB_InvalidHandle The device handle is a NULL pointer or the controller handle is invalid. + */ +extern usb_status_t USB_DeviceStop(usb_device_handle handle); + +/*! + * @brief De-initializes the device controller. + * + * The function de-initializes the device controller specified by the handle. + * + * @param[in] handle The device handle got from #USB_DeviceInit. + * + * @retval kStatus_USB_Success The device is stopped successfully. + * @retval kStatus_USB_InvalidHandle The device handle is a NULL pointer or the controller handle is invalid. + */ +extern usb_status_t USB_DeviceDeinit(usb_device_handle handle); + +/*! + * @brief Sends data through a specified endpoint. + * + * The function is used to send data through a specified endpoint. + * + * @param[in] handle The device handle got from #USB_DeviceInit. + * @param[in] endpointAddress Endpoint index. + * @param[in] buffer The memory address to hold the data need to be sent. The function is not reentrant. + * @param[in] length The data length need to be sent. + * + * @retval kStatus_USB_Success The send request is sent successfully. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_Busy Cannot allocate DTDS for current transfer in EHCI driver. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + * @retval kStatus_USB_Error The device is doing reset. + * + * @note The return value indicates whether the sending request is successful or not. The transfer done is notified by + * the + * corresponding callback function. + * Currently, only one transfer request can be supported for one specific endpoint. + * If there is a specific requirement to support multiple transfer requests for one specific endpoint, the application + * should implement a queue on the application level. + * The subsequent transfer can begin only when the previous transfer is done (get notification through the endpoint + * callback). + */ +extern usb_status_t USB_DeviceSendRequest(usb_device_handle handle, + uint8_t endpointAddress, + uint8_t *buffer, + uint32_t length); + +/*! + * @brief Receives data through a specified endpoint. + * + * The function is used to receive data through a specified endpoint. The function is not reentrant. + * + * @param[in] handle The device handle got from #USB_DeviceInit. + * @param[in] endpointAddress Endpoint index. + * @param[in] buffer The memory address to save the received data. + * @param[in] length The data length want to be received. + * + * @retval kStatus_USB_Success The receive request is sent successfully. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_Busy Cannot allocate DTDS for current transfer in EHCI driver. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + * @retval kStatus_USB_Error The device is doing reset. + * + * @note The return value indicates whether the receiving request is successful or not. The transfer done is notified by + * the + * corresponding callback function. + * Currently, only one transfer request can be supported for one specific endpoint. + * If there is a specific requirement to support multiple transfer requests for one specific endpoint, the application + * should implement a queue on the application level. + * The subsequent transfer can begin only when the previous transfer is done (get notification through the endpoint + * callback). + */ +extern usb_status_t USB_DeviceRecvRequest(usb_device_handle handle, + uint8_t endpointAddress, + uint8_t *buffer, + uint32_t length); + +/*! + * @brief Cancels the pending transfer in a specified endpoint. + * + * The function is used to cancel the pending transfer in a specified endpoint. + * + * @param[in] handle The device handle got from #USB_DeviceInit. + * @param[in] endpointAddress Endpoint address, bit7 is the direction of endpoint, 1U - IN, and 0U - OUT. + * + * @retval kStatus_USB_Success The transfer is cancelled. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer or the controller handle is invalid. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + */ +extern usb_status_t USB_DeviceCancel(usb_device_handle handle, uint8_t endpointAddress); + +/*! + * @brief Initializes a specified endpoint. + * + * The function is used to initialize a specified endpoint. The corresponding endpoint callback is also initialized. + * + * @param[in] handle The device handle received from #USB_DeviceInit. + * @param[in] epInit Endpoint initialization structure. See the structure usb_device_endpoint_init_struct_t. + * @param[in] epCallback Endpoint callback structure. See the structure + * usb_device_endpoint_callback_struct_t. + * + * @retval kStatus_USB_Success The endpoint is initialized successfully. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_InvalidParameter The epInit or epCallback is NULL pointer. Or the endpoint number is + * more than USB_DEVICE_CONFIG_ENDPOINTS. + * @retval kStatus_USB_Busy The endpoint is busy in EHCI driver. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + */ +extern usb_status_t USB_DeviceInitEndpoint(usb_device_handle handle, + usb_device_endpoint_init_struct_t *epInit, + usb_device_endpoint_callback_struct_t *epCallback); + +/*! + * @brief Deinitializes a specified endpoint. + * + * The function is used to deinitializes a specified endpoint. + * + * @param[in] handle The device handle got from #USB_DeviceInit. + * @param[in] endpointAddress Endpoint address, bit7 is the direction of endpoint, 1U - IN, and 0U - OUT. + * + * @retval kStatus_USB_Success The endpoint is de-initialized successfully. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_InvalidParameter The endpoint number is more than USB_DEVICE_CONFIG_ENDPOINTS. + * @retval kStatus_USB_Busy The endpoint is busy in EHCI driver. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + */ +extern usb_status_t USB_DeviceDeinitEndpoint(usb_device_handle handle, uint8_t endpointAddress); + +/*! + * @brief Stalls a specified endpoint. + * + * The function is used to stall a specified endpoint. + * + * @param[in] handle The device handle received from #USB_DeviceInit. + * @param[in] endpointAddress Endpoint address, bit7 is the direction of endpoint, 1U - IN, and 0U - OUT. + * + * @retval kStatus_USB_Success The endpoint is stalled successfully. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_InvalidParameter The endpoint number is more than USB_DEVICE_CONFIG_ENDPOINTS. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + */ +extern usb_status_t USB_DeviceStallEndpoint(usb_device_handle handle, uint8_t endpointAddress); + +/*! + * @brief Unstalls a specified endpoint. + * + * The function is used to unstall a specified endpoint. + * + * @param[in] handle The device handle received from #USB_DeviceInit. + * @param[in] endpointAddress Endpoint address, bit7 is the direction of endpoint, 1U - IN, and 0U - OUT. + * + * @retval kStatus_USB_Success The endpoint is unstalled successfully. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_InvalidParameter The endpoint number is more than USB_DEVICE_CONFIG_ENDPOINTS. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + */ +extern usb_status_t USB_DeviceUnstallEndpoint(usb_device_handle handle, uint8_t endpointAddress); + +/*! + * @brief Gets the status of the selected item. + * + * The function is used to get the status of the selected item. + * + * @param[in] handle The device handle got from #USB_DeviceInit. + * @param[in] type The selected item. See the structure #usb_device_status_t. + * @param[out] param The parameter type is determined by the selected item. + * + * @retval kStatus_USB_Success Get status successfully. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_InvalidParameter The parameter is NULL pointer. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + * @retval kStatus_USB_Error Unsupported type. + */ +extern usb_status_t USB_DeviceGetStatus(usb_device_handle handle, usb_device_status_t type, void *param); + +/*! + * @brief Sets the status of the selected item. + * + * The function is used to set the status of the selected item. + * + * @param[in] handle The device handle got from #USB_DeviceInit. + * @param[in] type The selected item. See the structure #usb_device_status_t. + * @param[in] param The parameter type is determined by the selected item. + * + * @retval kStatus_USB_Success Set status successfully. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + * @retval kStatus_USB_Error Unsupported type or the parameter is NULL pointer. + */ +extern usb_status_t USB_DeviceSetStatus(usb_device_handle handle, usb_device_status_t type, void *param); + +#if (defined(USB_DEVICE_CHARGER_DETECT_ENABLE) && (USB_DEVICE_CHARGER_DETECT_ENABLE > 0U)) +/*! + * @brief Initializes the device dcd module. + * + * The function initializes the device dcd module. + * + * @param[in] handle The device handle got from #USB_DeviceInit. + * @param[in] time_param The time parameter used to config the dcd timing registers. + * + * @retval kStatus_USB_Success The device is run successfully. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + * @retval kStatus_USB_InvalidHandle The device handle is a NULL pointer. Or the controller handle is invalid. + * + */ +extern usb_status_t USB_DeviceDcdInitModule(usb_device_handle handle, void *time_param); + +/*! + * @brief De-initializes the device dcd module. + * + * The function de-initializes the device dcd module specified by the handle. + * + * @param[in] handle The device handle got from #USB_DeviceInit. + * + * @retval kStatus_USB_Success The device is stopped successfully. + * @retval kStatus_USB_InvalidHandle The device handle is a NULL pointer or the controller handle is invalid. + */ +extern usb_status_t USB_DeviceDcdDeinitModule(usb_device_handle handle); +#endif +/*! + * @brief Device task function. + * + * The function is used to handle the controller message. + * This function should not be called in the application directly. + * + * @param[in] deviceHandle The device handle got from #USB_DeviceInit. + */ +extern void USB_DeviceTaskFunction(void *deviceHandle); + +#if ((defined(USB_DEVICE_CONFIG_KHCI)) && (USB_DEVICE_CONFIG_KHCI > 0U)) +/*! + * @brief Device KHCI task function. + * + * The function is used to handle the KHCI controller message. + * In the bare metal environment, this function should be called periodically in the main function. + * In the RTOS environment, this function should be used as a function entry to create a task. + * + * @param[in] deviceHandle The device handle got from #USB_DeviceInit. + */ +#define USB_DeviceKhciTaskFunction(deviceHandle) USB_DeviceTaskFunction(deviceHandle) +#endif + +#if ((defined(USB_DEVICE_CONFIG_EHCI)) && (USB_DEVICE_CONFIG_EHCI > 0U)) +/*! + * @brief Device EHCI task function. + * + * The function is used to handle the EHCI controller message. + * In the bare metal environment, this function should be called periodically in the main function. + * In the RTOS environment, this function should be used as a function entry to create a task. + * + * @param[in] deviceHandle The device handle got from #USB_DeviceInit. + */ +#define USB_DeviceEhciTaskFunction(deviceHandle) USB_DeviceTaskFunction(deviceHandle) +#if (defined(USB_DEVICE_CHARGER_DETECT_ENABLE) && (USB_DEVICE_CHARGER_DETECT_ENABLE > 0U)) +/*! + * @brief Device EHCI DCD ISR function. + * + * The function is the EHCI DCD interrupt service routine. + * + * @param[in] deviceHandle The device handle got from #USB_DeviceInit. + */ +extern void USB_DeviceDcdHSIsrFunction(void *deviceHandle); +#endif +#endif + +#if (((defined(USB_DEVICE_CONFIG_LPCIP3511FS)) && (USB_DEVICE_CONFIG_LPCIP3511FS > 0U)) || \ + ((defined(USB_DEVICE_CONFIG_LPCIP3511HS)) && (USB_DEVICE_CONFIG_LPCIP3511HS > 0U))) +/*! + * @brief Device LPC ip3511 controller task function. + * + * The function is used to handle the LPC ip3511 controller message. + * In the bare metal environment, this function should be called periodically in the main function. + * In the RTOS environment, this function should be used as a function entry to create a task. + * + * @param[in] deviceHandle The device handle got from #USB_DeviceInit. + */ +#define USB_DeviceLpcIp3511TaskFunction(deviceHandle) USB_DeviceTaskFunction(deviceHandle) +#endif + +#if ((defined(USB_DEVICE_CONFIG_KHCI)) && (USB_DEVICE_CONFIG_KHCI > 0U)) +/*! + * @brief Device KHCI ISR function. + * + * The function is the KHCI interrupt service routine. + * + * @param[in] deviceHandle The device handle got from #USB_DeviceInit. + */ +extern void USB_DeviceKhciIsrFunction(void *deviceHandle); +#if (defined(USB_DEVICE_CHARGER_DETECT_ENABLE) && (USB_DEVICE_CHARGER_DETECT_ENABLE > 0U)) +/*! + * @brief Device KHCI DCD ISR function. + * + * The function is the KHCI DCD interrupt service routine. + * + * @param[in] deviceHandle The device handle got from #USB_DeviceInit. + */ +extern void USB_DeviceDcdIsrFunction(void *deviceHandle); +#endif +#endif + +#if ((defined(USB_DEVICE_CONFIG_EHCI)) && (USB_DEVICE_CONFIG_EHCI > 0U)) +/*! + * @brief Device EHCI ISR function. + * + * The function is the EHCI interrupt service routine. + * + * @param[in] deviceHandle The device handle got from #USB_DeviceInit. + */ +extern void USB_DeviceEhciIsrFunction(void *deviceHandle); +#endif + +#if (((defined(USB_DEVICE_CONFIG_LPCIP3511FS)) && (USB_DEVICE_CONFIG_LPCIP3511FS > 0U)) || \ + ((defined(USB_DEVICE_CONFIG_LPCIP3511HS)) && (USB_DEVICE_CONFIG_LPCIP3511HS > 0U))) +/*! + * @brief Device LPC USB ISR function. + * + * The function is the LPC USB interrupt service routine. + * + * @param[in] deviceHandle The device handle got from #USB_DeviceInit. + */ +extern void USB_DeviceLpcIp3511IsrFunction(void *deviceHandle); +#endif + +/*! + * @brief Gets the device stack version function. + * + * The function is used to get the device stack version. + * + * @param[out] version The version structure pointer to keep the device stack version. + * + */ +extern void USB_DeviceGetVersion(uint32_t *version); + +#if ((defined(USB_DEVICE_CONFIG_REMOTE_WAKEUP)) && (USB_DEVICE_CONFIG_REMOTE_WAKEUP > 0U)) +/*! + * @brief Update the hardware tick. + * + * The function is used to update the hardware tick. + * + * @param[in] handle The device handle got from #USB_DeviceInit. + * @param[in] tick Current hardware tick(uint is ms). + * + */ +extern usb_status_t USB_DeviceUpdateHwTick(usb_device_handle handle, uint64_t tick); +#endif + +/*! @}*/ + +#if defined(__cplusplus) +} +#endif /* __cplusplus*/ + +/*! @}*/ + +#endif /* __USB_DEVICE_H__ */ diff --git a/bsp/imxrt1052-evk/drivers/usb/device/usb_device_dci.c b/bsp/imxrt1052-evk/drivers/usb/device/usb_device_dci.c new file mode 100644 index 0000000000000000000000000000000000000000..dd28bdcbe303b89cda9624753bea3c28a99694dc --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/usb/device/usb_device_dci.c @@ -0,0 +1,1459 @@ +/* + * Copyright (c) 2015 - 2016, Freescale Semiconductor, Inc. + * Copyright 2016 - 2017 NXP + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * o Redistributions of source code must retain the above copyright notice, this list + * of conditions and the following disclaimer. + * + * o Redistributions in binary form must reproduce the above copyright notice, this + * list of conditions and the following disclaimer in the documentation and/or + * other materials provided with the distribution. + * + * o Neither the name of the copyright holder nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#include +#include + +#include "usb_device.h" +#include "usb_device_dci.h" + +#include "fsl_device_registers.h" + +#if ((defined(USB_DEVICE_CONFIG_NUM)) && (USB_DEVICE_CONFIG_NUM > 0U)) + +#if ((defined(USB_DEVICE_CONFIG_KHCI)) && (USB_DEVICE_CONFIG_KHCI > 0U)) +#include "usb_device_khci.h" +#endif + +#if ((defined(USB_DEVICE_CONFIG_EHCI)) && (USB_DEVICE_CONFIG_EHCI > 0U)) +#include "usb_device_ehci.h" +#endif + +#if (((defined(USB_DEVICE_CONFIG_LPCIP3511FS)) && (USB_DEVICE_CONFIG_LPCIP3511FS > 0U)) || \ + ((defined(USB_DEVICE_CONFIG_LPCIP3511HS)) && (USB_DEVICE_CONFIG_LPCIP3511HS > 0U))) +#include "usb_device_lpcip3511.h" +#endif + +#if (defined(USB_DEVICE_CONFIG_BUFFER_PROPERTY_CACHEABLE) && (USB_DEVICE_CONFIG_BUFFER_PROPERTY_CACHEABLE > 0U)) +#include "fsl_cache.h" +#endif +/******************************************************************************* + * Definitions + ******************************************************************************/ + +/******************************************************************************* + * Prototypes + ******************************************************************************/ +static usb_status_t USB_DeviceAllocateHandle(uint8_t controllerId, usb_device_struct_t **handle); +static usb_status_t USB_DeviceFreeHandle(usb_device_struct_t *handle); +static usb_status_t USB_DeviceGetControllerInterface( + uint8_t controllerId, const usb_device_controller_interface_struct_t **controllerInterface); +static usb_status_t USB_DeviceTransfer(usb_device_handle handle, + uint8_t endpointAddress, + uint8_t *buffer, + uint32_t length); +static usb_status_t USB_DeviceControl(usb_device_handle handle, usb_device_control_type_t type, void *param); +static usb_status_t USB_DeviceResetNotification(usb_device_struct_t *handle, + usb_device_callback_message_struct_t *message); +#if (defined(USB_DEVICE_CONFIG_LOW_POWER_MODE) && (USB_DEVICE_CONFIG_LOW_POWER_MODE > 0U)) +static usb_status_t USB_DeviceSuspendNotification(usb_device_struct_t *handle, + usb_device_callback_message_struct_t *message); +static usb_status_t USB_DeviceResumeNotification(usb_device_struct_t *handle, + usb_device_callback_message_struct_t *message); +#if (defined(USB_DEVICE_CONFIG_LPM_L1) && (USB_DEVICE_CONFIG_LPM_L1 > 0U)) +static usb_status_t USB_DeviceSleepNotification(usb_device_struct_t *handle, + usb_device_callback_message_struct_t *message); + +#endif +#endif /* USB_DEVICE_CONFIG_LOW_POWER_MODE */ +#if (defined(USB_DEVICE_CONFIG_DETACH_ENABLE) && (USB_DEVICE_CONFIG_DETACH_ENABLE > 0U)) +static usb_status_t USB_DeviceDetachNotification(usb_device_struct_t *handle, + usb_device_callback_message_struct_t *message); +static usb_status_t USB_DeviceAttachNotification(usb_device_struct_t *handle, + usb_device_callback_message_struct_t *message); +#endif +static usb_status_t USB_DeviceNotification(usb_device_struct_t *handle, usb_device_callback_message_struct_t *message); + +/******************************************************************************* + * Variables + ******************************************************************************/ + +USB_GLOBAL static usb_device_struct_t s_UsbDevice[USB_DEVICE_CONFIG_NUM]; + +/******************************************************************************* + * Code + ******************************************************************************/ + +/*! + * @brief Allocate a device handle. + * + * This function allocates a device handle. + * + * @param controllerId The controller id of the USB IP. Please refer to the enumeration usb_controller_index_t. + * @param handle It is out parameter, is used to return pointer of the device handle to the caller. + * + * @retval kStatus_USB_Success Get a device handle successfully. + * @retval kStatus_USB_Busy Cannot allocate a device handle. + * @retval kStatus_USB_Error The device has been initialized. + */ +static usb_status_t USB_DeviceAllocateHandle(uint8_t controllerId, usb_device_struct_t **handle) +{ + uint32_t count; + USB_OSA_SR_ALLOC(); + + USB_OSA_ENTER_CRITICAL(); + /* Check the controller is initialized or not. */ + for (count = 0U; count < USB_DEVICE_CONFIG_NUM; count++) + { + if ((NULL != s_UsbDevice[count].controllerHandle) && (controllerId == s_UsbDevice[count].controllerId)) + { + USB_OSA_EXIT_CRITICAL(); + return kStatus_USB_Error; + } + } + /* Get a free device handle. */ + for (count = 0U; count < USB_DEVICE_CONFIG_NUM; count++) + { + if (NULL == s_UsbDevice[count].controllerHandle) + { + s_UsbDevice[count].controllerId = controllerId; + *handle = &s_UsbDevice[count]; + USB_OSA_EXIT_CRITICAL(); + return kStatus_USB_Success; + } + } + USB_OSA_EXIT_CRITICAL(); + return kStatus_USB_Busy; +} + +/*! + * @brief Free a device handle. + * + * This function frees a device handle. + * + * @param handle The device handle. + * + * @retval kStatus_USB_Success Free device handle successfully. + */ +static usb_status_t USB_DeviceFreeHandle(usb_device_struct_t *handle) +{ + USB_OSA_SR_ALLOC(); + + USB_OSA_ENTER_CRITICAL(); + handle->controllerHandle = NULL; + handle->controllerId = 0U; + USB_OSA_EXIT_CRITICAL(); + return kStatus_USB_Success; +} + +#if ((defined(USB_DEVICE_CONFIG_KHCI)) && (USB_DEVICE_CONFIG_KHCI > 0U)) +/* KHCI device driver interface */ +static const usb_device_controller_interface_struct_t s_UsbDeviceKhciInterface = { + USB_DeviceKhciInit, USB_DeviceKhciDeinit, USB_DeviceKhciSend, + USB_DeviceKhciRecv, USB_DeviceKhciCancel, USB_DeviceKhciControl}; +#endif + +#if ((defined(USB_DEVICE_CONFIG_EHCI)) && (USB_DEVICE_CONFIG_EHCI > 0U)) +/* EHCI device driver interface */ +static const usb_device_controller_interface_struct_t s_UsbDeviceEhciInterface = { + USB_DeviceEhciInit, USB_DeviceEhciDeinit, USB_DeviceEhciSend, + USB_DeviceEhciRecv, USB_DeviceEhciCancel, USB_DeviceEhciControl}; +#endif + +#if (((defined(USB_DEVICE_CONFIG_LPCIP3511FS)) && (USB_DEVICE_CONFIG_LPCIP3511FS > 0U)) || \ + ((defined(USB_DEVICE_CONFIG_LPCIP3511HS)) && (USB_DEVICE_CONFIG_LPCIP3511HS > 0U))) +/* EHCI device driver interface */ +static const usb_device_controller_interface_struct_t s_UsbDeviceLpc3511IpInterface = { + USB_DeviceLpc3511IpInit, USB_DeviceLpc3511IpDeinit, USB_DeviceLpc3511IpSend, + USB_DeviceLpc3511IpRecv, USB_DeviceLpc3511IpCancel, USB_DeviceLpc3511IpControl}; +#endif + +/*! + * @brief Get the controller interface handle. + * + * This function is used to get the controller interface handle. + * + * @param controllerId The controller id of the USB IP. Please refer to the enumeration usb_controller_index_t. + * @param controllerInterface It is out parameter, is used to return pointer of the device controller handle to the + * caller. + * + * @retval kStatus_USB_Success Get a device handle successfully. + * @retval kStatus_USB_ControllerNotFound The controller id is invalided. + */ +static usb_status_t USB_DeviceGetControllerInterface( + uint8_t controllerId, const usb_device_controller_interface_struct_t **controllerInterface) +{ + usb_status_t error = kStatus_USB_ControllerNotFound; + switch (controllerId) + { +#if ((defined(USB_DEVICE_CONFIG_KHCI)) && (USB_DEVICE_CONFIG_KHCI > 0U)) + /* Get the KHCI controller driver interface */ + case kUSB_ControllerKhci0: + case kUSB_ControllerKhci1: + *controllerInterface = (const usb_device_controller_interface_struct_t *)&s_UsbDeviceKhciInterface; + error = kStatus_USB_Success; + break; +#endif +#if ((defined(USB_DEVICE_CONFIG_EHCI)) && (USB_DEVICE_CONFIG_EHCI > 0U)) + /* Get the EHCI controller driver interface */ + case kUSB_ControllerEhci0: + case kUSB_ControllerEhci1: + error = kStatus_USB_Success; + *controllerInterface = (const usb_device_controller_interface_struct_t *)&s_UsbDeviceEhciInterface; + break; +#endif +#if (((defined(USB_DEVICE_CONFIG_LPCIP3511FS)) && (USB_DEVICE_CONFIG_LPCIP3511FS > 0U)) || \ + ((defined(USB_DEVICE_CONFIG_LPCIP3511HS)) && (USB_DEVICE_CONFIG_LPCIP3511HS > 0U))) + /* Get the EHCI controller driver interface */ + case kUSB_ControllerLpcIp3511Fs0: + case kUSB_ControllerLpcIp3511Fs1: + case kUSB_ControllerLpcIp3511Hs0: + case kUSB_ControllerLpcIp3511Hs1: + error = kStatus_USB_Success; + *controllerInterface = (const usb_device_controller_interface_struct_t *)&s_UsbDeviceLpc3511IpInterface; + break; +#endif + default: + break; + } + return error; +} + +/*! + * @brief Start a new transfer. + * + * This function is used to start a new transfer. + * + * @param handle The device handle. It equals the value returned from USB_DeviceInit. + * @param endpointAddress Endpoint address. Bit7 is direction, 0U - USB_OUT, 1U - USB_IN. + * @param buffer The memory address to be transferred, or the memory address to hold the data need to be + * sent. + * @param length The length of the data. + * + * @retval kStatus_USB_Success Get a device handle successfully. + * @retval kStatus_USB_InvalidHandle The device handle is invalided. + * @retval kStatus_USB_ControllerNotFound The controller interface is not found. + * @retval kStatus_USB_Error The device is doing reset. + */ +static usb_status_t USB_DeviceTransfer(usb_device_handle handle, + uint8_t endpointAddress, + uint8_t *buffer, + uint32_t length) +{ + usb_device_struct_t *deviceHandle = (usb_device_struct_t *)handle; + usb_status_t error = kStatus_USB_Error; + uint8_t endpoint = endpointAddress & USB_ENDPOINT_NUMBER_MASK; + uint8_t direction = (endpointAddress & USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_MASK) >> + USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT; + USB_OSA_SR_ALLOC(); + + if (NULL == deviceHandle) + { + return kStatus_USB_InvalidHandle; + } + + if (NULL != deviceHandle->controllerInterface) + { + if (deviceHandle->epCallback[(uint8_t)((uint32_t)endpoint << 1U) | direction].isBusy) + { + return kStatus_USB_Busy; + } + USB_OSA_ENTER_CRITICAL(); + deviceHandle->epCallback[(uint8_t)((uint32_t)endpoint << 1U) | direction].isBusy = 1U; + USB_OSA_EXIT_CRITICAL(); + if (endpointAddress & USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_MASK) + { +#if (defined(USB_DEVICE_CONFIG_BUFFER_PROPERTY_CACHEABLE) && (USB_DEVICE_CONFIG_BUFFER_PROPERTY_CACHEABLE > 0U)) + if (length) + { + DCACHE_CleanByRange((uint32_t)buffer, length); + } +#endif + /* Call the controller send interface. */ + error = deviceHandle->controllerInterface->deviceSend(deviceHandle->controllerHandle, endpointAddress, + buffer, length); + } + else + { +#if (defined(USB_DEVICE_CONFIG_BUFFER_PROPERTY_CACHEABLE) && (USB_DEVICE_CONFIG_BUFFER_PROPERTY_CACHEABLE > 0U)) + if (length) + { + DCACHE_CleanInvalidateByRange((uint32_t)buffer, length); + } +#endif + /* Call the controller receive interface. */ + error = deviceHandle->controllerInterface->deviceRecv(deviceHandle->controllerHandle, endpointAddress, + buffer, length); + } + if (kStatus_USB_Success != error) + { + USB_OSA_ENTER_CRITICAL(); + deviceHandle->epCallback[(uint8_t)((uint32_t)endpoint << 1U) | direction].isBusy = 0U; + USB_OSA_EXIT_CRITICAL(); + } + } + else + { + error = kStatus_USB_ControllerNotFound; + } + return error; +} + +/*! + * @brief Control the status of the selected item. + * + * This function is used to control the status of the selected item.. + * + * @param handle The device handle. It equals the value returned from USB_DeviceInit. + * @param type The control type, please refer to the enumeration usb_device_control_type_t. + * @param param The param type is determined by the selected item. + * + * @retval kStatus_USB_Success Get a device handle successfully. + * @retval kStatus_USB_InvalidHandle The device handle is invalided. + * @retval kStatus_USB_ControllerNotFound The controller interface is not found. + * @retval kStatus_USB_Error Unsupport type. + * Or, the param is NULL pointer. + */ +static usb_status_t USB_DeviceControl(usb_device_handle handle, usb_device_control_type_t type, void *param) +{ + usb_device_struct_t *deviceHandle = (usb_device_struct_t *)handle; + usb_status_t error = kStatus_USB_Error; + + if (NULL == deviceHandle) + { + return kStatus_USB_InvalidHandle; + } + + if (NULL != deviceHandle->controllerInterface) + { + /* Call the controller control interface. */ + error = deviceHandle->controllerInterface->deviceControl(deviceHandle->controllerHandle, type, param); + } + else + { + error = kStatus_USB_ControllerNotFound; + } + return error; +} + +/*! + * @brief Handle the reset notification. + * + * This function is used to handle the reset notification. + * + * @param handle The device handle. It equals the value returned from USB_DeviceInit. + * @param message The device callback message handle. + * + * @retval kStatus_USB_Success Get a device handle successfully. + */ +static usb_status_t USB_DeviceResetNotification(usb_device_struct_t *handle, + usb_device_callback_message_struct_t *message) +{ +#if (defined(USB_DEVICE_CONFIG_USE_TASK) && (USB_DEVICE_CONFIG_USE_TASK > 0U)) + USB_OSA_SR_ALLOC(); +#endif + + handle->isResetting = 1U; + +#if ((defined(USB_DEVICE_CONFIG_REMOTE_WAKEUP)) && (USB_DEVICE_CONFIG_REMOTE_WAKEUP > 0U)) + /* Clear remote wakeup feature */ + handle->remotewakeup = 0U; +#endif + +#if (defined(USB_DEVICE_CONFIG_USE_TASK) && (USB_DEVICE_CONFIG_USE_TASK > 0U)) + USB_OSA_ENTER_CRITICAL(); + handle->epCallbackDirectly = 1; + USB_OSA_EXIT_CRITICAL(); +#endif + /* Set the controller to default status. */ + USB_DeviceControl(handle, kUSB_DeviceControlSetDefaultStatus, NULL); +#if (defined(USB_DEVICE_CONFIG_USE_TASK) && (USB_DEVICE_CONFIG_USE_TASK > 0U)) + USB_OSA_ENTER_CRITICAL(); + handle->epCallbackDirectly = 0; + USB_OSA_EXIT_CRITICAL(); +#endif + + handle->state = kUSB_DeviceStateDefault; + handle->deviceAddress = 0U; + + for (uint32_t count = 0U; count < (USB_DEVICE_CONFIG_ENDPOINTS * 2U); count++) + { + handle->epCallback[count].callbackFn = (usb_device_endpoint_callback_t)NULL; + handle->epCallback[count].callbackParam = NULL; + handle->epCallback[count].isBusy = 0U; + } + + /* Call device callback to notify the application that the USB bus reset signal detected. */ + handle->deviceCallback(handle, kUSB_DeviceEventBusReset, NULL); + + handle->isResetting = 0U; + return kStatus_USB_Success; +} + +#if (defined(USB_DEVICE_CONFIG_LOW_POWER_MODE) && (USB_DEVICE_CONFIG_LOW_POWER_MODE > 0U)) +/*! + * @brief Handle the suspend notification. + * + * This function is used to handle the suspend notification. + * + * @param handle The device handle. It equals the value returned from USB_DeviceInit. + * @param message The device callback message handle. + * + * @return A USB error code or kStatus_USB_Success. + */ +static usb_status_t USB_DeviceSuspendNotification(usb_device_struct_t *handle, + usb_device_callback_message_struct_t *message) +{ + /* Call device callback to notify the application that the USB bus suspend signal detected. */ + return handle->deviceCallback(handle, kUSB_DeviceEventSuspend, NULL); +} + +/*! + * @brief Handle the resume notification. + * + * This function is used to handle the resume notification. + * + * @param handle The device handle. It equals the value returned from USB_DeviceInit. + * @param message The device callback message handle. + * + * @return A USB error code or kStatus_USB_Success. + */ +static usb_status_t USB_DeviceResumeNotification(usb_device_struct_t *handle, + usb_device_callback_message_struct_t *message) +{ + /* Call device callback to notify the application that the USB bus resume signal detected. */ + return handle->deviceCallback(handle, kUSB_DeviceEventResume, NULL); +} +#if (defined(USB_DEVICE_CONFIG_LPM_L1) && (USB_DEVICE_CONFIG_LPM_L1 > 0U)) +/*! + * @brief Handle the suspend notification. + * + * This function is used to handle the suspend notification. + * + * @param handle The device handle. It equals the value returned from USB_DeviceInit. + * @param message The device callback message handle. + * + * @return A USB error code or kStatus_USB_Success. + */ +static usb_status_t USB_DeviceSleepNotification(usb_device_struct_t *handle, + usb_device_callback_message_struct_t *message) +{ + /* Call device callback to notify the application that the USB bus suspend signal detected. */ + return handle->deviceCallback(handle, kUSB_DeviceEventSleeped, NULL); +} +#endif +/*! + * @brief Handle the remotewakeup notification. + * + * This function is used to handle the remotewakeup notification. + * + * @param handle The device handle. It equals the value returned from USB_DeviceInit. + * @param flag The buffer pointer to store remotewakeup flag. + * + * @return A USB error code or kStatus_USB_Success. + */ +usb_status_t USB_DeviceGetRemoteWakeUp(usb_device_struct_t *handle, uint8_t **flag) +{ + /* Call device callback to notify the application that the USB bus suspend signal detected. */ + return USB_DeviceControl(handle, kUSB_DeviceControlGetRemoteWakeUp, flag); +} + +#endif /* USB_DEVICE_CONFIG_LOW_POWER_MODE */ + +#if (defined(USB_DEVICE_CONFIG_ERROR_HANDLING) && (USB_DEVICE_CONFIG_ERROR_HANDLING > 0U)) +usb_status_t USB_DeviceErrorNotification(usb_device_struct_t *handle, usb_device_callback_message_struct_t *message) +{ + /* Call device callback to notify the application that the USB bus error signal detected. */ + return handle->deviceCallback(handle, kUSB_DeviceEventError, NULL); +} +#endif /* USB_DEVICE_CONFIG_ERROR_HANDLING */ + +#if (defined(USB_DEVICE_CONFIG_DETACH_ENABLE) && (USB_DEVICE_CONFIG_DETACH_ENABLE > 0U)) +/*! + * @brief Handle the detach notification. + * + * This function is used to handle the detach notification. + * + * @param handle The device handle. It equals the value returned from USB_DeviceInit. + * @param message The device callback message handle. + * + * @return A USB error code or kStatus_USB_Success. + */ +static usb_status_t USB_DeviceDetachNotification(usb_device_struct_t *handle, + usb_device_callback_message_struct_t *message) +{ + /* Call device callback to notify the application that the device is disconnected from a host. */ + return handle->deviceCallback(handle, kUSB_DeviceEventDetach, NULL); +} + +/*! + * @brief Handle the attach notification. + * + * This function is used to handle the attach notification. + * + * @param handle The device handle. It equals the value returned from USB_DeviceInit. + * @param message The device callback message handle. + * + * @return A USB error code or kStatus_USB_Success. + */ +static usb_status_t USB_DeviceAttachNotification(usb_device_struct_t *handle, + usb_device_callback_message_struct_t *message) +{ + /* Call device callback to notify the application that the device is connected to a host. */ + return handle->deviceCallback(handle, kUSB_DeviceEventAttach, NULL); +} +#endif + +#if (defined(USB_DEVICE_CHARGER_DETECT_ENABLE) && (USB_DEVICE_CHARGER_DETECT_ENABLE > 0U)) && \ + ((defined(FSL_FEATURE_SOC_USBDCD_COUNT) && (FSL_FEATURE_SOC_USBDCD_COUNT > 0U)) || \ + (defined(FSL_FEATURE_SOC_USBHSDCD_COUNT) && (FSL_FEATURE_SOC_USBHSDCD_COUNT > 0U))) +/*! + * @brief Handle the dcd module timeout notification. + * + * This function is used to handle the dcd module timeout notification. + * + * @param handle The device handle. It equals the value returned from USB_DeviceInit. + * @param message The device callback message handle. + * + * @return A USB error code or kStatus_USB_Success. + */ +static usb_status_t USB_DeviceDcdTimeOutNotification(usb_device_struct_t *handle, + usb_device_callback_message_struct_t *message) +{ + /* Call device callback to notify the application that the device charger detect timeout happened. */ + return handle->deviceCallback(handle, kUSB_DeviceEventDcdTimeOut, NULL); +} + +/*! + * @brief Handle the dcd module unknown port type notification. + * + * This function is used to handle the dcd module unknown port type notification. + * + * @param handle The device handle. It equals the value returned from USB_DeviceInit. + * @param message The device callback message handle. + * + * @return A USB error code or kStatus_USB_Success. + */ +static usb_status_t USB_DeviceDcdUnknownPortTypeNotification(usb_device_struct_t *handle, + usb_device_callback_message_struct_t *message) +{ + /* Call device callback to notify the application that the device charger detect unknown port type happened. */ + return handle->deviceCallback(handle, kUSB_DeviceEventDcdUnknownType, NULL); +} + +/*! + * @brief Handle the SDP facility is detected notification. + * + * This function is used to handle the SDP facility is detectednotification. + * + * @param handle The device handle. It equals the value returned from USB_DeviceInit. + * @param message The device callback message handle. + * + * @return A USB error code or kStatus_USB_Success. + */ +static usb_status_t USB_DeviceDcdSDPDetectNotification(usb_device_struct_t *handle, + usb_device_callback_message_struct_t *message) +{ + /* Call device callback to notify the application that the SDP facility is detected. */ + return handle->deviceCallback(handle, kUSB_DeviceEventSDPDetected, NULL); +} + +/*! + * @brief Handle the charging port is detected notification. + * + * This function is used to handle the charging port is detectednotification. + * + * @param handle The device handle. It equals the value returned from USB_DeviceInit. + * @param message The device callback message handle. + * + * @return A USB error code or kStatus_USB_Success. + */ +static usb_status_t USB_DeviceDcdChargingPortDetectNotification(usb_device_struct_t *handle, + usb_device_callback_message_struct_t *message) +{ + /* Call device callback to notify the application that the charing port is detected. */ + return handle->deviceCallback(handle, kUSB_DeviceEventChargingPortDetected, NULL); +} + +/*! + * @brief Handle the CDP facility is detected notification. + * + * This function is used to handle the CDP facility is detectednotification. + * + * @param handle The device handle. It equals the value returned from USB_DeviceInit. + * @param message The device callback message handle. + * + * @return A USB error code or kStatus_USB_Success. + */ +static usb_status_t USB_DeviceDcdChargingHostDetectNotification(usb_device_struct_t *handle, + usb_device_callback_message_struct_t *message) +{ + /* Call device callback to notify the application that the CDP facility is detected. */ + return handle->deviceCallback(handle, kUSB_DeviceEventChargingHostDetected, NULL); +} + +/*! + * @brief Handle the DCP facility is detected notification. + * + * This function is used to handle the DCP facility is detectednotification. + * + * @param handle The device handle. It equals the value returned from USB_DeviceInit. + * @param message The device callback message handle. + * + * @return A USB error code or kStatus_USB_Success. + */ + +static usb_status_t USB_DeviceDcdDedicatedChargerDetectNotification(usb_device_struct_t *handle, + usb_device_callback_message_struct_t *message) +{ + /* Call device callback to notify the application that the DCP facility is detected. */ + return handle->deviceCallback(handle, kUSB_DeviceEventDedicatedChargerDetected, NULL); +} +#endif + +/*! + * @brief Handle the attach notification. + * + * This function is used to handle the attach notification. + * + * @param handle The device handle. It equals the value returned from USB_DeviceInit. + * @param message The device callback message handle. + * + * @return A USB error code or kStatus_USB_Success. + */ +static usb_status_t USB_DeviceNotification(usb_device_struct_t *handle, usb_device_callback_message_struct_t *message) +{ + uint8_t endpoint = message->code & USB_ENDPOINT_NUMBER_MASK; + uint8_t direction = (message->code & USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_MASK) >> + USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT; + usb_status_t error = kStatus_USB_Error; + + switch (message->code) + { + case kUSB_DeviceNotifyBusReset: + error = USB_DeviceResetNotification(handle, message); + break; +#if (defined(USB_DEVICE_CONFIG_LOW_POWER_MODE) && (USB_DEVICE_CONFIG_LOW_POWER_MODE > 0U)) + case kUSB_DeviceNotifySuspend: + error = USB_DeviceSuspendNotification(handle, message); + break; + case kUSB_DeviceNotifyResume: + error = USB_DeviceResumeNotification(handle, message); + break; +#if (defined(USB_DEVICE_CONFIG_LPM_L1) && (USB_DEVICE_CONFIG_LPM_L1 > 0U)) + case kUSB_DeviceNotifyLPMSleep: + error = USB_DeviceSleepNotification(handle, message); + break; +#endif +#endif + +#if (defined(USB_DEVICE_CONFIG_ERROR_HANDLING) && (USB_DEVICE_CONFIG_ERROR_HANDLING > 0U)) + case kUSB_DeviceNotifyError: + error = USB_DeviceErrorNotification(handle, message); + break; +#endif + +#if USB_DEVICE_CONFIG_DETACH_ENABLE + case kUSB_DeviceNotifyDetach: + error = USB_DeviceDetachNotification(handle, message); + break; + case kUSB_DeviceNotifyAttach: + error = USB_DeviceAttachNotification(handle, message); + break; +#endif +#if (defined(USB_DEVICE_CHARGER_DETECT_ENABLE) && (USB_DEVICE_CHARGER_DETECT_ENABLE > 0U)) && \ + ((defined(FSL_FEATURE_SOC_USBDCD_COUNT) && (FSL_FEATURE_SOC_USBDCD_COUNT > 0U)) || \ + (defined(FSL_FEATURE_SOC_USBHSDCD_COUNT) && (FSL_FEATURE_SOC_USBHSDCD_COUNT > 0U))) + case kUSB_DeviceNotifyDcdTimeOut: + error = USB_DeviceDcdTimeOutNotification(handle, message); + break; + case kUSB_DeviceNotifyDcdUnknownPortType: + error = USB_DeviceDcdUnknownPortTypeNotification(handle, message); + break; + case kUSB_DeviceNotifySDPDetected: + error = USB_DeviceDcdSDPDetectNotification(handle, message); + break; + case kUSB_DeviceNotifyChargingPortDetected: + error = USB_DeviceDcdChargingPortDetectNotification(handle, message); + break; + case kUSB_DeviceNotifyChargingHostDetected: + error = USB_DeviceDcdChargingHostDetectNotification(handle, message); + break; + case kUSB_DeviceNotifyDedicatedChargerDetected: + error = USB_DeviceDcdDedicatedChargerDetectNotification(handle, message); + break; +#endif + + default: + if (endpoint < USB_DEVICE_CONFIG_ENDPOINTS) + { + if (handle->epCallback[(uint8_t)((uint32_t)endpoint << 1U) | direction].callbackFn) + { + usb_device_endpoint_callback_message_struct_t endpointCallbackMessage; + endpointCallbackMessage.buffer = message->buffer; + endpointCallbackMessage.length = message->length; + endpointCallbackMessage.isSetup = message->isSetup; + if (message->isSetup) + { + handle->epCallback[0].isBusy = 0U; + handle->epCallback[1].isBusy = 0U; + } + else + { + handle->epCallback[(uint8_t)((uint32_t)endpoint << 1U) | direction].isBusy = 0U; + } + /* Call endpoint callback */ + error = handle->epCallback[(uint8_t)((uint32_t)endpoint << 1U) | direction].callbackFn( + handle, &endpointCallbackMessage, + handle->epCallback[(uint8_t)((uint32_t)endpoint << 1U) | direction].callbackParam); + } + } + break; + } + return error; +} + +/*! + * @brief Notify the device that the controller status changed. + * + * This function is used to notify the device that the controller status changed. + * + * @param handle The device handle. It equals the value returned from USB_DeviceInit. + * @param message The device callback message handle. + * + * @return A USB error code or kStatus_USB_Success. + */ +usb_status_t USB_DeviceNotificationTrigger(void *handle, void *msg) +{ + usb_device_struct_t *deviceHandle = (usb_device_struct_t *)handle; + usb_device_callback_message_struct_t *message = (usb_device_callback_message_struct_t *)msg; + + if ((NULL == msg) || (NULL == handle)) + { + return kStatus_USB_InvalidHandle; + } + + /* The device callback is invalid or not. */ + if (!deviceHandle->deviceCallback) + { + return kStatus_USB_Error; + } + +#if (defined(USB_DEVICE_CONFIG_USE_TASK) && (USB_DEVICE_CONFIG_USE_TASK > 0U)) + if (deviceHandle->epCallbackDirectly) + { + if ((message->code & USB_ENDPOINT_NUMBER_MASK) && (!(message->code & 0x70U))) + { + return USB_DeviceNotification(deviceHandle, message); + } + } + + /* Add the message to message queue when the device task is enabled. */ + if (kStatus_USB_OSA_Success != USB_OsaMsgqSend(deviceHandle->notificationQueue, (void *)message)) + { + return kStatus_USB_Busy; + } + return kStatus_USB_Success; +#else + /* Handle the notification by calling USB_DeviceNotification. */ + return USB_DeviceNotification(deviceHandle, message); +#endif +} + +/*! + * @brief Initialize the USB device stack. + * + * This function initializes the USB device module specified by the controllerId. + * + * @param controllerId The controller id of the USB IP. Please refer to the enumeration usb_controller_index_t. + * @param deviceCallback Function pointer of the device callback. + * @param handle It is out parameter, is used to return pointer of the device handle to the caller. + * + * @retval kStatus_USB_Success The device is initialized successfully. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer. + * @retval kStatus_USB_Busy Cannot allocate a device handle. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller according to the controller id. + * @retval kStatus_USB_InvalidControllerInterface The controller driver interfaces is invaild, There is an empty + * interface entity. + * @retval kStatus_USB_Error The macro USB_DEVICE_CONFIG_ENDPOINTS is more than IP's endpoint number. + * Or, the device has been initialized. + * Or, the message queue is created failed. + */ +usb_status_t USB_DeviceInit(uint8_t controllerId, usb_device_callback_t deviceCallback, usb_device_handle *handle) +{ + usb_device_struct_t *deviceHandle = NULL; + usb_status_t error; + uint32_t count; + + if (NULL == handle) + { + return kStatus_USB_InvalidHandle; + } + + /* Allocate a device handle by using the controller id. */ + error = USB_DeviceAllocateHandle(controllerId, &deviceHandle); + + if (kStatus_USB_Success != error) + { + return error; + } + + /* Save the device callback */ + deviceHandle->deviceCallback = deviceCallback; + /* Save the controller id */ + deviceHandle->controllerId = controllerId; + /* Clear the device address */ + deviceHandle->deviceAddress = 0U; + /* Clear the device reset state */ + deviceHandle->isResetting = 0U; + + /* Initialize the enpoints */ + for (count = 0U; count < (USB_DEVICE_CONFIG_ENDPOINTS * 2U); count++) + { + deviceHandle->epCallback[count].callbackFn = (usb_device_endpoint_callback_t)NULL; + deviceHandle->epCallback[count].callbackParam = NULL; + deviceHandle->epCallback[count].isBusy = 0U; + } + + /* Get the controller interface according to the controller id */ + error = USB_DeviceGetControllerInterface(controllerId, &deviceHandle->controllerInterface); + if (kStatus_USB_Success != error) + { + USB_DeviceFreeHandle(deviceHandle); + return error; + } + if (NULL == deviceHandle->controllerInterface) + { + USB_DeviceFreeHandle(deviceHandle); + return kStatus_USB_ControllerNotFound; + } + if (((usb_device_controller_init_t)NULL == deviceHandle->controllerInterface->deviceInit) || + ((usb_device_controller_deinit_t)NULL == deviceHandle->controllerInterface->deviceDeinit) || + ((usb_device_controller_send_t)NULL == deviceHandle->controllerInterface->deviceSend) || + ((usb_device_controller_recv_t)NULL == deviceHandle->controllerInterface->deviceRecv) || + ((usb_device_controller_cancel_t)NULL == deviceHandle->controllerInterface->deviceCancel) || + ((usb_device_controller_control_t)NULL == deviceHandle->controllerInterface->deviceControl)) + { + USB_DeviceFreeHandle(deviceHandle); + return kStatus_USB_InvalidControllerInterface; + } + +#if USB_DEVICE_CONFIG_USE_TASK + /* Create a message queue when the device handle is enabled. */ + if (kStatus_USB_OSA_Success != + USB_OsaMsgqCreate(&deviceHandle->notificationQueue, USB_DEVICE_CONFIG_MAX_MESSAGES, + (1U + (sizeof(usb_device_callback_message_struct_t) - 1U) / sizeof(uint32_t)))) + { + USB_DeviceDeinit(deviceHandle); + return kStatus_USB_Error; + } +#endif + + *handle = deviceHandle; + + /* Initialize the controller */ + error = deviceHandle->controllerInterface->deviceInit(controllerId, deviceHandle, &deviceHandle->controllerHandle); + if (kStatus_USB_Success != error) + { + USB_DeviceDeinit(deviceHandle); + *handle = NULL; + return error; + } + /* Set the device to deafult state */ + deviceHandle->state = kUSB_DeviceStateDefault; + + return error; +} + +/*! + * @brief Enable the device functionality. + * + * The function enables the device functionality, so that the device can be recognized by the host when the device + * detects that it has been connected to a host. + * + * @param handle The device handle got from USB_DeviceInit. + * + * @retval kStatus_USB_Success The device is run successfully. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + * @retval kStatus_USB_InvalidHandle The device handle is a NULL pointer. Or the controller handle is invalid. + * + */ +usb_status_t USB_DeviceRun(usb_device_handle handle) +{ + return USB_DeviceControl(handle, kUSB_DeviceControlRun, NULL); +} +/*! + * @brief Disable the device functionality. + * + * The function disables the device functionality, after this function called, even the device is detached to the host, + * and the device can't work. + * + * @param handle The device handle got from USB_DeviceInit. + * + * @retval kStatus_USB_Success The device is stopped successfully. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + * @retval kStatus_USB_InvalidHandle The device handle is a NULL pointer. Or the controller handle is invalid. + */ +usb_status_t USB_DeviceStop(usb_device_handle handle) +{ + return USB_DeviceControl(handle, kUSB_DeviceControlStop, NULL); +} +/*! + * @brief De-initialize the device controller. + * + * The function de-initializes the device controller specified by the handle. + * + * @param handle The device handle got from USB_DeviceInit. + * + * @retval kStatus_USB_Success The device is stopped successfully. + * @retval kStatus_USB_InvalidHandle The device handle is a NULL pointer. Or the controller handle is invalid. + */ +usb_status_t USB_DeviceDeinit(usb_device_handle handle) +{ + usb_device_struct_t *deviceHandle = (usb_device_struct_t *)handle; + + if (NULL == deviceHandle) + { + return kStatus_USB_InvalidHandle; + } + /* De-initialize the controller */ + if (NULL != deviceHandle->controllerInterface) + { + deviceHandle->controllerInterface->deviceDeinit(deviceHandle->controllerHandle); + deviceHandle->controllerInterface = (usb_device_controller_interface_struct_t *)NULL; + } + +#if USB_DEVICE_CONFIG_USE_TASK + /* Destroy the message queue. */ + if (NULL != deviceHandle->notificationQueue) + { + USB_OsaMsgqDestroy(deviceHandle->notificationQueue); + deviceHandle->notificationQueue = NULL; + } +#endif + + /* Free the device handle. */ + USB_DeviceFreeHandle(deviceHandle); + return kStatus_USB_Success; +} + +/*! + * @brief Send data through a specified endpoint. + * + * The function is used to send data through a specified endpoint. + * + * @param handle The device handle got from USB_DeviceInit. + * @param endpointAddress Endpoint index. + * @param buffer The memory address to hold the data need to be sent. + * @param length The data length need to be sent. + * + * @retval kStatus_USB_Success The send request is sent successfully. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_Busy Cannot allocate dtds for current tansfer in EHCI driver. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + * @retval kStatus_USB_Error The device is doing reset. + * + * @note The return value just means if the sending request is successful or not; the transfer done is notified by the + * corresponding callback function. + * Currently, only one transfer request can be supported for one specific endpoint. + * If there is a specific requirement to support multiple transfer requests for one specific endpoint, the application + * should implement a queue in the application level. + * The subsequent transfer could begin only when the previous transfer is done (get notification through the endpoint + * callback). + */ +usb_status_t USB_DeviceSendRequest(usb_device_handle handle, uint8_t endpointAddress, uint8_t *buffer, uint32_t length) +{ + return USB_DeviceTransfer(handle, (endpointAddress & USB_ENDPOINT_NUMBER_MASK) | + (USB_IN << USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT), + buffer, length); +} + +/*! + * @brief Receive data through a specified endpoint. + * + * The function is used to receive data through a specified endpoint. + * + * @param handle The device handle got from USB_DeviceInit. + * @param endpointAddress Endpoint index. + * @param buffer The memory address to save the received data. + * @param length The data length want to be received. + * + * @retval kStatus_USB_Success The receive request is sent successfully. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_Busy Cannot allocate dtds for current tansfer in EHCI driver. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + * @retval kStatus_USB_Error The device is doing reset. + * + * @note The return value just means if the receiving request is successful or not; the transfer done is notified by the + * corresponding callback function. + * Currently, only one transfer request can be supported for one specific endpoint. + * If there is a specific requirement to support multiple transfer requests for one specific endpoint, the application + * should implement a queue in the application level. + * The subsequent transfer could begin only when the previous transfer is done (get notification through the endpoint + * callback). + */ +usb_status_t USB_DeviceRecvRequest(usb_device_handle handle, uint8_t endpointAddress, uint8_t *buffer, uint32_t length) +{ + return USB_DeviceTransfer(handle, (endpointAddress & USB_ENDPOINT_NUMBER_MASK) | + (USB_OUT << USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT), + buffer, length); +} + +/*! + * @brief Cancel the pending transfer in a specified endpoint. + * + * The function is used to cancel the pending transfer in a specified endpoint. + * + * @param handle The device handle got from USB_DeviceInit. + * @param endpointAddress Endpoint address, bit7 is the direction of endpoint, 1U - IN, abd 0U - OUT. + * + * @retval kStatus_USB_Success The transfer is cancelled. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + */ +usb_status_t USB_DeviceCancel(usb_device_handle handle, uint8_t endpointAddress) +{ + usb_device_struct_t *deviceHandle = (usb_device_struct_t *)handle; + usb_status_t error = kStatus_USB_Error; + + if (NULL == deviceHandle) + { + return kStatus_USB_InvalidHandle; + } + + if (NULL != deviceHandle->controllerInterface) + { + error = deviceHandle->controllerInterface->deviceCancel(deviceHandle->controllerHandle, endpointAddress); + } + else + { + error = kStatus_USB_ControllerNotFound; + } + return error; +} + +/*! + * @brief Initialize a specified endpoint. + * + * The function is used to initialize a specified endpoint and the corresponding endpoint callback is also initialized. + * + * @param handle The device handle got from USB_DeviceInit. + * @param epInit Endpoint initizlization structure. Please refer to the structure usb_device_endpoint_init_struct_t. + * @param epCallback Endpoint callback structure. Please refer to the structure + * usb_device_endpoint_callback_struct_t. + * + * @retval kStatus_USB_Success The endpoint is initialized successfully. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_InvalidParameter The epInit or epCallback is NULL pointer. Or the endpoint number is + * more than USB_DEVICE_CONFIG_ENDPOINTS. + * @retval kStatus_USB_Busy The endpoint is busy in EHCI driver. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + */ +usb_status_t USB_DeviceInitEndpoint(usb_device_handle handle, + usb_device_endpoint_init_struct_t *epInit, + usb_device_endpoint_callback_struct_t *epCallback) +{ + usb_device_struct_t *deviceHandle = (usb_device_struct_t *)handle; + uint8_t endpoint; + uint8_t direction; + + if (!deviceHandle) + { + return kStatus_USB_InvalidHandle; + } + + if ((!epInit) || (!epCallback)) + { + return kStatus_USB_InvalidParameter; + } + + endpoint = epInit->endpointAddress & USB_ENDPOINT_NUMBER_MASK; + direction = (epInit->endpointAddress & USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_MASK) >> + USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT; + + if (endpoint < USB_DEVICE_CONFIG_ENDPOINTS) + { + deviceHandle->epCallback[(uint8_t)((uint32_t)endpoint << 1U) | direction].callbackFn = epCallback->callbackFn; + deviceHandle->epCallback[(uint8_t)((uint32_t)endpoint << 1U) | direction].callbackParam = + epCallback->callbackParam; + deviceHandle->epCallback[(uint8_t)((uint32_t)endpoint << 1U) | direction].isBusy = 0U; + } + else + { + return kStatus_USB_InvalidParameter; + } + return USB_DeviceControl(handle, kUSB_DeviceControlEndpointInit, epInit); +} + +/*! + * @brief De-initizlize a specified endpoint. + * + * The function is used to de-initizlize a specified endpoint. + * + * @param handle The device handle got from USB_DeviceInit. + * @param endpointAddress Endpoint address, bit7 is the direction of endpoint, 1U - IN, abd 0U - OUT. + * + * @retval kStatus_USB_Success The endpoint is de-initialized successfully. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_InvalidParameter The endpoint number is more than USB_DEVICE_CONFIG_ENDPOINTS. + * @retval kStatus_USB_Busy The endpoint is busy in EHCI driver. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + */ +usb_status_t USB_DeviceDeinitEndpoint(usb_device_handle handle, uint8_t endpointAddress) +{ + usb_device_struct_t *deviceHandle = (usb_device_struct_t *)handle; + uint8_t endpoint = endpointAddress & USB_ENDPOINT_NUMBER_MASK; + uint8_t direction = (endpointAddress & USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_MASK) >> + USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT; + usb_status_t error = kStatus_USB_Error; +#if (defined(USB_DEVICE_CONFIG_USE_TASK) && (USB_DEVICE_CONFIG_USE_TASK > 0U)) + USB_OSA_SR_ALLOC(); +#endif + + if (!deviceHandle) + { + return kStatus_USB_InvalidHandle; + } +#if (defined(USB_DEVICE_CONFIG_USE_TASK) && (USB_DEVICE_CONFIG_USE_TASK > 0U)) + USB_OSA_ENTER_CRITICAL(); + deviceHandle->epCallbackDirectly = 1; + USB_OSA_EXIT_CRITICAL(); +#endif + error = USB_DeviceControl(handle, kUSB_DeviceControlEndpointDeinit, &endpointAddress); +#if (defined(USB_DEVICE_CONFIG_USE_TASK) && (USB_DEVICE_CONFIG_USE_TASK > 0U)) + USB_OSA_ENTER_CRITICAL(); + deviceHandle->epCallbackDirectly = 0; + USB_OSA_EXIT_CRITICAL(); +#endif + + if (endpoint < USB_DEVICE_CONFIG_ENDPOINTS) + { + deviceHandle->epCallback[(uint8_t)((uint32_t)endpoint << 1U) | direction].callbackFn = + (usb_device_endpoint_callback_t)NULL; + deviceHandle->epCallback[(uint8_t)((uint32_t)endpoint << 1U) | direction].callbackParam = NULL; + deviceHandle->epCallback[(uint8_t)((uint32_t)endpoint << 1U) | direction].isBusy = 0U; + } + else + { + return kStatus_USB_InvalidParameter; + } + return error; +} + +/*! + * @brief Stall a specified endpoint. + * + * The function is used to stall a specified endpoint. + * + * @param handle The device handle got from USB_DeviceInit. + * @param endpointAddress Endpoint address, bit7 is the direction of endpoint, 1U - IN, abd 0U - OUT. + * + * @retval kStatus_USB_Success The endpoint is stalled successfully. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_InvalidParameter The endpoint number is more than USB_DEVICE_CONFIG_ENDPOINTS. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + */ +usb_status_t USB_DeviceStallEndpoint(usb_device_handle handle, uint8_t endpointAddress) +{ + if ((endpointAddress & USB_ENDPOINT_NUMBER_MASK) < USB_DEVICE_CONFIG_ENDPOINTS) + { + return USB_DeviceControl(handle, kUSB_DeviceControlEndpointStall, &endpointAddress); + } + else + { + return kStatus_USB_InvalidParameter; + } +} + +/*! + * @brief Un-stall a specified endpoint. + * + * The function is used to un-stall a specified endpoint. + * + * @param handle The device handle got from USB_DeviceInit. + * @param endpointAddress Endpoint address, bit7 is the direction of endpoint, 1U - IN, abd 0U - OUT. + * + * @retval kStatus_USB_Success The endpoint is un-stalled successfully. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_InvalidParameter The endpoint number is more than USB_DEVICE_CONFIG_ENDPOINTS. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + */ +usb_status_t USB_DeviceUnstallEndpoint(usb_device_handle handle, uint8_t endpointAddress) +{ + if ((endpointAddress & USB_ENDPOINT_NUMBER_MASK) < USB_DEVICE_CONFIG_ENDPOINTS) + { + return USB_DeviceControl(handle, kUSB_DeviceControlEndpointUnstall, &endpointAddress); + } + else + { + return kStatus_USB_InvalidParameter; + } +} + +/*! + * @brief Get the status of the selected item. + * + * The function is used to get the status of the selected item. + * + * @param handle The device handle got from USB_DeviceInit. + * @param type The selected item. Please refer to the structure usb_device_status_t. + * @param param The param type is determined by the selected item. + * + * @retval kStatus_USB_Success Get status successfully. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_InvalidParameter The param is NULL pointer. