/* * Copyright (c) 2013-2019, Huawei Technologies Co., Ltd. All rights reserved. * Copyright (c) 2020, Huawei Device Co., Ltd. All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this list of * conditions and the following disclaimer. * * 2. 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. * * 3. 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 "console.h" #include "fcntl.h" #include "sys/ioctl.h" #ifdef LOSCFG_FILE_MODE #include "stdarg.h" #endif #include "unistd.h" #include "securec.h" #include "inode/inode.h" #ifdef LOSCFG_SHELL_DMESG #include "dmesg_pri.h" #endif #ifdef LOSCFG_SHELL #include "shcmd.h" #include "shell_pri.h" #endif #include "los_exc_pri.h" #include "los_process_pri.h" #include "user_copy.h" #ifdef __cplusplus #if __cplusplus extern "C" { #endif /* __cplusplus */ #endif /* __cplusplus */ #define EACH_CHAR 1 #define UART_IOC_MAGIC 'u' #define UART_CFG_ATTR _IOW(UART_IOC_MAGIC, 5, int) #define UART_CFG_PRIVATE _IOW(UART_IOC_MAGIC, 6, int) /* Inter-module variable */ extern UINT32 g_uart_fputc_en; STATIC UINT32 ConsoleSendTask(UINTPTR param); STATIC UINT8 g_taskConsoleIDArray[LOSCFG_BASE_CORE_TSK_LIMIT]; STATIC SPIN_LOCK_INIT(g_consoleSpin); #define SHELL_ENTRYID_INVALID 0xFFFFFFFF #define SHELL_TASK_PRIORITY 9 #define CONSOLE_CIRBUF_EVENT 0x02U #define CONSOLE_SEND_TASK_EXIT 0x04U #define CONSOLE_SEND_TASK_RUNNING 0x10U CONSOLE_CB *g_console[CONSOLE_NUM]; #define MIN(a, b) ((a) < (b) ? (a) : (b)) /* * acquire uart driver function and filep of /dev/console, * then store uart driver function in *filepOps * and store filep of /dev/console in *privFilep. */ INT32 GetFilepOps(const struct file *filep, struct file **privFilep, const struct file_operations_vfs **filepOps) { INT32 ret; if ((filep == NULL) || (filep->f_inode == NULL) || (filep->f_inode->i_private == NULL)) { ret = EINVAL; goto ERROUT; } /* to find console device's filep(now it is *privFilep) throught i_private */ *privFilep = (struct file *)filep->f_inode->i_private; if (((*privFilep)->f_inode == NULL) || ((*privFilep)->f_inode->u.i_ops == NULL)) { ret = EINVAL; goto ERROUT; } /* to find uart driver operation function throutht u.i_opss */ *filepOps = (*privFilep)->f_inode->u.i_ops; return ENOERR; ERROUT: set_errno(ret); return VFS_ERROR; } INT32 ConsoleTcGetAttr(INT32 fd, struct termios *termios) { struct file *filep = NULL; CONSOLE_CB *consoleCB = NULL; if ((fd >= STDIN_FILENO) && (fd <= STDERR_FILENO)) { fd = ConsoleUpdateFd(); if (fd < STDIN_FILENO) { return -EBADF; } } int ret = fs_getfilep(fd, &filep); if (ret < 0) { return -EPERM; } consoleCB = (CONSOLE_CB *)filep->f_priv; if (consoleCB == NULL) { return -EFAULT; } termios->c_lflag = consoleCB->consoleTermios.c_lflag; return LOS_OK; } INT32 ConsoleTcSetAttr(INT32 fd, INT32 actions, const struct termios *termios) { struct file *filep = NULL; CONSOLE_CB *consoleCB = NULL; (VOID)actions; if ((fd >= STDIN_FILENO) && (fd <= STDERR_FILENO)) { fd = ConsoleUpdateFd(); if (fd < STDIN_FILENO) { return -EBADF; } } int ret = fs_getfilep(fd, &filep); if (ret < 0) { return -EPERM; } consoleCB = (CONSOLE_CB *)filep->f_priv; if (consoleCB == NULL) { return -EFAULT; } consoleCB->consoleTermios.c_lflag = termios->c_lflag; return LOS_OK; } STATIC UINT32 ConsoleRefcountGet(const CONSOLE_CB *consoleCB) { return consoleCB->refCount; } STATIC VOID ConsoleRefcountSet(CONSOLE_CB *consoleCB, BOOL flag) { if (flag == TRUE) { ++(consoleCB->refCount); } else { --(consoleCB->refCount); } } BOOL IsConsoleOccupied(const CONSOLE_CB *consoleCB) { if (ConsoleRefcountGet(consoleCB) != FALSE) { return TRUE; } else { return FALSE; } } STATIC INT32 ConsoleCtrlCaptureLine(CONSOLE_CB *consoleCB) { struct termios *consoleTermios = NULL; UINT32 intSave; LOS_SpinLockSave(&g_consoleSpin, &intSave); consoleTermios = &consoleCB->consoleTermios; (VOID)ConsoleTcGetAttr(consoleCB->fd, consoleTermios); consoleTermios->c_lflag |= ICANON | ECHO; (VOID)ConsoleTcSetAttr(consoleCB->fd, 0, consoleTermios); LOS_SpinUnlockRestore(&g_consoleSpin, intSave); return LOS_OK; } STATIC INT32 ConsoleCtrlCaptureChar(CONSOLE_CB *consoleCB) { struct termios *consoleTermios = NULL; UINT32 intSave; LOS_SpinLockSave(&g_consoleSpin, &intSave); consoleTermios = &consoleCB->consoleTermios; (VOID)ConsoleTcGetAttr(consoleCB->fd, consoleTermios); consoleTermios->c_lflag &= ~(ICANON | ECHO); (VOID)ConsoleTcSetAttr(consoleCB->fd, 0, consoleTermios); LOS_SpinUnlockRestore(&g_consoleSpin, intSave); return LOS_OK; } STATIC INT32 ConsoleCtrlRightsCapture(CONSOLE_CB *consoleCB) { (VOID)LOS_SemPend(consoleCB->consoleSem, LOS_WAIT_FOREVER); if ((ConsoleRefcountGet(consoleCB) == 0) && (OsCurrTaskGet()->taskID != consoleCB->shellEntryId)) { /* not 0:indicate that shellentry is in uart_read, suspend shellentry task directly */ (VOID)LOS_TaskSuspend(consoleCB->shellEntryId); } ConsoleRefcountSet(consoleCB, TRUE); return LOS_OK; } STATIC INT32 ConsoleCtrlRightsRelease(CONSOLE_CB *consoleCB) { if (ConsoleRefcountGet(consoleCB) == 0) { PRINT_ERR("console is free\n"); (VOID)LOS_SemPost(consoleCB->consoleSem); return LOS_NOK; } else { ConsoleRefcountSet(consoleCB, FALSE); if ((ConsoleRefcountGet(consoleCB) == 0) && (OsCurrTaskGet()->taskID != consoleCB->shellEntryId)) { (VOID)LOS_TaskResume(consoleCB->shellEntryId); } } (VOID)LOS_SemPost(consoleCB->consoleSem); return LOS_OK; } STATIC CONSOLE_CB *OsGetConsoleByDevice(const CHAR *deviceName) { INT32 ret; CHAR *fullpath = NULL; struct inode *inode = NULL; struct inode_search_s desc; ret = vfs_normalize_path(NULL, deviceName, &fullpath); if (ret < 0) { set_errno(EINVAL); return NULL; } SETUP_SEARCH(&desc, fullpath, false); ret = inode_find(&desc); if (ret < 0) { set_errno(EACCES); free(fullpath); return NULL; } inode = desc.node; free(fullpath); if (g_console[CONSOLE_SERIAL - 1]->devInode == inode) { inode_release(inode); return g_console[CONSOLE_SERIAL - 1]; } else if (g_console[CONSOLE_TELNET - 1]->devInode == inode) { inode_release(inode); return g_console[CONSOLE_TELNET - 1]; } else { inode_release(inode); set_errno(ENOENT); return NULL; } } STATIC INT32 OsGetConsoleID(const CHAR *deviceName) { if ((deviceName != NULL) && (strlen(deviceName) == strlen(SERIAL)) && (!strncmp(deviceName, SERIAL, strlen(SERIAL)))) { return CONSOLE_SERIAL; } #ifdef LOSCFG_NET_TELNET else if ((deviceName != NULL) && (strlen(deviceName) == strlen(TELNET)) && (!strncmp(deviceName, TELNET, strlen(TELNET)))) { return CONSOLE_TELNET; } #endif return -1; } STATIC INT32 OsConsoleFullpathToID(const CHAR *fullpath) { #define CONSOLE_SERIAL_1 "/dev/console1" #define CONSOLE_TELNET_2 "/dev/console2" size_t len; if (fullpath == NULL) { return -1; } len = strlen(fullpath); if ((len == strlen(CONSOLE_SERIAL_1)) && (!strncmp(fullpath, CONSOLE_SERIAL_1, strlen(CONSOLE_SERIAL_1)))) { return CONSOLE_SERIAL; } #ifdef LOSCFG_NET_TELNET else if ((len == strlen(CONSOLE_TELNET_2)) && (!strncmp(fullpath, CONSOLE_TELNET_2, strlen(CONSOLE_TELNET_2)))) { return CONSOLE_TELNET; } #endif return -1; } STATIC BOOL ConsoleFifoEmpty(const CONSOLE_CB *console) { if (console->fifoOut == console->fifoIn) { return TRUE; } return FALSE; } STATIC VOID ConsoleFifoClearup(CONSOLE_CB *console) { console->fifoOut = 0; console->fifoIn = 0; (VOID)memset_s(console->fifo, CONSOLE_FIFO_SIZE, 0, CONSOLE_FIFO_SIZE); } STATIC VOID ConsoleFifoLenUpdate(CONSOLE_CB *console) { console->currentLen = console->fifoIn - console->fifoOut; } STATIC INT32 ConsoleReadFifo(CHAR *buffer, CONSOLE_CB *console, size_t bufLen) { INT32 ret; UINT32 readNum; readNum = MIN(bufLen, console->currentLen); ret = memcpy_s(buffer, bufLen, console->fifo + console->fifoOut, readNum); if (ret != EOK) { PRINTK("%s,%d memcpy_s failed\n", __FUNCTION__, __LINE__); return -1; } console->fifoOut += readNum; if (ConsoleFifoEmpty(console)) { ConsoleFifoClearup(console); } ConsoleFifoLenUpdate(console); return (INT32)readNum; } INT32 FilepOpen(struct file *filep, const struct file_operations_vfs *fops) { INT32 ret; if (fops->open == NULL) { return -EFAULT; } /* * adopt uart open function to open filep (filep is * corresponding to filep of /dev/console) */ ret = fops->open(filep); if (ret < 0) { return -EPERM; } return ret; } STATIC INLINE VOID UserEndOfRead(CONSOLE_CB *consoleCB, struct file *filep, const struct file_operations_vfs *fops) { CHAR ch; if (consoleCB->consoleTermios.c_lflag & ECHO) { ch = '\r'; (VOID)fops->write(filep, &ch, 1); } consoleCB->fifo[consoleCB->fifoIn++] = '\n'; consoleCB->fifo[consoleCB->fifoIn] = '\0'; consoleCB->currentLen = consoleCB->fifoIn; } enum { STAT_NOMAL_KEY, STAT_ESC_KEY, STAT_MULTI_KEY }; STATIC INT32 UserShellCheckUDRL(const CHAR ch, INT32 *lastTokenType) { INT32 ret = LOS_OK; if (ch == 0x1b) { /* 0x1b: ESC */ *lastTokenType = STAT_ESC_KEY; return ret; } else if (ch == 0x5b) { /* 0x5b: first Key combination */ if (*lastTokenType == STAT_ESC_KEY) { *lastTokenType = STAT_MULTI_KEY; return ret; } } else if (ch == 0x41) { /* up */ if (*lastTokenType == STAT_MULTI_KEY) { *lastTokenType = STAT_NOMAL_KEY; return ret; } } else if (ch == 0x42) { /* down */ if (*lastTokenType == STAT_MULTI_KEY) { *lastTokenType = STAT_NOMAL_KEY; return ret; } } else if (ch == 0x43) { /* right */ if (*lastTokenType == STAT_MULTI_KEY) { *lastTokenType = STAT_NOMAL_KEY; return ret; } } else if (ch == 0x44) { /* left */ if (*lastTokenType == STAT_MULTI_KEY) { *lastTokenType = STAT_NOMAL_KEY; return ret; } } return LOS_NOK; } STATIC INT32 IsNeedContinue(CONSOLE_CB *consoleCB, char ch, INT32 *lastTokenType) { if (((ch == '\b') && (consoleCB->consoleTermios.c_lflag & ECHO) && (ConsoleFifoEmpty(consoleCB))) || (UserShellCheckUDRL(ch, lastTokenType) == LOS_OK)) { /* parse the up/down/right/left key */ return LOS_NOK; } return LOS_OK; } STATIC VOID EchoToTerminal(CONSOLE_CB *consoleCB, struct file *filep, const struct file_operations_vfs *fops, char ch) { if (consoleCB->consoleTermios.c_lflag & ECHO) { if (ch == '\b') { (VOID)fops->write(filep, "\b \b", 3); } else { (VOID)fops->write(filep, &ch, EACH_CHAR); } } } STATIC VOID StoreReadChar(CONSOLE_CB *consoleCB, char ch, INT32 readcount) { if ((readcount == EACH_CHAR) && (consoleCB->fifoIn <= (CONSOLE_FIFO_SIZE - 3))) { if (ch == '\b') { consoleCB->fifo[--consoleCB->fifoIn] = '\0'; } else { consoleCB->fifo[consoleCB->fifoIn] = (UINT8)ch; consoleCB->fifoIn++; } } } STATIC INT32 UserFilepRead(CONSOLE_CB *consoleCB, struct file *filep, const struct file_operations_vfs *fops, CHAR *buffer, size_t bufLen) { INT32 ret; INT32 needreturn = LOS_NOK; CHAR ch; INT32 lastTokenType = STAT_NOMAL_KEY; if (fops->read == NULL) { return -EFAULT; } /* Non-ICANON mode */ if ((consoleCB->consoleTermios.c_lflag & ICANON) == 0) { ret = fops->read(filep, buffer, bufLen); if (ret < 0) { return -EPERM; } return ret; } /* ICANON mode: store data to console buffer, read data and stored data into console fifo */ if (consoleCB->currentLen == 0) { while (1) { ret = fops->read(filep, &ch, EACH_CHAR); if (ret <= 0) { return ret; } if (IsNeedContinue(consoleCB, ch, &lastTokenType)) continue; switch (ch) { case '\r': ch = '\n'; case '\n': EchoToTerminal(consoleCB, filep, fops, ch); UserEndOfRead(consoleCB, filep, fops); ret = ConsoleReadFifo(buffer, consoleCB, bufLen); needreturn = LOS_OK; break; case '\b': default: EchoToTerminal(consoleCB, filep, fops, ch); StoreReadChar(consoleCB, ch, ret); break; } if (needreturn == LOS_OK) break; } } else { /* if data is already in console fifo, we returen them immediately */ ret = ConsoleReadFifo(buffer, consoleCB, bufLen); } return ret; } INT32 FilepRead(struct file *filep, const struct file_operations_vfs *fops, CHAR *buffer, size_t bufLen) { INT32 ret; if (fops->read == NULL) { return -EFAULT; } /* * adopt uart read function to read data from filep * and write data to buffer (filep is * corresponding to filep of /dev/console) */ ret = fops->read(filep, buffer, bufLen); if (ret < 0) { return -EPERM; } return ret; } INT32 FilepWrite(struct file *filep, const struct file_operations_vfs *fops, const CHAR *buffer, size_t bufLen) { INT32 ret; if (fops->write == NULL) { return -EFAULT; } ret = fops->write(filep, buffer, bufLen); if (ret < 0) { return -EPERM; } return ret; } INT32 FilepClose(struct file *filep, const struct file_operations_vfs *fops) { INT32 ret; if ((fops == NULL) || (fops->close == NULL)) { return -EFAULT; } /* * adopt uart close function to open filep (filep is * corresponding to filep of /dev/console) */ ret = fops->close(filep); if (ret < 0) { return -EPERM; } return ret; } INT32 FilepIoctl(struct file *filep, const struct file_operations_vfs *fops, INT32 cmd, unsigned long arg) { INT32 ret; if (fops->ioctl == NULL) { return -EFAULT; } ret = fops->ioctl(filep, cmd, arg); if (ret < 0) { return -EPERM; } return ret; } INT32 FilepPoll(struct file *filep, const struct file_operations_vfs *fops, poll_table *fds) { INT32 ret; if (fops->poll == NULL) { return -EFAULT; } /* * adopt uart poll function to poll filep (filep is * corresponding to filep of /dev/serial) */ ret = fops->poll(filep, fds); if (ret < 0) { return -EPERM; } return ret; } STATIC INT32 ConsoleOpen(struct file *filep) { INT32 ret; UINT32 consoleID; struct file *privFilep = NULL; const struct file_operations_vfs *fileOps = NULL; consoleID = (UINT32)OsConsoleFullpathToID(filep->f_path); if (consoleID == (UINT32)-1) { ret = EPERM; goto ERROUT; } filep->f_priv = g_console[consoleID - 1]; ret = GetFilepOps(filep, &privFilep, &fileOps); if (ret != ENOERR) { ret = EINVAL; goto ERROUT; } ret = FilepOpen(privFilep, fileOps); if (ret < 0) { ret = EPERM; goto ERROUT; } return ENOERR; ERROUT: set_errno(ret); return VFS_ERROR; } STATIC INT32 ConsoleClose(struct file *filep) { INT32 ret; struct file *privFilep = NULL; const struct file_operations_vfs *fileOps = NULL; ret = GetFilepOps(filep, &privFilep, &fileOps); if (ret != ENOERR) { ret = EINVAL; goto ERROUT; } ret = FilepClose(privFilep, fileOps); if (ret < 0) { ret = EPERM; goto ERROUT; } return ENOERR; ERROUT: set_errno(ret); return VFS_ERROR; } STATIC ssize_t DoRead(CONSOLE_CB *consoleCB, CHAR *buffer, size_t bufLen, struct file *privFilep, const struct file_operations_vfs *fileOps) { INT32 ret; #ifdef LOSCFG_SHELL if (OsCurrTaskGet()->taskID == consoleCB->shellEntryId) { ret = FilepRead(privFilep, fileOps, buffer, bufLen); } else { #endif (VOID)ConsoleCtrlRightsCapture(consoleCB); ret = UserFilepRead(consoleCB, privFilep, fileOps, buffer, bufLen); (VOID)ConsoleCtrlRightsRelease(consoleCB); #ifdef LOSCFG_SHELL } #endif return ret; } STATIC ssize_t ConsoleRead(struct file *filep, CHAR *buffer, size_t bufLen) { INT32 ret; struct file *privFilep = NULL; CONSOLE_CB *consoleCB = NULL; CHAR *sbuffer = NULL; BOOL userBuf = FALSE; const struct file_operations_vfs *fileOps = NULL; if ((buffer == NULL) || (bufLen == 0) || (bufLen > CONSOLE_FIFO_SIZE)) { ret = EINVAL; goto ERROUT; } userBuf = LOS_IsUserAddressRange((vaddr_t)(UINTPTR)buffer, bufLen); ret = GetFilepOps(filep, &privFilep, &fileOps); if (ret != ENOERR) { ret = -EINVAL; goto ERROUT; } consoleCB = (CONSOLE_CB *)filep->f_priv; if (consoleCB == NULL) { consoleCB = OsGetConsoleByTaskID(OsCurrTaskGet()->taskID); if (consoleCB == NULL) { return -EFAULT; } } /* * shell task use FilepRead function to get data, * user task use UserFilepRead to get data */ sbuffer = userBuf ? LOS_MemAlloc(m_aucSysMem0, bufLen) : buffer; if (sbuffer == NULL) { ret = -ENOMEM; goto ERROUT; } ret = DoRead(consoleCB, sbuffer, bufLen, privFilep, fileOps); if (ret < 0) { goto ERROUT; } if (userBuf) { if (LOS_ArchCopyToUser(buffer, sbuffer, bufLen) != 0) { ret = -EFAULT; goto ERROUT; } LOS_MemFree(m_aucSysMem0, sbuffer); } return ret; ERROUT: if ((userBuf) && (sbuffer != NULL)) { LOS_MemFree(m_aucSysMem0, sbuffer); } set_errno(-ret); return VFS_ERROR; } STATIC ssize_t DoWrite(CirBufSendCB *cirBufSendCB, CHAR *buffer, size_t bufLen) { INT32 cnt = 0; UINT32 intSave; #ifdef LOSCFG_SHELL_DMESG (VOID)OsLogMemcpyRecord(buffer, bufLen); if (!OsCheckConsoleLock()) { #endif LOS_CirBufLock(&cirBufSendCB->cirBufCB, &intSave); while (cnt < (INT32)bufLen) { if ((buffer[cnt] == '\n') || (buffer[cnt] == '\r')) { (VOID)LOS_CirBufWrite(&cirBufSendCB->cirBufCB, "\r", 1); (VOID)LOS_CirBufWrite(&cirBufSendCB->cirBufCB, &buffer[cnt], 1); cnt++; continue; } (VOID)LOS_CirBufWrite(&cirBufSendCB->cirBufCB, &buffer[cnt], 1); cnt++; } LOS_CirBufUnlock(&cirBufSendCB->cirBufCB, intSave); /* Log is cached but not printed when a system exception occurs */ if (OsGetSystemStatus() == OS_SYSTEM_NORMAL) { (VOID)LOS_EventWrite(&cirBufSendCB->sendEvent, CONSOLE_CIRBUF_EVENT); } #ifdef LOSCFG_SHELL_DMESG } #endif return cnt; } STATIC ssize_t ConsoleWrite(struct file *filep, const CHAR *buffer, size_t bufLen) { INT32 ret; CHAR *sbuffer = NULL; BOOL userBuf = FALSE; CirBufSendCB *cirBufSendCB = NULL; struct file *privFilep = NULL; const struct file_operations_vfs *fileOps = NULL; if ((buffer == NULL) || (bufLen == 0) || (bufLen > CONSOLE_FIFO_SIZE)) { ret = EINVAL; goto ERROUT; } userBuf = LOS_IsUserAddressRange((vaddr_t)(UINTPTR)buffer, bufLen); ret = GetFilepOps(filep, &privFilep, &fileOps); if ((ret != ENOERR) || (fileOps->write == NULL) || (filep->f_priv == NULL)) { ret = EINVAL; goto ERROUT; } cirBufSendCB = ((CONSOLE_CB *)filep->f_priv)->cirBufSendCB; /* * adopt uart open function to read data from buffer * and write data to filep (filep is * corresponding to filep of /dev/console) */ sbuffer = userBuf ? LOS_MemAlloc(m_aucSysMem0, bufLen) : (CHAR *)buffer; if (sbuffer == NULL) { ret = ENOMEM; goto ERROUT; } if (userBuf && (LOS_ArchCopyFromUser(sbuffer, buffer, bufLen) != 0)) { ret = EFAULT; goto ERROUT; } ret = DoWrite(cirBufSendCB, sbuffer, bufLen); if (userBuf) { LOS_MemFree(m_aucSysMem0, sbuffer); } return ret; ERROUT: if (userBuf && sbuffer != NULL) { LOS_MemFree(m_aucSysMem0, sbuffer); } set_errno(ret); return VFS_ERROR; } STATIC INT32 ConsoleIoctl(struct file *filep, INT32 cmd, unsigned long arg) { INT32 ret; struct file *privFilep = NULL; CONSOLE_CB *consoleCB = NULL; const struct file_operations_vfs *fileOps = NULL; ret = GetFilepOps(filep, &privFilep, &fileOps); if (ret != ENOERR) { ret = EINVAL; goto ERROUT; } if (fileOps->ioctl == NULL) { ret = EFAULT; goto ERROUT; } consoleCB = (CONSOLE_CB *)filep->f_priv; if (consoleCB == NULL) { ret = EINVAL; goto ERROUT; } switch (cmd) { case CONSOLE_CONTROL_RIGHTS_CAPTURE: ret = ConsoleCtrlRightsCapture(consoleCB); break; case