chip.c 444.2 KB
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/*
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 * Copyright(c) 2015 - 2017 Intel Corporation.
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 *
 * This file is provided under a dual BSD/GPLv2 license.  When using or
 * redistributing this file, you may do so under either license.
 *
 * GPL LICENSE SUMMARY
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of version 2 of the GNU General Public License as
 * published by the Free Software Foundation.
 *
 * This program is distributed in the hope that it will be useful, but
 * WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * General Public License for more details.
 *
 * BSD LICENSE
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 *
 *  - Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 *  - 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.
 *  - Neither the name of Intel Corporation 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
 * OWNER 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.
 *
 */

/*
 * This file contains all of the code that is specific to the HFI chip
 */

#include <linux/pci.h>
#include <linux/delay.h>
#include <linux/interrupt.h>
#include <linux/module.h>

#include "hfi.h"
#include "trace.h"
#include "mad.h"
#include "pio.h"
#include "sdma.h"
#include "eprom.h"
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#include "efivar.h"
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#include "platform.h"
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#include "aspm.h"
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#include "affinity.h"
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#include "debugfs.h"
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#define NUM_IB_PORTS 1

uint kdeth_qp;
module_param_named(kdeth_qp, kdeth_qp, uint, S_IRUGO);
MODULE_PARM_DESC(kdeth_qp, "Set the KDETH queue pair prefix");

uint num_vls = HFI1_MAX_VLS_SUPPORTED;
module_param(num_vls, uint, S_IRUGO);
MODULE_PARM_DESC(num_vls, "Set number of Virtual Lanes to use (1-8)");

/*
 * Default time to aggregate two 10K packets from the idle state
 * (timer not running). The timer starts at the end of the first packet,
 * so only the time for one 10K packet and header plus a bit extra is needed.
 * 10 * 1024 + 64 header byte = 10304 byte
 * 10304 byte / 12.5 GB/s = 824.32ns
 */
uint rcv_intr_timeout = (824 + 16); /* 16 is for coalescing interrupt */
module_param(rcv_intr_timeout, uint, S_IRUGO);
MODULE_PARM_DESC(rcv_intr_timeout, "Receive interrupt mitigation timeout in ns");

uint rcv_intr_count = 16; /* same as qib */
module_param(rcv_intr_count, uint, S_IRUGO);
MODULE_PARM_DESC(rcv_intr_count, "Receive interrupt mitigation count");

ushort link_crc_mask = SUPPORTED_CRCS;
module_param(link_crc_mask, ushort, S_IRUGO);
MODULE_PARM_DESC(link_crc_mask, "CRCs to use on the link");

uint loopback;
module_param_named(loopback, loopback, uint, S_IRUGO);
MODULE_PARM_DESC(loopback, "Put into loopback mode (1 = serdes, 3 = external cable");

/* Other driver tunables */
uint rcv_intr_dynamic = 1; /* enable dynamic mode for rcv int mitigation*/
static ushort crc_14b_sideband = 1;
static uint use_flr = 1;
uint quick_linkup; /* skip LNI */

struct flag_table {
	u64 flag;	/* the flag */
	char *str;	/* description string */
	u16 extra;	/* extra information */
	u16 unused0;
	u32 unused1;
};

/* str must be a string constant */
#define FLAG_ENTRY(str, extra, flag) {flag, str, extra}
#define FLAG_ENTRY0(str, flag) {flag, str, 0}

/* Send Error Consequences */
#define SEC_WRITE_DROPPED	0x1
#define SEC_PACKET_DROPPED	0x2
#define SEC_SC_HALTED		0x4	/* per-context only */
#define SEC_SPC_FREEZE		0x8	/* per-HFI only */

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#define DEFAULT_KRCVQS		  2
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#define MIN_KERNEL_KCTXTS         2
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#define FIRST_KERNEL_KCTXT        1
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/*
 * RSM instance allocation
 *   0 - Verbs
 *   1 - User Fecn Handling
 *   2 - Vnic
 */
#define RSM_INS_VERBS             0
#define RSM_INS_FECN              1
#define RSM_INS_VNIC              2
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/* Bit offset into the GUID which carries HFI id information */
#define GUID_HFI_INDEX_SHIFT     39

/* extract the emulation revision */
#define emulator_rev(dd) ((dd)->irev >> 8)
/* parallel and serial emulation versions are 3 and 4 respectively */
#define is_emulator_p(dd) ((((dd)->irev) & 0xf) == 3)
#define is_emulator_s(dd) ((((dd)->irev) & 0xf) == 4)

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/* RSM fields for Verbs */
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/* packet type */
#define IB_PACKET_TYPE         2ull
#define QW_SHIFT               6ull
/* QPN[7..1] */
#define QPN_WIDTH              7ull

/* LRH.BTH: QW 0, OFFSET 48 - for match */
#define LRH_BTH_QW             0ull
#define LRH_BTH_BIT_OFFSET     48ull
#define LRH_BTH_OFFSET(off)    ((LRH_BTH_QW << QW_SHIFT) | (off))
#define LRH_BTH_MATCH_OFFSET   LRH_BTH_OFFSET(LRH_BTH_BIT_OFFSET)
#define LRH_BTH_SELECT
#define LRH_BTH_MASK           3ull
#define LRH_BTH_VALUE          2ull

/* LRH.SC[3..0] QW 0, OFFSET 56 - for match */
#define LRH_SC_QW              0ull
#define LRH_SC_BIT_OFFSET      56ull
#define LRH_SC_OFFSET(off)     ((LRH_SC_QW << QW_SHIFT) | (off))
#define LRH_SC_MATCH_OFFSET    LRH_SC_OFFSET(LRH_SC_BIT_OFFSET)
#define LRH_SC_MASK            128ull
#define LRH_SC_VALUE           0ull

/* SC[n..0] QW 0, OFFSET 60 - for select */
#define LRH_SC_SELECT_OFFSET  ((LRH_SC_QW << QW_SHIFT) | (60ull))

/* QPN[m+n:1] QW 1, OFFSET 1 */
#define QPN_SELECT_OFFSET      ((1ull << QW_SHIFT) | (1ull))

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/* RSM fields for Vnic */
/* L2_TYPE: QW 0, OFFSET 61 - for match */
#define L2_TYPE_QW             0ull
#define L2_TYPE_BIT_OFFSET     61ull
#define L2_TYPE_OFFSET(off)    ((L2_TYPE_QW << QW_SHIFT) | (off))
#define L2_TYPE_MATCH_OFFSET   L2_TYPE_OFFSET(L2_TYPE_BIT_OFFSET)
#define L2_TYPE_MASK           3ull
#define L2_16B_VALUE           2ull

/* L4_TYPE QW 1, OFFSET 0 - for match */
#define L4_TYPE_QW              1ull
#define L4_TYPE_BIT_OFFSET      0ull
#define L4_TYPE_OFFSET(off)     ((L4_TYPE_QW << QW_SHIFT) | (off))
#define L4_TYPE_MATCH_OFFSET    L4_TYPE_OFFSET(L4_TYPE_BIT_OFFSET)
#define L4_16B_TYPE_MASK        0xFFull
#define L4_16B_ETH_VALUE        0x78ull

/* 16B VESWID - for select */
#define L4_16B_HDR_VESWID_OFFSET  ((2 << QW_SHIFT) | (16ull))
/* 16B ENTROPY - for select */
#define L2_16B_ENTROPY_OFFSET     ((1 << QW_SHIFT) | (32ull))

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/* defines to build power on SC2VL table */
#define SC2VL_VAL( \
	num, \
	sc0, sc0val, \
	sc1, sc1val, \
	sc2, sc2val, \
	sc3, sc3val, \
	sc4, sc4val, \
	sc5, sc5val, \
	sc6, sc6val, \
	sc7, sc7val) \
( \
	((u64)(sc0val) << SEND_SC2VLT##num##_SC##sc0##_SHIFT) | \
	((u64)(sc1val) << SEND_SC2VLT##num##_SC##sc1##_SHIFT) | \
	((u64)(sc2val) << SEND_SC2VLT##num##_SC##sc2##_SHIFT) | \
	((u64)(sc3val) << SEND_SC2VLT##num##_SC##sc3##_SHIFT) | \
	((u64)(sc4val) << SEND_SC2VLT##num##_SC##sc4##_SHIFT) | \
	((u64)(sc5val) << SEND_SC2VLT##num##_SC##sc5##_SHIFT) | \
	((u64)(sc6val) << SEND_SC2VLT##num##_SC##sc6##_SHIFT) | \
	((u64)(sc7val) << SEND_SC2VLT##num##_SC##sc7##_SHIFT)   \
)

#define DC_SC_VL_VAL( \
	range, \
	e0, e0val, \
	e1, e1val, \
	e2, e2val, \
	e3, e3val, \
	e4, e4val, \
	e5, e5val, \
	e6, e6val, \
	e7, e7val, \
	e8, e8val, \
	e9, e9val, \
	e10, e10val, \
	e11, e11val, \
	e12, e12val, \
	e13, e13val, \
	e14, e14val, \
	e15, e15val) \
( \
	((u64)(e0val) << DCC_CFG_SC_VL_TABLE_##range##_ENTRY##e0##_SHIFT) | \
	((u64)(e1val) << DCC_CFG_SC_VL_TABLE_##range##_ENTRY##e1##_SHIFT) | \
	((u64)(e2val) << DCC_CFG_SC_VL_TABLE_##range##_ENTRY##e2##_SHIFT) | \
	((u64)(e3val) << DCC_CFG_SC_VL_TABLE_##range##_ENTRY##e3##_SHIFT) | \
	((u64)(e4val) << DCC_CFG_SC_VL_TABLE_##range##_ENTRY##e4##_SHIFT) | \
	((u64)(e5val) << DCC_CFG_SC_VL_TABLE_##range##_ENTRY##e5##_SHIFT) | \
	((u64)(e6val) << DCC_CFG_SC_VL_TABLE_##range##_ENTRY##e6##_SHIFT) | \
	((u64)(e7val) << DCC_CFG_SC_VL_TABLE_##range##_ENTRY##e7##_SHIFT) | \
	((u64)(e8val) << DCC_CFG_SC_VL_TABLE_##range##_ENTRY##e8##_SHIFT) | \
	((u64)(e9val) << DCC_CFG_SC_VL_TABLE_##range##_ENTRY##e9##_SHIFT) | \
	((u64)(e10val) << DCC_CFG_SC_VL_TABLE_##range##_ENTRY##e10##_SHIFT) | \
	((u64)(e11val) << DCC_CFG_SC_VL_TABLE_##range##_ENTRY##e11##_SHIFT) | \
	((u64)(e12val) << DCC_CFG_SC_VL_TABLE_##range##_ENTRY##e12##_SHIFT) | \
	((u64)(e13val) << DCC_CFG_SC_VL_TABLE_##range##_ENTRY##e13##_SHIFT) | \
	((u64)(e14val) << DCC_CFG_SC_VL_TABLE_##range##_ENTRY##e14##_SHIFT) | \
	((u64)(e15val) << DCC_CFG_SC_VL_TABLE_##range##_ENTRY##e15##_SHIFT) \
)

/* all CceStatus sub-block freeze bits */
#define ALL_FROZE (CCE_STATUS_SDMA_FROZE_SMASK \
			| CCE_STATUS_RXE_FROZE_SMASK \
			| CCE_STATUS_TXE_FROZE_SMASK \
			| CCE_STATUS_TXE_PIO_FROZE_SMASK)
/* all CceStatus sub-block TXE pause bits */
#define ALL_TXE_PAUSE (CCE_STATUS_TXE_PIO_PAUSED_SMASK \
			| CCE_STATUS_TXE_PAUSED_SMASK \
			| CCE_STATUS_SDMA_PAUSED_SMASK)
/* all CceStatus sub-block RXE pause bits */
#define ALL_RXE_PAUSE CCE_STATUS_RXE_PAUSED_SMASK

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#define CNTR_MAX 0xFFFFFFFFFFFFFFFFULL
#define CNTR_32BIT_MAX 0x00000000FFFFFFFF

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/*
 * CCE Error flags.
 */
static struct flag_table cce_err_status_flags[] = {
/* 0*/	FLAG_ENTRY0("CceCsrParityErr",
		CCE_ERR_STATUS_CCE_CSR_PARITY_ERR_SMASK),
/* 1*/	FLAG_ENTRY0("CceCsrReadBadAddrErr",
		CCE_ERR_STATUS_CCE_CSR_READ_BAD_ADDR_ERR_SMASK),
/* 2*/	FLAG_ENTRY0("CceCsrWriteBadAddrErr",
		CCE_ERR_STATUS_CCE_CSR_WRITE_BAD_ADDR_ERR_SMASK),
/* 3*/	FLAG_ENTRY0("CceTrgtAsyncFifoParityErr",
		CCE_ERR_STATUS_CCE_TRGT_ASYNC_FIFO_PARITY_ERR_SMASK),
/* 4*/	FLAG_ENTRY0("CceTrgtAccessErr",
		CCE_ERR_STATUS_CCE_TRGT_ACCESS_ERR_SMASK),
/* 5*/	FLAG_ENTRY0("CceRspdDataParityErr",
		CCE_ERR_STATUS_CCE_RSPD_DATA_PARITY_ERR_SMASK),
/* 6*/	FLAG_ENTRY0("CceCli0AsyncFifoParityErr",
		CCE_ERR_STATUS_CCE_CLI0_ASYNC_FIFO_PARITY_ERR_SMASK),
/* 7*/	FLAG_ENTRY0("CceCsrCfgBusParityErr",
		CCE_ERR_STATUS_CCE_CSR_CFG_BUS_PARITY_ERR_SMASK),
/* 8*/	FLAG_ENTRY0("CceCli2AsyncFifoParityErr",
		CCE_ERR_STATUS_CCE_CLI2_ASYNC_FIFO_PARITY_ERR_SMASK),
/* 9*/	FLAG_ENTRY0("CceCli1AsyncFifoPioCrdtParityErr",
	    CCE_ERR_STATUS_CCE_CLI1_ASYNC_FIFO_PIO_CRDT_PARITY_ERR_SMASK),
/*10*/	FLAG_ENTRY0("CceCli1AsyncFifoPioCrdtParityErr",
	    CCE_ERR_STATUS_CCE_CLI1_ASYNC_FIFO_SDMA_HD_PARITY_ERR_SMASK),
/*11*/	FLAG_ENTRY0("CceCli1AsyncFifoRxdmaParityError",
	    CCE_ERR_STATUS_CCE_CLI1_ASYNC_FIFO_RXDMA_PARITY_ERROR_SMASK),
/*12*/	FLAG_ENTRY0("CceCli1AsyncFifoDbgParityError",
		CCE_ERR_STATUS_CCE_CLI1_ASYNC_FIFO_DBG_PARITY_ERROR_SMASK),
/*13*/	FLAG_ENTRY0("PcicRetryMemCorErr",
		CCE_ERR_STATUS_PCIC_RETRY_MEM_COR_ERR_SMASK),
/*14*/	FLAG_ENTRY0("PcicRetryMemCorErr",
		CCE_ERR_STATUS_PCIC_RETRY_SOT_MEM_COR_ERR_SMASK),
/*15*/	FLAG_ENTRY0("PcicPostHdQCorErr",
		CCE_ERR_STATUS_PCIC_POST_HD_QCOR_ERR_SMASK),
/*16*/	FLAG_ENTRY0("PcicPostHdQCorErr",
		CCE_ERR_STATUS_PCIC_POST_DAT_QCOR_ERR_SMASK),
/*17*/	FLAG_ENTRY0("PcicPostHdQCorErr",
		CCE_ERR_STATUS_PCIC_CPL_HD_QCOR_ERR_SMASK),
/*18*/	FLAG_ENTRY0("PcicCplDatQCorErr",
		CCE_ERR_STATUS_PCIC_CPL_DAT_QCOR_ERR_SMASK),
/*19*/	FLAG_ENTRY0("PcicNPostHQParityErr",
		CCE_ERR_STATUS_PCIC_NPOST_HQ_PARITY_ERR_SMASK),
/*20*/	FLAG_ENTRY0("PcicNPostDatQParityErr",
		CCE_ERR_STATUS_PCIC_NPOST_DAT_QPARITY_ERR_SMASK),
/*21*/	FLAG_ENTRY0("PcicRetryMemUncErr",
		CCE_ERR_STATUS_PCIC_RETRY_MEM_UNC_ERR_SMASK),
/*22*/	FLAG_ENTRY0("PcicRetrySotMemUncErr",
		CCE_ERR_STATUS_PCIC_RETRY_SOT_MEM_UNC_ERR_SMASK),
/*23*/	FLAG_ENTRY0("PcicPostHdQUncErr",
		CCE_ERR_STATUS_PCIC_POST_HD_QUNC_ERR_SMASK),
/*24*/	FLAG_ENTRY0("PcicPostDatQUncErr",
		CCE_ERR_STATUS_PCIC_POST_DAT_QUNC_ERR_SMASK),
/*25*/	FLAG_ENTRY0("PcicCplHdQUncErr",
		CCE_ERR_STATUS_PCIC_CPL_HD_QUNC_ERR_SMASK),
/*26*/	FLAG_ENTRY0("PcicCplDatQUncErr",
		CCE_ERR_STATUS_PCIC_CPL_DAT_QUNC_ERR_SMASK),
/*27*/	FLAG_ENTRY0("PcicTransmitFrontParityErr",
		CCE_ERR_STATUS_PCIC_TRANSMIT_FRONT_PARITY_ERR_SMASK),
/*28*/	FLAG_ENTRY0("PcicTransmitBackParityErr",
		CCE_ERR_STATUS_PCIC_TRANSMIT_BACK_PARITY_ERR_SMASK),
/*29*/	FLAG_ENTRY0("PcicReceiveParityErr",
		CCE_ERR_STATUS_PCIC_RECEIVE_PARITY_ERR_SMASK),
/*30*/	FLAG_ENTRY0("CceTrgtCplTimeoutErr",
		CCE_ERR_STATUS_CCE_TRGT_CPL_TIMEOUT_ERR_SMASK),
/*31*/	FLAG_ENTRY0("LATriggered",
		CCE_ERR_STATUS_LA_TRIGGERED_SMASK),
/*32*/	FLAG_ENTRY0("CceSegReadBadAddrErr",
		CCE_ERR_STATUS_CCE_SEG_READ_BAD_ADDR_ERR_SMASK),
/*33*/	FLAG_ENTRY0("CceSegWriteBadAddrErr",
		CCE_ERR_STATUS_CCE_SEG_WRITE_BAD_ADDR_ERR_SMASK),
/*34*/	FLAG_ENTRY0("CceRcplAsyncFifoParityErr",
		CCE_ERR_STATUS_CCE_RCPL_ASYNC_FIFO_PARITY_ERR_SMASK),
/*35*/	FLAG_ENTRY0("CceRxdmaConvFifoParityErr",
		CCE_ERR_STATUS_CCE_RXDMA_CONV_FIFO_PARITY_ERR_SMASK),
/*36*/	FLAG_ENTRY0("CceMsixTableCorErr",
		CCE_ERR_STATUS_CCE_MSIX_TABLE_COR_ERR_SMASK),
/*37*/	FLAG_ENTRY0("CceMsixTableUncErr",
		CCE_ERR_STATUS_CCE_MSIX_TABLE_UNC_ERR_SMASK),
/*38*/	FLAG_ENTRY0("CceIntMapCorErr",
		CCE_ERR_STATUS_CCE_INT_MAP_COR_ERR_SMASK),
/*39*/	FLAG_ENTRY0("CceIntMapUncErr",
		CCE_ERR_STATUS_CCE_INT_MAP_UNC_ERR_SMASK),
/*40*/	FLAG_ENTRY0("CceMsixCsrParityErr",
		CCE_ERR_STATUS_CCE_MSIX_CSR_PARITY_ERR_SMASK),
/*41-63 reserved*/
};