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + * @retval kStatus_USB_Error Unsupported type. + */ +usb_status_t USB_DeviceGetStatus(usb_device_handle handle, usb_device_status_t type, void *param) +{ + uint8_t *temp8; + usb_status_t error = kStatus_USB_Error; + + if (NULL == param) + { + return kStatus_USB_InvalidParameter; + } + switch (type) + { + case kUSB_DeviceStatusSpeed: + error = USB_DeviceControl(handle, kUSB_DeviceControlGetSpeed, param); + break; + case kUSB_DeviceStatusOtg: + error = USB_DeviceControl(handle, kUSB_DeviceControlGetOtgStatus, param); + break; + case kUSB_DeviceStatusDeviceState: + temp8 = (uint8_t *)param; + error = kStatus_USB_Success; + *temp8 = ((usb_device_struct_t *)handle)->state; + break; + case kUSB_DeviceStatusAddress: + temp8 = (uint8_t *)param; + error = kStatus_USB_Success; + *temp8 = ((usb_device_struct_t *)handle)->deviceAddress; + break; + case kUSB_DeviceStatusDevice: + error = USB_DeviceControl(handle, kUSB_DeviceControlGetDeviceStatus, param); + break; + case kUSB_DeviceStatusEndpoint: + error = USB_DeviceControl(handle, kUSB_DeviceControlGetEndpointStatus, param); + break; + case kUSB_DeviceStatusSynchFrame: + error = USB_DeviceControl(handle, kUSB_DeviceControlGetSynchFrame, param); + break; +#if ((defined(USB_DEVICE_CONFIG_REMOTE_WAKEUP)) && (USB_DEVICE_CONFIG_REMOTE_WAKEUP > 0U)) + case kUSB_DeviceStatusRemoteWakeup: + temp8 = (uint8_t *)param; + error = kStatus_USB_Success; + *temp8 = ((usb_device_struct_t *)handle)->remotewakeup; + break; +#endif + default: + break; + } + return error; +} + +/*! + * @brief Set the status of the selected item. + * + * The function is used to set the status of the selected item. + * + * @param handle The device handle got from USB_DeviceInit. + * @param type The selected item. Please refer to the structure usb_device_status_t. + * @param param The param type is determined by the selected item. + * + * @retval kStatus_USB_Success Set status successfully. + * @retval kStatus_USB_InvalidHandle The handle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + * @retval kStatus_USB_Error Unsupported type, or the param is NULL pointer. + */ +usb_status_t USB_DeviceSetStatus(usb_device_handle handle, usb_device_status_t type, void *param) +{ + usb_status_t error = kStatus_USB_Error; + switch (type) + { +#if (defined(USB_DEVICE_CONFIG_EHCI) && (USB_DEVICE_CONFIG_EHCI > 0U) || \ + (defined(USB_DEVICE_CONFIG_LPCIP3511HS) && (USB_DEVICE_CONFIG_LPCIP3511HS > 0U))) && \ + (defined(USB_DEVICE_CONFIG_USB20_TEST_MODE) && (USB_DEVICE_CONFIG_USB20_TEST_MODE > 0U)) + case kUSB_DeviceStatusTestMode: + error = USB_DeviceControl(handle, kUSB_DeviceControlSetTestMode, param); + break; +#endif + case kUSB_DeviceStatusOtg: + error = USB_DeviceControl(handle, kUSB_DeviceControlSetOtgStatus, param); + break; + case kUSB_DeviceStatusDeviceState: + if (NULL != param) + { + error = kStatus_USB_Success; + ((usb_device_struct_t *)handle)->state = (uint8_t)(*(uint8_t *)param); + } + break; + case kUSB_DeviceStatusAddress: + if (kUSB_DeviceStateAddressing != ((usb_device_struct_t *)handle)->state) + { + if (NULL != param) + { + error = kStatus_USB_Success; + ((usb_device_struct_t *)handle)->deviceAddress = (uint8_t)(*(uint8_t *)param); + ((usb_device_struct_t *)handle)->state = kUSB_DeviceStateAddressing; + } + } + else + { + error = USB_DeviceControl(handle, kUSB_DeviceControlSetDeviceAddress, + &((usb_device_struct_t *)handle)->deviceAddress); + } + break; + case kUSB_DeviceStatusBusResume: + error = USB_DeviceControl(handle, kUSB_DeviceControlResume, param); + break; + case kUSB_DeviceStatusBusSleepResume: + error = USB_DeviceControl(handle, kUSB_DeviceControlSleepResume, param); + break; +#if ((defined(USB_DEVICE_CONFIG_REMOTE_WAKEUP)) && (USB_DEVICE_CONFIG_REMOTE_WAKEUP > 0U)) + case kUSB_DeviceStatusRemoteWakeup: + if (NULL != param) + { + error = kStatus_USB_Success; + ((usb_device_struct_t *)handle)->remotewakeup = (uint8_t)(*(uint8_t *)param); + } + break; +#endif + case kUSB_DeviceStatusBusSuspend: + error = USB_DeviceControl(handle, kUSB_DeviceControlSuspend, param); + break; + case kUSB_DeviceStatusBusSleep: + error = USB_DeviceControl(handle, kUSB_DeviceControlSleep, param); + break; + default: + break; + } + return error; +} + +#if (defined(USB_DEVICE_CHARGER_DETECT_ENABLE) && (USB_DEVICE_CHARGER_DETECT_ENABLE > 0U)) && \ + ((defined(FSL_FEATURE_SOC_USBDCD_COUNT) && (FSL_FEATURE_SOC_USBDCD_COUNT > 0U)) || \ + (defined(FSL_FEATURE_SOC_USBHSDCD_COUNT) && (FSL_FEATURE_SOC_USBHSDCD_COUNT > 0U))) +/*! + * @brief Initializes the device dcd module. + * + * The function initializes the device dcd module. + * + * @param handle The device handle got from USB_DeviceInit. + * + * @retval kStatus_USB_Success The device is run successfully. + * @retval kStatus_USB_ControllerNotFound Cannot find the controller. + * @retval kStatus_USB_InvalidHandle The device handle is a NULL pointer. Or the controller handle is invalid. + * + */ +usb_status_t USB_DeviceDcdInitModule(usb_device_handle handle, void *time_param) +{ + return USB_DeviceControl(handle, kUSB_DeviceControlDcdInitModule, time_param); +} + +/*! + * @brief De-initializes the device dcd module. + * + * The function de-intializes the device dcd module. + * + * @param handle The device handle got from USB_DeviceInit. + * + * @retval kStatus_USB_Success The device is run successfully. + * @retval kStatus_USB_InvalidHandle The device handle is a NULL pointer. Or the controller handle is invalid. + * + */ +usb_status_t USB_DeviceDcdDeinitModule(usb_device_handle handle) +{ + return USB_DeviceControl(handle, kUSB_DeviceControlDcdDeinitModule, NULL); +} +#endif + +#if USB_DEVICE_CONFIG_USE_TASK +/*! + * @brief Device task function. + * + * The function is used to handle controller message. + * This function should not be called in applicartion directly. + * + * @param handle The device handle got from USB_DeviceInit. + */ +void USB_DeviceTaskFunction(void *deviceHandle) +{ + usb_device_struct_t *handle = (usb_device_struct_t *)deviceHandle; + static usb_device_callback_message_struct_t message; + + if (deviceHandle) + { + /* Get the message from the queue */ + if (kStatus_USB_OSA_Success == USB_OsaMsgqRecv(handle->notificationQueue, (uint32_t *)&message, 0U)) + { + /* Handle the message */ + USB_DeviceNotification(handle, &message); + } + } +} +#endif + +/*! + * @brief Get dvice stack version function. + * + * The function is used to get dvice stack version. + * + * @param[out] version The version structure pointer to keep the device stack version. + * + */ +void USB_DeviceGetVersion(uint32_t *version) +{ + if (version) + { + *version = + (uint32_t)USB_MAKE_VERSION(USB_STACK_VERSION_MAJOR, USB_STACK_VERSION_MINOR, USB_STACK_VERSION_BUGFIX); + } +} + +#if ((defined(USB_DEVICE_CONFIG_REMOTE_WAKEUP)) && (USB_DEVICE_CONFIG_REMOTE_WAKEUP > 0U)) +/*! + * @brief Update the hardware tick. + * + * The function is used to update the hardware tick. + * + * @param[in] handle The device handle got from #USB_DeviceInit. + * @param[in] tick Current hardware tick. + * + */ +usb_status_t USB_DeviceUpdateHwTick(usb_device_handle handle, uint64_t tick) +{ + usb_device_struct_t *deviceHandle; + usb_status_t status = kStatus_USB_Success; + + if (handle == NULL) + { + return kStatus_USB_InvalidHandle; + } + deviceHandle = (usb_device_struct_t *)handle; + + deviceHandle->hwTick = tick; + + return status; +} +#endif +#endif /* USB_DEVICE_CONFIG_NUM */ diff --git a/bsp/imxrt1052-evk/drivers/usb/device/usb_device_dci.h b/bsp/imxrt1052-evk/drivers/usb/device/usb_device_dci.h new file mode 100644 index 0000000000000000000000000000000000000000..fd4fdceb0416aec6815e73a1205ae8d330a3fd85 --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/usb/device/usb_device_dci.h @@ -0,0 +1,177 @@ +/* + * Copyright (c) 2015 - 2016, Freescale Semiconductor, Inc. + * Copyright 2016 NXP + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * o Redistributions of source code must retain the above copyright notice, this list + * of conditions and the following disclaimer. + * + * o Redistributions in binary form must reproduce the above copyright notice, this + * list of conditions and the following disclaimer in the documentation and/or + * other materials provided with the distribution. + * + * o Neither the name of the copyright holder nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#ifndef __USB_DEVICE_DCI_H__ +#define __USB_DEVICE_DCI_H__ + +/*! + * @addtogroup usb_device_controller_driver + * @{ + */ + +/******************************************************************************* + * Definitions + ******************************************************************************/ + +/*! @brief Macro to define controller handle */ +#define usb_device_controller_handle usb_device_handle + +/*! @brief Available notify types for device notification */ +typedef enum _usb_device_notification +{ + kUSB_DeviceNotifyBusReset = 0x10U, /*!< Reset signal detected */ + kUSB_DeviceNotifySuspend, /*!< Suspend signal detected */ + kUSB_DeviceNotifyResume, /*!< Resume signal detected */ + kUSB_DeviceNotifyLPMSleep, /*!< LPM signal detected */ + kUSB_DeviceNotifyLPMResume, /*!< Resume signal detected */ + kUSB_DeviceNotifyError, /*!< Errors happened in bus */ + kUSB_DeviceNotifyDetach, /*!< Device disconnected from a host */ + kUSB_DeviceNotifyAttach, /*!< Device connected to a host */ +#if (defined(USB_DEVICE_CHARGER_DETECT_ENABLE) && (USB_DEVICE_CHARGER_DETECT_ENABLE > 0U)) + kUSB_DeviceNotifyDcdTimeOut, /*!< Device charger detection timeout */ + kUSB_DeviceNotifyDcdUnknownPortType, /*!< Device charger detection unknown port type */ + kUSB_DeviceNotifySDPDetected, /*!< The SDP facility is detected */ + kUSB_DeviceNotifyChargingPortDetected, /*!< The charging port is detected */ + kUSB_DeviceNotifyChargingHostDetected, /*!< The CDP facility is detected */ + kUSB_DeviceNotifyDedicatedChargerDetected, /*!< The DCP facility is detected */ +#endif +} usb_device_notification_t; + +/*! @brief Device notification message structure */ +typedef struct _usb_device_callback_message_struct +{ + uint8_t *buffer; /*!< Transferred buffer */ + uint32_t length; /*!< Transferred data length */ + uint8_t code; /*!< Notification code */ + uint8_t isSetup; /*!< Is in a setup phase */ +} usb_device_callback_message_struct_t; + +/*! @brief Control type for controller */ +typedef enum _usb_device_control_type +{ + kUSB_DeviceControlRun = 0U, /*!< Enable the device functionality */ + kUSB_DeviceControlStop, /*!< Disable the device functionality */ + kUSB_DeviceControlEndpointInit, /*!< Initialize a specified endpoint */ + kUSB_DeviceControlEndpointDeinit, /*!< De-initialize a specified endpoint */ + kUSB_DeviceControlEndpointStall, /*!< Stall a specified endpoint */ + kUSB_DeviceControlEndpointUnstall, /*!< Unstall a specified endpoint */ + kUSB_DeviceControlGetDeviceStatus, /*!< Get device status */ + kUSB_DeviceControlGetEndpointStatus, /*!< Get endpoint status */ + kUSB_DeviceControlSetDeviceAddress, /*!< Set device address */ + kUSB_DeviceControlGetSynchFrame, /*!< Get current frame */ + kUSB_DeviceControlResume, /*!< Drive controller to generate a resume signal in USB bus */ + kUSB_DeviceControlSleepResume, /*!< Drive controller to generate a LPM resume signal in USB bus */ + kUSB_DeviceControlSuspend, /*!< Drive controller to enetr into suspend mode */ + kUSB_DeviceControlSleep, /*!< Drive controller to enetr into sleep mode */ + kUSB_DeviceControlSetDefaultStatus, /*!< Set controller to default status */ + kUSB_DeviceControlGetSpeed, /*!< Get current speed */ + kUSB_DeviceControlGetOtgStatus, /*!< Get OTG status */ + kUSB_DeviceControlSetOtgStatus, /*!< Set OTG status */ + kUSB_DeviceControlSetTestMode, /*!< Drive xCHI into test mode */ + kUSB_DeviceControlGetRemoteWakeUp, /*!< Get flag of LPM Remote Wake-up Enabled by USB host. */ +#if (defined(USB_DEVICE_CHARGER_DETECT_ENABLE) && (USB_DEVICE_CHARGER_DETECT_ENABLE > 0U)) + kUSB_DeviceControlDcdInitModule, + kUSB_DeviceControlDcdDeinitModule, +#endif +} usb_device_control_type_t; + +/*! @brief USB device controller initialization function typedef */ +typedef usb_status_t (*usb_device_controller_init_t)(uint8_t controllerId, + usb_device_handle handle, + usb_device_controller_handle *controllerHandle); + +/*! @brief USB device controller de-initialization function typedef */ +typedef usb_status_t (*usb_device_controller_deinit_t)(usb_device_controller_handle controllerHandle); + +/*! @brief USB device controller send data function typedef */ +typedef usb_status_t (*usb_device_controller_send_t)(usb_device_controller_handle controllerHandle, + uint8_t endpointAddress, + uint8_t *buffer, + uint32_t length); + +/*! @brief USB device controller receive data function typedef */ +typedef usb_status_t (*usb_device_controller_recv_t)(usb_device_controller_handle controllerHandle, + uint8_t endpointAddress, + uint8_t *buffer, + uint32_t length); + +/*! @brief USB device controller cancel transfer function in a specified endpoint typedef */ +typedef usb_status_t (*usb_device_controller_cancel_t)(usb_device_controller_handle controllerHandle, + uint8_t endpointAddress); + +/*! @brief USB device controller control function typedef */ +typedef usb_status_t (*usb_device_controller_control_t)(usb_device_controller_handle controllerHandle, + usb_device_control_type_t command, + void *param); + +/*! @brief USB device controller interface structure */ +typedef struct _usb_device_controller_interface_struct +{ + usb_device_controller_init_t deviceInit; /*!< Controller initialization */ + usb_device_controller_deinit_t deviceDeinit; /*!< Controller de-initialization */ + usb_device_controller_send_t deviceSend; /*!< Controller send data */ + usb_device_controller_recv_t deviceRecv; /*!< Controller receive data */ + usb_device_controller_cancel_t deviceCancel; /*!< Controller cancel transfer */ + usb_device_controller_control_t deviceControl; /*!< Controller control */ +} usb_device_controller_interface_struct_t; + +/*! @brief USB device status structure */ +typedef struct _usb_device_struct +{ +#if ((defined(USB_DEVICE_CONFIG_REMOTE_WAKEUP)) && (USB_DEVICE_CONFIG_REMOTE_WAKEUP > 0U)) + volatile uint64_t hwTick; /*!< Current hw tick(ms)*/ +#endif + usb_device_controller_handle controllerHandle; /*!< Controller handle */ + const usb_device_controller_interface_struct_t *controllerInterface; /*!< Controller interface handle */ +#if USB_DEVICE_CONFIG_USE_TASK + usb_osa_msgq_handle notificationQueue; /*!< Message queue */ +#endif + usb_device_callback_t deviceCallback; /*!< Device callback function pointer */ + usb_device_endpoint_callback_struct_t + epCallback[USB_DEVICE_CONFIG_ENDPOINTS << 1U]; /*!< Endpoint callback function structure */ + uint8_t deviceAddress; /*!< Current device address */ + uint8_t controllerId; /*!< Controller ID */ + uint8_t state; /*!< Current device state */ +#if ((defined(USB_DEVICE_CONFIG_REMOTE_WAKEUP)) && (USB_DEVICE_CONFIG_REMOTE_WAKEUP > 0U)) + uint8_t remotewakeup; /*!< Remote wakeup is enabled or not */ +#endif + uint8_t isResetting; /*!< Is doing device reset or not */ +#if (defined(USB_DEVICE_CONFIG_USE_TASK) && (USB_DEVICE_CONFIG_USE_TASK > 0U)) + uint8_t epCallbackDirectly; /*!< Whether call ep callback directly when the task is enabled */ +#endif +} usb_device_struct_t; + +/******************************************************************************* + * API + ******************************************************************************/ + +/*! @}*/ + +#endif /* __USB_DEVICE_DCI_H__ */ diff --git a/bsp/imxrt1052-evk/drivers/usb/device/usb_device_ehci.c b/bsp/imxrt1052-evk/drivers/usb/device/usb_device_ehci.c new file mode 100644 index 0000000000000000000000000000000000000000..7bb202143d3410c03beb591d455fcbf0c08b14e4 --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/usb/device/usb_device_ehci.c @@ -0,0 +1,1807 @@ +/* + * Copyright (c) 2015 - 2016, Freescale Semiconductor, Inc. + * Copyright 2016 - 2017 NXP + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * o Redistributions of source code must retain the above copyright notice, this list + * of conditions and the following disclaimer. + * + * o Redistributions in binary form must reproduce the above copyright notice, this + * list of conditions and the following disclaimer in the documentation and/or + * other materials provided with the distribution. + * + * o Neither the name of the copyright holder nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#include +#include "fsl_device_registers.h" +#include +#include "usb_device.h" +#if ((defined(USB_DEVICE_CONFIG_EHCI)) && (USB_DEVICE_CONFIG_EHCI > 0U)) + +#include "usb_device_dci.h" + +#include "usb_device_ehci.h" +#if (defined(USB_DEVICE_CONFIG_LOW_POWER_MODE) && (USB_DEVICE_CONFIG_LOW_POWER_MODE > 0U)) +#include "usb_phy.h" +#endif + +/******************************************************************************* + * Definitions + ******************************************************************************/ +#if defined(USB_STACK_USE_DEDICATED_RAM) && (USB_STACK_USE_DEDICATED_RAM > 0U) + +#error The SOC does not suppoort dedicated RAM case. + +#endif + +/******************************************************************************* + * Prototypes + ******************************************************************************/ + +static void USB_DeviceEhciSetDefaultState(usb_device_ehci_state_struct_t *ehciState); +static usb_status_t USB_DeviceEhciEndpointInit(usb_device_ehci_state_struct_t *ehciState, + usb_device_endpoint_init_struct_t *epInit); +static usb_status_t USB_DeviceEhciEndpointDeinit(usb_device_ehci_state_struct_t *ehciState, uint8_t ep); +static usb_status_t USB_DeviceEhciEndpointStall(usb_device_ehci_state_struct_t *ehciState, uint8_t ep); +static usb_status_t USB_DeviceEhciEndpointUnstall(usb_device_ehci_state_struct_t *ehciState, uint8_t ep); +static void USB_DeviceEhciFillSetupBuffer(usb_device_ehci_state_struct_t *ehciState, uint8_t ep); +static void USB_DeviceEhciCancelControlPipe(usb_device_ehci_state_struct_t *ehciState, + uint8_t endpoint, + uint8_t direction); +static void USB_DeviceEhciInterruptTokenDone(usb_device_ehci_state_struct_t *ehciState); +static void USB_DeviceEhciInterruptPortChange(usb_device_ehci_state_struct_t *ehciState); +static void USB_DeviceEhciInterruptReset(usb_device_ehci_state_struct_t *ehciState); +static void USB_DeviceEhciInterruptSof(usb_device_ehci_state_struct_t *ehciState); +#if (defined(USB_DEVICE_CONFIG_LOW_POWER_MODE) && (USB_DEVICE_CONFIG_LOW_POWER_MODE > 0U)) +static void USB_DeviceEhciInterruptSuspend(usb_device_ehci_state_struct_t *ehciState); +#endif /* USB_DEVICE_CONFIG_LOW_POWER_MODE */ +static usb_status_t USB_DeviceEhciTransfer(usb_device_ehci_state_struct_t *ehciState, + uint8_t endpointAddress, + uint8_t *buffer, + uint32_t length); + +extern usb_status_t USB_DeviceNotificationTrigger(void *handle, void *msg); + +/******************************************************************************* + * Variables + ******************************************************************************/ + +/* Apply for QH buffer, 2048-byte alignment */ +USB_RAM_ADDRESS_ALIGNMENT(2048) +USB_CONTROLLER_DATA static uint8_t qh_buffer[(USB_DEVICE_CONFIG_EHCI - 1) * 2048 + + USB_DEVICE_CONFIG_ENDPOINTS * 2 * sizeof(usb_device_ehci_qh_struct_t)]; + +/* Apply for DTD buffer, 32-byte alignment */ +USB_RAM_ADDRESS_ALIGNMENT(32) +USB_CONTROLLER_DATA static usb_device_ehci_dtd_struct_t + s_UsbDeviceEhciDtd[USB_DEVICE_CONFIG_EHCI][USB_DEVICE_CONFIG_EHCI_MAX_DTD]; + +/* Apply for ehci device state structure */ +static usb_device_ehci_state_struct_t g_UsbDeviceEhciSate[USB_DEVICE_CONFIG_EHCI]; + +#if (defined(USB_DEVICE_CHARGER_DETECT_ENABLE) && (USB_DEVICE_CHARGER_DETECT_ENABLE > 0U)) && \ + (defined(FSL_FEATURE_SOC_USBHSDCD_COUNT) && (FSL_FEATURE_SOC_USBHSDCD_COUNT > 0U)) +/* Apply for device dcd state structure */ +static usb_device_dcd_state_struct_t s_UsbDeviceDcdHSState[USB_DEVICE_CONFIG_EHCI]; +#endif + +/******************************************************************************* + * Code + ******************************************************************************/ +/*! + * @brief EHCI NC get USB NC bass address. + * + * This function is used to get USB NC bass address. + * + * @param[in] controllerId EHCI controller ID; See the #usb_controller_index_t. + * + * @retval USB NC bass address. + */ +#if (defined(USB_DEVICE_CONFIG_LOW_POWER_MODE) && (USB_DEVICE_CONFIG_LOW_POWER_MODE > 0U)) +#if (defined(FSL_FEATURE_SOC_USBNC_COUNT) && (FSL_FEATURE_SOC_USBNC_COUNT > 0U)) +void *USB_EhciNCGetBase(uint8_t controllerId) +{ + void *usbNCBase = NULL; +#if ((defined FSL_FEATURE_SOC_USBNC_COUNT) && (FSL_FEATURE_SOC_USBNC_COUNT > 0U)) + uint32_t instance; + uint32_t newinstance = 0; + uint32_t usbnc_base_temp[] = USBNC_BASE_ADDRS; + uint32_t usbnc_base[] = USBNC_BASE_ADDRS; + + if (controllerId < kUSB_ControllerEhci0) + { + return NULL; + } + + controllerId = controllerId - kUSB_ControllerEhci0; + + for (instance = 0; instance < (sizeof(usbnc_base_temp) / sizeof(usbnc_base_temp[0])); instance++) + { + if (usbnc_base_temp[instance]) + { + usbnc_base[newinstance++] = usbnc_base_temp[instance]; + } + } + if (controllerId > newinstance) + { + return NULL; + } + + usbNCBase = (void *)usbnc_base[controllerId]; +#endif + return usbNCBase; +} +#endif +#endif + +/*! + * @brief Set device controller state to default state. + * + * The function is used to set device controller state to default state. + * The function will be called when USB_DeviceEhciInit called or the control type kUSB_DeviceControlGetEndpointStatus + * received in USB_DeviceEhciControl. + * + * @param ehciState Pointer of the device EHCI state structure. + * + */ +static void USB_DeviceEhciSetDefaultState(usb_device_ehci_state_struct_t *ehciState) +{ + usb_device_ehci_dtd_struct_t *p; + + /* Initialize the dtd free queue */ + ehciState->dtdFree = ehciState->dtd; + p = ehciState->dtdFree; + for (uint32_t i = 1U; i < USB_DEVICE_CONFIG_EHCI_MAX_DTD; i++) + { + p->nextDtdPointer = (uint32_t)&ehciState->dtd[i]; + p = (usb_device_ehci_dtd_struct_t *)p->nextDtdPointer; + } + p->nextDtdPointer = 0U; + ehciState->dtdCount = USB_DEVICE_CONFIG_EHCI_MAX_DTD; + + /* Not use interrupt threshold. */ + ehciState->registerBase->USBCMD &= ~USBHS_USBCMD_ITC_MASK; + ehciState->registerBase->USBCMD |= USBHS_USBCMD_ITC(0U); + + /* Disable setup lockout, please refer to "Control Endpoint Operation" section in RM. */ + ehciState->registerBase->USBMODE |= USBHS_USBMODE_SLOM_MASK; + +/* Set the endian by using CPU's endian */ +#if (ENDIANNESS == USB_BIG_ENDIAN) + ehciState->registerBase->USBMODE |= USBHS_USBMODE_ES_MASK; +#else + ehciState->registerBase->USBMODE &= ~USBHS_USBMODE_ES_MASK; +#endif + /* Initialize the QHs of endpoint. */ + for (uint32_t i = 0U; i < (USB_DEVICE_CONFIG_ENDPOINTS * 2U); i++) + { + ehciState->qh[i].nextDtdPointer = USB_DEVICE_ECHI_DTD_TERMINATE_MASK; + ehciState->qh[i].capabilttiesCharacteristicsUnion.capabilttiesCharacteristicsBitmap.maxPacketSize = + USB_CONTROL_MAX_PACKET_SIZE; + ehciState->dtdHard[i] = NULL; + ehciState->dtdTail[i] = NULL; + ehciState->qh[i].endpointStatusUnion.endpointStatusBitmap.isOpened = 0U; + } + + /* Add QH buffer address to USBHS_EPLISTADDR_REG */ + ehciState->registerBase->EPLISTADDR = (uint32_t)ehciState->qh; + + /* Clear device address */ + ehciState->registerBase->DEVICEADDR = 0U; + +#if defined(USB_DEVICE_CONFIG_DETACH_ENABLE) && (USB_DEVICE_CONFIG_DETACH_ENABLE > 0U) + ehciState->registerBase->OTGSC = ehciState->registerBase->OTGSC & 0x0000FFFF; + ehciState->registerBase->OTGSC |= USBHS_OTGSC_BSVIE_MASK; +#endif /* USB_DEVICE_CONFIG_DETACH_ENABLE */ + + /* Enable reset, sof, token, stall interrupt */ + ehciState->registerBase->USBINTR = + (USBHS_USBINTR_UE_MASK | USBHS_USBINTR_UEE_MASK | USBHS_USBINTR_PCE_MASK | USBHS_USBINTR_URE_MASK +#if (defined(USB_DEVICE_CONFIG_LOW_POWER_MODE) && (USB_DEVICE_CONFIG_LOW_POWER_MODE > 0U)) + | USBHS_USBINTR_SLE_MASK +#endif /* USB_DEVICE_CONFIG_LOW_POWER_MODE */ + ); + + /* Clear reset flag */ + ehciState->isResetting = 0U; +} + +/*! + * @brief Initialize a specified endpoint. + * + * The function is used to initialize a specified endpoint. + * + * @param ehciState Pointer of the device EHCI state structure. + * @param epInit The endpoint initialization structure pointer. + * + * @return A USB error code or kStatus_USB_Success. + */ +static usb_status_t USB_DeviceEhciEndpointInit(usb_device_ehci_state_struct_t *ehciState, + usb_device_endpoint_init_struct_t *epInit) +{ + uint32_t primeBit = 1U << ((epInit->endpointAddress & USB_ENDPOINT_NUMBER_MASK) + + ((epInit->endpointAddress & USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_MASK) >> 0x03U)); + uint16_t maxPacketSize = epInit->maxPacketSize & USB_DESCRIPTOR_ENDPOINT_MAXPACKETSIZE_SIZE_MASK; + uint8_t endpoint = (epInit->endpointAddress & USB_ENDPOINT_NUMBER_MASK); + uint8_t direction = (epInit->endpointAddress & USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_MASK) >> + USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT; + uint8_t index = ((uint8_t)((uint32_t)endpoint << 1U)) | direction; + uint8_t transferType = epInit->transferType & USB_DESCRIPTOR_ENDPOINT_ATTRIBUTE_TYPE_MASK; + + /* Cancel pending transfer of the endpoint */ + USB_DeviceEhciCancel(ehciState, epInit->endpointAddress); + + if ((ehciState->registerBase->EPPRIME & primeBit) || (ehciState->registerBase->EPSR & primeBit)) + { + return kStatus_USB_Busy; + } + + /* Make the endpoint max packet size align with USB Specification 2.0. */ + if (USB_ENDPOINT_ISOCHRONOUS == transferType) + { + if (maxPacketSize > USB_DEVICE_MAX_HS_ISO_MAX_PACKET_SIZE) + { + maxPacketSize = USB_DEVICE_MAX_HS_ISO_MAX_PACKET_SIZE; + } + ehciState->qh[index].capabilttiesCharacteristicsUnion.capabilttiesCharacteristicsBitmap.mult = + 1U + ((maxPacketSize & USB_DESCRIPTOR_ENDPOINT_MAXPACKETSIZE_MULT_TRANSACTIONS_MASK) >> + USB_DESCRIPTOR_ENDPOINT_MAXPACKETSIZE_MULT_TRANSACTIONS_SHFIT); + } + else + { + ehciState->qh[index].capabilttiesCharacteristicsUnion.capabilttiesCharacteristicsBitmap.mult = 0U; + } + + /* Save the max packet size of the endpoint */ + ehciState->qh[index].capabilttiesCharacteristicsUnion.capabilttiesCharacteristicsBitmap.maxPacketSize = + maxPacketSize; + /* Set ZLT bit. */ + ehciState->qh[index].capabilttiesCharacteristicsUnion.capabilttiesCharacteristicsBitmap.zlt = !epInit->zlt; + + /* Enable the endpoint. */ + if (USB_ENDPOINT_CONTROL == transferType) + { + ehciState->qh[index].capabilttiesCharacteristicsUnion.capabilttiesCharacteristicsBitmap.ios = 1U; + ehciState->registerBase->EPCR0 |= + (direction ? + (USBHS_EPCR_TXE_MASK | USBHS_EPCR_TXR_MASK | ((uint32_t)transferType << USBHS_EPCR_TXT_SHIFT)) : + (USBHS_EPCR_RXE_MASK | USBHS_EPCR_RXR_MASK | ((uint32_t)transferType << USBHS_EPCR_RXT_SHIFT))); + } + else + { + ehciState->qh[index].capabilttiesCharacteristicsUnion.capabilttiesCharacteristicsBitmap.ios = 0U; + ehciState->registerBase->EPCR[endpoint - 1U] |= + (direction ? + (USBHS_EPCR_TXE_MASK | USBHS_EPCR_TXR_MASK | ((uint32_t)transferType << USBHS_EPCR_TXT_SHIFT)) : + (USBHS_EPCR_RXE_MASK | USBHS_EPCR_RXR_MASK | ((uint32_t)transferType << USBHS_EPCR_RXT_SHIFT))); + } + + ehciState->qh[index].endpointStatusUnion.endpointStatusBitmap.isOpened = 1U; + return kStatus_USB_Success; +} + +/*! + * @brief De-initialize a specified endpoint. + * + * The function is used to de-initialize a specified endpoint. + * Current transfer of the endpoint will be cancelled and the specified endpoint will be disabled. + * + * @param ehciState Pointer of the device EHCI state structure. + * @param ep The endpoint address, Bit7, 0U - USB_OUT, 1U - USB_IN. + * + * @return A USB error code or kStatus_USB_Success. + */ +static usb_status_t USB_DeviceEhciEndpointDeinit(usb_device_ehci_state_struct_t *ehciState, uint8_t ep) +{ + uint32_t primeBit = + 1U << ((ep & USB_ENDPOINT_NUMBER_MASK) + ((ep & USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_MASK) >> 0x03U)); + uint8_t endpoint = (ep & USB_ENDPOINT_NUMBER_MASK); + uint8_t direction = + (ep & USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_MASK) >> USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT; + uint8_t index = ((uint8_t)((uint32_t)endpoint << 1U)) | direction; + + ehciState->qh[index].endpointStatusUnion.endpointStatusBitmap.isOpened = 0U; + + /* Cancel the transfer of the endpoint */ + USB_DeviceEhciCancel(ehciState, ep); + + if ((ehciState->registerBase->EPPRIME & primeBit) || (ehciState->registerBase->EPSR & primeBit)) + { + return kStatus_USB_Busy; + } + + /* Clear endpoint state */ + ehciState->qh[index].capabilttiesCharacteristicsUnion.capabilttiesCharacteristics = 0U; + /* Disable the endpoint */ + if (!endpoint) + { + ehciState->registerBase->EPCR0 &= + ~(direction ? (USBHS_EPCR_TXE_MASK | USBHS_EPCR_TXT_MASK) : (USBHS_EPCR_RXE_MASK | USBHS_EPCR_RXT_MASK)); + } + else + { + ehciState->registerBase->EPCR[endpoint - 1U] &= + ~(direction ? (USBHS_EPCR_TXE_MASK | USBHS_EPCR_TXT_MASK) : (USBHS_EPCR_RXE_MASK | USBHS_EPCR_RXT_MASK)); + } + + return kStatus_USB_Success; +} + +/*! + * @brief Stall a specified endpoint. + * + * The function is used to stall a specified endpoint. + * Current transfer of the endpoint will be cancelled and the specified endpoint will be stalled. + * + * @param ehciState Pointer of the device EHCI state structure. + * @param ep The endpoint address, Bit7, 0U - USB_OUT, 1U - USB_IN. + * + * @return A USB error code or kStatus_USB_Success. + */ +static usb_status_t USB_DeviceEhciEndpointStall(usb_device_ehci_state_struct_t *ehciState, uint8_t ep) +{ + uint8_t endpoint = ep & USB_ENDPOINT_NUMBER_MASK; + uint8_t direction = + (ep & USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_MASK) >> USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT; + uint8_t index = ((uint8_t)((uint32_t)endpoint << 1U)) | direction; + + /* Cancel the transfer of the endpoint */ + USB_DeviceEhciCancel(ehciState, ep); + + /* Set endpoint stall flag. */ + if (ehciState->qh[index].capabilttiesCharacteristicsUnion.capabilttiesCharacteristicsBitmap.ios) + { + if (!endpoint) + { + ehciState->registerBase->EPCR0 |= (USBHS_EPCR_TXS_MASK | USBHS_EPCR_RXS_MASK); + } + else + { + ehciState->registerBase->EPCR[endpoint - 1U] |= (USBHS_EPCR_TXS_MASK | USBHS_EPCR_RXS_MASK); + } + } + else + { + if (!endpoint) + { + ehciState->registerBase->EPCR0 |= (direction ? USBHS_EPCR_TXS_MASK : USBHS_EPCR_RXS_MASK); + } + else + { + ehciState->registerBase->EPCR[endpoint - 1U] |= (direction ? USBHS_EPCR_TXS_MASK : USBHS_EPCR_RXS_MASK); + } + } + + return kStatus_USB_Success; +} + +/*! + * @brief Un-stall a specified endpoint. + * + * The function is used to un-stall a specified endpoint. + * Current transfer of the endpoint will be cancelled and the specified endpoint will be un-stalled. + * + * @param ehciState Pointer of the device EHCI state structure. + * @param ep The endpoint address, Bit7, 0U - USB_OUT, 1U - USB_IN. + * + * @return A USB error code or kStatus_USB_Success. + */ +static usb_status_t USB_DeviceEhciEndpointUnstall(usb_device_ehci_state_struct_t *ehciState, uint8_t ep) +{ + uint8_t endpoint = ep & USB_ENDPOINT_NUMBER_MASK; + uint8_t direction = + (ep & USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_MASK) >> USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT; + + /* Clear the endpoint stall state */ + if (!endpoint) + { + ehciState->registerBase->EPCR0 &= ~(direction ? USBHS_EPCR_TXS_MASK : USBHS_EPCR_RXS_MASK); + } + else + { + ehciState->registerBase->EPCR[endpoint - 1U] &= ~(direction ? USBHS_EPCR_TXS_MASK : USBHS_EPCR_RXS_MASK); + ehciState->registerBase->EPCR[endpoint - 1U] |= (direction ? USBHS_EPCR_TXR_MASK : USBHS_EPCR_RXR_MASK); + } + + return kStatus_USB_Success; +} + +/*! + * @brief Get setup packet data. + * + * The function is used to get setup packet data and copy to a backup buffer. + * + * @param ehciState Pointer of the device EHCI state structure. + * @param ep The endpoint number. + * + */ +static void USB_DeviceEhciFillSetupBuffer(usb_device_ehci_state_struct_t *ehciState, uint8_t ep) +{ + uint8_t waitingSafelyAccess = 1U; + uint8_t index = (ep * 2U) | USB_OUT; + + /* Write 1U to clear corresponding bit in EPSETUPSR. */ + ehciState->registerBase->EPSETUPSR = 1U << ep; + + while (waitingSafelyAccess) + { + /* Set the setup tripwire bit. */ + ehciState->registerBase->USBCMD |= USBHS_USBCMD_SUTW_MASK; + + /* Copy setup packet data to backup buffer */ + ehciState->qh[index].setupBufferBack[0] = ehciState->qh[index].setupBuffer[0]; + ehciState->qh[index].setupBufferBack[1] = ehciState->qh[index].setupBuffer[1]; + + /* Read the USBCMD[SUTW] bit. If set, jump out from the while loop; if cleared continue */ + if (ehciState->registerBase->USBCMD & USBHS_USBCMD_SUTW_MASK) + { + waitingSafelyAccess = 0U; + } + } + /* Clear the setup tripwire bit */ + ehciState->registerBase->USBCMD &= ~USBHS_USBCMD_SUTW_MASK; + + /* Poll until the EPSETUPSR bit clearred */ + while (ehciState->registerBase->EPSETUPSR & (1U << ep)) + { + } +} + +/*! + * @brief Cancel the transfer of the control pipe. + * + * The function is used to cancel the transfer of the control pipe. + * + * @param ehciState Pointer of the device EHCI state structure. + * @param endpoint The endpoint number. + * @param direction The direction of the endpoint. + * + */ +static void USB_DeviceEhciCancelControlPipe(usb_device_ehci_state_struct_t *ehciState, + uint8_t endpoint, + uint8_t direction) +{ + usb_device_ehci_dtd_struct_t *currentDtd; + uint32_t index = ((uint32_t)endpoint << 1U) + (uint32_t)direction; + usb_device_callback_message_struct_t message; + + message.buffer = NULL; + message.length = 0U; + /* Get the dtd of the control pipe */ + currentDtd = + (usb_device_ehci_dtd_struct_t *)((uint32_t)ehciState->dtdHard[index] & USB_DEVICE_ECHI_DTD_POINTER_MASK); + while (currentDtd) + { + /* Pass the transfer buffer address */ + if (NULL == message.buffer) + { + uint32_t bufferAddress = currentDtd->bufferPointerPage[0]; + message.buffer = (uint8_t *)((bufferAddress & USB_DEVICE_ECHI_DTD_PAGE_MASK) | + (currentDtd->reservedUnion.originalBufferInfo.originalBufferOffest)); + } + /* If the dtd is active, set the message length to USB_UNINITIALIZED_VAL_32. Or set the length by using finished + * length. */ + if (currentDtd->dtdTokenUnion.dtdTokenBitmap.status & USB_DEVICE_ECHI_DTD_STATUS_ACTIVE) + { + message.length = USB_UNINITIALIZED_VAL_32; + } + else + { + message.length += (currentDtd->reservedUnion.originalBufferInfo.originalBufferLength - + currentDtd->dtdTokenUnion.dtdTokenBitmap.totalBytes); + } + + /* Move the dtd head pointer to next. */ + /* If the pointer of the head equals to the tail, set the dtd queue to null. */ + if (ehciState->dtdHard[index] == ehciState->dtdTail[index]) + { + ehciState->dtdHard[index] = NULL; + ehciState->dtdTail[index] = NULL; + ehciState->qh[index].nextDtdPointer = USB_DEVICE_ECHI_DTD_TERMINATE_MASK; + ehciState->qh[index].dtdTokenUnion.dtdToken = 0U; + } + else + { + ehciState->dtdHard[index] = (usb_device_ehci_dtd_struct_t *)ehciState->dtdHard[index]->nextDtdPointer; + } + + /* When the ioc is set or the dtd queue is empty, the up layer will be notified. */ + if ((currentDtd->dtdTokenUnion.dtdTokenBitmap.ioc) || + (0 == ((uint32_t)ehciState->dtdHard[index] & USB_DEVICE_ECHI_DTD_POINTER_MASK))) + { + message.code = endpoint | (uint8_t)((uint32_t)direction << 0x07U); + message.isSetup = 0U; + USB_DeviceNotificationTrigger(ehciState->deviceHandle, &message); + message.buffer = NULL; + message.length = 0U; + } + + /* Clear the token field of the dtd. */ + currentDtd->dtdTokenUnion.dtdToken = 0U; + /* Add the dtd to the free dtd queue. */ + currentDtd->nextDtdPointer = (uint32_t)ehciState->dtdFree; + ehciState->dtdFree = currentDtd; + ehciState->dtdCount++; + + /* Get the next in-used dtd. */ + currentDtd = + (usb_device_ehci_dtd_struct_t *)((uint32_t)ehciState->dtdHard[index] & USB_DEVICE_ECHI_DTD_POINTER_MASK); + } +} + +/*! + * @brief Handle the endpoint token done interrupt. + * + * The function is used to handle the endpoint token done interrupt. + * + * @param ehciState Pointer of the device EHCI state structure. + * + */ +static void USB_DeviceEhciInterruptTokenDone(usb_device_ehci_state_struct_t *ehciState) +{ + uint32_t status; + uint32_t primeBit; + usb_device_ehci_dtd_struct_t *currentDtd; + usb_device_callback_message_struct_t message; + uint8_t endpoint; + uint8_t direction; + uint8_t count; + uint8_t index; + + /* Get the EPSETUPSR to check the setup packect received in which one endpoint. */ + status = ehciState->registerBase->EPSETUPSR; + + if (status) + { + for (endpoint = 0U; endpoint < USB_DEVICE_CONFIG_ENDPOINTS; endpoint++) + { + /* Check the endpoint receive the setup packet. */ + if (status & (1U << endpoint)) + { + /* Get last setup packet */ + usb_setup_struct_t *deviceSetup = + (usb_setup_struct_t *)&ehciState->qh[(uint8_t)((uint32_t)endpoint << 1U) + USB_OUT].setupBufferBack; + + /* Check the direction of the data phase. */ + direction = (deviceSetup->bmRequestType & USB_REQUEST_TYPE_DIR_IN) >> USB_REQUEST_TYPE_DIR_SHIFT; + /* Cancel the data phase transfer */ + USB_DeviceEhciCancelControlPipe(ehciState, endpoint, direction); + /* Cancel the status phase transfer */ + USB_DeviceEhciCancelControlPipe(ehciState, endpoint, 1U ^ direction); + message.code = (endpoint) | (USB_OUT << 0x07U); + message.buffer = (uint8_t *)deviceSetup; + message.length = USB_SETUP_PACKET_SIZE; + message.isSetup = 1U; + /* Fill the setup packet to the backup buffer */ + USB_DeviceEhciFillSetupBuffer(ehciState, endpoint); + /* Notify the up layer the EHCI status changed. */ + USB_DeviceNotificationTrigger(ehciState->deviceHandle, &message); + } + } + } + /* Read the USBHS_EPCOMPLETE_REG to get the endpoint transfer done status */ + status = ehciState->registerBase->EPCOMPLETE; + /* Clear the endpoint transfer done status */ + ehciState->registerBase->EPCOMPLETE = status; + + if (status) + { + for (count = 0U; count < 32U; count++) + { + /* Check the transfer is done or not in the specified endpoint. */ + if (status & ((uint32_t)(1U << count))) + { + if (count > 15U) + { + endpoint = count - 16U; + direction = USB_IN; + } + else + { + endpoint = count; + direction = USB_OUT; + } + if (endpoint >= USB_DEVICE_CONFIG_ENDPOINTS) + { + continue; + } + index = (endpoint << 1U) + direction; + message.buffer = NULL; + message.length = 0U; + + /* Get the in-used dtd of the specified endpoint. */ + currentDtd = (usb_device_ehci_dtd_struct_t *)((uint32_t)ehciState->dtdHard[index] & + USB_DEVICE_ECHI_DTD_POINTER_MASK); + while (currentDtd) + { + uint8_t isTokenDone = 0; + /* Get the in-used dtd of the specified endpoint. */ + currentDtd = (usb_device_ehci_dtd_struct_t *)((uint32_t)ehciState->dtdHard[index] & + USB_DEVICE_ECHI_DTD_POINTER_MASK); + + while (currentDtd) + { + /* Don't handle the active dtd. */ + if ((currentDtd->dtdTokenUnion.dtdTokenBitmap.status & USB_DEVICE_ECHI_DTD_STATUS_ACTIVE) || + (currentDtd->dtdTokenUnion.dtdTokenBitmap.ioc)) + { + if ((!(currentDtd->dtdTokenUnion.dtdTokenBitmap.status & + USB_DEVICE_ECHI_DTD_STATUS_ACTIVE)) && + (currentDtd->dtdTokenUnion.dtdTokenBitmap.ioc)) + { + isTokenDone = 1U; + } + break; + } + currentDtd = (usb_device_ehci_dtd_struct_t *)(currentDtd->nextDtdPointer & + USB_DEVICE_ECHI_DTD_POINTER_MASK); + } + + if ((0 == isTokenDone) && (currentDtd)) + { + break; + } + + /* Get the in-used dtd of the specified endpoint. */ + currentDtd = (usb_device_ehci_dtd_struct_t *)((uint32_t)ehciState->dtdHard[index] & + USB_DEVICE_ECHI_DTD_POINTER_MASK); + while (currentDtd) + { + /* Don't handle the active dtd. */ + if (currentDtd->dtdTokenUnion.dtdTokenBitmap.status & USB_DEVICE_ECHI_DTD_STATUS_ACTIVE) + { + break; + } + + /* Save the transfer buffer address */ + if (NULL == message.buffer) + { + message.buffer = + (uint8_t *)((currentDtd->bufferPointerPage[0] & USB_DEVICE_ECHI_DTD_PAGE_MASK) | + (currentDtd->reservedUnion.originalBufferInfo.originalBufferOffest)); + } + /* Save the transferred data length */ + message.length += (currentDtd->reservedUnion.originalBufferInfo.originalBufferLength - + currentDtd->dtdTokenUnion.dtdTokenBitmap.totalBytes); + + /* Move the dtd queue head pointer to next */ + if (ehciState->dtdHard[index] == ehciState->dtdTail[index]) + { + ehciState->dtdHard[index] = NULL; + ehciState->dtdTail[index] = NULL; + ehciState->qh[index].nextDtdPointer = USB_DEVICE_ECHI_DTD_TERMINATE_MASK; + ehciState->qh[index].dtdTokenUnion.dtdToken = 0U; + } + else + { + ehciState->dtdHard[index] = + (usb_device_ehci_dtd_struct_t *)ehciState->dtdHard[index]->nextDtdPointer; + } + + /* When the ioc is set or the dtd queue is empty, the up layer will be notified. */ + if ((currentDtd->dtdTokenUnion.dtdTokenBitmap.ioc) || + (0 == ((uint32_t)ehciState->dtdHard[index] & USB_DEVICE_ECHI_DTD_POINTER_MASK))) + { + message.code = endpoint | (uint8_t)((uint32_t)direction << 0x07U); + message.isSetup = 0U; + USB_DeviceNotificationTrigger(ehciState->deviceHandle, &message); + message.buffer = NULL; + message.length = 0U; + } + /* Clear the token field of the dtd */ + currentDtd->dtdTokenUnion.dtdToken = 0U; + currentDtd->nextDtdPointer = (uint32_t)ehciState->dtdFree; + ehciState->dtdFree = currentDtd; + ehciState->dtdCount++; + /* Get the next in-used dtd */ + currentDtd = (usb_device_ehci_dtd_struct_t *)((uint32_t)ehciState->dtdHard[index] & + USB_DEVICE_ECHI_DTD_POINTER_MASK); + + if ((NULL != currentDtd) && + (currentDtd->dtdTokenUnion.dtdTokenBitmap.status & USB_DEVICE_ECHI_DTD_STATUS_ACTIVE)) + { + primeBit = 1U << (endpoint + 16U * direction); + + /* Try to prime the next dtd. */ + ehciState->registerBase->EPPRIME = primeBit; + + /* Whether the endpoint transmit/receive buffer is ready or not. If not, wait for prime bit + * cleared and prime the next dtd. */ + if (!(ehciState->registerBase->EPSR & primeBit)) + { + /* Wait for the endpoint prime bit cleared by HW */ + while (ehciState->registerBase->EPPRIME & primeBit) + { + } + + /* If the endpoint transmit/receive buffer is not ready */ + if (!(ehciState->registerBase->EPSR & primeBit)) + { + /* Prime next dtd and prime the transfer */ + ehciState->qh[index].nextDtdPointer = (uint32_t)currentDtd; + ehciState->qh[index].dtdTokenUnion.dtdToken = 0U; + ehciState->registerBase->EPPRIME = primeBit; + } + } + } + } + } + } + } + } +} + +/*! + * @brief Handle the port status change interrupt. + * + * The function is used to handle the port status change interrupt. + * + * @param ehciState Pointer of the device EHCI state structure. + * + */ +static void USB_DeviceEhciInterruptPortChange(usb_device_ehci_state_struct_t *ehciState) +{ + usb_device_callback_message_struct_t message; + + message.buffer = (uint8_t *)NULL; + message.length = 0U; + message.isSetup = 0U; + + /* Whether the port is doing reset. */ + if (!(ehciState->registerBase->PORTSC1 & USBHS_PORTSC1_PR_MASK)) + { + /* If not, update the USB speed. */ + if (ehciState->registerBase->PORTSC1 & USBHS_PORTSC1_HSP_MASK) + { + ehciState->speed = USB_SPEED_HIGH; + } + else + { + ehciState->speed = USB_SPEED_FULL; + } + + /* If the device reset flag is non-zero, notify the up layer the device reset finished. */ + if (ehciState->isResetting) + { + message.code = kUSB_DeviceNotifyBusReset; + USB_DeviceNotificationTrigger(ehciState->deviceHandle, &message); + ehciState->isResetting = 0U; + } + } + +#if (defined(USB_DEVICE_CONFIG_LOW_POWER_MODE) && (USB_DEVICE_CONFIG_LOW_POWER_MODE > 0U)) + if ((ehciState->isSuspending) && (!(ehciState->registerBase->PORTSC1 & USBHS_PORTSC1_SUSP_MASK))) + { + /* Set the resume flag */ + ehciState->isSuspending = 0U; + + message.code = kUSB_DeviceNotifyResume; + USB_DeviceNotificationTrigger(ehciState->deviceHandle, &message); + } +#endif /* USB_DEVICE_CONFIG_LOW_POWER_MODE */ +} + +/*! + * @brief Handle the reset interrupt. + * + * The function is used to handle the reset interrupt. + * + * @param ehciState Pointer of the device EHCI state structure. + * + */ +static void USB_DeviceEhciInterruptReset(usb_device_ehci_state_struct_t *ehciState) +{ + uint32_t status = 0U; + + /* Clear the setup flag */ + status = ehciState->registerBase->EPSETUPSR; + ehciState->registerBase->EPSETUPSR = status; + /* Clear the endpoint complete flag */ + status = ehciState->registerBase->EPCOMPLETE; + ehciState->registerBase->EPCOMPLETE = status; + + do + { + /* Flush the pending transfers */ + ehciState->registerBase->EPFLUSH = USBHS_EPFLUSH_FERB_MASK | USBHS_EPFLUSH_FETB_MASK; + } while (ehciState->registerBase->EPPRIME & (USBHS_EPPRIME_PERB_MASK | USBHS_EPPRIME_PETB_MASK)); + + /* Whether is the port reset. If yes, set the isResetting flag. Or, notify the up layer. */ + if (ehciState->registerBase->PORTSC1 & USBHS_PORTSC1_PR_MASK) + { + ehciState->isResetting = 1U; + } + else + { + usb_device_callback_message_struct_t message; + message.buffer = (uint8_t *)NULL; + message.code = kUSB_DeviceNotifyBusReset; + message.length = 0U; + message.isSetup = 0U; + + USB_DeviceNotificationTrigger(ehciState->deviceHandle, &message); + } +} + +/*! + * @brief Handle the sof interrupt. + * + * The function is used to handle the sof interrupt. + * + * @param ehciState Pointer of the device EHCI state structure. + * + */ +static void USB_DeviceEhciInterruptSof(usb_device_ehci_state_struct_t *ehciState) +{ +} + +#if (defined(USB_DEVICE_CONFIG_LOW_POWER_MODE) && (USB_DEVICE_CONFIG_LOW_POWER_MODE > 0U)) +/*! + * @brief Handle the suspend interrupt. + * + * The function is used to handle the suspend interrupt. + * + * @param ehciState Pointer of the device EHCI state structure. + * + */ +static void USB_DeviceEhciInterruptSuspend(usb_device_ehci_state_struct_t *ehciState) +{ + /* If the port is in suspend state, notify the up layer */ + if (ehciState->registerBase->PORTSC1 & USBHS_PORTSC1_SUSP_MASK) + { +#if (defined(FSL_FEATURE_SOC_USBNC_COUNT) && (FSL_FEATURE_SOC_USBNC_COUNT > 0U)) +#else + if (ehciState->registerPhyBase->USB1_VBUS_DET_STAT & USBPHY_USB1_VBUS_DET_STAT_VBUS_VALID_3V_MASK) +#endif + { + usb_device_callback_message_struct_t message; + message.buffer = (uint8_t *)NULL; + message.length = 0U; + message.isSetup = 0U; + message.code = kUSB_DeviceNotifySuspend; + USB_DeviceNotificationTrigger(ehciState->deviceHandle, &message); + } + } +} +#endif /* USB_DEVICE_CONFIG_LOW_POWER_MODE */ + +/*! + * @brief Get dtds and link to QH. + * + * The function is used to get dtds and link to QH. + * + * @param ehciState Pointer of the device EHCI state structure. + * @param endpointAddress The endpoint address, Bit7, 0U - USB_OUT, 1U - USB_IN. + * @param buffer The memory address needed to be transferred. + * @param length Data length. + * + * @return A USB error code or kStatus_USB_Success. + */ +static usb_status_t USB_DeviceEhciTransfer(usb_device_ehci_state_struct_t *ehciState, + uint8_t endpointAddress, + uint8_t *buffer, + uint32_t length) +{ + usb_device_ehci_dtd_struct_t *dtd; + usb_device_ehci_dtd_struct_t *dtdHard; + uint32_t index = ((endpointAddress & USB_ENDPOINT_NUMBER_MASK) << 1U) | + ((endpointAddress & USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_MASK) >> + USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT); + uint32_t primeBit = 1U << ((endpointAddress & USB_ENDPOINT_NUMBER_MASK) + + ((endpointAddress & USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_MASK) >> 0x03U)); + uint8_t epStatus = primeBit; + uint32_t sendLength; + uint32_t currentIndex = 0U; + uint32_t dtdRequestCount = (length + USB_DEVICE_ECHI_DTD_TOTAL_BYTES - 1U) / USB_DEVICE_ECHI_DTD_TOTAL_BYTES; + uint8_t qhIdle = 0U; + uint8_t waitingSafelyAccess = 1U; + USB_OSA_SR_ALLOC(); + + if (!ehciState) + { + return kStatus_USB_InvalidHandle; + } + + if (0U == ehciState->qh[index].endpointStatusUnion.endpointStatusBitmap.isOpened) + { + return kStatus_USB_Error; + } + /* Return error when ehci is doing reset */ + if (ehciState->isResetting) + { + return kStatus_USB_Error; + } + + if (!dtdRequestCount) + { + dtdRequestCount = 1U; + } + + USB_OSA_ENTER_CRITICAL(); + /* The free dtd count need to not less than the transfer requests. */ + if (dtdRequestCount > (uint32_t)ehciState->dtdCount) + { + USB_OSA_EXIT_CRITICAL(); + return kStatus_USB_Busy; + } + + do + { + /* The transfer length need to not more than USB_DEVICE_ECHI_DTD_TOTAL_BYTES for each dtd. */ + if (length > USB_DEVICE_ECHI_DTD_TOTAL_BYTES) + { + sendLength = USB_DEVICE_ECHI_DTD_TOTAL_BYTES; + } + else + { + sendLength = length; + } + length -= sendLength; + + /* Get a free dtd */ + dtd = ehciState->dtdFree; + + ehciState->dtdFree = (usb_device_ehci_dtd_struct_t *)dtd->nextDtdPointer; + ehciState->dtdCount--; + + /* Save the dtd head when current active buffer offset is zero. */ + if (!currentIndex) + { + dtdHard = dtd; + } + + /* Set the dtd field */ + dtd->nextDtdPointer = USB_DEVICE_ECHI_DTD_TERMINATE_MASK; + dtd->dtdTokenUnion.dtdToken = 0U; + dtd->bufferPointerPage[0] = (uint32_t)(buffer + currentIndex); + dtd->bufferPointerPage[1] = + (dtd->bufferPointerPage[0] + USB_DEVICE_ECHI_DTD_PAGE_BLOCK) & USB_DEVICE_ECHI_DTD_PAGE_MASK; + dtd->bufferPointerPage[2] = dtd->bufferPointerPage[1] + USB_DEVICE_ECHI_DTD_PAGE_BLOCK; + dtd->bufferPointerPage[3] = dtd->bufferPointerPage[2] + USB_DEVICE_ECHI_DTD_PAGE_BLOCK; + dtd->bufferPointerPage[4] = dtd->bufferPointerPage[3] + USB_DEVICE_ECHI_DTD_PAGE_BLOCK; + + dtd->dtdTokenUnion.dtdTokenBitmap.totalBytes = sendLength; + + /* Save the data length needed to be transferred. */ + dtd->reservedUnion.originalBufferInfo.originalBufferLength = sendLength; + /* Save the original buffer address */ + dtd->reservedUnion.originalBufferInfo.originalBufferOffest = + dtd->bufferPointerPage[0] & USB_DEVICE_ECHI_DTD_PAGE_OFFSET_MASK; + dtd->reservedUnion.originalBufferInfo.dtdInvalid = 0U; + + /* Set the IOC field in last dtd. */ + if (!length) + { + dtd->dtdTokenUnion.dtdTokenBitmap.ioc = 1U; + } + + /* Set dtd active */ + dtd->dtdTokenUnion.dtdTokenBitmap.status = USB_DEVICE_ECHI_DTD_STATUS_ACTIVE; + + /* Move the buffer offset index */ + currentIndex += sendLength; + + /* Add dtd to the in-used dtd queue */ + if (ehciState->dtdTail[index]) + { + ehciState->dtdTail[index]->nextDtdPointer = (uint32_t)dtd; + ehciState->dtdTail[index] = dtd; + } + else + { + ehciState->dtdHard[index] = dtd; + ehciState->dtdTail[index] = dtd; + qhIdle = 1U; + } + } while (length); + + /* If the QH is not empty */ + if (!qhIdle) + { + /* If the prime bit is set, nothing need to do. */ + if (ehciState->registerBase->EPPRIME & primeBit) + { + USB_OSA_EXIT_CRITICAL(); + return kStatus_USB_Success; + } + + /* To safely a dtd */ + while (waitingSafelyAccess) + { + /* set the ATDTW flag to USBHS_USBCMD_REG. */ + ehciState->registerBase->USBCMD |= USBHS_USBCMD_ATDTW_MASK; + /* Read EPSR */ + epStatus = ehciState->registerBase->EPSR; + /* Wait the ATDTW bit set */ + if (ehciState->registerBase->USBCMD & USBHS_USBCMD_ATDTW_MASK) + { + waitingSafelyAccess = 0U; + } + } + /* Clear the ATDTW bit */ + ehciState->registerBase->USBCMD &= ~USBHS_USBCMD_ATDTW_MASK; + } + + /* If QH is empty or the endpoint is not primed, need to link current dtd head to the QH. */ + /* When the endpoint is not primed if qhIdle is zero, it means the QH is empty. */ + if ((qhIdle) || (!(epStatus & primeBit))) + { + ehciState->qh[index].nextDtdPointer = (uint32_t)dtdHard; + ehciState->qh[index].dtdTokenUnion.dtdToken = 0U; + ehciState->registerBase->EPPRIME = primeBit; + while (!