CONSOLE_CONTROL_RIGHTS_RELEASE: ret = ConsoleCtrlRightsRelease(consoleCB); break; case CONSOLE_CONTROL_CAPTURE_LINE: ret = ConsoleCtrlCaptureLine(consoleCB); break; case CONSOLE_CONTROL_CAPTURE_CHAR: ret = ConsoleCtrlCaptureChar(consoleCB); break; case CONSOLE_CONTROL_REG_USERTASK: ret = ConsoleTaskReg(consoleCB->consoleID, arg); break; default: if ((cmd == UART_CFG_ATTR || cmd == UART_CFG_PRIVATE) && !LOS_IsUserAddress(arg)) { ret = EINVAL; goto ERROUT; } ret = fileOps->ioctl(privFilep, cmd, arg); break; } if (ret < 0) { ret = EPERM; goto ERROUT; } return ret; ERROUT: set_errno(ret); return VFS_ERROR; } STATIC INT32 ConsolePoll(struct file *filep, poll_table *fds) { INT32 ret; struct file *privFilep = NULL; const struct file_operations_vfs *fileOps = NULL; ret = GetFilepOps(filep, &privFilep, &fileOps); if (ret != ENOERR) { ret = EINVAL; goto ERROUT; } ret = FilepPoll(privFilep, fileOps, fds); if (ret < 0) { ret = EPERM; goto ERROUT; } return ret; ERROUT: set_errno(ret); return VFS_ERROR; } /* console device driver function structure */ STATIC const struct file_operations_vfs g_consoleDevOps = { .open = ConsoleOpen, /* open */ .close = ConsoleClose, /* close */ .read = ConsoleRead, /* read */ .write = ConsoleWrite, /* write */ .seek = NULL, .ioctl = ConsoleIoctl, .mmap = NULL, #ifndef CONFIG_DISABLE_POLL .poll = ConsolePoll, #endif .unlink = NULL, }; STATIC VOID OsConsoleTermiosInit(CONSOLE_CB *consoleCB, const CHAR *deviceName) { struct termios consoleTermios; if ((deviceName != NULL) && (strlen(deviceName) == strlen(SERIAL)) && (!strncmp(deviceName, SERIAL, strlen(SERIAL)))) { consoleCB->isNonBlock = SetSerialBlock(consoleCB); /* set console to have a buffer for user */ (VOID)ConsoleTcGetAttr(consoleCB->fd, &consoleTermios); consoleTermios.c_lflag |= ICANON | ECHO; (VOID)ConsoleTcSetAttr(consoleCB->fd, 0, &consoleTermios); } #ifdef LOSCFG_NET_TELNET else if ((deviceName != NULL) && (strlen(deviceName) == strlen(TELNET)) && (!strncmp(deviceName, TELNET, strlen(TELNET)))) { consoleCB->isNonBlock = SetTelnetBlock(consoleCB); /* set console to have a buffer for user */ (VOID)ConsoleTcGetAttr(consoleCB->fd, &consoleTermios); consoleTermios.c_lflag |= ICANON | ECHO; (VOID)ConsoleTcSetAttr(consoleCB->fd, 0, &consoleTermios); } #endif } STATIC INT32 OsConsoleFileInit(CONSOLE_CB *consoleCB) { INT32 ret; struct inode *inode = NULL; struct file *filep = NULL; CHAR *fullpath = NULL; struct inode_search_s desc; ret = vfs_normalize_path(NULL, consoleCB->name, &fullpath); if (ret < 0) { return EINVAL; } SETUP_SEARCH(&desc, fullpath, false); ret = inode_find(&desc); if (ret < 0) { ret = EACCES; goto ERROUT_WITH_FULLPATH; } inode = desc.node; consoleCB->fd = files_allocate(inode, O_RDWR, (off_t)0, consoleCB, STDERR_FILENO + 1); if (consoleCB->fd < 0) { ret = EMFILE; goto ERROUT_WITH_INODE; } ret = fs_getfilep(consoleCB->fd, &filep); if (ret < 0) { ret = EPERM; goto ERROUT_WITH_INODE; } filep->f_path = fullpath; return LOS_OK; ERROUT_WITH_INODE: inode_release(inode); ERROUT_WITH_FULLPATH: free(fullpath); return ret; } /* * Initialized console control platform so that when we operate /dev/console * as if we are operating /dev/ttyS0 (uart0). */ STATIC INT32 OsConsoleDevInit(CONSOLE_CB *consoleCB, const CHAR *deviceName) { INT32 ret; CHAR *fullpath = NULL; struct file *filep = NULL; struct inode *inode = NULL; struct inode_search_s desc; /* allocate memory for filep,in order to unchange the value of filep */ filep = (struct file *)LOS_MemAlloc(m_aucSysMem0, sizeof(struct file)); if (filep == NULL) { ret = ENOMEM; goto ERROUT; } /* Adopt procedure of open function to allocate 'filep' to /dev/console */ ret = vfs_normalize_path(NULL, deviceName, &fullpath); if (ret < 0) { ret = EINVAL; goto ERROUT_WITH_FILEP; } SETUP_SEARCH(&desc, fullpath, false); ret = inode_find(&desc); if (ret < 0) { ret = EACCES; goto ERROUT_WITH_FULLPATH; } inode = desc.node; consoleCB->devInode = inode; /* * initialize the console filep which is associated with /dev/console, * assign the uart0 inode of /dev/ttyS0 to console inod of /dev/console, * then we can operate console's filep as if we operate uart0 filep of * /dev/ttyS0. */ (VOID)memset_s(filep, sizeof(struct file), 0, sizeof(struct file)); filep->f_oflags = O_RDWR; filep->f_pos = 0; filep->f_inode = inode; filep->f_path = NULL; filep->f_priv = NULL; if (inode->u.i_ops->open != NULL) { (VOID)inode->u.i_ops->open(filep); } else { ret = EFAULT; goto ERROUT_WITH_INODE; } /* * Use filep to connect console and uart, we can find uart driver function throught filep. * now we can operate /dev/console to operate /dev/ttyS0 through filep. */ ret = register_driver(consoleCB->name, &g_consoleDevOps, DEFFILEMODE, filep); if (ret != LOS_OK) { goto ERROUT_WITH_INODE; } inode_release(inode); free(fullpath); return LOS_OK; ERROUT_WITH_INODE: inode_release(inode); ERROUT_WITH_FULLPATH: free(fullpath); ERROUT_WITH_FILEP: (VOID)LOS_MemFree(m_aucSysMem0, filep); ERROUT: set_errno(ret); return LOS_NOK; } STATIC UINT32 OsConsoleDevDeinit(const CONSOLE_CB *consoleCB) { INT32 ret; struct file *filep = NULL; struct inode *inode = NULL; CHAR *fullpath = NULL; struct inode_search_s desc; ret = vfs_normalize_path(NULL, consoleCB->name, &fullpath); if (ret < 0) { ret = EINVAL; goto ERROUT; } SETUP_SEARCH(&desc, fullpath, false); ret = inode_find(&desc); if (ret < 0) { ret = EACCES; goto ERROUT_WITH_FULLPATH; } inode = desc.node; filep = inode->i_private; if (filep != NULL) { (VOID)LOS_MemFree(m_aucSysMem0, filep); /* free filep what you malloc from console_init */ inode->i_private = NULL; } else { ret = EBADF; goto ERROUT_WITH_INODE; } inode_release(inode); free(fullpath); (VOID)unregister_driver(consoleCB->name); return LOS_OK; ERROUT_WITH_INODE: inode_release(inode); ERROUT_WITH_FULLPATH: free(fullpath); ERROUT: set_errno(ret); return LOS_NOK; } STATIC CirBufSendCB *ConsoleCirBufCreate(VOID) { UINT32 ret; CHAR *fifo = NULL; CirBufSendCB *cirBufSendCB = NULL; CirBuf *cirBufCB = NULL; cirBufSendCB = (CirBufSendCB *)LOS_MemAlloc(m_aucSysMem0, sizeof(CirBufSendCB)); if (cirBufSendCB == NULL) { return NULL; } (VOID)memset_s(cirBufSendCB, sizeof(CirBufSendCB), 0, sizeof(CirBufSendCB)); fifo = (CHAR *)LOS_MemAlloc(m_aucSysMem0, TELNET_CIRBUF_SIZE); if (fifo == NULL) { goto ERROR_WITH_SENDCB; } (VOID)memset_s(fifo, TELNET_CIRBUF_SIZE, 0, TELNET_CIRBUF_SIZE); cirBufCB = &cirBufSendCB->cirBufCB; ret = LOS_CirBufInit(cirBufCB, fifo, TELNET_CIRBUF_SIZE); if (ret != LOS_OK) { goto ERROR_WITH_FIFO; } (VOID)LOS_EventInit(&cirBufSendCB->sendEvent); return cirBufSendCB; ERROR_WITH_FIFO: (VOID)LOS_MemFree(m_aucSysMem0, cirBufCB->fifo); ERROR_WITH_SENDCB: (VOID)LOS_MemFree(m_aucSysMem0, cirBufSendCB); return NULL; } STATIC VOID ConsoleCirBufDelete(CirBufSendCB *cirBufSendCB) { CirBuf *cirBufCB = &cirBufSendCB->cirBufCB; (VOID)LOS_MemFree(m_aucSysMem0, cirBufCB->fifo); LOS_CirBufDeinit(cirBufCB); (VOID)LOS_EventDestroy(&cirBufSendCB->sendEvent); (VOID)LOS_MemFree(m_aucSysMem0, cirBufSendCB); } STATIC UINT32 OsConsoleBufInit(CONSOLE_CB *consoleCB) { UINT32 ret; TSK_INIT_PARAM_S initParam = {0}; consoleCB->cirBufSendCB = ConsoleCirBufCreate(); if (consoleCB->cirBufSendCB == NULL) { return LOS_NOK; } initParam.pfnTaskEntry = (TSK_ENTRY_FUNC)ConsoleSendTask; initParam.usTaskPrio = SHELL_TASK_PRIORITY; initParam.auwArgs[0] = (UINTPTR)consoleCB; initParam.uwStackSize = LOSCFG_BASE_CORE_TSK_DEFAULT_STACK_SIZE; if (consoleCB->consoleID == CONSOLE_SERIAL) { initParam.pcName = "SendToSer"; } else { initParam.pcName = "SendToTelnet"; } initParam.uwResved = LOS_TASK_STATUS_DETACHED; ret = LOS_TaskCreate(&consoleCB->sendTaskID, &initParam); if (ret != LOS_OK) { ConsoleCirBufDelete(consoleCB->cirBufSendCB); consoleCB->cirBufSendCB = NULL; return LOS_NOK; } (VOID)LOS_EventRead(&consoleCB->cirBufSendCB->sendEvent, CONSOLE_SEND_TASK_RUNNING, LOS_WAITMODE_OR | LOS_WAITMODE_CLR, LOS_WAIT_FOREVER); return LOS_OK; } STATIC VOID OsConsoleBufDeinit(CONSOLE_CB *consoleCB) { CirBufSendCB *cirBufSendCB = consoleCB->cirBufSendCB; consoleCB->cirBufSendCB = NULL; (VOID)LOS_EventWrite(&cirBufSendCB->sendEvent, CONSOLE_SEND_TASK_EXIT); } STATIC CONSOLE_CB *OsConsoleCBInit(UINT32 consoleID) { CONSOLE_CB *consoleCB = (CONSOLE_CB *)LOS_MemAlloc((VOID *)m_aucSysMem0, sizeof(CONSOLE_CB)); if (consoleCB == NULL) { return NULL; } (VOID)memset_s(consoleCB, sizeof(CONSOLE_CB), 0, sizeof(CONSOLE_CB)); consoleCB->consoleID = consoleID; consoleCB->shellEntryId = SHELL_ENTRYID_INVALID; /* initialize shellEntryId to an invalid value */ consoleCB->name = LOS_MemAlloc((VOID *)m_aucSysMem0, CONSOLE_NAMELEN); if (consoleCB->name == NULL) { PRINT_ERR("consoleCB->name malloc failed\n"); (VOID)LOS_MemFree((VOID *)m_aucSysMem0, consoleCB); return NULL; } return consoleCB; } STATIC VOID OsConsoleCBDeinit(CONSOLE_CB *consoleCB) { (VOID)LOS_MemFree((VOID *)m_aucSysMem0, consoleCB->name); consoleCB->name = NULL; (VOID)LOS_MemFree((VOID *)m_aucSysMem0, consoleCB); } STATIC CONSOLE_CB *OsConsoleCreate(UINT32 consoleID, const CHAR *deviceName) { INT32 ret; CONSOLE_CB *consoleCB = OsConsoleCBInit(consoleID); if (consoleCB == NULL) { PRINT_ERR("console malloc error.