/*
 * Misc Error flags
 */
#define MES(text) MISC_ERR_STATUS_MISC_##text##_ERR_SMASK
static struct flag_table misc_err_status_flags[] = {
/* 0*/	FLAG_ENTRY0("CSR_PARITY", MES(CSR_PARITY)),
/* 1*/	FLAG_ENTRY0("CSR_READ_BAD_ADDR", MES(CSR_READ_BAD_ADDR)),
/* 2*/	FLAG_ENTRY0("CSR_WRITE_BAD_ADDR", MES(CSR_WRITE_BAD_ADDR)),
/* 3*/	FLAG_ENTRY0("SBUS_WRITE_FAILED", MES(SBUS_WRITE_FAILED)),
/* 4*/	FLAG_ENTRY0("KEY_MISMATCH", MES(KEY_MISMATCH)),
/* 5*/	FLAG_ENTRY0("FW_AUTH_FAILED", MES(FW_AUTH_FAILED)),
/* 6*/	FLAG_ENTRY0("EFUSE_CSR_PARITY", MES(EFUSE_CSR_PARITY)),
/* 7*/	FLAG_ENTRY0("EFUSE_READ_BAD_ADDR", MES(EFUSE_READ_BAD_ADDR)),
/* 8*/	FLAG_ENTRY0("EFUSE_WRITE", MES(EFUSE_WRITE)),
/* 9*/	FLAG_ENTRY0("EFUSE_DONE_PARITY", MES(EFUSE_DONE_PARITY)),
/*10*/	FLAG_ENTRY0("INVALID_EEP_CMD", MES(INVALID_EEP_CMD)),
/*11*/	FLAG_ENTRY0("MBIST_FAIL", MES(MBIST_FAIL)),
/*12*/	FLAG_ENTRY0("PLL_LOCK_FAIL", MES(PLL_LOCK_FAIL))
};

/*
 * TXE PIO Error flags and consequences
 */
static struct flag_table pio_err_status_flags[] = {
/* 0*/	FLAG_ENTRY("PioWriteBadCtxt",
	SEC_WRITE_DROPPED,
	SEND_PIO_ERR_STATUS_PIO_WRITE_BAD_CTXT_ERR_SMASK),
/* 1*/	FLAG_ENTRY("PioWriteAddrParity",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_WRITE_ADDR_PARITY_ERR_SMASK),
/* 2*/	FLAG_ENTRY("PioCsrParity",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_CSR_PARITY_ERR_SMASK),
/* 3*/	FLAG_ENTRY("PioSbMemFifo0",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_SB_MEM_FIFO0_ERR_SMASK),
/* 4*/	FLAG_ENTRY("PioSbMemFifo1",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_SB_MEM_FIFO1_ERR_SMASK),
/* 5*/	FLAG_ENTRY("PioPccFifoParity",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_PCC_FIFO_PARITY_ERR_SMASK),
/* 6*/	FLAG_ENTRY("PioPecFifoParity",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_PEC_FIFO_PARITY_ERR_SMASK),
/* 7*/	FLAG_ENTRY("PioSbrdctlCrrelParity",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_SBRDCTL_CRREL_PARITY_ERR_SMASK),
/* 8*/	FLAG_ENTRY("PioSbrdctrlCrrelFifoParity",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_SBRDCTRL_CRREL_FIFO_PARITY_ERR_SMASK),
/* 9*/	FLAG_ENTRY("PioPktEvictFifoParityErr",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_PKT_EVICT_FIFO_PARITY_ERR_SMASK),
/*10*/	FLAG_ENTRY("PioSmPktResetParity",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_SM_PKT_RESET_PARITY_ERR_SMASK),
/*11*/	FLAG_ENTRY("PioVlLenMemBank0Unc",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_VL_LEN_MEM_BANK0_UNC_ERR_SMASK),
/*12*/	FLAG_ENTRY("PioVlLenMemBank1Unc",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_VL_LEN_MEM_BANK1_UNC_ERR_SMASK),
/*13*/	FLAG_ENTRY("PioVlLenMemBank0Cor",
	0,
	SEND_PIO_ERR_STATUS_PIO_VL_LEN_MEM_BANK0_COR_ERR_SMASK),
/*14*/	FLAG_ENTRY("PioVlLenMemBank1Cor",
	0,
	SEND_PIO_ERR_STATUS_PIO_VL_LEN_MEM_BANK1_COR_ERR_SMASK),
/*15*/	FLAG_ENTRY("PioCreditRetFifoParity",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_CREDIT_RET_FIFO_PARITY_ERR_SMASK),
/*16*/	FLAG_ENTRY("PioPpmcPblFifo",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_PPMC_PBL_FIFO_ERR_SMASK),
/*17*/	FLAG_ENTRY("PioInitSmIn",
	0,
	SEND_PIO_ERR_STATUS_PIO_INIT_SM_IN_ERR_SMASK),
/*18*/	FLAG_ENTRY("PioPktEvictSmOrArbSm",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_PKT_EVICT_SM_OR_ARB_SM_ERR_SMASK),
/*19*/	FLAG_ENTRY("PioHostAddrMemUnc",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_HOST_ADDR_MEM_UNC_ERR_SMASK),
/*20*/	FLAG_ENTRY("PioHostAddrMemCor",
	0,
	SEND_PIO_ERR_STATUS_PIO_HOST_ADDR_MEM_COR_ERR_SMASK),
/*21*/	FLAG_ENTRY("PioWriteDataParity",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_WRITE_DATA_PARITY_ERR_SMASK),
/*22*/	FLAG_ENTRY("PioStateMachine",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_STATE_MACHINE_ERR_SMASK),
/*23*/	FLAG_ENTRY("PioWriteQwValidParity",
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	SEC_WRITE_DROPPED | SEC_SPC_FREEZE,
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	SEND_PIO_ERR_STATUS_PIO_WRITE_QW_VALID_PARITY_ERR_SMASK),
/*24*/	FLAG_ENTRY("PioBlockQwCountParity",
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	SEC_WRITE_DROPPED | SEC_SPC_FREEZE,
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	SEND_PIO_ERR_STATUS_PIO_BLOCK_QW_COUNT_PARITY_ERR_SMASK),
/*25*/	FLAG_ENTRY("PioVlfVlLenParity",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_VLF_VL_LEN_PARITY_ERR_SMASK),
/*26*/	FLAG_ENTRY("PioVlfSopParity",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_VLF_SOP_PARITY_ERR_SMASK),
/*27*/	FLAG_ENTRY("PioVlFifoParity",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_VL_FIFO_PARITY_ERR_SMASK),
/*28*/	FLAG_ENTRY("PioPpmcBqcMemParity",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_PPMC_BQC_MEM_PARITY_ERR_SMASK),
/*29*/	FLAG_ENTRY("PioPpmcSopLen",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_PPMC_SOP_LEN_ERR_SMASK),
/*30-31 reserved*/
/*32*/	FLAG_ENTRY("PioCurrentFreeCntParity",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_CURRENT_FREE_CNT_PARITY_ERR_SMASK),
/*33*/	FLAG_ENTRY("PioLastReturnedCntParity",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_LAST_RETURNED_CNT_PARITY_ERR_SMASK),
/*34*/	FLAG_ENTRY("PioPccSopHeadParity",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_PCC_SOP_HEAD_PARITY_ERR_SMASK),
/*35*/	FLAG_ENTRY("PioPecSopHeadParityErr",
	SEC_SPC_FREEZE,
	SEND_PIO_ERR_STATUS_PIO_PEC_SOP_HEAD_PARITY_ERR_SMASK),
/*36-63 reserved*/
};

/* TXE PIO errors that cause an SPC freeze */
#define ALL_PIO_FREEZE_ERR \
	(SEND_PIO_ERR_STATUS_PIO_WRITE_ADDR_PARITY_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_CSR_PARITY_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_SB_MEM_FIFO0_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_SB_MEM_FIFO1_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_PCC_FIFO_PARITY_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_PEC_FIFO_PARITY_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_SBRDCTL_CRREL_PARITY_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_SBRDCTRL_CRREL_FIFO_PARITY_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_PKT_EVICT_FIFO_PARITY_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_SM_PKT_RESET_PARITY_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_VL_LEN_MEM_BANK0_UNC_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_VL_LEN_MEM_BANK1_UNC_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_CREDIT_RET_FIFO_PARITY_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_PPMC_PBL_FIFO_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_PKT_EVICT_SM_OR_ARB_SM_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_HOST_ADDR_MEM_UNC_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_WRITE_DATA_PARITY_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_STATE_MACHINE_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_WRITE_QW_VALID_PARITY_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_BLOCK_QW_COUNT_PARITY_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_VLF_VL_LEN_PARITY_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_VLF_SOP_PARITY_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_VL_FIFO_PARITY_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_PPMC_BQC_MEM_PARITY_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_PPMC_SOP_LEN_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_CURRENT_FREE_CNT_PARITY_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_LAST_RETURNED_CNT_PARITY_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_PCC_SOP_HEAD_PARITY_ERR_SMASK \
	| SEND_PIO_ERR_STATUS_PIO_PEC_SOP_HEAD_PARITY_ERR_SMASK)

/*
 * TXE SDMA Error flags
 */
static struct flag_table sdma_err_status_flags[] = {
/* 0*/	FLAG_ENTRY0("SDmaRpyTagErr",
		SEND_DMA_ERR_STATUS_SDMA_RPY_TAG_ERR_SMASK),
/* 1*/	FLAG_ENTRY0("SDmaCsrParityErr",
		SEND_DMA_ERR_STATUS_SDMA_CSR_PARITY_ERR_SMASK),
/* 2*/	FLAG_ENTRY0("SDmaPcieReqTrackingUncErr",
		SEND_DMA_ERR_STATUS_SDMA_PCIE_REQ_TRACKING_UNC_ERR_SMASK),
/* 3*/	FLAG_ENTRY0("SDmaPcieReqTrackingCorErr",
		SEND_DMA_ERR_STATUS_SDMA_PCIE_REQ_TRACKING_COR_ERR_SMASK),
/*04-63 reserved*/
};

/* TXE SDMA errors that cause an SPC freeze */
#define ALL_SDMA_FREEZE_ERR  \
		(SEND_DMA_ERR_STATUS_SDMA_RPY_TAG_ERR_SMASK \
		| SEND_DMA_ERR_STATUS_SDMA_CSR_PARITY_ERR_SMASK \
		| SEND_DMA_ERR_STATUS_SDMA_PCIE_REQ_TRACKING_UNC_ERR_SMASK)

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/* SendEgressErrInfo bits that correspond to a PortXmitDiscard counter */
#define PORT_DISCARD_EGRESS_ERRS \
	(SEND_EGRESS_ERR_INFO_TOO_LONG_IB_PACKET_ERR_SMASK \
	| SEND_EGRESS_ERR_INFO_VL_MAPPING_ERR_SMASK \
	| SEND_EGRESS_ERR_INFO_VL_ERR_SMASK)