(ehciState->registerBase->EPSR & primeBit)) + { + if (ehciState->registerBase->EPCOMPLETE & primeBit) + { + break; + } + else + { + ehciState->registerBase->EPPRIME = primeBit; + } + } + } + + USB_OSA_EXIT_CRITICAL(); + return kStatus_USB_Success; +} + +/*! + * @brief Initialize the USB device EHCI instance. + * + * This function initializes the USB device EHCI module specified by the controllerId. + * + * @param controllerId The controller id of the USB IP. Please refer to enumeration type usb_controller_index_t. + * @param handle Pointer of the device handle, used to identify the device object is belonged to. + * @param ehciHandle It is out parameter, is used to return pointer of the device EHCI handle to the caller. + * + * @return A USB error code or kStatus_USB_Success. + */ +usb_status_t USB_DeviceEhciInit(uint8_t controllerId, + usb_device_handle handle, + usb_device_controller_handle *ehciHandle) +{ + usb_device_ehci_state_struct_t *ehciState; + uint32_t ehci_base[] = USBHS_BASE_ADDRS; + +#if (defined(USB_DEVICE_CHARGER_DETECT_ENABLE) && (USB_DEVICE_CHARGER_DETECT_ENABLE > 0U)) && \ + (defined(FSL_FEATURE_SOC_USBHSDCD_COUNT) && (FSL_FEATURE_SOC_USBHSDCD_COUNT > 0U)) + usb_device_dcd_state_struct_t *dcdHSState; + uint32_t dcd_base[] = USBHSDCD_BASE_ADDRS; + usb_device_callback_message_struct_t message; +#endif + + if ((controllerId < kUSB_ControllerEhci0) || + ((uint32_t)(controllerId - kUSB_ControllerEhci0) >= USB_DEVICE_CONFIG_EHCI) || + ((uint32_t)(controllerId - kUSB_ControllerEhci0) >= (sizeof(ehci_base) / sizeof(uint32_t)))) + { + return kStatus_USB_ControllerNotFound; + } + + ehciState = &g_UsbDeviceEhciSate[controllerId - kUSB_ControllerEhci0]; + + ehciState->dtd = s_UsbDeviceEhciDtd[controllerId - kUSB_ControllerEhci0]; + ehciState->qh = (usb_device_ehci_qh_struct_t *)&qh_buffer[(controllerId - kUSB_ControllerEhci0) * 2048]; + + ehciState->controllerId = controllerId; + + ehciState->registerBase = (USBHS_Type *)ehci_base[controllerId - kUSB_ControllerEhci0]; +#if (defined(USB_DEVICE_CONFIG_LOW_POWER_MODE) && (USB_DEVICE_CONFIG_LOW_POWER_MODE > 0U)) + ehciState->registerPhyBase = (USBPHY_Type *)USB_EhciPhyGetBase(controllerId); + +#if (defined(FSL_FEATURE_SOC_USBNC_COUNT) && (FSL_FEATURE_SOC_USBNC_COUNT > 0U)) + ehciState->registerNcBase = (USBNC_Type *)USB_EhciNCGetBase(controllerId); +#endif + +#endif + + /* Get the HW's endpoint count */ + ehciState->endpointCount = + (uint8_t)((ehciState->registerBase->DCCPARAMS & USBHS_DCCPARAMS_DEN_MASK) >> USBHS_DCCPARAMS_DEN_SHIFT); + + if (ehciState->endpointCount < USB_DEVICE_CONFIG_ENDPOINTS) + { + return kStatus_USB_Error; + } + ehciState->deviceHandle = (usb_device_struct_t *)handle; + + /* Clear the controller mode field and set to device mode. */ + ehciState->registerBase->USBMODE &= ~USBHS_USBMODE_CM_MASK; + ehciState->registerBase->USBMODE |= USBHS_USBMODE_CM(0x02U); + + /* Set the EHCI to default status. */ + USB_DeviceEhciSetDefaultState(ehciState); + *ehciHandle = (usb_device_controller_handle)ehciState; +#if (defined(USB_DEVICE_CHARGER_DETECT_ENABLE) && (USB_DEVICE_CHARGER_DETECT_ENABLE > 0U)) && \ + (defined(FSL_FEATURE_SOC_USBHSDCD_COUNT) && (FSL_FEATURE_SOC_USBHSDCD_COUNT > 0U)) + dcdHSState = &s_UsbDeviceDcdHSState[controllerId - kUSB_ControllerEhci0]; + + dcdHSState->controllerId = controllerId; + + dcdHSState->dcdRegisterBase = (USBHSDCD_Type *)dcd_base[controllerId - kUSB_ControllerEhci0]; + + dcdHSState->deviceHandle = (usb_device_struct_t *)handle; + + message.buffer = (uint8_t *)NULL; + message.length = 0U; + message.isSetup = 0U; + if (ehciState->registerBase->OTGSC & USBHS_OTGSC_BSV_MASK) + { + /* Device is connected to a host. */ + message.code = kUSB_DeviceNotifyAttach; + USB_DeviceNotificationTrigger(ehciState->deviceHandle, &message); + } +#endif + + return kStatus_USB_Success; +} + +/*! + * @brief De-initialize the USB device EHCI instance. + * + * This function de-initializes the USB device EHCI module. + * + * @param ehciHandle Pointer of the device EHCI handle. + * + * @return A USB error code or kStatus_USB_Success. + */ +usb_status_t USB_DeviceEhciDeinit(usb_device_controller_handle ehciHandle) +{ + usb_device_ehci_state_struct_t *ehciState = (usb_device_ehci_state_struct_t *)ehciHandle; + + if (!ehciHandle) + { + return kStatus_USB_InvalidHandle; + } + + /* Disable all interrupt. */ + ehciState->registerBase->USBINTR = 0U; + /* Stop the device functionality. */ + ehciState->registerBase->USBCMD &= ~USBHS_USBCMD_RS_MASK; + /* Reset the controller. */ + ehciState->registerBase->USBCMD |= USBHS_USBCMD_RST_MASK; + + return kStatus_USB_Success; +} + +/*! + * @brief Send data through a specified endpoint. + * + * This function sends data through a specified endpoint. + * + * @param ehciHandle Pointer of the device EHCI handle. + * @param endpointAddress Endpoint index. + * @param buffer The memory address to hold the data need to be sent. + * @param length The data length need to be sent. + * + * @return A USB error code or kStatus_USB_Success. + * + * @note The return value just means if the sending request is successful or not; the transfer done is notified by the + * corresponding callback function. + * Currently, only one transfer request can be supported for one specific endpoint. + * If there is a specific requirement to support multiple transfer requests for one specific endpoint, the application + * should implement a queue in the application level. + * The subsequent transfer could begin only when the previous transfer is done (get notification through the endpoint + * callback). + */ +usb_status_t USB_DeviceEhciSend(usb_device_controller_handle ehciHandle, + uint8_t endpointAddress, + uint8_t *buffer, + uint32_t length) +{ + /* Add dtd to the QH */ + return USB_DeviceEhciTransfer( + (usb_device_ehci_state_struct_t *)ehciHandle, + (endpointAddress & USB_ENDPOINT_NUMBER_MASK) | (USB_IN << USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT), + buffer, length); +} + +/*! + * @brief Receive data through a specified endpoint. + * + * This function Receives data through a specified endpoint. + * + * @param ehciHandle Pointer of the device EHCI handle. + * @param endpointAddress Endpoint index. + * @param buffer The memory address to save the received data. + * @param length The data length want to be received. + * + * @return A USB error code or kStatus_USB_Success. + * + * @note The return value just means if the receiving request is successful or not; the transfer done is notified by the + * corresponding callback function. + * Currently, only one transfer request can be supported for one specific endpoint. + * If there is a specific requirement to support multiple transfer requests for one specific endpoint, the application + * should implement a queue in the application level. + * The subsequent transfer could begin only when the previous transfer is done (get notification through the endpoint + * callback). + */ +usb_status_t USB_DeviceEhciRecv(usb_device_controller_handle ehciHandle, + uint8_t endpointAddress, + uint8_t *buffer, + uint32_t length) +{ + /* Add dtd to the QH */ + return USB_DeviceEhciTransfer( + (usb_device_ehci_state_struct_t *)ehciHandle, + (endpointAddress & USB_ENDPOINT_NUMBER_MASK) | (USB_OUT << USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT), + buffer, length); +} + +/*! + * @brief Cancel the pending transfer in a specified endpoint. + * + * The function is used to cancel the pending transfer in a specified endpoint. + * + * @param ehciHandle Pointer of the device EHCI handle. + * @param ep Endpoint address, bit7 is the direction of endpoint, 1U - IN, 0U - OUT. + * + * @return A USB error code or kStatus_USB_Success. + */ +usb_status_t USB_DeviceEhciCancel(usb_device_controller_handle ehciHandle, uint8_t ep) +{ + usb_device_ehci_state_struct_t *ehciState = (usb_device_ehci_state_struct_t *)ehciHandle; + usb_device_callback_message_struct_t message; + usb_device_ehci_dtd_struct_t *currentDtd; + uint32_t primeBit = + 1U << ((ep & USB_ENDPOINT_NUMBER_MASK) + ((ep & USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_MASK) >> 0x03U)); + uint8_t index = + ((ep & USB_ENDPOINT_NUMBER_MASK) << 1U) | ((ep & USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_MASK) >> 0x07U); + + USB_OSA_SR_ALLOC(); + + if (!ehciHandle) + { + return kStatus_USB_InvalidHandle; + } + + USB_OSA_ENTER_CRITICAL(); + + message.buffer = NULL; + message.length = USB_UNINITIALIZED_VAL_32; + + /* Get the first dtd */ + currentDtd = + (usb_device_ehci_dtd_struct_t *)((uint32_t)ehciState->dtdHard[index] & USB_DEVICE_ECHI_DTD_POINTER_MASK); + + while (currentDtd) + { + currentDtd->reservedUnion.originalBufferInfo.dtdInvalid = 1U; + currentDtd = (usb_device_ehci_dtd_struct_t *)(currentDtd->nextDtdPointer & USB_DEVICE_ECHI_DTD_POINTER_MASK); + } + + /* Get the first dtd */ + currentDtd = + (usb_device_ehci_dtd_struct_t *)((uint32_t)ehciState->dtdHard[index] & USB_DEVICE_ECHI_DTD_POINTER_MASK); + while (currentDtd) + { + if (!currentDtd->reservedUnion.originalBufferInfo.dtdInvalid) + { + break; + } + else + { + if (currentDtd->dtdTokenUnion.dtdTokenBitmap.status & USB_DEVICE_ECHI_DTD_STATUS_ACTIVE) + { + /* Flush the endpoint to stop a transfer. */ + do + { + /* Set the corresponding bit(s) in the EPFLUSH register */ + ehciState->registerBase->EPFLUSH |= primeBit; + + /* Wait until all bits in the EPFLUSH register are cleared. */ + while (ehciState->registerBase->EPFLUSH & primeBit) + { + } + /* + * Read the EPSR register to ensure that for all endpoints + * commanded to be flushed, that the corresponding bits + * are now cleared. + */ + } while (ehciState->registerBase->EPSR & primeBit); + } + + /* Save the original buffer address. */ + if (NULL == message.buffer) + { + message.buffer = (uint8_t *)((currentDtd->bufferPointerPage[0] & USB_DEVICE_ECHI_DTD_PAGE_MASK) | + (currentDtd->reservedUnion.originalBufferInfo.originalBufferOffest)); + } + + /* Remove the dtd from the dtd in-used queue. */ + if (ehciState->dtdHard[index] == ehciState->dtdTail[index]) + { + ehciState->dtdHard[index] = NULL; + ehciState->dtdTail[index] = NULL; + } + else + { + ehciState->dtdHard[index] = (usb_device_ehci_dtd_struct_t *)ehciState->dtdHard[index]->nextDtdPointer; + } + + /* When the ioc is set or the dtd queue is empty, the up layer will be notified. */ + if ((currentDtd->dtdTokenUnion.dtdTokenBitmap.ioc) || + (0 == ((uint32_t)ehciState->dtdHard[index] & USB_DEVICE_ECHI_DTD_POINTER_MASK))) + { + message.code = ep; + message.isSetup = 0U; + USB_DeviceNotificationTrigger(ehciState->deviceHandle, &message); + message.buffer = NULL; + } + /* Clear the token field. */ + currentDtd->dtdTokenUnion.dtdToken = 0U; + /* Save the dtd to the free queue. */ + currentDtd->nextDtdPointer = (uint32_t)ehciState->dtdFree; + ehciState->dtdFree = currentDtd; + ehciState->dtdCount++; + } + /* Get the next dtd. */ + currentDtd = + (usb_device_ehci_dtd_struct_t *)((uint32_t)ehciState->dtdHard[index] & USB_DEVICE_ECHI_DTD_POINTER_MASK); + } + if (!currentDtd) + { + /* Set the QH to empty. */ + ehciState->qh[index].nextDtdPointer = USB_DEVICE_ECHI_DTD_TERMINATE_MASK; + ehciState->qh[index].dtdTokenUnion.dtdToken = 0U; + } + USB_OSA_EXIT_CRITICAL(); + return kStatus_USB_Success; +} + +/*! + * @brief Control the status of the selected item. + * + * The function is used to control the status of the selected item. + * + * @param ehciHandle Pointer of the device EHCI handle. + * @param type The selected item. Please refer to enumeration type usb_device_control_type_t. + * @param param The param type is determined by the selected item. + * + * @return A USB error code or kStatus_USB_Success. + */ +usb_status_t USB_DeviceEhciControl(usb_device_controller_handle ehciHandle, usb_device_control_type_t type, void *param) +{ + usb_device_ehci_state_struct_t *ehciState = (usb_device_ehci_state_struct_t *)ehciHandle; + usb_status_t error = kStatus_USB_Error; + uint16_t *temp16; + uint8_t *temp8; +#if (defined(USB_DEVICE_CHARGER_DETECT_ENABLE) && (USB_DEVICE_CHARGER_DETECT_ENABLE > 0U)) && \ + (defined(FSL_FEATURE_SOC_USBHSDCD_COUNT) && (FSL_FEATURE_SOC_USBHSDCD_COUNT > 0U)) + usb_device_dcd_state_struct_t *dcdHSState; + dcdHSState = + &s_UsbDeviceDcdHSState[ehciState->controllerId - kUSB_ControllerEhci0]; /*The hard code should be replaced*/ + usb_device_dcd_charging_time_t *deviceDcdTimingConfig = (usb_device_dcd_charging_time_t *)param; +#endif +#if ((defined(USB_DEVICE_CONFIG_REMOTE_WAKEUP)) && (USB_DEVICE_CONFIG_REMOTE_WAKEUP > 0U)) + usb_device_struct_t *deviceHandle; + uint64_t startTick; +#endif + + if (!ehciHandle) + { + return kStatus_USB_InvalidHandle; + } + +#if ((defined(USB_DEVICE_CONFIG_REMOTE_WAKEUP)) && (USB_DEVICE_CONFIG_REMOTE_WAKEUP > 0U)) + deviceHandle = (usb_device_struct_t *)ehciState->deviceHandle; +#endif + + switch (type) + { + case kUSB_DeviceControlRun: + ehciState->registerBase->USBCMD |= USBHS_USBCMD_RS_MASK; + error = kStatus_USB_Success; + break; + case kUSB_DeviceControlStop: + ehciState->registerBase->USBCMD &= ~USBHS_USBCMD_RS_MASK; + error = kStatus_USB_Success; + break; + case kUSB_DeviceControlEndpointInit: + if (param) + { + error = USB_DeviceEhciEndpointInit(ehciState, (usb_device_endpoint_init_struct_t *)param); + } + break; + case kUSB_DeviceControlEndpointDeinit: + if (param) + { + temp8 = (uint8_t *)param; + error = USB_DeviceEhciEndpointDeinit(ehciState, *temp8); + } + break; + case kUSB_DeviceControlEndpointStall: + if (param) + { + temp8 = (uint8_t *)param; + error = USB_DeviceEhciEndpointStall(ehciState, *temp8); + } + break; + case kUSB_DeviceControlEndpointUnstall: + if (param) + { + temp8 = (uint8_t *)param; + error = USB_DeviceEhciEndpointUnstall(ehciState, *temp8); + } + break; + case kUSB_DeviceControlGetDeviceStatus: + if (param) + { + temp16 = (uint16_t *)param; + *temp16 = (USB_DEVICE_CONFIG_SELF_POWER << (USB_REQUEST_STANDARD_GET_STATUS_DEVICE_SELF_POWERED_SHIFT)) +#if ((defined(USB_DEVICE_CONFIG_REMOTE_WAKEUP)) && (USB_DEVICE_CONFIG_REMOTE_WAKEUP > 0U)) + | (deviceHandle->remotewakeup << (USB_REQUEST_STANDARD_GET_STATUS_DEVICE_REMOTE_WARKUP_SHIFT)) +#endif + ; + error = kStatus_USB_Success; + } + break; + case kUSB_DeviceControlGetEndpointStatus: + if (param) + { + usb_device_endpoint_status_struct_t *endpointStatus = (usb_device_endpoint_status_struct_t *)param; + uint8_t ep = (endpointStatus->endpointAddress) & USB_ENDPOINT_NUMBER_MASK; + uint8_t direction = + ((endpointStatus->endpointAddress) & USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_MASK) >> + USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT; + + if (ep < USB_DEVICE_CONFIG_ENDPOINTS) + { + if (ep) + { + endpointStatus->endpointStatus = (ehciState->registerBase->EPCR[ep - 1U] & + (direction ? USBHS_EPCR_TXS_MASK : USBHS_EPCR_RXS_MASK)) ? + kUSB_DeviceEndpointStateStalled : + kUSB_DeviceEndpointStateIdle; + } + else + { + endpointStatus->endpointStatus = + (ehciState->registerBase->EPCR0 & (direction ? USBHS_EPCR_TXS_MASK : USBHS_EPCR_RXS_MASK)) ? + kUSB_DeviceEndpointStateStalled : + kUSB_DeviceEndpointStateIdle; + } + error = kStatus_USB_Success; + } + } + break; + case kUSB_DeviceControlSetDeviceAddress: + if (param) + { + temp8 = (uint8_t *)param; + ehciState->registerBase->DEVICEADDR = (((uint32_t)(*temp8)) << USBHS_DEVICEADDR_USBADR_SHIFT); + error = kStatus_USB_Success; + } + break; + case kUSB_DeviceControlGetSynchFrame: + break; +#if (defined(USB_DEVICE_CONFIG_LOW_POWER_MODE) && (USB_DEVICE_CONFIG_LOW_POWER_MODE > 0U)) +#if defined(USB_DEVICE_CONFIG_REMOTE_WAKEUP) && (USB_DEVICE_CONFIG_REMOTE_WAKEUP > 0U) + case kUSB_DeviceControlResume: +#if (defined(FSL_FEATURE_SOC_USBNC_COUNT) && (FSL_FEATURE_SOC_USBNC_COUNT > 0U)) + ehciState->registerNcBase->USB_OTGn_CTRL &= ~USBNC_USB_OTGn_CTRL_WIE_MASK; +#else + ehciState->registerBase->USBGENCTRL &= ~USBHS_USBGENCTRL_WU_IE_MASK; +#endif + ehciState->registerBase->PORTSC1 &= ~USBHS_PORTSC1_PHCD_MASK; + ehciState->registerBase->PORTSC1 |= USBHS_PORTSC1_FPR_MASK; + startTick = deviceHandle->hwTick; + while ((deviceHandle->hwTick - startTick) < 10) + { + __ASM("nop"); + } + ehciState->registerBase->PORTSC1 &= ~USBHS_PORTSC1_FPR_MASK; + error = kStatus_USB_Success; + break; +#endif /* USB_DEVICE_CONFIG_REMOTE_WAKEUP */ + case kUSB_DeviceControlSuspend: + ehciState->registerBase->OTGSC |= 0x007F0000U; + ehciState->registerPhyBase->PWD = 0xFFFFFFFF; + /* ehciState->registerBase->OTGCTL |= ((1U<<10) | (1U<<17) | (1U<<16)); */ + while (ehciState->registerPhyBase->CTRL & (USBPHY_CTRL_UTMI_SUSPENDM_MASK)) + { + __ASM("nop"); + } + /* ehciState->registerPhyBase->CTRL |= ((1U << 21) | (1U << 22) | (1U << 23)); */ + ehciState->registerBase->USBSTS |= USBHS_USBSTS_SRI_MASK; + ehciState->registerBase->PORTSC1 |= USBHS_PORTSC1_PHCD_MASK; +#if (defined(FSL_FEATURE_SOC_USBNC_COUNT) && (FSL_FEATURE_SOC_USBNC_COUNT > 0U)) + ehciState->registerPhyBase->CTRL |= USBPHY_CTRL_ENVBUSCHG_WKUP_MASK | USBPHY_CTRL_ENIDCHG_WKUP_MASK | + USBPHY_CTRL_ENDPDMCHG_WKUP_MASK | USBPHY_CTRL_ENIRQRESUMEDETECT_MASK; + ehciState->registerNcBase->USB_OTGn_CTRL |= USBNC_USB_OTGn_CTRL_WKUP_ID_EN_MASK | + USBNC_USB_OTGn_CTRL_WKUP_VBUS_EN_MASK | + USBNC_USB_OTGn_CTRL_WKUP_DPDM_EN_MASK; + ehciState->registerNcBase->USB_OTGn_CTRL |= USBNC_USB_OTGn_CTRL_WIE_MASK; +#else + ehciState->registerBase->USBGENCTRL = USBHS_USBGENCTRL_WU_IE_MASK; +#endif + ehciState->registerPhyBase->CTRL |= USBPHY_CTRL_CLKGATE_MASK; + ehciState->isSuspending = 1U; + error = kStatus_USB_Success; + break; +#endif /* USB_DEVICE_CONFIG_LOW_POWER_MODE */ + case kUSB_DeviceControlSetDefaultStatus: + for (uint8_t count = 0U; count < USB_DEVICE_CONFIG_ENDPOINTS; count++) + { + USB_DeviceEhciEndpointDeinit(ehciState, (count | (USB_IN << 0x07U))); + USB_DeviceEhciEndpointDeinit(ehciState, (count | (USB_OUT << 0x07U))); + } + USB_DeviceEhciSetDefaultState(ehciState); + error = kStatus_USB_Success; + break; + case kUSB_DeviceControlGetSpeed: + if (param) + { + temp8 = (uint8_t *)param; + *temp8 = ehciState->speed; + error = kStatus_USB_Success; + } + break; + case kUSB_DeviceControlGetOtgStatus: + break; + case kUSB_DeviceControlSetOtgStatus: + break; +#if (defined(USB_DEVICE_CONFIG_USB20_TEST_MODE) && (USB_DEVICE_CONFIG_USB20_TEST_MODE > 0U)) + case kUSB_DeviceControlSetTestMode: + if (param) + { + temp8 = (uint8_t *)param; + ehciState->registerBase->PORTSC1 |= ((uint32_t)(*temp8) << 16U); + error = kStatus_USB_Success; + } + break; +#endif +#if (defined(USB_DEVICE_CHARGER_DETECT_ENABLE) && (USB_DEVICE_CHARGER_DETECT_ENABLE > 0U)) && \ + (defined(FSL_FEATURE_SOC_USBHSDCD_COUNT) && (FSL_FEATURE_SOC_USBHSDCD_COUNT > 0U)) + case kUSB_DeviceControlDcdInitModule: + dcdHSState->dcdRegisterBase->CONTROL |= USBDCD_CONTROL_SR_MASK; + dcdHSState->dcdRegisterBase->TIMER0 = USBDCD_TIMER0_TSEQ_INIT(deviceDcdTimingConfig->dcdSeqInitTime); + dcdHSState->dcdRegisterBase->TIMER1 = USBDCD_TIMER1_TDCD_DBNC(deviceDcdTimingConfig->dcdDbncTime); + dcdHSState->dcdRegisterBase->TIMER1 |= USBDCD_TIMER1_TVDPSRC_ON(deviceDcdTimingConfig->dcdDpSrcOnTime); + dcdHSState->dcdRegisterBase->TIMER2_BC12 = + USBDCD_TIMER2_BC12_TWAIT_AFTER_PRD(deviceDcdTimingConfig->dcdTimeWaitAfterPrD); + dcdHSState->dcdRegisterBase->TIMER2_BC12 |= + USBDCD_TIMER2_BC12_TVDMSRC_ON(deviceDcdTimingConfig->dcdTimeDMSrcOn); + dcdHSState->dcdRegisterBase->CONTROL |= USBDCD_CONTROL_IE_MASK; + dcdHSState->dcdRegisterBase->CONTROL |= USBDCD_CONTROL_BC12_MASK; + dcdHSState->dcdRegisterBase->CONTROL |= USBDCD_CONTROL_START_MASK; + break; + case kUSB_DeviceControlDcdDeinitModule: + dcdHSState->dcdRegisterBase->CONTROL |= USBDCD_CONTROL_SR_MASK; + break; +#endif + + default: + break; + } + + return error; +} + +/*! + * @brief Handle the EHCI device interrupt. + * + * The function is used to handle the EHCI device interrupt. + * + * @param deviceHandle The device handle got from USB_DeviceInit. + * + */ +void USB_DeviceEhciIsrFunction(void *deviceHandle) +{ + usb_device_struct_t *handle = (usb_device_struct_t *)deviceHandle; + usb_device_ehci_state_struct_t *ehciState; + uint32_t status; + + if (NULL == deviceHandle) + { + return; + } + + ehciState = (usb_device_ehci_state_struct_t *)(handle->controllerHandle); + +#if ((defined(USB_DEVICE_CONFIG_LOW_POWER_MODE)) && (USB_DEVICE_CONFIG_LOW_POWER_MODE > 0U)) + +#if (defined(FSL_FEATURE_SOC_USBNC_COUNT) && (FSL_FEATURE_SOC_USBNC_COUNT > 0U)) + + if (ehciState->registerNcBase->USB_OTGn_CTRL & USBNC_USB_OTGn_CTRL_WIE_MASK) + { + if (ehciState->registerNcBase->USB_OTGn_CTRL & USBNC_USB_OTGn_CTRL_WIR_MASK) + { + ehciState->registerBase->PORTSC1 &= ~USBHS_PORTSC1_PHCD_MASK; + ehciState->registerNcBase->USB_OTGn_CTRL &= ~USBNC_USB_OTGn_CTRL_WIE_MASK; + } + } + else + { + } + +#else + if (ehciState->registerBase->USBGENCTRL & USBHS_USBGENCTRL_WU_IE_MASK) + { + if (ehciState->registerBase->USBGENCTRL & (1U << 8)) + { + ehciState->registerBase->USBGENCTRL &= ~(1U << 8); + ehciState->registerBase->USBGENCTRL |= USBHS_USBGENCTRL_WU_INT_CLR_MASK; + ehciState->registerBase->PORTSC1 &= ~USBHS_PORTSC1_PHCD_MASK; + ehciState->registerBase->USBGENCTRL &= ~USBHS_USBGENCTRL_WU_IE_MASK; + } + } + else + { + } +#endif + +#endif + +#if defined(USB_DEVICE_CONFIG_DETACH_ENABLE) && (USB_DEVICE_CONFIG_DETACH_ENABLE > 0U) + if (ehciState->registerBase->OTGSC & USBHS_OTGSC_BSVIS_MASK) + { + usb_device_callback_message_struct_t message; + + ehciState->registerBase->OTGSC |= USBHS_OTGSC_BSVIS_MASK; + + message.buffer = (uint8_t *)NULL; + message.length = 0U; + message.isSetup = 0U; + if (ehciState->registerBase->OTGSC & USBHS_OTGSC_BSV_MASK) + { + /* Device is connected to a host. */ + message.code = kUSB_DeviceNotifyAttach; + USB_DeviceNotificationTrigger(ehciState->deviceHandle, &message); + } + else + { + /* Device is disconnected from a host. */ + message.code = kUSB_DeviceNotifyDetach; + USB_DeviceNotificationTrigger(ehciState->deviceHandle, &message); + } + } +#endif /* USB_DEVICE_CONFIG_DETACH_ENABLE */ + + status = ehciState->registerBase->USBSTS; + status &= ehciState->registerBase->USBINTR; + + ehciState->registerBase->USBSTS = status; + +#if defined(USB_DEVICE_CONFIG_ERROR_HANDLING) && (USB_DEVICE_CONFIG_ERROR_HANDLING > 0U) + if (status & USBHS_USBSTS_UEI_MASK) + { + /* Error interrupt */ + USB_DeviceEhciInterruptError(ehciState); + } +#endif /* USB_DEVICE_CONFIG_ERROR_HANDLING */ + + if (status & USBHS_USBSTS_URI_MASK) + { + /* Reset interrupt */ + USB_DeviceEhciInterruptReset(ehciState); + } + + if (status & USBHS_USBSTS_UI_MASK) + { + /* Token done interrupt */ + USB_DeviceEhciInterruptTokenDone(ehciState); + } + + if (status & USBHS_USBSTS_PCI_MASK) + { + /* Port status change interrupt */ + USB_DeviceEhciInterruptPortChange(ehciState); + } + +#if (defined(USB_DEVICE_CONFIG_LOW_POWER_MODE) && (USB_DEVICE_CONFIG_LOW_POWER_MODE > 0U)) + if (status & USBHS_USBSTS_SLI_MASK) + { + /* Suspend interrupt */ + USB_DeviceEhciInterruptSuspend(ehciState); + } +#endif /* USB_DEVICE_CONFIG_LOW_POWER_MODE */ + + if (status & USBHS_USBSTS_SRI_MASK) + { + /* Sof interrupt */ + USB_DeviceEhciInterruptSof(ehciState); + } +} + +#if (defined(USB_DEVICE_CHARGER_DETECT_ENABLE) && (USB_DEVICE_CHARGER_DETECT_ENABLE > 0U)) && \ + (defined(FSL_FEATURE_SOC_USBHSDCD_COUNT) && (FSL_FEATURE_SOC_USBHSDCD_COUNT > 0U)) +void USB_DeviceDcdHSIsrFunction(void *deviceHandle) +{ + usb_device_struct_t *handle = (usb_device_struct_t *)deviceHandle; + usb_device_ehci_state_struct_t *ehciState; + usb_device_dcd_state_struct_t *dcdHSState; + uint32_t status; + uint32_t chargerType; + usb_device_callback_message_struct_t message; + + if (NULL == deviceHandle) + { + return; + } + + ehciState = (usb_device_ehci_state_struct_t *)(handle->controllerHandle); + + dcdHSState = &s_UsbDeviceDcdHSState[ehciState->controllerId - kUSB_ControllerEhci0]; + + status = dcdHSState->dcdRegisterBase->STATUS; + + dcdHSState->dcdRegisterBase->CONTROL |= USBDCD_CONTROL_IACK_MASK; + + message.buffer = (uint8_t *)NULL; + message.length = 0U; + message.isSetup = 0U; + + if (status & USBDCD_STATUS_ERR_MASK) + { + if (status & USBDCD_STATUS_TO_MASK) + { + dcdHSState->dcdRegisterBase->CONTROL |= USBDCD_CONTROL_SR_MASK; + message.code = kUSB_DeviceNotifyDcdTimeOut; + USB_DeviceNotificationTrigger(dcdHSState->deviceHandle, &message); + } + else + { + dcdHSState->dcdRegisterBase->CONTROL |= USBDCD_CONTROL_SR_MASK; + message.code = kUSB_DeviceNotifyDcdUnknownPortType; + USB_DeviceNotificationTrigger(dcdHSState->deviceHandle, &message); + } + } + else + { + switch (status & USBDCD_STATUS_SEQ_STAT_MASK) + { + case USBDCD_STATUS_SEQ_STAT(kUSB_DcdChargingPortDetectionCompleted): + chargerType = status & USBDCD_STATUS_SEQ_RES_MASK; + if (chargerType == USBDCD_STATUS_SEQ_RES(kUSB_DcdDetectionStandardHost)) + { + dcdHSState->dcdRegisterBase->CONTROL |= USBDCD_CONTROL_SR_MASK; + message.code = kUSB_DeviceNotifySDPDetected; + USB_DeviceNotificationTrigger(dcdHSState->deviceHandle, &message); + } + else if (chargerType == USBDCD_STATUS_SEQ_RES(kUSB_DcdDetectionChargingPort)) + { + message.code = kUSB_DeviceNotifyChargingPortDetected; + USB_DeviceNotificationTrigger(dcdHSState->deviceHandle, &message); + } + break; + case USBDCD_STATUS_SEQ_STAT(kUSB_DcdChargerTypeDetectionCompleted): + chargerType = status & USBDCD_STATUS_SEQ_RES_MASK; + if (chargerType == USBDCD_STATUS_SEQ_RES(kUSB_DcdDetectionChargingPort)) + { + dcdHSState->dcdRegisterBase->CONTROL |= USBDCD_CONTROL_SR_MASK; + message.code = kUSB_DeviceNotifyChargingHostDetected; + USB_DeviceNotificationTrigger(dcdHSState->deviceHandle, &message); + } + else if (chargerType == USBDCD_STATUS_SEQ_RES(kUSB_DcdDetectionDedicatedCharger)) + { + dcdHSState->dcdRegisterBase->CONTROL |= USBDCD_CONTROL_SR_MASK; + message.code = kUSB_DeviceNotifyDedicatedChargerDetected; + USB_DeviceNotificationTrigger(dcdHSState->deviceHandle, &message); + } + break; + + default: + break; + } + } +} +#endif + +#endif /* USB_DEVICE_CONFIG_EHCI */ diff --git a/bsp/imxrt1052-evk/drivers/usb/device/usb_device_ehci.h b/bsp/imxrt1052-evk/drivers/usb/device/usb_device_ehci.h new file mode 100644 index 0000000000000000000000000000000000000000..869e0632639020680dc4f6e762004cc1a4aab755 --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/usb/device/usb_device_ehci.h @@ -0,0 +1,219 @@ +/* + * Copyright (c) 2015, Freescale Semiconductor, Inc. + * Copyright 2016 NXP + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * o Redistributions of source code must retain the above copyright notice, this list + * of conditions and the following disclaimer. + * + * o Redistributions in binary form must reproduce the above copyright notice, this + * list of conditions and the following disclaimer in the documentation and/or + * other materials provided with the distribution. + * + * o Neither the name of the copyright holder nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#ifndef __USB_DEVICE_EHCI_H__ +#define __USB_DEVICE_EHCI_H__ + +#include + +/*! + * @addtogroup usb_device_controller_ehci_driver + * @{ + */ + +/******************************************************************************* + * Definitions + ******************************************************************************/ + +/*! @brief The maximum value of ISO type maximum packet size for HS in USB specification 2.0 */ +#define USB_DEVICE_MAX_HS_ISO_MAX_PACKET_SIZE (1024U) + +/*! @brief The maximum value of interrupt type maximum packet size for HS in USB specification 2.0 */ +#define USB_DEVICE_MAX_HS_INTERUPT_MAX_PACKET_SIZE (1024U) + +/*! @brief The maximum value of bulk type maximum packet size for HS in USB specification 2.0 */ +#define USB_DEVICE_MAX_HS_BULK_MAX_PACKET_SIZE (512U) + +/*! @brief The maximum value of control type maximum packet size for HS in USB specification 2.0 */ +#define USB_DEVICE_MAX_HS_CONTROL_MAX_PACKET_SIZE (64U) + +/*! @brief EHCI state structure */ +typedef struct _usb_device_ehci_state_struct +{ + usb_device_struct_t *deviceHandle; /*!< Device handle used to identify the device object is belonged to */ + USBHS_Type *registerBase; /*!< The base address of the register */ +#if (defined(USB_DEVICE_CONFIG_LOW_POWER_MODE) && (USB_DEVICE_CONFIG_LOW_POWER_MODE > 0U)) + USBPHY_Type *registerPhyBase; /*!< The base address of the PHY register */ +#if (defined(FSL_FEATURE_SOC_USBNC_COUNT) && (FSL_FEATURE_SOC_USBNC_COUNT > 0U)) + USBNC_Type *registerNcBase; /*!< The base address of the USBNC register */ +#endif +#endif + usb_device_ehci_qh_struct_t *qh; /*!< The QH structure base address */ + usb_device_ehci_dtd_struct_t *dtd; /*!< The DTD structure base address */ + usb_device_ehci_dtd_struct_t *dtdFree; /*!< The idle DTD list head */ + usb_device_ehci_dtd_struct_t + *dtdHard[USB_DEVICE_CONFIG_ENDPOINTS * 2]; /*!< The transferring DTD list head for each endpoint */ + usb_device_ehci_dtd_struct_t + *dtdTail[USB_DEVICE_CONFIG_ENDPOINTS * 2]; /*!< The transferring DTD list tail for each endpoint */ + int8_t dtdCount; /*!< The idle DTD node count */ + uint8_t endpointCount; /*!< The endpoint number of EHCI */ + uint8_t isResetting; /*!< Whether a PORT reset is occurring or not */ + uint8_t controllerId; /*!< Controller ID */ + uint8_t speed; /*!< Current speed of EHCI */ + uint8_t isSuspending; /*!< Is suspending of the PORT */ +} usb_device_ehci_state_struct_t; + +#if (defined(USB_DEVICE_CHARGER_DETECT_ENABLE) && (USB_DEVICE_CHARGER_DETECT_ENABLE > 0U)) && \ + (defined(FSL_FEATURE_SOC_USBHSDCD_COUNT) && (FSL_FEATURE_SOC_USBHSDCD_COUNT > 0U)) +typedef struct _usb_device_dcd_state_struct +{ + usb_device_struct_t *deviceHandle; /*!< Device handle used to identify the device object belongs to */ + USBHSDCD_Type *dcdRegisterBase; /*!< The base address of the dcd module */ + uint8_t controllerId; /*!< Controller ID */ +} usb_device_dcd_state_struct_t; +#endif + +#if defined(__cplusplus) +extern "C" { +#endif + +/*! + * @name USB device EHCI functions + * @{ + */ + +/******************************************************************************* + * API + ******************************************************************************/ + +/*! + * @brief Initializes the USB device EHCI instance. + * + * This function initializes the USB device EHCI module specified by the controllerId. + * + * @param[in] controllerId The controller ID of the USB IP. See the enumeration type usb_controller_index_t. + * @param[in] handle Pointer of the device handle used to identify the device object is belonged to. + * @param[out] ehciHandle An out parameter used to return the pointer of the device EHCI handle to the caller. + * + * @return A USB error code or kStatus_USB_Success. + */ +usb_status_t USB_DeviceEhciInit(uint8_t controllerId, + usb_device_handle handle, + usb_device_controller_handle *ehciHandle); + +/*! + * @brief Deinitializes the USB device EHCI instance. + * + * This function deinitializes the USB device EHCI module. + * + * @param[in] ehciHandle Pointer of the device EHCI handle. + * + * @return A USB error code or kStatus_USB_Success. + */ +usb_status_t USB_DeviceEhciDeinit(usb_device_controller_handle ehciHandle); + +/*! + * @brief Sends data through a specified endpoint. + * + * This function sends data through a specified endpoint. + * + * @param[in] ehciHandle Pointer of the device EHCI handle. + * @param[in] endpointAddress Endpoint index. + * @param[in] buffer The memory address to hold the data need to be sent. + * @param[in] length The data length to be sent. + * + * @return A USB error code or kStatus_USB_Success. + * + * @note The return value means whether the sending request is successful or not. The transfer completion is indicated + * by the + * corresponding callback function. + * Currently, only one transfer request can be supported for a specific endpoint. + * If there is a specific requirement to support multiple transfer requests for a specific endpoint, the application + * should implement a queue in the application level. + * The subsequent transfer can begin only when the previous transfer is done (a notification is received through the + * endpoint + * callback). + */ +usb_status_t USB_DeviceEhciSend(usb_device_controller_handle ehciHandle, + uint8_t endpointAddress, + uint8_t *buffer, + uint32_t length); + +/*! + * @brief Receive data through a specified endpoint. + * + * This function Receives data through a specified endpoint. + * + * @param[in] ehciHandle Pointer of the device EHCI handle. + * @param[in] endpointAddress Endpoint index. + * @param[in] buffer The memory address to save the received data. + * @param[in] length The data length want to be received. + * + * @return A USB error code or kStatus_USB_Success. + * + * @note The return value just means if the receiving request is successful or not; the transfer done is notified by the + * corresponding callback function. + * Currently, only one transfer request can be supported for one specific endpoint. + * If there is a specific requirement to support multiple transfer requests for one specific endpoint, the application + * should implement a queue in the application level. + * The subsequent transfer could begin only when the previous transfer is done (get notification through the endpoint + * callback). + */ +usb_status_t USB_DeviceEhciRecv(usb_device_controller_handle ehciHandle, + uint8_t endpointAddress, + uint8_t *buffer, + uint32_t length); + +/*! + * @brief Cancels the pending transfer in a specified endpoint. + * + * The function is used to cancel the pending transfer in a specified endpoint. + * + * @param[in] ehciHandle Pointer of the device EHCI handle. + * @param[in] ep Endpoint address, bit7 is the direction of endpoint, 1U - IN, 0U - OUT. + * + * @return A USB error code or kStatus_USB_Success. + */ +usb_status_t USB_DeviceEhciCancel(usb_device_controller_handle ehciHandle, uint8_t ep); + +/*! + * @brief Controls the status of the selected item. + * + * The function is used to control the status of the selected item. + * + * @param[in] ehciHandle Pointer of the device EHCI handle. + * @param[in] type The selected item. See enumeration type usb_device_control_type_t. + * @param[in,out] param The parameter type is determined by the selected item. + * + * @return A USB error code or kStatus_USB_Success. + */ +usb_status_t USB_DeviceEhciControl(usb_device_controller_handle ehciHandle, + usb_device_control_type_t type, + void *param); + +/*! @} */ + +#if defined(__cplusplus) +} +#endif + +/*! @} */ + +#endif /* __USB_DEVICE_EHCI_H__ */ diff --git a/bsp/imxrt1052-evk/drivers/usb/host/usb_host.h b/bsp/imxrt1052-evk/drivers/usb/host/usb_host.h new file mode 100644 index 0000000000000000000000000000000000000000..53be402cd3640a5f3b9ce4bc181004cb00fc08a8 --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/usb/host/usb_host.h @@ -0,0 +1,726 @@ +/* + * Copyright (c) 2015 - 2016, Freescale Semiconductor, Inc. + * Copyright 2016 NXP + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * o Redistributions of source code must retain the above copyright notice, this list + * of conditions and the following disclaimer. + * + * o Redistributions in binary form must reproduce the above copyright notice, this + * list of conditions and the following disclaimer in the documentation and/or + * other materials provided with the distribution. + * + * o Neither the name of the copyright holder nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#ifndef _USB_HOST_H_ +#define _USB_HOST_H_ + +#include +#include +#include + +/******************************************************************************* + * Definitions + ******************************************************************************/ + +struct _usb_host_transfer; /* for cross reference */ + +/*! + * @addtogroup usb_host_drv + * @{ + */ + +/*! @brief USB host class handle type define */ +typedef void *usb_host_class_handle; + +/*! @brief USB host controller handle type define */ +typedef void *usb_host_controller_handle; + +/*! @brief USB host configuration handle type define */ +typedef void *usb_host_configuration_handle; + +/*! @brief USB host interface handle type define */ +typedef void *usb_host_interface_handle; + +/*! @brief USB host pipe handle type define */ +typedef void *usb_host_pipe_handle; + +/*! @brief Event codes for device attach/detach */ +typedef enum _usb_host_event +{ + kUSB_HostEventAttach = 1U, /*!< Device is attached */ + kUSB_HostEventDetach, /*!< Device is detached */ + kUSB_HostEventEnumerationDone, /*!< Device's enumeration is done and the device is supported */ + kUSB_HostEventNotSupported, /*!< Device's enumeration is done and the device is not supported */ +#if ((defined(USB_HOST_CONFIG_LOW_POWER_MODE)) && (USB_HOST_CONFIG_LOW_POWER_MODE > 0U)) + kUSB_HostEventNotSuspended, /*!< Suspend failed */ + kUSB_HostEventSuspended, /*!< Suspend successful */ + kUSB_HostEventNotResumed, /*!< Resume failed */ + kUSB_HostEventDetectResume, /*!< Detect resume signal */ + kUSB_HostEventResumed, /*!< Resume successful */ + kUSB_HostEventL1Sleeped, /*!< L1 Sleep successful,state transition was successful (ACK) */ + kUSB_HostEventL1SleepNYET, /*!< Device was unable to enter the L1 state at this time (NYET) */ + kUSB_HostEventL1SleepNotSupport, /*!< Device does not support the L1 state (STALL) */ + kUSB_HostEventL1SleepError, /*!< Device failed to respond or an error occurred */ + kUSB_HostEventL1NotResumed, /*!< Resume failed */ + kUSB_HostEventL1DetectResume, /*!< Detect resume signal */ + kUSB_HostEventL1Resumed, /*!< Resume successful */ +#endif +} usb_host_event_t; + +/*! @brief USB host device information code */ +typedef enum _usb_host_dev_info +{ + kUSB_HostGetDeviceAddress = 1U, /*!< Device's address */ + kUSB_HostGetDeviceHubNumber, /*!< Device's first hub address */ + kUSB_HostGetDevicePortNumber, /*!< Device's first hub port number */ + kUSB_HostGetDeviceSpeed, /*!< Device's speed */ + kUSB_HostGetDeviceHSHubNumber, /*!< Device's first high-speed hub address */ + kUSB_HostGetDeviceHSHubPort, /*!< Device's first high-speed hub number */ + kUSB_HostGetDeviceLevel, /*!< Device's hub level */ + kUSB_HostGetHostHandle, /*!< Device's host handle */ + kUSB_HostGetDeviceControlPipe, /*!< Device's control pipe handle */ + kUSB_HostGetDevicePID, /*!< Device's PID */ + kUSB_HostGetDeviceVID, /*!< Device's VID */ + kUSB_HostGetHubThinkTime, /*!< Device's hub total think time */ + kUSB_HostGetDeviceConfigIndex, /*!< Device's running zero-based config index */ + kUSB_HostGetConfigurationDes, /*!< Device's configuration descriptor pointer */ + kUSB_HostGetConfigurationLength, /*!< Device's configuration descriptor pointer */ +} usb_host_dev_info_t; + +/*! + * @brief Host callback function typedef. + * + * This callback function is used to notify application device attach/detach event. + * This callback pointer is passed when initializing the host. + * + * @param deviceHandle The device handle, which indicates the attached device. + * @param configurationHandle The configuration handle contains the attached device's configuration information. + * @param event_code The callback event code; See the enumeration host_event_t. + * + * @return A USB error code or kStatus_USB_Success. + * @retval kStatus_USB_Success Application handles the attached device successfully. + * @retval kStatus_USB_NotSupported Application don't support the attached device. + * @retval kStatus_USB_Error Application handles the attached device falsely. + */ +typedef usb_status_t (*host_callback_t)(usb_device_handle deviceHandle, + usb_host_configuration_handle configurationHandle, + uint32_t eventCode); + +/*! + * @brief Transfer callback function typedef. + * + * This callback function is used to notify the upper layer the result of the transfer. + * This callback pointer is passed when calling the send/receive APIs. + * + * @param param The parameter pointer, which is passed when calling the send/receive APIs. + * @param data The data buffer pointer. + * @param data_len The result data length. + * @param status A USB error code or kStatus_USB_Success. + */ +typedef void (*transfer_callback_t)(void *param, uint8_t *data, uint32_t dataLen, usb_status_t status); + +/*! + * @brief Host stack inner transfer callback function typedef. + * + * This callback function is used to notify the upper layer the result of a transfer. + * This callback pointer is passed when initializing the structure usb_host_transfer_t. + * + * @param param The parameter pointer, which is passed when calling the send/receive APIs. + * @param transfer The transfer information; See the structure usb_host_transfer_t. + * @param status A USB error code or kStatus_USB_Success. + */ +typedef void (*host_inner_transfer_callback_t)(void *param, struct _usb_host_transfer *transfer, usb_status_t status); + +/*! @brief USB host endpoint information structure */ +typedef struct _usb_host_ep +{ + usb_descriptor_endpoint_t *epDesc; /*!< Endpoint descriptor pointer*/ + uint8_t *epExtension; /*!< Endpoint extended descriptor pointer*/ + uint16_t epExtensionLength; /*!< Extended descriptor length*/ +} usb_host_ep_t; + +/*! @brief USB host interface information structure */ +typedef struct _usb_host_interface +{ + usb_host_ep_t epList[USB_HOST_CONFIG_INTERFACE_MAX_EP]; /*!< Endpoint array*/ + usb_descriptor_interface_t *interfaceDesc; /*!< Interface descriptor pointer*/ + uint8_t *interfaceExtension; /*!< Interface extended descriptor pointer*/ + uint16_t interfaceExtensionLength; /*!< Extended descriptor length*/ + uint8_t interfaceIndex; /*!< The interface index*/ + uint8_t alternateSettingNumber; /*!< The interface alternate setting value*/ + uint8_t epCount; /*!< Interface's endpoint number*/ +} usb_host_interface_t; + +/*! @brief USB host configuration information structure */ +typedef struct _usb_host_configuration +{ + usb_host_interface_t interfaceList[USB_HOST_CONFIG_CONFIGURATION_MAX_INTERFACE]; /*!< Interface array*/ + usb_descriptor_configuration_t *configurationDesc; /*!< Configuration descriptor pointer*/ + uint8_t *configurationExtension; /*!< Configuration extended descriptor pointer*/ + uint16_t configurationExtensionLength; /*!< Extended descriptor length*/ + uint8_t interfaceCount; /*!< The configuration's interface number*/ +} usb_host_configuration_t; + +/*! @brief USB host pipe common structure */ +typedef struct _usb_host_pipe +{ + struct _usb_host_pipe *next; /*!< Link the idle pipes*/ + usb_device_handle deviceHandle; /*!< This pipe's device's handle*/ + uint16_t currentCount; /*!< For KHCI transfer*/ + uint16_t nakCount; /*!< Maximum NAK count*/ + uint16_t maxPacketSize; /*!< Maximum packet size*/ + uint16_t interval; /*!< FS/LS: frame unit; HS: micro-frame unit*/ + uint8_t open; /*!< 0 - closed, 1 - open*/ + uint8_t nextdata01; /*!< Data toggle*/ + uint8_t endpointAddress; /*!< Endpoint address*/ + uint8_t direction; /*!< Pipe direction*/ + uint8_t pipeType; /*!< Pipe type, for example USB_ENDPOINT_BULK*/ + uint8_t numberPerUframe; /*!< Transaction number per micro-frame*/ +} usb_host_pipe_t; + +/*! @brief USB host transfer structure */ +typedef struct _usb_host_transfer +{ + struct _usb_host_transfer *next; /*!< The next transfer structure*/ + uint8_t *transferBuffer; /*!< Transfer data buffer*/ + uint32_t transferLength; /*!< Transfer data length*/ + uint32_t transferSofar; /*!< Length transferred so far*/ + host_inner_transfer_callback_t callbackFn; /*!< Transfer callback function*/ + void *callbackParam; /*!< Transfer callback parameter*/ + usb_host_pipe_t *transferPipe; /*!< Transfer pipe pointer*/ + usb_setup_struct_t *setupPacket; /*!< Set up packet buffer*/ + uint8_t direction; /*!< Transfer direction; it's values are USB_OUT or USB_IN*/ + uint8_t setupStatus; /*!< Set up the transfer status*/ + union + { + uint32_t unitHead; /*!< xTD head for this transfer*/ + int32_t transferResult; /*!< KHCI transfer result */ + } union1; + + union + { + uint32_t unitTail; /*! 0U)) +/*! + * @brief Send a bus or device suspend request. + * + * This function is used to send a bus or device suspend request. + * + * @param[in] hostHandle The host handle. + * @param[in] deviceHandle The device handle. + * + * @retval kStatus_USB_Success Request successfully. + * @retval kStatus_USB_InvalidHandle The hostHandle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_Error There is no idle transfer. + * Or, the deviceHandle is invalid. + * Or, the request is invalid. + */ +extern usb_status_t USB_HostSuspendDeviceResquest(usb_host_handle hostHandle, usb_device_handle deviceHandle); + +/*! + * @brief Send a bus or device resume request. + * + * This function is used to send a bus or device resume request. + * + * @param[in] hostHandle The host handle. + * @param[in] deviceHandle The device handle. + * + * @retval kStatus_USB_Success Request successfully. + * @retval kStatus_USB_InvalidHandle The hostHandle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_Error There is no idle transfer. + * Or, the deviceHandle is invalid. + * Or, the request is invalid. + */ +extern usb_status_t USB_HostResumeDeviceResquest(usb_host_handle hostHandle, usb_device_handle deviceHandle); +#if ((defined(USB_HOST_CONFIG_LPM_L1)) && (USB_HOST_CONFIG_LPM_L1 > 0U)) +/*! + * @brief Send a bus or device suspend request. + * + * This function is used to send a bus or device suspend request. + * + * @param[in] hostHandle The host handle. + * @param[in] deviceHandle The device handle. + *@param[in] sleeptype Bus suspend or single device suspend. + * + * @retval kStatus_USB_Success Request successfully. + * @retval kStatus_USB_InvalidHandle The hostHandle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_Error There is no idle transfer. + * Or, the deviceHandle is invalid. + * Or, the request is invalid. + */ +extern usb_status_t USB_HostL1SleepDeviceResquest(usb_host_handle hostHandle, + usb_device_handle deviceHandle, + uint8_t sleeptype); + +/*! + * @brief Send a bus or device resume request. + * + * This function is used to send a bus or device resume request. + * + * @param[in] hostHandle The host handle. + * @param[in] deviceHandle The device handle. + * *@param[in] sleeptype Bus suspend or single device suspend. + * + * @retval kStatus_USB_Success Request successfully. + * @retval kStatus_USB_InvalidHandle The hostHandle is a NULL pointer. Or the controller handle is invalid. + * @retval kStatus_USB_Error There is no idle transfer. + * Or, the deviceHandle is invalid. + * Or, the request is invalid. + */ +extern usb_status_t USB_HostL1ResumeDeviceResquest(usb_host_handle hostHandle, + usb_device_handle deviceHandle, + uint8_t sleepType); +/*! + * @brief Update the lpm param. + * + * The function is used to configuure the lpm token. + * + * @param[in] hostHandle The host handle. + * @param[in] lpmParam HIRD vaule and whether enable remotewakeup. + * + */ +extern usb_status_t USB_HostL1SleepDeviceResquestConfig(usb_host_handle hostHandle, uint8_t *lpmParam); +#endif +/*! + * @brief Update the hardware tick. + * + * The function is used to update the hardware tick. + * + * @param[in] hostHandle The host handle. + * @param[in] tick Current hardware tick(uint is ms). + * + */ +extern usb_status_t USB_HostUpdateHwTick(usb_host_handle hostHandle, uint64_t tick); + +#endif + +/*! @}*/ + +#ifdef __cplusplus +} +#endif + +/*! @}*/ + +#endif /* _USB_HOST_H_ */ diff --git a/bsp/imxrt1052-evk/drivers/usb/host/usb_host_devices.c b/bsp/imxrt1052-evk/drivers/usb/host/usb_host_devices.c new file mode 100644 index 0000000000000000000000000000000000000000..42b16e071ed3a27144f98a7fa2c01e1101a0b166 --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/usb/host/usb_host_devices.c @@ -0,0 +1,1414 @@ +/* + * Copyright (c) 2015 - 2016, Freescale Semiconductor, Inc. + * Copyright 2016 NXP + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * o Redistributions of source code must retain the above copyright notice, this list + * of conditions and the following disclaimer. + * + * o Redistributions in binary form must reproduce the above copyright notice, this + * list of conditions and the following disclaimer in the documentation and/or + * other materials provided with the distribution. + * + * o Neither the name of the copyright holder nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#include +#include "usb_host.h" +#include "usb_host_hci.h" +#include "usb_host_devices.h" + +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) +#include "usb_host_hub.h" +#endif /* USB_HOST_CONFIG_HUB */ + +/******************************************************************************* + * Definitions + ******************************************************************************/ + +/******************************************************************************* + * Prototypes + ******************************************************************************/ + +/*! + * @brief enumeration transfer callback function. + * + * @param param callback parameter. + * @param transfer the transfer. + * @param status transfer result status. + */ +static void USB_HostEnumerationTransferCallback(void *param, usb_host_transfer_t *transfer, usb_status_t status); + +/*! + * @brief process the new step state. + * + * @param deviceInstance device instance pointer. + * + * @return kStatus_USB_Success or error codes + */ +static usb_status_t USB_HostProcessState(usb_host_device_instance_t *deviceInstance); + +/*! + * @brief process the previous step transfer result. + * + * @param deviceInstance device instance pointer. + * + * @return kStatus_USB_Success or error codes + */ +static usb_status_t USB_HostProcessCallback(usb_host_device_instance_t *deviceInstance); + +/*! + * @brief notify the application event, the callback is registered when initializing host. + * + * @param deviceInstance device instance pointer. + * @param eventCode event code. + * + * @return kStatus_USB_Success or error codes + */ +static usb_status_t USB_HostNotifyDevice(usb_host_device_instance_t *deviceInstance, uint32_t eventCode); + +/*! + * @brief allocate one address. + * + * @param hostInstance host instance pointer. + * + * @return address, 0 is invalid. + */ +static uint8_t USB_HostAllocateDeviceAddress(usb_host_instance_t *hostInstance); + +/*! + * @brief release one address. + * + * @param hostInstance host instance pointer. + * @param address releasing address. + */ +static void USB_HostReleaseDeviceAddress(usb_host_instance_t *hostInstance, uint8_t address); + +/*! + * @brief release device resource. + * + * @param hostInstance host instance pointer. + * @param deviceInstance device instance pointer. + */ +static void USB_HostReleaseDeviceResource(usb_host_instance_t *hostInstance, + usb_host_device_instance_t *deviceInstance); + +/*! + * @brief parse device configuration descriptor. + * + * @param deviceHandle device handle. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostParseDeviceConfigurationDescriptor(usb_device_handle deviceHandle); + +/*! + * @brief remove device instance from host device list. + * + * @param hostHandle host instance handle. + * @param deviceHandle device handle. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostRemoveDeviceInstance(usb_host_handle hostHandle, usb_device_handle deviceHandle); + +/*! + * @brief control the bus. + * + * This function control the host bus. + * + * @param[in] hostHandle the host handle. + * @param[in] controlType the control code, please reference to bus_event_t. + * + * @retval kStatus_USB_Success control successfully. + * @retval kStatus_USB_InvalidHandle The hostHandle is a NULL pointer. + */ +static usb_status_t USB_HostControlBus(usb_host_handle hostHandle, uint8_t controlType); + +extern usb_status_t USB_HostStandardSetGetDescriptor(usb_host_device_instance_t *deviceInstance, + usb_host_transfer_t *transfer, + void *param); +extern usb_status_t USB_HostStandardSetAddress(usb_host_device_instance_t *deviceInstance, + usb_host_transfer_t *transfer, + void *param); +extern usb_status_t USB_HostCh9RequestCommon(usb_host_device_instance_t *deviceInstance, + usb_host_transfer_t *transfer, + uint8_t *buffer, + uint32_t bufferLen); + +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + +extern usb_status_t USB_HostHubDeviceEvent(usb_host_handle hostHandle, + usb_device_handle deviceHandle, + usb_host_configuration_handle configurationHandle, + uint32_t eventCode); + +extern uint32_t USB_HostHubGetHsHubNumber(usb_host_handle hostHandle, uint8_t parentHubNo); + +extern uint32_t USB_HostHubGetHsHubPort(usb_host_handle hostHandle, uint8_t parentHubNo, uint8_t parentPortNo); + +extern usb_status_t USB_HostHubRemovePort(usb_host_handle hostHandle, uint8_t hubNumber, uint8_t portNumber); + +#endif + +/******************************************************************************* + * Variables + ******************************************************************************/ + +extern usb_host_instance_t g_UsbHostInstance[USB_HOST_CONFIG_MAX_HOST]; + +/*! @brief enumeration step process array */ +static const usb_host_enum_process_entry_t s_EnumEntries[] = \ +{ + /* kStatus_dev_initial */ + { + 0, 0, NULL, + }, + /* kStatus_DEV_GetDes8 */ + { + kStatus_DEV_SetAddress, kStatus_DEV_GetDes8, USB_HostProcessCallback, + }, + /* kStatus_DEV_SetAddress */ + { + kStatus_DEV_GetDes, kStatus_DEV_SetAddress, USB_HostProcessCallback, + }, + /* kStatus_DEV_GetDes */ + { + kStatus_DEV_GetCfg9, kStatus_DEV_GetDes, NULL, + }, + /* kStatus_DEV_GetCfg9 */ + { + kStatus_DEV_GetCfg, kStatus_DEV_GetCfg9, USB_HostProcessCallback, + }, + /* kStatus_DEV_GetCfg */ + { + kStatus_DEV_SetCfg, kStatus_DEV_GetCfg9, USB_HostProcessCallback, + }, + /* kStatus_DEV_SetCfg */ + { + kStatus_DEV_EnumDone, kStatus_DEV_SetCfg, NULL, + }, +}; + +/******************************************************************************* + * Code + ******************************************************************************/ + +static void USB_HostEnumerationTransferCallback(void *param, usb_host_transfer_t *transfer, usb_status_t status) +{ + uint8_t nextStep = 0; + usb_host_device_instance_t *deviceInstance = (usb_host_device_instance_t *)param; + + USB_HostFreeTransfer(deviceInstance->hostHandle, transfer); /* free transfer */ + + if (status == kStatus_USB_Success) + { + nextStep = 1; + } + else if (status == kStatus_USB_TransferStall) + { +#if ((defined USB_HOST_CONFIG_COMPLIANCE_TEST) && (USB_HOST_CONFIG_COMPLIANCE_TEST)) + usb_echo("no response from device\r\n"); +#endif /* USB_HOST_CONFIG_COMPLIANCE_TEST */ + if (deviceInstance->stallRetries > 0) /* retry same transfer when stall */ + { + deviceInstance->stallRetries--; + } + else /* process next state when all retries stall */ + { + nextStep = 1; + } + } + else if (status == kStatus_USB_TransferCancel) + { + return; + } + else + { + if (deviceInstance->enumRetries > 0) /* next whole retry */ + { + deviceInstance->enumRetries--; + deviceInstance->stallRetries = USB_HOST_CONFIG_ENUMERATION_MAX_STALL_RETRIES; + deviceInstance->configurationValue = 0; + deviceInstance->state = kStatus_DEV_GetDes8; + } + else + { +#if ((defined USB_HOST_CONFIG_COMPLIANCE_TEST) && (USB_HOST_CONFIG_COMPLIANCE_TEST)) + usb_echo("Device No Response\r\n"); +#endif + return; + } + } + + if (nextStep == 1) + { + deviceInstance->stallRetries = USB_HOST_CONFIG_ENUMERATION_MAX_STALL_RETRIES; + if (s_EnumEntries[deviceInstance->state - 1].process == NULL) + { + deviceInstance->state = s_EnumEntries[deviceInstance->state - 1].successState; /* next state */ + } + else + { + status = s_EnumEntries[deviceInstance->state - 1].process( + deviceInstance); /* process the previous state result */ + if (status == kStatus_USB_Success) /* process success */ + { + deviceInstance->state = s_EnumEntries[deviceInstance->state - 1].successState; + } + else if (status == kStatus_USB_Retry) /* need retry */ + { + deviceInstance->state = s_EnumEntries[deviceInstance->state - 1].retryState; + } + else if (status == kStatus_USB_NotSupported) /* device don't suport by the application */ + { + return; /* unrecoverable fail */ + } + else /* process error, next retry */ + { + if (deviceInstance->enumRetries > 0) /* next whole retry */ + { + deviceInstance->enumRetries--; + deviceInstance->stallRetries = USB_HOST_CONFIG_ENUMERATION_MAX_STALL_RETRIES; + deviceInstance->configurationValue = 0; + deviceInstance->state = kStatus_DEV_GetDes8; + } + else + { +#if ((defined USB_HOST_CONFIG_COMPLIANCE_TEST) && (USB_HOST_CONFIG_COMPLIANCE_TEST)) + usb_echo("Device No Response\r\n"); +#endif + return; /* unrecoverable fail */ + } + } + } + } + + if (USB_HostProcessState(deviceInstance) != kStatus_USB_Success) /* process the new state */ + { +#ifdef HOST_ECHO + usb_echo("enumation setup error\r\n"); +#endif + return; + } +} + +static usb_status_t USB_HostProcessState(usb_host_device_instance_t *deviceInstance) +{ + usb_status_t status = kStatus_USB_Success; + usb_host_process_descriptor_param_t getDescriptorParam; + usb_host_transfer_t *transfer; + + /* malloc transfer */ + if (deviceInstance->state != kStatus_DEV_EnumDone) + { + if (USB_HostMallocTransfer(deviceInstance->hostHandle, &transfer) != kStatus_USB_Success) + { +#ifdef HOST_ECHO + usb_echo("error to get transfer\r\n"); +#endif + return kStatus_USB_Error; + } + transfer->callbackFn = USB_HostEnumerationTransferCallback; + transfer->callbackParam = deviceInstance; + + /* reset transfer fields */ + transfer->setupPacket->bmRequestType = 0x00; + transfer->setupPacket->wIndex = 0; + transfer->setupPacket->wLength = 0; + transfer->setupPacket->wValue = 0; + } + + switch (deviceInstance->state) + { + case kStatus_DEV_GetDes8: + case kStatus_DEV_GetDes: /* get descriptor state */ + getDescriptorParam.descriptorLength = sizeof(usb_descriptor_device_t); + if (deviceInstance->state == kStatus_DEV_GetDes8) + { + getDescriptorParam.descriptorLength = 8; + } + getDescriptorParam.descriptorBuffer = (uint8_t *)deviceInstance->deviceDescriptor; + getDescriptorParam.descriptorType = USB_DESCRIPTOR_TYPE_DEVICE; + getDescriptorParam.descriptorIndex = 0; + getDescriptorParam.languageId = 0; + + transfer->setupPacket->bmRequestType |= USB_REQUEST_TYPE_DIR_IN; + transfer->setupPacket->bRequest = USB_REQUEST_STANDARD_GET_DESCRIPTOR; + status = USB_HostStandardSetGetDescriptor(deviceInstance, transfer, &getDescriptorParam); + break; + case kStatus_DEV_SetAddress: /* set address state */ + transfer->setupPacket->bRequest = USB_REQUEST_STANDARD_SET_ADDRESS; + status = USB_HostStandardSetAddress(deviceInstance, transfer, &deviceInstance->allocatedAddress); + break; + + case kStatus_DEV_GetCfg9: /* get 9 bytes configuration state */ + getDescriptorParam.descriptorBuffer = deviceInstance->enumBuffer; + getDescriptorParam.descriptorType = USB_DESCRIPTOR_TYPE_CONFIGURE; + getDescriptorParam.descriptorIndex = deviceInstance->configurationValue; + getDescriptorParam.descriptorLength = 9; + getDescriptorParam.languageId = 0; + + transfer->setupPacket->bmRequestType |= USB_REQUEST_TYPE_DIR_IN; + transfer->setupPacket->bRequest = USB_REQUEST_STANDARD_GET_DESCRIPTOR; + status = USB_HostStandardSetGetDescriptor(deviceInstance, transfer, &getDescriptorParam); + break; + + case kStatus_DEV_GetCfg: /* get configuration state */ + getDescriptorParam.descriptorBuffer = deviceInstance->configurationDesc; + getDescriptorParam.descriptorType = USB_DESCRIPTOR_TYPE_CONFIGURE; + getDescriptorParam.descriptorIndex = deviceInstance->configurationValue; + getDescriptorParam.descriptorLength = deviceInstance->configurationLen; + getDescriptorParam.languageId = 0; + + transfer->setupPacket->bmRequestType |= USB_REQUEST_TYPE_DIR_IN; + transfer->setupPacket->bRequest = USB_REQUEST_STANDARD_GET_DESCRIPTOR; + status = USB_HostStandardSetGetDescriptor(deviceInstance, transfer, &getDescriptorParam); + break; + + case kStatus_DEV_SetCfg: /* set configuration state */ + transfer->setupPacket->wValue = + USB_SHORT_TO_LITTLE_ENDIAN(deviceInstance->configuration.configurationDesc->bConfigurationValue); + transfer->setupPacket->bRequest = USB_REQUEST_STANDARD_SET_CONFIGURATION; + status = USB_HostCh9RequestCommon(deviceInstance, transfer, NULL, 0); + break; + + case kStatus_DEV_EnumDone: /* enumeration done state */ + status = USB_HostNotifyDevice(deviceInstance, + kUSB_HostEventEnumerationDone); /* notify device enumeration done */ + if (status == kStatus_USB_Success) + { + deviceInstance->state = kStatus_DEV_AppUsed; + } + break; + + default: + break; + } + + return status; +} + +static usb_status_t USB_HostProcessCallback(usb_host_device_instance_t *deviceInstance) +{ + usb_host_pipe_t *pipe = (usb_host_pipe_t *)deviceInstance->controlPipe; + usb_status_t status = kStatus_USB_Success; + usb_descriptor_configuration_t *configureDesc; + usb_host_instance_t *hostInstance = (usb_host_instance_t *)deviceInstance->hostHandle; + + switch (deviceInstance->state) + { + case kStatus_DEV_GetDes8: /* process get 8 bytes descriptor result */ + pipe->maxPacketSize = deviceInstance->deviceDescriptor->bMaxPacketSize0; + hostInstance->controllerTable->controllerIoctl( + hostInstance->controllerHandle, kUSB_HostUpdateControlPacketSize, deviceInstance->controlPipe); + break; + + case kStatus_DEV_SetAddress: /* process set address result */ + deviceInstance->setAddress = deviceInstance->allocatedAddress; + hostInstance->controllerTable->controllerIoctl( + hostInstance->controllerHandle, kUSB_HostUpdateControlEndpointAddress, deviceInstance->controlPipe); + break; + + case kStatus_DEV_GetDes: /* process set address result */ + /* NULL */ + break; + + case kStatus_DEV_GetCfg9: /* process get 9 bytes configuration result */ + configureDesc = (usb_descriptor_configuration_t *)&deviceInstance->enumBuffer[0]; + + deviceInstance->configurationLen = USB_SHORT_FROM_LITTLE_ENDIAN_ADDRESS(configureDesc->wTotalLength); + if (deviceInstance->configurationDesc != NULL) + { +#if ((defined(USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE)) && (USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE > 0U)) + SDK_Free(deviceInstance->configurationDesc); +#else + USB_OsaMemoryFree(deviceInstance->configurationDesc); +#endif + deviceInstance->configurationDesc = NULL; + } + /* for KHCI, the start address and the length should be 4 byte align */ + if ((deviceInstance->configurationLen & 0x03) != 0) + { +#if ((defined(USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE)) && (USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE > 0U)) + deviceInstance->configurationDesc = + (uint8_t *)SDK_Malloc((deviceInstance->configurationLen & 0xFFFFFFFCu) + 4, USB_CACHE_LINESIZE); +#else + deviceInstance->configurationDesc = + (uint8_t *)USB_OsaMemoryAllocate((deviceInstance->configurationLen & 0xFFFFFFFCu) + 4); +#endif + } + else + { +#if ((defined(USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE)) && (USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE > 0U)) + deviceInstance->configurationDesc = + (uint8_t *)SDK_Malloc(deviceInstance->configurationLen, USB_CACHE_LINESIZE); +#else + deviceInstance->configurationDesc = (uint8_t *)USB_OsaMemoryAllocate(deviceInstance->configurationLen); +#endif + } + if (deviceInstance->configurationDesc == NULL) + { + return kStatus_USB_Error; + } + break; + + case kStatus_DEV_GetCfg: /* process get cofiguration result */ + if (((usb_descriptor_configuration_t *)deviceInstance->configurationDesc)->bMaxPower > + USB_HOST_CONFIG_MAX_POWER) + { + return kStatus_USB_Error; + } + deviceInstance->configurationValue++; + if (USB_HostParseDeviceConfigurationDescriptor(deviceInstance) != + kStatus_USB_Success) /* parse configuration descriptor */ + { + return kStatus_USB_Error; + } + + status = USB_HostNotifyDevice(deviceInstance, kUSB_HostEventAttach); + + if (status != kStatus_USB_Success) + { + /* next configuration */ + if (deviceInstance->configurationValue < deviceInstance->deviceDescriptor->bNumConfigurations) + { + return kStatus_USB_Retry; + } + else + { + USB_HostNotifyDevice(deviceInstance, + kUSB_HostEventNotSupported); /* notify application device is not supported */ + return kStatus_USB_NotSupported; + } + } + break; + + case kStatus_DEV_SetCfg: + /* NULL */ + break; + + default: + break; + } + + return status; +} + +static usb_status_t USB_HostNotifyDevice(usb_host_device_instance_t *deviceInstance, uint32_t eventCode) +{ + usb_host_instance_t *hostInstance; + usb_status_t status1 = kStatus_USB_Error; +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + usb_status_t status2 = kStatus_USB_Error; + uint8_t haveHub; + uint8_t haveNoHub; + uint8_t interfaceIndex; +#endif /* USB_HOST_CONFIG_HUB */ + + if (deviceInstance == NULL) + { + return kStatus_USB_InvalidHandle; + } + hostInstance = (usb_host_instance_t *)deviceInstance->hostHandle; + +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + haveHub = 0; + haveNoHub = 0; + for (interfaceIndex = 0; interfaceIndex < deviceInstance->configuration.interfaceCount; ++interfaceIndex) + { + if (((usb_descriptor_interface_t *)deviceInstance->configuration.interfaceList[interfaceIndex].interfaceDesc) + ->bInterfaceClass == USB_HOST_HUB_CLASS_CODE) + { + haveHub = 1; + } + else + { + haveNoHub = 1; + } + } + + if ((haveNoHub == 1) && (hostInstance->deviceCallback != NULL)) + { + status1 = hostInstance->deviceCallback(deviceInstance, &deviceInstance->configuration, + eventCode); /* notify application event */ + } + if (haveHub) + { + status2 = USB_HostHubDeviceEvent(hostInstance, deviceInstance, &deviceInstance->configuration, + eventCode); /* notify hub event */ + } + + if ((status1 == kStatus_USB_Success) || (status2 == kStatus_USB_Success)) /* the device is supported */ + { + return kStatus_USB_Success; + } + else if (eventCode == kUSB_HostEventAttach) /* attach event */ + { + status1 = kStatus_USB_NotSupported; + } + else + { + status1 = kStatus_USB_Error; + } +#else + if (hostInstance->deviceCallback != NULL) + { + status1 = hostInstance->deviceCallback(deviceInstance, &deviceInstance->configuration, + eventCode); /* call host callback function */ + } +#endif + return status1; +} + +static uint8_t USB_HostAllocateDeviceAddress(usb_host_instance_t *hostInstance) +{ + uint8_t address = 0; + uint8_t addressIndex; + uint8_t addressBitIndex; + for (addressIndex = 0; addressIndex < 8; ++addressIndex) /* find the idle address postion byte */ + { + if (hostInstance->addressBitMap[addressIndex] != 0xFF) + { + break; + } + } + if (addressIndex < 8) + { + for (addressBitIndex = 0; addressBitIndex < 8; ++addressBitIndex) /* find the idle address position bit */ + { + if (!