\n"); return NULL; } ret = snprintf_s(consoleCB->name, CONSOLE_NAMELEN, CONSOLE_NAMELEN - 1, "%s%u", CONSOLE, consoleCB->consoleID); if (ret == -1) { PRINT_ERR("consoleCB->name snprintf_s failed\n"); goto ERR_WITH_NAME; } ret = (INT32)OsConsoleBufInit(consoleCB); if (ret != LOS_OK) { goto ERR_WITH_NAME; } ret = (INT32)LOS_SemCreate(1, &consoleCB->consoleSem); if (ret != LOS_OK) { PRINT_ERR("creat sem for uart failed\n"); goto ERR_WITH_BUF; } ret = OsConsoleDevInit(consoleCB, deviceName); if (ret != LOS_OK) { goto ERR_WITH_SEM; } ret = OsConsoleFileInit(consoleCB); if (ret != LOS_OK) { goto ERR_WITH_DEV; } OsConsoleTermiosInit(consoleCB, deviceName); return consoleCB; ERR_WITH_DEV: ret = (INT32)OsConsoleDevDeinit(consoleCB); if (ret != LOS_OK) { PRINT_ERR("OsConsoleDevDeinit failed!\n"); } ERR_WITH_SEM: (VOID)LOS_SemDelete(consoleCB->consoleSem); ERR_WITH_BUF: OsConsoleBufDeinit(consoleCB); ERR_WITH_NAME: OsConsoleCBDeinit(consoleCB); return NULL; } STATIC UINT32 OsConsoleDelete(CONSOLE_CB *consoleCB) { UINT32 ret; (VOID)files_close(consoleCB->fd); ret = OsConsoleDevDeinit(consoleCB); if (ret != LOS_OK) { PRINT_ERR("OsConsoleDevDeinit failed!\n"); } OsConsoleBufDeinit((CONSOLE_CB *)consoleCB); (VOID)LOS_SemDelete(consoleCB->consoleSem); (VOID)LOS_MemFree(m_aucSysMem0, consoleCB->name); consoleCB->name = NULL; (VOID)LOS_MemFree(m_aucSysMem0, consoleCB); return ret; } /* Initialized system console and return stdinfd stdoutfd stderrfd */ INT32 system_console_init(const CHAR *deviceName) { #ifdef LOSCFG_SHELL UINT32 ret; #endif INT32 consoleID; UINT32 intSave; CONSOLE_CB *consoleCB = NULL; consoleID = OsGetConsoleID(deviceName); if (consoleID == -1) { PRINT_ERR("device is full.\n"); return VFS_ERROR; } consoleCB = OsConsoleCreate((UINT32)consoleID, deviceName); if (consoleCB == NULL) { PRINT_ERR("%s, %d\n", __FUNCTION__, __LINE__); return VFS_ERROR; } LOS_SpinLockSave(&g_consoleSpin, &intSave); g_console[consoleID - 1] = consoleCB; if (OsCurrTaskGet() != NULL) { g_taskConsoleIDArray[OsCurrTaskGet()->taskID] = (UINT8)consoleID; } LOS_SpinUnlockRestore(&g_consoleSpin, intSave); #ifdef LOSCFG_SHELL ret = OsShellInit(consoleID); if (ret != LOS_OK) { PRINT_ERR("%s, %d\n", __FUNCTION__, __LINE__); LOS_SpinLockSave(&g_consoleSpin, &intSave); (VOID)OsConsoleDelete(consoleCB); g_console[consoleID - 1] = NULL; g_taskConsoleIDArray[OsCurrTaskGet()->taskID] = 0; LOS_SpinUnlockRestore(&g_consoleSpin, intSave); return VFS_ERROR; } #endif return ENOERR; } INT32 system_console_deinit(const CHAR *deviceName) { UINT32 ret; CONSOLE_CB *consoleCB = NULL; UINT32 taskIdx; LosTaskCB *taskCB = NULL; UINT32 intSave; consoleCB = OsGetConsoleByDevice(deviceName); if (consoleCB == NULL) { return VFS_ERROR; } #ifdef LOSCFG_SHELL (VOID)OsShellDeinit((INT32)consoleCB->consoleID); #endif LOS_SpinLockSave(&g_consoleSpin, &intSave); /* Redirect all tasks to serial as telnet was unavailable after deinitializing */ for (taskIdx = 0; taskIdx < g_taskMaxNum; taskIdx++) { taskCB = ((LosTaskCB *)g_taskCBArray) + taskIdx; if (OsTaskIsUnused(taskCB)) { continue; } else { g_taskConsoleIDArray[taskCB->taskID] = CONSOLE_SERIAL; } } g_console[consoleCB->consoleID - 1] = NULL; LOS_SpinUnlockRestore(&g_consoleSpin, intSave); ret = OsConsoleDelete(consoleCB); if (ret != LOS_OK) { PRINT_ERR("%s, Failed to system_console_deinit\n", __FUNCTION__); return VFS_ERROR; } return ENOERR; } BOOL ConsoleEnable(VOID) { INT32 consoleID; if (OsCurrTaskGet() != NULL) { consoleID = g_taskConsoleIDArray[OsCurrTaskGet()->taskID]; if (g_uart_fputc_en == 0) { if ((g_console[CONSOLE_TELNET - 1] != NULL) && OsPreemptable()) { return TRUE; } else { return FALSE; } } if (consoleID == 0) { return FALSE; } else if ((consoleID == CONSOLE_TELNET) || (consoleID == CONSOLE_SERIAL)) { if ((OsGetSystemStatus() == OS_SYSTEM_NORMAL) && !OsPreemptable()) { return FALSE; } return TRUE; } #if defined (LOSCFG_DRIVERS_USB_SERIAL_GADGET) || defined (LOSCFG_DRIVERS_USB_ETH_SER_GADGET) else if ((SerialTypeGet() == SERIAL_TYPE_USBTTY_DEV) && (userial_mask_get() == 1)) { return TRUE; } #endif } return FALSE; } INT32 ConsoleTaskReg(INT32 consoleID, UINT32 taskID) { if (g_console[consoleID - 1]->shellEntryId == SHELL_ENTRYID_INVALID) { g_console[consoleID - 1]->shellEntryId = taskID; (VOID)OsSetCurrProcessGroupID(OsGetUserInitProcessID()); return LOS_OK; } return LOS_NOK; } BOOL SetSerialNonBlock(const CONSOLE_CB *consoleCB) { INT32 ret; if (consoleCB == NULL) { PRINT_ERR("%s: Input parameter is illegal\n", __FUNCTION__); return FALSE; } ret = ioctl(consoleCB->fd, CONSOLE_CMD_RD_BLOCK_SERIAL, CONSOLE_RD_NONBLOCK); if (ret != 0) { return