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/*
 * TXE Egress Error flags
 */
#define SEES(text) SEND_EGRESS_ERR_STATUS_##text##_ERR_SMASK
static struct flag_table egress_err_status_flags[] = {
/* 0*/	FLAG_ENTRY0("TxPktIntegrityMemCorErr", SEES(TX_PKT_INTEGRITY_MEM_COR)),
/* 1*/	FLAG_ENTRY0("TxPktIntegrityMemUncErr", SEES(TX_PKT_INTEGRITY_MEM_UNC)),
/* 2 reserved */
/* 3*/	FLAG_ENTRY0("TxEgressFifoUnderrunOrParityErr",
		SEES(TX_EGRESS_FIFO_UNDERRUN_OR_PARITY)),
/* 4*/	FLAG_ENTRY0("TxLinkdownErr", SEES(TX_LINKDOWN)),
/* 5*/	FLAG_ENTRY0("TxIncorrectLinkStateErr", SEES(TX_INCORRECT_LINK_STATE)),
/* 6 reserved */
/* 7*/	FLAG_ENTRY0("TxPioLaunchIntfParityErr",
		SEES(TX_PIO_LAUNCH_INTF_PARITY)),
/* 8*/	FLAG_ENTRY0("TxSdmaLaunchIntfParityErr",
		SEES(TX_SDMA_LAUNCH_INTF_PARITY)),
/* 9-10 reserved */
/*11*/	FLAG_ENTRY0("TxSbrdCtlStateMachineParityErr",
		SEES(TX_SBRD_CTL_STATE_MACHINE_PARITY)),
/*12*/	FLAG_ENTRY0("TxIllegalVLErr", SEES(TX_ILLEGAL_VL)),
/*13*/	FLAG_ENTRY0("TxLaunchCsrParityErr", SEES(TX_LAUNCH_CSR_PARITY)),
/*14*/	FLAG_ENTRY0("TxSbrdCtlCsrParityErr", SEES(TX_SBRD_CTL_CSR_PARITY)),
/*15*/	FLAG_ENTRY0("TxConfigParityErr", SEES(TX_CONFIG_PARITY)),
/*16*/	FLAG_ENTRY0("TxSdma0DisallowedPacketErr",
		SEES(TX_SDMA0_DISALLOWED_PACKET)),
/*17*/	FLAG_ENTRY0("TxSdma1DisallowedPacketErr",
		SEES(TX_SDMA1_DISALLOWED_PACKET)),
/*18*/	FLAG_ENTRY0("TxSdma2DisallowedPacketErr",
		SEES(TX_SDMA2_DISALLOWED_PACKET)),
/*19*/	FLAG_ENTRY0("TxSdma3DisallowedPacketErr",
		SEES(TX_SDMA3_DISALLOWED_PACKET)),
/*20*/	FLAG_ENTRY0("TxSdma4DisallowedPacketErr",
		SEES(TX_SDMA4_DISALLOWED_PACKET)),
/*21*/	FLAG_ENTRY0("TxSdma5DisallowedPacketErr",
		SEES(TX_SDMA5_DISALLOWED_PACKET)),
/*22*/	FLAG_ENTRY0("TxSdma6DisallowedPacketErr",
		SEES(TX_SDMA6_DISALLOWED_PACKET)),
/*23*/	FLAG_ENTRY0("TxSdma7DisallowedPacketErr",
		SEES(TX_SDMA7_DISALLOWED_PACKET)),
/*24*/	FLAG_ENTRY0("TxSdma8DisallowedPacketErr",
		SEES(TX_SDMA8_DISALLOWED_PACKET)),
/*25*/	FLAG_ENTRY0("TxSdma9DisallowedPacketErr",
		SEES(TX_SDMA9_DISALLOWED_PACKET)),
/*26*/	FLAG_ENTRY0("TxSdma10DisallowedPacketErr",
		SEES(TX_SDMA10_DISALLOWED_PACKET)),
/*27*/	FLAG_ENTRY0("TxSdma11DisallowedPacketErr",
		SEES(TX_SDMA11_DISALLOWED_PACKET)),
/*28*/	FLAG_ENTRY0("TxSdma12DisallowedPacketErr",
		SEES(TX_SDMA12_DISALLOWED_PACKET)),
/*29*/	FLAG_ENTRY0("TxSdma13DisallowedPacketErr",
		SEES(TX_SDMA13_DISALLOWED_PACKET)),
/*30*/	FLAG_ENTRY0("TxSdma14DisallowedPacketErr",
		SEES(TX_SDMA14_DISALLOWED_PACKET)),
/*31*/	FLAG_ENTRY0("TxSdma15DisallowedPacketErr",
		SEES(TX_SDMA15_DISALLOWED_PACKET)),
/*32*/	FLAG_ENTRY0("TxLaunchFifo0UncOrParityErr",
		SEES(TX_LAUNCH_FIFO0_UNC_OR_PARITY)),
/*33*/	FLAG_ENTRY0("TxLaunchFifo1UncOrParityErr",
		SEES(TX_LAUNCH_FIFO1_UNC_OR_PARITY)),
/*34*/	FLAG_ENTRY0("TxLaunchFifo2UncOrParityErr",
		SEES(TX_LAUNCH_FIFO2_UNC_OR_PARITY)),
/*35*/	FLAG_ENTRY0("TxLaunchFifo3UncOrParityErr",
		SEES(TX_LAUNCH_FIFO3_UNC_OR_PARITY)),
/*36*/	FLAG_ENTRY0("TxLaunchFifo4UncOrParityErr",
		SEES(TX_LAUNCH_FIFO4_UNC_OR_PARITY)),
/*37*/	FLAG_ENTRY0("TxLaunchFifo5UncOrParityErr",
		SEES(TX_LAUNCH_FIFO5_UNC_OR_PARITY)),
/*38*/	FLAG_ENTRY0("TxLaunchFifo6UncOrParityErr",
		SEES(TX_LAUNCH_FIFO6_UNC_OR_PARITY)),
/*39*/	FLAG_ENTRY0("TxLaunchFifo7UncOrParityErr",
		SEES(TX_LAUNCH_FIFO7_UNC_OR_PARITY)),
/*40*/	FLAG_ENTRY0("TxLaunchFifo8UncOrParityErr",
		SEES(TX_LAUNCH_FIFO8_UNC_OR_PARITY)),
/*41*/	FLAG_ENTRY0("TxCreditReturnParityErr", SEES(TX_CREDIT_RETURN_PARITY)),
/*42*/	FLAG_ENTRY0("TxSbHdrUncErr", SEES(TX_SB_HDR_UNC)),
/*43*/	FLAG_ENTRY0("TxReadSdmaMemoryUncErr", SEES(TX_READ_SDMA_MEMORY_UNC)),
/*44*/	FLAG_ENTRY0("TxReadPioMemoryUncErr", SEES(TX_READ_PIO_MEMORY_UNC)),
/*45*/	FLAG_ENTRY0("TxEgressFifoUncErr", SEES(TX_EGRESS_FIFO_UNC)),
/*46*/	FLAG_ENTRY0("TxHcrcInsertionErr", SEES(TX_HCRC_INSERTION)),
/*47*/	FLAG_ENTRY0("TxCreditReturnVLErr", SEES(TX_CREDIT_RETURN_VL)),
/*48*/	FLAG_ENTRY0("TxLaunchFifo0CorErr", SEES(TX_LAUNCH_FIFO0_COR)),
/*49*/	FLAG_ENTRY0("TxLaunchFifo1CorErr", SEES(TX_LAUNCH_FIFO1_COR)),
/*50*/	FLAG_ENTRY0("TxLaunchFifo2CorErr", SEES(TX_LAUNCH_FIFO2_COR)),
/*51*/	FLAG_ENTRY0("TxLaunchFifo3CorErr", SEES(TX_LAUNCH_FIFO3_COR)),
/*52*/	FLAG_ENTRY0("TxLaunchFifo4CorErr", SEES(TX_LAUNCH_FIFO4_COR)),
/*53*/	FLAG_ENTRY0("TxLaunchFifo5CorErr", SEES(TX_LAUNCH_FIFO5_COR)),
/*54*/	FLAG_ENTRY0("TxLaunchFifo6CorErr", SEES(TX_LAUNCH_FIFO6_COR)),
/*55*/	FLAG_ENTRY0("TxLaunchFifo7CorErr", SEES(TX_LAUNCH_FIFO7_COR)),
/*56*/	FLAG_ENTRY0("TxLaunchFifo8CorErr", SEES(TX_LAUNCH_FIFO8_COR)),
/*57*/	FLAG_ENTRY0("TxCreditOverrunErr", SEES(TX_CREDIT_OVERRUN)),
/*58*/	FLAG_ENTRY0("TxSbHdrCorErr", SEES(TX_SB_HDR_COR)),
/*59*/	FLAG_ENTRY0("TxReadSdmaMemoryCorErr", SEES(TX_READ_SDMA_MEMORY_COR)),
/*60*/	FLAG_ENTRY0("TxReadPioMemoryCorErr", SEES(TX_READ_PIO_MEMORY_COR)),
/*61*/	FLAG_ENTRY0("TxEgressFifoCorErr", SEES(TX_EGRESS_FIFO_COR)),
/*62*/	FLAG_ENTRY0("TxReadSdmaMemoryCsrUncErr",
		SEES(TX_READ_SDMA_MEMORY_CSR_UNC)),
/*63*/	FLAG_ENTRY0("TxReadPioMemoryCsrUncErr",
		SEES(TX_READ_PIO_MEMORY_CSR_UNC)),
};

/*
 * TXE Egress Error Info flags
 */
#define SEEI(text) SEND_EGRESS_ERR_INFO_##text##_ERR_SMASK
static struct flag_table egress_err_info_flags[] = {
/* 0*/	FLAG_ENTRY0("Reserved", 0ull),
/* 1*/	FLAG_ENTRY0("VLErr", SEEI(VL)),
/* 2*/	FLAG_ENTRY0("JobKeyErr", SEEI(JOB_KEY)),
/* 3*/	FLAG_ENTRY0("JobKeyErr", SEEI(JOB_KEY)),
/* 4*/	FLAG_ENTRY0("PartitionKeyErr", SEEI(PARTITION_KEY)),
/* 5*/	FLAG_ENTRY0("SLIDErr", SEEI(SLID)),
/* 6*/	FLAG_ENTRY0("OpcodeErr", SEEI(OPCODE)),
/* 7*/	FLAG_ENTRY0("VLMappingErr", SEEI(VL_MAPPING)),
/* 8*/	FLAG_ENTRY0("RawErr", SEEI(RAW)),
/* 9*/	FLAG_ENTRY0("RawIPv6Err", SEEI(RAW_IPV6)),
/*10*/	FLAG_ENTRY0("GRHErr", SEEI(GRH)),
/*11*/	FLAG_ENTRY0("BypassErr", SEEI(BYPASS)),
/*12*/	FLAG_ENTRY0("KDETHPacketsErr", SEEI(KDETH_PACKETS)),
/*13*/	FLAG_ENTRY0("NonKDETHPacketsErr", SEEI(NON_KDETH_PACKETS)),
/*14*/	FLAG_ENTRY0("TooSmallIBPacketsErr", SEEI(TOO_SMALL_IB_PACKETS)),
/*15*/	FLAG_ENTRY0("TooSmallBypassPacketsErr", SEEI(TOO_SMALL_BYPASS_PACKETS)),
/*16*/	FLAG_ENTRY0("PbcTestErr", SEEI(PBC_TEST)),
/*17*/	FLAG_ENTRY0("BadPktLenErr", SEEI(BAD_PKT_LEN)),
/*18*/	FLAG_ENTRY0("TooLongIBPacketErr", SEEI(TOO_LONG_IB_PACKET)),
/*19*/	FLAG_ENTRY0("TooLongBypassPacketsErr", SEEI(TOO_LONG_BYPASS_PACKETS)),
/*20*/	FLAG_ENTRY0("PbcStaticRateControlErr", SEEI(PBC_STATIC_RATE_CONTROL)),
/*21*/	FLAG_ENTRY0("BypassBadPktLenErr", SEEI(BAD_PKT_LEN)),
};

/* TXE Egress errors that cause an SPC freeze */
#define ALL_TXE_EGRESS_FREEZE_ERR \
	(SEES(TX_EGRESS_FIFO_UNDERRUN_OR_PARITY) \
	| SEES(TX_PIO_LAUNCH_INTF_PARITY) \
	| SEES(TX_SDMA_LAUNCH_INTF_PARITY) \
	| SEES(TX_SBRD_CTL_STATE_MACHINE_PARITY) \
	| SEES(TX_LAUNCH_CSR_PARITY) \
	| SEES(TX_SBRD_CTL_CSR_PARITY) \
	| SEES(TX_CONFIG_PARITY) \
	| SEES(TX_LAUNCH_FIFO0_UNC_OR_PARITY) \
	| SEES(TX_LAUNCH_FIFO1_UNC_OR_PARITY) \
	| SEES(TX_LAUNCH_FIFO2_UNC_OR_PARITY) \
	| SEES(TX_LAUNCH_FIFO3_UNC_OR_PARITY) \
	| SEES(TX_LAUNCH_FIFO4_UNC_OR_PARITY) \
	| SEES(TX_LAUNCH_FIFO5_UNC_OR_PARITY) \
	| SEES(TX_LAUNCH_FIFO6_UNC_OR_PARITY) \
	| SEES(TX_LAUNCH_FIFO7_UNC_OR_PARITY) \
	| SEES(TX_LAUNCH_FIFO8_UNC_OR_PARITY) \
	| SEES(TX_CREDIT_RETURN_PARITY))

/*
 * TXE Send error flags
 */
#define SES(name) SEND_ERR_STATUS_SEND_##name##_ERR_SMASK
static struct flag_table send_err_status_flags[] = {
708
/* 0*/	FLAG_ENTRY0("SendCsrParityErr", SES(CSR_PARITY)),
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/* 1*/	FLAG_ENTRY0("SendCsrReadBadAddrErr", SES(CSR_READ_BAD_ADDR)),
/* 2*/	FLAG_ENTRY0("SendCsrWriteBadAddrErr", SES(CSR_WRITE_BAD_ADDR))
};

/*
 * TXE Send Context Error flags and consequences
 */
static struct flag_table sc_err_status_flags[] = {
/* 0*/	FLAG_ENTRY("InconsistentSop",
		SEC_PACKET_DROPPED | SEC_SC_HALTED,
		SEND_CTXT_ERR_STATUS_PIO_INCONSISTENT_SOP_ERR_SMASK),
/* 1*/	FLAG_ENTRY("DisallowedPacket",
		SEC_PACKET_DROPPED | SEC_SC_HALTED,
		SEND_CTXT_ERR_STATUS_PIO_DISALLOWED_PACKET_ERR_SMASK),
/* 2*/	FLAG_ENTRY("WriteCrossesBoundary",
		SEC_WRITE_DROPPED | SEC_SC_HALTED,
		SEND_CTXT_ERR_STATUS_PIO_WRITE_CROSSES_BOUNDARY_ERR_SMASK),
/* 3*/	FLAG_ENTRY("WriteOverflow",
		SEC_WRITE_DROPPED | SEC_SC_HALTED,
		SEND_CTXT_ERR_STATUS_PIO_WRITE_OVERFLOW_ERR_SMASK),
/* 4*/	FLAG_ENTRY("WriteOutOfBounds",
		SEC_WRITE_DROPPED | SEC_SC_HALTED,
		SEND_CTXT_ERR_STATUS_PIO_WRITE_OUT_OF_BOUNDS_ERR_SMASK),
/* 5-63 reserved*/
};