(hostInstance->addressBitMap[addressIndex] & (0x01u << addressBitIndex))) + { + hostInstance->addressBitMap[addressIndex] |= (0x01u << addressBitIndex); /* set the allocated bit */ + address = addressIndex * 8 + addressBitIndex + 1; /* the address minimum is 1 */ + break; + } + } + } + return address; +} + +static void USB_HostReleaseDeviceAddress(usb_host_instance_t *hostInstance, uint8_t address) +{ + USB_HostLock(); + hostInstance->addressBitMap[(uint32_t)(address - 1) >> 3] &= + (~(0x01u << (((uint32_t)address - 1) & 0x07U))); /* reset the allocated bit */ + USB_HostUnlock(); +} + +static usb_status_t USB_HostRemoveDeviceInstance(usb_host_handle hostHandle, usb_device_handle deviceHandle) +{ + usb_host_instance_t *hostInstance = (usb_host_instance_t *)hostHandle; + usb_host_device_instance_t *currentInstance; + usb_host_device_instance_t *prevInstance; + if ((hostHandle == NULL) || (deviceHandle == NULL)) + { + return kStatus_USB_InvalidHandle; + } + + /* search and remove device instance */ + prevInstance = (usb_host_device_instance_t *)hostInstance->deviceList; + if (prevInstance == deviceHandle) + { + hostInstance->deviceList = prevInstance->next; + return kStatus_USB_Success; + } + else + { + currentInstance = prevInstance->next; + } + + while (currentInstance != NULL) + { + if (currentInstance == deviceHandle) + { + prevInstance->next = currentInstance->next; + return kStatus_USB_Success; + } + prevInstance = currentInstance; + currentInstance = currentInstance->next; + } + + return kStatus_USB_Success; +} + +static void USB_HostReleaseDeviceResource(usb_host_instance_t *hostInstance, usb_host_device_instance_t *deviceInstance) +{ +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + uint8_t level = 0; +#endif + +#if ((defined(USB_HOST_CONFIG_LOW_POWER_MODE)) && (USB_HOST_CONFIG_LOW_POWER_MODE > 0U)) + if (deviceInstance == hostInstance->suspendedDevice) + { + hostInstance->suspendedDevice = NULL; + } +#endif + /* release device's address */ + if (deviceInstance->setAddress != 0) + { + USB_HostReleaseDeviceAddress(hostInstance, deviceInstance->setAddress); + } + else + { + if (deviceInstance->allocatedAddress != 0) + { + USB_HostReleaseDeviceAddress(hostInstance, deviceInstance->allocatedAddress); + } + } + + /* close control pipe */ + if (deviceInstance->controlPipe != NULL) + { + USB_HostCancelTransfer(hostInstance, deviceInstance->controlPipe, NULL); + if (USB_HostClosePipe(hostInstance, deviceInstance->controlPipe) != kStatus_USB_Success) + { +#ifdef HOST_ECHO + usb_echo("error when close pipe\r\n"); +#endif + } + deviceInstance->controlPipe = NULL; + } + + /* free configuration buffer */ + if (deviceInstance->configurationDesc != NULL) + { +#if ((defined(USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE)) && (USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE > 0U)) + SDK_Free(deviceInstance->configurationDesc); +#else + USB_OsaMemoryFree(deviceInstance->configurationDesc); +#endif + } + +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + level = deviceInstance->level; +#endif +#if ((defined(USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE)) && (USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE > 0U)) + SDK_Free(deviceInstance->deviceDescriptor); +#else + USB_OsaMemoryFree(deviceInstance->deviceDescriptor); +#endif + /* free device instance buffer */ + USB_OsaMemoryFree(deviceInstance); + +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + /* enable controller attach if root hub */ + if (level == 1) + { + USB_HostControlBus(hostInstance, kUSB_HostBusEnableAttach); + } +#else + /* enable controller attach */ + USB_HostControlBus(hostInstance, kUSB_HostBusEnableAttach); +#endif +} + +static usb_status_t USB_HostParseDeviceConfigurationDescriptor(usb_device_handle deviceHandle) +{ + usb_host_device_instance_t *deviceInstance = (usb_host_device_instance_t *)deviceHandle; + uint32_t endPos; + usb_descriptor_union_t *unionDes; + usb_host_interface_t *interfaceParse = NULL; + usb_host_ep_t *epParse; + uint8_t *buffer; + + if (deviceHandle == NULL) + { + return kStatus_USB_InvalidParameter; + } + + buffer = (uint8_t *)&deviceInstance->configuration; + /* clear the previous parse result, note: end_pos means buffer index here*/ + for (endPos = 0; endPos < sizeof(usb_host_configuration_t); endPos++) + { + buffer[endPos] = 0; + } + for (endPos = 0; endPos < USB_HOST_CONFIG_CONFIGURATION_MAX_INTERFACE; ++endPos) + { + deviceInstance->interfaceStatus[endPos] = 0; + } + + /* parse configuration descriptor */ + unionDes = (usb_descriptor_union_t *)deviceInstance->configurationDesc; + endPos = (uint32_t)(deviceInstance->configurationDesc + deviceInstance->configurationLen); + + if ((unionDes->common.bLength == USB_DESCRIPTOR_LENGTH_CONFIGURE) && + (unionDes->common.bDescriptorType == USB_DESCRIPTOR_TYPE_CONFIGURE)) + { + /* configuration descriptor */ + deviceInstance->configuration.configurationDesc = (usb_descriptor_configuration_t *)unionDes; + deviceInstance->configuration.configurationExtensionLength = 0; + deviceInstance->configuration.configurationExtension = NULL; + deviceInstance->configuration.interfaceCount = 0; + unionDes = (usb_descriptor_union_t *)((uint32_t)unionDes + unionDes->common.bLength); + while ((uint32_t)unionDes < endPos) + { + if (unionDes->common.bDescriptorType != USB_DESCRIPTOR_TYPE_INTERFACE) + { + if (deviceInstance->configuration.configurationExtension == NULL) + { + deviceInstance->configuration.configurationExtension = (uint8_t *)unionDes; + } + if ((unionDes->common.bDescriptorType == 0x00) || + (unionDes->common.bLength == 0x00)) /* the descriptor data is wrong */ + { + return kStatus_USB_Error; + } + deviceInstance->configuration.configurationExtensionLength += unionDes->common.bLength; + unionDes = (usb_descriptor_union_t *)((uint32_t)unionDes + unionDes->common.bLength); + } + else + { + break; + } + } + + /* interface descriptor */ + deviceInstance->configuration.interfaceCount = 0; + while ((uint32_t)unionDes < endPos) + { + if (unionDes->common.bDescriptorType == USB_DESCRIPTOR_TYPE_INTERFACE) + { + if (unionDes->interface.bAlternateSetting == 0x00) + { + if (deviceInstance->configuration.interfaceCount >= USB_HOST_CONFIG_CONFIGURATION_MAX_INTERFACE) + { +#ifdef HOST_ECHO + usb_echo( + "Unsupported Device attached\r\n too many interfaces in one configuration, please increase " + "the USB_HOST_CONFIG_CONFIGURATION_MAX_INTERFACE value\n"); +#endif + return kStatus_USB_Error; + } + interfaceParse = + &deviceInstance->configuration.interfaceList[deviceInstance->configuration.interfaceCount]; + deviceInstance->configuration.interfaceCount++; + interfaceParse->alternateSettingNumber = 0; + interfaceParse->epCount = 0; + interfaceParse->interfaceDesc = &unionDes->interface; + interfaceParse->interfaceExtensionLength = 0; + interfaceParse->interfaceExtension = NULL; + interfaceParse->interfaceIndex = unionDes->interface.bInterfaceNumber; + if (unionDes->common.bLength == 0x00) /* the descriptor data is wrong */ + { + return kStatus_USB_Error; + } + unionDes = (usb_descriptor_union_t *)((uint32_t)unionDes + unionDes->common.bLength); + while ((uint32_t)unionDes < endPos) + { + if ((unionDes->common.bDescriptorType != USB_DESCRIPTOR_TYPE_INTERFACE) && + (unionDes->common.bDescriptorType != USB_DESCRIPTOR_TYPE_ENDPOINT)) + { + if (interfaceParse->interfaceExtension == NULL) + { + interfaceParse->interfaceExtension = (uint8_t *)unionDes; + } + if ((unionDes->common.bDescriptorType == 0x00) || + (unionDes->common.bLength == 0x00)) /* the descriptor data is wrong */ + { + return kStatus_USB_Error; + } + interfaceParse->interfaceExtensionLength += unionDes->common.bLength; + unionDes = (usb_descriptor_union_t *)((uint32_t)unionDes + unionDes->common.bLength); + } + else + { + break; + } + } + + /* endpoint descriptor */ + if (interfaceParse->interfaceDesc->bNumEndpoints != 0) + { + if ((unionDes->common.bDescriptorType != USB_DESCRIPTOR_TYPE_ENDPOINT) || + (interfaceParse->interfaceDesc->bNumEndpoints > USB_HOST_CONFIG_INTERFACE_MAX_EP)) + { +#ifdef HOST_ECHO + usb_echo("interface descriptor error\n"); +#endif + return kStatus_USB_Error; + } + for (; interfaceParse->epCount < interfaceParse->interfaceDesc->bNumEndpoints; + (interfaceParse->epCount)++) + { + if (((uint32_t)unionDes >= endPos) || + (unionDes->common.bDescriptorType != USB_DESCRIPTOR_TYPE_ENDPOINT)) + { +#ifdef HOST_ECHO + usb_echo("endpoint descriptor error\n"); +#endif + return kStatus_USB_Error; + } + epParse = (usb_host_ep_t *)&interfaceParse->epList[interfaceParse->epCount]; + epParse->epDesc = (usb_descriptor_endpoint_t *)unionDes; + epParse->epExtensionLength = 0; + epParse->epExtension = NULL; + if (unionDes->common.bLength == 0x00) /* the descriptor data is wrong */ + { + return kStatus_USB_Error; + } + unionDes = (usb_descriptor_union_t *)((uint32_t)unionDes + unionDes->common.bLength); + while ((uint32_t)unionDes < endPos) + { + if ((unionDes->common.bDescriptorType != USB_DESCRIPTOR_TYPE_ENDPOINT) && + (unionDes->common.bDescriptorType != USB_DESCRIPTOR_TYPE_INTERFACE)) + { + if (epParse->epExtension == NULL) + { + epParse->epExtension = (uint8_t *)unionDes; + } + if ((unionDes->common.bDescriptorType == 0x00) || + (unionDes->common.bLength == 0x00)) /* the descriptor data is wrong */ + { + return kStatus_USB_Error; + } + epParse->epExtensionLength += unionDes->common.bLength; + unionDes = + (usb_descriptor_union_t *)((uint32_t)unionDes + unionDes->common.bLength); + } + else + { + break; + } + } + } + } + } + else + { + if (interfaceParse == NULL) + { + return kStatus_USB_Error; /* in normal situation this cannot reach */ + } + interfaceParse->alternateSettingNumber++; + if (interfaceParse->interfaceExtension == NULL) + { + interfaceParse->interfaceExtension = (uint8_t *)unionDes; + } + if (unionDes->common.bLength == 0x00) /* the descriptor data is wrong */ + { + return kStatus_USB_Error; + } + interfaceParse->interfaceExtensionLength += unionDes->common.bLength; + unionDes = (usb_descriptor_union_t *)((uint32_t)unionDes + unionDes->common.bLength); + while ((uint32_t)unionDes < endPos) + { + if (unionDes->common.bDescriptorType != USB_DESCRIPTOR_TYPE_INTERFACE) + { + if ((unionDes->common.bDescriptorType == 0x00) || + (unionDes->common.bLength == 0x00)) /* the descriptor data is wrong */ + { + return kStatus_USB_Error; + } + interfaceParse->interfaceExtensionLength += unionDes->common.bLength; + unionDes = (usb_descriptor_union_t *)((uint32_t)unionDes + unionDes->common.bLength); + } + else + { + break; + } + } + } + } + else + { + return kStatus_USB_Error; + } + } + } + + for (endPos = 0; endPos < deviceInstance->configuration.interfaceCount; ++endPos) + { + deviceInstance->interfaceStatus[endPos] = kStatus_interface_Attached; + } + + return kStatus_USB_Success; +} + +usb_status_t USB_HostAttachDevice(usb_host_handle hostHandle, + uint8_t speed, + uint8_t hubNumber, + uint8_t portNumber, + uint8_t level, + usb_device_handle *deviceHandle) +{ + usb_host_instance_t *hostInstance = (usb_host_instance_t *)hostHandle; + usb_host_device_instance_t *newInstance; +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + usb_host_device_instance_t *currentInstance; +#endif + uint8_t address; + usb_host_pipe_init_t pipeInit; + + if (hostHandle == NULL) + { + return kStatus_USB_InvalidHandle; + } + +/* check whether is the device attached? */ +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + currentInstance = (usb_host_device_instance_t *)hostInstance->deviceList; + while (currentInstance != NULL) + { + if ((currentInstance->hubNumber == hubNumber) && (currentInstance->portNumber == portNumber)) + { + *deviceHandle = NULL; +#ifdef HOST_ECHO + usb_echo("device has attached\r\n"); +#endif + return kStatus_USB_Busy; + } + else + { + currentInstance = currentInstance->next; + } + } +#else + if (hostInstance->deviceList != NULL) + { + *deviceHandle = NULL; + usb_echo("device has attached\r\n"); + return kStatus_USB_Busy; + } +#endif + + /* Allocate new device instance */ + newInstance = (usb_host_device_instance_t *)USB_OsaMemoryAllocate(sizeof(usb_host_device_instance_t)); + if (newInstance == NULL) + { +#ifdef HOST_ECHO + usb_echo("allocate dev instance fail\r\n"); +#endif + return kStatus_USB_AllocFail; + } + + /* new instance fields init */ + newInstance->hostHandle = hostHandle; + newInstance->speed = speed; + newInstance->stallRetries = USB_HOST_CONFIG_ENUMERATION_MAX_STALL_RETRIES; + newInstance->enumRetries = USB_HOST_CONFIG_ENUMERATION_MAX_RETRIES; + newInstance->setAddress = 0; + newInstance->deviceAttachState = kStatus_device_Attached; +#if ((defined(USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE)) && (USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE > 0U)) + newInstance->deviceDescriptor = + (usb_descriptor_device_t *)SDK_Malloc(sizeof(usb_descriptor_device_t) + 9, USB_CACHE_LINESIZE); +#else + newInstance->deviceDescriptor = + (usb_descriptor_device_t *)USB_OsaMemoryAllocate(sizeof(usb_descriptor_device_t) + 9); +#endif + if (newInstance->deviceDescriptor == NULL) + { +#ifdef HOST_ECHO + usb_echo("allocate newInstance->deviceDescriptor fail\r\n"); +#endif +#if ((defined(USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE)) && (USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE > 0U)) + SDK_Free(newInstance->deviceDescriptor); +#else + USB_OsaMemoryFree(newInstance->deviceDescriptor); +#endif + USB_OsaMemoryFree(newInstance); + return kStatus_USB_AllocFail; + } + newInstance->enumBuffer = (uint8_t *)((uint8_t *)newInstance->deviceDescriptor + sizeof(usb_descriptor_device_t)); +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + newInstance->hubNumber = hubNumber; + newInstance->portNumber = portNumber; + newInstance->level = level; + + if ((speed != USB_SPEED_HIGH) && (level > 1)) + { + newInstance->hsHubNumber = USB_HostHubGetHsHubNumber(hostHandle, hubNumber); + newInstance->hsHubPort = USB_HostHubGetHsHubPort(hostHandle, hubNumber, portNumber); + } + else + { + newInstance->hsHubNumber = hubNumber; + newInstance->hsHubPort = portNumber; + } +#endif /* USB_HOST_CONFIG_HUB */ + + USB_HostLock(); + /* allocate address && insert to the dev list */ + address = USB_HostAllocateDeviceAddress(hostInstance); + if (address == 0) + { +#ifdef HOST_ECHO + usb_echo("allocate address fail\r\n"); +#endif + USB_HostUnlock(); +#if ((defined(USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE)) && (USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE > 0U)) + SDK_Free(newInstance->deviceDescriptor); +#else + USB_OsaMemoryFree(newInstance->deviceDescriptor); +#endif + USB_OsaMemoryFree(newInstance); + return kStatus_USB_Error; + } + newInstance->allocatedAddress = address; + + newInstance->next = (usb_host_device_instance_t *)hostInstance->deviceList; + hostInstance->deviceList = newInstance; + newInstance->state = kStatus_DEV_Initial; + USB_HostUnlock(); + + /* open control pipe */ + pipeInit.devInstance = newInstance; + pipeInit.pipeType = USB_ENDPOINT_CONTROL; + pipeInit.direction = 0; + pipeInit.endpointAddress = 0; + pipeInit.interval = 0; + pipeInit.maxPacketSize = 8; + pipeInit.numberPerUframe = 0; + pipeInit.nakCount = USB_HOST_CONFIG_MAX_NAK; + if (USB_HostOpenPipe(hostHandle, &newInstance->controlPipe, &pipeInit) != kStatus_USB_Success) + { + /* don't need release resource, resource is released when detach */ + *deviceHandle = newInstance; +#if ((defined(USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE)) && (USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE > 0U)) + SDK_Free(newInstance->deviceDescriptor); +#else + USB_OsaMemoryFree(newInstance->deviceDescriptor); +#endif + USB_OsaMemoryFree(newInstance); + return kStatus_USB_Error; + } + + /* start enumeration */ + newInstance->state = kStatus_DEV_GetDes8; + USB_HostProcessState(newInstance); /* process enumeration state machine */ + + *deviceHandle = newInstance; + return kStatus_USB_Success; +} + +usb_status_t USB_HostDetachDevice(usb_host_handle hostHandle, uint8_t hubNumber, uint8_t portNumber) +{ + usb_host_device_instance_t *deviceInstance; + usb_host_instance_t *hostInstance = (usb_host_instance_t *)hostHandle; + + if (hostHandle == NULL) + { + return kStatus_USB_InvalidHandle; + } + + USB_HostLock(); +/* search for device instance handle */ +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + deviceInstance = (usb_host_device_instance_t *)hostInstance->deviceList; + while (deviceInstance != NULL) + { + if ((deviceInstance->hubNumber == hubNumber) && (deviceInstance->portNumber == portNumber)) + { + break; + } + deviceInstance = deviceInstance->next; + } +#else + deviceInstance = (usb_host_device_instance_t *)hostInstance->deviceList; +#endif + USB_HostUnlock(); + if (deviceInstance != NULL) + { + return USB_HostDetachDeviceInternal(hostHandle, deviceInstance); /* device instance detach */ + } + return kStatus_USB_Success; +} + +usb_status_t USB_HostDetachDeviceInternal(usb_host_handle hostHandle, usb_device_handle deviceHandle) +{ + usb_host_device_instance_t *deviceInstance = (usb_host_device_instance_t *)deviceHandle; + usb_host_instance_t *hostInstance = (usb_host_instance_t *)hostHandle; + if ((hostHandle == NULL) || (deviceHandle == NULL)) + { + return kStatus_USB_InvalidHandle; + } + + deviceInstance->deviceAttachState = kStatus_device_Detached; /* mark the device is detached from host */ + + if (deviceInstance->state >= kStatus_DEV_Initial) /* device instance is valid */ + { + /* detach internally */ + if (deviceInstance->state < kStatus_DEV_AppUsed) /* enumeration is not done */ + { + if (deviceInstance->controlPipe != NULL) + { + USB_HostCancelTransfer(hostInstance, deviceInstance->controlPipe, NULL); + } + + /* remove device instance from host */ + USB_HostRemoveDeviceInstance(hostInstance, deviceInstance); + USB_HostReleaseDeviceResource(hostInstance, deviceInstance); + } + else /* enumeration has be done and notifed application */ + { + USB_HostNotifyDevice(deviceInstance, kUSB_HostEventDetach); /* notify application device detach */ + } + } + + return kStatus_USB_Success; +} + +uint8_t USB_HostGetDeviceAttachState(usb_device_handle deviceHandle) +{ + return deviceHandle ? ((usb_host_device_instance_t *)deviceHandle)->deviceAttachState : 0x0; +} + +usb_status_t USB_HostValidateDevice(usb_host_handle hostHandle, usb_device_handle deviceHandle) +{ + usb_host_device_instance_t *searchDev; + + if (deviceHandle == NULL) + { + return kStatus_USB_InvalidParameter; + } + /* search for the device */ + searchDev = (usb_host_device_instance_t *)((usb_host_instance_t *)hostHandle)->deviceList; + while ((searchDev != NULL) && ((usb_device_handle)searchDev != deviceHandle)) + { + searchDev = searchDev->next; + } + + if (searchDev) + { + return kStatus_USB_Success; + } + return kStatus_USB_Error; +} + +static usb_status_t USB_HostControlBus(usb_host_handle hostHandle, uint8_t controlType) +{ + usb_status_t status = kStatus_USB_Success; + usb_host_instance_t *hostInstance = (usb_host_instance_t *)hostHandle; + + if (hostHandle == NULL) + { + return kStatus_USB_InvalidHandle; + } + + status = hostInstance->controllerTable->controllerIoctl(hostInstance->controllerHandle, kUSB_HostBusControl, + &controlType); + + return status; +} + +usb_status_t USB_HostOpenDeviceInterface(usb_device_handle deviceHandle, usb_host_interface_handle interfaceHandle) +{ + usb_host_device_instance_t *deviceInstance = (usb_host_device_instance_t *)deviceHandle; + usb_host_instance_t *hostInstance = NULL; + uint8_t interfaceIndex; + uint8_t index = 0; + + if ((deviceHandle == NULL) || (interfaceHandle == NULL)) + { + return kStatus_USB_InvalidHandle; + } + + hostInstance = (usb_host_instance_t *)deviceInstance->hostHandle; + USB_HostLock(); + /* check host_instance valid? */ + for (; index < USB_HOST_CONFIG_MAX_HOST; ++index) + { + if ((g_UsbHostInstance[index].occupied == 1) && + ((usb_host_instance_t *)(&g_UsbHostInstance[index]) == (hostInstance))) + { + break; + } + } + if (index >= USB_HOST_CONFIG_MAX_HOST) + { + USB_HostUnlock(); + return kStatus_USB_Error; + } + + /* check deviceHandle valid? */ + if (USB_HostValidateDevice(hostInstance, deviceHandle) != kStatus_USB_Success) + { + USB_HostUnlock(); + return kStatus_USB_Error; + } + + /* search interface and set the interface as opened */ + for (interfaceIndex = 0; interfaceIndex < deviceInstance->configuration.interfaceCount; ++interfaceIndex) + { + if (&deviceInstance->configuration.interfaceList[interfaceIndex] == interfaceHandle) + { + deviceInstance->interfaceStatus[interfaceIndex] = kStatus_interface_Opened; + break; + } + } + USB_HostUnlock(); + + return kStatus_USB_Success; +} + +usb_status_t USB_HostCloseDeviceInterface(usb_device_handle deviceHandle, usb_host_interface_handle interfaceHandle) +{ + usb_host_device_instance_t *deviceInstance = (usb_host_device_instance_t *)deviceHandle; + usb_host_instance_t *hostInstance = NULL; + uint8_t interfaceIndex; + uint8_t removeLabel = 1; + uint8_t index = 0; + + if (deviceHandle == NULL) + { + return kStatus_USB_InvalidHandle; + } + + hostInstance = (usb_host_instance_t *)deviceInstance->hostHandle; + USB_HostLock(); + /* check host_instance valid? */ + for (; index < USB_HOST_CONFIG_MAX_HOST; ++index) + { + if ((g_UsbHostInstance[index].occupied == 1) && + ((usb_host_instance_t *)(&g_UsbHostInstance[index]) == (hostInstance))) + { + break; + } + } + if (index >= USB_HOST_CONFIG_MAX_HOST) + { + USB_HostUnlock(); + return kStatus_USB_Error; + } + + /* check deviceHandle valid? */ + if (USB_HostValidateDevice(hostInstance, deviceHandle) != kStatus_USB_Success) + { + USB_HostUnlock(); + return kStatus_USB_Error; + } + + if (interfaceHandle != NULL) + { + /* search interface and set the interface as detached */ + for (interfaceIndex = 0; interfaceIndex < deviceInstance->configuration.interfaceCount; ++interfaceIndex) + { + if (&deviceInstance->configuration.interfaceList[interfaceIndex] == interfaceHandle) + { + deviceInstance->interfaceStatus[interfaceIndex] = kStatus_interface_Detached; + break; + } + } + } + + if (deviceInstance->deviceAttachState == kStatus_device_Detached) /* device is removed from host */ + { + removeLabel = 1; + /* check all the interfaces of the device are not opened */ + for (interfaceIndex = 0; interfaceIndex < deviceInstance->configuration.interfaceCount; ++interfaceIndex) + { + if (deviceInstance->interfaceStatus[interfaceIndex] == kStatus_interface_Opened) + { + removeLabel = 0; + break; + } + } + if (removeLabel == 1) + { + /* remove device instance from host */ + USB_HostRemoveDeviceInstance(hostInstance, deviceInstance); + } + USB_HostUnlock(); + + if (removeLabel == 1) + { + USB_HostReleaseDeviceResource((usb_host_instance_t *)deviceInstance->hostHandle, + deviceInstance); /* release device resource */ + } + } + else + { + USB_HostUnlock(); + } + + return kStatus_USB_Success; +} + +usb_status_t USB_HostRemoveDevice(usb_host_handle hostHandle, usb_device_handle deviceHandle) +{ + usb_host_instance_t *hostInstance = (usb_host_instance_t *)hostHandle; + usb_host_device_instance_t *deviceInstance = (usb_host_device_instance_t *)deviceHandle; + uint8_t interfaceIndex = 0; +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + uint8_t level = 0; + uint8_t devHubNo; + uint8_t devPortNo; +#endif + + if ((hostHandle == NULL) || (deviceHandle == NULL)) + { + return kStatus_USB_InvalidHandle; + } + if (deviceInstance->hostHandle != hostHandle) + { + return kStatus_USB_InvalidParameter; + } + + if (USB_HostValidateDevice(hostInstance, deviceInstance) == kStatus_USB_Success) /* device is valid */ + { +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + devHubNo = deviceInstance->hubNumber; + devPortNo = deviceInstance->portNumber; + level = deviceInstance->level; +#endif + + deviceInstance->deviceAttachState = kStatus_device_Detached; + if (deviceInstance->state >= kStatus_DEV_Initial) /* device is valid */ + { + if (deviceInstance->state < kStatus_DEV_AppUsed) /* enumeraion is not done or application don't use */ + { + /* detach internally */ + USB_HostDetachDeviceInternal(hostHandle, deviceHandle); + } + else /* application use the device */ + { + for (interfaceIndex = 0; interfaceIndex < deviceInstance->configuration.interfaceCount; + ++interfaceIndex) + { + if (deviceInstance->interfaceStatus[interfaceIndex] == kStatus_interface_Opened) + { +#ifdef HOST_ECHO + usb_echo("error: there is class instance that is not deinited\r\n"); +#endif + break; + } + } + /* remove device instance from host */ + USB_HostRemoveDeviceInstance(hostInstance, deviceInstance); + USB_HostReleaseDeviceResource(hostInstance, deviceInstance); /* release resource */ + } + } + +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + if (level == 1) + { + USB_HostControlBus(hostHandle, kUSB_HostBusReset); /* reset controller port */ + USB_HostControlBus(hostHandle, kUSB_HostBusRestart); /* restart controller port */ + } + else + { + USB_HostHubRemovePort(hostHandle, devHubNo, devPortNo); /* reset hub port */ + } +#else + USB_HostControlBus(hostHandle, kUSB_HostBusReset); /* reset controller port */ + USB_HostControlBus(hostHandle, kUSB_HostBusRestart); /* restart controller port */ +#endif /* USB_HOST_CONFIG_HUB */ + } + + return kStatus_USB_Success; +} diff --git a/bsp/imxrt1052-evk/drivers/usb/host/usb_host_devices.h b/bsp/imxrt1052-evk/drivers/usb/host/usb_host_devices.h new file mode 100644 index 0000000000000000000000000000000000000000..422e876a1229f15a87ddb896d15630cd06a0860f --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/usb/host/usb_host_devices.h @@ -0,0 +1,178 @@ +/* + * Copyright (c) 2015, Freescale Semiconductor, Inc. + * Copyright 2016 NXP + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * o Redistributions of source code must retain the above copyright notice, this list + * of conditions and the following disclaimer. + * + * o Redistributions in binary form must reproduce the above copyright notice, this + * list of conditions and the following disclaimer in the documentation and/or + * other materials provided with the distribution. + * + * o Neither the name of the copyright holder nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#ifndef _USB_HOST_DEV_MNG_H_ +#define _USB_HOST_DEV_MNG_H_ + +#include "usb_host.h" + +/******************************************************************************* + * Definitions + ******************************************************************************/ +/*! + * @addtogroup usb_host_drv + * @{ + */ +/*! @brief States of device instances enumeration */ +typedef enum _usb_host_device_enumeration_status +{ + kStatus_DEV_Notinit = 0, /*!< Device is invalid */ + kStatus_DEV_Initial, /*!< Device has been processed by host driver */ + kStatus_DEV_GetDes8, /*!< Enumeration process: get 8 bytes' device descriptor */ + kStatus_DEV_SetAddress, /*!< Enumeration process: set device address */ + kStatus_DEV_GetDes, /*!< Enumeration process: get device descriptor */ + kStatus_DEV_GetCfg9, /*!< Enumeration process: get 9 bytes' configuration descriptor */ + kStatus_DEV_GetCfg, /*!< Enumeration process: get configuration descriptor */ + kStatus_DEV_SetCfg, /*!< Enumeration process: set configuration */ + kStatus_DEV_EnumDone, /*!< Enumeration is done */ + kStatus_DEV_AppUsed, /*!< This device has been used by application */ +} usb_host_device_enumeration_status_t; + +/*! @brief States of device's interface */ +typedef enum _usb_host_interface_state +{ + kStatus_interface_Attached = 1, /*!< Interface's default status */ + kStatus_interface_Opened, /*!< Interface is used by application */ + kStatus_interface_Detached, /*!< Interface is not used by application */ +} usb_host_interface_state_t; + +/*! @brief States of device */ +typedef enum _usb_host_device_state +{ + kStatus_device_Detached = 0, /*!< Device is used by application */ + kStatus_device_Attached, /*!< Device's default status */ +} usb_host_device_state_t; + +/*! @brief Device instance */ +typedef struct _usb_host_device_instance +{ + struct _usb_host_device_instance *next; /*!< Next device, or NULL */ + usb_host_handle hostHandle; /*!< Host handle */ + usb_host_configuration_t configuration; /*!< Parsed configuration information for the device */ + usb_descriptor_device_t *deviceDescriptor; /*!< Standard device descriptor */ + usb_host_pipe_handle controlPipe; /*!< Device's control pipe */ + uint8_t *configurationDesc; /*!< Configuration descriptor pointer */ + uint16_t configurationLen; /*!< Configuration descriptor length */ + uint16_t configurationValue; /*!< Configuration index */ + uint8_t interfaceStatus[USB_HOST_CONFIG_CONFIGURATION_MAX_INTERFACE]; /*!< Interfaces' status, please reference to + #usb_host_interface_state_t */ + uint8_t *enumBuffer; /*!< Buffer for enumeration */ + uint8_t state; /*!< Device state for enumeration */ + uint8_t enumRetries; /*!< Re-enumeration when error in control transfer */ + uint8_t stallRetries; /*!< Re-transfer when stall */ + uint8_t speed; /*!< Device speed */ + uint8_t allocatedAddress; /*!< Temporary address for the device. When set address request succeeds, setAddress is + a value, 1 - 127 */ + uint8_t setAddress; /*!< The address has been set to the device successfully, 1 - 127 */ + uint8_t deviceAttachState; /*!< See the usb_host_device_state_t */ +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + /* hub related */ + uint8_t hubNumber; /*!< Device's first connected hub address (root hub = 0) */ + uint8_t portNumber; /*!< Device's first connected hub's port no (1 - 8) */ + uint8_t hsHubNumber; /*!< Device's first connected high-speed hub's address (1 - 8) */ + uint8_t hsHubPort; /*!< Device's first connected high-speed hub's port no (1 - 8) */ + uint8_t level; /*!< Device's level (root device = 0) */ +#endif +} usb_host_device_instance_t; + +typedef struct _usb_host_enum_process_entry +{ + uint8_t successState; /*!< When the last step is successful, the next state value */ + uint8_t retryState; /*!< When the last step need retry, the next state value */ + usb_status_t (*process)(usb_host_device_instance_t *deviceInstance); /*!< When the last step transfer is done, the + function is used to process the transfer + data */ +} usb_host_enum_process_entry_t; + +/******************************************************************************* + * API + ******************************************************************************/ + +/*! + * @brief Calls this function when device attach. + * + * @param hostHandle Host instance handle. + * @param speed Device speed. + * @param hubNumber Device hub no. root device's hub no. is 0. + * @param portNumber Device port no. root device's port no. is 0. + * @param level Device level. root device's level is 1. + * @param deviceHandle Return device handle. + * + * @return kStatus_USB_Success or error codes. + */ +extern usb_status_t USB_HostAttachDevice(usb_host_handle hostHandle, + uint8_t speed, + uint8_t hubNumber, + uint8_t portNumber, + uint8_t level, + usb_device_handle *deviceHandle); + +/*! + * @brief Call this function when device detaches. + * + * @param hostHandle Host instance handle. + * @param hubNumber Device hub no. root device's hub no. is 0. + * @param portNumber Device port no. root device's port no. is 0. + * + * @return kStatus_USB_Success or error codes. + */ +extern usb_status_t USB_HostDetachDevice(usb_host_handle hostHandle, uint8_t hubNumber, uint8_t portNumber); + +/*! + * @brief Call this function when device detaches. + * + * @param hostHandle Host instance handle. + * @param deviceHandle Device handle. + * + * @return kStatus_USB_Success or error codes. + */ +extern usb_status_t USB_HostDetachDeviceInternal(usb_host_handle hostHandle, usb_device_handle deviceHandle); + +/*! + * @brief Gets the device attach/detach state. + * + * @param deviceHandle Device handle. + * + * @return 0x01 - attached; 0x00 - detached. + */ +extern uint8_t USB_HostGetDeviceAttachState(usb_device_handle deviceHandle); + +/*! + * @brief Determine whether the device is attached. + * + * @param hostHandle Host instance pointer. + * @param deviceHandle Device handle. + * + * @return kStatus_USB_Success or error codes. + */ +extern usb_status_t USB_HostValidateDevice(usb_host_handle hostHandle, usb_device_handle deviceHandle); + +/*! @}*/ +#endif /* _USB_HOST_DEV_MNG_H_ */ diff --git a/bsp/imxrt1052-evk/drivers/usb/host/usb_host_ehci.c b/bsp/imxrt1052-evk/drivers/usb/host/usb_host_ehci.c new file mode 100644 index 0000000000000000000000000000000000000000..8a31514b3ab7e42f90f93b5f293fb7fbce72e2b0 --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/usb/host/usb_host_ehci.c @@ -0,0 +1,4747 @@ +/* + * Copyright (c) 2015 - 2016, Freescale Semiconductor, Inc. + * Copyright 2016 NXP + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * o Redistributions of source code must retain the above copyright notice, this list + * of conditions and the following disclaimer. + * + * o Redistributions in binary form must reproduce the above copyright notice, this + * list of conditions and the following disclaimer in the documentation and/or + * other materials provided with the distribution. + * + * o Neither the name of the copyright holder nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#include +#if ((defined USB_HOST_CONFIG_EHCI) && (USB_HOST_CONFIG_EHCI > 0U)) +#include "usb_host.h" +#include "usb_host_hci.h" +#include "usb_host_devices.h" +#include "fsl_device_registers.h" +#include "usb_host_ehci.h" +#include "usb_phy.h" +#if ((defined USB_HOST_CONFIG_COMPLIANCE_TEST) && (USB_HOST_CONFIG_COMPLIANCE_TEST)) +#include "usb_host.h" +#endif + +/******************************************************************************* + * Definitions + ******************************************************************************/ + +#if defined(USB_STACK_USE_DEDICATED_RAM) && (USB_STACK_USE_DEDICATED_RAM > 0U) + +#error The SOC does not suppoort dedicated RAM case. + +#endif + +#define USB_HOST_EHCI_BANDWIDTH_DELAY (3500U) +#define USB_HOST_EHCI_BANDWIDTH_HUB_LS_SETUP (333U) +#define USB_HOST_EHCI_BANDWIDTH_FRAME_TOTOAL_TIME (900U) + +#if ((defined USB_HOST_CONFIG_COMPLIANCE_TEST) && (USB_HOST_CONFIG_COMPLIANCE_TEST)) +#define USB_HOST_EHCI_TEST_DESCRIPTOR_LENGTH (18U) +#define USB_HOST_EHCI_PORTSC_PTC_J_STATE (0x01U) +#define USB_HOST_EHCI_PORTSC_PTC_K_STATE (0x02U) +#define USB_HOST_EHCI_PORTSC_PTC_SE0_NAK (0x03U) +#define USB_HOST_EHCI_PORTSC_PTC_PACKET (0x04U) +#define USB_HOST_EHCI_PORTSC_PTC_FORCE_ENABLE_HS (0x05U) +#define USB_HOST_EHCI_PORTSC_PTC_FORCE_ENABLE_FS (0x06U) +#define USB_HOST_EHCI_PORTSC_PTC_FORCE_ENABLE_LS (0x07U) +#endif + +/******************************************************************************* + * Prototypes + ******************************************************************************/ +/*! + * @brief compute data bandwidth time. + * + * @param speed data speed. + * @param pipeType data type. + * @param direction data direction. + * @param dataLength data length. + * + *@return time value. + */ +static uint32_t USB_HostBandwidthComputeTime(uint8_t speed, uint8_t pipeType, uint8_t direction, uint32_t dataLength); + +/*! + * @brief compute current allocated bandwidth when ehci work as full-speed or low-speed host. + * + * @param ehciInstance ehci instance pointer. + * @param frameIndex frame index. + * @param frameBandwidths return frame bandwidth data. + */ +static void USB_HostBandwidthFslsHostComputeCurrent(usb_host_ehci_instance_t *ehciInstance, + uint16_t frameIndex, + uint16_t *frameBandwidth); + +/*! + * @brief compute current hub's allocated FS/LS bandwidth when ehci work as hi-speed host. + * + * @param ehciInstance ehci instance pointer. + * @param hubNumber hub address. + * @param frameIndex frame index. + * @param frameBandwidths return frame bandwidth data. + */ +static void USB_HostBandwidthHsHostComputeCurrentFsls(usb_host_ehci_instance_t *ehciInstance, + uint32_t hubNumber, + uint16_t frameIndex, + uint8_t frameBandwidths[8]); + +/*! + * @brief compute current allocated HS bandwidth when ehci work as hi-speed host. + * + * @param ehciInstance ehci instance pointer. + * @param frameIndex frame index. + * @param frameBandwidths return frame bandwidth data. + */ +static void USB_HostBandwidthHsHostComputeCurrentHsAll(usb_host_ehci_instance_t *ehciInstance, + uint16_t frameIndex, + uint8_t frameBandwidths[8]); + +/*! + * @brief allocate HS bandwidth when host work as high-speed host. + * + * @param ehciInstance ehci instance pointer. + * @param uframeInterval micro-frame interval. + * @param timeData time for allocating. + * @param uframe_index_out return start uframe index. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostBandwidthHsHostAllocateHsCommon(usb_host_ehci_instance_t *ehciInstance, + uint16_t uframeInterval, + uint16_t timeData, + uint16_t *uframeIndexOut); + +/*! + * @brief allocate HS interrupt bandwidth when host work as high-speed host. + * + * @param ehciInstance ehci instance pointer. + * @param ehciPipePointer ehci pipe pointer. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostBandwidthHsHostAllocateInterrupt(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer); + +/*! + * @brief allocate bandwidth when host work as full-speed or low-speed host. + * + * @param ehciInstance ehci instance pointer. + * @param ehciPipePointer ehci pipe pointer. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostBandwidthFslsHostAllocate(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer); + +/*! + * @brief get the 2 power value of uint8_t. + * + * @param value input uint8_t value. + */ +static uint8_t USB_HostEhciGet2PowerValue(uint8_t value); + +/*! + * @brief memory zero. + * + * @param buffer buffer pointer. + * @param length buffer length. + */ +static void USB_HostEhciZeroMem(uint32_t *buffer, uint32_t length); + +/*! + * @brief host ehci delay. + * + * @param ehciIpBase ehci ip base address. + * @param ms millisecond. + */ +static void USB_HostEhciDelay(USBHS_Type *ehciIpBase, uint32_t ms); + +/*! + * @brief host ehci start async schedule. + * + * @param ehciInstance ehci instance pointer. + */ +static void USB_HostEhciStartAsync(usb_host_ehci_instance_t *ehciInstance); + +/*! + * @brief host ehci stop async schedule. + * + * @param ehciInstance ehci instance pointer. + */ +static void USB_HostEhciStopAsync(usb_host_ehci_instance_t *ehciInstance); + +/*! + * @brief host ehci start periodic schedule. + * + * @param ehciInstance ehci instance pointer. + */ +static void USB_HostEhciStartPeriodic(usb_host_ehci_instance_t *ehciInstance); + +/*! + * @brief host ehci stop periodic schedule. + * + * @param ehciInstance ehci instance pointer. + */ +static void USB_HostEhciStopPeriodic(usb_host_ehci_instance_t *ehciInstance); + +/*! + * @brief initialize the qtd for one transfer. + * + * @param ehciInstance ehci instance pointer. + * @param ehciPipePointer ehci pipe pointer. + * @param transfer transfer information. + * + *@return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostEhciQhQtdListInit(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer, + usb_host_transfer_t *transfer); + +/*! + * @brief release the qtd list. + * + * @param ehciInstance ehci instance pointer. + * @param ehciQtdStart qtd list start pointer. + * @param ehciQtdEnd qtd list end pointer. + * + *@return the transfer's length. + */ +static uint32_t USB_HostEhciQtdListRelease(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_qtd_t *ehciQtdStart, + usb_host_ehci_qtd_t *ehciQtdEnd); + +/*! + * @brief de-initialize qh's linking qtd list. + * 1. remove qtd from qh; 2. remove transfer from qh; 3. release qtd; 4. transfer callback. + * + * @param ehciInstance ehci instance pointer. + * @param ehciPipePointer ehci pipe. + * + *@return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostEhciQhQtdListDeinit(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer); + +/*! + * @brief de-initialize transfer's linking qtd list. + * 1. stop this qh schedule; 2. remove qtd from qh; 3. remove transfer from qh; 4. release qtd; 5. transfer callback; 6. + *start this qh schedule. + * + * @param ehciInstance ehci instance pointer. + * @param ehciPipePointer ehci pipe pointer. + * @param transfer transfer information. + * + *@return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostEhciTransferQtdListDeinit(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer, + usb_host_transfer_t *transfer); + +/*! + * @brief initialize QH when opening one control, bulk or interrupt pipe. + * + * @param ehciInstance ehci instance pointer. + * @param ehciPipePointer ehci pipe pointer. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostEhciQhInit(usb_host_ehci_instance_t *ehciInstance, usb_host_ehci_pipe_t *ehciPipePointer); + +/*! + * @brief de-initialize QH when closing one control, bulk or interrupt pipe. + * + * @param ehciInstance ehci instance pointer. + * @param ehciPipePointer ehci pipe pointer. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostEhciQhDeinit(usb_host_ehci_instance_t *ehciInstance, usb_host_ehci_pipe_t *ehciPipePointer); + +/*! + * @brief add qh to one frame entry. + * + * @param ehciInstance ehci instance pointer. + * @param entryPointerValue entry pointer value. + * @param framePos frame index. + * @param uframeInterval micro-frame interval. + */ +static void USB_HostEhciAddQhToFrame(usb_host_ehci_instance_t *ehciInstance, + uint32_t entryPointerValue, + uint16_t framePos, + uint16_t uframeInterval); + +/*! + * @brief remove entry from frame list. + * + * @param ehciInstance ehci instance pointer. + * @param entryPointerValue entry pointer value. + * @param framePos frame index. + */ +static void USB_HostEhciRemoveFromFrame(usb_host_ehci_instance_t *ehciInstance, + uint32_t entryPointerValue, + uint16_t framePos); + +#if ((defined USB_HOST_CONFIG_EHCI_MAX_SITD) && (USB_HOST_CONFIG_EHCI_MAX_SITD)) +/*! + * @brief add sitd array to the frame list. + * + * @param ehciInstance ehci instance pointer. + * @param entryPointerValue entry pointer value. + * @param startEntryPointer sitd entry pointer. + */ +static void USB_HostEhciLinkSitd(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer, + void *startEntryPointer); + +/*! + * @brief initialize sitd array for one transfer. + * + * @param ehciInstance ehci instance pointer. + * @param ehciPipePointer ehci pipe pointer. + * @param transfer transfer information. + */ +static usb_status_t USB_HostEhciSitdArrayInit(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer, + usb_host_transfer_t *transfer); + +/*! + * @brief release sitd list. + * + * @param ehciInstance ehci instance pointer. + * @param startSitdPointer start sitd pointer. + * @param endSitdPointer end sitd pointer. + * + * @return transfer's result length. + */ +static uint32_t USB_HostEhciSitdArrayRelease(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_sitd_t *startSitdPointer, + usb_host_ehci_sitd_t *endSitdPointer); + +/*! + * @brief de-initialize sitd list. + * 1. remove transfer; 2. remove sitd from frame list and release sitd; 3. transfer callback + * + * @param ehciInstance ehci instance pointer. + * @param ehciPipePointer ehci pipe pointer. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostEhciSitdArrayDeinit(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer); +#endif /* USB_HOST_CONFIG_EHCI_MAX_SITD */ + +#if ((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) +/*! + * @brief compute the frame index when inserting itd. + * + * @param ehciInstance ehci instance pointer. + * @param lastLinkUframe last inserted micro-frame. + * @param startUframe start micro-frame. + * @param uframeInterval micro-frame interval. + * + * @return frame index + */ +static uint32_t USB_HostEhciGetItdLinkFrame(usb_host_ehci_instance_t *ehciInstance, + uint32_t lastLinkUframe, + uint16_t startUframe, + uint16_t uframeInterval); + +/*! + * @brief initialize itd list for one transfer. + * 1. initialize itd list; 2. insert itd to frame list. + * + * @param ehciInstance ehci instance pointer. + * @param ehciPipePointer ehci pipe pointer. + * @param transfer transfer information. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostEhciItdArrayInit(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer, + usb_host_transfer_t *transfer); + +/*! + * @brief release itd list. + * + * @param ehciInstance ehci instance pointer. + * @param startItdPointer start itd pointer. + * @param endItdPointer end itd pointer. + * + * @return transfer's result length. + */ +static uint32_t USB_HostEhciItdArrayRelease(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_itd_t *startItdPointer, + usb_host_ehci_itd_t *endItdPointer); + +/*! + * @brief de-initialize itd list. + * 1. remove transfer; 2. remove itd from frame list and release itd; 3. transfer callback + * + * @param ehciInstance ehci instance pointer. + * @param ehciPipePointer ehci pipe pointer. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostEhciItdArrayDeinit(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer); +#endif /* USB_HOST_CONFIG_EHCI_MAX_ITD */ + +/*! + * @brief open control or bulk pipe. + * + * @param ehciInstance ehci instance pointer. + * @param ehciPipePointer ehci pipe pointer. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostEhciOpenControlBulk(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer); + +/*! + * @brief close control or bulk pipe. + * + * @param ehciInstance ehci instance pointer. + * @param ehciPipePointer ehci pipe pointer. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostEhciCloseControlBulk(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer); + +/*! + * @brief open interrupt pipe. + * + * @param ehciInstance ehci instance pointer. + * @param ehciPipePointer ehci pipe pointer. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostEhciOpenInterrupt(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer); + +/*! + * @brief close interrupt pipe. + * + * @param ehciInstance ehci instance pointer. + * @param ehciPipePointer ehci pipe pointer. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostEhciCloseInterrupt(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer); + +#if (((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) || \ + ((defined USB_HOST_CONFIG_EHCI_MAX_SITD) && (USB_HOST_CONFIG_EHCI_MAX_SITD))) +/*! + * @brief open iso pipe. + * + * @param ehciInstance ehci instance pointer. + * @param ehciPipePointer ehci pipe pointer. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostEhciOpenIso(usb_host_ehci_instance_t *ehciInstance, usb_host_ehci_pipe_t *ehciPipePointer); + +/*! + * @brief close iso pipe. + * + * @param ehciInstance ehci instance pointer. + * @param ehciPipePointer ehci pipe pointer. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostEhciCloseIso(usb_host_ehci_instance_t *ehciInstance, usb_host_ehci_pipe_t *ehciPipePointer); + +/*! + * @brief allocate HS iso bandwidth when host work as high-speed host. + * + * @param ehciInstance ehci instance pointer. + * @param ehciPipePointer ehci pipe pointer. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostBandwidthHsHostAllocateIso(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer); + +#endif + +/*! + * @brief reset ehci ip. + * + * @param ehciInstance ehci instance pointer. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostEhciResetIP(usb_host_ehci_instance_t *ehciInstance); + +/*! + * @brief start ehci ip. + * + * @param ehciInstance ehci instance pointer. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostEhciStartIP(usb_host_ehci_instance_t *ehciInstance); + +/*! + * @brief cancel pipe's transfers. + * + * @param ehciInstance ehci instance pointer. + * @param ehciPipePointer ehci pipe pointer. + * @param transfer the canceling transfer. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostEhciCancelPipe(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer, + usb_host_transfer_t *transfer); + +/*! + * @brief control ehci bus. + * + * @param ehciInstance ehci instance pointer. + * @param bus_control control code. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostEhciControlBus(usb_host_ehci_instance_t *ehciInstance, uint8_t busControl); + +/*! + * @brief ehci transaction done process function. + * + * @param ehciInstance ehci instance pointer. + */ +void USB_HostEhciTransactionDone(usb_host_ehci_instance_t *ehciInstance); + +/*! + * @brief ehci port change interrupt process function. + * + * @param ehciInstance ehci instance pointer. + */ +static void USB_HostEhciPortChange(usb_host_ehci_instance_t *ehciInstance); + +/*! + * @brief ehci timer0 interrupt process function. + * cancel control/bulk transfer that time out. + * + * @param ehciInstance ehci instance pointer. + */ +static void USB_HostEhciTimer0(usb_host_ehci_instance_t *ehciInstance); + +#if ((defined(USB_HOST_CONFIG_LOW_POWER_MODE)) && (USB_HOST_CONFIG_LOW_POWER_MODE > 0U)) +/*! + * @brief ehci timer1 interrupt process function. + * cancel control/bulk transfer that time out. + * + * @param ehciInstance ehci instance pointer. + */ +static void USB_HostEhciTimer1(usb_host_ehci_instance_t *ehciInstance); +#endif + +#if ((defined USB_HOST_CONFIG_COMPLIANCE_TEST) && (USB_HOST_CONFIG_COMPLIANCE_TEST)) +/*! + * @brief suspend bus. + * + * @param ehciInstance ehci instance pointer. + */ +static void USB_HostEhciSuspendBus(usb_host_ehci_instance_t *ehciInstance); + +/*! + * @brief resume bus. + * + * @param ehciInstance ehci instance pointer. + */ +static void USB_HostEhciResumeBus(usb_host_ehci_instance_t *ehciInstance); + +extern usb_status_t USB_HostStandardSetGetDescriptor(usb_host_device_instance_t *deviceInstance, + usb_host_transfer_t *transfer, + void *param); +#endif /* USB_HOST_CONFIG_COMPLIANCE_TEST */ + +/******************************************************************************* + * Variables + ******************************************************************************/ + +/* EHCI controller driver instances. */ +#if (USB_HOST_CONFIG_EHCI == 1U) +USB_RAM_ADDRESS_ALIGNMENT(4096) +USB_CONTROLLER_DATA static uint8_t s_UsbHostEhciFrameList1[USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE * 4]; + +#define USB_HOST_EHCI_FRAME_LIST_ARRAY \ + { \ + &s_UsbHostEhciFrameList1[0] \ + } + +USB_RAM_ADDRESS_ALIGNMENT(64) USB_CONTROLLER_DATA static usb_host_ehci_data_t s_UsbHostEhciData1; +#define USB_HOST_EHCI_DATA_ARRAY \ + { \ + &s_UsbHostEhciData1 \ + } +#elif(USB_HOST_CONFIG_EHCI == 2U) +USB_RAM_ADDRESS_ALIGNMENT(4096) +USB_CONTROLLER_DATA static uint8_t s_UsbHostEhciFrameList1[USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE * 4]; +USB_RAM_ADDRESS_ALIGNMENT(4096) +USB_CONTROLLER_DATA static uint8_t s_UsbHostEhciFrameList2[USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE * 4]; +#define USB_HOST_EHCI_FRAME_LIST_ARRAY \ + { \ + &s_UsbHostEhciFrameList1[0], &s_UsbHostEhciFrameList2[0] \ + } + +USB_RAM_ADDRESS_ALIGNMENT(64) USB_CONTROLLER_DATA static usb_host_ehci_data_t s_UsbHostEhciData1; +USB_RAM_ADDRESS_ALIGNMENT(64) USB_CONTROLLER_DATA static usb_host_ehci_data_t s_UsbHostEhciData2; +#define USB_HOST_EHCI_DATA_ARRAY \ + { \ + &s_UsbHostEhciData1, &s_UsbHostEhciData2 \ + } +#else +#error "Please increase the instance count." +#endif + +static uint8_t s_SlotMaxBandwidth[8] = {125, 125, 125, 125, 125, 125, 50, 0}; + +/******************************************************************************* + * Code + ******************************************************************************/ +/*! +* @brief EHCI NC get USB NC bass address. +* +* This function is used to get USB NC bass address. +* +* @param[in] controllerId EHCI controller ID; See the #usb_controller_index_t. +* +* @retval USB NC bass address. +*/ +#if (defined(USB_HOST_CONFIG_LOW_POWER_MODE) && (USB_HOST_CONFIG_LOW_POWER_MODE > 0U)) +#if (defined(FSL_FEATURE_SOC_USBNC_COUNT) && (FSL_FEATURE_SOC_USBNC_COUNT > 0U)) +void *USB_EhciNCGetBase(uint8_t controllerId) +{ + void *usbNCBase = NULL; +#if ((defined FSL_FEATURE_SOC_USBNC_COUNT) && (FSL_FEATURE_SOC_USBNC_COUNT > 0U)) + uint32_t instance; + uint32_t newinstance = 0; + uint32_t usbnc_base_temp[] = USBNC_BASE_ADDRS; + uint32_t usbnc_base[] = USBNC_BASE_ADDRS; + + if (controllerId < kUSB_ControllerEhci0) + { + return NULL; + } + + controllerId = controllerId - kUSB_ControllerEhci0; + + for (instance = 0; instance < (sizeof(usbnc_base_temp) / sizeof(usbnc_base_temp[0])); instance++) + { + if (usbnc_base_temp[instance]) + { + usbnc_base[newinstance++] = usbnc_base_temp[instance]; + } + } + if (controllerId > newinstance) + { + return NULL; + } + + usbNCBase = (void *)usbnc_base[controllerId]; +#endif + return usbNCBase; +} +#endif +#endif + +#if ((defined USB_HOST_CONFIG_COMPLIANCE_TEST) && (USB_HOST_CONFIG_COMPLIANCE_TEST)) + +usb_status_t USB_HostEhciTestSetMode(usb_host_ehci_instance_t *ehciInstance, uint32_t testMode) +{ + uint32_t ehciPortSC; + + ehciPortSC = ehciInstance->ehciIpBase->PORTSC1; + ehciPortSC &= ~((uint32_t)USBHS_PORTSC1_PTC_MASK); /* clear test mode bits */ + ehciPortSC |= (testMode << USBHS_PORTSC1_PTC_SHIFT); /* set test mode bits */ + ehciInstance->ehciIpBase->PORTSC1 = ehciPortSC; + return kStatus_USB_Success; +} + +static void USB_HostEhciTestSuspendResume(usb_host_ehci_instance_t *ehciInstance) +{ + uint8_t timeCount; + timeCount = 15; /* 15s */ + while (timeCount--) + { + USB_HostEhciDelay(ehciInstance->ehciIpBase, 1000U); + } + USB_HostEhciSuspendBus(ehciInstance); + timeCount = 15; /* 15s */ + while (timeCount--) + { + USB_HostEhciDelay(ehciInstance->ehciIpBase, 1000U); + } + + USB_HostEhciResumeBus(ehciInstance); +} + +static void USB_HostEhciTestCallback(void *param, usb_host_transfer_t *transfer, usb_status_t status) +{ + USB_HostFreeTransfer(param, transfer); +} + +static void USB_HostEhciTestSingleStepGetDeviceDesc(usb_host_ehci_instance_t *ehciInstance, + usb_device_handle deviceHandle) +{ + usb_host_process_descriptor_param_t getDescriptorParam; + usb_host_device_instance_t *deviceInstance = (usb_host_device_instance_t *)deviceHandle; + usb_host_transfer_t *transfer; + uint8_t timeCount; + + /* disable periodic shedule */ + USB_HostEhciStopPeriodic(ehciInstance); + + timeCount = 15; /* 15s */ + while (timeCount--) + { + USB_HostEhciDelay(ehciInstance->ehciIpBase, 1000U); + } + + /* malloc one transfer */ + if (USB_HostMallocTransfer(ehciInstance->hostHandle, &transfer) != kStatus_USB_Success) + { +#ifdef HOST_ECHO + usb_echo("allocate transfer error\r\n"); +#endif + return; + } + + getDescriptorParam.descriptorLength = sizeof(usb_descriptor_device_t); + getDescriptorParam.descriptorLength = 18; + getDescriptorParam.descriptorBuffer = (uint8_t *)&deviceInstance->deviceDescriptor; + getDescriptorParam.descriptorType = USB_DESCRIPTOR_TYPE_DEVICE; + getDescriptorParam.descriptorIndex = 0; + getDescriptorParam.languageId = 0; + transfer->callbackFn = USB_HostEhciTestCallback; + transfer->callbackParam = ehciInstance->hostHandle; + transfer->setupPacket->bmRequestType = USB_REQUEST_TYPE_DIR_IN; + transfer->setupPacket->bRequest = USB_REQUEST_STANDARD_GET_DESCRIPTOR; + transfer->setupPacket->wIndex = 0; + transfer->setupPacket->wLength = 0; + transfer->setupPacket->wValue = 0; + USB_HostStandardSetGetDescriptor(deviceInstance, transfer, &getDescriptorParam); +} + +static usb_status_t USB_HostEhciSingleStepQtdListInit(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer, + usb_host_transfer_t *transfer, + uint8_t setupPhase) +{ + volatile usb_host_ehci_qh_t *vltQhPointer; + usb_host_ehci_qtd_t *qtdPointer = NULL; + volatile uint32_t *entryPointer; + uint32_t qtdNumber; + uint32_t dataLength; + uint32_t dataAddress; + uint8_t index; + + /* compute the qtd number */ + qtdNumber = 1; + + vltQhPointer = (volatile usb_host_ehci_qh_t *)ehciPipePointer->ehciQh; + /* get qtd list */ + USB_HostEhciLock(); + if (qtdNumber <= ehciInstance->ehciQtdNumber) + { + ehciInstance->ehciQtdNumber -= qtdNumber; + qtdPointer = NULL; + do + { + if (qtdPointer != NULL) + { + qtdPointer->nextQtdPointer = (uint32_t)ehciInstance->ehciQtdHead; + } + qtdPointer = ehciInstance->ehciQtdHead; + ehciInstance->ehciQtdHead = (usb_host_ehci_qtd_t *)qtdPointer->nextQtdPointer; + qtdPointer->nextQtdPointer = 0; + } while (--qtdNumber); + } + else + { + USB_HostEhciUnlock(); + return kStatus_USB_Error; + } + USB_HostEhciUnlock(); + + /* int qTD */ + if (setupPhase == 1) /* setup transaction qtd init */ + { + qtdPointer->alternateNextQtdPointer = EHCI_HOST_T_INVALID_VALUE; + /* dt: need set; ioc: 0; C_Page: 0; PID Code: SETUP; Status: Active */ + qtdPointer->transferResults[0] = qtdPointer->transferResults[1] = 0; + qtdPointer->transferResults[0] = + ((0x00000000 << EHCI_HOST_QTD_DT_SHIFT) | (8 << EHCI_HOST_QTD_TOTAL_BYTES_SHIFT) | + (EHCI_HOST_PID_SETUP << EHCI_HOST_QTD_PID_CODE_SHIFT) | (EHCI_HOST_QTD_STATUS_ACTIVE_MASK)); + dataAddress = (uint32_t)(transfer->setupPacket); + qtdPointer->transferResults[1] = dataAddress; /* current offset is set too */ + /* set buffer pointer no matter data length */ + for (index = 0; index < 4; ++index) + { + qtdPointer->bufferPointers[index] = ((dataAddress + (index + 1) * 4 * 1024) & 0xFFFFF000); + } + } + else if (setupPhase == 2) /* data transaction qtd */ + { + dataLength = transfer->transferLength; + if (dataLength != 0) + { + qtdPointer->alternateNextQtdPointer = EHCI_HOST_T_INVALID_VALUE; + /* dt: need set; ioc: 0; C_Page: 0; PID Code: IN/OUT; Status: Active */ + qtdPointer->transferResults[0] = qtdPointer->transferResults[1] = 0; + + qtdPointer->transferResults[0] = + ((0x00000001U << EHCI_HOST_QTD_DT_SHIFT) | (dataLength << EHCI_HOST_QTD_TOTAL_BYTES_SHIFT) | + (EHCI_HOST_PID_IN << EHCI_HOST_QTD_PID_CODE_SHIFT) | (EHCI_HOST_QTD_STATUS_ACTIVE_MASK)); + + dataAddress = (uint32_t)(transfer->transferBuffer); + qtdPointer->transferResults[1] = dataAddress; /* current offset is set too */ + /* set buffer pointer no matter data length */ + for (index = 0; index < 4; ++index) + { + qtdPointer->bufferPointers[index] = ((dataAddress + (index + 1) * 4 * 1024) & 0xFFFFF000); + } + } + } + else if (setupPhase == 3) + { + /* status transaction qtd */ + qtdPointer->alternateNextQtdPointer = EHCI_HOST_T_INVALID_VALUE; + /* dt: dont care; ioc: 1; C_Page: 0; PID Code: IN/OUT; Status: Active */ + qtdPointer->transferResults[0] = qtdPointer->transferResults[1] = 0; + + qtdPointer->transferResults[0] = + ((0x00000001U << EHCI_HOST_QTD_DT_SHIFT) | (EHCI_HOST_PID_OUT << EHCI_HOST_QTD_PID_CODE_SHIFT) | + (EHCI_HOST_QTD_IOC_MASK) | (EHCI_HOST_QTD_STATUS_ACTIVE_MASK)); + + qtdPointer->nextQtdPointer |= EHCI_HOST_T_INVALID_VALUE; + } + qtdPointer->nextQtdPointer |= EHCI_HOST_T_INVALID_VALUE; + qtdPointer->transferResults[0] |= EHCI_HOST_QTD_IOC_MASK; /* set IOC */ + + /* save qtd to transfer */ + transfer->union1.unitHead = (uint32_t)qtdPointer; + transfer->union2.unitTail = (uint32_t)qtdPointer; + /* link transfer to qh */ + transfer->next = NULL; + if (vltQhPointer->ehciTransferHead == NULL) + { + transfer->next = NULL; + vltQhPointer->ehciTransferHead = vltQhPointer->ehciTransferTail = transfer; + } + else + { + transfer->next = NULL; + vltQhPointer->ehciTransferTail->next = transfer; + vltQhPointer->ehciTransferTail = transfer; + } + + USB_HostEhciLock(); + /* link qtd to qh (link to end) */ + entryPointer = &(vltQhPointer->nextQtdPointer); + dataAddress = *entryPointer; /* dataAddress variable means entry value here */ + while ((dataAddress) && (!(dataAddress & EHCI_HOST_T_INVALID_VALUE))) + { + entryPointer = (volatile uint32_t *)dataAddress; + dataAddress = *entryPointer; + } + *entryPointer = (uint32_t)qtdPointer; + USB_HostEhciUnlock(); + USB_HostEhciStartAsync(ehciInstance); + + return kStatus_USB_Success; +} + +static void USB_HostEhciTestSingleStepGetDeviceDescData(usb_host_ehci_instance_t *ehciInstance, + usb_device_handle deviceHandle) +{ + static uint8_t buffer[USB_HOST_EHCI_TEST_DESCRIPTOR_LENGTH]; + usb_host_device_instance_t *deviceInstance = (usb_host_device_instance_t *)deviceHandle; + usb_host_transfer_t *transfer; + uint8_t timeCount; + + USB_HostEhciStopPeriodic(ehciInstance); + + if (USB_HostMallocTransfer(ehciInstance->hostHandle, &transfer) != kStatus_USB_Success) + { + return; + } + transfer->callbackFn = USB_HostEhciTestCallback; + transfer->callbackParam = ehciInstance->hostHandle; + transfer->setupPacket->bmRequestType = USB_REQUEST_TYPE_DIR_IN; + transfer->setupPacket->bRequest = USB_REQUEST_STANDARD_GET_DESCRIPTOR; + transfer->setupPacket->wLength = USB_SHORT_TO_LITTLE_ENDIAN(USB_HOST_EHCI_TEST_DESCRIPTOR_LENGTH); + transfer->setupPacket->wValue = USB_SHORT_TO_LITTLE_ENDIAN((uint16_t)((uint16_t)USB_DESCRIPTOR_TYPE_DEVICE << 8)); + transfer->setupPacket->wIndex = 0; + USB_HostEhciSingleStepQtdListInit(ehciInstance, (usb_host_ehci_pipe_t *)(deviceInstance->controlPipe), transfer, 1); + + timeCount = 15; /* 15s */ + while (timeCount--) + { + USB_HostEhciDelay(ehciInstance->ehciIpBase, 1000U); + } + + if (USB_HostMallocTransfer(ehciInstance->hostHandle, &transfer) != kStatus_USB_Success) + { + return; + } + transfer->callbackFn = USB_HostEhciTestCallback; + transfer->callbackParam = ehciInstance->hostHandle; + transfer->transferBuffer = buffer; + transfer->transferLength = USB_HOST_EHCI_TEST_DESCRIPTOR_LENGTH; + USB_HostEhciSingleStepQtdListInit(ehciInstance, (usb_host_ehci_pipe_t *)(deviceInstance->controlPipe), transfer, 2); + + if (USB_HostMallocTransfer(ehciInstance->hostHandle, &transfer) != kStatus_USB_Success) + { + return; + } + transfer->callbackFn = USB_HostEhciTestCallback; + transfer->callbackParam = ehciInstance->hostHandle; + transfer->transferBuffer = NULL; + transfer->transferLength = 0; + USB_HostEhciSingleStepQtdListInit(ehciInstance, (usb_host_ehci_pipe_t *)(deviceInstance->controlPipe), transfer, 3); + + timeCount = 15; /* 15s */ + while (timeCount--) + { + USB_HostEhciDelay(ehciInstance->ehciIpBase, 1000U); + } + + usb_echo("test_single_step_get_dev_desc_data finished\r\n"); + + return; +} + +void USB_HostEhciTestModeInit(usb_device_handle deviceHandle) +{ + uint32_t productId; + usb_host_device_instance_t *deviceInstance = (usb_host_device_instance_t *)deviceHandle; + usb_host_ehci_instance_t *ehciInstance = + (usb_host_ehci_instance_t *)(((usb_host_instance_t *)(deviceInstance->hostHandle))->controllerHandle); + + USB_HostHelperGetPeripheralInformation(deviceHandle, kUSB_HostGetDevicePID, &productId); + + usb_echo("usb host ehci test mode init product id:0x%x\r\n", productId); + + switch (productId) + { + case 0x0101U: + USB_HostEhciTestSetMode(ehciInstance, USB_HOST_EHCI_PORTSC_PTC_SE0_NAK); + break; + case 0x0102U: + USB_HostEhciTestSetMode(ehciInstance, USB_HOST_EHCI_PORTSC_PTC_J_STATE); + break; + case 0x0103U: + USB_HostEhciTestSetMode(ehciInstance, USB_HOST_EHCI_PORTSC_PTC_K_STATE); + break; + case 0x0104U: + USB_HostEhciTestSetMode(ehciInstance, USB_HOST_EHCI_PORTSC_PTC_PACKET); + break; + case 0x0105U: + usb_echo("set test mode FORCE_ENALBE_HS\r\n"); + USB_HostEhciTestSetMode(ehciInstance, USB_HOST_EHCI_PORTSC_PTC_FORCE_ENABLE_HS); + break; + case 0x0106U: + USB_HostEhciTestSuspendResume(ehciInstance); + break; + case 0x0107U: + usb_echo("start test SINGLE_STEP_GET_DEV_DESC\r\n"); + USB_HostEhciTestSingleStepGetDeviceDesc(ehciInstance, deviceHandle); + break; + case 0x0108U: + usb_echo("start test SINGLE_STEP_GET_DEV_DESC_DATA\r\n"); + USB_HostEhciTestSingleStepGetDeviceDescData(ehciInstance, deviceHandle); + break; + default: + break; + } + + return; +} + +static void USB_HostEhciSuspendBus(usb_host_ehci_instance_t *ehciInstance) +{ + uint32_t ehciPortSC; + + USB_HostEhciLock(); + ehciPortSC = ehciInstance->ehciIpBase->PORTSC1; + if (ehciPortSC & USBHS_PORTSC1_PE_MASK) + { + ehciPortSC = ehciInstance->ehciIpBase->PORTSC1; + ehciPortSC &= (uint32_t)(~EHCI_PORTSC1_W1_BITS); + ehciInstance->ehciIpBase->PORTSC1 = (ehciPortSC | USBHS_PORTSC1_SUSP_MASK); + } + USB_HostEhciUnlock(); +} + +static void USB_HostEhciResumeBus(usb_host_ehci_instance_t *ehciInstance) +{ + uint32_t ehciPortSC; + + USB_HostEhciLock(); + /* Resume port */ + ehciPortSC = ehciInstance->ehciIpBase->PORTSC1; + if (ehciPortSC & USBHS_PORTSC1_PE_MASK) + { + ehciPortSC &= (uint32_t)(~EHCI_PORTSC1_W1_BITS); + ehciInstance->ehciIpBase->PORTSC1 = (ehciPortSC | USBHS_PORTSC1_FPR_MASK); + } + USB_HostEhciUnlock(); +} +#endif + +static uint32_t USB_HostBandwidthComputeTime(uint8_t speed, uint8_t pipeType, uint8_t direction, uint32_t dataLength) +{ + uint32_t result = (3167 + ((1000 * dataLength) * 7U * 8U / 6U)) / 1000; + + if (pipeType == USB_ENDPOINT_ISOCHRONOUS) /* iso */ + { + if (speed == USB_SPEED_HIGH) + { + result = 38 * 8 * 2083 + 2083 * result + USB_HOST_EHCI_BANDWIDTH_DELAY; + } + else if (speed == USB_SPEED_FULL) + { + if (direction == USB_IN) + { + result = 7268000 + 83540 * result + USB_HOST_EHCI_BANDWIDTH_DELAY; + } + else + { + result = 6265000 + 83540 * result + USB_HOST_EHCI_BANDWIDTH_DELAY; + } + } + else + { + } + } + else /* interrupt */ + { + if (speed == USB_SPEED_HIGH) + { + result = 55 * 8 * 2083 + 2083 * result + USB_HOST_EHCI_BANDWIDTH_DELAY; + } + else if (speed == USB_SPEED_FULL) + { + result = 9107000 + 83540 * result + USB_HOST_EHCI_BANDWIDTH_DELAY; + } + else if (speed == USB_SPEED_LOW) + { + if (direction == USB_IN) + { + result = 64060000 + 2000 * USB_HOST_EHCI_BANDWIDTH_HUB_LS_SETUP + 676670 * result + + USB_HOST_EHCI_BANDWIDTH_DELAY; + } + else + { + result = 6265000 + 83540 * result + USB_HOST_EHCI_BANDWIDTH_DELAY; + } + } + else + { + } + } + + result /= 1000000; + if (result == 0) + { + result = 1; + } + + return result; +} + +static void USB_HostBandwidthFslsHostComputeCurrent(usb_host_ehci_instance_t *ehciInstance, + uint16_t frameIndex, + uint16_t *frameBandwidth) +{ + usb_host_ehci_pipe_t *ehciPipePointer; + + /* clear the bandwidth */ + *frameBandwidth = 0; + + ehciPipePointer = ehciInstance->ehciRunningPipeList; + while (ehciPipePointer != NULL) + { + /* only compute iso and interrupt pipe */ + if ((ehciPipePointer->pipeCommon.pipeType == USB_ENDPOINT_ISOCHRONOUS) || + (ehciPipePointer->pipeCommon.pipeType == USB_ENDPOINT_INTERRUPT)) + { + /* does pipe allocate bandwidth in frameIndex frame? note: interval is power of 2. */ + if ((frameIndex >= ehciPipePointer->startFrame) && + (!