FALSE; } return TRUE; } BOOL SetSerialBlock(const CONSOLE_CB *consoleCB) { INT32 ret; if (consoleCB == NULL) { PRINT_ERR("%s: Input parameter is illegal\n", __FUNCTION__); return TRUE; } ret = ioctl(consoleCB->fd, CONSOLE_CMD_RD_BLOCK_SERIAL, CONSOLE_RD_BLOCK); if (ret != 0) { return TRUE; } return FALSE; } BOOL SetTelnetNonBlock(const CONSOLE_CB *consoleCB) { INT32 ret; if (consoleCB == NULL) { PRINT_ERR("%s: Input parameter is illegal\n", __FUNCTION__); return FALSE; } ret = ioctl(consoleCB->fd, CONSOLE_CMD_RD_BLOCK_TELNET, CONSOLE_RD_NONBLOCK); if (ret != 0) { return FALSE; } return TRUE; } BOOL SetTelnetBlock(const CONSOLE_CB *consoleCB) { INT32 ret; if (consoleCB == NULL) { PRINT_ERR("%s: Input parameter is illegal\n", __FUNCTION__); return TRUE; } ret = ioctl(consoleCB->fd, CONSOLE_CMD_RD_BLOCK_TELNET, CONSOLE_RD_BLOCK); if (ret != 0) { return TRUE; } return FALSE; } BOOL is_nonblock(const CONSOLE_CB *consoleCB) { if (consoleCB == NULL) { PRINT_ERR("%s: Input parameter is illegal\n", __FUNCTION__); return FALSE; } return consoleCB->isNonBlock; } INT32 ConsoleUpdateFd(VOID) { INT32 consoleID; if (OsCurrTaskGet() != NULL) { consoleID = g_taskConsoleIDArray[(OsCurrTaskGet())->taskID]; } else { return -1; } if (g_uart_fputc_en == 0) { if (g_console[CONSOLE_TELNET - 1] != NULL) { consoleID = CONSOLE_TELNET; } else { return -1; } } else if (consoleID == 0) { if (g_console[CONSOLE_SERIAL - 1] != NULL) { consoleID = CONSOLE_SERIAL; } else if (g_console[CONSOLE_TELNET - 1] != NULL) { consoleID = CONSOLE_TELNET; } else { PRINT_ERR("No console dev used.\n"); return -1; } } if (g_console[consoleID - 1] == NULL) { return -1; } return g_console[consoleID - 1]->fd; } CONSOLE_CB *OsGetConsoleByID(INT32 consoleID) { if (consoleID != CONSOLE_TELNET) { consoleID = CONSOLE_SERIAL; } return g_console[consoleID - 1]; } CONSOLE_CB *OsGetConsoleByTaskID(UINT32 taskID) { INT32 consoleID = g_taskConsoleIDArray[taskID]; return OsGetConsoleByID(consoleID); } VOID OsSetConsoleID(UINT32 newTaskID, UINT32 curTaskID) { if ((newTaskID >= LOSCFG_BASE_CORE_TSK_LIMIT) || (curTaskID >= LOSCFG_BASE_CORE_TSK_LIMIT)) { return; } g_taskConsoleIDArray[newTaskID] = g_taskConsoleIDArray[curTaskID]; } STATIC ssize_t WriteToTerminal(const CONSOLE_CB *consoleCB, const CHAR *buffer, size_t bufLen) { INT32 ret, fd; INT32 cnt = 0; struct file *privFilep = NULL; struct file *filep = NULL; const struct file_operations_vfs *fileOps = NULL; fd = consoleCB->fd; ret = fs_getfilep(fd, &filep); ret = GetFilepOps(filep, &privFilep, &fileOps); if ((fileOps == NULL) || (fileOps->write == NULL)) { ret = EFAULT; goto ERROUT; } (VOID)fileOps->write(privFilep, buffer, bufLen); return cnt; ERROUT: set_errno(ret); return VFS_ERROR; } STATIC UINT32 ConsoleSendTask(UINTPTR param) { CONSOLE_CB *consoleCB = (CONSOLE_CB *)param; CirBufSendCB *cirBufSendCB = consoleCB->cirBufSendCB; CirBuf *cirBufCB = &cirBufSendCB->cirBufCB; UINT32 ret, size; UINT32 intSave; CHAR *buf = NULL; (VOID)LOS_EventWrite(&cirBufSendCB->sendEvent, CONSOLE_SEND_TASK_RUNNING); while (1) { ret = LOS_EventRead(&cirBufSendCB->sendEvent, CONSOLE_CIRBUF_EVENT | CONSOLE_SEND_TASK_EXIT, LOS_WAITMODE_OR | LOS_WAITMODE_CLR, LOS_WAIT_FOREVER); if (ret == CONSOLE_CIRBUF_EVENT) { size = LOS_CirBufUsedSize(cirBufCB); if (size == 0) { continue; } buf = (CHAR *)LOS_MemAlloc(m_aucSysMem1, size + 1); if (buf == NULL) { continue; } (VOID)memset_s(buf, size + 1, 0, size + 1); LOS_CirBufLock(cirBufCB, &intSave); (VOID)LOS_CirBufRead(cirBufCB, buf, size); LOS_CirBufUnlock(cirBufCB, intSave); (VOID)WriteToTerminal(consoleCB, buf, size); (VOID)LOS_MemFree(m_aucSysMem1, buf); } else if (ret == CONSOLE_SEND_TASK_EXIT) { break; } } ConsoleCirBufDelete(cirBufSendCB); return LOS_OK; } #if (LOSCFG_KERNEL_SMP == YES) VOID OsWaitConsoleSendTaskPend(UINT32 taskID) { UINT32 i; CONSOLE_CB *console = NULL; LosTaskCB *taskCB = NULL; for (i = 0; i < CONSOLE_NUM; i++) { console = g_console[i]; if (console == NULL) { continue; } if (OS_TID_CHECK_INVALID(console->sendTaskID)) { continue; } taskCB = OS_TCB_FROM_TID(console->sendTaskID); while ((taskCB->taskEvent == NULL) && (taskID != console->sendTaskID)) { LOS_Mdelay(1); /* 1: wait console task pend */ } } } VOID OsWakeConsoleSendTask(VOID) { UINT32 i; CONSOLE_CB *console = NULL; for (i = 0; i < CONSOLE_NUM; i++) { console = g_console[i]; if (console == NULL) { continue; } if (console->cirBufSendCB != NULL) { (VOID)LOS_EventWrite(&console->cirBufSendCB->sendEvent, CONSOLE_CIRBUF_EVENT); } } } #endif #ifdef __cplusplus #if __cplusplus } #endif /* __cplusplus */ #endif /* __cplusplus */