/*
 * RXE Receive Error flags
 */
#define RXES(name) RCV_ERR_STATUS_RX_##name##_ERR_SMASK
static struct flag_table rxe_err_status_flags[] = {
/* 0*/	FLAG_ENTRY0("RxDmaCsrCorErr", RXES(DMA_CSR_COR)),
/* 1*/	FLAG_ENTRY0("RxDcIntfParityErr", RXES(DC_INTF_PARITY)),
/* 2*/	FLAG_ENTRY0("RxRcvHdrUncErr", RXES(RCV_HDR_UNC)),
/* 3*/	FLAG_ENTRY0("RxRcvHdrCorErr", RXES(RCV_HDR_COR)),
/* 4*/	FLAG_ENTRY0("RxRcvDataUncErr", RXES(RCV_DATA_UNC)),
/* 5*/	FLAG_ENTRY0("RxRcvDataCorErr", RXES(RCV_DATA_COR)),
/* 6*/	FLAG_ENTRY0("RxRcvQpMapTableUncErr", RXES(RCV_QP_MAP_TABLE_UNC)),
/* 7*/	FLAG_ENTRY0("RxRcvQpMapTableCorErr", RXES(RCV_QP_MAP_TABLE_COR)),
/* 8*/	FLAG_ENTRY0("RxRcvCsrParityErr", RXES(RCV_CSR_PARITY)),
/* 9*/	FLAG_ENTRY0("RxDcSopEopParityErr", RXES(DC_SOP_EOP_PARITY)),
/*10*/	FLAG_ENTRY0("RxDmaFlagUncErr", RXES(DMA_FLAG_UNC)),
/*11*/	FLAG_ENTRY0("RxDmaFlagCorErr", RXES(DMA_FLAG_COR)),
/*12*/	FLAG_ENTRY0("RxRcvFsmEncodingErr", RXES(RCV_FSM_ENCODING)),
/*13*/	FLAG_ENTRY0("RxRbufFreeListUncErr", RXES(RBUF_FREE_LIST_UNC)),
/*14*/	FLAG_ENTRY0("RxRbufFreeListCorErr", RXES(RBUF_FREE_LIST_COR)),
/*15*/	FLAG_ENTRY0("RxRbufLookupDesRegUncErr", RXES(RBUF_LOOKUP_DES_REG_UNC)),
/*16*/	FLAG_ENTRY0("RxRbufLookupDesRegUncCorErr",
		RXES(RBUF_LOOKUP_DES_REG_UNC_COR)),
/*17*/	FLAG_ENTRY0("RxRbufLookupDesUncErr", RXES(RBUF_LOOKUP_DES_UNC)),
/*18*/	FLAG_ENTRY0("RxRbufLookupDesCorErr", RXES(RBUF_LOOKUP_DES_COR)),
/*19*/	FLAG_ENTRY0("RxRbufBlockListReadUncErr",
		RXES(RBUF_BLOCK_LIST_READ_UNC)),
/*20*/	FLAG_ENTRY0("RxRbufBlockListReadCorErr",
		RXES(RBUF_BLOCK_LIST_READ_COR)),
/*21*/	FLAG_ENTRY0("RxRbufCsrQHeadBufNumParityErr",
		RXES(RBUF_CSR_QHEAD_BUF_NUM_PARITY)),
/*22*/	FLAG_ENTRY0("RxRbufCsrQEntCntParityErr",
		RXES(RBUF_CSR_QENT_CNT_PARITY)),
/*23*/	FLAG_ENTRY0("RxRbufCsrQNextBufParityErr",
		RXES(RBUF_CSR_QNEXT_BUF_PARITY)),
/*24*/	FLAG_ENTRY0("RxRbufCsrQVldBitParityErr",
		RXES(RBUF_CSR_QVLD_BIT_PARITY)),
/*25*/	FLAG_ENTRY0("RxRbufCsrQHdPtrParityErr", RXES(RBUF_CSR_QHD_PTR_PARITY)),
/*26*/	FLAG_ENTRY0("RxRbufCsrQTlPtrParityErr", RXES(RBUF_CSR_QTL_PTR_PARITY)),
/*27*/	FLAG_ENTRY0("RxRbufCsrQNumOfPktParityErr",
		RXES(RBUF_CSR_QNUM_OF_PKT_PARITY)),
/*28*/	FLAG_ENTRY0("RxRbufCsrQEOPDWParityErr", RXES(RBUF_CSR_QEOPDW_PARITY)),
/*29*/	FLAG_ENTRY0("RxRbufCtxIdParityErr", RXES(RBUF_CTX_ID_PARITY)),
/*30*/	FLAG_ENTRY0("RxRBufBadLookupErr", RXES(RBUF_BAD_LOOKUP)),
/*31*/	FLAG_ENTRY0("RxRbufFullErr", RXES(RBUF_FULL)),
/*32*/	FLAG_ENTRY0("RxRbufEmptyErr", RXES(RBUF_EMPTY)),
/*33*/	FLAG_ENTRY0("RxRbufFlRdAddrParityErr", RXES(RBUF_FL_RD_ADDR_PARITY)),
/*34*/	FLAG_ENTRY0("RxRbufFlWrAddrParityErr", RXES(RBUF_FL_WR_ADDR_PARITY)),
/*35*/	FLAG_ENTRY0("RxRbufFlInitdoneParityErr",
		RXES(RBUF_FL_INITDONE_PARITY)),
/*36*/	FLAG_ENTRY0("RxRbufFlInitWrAddrParityErr",
		RXES(RBUF_FL_INIT_WR_ADDR_PARITY)),
/*37*/	FLAG_ENTRY0("RxRbufNextFreeBufUncErr", RXES(RBUF_NEXT_FREE_BUF_UNC)),
/*38*/	FLAG_ENTRY0("RxRbufNextFreeBufCorErr", RXES(RBUF_NEXT_FREE_BUF_COR)),
/*39*/	FLAG_ENTRY0("RxLookupDesPart1UncErr", RXES(LOOKUP_DES_PART1_UNC)),
/*40*/	FLAG_ENTRY0("RxLookupDesPart1UncCorErr",
		RXES(LOOKUP_DES_PART1_UNC_COR)),
/*41*/	FLAG_ENTRY0("RxLookupDesPart2ParityErr",
		RXES(LOOKUP_DES_PART2_PARITY)),
/*42*/	FLAG_ENTRY0("RxLookupRcvArrayUncErr", RXES(LOOKUP_RCV_ARRAY_UNC)),
/*43*/	FLAG_ENTRY0("RxLookupRcvArrayCorErr", RXES(LOOKUP_RCV_ARRAY_COR)),
/*44*/	FLAG_ENTRY0("RxLookupCsrParityErr", RXES(LOOKUP_CSR_PARITY)),
/*45*/	FLAG_ENTRY0("RxHqIntrCsrParityErr", RXES(HQ_INTR_CSR_PARITY)),
/*46*/	FLAG_ENTRY0("RxHqIntrFsmErr", RXES(HQ_INTR_FSM)),
/*47*/	FLAG_ENTRY0("RxRbufDescPart1UncErr", RXES(RBUF_DESC_PART1_UNC)),
/*48*/	FLAG_ENTRY0("RxRbufDescPart1CorErr", RXES(RBUF_DESC_PART1_COR)),
/*49*/	FLAG_ENTRY0("RxRbufDescPart2UncErr", RXES(RBUF_DESC_PART2_UNC)),
/*50*/	FLAG_ENTRY0("RxRbufDescPart2CorErr", RXES(RBUF_DESC_PART2_COR)),
/*51*/	FLAG_ENTRY0("RxDmaHdrFifoRdUncErr", RXES(DMA_HDR_FIFO_RD_UNC)),
/*52*/	FLAG_ENTRY0("RxDmaHdrFifoRdCorErr", RXES(DMA_HDR_FIFO_RD_COR)),
/*53*/	FLAG_ENTRY0("RxDmaDataFifoRdUncErr", RXES(DMA_DATA_FIFO_RD_UNC)),
/*54*/	FLAG_ENTRY0("RxDmaDataFifoRdCorErr", RXES(DMA_DATA_FIFO_RD_COR)),
/*55*/	FLAG_ENTRY0("RxRbufDataUncErr", RXES(RBUF_DATA_UNC)),
/*56*/	FLAG_ENTRY0("RxRbufDataCorErr", RXES(RBUF_DATA_COR)),
/*57*/	FLAG_ENTRY0("RxDmaCsrParityErr", RXES(DMA_CSR_PARITY)),
/*58*/	FLAG_ENTRY0("RxDmaEqFsmEncodingErr", RXES(DMA_EQ_FSM_ENCODING)),
/*59*/	FLAG_ENTRY0("RxDmaDqFsmEncodingErr", RXES(DMA_DQ_FSM_ENCODING)),
/*60*/	FLAG_ENTRY0("RxDmaCsrUncErr", RXES(DMA_CSR_UNC)),
/*61*/	FLAG_ENTRY0("RxCsrReadBadAddrErr", RXES(CSR_READ_BAD_ADDR)),
/*62*/	FLAG_ENTRY0("RxCsrWriteBadAddrErr", RXES(CSR_WRITE_BAD_ADDR)),
/*63*/	FLAG_ENTRY0("RxCsrParityErr", RXES(CSR_PARITY))
};

/* RXE errors that will trigger an SPC freeze */
#define ALL_RXE_FREEZE_ERR  \
	(RCV_ERR_STATUS_RX_RCV_QP_MAP_TABLE_UNC_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RCV_CSR_PARITY_ERR_SMASK \
	| RCV_ERR_STATUS_RX_DMA_FLAG_UNC_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RCV_FSM_ENCODING_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_FREE_LIST_UNC_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_LOOKUP_DES_REG_UNC_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_LOOKUP_DES_REG_UNC_COR_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_LOOKUP_DES_UNC_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_BLOCK_LIST_READ_UNC_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_CSR_QHEAD_BUF_NUM_PARITY_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_CSR_QENT_CNT_PARITY_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_CSR_QNEXT_BUF_PARITY_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_CSR_QVLD_BIT_PARITY_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_CSR_QHD_PTR_PARITY_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_CSR_QTL_PTR_PARITY_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_CSR_QNUM_OF_PKT_PARITY_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_CSR_QEOPDW_PARITY_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_CTX_ID_PARITY_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_BAD_LOOKUP_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_FULL_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_EMPTY_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_FL_RD_ADDR_PARITY_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_FL_WR_ADDR_PARITY_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_FL_INITDONE_PARITY_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_FL_INIT_WR_ADDR_PARITY_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_NEXT_FREE_BUF_UNC_ERR_SMASK \
	| RCV_ERR_STATUS_RX_LOOKUP_DES_PART1_UNC_ERR_SMASK \
	| RCV_ERR_STATUS_RX_LOOKUP_DES_PART1_UNC_COR_ERR_SMASK \
	| RCV_ERR_STATUS_RX_LOOKUP_DES_PART2_PARITY_ERR_SMASK \
	| RCV_ERR_STATUS_RX_LOOKUP_RCV_ARRAY_UNC_ERR_SMASK \
	| RCV_ERR_STATUS_RX_LOOKUP_CSR_PARITY_ERR_SMASK \
	| RCV_ERR_STATUS_RX_HQ_INTR_CSR_PARITY_ERR_SMASK \
	| RCV_ERR_STATUS_RX_HQ_INTR_FSM_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_DESC_PART1_UNC_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_DESC_PART1_COR_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_DESC_PART2_UNC_ERR_SMASK \
	| RCV_ERR_STATUS_RX_DMA_HDR_FIFO_RD_UNC_ERR_SMASK \
	| RCV_ERR_STATUS_RX_DMA_DATA_FIFO_RD_UNC_ERR_SMASK \
	| RCV_ERR_STATUS_RX_RBUF_DATA_UNC_ERR_SMASK \
	| RCV_ERR_STATUS_RX_DMA_CSR_PARITY_ERR_SMASK \
	| RCV_ERR_STATUS_RX_DMA_EQ_FSM_ENCODING_ERR_SMASK \
	| RCV_ERR_STATUS_RX_DMA_DQ_FSM_ENCODING_ERR_SMASK \
	| RCV_ERR_STATUS_RX_DMA_CSR_UNC_ERR_SMASK \
	| RCV_ERR_STATUS_RX_CSR_PARITY_ERR_SMASK)

#define RXE_FREEZE_ABORT_MASK \
	(RCV_ERR_STATUS_RX_DMA_CSR_UNC_ERR_SMASK | \
	RCV_ERR_STATUS_RX_DMA_HDR_FIFO_RD_UNC_ERR_SMASK | \
	RCV_ERR_STATUS_RX_DMA_DATA_FIFO_RD_UNC_ERR_SMASK)

/*
 * DCC Error Flags
 */
#define DCCE(name) DCC_ERR_FLG_##name##_SMASK
static struct flag_table dcc_err_flags[] = {
	FLAG_ENTRY0("bad_l2_err", DCCE(BAD_L2_ERR)),
	FLAG_ENTRY0("bad_sc_err", DCCE(BAD_SC_ERR)),
	FLAG_ENTRY0("bad_mid_tail_err", DCCE(BAD_MID_TAIL_ERR)),
	FLAG_ENTRY0("bad_preemption_err", DCCE(BAD_PREEMPTION_ERR)),
	FLAG_ENTRY0("preemption_err", DCCE(PREEMPTION_ERR)),
	FLAG_ENTRY0("preemptionvl15_err", DCCE(PREEMPTIONVL15_ERR)),
	FLAG_ENTRY0("bad_vl_marker_err", DCCE(BAD_VL_MARKER_ERR)),
	FLAG_ENTRY0("bad_dlid_target_err", DCCE(BAD_DLID_TARGET_ERR)),
	FLAG_ENTRY0("bad_lver_err", DCCE(BAD_LVER_ERR)),
	FLAG_ENTRY0("uncorrectable_err", DCCE(UNCORRECTABLE_ERR)),
	FLAG_ENTRY0("bad_crdt_ack_err", DCCE(BAD_CRDT_ACK_ERR)),
	FLAG_ENTRY0("unsup_pkt_type", DCCE(UNSUP_PKT_TYPE)),
	FLAG_ENTRY0("bad_ctrl_flit_err", DCCE(BAD_CTRL_FLIT_ERR)),
	FLAG_ENTRY0("event_cntr_parity_err", DCCE(EVENT_CNTR_PARITY_ERR)),
	FLAG_ENTRY0("event_cntr_rollover_err", DCCE(EVENT_CNTR_ROLLOVER_ERR)),
	FLAG_ENTRY0("link_err", DCCE(LINK_ERR)),
	FLAG_ENTRY0("misc_cntr_rollover_err", DCCE(MISC_CNTR_ROLLOVER_ERR)),
	FLAG_ENTRY0("bad_ctrl_dist_err", DCCE(BAD_CTRL_DIST_ERR)),
	FLAG_ENTRY0("bad_tail_dist_err", DCCE(BAD_TAIL_DIST_ERR)),
	FLAG_ENTRY0("bad_head_dist_err", DCCE(BAD_HEAD_DIST_ERR)),
	FLAG_ENTRY0("nonvl15_state_err", DCCE(NONVL15_STATE_ERR)),
	FLAG_ENTRY0("vl15_multi_err", DCCE(VL15_MULTI_ERR)),
	FLAG_ENTRY0("bad_pkt_length_err", DCCE(BAD_PKT_LENGTH_ERR)),
	FLAG_ENTRY0("unsup_vl_err", DCCE(UNSUP_VL_ERR)),
	FLAG_ENTRY0("perm_nvl15_err", DCCE(PERM_NVL15_ERR)),
	FLAG_ENTRY0("slid_zero_err", DCCE(SLID_ZERO_ERR)),
	FLAG_ENTRY0("dlid_zero_err", DCCE(DLID_ZERO_ERR)),
	FLAG_ENTRY0("length_mtu_err", DCCE(LENGTH_MTU_ERR)),
	FLAG_ENTRY0("rx_early_drop_err", DCCE(RX_EARLY_DROP_ERR)),
	FLAG_ENTRY0("late_short_err", DCCE(LATE_SHORT_ERR)),
	FLAG_ENTRY0("late_long_err", DCCE(LATE_LONG_ERR)),
	FLAG_ENTRY0("late_ebp_err", DCCE(LATE_EBP_ERR)),
	FLAG_ENTRY0("fpe_tx_fifo_ovflw_err", DCCE(FPE_TX_FIFO_OVFLW_ERR)),
	FLAG_ENTRY0("fpe_tx_fifo_unflw_err", DCCE(FPE_TX_FIFO_UNFLW_ERR)),
	FLAG_ENTRY0("csr_access_blocked_host", DCCE(CSR_ACCESS_BLOCKED_HOST)),
	FLAG_ENTRY0("csr_access_blocked_uc", DCCE(CSR_ACCESS_BLOCKED_UC)),
	FLAG_ENTRY0("tx_ctrl_parity_err", DCCE(TX_CTRL_PARITY_ERR)),
	FLAG_ENTRY0("tx_ctrl_parity_mbe_err", DCCE(TX_CTRL_PARITY_MBE_ERR)),
	FLAG_ENTRY0("tx_sc_parity_err", DCCE(TX_SC_PARITY_ERR)),
	FLAG_ENTRY0("rx_ctrl_parity_mbe_err", DCCE(RX_CTRL_PARITY_MBE_ERR)),
	FLAG_ENTRY0("csr_parity_err", DCCE(CSR_PARITY_ERR)),
	FLAG_ENTRY0("csr_inval_addr", DCCE(CSR_INVAL_ADDR)),
	FLAG_ENTRY0("tx_byte_shft_parity_err", DCCE(TX_BYTE_SHFT_PARITY_ERR)),
	FLAG_ENTRY0("rx_byte_shft_parity_err", DCCE(RX_BYTE_SHFT_PARITY_ERR)),
	FLAG_ENTRY0("fmconfig_err", DCCE(FMCONFIG_ERR)),
	FLAG_ENTRY0("rcvport_err", DCCE(RCVPORT_ERR)),
};