((uint32_t)(frameIndex - ehciPipePointer->startFrame) & + (uint32_t)(ehciPipePointer->pipeCommon.interval - 1)))) + { + *frameBandwidth += ehciPipePointer->dataTime; + } + } + ehciPipePointer = (usb_host_ehci_pipe_t *)ehciPipePointer->pipeCommon.next; + } +} + +static void USB_HostBandwidthHsHostComputeCurrentFsls(usb_host_ehci_instance_t *ehciInstance, + uint32_t hubNumber, + uint16_t frameIndex, + uint8_t frameBandwidths[8]) +{ + usb_host_ehci_pipe_t *ehciPipePointer; + uint8_t index; + uint32_t deviceInfo; + + for (index = 0; index < 8; ++index) + { + frameBandwidths[index] = 0; + } + + ehciPipePointer = ehciInstance->ehciRunningPipeList; + while (ehciPipePointer != NULL) + { + /* only compute iso and interrupt pipe */ + if ((ehciPipePointer->pipeCommon.pipeType == USB_ENDPOINT_ISOCHRONOUS) || + (ehciPipePointer->pipeCommon.pipeType == USB_ENDPOINT_INTERRUPT)) + { + /* compute FS/LS bandwidth that blong to same high-speed hub, because FS/LS bandwidth is allocated from + * first parent high-speed hub */ + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, + kUSB_HostGetDeviceHSHubNumber, &deviceInfo); + if (deviceInfo != hubNumber) + { + ehciPipePointer = (usb_host_ehci_pipe_t *)ehciPipePointer->pipeCommon.next; + continue; + } + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceSpeed, + &deviceInfo); + if (deviceInfo == USB_SPEED_HIGH) + { + ehciPipePointer = (usb_host_ehci_pipe_t *)ehciPipePointer->pipeCommon.next; + continue; + } + + /* does pipe allocate bandwidth in frameIndex frame? note: interval is power of 2. */ + if ((frameIndex >= ehciPipePointer->startFrame) && + (!((uint32_t)(frameIndex - ehciPipePointer->startFrame) & + (uint32_t)(ehciPipePointer->pipeCommon.interval - 1)))) + { + if (ehciPipePointer->pipeCommon.pipeType == + USB_ENDPOINT_ISOCHRONOUS) /* iso bandwidth is allocated once */ + { + frameBandwidths[ehciPipePointer->startUframe + 1] += ehciPipePointer->dataTime; + } + else /* iso bandwidth is allocated three times */ + { + frameBandwidths[ehciPipePointer->startUframe + 1] += ehciPipePointer->dataTime; + frameBandwidths[ehciPipePointer->startUframe + 2] += ehciPipePointer->dataTime; + frameBandwidths[ehciPipePointer->startUframe + 3] += ehciPipePointer->dataTime; + } + } + } + ehciPipePointer = (usb_host_ehci_pipe_t *)ehciPipePointer->pipeCommon.next; + } + + for (index = 0; index < 7; ++index) /* */ + { + if (frameBandwidths[index] > s_SlotMaxBandwidth[index]) + { + frameBandwidths[index + 1] += (frameBandwidths[index] - s_SlotMaxBandwidth[index]); + frameBandwidths[index] = s_SlotMaxBandwidth[index]; + } + } +} + +static void USB_HostBandwidthHsHostComputeCurrentHsAll(usb_host_ehci_instance_t *ehciInstance, + uint16_t frameIndex, + uint8_t frameBandwidths[8]) +{ + usb_host_ehci_pipe_t *ehciPipePointer; + uint8_t index; + uint32_t deviceInfo; + uint16_t frameInterval; + + for (index = 0; index < 8; ++index) + { + frameBandwidths[index] = 0; + } + + ehciPipePointer = ehciInstance->ehciRunningPipeList; + while (ehciPipePointer != NULL) + { + /* only compute iso and interrupt pipe */ + if ((ehciPipePointer->pipeCommon.pipeType == USB_ENDPOINT_ISOCHRONOUS) || + (ehciPipePointer->pipeCommon.pipeType == USB_ENDPOINT_INTERRUPT)) + { + frameInterval = ehciPipePointer->pipeCommon.interval; + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceSpeed, + &deviceInfo); + if (deviceInfo == USB_SPEED_HIGH) /* high-speed data bandwidth */ + { + /* frameInterval means micro-frame here */ + if (frameIndex >= ehciPipePointer->startFrame) + { + if ((frameInterval > 8) && + (frameIndex * 8 - ehciPipePointer->startFrame * 8 >= ehciPipePointer->startUframe)) + { + if (!((uint32_t)(frameIndex * 8 - ehciPipePointer->startFrame * 8 - + ehciPipePointer->startUframe) & + (uint32_t)(frameInterval - 1))) + { + frameBandwidths[ehciPipePointer->startUframe] += ehciPipePointer->dataTime; + } + } + else + { + for (index = ehciPipePointer->startUframe; index < 8; index += frameInterval) + { + frameBandwidths[index] += ehciPipePointer->dataTime; + } + } + } + } + else /* full-speed split bandwidth */ + { + if ((frameIndex >= ehciPipePointer->startFrame) && + (!((uint32_t)(frameIndex - ehciPipePointer->startFrame) & (uint32_t)(frameInterval - 1)))) + { + for (index = 0; index < 8; ++index) + { + if ((uint32_t)(ehciPipePointer->uframeSmask) & + (uint32_t)(0x01 << index)) /* start-split micro-frames */ + { + frameBandwidths[index] += ehciPipePointer->startSplitTime; + } + if ((uint32_t)(ehciPipePointer->uframeCmask) & + (uint32_t)(0x01 << index)) /* complete-split micro-frames */ + { + frameBandwidths[index] += ehciPipePointer->completeSplitTime; + } + } + } + } + } + ehciPipePointer = (usb_host_ehci_pipe_t *)ehciPipePointer->pipeCommon.next; + } + + for (index = 0; index < 7; ++index) /* */ + { + if (frameBandwidths[index] > s_SlotMaxBandwidth[index]) + { + frameBandwidths[index + 1] += (frameBandwidths[index] - s_SlotMaxBandwidth[index]); + frameBandwidths[index] = s_SlotMaxBandwidth[index]; + } + } +} + +/*! + * @brief allocate HS bandwidth when host work as high-speed host. + * + * @param ehciInstance ehci instance pointer. + * @param uframeInterval micro-frame interval. + * @param timeData time for allocating. + * @param uframeIndexOut return start uframe index. + * + * @return kStatus_USB_Success or error codes. + */ +static usb_status_t USB_HostBandwidthHsHostAllocateHsCommon(usb_host_ehci_instance_t *ehciInstance, + uint16_t uframeInterval, + uint16_t timeData, + uint16_t *uframeIndexOut) +{ + uint16_t uframeIntervalIndex; + uint16_t uframeIndex; + uint16_t frameIndex; + uint8_t frameTimes[8]; + + frameIndex = 0; + USB_HostBandwidthHsHostComputeCurrentHsAll( + ehciInstance, frameIndex, frameTimes); /* compute the allocated bandwidths in the frameIndex frame */ + for (uframeIntervalIndex = 0; (uframeIntervalIndex < uframeInterval); ++uframeIntervalIndex) /* start micro-frame */ + { + /* for all the micro-frame in interval uframeInterval */ + for (uframeIndex = uframeIntervalIndex; uframeIndex < (USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE * 8); + uframeIndex += uframeInterval) + { + if (frameIndex != (uframeIndex >> 3)) + { + frameIndex = (uframeIndex >> 3); + USB_HostBandwidthHsHostComputeCurrentHsAll( + ehciInstance, frameIndex, + frameTimes); /* compute the allocated bandwidths in the new frameIndex frame */ + } + if (frameTimes[uframeIndex & 0x0007] + timeData > + s_SlotMaxBandwidth[(uframeIndex & 0x0007)]) /* micro-frame has enough idle bandwidth? */ + { + break; /* fail */ + } + } + if (uframeIndex >= (USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE * 8)) /* success? */ + { + break; + } + } + + if (uframeIntervalIndex < uframeInterval) + { + *uframeIndexOut = (uframeIntervalIndex); + return kStatus_USB_Success; + } + else + { + return kStatus_USB_Error; + } +} + +#if (((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) || \ + ((defined USB_HOST_CONFIG_EHCI_MAX_SITD) && (USB_HOST_CONFIG_EHCI_MAX_SITD))) + +static usb_status_t USB_HostBandwidthHsHostAllocateIso(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer) +{ + usb_status_t status; + uint32_t deviceInfo; + uint32_t hubNumber; + uint16_t uframeIntervalIndex = 0; + uint16_t frameIntervalIndex = 0; + uint16_t frameIndex; + uint16_t timeCompleteSplit; + uint16_t timeStartSplit; + uint32_t timeData; + uint8_t SsCsNumber = 0; + uint16_t frameInterval; + uint8_t frameTimes[8]; + uint8_t allocateOk = 1; + uint8_t index; + + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceSpeed, + &deviceInfo); + + timeData = USB_HostBandwidthComputeTime( + deviceInfo, USB_ENDPOINT_ISOCHRONOUS, ehciPipePointer->pipeCommon.direction, + ehciPipePointer->pipeCommon.maxPacketSize * ehciPipePointer->pipeCommon.numberPerUframe); + /* pipe is high-speed */ + if (deviceInfo == USB_SPEED_HIGH) + { + uframeIntervalIndex = 0; + status = USB_HostBandwidthHsHostAllocateHsCommon(ehciInstance, ehciPipePointer->uframeInterval, timeData, + &uframeIntervalIndex); + if (status == kStatus_USB_Success) + { + ehciPipePointer->startFrame = (uframeIntervalIndex / 8); + ehciPipePointer->startUframe = (uframeIntervalIndex & 0x0007); + ehciPipePointer->dataTime = timeData; + + return kStatus_USB_Success; + } + } + else /* pipe is full-speed or low-speed */ + { + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetHubThinkTime, + &deviceInfo); /* deviceInfo variable means hub think time */ + timeData += (deviceInfo * 7 / (6 * 12)); + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceHSHubNumber, + &hubNumber); + frameInterval = ehciPipePointer->pipeCommon.interval; + + /* compute start-split and complete-split bandwidth */ + if (ehciPipePointer->pipeCommon.direction == USB_OUT) + { + timeStartSplit = USB_HostBandwidthComputeTime(USB_SPEED_HIGH, USB_ENDPOINT_ISOCHRONOUS, USB_OUT, + ehciPipePointer->pipeCommon.maxPacketSize); + timeCompleteSplit = 0; + } + else + { + timeStartSplit = USB_HostBandwidthComputeTime(USB_SPEED_HIGH, USB_ENDPOINT_ISOCHRONOUS, USB_IN, 1); + timeCompleteSplit = USB_HostBandwidthComputeTime(USB_SPEED_HIGH, USB_ENDPOINT_ISOCHRONOUS, USB_IN, + ehciPipePointer->pipeCommon.maxPacketSize); + } + /* note: bandwidth must put in one frame */ + for (uframeIntervalIndex = 0; uframeIntervalIndex <= 5; ++uframeIntervalIndex) /* uframe interval */ + { + for (frameIntervalIndex = 0; frameIntervalIndex < frameInterval; ++frameIntervalIndex) /* frame interval */ + { + allocateOk = 1; + for (frameIndex = frameIntervalIndex; frameIndex < USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE; + frameIndex += frameInterval) /* check all the frames */ + { + /* compute start-split and complete-split number */ + SsCsNumber = (ehciPipePointer->pipeCommon.maxPacketSize + 187) / + 188; /* ss number for iso out; cs number for iso in */ + if (ehciPipePointer->pipeCommon.direction == USB_OUT) /* ISO OUT */ + { + if (uframeIntervalIndex + SsCsNumber > 8) + { + allocateOk = 0; + } + } + else + { + if (uframeIntervalIndex + 2 + SsCsNumber > + 8) /* ISO IN: there are two micro-frame interval between start-split and complete-split */ + { + allocateOk = 0; + } + } + if (allocateOk) + { + /* allocate start-split and complete-split bandwidth */ + USB_HostBandwidthHsHostComputeCurrentHsAll(ehciInstance, frameIndex, frameTimes); + if (ehciPipePointer->pipeCommon.direction == USB_OUT) /* ISO OUT */ + { + index = uframeIntervalIndex; + for (; index < (uframeIntervalIndex + SsCsNumber); ++index) + { + if (frameTimes[index] + timeStartSplit > s_SlotMaxBandwidth[index]) + { + allocateOk = 0; + break; + } + } + } + else /* ISO IN */ + { + index = uframeIntervalIndex; + if (frameTimes[index] + timeStartSplit > s_SlotMaxBandwidth[index]) + { + allocateOk = 0; + } + if (allocateOk) + { + index = + uframeIntervalIndex + + 2; /* there are two micro-frames interval between start-split and complete-split */ + for (; index < (uframeIntervalIndex + 2 + SsCsNumber); ++index) + { + if (frameTimes[index] + timeCompleteSplit > s_SlotMaxBandwidth[index]) + { + allocateOk = 0; + break; + } + } + } + } + } + + /* allocate data bandwidth */ + if (allocateOk) + { + USB_HostBandwidthHsHostComputeCurrentFsls(ehciInstance, hubNumber, frameIndex, frameTimes); + index = uframeIntervalIndex + 1; /* timeData bandwidth start position */ + /* iso must occupy all the uframe bandwidth */ + { + deviceInfo = timeData; /* note: deviceInfo variable means bandwidth here */ + while ((index < 8) && (deviceInfo > s_SlotMaxBandwidth[index])) + { + if (frameTimes[index] > 0) + { + allocateOk = 0; + break; + } + else + { + deviceInfo -= s_SlotMaxBandwidth[index]; + } + ++index; + } + } + } + if (allocateOk) + { + /* data bandwidth can be put in the frame? */ + index = uframeIntervalIndex + 1; /* timeData bandwidth start position */ + frameTimes[index] += timeData; + for (; index < 7; ++index) + { + if (frameTimes[index] > s_SlotMaxBandwidth[index]) + { + frameTimes[index + 1] += (frameTimes[index] - s_SlotMaxBandwidth[index]); + frameTimes[index] = s_SlotMaxBandwidth[index]; + } + else + { + break; + } + } + if (frameTimes[index] > s_SlotMaxBandwidth[index]) + { + allocateOk = 0; + } + } + + if (allocateOk) + { + break; + } + } + if (allocateOk) + { + break; + } + } + if (allocateOk) + { + break; + } + } + + if (allocateOk) + { + ehciPipePointer->startFrame = frameIntervalIndex; + ehciPipePointer->startUframe = uframeIntervalIndex; + ehciPipePointer->dataTime = timeData; + ehciPipePointer->startSplitTime = timeStartSplit; + ehciPipePointer->completeSplitTime = timeCompleteSplit; + if (ehciPipePointer->pipeCommon.direction == USB_OUT) + { + index = uframeIntervalIndex; + for (; index < (uframeIntervalIndex + SsCsNumber); ++index) + { + ehciPipePointer->uframeSmask = (uint32_t)ehciPipePointer->uframeSmask | (uint32_t)(0x01 << index); + } + } + else + { + index = uframeIntervalIndex; + ehciPipePointer->uframeSmask = (uint32_t)ehciPipePointer->uframeSmask | (uint32_t)(0x01 << index); + index = uframeIntervalIndex + 2; + for (; index < (uframeIntervalIndex + 2 + SsCsNumber); ++index) + { + ehciPipePointer->uframeCmask = (uint32_t)ehciPipePointer->uframeCmask | (uint32_t)(0x01 << index); + } + } + + return kStatus_USB_Success; + } + } + + return kStatus_USB_Error; +} + +#endif + +static usb_status_t USB_HostBandwidthHsHostAllocateInterrupt(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer) +{ + usb_status_t status; + uint32_t deviceInfo; + uint32_t hubNumber; + uint16_t uframeIntervalIndex = 0; + uint16_t frameIntervalIndex = 0; + uint16_t frameIndex; + uint16_t timeCompleteSplit; + uint16_t timeStartSplit; + uint32_t timeData; + uint8_t SsCsNumber; + uint16_t frameInterval; + uint8_t frameTimes[8]; + uint8_t allocateOk = 1; + uint8_t index; + + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceSpeed, + &deviceInfo); + + timeData = USB_HostBandwidthComputeTime( + deviceInfo, USB_ENDPOINT_INTERRUPT, ehciPipePointer->pipeCommon.direction, + ehciPipePointer->pipeCommon.maxPacketSize * ehciPipePointer->pipeCommon.numberPerUframe); + /* pipe is high-speed */ + if (deviceInfo == USB_SPEED_HIGH) + { + uframeIntervalIndex = 0; + status = USB_HostBandwidthHsHostAllocateHsCommon(ehciInstance, ehciPipePointer->uframeInterval, timeData, + &uframeIntervalIndex); + if (status == kStatus_USB_Success) + { + ehciPipePointer->startFrame = (uframeIntervalIndex / 8); + ehciPipePointer->startUframe = (uframeIntervalIndex & 0x0007); + /* for HS interrupt start transaction position */ + if (ehciPipePointer->uframeInterval >= 8) + { + ehciPipePointer->uframeSmask = (0x01 << ehciPipePointer->startUframe); + } + else + { + ehciPipePointer->uframeSmask = 0x00u; + for (index = ehciPipePointer->startUframe; index < 8; index += ehciPipePointer->uframeInterval) + { + ehciPipePointer->uframeSmask |= (0x01U << index); + } + } + ehciPipePointer->dataTime = timeData; + + return kStatus_USB_Success; + } + } + else /* pipe is full-speed or low-speed */ + { + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetHubThinkTime, + &deviceInfo); + timeData += (deviceInfo * 7 / (6 * 12)); + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceHSHubNumber, + &hubNumber); + frameInterval = ehciPipePointer->pipeCommon.interval; + SsCsNumber = 3; /* complete split number */ + + /* compute start-split and complete-split bandwidth */ + if (ehciPipePointer->pipeCommon.direction == USB_OUT) + { + timeStartSplit = USB_HostBandwidthComputeTime(USB_SPEED_HIGH, USB_ENDPOINT_INTERRUPT, USB_OUT, + ehciPipePointer->pipeCommon.maxPacketSize) + + USB_HostBandwidthComputeTime(USB_SPEED_HIGH, USB_ENDPOINT_INTERRUPT, USB_OUT, 1); + timeCompleteSplit = USB_HostBandwidthComputeTime(USB_SPEED_HIGH, USB_ENDPOINT_INTERRUPT, USB_OUT, 0); + } + else + { + timeStartSplit = USB_HostBandwidthComputeTime(USB_SPEED_HIGH, USB_ENDPOINT_INTERRUPT, USB_IN, 1); + timeCompleteSplit = USB_HostBandwidthComputeTime(USB_SPEED_HIGH, USB_ENDPOINT_INTERRUPT, USB_IN, + ehciPipePointer->pipeCommon.maxPacketSize) + + USB_HostBandwidthComputeTime(USB_SPEED_HIGH, USB_ENDPOINT_INTERRUPT, USB_IN, 0); + } + /* note: bandwidth must put in one frame */ + for (uframeIntervalIndex = 0; uframeIntervalIndex <= 4; ++uframeIntervalIndex) /* uframe interval */ + { + for (frameIntervalIndex = 0; frameIntervalIndex < frameInterval; ++frameIntervalIndex) /* frame interval */ + { + allocateOk = 1; + for (frameIndex = frameIntervalIndex; frameIndex < USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE; + frameIndex += frameInterval) /* check all the frames */ + { + /* allocate data bandwidth */ + USB_HostBandwidthHsHostComputeCurrentFsls(ehciInstance, hubNumber, frameIndex, frameTimes); + index = uframeIntervalIndex + 1; + for (; index <= (uframeIntervalIndex + 3); ++index) /* data bandwidth number is 3. + uframeIntervalIndex don't exceed 4, so + index cannot exceed 7 */ + { + if (frameTimes[index] + timeData > s_SlotMaxBandwidth[index]) + { + allocateOk = 0; + break; + } + } + + if (allocateOk) + { + USB_HostBandwidthHsHostComputeCurrentHsAll(ehciInstance, frameIndex, frameTimes); + /* allocate start_split bandwidth */ + if (frameTimes[uframeIntervalIndex] + timeStartSplit > s_SlotMaxBandwidth[uframeIntervalIndex]) + { + allocateOk = 0; + } + if (allocateOk) + { + /* allocate complete_split bandwidth */ + index = uframeIntervalIndex + 2; + /* complete-split number is normal 3. When uframeIntervalIndex is 4, complete-split number + * is 2. */ + for (; (index <= (uframeIntervalIndex + 1 + SsCsNumber)) && (index < 8); ++index) + { + if (frameTimes[index] + timeCompleteSplit > s_SlotMaxBandwidth[index]) + { + allocateOk = 0; + break; + } + } + } + } + + if (!allocateOk) + { + break; /* allocate fail */ + } + } + if (allocateOk) + { + break; + } + } + if (allocateOk) + { + break; + } + } + + if (allocateOk) + { + ehciPipePointer->startFrame = frameIntervalIndex; + ehciPipePointer->startUframe = uframeIntervalIndex; + ehciPipePointer->uframeSmask = (0x01 << ehciPipePointer->startUframe); + ehciPipePointer->uframeCmask = 0; + index = uframeIntervalIndex + 2; + for (; (index <= (uframeIntervalIndex + 1 + SsCsNumber)) && (index < 8); ++index) + { + ehciPipePointer->uframeCmask = (uint32_t)ehciPipePointer->uframeCmask | (uint32_t)(0x01 << index); + } + ehciPipePointer->dataTime = timeData; + ehciPipePointer->startSplitTime = timeStartSplit; + ehciPipePointer->completeSplitTime = timeCompleteSplit; + + return kStatus_USB_Success; + } + } + + return kStatus_USB_BandwidthFail; +} + +static usb_status_t USB_HostBandwidthFslsHostAllocate(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer) +{ + uint32_t FslsTime = 0; + uint32_t speed = 0; + uint16_t uframeIntervalIndex; + uint16_t frameIndex; + uint16_t frameInterval; + uint16_t frameTime; + + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetHubThinkTime, + &FslsTime); + FslsTime += (FslsTime * 7 / (6 * 12)); + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceSpeed, &speed); + FslsTime = FslsTime + USB_HostBandwidthComputeTime(speed, ehciPipePointer->pipeCommon.pipeType, + ehciPipePointer->pipeCommon.direction, + ehciPipePointer->pipeCommon.maxPacketSize); + + frameInterval = ehciPipePointer->pipeCommon.interval; + for (uframeIntervalIndex = 0; uframeIntervalIndex < ehciPipePointer->uframeInterval; + ++uframeIntervalIndex) /* uframeIntervalIndex can exceed 8 */ + { + for (frameIndex = (uframeIntervalIndex >> 3); frameIndex < USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE; + frameIndex += frameInterval) + { + USB_HostBandwidthFslsHostComputeCurrent(ehciInstance, frameIndex, &frameTime); + if (frameTime + FslsTime > USB_HOST_EHCI_BANDWIDTH_FRAME_TOTOAL_TIME) + { + break; + } + } + if (frameIndex >= USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE) + { + break; + } + } + if (uframeIntervalIndex < ehciPipePointer->uframeInterval) + { + ehciPipePointer->startFrame = (uframeIntervalIndex >> 3); + ehciPipePointer->startUframe = (uframeIntervalIndex & 0x0007); + ehciPipePointer->uframeSmask = 0; /* useless */ + ehciPipePointer->uframeCmask = 0; + ehciPipePointer->dataTime = FslsTime; + + return kStatus_USB_Success; + } + + return kStatus_USB_BandwidthFail; +} + +static uint8_t USB_HostEhciGet2PowerValue(uint8_t value) +{ + if ((value == 0) || (value == 1)) + { + return value; + } + if (value & 0xf0) + { + if (value & 0x80) + { + return 128; + } + else if (value & 0x40) + { + return 64; + } + else if (value & 0x20) + { + return 32; + } + else + { + return 16; + } + } + else + { + if (value & 0x08) + { + return 8; + } + else if (value & 0x04) + { + return 4; + } + else if (value & 0x02) + { + return 2; + } + else + { + return 1; + } + } +} + +static void USB_HostEhciZeroMem(uint32_t *buffer, uint32_t length) +{ + /* note: the zero unit is uint32_t */ + while (length--) + { + *buffer = 0; + buffer++; + } +} + +static void USB_HostEhciDelay(USBHS_Type *ehciIpBase, uint32_t ms) +{ + /* note: the max delay time cannot exceed half of max value (0x4000) */ + int32_t sofStart; + int32_t SofEnd; + uint32_t distance; + + sofStart = (int32_t)(ehciIpBase->FRINDEX & EHCI_MAX_UFRAME_VALUE); + + do + { + SofEnd = (int32_t)(ehciIpBase->FRINDEX & EHCI_MAX_UFRAME_VALUE); + distance = (uint32_t)(SofEnd - sofStart + EHCI_MAX_UFRAME_VALUE + 1); + } while ((distance & EHCI_MAX_UFRAME_VALUE) < (ms * 8)); /* compute the distance between sofStart and SofEnd */ +} + +static void USB_HostEhciStartAsync(usb_host_ehci_instance_t *ehciInstance) +{ + uint32_t stateSync; + + if (!(ehciInstance->ehciIpBase->USBSTS & USBHS_USBSTS_AS_MASK)) + { + /* the status must be same when change USBCMD->ASE */ + do + { + stateSync = ((ehciInstance->ehciIpBase->USBSTS & USBHS_USBSTS_AS_MASK) | + (ehciInstance->ehciIpBase->USBCMD & USBHS_USBCMD_ASE_MASK)); + } while ((stateSync == USBHS_USBSTS_AS_MASK) || (stateSync == USBHS_USBCMD_ASE_MASK)); + + ehciInstance->ehciIpBase->ASYNCLISTADDR = (uint32_t)(ehciInstance->shedFirstQh); + ehciInstance->ehciIpBase->USBCMD |= USBHS_USBCMD_ASE_MASK; + while (!(ehciInstance->ehciIpBase->USBSTS & USBHS_USBSTS_AS_MASK)) + { + } + } +} + +static void USB_HostEhciStopAsync(usb_host_ehci_instance_t *ehciInstance) +{ + uint32_t stateSync; + + /* the status must be same when change USBCMD->ASE */ + do + { + stateSync = ((ehciInstance->ehciIpBase->USBSTS & USBHS_USBSTS_AS_MASK) | + (ehciInstance->ehciIpBase->USBCMD & USBHS_USBCMD_ASE_MASK)); + } while ((stateSync == USBHS_USBSTS_AS_MASK) || (stateSync == USBHS_USBCMD_ASE_MASK)); + + ehciInstance->ehciIpBase->USBCMD &= (uint32_t)(~(uint32_t)USBHS_USBCMD_ASE_MASK); /* disable async schedule */ + while (ehciInstance->ehciIpBase->USBSTS & USBHS_USBSTS_AS_MASK) + { + } +} + +static void USB_HostEhciStartPeriodic(usb_host_ehci_instance_t *ehciInstance) +{ + uint32_t stateSync; + + if (!(ehciInstance->ehciIpBase->USBSTS & USBHS_USBSTS_PS_MASK)) + { + /* the status must be same when change USBCMD->PSE */ + do + { + stateSync = ((ehciInstance->ehciIpBase->USBSTS & USBHS_USBSTS_PS_MASK) | + (ehciInstance->ehciIpBase->USBCMD & USBHS_USBCMD_PSE_MASK)); + } while ((stateSync == USBHS_USBSTS_PS_MASK) || (stateSync == USBHS_USBCMD_PSE_MASK)); + ehciInstance->ehciIpBase->PERIODICLISTBASE = (uint32_t)(ehciInstance->ehciFrameList); + if (!(ehciInstance->ehciIpBase->USBCMD & USBHS_USBCMD_PSE_MASK)) + { + ehciInstance->ehciIpBase->USBCMD |= USBHS_USBCMD_PSE_MASK; /* start periodic schedule */ + } + while (!(ehciInstance->ehciIpBase->USBSTS & USBHS_USBSTS_PS_MASK)) + { + } + } + return; +} + +static void USB_HostEhciStopPeriodic(usb_host_ehci_instance_t *ehciInstance) +{ + uint32_t stateSync; + + /* the status must be same when change USBCMD->PSE */ + do + { + stateSync = ((ehciInstance->ehciIpBase->USBSTS & USBHS_USBSTS_PS_MASK) | + (ehciInstance->ehciIpBase->USBCMD & USBHS_USBCMD_PSE_MASK)); + } while ((stateSync == USBHS_USBSTS_PS_MASK) || (stateSync == USBHS_USBCMD_PSE_MASK)); + + ehciInstance->ehciIpBase->USBCMD &= (~USBHS_USBCMD_PSE_MASK); /* stop periodic schedule */ + while (ehciInstance->ehciIpBase->USBSTS & USBHS_USBSTS_PS_MASK) + { + } +} + +static usb_status_t USB_HostEhciQhQtdListInit(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer, + usb_host_transfer_t *transfer) +{ + volatile usb_host_ehci_qh_t *vltQhPointer; + usb_host_ehci_qtd_t *qtdPointer = NULL; + usb_host_ehci_qtd_t *BaseQtdPointer = NULL; + volatile uint32_t *entryPointer; + uint32_t qtdNumber; + uint32_t dataLength; + uint32_t dataAddress; + uint32_t endAddress; + uint8_t index; + + /* compute the qtd number */ + if (ehciPipePointer->pipeCommon.pipeType == USB_ENDPOINT_CONTROL) + { + /* assume setup data don't exceed one qtd data size, one qtd can transfer least 16k data */ + if (transfer->transferLength == 0) + { + qtdNumber = 2; + } + else + { + qtdNumber = 3; + } + } + else + { + qtdNumber = + (((transfer->transferLength) & 0xFFFFC000U) >> 14) + (((transfer->transferLength) & 0x00003FFF) ? 1 : 0); + } + + vltQhPointer = (volatile usb_host_ehci_qh_t *)ehciPipePointer->ehciQh; + /* get qtd list */ + USB_HostEhciLock(); + if (qtdNumber <= ehciInstance->ehciQtdNumber) + { + ehciInstance->ehciQtdNumber -= qtdNumber; + BaseQtdPointer = ehciInstance->ehciQtdHead; + qtdPointer = NULL; + do + { + if (qtdPointer != NULL) + { + qtdPointer->nextQtdPointer = (uint32_t)ehciInstance->ehciQtdHead; + } + qtdPointer = ehciInstance->ehciQtdHead; + ehciInstance->ehciQtdHead = (usb_host_ehci_qtd_t *)qtdPointer->nextQtdPointer; + qtdPointer->nextQtdPointer = 0; + } while (--qtdNumber); + if (ehciInstance->ehciQtdNumber == 0) + { + ehciInstance->ehciQtdTail = NULL; + } + } + else + { + USB_HostEhciUnlock(); + return kStatus_USB_Error; + } + USB_HostEhciUnlock(); + + /* int qTD list */ + if (ehciPipePointer->pipeCommon.pipeType == USB_ENDPOINT_CONTROL) + { + /* setup transaction qtd */ + qtdPointer = BaseQtdPointer; + qtdPointer->alternateNextQtdPointer = EHCI_HOST_T_INVALID_VALUE; + /* dt: need set; ioc: 0; C_Page: 0; PID Code: SETUP; Status: Active */ + qtdPointer->transferResults[0] = qtdPointer->transferResults[1] = 0; + qtdPointer->transferResults[0] = + ((0x00000000 << EHCI_HOST_QTD_DT_SHIFT) | (8 << EHCI_HOST_QTD_TOTAL_BYTES_SHIFT) | + (EHCI_HOST_PID_SETUP << EHCI_HOST_QTD_PID_CODE_SHIFT) | (EHCI_HOST_QTD_STATUS_ACTIVE_MASK)); + dataAddress = ((uint32_t)transfer->setupPacket); + qtdPointer->transferResults[1] = dataAddress; /* current offset is set too */ + /* set buffer pointer no matter data length */ + for (index = 0; index < 4; ++index) + { + qtdPointer->bufferPointers[index] = ((dataAddress + (index + 1) * 4 * 1024) & 0xFFFFF000U); + } + + /* data transaction qtd */ + dataLength = transfer->transferLength; + if (dataLength != 0) + { + qtdPointer = (usb_host_ehci_qtd_t *)(qtdPointer->nextQtdPointer); + + qtdPointer->alternateNextQtdPointer = EHCI_HOST_T_INVALID_VALUE; + /* dt: need set; ioc: 0; C_Page: 0; PID Code: IN/OUT; Status: Active */ + qtdPointer->transferResults[0] = qtdPointer->transferResults[1] = 0; + if (transfer->direction == USB_OUT) + { + qtdPointer->transferResults[0] = + ((0x00000001U << EHCI_HOST_QTD_DT_SHIFT) | (dataLength << EHCI_HOST_QTD_TOTAL_BYTES_SHIFT) | + (EHCI_HOST_PID_OUT << EHCI_HOST_QTD_PID_CODE_SHIFT) | (EHCI_HOST_QTD_STATUS_ACTIVE_MASK)); + } + else + { + qtdPointer->transferResults[0] = + ((0x00000001U << EHCI_HOST_QTD_DT_SHIFT) | (dataLength << EHCI_HOST_QTD_TOTAL_BYTES_SHIFT) | + (EHCI_HOST_PID_IN << EHCI_HOST_QTD_PID_CODE_SHIFT) | (EHCI_HOST_QTD_STATUS_ACTIVE_MASK)); + } + + dataAddress = (uint32_t)transfer->transferBuffer; + qtdPointer->transferResults[1] = dataAddress; /* current offset is set too */ + /* set buffer pointer no matter data length */ + for (index = 0; index < 4; ++index) + { + qtdPointer->bufferPointers[index] = ((dataAddress + (index + 1) * 4 * 1024) & 0xFFFFF000U); + } + } + + /* status transaction qtd */ + qtdPointer = (usb_host_ehci_qtd_t *)(qtdPointer->nextQtdPointer); + qtdPointer->alternateNextQtdPointer = EHCI_HOST_T_INVALID_VALUE; + /* dt: dont care; ioc: 1; C_Page: 0; PID Code: IN/OUT; Status: Active */ + qtdPointer->transferResults[0] = qtdPointer->transferResults[1] = 0; + if ((dataLength == 0) || (transfer->direction == USB_OUT)) + { + qtdPointer->transferResults[0] = + ((0x00000001U << EHCI_HOST_QTD_DT_SHIFT) | (EHCI_HOST_PID_IN << EHCI_HOST_QTD_PID_CODE_SHIFT) | + (EHCI_HOST_QTD_IOC_MASK) | (EHCI_HOST_QTD_STATUS_ACTIVE_MASK)); + } + else + { + qtdPointer->transferResults[0] = + ((0x00000001U << EHCI_HOST_QTD_DT_SHIFT) | (EHCI_HOST_PID_OUT << EHCI_HOST_QTD_PID_CODE_SHIFT) | + (EHCI_HOST_QTD_IOC_MASK) | (EHCI_HOST_QTD_STATUS_ACTIVE_MASK)); + } + qtdPointer->nextQtdPointer |= EHCI_HOST_T_INVALID_VALUE; + } + else + { + dataLength = transfer->transferLength; + dataAddress = (uint32_t)transfer->transferBuffer; + qtdPointer = BaseQtdPointer; + while (1) + { + endAddress = dataAddress + (16 * 1024); + if (endAddress > (uint32_t)(transfer->transferBuffer + transfer->transferLength)) + { + endAddress = (uint32_t)(transfer->transferBuffer + transfer->transferLength); + } + + qtdPointer->alternateNextQtdPointer = EHCI_HOST_T_INVALID_VALUE; + /* dt: set; ioc: 0; C_Page: 0; PID Code: IN/OUT; Status: Active */ + qtdPointer->transferResults[0] = qtdPointer->transferResults[1] = 0; + if (transfer->direction == USB_OUT) + { + qtdPointer->transferResults[0] = + (((endAddress - dataAddress) << EHCI_HOST_QTD_TOTAL_BYTES_SHIFT) | + ((uint32_t)ehciPipePointer->pipeCommon.nextdata01 << EHCI_HOST_QTD_DT_SHIFT) | + (EHCI_HOST_QTD_CERR_MAX_VALUE << EHCI_HOST_QTD_CERR_SHIFT) | + (EHCI_HOST_PID_OUT << EHCI_HOST_QTD_PID_CODE_SHIFT) | (EHCI_HOST_QTD_STATUS_ACTIVE_MASK)); + } + else + { + qtdPointer->transferResults[0] = + (((endAddress - dataAddress) << EHCI_HOST_QTD_TOTAL_BYTES_SHIFT) | + ((uint32_t)ehciPipePointer->pipeCommon.nextdata01 << EHCI_HOST_QTD_DT_SHIFT) | + (EHCI_HOST_QTD_CERR_MAX_VALUE << EHCI_HOST_QTD_CERR_SHIFT) | + (EHCI_HOST_PID_IN << EHCI_HOST_QTD_PID_CODE_SHIFT) | (EHCI_HOST_QTD_STATUS_ACTIVE_MASK)); + } + qtdPointer->transferResults[1] = dataAddress; /* current offset is set too */ + /* set buffer pointer no matter data length */ + for (index = 0; index < 4; ++index) + { + qtdPointer->bufferPointers[index] = ((dataAddress + (index + 1) * 4 * 1024) & 0xFFFFF000U); + } + dataAddress = endAddress; /* for next qtd */ + + if (qtdPointer->nextQtdPointer == 0) + { + break; + } + qtdPointer = (usb_host_ehci_qtd_t *)(qtdPointer->nextQtdPointer); + } + + qtdPointer->nextQtdPointer |= EHCI_HOST_T_INVALID_VALUE; + qtdPointer->transferResults[0] |= EHCI_HOST_QTD_IOC_MASK; /* last one set IOC */ + } + + /* save qtd to transfer */ + transfer->union1.unitHead = (uint32_t)BaseQtdPointer; + transfer->union2.unitTail = (uint32_t)qtdPointer; + /* link transfer to qh */ + transfer->next = NULL; + if (vltQhPointer->ehciTransferHead == NULL) + { + transfer->next = NULL; + vltQhPointer->ehciTransferHead = vltQhPointer->ehciTransferTail = transfer; + } + else + { + transfer->next = NULL; + vltQhPointer->ehciTransferTail->next = transfer; + vltQhPointer->ehciTransferTail = transfer; + } + + USB_HostEhciLock(); + /* link qtd to qh (link to end) */ + entryPointer = &(vltQhPointer->nextQtdPointer); + dataAddress = *entryPointer; /* dataAddress variable means entry value here */ + while ((dataAddress) && (!(dataAddress & EHCI_HOST_T_INVALID_VALUE))) + { + entryPointer = (volatile uint32_t *)dataAddress; + dataAddress = *entryPointer; + } + *entryPointer = (uint32_t)BaseQtdPointer; + USB_HostEhciUnlock(); + USB_HostEhciStartAsync(ehciInstance); + + return kStatus_USB_Success; +} + +static uint32_t USB_HostEhciQtdListRelease(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_qtd_t *ehciQtdStart, + usb_host_ehci_qtd_t *ehciQtdEnd) +{ + uint32_t length = 0; + usb_host_ehci_qtd_t *qtdPointer; + + ehciQtdEnd->nextQtdPointer = 0; + + /* compute remaining length */ + qtdPointer = ehciQtdStart; + while (qtdPointer != ehciQtdEnd) + { + length += + ((qtdPointer->transferResults[0] & EHCI_HOST_QTD_TOTAL_BYTES_MASK) >> EHCI_HOST_QTD_TOTAL_BYTES_SHIFT); + qtdPointer = (usb_host_ehci_qtd_t *)qtdPointer->nextQtdPointer; + } + qtdPointer = ehciQtdEnd; + length += ((qtdPointer->transferResults[0] & EHCI_HOST_QTD_TOTAL_BYTES_MASK) >> EHCI_HOST_QTD_TOTAL_BYTES_SHIFT); + + /* put releasing qtd to idle qtd list */ + USB_HostEhciLock(); + if (ehciInstance->ehciQtdNumber == 0) + { + ehciInstance->ehciQtdHead = ehciQtdStart; + ehciInstance->ehciQtdTail = ehciQtdEnd; + } + else + { + ehciInstance->ehciQtdTail->nextQtdPointer = (uint32_t)ehciQtdStart; + ehciInstance->ehciQtdTail = ehciQtdEnd; + } + + while (ehciQtdStart != ehciQtdEnd) + { + ehciInstance->ehciQtdNumber++; + ehciQtdStart = (usb_host_ehci_qtd_t *)ehciQtdStart->nextQtdPointer; + } + ehciInstance->ehciQtdNumber++; + USB_HostEhciUnlock(); + + return length; +} + +static usb_status_t USB_HostEhciQhQtdListDeinit(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer) +{ + volatile usb_host_ehci_qh_t *vltQhPointer; + usb_host_transfer_t *transfer; + usb_host_transfer_t *nextTransfer; + uint8_t needStop = 0; + + vltQhPointer = (volatile usb_host_ehci_qh_t *)ehciPipePointer->ehciQh; + + USB_HostEhciLock(); /* this API is called from APP, the host task may occupy to access the same resource */ + /* remove qtd from qh */ + if ((!((uint32_t)vltQhPointer->nextQtdPointer & EHCI_HOST_T_INVALID_VALUE)) || + (!((uint32_t)vltQhPointer->currentQtdPointer & EHCI_HOST_T_INVALID_VALUE))) + { + /* need stop async schedule */ + if ((!(vltQhPointer->horizontalLinkPointer & EHCI_HOST_T_INVALID_VALUE)) && + (ehciPipePointer->pipeCommon.pipeType != USB_ENDPOINT_INTERRUPT)) + { + needStop = 1; + } + if (needStop) + { + USB_HostEhciStopAsync(ehciInstance); + } + vltQhPointer->currentQtdPointer = EHCI_HOST_T_INVALID_VALUE; /* invalid current qtd */ + vltQhPointer->nextQtdPointer = EHCI_HOST_T_INVALID_VALUE; /* invalid next qtd */ + vltQhPointer->transferOverlayResults[0] &= (~EHCI_HOST_QTD_STATUS_MASK); /* clear error status */ + if (needStop) + { + USB_HostEhciStartAsync(ehciInstance); + } + } + + /* remove transfer from the QH transfer list */ + transfer = vltQhPointer->ehciTransferHead; + vltQhPointer->ehciTransferHead = vltQhPointer->ehciTransferTail = NULL; + USB_HostEhciUnlock(); + + /* release qtd and transfer callback*/ + while (transfer != NULL) + { + nextTransfer = transfer->next; /* the transfer is released when call back */ + transfer->transferSofar = + USB_HostEhciQtdListRelease(ehciInstance, (usb_host_ehci_qtd_t *)(transfer->union1.unitHead), + (usb_host_ehci_qtd_t *)(transfer->union2.unitTail)); + transfer->transferSofar = (transfer->transferLength < transfer->transferSofar) ? + 0 : + (transfer->transferLength - transfer->transferSofar); + transfer->callbackFn(transfer->callbackParam, transfer, kStatus_USB_TransferCancel); + transfer = nextTransfer; + } + + return kStatus_USB_Success; +} + +static usb_status_t USB_HostEhciTransferQtdListDeinit(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer, + usb_host_transfer_t *transfer) +{ + volatile usb_host_ehci_qh_t *vltQhPointer; + usb_host_transfer_t *preSearchTransfer; + uint32_t qhNextQtdValue; + uint32_t qtdPointerEntry; + uint32_t *searchQtdEntryPointer; + + vltQhPointer = (volatile usb_host_ehci_qh_t *)ehciPipePointer->ehciQh; + + USB_HostEhciLock(); /* this API is called from APP, the host task may occupy to access the same resource */ + /* remove qtd from qh */ + qhNextQtdValue = (uint32_t)vltQhPointer->currentQtdPointer; + qtdPointerEntry = *((uint32_t *)qhNextQtdValue + 2); /* note: qtdPointerEntry means qtd status */ + if ((qhNextQtdValue & EHCI_HOST_T_INVALID_VALUE) || (!(qtdPointerEntry & EHCI_HOST_QTD_STATUS_ACTIVE_MASK))) + { + qhNextQtdValue = (uint32_t)vltQhPointer->nextQtdPointer; + } + if (!(qhNextQtdValue & EHCI_HOST_T_INVALID_VALUE)) /* there is pending qtd in the qh */ + { + /* this qh don't schedule temporarily */ + if (ehciPipePointer->pipeCommon.pipeType != USB_ENDPOINT_INTERRUPT) + { + USB_HostEhciStopAsync(ehciInstance); + } + vltQhPointer->currentQtdPointer |= EHCI_HOST_T_INVALID_VALUE; /* invalid current qtd */ + vltQhPointer->nextQtdPointer |= EHCI_HOST_T_INVALID_VALUE; /* invalid next qtd */ + if (ehciPipePointer->pipeCommon.pipeType != USB_ENDPOINT_INTERRUPT) + { + USB_HostEhciStartAsync(ehciInstance); + } + + /* remove qtd from qh one by one */ + qtdPointerEntry = transfer->union1.unitHead; + while (1) + { + /* search qh's qtd list for qtdPointerEntry */ + searchQtdEntryPointer = &qhNextQtdValue; + while (!((*searchQtdEntryPointer) & EHCI_HOST_T_INVALID_VALUE)) + { + if ((*searchQtdEntryPointer) == qtdPointerEntry) + { + *searchQtdEntryPointer = *((uint32_t *)qtdPointerEntry); /* remove the qtd from qh */ + break; + } + else + { + searchQtdEntryPointer = (uint32_t *)(*searchQtdEntryPointer); + } + } + if (qtdPointerEntry == transfer->union2.unitTail) + { + break; + } + qtdPointerEntry = *((uint32_t *)qtdPointerEntry); + } + } + + /* remove transfer from the QH transfer list */ + preSearchTransfer = vltQhPointer->ehciTransferHead; + if (preSearchTransfer == transfer) + { + vltQhPointer->ehciTransferHead = preSearchTransfer->next; + } + else + { + while (preSearchTransfer != NULL) + { + if (preSearchTransfer->next == transfer) + { + preSearchTransfer->next = transfer->next; + break; + } + else + { + preSearchTransfer = preSearchTransfer->next; + } + } + } + USB_HostEhciUnlock(); + + /* release qtd and callback */ + transfer->transferSofar = + USB_HostEhciQtdListRelease(ehciInstance, (usb_host_ehci_qtd_t *)(transfer->union1.unitHead), + (usb_host_ehci_qtd_t *)(transfer->union2.unitTail)); + transfer->transferSofar = + (transfer->transferLength < transfer->transferSofar) ? 0 : (transfer->transferLength - transfer->transferSofar); + transfer->callbackFn(transfer->callbackParam, transfer, kStatus_USB_TransferCancel); + + /* start this qh schedule */ + vltQhPointer->transferOverlayResults[0] &= (~EHCI_HOST_QTD_STATUS_MASK); /* clear error status */ + if ((qhNextQtdValue != 0) && (!(qhNextQtdValue & EHCI_HOST_T_INVALID_VALUE))) + { + vltQhPointer->nextQtdPointer = qhNextQtdValue; + } + + return kStatus_USB_Success; +} + +static usb_status_t USB_HostEhciQhInit(usb_host_ehci_instance_t *ehciInstance, usb_host_ehci_pipe_t *ehciPipePointer) +{ + usb_host_ehci_qh_t *qhPointer = NULL; + uint32_t address, speed, portNumber, hubNumber; + uint32_t controlBits1 = 0; + uint32_t controlBits2 = 0; + /* get qh */ + USB_HostEhciLock(); + if (ehciInstance->ehciQhList != NULL) + { + qhPointer = (usb_host_ehci_qh_t *)ehciInstance->ehciQhList; + ehciInstance->ehciQhList = + (usb_host_ehci_qh_t *)(ehciInstance->ehciQhList->horizontalLinkPointer & EHCI_HOST_POINTER_ADDRESS_MASK); + } + USB_HostEhciUnlock(); + if (qhPointer == NULL) + { +#ifdef HOST_EHCO + usb_echo("get qh error\r\n"); +#endif + return kStatus_USB_Error; + } + ehciPipePointer->ehciQh = (void *)qhPointer; + + /* initialize qh */ + USB_HostEhciZeroMem((uint32_t *)qhPointer, sizeof(usb_host_ehci_qh_t) / 4); + qhPointer->horizontalLinkPointer = EHCI_HOST_T_INVALID_VALUE; + qhPointer->currentQtdPointer = EHCI_HOST_T_INVALID_VALUE; + qhPointer->nextQtdPointer = EHCI_HOST_T_INVALID_VALUE; + qhPointer->alternateNextQtdPointer = EHCI_HOST_T_INVALID_VALUE; + qhPointer->ehciPipePointer = ehciPipePointer; + qhPointer->timeOutLabel = 0; + qhPointer->timeOutValue = USB_HOST_EHCI_CONTROL_BULK_TIME_OUT_VALUE; + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceSpeed, &speed); + /* initialize staticEndpointStates[0] */ + if (ehciPipePointer->pipeCommon.pipeType == USB_ENDPOINT_INTERRUPT) + { + /* Software should set the RL field to zero if the queue head is an interrupt endpoint. */ + controlBits1 |= ((0U << EHCI_HOST_QH_RL_SHIFT) & EHCI_HOST_QH_RL_MASK); + } + else + { + if (ehciPipePointer->pipeCommon.nakCount >= 16) + { + controlBits1 |= ((15U << EHCI_HOST_QH_RL_SHIFT) & EHCI_HOST_QH_RL_MASK); + } + else + { + controlBits1 |= + (((uint32_t)ehciPipePointer->pipeCommon.nakCount << EHCI_HOST_QH_RL_SHIFT) & EHCI_HOST_QH_RL_MASK); + } + } + if (ehciPipePointer->pipeCommon.pipeType == USB_ENDPOINT_CONTROL) + { + if (speed != USB_SPEED_HIGH) + { + controlBits1 |= (1 << EHCI_HOST_QH_C_SHIFT); + } + controlBits1 |= (1 << EHCI_HOST_QH_DTC_SHIFT); + } + controlBits1 |= ((uint32_t)ehciPipePointer->pipeCommon.maxPacketSize << EHCI_HOST_QH_MAX_PACKET_LENGTH_SHIFT); + controlBits1 |= (speed << EHCI_HOST_QH_EPS_SHIFT); + controlBits1 |= ((uint32_t)ehciPipePointer->pipeCommon.endpointAddress << EHCI_HOST_QH_ENDPT_SHIFT); + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceAddress, + &address); + controlBits1 |= (address << EHCI_HOST_QH_DEVICE_ADDRESS_SHIFT); + qhPointer->staticEndpointStates[0] = controlBits1; + if (speed == USB_SPEED_HIGH) + { + controlBits2 |= ((uint32_t)ehciPipePointer->pipeCommon.numberPerUframe << EHCI_HOST_QH_MULT_SHIFT); + } + else + { + controlBits2 |= (0x00000001U << EHCI_HOST_QH_MULT_SHIFT); + } + /*initialize staticEndpointStates[1] */ + if (speed != USB_SPEED_HIGH) + { + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceHSHubNumber, + &hubNumber); + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceHSHubPort, + &portNumber); + } + else + { + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceHubNumber, + &hubNumber); + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDevicePortNumber, + &portNumber); + } + controlBits2 |= (portNumber << EHCI_HOST_QH_PORT_NUMBER_SHIFT); + controlBits2 |= (hubNumber << EHCI_HOST_QH_HUB_ADDR_SHIFT); + controlBits2 |= ((uint32_t)ehciPipePointer->uframeCmask << EHCI_HOST_QH_UFRAME_CMASK_SHIFT); + controlBits2 |= ((uint32_t)ehciPipePointer->uframeSmask << EHCI_HOST_QH_UFRAME_SMASK_SHIFT); + qhPointer->staticEndpointStates[1] = controlBits2; + + return kStatus_USB_Success; +} + +static usb_status_t USB_HostEhciQhDeinit(usb_host_ehci_instance_t *ehciInstance, usb_host_ehci_pipe_t *ehciPipePointer) +{ + usb_host_ehci_qh_t *qhPointer; + + qhPointer = (usb_host_ehci_qh_t *)ehciPipePointer->ehciQh; + /* de-initialize qtd from qh */ + USB_HostEhciQhQtdListDeinit(ehciInstance, ehciPipePointer); + + /* release QH */ + USB_HostEhciLock(); + qhPointer->horizontalLinkPointer = (uint32_t)ehciInstance->ehciQhList; + ehciInstance->ehciQhList = qhPointer; + USB_HostEhciUnlock(); + + return kStatus_USB_Success; +} + +static void USB_HostEhciAddQhToFrame(usb_host_ehci_instance_t *ehciInstance, + uint32_t entryPointerValue, + uint16_t framePos, + uint16_t uframeInterval) +{ + volatile uint32_t *frameEntryPointer; + uint32_t frameEntryValue; + + /* search for the inserting point by interval */ + frameEntryPointer = (volatile uint32_t *)(&((uint32_t *)ehciInstance->ehciFrameList)[framePos]); + while (frameEntryPointer) + { + frameEntryValue = *frameEntryPointer; + if (frameEntryValue & EHCI_HOST_T_INVALID_VALUE) + { + /* insert into the end */ + *((uint32_t *)entryPointerValue) = EHCI_HOST_T_INVALID_VALUE; + *frameEntryPointer = (entryPointerValue | EHCI_HOST_POINTER_TYPE_QH); + break; + } + + if ((frameEntryValue & EHCI_HOST_POINTER_ADDRESS_MASK) == entryPointerValue) + { + return; /* has inserted */ + } + if (((frameEntryValue & EHCI_HOST_POINTER_TYPE_MASK) == EHCI_HOST_POINTER_TYPE_QH) && + (((usb_host_ehci_qh_t *)(frameEntryValue & EHCI_HOST_POINTER_ADDRESS_MASK)) + ->ehciPipePointer->uframeInterval <= uframeInterval)) + { + /* insert into this point */ + *((uint32_t *)entryPointerValue) = frameEntryValue; + *frameEntryPointer = (entryPointerValue | EHCI_HOST_POINTER_TYPE_QH); + return; + } + else + { + frameEntryPointer = (volatile uint32_t *)(frameEntryValue & EHCI_HOST_POINTER_ADDRESS_MASK); + } + } +} + +static void USB_HostEhciRemoveFromFrame(usb_host_ehci_instance_t *ehciInstance, + uint32_t entryPointerValue, + uint16_t framePos) +{ + volatile uint32_t *frameEntryPointer; + uint32_t frameEntryValue; + + /* search for the qh/itd/sitd entry */ + frameEntryPointer = (volatile uint32_t *)(&((uint32_t *)ehciInstance->ehciFrameList)[framePos]); + + while (frameEntryPointer) + { + frameEntryValue = *frameEntryPointer; + if (frameEntryValue & EHCI_HOST_T_INVALID_VALUE) + { + return; + } + + if ((frameEntryValue & EHCI_HOST_POINTER_ADDRESS_MASK) == entryPointerValue) + { + /* remove the entry */ + *frameEntryPointer = *((uint32_t *)entryPointerValue); + break; + } + else + { + frameEntryPointer = (volatile uint32_t *)(frameEntryValue & EHCI_HOST_POINTER_ADDRESS_MASK); + } + } +} + +#if ((defined USB_HOST_CONFIG_EHCI_MAX_SITD) && (USB_HOST_CONFIG_EHCI_MAX_SITD)) +static void USB_HostEhciLinkSitd(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer, + void *startEntryPointer) +{ + usb_host_ehci_iso_t *isoPointer = (usb_host_ehci_iso_t *)ehciPipePointer->ehciQh; + usb_host_ehci_sitd_t *sitdPointer; + uint32_t distance; + uint32_t frameInterval; + int32_t shouldLinkFrame; + int32_t currentFrame; + + frameInterval = (ehciPipePointer->uframeInterval >> 3); + + if (isoPointer->lastLinkFrame == 0xFFFF) /* first link */ + { + currentFrame = ((ehciInstance->ehciIpBase->FRINDEX & EHCI_MAX_UFRAME_VALUE) >> 3); + currentFrame = ((uint32_t)(currentFrame + USB_HOST_EHCI_ISO_BOUNCE_FRAME_NUMBER) & + (EHCI_MAX_UFRAME_VALUE >> 3)); /* add USB_HOST_EHCI_ISO_BOUNCE_FRAME_NUMBER */ + /* frame should align with interval */ + currentFrame -= ehciPipePointer->startFrame; + currentFrame = + ((uint32_t)(currentFrame + frameInterval - 1) & (~(frameInterval - 1))); /* frameInterval is power of 2 */ + currentFrame += ehciPipePointer->startFrame; + } + else + { + shouldLinkFrame = isoPointer->lastLinkFrame + frameInterval; /* continuous next should link frame */ + if (shouldLinkFrame > (int32_t)(EHCI_MAX_UFRAME_VALUE >> 3)) + { + shouldLinkFrame = shouldLinkFrame - ((EHCI_MAX_UFRAME_VALUE >> 3) + 1); + } + currentFrame = ((ehciInstance->ehciIpBase->FRINDEX & EHCI_MAX_UFRAME_VALUE) >> 3); + distance = ((shouldLinkFrame - currentFrame + (EHCI_MAX_UFRAME_VALUE >> 3) + 1) & + (EHCI_MAX_UFRAME_VALUE >> 3)); /* get the distance from shouldLinkFrame to currentFrame */ + /* shouldLinkFrame has add frameInterval, think about the align with interval, so here add (frameInterval * + * 2) */ + if ((distance <= (USB_HOST_EHCI_ISO_BOUNCE_FRAME_NUMBER + frameInterval * 2)) && (distance > 0)) + { + currentFrame = shouldLinkFrame; + } + else /* re-link */ + { + currentFrame = + ((uint32_t)(currentFrame + USB_HOST_EHCI_ISO_BOUNCE_FRAME_NUMBER) & (EHCI_MAX_UFRAME_VALUE >> 3)); + if (currentFrame > (int32_t)(EHCI_MAX_UFRAME_VALUE >> 3)) + { + currentFrame = currentFrame - ((EHCI_MAX_UFRAME_VALUE >> 3) + 1); + } + /* frame should align with interval */ + currentFrame -= ehciPipePointer->startFrame; + currentFrame = ((uint32_t)(currentFrame + frameInterval - 1) & (~(frameInterval - 1))); + currentFrame += ehciPipePointer->startFrame; + } + } + if (currentFrame >= (int32_t)USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE) /* frame turn around */ + { + shouldLinkFrame = + (currentFrame - USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE); /* shouldLinkFrame means inserted frame position */ + } + else + { + shouldLinkFrame = currentFrame; /* shouldLinkFrame means inserted frame position */ + } + + sitdPointer = (usb_host_ehci_sitd_t *)startEntryPointer; + while (sitdPointer) + { + sitdPointer->frameEntryIndex = shouldLinkFrame; + /* add to frame list head */ + sitdPointer->nextLinkPointer = ((uint32_t *)ehciInstance->ehciFrameList)[shouldLinkFrame]; + ((uint32_t *)ehciInstance->ehciFrameList)[shouldLinkFrame] = + ((uint32_t)sitdPointer | EHCI_HOST_POINTER_TYPE_SITD); + if (sitdPointer->nextSitdIndex == 0xFF) /* 0xFF is invalid value */ + { + break; + } + sitdPointer = &(ehciInstance->ehciSitdIndexBase[sitdPointer->nextSitdIndex]); /* next sitd */ + + shouldLinkFrame += frameInterval; + currentFrame += frameInterval; + if (shouldLinkFrame >= (int32_t)USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE) + { + shouldLinkFrame = (shouldLinkFrame - USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE); + } + } + + if (currentFrame > (int32_t)(EHCI_MAX_UFRAME_VALUE >> 3)) + { + currentFrame = currentFrame - ((EHCI_MAX_UFRAME_VALUE >> 3) + 1); + } + isoPointer->lastLinkFrame = currentFrame; /* save the last link frame value */ +} + +static usb_status_t USB_HostEhciSitdArrayInit(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer, + usb_host_transfer_t *transfer) +{ + usb_host_ehci_iso_t *isoPointer; + uint32_t sitdNumber = 0; + usb_host_ehci_sitd_t *sitdPointer; + uint32_t dataLength = 0; + uint32_t sitdLength = 0; + uint32_t dataBufferValue; + uint32_t hubNumber; + uint32_t portNumber; + uint32_t address; + uint32_t tmp; + uint8_t index; + + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceAddress, + &address); + + sitdNumber = ((transfer->transferLength - 1 + (ehciPipePointer->pipeCommon.maxPacketSize)) / + (ehciPipePointer->pipeCommon.maxPacketSize)); + /* get sitd array */ + tmp = ehciPipePointer - ehciInstance->ehciPipeIndexBase; /* pipe index */ + /* USB_HostEhciLock(); */ + if (ehciInstance->ehciSitdNumber >= sitdNumber) + { + sitdPointer = ehciInstance->ehciSitdList; + transfer->union1.unitHead = (uint32_t)sitdPointer; + for (index = 1; index < sitdNumber; ++index) + { + sitdPointer->nextSitdIndex = + (((usb_host_ehci_sitd_t *)sitdPointer->nextLinkPointer) - ehciInstance->ehciSitdIndexBase); + sitdPointer = (usb_host_ehci_sitd_t *)sitdPointer->nextLinkPointer; + } + sitdPointer->nextSitdIndex = 0xFF; + ehciInstance->ehciSitdList = (usb_host_ehci_sitd_t *)sitdPointer->nextLinkPointer; + ehciInstance->ehciSitdNumber -= sitdNumber; + } + else + { + /* USB_HostEhciUnlock(); */ + return kStatus_USB_Error; + } + /* USB_HostEhciUnlock(); */ + transfer->union2.unitTail = (uint32_t)sitdPointer; + /* initialize sitd array */ + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceHubNumber, + &hubNumber); + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDevicePortNumber, + &portNumber); + sitdPointer = (usb_host_ehci_sitd_t *)transfer->union1.unitHead; + dataLength = transfer->transferLength; + while (sitdNumber--) + { + USB_HostEhciZeroMem((uint32_t *)sitdPointer, 7); + sitdLength = dataLength; + if (sitdLength > ehciPipePointer->pipeCommon.maxPacketSize) + { + sitdLength = ehciPipePointer->pipeCommon.maxPacketSize; + } + dataBufferValue = (uint32_t)(transfer->transferBuffer + (transfer->transferLength - dataLength)); + dataLength -= sitdLength; /* update left data length */ + sitdPointer->transferResults[1] = dataBufferValue; + sitdPointer->transferResults[2] = ((dataBufferValue + 4 * 1024) & 0xFFFFF000U); + sitdPointer->endpointStates[0] = + (((uint32_t)ehciPipePointer->pipeCommon.direction << EHCI_HOST_SITD_DIRECTION_SHIFT) | + (portNumber << EHCI_HOST_SITD_PORT_NUMBER_SHIFT) | (hubNumber << EHCI_HOST_SITD_HUB_ADDR_SHIFT) | + ((uint32_t)ehciPipePointer->pipeCommon.endpointAddress << EHCI_HOST_SITD_ENDPT_SHIFT) | + (address << EHCI_HOST_SITD_DEVICE_ADDRESS_SHIFT)); + sitdPointer->transferResults[0] = + ((sitdLength << EHCI_HOST_SITD_TOTAL_BYTES_SHIFT) | (EHCI_HOST_SITD_STATUS_ACTIVE_MASK)); + + if (ehciInstance->firstDeviceSpeed == USB_SPEED_HIGH) + { + sitdPointer->endpointStates[1] = (((uint32_t)ehciPipePointer->uframeCmask << EHCI_HOST_SITD_CMASK_SHIFT) | + ((uint32_t)ehciPipePointer->uframeSmask << EHCI_HOST_SITD_SMASK_SHIFT)); + + tmp = (sitdLength + 187) / 188; + if (tmp > 1) + { + sitdPointer->transferResults[2] |= (0x01 << EHCI_HOST_SITD_TP_SHIFT); /* for iso split */ + } + else + { + sitdPointer->transferResults[2] |= (0x00 << EHCI_HOST_SITD_TP_SHIFT); /* for iso split */ + } + sitdPointer->transferResults[2] |= (tmp << EHCI_HOST_SITD_TCOUNT_SHIFT); /* for iso split */ + } + + sitdPointer->backPointer = EHCI_HOST_T_INVALID_VALUE; + + sitdPointer = (ehciInstance->ehciSitdIndexBase + sitdPointer->nextSitdIndex); + } + sitdPointer = (usb_host_ehci_sitd_t *)transfer->union2.unitTail; + sitdPointer->transferResults[0] |= (1U << EHCI_HOST_SITD_IOC_SHIFT); /* last set IOC */ + + /* link transfer to usb_host_ehci_iso_t transfer list */ + isoPointer = (usb_host_ehci_iso_t *)ehciPipePointer->ehciQh; + USB_HostEhciLock(); + if (isoPointer->ehciTransferHead == NULL) + { + transfer->next = NULL; + isoPointer->ehciTransferHead = isoPointer->ehciTransferTail = transfer; + } + else + { + transfer->next = NULL; + isoPointer->ehciTransferTail->next = transfer; + isoPointer->ehciTransferTail = transfer; + } + USB_HostEhciUnlock(); + + /* link itd to frame list (note: initialize frameEntryIndex)*/ + USB_HostEhciLinkSitd(ehciInstance, ehciPipePointer, (void *)transfer->union1.unitHead); + + return kStatus_USB_Success; +} + +static uint32_t USB_HostEhciSitdArrayRelease(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_sitd_t *startSitdPointer, + usb_host_ehci_sitd_t *endSitdPointer) +{ + usb_host_ehci_sitd_t *sitdPointer = startSitdPointer; + uint32_t leftLength = 0; + /* remove itd from frame list */ + while (1) + { + /* record the transfer's result length */ + leftLength += + ((sitdPointer->transferResults[0] & EHCI_HOST_SITD_TOTAL_BYTES_MASK) >> EHCI_HOST_SITD_TOTAL_BYTES_SHIFT); + USB_HostEhciRemoveFromFrame(ehciInstance, (uint32_t)sitdPointer, + sitdPointer->frameEntryIndex); /* remove from the inserted frame list */ + + /* release itd */ + /* USB_HostEhciLock(); */ + sitdPointer->nextLinkPointer = (uint32_t)ehciInstance->ehciSitdList; + ehciInstance->ehciSitdList = sitdPointer; + ehciInstance->ehciSitdNumber++; + /* USB_HostEhciUnlock(); */ + + if (sitdPointer == endSitdPointer) + { + break; + } + + sitdPointer = &(ehciInstance->ehciSitdIndexBase[sitdPointer->nextSitdIndex]); + } + + return leftLength; +} + +static usb_status_t USB_HostEhciSitdArrayDeinit(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer) +{ + usb_host_ehci_iso_t *isoPointer = (usb_host_ehci_iso_t *)ehciPipePointer->ehciQh; + usb_host_transfer_t *transfer; + usb_host_transfer_t *nextTransfer; + + /* firstly remove the transfer (because host task may occupy to access the resource) */ + USB_HostEhciLock(); + transfer = isoPointer->ehciTransferHead; + isoPointer->ehciTransferHead = isoPointer->ehciTransferTail = NULL; + USB_HostEhciUnlock(); + + while (transfer != NULL) + { + nextTransfer = transfer->next; + /* remove sitd from frame list and release itd */ + transfer->transferSofar = + transfer->transferLength - USB_HostEhciSitdArrayRelease(ehciInstance, + (usb_host_ehci_sitd_t *)transfer->union1.unitHead, + (usb_host_ehci_sitd_t *)transfer->union2.unitTail); + /* transfer callback */ + transfer->callbackFn(transfer->callbackParam, transfer, kStatus_USB_TransferCancel); + /* next transfer */ + transfer = nextTransfer; + } + + return kStatus_USB_Success; +} +#endif /* USB_HOST_CONFIG_EHCI_MAX_SITD */ + +#if ((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) +static uint32_t USB_HostEhciGetItdLinkFrame(usb_host_ehci_instance_t *ehciInstance, + uint32_t lastLinkUframe, + uint16_t startUframe, + uint16_t uframeInterval) +{ + int32_t shouldLinkUframe; + int32_t currentUframe; + int32_t distance; + + if (lastLinkUframe != 0xFFFF) + { + shouldLinkUframe = lastLinkUframe + uframeInterval; + if (shouldLinkUframe > (int32_t)EHCI_MAX_UFRAME_VALUE) + { + shouldLinkUframe = shouldLinkUframe - (EHCI_MAX_UFRAME_VALUE + 1); + } + currentUframe = (ehciInstance->ehciIpBase->FRINDEX & EHCI_MAX_UFRAME_VALUE); + distance = ((shouldLinkUframe - currentUframe + EHCI_MAX_UFRAME_VALUE + 1) & + EHCI_MAX_UFRAME_VALUE); /* get the distance */ + /* shouldLinkUframe has add uframeInterval, think about the align with interval, so here add (uframeInterval + * * 2) */ + if ((distance <= (int32_t)(USB_HOST_EHCI_ISO_BOUNCE_UFRAME_NUMBER + (uframeInterval * 2))) && (distance > 2)) + { + currentUframe = shouldLinkUframe; + } + else /* re-link */ + { + currentUframe = + ((uint32_t)(currentUframe + USB_HOST_EHCI_ISO_BOUNCE_UFRAME_NUMBER) & EHCI_MAX_UFRAME_VALUE); + if (currentUframe > (int32_t)EHCI_MAX_UFRAME_VALUE) + { + currentUframe = currentUframe - (EHCI_MAX_UFRAME_VALUE + 1); + } + /* uframe should align with interval */ + currentUframe -= startUframe; + currentUframe = ((uint32_t)(currentUframe + uframeInterval - 1) & + (~((uint32_t)uframeInterval - 1))); /* uframeInterval is power of 2 */ + currentUframe += startUframe; + } + } + else + { + currentUframe = (ehciInstance->ehciIpBase->FRINDEX & EHCI_MAX_UFRAME_VALUE); + currentUframe = ((uint32_t)(currentUframe + USB_HOST_EHCI_ISO_BOUNCE_UFRAME_NUMBER) & EHCI_MAX_UFRAME_VALUE); + /* uframe should align with interval */ + currentUframe -= startUframe; + currentUframe = ((uint32_t)(currentUframe + uframeInterval - 1) & + (~((uint32_t)uframeInterval - 1))); /* uframeInterval is power of 2 */ + currentUframe += startUframe; + } + + return currentUframe; +} + +static usb_status_t USB_HostEhciItdArrayInit(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer, + usb_host_transfer_t *transfer) +{ + usb_host_ehci_iso_t *isoPointer; + usb_host_ehci_itd_t *itdPointer = NULL; + usb_host_ehci_itd_t *tmpItdPointer; + uint32_t dataLength; /* the remaining data for sending */ + uint32_t transactionLength; /* the initializing transaction descriptor data length */ + uint32_t itdBufferValue; + uint32_t itdBufferBaseValue; /* for calculating PG value */ + uint32_t address; + uint32_t lastShouldLinkUframe; + uint32_t linkUframe; + uint32_t minDataPerItd = ehciPipePointer->pipeCommon.numberPerUframe * ehciPipePointer->pipeCommon.maxPacketSize; + uint8_t maxItdNumber; + uint8_t index = 0; + + isoPointer = (usb_host_ehci_iso_t *)ehciPipePointer->ehciQh; + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceAddress, + &address); + + /* max needed itd number, the actual needed number may be less because micro-frame interval may be less than 8 */ + maxItdNumber = ((transfer->transferLength - 1 + minDataPerItd) / minDataPerItd); + if (ehciPipePointer->uframeInterval < 8) + { + maxItdNumber = ((maxItdNumber * ehciPipePointer->uframeInterval + 7) / 8) + 1; + } + if (maxItdNumber > ehciInstance->ehciItdNumber) + { + return kStatus_USB_Error; + } + + /* link transfer to usb_host_ehci_iso_t transfer list */ + transfer->next = NULL; + /* USB_HostEhciLock(); */ + if (isoPointer->ehciTransferHead == NULL) + { + isoPointer->ehciTransferHead = isoPointer->ehciTransferTail = transfer; + } + else + { + isoPointer->ehciTransferTail->next = transfer; + isoPointer->ehciTransferTail = transfer; + } + /* USB_HostEhciUnlock(); */ + + dataLength = transfer->transferLength; + transfer->union1.unitHead = (uint32_t)NULL; + /* get the link micro-frame */ + lastShouldLinkUframe = USB_HostEhciGetItdLinkFrame( + ehciInstance, isoPointer->lastLinkFrame, + (uint16_t)((ehciPipePointer->startFrame << 3) + ehciPipePointer->startUframe), ehciPipePointer->uframeInterval); + if (lastShouldLinkUframe > EHCI_MAX_UFRAME_VALUE) + { + linkUframe = lastShouldLinkUframe - (EHCI_MAX_UFRAME_VALUE + 1); + } + else + { + linkUframe = lastShouldLinkUframe; + } + while (dataLength) + { + /* get one idle itd */ + tmpItdPointer = ehciInstance->ehciItdList; + ehciInstance->ehciItdList = (usb_host_ehci_itd_t *)tmpItdPointer->nextLinkPointer; + ehciInstance->ehciItdNumber -= 1; + if (tmpItdPointer == NULL) + { + return kStatus_USB_Error; /* this should not reach */ + } + tmpItdPointer->nextItdPointer = NULL; + + /* use the itd */ + if (transfer->union1.unitHead == (uint32_t)NULL) /* first itd */ + { + transfer->union1.unitHead = (uint32_t)tmpItdPointer; + } + else /* link itd list */ + { + itdPointer->nextItdPointer = tmpItdPointer; + } + itdPointer = tmpItdPointer; + + /* itd has been set to all zero when releasing */ + itdBufferBaseValue = itdBufferValue = + (uint32_t)(transfer->transferBuffer + (transfer->transferLength - dataLength)); + for (index = 0; index < 7; ++index) + { + itdPointer->bufferPointers[index] = ((itdBufferBaseValue + (index * 4 * 1024)) & 0xFFFFF000U); + } + /* initialize iTD common fields */ + itdPointer->bufferPointers[0] |= + (((uint32_t)ehciPipePointer->pipeCommon.endpointAddress << EHCI_HOST_ITD_ENDPT_SHIFT) | + (address << EHCI_HOST_ITD_DEVICE_ADDRESS_SHIFT)); + itdPointer->bufferPointers[1] |= + (((uint32_t)ehciPipePointer->pipeCommon.direction << EHCI_HOST_ITD_DIRECTION_SHIFT) | + ((uint32_t)ehciPipePointer->pipeCommon.maxPacketSize << EHCI_HOST_ITD_MAX_PACKET_SIZE_SHIFT)); + itdPointer->bufferPointers[2] |= (ehciPipePointer->pipeCommon.numberPerUframe); + /* initialize transaction descriptors */ + for (index = (linkUframe & 0x0007); index < 8; index += ehciPipePointer->uframeInterval) + { + transactionLength = ((dataLength > minDataPerItd) ? minDataPerItd : dataLength); + /* initialize the uframeIndex's transaction descriptor in itd */ + itdPointer->transactions[index] = + ((EHCI_HOST_ITD_STATUS_ACTIVE_MASK) | (transactionLength << EHCI_HOST_ITD_TRANSACTION_LEN_SHIFT) | + ((((itdBufferValue & 0xFFFFF000U) - (itdBufferBaseValue & 0xFFFFF000U)) >> + EHCI_HOST_ITD_BUFFER_POINTER_SHIFT) + << EHCI_HOST_ITD_PG_SHIFT) | + (itdBufferValue & EHCI_HOST_ITD_TRANSACTION_OFFSET_MASK)); + dataLength -= transactionLength; + itdBufferValue += transactionLength; + if (dataLength <= 0) + { + break; + } + } + } + + transfer->union2.unitTail = (uint32_t)itdPointer; + itdPointer->transactions[index] |= (1 << EHCI_HOST_ITD_IOC_SHIFT); /* last set IOC */ + + /* link itd to frame list (note: initialize frameEntryIndex)*/ + while (itdPointer) + { + itdPointer->frameEntryIndex = linkUframe; + /* add to frame head */ + itdPointer->nextLinkPointer = ((uint32_t *)ehciInstance->ehciFrameList)[linkUframe >> 3]; + *(uint32_t *)((uint32_t *)ehciInstance->ehciFrameList)[linkUframe >> 3] = + ((uint32_t)itdPointer | EHCI_HOST_POINTER_TYPE_ITD); + itdPointer = itdPointer->nextItdPointer; + if (itdPointer == NULL) + { + break; + } + + linkUframe += ehciPipePointer->uframeInterval; + lastShouldLinkUframe += ehciPipePointer->uframeInterval; + if (linkUframe >= (USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE << 3)) + { + linkUframe = (linkUframe - (USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE << 3)); + } + } + + if (lastShouldLinkUframe > EHCI_MAX_UFRAME_VALUE) + { + lastShouldLinkUframe = lastShouldLinkUframe - (EHCI_MAX_UFRAME_VALUE + 1); + } + isoPointer->lastLinkFrame = lastShouldLinkUframe; + + return kStatus_USB_Success; +} + +static uint32_t USB_HostEhciItdArrayRelease(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_itd_t *startItdPointer, + usb_host_ehci_itd_t *endItdPointer) +{ + usb_host_ehci_itd_t *itdPointer = startItdPointer; + uint8_t index; + uint32_t doneLength = 0; + + /* remove itd from frame list */ + while (1) + { + /* record the transfer's result length */ + for (index = 0; index < 8; ++index) + { + doneLength += ((itdPointer->transactions[index] & EHCI_HOST_ITD_TRANSACTION_LEN_MASK) >> + EHCI_HOST_ITD_TRANSACTION_LEN_SHIFT); + } + + USB_HostEhciRemoveFromFrame(ehciInstance, (uint32_t)itdPointer, + itdPointer->frameEntryIndex); /* remove from the inserted frame list */ + + /* release itd */ + /* USB_HostEhciLock(); */ + USB_HostEhciZeroMem((uint32_t *)itdPointer, sizeof(usb_host_ehci_itd_t) >> 2); + itdPointer->nextLinkPointer = (uint32_t)ehciInstance->ehciItdList; + ehciInstance->ehciItdList = itdPointer; + ehciInstance->ehciItdNumber++; + /* USB_HostEhciUnlock(); */ + + if (itdPointer == endItdPointer) + { + break; + } + itdPointer = itdPointer->nextItdPointer; + } + + return doneLength; +} + +static usb_status_t USB_HostEhciItdArrayDeinit(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer) +{ + usb_host_ehci_iso_t *isoPointer = (usb_host_ehci_iso_t *)ehciPipePointer->ehciQh; + usb_host_transfer_t *transfer; + usb_host_transfer_t *nextTransfer; + uint32_t doneLength = 0; + + /* firstly remove the transfer (because host task may occupy to access the resource) */ + USB_HostEhciLock(); + transfer = isoPointer->ehciTransferHead; + isoPointer->ehciTransferHead = isoPointer->ehciTransferTail = NULL; + USB_HostEhciUnlock(); + + while (transfer != NULL) + { + nextTransfer = transfer->next; + doneLength = 0; + /* remove itd from frame list and release itd */ + doneLength = USB_HostEhciItdArrayRelease(ehciInstance, (usb_host_ehci_itd_t *)transfer->union1.unitHead, + (usb_host_ehci_itd_t *)transfer->union2.unitTail); + + /* transfer callback */ + if (ehciPipePointer->pipeCommon.direction == USB_OUT) + { + doneLength = transfer->transferLength; + } + transfer->transferSofar = doneLength; + transfer->callbackFn(transfer->callbackParam, transfer, kStatus_USB_TransferCancel); + + /* next transfer */ + transfer = nextTransfer; + } + + return kStatus_USB_Success; +} +#endif /* USB_HOST_CONFIG_EHCI_MAX_ITD */ + +static usb_status_t USB_HostEhciOpenControlBulk(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer) +{ + usb_host_ehci_qh_t *qhPointer; + + if (USB_HostEhciQhInit(ehciInstance, ehciPipePointer) != kStatus_USB_Success) /* initialize control/bulk qh */ + { + return kStatus_USB_Error; + } + + qhPointer = (usb_host_ehci_qh_t *)ehciPipePointer->ehciQh; + + /* add qh to async */ + qhPointer->horizontalLinkPointer = ehciInstance->shedFirstQh->horizontalLinkPointer; + ehciInstance->shedFirstQh->horizontalLinkPointer = ((uint32_t)qhPointer | EHCI_HOST_POINTER_TYPE_QH); + + return kStatus_USB_Success; +} + +static usb_status_t USB_HostEhciCloseControlBulk(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer) +{ + volatile usb_host_ehci_qh_t *vltPrevQhPointer; + uint32_t horizontalLinkValue; + + /* remove qh from async schedule */ + if ((ehciInstance->shedFirstQh->horizontalLinkPointer & EHCI_HOST_POINTER_ADDRESS_MASK) == + (uint32_t)ehciPipePointer->ehciQh) /* the removing qh is the first qh in the async list */ + { + USB_HostEhciStopAsync(ehciInstance); + ehciInstance->shedFirstQh->horizontalLinkPointer = + ((usb_host_ehci_qh_t *)ehciPipePointer->ehciQh)->horizontalLinkPointer; + USB_HostEhciStartAsync(ehciInstance); + } + else + { + /* search for the removing qh from the async list */ + vltPrevQhPointer = ehciInstance->shedFirstQh; + while (vltPrevQhPointer != NULL) + { + horizontalLinkValue = vltPrevQhPointer->horizontalLinkPointer; + if ((horizontalLinkValue & EHCI_HOST_T_INVALID_VALUE) || + ((horizontalLinkValue & EHCI_HOST_POINTER_ADDRESS_MASK) == (uint32_t)ehciPipePointer->ehciQh) || + ((horizontalLinkValue & EHCI_HOST_POINTER_ADDRESS_MASK) == (uint32_t)ehciInstance->shedFirstQh)) + { + break; + } + + vltPrevQhPointer = (volatile usb_host_ehci_qh_t *)(horizontalLinkValue & EHCI_HOST_POINTER_ADDRESS_MASK); + } + + /* remove the qh from async list */ + if ((vltPrevQhPointer != NULL) && (!(horizontalLinkValue & EHCI_HOST_T_INVALID_VALUE)) && + ((horizontalLinkValue & EHCI_HOST_POINTER_ADDRESS_MASK) == (uint32_t)ehciPipePointer->ehciQh)) + { + USB_HostEhciStopAsync(ehciInstance); + vltPrevQhPointer->horizontalLinkPointer = + ((usb_host_ehci_qh_t *)ehciPipePointer->ehciQh)->horizontalLinkPointer; + USB_HostEhciStartAsync(ehciInstance); + } + } + ((usb_host_ehci_qh_t *)ehciPipePointer->ehciQh)->horizontalLinkPointer = + EHCI_HOST_T_INVALID_VALUE; /* invalid next qh link */ + return USB_HostEhciQhDeinit(ehciInstance, ehciPipePointer); /* de-initialize qh and release qh */ +} + +static usb_status_t USB_HostEhciOpenInterrupt(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer) +{ + usb_status_t status = kStatus_USB_Success; + uint32_t frameIndex; + + /* allocate bandwidth */ + if (ehciInstance->firstDeviceSpeed == USB_SPEED_HIGH) + { + status = USB_HostBandwidthHsHostAllocateInterrupt(ehciInstance, ehciPipePointer); /* host works as high-speed */ + } + else + { + status = USB_HostBandwidthFslsHostAllocate(ehciInstance, + ehciPipePointer); /* host works as full-speed or low-speed */ + } + + if (status != kStatus_USB_Success) + { + return status; + } + if (USB_HostEhciQhInit(ehciInstance, ehciPipePointer) != kStatus_USB_Success) + { + return kStatus_USB_Error; + } + + /* insert QH to frame list */ + for (frameIndex = ehciPipePointer->startFrame; frameIndex < USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE; + frameIndex += (ehciPipePointer->uframeInterval / 8)) + { + USB_HostEhciAddQhToFrame(ehciInstance, (uint32_t)ehciPipePointer->ehciQh, frameIndex, + ehciPipePointer->uframeInterval); + } + + return kStatus_USB_Success; +} + +static usb_status_t USB_HostEhciCloseInterrupt(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer) +{ + uint32_t frameIndex; + + /* remove from frame list */ + for (frameIndex = ehciPipePointer->startFrame; frameIndex < USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE; + frameIndex += (ehciPipePointer->uframeInterval / 8)) + { + USB_HostEhciRemoveFromFrame(ehciInstance, (uint32_t)ehciPipePointer->ehciQh, frameIndex); + } + ((usb_host_ehci_qh_t *)ehciPipePointer->ehciQh)->horizontalLinkPointer |= + EHCI_HOST_T_INVALID_VALUE; /* invalid next qh link */ + + return USB_HostEhciQhDeinit(ehciInstance, ehciPipePointer); /* de-initilaze qh and release qh */ +} + +#if (((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) || \ + ((defined USB_HOST_CONFIG_EHCI_MAX_SITD) && (USB_HOST_CONFIG_EHCI_MAX_SITD))) + +static usb_status_t USB_HostEhciOpenIso(usb_host_ehci_instance_t *ehciInstance, usb_host_ehci_pipe_t *ehciPipePointer) +{ + usb_host_ehci_iso_t *isoPointer; + usb_status_t status = kStatus_USB_Success; + + if (ehciInstance->firstDeviceSpeed == USB_SPEED_HIGH) + { + status = USB_HostBandwidthHsHostAllocateIso( + ehciInstance, ehciPipePointer); /* allocate iso bandwidth when host works as high-speed */ + } + else + { + status = USB_HostBandwidthFslsHostAllocate( + ehciInstance, ehciPipePointer); /* allocate iso bandwidth when host works as full-speed or low-speed */ + } + + if (status != kStatus_USB_Success) + { + return status; + } + + /* get usb_host_ehci_iso_t */ + if (ehciInstance->ehciIsoList == NULL) + { + return kStatus_USB_Error; + } + USB_HostEhciLock(); + isoPointer = ehciInstance->ehciIsoList; + ehciInstance->ehciIsoList = ehciInstance->ehciIsoList->next; + USB_HostEhciUnlock(); + isoPointer->lastLinkFrame = 0xFFFF; + ehciPipePointer->ehciQh = isoPointer; + + return status; +} + +static usb_status_t USB_HostEhciCloseIso(usb_host_ehci_instance_t *ehciInstance, usb_host_ehci_pipe_t *ehciPipePointer) +{ + usb_host_ehci_iso_t *isoPointer; + uint32_t speed; + + isoPointer = (usb_host_ehci_iso_t *)ehciPipePointer->ehciQh; + + if (isoPointer->ehciTransferHead != NULL) + { + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceSpeed, + &speed); + if (speed == USB_SPEED_HIGH) + { +#if ((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) + USB_HostEhciItdArrayDeinit(ehciInstance, ehciPipePointer); /* de-initialize itd list and free them */ +#endif + } + else + { +#if ((defined USB_HOST_CONFIG_EHCI_MAX_SITD) && (USB_HOST_CONFIG_EHCI_MAX_SITD)) + USB_HostEhciSitdArrayDeinit(ehciInstance, ehciPipePointer); /* de-initialize sitd list and free them */ +#endif + } + } + + /* release usb_host_ehci_iso_t */ + USB_HostEhciLock(); + isoPointer->next = ehciInstance->ehciIsoList; + ehciInstance->ehciIsoList = isoPointer; + USB_HostEhciUnlock(); + return kStatus_USB_Success; +} + +#endif + +static usb_status_t USB_HostEhciResetIP(usb_host_ehci_instance_t *ehciInstance) +{ + /* reset controller */ + ehciInstance->ehciIpBase->USBCMD = USBHS_USBCMD_RST_MASK; + while (ehciInstance->ehciIpBase->USBCMD & USBHS_USBCMD_RST_MASK) + { + } +/* set host mode */ +#if (ENDIANNESS == USB_LITTLE_ENDIAN) + ehciInstance->ehciIpBase->USBMODE |= 0x03; +#else + ehciInstance->ehciIpBase->USBMODE |= (0x03 | (0x01 << USBHS_USBMODE_ES_SHIFT)); +#endif + /* check frame list size */ + if (!(ehciInstance->ehciIpBase->HCCPARAMS & USBHS_HCCPARAMS_PFL_MASK)) + { +#if ((USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE < 8) || (USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE > 1024)) + return kStatus_USB_Error; +#endif +#if (USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE & (USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE - 1)) + return kStatus_USB_Error; /* frame size must be 1024/512/256/128/64/32/16/8 */ +#endif + } + return kStatus_USB_Success; +} + +static usb_status_t USB_HostEhciStartIP(usb_host_ehci_instance_t *ehciInstance) +{ + uint32_t tmp = 0; + + if (ehciInstance->ehciIpBase->HCSPARAMS & USBHS_HCSPARAMS_PPC_MASK) /* Ports have power port switches */ + { + /* only has one port */ + tmp = ehciInstance->ehciIpBase->PORTSC1; + tmp &= (~EHCI_PORTSC1_W1_BITS); + ehciInstance->ehciIpBase->PORTSC1 = (tmp | USBHS_PORTSC1_PP_MASK); /* turn on port power */ + } + + /* set frame list size */ + if (ehciInstance->ehciIpBase->HCCPARAMS & USBHS_HCCPARAMS_PFL_MASK) + { +#if (USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE <= 64) + ehciInstance->ehciIpBase->USBCMD |= (USBHS_USBCMD_FS2_MASK); +#if (USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE == 64) + ehciInstance->ehciIpBase->USBCMD |= (0x00 << USBHS_USBCMD_FS_SHIFT); +#elif(USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE == 32) + ehciInstance->ehciIpBase->USBCMD |= (0x01 << USBHS_USBCMD_FS_SHIFT); +#elif(USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE == 16) + ehciInstance->ehciIpBase->USBCMD |= (0x02 << USBHS_USBCMD_FS_SHIFT); +#elif(USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE == 8) + ehciInstance->ehciIpBase->USBCMD |= (0x03 << USBHS_USBCMD_FS_SHIFT); +#endif +#else +#if (USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE == 1024) + ehciInstance->ehciIpBase->USBCMD |= (0x00 << USBHS_USBCMD_FS_SHIFT); +#elif(USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE == 512) + ehciInstance->ehciIpBase->USBCMD |= (0x01 << USBHS_USBCMD_FS_SHIFT); +#elif(USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE == 256) + ehciInstance->ehciIpBase->USBCMD |= (0x02 << USBHS_USBCMD_FS_SHIFT); +#elif(USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE == 128) + ehciInstance->ehciIpBase->USBCMD |= (0x03 << USBHS_USBCMD_FS_SHIFT); +#endif +#endif + } + + /* start the controller */ + ehciInstance->ehciIpBase->USBCMD = USBHS_USBCMD_RS_MASK; + + /* set timer0 */ + ehciInstance->ehciIpBase->GPTIMER0LD = (300 * 1000 - 1); /* 100ms */ + + /* enable interrupt (USB interrupt enable + USB error interrupt enable + port change detect enable + system error + * enable + interrupt on async advance enable) + general purpos Timer 0 Interrupt enable */ + ehciInstance->ehciIpBase->USBINTR |= (0x1000037); + + return kStatus_USB_Success; +} + +static usb_status_t USB_HostEhciCancelPipe(usb_host_ehci_instance_t *ehciInstance, + usb_host_ehci_pipe_t *ehciPipePointer, + usb_host_transfer_t *transfer) +{ + usb_host_ehci_qh_t *qhPointer; +#if (((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) || \ + ((defined USB_HOST_CONFIG_EHCI_MAX_SITD) && (USB_HOST_CONFIG_EHCI_MAX_SITD))) + usb_host_ehci_iso_t *isoPointer; + uint32_t speed; +#endif + uint8_t cancelPipe = 0; + + switch (ehciPipePointer->pipeCommon.pipeType) + { + case USB_ENDPOINT_BULK: + case USB_ENDPOINT_CONTROL: + case USB_ENDPOINT_INTERRUPT: + qhPointer = (usb_host_ehci_qh_t *)ehciPipePointer->ehciQh; + if (qhPointer->ehciTransferHead == NULL) /* there is no transfer to cancel */ + { + return kStatus_USB_Success; + } + if (transfer != NULL) + { + if ((qhPointer->ehciTransferHead == transfer) && + (qhPointer->ehciTransferHead == qhPointer->ehciTransferTail)) /* only has this one transfer */ + { + cancelPipe = 1; + } + else + { + cancelPipe = 0; + } + } + else + { + cancelPipe = 1; + } + if (cancelPipe == 1) /* cancel all pipe */ + { + USB_HostEhciQhQtdListDeinit(ehciInstance, ehciPipePointer); /* release all the qtd */ + } + else /* cancel one transfer */ + { + USB_HostEhciTransferQtdListDeinit(ehciInstance, ehciPipePointer, transfer); + } + break; + +#if (((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) || \ + ((defined USB_HOST_CONFIG_EHCI_MAX_SITD) && (USB_HOST_CONFIG_EHCI_MAX_SITD))) + case USB_ENDPOINT_ISOCHRONOUS: + isoPointer = (usb_host_ehci_iso_t *)ehciPipePointer->ehciQh; + if (isoPointer->ehciTransferHead == NULL) /* there is no transfer to cancel */ + { + return kStatus_USB_Success; + } + /* cancel all pipe, don't implement canceling transfer for iso */ + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceSpeed, + &speed); + if (speed == USB_SPEED_HIGH) + { +#if ((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) + USB_HostEhciItdArrayDeinit(ehciInstance, ehciPipePointer); /* de-initialize itd */ +#endif + } + else + { +#if ((defined USB_HOST_CONFIG_EHCI_MAX_SITD) && (USB_HOST_CONFIG_EHCI_MAX_SITD)) + USB_HostEhciSitdArrayDeinit(ehciInstance, ehciPipePointer); /* de-initialize sitd */ +#endif + } + break; +#endif + + default: + break; + } + + return kStatus_USB_Success; +} + +static usb_status_t USB_HostEhciControlBus(usb_host_ehci_instance_t *ehciInstance, uint8_t busControl) +{ + usb_status_t status = kStatus_USB_Success; + uint32_t portScRegister; + + switch (busControl) + { + case kUSB_HostBusReset: + /* reset port */ + portScRegister = ehciInstance->ehciIpBase->PORTSC1; + portScRegister &= (~EHCI_PORTSC1_W1_BITS); + ehciInstance->ehciIpBase->PORTSC1 = (portScRegister | USBHS_PORTSC1_PR_MASK); + while (ehciInstance->ehciIpBase->PORTSC1 & USBHS_PORTSC1_PR_MASK) + { + } + break; + + case kUSB_HostBusRestart: + ehciInstance->deviceAttached = kEHCIDeviceDetached; + ehciInstance->ehciIpBase->USBINTR |= (USBHS_USBINTR_PCE_MASK); /* enable ehci port change interrupt */ + break; + + case kUSB_HostBusEnableAttach: /* enable device attach */ + if (ehciInstance->deviceAttached == kEHCIDeviceDetached) + { + ehciInstance->ehciIpBase->USBINTR |= (USBHS_USBINTR_PCE_MASK); /* enable ehci port change interrupt */ + } + break; + + case kUSB_HostBusDisableAttach: /* disable device attach */ + ehciInstance->ehciIpBase->USBINTR &= (~USBHS_USBINTR_PCE_MASK); /* disable ehci port change interrupt */ + break; +#if ((defined(USB_HOST_CONFIG_LOW_POWER_MODE)) && (USB_HOST_CONFIG_LOW_POWER_MODE > 0U)) + case kUSB_HostBusSuspend: + if (ehciInstance->ehciIpBase->PORTSC1 && USBHS_PORTSC1_CCS_MASK) + { + /* set timer1 */ + ehciInstance->ehciIpBase->GPTIMER1LD = (1 * 1000); /* 1ms */ + ehciInstance->ehciIpBase->GPTIMER1CTL |= + (USBHS_GPTIMER0CTL_RUN_MASK | USBHS_GPTIMER0CTL_MODE_MASK | USBHS_GPTIMER0CTL_RST_MASK); + + USB_HostEhciStopAsync(ehciInstance); + USB_HostEhciStopPeriodic(ehciInstance); + while (ehciInstance->ehciIpBase->USBSTS & (USBHS_USBSTS_PS_MASK | USBHS_USBSTS_AS_MASK)) + { + __ASM("nop"); + } + ehciInstance->ehciIpBase->PORTSC1 &= ~USBHS_PORTSC1_WKCN_MASK; + ehciInstance->ehciIpBase->PORTSC1 |= USBHS_PORTSC1_WKDS_MASK; + ehciInstance->ehciIpBase->PORTSC1 |= (USBHS_PORTSC1_SUSP_MASK); /* Suspend the device */ + + ehciInstance->matchTick = 0U; + ehciInstance->ehciIpBase->USBINTR |= (USBHS_USBINTR_TIE1_MASK); + ehciInstance->busSuspendStatus = kBus_EhciStartSuspend; + } + else + { + status = kStatus_USB_Error; + } + break; + case kUSB_HostBusResume: + ehciInstance->ehciIpBase->PORTSC1 &= ~(USBHS_PORTSC1_SUSP_MASK); /* Clear Suspend bit */ + ehciInstance->ehciIpBase->PORTSC1 &= ~USBHS_PORTSC1_PHCD_MASK; + if (ehciInstance->deviceAttached != kEHCIDeviceDetached) + { + ehciInstance->busSuspendStatus = kBus_EhciStartResume; +#if (defined(FSL_FEATURE_SOC_USBNC_COUNT) && (FSL_FEATURE_SOC_USBNC_COUNT > 0U)) + ehciInstance->registerNcBase->USB_OTGn_CTRL &= ~USBNC_USB_OTGn_CTRL_WIE_MASK; +#else + ehciInstance->ehciIpBase->USBGENCTRL &= ~USBHS_USBGENCTRL_WU_IE_MASK; +#endif + ehciInstance->ehciIpBase->USBCMD |= (USBHS_USBCMD_RS_MASK); + ehciInstance->ehciIpBase->PORTSC1 |= (USBHS_PORTSC1_FPR_MASK); /* Resume the device */ + } + else + { + status = kStatus_USB_Error; + } + break; +#endif + default: + status = kStatus_USB_Error; + break; + } + return status; +} + +void USB_HostEhciTransactionDone(usb_host_ehci_instance_t *ehciInstance) +{ + /* process async QH */ + usb_host_ehci_pipe_t *ehciPipePointer; + usb_host_ehci_pipe_t *ehciClearPipePointer = NULL; + volatile usb_host_ehci_qh_t *vltQhPointer; + volatile usb_host_ehci_qtd_t *vltQtdPointer; + usb_host_transfer_t *transfer; + usb_host_transfer_t *nextTransfer; + uint32_t qtdStatus = 0; +#if ((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) + volatile usb_host_ehci_itd_t *vltItdPointer; + uint8_t index = 0; +#endif +#if ((defined USB_HOST_CONFIG_EHCI_MAX_SITD) && (USB_HOST_CONFIG_EHCI_MAX_SITD)) + volatile usb_host_ehci_sitd_t *vltSitdPointer; +#endif +#if (((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) || \ + ((defined USB_HOST_CONFIG_EHCI_MAX_SITD) && (USB_HOST_CONFIG_EHCI_MAX_SITD))) + usb_host_ehci_iso_t *isoPointer; + uint32_t dataLength; + uint32_t speed; +#endif + + ehciPipePointer = ehciInstance->ehciRunningPipeList; /* check all the running pipes */ + while (ehciPipePointer != NULL) + { + switch (ehciPipePointer->pipeCommon.pipeType) + { + case USB_ENDPOINT_BULK: + case USB_ENDPOINT_INTERRUPT: + case USB_ENDPOINT_CONTROL: + vltQhPointer = (volatile usb_host_ehci_qh_t *)ehciPipePointer->ehciQh; /* pipe's qh */ + transfer = vltQhPointer->ehciTransferHead; /* qh's transfer */ + while (transfer != NULL) + { + nextTransfer = transfer->next; + /* normal case */ + vltQtdPointer = (volatile usb_host_ehci_qtd_t *)transfer->union2.unitTail; + if ((vltQtdPointer->transferResults[0] & (EHCI_HOST_QTD_IOC_MASK)) && + (!(vltQtdPointer->transferResults[0] & + EHCI_HOST_QTD_STATUS_ACTIVE_MASK))) /* transfer is done */ + { + qtdStatus = (vltQtdPointer->transferResults[0] & EHCI_HOST_QTD_STATUS_ERROR_MASK); + transfer->transferSofar = + USB_HostEhciQtdListRelease(ehciInstance, (usb_host_ehci_qtd_t *)(transfer->union1.unitHead), + (usb_host_ehci_qtd_t *)(transfer->union2.unitTail)); + transfer->transferSofar = (transfer->transferLength < transfer->transferSofar) ? + 0 : + (transfer->transferLength - transfer->transferSofar); + + vltQhPointer->ehciTransferHead = transfer->next; + vltQhPointer->timeOutLabel = 0; + vltQhPointer->timeOutValue = USB_HOST_EHCI_CONTROL_BULK_TIME_OUT_VALUE; + if (qtdStatus) /* has errors */ + { + if (!(vltQhPointer->transferOverlayResults[0] & EHCI_HOST_QTD_STATUS_ACTIVE_MASK)) + { + vltQhPointer->transferOverlayResults[0] &= + (~EHCI_HOST_QTD_STATUS_MASK); /* clear error status */ + } + if (qtdStatus & EHCI_HOST_QH_STATUS_NOSTALL_ERROR_MASK) + { + transfer->callbackFn(transfer->callbackParam, transfer, + kStatus_USB_TransferFailed); /* transfer fail */ + } + else + { + transfer->callbackFn(transfer->callbackParam, transfer, + kStatus_USB_TransferStall); /* transfer stall */ + } + } + else + { + if ((ehciPipePointer->pipeCommon.pipeType == USB_ENDPOINT_CONTROL) && + (transfer->setupPacket->bRequest == USB_REQUEST_STANDARD_CLEAR_FEATURE) && + (transfer->setupPacket->bmRequestType == USB_REQUEST_TYPE_RECIPIENT_ENDPOINT) && + ((USB_SHORT_FROM_LITTLE_ENDIAN(transfer->setupPacket->wValue) & 0x00FFu) == + USB_REQUEST_STANDARD_FEATURE_SELECTOR_ENDPOINT_HALT)) + { + ehciClearPipePointer = ehciInstance->ehciRunningPipeList; + while (ehciClearPipePointer != NULL) + { + /* only compute bulk and interrupt pipe */ + if (((ehciClearPipePointer->pipeCommon.endpointAddress | + (ehciClearPipePointer->pipeCommon.direction + << USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT)) == + (uint8_t)(USB_SHORT_FROM_LITTLE_ENDIAN(transfer->setupPacket->wIndex))) && + (ehciClearPipePointer->pipeCommon.deviceHandle == + ehciPipePointer->pipeCommon.deviceHandle)) + { + break; + } + ehciClearPipePointer = + (usb_host_ehci_pipe_t *)ehciClearPipePointer->pipeCommon.next; + } + + if ((ehciClearPipePointer != NULL) && + ((ehciClearPipePointer->pipeCommon.pipeType == USB_ENDPOINT_INTERRUPT) || + (ehciClearPipePointer->pipeCommon.pipeType == USB_ENDPOINT_BULK))) + { + ((volatile usb_host_ehci_qh_t *)(ehciClearPipePointer->ehciQh)) + ->transferOverlayResults[0] &= (~EHCI_HOST_QTD_DT_MASK); + } + } + transfer->callbackFn(transfer->callbackParam, transfer, + kStatus_USB_Success); /* transfer success */ + } + } + else if ((!(vltQhPointer->transferOverlayResults[0] & EHCI_HOST_QTD_STATUS_ACTIVE_MASK)) && + (vltQhPointer->transferOverlayResults[0] & + EHCI_HOST_QH_STATUS_ERROR_MASK)) /* there is error and transfer is done */ + { + qtdStatus = (vltQhPointer->transferOverlayResults[0] & EHCI_HOST_QH_STATUS_ERROR_MASK); + vltQtdPointer = (volatile usb_host_ehci_qtd_t *)(vltQhPointer->currentQtdPointer); + + if (((uint32_t)vltQtdPointer & EHCI_HOST_T_INVALID_VALUE) || + (vltQtdPointer == NULL)) /* the error status is unreasonable */ + { + vltQhPointer->transferOverlayResults[0] &= + (~EHCI_HOST_QTD_STATUS_MASK); /* clear error status */ + } + else + { + /* remove qtd from qh */ + while ((vltQtdPointer != NULL) && (!(vltQtdPointer->transferResults[0] & + EHCI_HOST_QTD_IOC_MASK))) /* find the IOC qtd */ + { + vltQtdPointer = (volatile usb_host_ehci_qtd_t *)vltQtdPointer->nextQtdPointer; + } + + vltQhPointer->nextQtdPointer = EHCI_HOST_T_INVALID_VALUE; + vltQhPointer->currentQtdPointer = EHCI_HOST_T_INVALID_VALUE; + vltQhPointer->transferOverlayResults[0] &= + (~EHCI_HOST_QTD_STATUS_MASK); /* clear error status */ + if (vltQtdPointer != NULL) + { + vltQhPointer->nextQtdPointer = vltQtdPointer->nextQtdPointer; + } + + transfer->transferSofar = USB_HostEhciQtdListRelease( + ehciInstance, (usb_host_ehci_qtd_t *)(transfer->union1.unitHead), + (usb_host_ehci_qtd_t *)(transfer->union2.unitTail)); + transfer->transferSofar = (transfer->transferLength < transfer->transferSofar) ? + 0 : + (transfer->transferLength - transfer->transferSofar); + vltQhPointer->ehciTransferHead = transfer->next; + vltQhPointer->timeOutLabel = 0; + vltQhPointer->timeOutValue = USB_HOST_EHCI_CONTROL_BULK_TIME_OUT_VALUE; + if (qtdStatus & EHCI_HOST_QH_STATUS_NOSTALL_ERROR_MASK) + { + transfer->callbackFn(transfer->callbackParam, transfer, + kStatus_USB_TransferFailed); /* transfer fail */ + } + else + { + transfer->callbackFn(transfer->callbackParam, transfer, + kStatus_USB_TransferStall); /* transfer stall */ + } + } + } + else + { + break; + } + transfer = nextTransfer; + } + break; +#if (((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) || \ + ((defined USB_HOST_CONFIG_EHCI_MAX_SITD) && (USB_HOST_CONFIG_EHCI_MAX_SITD))) + case USB_ENDPOINT_ISOCHRONOUS: + qtdStatus = 0; /* qtdStatus means break here, because there is only one break in while for misra */ + isoPointer = (usb_host_ehci_iso_t *)ehciPipePointer->ehciQh; /* pipe's usb_host_ehci_iso_t */ + transfer = isoPointer->ehciTransferHead; /* usb_host_ehci_iso_t's transfer */ + while (transfer != NULL) + { + nextTransfer = transfer->next; + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, + kUSB_HostGetDeviceSpeed, &speed); + if (speed == USB_SPEED_HIGH) + { +#if ((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) + vltItdPointer = + (volatile usb_host_ehci_itd_t *)(transfer->union2.unitTail); /* transfer's last itd */ + for (index = 0; index < 8; ++index) + { + if (vltItdPointer->transactions[index] & EHCI_HOST_ITD_STATUS_ACTIVE_MASK) + { + break; + } + } + if (index == 8) /* transfer is done */ + { + /* remove itd from frame list and release itd */ + dataLength = USB_HostEhciItdArrayRelease(ehciInstance, + (usb_host_ehci_itd_t *)transfer->union1.unitHead, + (usb_host_ehci_itd_t *)transfer->union2.unitTail); + transfer->transferSofar = dataLength; + isoPointer->ehciTransferHead = transfer->next; + transfer->callbackFn(transfer->callbackParam, transfer, + kStatus_USB_Success); /* transfer callback success */ + /* TODO: iso callback error */ + } + else + { + qtdStatus = 1; /* break */ + } +#endif + } + else + { +#if ((defined USB_HOST_CONFIG_EHCI_MAX_SITD) && (USB_HOST_CONFIG_EHCI_MAX_SITD)) + vltSitdPointer = + (volatile usb_host_ehci_sitd_t *)(transfer->union2.unitTail); /* transfer's last sitd */ + if (!(vltSitdPointer->transferResults[0] & + EHCI_HOST_SITD_STATUS_ACTIVE_MASK)) /* transfer is done */ + { + /* remove sitd from frame list and release itd */ + dataLength = USB_HostEhciSitdArrayRelease( + ehciInstance, (usb_host_ehci_sitd_t *)transfer->union1.unitHead, + (usb_host_ehci_sitd_t *)transfer->union2.unitTail); + transfer->transferSofar = dataLength; + isoPointer->ehciTransferHead = transfer->next; + transfer->callbackFn(transfer->callbackParam, transfer, + kStatus_USB_Success); /* transfer callback success */ + /* TODO: iso callback error */ + } + else + { + qtdStatus = 1; /* break */ + } +#endif + } + if (qtdStatus == 1) + { + break; + } + transfer = nextTransfer; + } + break; +#endif + + default: + break; + } + ehciPipePointer = (usb_host_ehci_pipe_t *)ehciPipePointer->pipeCommon.next; + } +} + +static void USB_HostEhciPortChange(usb_host_ehci_instance_t *ehciInstance) +{ + /* note: only has one port */ + uint32_t portScRegister = ehciInstance->ehciIpBase->PORTSC1; + int32_t sofStart = 0; + int32_t sofCount = 0; + uint32_t index; + + if (portScRegister & USBHS_PORTSC1_CSC_MASK) /* connection status change */ + { + sofStart = (int32_t)(ehciInstance->ehciIpBase->FRINDEX & EHCI_MAX_UFRAME_VALUE); + + /* process CSC bit */ + while (1) + { + portScRegister = ehciInstance->ehciIpBase->PORTSC1; + if (portScRegister & USBHS_PORTSC1_CSC_MASK) + { + /* clear csc bit */ + portScRegister = ehciInstance->ehciIpBase->PORTSC1; + portScRegister &= (~EHCI_PORTSC1_W1_BITS); + ehciInstance->ehciIpBase->PORTSC1 = (portScRegister | USBHS_PORTSC1_CSC_MASK); + } + sofCount = (int32_t)(ehciInstance->ehciIpBase->FRINDEX & EHCI_MAX_UFRAME_VALUE); + if (((sofCount - sofStart + EHCI_MAX_UFRAME_VALUE + 1) & EHCI_MAX_UFRAME_VALUE) > + (1 * 8)) /* delay 1ms to clear CSC */ + { + break; + } + } + } + + /* process CCS bit */ + portScRegister = ehciInstance->ehciIpBase->PORTSC1; + if (portScRegister & USBHS_PORTSC1_CCS_MASK) /* process attach */ + { + if ((ehciInstance->deviceAttached == kEHCIDevicePhyAttached) || + (ehciInstance->deviceAttached == kEHCIDeviceAttached)) + { + return; + } +#if ((defined(USB_HOST_CONFIG_LOW_POWER_MODE)) && (USB_HOST_CONFIG_LOW_POWER_MODE > 0U)) + ehciInstance->busSuspendStatus = kBus_EhciIdle; + ehciInstance->ehciIpBase->USBINTR &= ~(USBHS_USBINTR_TIE1_MASK); +#endif + for (index = 0; index < USB_HOST_EHCI_PORT_CONNECT_DEBOUNCE_DELAY; ++index) + { + USB_HostEhciDelay(ehciInstance->ehciIpBase, 1); + if (!(ehciInstance->ehciIpBase->PORTSC1 & USBHS_PORTSC1_CCS_MASK)) + { + break; + } + } + if (index < USB_HOST_EHCI_PORT_CONNECT_DEBOUNCE_DELAY) /* CCS is cleared */ + { + ehciInstance->deviceAttached = kEHCIDeviceDetached; + return; + } + /* reset port */ + portScRegister = ehciInstance->ehciIpBase->PORTSC1; + portScRegister &= (~EHCI_PORTSC1_W1_BITS); + ehciInstance->ehciIpBase->PORTSC1 = (portScRegister | USBHS_PORTSC1_PR_MASK); + while (ehciInstance->ehciIpBase->PORTSC1 & USBHS_PORTSC1_PR_MASK) + { + } + ehciInstance->firstDeviceSpeed = + ((ehciInstance->ehciIpBase->PORTSC1 & USBHS_PORTSC1_PSPD_MASK) >> USBHS_PORTSC1_PSPD_SHIFT); + /* enable ehci phy disconnection */ + if (ehciInstance->firstDeviceSpeed == USB_SPEED_HIGH) + { + USB_EhcihostPhyDisconnectDetectCmd(ehciInstance->controllerId, 1); + } + + /* wait for reset */ + USB_HostEhciDelay(ehciInstance->ehciIpBase, USB_HOST_EHCI_PORT_RESET_DELAY); + /* process attach */ + USB_OsaEventSet(ehciInstance->taskEventHandle, EHCI_TASK_EVENT_DEVICE_ATTACH); + /* gpt timer start */ + ehciInstance->ehciIpBase->GPTIMER0CTL |= + (USBHS_GPTIMER0CTL_RUN_MASK | USBHS_GPTIMER0CTL_MODE_MASK | USBHS_GPTIMER0CTL_RST_MASK); + ehciInstance->deviceAttached = kEHCIDevicePhyAttached; + } + else + { + if ((ehciInstance->deviceAttached == kEHCIDevicePhyAttached) || + (ehciInstance->deviceAttached == kEHCIDeviceAttached)) + { +#if ((defined(USB_HOST_CONFIG_LOW_POWER_MODE)) && (USB_HOST_CONFIG_LOW_POWER_MODE > 0U)) + ehciInstance->busSuspendStatus = kBus_EhciIdle; + ehciInstance->ehciIpBase->USBINTR &= ~(USBHS_USBINTR_TIE1_MASK); +#endif + /* disable ehci phy disconnection */ + USB_EhcihostPhyDisconnectDetectCmd(ehciInstance->controllerId, 0); + /* disable async and periodic */ + USB_HostEhciStopAsync(ehciInstance); + USB_HostEhciStopPeriodic(ehciInstance); + USB_OsaEventSet(ehciInstance->taskEventHandle, EHCI_TASK_EVENT_DEVICE_DETACH); + } + } +} + +static void USB_HostEhciTimer0(usb_host_ehci_instance_t *ehciInstance) +{ + volatile usb_host_ehci_qh_t *vltQhPointer; + volatile usb_host_ehci_qtd_t *vltQtdPointer; + usb_host_transfer_t *transfer; + uint32_t backValue; + volatile uint32_t *totalBytesAddress = NULL; + usb_host_ehci_pipe_t *ehciPipePointer = ehciInstance->ehciRunningPipeList; + uint8_t timeoutLabel; + + while (ehciPipePointer != NULL) + { + switch (ehciPipePointer->pipeCommon.pipeType) + { + case USB_ENDPOINT_BULK: + case USB_ENDPOINT_CONTROL: + vltQhPointer = (volatile usb_host_ehci_qh_t *)ehciPipePointer->ehciQh; /* pipe's qh */ + transfer = vltQhPointer->ehciTransferHead; /* qh's transfer */ + if ((transfer != NULL)) /* there is transfering data */ + { + timeoutLabel = 0; + if (ehciInstance->deviceAttached != kEHCIDeviceAttached) + { + vltQtdPointer = (volatile usb_host_ehci_qtd_t *)transfer->union2.unitTail; + + vltQhPointer->nextQtdPointer = EHCI_HOST_T_INVALID_VALUE; /* invalid next qtd */ + vltQhPointer->transferOverlayResults[0] &= + (~EHCI_HOST_QTD_STATUS_MASK); /* clear error status */ + timeoutLabel = 1; + } + else + { + if (vltQhPointer->transferOverlayResults[0] & EHCI_HOST_QTD_STATUS_ACTIVE_MASK) + { + vltQtdPointer = (volatile usb_host_ehci_qtd_t *)vltQhPointer->currentQtdPointer; + totalBytesAddress = &(vltQhPointer->transferOverlayResults[0]); + } + else + { + vltQtdPointer = (volatile usb_host_ehci_qtd_t *)transfer->union2.unitTail; + totalBytesAddress = ((uint32_t *)vltQtdPointer + 2); + } + + backValue = + (((*totalBytesAddress) & EHCI_HOST_QTD_TOTAL_BYTES_MASK) >> + EHCI_HOST_QTD_TOTAL_BYTES_SHIFT); /* backValue is used for total bytes to transfer */ + if (vltQhPointer->timeOutLabel != backValue) /* use total bytes to reflect the time out */ + { + vltQhPointer->timeOutValue = USB_HOST_EHCI_CONTROL_BULK_TIME_OUT_VALUE; + vltQhPointer->timeOutLabel = backValue; + } + else + { + /* time out when the total bytes don't change for the duration + * USB_HOST_EHCI_CONTROL_BULK_TIME_OUT_VALUE + */ + (vltQhPointer->timeOutValue)--; + if (vltQhPointer->timeOutValue == 0) + { + /* stop the qh schedule */ + USB_HostEhciStopAsync(ehciInstance); + if (backValue != (((*totalBytesAddress) & EHCI_HOST_QTD_TOTAL_BYTES_MASK) >> + EHCI_HOST_QTD_TOTAL_BYTES_SHIFT)) + { + USB_HostEhciStartAsync(ehciInstance); + } + else + { + vltQhPointer->nextQtdPointer = EHCI_HOST_T_INVALID_VALUE; /* invalid next qtd */ + vltQhPointer->transferOverlayResults[0] &= + (~EHCI_HOST_QTD_STATUS_MASK); /* clear error status */ + USB_HostEhciStartAsync(ehciInstance); + timeoutLabel = 1; + } + } + } + } + + if (timeoutLabel == 1) + { + /* remove qtd from qh */ + while ((vltQtdPointer != NULL) && + (!(vltQtdPointer->transferResults[0] & EHCI_HOST_QTD_IOC_MASK)) && + (vltQtdPointer != (usb_host_ehci_qtd_t *)vltQhPointer->ehciTransferTail)) + { + vltQtdPointer = (volatile usb_host_ehci_qtd_t *)vltQtdPointer->nextQtdPointer; + } + if ((vltQtdPointer != NULL) && (!(vltQtdPointer->nextQtdPointer & EHCI_HOST_T_INVALID_VALUE))) + { + vltQhPointer->nextQtdPointer = + vltQtdPointer->nextQtdPointer; /* start qh if there are other qtd that don't belong to + the transfer */ + } + transfer->transferSofar = + USB_HostEhciQtdListRelease(ehciInstance, (usb_host_ehci_qtd_t *)(transfer->union1.unitHead), + (usb_host_ehci_qtd_t *)(transfer->union2.unitTail)); + transfer->transferSofar = (transfer->transferLength < transfer->transferSofar) ? + 0 : + (transfer->transferLength - transfer->transferSofar); + + vltQhPointer->ehciTransferHead = transfer->next; + vltQhPointer->timeOutValue = USB_HOST_EHCI_CONTROL_BULK_TIME_OUT_VALUE; + transfer->callbackFn(transfer->callbackParam, transfer, kStatus_USB_TransferFailed); + } + } + break; + default: + break; + } + ehciPipePointer = (usb_host_ehci_pipe_t *)ehciPipePointer->pipeCommon.next; + } +} + +#if ((defined(USB_HOST_CONFIG_LOW_POWER_MODE)) && (USB_HOST_CONFIG_LOW_POWER_MODE > 0U)) +static void USB_HostEhciTimer1(usb_host_ehci_instance_t *ehciInstance) +{ + if (ehciInstance->deviceAttached != kEHCIDeviceDetached) + { + if (kBus_EhciStartSuspend == ehciInstance->busSuspendStatus) + { + usb_host_instance_t *hostPointer = (usb_host_instance_t *)ehciInstance->hostHandle; + + if (0 == ehciInstance->matchTick) + { + ehciInstance->matchTick = hostPointer->hwTick; + } + else + { + if ((hostPointer->hwTick - ehciInstance->matchTick) >= 5) + { + ehciInstance->ehciIpBase->USBCMD &= ~USBHS_USBCMD_RS_MASK; + ehciInstance->ehciIpBase->USBSTS |= USBHS_USBSTS_SRI_MASK; +#if (defined(FSL_FEATURE_SOC_USBNC_COUNT) && (FSL_FEATURE_SOC_USBNC_COUNT > 0U)) +#if 0 + ehciInstance->registerPhyBase->CTRL |= USBPHY_CTRL_ENVBUSCHG_WKUP_MASK + | USBPHY_CTRL_ENIDCHG_WKUP_MASK + | USBPHY_CTRL_ENDPDMCHG_WKUP_MASK + | USBPHY_CTRL_ENIRQRESUMEDETECT_MASK + ; +#endif +#endif + ehciInstance->ehciIpBase->PORTSC1 |= USBHS_PORTSC1_PHCD_MASK; + + ehciInstance->registerPhyBase->PWD = 0xFFFFFFFFU; + + while (ehciInstance->registerPhyBase->CTRL & (USBPHY_CTRL_UTMI_SUSPENDM_MASK)) + { + __ASM("nop"); + } + +#if (defined(FSL_FEATURE_SOC_USBNC_COUNT) && (FSL_FEATURE_SOC_USBNC_COUNT > 0U)) + ehciInstance->registerNcBase->USB_OTGn_CTRL |= USBNC_USB_OTGn_CTRL_WKUP_ID_EN_MASK | + USBNC_USB_OTGn_CTRL_WKUP_VBUS_EN_MASK | + USBNC_USB_OTGn_CTRL_WKUP_DPDM_EN_MASK; + ehciInstance->registerNcBase->USB_OTGn_CTRL |= USBNC_USB_OTGn_CTRL_WIE_MASK; +#else + ehciInstance->ehciIpBase->USBGENCTRL = USBHS_USBGENCTRL_WU_IE_MASK; +#endif + ehciInstance->registerPhyBase->CTRL |= USBPHY_CTRL_CLKGATE_MASK; + hostPointer->deviceCallback(hostPointer->suspendedDevice, NULL, + kUSB_HostEventSuspended); /* call host callback function */ + ehciInstance->busSuspendStatus = kBus_EhciSuspended; + } + } + } + else if (kBus_EhciStartResume == ehciInstance->busSuspendStatus) + { + usb_host_instance_t *hostPointer = (usb_host_instance_t *)ehciInstance->hostHandle; + if (!(ehciInstance->ehciIpBase->PORTSC1 & USBHS_PORTSC1_FPR_MASK)) + { + ehciInstance->ehciIpBase->PORTSC1 &= ~USBHS_PORTSC1_WKDS_MASK; + if (ehciInstance->ehciIpBase->PORTSC1 & USBHS_PORTSC1_CCS_MASK) + { + USB_HostEhciStartAsync(ehciInstance); + USB_HostEhciStartPeriodic(ehciInstance); + } + hostPointer->deviceCallback(hostPointer->suspendedDevice, NULL, + kUSB_HostEventResumed); /* call host callback function */ + hostPointer->suspendedDevice = NULL; + ehciInstance->busSuspendStatus = kBus_EhciIdle; + ehciInstance->ehciIpBase->USBINTR &= ~(USBHS_USBINTR_TIE1_MASK); + } + } + else + { + } + } + else + { + ehciInstance->busSuspendStatus = kBus_EhciIdle; + ehciInstance->ehciIpBase->USBINTR &= ~(USBHS_USBINTR_TIE1_MASK); + } +} +#endif + +usb_status_t USB_HostEhciCreate(uint8_t controllerId, + usb_host_handle upperLayerHandle, + usb_host_controller_handle *controllerHandle) +{ + uint32_t index = 0; + usb_osa_status_t osaStatus; + usb_host_ehci_instance_t *ehciInstance; + uint32_t usbhsBaseAddrs[] = USBHS_BASE_ADDRS; + usb_host_ehci_data_t *usbHostEhciData[] = USB_HOST_EHCI_DATA_ARRAY; + uint8_t *usbHostEhciFrameList[] = USB_HOST_EHCI_FRAME_LIST_ARRAY; + uint32_t *framePointer; + + if ((uint32_t)(controllerId - kUSB_ControllerEhci0) >= (sizeof(usbhsBaseAddrs) / sizeof(usbhsBaseAddrs[0]))) + { + return kStatus_USB_ControllerNotFound; + } + + *controllerHandle = NULL; + ehciInstance = (usb_host_ehci_instance_t *)USB_OsaMemoryAllocate( + sizeof(usb_host_ehci_instance_t)); /* malloc host ehci instance */ + if (ehciInstance == NULL) + { + return kStatus_USB_AllocFail; + } + ehciInstance->controllerId = controllerId; + ehciInstance->hostHandle = upperLayerHandle; + ehciInstance->deviceAttached = kEHCIDeviceDetached; + ehciInstance->ehciIpBase = (USBHS_Type *) + usbhsBaseAddrs[controllerId - kUSB_ControllerEhci0]; /* operate ehci ip through the base address */ +#if ((defined(USB_HOST_CONFIG_LOW_POWER_MODE)) && (USB_HOST_CONFIG_LOW_POWER_MODE > 0U)) + ehciInstance->busSuspendStatus = kBus_EhciIdle; + +#if (defined(USB_HOST_CONFIG_LOW_POWER_MODE) && (USB_HOST_CONFIG_LOW_POWER_MODE > 0U)) + ehciInstance->registerPhyBase = (USBPHY_Type *)USB_EhciPhyGetBase(controllerId); + +#if (defined(FSL_FEATURE_SOC_USBNC_COUNT) && (FSL_FEATURE_SOC_USBNC_COUNT > 0U)) + ehciInstance->registerNcBase = (USBNC_Type *)USB_EhciNCGetBase(controllerId); +#endif + +#endif + +#endif + + if (USB_HostEhciResetIP(ehciInstance) != kStatus_USB_Success) /* reset ehci ip */ + { + USB_OsaMemoryFree(ehciInstance); + return kStatus_USB_Error; + } + + /* initialize ehci frame list */ + ehciInstance->ehciFrameList = usbHostEhciFrameList[ehciInstance->controllerId - kUSB_ControllerEhci0]; + + /* initialize ehci units */ + ehciInstance->ehciUnitBase = (uint32_t *)(usbHostEhciData[ehciInstance->controllerId - kUSB_ControllerEhci0]); + /* initialize qh/qtd/itd/sitd/iso list */ + ehciInstance->ehciQhList = (usb_host_ehci_qh_t *)((uint32_t)(ehciInstance->ehciUnitBase)); + ehciInstance->ehciQtdHead = (usb_host_ehci_qtd_t *)((uint32_t)ehciInstance->ehciQhList + + (sizeof(usb_host_ehci_qh_t) * USB_HOST_CONFIG_EHCI_MAX_QH)); + ehciInstance->ehciItdList = (usb_host_ehci_itd_t *)((uint32_t)ehciInstance->ehciQtdHead + + (sizeof(usb_host_ehci_qtd_t) * USB_HOST_CONFIG_EHCI_MAX_QTD)); + ehciInstance->ehciSitdList = ehciInstance->ehciSitdIndexBase = + (usb_host_ehci_sitd_t *)((uint32_t)ehciInstance->ehciItdList + + (sizeof(usb_host_ehci_itd_t) * USB_HOST_CONFIG_EHCI_MAX_ITD)); + ehciInstance->ehciIsoList = (usb_host_ehci_iso_t *)((uint32_t)ehciInstance->ehciSitdList + + (sizeof(usb_host_ehci_sitd_t) * USB_HOST_CONFIG_EHCI_MAX_SITD)); + ehciInstance->ehciPipeIndexBase = + (usb_host_ehci_pipe_t *)((uint32_t)ehciInstance->ehciIsoList + + (sizeof(usb_host_ehci_iso_t) * USB_HOST_EHCI_ISO_NUMBER)); + for (index = 1; index < USB_HOST_CONFIG_EHCI_MAX_QH; ++index) + { + ehciInstance->ehciQhList[index - 1].horizontalLinkPointer = (uint32_t)(&ehciInstance->ehciQhList[index]); + } + ehciInstance->ehciQhList[USB_HOST_CONFIG_EHCI_MAX_QH - 1].horizontalLinkPointer = (uint32_t)NULL; + for (index = 1; index < USB_HOST_CONFIG_EHCI_MAX_QTD; ++index) + { + ehciInstance->ehciQtdHead[index - 1].nextQtdPointer = (uint32_t)(&ehciInstance->ehciQtdHead[index]); + } + ehciInstance->ehciQtdNumber = USB_HOST_CONFIG_EHCI_MAX_QTD; + ehciInstance->ehciQtdHead[USB_HOST_CONFIG_EHCI_MAX_QTD - 1].nextQtdPointer = (uint32_t)NULL; + ehciInstance->ehciQtdTail = &ehciInstance->ehciQtdHead[USB_HOST_CONFIG_EHCI_MAX_QTD - 1]; + +#if ((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) + for (index = 1; index < USB_HOST_CONFIG_EHCI_MAX_ITD; ++index) + { + ehciInstance->ehciItdList[index - 1].nextLinkPointer = (uint32_t)(&ehciInstance->ehciItdList[index]); + } + ehciInstance->ehciItdNumber = USB_HOST_CONFIG_EHCI_MAX_ITD; + ehciInstance->ehciItdList[USB_HOST_CONFIG_EHCI_MAX_ITD - 1].nextLinkPointer = (uint32_t)NULL; +#endif /* USB_HOST_CONFIG_EHCI_MAX_ITD */ + +#if ((defined USB_HOST_CONFIG_EHCI_MAX_SITD) && (USB_HOST_CONFIG_EHCI_MAX_SITD)) + for (index = 1; index < USB_HOST_CONFIG_EHCI_MAX_SITD; ++index) + { + ehciInstance->ehciSitdList[index - 1].nextLinkPointer = (uint32_t)(&ehciInstance->ehciSitdList[index]); + } + ehciInstance->ehciSitdNumber = USB_HOST_CONFIG_EHCI_MAX_SITD; + ehciInstance->ehciSitdList[USB_HOST_CONFIG_EHCI_MAX_SITD - 1].nextLinkPointer = (uint32_t)NULL; +#endif /* USB_HOST_CONFIG_EHCI_MAX_SITD */ + +#if ((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) + for (index = 1; index < USB_HOST_EHCI_ISO_NUMBER; ++index) + { + ehciInstance->ehciIsoList[index - 1].next = &ehciInstance->ehciIsoList[index]; + } + ehciInstance->ehciIsoList[USB_HOST_EHCI_ISO_NUMBER - 1].next = NULL; +#endif + + /* initialize pipes */ + ehciInstance->ehciPipeList = ehciInstance->ehciPipeIndexBase; + for (index = 1; index < USB_HOST_CONFIG_MAX_PIPES; ++index) + { + ehciInstance->ehciPipeList[index - 1].pipeCommon.next = (usb_host_pipe_t *)&ehciInstance->ehciPipeList[index]; + } + /* initialize mutext */ + osaStatus = USB_OsaMutexCreate(&ehciInstance->ehciMutex); + if (osaStatus != kStatus_USB_OSA_Success) + { +#ifdef HOST_ECHO + usb_echo("ehci mutex init fail\r\n"); +#endif + USB_OsaMemoryFree(ehciInstance); + return kStatus_USB_Error; + } + /* initialize task event */ + osaStatus = USB_OsaEventCreate(&ehciInstance->taskEventHandle, 1); + if (osaStatus != kStatus_USB_OSA_Success) + { +#ifdef HOST_ECHO + usb_echo("ehci event init fail\r\n"); +#endif + USB_OsaMutexDestroy(ehciInstance->ehciMutex); + USB_OsaMemoryFree(ehciInstance); + return kStatus_USB_Error; + } + + /* initialize first qh */ + ehciInstance->shedFirstQh = ehciInstance->ehciQhList; + ehciInstance->ehciQhList = + (usb_host_ehci_qh_t *)(ehciInstance->ehciQhList->horizontalLinkPointer & EHCI_HOST_POINTER_ADDRESS_MASK); + ehciInstance->shedFirstQh->staticEndpointStates[0] |= (1 << EHCI_HOST_QH_H_SHIFT); /* first qh */ + ehciInstance->shedFirstQh->horizontalLinkPointer = EHCI_HOST_T_INVALID_VALUE; + ehciInstance->shedFirstQh->currentQtdPointer = EHCI_HOST_T_INVALID_VALUE; + ehciInstance->shedFirstQh->nextQtdPointer = EHCI_HOST_T_INVALID_VALUE; + ehciInstance->shedFirstQh->alternateNextQtdPointer = EHCI_HOST_T_INVALID_VALUE; + ehciInstance->shedFirstQh->horizontalLinkPointer = + (uint32_t)((uint32_t)(ehciInstance->shedFirstQh) | EHCI_HOST_POINTER_TYPE_QH); + + /* initialize periodic list */ + framePointer = (uint32_t *)ehciInstance->ehciFrameList; + for (index = 0; index < USB_HOST_CONFIG_EHCI_FRAME_LIST_SIZE; ++index) + { + framePointer[index] = EHCI_HOST_T_INVALID_VALUE; + } + + USB_HostEhciStartIP(ehciInstance); /* start ehci ip */ + + *controllerHandle = ehciInstance; + + return kStatus_USB_Success; +} + +usb_status_t USB_HostEhciDestory(usb_host_controller_handle controllerHandle) +{ + usb_host_ehci_instance_t *ehciInstance = (usb_host_ehci_instance_t *)controllerHandle; + + /* disable all interrupts */ + ehciInstance->ehciIpBase->USBINTR = 0; + /* stop the controller */ + ehciInstance->ehciIpBase->USBCMD = 0; + /* free memory */ + USB_OsaMutexDestroy(ehciInstance->ehciMutex); + USB_OsaEventDestroy(ehciInstance->taskEventHandle); + USB_OsaMemoryFree(ehciInstance); + + return kStatus_USB_Success; +} + +usb_status_t USB_HostEhciOpenPipe(usb_host_controller_handle controllerHandle, + usb_host_pipe_handle *pipeHandle, + usb_host_pipe_init_t *pipeInit) +{ + usb_host_ehci_pipe_t *ehciPipePointer = NULL; + usb_status_t status; + uint32_t speed; + usb_host_ehci_instance_t *ehciInstance = (usb_host_ehci_instance_t *)controllerHandle; + + /* get one pipe */ + USB_HostEhciLock(); + if (ehciInstance->ehciPipeList != NULL) + { + ehciPipePointer = ehciInstance->ehciPipeList; + ehciInstance->ehciPipeList = (usb_host_ehci_pipe_t *)ehciPipePointer->pipeCommon.next; + } + USB_HostEhciUnlock(); + if (ehciPipePointer == NULL) + { +#ifdef HOST_ECHO + usb_echo("ehci open pipe failed\r\n"); +#endif + return kStatus_USB_Busy; + } + + /* initialize pipe informations */ + USB_HostEhciZeroMem((uint32_t *)ehciPipePointer, sizeof(usb_host_ehci_pipe_t) / 4); + ehciPipePointer->pipeCommon.deviceHandle = pipeInit->devInstance; + ehciPipePointer->pipeCommon.endpointAddress = pipeInit->endpointAddress; + ehciPipePointer->pipeCommon.direction = pipeInit->direction; + ehciPipePointer->pipeCommon.interval = pipeInit->interval; + ehciPipePointer->pipeCommon.maxPacketSize = pipeInit->maxPacketSize; + ehciPipePointer->pipeCommon.pipeType = pipeInit->pipeType; + ehciPipePointer->pipeCommon.numberPerUframe = pipeInit->numberPerUframe; + if (ehciPipePointer->pipeCommon.numberPerUframe == 0) + { + ehciPipePointer->pipeCommon.numberPerUframe = 1; + } + ehciPipePointer->pipeCommon.nakCount = pipeInit->nakCount; + ehciPipePointer->pipeCommon.nextdata01 = 0; + ehciPipePointer->ehciQh = NULL; + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceSpeed, &speed); + if (ehciPipePointer->pipeCommon.pipeType == USB_ENDPOINT_ISOCHRONOUS) + { + ehciPipePointer->pipeCommon.interval = + (1 << (ehciPipePointer->pipeCommon.interval - 1)); /* iso interval is the power of 2 */ + } + else if (ehciPipePointer->pipeCommon.pipeType == USB_ENDPOINT_INTERRUPT) + { + if (speed == USB_SPEED_HIGH) + { + ehciPipePointer->pipeCommon.interval = + (1 << (ehciPipePointer->pipeCommon.interval - 1)); /* HS interrupt interval is the power of 2 */ + } + else + { + ehciPipePointer->pipeCommon.interval = USB_HostEhciGet2PowerValue( + ehciPipePointer->pipeCommon + .interval); /* FS/LS interrupt interval should be the power of 2, it is used for ehci bandwidth */ + } + } + else + { + } + + /* save the micro-frame interval, it is convenient for the interval process */ + if (speed == USB_SPEED_HIGH) + { + ehciPipePointer->uframeInterval = ehciPipePointer->pipeCommon.interval; + } + else + { + ehciPipePointer->uframeInterval = 8 * ehciPipePointer->pipeCommon.interval; + } + + /* open pipe */ + switch (ehciPipePointer->pipeCommon.pipeType) + { + case USB_ENDPOINT_CONTROL: + case USB_ENDPOINT_BULK: + status = USB_HostEhciOpenControlBulk(ehciInstance, ehciPipePointer); + break; + +#if (((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) || \ + ((defined USB_HOST_CONFIG_EHCI_MAX_SITD) && (USB_HOST_CONFIG_EHCI_MAX_SITD))) + case USB_ENDPOINT_ISOCHRONOUS: + status = USB_HostEhciOpenIso(ehciInstance, ehciPipePointer); + break; +#endif + + case USB_ENDPOINT_INTERRUPT: + status = USB_HostEhciOpenInterrupt(ehciInstance, ehciPipePointer); + break; + + default: + status = kStatus_USB_Error; + break; + } + + if (status != kStatus_USB_Success) + { + /* release pipe */ + USB_HostEhciLock(); + ehciPipePointer->pipeCommon.next = (usb_host_pipe_t *)ehciInstance->ehciPipeList; + ehciInstance->ehciPipeList = ehciPipePointer; + USB_HostEhciUnlock(); + return status; + } + + /* add pipe to run pipe list */ + USB_HostEhciLock(); + ehciPipePointer->pipeCommon.next = (usb_host_pipe_t *)ehciInstance->ehciRunningPipeList; + ehciInstance->ehciRunningPipeList = ehciPipePointer; + USB_HostEhciUnlock(); + + *pipeHandle = ehciPipePointer; + return status; +} + +usb_status_t USB_HostEhciClosePipe(usb_host_controller_handle controllerHandle, usb_host_pipe_handle pipeHandle) +{ + usb_host_ehci_instance_t *ehciInstance = (usb_host_ehci_instance_t *)controllerHandle; + usb_host_ehci_pipe_t *ehciPipePointer = (usb_host_ehci_pipe_t *)pipeHandle; + usb_host_pipe_t *prevPointer = NULL; + + switch (ehciPipePointer->pipeCommon.pipeType) + { + case USB_ENDPOINT_BULK: + case USB_ENDPOINT_CONTROL: + USB_HostEhciCloseControlBulk(ehciInstance, ehciPipePointer); + break; + + case USB_ENDPOINT_INTERRUPT: + USB_HostEhciCloseInterrupt(ehciInstance, ehciPipePointer); + break; + +#if (((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) || \ + ((defined USB_HOST_CONFIG_EHCI_MAX_SITD) && (USB_HOST_CONFIG_EHCI_MAX_SITD))) + case USB_ENDPOINT_ISOCHRONOUS: + USB_HostEhciCloseIso(ehciInstance, ehciPipePointer); + break; +#endif + + default: + break; + } + + /* delete pipe from run pipe list */ + USB_HostEhciLock(); + prevPointer = (usb_host_pipe_t *)ehciInstance->ehciRunningPipeList; + if (prevPointer == (usb_host_pipe_t *)ehciPipePointer) + { + ehciInstance->ehciRunningPipeList = (usb_host_ehci_pipe_t *)(prevPointer->next); + } + else + { + while (prevPointer != NULL) + { + if (prevPointer->next == (usb_host_pipe_t *)ehciPipePointer) + { + prevPointer->next = ehciPipePointer->pipeCommon.next; + break; + } + else + { + prevPointer = prevPointer->next; + } + } + } + USB_HostEhciUnlock(); + + /* release pipe */ + USB_HostEhciLock(); + ehciPipePointer->pipeCommon.next = (usb_host_pipe_t *)ehciInstance->ehciPipeList; + ehciInstance->ehciPipeList = ehciPipePointer; + USB_HostEhciUnlock(); + + return kStatus_USB_Success; +} + +usb_status_t USB_HostEhciWritePipe(usb_host_controller_handle controllerHandle, + usb_host_pipe_handle pipeHandle, + usb_host_transfer_t *transfer) +{ + usb_host_ehci_instance_t *ehciInstance = (usb_host_ehci_instance_t *)controllerHandle; + usb_host_ehci_pipe_t *ehciPipePointer = (usb_host_ehci_pipe_t *)pipeHandle; + usb_status_t status = kStatus_USB_Success; +#if (((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) || \ + ((defined USB_HOST_CONFIG_EHCI_MAX_SITD) && (USB_HOST_CONFIG_EHCI_MAX_SITD))) + uint32_t speed; +#endif + + switch (ehciPipePointer->pipeCommon.pipeType) + { + case USB_ENDPOINT_BULK: + case USB_ENDPOINT_CONTROL: + case USB_ENDPOINT_INTERRUPT: + status = USB_HostEhciQhQtdListInit(ehciInstance, ehciPipePointer, + transfer); /* initialize qtd for control/bulk transfer */ + break; + +#if (((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) || \ + ((defined USB_HOST_CONFIG_EHCI_MAX_SITD) && (USB_HOST_CONFIG_EHCI_MAX_SITD))) + case USB_ENDPOINT_ISOCHRONOUS: + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceSpeed, + &speed); + if (speed == USB_SPEED_HIGH) + { +#if ((defined USB_HOST_CONFIG_EHCI_MAX_ITD) && (USB_HOST_CONFIG_EHCI_MAX_ITD)) + status = USB_HostEhciItdArrayInit(ehciInstance, ehciPipePointer, + transfer); /* initialize itd for iso transfer */ +#endif + } + else + { +#if ((defined USB_HOST_CONFIG_EHCI_MAX_SITD) && (USB_HOST_CONFIG_EHCI_MAX_SITD)) + status = USB_HostEhciSitdArrayInit(ehciInstance, ehciPipePointer, + transfer); /* initialize sitd for iso transfer */ +#endif + } + break; +#endif + + default: + break; + } + return status; +} + +usb_status_t USB_HostEhciReadpipe(usb_host_controller_handle controllerHandle, + usb_host_pipe_handle pipeHandle, + usb_host_transfer_t *transfer) +{ + return USB_HostEhciWritePipe(controllerHandle, pipeHandle, transfer); /* same as write */ +} + +usb_status_t USB_HostEhciIoctl(usb_host_controller_handle controllerHandle, uint32_t ioctlEvent, void *ioctlParam) +{ + usb_status_t status = kStatus_USB_Success; + usb_host_ehci_instance_t *ehciInstance = (usb_host_ehci_instance_t *)controllerHandle; + usb_host_cancel_param_t *param; + usb_host_ehci_pipe_t *ehciPipePointer; + volatile usb_host_ehci_qh_t *vltQhPointer; + uint32_t deviceAddress; + + if (controllerHandle == NULL) + { + return kStatus_USB_InvalidHandle; + } + + switch (ioctlEvent) + { + case kUSB_HostCancelTransfer: /* cancel pipe or one transfer */ + param = (usb_host_cancel_param_t *)ioctlParam; + status = USB_HostEhciCancelPipe(ehciInstance, (usb_host_ehci_pipe_t *)param->pipeHandle, param->transfer); + break; + + case kUSB_HostBusControl: /* bus control */ + status = USB_HostEhciControlBus(ehciInstance, *((uint8_t *)ioctlParam)); + break; + + case kUSB_HostGetFrameNumber: /* get frame number */ + *((uint32_t *)ioctlParam) = ((ehciInstance->ehciIpBase->FRINDEX & EHCI_MAX_UFRAME_VALUE) >> 3); + break; + + case kUSB_HostUpdateControlEndpointAddress: + ehciPipePointer = (usb_host_ehci_pipe_t *)ioctlParam; + vltQhPointer = (volatile usb_host_ehci_qh_t *)ehciPipePointer->ehciQh; + /* update address */ + USB_HostHelperGetPeripheralInformation(ehciPipePointer->pipeCommon.deviceHandle, kUSB_HostGetDeviceAddress, + &deviceAddress); + vltQhPointer->staticEndpointStates[0] |= deviceAddress; + break; + + case kUSB_HostUpdateControlPacketSize: + ehciPipePointer = (usb_host_ehci_pipe_t *)ioctlParam; + vltQhPointer = (volatile usb_host_ehci_qh_t *)ehciPipePointer->ehciQh; + USB_HostEhciLock(); + if (ehciInstance->ehciIpBase->USBSTS & USBHS_USBSTS_AS_MASK) + { + USB_HostEhciStopAsync(ehciInstance); + /* update max packet size */ + vltQhPointer->staticEndpointStates[0] = + (((vltQhPointer->staticEndpointStates[0]) & (~EHCI_HOST_QH_MAX_PACKET_LENGTH_MASK)) | + ((uint32_t)ehciPipePointer->pipeCommon.maxPacketSize << EHCI_HOST_QH_MAX_PACKET_LENGTH_SHIFT)); + USB_HostEhciStartAsync(ehciInstance); + } + else + { + /* update max packet size */ + vltQhPointer->staticEndpointStates[0] = + (((vltQhPointer->staticEndpointStates[0]) & (~EHCI_HOST_QH_MAX_PACKET_LENGTH_MASK)) | + ((uint32_t)ehciPipePointer->pipeCommon.maxPacketSize << EHCI_HOST_QH_MAX_PACKET_LENGTH_SHIFT)); + } + USB_HostEhciUnlock(); + break; + + default: + break; + } + return status; +} + +void USB_HostEhciTaskFunction(void *hostHandle) +{ + usb_host_ehci_instance_t *ehciInstance; + uint32_t bitSet; + usb_device_handle deviceHandle; + + if (hostHandle == NULL) + { + return; + } + ehciInstance = (usb_host_ehci_instance_t *)((usb_host_instance_t *)hostHandle)->controllerHandle; + + if (USB_OsaEventWait(ehciInstance->taskEventHandle, 0xFF, 0, 0, &bitSet) == + kStatus_USB_OSA_Success) /* wait all event */ + { + if (bitSet & EHCI_TASK_EVENT_PORT_CHANGE) /* port change */ + { + USB_HostEhciPortChange(ehciInstance); + } + + if (bitSet & EHCI_TASK_EVENT_TIMER0) /* timer0 */ + { + USB_HostEhciTimer0(ehciInstance); + } + +#if ((defined(USB_HOST_CONFIG_LOW_POWER_MODE)) && (USB_HOST_CONFIG_LOW_POWER_MODE > 0U)) + if (bitSet & EHCI_TASK_EVENT_TIMER1) /* timer1 */ + { + USB_HostEhciTimer1(ehciInstance); + } +#endif + + if (ehciInstance->deviceAttached == kEHCIDeviceAttached) + { + if (bitSet & EHCI_TASK_EVENT_TRANSACTION_DONE) /* transaction done */ + { + USB_HostEhciTransactionDone(ehciInstance); + } + + if (bitSet & EHCI_TASK_EVENT_DEVICE_DETACH) /* device detach */ + { + ehciInstance->ehciIpBase->USBINTR &= + (~USBHS_USBINTR_PCE_MASK); /* disable attach, enable when the detach process is done */ + ehciInstance->deviceAttached = kEHCIDeviceDetached; + USB_HostDetachDevice(ehciInstance->hostHandle, 0, 0); + } + } + else if (ehciInstance->deviceAttached != kEHCIDeviceAttached) + { + if (bitSet & EHCI_TASK_EVENT_DEVICE_ATTACH) /* device is attached */ + { + USB_HostEhciStartAsync(ehciInstance); + USB_HostEhciStartPeriodic(ehciInstance); + + if (USB_HostAttachDevice(ehciInstance->hostHandle, ehciInstance->firstDeviceSpeed, 0, 0, 1, + &deviceHandle) == kStatus_USB_Success) + { + ehciInstance->deviceAttached = kEHCIDeviceAttached; + } + } + } + else + { + } + } +} + +void USB_HostEhciIsrFunction(void *hostHandle) +{ + usb_host_ehci_instance_t *ehciInstance; + static uint32_t interruptStatus = 0; + + if (hostHandle == NULL) + { + return; + } + + ehciInstance = (usb_host_ehci_instance_t *)((usb_host_instance_t *)hostHandle)->controllerHandle; + +#if ((defined(USB_HOST_CONFIG_LOW_POWER_MODE)) && (USB_HOST_CONFIG_LOW_POWER_MODE > 0U)) + +#if (defined(FSL_FEATURE_SOC_USBNC_COUNT) && (FSL_FEATURE_SOC_USBNC_COUNT > 0U)) + if (ehciInstance->registerNcBase->USB_OTGn_CTRL & USBNC_USB_OTGn_CTRL_WIE_MASK) + { + usb_host_instance_t *hostPointer = (usb_host_instance_t *)ehciInstance->hostHandle; + ehciInstance->registerNcBase->USB_OTGn_CTRL &= ~USBNC_USB_OTGn_CTRL_WIE_MASK; + hostPointer->deviceCallback(hostPointer->suspendedDevice, NULL, + kUSB_HostEventDetectResume); /* call host callback function */ + + while (!