/*
 * LCB error flags
 */
#define LCBE(name) DC_LCB_ERR_FLG_##name##_SMASK
static struct flag_table lcb_err_flags[] = {
/* 0*/	FLAG_ENTRY0("CSR_PARITY_ERR", LCBE(CSR_PARITY_ERR)),
/* 1*/	FLAG_ENTRY0("INVALID_CSR_ADDR", LCBE(INVALID_CSR_ADDR)),
/* 2*/	FLAG_ENTRY0("RST_FOR_FAILED_DESKEW", LCBE(RST_FOR_FAILED_DESKEW)),
/* 3*/	FLAG_ENTRY0("ALL_LNS_FAILED_REINIT_TEST",
		LCBE(ALL_LNS_FAILED_REINIT_TEST)),
/* 4*/	FLAG_ENTRY0("LOST_REINIT_STALL_OR_TOS", LCBE(LOST_REINIT_STALL_OR_TOS)),
/* 5*/	FLAG_ENTRY0("TX_LESS_THAN_FOUR_LNS", LCBE(TX_LESS_THAN_FOUR_LNS)),
/* 6*/	FLAG_ENTRY0("RX_LESS_THAN_FOUR_LNS", LCBE(RX_LESS_THAN_FOUR_LNS)),
/* 7*/	FLAG_ENTRY0("SEQ_CRC_ERR", LCBE(SEQ_CRC_ERR)),
/* 8*/	FLAG_ENTRY0("REINIT_FROM_PEER", LCBE(REINIT_FROM_PEER)),
/* 9*/	FLAG_ENTRY0("REINIT_FOR_LN_DEGRADE", LCBE(REINIT_FOR_LN_DEGRADE)),
/*10*/	FLAG_ENTRY0("CRC_ERR_CNT_HIT_LIMIT", LCBE(CRC_ERR_CNT_HIT_LIMIT)),
/*11*/	FLAG_ENTRY0("RCLK_STOPPED", LCBE(RCLK_STOPPED)),
/*12*/	FLAG_ENTRY0("UNEXPECTED_REPLAY_MARKER", LCBE(UNEXPECTED_REPLAY_MARKER)),
/*13*/	FLAG_ENTRY0("UNEXPECTED_ROUND_TRIP_MARKER",
		LCBE(UNEXPECTED_ROUND_TRIP_MARKER)),
/*14*/	FLAG_ENTRY0("ILLEGAL_NULL_LTP", LCBE(ILLEGAL_NULL_LTP)),
/*15*/	FLAG_ENTRY0("ILLEGAL_FLIT_ENCODING", LCBE(ILLEGAL_FLIT_ENCODING)),
/*16*/	FLAG_ENTRY0("FLIT_INPUT_BUF_OFLW", LCBE(FLIT_INPUT_BUF_OFLW)),
/*17*/	FLAG_ENTRY0("VL_ACK_INPUT_BUF_OFLW", LCBE(VL_ACK_INPUT_BUF_OFLW)),
/*18*/	FLAG_ENTRY0("VL_ACK_INPUT_PARITY_ERR", LCBE(VL_ACK_INPUT_PARITY_ERR)),
/*19*/	FLAG_ENTRY0("VL_ACK_INPUT_WRONG_CRC_MODE",
		LCBE(VL_ACK_INPUT_WRONG_CRC_MODE)),
/*20*/	FLAG_ENTRY0("FLIT_INPUT_BUF_MBE", LCBE(FLIT_INPUT_BUF_MBE)),
/*21*/	FLAG_ENTRY0("FLIT_INPUT_BUF_SBE", LCBE(FLIT_INPUT_BUF_SBE)),
/*22*/	FLAG_ENTRY0("REPLAY_BUF_MBE", LCBE(REPLAY_BUF_MBE)),
/*23*/	FLAG_ENTRY0("REPLAY_BUF_SBE", LCBE(REPLAY_BUF_SBE)),
/*24*/	FLAG_ENTRY0("CREDIT_RETURN_FLIT_MBE", LCBE(CREDIT_RETURN_FLIT_MBE)),
/*25*/	FLAG_ENTRY0("RST_FOR_LINK_TIMEOUT", LCBE(RST_FOR_LINK_TIMEOUT)),
/*26*/	FLAG_ENTRY0("RST_FOR_INCOMPLT_RND_TRIP",
		LCBE(RST_FOR_INCOMPLT_RND_TRIP)),
/*27*/	FLAG_ENTRY0("HOLD_REINIT", LCBE(HOLD_REINIT)),
/*28*/	FLAG_ENTRY0("NEG_EDGE_LINK_TRANSFER_ACTIVE",
		LCBE(NEG_EDGE_LINK_TRANSFER_ACTIVE)),
/*29*/	FLAG_ENTRY0("REDUNDANT_FLIT_PARITY_ERR",
		LCBE(REDUNDANT_FLIT_PARITY_ERR))
};

/*
 * DC8051 Error Flags
 */
#define D8E(name) DC_DC8051_ERR_FLG_##name##_SMASK
static struct flag_table dc8051_err_flags[] = {
	FLAG_ENTRY0("SET_BY_8051", D8E(SET_BY_8051)),
	FLAG_ENTRY0("LOST_8051_HEART_BEAT", D8E(LOST_8051_HEART_BEAT)),
	FLAG_ENTRY0("CRAM_MBE", D8E(CRAM_MBE)),
	FLAG_ENTRY0("CRAM_SBE", D8E(CRAM_SBE)),
	FLAG_ENTRY0("DRAM_MBE", D8E(DRAM_MBE)),
	FLAG_ENTRY0("DRAM_SBE", D8E(DRAM_SBE)),
	FLAG_ENTRY0("IRAM_MBE", D8E(IRAM_MBE)),
	FLAG_ENTRY0("IRAM_SBE", D8E(IRAM_SBE)),
	FLAG_ENTRY0("UNMATCHED_SECURE_MSG_ACROSS_BCC_LANES",
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		    D8E(UNMATCHED_SECURE_MSG_ACROSS_BCC_LANES)),
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	FLAG_ENTRY0("INVALID_CSR_ADDR", D8E(INVALID_CSR_ADDR)),
};

/*
 * DC8051 Information Error flags
 *
 * Flags in DC8051_DBG_ERR_INFO_SET_BY_8051.ERROR field.
 */
static struct flag_table dc8051_info_err_flags[] = {
	FLAG_ENTRY0("Spico ROM check failed",  SPICO_ROM_FAILED),
	FLAG_ENTRY0("Unknown frame received",  UNKNOWN_FRAME),
	FLAG_ENTRY0("Target BER not met",      TARGET_BER_NOT_MET),
	FLAG_ENTRY0("Serdes internal loopback failure",
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		    FAILED_SERDES_INTERNAL_LOOPBACK),
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	FLAG_ENTRY0("Failed SerDes init",      FAILED_SERDES_INIT),
	FLAG_ENTRY0("Failed LNI(Polling)",     FAILED_LNI_POLLING),
	FLAG_ENTRY0("Failed LNI(Debounce)",    FAILED_LNI_DEBOUNCE),
	FLAG_ENTRY0("Failed LNI(EstbComm)",    FAILED_LNI_ESTBCOMM),
	FLAG_ENTRY0("Failed LNI(OptEq)",       FAILED_LNI_OPTEQ),
	FLAG_ENTRY0("Failed LNI(VerifyCap_1)", FAILED_LNI_VERIFY_CAP1),
	FLAG_ENTRY0("Failed LNI(VerifyCap_2)", FAILED_LNI_VERIFY_CAP2),
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	FLAG_ENTRY0("Failed LNI(ConfigLT)",    FAILED_LNI_CONFIGLT),
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	FLAG_ENTRY0("Host Handshake Timeout",  HOST_HANDSHAKE_TIMEOUT),
	FLAG_ENTRY0("External Device Request Timeout",
		    EXTERNAL_DEVICE_REQ_TIMEOUT),
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};

/*
 * DC8051 Information Host Information flags
 *
 * Flags in DC8051_DBG_ERR_INFO_SET_BY_8051.HOST_MSG field.
 */
static struct flag_table dc8051_info_host_msg_flags[] = {
	FLAG_ENTRY0("Host request done", 0x0001),
	FLAG_ENTRY0("BC SMA message", 0x0002),
	FLAG_ENTRY0("BC PWR_MGM message", 0x0004),
	FLAG_ENTRY0("BC Unknown message (BCC)", 0x0008),
	FLAG_ENTRY0("BC Unknown message (LCB)", 0x0010),
	FLAG_ENTRY0("External device config request", 0x0020),
	FLAG_ENTRY0("VerifyCap all frames received", 0x0040),
	FLAG_ENTRY0("LinkUp achieved", 0x0080),
	FLAG_ENTRY0("Link going down", 0x0100),
};

static u32 encoded_size(u32 size);
static u32 chip_to_opa_lstate(struct hfi1_devdata *dd, u32 chip_lstate);
static int set_physical_link_state(struct hfi1_devdata *dd, u64 state);
static void read_vc_remote_phy(struct hfi1_devdata *dd, u8 *power_management,
			       u8 *continuous);
static void read_vc_remote_fabric(struct hfi1_devdata *dd, u8 *vau, u8 *z,
				  u8 *vcu, u16 *vl15buf, u8 *crc_sizes);
static void read_vc_remote_link_width(struct hfi1_devdata *dd,
				      u8 *remote_tx_rate, u16 *link_widths);
static void read_vc_local_link_width(struct hfi1_devdata *dd, u8 *misc_bits,
				     u8 *flag_bits, u16 *link_widths);
static void read_remote_device_id(struct hfi1_devdata *dd, u16 *device_id,
				  u8 *device_rev);
static void read_mgmt_allowed(struct hfi1_devdata *dd, u8 *mgmt_allowed);
static void read_local_lni(struct hfi1_devdata *dd, u8 *enable_lane_rx);
static int read_tx_settings(struct hfi1_devdata *dd, u8 *enable_lane_tx,
			    u8 *tx_polarity_inversion,
			    u8 *rx_polarity_inversion, u8 *max_rate);
static void handle_sdma_eng_err(struct hfi1_devdata *dd,
				unsigned int context, u64 err_status);
static void handle_qsfp_int(struct hfi1_devdata *dd, u32 source, u64 reg);
static void handle_dcc_err(struct hfi1_devdata *dd,
			   unsigned int context, u64 err_status);
static void handle_lcb_err(struct hfi1_devdata *dd,
			   unsigned int context, u64 err_status);
static void handle_8051_interrupt(struct hfi1_devdata *dd, u32 unused, u64 reg);
static void handle_cce_err(struct hfi1_devdata *dd, u32 unused, u64 reg);
static void handle_rxe_err(struct hfi1_devdata *dd, u32 unused, u64 reg);
static void handle_misc_err(struct hfi1_devdata *dd, u32 unused, u64 reg);
static void handle_pio_err(struct hfi1_devdata *dd, u32 unused, u64 reg);
static void handle_sdma_err(struct hfi1_devdata *dd, u32 unused, u64 reg);
static void handle_egress_err(struct hfi1_devdata *dd, u32 unused, u64 reg);
static void handle_txe_err(struct hfi1_devdata *dd, u32 unused, u64 reg);
static void set_partition_keys(struct hfi1_pportdata *);
static const char *link_state_name(u32 state);
static const char *link_state_reason_name(struct hfi1_pportdata *ppd,
					  u32 state);
static int do_8051_command(struct hfi1_devdata *dd, u32 type, u64 in_data,
			   u64 *out_data);
static int read_idle_sma(struct hfi1_devdata *dd, u64 *data);
static int thermal_init(struct hfi1_devdata *dd);

static int wait_logical_linkstate(struct hfi1_pportdata *ppd, u32 state,
				  int msecs);
static void read_planned_down_reason_code(struct hfi1_devdata *dd, u8 *pdrrc);
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static void read_link_down_reason(struct hfi1_devdata *dd, u8 *ldr);
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static void handle_temp_err(struct hfi1_devdata *);
static void dc_shutdown(struct hfi1_devdata *);
static void dc_start(struct hfi1_devdata *);
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static int qos_rmt_entries(struct hfi1_devdata *dd, unsigned int *mp,
			   unsigned int *np);
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static void clear_full_mgmt_pkey(struct hfi1_pportdata *ppd);
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static int wait_link_transfer_active(struct hfi1_devdata *dd, int wait_ms);
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static void clear_rsm_rule(struct hfi1_devdata *dd, u8 rule_index);
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/*
 * Error interrupt table entry.  This is used as input to the interrupt
 * "clear down" routine used for all second tier error interrupt register.
 * Second tier interrupt registers have a single bit representing them
 * in the top-level CceIntStatus.
 */
struct err_reg_info {
	u32 status;		/* status CSR offset */
	u32 clear;		/* clear CSR offset */
	u32 mask;		/* mask CSR offset */
	void (*handler)(struct hfi1_devdata *dd, u32 source, u64 reg);
	const char *desc;
};

#define NUM_MISC_ERRS (IS_GENERAL_ERR_END - IS_GENERAL_ERR_START)
#define NUM_DC_ERRS (IS_DC_END - IS_DC_START)
#define NUM_VARIOUS (IS_VARIOUS_END - IS_VARIOUS_START)

/*
 * Helpers for building HFI and DC error interrupt table entries.  Different
 * helpers are needed because of inconsistent register names.
 */
#define EE(reg, handler, desc) \
	{ reg##_STATUS, reg##_CLEAR, reg##_MASK, \
		handler, desc }
#define DC_EE1(reg, handler, desc) \
	{ reg##_FLG, reg##_FLG_CLR, reg##_FLG_EN, handler, desc }
#define DC_EE2(reg, handler, desc) \
	{ reg##_FLG, reg##_CLR, reg##_EN, handler, desc }

/*
 * Table of the "misc" grouping of error interrupts.  Each entry refers to
 * another register containing more information.
 */
static const struct err_reg_info misc_errs[NUM_MISC_ERRS] = {
/* 0*/	EE(CCE_ERR,		handle_cce_err,    "CceErr"),
/* 1*/	EE(RCV_ERR,		handle_rxe_err,    "RxeErr"),
/* 2*/	EE(MISC_ERR,	handle_misc_err,   "MiscErr"),
/* 3*/	{ 0, 0, 0, NULL }, /* reserved */
/* 4*/	EE(SEND_PIO_ERR,    handle_pio_err,    "PioErr"),
/* 5*/	EE(SEND_DMA_ERR,    handle_sdma_err,   "SDmaErr"),
/* 6*/	EE(SEND_EGRESS_ERR, handle_egress_err, "EgressErr"),
/* 7*/	EE(SEND_ERR,	handle_txe_err,    "TxeErr")
	/* the rest are reserved */
};

/*
 * Index into the Various section of the interrupt sources
 * corresponding to the Critical Temperature interrupt.
 */
#define TCRIT_INT_SOURCE 4

/*
 * SDMA error interrupt entry - refers to another register containing more
 * information.
 */
static const struct err_reg_info sdma_eng_err =
	EE(SEND_DMA_ENG_ERR, handle_sdma_eng_err, "SDmaEngErr");

static const struct err_reg_info various_err[NUM_VARIOUS] = {
/* 0*/	{ 0, 0, 0, NULL }, /* PbcInt */
/* 1*/	{ 0, 0, 0, NULL }, /* GpioAssertInt */
/* 2*/	EE(ASIC_QSFP1,	handle_qsfp_int,	"QSFP1"),
/* 3*/	EE(ASIC_QSFP2,	handle_qsfp_int,	"QSFP2"),
/* 4*/	{ 0, 0, 0, NULL }, /* TCritInt */
	/* rest are reserved */
};

/*
 * The DC encoding of mtu_cap for 10K MTU in the DCC_CFG_PORT_CONFIG
 * register can not be derived from the MTU value because 10K is not
 * a power of 2. Therefore, we need a constant. Everything else can
 * be calculated.
 */
#define DCC_CFG_PORT_MTU_CAP_10240 7