(ehciInstance->registerNcBase->USB_OTGn_PHY_CTRL_0 & USBNC_USB_OTGn_PHY_CTRL_0_UTMI_CLK_VLD_MASK)) + { + } + + if (ehciInstance->ehciIpBase->PORTSC1 & USBHS_PORTSC1_CCS_MASK) + { + USB_HostEhciStartAsync(ehciInstance); + USB_HostEhciStartPeriodic(ehciInstance); + } + ehciInstance->ehciIpBase->USBCMD |= (USBHS_USBCMD_RS_MASK); + if ((kBus_EhciSuspended == ehciInstance->busSuspendStatus)) + { + /* ehciInstance->ehciIpBase->PORTSC1 |= USBHS_PORTSC1_FPR_MASK; */ + ehciInstance->busSuspendStatus = kBus_EhciStartResume; + } + else + { + } + } + else + { + } +#else + if (ehciInstance->ehciIpBase->USBGENCTRL & USBHS_USBGENCTRL_WU_IE_MASK) + { + usb_host_instance_t *hostPointer = (usb_host_instance_t *)ehciInstance->hostHandle; + + hostPointer->deviceCallback(hostPointer->suspendedDevice, NULL, + kUSB_HostEventDetectResume); /* call host callback function */ + + while (!(USBPHY->PLL_SIC & USBPHY_PLL_SIC_PLL_LOCK_MASK)) + { + } + ehciInstance->ehciIpBase->USBGENCTRL |= USBHS_USBGENCTRL_WU_INT_CLR_MASK; + ehciInstance->ehciIpBase->USBGENCTRL &= ~USBHS_USBGENCTRL_WU_IE_MASK; + if (ehciInstance->ehciIpBase->PORTSC1 & USBHS_PORTSC1_CCS_MASK) + { + USB_HostEhciStartAsync(ehciInstance); + USB_HostEhciStartPeriodic(ehciInstance); + } + ehciInstance->ehciIpBase->USBCMD |= (USBHS_USBCMD_RS_MASK); + if ((kBus_EhciSuspended == ehciInstance->busSuspendStatus)) + { + ehciInstance->busSuspendStatus = kBus_EhciStartResume; + /*ehciInstance->ehciIpBase->PORTSC1 |= USBHS_PORTSC1_FPR_MASK; */ + } + else + { + } + } + else + { + } +#endif /* FSL_FEATURE_SOC_USBNC_COUNT */ + +#endif /* USB_HOST_CONFIG_LOW_POWER_MODE */ + + interruptStatus = ehciInstance->ehciIpBase->USBSTS; + interruptStatus &= ehciInstance->ehciIpBase->USBINTR; + while (interruptStatus) /* there are usb interrupts */ + { + ehciInstance->ehciIpBase->USBSTS = interruptStatus; /* clear interrupt */ + + if (interruptStatus & USBHS_USBSTS_SRI_MASK) /* SOF interrupt */ + { + } + + if (interruptStatus & USBHS_USBSTS_SEI_MASK) /* system error interrupt */ + { + } + + if ((interruptStatus & USBHS_USBSTS_UI_MASK) || + (interruptStatus & USBHS_USBSTS_UEI_MASK)) /* USB interrupt or USB error interrupt */ + { + USB_OsaEventSet(ehciInstance->taskEventHandle, EHCI_TASK_EVENT_TRANSACTION_DONE); + } + + if (interruptStatus & USBHS_USBSTS_PCI_MASK) /* port change detect interrupt */ + { +#if ((defined(USB_HOST_CONFIG_LOW_POWER_MODE)) && (USB_HOST_CONFIG_LOW_POWER_MODE > 0U)) + usb_host_instance_t *hostPointer = (usb_host_instance_t *)ehciInstance->hostHandle; + if (ehciInstance->ehciIpBase->PORTSC1 & USBHS_PORTSC1_FPR_MASK) + { + if (kBus_EhciStartSuspend == ehciInstance->busSuspendStatus) + { + if (ehciInstance->ehciIpBase->PORTSC1 & USBHS_PORTSC1_CCS_MASK) + { + USB_HostEhciStartAsync(ehciInstance); + USB_HostEhciStartPeriodic(ehciInstance); + } + hostPointer->deviceCallback(hostPointer->suspendedDevice, NULL, + kUSB_HostEventNotSuspended); /* call host callback function */ + hostPointer->suspendedDevice = NULL; + ehciInstance->busSuspendStatus = kBus_EhciIdle; + ehciInstance->ehciIpBase->USBINTR &= ~(USBHS_USBINTR_TIE1_MASK); + } + else + { + } + } +#endif + USB_OsaEventSet(ehciInstance->taskEventHandle, EHCI_TASK_EVENT_PORT_CHANGE); + } + + if (interruptStatus & USBHS_USBSTS_TI0_MASK) /* timer 0 interrupt */ + { + USB_OsaEventSet(ehciInstance->taskEventHandle, EHCI_TASK_EVENT_TIMER0); + } + +#if ((defined(USB_HOST_CONFIG_LOW_POWER_MODE)) && (USB_HOST_CONFIG_LOW_POWER_MODE > 0U)) + if (interruptStatus & USBHS_USBSTS_TI1_MASK) /* timer 1 interrupt */ + { + USB_OsaEventSet(ehciInstance->taskEventHandle, EHCI_TASK_EVENT_TIMER1); + } +#endif + + interruptStatus = ehciInstance->ehciIpBase->USBSTS; + interruptStatus &= ehciInstance->ehciIpBase->USBINTR; + } +} + +#endif /* USB_HOST_CONFIG_EHCI */ diff --git a/bsp/imxrt1052-evk/drivers/usb/host/usb_host_ehci.h b/bsp/imxrt1052-evk/drivers/usb/host/usb_host_ehci.h new file mode 100644 index 0000000000000000000000000000000000000000..162d6576cd9aa864ed75d143a07d5685366a8dd3 --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/usb/host/usb_host_ehci.h @@ -0,0 +1,499 @@ +/* + * Copyright (c) 2015, Freescale Semiconductor, Inc. + * Copyright 2016 NXP + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * o Redistributions of source code must retain the above copyright notice, this list + * of conditions and the following disclaimer. + * + * o Redistributions in binary form must reproduce the above copyright notice, this + * list of conditions and the following disclaimer in the documentation and/or + * other materials provided with the distribution. + * + * o Neither the name of the copyright holder nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#ifndef _USB_HOST_CONTROLLER_EHCI_H_ +#define _USB_HOST_CONTROLLER_EHCI_H_ + +/******************************************************************************* + * KHCI private public structures, enumerations, macros, functions + ******************************************************************************/ + +/******************************************************************************* + * Definitions + ******************************************************************************/ +/* EHCI host macros */ +#define EHCI_HOST_T_INVALID_VALUE (1U) +#define EHCI_HOST_POINTER_TYPE_ITD (0x00U) +#define EHCI_HOST_POINTER_TYPE_QH (0x00000002U) +#define EHCI_HOST_POINTER_TYPE_SITD (0x00000004U) +#define EHCI_HOST_POINTER_TYPE_FSTN (0x00000006U) +#define EHCI_HOST_POINTER_TYPE_MASK (0x00000006U) +#define EHCI_HOST_POINTER_ADDRESS_MASK (0xFFFFFFE0U) +#define EHCI_HOST_PID_OUT (0U) +#define EHCI_HOST_PID_IN (1U) +#define EHCI_HOST_PID_SETUP (2U) + +#define EHCI_HOST_QH_RL_SHIFT (28U) +#define EHCI_HOST_QH_RL_MASK (0xF0000000U) +#define EHCI_HOST_QH_C_SHIFT (27U) +#define EHCI_HOST_QH_MAX_PACKET_LENGTH_SHIFT (16U) +#define EHCI_HOST_QH_MAX_PACKET_LENGTH_MASK (0x07FF0000U) +#define EHCI_HOST_QH_H_SHIFT (15U) +#define EHCI_HOST_QH_DTC_SHIFT (14U) +#define EHCI_HOST_QH_EPS_SHIFT (12U) +#define EHCI_HOST_QH_ENDPT_SHIFT (8U) +#define EHCI_HOST_QH_I_SHIFT (7U) +#define EHCI_HOST_QH_DEVICE_ADDRESS_SHIFT (0U) +#define EHCI_HOST_QH_MULT_SHIFT (30U) +#define EHCI_HOST_QH_PORT_NUMBER_SHIFT (23U) +#define EHCI_HOST_QH_HUB_ADDR_SHIFT (16U) +#define EHCI_HOST_QH_UFRAME_CMASK_SHIFT (8U) +#define EHCI_HOST_QH_UFRAME_SMASK_SHIFT (0U) +#define EHCI_HOST_QH_STATUS_ERROR_MASK (0x0000007EU) +#define EHCI_HOST_QH_STATUS_NOSTALL_ERROR_MASK (0x0000003EU) + +#define EHCI_HOST_QTD_DT_SHIFT (31U) +#define EHCI_HOST_QTD_DT_MASK (0x80000000U) +#define EHCI_HOST_QTD_TOTAL_BYTES_SHIFT (16U) +#define EHCI_HOST_QTD_TOTAL_BYTES_MASK (0x7FFF0000U) +#define EHCI_HOST_QTD_IOC_MASK (0x00008000U) +#define EHCI_HOST_QTD_C_PAGE_SHIFT (12U) +#define EHCI_HOST_QTD_CERR_SHIFT (10U) +#define EHCI_HOST_QTD_CERR_MAX_VALUE (0x00000003U) +#define EHCI_HOST_QTD_PID_CODE_SHIFT (8U) +#define EHCI_HOST_QTD_STATUS_SHIFT (0U) +#define EHCI_HOST_QTD_CURRENT_OFFSET_MASK (0x00000FFFU) +#define EHCI_HOST_QTD_BUFFER_POINTER_SHIFT (12U) +#define EHCI_HOST_QTD_STATUS_ACTIVE_MASK (0x00000080U) +#define EHCI_HOST_QTD_STATUS_MASK (0x000000ffU) +#define EHCI_HOST_QTD_STATUS_ERROR_MASK (0x0000007EU) +#define EHCI_HOST_QTD_STATUS_STALL_ERROR_MASK (0x00000040U) + +#define EHCI_HOST_ITD_STATUS_ACTIVE_MASK (0x80000000U) +#define EHCI_HOST_ITD_TRANSACTION_LEN_SHIFT (16U) +#define EHCI_HOST_ITD_TRANSACTION_LEN_MASK (0x0FFF0000U) +#define EHCI_HOST_ITD_IOC_SHIFT (15U) +#define EHCI_HOST_ITD_PG_SHIFT (12U) +#define EHCI_HOST_ITD_TRANSACTION_OFFSET_SHIFT (0U) +#define EHCI_HOST_ITD_TRANSACTION_OFFSET_MASK (0x00000FFFU) +#define EHCI_HOST_ITD_BUFFER_POINTER_SHIFT (12U) +#define EHCI_HOST_ITD_ENDPT_SHIFT (8U) +#define EHCI_HOST_ITD_DEVICE_ADDRESS_SHIFT (0U) +#define EHCI_HOST_ITD_MAX_PACKET_SIZE_SHIFT (0U) +#define EHCI_HOST_ITD_MULT_SHIFT (0U) +#define EHCI_HOST_ITD_DIRECTION_SHIFT (11U) + +#define EHCI_HOST_SITD_STATUS_ACTIVE_MASK (0x00000080U) +#define EHCI_HOST_SITD_DIRECTION_SHIFT (31U) +#define EHCI_HOST_SITD_PORT_NUMBER_SHIFT (24U) +#define EHCI_HOST_SITD_HUB_ADDR_SHIFT (16U) +#define EHCI_HOST_SITD_ENDPT_SHIFT (8U) +#define EHCI_HOST_SITD_DEVICE_ADDRESS_SHIFT (0U) +#define EHCI_HOST_SITD_CMASK_SHIFT (8U) +#define EHCI_HOST_SITD_SMASK_SHIFT (0U) +#define EHCI_HOST_SITD_TOTAL_BYTES_SHIFT (16U) +#define EHCI_HOST_SITD_TOTAL_BYTES_MASK (0x03FF0000U) +#define EHCI_HOST_SITD_TP_SHIFT (3U) +#define EHCI_HOST_SITD_TCOUNT_SHIFT (0U) +#define EHCI_HOST_SITD_IOC_SHIFT (31U) + +/* register related MACROs */ +#define EHCI_PORTSC1_W1_BITS (0x0000002AU) +#define EHCI_MAX_UFRAME_VALUE (0x00003FFFU) + +/* task event */ +#define EHCI_TASK_EVENT_DEVICE_ATTACH (0x01U) +#define EHCI_TASK_EVENT_TRANSACTION_DONE (0x02U) +#define EHCI_TASK_EVENT_DEVICE_DETACH (0x04U) +#define EHCI_TASK_EVENT_PORT_CHANGE (0x08U) +#define EHCI_TASK_EVENT_TIMER0 (0x10U) +#define EHCI_TASK_EVENT_TIMER1 (0x20U) + +#define USB_HostEhciLock() USB_OsaMutexLock(ehciInstance->ehciMutex) +#define USB_HostEhciUnlock() USB_OsaMutexUnlock(ehciInstance->ehciMutex) + +/******************************************************************************* + * KHCI driver public structures, enumerations, macros, functions + ******************************************************************************/ + +/*! + * @addtogroup usb_host_controller_ehci + * @{ + */ + +/*! @brief The maximum supported ISO pipe number */ +#define USB_HOST_EHCI_ISO_NUMBER USB_HOST_CONFIG_EHCI_MAX_ITD +/*! @brief Check the port connect state delay if the state is unstable */ +#define USB_HOST_EHCI_PORT_CONNECT_DEBOUNCE_DELAY (101U) +/*! @brief Delay for port reset */ +#define USB_HOST_EHCI_PORT_RESET_DELAY (11U) +/*! @brief The SITD inserts a frame interval for putting more SITD continuously. + * There is an interval when an application sends two FS/LS ISO transfers. + * When the interval is less than the macro, the two transfers are continuous in the frame list. Otherwise, the two + * transfers + * are not continuous. + * For example: + * - Use case 1: when inserting the SITD first, the inserted frame = the current frame value + this MACRO value. + * - Use case 2: when inserting SITD is not first, choose between the last inserted frame value and the + * current frame value according to the following criteria: + * If the interval is less than the MACRO value, the new SITD is continuous with the last SITD. + * If not, the new SITD inserting frame = the current frame value + this MACRO value. + */ +#define USB_HOST_EHCI_ISO_BOUNCE_FRAME_NUMBER (2U) +/*! @brief The ITD inserts a micro-frame interval for putting more ITD continuously. + * There is an interval when an application sends two HS ISO transfers. + * When the interval is less than the macro, the two transfers are continuous in the frame list. Otherwise, the two + * transfers + * are not continuous. + * For example: + * - Use case 1: when inserting ITD first, the inserted micro-frame = the current micro-frame value + this MACRO value. + * - Use case 2: when inserting ITD is not first, choose between the last inserted micro-frame value and the + * current micro-frame value according to the following criteria: + * If the interval is less than this MACRO value, the new ITD is continuous with the last ITD. + * If not, the new ITD inserting micro-frame = the current micro-frame value + this MACRO value. + */ +#define USB_HOST_EHCI_ISO_BOUNCE_UFRAME_NUMBER (16U) +/*! @brief Control or bulk transaction timeout value (unit: 100 ms) */ +#define USB_HOST_EHCI_CONTROL_BULK_TIME_OUT_VALUE (20U) + +#if ((defined(USB_HOST_CONFIG_LOW_POWER_MODE)) && (USB_HOST_CONFIG_LOW_POWER_MODE > 0U)) +typedef enum _bus_ehci_suspend_request_state +{ + kBus_EhciIdle = 0U, + kBus_EhciStartSuspend, + kBus_EhciSuspended, + kBus_EhciStartResume, +} bus_ehci_suspend_request_state_t; +#endif + +/*! @brief EHCI state for device attachment/detachment. */ +typedef enum _host_ehci_device_state_ +{ + kEHCIDevicePhyAttached = 1, /*!< Device is physically attached */ + kEHCIDeviceAttached, /*!< Device is attached and initialized */ + kEHCIDeviceDetached, /*!< Device is detached and de-initialized */ +} host_ehci_device_state_t; + +/*! @brief EHCI pipe structure */ +typedef struct _usb_host_ehci_pipe +{ + usb_host_pipe_t pipeCommon; /*!< Common pipe information */ + void *ehciQh; /*!< Control/bulk/interrupt: QH; ISO: usb_host_ehci_iso_t*/ + + /* bandwidth */ + uint16_t uframeInterval; /*!< Micro-frame interval value */ + uint16_t startFrame; /*!< + Bandwidth start frame: its value is from 0 to frame_list. + */ + uint16_t dataTime; /*!< + Bandwidth time value: + - When the host works as HS: it's the data bandwidth value. + - When the host works as FS/LS: + - For FS/LS device, it's the data bandwidth value when transferring the data by FS/LS. + - For HS device, it's the data bandwidth value when transferring the data by HS. + */ + uint16_t startSplitTime; /*!< + Start splitting the bandwidth time value: + - When the host works as HS, it is the start split bandwidth value. + */ + uint16_t completeSplitTime; /*!< + Complete splitting the bandwidth time value: + - When host works as HS, it is the complete split bandwidth value. + */ + uint8_t startUframe; /*!< + Bandwidth start micro-frame: its value is from 0 to 7. + */ + uint8_t uframeSmask; /*!< + Start micro-frame. + - When host works as an HS: + - For FS/LS device, it's the interrupt or ISO transfer start-split mask. + - For HS device, it's the interrupt transfer start micro-frame mask. + - When host works as FS/LS, it's the interrupt and ISO start micro-frame mask + */ + uint8_t uframeCmask; /*!< + Complete micro-frame + - When host works as HS: + - For FS/LS device, it's the interrupt or ISO transfer complete-split mask. + */ +} usb_host_ehci_pipe_t; + +/*! @brief EHCI QH structure. See the USB EHCI specification */ +typedef struct _usb_host_ehci_qh +{ + uint32_t horizontalLinkPointer; /*!< QH specification filed, queue head a horizontal link pointer */ + uint32_t + staticEndpointStates[2]; /*!< QH specification filed, static endpoint state and configuration information */ + uint32_t currentQtdPointer; /*!< QH specification filed, current qTD pointer */ + uint32_t nextQtdPointer; /*!< QH specification filed, next qTD pointer */ + uint32_t alternateNextQtdPointer; /*!< QH specification filed, alternate next qTD pointer */ + uint32_t + transferOverlayResults[6]; /*!< QH specification filed, transfer overlay configuration and transfer results */ + + /* reserved space */ + usb_host_ehci_pipe_t *ehciPipePointer; /*!< EHCI pipe pointer */ + usb_host_transfer_t *ehciTransferHead; /*!< Transfer list head on this QH */ + usb_host_transfer_t *ehciTransferTail; /*!< Transfer list tail on this QH */ + uint16_t timeOutValue; /*!< Its maximum value is USB_HOST_EHCI_CONTROL_BULK_TIME_OUT_VALUE. When the value is + zero, the transfer times out. */ + uint16_t timeOutLabel; /*!< It's used to judge the transfer timeout. The EHCI driver maintain the value */ +} usb_host_ehci_qh_t; + +/*! @brief EHCI QTD structure. See the USB EHCI specification. */ +typedef struct _usb_host_ehci_qtd +{ + uint32_t nextQtdPointer; /*!< QTD specification filed, the next QTD pointer */ + uint32_t alternateNextQtdPointer; /*!< QTD specification filed, alternate next QTD pointer */ + uint32_t transferResults[2]; /*!< QTD specification filed, transfer results fields */ + uint32_t bufferPointers[4]; /*!< QTD specification filed, transfer buffer fields */ +} usb_host_ehci_qtd_t; + +/*! @brief EHCI ITD structure. See the USB EHCI specification. */ +typedef struct _usb_host_ehci_itd +{ + uint32_t nextLinkPointer; /*!< ITD specification filed, the next linker pointer */ + uint32_t transactions[8]; /*!< ITD specification filed, transactions information */ + uint32_t bufferPointers[7]; /*!< ITD specification filed, transfer buffer fields */ + + /* add space */ + struct _usb_host_ehci_itd *nextItdPointer; /*!< Next ITD pointer */ + uint32_t frameEntryIndex; /*!< The ITD inserted frame value */ + uint32_t reserved[6]; /*!< Reserved fields for 32 bytes align */ +} usb_host_ehci_itd_t; + +/*! @brief EHCI SITD structure. See the USB EHCI specification. */ +typedef struct _usb_host_ehci_sitd +{ + uint32_t nextLinkPointer; /*!< SITD specification filed, the next linker pointer */ + uint32_t endpointStates[2]; /*!< SITD specification filed, endpoint configuration information */ + uint32_t transferResults[3]; /*!< SITD specification filed, transfer result fields */ + uint32_t backPointer; /*!< SITD specification filed, back pointer */ + + /* reserved space */ + uint16_t frameEntryIndex; /*!< The SITD inserted frame value */ + uint8_t nextSitdIndex; /*!< The next SITD index; Get the next SITD pointer through adding base address with the + index. 0xFF means invalid. */ + uint8_t reserved; /*!< Reserved fields for 32 bytes align */ +} usb_host_ehci_sitd_t; + +/*! @brief EHCI ISO structure; An ISO pipe has an instance of this structure to keep the ISO pipe-specific information. + */ +typedef struct _usb_host_ehci_iso +{ + struct _usb_host_ehci_iso *next; /*!< Next instance pointer */ + usb_host_pipe_t *ehciPipePointer; /*!< This ISO's EHCI pipe pointer */ + usb_host_transfer_t *ehciTransferHead; /*!< Transfer list head on this ISO pipe */ + usb_host_transfer_t *ehciTransferTail; /*!< Transfer list head on this ISO pipe */ + + uint16_t lastLinkFrame; /*!< It means that the inserted frame for ISO ITD/SITD. 0xFFFF is invalid. For ITD, it is a + micro-frame value. For SITD, it is a frame value */ +} usb_host_ehci_iso_t; + +/*! @brief EHCI instance structure */ +typedef struct _usb_host_ehci_instance +{ + usb_host_handle hostHandle; /*!< Related host handle*/ + uint32_t *ehciUnitBase; /*!< Keep the QH/QTD/ITD/SITD buffer pointer for release*/ + uint8_t *ehciFrameList; /*!< The frame list of the current ehci instance*/ + usb_host_ehci_qh_t *ehciQhList; /*!< Idle QH list pointer */ + usb_host_ehci_qtd_t *ehciQtdHead; /*!< Idle QTD list pointer head */ + usb_host_ehci_qtd_t *ehciQtdTail; /*!< Idle QTD list pointer tail (recently used qTD will be used)*/ + usb_host_ehci_itd_t *ehciItdList; /*!< Idle ITD list pointer*/ + usb_host_ehci_sitd_t *ehciSitdIndexBase; /*!< SITD buffer's start pointer*/ + usb_host_ehci_sitd_t *ehciSitdList; /*!< Idle SITD list pointer*/ + usb_host_ehci_iso_t *ehciIsoList; /*!< Idle ISO list pointer*/ + USBHS_Type *ehciIpBase; /*!< EHCI IP base address*/ + usb_host_ehci_qh_t *shedFirstQh; /*!< First async QH*/ + usb_host_ehci_pipe_t *ehciPipeIndexBase; /*!< Pipe buffer's start pointer*/ + usb_host_ehci_pipe_t *ehciPipeList; /*!< Idle pipe list pointer*/ + usb_host_ehci_pipe_t *ehciRunningPipeList; /*!< Running pipe list pointer*/ + usb_osa_mutex_handle ehciMutex; /*!< EHCI mutex*/ + usb_osa_event_handle taskEventHandle; /*!< EHCI task event*/ +#if ((defined(USB_HOST_CONFIG_LOW_POWER_MODE)) && (USB_HOST_CONFIG_LOW_POWER_MODE > 0U)) + uint64_t matchTick; + USBPHY_Type *registerPhyBase; /*!< The base address of the PHY register */ +#if (defined(FSL_FEATURE_SOC_USBNC_COUNT) && (FSL_FEATURE_SOC_USBNC_COUNT > 0U)) + USBNC_Type *registerNcBase; /*!< The base address of the USBNC register */ +#endif + +#endif + uint8_t controllerId; /*!< EHCI controller ID*/ + uint8_t deviceAttached; /*!< Device attach/detach state, see #host_ehci_device_state_t */ + uint8_t firstDeviceSpeed; /*!< The first device's speed, the controller's work speed*/ + uint8_t ehciItdNumber; /*!< Idle ITD number*/ + uint8_t ehciSitdNumber; /*!< Idle SITD number*/ + uint8_t ehciQtdNumber; /*!< Idle QTD number*/ +#if ((defined(USB_HOST_CONFIG_LOW_POWER_MODE)) && (USB_HOST_CONFIG_LOW_POWER_MODE > 0U)) + bus_ehci_suspend_request_state_t busSuspendStatus; /*!< Bus Suspend Status*/ +#endif +} usb_host_ehci_instance_t; + +/*! @brief EHCI data structure */ +typedef struct _usb_host_ehci_data +{ +#if ((defined(USB_HOST_CONFIG_EHCI_MAX_QH)) && (USB_HOST_CONFIG_EHCI_MAX_QH > 0U)) + usb_host_ehci_qh_t ehciQh[USB_HOST_CONFIG_EHCI_MAX_QH]; /*!< Idle QH list array*/ +#endif +#if ((defined(USB_HOST_CONFIG_EHCI_MAX_QTD)) && (USB_HOST_CONFIG_EHCI_MAX_QTD > 0U)) + usb_host_ehci_qtd_t ehciQtd[USB_HOST_CONFIG_EHCI_MAX_QTD]; /*!< Idle QTD list array*/ +#endif +#if ((defined(USB_HOST_CONFIG_EHCI_MAX_ITD)) && (USB_HOST_CONFIG_EHCI_MAX_ITD > 0U)) + usb_host_ehci_itd_t ehciItd[USB_HOST_CONFIG_EHCI_MAX_ITD]; /*!< Idle ITD list array*/ +#endif +#if ((defined(USB_HOST_CONFIG_EHCI_MAX_SITD)) && (USB_HOST_CONFIG_EHCI_MAX_SITD > 0U)) + usb_host_ehci_sitd_t ehciSitd[USB_HOST_CONFIG_EHCI_MAX_SITD]; /*!< Idle SITD list array*/ +#endif +#if ((defined(USB_HOST_EHCI_ISO_NUMBER)) && (USB_HOST_EHCI_ISO_NUMBER > 0U)) + usb_host_ehci_iso_t ehciIso[USB_HOST_EHCI_ISO_NUMBER]; /*!< Idle ISO list array*/ +#endif +#if ((defined(USB_HOST_CONFIG_MAX_PIPES)) && (USB_HOST_CONFIG_MAX_PIPES > 0U)) + usb_host_ehci_pipe_t ehciPipe[USB_HOST_CONFIG_MAX_PIPES]; /*!< Idle pipe list array*/ +#endif +} usb_host_ehci_data_t; + +/******************************************************************************* + * API + ******************************************************************************/ + +#ifdef __cplusplus +extern "C" { +#endif +/*! + * @name USB host EHCI APIs + * @{ + */ + +/*! + * @brief Creates the USB host EHCI instance. + * + * This function initializes the USB host EHCI controller driver. + * + * @param[in] controllerId The controller ID of the USB IP. Please refer to the enumeration usb_controller_index_t. + * @param[in] upperLayerHandle The host level handle. + * @param[out] controllerHandle return the controller instance handle. + * + * @retval kStatus_USB_Success The host is initialized successfully. + * @retval kStatus_USB_AllocFail Allocating memory failed. + * @retval kStatus_USB_Error Host mutex create fail, KHCI/EHCI mutex or KHCI/EHCI event create fail. + * Or, KHCI/EHCI IP initialize fail. + */ +extern usb_status_t USB_HostEhciCreate(uint8_t controllerId, + usb_host_handle upperLayerHandle, + usb_host_controller_handle *controllerHandle); + +/*! + * @brief Destroys the USB host EHCI instance. + * + * This function de-initializes The USB host EHCI controller driver. + * + * @param[in] controllerHandle The controller handle. + * + * @retval kStatus_USB_Success The host is initialized successfully. + */ +extern usb_status_t USB_HostEhciDestory(usb_host_controller_handle controllerHandle); + +/*! + * @brief Opens the USB host pipe. + * + * This function opens a pipe according to the pipe_init_ptr parameter. + * + * @param[in] controllerHandle The controller handle. + * @param[out] pipeHandle The pipe handle pointer, it is used to return the pipe handle. + * @param[in] pipeInit It is used to initialize the pipe. + * + * @retval kStatus_USB_Success The host is initialized successfully. + * @retval kStatus_USB_Error There is no idle pipe. + * Or, there is no idle QH for EHCI. + * Or, bandwidth allocate fail for EHCI. + */ +extern usb_status_t USB_HostEhciOpenPipe(usb_host_controller_handle controllerHandle, + usb_host_pipe_handle *pipeHandle, + usb_host_pipe_init_t *pipeInit); + +/*! + * @brief Closes the USB host pipe. + * + * This function closes a pipe and releases related resources. + * + * @param[in] controllerHandle The controller handle. + * @param[in] pipeHandle The closing pipe handle. + * + * @retval kStatus_USB_Success The host is initialized successfully. + */ +extern usb_status_t USB_HostEhciClosePipe(usb_host_controller_handle controllerHandle, usb_host_pipe_handle pipeHandle); + +/*! + * @brief Sends data to the pipe. + * + * This function requests to send the transfer to the specified pipe. + * + * @param[in] controllerHandle The controller handle. + * @param[in] pipeHandle The sending pipe handle. + * @param[in] transfer The transfer information. + * + * @retval kStatus_USB_Success Sent successfully. + * @retval kStatus_USB_LackSwapBuffer There is no swap buffer for KHCI. + * @retval kStatus_USB_Error There is no idle QTD/ITD/SITD for EHCI. + */ +extern usb_status_t USB_HostEhciWritePipe(usb_host_controller_handle controllerHandle, + usb_host_pipe_handle pipeHandle, + usb_host_transfer_t *transfer); + +/*! + * @brief Receives data from the pipe. + * + * This function requests to receive the transfer from the specified pipe. + * + * @param[in] controllerHandle The controller handle. + * @param[in] pipeHandle The receiving pipe handle. + * @param[in] transfer The transfer information. + + * @retval kStatus_USB_Success Send successfully. + * @retval kStatus_USB_LackSwapBuffer There is no swap buffer for KHCI. + * @retval kStatus_USB_Error There is no idle QTD/ITD/SITD for EHCI. + */ +extern usb_status_t USB_HostEhciReadpipe(usb_host_controller_handle controllerHandle, + usb_host_pipe_handle pipeHandle, + usb_host_transfer_t *transfer); + +/*! + * @brief Controls the EHCI. + * + * This function controls the EHCI. + * + * @param[in] controllerHandle The controller handle. + * @param[in] ioctlEvent See enumeration host_bus_control_t. + * @param[in] ioctlParam The control parameter. + * + * @retval kStatus_USB_Success Cancel successfully. + * @retval kStatus_USB_InvalidHandle The controllerHandle is a NULL pointer. + */ +extern usb_status_t USB_HostEhciIoctl(usb_host_controller_handle controllerHandle, + uint32_t ioctlEvent, + void *ioctlParam); + +/*! @}*/ + +#ifdef __cplusplus +} +#endif + +/*! @}*/ + +#endif /* _USB_HOST_CONTROLLER_EHCI_H_ */ diff --git a/bsp/imxrt1052-evk/drivers/usb/host/usb_host_hci.c b/bsp/imxrt1052-evk/drivers/usb/host/usb_host_hci.c new file mode 100644 index 0000000000000000000000000000000000000000..927bf8bd9c398b7973c779b07709916ad2af8004 --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/usb/host/usb_host_hci.c @@ -0,0 +1,1052 @@ +/* + * Copyright (c) 2015 - 2016, Freescale Semiconductor, Inc. + * Copyright 2016 NXP + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * o Redistributions of source code must retain the above copyright notice, this list + * of conditions and the following disclaimer. + * + * o Redistributions in binary form must reproduce the above copyright notice, this + * list of conditions and the following disclaimer in the documentation and/or + * other materials provided with the distribution. + * + * o Neither the name of the copyright holder nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#include +#include "fsl_common.h" +#include "usb_host.h" +#include "usb_host_hci.h" +#include "usb_host_devices.h" +#include "fsl_device_registers.h" +#if ((defined USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE) && (USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE)) +#include "fsl_cache.h" +#endif + +/******************************************************************************* + * Definitions + ******************************************************************************/ + +/******************************************************************************* + * Prototypes + ******************************************************************************/ +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + +extern uint32_t USB_HostHubGetTotalThinkTime(usb_host_handle hostHandle, uint8_t parentHubNo); + +extern usb_status_t USB_HostHubSuspendDevice(usb_host_handle hostHandle); + +extern usb_status_t USB_HostHubResumeDevice(usb_host_handle hostHandle); +#endif + +/*! + * @brief get the idle host instance. + * + * @return host instance pointer. + */ +static usb_host_instance_t *USB_HostGetInstance(void); + +/*! + * @brief release host instance. + * + * @param hostInstance host instance pointer. + */ +static void USB_HostReleaseInstance(usb_host_instance_t *hostInstance); + +/*! + * @brief get the khci/ehci interface. + * + * @param controllerId controller id. + * @param controllerTable return controller interface structure. + */ +static void USB_HostGetControllerInterface(uint8_t controllerId, + const usb_host_controller_interface_t **controllerTable); + +#if ((defined USB_HOST_CONFIG_COMPLIANCE_TEST) && (USB_HOST_CONFIG_COMPLIANCE_TEST)) +#if ((defined USB_HOST_CONFIG_EHCI) && (USB_HOST_CONFIG_EHCI)) +extern void USB_HostEhciTestModeInit(usb_device_handle devHandle); +#endif /* USB_HOST_CONFIG_COMPLIANCE_TEST */ +#if ((defined USB_HOST_CONFIG_IP3516HS) && (USB_HOST_CONFIG_IP3516HS)) +extern void USB_HostIp3516HsTestModeInit(usb_device_handle devHandle); +#endif /* USB_HOST_CONFIG_COMPLIANCE_TEST */ +#endif /* USB_HOST_CONFIG_EHCI */ + +/******************************************************************************* + * Variables + ******************************************************************************/ +/*! @brief USB host instance resource */ +usb_host_instance_t g_UsbHostInstance[USB_HOST_CONFIG_MAX_HOST]; + +#if ((defined USB_HOST_CONFIG_EHCI) && (USB_HOST_CONFIG_EHCI)) +#include "usb_host_ehci.h" +static const usb_host_controller_interface_t s_EhciInterface = \ +{ + USB_HostEhciCreate, USB_HostEhciDestory, USB_HostEhciOpenPipe, USB_HostEhciClosePipe, + USB_HostEhciWritePipe, USB_HostEhciReadpipe, USB_HostEhciIoctl, +}; +#endif /* USB_HOST_CONFIG_EHCI */ + +#if ((defined USB_HOST_CONFIG_KHCI) && (USB_HOST_CONFIG_KHCI)) +#include "usb_host_khci.h" +static const usb_host_controller_interface_t s_KhciInterface = \ +{ + USB_HostKhciCreate, USB_HostKhciDestory, USB_HostKhciOpenPipe, USB_HostKhciClosePipe, + USB_HostKhciWritePipe, USB_HostKhciReadpipe, USB_HostKciIoctl, +}; +#endif /* USB_HOST_CONFIG_KHCI */ + +#if ((defined USB_HOST_CONFIG_OHCI) && (USB_HOST_CONFIG_OHCI > 0U)) +#include "usb_host_ohci.h" +static const usb_host_controller_interface_t s_OhciInterface = \ +{ + USB_HostOhciCreate, USB_HostOhciDestory, USB_HostOhciOpenPipe, USB_HostOhciClosePipe, + USB_HostOhciWritePipe, USB_HostOhciReadPipe, USB_HostOhciIoctl, +}; +#endif /* USB_HOST_CONFIG_OHCI */ + +#if ((defined USB_HOST_CONFIG_IP3516HS) && (USB_HOST_CONFIG_IP3516HS > 0U)) +#include "usb_host_ip3516hs.h" +static const usb_host_controller_interface_t s_Ip3516HsInterface = \ +{ + USB_HostIp3516HsCreate, USB_HostIp3516HsDestory, USB_HostIp3516HsOpenPipe, USB_HostIp3516HsClosePipe, + USB_HostIp3516HsWritePipe, USB_HostIp3516HsReadPipe, USB_HostIp3516HsIoctl, +}; +#endif /* USB_HOST_CONFIG_IP3516HS */ + +USB_DMA_NONINIT_DATA_ALIGN(USB_DATA_ALIGN_SIZE) static uint8_t s_Setupbuffer[USB_HOST_CONFIG_MAX_HOST][USB_HOST_CONFIG_MAX_TRANSFERS][USB_DATA_ALIGN_SIZE_MULTIPLE(8)]; +/******************************************************************************* +* Code +******************************************************************************/ + +#if ((defined USB_HOST_CONFIG_COMPLIANCE_TEST) && (USB_HOST_CONFIG_COMPLIANCE_TEST)) +/*FUNCTION*---------------------------------------------------------------- +* +* Function Name : usb_test_mode_init +* Returned Value : None +* Comments : +* This function is called by common class to initialize the class driver. It +* is called in response to a select interface call by application +* +*END*--------------------------------------------------------------------*/ +usb_status_t USB_HostTestModeInit(usb_device_handle deviceHandle) +{ +#if (((defined USB_HOST_CONFIG_EHCI) && (USB_HOST_CONFIG_EHCI)) || \ + ((defined USB_HOST_CONFIG_IP3516HS) && (USB_HOST_CONFIG_IP3516HS))) + usb_host_device_instance_t *deviceInstance = (usb_host_device_instance_t *)deviceHandle; + usb_host_instance_t *hostInstance = (usb_host_instance_t *)deviceInstance->hostHandle; +#endif + uint32_t productId; + uint32_t vendorId; + + usb_echo("usb host test init\r\n"); + USB_HostHelperGetPeripheralInformation(deviceHandle, kUSB_HostGetDevicePID, &productId); + USB_HostHelperGetPeripheralInformation(deviceHandle, kUSB_HostGetDeviceVID, &vendorId); + usb_echo(" vendor id :0x%x product id:0x%x \r\n", vendorId, productId); + + if ((productId != 0x0200U) && (productId != 0x0101) && (productId != 0x0102) && (productId != 0x0103) && + (productId != 0x0104) && (productId != 0x0105) && (productId != 0x0106) && (productId != 0x0107) && + (productId != 0x0108)) + { + usb_echo("Unsupported Device\r\n"); + } + + if (productId == 0x0200U) + { + usb_echo("PET test device attached\r\n"); + } + else + { +#if ((defined USB_HOST_CONFIG_EHCI) && (USB_HOST_CONFIG_EHCI)) + if (hostInstance->controllerTable == &s_EhciInterface) + { + USB_HostEhciTestModeInit(deviceHandle); + } +#elif((defined USB_HOST_CONFIG_IP3516HS) && (USB_HOST_CONFIG_IP3516HS)) + if (hostInstance->controllerTable == &s_Ip3516HsInterface) + { + USB_HostIp3516HsTestModeInit(deviceHandle); + } +#endif + } + + return kStatus_USB_Success; +} +#endif + +static usb_host_instance_t *USB_HostGetInstance(void) +{ + uint8_t i = 0; + uint32_t index = 0; + USB_OSA_SR_ALLOC(); + USB_OSA_ENTER_CRITICAL(); + for (; i < USB_HOST_CONFIG_MAX_HOST; i++) + { + if (g_UsbHostInstance[i].occupied != 1) + { + uint8_t *buffer = (uint8_t *)&g_UsbHostInstance[i]; + for (uint32_t j = 0U; j < sizeof(usb_host_instance_t); j++) + { + buffer[j] = 0x00U; + } + g_UsbHostInstance[i].occupied = 1; + USB_OSA_EXIT_CRITICAL(); + for (index = 0; index < USB_HOST_CONFIG_MAX_TRANSFERS; ++index) + { + g_UsbHostInstance[i].transferList[index].setupPacket = + (usb_setup_struct_t *)&(s_Setupbuffer[i][index][0]); + } + return &g_UsbHostInstance[i]; + } + } + USB_OSA_EXIT_CRITICAL(); + return NULL; +} + +static void USB_HostReleaseInstance(usb_host_instance_t *hostInstance) +{ + USB_OSA_SR_ALLOC(); + USB_OSA_ENTER_CRITICAL(); + hostInstance->occupied = 0; + USB_OSA_EXIT_CRITICAL(); +} + +static void USB_HostGetControllerInterface(uint8_t controllerId, + const usb_host_controller_interface_t **controllerTable) +{ +#if ((defined USB_HOST_CONFIG_KHCI) && (USB_HOST_CONFIG_KHCI)) + if (controllerId == kUSB_ControllerKhci0) + { + *controllerTable = &s_KhciInterface; + } +#endif /* USB_HOST_CONFIG_KHCI */ + +#if ((defined USB_HOST_CONFIG_EHCI) && (USB_HOST_CONFIG_EHCI)) + if ((controllerId == kUSB_ControllerEhci0) || (controllerId == kUSB_ControllerEhci1)) + { + *controllerTable = &s_EhciInterface; + } +#endif /* USB_HOST_CONFIG_EHCI */ + +#if ((defined USB_HOST_CONFIG_OHCI) && (USB_HOST_CONFIG_OHCI > 0U)) + if (controllerId == kUSB_ControllerOhci0) + { + *controllerTable = &s_OhciInterface; + } +#endif /* USB_HOST_CONFIG_OHCI */ + +#if ((defined USB_HOST_CONFIG_IP3516HS) && (USB_HOST_CONFIG_IP3516HS > 0U)) + if (controllerId == kUSB_ControllerIp3516Hs0) + { + *controllerTable = &s_Ip3516HsInterface; + } +#endif /* USB_HOST_CONFIG_IP3516HS */ +} + +usb_status_t USB_HostInit(uint8_t controllerId, usb_host_handle *hostHandle, host_callback_t callbackFn) +{ + usb_status_t status = kStatus_USB_Success; + usb_host_instance_t *hostInstance = NULL; + usb_host_transfer_t *transferPrev = NULL; + uint8_t i = 0; + + hostInstance = USB_HostGetInstance(); /* get one host instance */ + if (hostInstance == NULL) + { + return kStatus_USB_InvalidHandle; + } + + /* get khci/ehci API table */ + USB_HostGetControllerInterface(controllerId, &hostInstance->controllerTable); + if (hostInstance->controllerTable == NULL) + { + USB_HostReleaseInstance(hostInstance); + return kStatus_USB_ControllerNotFound; + } + + /* judge the controller interface one time at here */ + if ((hostInstance->controllerTable->controllerCreate == NULL) || + (hostInstance->controllerTable->controllerDestory == NULL) || + (hostInstance->controllerTable->controllerOpenPipe == NULL) || + (hostInstance->controllerTable->controllerClosePipe == NULL) || + (hostInstance->controllerTable->controllerWritePipe == NULL) || + (hostInstance->controllerTable->controllerReadPipe == NULL) || + (hostInstance->controllerTable->controllerIoctl == NULL)) + { + return kStatus_USB_Error; + } + + /* HOST instance init*/ + hostInstance->controllerId = controllerId; + hostInstance->deviceCallback = callbackFn; + hostInstance->deviceList = NULL; + if (kStatus_USB_OSA_Success != USB_OsaMutexCreate(&hostInstance->hostMutex)) + { + USB_HostReleaseInstance(hostInstance); +#ifdef HOST_ECHO + usb_echo("host init: create host mutex fail\r\n"); +#endif + return kStatus_USB_Error; + } + + /* initialize transfer list */ + + hostInstance->transferHead = &hostInstance->transferList[0]; + transferPrev = hostInstance->transferHead; + for (i = 1; i < USB_HOST_CONFIG_MAX_TRANSFERS; ++i) + { + transferPrev->next = &hostInstance->transferList[i]; + transferPrev = transferPrev->next; + } + + /* controller create */ + status = + hostInstance->controllerTable->controllerCreate(controllerId, hostInstance, &(hostInstance->controllerHandle)); + if ((status != kStatus_USB_Success) || (hostInstance->controllerHandle == NULL)) + { + USB_OsaMutexDestroy(hostInstance->hostMutex); + USB_HostReleaseInstance(hostInstance); +#ifdef HOST_ECHO + usb_echo("host init: controller init fail\r\n"); +#endif + return kStatus_USB_Error; + } + + *hostHandle = hostInstance; + return kStatus_USB_Success; +} + +usb_status_t USB_HostDeinit(usb_host_handle hostHandle) +{ + usb_status_t status = kStatus_USB_Success; + usb_host_instance_t *hostInstance = (usb_host_instance_t *)hostHandle; + usb_host_device_instance_t *deviceInstance = NULL; + + if (hostHandle == NULL) + { + return kStatus_USB_InvalidHandle; + } + + /* device list detach */ + deviceInstance = (usb_host_device_instance_t *)hostInstance->deviceList; + while (deviceInstance != NULL) + { + deviceInstance = (usb_host_device_instance_t *)hostInstance->deviceList; + USB_HostDetachDeviceInternal(hostHandle, deviceInstance); + } + + /* controller instance destory */ + status = hostInstance->controllerTable->controllerDestory(hostInstance->controllerHandle); + hostInstance->controllerHandle = NULL; + if (status != kStatus_USB_Success) + { +#ifdef HOST_ECHO + usb_echo("host controller destory fail\r\n"); +#endif + } + + /* resource release */ + if (hostInstance->hostMutex) + { + USB_OsaMutexDestroy(hostInstance->hostMutex); + hostInstance->hostMutex = NULL; + } + USB_HostReleaseInstance(hostInstance); + + return status; +} + +usb_status_t USB_HostOpenPipe(usb_host_handle hostHandle, + usb_host_pipe_handle *pipeHandle, + usb_host_pipe_init_t *pipeInit) +{ + usb_status_t status = kStatus_USB_Success; + usb_host_instance_t *hostInstance = (usb_host_instance_t *)hostHandle; + + if ((hostHandle == NULL) || (pipeInit == NULL)) + { + return kStatus_USB_InvalidHandle; + } + + /* call controller open pipe interface */ + status = hostInstance->controllerTable->controllerOpenPipe(hostInstance->controllerHandle, pipeHandle, pipeInit); + + return status; +} + +usb_status_t USB_HostClosePipe(usb_host_handle hostHandle, usb_host_pipe_handle pipeHandle) +{ + usb_status_t status = kStatus_USB_Success; + usb_host_instance_t *hostInstance = (usb_host_instance_t *)hostHandle; + + if ((hostHandle == NULL) || (pipeHandle == NULL)) + { + return kStatus_USB_InvalidHandle; + } + + /* call controller close pipe interface */ + status = hostInstance->controllerTable->controllerClosePipe(hostInstance->controllerHandle, pipeHandle); + + return status; +} + +usb_status_t USB_HostSend(usb_host_handle hostHandle, usb_host_pipe_handle pipeHandle, usb_host_transfer_t *transfer) +{ + usb_status_t status = kStatus_USB_Success; + usb_host_instance_t *hostInstance = (usb_host_instance_t *)hostHandle; + + if ((hostHandle == NULL) || (pipeHandle == NULL) || (transfer == NULL)) + { + return kStatus_USB_InvalidHandle; + } + + /* initialize transfer */ + transfer->transferSofar = 0; + transfer->direction = USB_OUT; + + USB_HostLock(); /* This api can be called by host task and app task */ +/* keep this code: in normal situation application will guarantee the device is attached when call send/receive function + */ +#if 0 + if ((USB_HostValidateDevice(pipe_ptr->deviceHandle) != kStatus_USB_Success) || (!(USB_HostGetDeviceAttachState(pipe_ptr->deviceHandle)))) + { + USB_HostUnlock(); + return status; + } +#endif +/* call controller write pipe interface */ +#if ((defined USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE) && (USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE)) + if (transfer->transferLength > 0) + { + DCACHE_CleanByRange((uint32_t)transfer->transferBuffer, transfer->transferLength); + } +#endif + status = hostInstance->controllerTable->controllerWritePipe(hostInstance->controllerHandle, pipeHandle, transfer); + + USB_HostUnlock(); + return status; +} + +usb_status_t USB_HostSendSetup(usb_host_handle hostHandle, + usb_host_pipe_handle pipeHandle, + usb_host_transfer_t *transfer) +{ + usb_status_t status = kStatus_USB_Success; + usb_host_instance_t *hostInstance = (usb_host_instance_t *)hostHandle; + + if ((hostHandle == NULL) || (pipeHandle == NULL) || (transfer == NULL)) + { + return kStatus_USB_InvalidHandle; + } + + /* initialize transfer */ + transfer->transferSofar = 0; + transfer->next = NULL; + transfer->setupStatus = 0; + if ((transfer->setupPacket->bmRequestType & USB_REQUEST_TYPE_DIR_MASK) == USB_REQUEST_TYPE_DIR_IN) + { + transfer->direction = USB_IN; + } + else + { + transfer->direction = USB_OUT; + } + + USB_HostLock(); /* This API can be called by host task and application task */ +/* keep this code: in normal situation application will guarantee the device is attached when call send/receive function + */ +#if 0 + if ((USB_HostValidateDevice(pipe_ptr->deviceHandle) != kStatus_USB_Success) || (!(USB_HostGetDeviceAttachState(pipe_ptr->deviceHandle)))) + { + USB_HostUnlock(); + return status; + } +#endif +/* call controller write pipe interface */ +#if ((defined USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE) && (USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE)) + DCACHE_CleanByRange((uint32_t)&transfer->setupPacket->bmRequestType, sizeof(usb_setup_struct_t)); + if (transfer->transferLength > 0) + { + DCACHE_CleanInvalidateByRange((uint32_t)transfer->transferBuffer, transfer->transferLength); + } +#endif + status = hostInstance->controllerTable->controllerWritePipe(hostInstance->controllerHandle, pipeHandle, transfer); + + USB_HostUnlock(); + return status; +} + +usb_status_t USB_HostRecv(usb_host_handle hostHandle, usb_host_pipe_handle pipeHandle, usb_host_transfer_t *transfer) +{ + usb_status_t status = kStatus_USB_Success; + usb_host_instance_t *hostInstance = (usb_host_instance_t *)hostHandle; + + if ((hostHandle == NULL) || (pipeHandle == NULL) || (transfer == NULL)) + { + return kStatus_USB_InvalidHandle; + } + + /* initialize transfer */ + transfer->transferSofar = 0; + transfer->direction = USB_IN; + + USB_HostLock(); /* This API can be called by host task and application task */ +/* keep this code: in normal situation application will guarantee the device is attached when call send/receive function + */ +#if 0 + if ((USB_HostValidateDevice(pipe_ptr->deviceHandle) != kStatus_USB_Success) || (!(USB_HostGetDeviceAttachState(pipe_ptr->deviceHandle)))) + { + USB_HostUnlock(); + return status; + } +#endif + +#if ((defined USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE) && (USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE)) + if (transfer->transferLength > 0) + { + DCACHE_CleanInvalidateByRange((uint32_t)transfer->transferBuffer, transfer->transferLength); + } +#endif + status = hostInstance->controllerTable->controllerReadPipe(hostInstance->controllerHandle, pipeHandle, transfer); + + USB_HostUnlock(); + return status; +} + +usb_status_t USB_HostCancelTransfer(usb_host_handle hostHandle, + usb_host_pipe_handle pipeHandle, + usb_host_transfer_t *transfer) +{ + usb_status_t status = kStatus_USB_Success; + usb_host_instance_t *hostInstance = (usb_host_instance_t *)hostHandle; + usb_host_cancel_param_t cancelParam; + + if ((hostHandle == NULL) || (pipeHandle == NULL)) + { + return kStatus_USB_InvalidHandle; + } + + /* initialize cancel parameter */ + cancelParam.pipeHandle = pipeHandle; + cancelParam.transfer = transfer; + + /* USB_HostLock(); This api can be called by host task and app task */ + status = hostInstance->controllerTable->controllerIoctl(hostInstance->controllerHandle, kUSB_HostCancelTransfer, + &cancelParam); + /* USB_HostUnlock(); */ + + return status; +} + +usb_status_t USB_HostMallocTransfer(usb_host_handle hostHandle, usb_host_transfer_t **transfer) +{ + usb_host_instance_t *hostInstance = (usb_host_instance_t *)hostHandle; + + if ((hostHandle == NULL) || (transfer == NULL)) + { + return kStatus_USB_InvalidHandle; + } + + /* get one from the transfer_head */ + USB_HostLock(); + if (hostInstance->transferHead != NULL) + { + *transfer = hostInstance->transferHead; + hostInstance->transferHead = hostInstance->transferHead->next; + USB_HostUnlock(); + return kStatus_USB_Success; + } + else + { + *transfer = NULL; + USB_HostUnlock(); + return kStatus_USB_Error; + } +} + +usb_status_t USB_HostFreeTransfer(usb_host_handle hostHandle, usb_host_transfer_t *transfer) +{ + usb_host_instance_t *hostInstance = (usb_host_instance_t *)hostHandle; + + if (hostHandle == NULL) + { + return kStatus_USB_InvalidHandle; + } + if (transfer == NULL) + { + return kStatus_USB_Success; + } + + /* release one to the transfer_head */ + USB_HostLock(); + transfer->next = hostInstance->transferHead; + hostInstance->transferHead = transfer; + USB_HostUnlock(); + return kStatus_USB_Success; +} + +usb_status_t USB_HostHelperGetPeripheralInformation(usb_device_handle deviceHandle, + uint32_t infoCode, + uint32_t *infoValue) +{ + usb_host_device_instance_t *deviceInstance = (usb_host_device_instance_t *)deviceHandle; + if ((deviceHandle == NULL) || (infoValue == NULL)) + { + return kStatus_USB_InvalidParameter; + } + + switch (infoCode) + { + case kUSB_HostGetDeviceAddress: /* device address */ + *infoValue = (uint32_t)deviceInstance->setAddress; + break; + + case kUSB_HostGetDeviceControlPipe: /* device control pipe */ + *infoValue = (uint32_t)deviceInstance->controlPipe; + break; + + case kUSB_HostGetHostHandle: /* device host handle */ + *infoValue = (uint32_t)deviceInstance->hostHandle; + break; + +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + case kUSB_HostGetDeviceHubNumber: /* device hub address */ + *infoValue = (uint32_t)deviceInstance->hubNumber; + break; + + case kUSB_HostGetDevicePortNumber: /* device port no */ + *infoValue = (uint32_t)deviceInstance->portNumber; + break; + + case kUSB_HostGetDeviceLevel: /* device level */ + *infoValue = (uint32_t)deviceInstance->level; + break; + + case kUSB_HostGetDeviceHSHubNumber: /* device high-speed hub address */ + *infoValue = (uint32_t)deviceInstance->hsHubNumber; + break; + + case kUSB_HostGetDeviceHSHubPort: /* device high-speed hub port no */ + *infoValue = (uint32_t)deviceInstance->hsHubPort; + break; + + case kUSB_HostGetHubThinkTime: /* device hub think time */ + *infoValue = USB_HostHubGetTotalThinkTime(deviceInstance->hostHandle, deviceInstance->hubNumber); + break; +#else + case kUSB_HostGetDeviceHubNumber: /* device hub address */ + case kUSB_HostGetDevicePortNumber: /* device port no */ + case kUSB_HostGetDeviceHSHubNumber: /* device high-speed hub address */ + case kUSB_HostGetDeviceHSHubPort: /* device high-speed hub port no */ + case kUSB_HostGetHubThinkTime: /* device hub think time */ + *infoValue = 0; + break; + case kUSB_HostGetDeviceLevel: /* device level */ + *infoValue = 1; + break; +#endif /* USB_HOST_CONFIG_HUB */ + + case kUSB_HostGetDeviceSpeed: /* device speed */ + *infoValue = (uint32_t)deviceInstance->speed; + break; + + case kUSB_HostGetDevicePID: /* device pid */ + *infoValue = (uint32_t)USB_SHORT_FROM_LITTLE_ENDIAN_ADDRESS(deviceInstance->deviceDescriptor->idProduct); + break; + + case kUSB_HostGetDeviceVID: /* device vid */ + *infoValue = (uint32_t)USB_SHORT_FROM_LITTLE_ENDIAN_ADDRESS(deviceInstance->deviceDescriptor->idVendor); + break; + + case kUSB_HostGetDeviceConfigIndex: /* device config index */ + *infoValue = (uint32_t)deviceInstance->configurationValue - 1U; + break; + + case kUSB_HostGetConfigurationDes: /* configuration descriptor pointer */ + *infoValue = (uint32_t)deviceInstance->configurationDesc; + break; + + case kUSB_HostGetConfigurationLength: /* configuration descriptor length */ + *infoValue = (uint32_t)deviceInstance->configurationLen; + break; + + default: + return kStatus_USB_Error; + } + + return kStatus_USB_Success; +} + +usb_status_t USB_HostHelperParseAlternateSetting(usb_host_interface_handle interfaceHandle, + uint8_t alternateSetting, + usb_host_interface_t *interface) +{ + uint32_t endPosition; + usb_descriptor_union_t *unionDes; + usb_host_ep_t *epParse; + + if (interfaceHandle == NULL) + { + return kStatus_USB_InvalidHandle; + } + + if (alternateSetting == 0) + { + return kStatus_USB_InvalidParameter; + } + + /* parse configuration descriptor */ + unionDes = (usb_descriptor_union_t *)((usb_host_interface_t *)interfaceHandle) + ->interfaceDesc; /* interface extend descriptor start */ + endPosition = + (uint32_t)unionDes + + ((usb_host_interface_t *)interfaceHandle)->interfaceExtensionLength; /* interface extend descriptor end */ + unionDes = (usb_descriptor_union_t *)((uint32_t)unionDes + unionDes->common.bLength); + + /* search for the alternate setting interface descritpor */ + while ((uint32_t)unionDes < endPosition) + { + if (unionDes->interface.bDescriptorType == USB_DESCRIPTOR_TYPE_INTERFACE) + { + if (unionDes->interface.bAlternateSetting == alternateSetting) + { + break; + } + else + { + unionDes = (usb_descriptor_union_t *)((uint32_t)unionDes + unionDes->common.bLength); + } + } + else + { + unionDes = (usb_descriptor_union_t *)((uint32_t)unionDes + unionDes->common.bLength); + } + } + if ((uint32_t)unionDes >= endPosition) + { + return kStatus_USB_Error; + } + + /* initialize interface handle structure instance */ + interface->interfaceDesc = &unionDes->interface; + interface->alternateSettingNumber = 0; + interface->epCount = 0; + interface->interfaceExtension = NULL; + interface->interfaceExtensionLength = 0; + interface->interfaceIndex = unionDes->interface.bInterfaceNumber; + + /* search for endpoint descriptor start position */ + unionDes = (usb_descriptor_union_t *)((uint32_t)unionDes + unionDes->common.bLength); + while ((uint32_t)unionDes < endPosition) + { + if ((unionDes->common.bDescriptorType != USB_DESCRIPTOR_TYPE_INTERFACE) && + (unionDes->common.bDescriptorType != USB_DESCRIPTOR_TYPE_ENDPOINT)) + { + if (interface->interfaceExtension == NULL) + { + interface->interfaceExtension = (uint8_t *)unionDes; + } + interface->interfaceExtensionLength += unionDes->common.bLength; + unionDes = (usb_descriptor_union_t *)((uint32_t)unionDes + unionDes->common.bLength); + } + else + { + break; + } + } + + /* parse endpoint descriptor */ + if (interface->interfaceDesc->bNumEndpoints != 0) + { + if ((unionDes->common.bDescriptorType != USB_DESCRIPTOR_TYPE_ENDPOINT) || + (interface->interfaceDesc->bNumEndpoints > USB_HOST_CONFIG_INTERFACE_MAX_EP)) + { +#ifdef HOST_ECHO + usb_echo("interface descriptor error\n"); +#endif + return kStatus_USB_Error; + } + for (; interface->epCount < interface->interfaceDesc->bNumEndpoints; (interface->epCount)++) + { + if (((uint32_t)unionDes >= endPosition) || + (unionDes->common.bDescriptorType != USB_DESCRIPTOR_TYPE_ENDPOINT)) + { +#ifdef HOST_ECHO + usb_echo("endpoint descriptor error\n"); +#endif + return kStatus_USB_Error; + } + epParse = (usb_host_ep_t *)&interface->epList[interface->epCount]; + epParse->epDesc = (usb_descriptor_endpoint_t *)unionDes; + epParse->epExtensionLength = 0; + epParse->epExtension = NULL; + unionDes = (usb_descriptor_union_t *)((uint32_t)unionDes + unionDes->common.bLength); + while ((uint32_t)unionDes < endPosition) + { + if ((unionDes->common.bDescriptorType != USB_DESCRIPTOR_TYPE_ENDPOINT) && + (unionDes->common.bDescriptorType != USB_DESCRIPTOR_TYPE_INTERFACE)) + { + if (epParse->epExtension == NULL) + { + epParse->epExtension = (uint8_t *)unionDes; + } + epParse->epExtensionLength += unionDes->common.bLength; + unionDes = (usb_descriptor_union_t *)((uint32_t)unionDes + unionDes->common.bLength); + } + else + { + break; + } + } + } + } + + return kStatus_USB_Success; +} + +void USB_HostGetVersion(uint32_t *version) +{ + if (version) + { + *version = + (uint32_t)USB_MAKE_VERSION(USB_STACK_VERSION_MAJOR, USB_STACK_VERSION_MINOR, USB_STACK_VERSION_BUGFIX); + } +} + +#if ((defined(USB_HOST_CONFIG_LOW_POWER_MODE)) && (USB_HOST_CONFIG_LOW_POWER_MODE > 0U)) +/* Send BUS or specific device suepend request */ +usb_status_t USB_HostSuspendDeviceResquest(usb_host_handle hostHandle, usb_device_handle deviceHandle) +{ + usb_host_instance_t *hostInstance; + usb_host_device_instance_t *deviceInstance; + usb_status_t status = kStatus_USB_Error; + usb_host_bus_control_t type = kUSB_HostBusSuspend; + + if (hostHandle == NULL) + { + return kStatus_USB_InvalidHandle; + } + hostInstance = (usb_host_instance_t *)hostHandle; + + hostInstance->suspendedDevice = (void *)deviceHandle; + + if (NULL == deviceHandle) + { +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + status = USB_HostHubSuspendDevice(hostInstance); +#else + status = + hostInstance->controllerTable->controllerIoctl(hostInstance->controllerHandle, kUSB_HostBusControl, &type); +#endif + } + else + { +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + deviceInstance = (usb_host_device_instance_t *)deviceHandle; + if (0 == deviceInstance->hubNumber) + { +#endif + if (hostInstance->deviceList == deviceHandle) + { + status = hostInstance->controllerTable->controllerIoctl(hostInstance->controllerHandle, + kUSB_HostBusControl, &type); + } +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + } + else + { + if (kStatus_USB_Success == USB_HostValidateDevice(hostInstance, deviceHandle)) + { + status = USB_HostHubSuspendDevice(hostInstance); + } + } +#endif + } + if (kStatus_USB_Error == status) + { + hostInstance->suspendedDevice = NULL; + } + return status; +} + +/* Send BUS or specific device resume request */ +usb_status_t USB_HostResumeDeviceResquest(usb_host_handle hostHandle, usb_device_handle deviceHandle) +{ + usb_host_instance_t *hostInstance; + usb_host_device_instance_t *deviceInstance; + usb_status_t status = kStatus_USB_Error; + usb_host_bus_control_t type = kUSB_HostBusResume; + + if (hostHandle == NULL) + { + return kStatus_USB_InvalidHandle; + } + hostInstance = (usb_host_instance_t *)hostHandle; + + if (hostInstance->suspendedDevice != deviceHandle) + { + return kStatus_USB_InvalidParameter; + } + hostInstance->suspendedDevice = (void *)deviceHandle; + + if (NULL == deviceHandle) + { + status = + hostInstance->controllerTable->controllerIoctl(hostInstance->controllerHandle, kUSB_HostBusControl, &type); + } + else + { +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + deviceInstance = (usb_host_device_instance_t *)deviceHandle; + if (0 == deviceInstance->hubNumber) + { +#endif + if (hostInstance->deviceList == deviceHandle) + { + status = hostInstance->controllerTable->controllerIoctl(hostInstance->controllerHandle, + kUSB_HostBusControl, &type); + } +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) + } + else + { + if (kStatus_USB_Success == USB_HostValidateDevice(hostInstance, deviceHandle)) + { + status = USB_HostHubResumeDevice(hostInstance); + } + } +#endif + } + + return status; +} +#if ((defined(USB_HOST_CONFIG_LPM_L1)) && (USB_HOST_CONFIG_LPM_L1 > 0U)) +/* Send BUS or specific device suepend request */ +usb_status_t USB_HostL1SleepDeviceResquest(usb_host_handle hostHandle, + usb_device_handle deviceHandle, + uint8_t sleepType) +{ + usb_host_instance_t *hostInstance; + usb_status_t status = kStatus_USB_Error; + usb_host_bus_control_t type = kUSB_HostBusL1Sleep; + + if (hostHandle == NULL) + { + return kStatus_USB_InvalidHandle; + } + hostInstance = (usb_host_instance_t *)hostHandle; + + hostInstance->suspendedDevice = (void *)deviceHandle; + + if (1U == sleepType) + { + /*#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB))*/ + /*To do, implete hub L1 suspend device*/ + /*#else*/ + status = + hostInstance->controllerTable->controllerIoctl(hostInstance->controllerHandle, kUSB_HostBusControl, &type); + /*#endif*/ + } + else + { +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) +/*To do, if device hub number is 0, need suspend the bus ,else suspend the corresponding device*/ +#endif + if (hostInstance->deviceList == deviceHandle) + { + status = hostInstance->controllerTable->controllerIoctl(hostInstance->controllerHandle, kUSB_HostBusControl, + &type); + } + } + if (kStatus_USB_Error == status) + { + hostInstance->suspendedDevice = NULL; + } + return status; +} +/* Send BUS or specific device suepend request */ +usb_status_t USB_HostL1SleepDeviceResquestConfig(usb_host_handle hostHandle, uint8_t *lpmParam) +{ + usb_host_instance_t *hostInstance; + usb_status_t status = kStatus_USB_Error; + + if (hostHandle == NULL) + { + return kStatus_USB_InvalidHandle; + } + hostInstance = (usb_host_instance_t *)hostHandle; + + status = + hostInstance->controllerTable->controllerIoctl(hostInstance->controllerHandle, kUSB_HostL1Config, lpmParam); + + return status; +} + +/* Send BUS or specific device resume request */ +usb_status_t USB_HostL1ResumeDeviceResquest(usb_host_handle hostHandle, + usb_device_handle deviceHandle, + uint8_t sleepType) +{ + usb_host_instance_t *hostInstance; + + usb_status_t status = kStatus_USB_Error; + usb_host_bus_control_t type = kUSB_HostBusL1Resume; + + if (hostHandle == NULL) + { + return kStatus_USB_InvalidHandle; + } + hostInstance = (usb_host_instance_t *)hostHandle; + + if (1U == sleepType) + { + status = + hostInstance->controllerTable->controllerIoctl(hostInstance->controllerHandle, kUSB_HostBusControl, &type); + } + else + { +#if ((defined USB_HOST_CONFIG_HUB) && (USB_HOST_CONFIG_HUB)) +/*To do, if device hub number is 0, need suspend the bus ,else suspend the corresponding device*/ + +#endif + if (hostInstance->deviceList == deviceHandle) + { + status = hostInstance->controllerTable->controllerIoctl(hostInstance->controllerHandle, kUSB_HostBusControl, + &type); + } + } + + return status; +} +#endif +/* Update HW tick(unit is ms) */ +usb_status_t USB_HostUpdateHwTick(usb_host_handle hostHandle, uint64_t tick) +{ + usb_host_instance_t *hostInstance; + usb_status_t status = kStatus_USB_Success; + + if (hostHandle == NULL) + { + return kStatus_USB_InvalidHandle; + } + hostInstance = (usb_host_instance_t *)hostHandle; + + hostInstance->hwTick = tick; + + return status; +} +#endif diff --git a/bsp/imxrt1052-evk/drivers/usb/host/usb_host_hci.h b/bsp/imxrt1052-evk/drivers/usb/host/usb_host_hci.h new file mode 100644 index 0000000000000000000000000000000000000000..26b6d4a9c56f7c650999acc1924bbb3dca01e252 --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/usb/host/usb_host_hci.h @@ -0,0 +1,131 @@ +/* + * Copyright (c) 2015, Freescale Semiconductor, Inc. + * Copyright 2016 NXP + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * o Redistributions of source code must retain the above copyright notice, this list + * of conditions and the following disclaimer. + * + * o Redistributions in binary form must reproduce the above copyright notice, this + * list of conditions and the following disclaimer in the documentation and/or + * other materials provided with the distribution. + * + * o Neither the name of the copyright holder nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#ifndef _USB_HOST_HCI_H_ +#define _USB_HOST_HCI_H_ + +/******************************************************************************* + * Definitions + ******************************************************************************/ + +/*! @brief USB host lock */ +#define USB_HostLock() USB_OsaMutexLock(hostInstance->hostMutex) +/*! @brief USB host unlock */ +#define USB_HostUnlock() USB_OsaMutexUnlock(hostInstance->hostMutex) + +/*! + * @addtogroup usb_host_controller_driver + * @{ + */ + +/*! @brief USB host controller control code */ +typedef enum _usb_host_controller_control +{ + kUSB_HostCancelTransfer = 1U, /*!