/*
 * Table of the DC grouping of error interrupts.  Each entry refers to
 * another register containing more information.
 */
static const struct err_reg_info dc_errs[NUM_DC_ERRS] = {
/* 0*/	DC_EE1(DCC_ERR,		handle_dcc_err,	       "DCC Err"),
/* 1*/	DC_EE2(DC_LCB_ERR,	handle_lcb_err,	       "LCB Err"),
/* 2*/	DC_EE2(DC_DC8051_ERR,	handle_8051_interrupt, "DC8051 Interrupt"),
/* 3*/	/* dc_lbm_int - special, see is_dc_int() */
	/* the rest are reserved */
};

struct cntr_entry {
	/*
	 * counter name
	 */
	char *name;

	/*
	 * csr to read for name (if applicable)
	 */
	u64 csr;

	/*
	 * offset into dd or ppd to store the counter's value
	 */
	int offset;

	/*
	 * flags
	 */
	u8 flags;

	/*
	 * accessor for stat element, context either dd or ppd
	 */
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	u64 (*rw_cntr)(const struct cntr_entry *, void *context, int vl,
		       int mode, u64 data);
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};

#define C_RCV_HDR_OVF_FIRST C_RCV_HDR_OVF_0
#define C_RCV_HDR_OVF_LAST C_RCV_HDR_OVF_159

#define CNTR_ELEM(name, csr, offset, flags, accessor) \
{ \
	name, \
	csr, \
	offset, \
	flags, \
	accessor \
}

/* 32bit RXE */
#define RXE32_PORT_CNTR_ELEM(name, counter, flags) \
CNTR_ELEM(#name, \
	  (counter * 8 + RCV_COUNTER_ARRAY32), \
	  0, flags | CNTR_32BIT, \
	  port_access_u32_csr)

#define RXE32_DEV_CNTR_ELEM(name, counter, flags) \
CNTR_ELEM(#name, \
	  (counter * 8 + RCV_COUNTER_ARRAY32), \
	  0, flags | CNTR_32BIT, \
	  dev_access_u32_csr)

/* 64bit RXE */
#define RXE64_PORT_CNTR_ELEM(name, counter, flags) \
CNTR_ELEM(#name, \
	  (counter * 8 + RCV_COUNTER_ARRAY64), \
	  0, flags, \
	  port_access_u64_csr)

#define RXE64_DEV_CNTR_ELEM(name, counter, flags) \
CNTR_ELEM(#name, \
	  (counter * 8 + RCV_COUNTER_ARRAY64), \
	  0, flags, \
	  dev_access_u64_csr)

#define OVR_LBL(ctx) C_RCV_HDR_OVF_ ## ctx
#define OVR_ELM(ctx) \
CNTR_ELEM("RcvHdrOvr" #ctx, \
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	  (RCV_HDR_OVFL_CNT + ctx * 0x100), \
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	  0, CNTR_NORMAL, port_access_u64_csr)

/* 32bit TXE */
#define TXE32_PORT_CNTR_ELEM(name, counter, flags) \
CNTR_ELEM(#name, \
	  (counter * 8 + SEND_COUNTER_ARRAY32), \
	  0, flags | CNTR_32BIT, \
	  port_access_u32_csr)

/* 64bit TXE */
#define TXE64_PORT_CNTR_ELEM(name, counter, flags) \
CNTR_ELEM(#name, \
	  (counter * 8 + SEND_COUNTER_ARRAY64), \
	  0, flags, \
	  port_access_u64_csr)

# define TX64_DEV_CNTR_ELEM(name, counter, flags) \
CNTR_ELEM(#name,\
	  counter * 8 + SEND_COUNTER_ARRAY64, \
	  0, \
	  flags, \
	  dev_access_u64_csr)

/* CCE */
#define CCE_PERF_DEV_CNTR_ELEM(name, counter, flags) \
CNTR_ELEM(#name, \
	  (counter * 8 + CCE_COUNTER_ARRAY32), \
	  0, flags | CNTR_32BIT, \
	  dev_access_u32_csr)

#define CCE_INT_DEV_CNTR_ELEM(name, counter, flags) \
CNTR_ELEM(#name, \
	  (counter * 8 + CCE_INT_COUNTER_ARRAY32), \
	  0, flags | CNTR_32BIT, \
	  dev_access_u32_csr)

/* DC */
#define DC_PERF_CNTR(name, counter, flags) \
CNTR_ELEM(#name, \
	  counter, \
	  0, \
	  flags, \
	  dev_access_u64_csr)

#define DC_PERF_CNTR_LCB(name, counter, flags) \
CNTR_ELEM(#name, \
	  counter, \
	  0, \
	  flags, \
	  dc_access_lcb_cntr)

/* ibp counters */
#define SW_IBP_CNTR(name, cntr) \
CNTR_ELEM(#name, \
	  0, \
	  0, \
	  CNTR_SYNTH, \
	  access_ibp_##cntr)

u64 read_csr(const struct hfi1_devdata *dd, u32 offset)
{
	if (dd->flags & HFI1_PRESENT) {
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		return readq((void __iomem *)dd->kregbase + offset);
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	}
	return -1;
}

void write_csr(const struct hfi1_devdata *dd, u32 offset, u64 value)
{
	if (dd->flags & HFI1_PRESENT)
		writeq(value, (void __iomem *)dd->kregbase + offset);
}

void __iomem *get_csr_addr(
	struct hfi1_devdata *dd,
	u32 offset)
{
	return (void __iomem *)dd->kregbase + offset;
}

static inline u64 read_write_csr(const struct hfi1_devdata *dd, u32 csr,
				 int mode, u64 value)
{
	u64 ret;

	if (mode == CNTR_MODE_R) {
		ret = read_csr(dd, csr);
	} else if (mode == CNTR_MODE_W) {
		write_csr(dd, csr, value);
		ret = value;
	} else {
		dd_dev_err(dd, "Invalid cntr register access mode");
		return 0;
	}

	hfi1_cdbg(CNTR, "csr 0x%x val 0x%llx mode %d", csr, ret, mode);
	return ret;
}

/* Dev Access */
static u64 dev_access_u32_csr(const struct cntr_entry *entry,
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			      void *context, int vl, int mode, u64 data)
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{
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	struct hfi1_devdata *dd = context;
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	u64 csr = entry->csr;
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	if (entry->flags & CNTR_SDMA) {
		if (vl == CNTR_INVALID_VL)
			return 0;
		csr += 0x100 * vl;
	} else {
		if (vl != CNTR_INVALID_VL)
			return 0;
	}
	return read_write_csr(dd, csr, mode, data);
}

static u64 access_sde_err_cnt(const struct cntr_entry *entry,
			      void *context, int idx, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	if (dd->per_sdma && idx < dd->num_sdma)
		return dd->per_sdma[idx].err_cnt;
	return 0;
}

static u64 access_sde_int_cnt(const struct cntr_entry *entry,
			      void *context, int idx, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	if (dd->per_sdma && idx < dd->num_sdma)
		return dd->per_sdma[idx].sdma_int_cnt;
	return 0;
}

static u64 access_sde_idle_int_cnt(const struct cntr_entry *entry,
				   void *context, int idx, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	if (dd->per_sdma && idx < dd->num_sdma)
		return dd->per_sdma[idx].idle_int_cnt;
	return 0;
}

static u64 access_sde_progress_int_cnt(const struct cntr_entry *entry,
				       void *context, int idx, int mode,
				       u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	if (dd->per_sdma && idx < dd->num_sdma)
		return dd->per_sdma[idx].progress_int_cnt;
	return 0;
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}

static u64 dev_access_u64_csr(const struct cntr_entry *entry, void *context,
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			      int vl, int mode, u64 data)
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{
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	struct hfi1_devdata *dd = context;
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	u64 val = 0;
	u64 csr = entry->csr;

	if (entry->flags & CNTR_VL) {
		if (vl == CNTR_INVALID_VL)
			return 0;
		csr += 8 * vl;
	} else {
		if (vl != CNTR_INVALID_VL)
			return 0;
	}

	val = read_write_csr(dd, csr, mode, data);
	return val;
}

static u64 dc_access_lcb_cntr(const struct cntr_entry *entry, void *context,
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			      int vl, int mode, u64 data)
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{
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	struct hfi1_devdata *dd = context;
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	u32 csr = entry->csr;
	int ret = 0;

	if (vl != CNTR_INVALID_VL)
		return 0;
	if (mode == CNTR_MODE_R)
		ret = read_lcb_csr(dd, csr, &data);
	else if (mode == CNTR_MODE_W)
		ret = write_lcb_csr(dd, csr, data);

	if (ret) {
		dd_dev_err(dd, "Could not acquire LCB for counter 0x%x", csr);
		return 0;
	}

	hfi1_cdbg(CNTR, "csr 0x%x val 0x%llx mode %d", csr, data, mode);
	return data;
}

/* Port Access */
static u64 port_access_u32_csr(const struct cntr_entry *entry, void *context,
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			       int vl, int mode, u64 data)
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{
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	struct hfi1_pportdata *ppd = context;
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	if (vl != CNTR_INVALID_VL)
		return 0;
	return read_write_csr(ppd->dd, entry->csr, mode, data);
}

static u64 port_access_u64_csr(const struct cntr_entry *entry,
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			       void *context, int vl, int mode, u64 data)
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{
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	struct hfi1_pportdata *ppd = context;
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	u64 val;
	u64 csr = entry->csr;

	if (entry->flags & CNTR_VL) {
		if (vl == CNTR_INVALID_VL)
			return 0;
		csr += 8 * vl;
	} else {
		if (vl != CNTR_INVALID_VL)
			return 0;
	}
	val = read_write_csr(ppd->dd, csr, mode, data);
	return val;
}

/* Software defined */
static inline u64 read_write_sw(struct hfi1_devdata *dd, u64 *cntr, int mode,
				u64 data)
{
	u64 ret;

	if (mode == CNTR_MODE_R) {
		ret = *cntr;
	} else if (mode == CNTR_MODE_W) {
		*cntr = data;
		ret = data;
	} else {
		dd_dev_err(dd, "Invalid cntr sw access mode");
		return 0;
	}

	hfi1_cdbg(CNTR, "val 0x%llx mode %d", ret, mode);

	return ret;
}

static u64 access_sw_link_dn_cnt(const struct cntr_entry *entry, void *context,
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				 int vl, int mode, u64 data)
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{
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	struct hfi1_pportdata *ppd = context;
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	if (vl != CNTR_INVALID_VL)
		return 0;
	return read_write_sw(ppd->dd, &ppd->link_downed, mode, data);
}

static u64 access_sw_link_up_cnt(const struct cntr_entry *entry, void *context,
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				 int vl, int mode, u64 data)
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{
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	struct hfi1_pportdata *ppd = context;
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	if (vl != CNTR_INVALID_VL)
		return 0;
	return read_write_sw(ppd->dd, &ppd->link_up, mode, data);
}

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static u64 access_sw_unknown_frame_cnt(const struct cntr_entry *entry,
				       void *context, int vl, int mode,
				       u64 data)
{
	struct hfi1_pportdata *ppd = (struct hfi1_pportdata *)context;

	if (vl != CNTR_INVALID_VL)
		return 0;
	return read_write_sw(ppd->dd, &ppd->unknown_frame_count, mode, data);
}

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static u64 access_sw_xmit_discards(const struct cntr_entry *entry,
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				   void *context, int vl, int mode, u64 data)
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{
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	struct hfi1_pportdata *ppd = (struct hfi1_pportdata *)context;
	u64 zero = 0;
	u64 *counter;
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	if (vl == CNTR_INVALID_VL)
		counter = &ppd->port_xmit_discards;
	else if (vl >= 0 && vl < C_VL_COUNT)
		counter = &ppd->port_xmit_discards_vl[vl];
	else
		counter = &zero;
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	return read_write_sw(ppd->dd, counter, mode, data);
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}

static u64 access_xmit_constraint_errs(const struct cntr_entry *entry,
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				       void *context, int vl, int mode,
				       u64 data)
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{
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	struct hfi1_pportdata *ppd = context;
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	if (vl != CNTR_INVALID_VL)
		return 0;

	return read_write_sw(ppd->dd, &ppd->port_xmit_constraint_errors,
			     mode, data);
}

static u64 access_rcv_constraint_errs(const struct cntr_entry *entry,
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				      void *context, int vl, int mode, u64 data)
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{
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	struct hfi1_pportdata *ppd = context;
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	if (vl != CNTR_INVALID_VL)
		return 0;

	return read_write_sw(ppd->dd, &ppd->port_rcv_constraint_errors,
			     mode, data);
}

u64 get_all_cpu_total(u64 __percpu *cntr)
{
	int cpu;
	u64 counter = 0;

	for_each_possible_cpu(cpu)
		counter += *per_cpu_ptr(cntr, cpu);
	return counter;
}

static u64 read_write_cpu(struct hfi1_devdata *dd, u64 *z_val,
			  u64 __percpu *cntr,
			  int vl, int mode, u64 data)
{
	u64 ret = 0;

	if (vl != CNTR_INVALID_VL)
		return 0;

	if (mode == CNTR_MODE_R) {
		ret = get_all_cpu_total(cntr) - *z_val;
	} else if (mode == CNTR_MODE_W) {
		/* A write can only zero the counter */
		if (data == 0)
			*z_val = get_all_cpu_total(cntr);
		else
			dd_dev_err(dd, "Per CPU cntrs can only be zeroed");
	} else {
		dd_dev_err(dd, "Invalid cntr sw cpu access mode");
		return 0;
	}

	return ret;
}

static u64 access_sw_cpu_intr(const struct cntr_entry *entry,
			      void *context, int vl, int mode, u64 data)
{
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	struct hfi1_devdata *dd = context;
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	return read_write_cpu(dd, &dd->z_int_counter, dd->int_counter, vl,
			      mode, data);
}

static u64 access_sw_cpu_rcv_limit(const struct cntr_entry *entry,
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				   void *context, int vl, int mode, u64 data)
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{
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	struct hfi1_devdata *dd = context;
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	return read_write_cpu(dd, &dd->z_rcv_limit, dd->rcv_limit, vl,
			      mode, data);
}

static u64 access_sw_pio_wait(const struct cntr_entry *entry,
			      void *context, int vl, int mode, u64 data)
{
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	struct hfi1_devdata *dd = context;
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	return dd->verbs_dev.n_piowait;
}

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static u64 access_sw_pio_drain(const struct cntr_entry *entry,
			       void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->verbs_dev.n_piodrain;
}

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static u64 access_sw_vtx_wait(const struct cntr_entry *entry,
			      void *context, int vl, int mode, u64 data)
{
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	struct hfi1_devdata *dd = context;
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	return dd->verbs_dev.n_txwait;
}

static u64 access_sw_kmem_wait(const struct cntr_entry *entry,
			       void *context, int vl, int mode, u64 data)
{
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	struct hfi1_devdata *dd = context;
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	return dd->verbs_dev.n_kmem_wait;
}

1649
static u64 access_sw_send_schedule(const struct cntr_entry *entry,
1650
				   void *context, int vl, int mode, u64 data)
1651 1652 1653
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

1654 1655
	return read_write_cpu(dd, &dd->z_send_schedule, dd->send_schedule, vl,
			      mode, data);
1656 1657
}

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/* Software counters for the error status bits within MISC_ERR_STATUS */
static u64 access_misc_pll_lock_fail_err_cnt(const struct cntr_entry *entry,
					     void *context, int vl, int mode,
					     u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->misc_err_status_cnt[12];
}

static u64 access_misc_mbist_fail_err_cnt(const struct cntr_entry *entry,
					  void *context, int vl, int mode,
					  u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->misc_err_status_cnt[11];
}

static u64 access_misc_invalid_eep_cmd_err_cnt(const struct cntr_entry *entry,
					       void *context, int vl, int mode,
					       u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->misc_err_status_cnt[10];
}

static u64 access_misc_efuse_done_parity_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->misc_err_status_cnt[9];
}

static u64 access_misc_efuse_write_err_cnt(const struct cntr_entry *entry,
					   void *context, int vl, int mode,
					   u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->misc_err_status_cnt[8];
}

static u64 access_misc_efuse_read_bad_addr_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->misc_err_status_cnt[7];
}

static u64 access_misc_efuse_csr_parity_err_cnt(const struct cntr_entry *entry,
						void *context, int vl,
						int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->misc_err_status_cnt[6];
}

static u64 access_misc_fw_auth_failed_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->misc_err_status_cnt[5];
}

static u64 access_misc_key_mismatch_err_cnt(const struct cntr_entry *entry,
					    void *context, int vl, int mode,
					    u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->misc_err_status_cnt[4];
}

static u64 access_misc_sbus_write_failed_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->misc_err_status_cnt[3];
}

static u64 access_misc_csr_write_bad_addr_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->misc_err_status_cnt[2];
}

static u64 access_misc_csr_read_bad_addr_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->misc_err_status_cnt[1];
}

static u64 access_misc_csr_parity_err_cnt(const struct cntr_entry *entry,
					  void *context, int vl, int mode,
					  u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->misc_err_status_cnt[0];
}

/*
 * Software counter for the aggregate of
 * individual CceErrStatus counters
 */
static u64 access_sw_cce_err_status_aggregated_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_cce_err_status_aggregate;
}

/*
 * Software counters corresponding to each of the
 * error status bits within CceErrStatus
 */
static u64 access_cce_msix_csr_parity_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[40];
}

static u64 access_cce_int_map_unc_err_cnt(const struct cntr_entry *entry,
					  void *context, int vl, int mode,
					  u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[39];
}

static u64 access_cce_int_map_cor_err_cnt(const struct cntr_entry *entry,
					  void *context, int vl, int mode,
					  u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[38];
}

static u64 access_cce_msix_table_unc_err_cnt(const struct cntr_entry *entry,
					     void *context, int vl, int mode,
					     u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[37];
}

static u64 access_cce_msix_table_cor_err_cnt(const struct cntr_entry *entry,
					     void *context, int vl, int mode,
					     u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[36];
}

static u64 access_cce_rxdma_conv_fifo_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[35];
}

static u64 access_cce_rcpl_async_fifo_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[34];
}

static u64 access_cce_seg_write_bad_addr_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[33];
}

static u64 access_cce_seg_read_bad_addr_err_cnt(const struct cntr_entry *entry,
						void *context, int vl, int mode,
						u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[32];
}

static u64 access_la_triggered_cnt(const struct cntr_entry *entry,
				   void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[31];
}

static u64 access_cce_trgt_cpl_timeout_err_cnt(const struct cntr_entry *entry,
					       void *context, int vl, int mode,
					       u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[30];
}

static u64 access_pcic_receive_parity_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[29];
}

static u64 access_pcic_transmit_back_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[28];
}

static u64 access_pcic_transmit_front_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[27];
}

static u64 access_pcic_cpl_dat_q_unc_err_cnt(const struct cntr_entry *entry,
					     void *context, int vl, int mode,
					     u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[26];
}

static u64 access_pcic_cpl_hd_q_unc_err_cnt(const struct cntr_entry *entry,
					    void *context, int vl, int mode,
					    u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[25];
}

static u64 access_pcic_post_dat_q_unc_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[24];
}

static u64 access_pcic_post_hd_q_unc_err_cnt(const struct cntr_entry *entry,
					     void *context, int vl, int mode,
					     u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[23];
}

static u64 access_pcic_retry_sot_mem_unc_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[22];
}

static u64 access_pcic_retry_mem_unc_err(const struct cntr_entry *entry,
					 void *context, int vl, int mode,
					 u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[21];
}

static u64 access_pcic_n_post_dat_q_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[20];
}

static u64 access_pcic_n_post_h_q_parity_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[19];
}

static u64 access_pcic_cpl_dat_q_cor_err_cnt(const struct cntr_entry *entry,
					     void *context, int vl, int mode,
					     u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[18];
}

static u64 access_pcic_cpl_hd_q_cor_err_cnt(const struct cntr_entry *entry,
					    void *context, int vl, int mode,
					    u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[17];
}

static u64 access_pcic_post_dat_q_cor_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[16];
}

static u64 access_pcic_post_hd_q_cor_err_cnt(const struct cntr_entry *entry,
					     void *context, int vl, int mode,
					     u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[15];
}

static u64 access_pcic_retry_sot_mem_cor_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[14];
}

static u64 access_pcic_retry_mem_cor_err_cnt(const struct cntr_entry *entry,
					     void *context, int vl, int mode,
					     u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[13];
}

static u64 access_cce_cli1_async_fifo_dbg_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[12];
}

static u64 access_cce_cli1_async_fifo_rxdma_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[11];
}

static u64 access_cce_cli1_async_fifo_sdma_hd_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[10];
}

static u64 access_cce_cl1_async_fifo_pio_crdt_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[9];
}

static u64 access_cce_cli2_async_fifo_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[8];
}

static u64 access_cce_csr_cfg_bus_parity_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[7];
}

static u64 access_cce_cli0_async_fifo_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[6];
}

static u64 access_cce_rspd_data_parity_err_cnt(const struct cntr_entry *entry,
					       void *context, int vl, int mode,
					       u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[5];
}

static u64 access_cce_trgt_access_err_cnt(const struct cntr_entry *entry,
					  void *context, int vl, int mode,
					  u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[4];
}

static u64 access_cce_trgt_async_fifo_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[3];
}

static u64 access_cce_csr_write_bad_addr_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[2];
}

static u64 access_cce_csr_read_bad_addr_err_cnt(const struct cntr_entry *entry,
						void *context, int vl,
						int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[1];
}

static u64 access_ccs_csr_parity_err_cnt(const struct cntr_entry *entry,
					 void *context, int vl, int mode,
					 u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->cce_err_status_cnt[0];
}

/*
 * Software counters corresponding to each of the
 * error status bits within RcvErrStatus
 */
static u64 access_rx_csr_parity_err_cnt(const struct cntr_entry *entry,
					void *context, int vl, int mode,
					u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[63];
}

static u64 access_rx_csr_write_bad_addr_err_cnt(const struct cntr_entry *entry,
						void *context, int vl,
						int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[62];
}

static u64 access_rx_csr_read_bad_addr_err_cnt(const struct cntr_entry *entry,
					       void *context, int vl, int mode,
					       u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[61];
}

static u64 access_rx_dma_csr_unc_err_cnt(const struct cntr_entry *entry,
					 void *context, int vl, int mode,
					 u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[60];
}

static u64 access_rx_dma_dq_fsm_encoding_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[59];
}

static u64 access_rx_dma_eq_fsm_encoding_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[58];
}

static u64 access_rx_dma_csr_parity_err_cnt(const struct cntr_entry *entry,
					    void *context, int vl, int mode,
					    u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[57];
}

static u64 access_rx_rbuf_data_cor_err_cnt(const struct cntr_entry *entry,
					   void *context, int vl, int mode,
					   u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[56];
}

static u64 access_rx_rbuf_data_unc_err_cnt(const struct cntr_entry *entry,
					   void *context, int vl, int mode,
					   u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[55];
}

static u64 access_rx_dma_data_fifo_rd_cor_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[54];
}

static u64 access_rx_dma_data_fifo_rd_unc_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[53];
}

static u64 access_rx_dma_hdr_fifo_rd_cor_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[52];
}

static u64 access_rx_dma_hdr_fifo_rd_unc_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[51];
}

static u64 access_rx_rbuf_desc_part2_cor_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[50];
}

static u64 access_rx_rbuf_desc_part2_unc_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[49];
}

static u64 access_rx_rbuf_desc_part1_cor_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[48];
}

static u64 access_rx_rbuf_desc_part1_unc_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[47];
}

static u64 access_rx_hq_intr_fsm_err_cnt(const struct cntr_entry *entry,
					 void *context, int vl, int mode,
					 u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[46];
}

static u64 access_rx_hq_intr_csr_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[45];
}

static u64 access_rx_lookup_csr_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[44];
}

static u64 access_rx_lookup_rcv_array_cor_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[43];
}

static u64 access_rx_lookup_rcv_array_unc_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[42];
}

static u64 access_rx_lookup_des_part2_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[41];
}

static u64 access_rx_lookup_des_part1_unc_cor_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[40];
}

static u64 access_rx_lookup_des_part1_unc_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[39];
}

static u64 access_rx_rbuf_next_free_buf_cor_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[38];
}

static u64 access_rx_rbuf_next_free_buf_unc_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[37];
}

static u64 access_rbuf_fl_init_wr_addr_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[36];
}

static u64 access_rx_rbuf_fl_initdone_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[35];
}

static u64 access_rx_rbuf_fl_write_addr_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[34];
}

static u64 access_rx_rbuf_fl_rd_addr_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[33];
}

static u64 access_rx_rbuf_empty_err_cnt(const struct cntr_entry *entry,
					void *context, int vl, int mode,
					u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[32];
}

static u64 access_rx_rbuf_full_err_cnt(const struct cntr_entry *entry,
				       void *context, int vl, int mode,
				       u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[31];
}

static u64 access_rbuf_bad_lookup_err_cnt(const struct cntr_entry *entry,
					  void *context, int vl, int mode,
					  u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[30];
}

static u64 access_rbuf_ctx_id_parity_err_cnt(const struct cntr_entry *entry,
					     void *context, int vl, int mode,
					     u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[29];
}

static u64 access_rbuf_csr_qeopdw_parity_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[28];
}

static u64 access_rx_rbuf_csr_q_num_of_pkt_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[27];
}

static u64 access_rx_rbuf_csr_q_t1_ptr_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[26];
}

static u64 access_rx_rbuf_csr_q_hd_ptr_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[25];
}

static u64 access_rx_rbuf_csr_q_vld_bit_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[24];
}

static u64 access_rx_rbuf_csr_q_next_buf_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[23];
}

static u64 access_rx_rbuf_csr_q_ent_cnt_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[22];
}

static u64 access_rx_rbuf_csr_q_head_buf_num_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[21];
}

static u64 access_rx_rbuf_block_list_read_cor_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[20];
}

static u64 access_rx_rbuf_block_list_read_unc_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[19];
}

static u64 access_rx_rbuf_lookup_des_cor_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[18];
}

static u64 access_rx_rbuf_lookup_des_unc_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[17];
}

static u64 access_rx_rbuf_lookup_des_reg_unc_cor_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[16];
}

static u64 access_rx_rbuf_lookup_des_reg_unc_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[15];
}

static u64 access_rx_rbuf_free_list_cor_err_cnt(const struct cntr_entry *entry,
						void *context, int vl,
						int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[14];
}

static u64 access_rx_rbuf_free_list_unc_err_cnt(const struct cntr_entry *entry,
						void *context, int vl,
						int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[13];
}

static u64 access_rx_rcv_fsm_encoding_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[12];
}

static u64 access_rx_dma_flag_cor_err_cnt(const struct cntr_entry *entry,
					  void *context, int vl, int mode,
					  u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[11];
}

static u64 access_rx_dma_flag_unc_err_cnt(const struct cntr_entry *entry,
					  void *context, int vl, int mode,
					  u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[10];
}

static u64 access_rx_dc_sop_eop_parity_err_cnt(const struct cntr_entry *entry,
					       void *context, int vl, int mode,
					       u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[9];
}

static u64 access_rx_rcv_csr_parity_err_cnt(const struct cntr_entry *entry,
					    void *context, int vl, int mode,
					    u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[8];
}

static u64 access_rx_rcv_qp_map_table_cor_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[7];
}

static u64 access_rx_rcv_qp_map_table_unc_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[6];
}

static u64 access_rx_rcv_data_cor_err_cnt(const struct cntr_entry *entry,
					  void *context, int vl, int mode,
					  u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[5];
}

static u64 access_rx_rcv_data_unc_err_cnt(const struct cntr_entry *entry,
					  void *context, int vl, int mode,
					  u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[4];
}

static u64 access_rx_rcv_hdr_cor_err_cnt(const struct cntr_entry *entry,
					 void *context, int vl, int mode,
					 u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[3];
}

static u64 access_rx_rcv_hdr_unc_err_cnt(const struct cntr_entry *entry,
					 void *context, int vl, int mode,
					 u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[2];
}

static u64 access_rx_dc_intf_parity_err_cnt(const struct cntr_entry *entry,
					    void *context, int vl, int mode,
					    u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[1];
}

static u64 access_rx_dma_csr_cor_err_cnt(const struct cntr_entry *entry,
					 void *context, int vl, int mode,
					 u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->rcv_err_status_cnt[0];
}

/*
 * Software counters corresponding to each of the
 * error status bits within SendPioErrStatus
 */
static u64 access_pio_pec_sop_head_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[35];
}

static u64 access_pio_pcc_sop_head_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[34];
}

static u64 access_pio_last_returned_cnt_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[33];
}

static u64 access_pio_current_free_cnt_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[32];
}

static u64 access_pio_reserved_31_err_cnt(const struct cntr_entry *entry,
					  void *context, int vl, int mode,
					  u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[31];
}

static u64 access_pio_reserved_30_err_cnt(const struct cntr_entry *entry,
					  void *context, int vl, int mode,
					  u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[30];
}

static u64 access_pio_ppmc_sop_len_err_cnt(const struct cntr_entry *entry,
					   void *context, int vl, int mode,
					   u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[29];
}

static u64 access_pio_ppmc_bqc_mem_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[28];
}

static u64 access_pio_vl_fifo_parity_err_cnt(const struct cntr_entry *entry,
					     void *context, int vl, int mode,
					     u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[27];
}

static u64 access_pio_vlf_sop_parity_err_cnt(const struct cntr_entry *entry,
					     void *context, int vl, int mode,
					     u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[26];
}

static u64 access_pio_vlf_v1_len_parity_err_cnt(const struct cntr_entry *entry,
						void *context, int vl,
						int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[25];
}

static u64 access_pio_block_qw_count_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[24];
}

static u64 access_pio_write_qw_valid_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[23];
}

static u64 access_pio_state_machine_err_cnt(const struct cntr_entry *entry,
					    void *context, int vl, int mode,
					    u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[22];
}

static u64 access_pio_write_data_parity_err_cnt(const struct cntr_entry *entry,
						void *context, int vl,
						int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[21];
}

static u64 access_pio_host_addr_mem_cor_err_cnt(const struct cntr_entry *entry,
						void *context, int vl,
						int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[20];
}

static u64 access_pio_host_addr_mem_unc_err_cnt(const struct cntr_entry *entry,
						void *context, int vl,
						int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[19];
}

static u64 access_pio_pkt_evict_sm_or_arb_sm_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[18];
}

static u64 access_pio_init_sm_in_err_cnt(const struct cntr_entry *entry,
					 void *context, int vl, int mode,
					 u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[17];
}

static u64 access_pio_ppmc_pbl_fifo_err_cnt(const struct cntr_entry *entry,
					    void *context, int vl, int mode,
					    u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[16];
}

static u64 access_pio_credit_ret_fifo_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[15];
}

static u64 access_pio_v1_len_mem_bank1_cor_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[14];
}

static u64 access_pio_v1_len_mem_bank0_cor_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[13];
}

static u64 access_pio_v1_len_mem_bank1_unc_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[12];
}

static u64 access_pio_v1_len_mem_bank0_unc_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[11];
}

static u64 access_pio_sm_pkt_reset_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[10];
}

static u64 access_pio_pkt_evict_fifo_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[9];
}

static u64 access_pio_sbrdctrl_crrel_fifo_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[8];
}

static u64 access_pio_sbrdctl_crrel_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[7];
}

static u64 access_pio_pec_fifo_parity_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[6];
}

static u64 access_pio_pcc_fifo_parity_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[5];
}

static u64 access_pio_sb_mem_fifo1_err_cnt(const struct cntr_entry *entry,
					   void *context, int vl, int mode,
					   u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[4];
}

static u64 access_pio_sb_mem_fifo0_err_cnt(const struct cntr_entry *entry,
					   void *context, int vl, int mode,
					   u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[3];
}

static u64 access_pio_csr_parity_err_cnt(const struct cntr_entry *entry,
					 void *context, int vl, int mode,
					 u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[2];
}

static u64 access_pio_write_addr_parity_err_cnt(const struct cntr_entry *entry,
						void *context, int vl,
						int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[1];
}

static u64 access_pio_write_bad_ctxt_err_cnt(const struct cntr_entry *entry,
					     void *context, int vl, int mode,
					     u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_pio_err_status_cnt[0];
}