< Cancel transfer code */ + kUSB_HostBusControl, /*!< Bus control code */ + kUSB_HostGetFrameNumber, /*!< Get frame number code */ + kUSB_HostUpdateControlEndpointAddress, /*!< Update control endpoint address */ + kUSB_HostUpdateControlPacketSize, /*!< Update control endpoint maximum packet size */ + kUSB_HostPortAttachDisable, /*!< Disable the port attach event */ + kUSB_HostPortAttachEnable, /*!< Enable the port attach event */ + kUSB_HostL1Config, /*!< L1 suspend Bus control code */ +} usb_host_controller_control_t; + +/*! @brief USB host controller bus control code */ +typedef enum _usb_host_bus_control +{ + kUSB_HostBusReset = 1U, /*!< Reset bus */ + kUSB_HostBusRestart, /*!< Restart bus */ + kUSB_HostBusEnableAttach, /*!< Enable attach */ + kUSB_HostBusDisableAttach, /*!< Disable attach */ + kUSB_HostBusSuspend, /*!< Suspend BUS */ + kUSB_HostBusResume, /*!< Resume BUS */ + kUSB_HostBusL1SuspendInit, /*!< L1 Suspend BUS */ + kUSB_HostBusL1Sleep, /*!< L1 Suspend BUS */ + kUSB_HostBusL1Resume, /*!< L1 Resume BUS */ +} usb_host_bus_control_t; + +/*! @brief USB host controller interface structure */ +typedef struct _usb_host_controller_interface +{ + usb_status_t (*controllerCreate)( + uint8_t controllerId, + usb_host_handle upperLayerHandle, + usb_host_controller_handle *controllerHandle); /*!< Create a controller instance function prototype*/ + usb_status_t (*controllerDestory)( + usb_host_controller_handle controllerHandle); /*!< Destroy a controller instance function prototype*/ + usb_status_t (*controllerOpenPipe)(usb_host_controller_handle controllerHandle, + usb_host_pipe_handle *pipeHandle, + usb_host_pipe_init_t *pipeInit); /*!< Open a controller pipe function prototype*/ + usb_status_t (*controllerClosePipe)( + usb_host_controller_handle controllerHandle, + usb_host_pipe_handle pipeHandle); /*!< Close a controller pipe function prototype*/ + usb_status_t (*controllerWritePipe)(usb_host_controller_handle controllerHandle, + usb_host_pipe_handle pipeHandle, + usb_host_transfer_t *transfer); /*!< Write data to a pipe function prototype*/ + usb_status_t (*controllerReadPipe)(usb_host_controller_handle controllerHandle, + usb_host_pipe_handle pipeHandle, + usb_host_transfer_t *transfer); /*!< Read data from a pipe function prototype*/ + usb_status_t (*controllerIoctl)(usb_host_controller_handle controllerHandle, + uint32_t ioctlEvent, + void *ioctlParam); /*!< Control a controller function prototype*/ +} usb_host_controller_interface_t; + +/*! @}*/ + +/*! + * @addtogroup usb_host_drv + * @{ + */ + +/*! @brief USB host instance structure */ +typedef struct _usb_host_instance +{ + void *controllerHandle; /*!< The low level controller handle*/ + host_callback_t deviceCallback; /*!< Device attach/detach callback*/ + usb_osa_mutex_handle hostMutex; /*!< Host layer mutex*/ + usb_host_transfer_t transferList[USB_HOST_CONFIG_MAX_TRANSFERS]; /*!< Transfer resource*/ + usb_host_transfer_t *transferHead; /*!< Idle transfer head*/ + const usb_host_controller_interface_t *controllerTable; /*!< KHCI/EHCI interface*/ + void *deviceList; /*!< Device list*/ +#if ((defined(USB_HOST_CONFIG_LOW_POWER_MODE)) && (USB_HOST_CONFIG_LOW_POWER_MODE > 0U)) + void *suspendedDevice; /*!< Suspended device handle*/ + volatile uint64_t hwTick; /*!< Current hw tick(ms)*/ + uint8_t sleepType; /*!< L1 LPM device handle*/ +#endif + uint8_t addressBitMap[16]; /*!< Used for address allocation. The first bit is the address 1, second bit is the + address 2*/ + uint8_t occupied; /*!< 0 - the instance is not occupied; 1 - the instance is occupied*/ + uint8_t controllerId; /*!< The controller ID*/ +} usb_host_instance_t; + +/*! @}*/ + +#endif /* _USB_HOST_HCI_H_ */ diff --git a/bsp/imxrt1052-evk/drivers/usb/include/usb.h b/bsp/imxrt1052-evk/drivers/usb/include/usb.h new file mode 100644 index 0000000000000000000000000000000000000000..256896b472c96ed5aa4ffa4d72f75f0bff5ec080 --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/usb/include/usb.h @@ -0,0 +1,140 @@ +/* + * Copyright (c) 2015, Freescale Semiconductor, Inc. + * Copyright 2016 NXP + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * o Redistributions of source code must retain the above copyright notice, this list + * of conditions and the following disclaimer. + * + * o Redistributions in binary form must reproduce the above copyright notice, this + * list of conditions and the following disclaimer in the documentation and/or + * other materials provided with the distribution. + * + * o Neither the name of the copyright holder nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#ifndef __USB_H__ +#define __USB_H__ + +#include +#include +#include +#include "usb_misc.h" +#include "usb_spec.h" + +/*! + * @addtogroup usb_drv + * @{ + */ + +/******************************************************************************* + * Definitions + ******************************************************************************/ +/*! @brief Defines USB stack major version */ +#define USB_STACK_VERSION_MAJOR (1U) +/*! @brief Defines USB stack minor version */ +#define USB_STACK_VERSION_MINOR (6U) +/*! @brief Defines USB stack bugfix version */ +#define USB_STACK_VERSION_BUGFIX (3U) + +/*! @brief USB stack version definition */ +#define USB_MAKE_VERSION(major, minor, bugfix) (((major) << 16) | ((minor) << 8) | (bugfix)) + +/*! @brief USB error code */ +typedef enum _usb_status +{ + kStatus_USB_Success = 0x00U, /*!< Success */ + kStatus_USB_Error, /*!< Failed */ + + kStatus_USB_Busy, /*!< Busy */ + kStatus_USB_InvalidHandle, /*!< Invalid handle */ + kStatus_USB_InvalidParameter, /*!< Invalid parameter */ + kStatus_USB_InvalidRequest, /*!< Invalid request */ + kStatus_USB_ControllerNotFound, /*!< Controller cannot be found */ + kStatus_USB_InvalidControllerInterface, /*!< Invalid controller interface */ + + kStatus_USB_NotSupported, /*!< Configuration is not supported */ + kStatus_USB_Retry, /*!< Enumeration get configuration retry */ + kStatus_USB_TransferStall, /*!< Transfer stalled */ + kStatus_USB_TransferFailed, /*!< Transfer failed */ + kStatus_USB_AllocFail, /*!< Allocation failed */ + kStatus_USB_LackSwapBuffer, /*!< Insufficient swap buffer for KHCI */ + kStatus_USB_TransferCancel, /*!< The transfer cancelled */ + kStatus_USB_BandwidthFail, /*!< Allocate bandwidth failed */ + kStatus_USB_MSDStatusFail, /*!< For MSD, the CSW status means fail */ + kStatus_USB_EHCIAttached, + kStatus_USB_EHCIDetached, +} usb_status_t; + +/*! @brief USB host handle type define */ +typedef void *usb_host_handle; + +/*! @brief USB device handle type define. For device stack it is the whole device handle; for host stack it is the + * attached device instance handle*/ +typedef void *usb_device_handle; + +/*! @brief USB OTG handle type define */ +typedef void *usb_otg_handle; + +/*! @brief USB controller ID */ +typedef enum _usb_controller_index +{ + kUSB_ControllerKhci0 = 0U, /*!< KHCI 0U */ + kUSB_ControllerKhci1 = 1U, /*!< KHCI 1U, Currently, there are no platforms which have two KHCI IPs, this is reserved + to be used in the future. */ + kUSB_ControllerEhci0 = 2U, /*!< EHCI 0U */ + kUSB_ControllerEhci1 = 3U, /*!< EHCI 1U, Currently, there are no platforms which have two EHCI IPs, this is reserved + to be used in the future. */ + + kUSB_ControllerLpcIp3511Fs0 = 4U, /*!< LPC USB IP3511 FS controller 0 */ + kUSB_ControllerLpcIp3511Fs1 = + 5U, /*!< LPC USB IP3511 FS controller 1, there are no platforms which have two IP3511 IPs, this is reserved + to be used in the future. */ + + kUSB_ControllerLpcIp3511Hs0 = 6U, /*!< LPC USB IP3511 HS controller 0 */ + kUSB_ControllerLpcIp3511Hs1 = + 7U, /*!< LPC USB IP3511 HS controller 1, there are no platforms which have two IP3511 IPs, this is reserved + to be used in the future. */ + + kUSB_ControllerOhci0 = 8U, /*!< OHCI 0U */ + kUSB_ControllerOhci1 = 9U, /*!< OHCI 1U, Currently, there are no platforms which have two OHCI IPs, this is reserved + to be used in the future. */ + + kUSB_ControllerIp3516Hs0 = 10U, /*!< IP3516HS 0U */ + kUSB_ControllerIp3516Hs1 = + 11U, /*!< IP3516HS 1U, Currently, there are no platforms which have two IP3516HS IPs, this is reserved + to be used in the future. */ +} usb_controller_index_t; + +/** +* @brief USB stack version fields +*/ +typedef struct _usb_version +{ + uint8_t major; /*!< Major */ + uint8_t minor; /*!< Minor */ + uint8_t bugfix; /*!< Bug fix */ +} usb_version_t; + +/******************************************************************************* + * API + ******************************************************************************/ + +/*! @} */ + +#endif /* __USB_H__ */ diff --git a/bsp/imxrt1052-evk/drivers/usb/include/usb_device_config.h b/bsp/imxrt1052-evk/drivers/usb/include/usb_device_config.h new file mode 100644 index 0000000000000000000000000000000000000000..551d92edc7e27c12248839ebe7529170da08f9f0 --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/usb/include/usb_device_config.h @@ -0,0 +1,185 @@ +/* + * Copyright (c) 2015, Freescale Semiconductor, Inc. + * Copyright 2016 - 2017 NXP + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * o Redistributions of source code must retain the above copyright notice, this list + * of conditions and the following disclaimer. + * + * o Redistributions in binary form must reproduce the above copyright notice, this + * list of conditions and the following disclaimer in the documentation and/or + * other materials provided with the distribution. + * + * o Neither the name of the copyright holder nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#ifndef _USB_DEVICE_CONFIG_H_ +#define _USB_DEVICE_CONFIG_H_ + +/******************************************************************************* +* Definitions +******************************************************************************/ +/*! + * @addtogroup usb_device_configuration + * @{ + */ + +/*! + * @name Hardware instance define + * @{ + */ + +/*! @brief KHCI instance count */ +#define USB_DEVICE_CONFIG_KHCI (0U) + +/*! @brief EHCI instance count */ +#define USB_DEVICE_CONFIG_EHCI (2U) + +/*! @brief LPC USB IP3511 FS instance count */ +#define USB_DEVICE_CONFIG_LPCIP3511FS (0U) + +/*! @brief LPC USB IP3511 HS instance count */ +#define USB_DEVICE_CONFIG_LPCIP3511HS (0U) + +/*! @brief Device instance count, the sum of KHCI and EHCI instance counts*/ +#define USB_DEVICE_CONFIG_NUM \ + (USB_DEVICE_CONFIG_KHCI + USB_DEVICE_CONFIG_EHCI + USB_DEVICE_CONFIG_LPCIP3511FS + USB_DEVICE_CONFIG_LPCIP3511HS) + +/* @} */ + +/*! + * @name class instance define + * @{ + */ + +/*! @brief HID instance count */ +#define USB_DEVICE_CONFIG_HID (0U) + +/*! @brief CDC ACM instance count */ +#define USB_DEVICE_CONFIG_CDC_ACM (1U) + +/*! @brief MSC instance count */ +#define USB_DEVICE_CONFIG_MSC (0U) + +/*! @brief Audio instance count */ +#define USB_DEVICE_CONFIG_AUDIO (0U) + +/*! @brief PHDC instance count */ +#define USB_DEVICE_CONFIG_PHDC (0U) + +/*! @brief Video instance count */ +#define USB_DEVICE_CONFIG_VIDEO (0U) + +/*! @brief CCID instance count */ +#define USB_DEVICE_CONFIG_CCID (0U) + +/*! @brief Printer instance count */ +#define USB_DEVICE_CONFIG_PRINTER (0U) + +/*! @brief DFU instance count */ +#define USB_DEVICE_CONFIG_DFU (0U) + +/* @} */ + +/*! @brief Whether device is self power. 1U supported, 0U not supported */ +#define USB_DEVICE_CONFIG_SELF_POWER (1U) + +/*! @brief How many endpoints are supported in the stack. */ +#define USB_DEVICE_CONFIG_ENDPOINTS (4U) + +/*! @brief Whether the device task is enabled. */ +#define USB_DEVICE_CONFIG_USE_TASK (0U) + +/*! @brief How many the notification message are supported when the device task is enabled. */ +#define USB_DEVICE_CONFIG_MAX_MESSAGES (8U) + +/*! @brief Whether test mode enabled. */ +#define USB_DEVICE_CONFIG_USB20_TEST_MODE (0U) + +/*! @brief Whether device CV test is enabled. */ +#define USB_DEVICE_CONFIG_CV_TEST (0U) + +/*! @brief Whether device compliance test is enabled. If the macro is enabled, + the test mode and CV test macroes will be set.*/ +#define USB_DEVICE_CONFIG_COMPLIANCE_TEST (0U) + +#if ((defined(USB_DEVICE_CONFIG_COMPLIANCE_TEST)) && (USB_DEVICE_CONFIG_COMPLIANCE_TEST > 0U)) + +/*! @brief Undefine the marco USB_DEVICE_CONFIG_USB20_TEST_MODE. */ +#undef USB_DEVICE_CONFIG_USB20_TEST_MODE +/*! @brief Undefine the marco USB_DEVICE_CONFIG_CV_TEST. */ +#undef USB_DEVICE_CONFIG_CV_TEST + +/*! @brief enable the test mode. */ +#define USB_DEVICE_CONFIG_USB20_TEST_MODE (1U) + +/*! @brief enable the CV test */ +#define USB_DEVICE_CONFIG_CV_TEST (1U) + +#endif + +#if ((defined(USB_DEVICE_CONFIG_KHCI)) && (USB_DEVICE_CONFIG_KHCI > 0U)) + +/*! @brief The MAX buffer length for the KHCI DMA workaround.*/ +#define USB_DEVICE_CONFIG_KHCI_DMA_ALIGN_BUFFER_LENGTH (64U) +#endif + +#if ((defined(USB_DEVICE_CONFIG_EHCI)) && (USB_DEVICE_CONFIG_EHCI > 0U)) +/*! @brief How many the DTD are supported. */ +#define USB_DEVICE_CONFIG_EHCI_MAX_DTD (16U) + +/*! @brief Whether the EHCI ID pin detect feature enabled. */ +#define USB_DEVICE_CONFIG_EHCI_ID_PIN_DETECT (0U) +#endif + +/*! @brief Whether the keep alive feature enabled. */ +#define USB_DEVICE_CONFIG_KEEP_ALIVE_MODE (0U) + +/*! @brief Whether the transfer buffer is cache-enabled or not. */ +#define USB_DEVICE_CONFIG_BUFFER_PROPERTY_CACHEABLE (1U) + +/*! @brief Whether the low power mode is enabled or not. */ +#define USB_DEVICE_CONFIG_LOW_POWER_MODE (0U) + +#if ((defined(USB_DEVICE_CONFIG_LOW_POWER_MODE)) && (USB_DEVICE_CONFIG_LOW_POWER_MODE > 0U)) +/*! @brief Whether device remote wakeup supported. 1U supported, 0U not supported */ +#define USB_DEVICE_CONFIG_REMOTE_WAKEUP (0U) + +/*! @brief Whether LPM is supported. 1U supported, 0U not supported */ +#define USB_DEVICE_CONFIG_LPM_L1 (0U) +#else +/*! @brief The device remote wakeup is unsupported. */ +#define USB_DEVICE_CONFIG_REMOTE_WAKEUP (0U) +#endif + +/*! @brief Whether the device detached feature is enabled or not. */ +#define USB_DEVICE_CONFIG_DETACH_ENABLE (0U) + +/*! @brief Whether handle the USB bus error. */ +#define USB_DEVICE_CONFIG_ERROR_HANDLING (0U) + +/* @} */ +/*! @brief rt-thread port alloc */ +#include +#define USB_OSA_SR_ALLOC(...) +/*! @brief rt-thread port enter critical */ +#define USB_OSA_ENTER_CRITICAL rt_enter_critical +/*! @brief rt-thread port exit critical */ +#define USB_OSA_EXIT_CRITICAL rt_exit_critical + +#endif /* _USB_DEVICE_CONFIG_H_ */ diff --git a/bsp/imxrt1052-evk/drivers/usb/include/usb_ehci.h b/bsp/imxrt1052-evk/drivers/usb/include/usb_ehci.h new file mode 100644 index 0000000000000000000000000000000000000000..edc349664347bb525d3a1dee13102d1b77d1a71f --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/usb/include/usb_ehci.h @@ -0,0 +1,140 @@ +/* + * Copyright (c) 2015, Freescale Semiconductor, Inc. + * Copyright 2016 NXP + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * o Redistributions of source code must retain the above copyright notice, this list + * of conditions and the following disclaimer. + * + * o Redistributions in binary form must reproduce the above copyright notice, this + * list of conditions and the following disclaimer in the documentation and/or + * other materials provided with the distribution. + * + * o Neither the name of the copyright holder nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#ifndef __USB_EHCI_H__ +#define __USB_EHCI_H__ + +/******************************************************************************* + * Definitions + ******************************************************************************/ + +/* Device QH */ +#define USB_DEVICE_EHCI_QH_POINTER_MASK (0xFFFFFFC0U) +#define USB_DEVICE_EHCI_QH_MULT_MASK (0xC0000000U) +#define USB_DEVICE_EHCI_QH_ZLT_MASK (0x20000000U) +#define USB_DEVICE_EHCI_QH_MAX_PACKET_SIZE_MASK (0x07FF0000U) +#define USB_DEVICE_EHCI_QH_MAX_PACKET_SIZE (0x00000800U) +#define USB_DEVICE_EHCI_QH_IOS_MASK (0x00008000U) + +/* Device DTD */ +#define USB_DEVICE_ECHI_DTD_POINTER_MASK (0xFFFFFFE0U) +#define USB_DEVICE_ECHI_DTD_TERMINATE_MASK (0x00000001U) +#define USB_DEVICE_ECHI_DTD_PAGE_MASK (0xFFFFF000U) +#define USB_DEVICE_ECHI_DTD_PAGE_OFFSET_MASK (0x00000FFFU) +#define USB_DEVICE_ECHI_DTD_PAGE_BLOCK (0x00001000U) +#define USB_DEVICE_ECHI_DTD_TOTAL_BYTES_MASK (0x7FFF0000U) +#define USB_DEVICE_ECHI_DTD_TOTAL_BYTES (0x00004000U) +#define USB_DEVICE_ECHI_DTD_IOC_MASK (0x00008000U) +#define USB_DEVICE_ECHI_DTD_MULTIO_MASK (0x00000C00U) +#define USB_DEVICE_ECHI_DTD_STATUS_MASK (0x000000FFU) +#define USB_DEVICE_EHCI_DTD_STATUS_ERROR_MASK (0x00000068U) +#define USB_DEVICE_ECHI_DTD_STATUS_ACTIVE (0x00000080U) +#define USB_DEVICE_ECHI_DTD_STATUS_HALTED (0x00000040U) +#define USB_DEVICE_ECHI_DTD_STATUS_DATA_BUFFER_ERROR (0x00000020U) +#define USB_DEVICE_ECHI_DTD_STATUS_TRANSACTION_ERROR (0x00000008U) + +typedef struct _usb_device_ehci_qh_struct +{ + union + { + volatile uint32_t capabilttiesCharacteristics; + struct + { + volatile uint32_t reserved1 : 15; + volatile uint32_t ios : 1; + volatile uint32_t maxPacketSize : 11; + volatile uint32_t reserved2 : 2; + volatile uint32_t zlt : 1; + volatile uint32_t mult : 2; + } capabilttiesCharacteristicsBitmap; + } capabilttiesCharacteristicsUnion; + volatile uint32_t currentDtdPointer; + volatile uint32_t nextDtdPointer; + union + { + volatile uint32_t dtdToken; + struct + { + volatile uint32_t status : 8; + volatile uint32_t reserved1 : 2; + volatile uint32_t multiplierOverride : 2; + volatile uint32_t reserved2 : 3; + volatile uint32_t ioc : 1; + volatile uint32_t totalBytes : 15; + volatile uint32_t reserved3 : 1; + } dtdTokenBitmap; + } dtdTokenUnion; + volatile uint32_t bufferPointerPage[5]; + volatile uint32_t reserved1; + uint32_t setupBuffer[2]; + uint32_t setupBufferBack[2]; + union + { + uint32_t endpointStatus; + struct + { + uint32_t isOpened : 1; + uint32_t : 31; + } endpointStatusBitmap; + } endpointStatusUnion; + uint32_t reserved2; +} usb_device_ehci_qh_struct_t; + +typedef struct _usb_device_ehci_dtd_struct +{ + volatile uint32_t nextDtdPointer; + union + { + volatile uint32_t dtdToken; + struct + { + volatile uint32_t status : 8; + volatile uint32_t reserved1 : 2; + volatile uint32_t multiplierOverride : 2; + volatile uint32_t reserved2 : 3; + volatile uint32_t ioc : 1; + volatile uint32_t totalBytes : 15; + volatile uint32_t reserved3 : 1; + } dtdTokenBitmap; + } dtdTokenUnion; + volatile uint32_t bufferPointerPage[5]; + union + { + volatile uint32_t reserved; + struct + { + uint32_t originalBufferOffest : 12; + uint32_t originalBufferLength : 19; + uint32_t dtdInvalid : 1; + } originalBufferInfo; + } reservedUnion; +} usb_device_ehci_dtd_struct_t; + +#endif /* __USB_EHCI_H__ */ diff --git a/bsp/imxrt1052-evk/drivers/usb/include/usb_misc.h b/bsp/imxrt1052-evk/drivers/usb/include/usb_misc.h new file mode 100644 index 0000000000000000000000000000000000000000..4e65cfa94b230ef9af7857a029538df0ffb25ce2 --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/usb/include/usb_misc.h @@ -0,0 +1,452 @@ +/* + * Copyright (c) 2015 - 2016, Freescale Semiconductor, Inc. + * Copyright 2016 NXP + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * o Redistributions of source code must retain the above copyright notice, this list + * of conditions and the following disclaimer. + * + * o Redistributions in binary form must reproduce the above copyright notice, this + * list of conditions and the following disclaimer in the documentation and/or + * other materials provided with the distribution. + * + * o Neither the name of the copyright holder nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#ifndef __USB_MISC_H__ +#define __USB_MISC_H__ + +#ifndef ENDIANNESS + +#error ENDIANNESS should be defined, and then rebulid the project. + +#endif + +/******************************************************************************* + * Definitions + ******************************************************************************/ + +/*! @brief Define USB printf */ +#if defined(__cplusplus) +extern "C" { +#endif /* __cplusplus */ + +extern int DbgConsole_Printf(const char *fmt_s, ...); + +#if defined(__cplusplus) +} +#endif /* __cplusplus */ + +#if defined(SDK_DEBUGCONSOLE) && (SDK_DEBUGCONSOLE < 1) +#define usb_echo printf +#else +#define usb_echo DbgConsole_Printf +#endif + +#if defined(__ICCARM__) + +#ifndef STRUCT_PACKED +#define STRUCT_PACKED __packed +#endif + +#ifndef STRUCT_UNPACKED +#define STRUCT_UNPACKED +#endif + +#elif defined(__GNUC__) + +#ifndef STRUCT_PACKED +#define STRUCT_PACKED +#endif + +#ifndef STRUCT_UNPACKED +#define STRUCT_UNPACKED __attribute__((__packed__)) +#endif + +#elif defined(__CC_ARM) + +#ifndef STRUCT_PACKED +#define STRUCT_PACKED _Pragma("pack(1U)") +#endif + +#ifndef STRUCT_UNPACKED +#define STRUCT_UNPACKED _Pragma("pack()") +#endif + +#endif + +#define USB_SHORT_GET_LOW(x) (((uint16_t)x) & 0xFFU) +#define USB_SHORT_GET_HIGH(x) ((uint8_t)(((uint16_t)x) >> 8U) & 0xFFU) + +#define USB_LONG_GET_BYTE0(x) ((uint8_t)(((uint32_t)(x))) & 0xFFU) +#define USB_LONG_GET_BYTE1(x) ((uint8_t)(((uint32_t)(x)) >> 8U) & 0xFFU) +#define USB_LONG_GET_BYTE2(x) ((uint8_t)(((uint32_t)(x)) >> 16U) & 0xFFU) +#define USB_LONG_GET_BYTE3(x) ((uint8_t)(((uint32_t)(x)) >> 24U) & 0xFFU) + +#define USB_MEM4_ALIGN_MASK (0x03U) + +/* accessory macro */ +#define USB_MEM4_ALIGN(n) ((n + 3U) & (0xFFFFFFFCu)) +#define USB_MEM32_ALIGN(n) ((n + 31U) & (0xFFFFFFE0u)) +#define USB_MEM64_ALIGN(n) ((n + 63U) & (0xFFFFFFC0u)) + +/* big/little endian */ +#define SWAP2BYTE_CONST(n) ((((n)&0x00FFU) << 8U) | (((n)&0xFF00U) >> 8U)) +#define SWAP4BYTE_CONST(n) \ + ((((n)&0x000000FFU) << 24U) | (((n)&0x0000FF00U) << 8U) | (((n)&0x00FF0000U) >> 8U) | (((n)&0xFF000000U) >> 24U)) + +#define USB_ASSIGN_VALUE_ADDRESS_LONG_BY_BYTE(n, m) \ + { \ + *((uint8_t *)&(n)) = *((uint8_t *)&(m)); \ + *((uint8_t *)&(n) + 1) = *((uint8_t *)&(m) + 1); \ + *((uint8_t *)&(n) + 2) = *((uint8_t *)&(m) + 2); \ + *((uint8_t *)&(n) + 3) = *((uint8_t *)&(m) + 3); \ + } + +#define USB_ASSIGN_VALUE_ADDRESS_SHORT_BY_BYTE(n, m) \ + { \ + *((uint8_t *)&(n)) = *((uint8_t *)&(m)); \ + *((uint8_t *)&(n) + 1) = *((uint8_t *)&(m) + 1); \ + } + +#define USB_ASSIGN_MACRO_VALUE_ADDRESS_LONG_BY_BYTE(n, m) \ + { \ + *((uint8_t *)&(n)) = (uint8_t)m; \ + *((uint8_t *)&(n) + 1) = (uint8_t)(m >> 8); \ + *((uint8_t *)&(n) + 2) = (uint8_t)(m >> 16); \ + *((uint8_t *)&(n) + 3) = (uint8_t)(m >> 24); \ + } + +#define USB_ASSIGN_MACRO_VALUE_ADDRESS_SHORT_BY_BYTE(n, m) \ + { \ + *((uint8_t *)&(n)) = (uint8_t)m; \ + *((uint8_t *)&(n) + 1) = (uint8_t)(m >> 8); \ + } + +#if (ENDIANNESS == USB_BIG_ENDIAN) + +#define USB_SHORT_TO_LITTLE_ENDIAN(n) SWAP2BYTE_CONST(n) +#define USB_LONG_TO_LITTLE_ENDIAN(n) SWAP4BYTE_CONST(n) +#define USB_SHORT_FROM_LITTLE_ENDIAN(n) SWAP2BYTE_CONST(n) +#define USB_LONG_FROM_LITTLE_ENDIAN(n) SWAP2BYTE_CONST(n) + +#define USB_SHORT_TO_BIG_ENDIAN(n) (n) +#define USB_LONG_TO_BIG_ENDIAN(n) (n) +#define USB_SHORT_FROM_BIG_ENDIAN(n) (n) +#define USB_LONG_FROM_BIG_ENDIAN(n) (n) + +#define USB_LONG_TO_LITTLE_ENDIAN_ADDRESS(n, m) \ + { \ + m[3] = ((n >> 24U) & 0xFFU); \ + m[2] = ((n >> 16U) & 0xFFU); \ + m[1] = ((n >> 8U) & 0xFFU); \ + m[0] = (n & 0xFFU); \ + } + +#define USB_LONG_FROM_LITTLE_ENDIAN_ADDRESS(n) \ + ((uint32_t)((((uint8_t)n[3]) << 24U) | (((uint8_t)n[2]) << 16U) | (((uint8_t)n[1]) << 8U) | \ + (((uint8_t)n[0]) << 0U))) + +#define USB_LONG_TO_BIG_ENDIAN_ADDRESS(n, m) \ + { \ + m[0] = ((n >> 24U) & 0xFFU); \ + m[1] = ((n >> 16U) & 0xFFU); \ + m[2] = ((n >> 8U) & 0xFFU); \ + m[3] = (n & 0xFFU); \ + } + +#define USB_LONG_FROM_BIG_ENDIAN_ADDRESS(n) \ + ((uint32_t)((((uint8_t)n[0]) << 24U) | (((uint8_t)n[1]) << 16U) | (((uint8_t)n[2]) << 8U) | \ + (((uint8_t)n[3]) << 0U))) + +#define USB_SHORT_TO_LITTLE_ENDIAN_ADDRESS(n, m) \ + { \ + m[1] = ((n >> 8U) & 0xFFU); \ + m[0] = (n & 0xFFU); \ + } + +#define USB_SHORT_FROM_LITTLE_ENDIAN_ADDRESS(n) ((uint32_t)((((uint8_t)n[1]) << 8U) | (((uint8_t)n[0]) << 0U))) + +#define USB_SHORT_TO_BIG_ENDIAN_ADDRESS(n, m) \ + { \ + m[0] = ((n >> 8U) & 0xFFU); \ + m[1] = (n & 0xFFU); \ + } + +#define USB_SHORT_FROM_BIG_ENDIAN_ADDRESS(n) ((uint32_t)((((uint8_t)n[0]) << 8U) | (((uint8_t)n[1]) << 0U))) + +#define USB_LONG_TO_LITTLE_ENDIAN_DATA(n, m) \ + { \ + *((uint8_t *)&(m) + 3) = ((n >> 24U) & 0xFFU); \ + *((uint8_t *)&(m) + 2) = ((n >> 16U) & 0xFFU); \ + *((uint8_t *)&(m) + 1) = ((n >> 8U) & 0xFFU); \ + *((uint8_t *)&(m) + 0) = (n & 0xFFU); \ + } + +#define USB_LONG_FROM_LITTLE_ENDIAN_DATA(n) \ + ((uint32_t)(((*((uint8_t *)&(n) + 3)) << 24U) | ((*((uint8_t *)&(n) + 2)) << 16U) | \ + ((*((uint8_t *)&(n) + 1)) << 8U) | ((*((uint8_t *)&(n))) << 0U))) + +#define USB_SHORT_TO_LITTLE_ENDIAN_DATA(n, m) \ + { \ + *((uint8_t *)&(m) + 1) = ((n >> 8U) & 0xFFU); \ + *((uint8_t *)&(m)) = ((n)&0xFFU); \ + } + +#define USB_SHORT_FROM_LITTLE_ENDIAN_DATA(n) ((uint32_t)(((*((uint8_t *)&(n) + 1)) << 8U) | ((*((uint8_t *)&(n)))))) + +#else + +#define USB_SHORT_TO_LITTLE_ENDIAN(n) (n) +#define USB_LONG_TO_LITTLE_ENDIAN(n) (n) +#define USB_SHORT_FROM_LITTLE_ENDIAN(n) (n) +#define USB_LONG_FROM_LITTLE_ENDIAN(n) (n) + +#define USB_SHORT_TO_BIG_ENDIAN(n) SWAP2BYTE_CONST(n) +#define USB_LONG_TO_BIG_ENDIAN(n) SWAP4BYTE_CONST(n) +#define USB_SHORT_FROM_BIG_ENDIAN(n) SWAP2BYTE_CONST(n) +#define USB_LONG_FROM_BIG_ENDIAN(n) SWAP4BYTE_CONST(n) + +#define USB_LONG_TO_LITTLE_ENDIAN_ADDRESS(n, m) \ + { \ + m[3] = ((n >> 24U) & 0xFFU); \ + m[2] = ((n >> 16U) & 0xFFU); \ + m[1] = ((n >> 8U) & 0xFFU); \ + m[0] = (n & 0xFFU); \ + } + +#define USB_LONG_FROM_LITTLE_ENDIAN_ADDRESS(n) \ + ((uint32_t)((((uint8_t)n[3]) << 24U) | (((uint8_t)n[2]) << 16U) | (((uint8_t)n[1]) << 8U) | \ + (((uint8_t)n[0]) << 0U))) + +#define USB_LONG_TO_BIG_ENDIAN_ADDRESS(n, m) \ + { \ + m[0] = ((n >> 24U) & 0xFFU); \ + m[1] = ((n >> 16U) & 0xFFU); \ + m[2] = ((n >> 8U) & 0xFFU); \ + m[3] = (n & 0xFFU); \ + } + +#define USB_LONG_FROM_BIG_ENDIAN_ADDRESS(n) \ + ((uint32_t)((((uint8_t)n[0]) << 24U) | (((uint8_t)n[1]) << 16U) | (((uint8_t)n[2]) << 8U) | \ + (((uint8_t)n[3]) << 0U))) + +#define USB_SHORT_TO_LITTLE_ENDIAN_ADDRESS(n, m) \ + { \ + m[1] = ((n >> 8U) & 0xFFU); \ + m[0] = (n & 0xFFU); \ + } + +#define USB_SHORT_FROM_LITTLE_ENDIAN_ADDRESS(n) ((uint32_t)((((uint8_t)n[1]) << 8U) | (((uint8_t)n[0]) << 0U))) + +#define USB_SHORT_TO_BIG_ENDIAN_ADDRESS(n, m) \ + { \ + m[0] = ((n >> 8U) & 0xFFU); \ + m[1] = (n & 0xFFU); \ + } + +#define USB_SHORT_FROM_BIG_ENDIAN_ADDRESS(n) ((uint32_t)((((uint8_t)n[0]) << 8U) | (((uint8_t)n[1]) << 0U))) + +#define USB_LONG_TO_LITTLE_ENDIAN_DATA(n, m) \ + { \ + *((uint8_t *)&(m) + 3) = ((n >> 24U) & 0xFFU); \ + *((uint8_t *)&(m) + 2) = ((n >> 16U) & 0xFFU); \ + *((uint8_t *)&(m) + 1) = ((n >> 8U) & 0xFFU); \ + *((uint8_t *)&(m) + 0) = (n & 0xFFU); \ + } + +#define USB_LONG_FROM_LITTLE_ENDIAN_DATA(n) \ + ((uint32_t)(((*((uint8_t *)&(n) + 3)) << 24U) | ((*((uint8_t *)&(n) + 2)) << 16U) | \ + ((*((uint8_t *)&(n) + 1)) << 8U) | ((*((uint8_t *)&(n))) << 0U))) + +#define USB_SHORT_TO_LITTLE_ENDIAN_DATA(n, m) \ + { \ + *((uint8_t *)&(m) + 1) = ((n >> 8U) & 0xFFU); \ + *((uint8_t *)&(m)) = ((n)&0xFFU); \ + } + +#define USB_SHORT_FROM_LITTLE_ENDIAN_DATA(n) ((uint32_t)(((*((uint8_t *)&(n) + 1)) << 8U) | ((*((uint8_t *)&(n)))))) + +#endif + +/* + * The following MACROs (USB_GLOBAL, USB_BDT, USB_RAM_ADDRESS_ALIGNMENT, etc) are only used for USB device stack. + * The USB device global variables are put into the section m_usb_global and m_usb_bdt or the section + * .bss.m_usb_global and .bss.m_usb_bdt by using the MACRO USB_GLOBAL and USB_BDT. In this way, the USB device + * global variables can be linked into USB dedicated RAM by USB_STACK_USE_DEDICATED_RAM. + * The MACRO USB_STACK_USE_DEDICATED_RAM is used to decide the USB stack uses dedicated RAM or not. The value of + * the marco can be set as 0, USB_STACK_DEDICATED_RAM_TYPE_BDT_GLOBAL, or USB_STACK_DEDICATED_RAM_TYPE_BDT. + * The MACRO USB_STACK_DEDICATED_RAM_TYPE_BDT_GLOBAL means USB device global variables, including USB_BDT and + * USB_GLOBAL, are put into the USB dedicated RAM. This feature can only be enabled when the USB dedicated RAM + * is not less than 2K Bytes. + * The MACRO USB_STACK_DEDICATED_RAM_TYPE_BDT means USB device global variables, only including USB_BDT, are put + * into the USB dedicated RAM, the USB_GLOBAL will be put into .bss section. This feature is used for some SOCs, + * the USB dedicated RAM size is not more than 512 Bytes. + */ +#define USB_STACK_DEDICATED_RAM_TYPE_BDT_GLOBAL 1 +#define USB_STACK_DEDICATED_RAM_TYPE_BDT 2 + +#if defined(__ICCARM__) + +#define USB_WEAK_VAR __attribute__((weak)) +#define USB_WEAK_FUN __attribute__((weak)) +/* disable misra 19.13 */ +_Pragma("diag_suppress=Pm120") +#define USB_ALIGN_PRAGMA(x) _Pragma(#x) + _Pragma("diag_default=Pm120") + +#define USB_RAM_ADDRESS_ALIGNMENT(n) USB_ALIGN_PRAGMA(data_alignment = n) + _Pragma("diag_suppress=Pm120") +#define USB_LINK_SECTION_PART(str) _Pragma(#str) +#define USB_LINK_SECTION_SUB(sec) USB_LINK_SECTION_PART(location = #sec) +#define USB_LINK_USB_GLOBAL _Pragma("location = \"m_usb_global\"") +#define USB_LINK_USB_BDT _Pragma("location = \"m_usb_bdt\"") +#define USB_LINK_USB_GLOBAL_BSS _Pragma("location = \".bss.m_usb_global\"") +#define USB_LINK_USB_BDT_BSS _Pragma("location = \".bss.m_usb_bdt\"") + _Pragma("diag_default=Pm120") +#define USB_LINK_DMA_NONINIT_DATA _Pragma("location = \"m_usb_dma_noninit_data\"") +#define USB_LINK_NONCACHE_NONINIT_DATA _Pragma("location = \"NonCacheable\"") +#elif defined(__CC_ARM) + +#define USB_WEAK_VAR __attribute__((weak)) +#define USB_WEAK_FUN __weak +#define USB_RAM_ADDRESS_ALIGNMENT(n) __attribute__((aligned(n))) +#define USB_LINK_SECTION_SUB(sec) __attribute__((section(#sec))) +#define USB_LINK_USB_GLOBAL __attribute__((section("m_usb_global"))) __attribute__((zero_init)) +#define USB_LINK_USB_BDT __attribute__((section("m_usb_bdt"))) __attribute__((zero_init)) +#define USB_LINK_USB_GLOBAL_BSS __attribute__((section(".bss.m_usb_global"))) __attribute__((zero_init)) +#define USB_LINK_USB_BDT_BSS __attribute__((section(".bss.m_usb_bdt"))) __attribute__((zero_init)) +#define USB_LINK_DMA_NONINIT_DATA __attribute__((section("m_usb_dma_noninit_data"))) __attribute__((zero_init)) +#define USB_LINK_NONCACHE_NONINIT_DATA __attribute__((section("NonCacheable"))) __attribute__((zero_init)) + +#elif defined(__GNUC__) + +#define USB_WEAK_VAR __attribute__((weak)) +#define USB_WEAK_FUN __attribute__((weak)) +#define USB_RAM_ADDRESS_ALIGNMENT(n) __attribute__((aligned(n))) +#define USB_LINK_SECTION_SUB(sec) __attribute__((section(#sec))) +#define USB_LINK_USB_GLOBAL __attribute__((section("m_usb_global, \"aw\", %nobits @"))) +#define USB_LINK_USB_BDT __attribute__((section("m_usb_bdt, \"aw\", %nobits @"))) +#define USB_LINK_USB_GLOBAL_BSS __attribute__((section(".bss.m_usb_global, \"aw\", %nobits @"))) +#define USB_LINK_USB_BDT_BSS __attribute__((section(".bss.m_usb_bdt, \"aw\", %nobits @"))) +#define USB_LINK_DMA_NONINIT_DATA __attribute__((section("m_usb_dma_noninit_data, \"aw\", %nobits @"))) +#define USB_LINK_NONCACHE_NONINIT_DATA __attribute__((section("NonCacheable, \"aw\", %nobits @"))) + +#else +#error The tool-chain is not supported. +#endif + +#if (defined(USB_DEVICE_CONFIG_BUFFER_PROPERTY_CACHEABLE) && (USB_DEVICE_CONFIG_BUFFER_PROPERTY_CACHEABLE)) || \ + (defined(USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE) && (USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE)) + +#if ((defined(FSL_FEATURE_L2CACHE_LINESIZE_BYTE)) && (defined(FSL_FEATURE_L1DCACHE_LINESIZE_BYTE))) +#define USB_CACHE_LINESIZE MAX(FSL_FEATURE_L2CACHE_LINESIZE_BYTE, FSL_FEATURE_L1DCACHE_LINESIZE_BYTE) +#elif(defined(FSL_FEATURE_L2CACHE_LINESIZE_BYTE)) +#define USB_CACHE_LINESIZE MAX(FSL_FEATURE_L2CACHE_LINESIZE_BYTE, 0) +#elif(defined(FSL_FEATURE_L1DCACHE_LINESIZE_BYTE)) +#define USB_CACHE_LINESIZE MAX(0, FSL_FEATURE_L1DCACHE_LINESIZE_BYTE) +#else +#define USB_CACHE_LINESIZE 4 +#endif + +#else +#define USB_CACHE_LINESIZE 4 +#endif + +#if (((defined(USB_DEVICE_CONFIG_LPCIP3511FS)) && (USB_DEVICE_CONFIG_LPCIP3511FS > 0U)) || \ + ((defined(USB_DEVICE_CONFIG_LPCIP3511HS)) && (USB_DEVICE_CONFIG_LPCIP3511HS > 0U))) +#define USB_DATA_ALIGN 64 +#else +#define USB_DATA_ALIGN 4 +#endif + +#define USB_DATA_ALIGN_SIZE MAX(USB_CACHE_LINESIZE, USB_DATA_ALIGN) + +#define USB_DATA_ALIGN_SIZE_MULTIPLE(n) ((n + USB_DATA_ALIGN_SIZE - 1) & (~(USB_DATA_ALIGN_SIZE - 1))) + +#if defined(USB_STACK_USE_DEDICATED_RAM) && (USB_STACK_USE_DEDICATED_RAM == USB_STACK_DEDICATED_RAM_TYPE_BDT_GLOBAL) + +#define USB_GLOBAL USB_LINK_USB_GLOBAL +#define USB_BDT USB_LINK_USB_BDT + +#if (defined(USB_DEVICE_CONFIG_BUFFER_PROPERTY_CACHEABLE) && (USB_DEVICE_CONFIG_BUFFER_PROPERTY_CACHEABLE)) || \ + (defined(USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE) && (USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE)) +#define USB_DMA_DATA_NONINIT_SUB USB_LINK_DMA_NONINIT_DATA +#define USB_DMA_DATA_INIT_SUB USB_LINK_SECTION_SUB(m_usb_dma_init_data) +#define USB_CONTROLLER_DATA USB_LINK_NONCACHE_NONINIT_DATA +#else +#define USB_DMA_DATA_NONINIT_SUB +#define USB_DMA_DATA_INIT_SUB +#define USB_CONTROLLER_DATA USB_LINK_USB_GLOBAL +#endif + +#elif defined(USB_STACK_USE_DEDICATED_RAM) && (USB_STACK_USE_DEDICATED_RAM == USB_STACK_DEDICATED_RAM_TYPE_BDT) + +#define USB_BDT USB_LINK_USB_BDT + +#if (defined(USB_DEVICE_CONFIG_BUFFER_PROPERTY_CACHEABLE) && (USB_DEVICE_CONFIG_BUFFER_PROPERTY_CACHEABLE)) || \ + (defined(USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE) && (USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE)) +#define USB_GLOBAL USB_LINK_DMA_NONINIT_DATA +#define USB_DMA_DATA_NONINIT_SUB USB_LINK_DMA_NONINIT_DATA +#define USB_DMA_DATA_INIT_SUB USB_LINK_SECTION_SUB(m_usb_dma_init_data) +#define USB_CONTROLLER_DATA USB_LINK_NONCACHE_NONINIT_DATA +#else +#define USB_GLOBAL USB_LINK_USB_GLOBAL_BSS +#define USB_DMA_DATA_NONINIT_SUB +#define USB_DMA_DATA_INIT_SUB +#define USB_CONTROLLER_DATA +#endif + +#else + +#if (defined(USB_DEVICE_CONFIG_BUFFER_PROPERTY_CACHEABLE) && (USB_DEVICE_CONFIG_BUFFER_PROPERTY_CACHEABLE)) || \ + (defined(USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE) && (USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE)) + +#define USB_GLOBAL USB_LINK_DMA_NONINIT_DATA +#define USB_BDT USB_LINK_NONCACHE_NONINIT_DATA +#define USB_DMA_DATA_NONINIT_SUB USB_LINK_DMA_NONINIT_DATA +#define USB_DMA_DATA_INIT_SUB USB_LINK_SECTION_SUB(m_usb_dma_init_data) +#define USB_CONTROLLER_DATA USB_LINK_NONCACHE_NONINIT_DATA + +#else +#define USB_GLOBAL USB_LINK_USB_GLOBAL_BSS +#define USB_BDT USB_LINK_USB_BDT_BSS +#define USB_DMA_DATA_NONINIT_SUB +#define USB_DMA_DATA_INIT_SUB +#define USB_CONTROLLER_DATA +#endif + +#endif + +#define USB_DMA_NONINIT_DATA_ALIGN(n) USB_RAM_ADDRESS_ALIGNMENT(n) USB_DMA_DATA_NONINIT_SUB +#define USB_DMA_INIT_DATA_ALIGN(n) USB_RAM_ADDRESS_ALIGNMENT(n) USB_DMA_DATA_INIT_SUB + +#if (defined(USB_DEVICE_CONFIG_BUFFER_PROPERTY_CACHEABLE) && (USB_DEVICE_CONFIG_BUFFER_PROPERTY_CACHEABLE)) || \ + (defined(USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE) && (USB_HOST_CONFIG_BUFFER_PROPERTY_CACHEABLE)) +#define USB_DMA_DATA_NONCACHEABLE USB_LINK_NONCACHE_NONINIT_DATA + +#else +#define USB_DMA_DATA_NONCACHEABLE +#endif + +#define USB_GLOBAL_DEDICATED_RAM USB_LINK_USB_GLOBAL + +/* #define USB_RAM_ADDRESS_NONCACHEREG_ALIGNMENT(n, var) AT_NONCACHEABLE_SECTION_ALIGN(var, n) */ +/* #define USB_RAM_ADDRESS_NONCACHEREG(var) AT_NONCACHEABLE_SECTION(var) */ + +#endif /* __USB_MISC_H__ */ diff --git a/bsp/imxrt1052-evk/drivers/usb/include/usb_spec.h b/bsp/imxrt1052-evk/drivers/usb/include/usb_spec.h new file mode 100644 index 0000000000000000000000000000000000000000..d77b7d3598693a8b6302e101ec2deb689bef3f88 --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/usb/include/usb_spec.h @@ -0,0 +1,296 @@ +/* + * Copyright (c) 2015 - 2016, Freescale Semiconductor, Inc. + * Copyright 2016 NXP + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * o Redistributions of source code must retain the above copyright notice, this list + * of conditions and the following disclaimer. + * + * o Redistributions in binary form must reproduce the above copyright notice, this + * list of conditions and the following disclaimer in the documentation and/or + * other materials provided with the distribution. + * + * o Neither the name of the copyright holder nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#ifndef __USB_SPEC_H__ +#define __USB_SPEC_H__ + +/******************************************************************************* + * Definitions + ******************************************************************************/ + +/* USB speed (the value cannot be changed because EHCI QH use the value directly)*/ +#define USB_SPEED_FULL (0x00U) +#define USB_SPEED_LOW (0x01U) +#define USB_SPEED_HIGH (0x02U) + +/* Set up packet structure */ +typedef struct _usb_setup_struct +{ + uint8_t bmRequestType; + uint8_t bRequest; + uint16_t wValue; + uint16_t wIndex; + uint16_t wLength; +} usb_setup_struct_t; + +/* USB standard descriptor endpoint type */ +#define USB_ENDPOINT_CONTROL (0x00U) +#define USB_ENDPOINT_ISOCHRONOUS (0x01U) +#define USB_ENDPOINT_BULK (0x02U) +#define USB_ENDPOINT_INTERRUPT (0x03U) + +/* USB standard descriptor transfer direction (cannot change the value because iTD use the value directly) */ +#define USB_OUT (0U) +#define USB_IN (1U) + +/* USB standard descriptor length */ +#define USB_DESCRIPTOR_LENGTH_DEVICE (0x12U) +#define USB_DESCRIPTOR_LENGTH_CONFIGURE (0x09U) +#define USB_DESCRIPTOR_LENGTH_INTERFACE (0x09U) +#define USB_DESCRIPTOR_LENGTH_ENDPOINT (0x07U) +#define USB_DESCRIPTOR_LENGTH_DEVICE_QUALITIER (0x0AU) +#define USB_DESCRIPTOR_LENGTH_OTG_DESCRIPTOR (5U) +#define USB_DESCRIPTOR_LENGTH_BOS_DESCRIPTOR (5U) + +/* USB Device Capability Type Codes */ +#define USB_DESCRIPTOR_TYPE_DEVICE_CAPABILITY_WIRELESS (0x01U) +#define USB_DESCRIPTOR_TYPE_DEVICE_CAPABILITY_USB20_EXTENSION (0x02U) +#define USB_DESCRIPTOR_TYPE_DEVICE_CAPABILITY_SUPERSPEED (0x03U) + +/* USB standard descriptor type */ +#define USB_DESCRIPTOR_TYPE_DEVICE (0x01U) +#define USB_DESCRIPTOR_TYPE_CONFIGURE (0x02U) +#define USB_DESCRIPTOR_TYPE_STRING (0x03U) +#define USB_DESCRIPTOR_TYPE_INTERFACE (0x04U) +#define USB_DESCRIPTOR_TYPE_ENDPOINT (0x05U) +#define USB_DESCRIPTOR_TYPE_DEVICE_QUALITIER (0x06U) +#define USB_DESCRIPTOR_TYPE_OTHER_SPEED_CONFIGURATION (0x07U) +#define USB_DESCRIPTOR_TYPE_INTERFAACE_POWER (0x08U) +#define USB_DESCRIPTOR_TYPE_OTG (0x09U) +#define USB_DESCRIPTOR_TYPE_INTERFACE_ASSOCIATION (0x0BU) +#define USB_DESCRIPTOR_TYPE_BOS (0x0F) +#define USB_DESCRIPTOR_TYPE_DEVICE_CAPABILITY (0x10) + +#define USB_DESCRIPTOR_TYPE_HID (0x21U) +#define USB_DESCRIPTOR_TYPE_HID_REPORT (0x22U) +#define USB_DESCRIPTOR_TYPE_HID_PHYSICAL (0x23U) + +/* USB standard request type */ +#define USB_REQUEST_TYPE_DIR_MASK (0x80U) +#define USB_REQUEST_TYPE_DIR_SHIFT (7U) +#define USB_REQUEST_TYPE_DIR_OUT (0x00U) +#define USB_REQUEST_TYPE_DIR_IN (0x80U) + +#define USB_REQUEST_TYPE_TYPE_MASK (0x60U) +#define USB_REQUEST_TYPE_TYPE_SHIFT (5U) +#define USB_REQUEST_TYPE_TYPE_STANDARD (0U) +#define USB_REQUEST_TYPE_TYPE_CLASS (0x20U) +#define USB_REQUEST_TYPE_TYPE_VENDOR (0x40U) + +#define USB_REQUEST_TYPE_RECIPIENT_MASK (0x1FU) +#define USB_REQUEST_TYPE_RECIPIENT_SHIFT (0U) +#define USB_REQUEST_TYPE_RECIPIENT_DEVICE (0x00U) +#define USB_REQUEST_TYPE_RECIPIENT_INTERFACE (0x01U) +#define USB_REQUEST_TYPE_RECIPIENT_ENDPOINT (0x02U) +#define USB_REQUEST_TYPE_RECIPIENT_OTHER (0x03U) + +/* USB standard request */ +#define USB_REQUEST_STANDARD_GET_STATUS (0x00U) +#define USB_REQUEST_STANDARD_CLEAR_FEATURE (0x01U) +#define USB_REQUEST_STANDARD_SET_FEATURE (0x03U) +#define USB_REQUEST_STANDARD_SET_ADDRESS (0x05U) +#define USB_REQUEST_STANDARD_GET_DESCRIPTOR (0x06U) +#define USB_REQUEST_STANDARD_SET_DESCRIPTOR (0x07U) +#define USB_REQUEST_STANDARD_GET_CONFIGURATION (0x08U) +#define USB_REQUEST_STANDARD_SET_CONFIGURATION (0x09U) +#define USB_REQUEST_STANDARD_GET_INTERFACE (0x0AU) +#define USB_REQUEST_STANDARD_SET_INTERFACE (0x0BU) +#define USB_REQUEST_STANDARD_SYNCH_FRAME (0x0CU) + +/* USB standard request GET Status */ +#define USB_REQUEST_STANDARD_GET_STATUS_DEVICE_SELF_POWERED_SHIFT (0U) +#define USB_REQUEST_STANDARD_GET_STATUS_DEVICE_REMOTE_WARKUP_SHIFT (1U) + +#define USB_REQUEST_STANDARD_GET_STATUS_ENDPOINT_HALT_MASK (0x01U) +#define USB_REQUEST_STANDARD_GET_STATUS_ENDPOINT_HALT_SHIFT (0U) + +#define USB_REQUEST_STANDARD_GET_STATUS_OTG_STATUS_SELECTOR (0xF000U) + +/* USB standard request CLEAR/SET feature */ +#define USB_REQUEST_STANDARD_FEATURE_SELECTOR_ENDPOINT_HALT (0U) +#define USB_REQUEST_STANDARD_FEATURE_SELECTOR_DEVICE_REMOTE_WAKEUP (1U) +#define USB_REQUEST_STANDARD_FEATURE_SELECTOR_DEVICE_TEST_MODE (2U) +#define USB_REQUEST_STANDARD_FEATURE_SELECTOR_B_HNP_ENABLE (3U) +#define USB_REQUEST_STANDARD_FEATURE_SELECTOR_A_HNP_SUPPORT (4U) +#define USB_REQUEST_STANDARD_FEATURE_SELECTOR_A_ALT_HNP_SUPPORT (5U) + +/* USB standard descriptor configure bmAttributes */ +#define USB_DESCRIPTOR_CONFIGURE_ATTRIBUTE_D7_MASK (0x80U) +#define USB_DESCRIPTOR_CONFIGURE_ATTRIBUTE_D7_SHIFT (7U) + +#define USB_DESCRIPTOR_CONFIGURE_ATTRIBUTE_SELF_POWERED_MASK (0x40U) +#define USB_DESCRIPTOR_CONFIGURE_ATTRIBUTE_SELF_POWERED_SHIFT (6U) + +#define USB_DESCRIPTOR_CONFIGURE_ATTRIBUTE_REMOTE_WAKEUP_MASK (0x20U) +#define USB_DESCRIPTOR_CONFIGURE_ATTRIBUTE_REMOTE_WAKEUP_SHIFT (5U) + +/* USB standard descriptor endpoint bmAttributes */ +#define USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_MASK (0x80U) +#define USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_SHIFT (7U) +#define USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_OUT (0U) +#define USB_DESCRIPTOR_ENDPOINT_ADDRESS_DIRECTION_IN (0x80U) + +#define USB_DESCRIPTOR_ENDPOINT_ADDRESS_NUMBER_MASK (0x0FU) +#define USB_DESCRIPTOR_ENDPOINT_ADDRESS_NUMBER_SHFIT (0U) + +#define USB_DESCRIPTOR_ENDPOINT_ATTRIBUTE_TYPE_MASK (0x03U) +#define USB_DESCRIPTOR_ENDPOINT_ATTRIBUTE_NUMBER_SHFIT (0U) + +#define USB_DESCRIPTOR_ENDPOINT_ATTRIBUTE_SYNC_TYPE_MASK (0x0CU) +#define USB_DESCRIPTOR_ENDPOINT_ATTRIBUTE_SYNC_TYPE_SHFIT (2U) +#define USB_DESCRIPTOR_ENDPOINT_ATTRIBUTE_SYNC_TYPE_NO_SYNC (0x00U) +#define USB_DESCRIPTOR_ENDPOINT_ATTRIBUTE_SYNC_TYPE_ASYNC (0x04U) +#define USB_DESCRIPTOR_ENDPOINT_ATTRIBUTE_SYNC_TYPE_ADAPTIVE (0x08U) +#define USB_DESCRIPTOR_ENDPOINT_ATTRIBUTE_SYNC_TYPE_SYNC (0x0CU) + +#define USB_DESCRIPTOR_ENDPOINT_ATTRIBUTE_USAGE_TYPE_MASK (0x30U) +#define USB_DESCRIPTOR_ENDPOINT_ATTRIBUTE_USAGE_TYPE_SHFIT (4U) +#define USB_DESCRIPTOR_ENDPOINT_ATTRIBUTE_USAGE_TYPE_DATA_ENDPOINT (0x00U) +#define USB_DESCRIPTOR_ENDPOINT_ATTRIBUTE_USAGE_TYPE_FEEDBACK_ENDPOINT (0x10U) +#define USB_DESCRIPTOR_ENDPOINT_ATTRIBUTE_USAGE_TYPE_IMPLICIT_FEEDBACK_DATA_ENDPOINT (0x20U) + +#define USB_DESCRIPTOR_ENDPOINT_MAXPACKETSIZE_SIZE_MASK (0x07FFu) +#define USB_DESCRIPTOR_ENDPOINT_MAXPACKETSIZE_MULT_TRANSACTIONS_MASK (0x1800u) +#define USB_DESCRIPTOR_ENDPOINT_MAXPACKETSIZE_MULT_TRANSACTIONS_SHFIT (11U) + +/* USB standard descriptor otg bmAttributes */ +#define USB_DESCRIPTOR_OTG_ATTRIBUTES_SRP_MASK (0x01u) +#define USB_DESCRIPTOR_OTG_ATTRIBUTES_HNP_MASK (0x02u) +#define USB_DESCRIPTOR_OTG_ATTRIBUTES_ADP_MASK (0x04u) + +/* USB standard descriptor device capability usb20 extension bmAttributes */ +#define USB_DESCRIPTOR_DEVICE_CAPABILITY_USB20_EXTENSION_LPM_MASK (0x02U) +#define USB_DESCRIPTOR_DEVICE_CAPABILITY_USB20_EXTENSION_LPM_SHIFT (1U) +#define USB_DESCRIPTOR_DEVICE_CAPABILITY_USB20_EXTENSION_BESL_MASK (0x04U) +#define USB_DESCRIPTOR_DEVICE_CAPABILITY_USB20_EXTENSION_BESL_SHIFT (2U) + + +/* Language structure */ +typedef struct _usb_language +{ + uint8_t **string; /* The Strings descriptor array */ + uint32_t *length; /* The strings descriptor length array */ + uint16_t languageId; /* The language id of current language */ +} usb_language_t; + +typedef struct _usb_language_list +{ + uint8_t *languageString; /* The String 0U pointer */ + uint32_t stringLength; /* The String 0U Length */ + usb_language_t *languageList; /* The language list */ + uint8_t count; /* The language count */ +} usb_language_list_t; + +typedef struct _usb_descriptor_common +{ + uint8_t bLength; /* Size of this descriptor in bytes */ + uint8_t bDescriptorType; /* DEVICE Descriptor Type */ + uint8_t bData[1]; /* Data */ +} usb_descriptor_common_t; + +typedef struct _usb_descriptor_device +{ + uint8_t bLength; /* Size of this descriptor in bytes */ + uint8_t bDescriptorType; /* DEVICE Descriptor Type */ + uint8_t bcdUSB[2]; /* UUSB Specification Release Number in Binary-Coded Decimal, e.g. 0x0200U */ + uint8_t bDeviceClass; /* Class code */ + uint8_t bDeviceSubClass; /* Sub-Class code */ + uint8_t bDeviceProtocol; /* Protocol code */ + uint8_t bMaxPacketSize0; /* Maximum packet size for endpoint zero */ + uint8_t idVendor[2]; /* Vendor ID (assigned by the USB-IF) */ + uint8_t idProduct[2]; /* Product ID (assigned by the manufacturer) */ + uint8_t bcdDevice[2]; /* Device release number in binary-coded decimal */ + uint8_t iManufacturer; /* Index of string descriptor describing manufacturer */ + uint8_t iProduct; /* Index of string descriptor describing product */ + uint8_t iSerialNumber; /* Index of string descriptor describing the device serial number */ + uint8_t bNumConfigurations; /* Number of possible configurations */ +} usb_descriptor_device_t; + +typedef struct _usb_descriptor_configuration +{ + uint8_t bLength; /* Descriptor size in bytes = 9U */ + uint8_t bDescriptorType; /* CONFIGURATION type = 2U or 7U */ + uint8_t wTotalLength[2]; /* Length of concatenated descriptors */ + uint8_t bNumInterfaces; /* Number of interfaces, this configuration. */ + uint8_t bConfigurationValue; /* Value to set this configuration. */ + uint8_t iConfiguration; /* Index to configuration string */ + uint8_t bmAttributes; /* Configuration characteristics */ + uint8_t bMaxPower; /* Maximum power from bus, 2 mA units */ +} usb_descriptor_configuration_t; + +typedef struct _usb_descriptor_interface +{ + uint8_t bLength; + uint8_t bDescriptorType; + uint8_t bInterfaceNumber; + uint8_t bAlternateSetting; + uint8_t bNumEndpoints; + uint8_t bInterfaceClass; + uint8_t bInterfaceSubClass; + uint8_t bInterfaceProtocol; + uint8_t iInterface; +} usb_descriptor_interface_t; + +typedef struct _usb_descriptor_endpoint +{ + uint8_t bLength; + uint8_t bDescriptorType; + uint8_t bEndpointAddress; + uint8_t bmAttributes; + uint8_t wMaxPacketSize[2]; + uint8_t bInterval; +} usb_descriptor_endpoint_t; + +typedef struct _usb_descriptor_binary_device_object_store +{ + uint8_t bLength; /* Descriptor size in bytes = 5U */ + uint8_t bDescriptorType; /* BOS Descriptor type = 0FU*/ + uint8_t wTotalLength[2]; /*Length of this descriptor and all of its sub descriptors*/ + uint8_t bNumDeviceCaps; /*The number of separate device capability descriptors in the BOS*/ +} usb_descriptor_bos_t; + +typedef struct _usb_descriptor_usb20_extension +{ + uint8_t bLength; /* Descriptor size in bytes = 7U */ + uint8_t bDescriptorType; /* DEVICE CAPABILITY Descriptor type = 0x10U*/ + uint8_t bDevCapabilityType; /*Length of this descriptor and all of its sub descriptors*/ + uint8_t bmAttributes[4]; /*Bitmap encoding of supported device level features.*/ +} usb_descriptor_usb20_extension_t; + +typedef union _usb_descriptor_union +{ + usb_descriptor_common_t common; /* Common descriptor */ + usb_descriptor_device_t device; /* Device descriptor */ + usb_descriptor_configuration_t configuration; /* Configuration descriptor */ + usb_descriptor_interface_t interface; /* Interface descriptor */ + usb_descriptor_endpoint_t endpoint; /* Endpoint descriptor */ +} usb_descriptor_union_t; + +#endif /* __USB_SPEC_H__ */ diff --git a/bsp/imxrt1052-evk/drivers/usb/phy/usb_phy.c b/bsp/imxrt1052-evk/drivers/usb/phy/usb_phy.c new file mode 100644 index 0000000000000000000000000000000000000000..85258c63af561ce9537635e819a36c5d6836a5a5 --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/usb/phy/usb_phy.c @@ -0,0 +1,240 @@ +/* + * Copyright (c) 2015 - 2016, Freescale Semiconductor, Inc. + * Copyright 2016 - 2017 NXP + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * o Redistributions of source code must retain the above copyright notice, this list + * of conditions and the following disclaimer. + * + * o Redistributions in binary form must reproduce the above copyright notice, this + * list of conditions and the following disclaimer in the documentation and/or + * other materials provided with the distribution. + * + * o Neither the name of the copyright holder nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#include +#include "fsl_device_registers.h" + +#include + +void *USB_EhciPhyGetBase(uint8_t controllerId) +{ + void *usbPhyBase = NULL; +#if ((defined FSL_FEATURE_SOC_USBPHY_COUNT) && (FSL_FEATURE_SOC_USBPHY_COUNT > 0U)) + uint32_t instance; + uint32_t newinstance = 0; + uint32_t usbphy_base_temp[] = USBPHY_BASE_ADDRS; + uint32_t usbphy_base[] = USBPHY_BASE_ADDRS; + + if (controllerId < kUSB_ControllerEhci0) + { + return NULL; + } + + controllerId = controllerId - kUSB_ControllerEhci0; + + for (instance = 0; instance < (sizeof(usbphy_base_temp) / sizeof(usbphy_base_temp[0])); instance++) + { + if (usbphy_base_temp[instance]) + { + usbphy_base[newinstance++] = usbphy_base_temp[instance]; + } + } + if (controllerId > newinstance) + { + return NULL; + } + + usbPhyBase = (void *)usbphy_base[controllerId]; +#endif + return usbPhyBase; +} + +/*! + * @brief ehci phy initialization. + * + * This function initialize ehci phy IP. + * + * @param[in] controllerId ehci controller id, please reference to #usb_controller_index_t. + * @param[in] freq the external input clock. + * for example: if the external input clock is 16M, the parameter freq should be 16000000. + * + * @retval kStatus_USB_Success cancel successfully. + * @retval kStatus_USB_Error the freq value is incorrect. + */ +uint32_t USB_EhciPhyInit(uint8_t controllerId, uint32_t freq, usb_phy_config_struct_t *phyConfig) +{ +#if ((defined FSL_FEATURE_SOC_USBPHY_COUNT) && (FSL_FEATURE_SOC_USBPHY_COUNT > 0U)) + USBPHY_Type *usbPhyBase; + + usbPhyBase = (USBPHY_Type *)USB_EhciPhyGetBase(controllerId); + if (NULL == usbPhyBase) + { + return kStatus_USB_Error; + } + +#if ((defined FSL_FEATURE_SOC_ANATOP_COUNT) && (FSL_FEATURE_SOC_ANATOP_COUNT > 0U)) + ANATOP->HW_ANADIG_REG_3P0.RW = + (ANATOP->HW_ANADIG_REG_3P0.RW & + (~(ANATOP_HW_ANADIG_REG_3P0_OUTPUT_TRG(0x1F) | ANATOP_HW_ANADIG_REG_3P0_ENABLE_ILIMIT_MASK))) | + ANATOP_HW_ANADIG_REG_3P0_OUTPUT_TRG(0x17) | ANATOP_HW_ANADIG_REG_3P0_ENABLE_LINREG_MASK; + ANATOP->HW_ANADIG_USB2_CHRG_DETECT.SET = + ANATOP_HW_ANADIG_USB2_CHRG_DETECT_CHK_CHRG_B_MASK | ANATOP_HW_ANADIG_USB2_CHRG_DETECT_EN_B_MASK; +#endif + +#if (defined USB_ANALOG) + USB_ANALOG->INSTANCE[controllerId - kUSB_ControllerEhci0].CHRG_DETECT_SET = USB_ANALOG_CHRG_DETECT_CHK_CHRG_B(1) | USB_ANALOG_CHRG_DETECT_EN_B(1); +#endif + +#if ((!(defined FSL_FEATURE_SOC_CCM_ANALOG_COUNT)) && (!(defined FSL_FEATURE_SOC_ANATOP_COUNT))) + + usbPhyBase->TRIM_OVERRIDE_EN = 0x001fU; /* override IFR value */ +#endif + usbPhyBase->CTRL |= USBPHY_CTRL_SET_ENUTMILEVEL2_MASK; /* support LS device. */ + usbPhyBase->CTRL |= USBPHY_CTRL_SET_ENUTMILEVEL3_MASK; /* support external FS Hub with LS device connected. */ + /* PWD register provides overall control of the PHY power state */ + usbPhyBase->PWD = 0U; + + /* Decode to trim the nominal 17.78mA current source for the High Speed TX drivers on USB_DP and USB_DM. */ + usbPhyBase->TX = + ((usbPhyBase->TX & (~(USBPHY_TX_D_CAL_MASK | USBPHY_TX_TXCAL45DM_MASK | USBPHY_TX_TXCAL45DP_MASK))) | + (USBPHY_TX_D_CAL(phyConfig->D_CAL) | USBPHY_TX_TXCAL45DP(phyConfig->TXCAL45DP) | + USBPHY_TX_TXCAL45DM(phyConfig->TXCAL45DM))); +#endif + + return kStatus_USB_Success; +} + +/*! + * @brief ehci phy initialization for suspend and resume. + * + * This function initialize ehci phy IP for suspend and resume. + * + * @param[in] controllerId ehci controller id, please reference to #usb_controller_index_t. + * @param[in] freq the external input clock. + * for example: if the external input clock is 16M, the parameter freq should be 16000000. + * + * @retval kStatus_USB_Success cancel successfully. + * @retval kStatus_USB_Error the freq value is incorrect. + */ +uint32_t USB_EhciLowPowerPhyInit(uint8_t controllerId, uint32_t freq, usb_phy_config_struct_t *phyConfig) +{ +#if ((defined FSL_FEATURE_SOC_USBPHY_COUNT) && (FSL_FEATURE_SOC_USBPHY_COUNT > 0U)) + USBPHY_Type *usbPhyBase; + + usbPhyBase = (USBPHY_Type *)USB_EhciPhyGetBase(controllerId); + if (NULL == usbPhyBase) + { + return kStatus_USB_Error; + } + +#if ((!(defined FSL_FEATURE_SOC_CCM_ANALOG_COUNT)) && (!(defined FSL_FEATURE_SOC_ANATOP_COUNT))) + usbPhyBase->TRIM_OVERRIDE_EN = 0x001fU; /* override IFR value */ +#endif + +#if ((defined USBPHY_CTRL_AUTORESUME_EN_MASK) && (USBPHY_CTRL_AUTORESUME_EN_MASK > 0U)) + usbPhyBase->CTRL |= USBPHY_CTRL_AUTORESUME_EN_MASK; +#else + usbPhyBase->CTRL |= USBPHY_CTRL_ENAUTO_PWRON_PLL_MASK; +#endif + usbPhyBase->CTRL |= USBPHY_CTRL_ENAUTOCLR_CLKGATE_MASK | USBPHY_CTRL_ENAUTOCLR_PHY_PWD_MASK; + usbPhyBase->CTRL |= USBPHY_CTRL_SET_ENUTMILEVEL2_MASK; /* support LS device. */ + usbPhyBase->CTRL |= USBPHY_CTRL_SET_ENUTMILEVEL3_MASK; /* support external FS Hub with LS device connected. */ + /* PWD register provides overall control of the PHY power state */ + usbPhyBase->PWD = 0U; +#if ((!(defined FSL_FEATURE_SOC_CCM_ANALOG_COUNT)) && (!(defined FSL_FEATURE_SOC_ANATOP_COUNT))) + /* now the 480MHz USB clock is up, then configure fractional divider after PLL with PFD + * pfd clock = 480MHz*18/N, where N=18~35 + * Please note that USB1PFDCLK has to be less than 180MHz for RUN or HSRUN mode + */ + usbPhyBase->ANACTRL |= USBPHY_ANACTRL_PFD_FRAC(24); /* N=24 */ + usbPhyBase->ANACTRL |= USBPHY_ANACTRL_PFD_CLK_SEL(1); /* div by 4 */ + + usbPhyBase->ANACTRL &= ~USBPHY_ANACTRL_DEV_PULLDOWN_MASK; + usbPhyBase->ANACTRL &= ~USBPHY_ANACTRL_PFD_CLKGATE_MASK; + while (!(usbPhyBase->ANACTRL & USBPHY_ANACTRL_PFD_STABLE_MASK)) + { + } +#endif + /* Decode to trim the nominal 17.78mA current source for the High Speed TX drivers on USB_DP and USB_DM. */ + usbPhyBase->TX = + ((usbPhyBase->TX & (~(USBPHY_TX_D_CAL_MASK | USBPHY_TX_TXCAL45DM_MASK | USBPHY_TX_TXCAL45DP_MASK))) | + (USBPHY_TX_D_CAL(phyConfig->D_CAL) | USBPHY_TX_TXCAL45DP(phyConfig->TXCAL45DP) | + USBPHY_TX_TXCAL45DM(phyConfig->TXCAL45DM))); +#endif + + return kStatus_USB_Success; +} + +/*! + * @brief ehci phy de-initialization. + * + * This function de-initialize ehci phy IP. + * + * @param[in] controllerId ehci controller id, please reference to #usb_controller_index_t. + */ +void USB_EhciPhyDeinit(uint8_t controllerId) +{ +#if ((defined FSL_FEATURE_SOC_USBPHY_COUNT) && (FSL_FEATURE_SOC_USBPHY_COUNT > 0U)) + USBPHY_Type *usbPhyBase; + + usbPhyBase = (USBPHY_Type *)USB_EhciPhyGetBase(controllerId); + if (NULL == usbPhyBase) + { + return; + } +#if ((!(defined FSL_FEATURE_SOC_CCM_ANALOG_COUNT)) && (!(defined FSL_FEATURE_SOC_ANATOP_COUNT))) + usbPhyBase->PLL_SIC &= ~USBPHY_PLL_SIC_PLL_POWER_MASK; /* power down PLL */ + usbPhyBase->PLL_SIC &= ~USBPHY_PLL_SIC_PLL_EN_USB_CLKS_MASK; /* disable USB clock output from USB PHY PLL */ +#endif + usbPhyBase->CTRL |= USBPHY_CTRL_CLKGATE_MASK; /* set to 1U to gate clocks */ +#endif +} + +/*! + * @brief ehci phy disconnect detection enable or disable. + * + * This function enable/disable host ehci disconnect detection. + * + * @param[in] controllerId ehci controller id, please reference to #usb_controller_index_t. + * @param[in] enable + * 1U - enable; + * 0U - disable; + */ +void USB_EhcihostPhyDisconnectDetectCmd(uint8_t controllerId, uint8_t enable) +{ +#if ((defined FSL_FEATURE_SOC_USBPHY_COUNT) && (FSL_FEATURE_SOC_USBPHY_COUNT > 0U)) + USBPHY_Type *usbPhyBase; + + usbPhyBase = (USBPHY_Type *)USB_EhciPhyGetBase(controllerId); + if (NULL == usbPhyBase) + { + return; + } + + if (enable) + { + usbPhyBase->CTRL |= USBPHY_CTRL_ENHOSTDISCONDETECT_MASK; + } + else + { + usbPhyBase->CTRL &= (~USBPHY_CTRL_ENHOSTDISCONDETECT_MASK); + } +#endif +} diff --git a/bsp/imxrt1052-evk/drivers/usb/phy/usb_phy.h b/bsp/imxrt1052-evk/drivers/usb/phy/usb_phy.h new file mode 100644 index 0000000000000000000000000000000000000000..0409f9c8b90afe8d3585b8c8988055c8545a7912 --- /dev/null +++ b/bsp/imxrt1052-evk/drivers/usb/phy/usb_phy.h @@ -0,0 +1,113 @@ +/* + * Copyright (c) 2015, Freescale Semiconductor, Inc. + * Copyright 2016 - 2017 NXP + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * + * o Redistributions of source code must retain the above copyright notice, this list + * of conditions and the following disclaimer. + * + * o Redistributions in binary form must reproduce the above copyright notice, this + * list of conditions and the following disclaimer in the documentation and/or + * other materials provided with the distribution. + * + * o Neither the name of the copyright holder nor the names of its + * contributors may be used to endorse or promote products derived from this + * software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ +#ifndef __USB_PHY_H__ +#define __USB_PHY_H__ + +/******************************************************************************* + * Definitions + ******************************************************************************/ +typedef struct _usb_phy_config_struct +{ + uint8_t D_CAL; /* Decode to trim the nominal 17.78mA current source */ + uint8_t TXCAL45DP; /* Decode to trim the nominal 45-Ohm series termination resistance to the USB_DP output pin */ + uint8_t TXCAL45DM; /* Decode to trim the nominal 45-Ohm series termination resistance to the USB_DM output pin */ +} usb_phy_config_struct_t; + +#if defined(__cplusplus) +extern "C" { +#endif + +/******************************************************************************* + * API + ******************************************************************************/ +/*! + * @brief EHCI PHY get USB phy bass address. + * + * This function is used to get USB phy bass address. + * + * @param[in] controllerId EHCI controller ID; See the #usb_controller_index_t. + * + * @retval USB phy bass address. + */ +extern void *USB_EhciPhyGetBase(uint8_t controllerId); + +/*! + * @brief EHCI PHY initialization. + * + * This function initializes the EHCI PHY IP. + * + * @param[in] controllerId EHCI controller ID; See the #usb_controller_index_t. + * @param[in] freq The external input clock. + * + * @retval kStatus_USB_Success Cancel successfully. + * @retval kStatus_USB_Error The freq value is incorrect. + */ +extern uint32_t USB_EhciPhyInit(uint8_t controllerId, uint32_t freq, usb_phy_config_struct_t *phyConfig); + +/*! + * @brief ehci phy initialization for suspend and resume. + * + * This function initialize ehci phy IP for suspend and resume. + * + * @param[in] controllerId ehci controller id, please reference to #usb_controller_index_t. + * @param[in] freq the external input clock. + * for example: if the external input clock is 16M, the parameter freq should be 16000000. + * + * @retval kStatus_USB_Success cancel successfully. + * @retval kStatus_USB_Error the freq value is incorrect. + */ +extern uint32_t USB_EhciLowPowerPhyInit(uint8_t controllerId, uint32_t freq, usb_phy_config_struct_t *phyConfig); + +/*! + * @brief EHCI PHY deinitialization. + * + * This function deinitializes the EHCI PHY IP. + * + * @param[in] controllerId EHCI controller ID; See #usb_controller_index_t. + */ +extern void USB_EhciPhyDeinit(uint8_t controllerId); + +/*! + * @brief EHCI PHY disconnect detection enable or disable. + * + * This function enable/disable the host EHCI disconnect detection. + * + * @param[in] controllerId EHCI controller ID; See #usb_controller_index_t. + * @param[in] enable + * 1U - enable; + * 0U - disable; + */ +extern void USB_EhcihostPhyDisconnectDetectCmd(uint8_t controllerId, uint8_t enable); + +#if defined(__cplusplus) +} +#endif + +#endif /* __USB_PHY_H__ */