/*
 * Software counters corresponding to each of the
 * error status bits within SendDmaErrStatus
 */
static u64 access_sdma_pcie_req_tracking_cor_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_dma_err_status_cnt[3];
}

static u64 access_sdma_pcie_req_tracking_unc_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_dma_err_status_cnt[2];
}

static u64 access_sdma_csr_parity_err_cnt(const struct cntr_entry *entry,
					  void *context, int vl, int mode,
					  u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_dma_err_status_cnt[1];
}

static u64 access_sdma_rpy_tag_err_cnt(const struct cntr_entry *entry,
				       void *context, int vl, int mode,
				       u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_dma_err_status_cnt[0];
}

/*
 * Software counters corresponding to each of the
 * error status bits within SendEgressErrStatus
 */
static u64 access_tx_read_pio_memory_csr_unc_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[63];
}

static u64 access_tx_read_sdma_memory_csr_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[62];
}

static u64 access_tx_egress_fifo_cor_err_cnt(const struct cntr_entry *entry,
					     void *context, int vl, int mode,
					     u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[61];
}

static u64 access_tx_read_pio_memory_cor_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[60];
}

static u64 access_tx_read_sdma_memory_cor_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[59];
}

static u64 access_tx_sb_hdr_cor_err_cnt(const struct cntr_entry *entry,
					void *context, int vl, int mode,
					u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[58];
}

static u64 access_tx_credit_overrun_err_cnt(const struct cntr_entry *entry,
					    void *context, int vl, int mode,
					    u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[57];
}

static u64 access_tx_launch_fifo8_cor_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[56];
}

static u64 access_tx_launch_fifo7_cor_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[55];
}

static u64 access_tx_launch_fifo6_cor_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[54];
}

static u64 access_tx_launch_fifo5_cor_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[53];
}

static u64 access_tx_launch_fifo4_cor_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[52];
}

static u64 access_tx_launch_fifo3_cor_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[51];
}

static u64 access_tx_launch_fifo2_cor_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[50];
}

static u64 access_tx_launch_fifo1_cor_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[49];
}

static u64 access_tx_launch_fifo0_cor_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[48];
}

static u64 access_tx_credit_return_vl_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[47];
}

static u64 access_tx_hcrc_insertion_err_cnt(const struct cntr_entry *entry,
					    void *context, int vl, int mode,
					    u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[46];
}

static u64 access_tx_egress_fifo_unc_err_cnt(const struct cntr_entry *entry,
					     void *context, int vl, int mode,
					     u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[45];
}

static u64 access_tx_read_pio_memory_unc_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[44];
}

static u64 access_tx_read_sdma_memory_unc_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[43];
}

static u64 access_tx_sb_hdr_unc_err_cnt(const struct cntr_entry *entry,
					void *context, int vl, int mode,
					u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[42];
}

static u64 access_tx_credit_return_partiy_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[41];
}

static u64 access_tx_launch_fifo8_unc_or_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[40];
}

static u64 access_tx_launch_fifo7_unc_or_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[39];
}

static u64 access_tx_launch_fifo6_unc_or_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[38];
}

static u64 access_tx_launch_fifo5_unc_or_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[37];
}

static u64 access_tx_launch_fifo4_unc_or_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[36];
}

static u64 access_tx_launch_fifo3_unc_or_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[35];
}

static u64 access_tx_launch_fifo2_unc_or_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[34];
}

static u64 access_tx_launch_fifo1_unc_or_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[33];
}

static u64 access_tx_launch_fifo0_unc_or_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[32];
}

static u64 access_tx_sdma15_disallowed_packet_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[31];
}

static u64 access_tx_sdma14_disallowed_packet_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[30];
}

static u64 access_tx_sdma13_disallowed_packet_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[29];
}

static u64 access_tx_sdma12_disallowed_packet_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[28];
}

static u64 access_tx_sdma11_disallowed_packet_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[27];
}

static u64 access_tx_sdma10_disallowed_packet_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[26];
}

static u64 access_tx_sdma9_disallowed_packet_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[25];
}

static u64 access_tx_sdma8_disallowed_packet_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[24];
}

static u64 access_tx_sdma7_disallowed_packet_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[23];
}

static u64 access_tx_sdma6_disallowed_packet_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[22];
}

static u64 access_tx_sdma5_disallowed_packet_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[21];
}

static u64 access_tx_sdma4_disallowed_packet_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[20];
}

static u64 access_tx_sdma3_disallowed_packet_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[19];
}

static u64 access_tx_sdma2_disallowed_packet_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[18];
}

static u64 access_tx_sdma1_disallowed_packet_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[17];
}

static u64 access_tx_sdma0_disallowed_packet_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[16];
}

static u64 access_tx_config_parity_err_cnt(const struct cntr_entry *entry,
					   void *context, int vl, int mode,
					   u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[15];
}

static u64 access_tx_sbrd_ctl_csr_parity_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[14];
}

static u64 access_tx_launch_csr_parity_err_cnt(const struct cntr_entry *entry,
					       void *context, int vl, int mode,
					       u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[13];
}

static u64 access_tx_illegal_vl_err_cnt(const struct cntr_entry *entry,
					void *context, int vl, int mode,
					u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[12];
}

static u64 access_tx_sbrd_ctl_state_machine_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[11];
}

static u64 access_egress_reserved_10_err_cnt(const struct cntr_entry *entry,
					     void *context, int vl, int mode,
					     u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[10];
}

static u64 access_egress_reserved_9_err_cnt(const struct cntr_entry *entry,
					    void *context, int vl, int mode,
					    u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[9];
}

static u64 access_tx_sdma_launch_intf_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[8];
}

static u64 access_tx_pio_launch_intf_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[7];
}

static u64 access_egress_reserved_6_err_cnt(const struct cntr_entry *entry,
					    void *context, int vl, int mode,
					    u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[6];
}

static u64 access_tx_incorrect_link_state_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[5];
}

static u64 access_tx_linkdown_err_cnt(const struct cntr_entry *entry,
				      void *context, int vl, int mode,
				      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[4];
}

static u64 access_tx_egress_fifi_underrun_or_parity_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[3];
}

static u64 access_egress_reserved_2_err_cnt(const struct cntr_entry *entry,
					    void *context, int vl, int mode,
					    u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[2];
}

static u64 access_tx_pkt_integrity_mem_unc_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[1];
}

static u64 access_tx_pkt_integrity_mem_cor_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_egress_err_status_cnt[0];
}

/*
 * Software counters corresponding to each of the
 * error status bits within SendErrStatus
 */
static u64 access_send_csr_write_bad_addr_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_err_status_cnt[2];
}

static u64 access_send_csr_read_bad_addr_err_cnt(const struct cntr_entry *entry,
						 void *context, int vl,
						 int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_err_status_cnt[1];
}

static u64 access_send_csr_parity_cnt(const struct cntr_entry *entry,
				      void *context, int vl, int mode,
				      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->send_err_status_cnt[0];
}

/*
 * Software counters corresponding to each of the
 * error status bits within SendCtxtErrStatus
 */
static u64 access_pio_write_out_of_bounds_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_ctxt_err_status_cnt[4];
}

static u64 access_pio_write_overflow_err_cnt(const struct cntr_entry *entry,
					     void *context, int vl, int mode,
					     u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_ctxt_err_status_cnt[3];
}

static u64 access_pio_write_crosses_boundary_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_ctxt_err_status_cnt[2];
}

static u64 access_pio_disallowed_packet_err_cnt(const struct cntr_entry *entry,
						void *context, int vl,
						int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_ctxt_err_status_cnt[1];
}

static u64 access_pio_inconsistent_sop_err_cnt(const struct cntr_entry *entry,
					       void *context, int vl, int mode,
					       u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_ctxt_err_status_cnt[0];
}

/*
 * Software counters corresponding to each of the
 * error status bits within SendDmaEngErrStatus
 */
static u64 access_sdma_header_request_fifo_cor_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[23];
}

static u64 access_sdma_header_storage_cor_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[22];
}

static u64 access_sdma_packet_tracking_cor_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[21];
}

static u64 access_sdma_assembly_cor_err_cnt(const struct cntr_entry *entry,
					    void *context, int vl, int mode,
					    u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[20];
}

static u64 access_sdma_desc_table_cor_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[19];
}

static u64 access_sdma_header_request_fifo_unc_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[18];
}

static u64 access_sdma_header_storage_unc_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[17];
}

static u64 access_sdma_packet_tracking_unc_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[16];
}

static u64 access_sdma_assembly_unc_err_cnt(const struct cntr_entry *entry,
					    void *context, int vl, int mode,
					    u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[15];
}

static u64 access_sdma_desc_table_unc_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[14];
}

static u64 access_sdma_timeout_err_cnt(const struct cntr_entry *entry,
				       void *context, int vl, int mode,
				       u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[13];
}

static u64 access_sdma_header_length_err_cnt(const struct cntr_entry *entry,
					     void *context, int vl, int mode,
					     u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[12];
}

static u64 access_sdma_header_address_err_cnt(const struct cntr_entry *entry,
					      void *context, int vl, int mode,
					      u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[11];
}

static u64 access_sdma_header_select_err_cnt(const struct cntr_entry *entry,
					     void *context, int vl, int mode,
					     u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[10];
}

static u64 access_sdma_reserved_9_err_cnt(const struct cntr_entry *entry,
					  void *context, int vl, int mode,
					  u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[9];
}

static u64 access_sdma_packet_desc_overflow_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[8];
}

static u64 access_sdma_length_mismatch_err_cnt(const struct cntr_entry *entry,
					       void *context, int vl,
					       int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[7];
}

static u64 access_sdma_halt_err_cnt(const struct cntr_entry *entry,
				    void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[6];
}

static u64 access_sdma_mem_read_err_cnt(const struct cntr_entry *entry,
					void *context, int vl, int mode,
					u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[5];
}

static u64 access_sdma_first_desc_err_cnt(const struct cntr_entry *entry,
					  void *context, int vl, int mode,
					  u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[4];
}

static u64 access_sdma_tail_out_of_bounds_err_cnt(
				const struct cntr_entry *entry,
				void *context, int vl, int mode, u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[3];
}

static u64 access_sdma_too_long_err_cnt(const struct cntr_entry *entry,
					void *context, int vl, int mode,
					u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[2];
}

static u64 access_sdma_gen_mismatch_err_cnt(const struct cntr_entry *entry,
					    void *context, int vl, int mode,
					    u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[1];
}

static u64 access_sdma_wrong_dw_err_cnt(const struct cntr_entry *entry,
					void *context, int vl, int mode,
					u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	return dd->sw_send_dma_eng_err_status_cnt[0];
}

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static u64 access_dc_rcv_err_cnt(const struct cntr_entry *entry,
				 void *context, int vl, int mode,
				 u64 data)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)context;

	u64 val = 0;
	u64 csr = entry->csr;

	val = read_write_csr(dd, csr, mode, data);
	if (mode == CNTR_MODE_R) {
		val = val > CNTR_MAX - dd->sw_rcv_bypass_packet_errors ?
			CNTR_MAX : val + dd->sw_rcv_bypass_packet_errors;
	} else if (mode == CNTR_MODE_W) {
		dd->sw_rcv_bypass_packet_errors = 0;
	} else {
		dd_dev_err(dd, "Invalid cntr register access mode");
		return 0;
	}
	return val;
}

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#define def_access_sw_cpu(cntr) \
static u64 access_sw_cpu_##cntr(const struct cntr_entry *entry,		      \
			      void *context, int vl, int mode, u64 data)      \
{									      \
	struct hfi1_pportdata *ppd = (struct hfi1_pportdata *)context;	      \
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	return read_write_cpu(ppd->dd, &ppd->ibport_data.rvp.z_ ##cntr,	      \
			      ppd->ibport_data.rvp.cntr, vl,		      \
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			      mode, data);				      \
}

def_access_sw_cpu(rc_acks);
def_access_sw_cpu(rc_qacks);
def_access_sw_cpu(rc_delayed_comp);

#define def_access_ibp_counter(cntr) \
static u64 access_ibp_##cntr(const struct cntr_entry *entry,		      \
				void *context, int vl, int mode, u64 data)    \
{									      \
	struct hfi1_pportdata *ppd = (struct hfi1_pportdata *)context;	      \
									      \
	if (vl != CNTR_INVALID_VL)					      \
		return 0;						      \
									      \
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	return read_write_sw(ppd->dd, &ppd->ibport_data.rvp.n_ ##cntr,	      \
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			     mode, data);				      \
}

def_access_ibp_counter(loop_pkts);
def_access_ibp_counter(rc_resends);
def_access_ibp_counter(rnr_naks);
def_access_ibp_counter(other_naks);
def_access_ibp_counter(rc_timeouts);
def_access_ibp_counter(pkt_drops);
def_access_ibp_counter(dmawait);
def_access_ibp_counter(rc_seqnak);
def_access_ibp_counter(rc_dupreq);
def_access_ibp_counter(rdma_seq);
def_access_ibp_counter(unaligned);
def_access_ibp_counter(seq_naks);

static struct cntr_entry dev_cntrs[DEV_CNTR_LAST] = {
[C_RCV_OVF] = RXE32_DEV_CNTR_ELEM(RcvOverflow, RCV_BUF_OVFL_CNT, CNTR_SYNTH),
[C_RX_TID_FULL] = RXE32_DEV_CNTR_ELEM(RxTIDFullEr, RCV_TID_FULL_ERR_CNT,
			CNTR_NORMAL),
[C_RX_TID_INVALID] = RXE32_DEV_CNTR_ELEM(RxTIDInvalid, RCV_TID_VALID_ERR_CNT,
			CNTR_NORMAL),
[C_RX_TID_FLGMS] = RXE32_DEV_CNTR_ELEM(RxTidFLGMs,
			RCV_TID_FLOW_GEN_MISMATCH_CNT,
			CNTR_NORMAL),
[C_RX_CTX_EGRS] = RXE32_DEV_CNTR_ELEM(RxCtxEgrS, RCV_CONTEXT_EGR_STALL,
			CNTR_NORMAL),
[C_RCV_TID_FLSMS] = RXE32_DEV_CNTR_ELEM(RxTidFLSMs,
			RCV_TID_FLOW_SEQ_MISMATCH_CNT, CNTR_NORMAL),
[C_CCE_PCI_CR_ST] = CCE_PERF_DEV_CNTR_ELEM(CcePciCrSt,
			CCE_PCIE_POSTED_CRDT_STALL_CNT, CNTR_NORMAL),
[C_CCE_PCI_TR_ST] = CCE_PERF_DEV_CNTR_ELEM(CcePciTrSt, CCE_PCIE_TRGT_STALL_CNT,
			CNTR_NORMAL),
[C_CCE_PIO_WR_ST] = CCE_PERF_DEV_CNTR_ELEM(CcePioWrSt, CCE_PIO_WR_STALL_CNT,
			CNTR_NORMAL),
[C_CCE_ERR_INT] = CCE_INT_DEV_CNTR_ELEM(CceErrInt, CCE_ERR_INT_CNT,
			CNTR_NORMAL),
[C_CCE_SDMA_INT] = CCE_INT_DEV_CNTR_ELEM(CceSdmaInt, CCE_SDMA_INT_CNT,
			CNTR_NORMAL),
[C_CCE_MISC_INT] = CCE_INT_DEV_CNTR_ELEM(CceMiscInt, CCE_MISC_INT_CNT,
			CNTR_NORMAL),
[C_CCE_RCV_AV_INT] = CCE_INT_DEV_CNTR_ELEM(CceRcvAvInt, CCE_RCV_AVAIL_INT_CNT,
			CNTR_NORMAL),
[C_CCE_RCV_URG_INT] = CCE_INT_DEV_CNTR_ELEM(CceRcvUrgInt,
			CCE_RCV_URGENT_INT_CNT,	CNTR_NORMAL),
[C_CCE_SEND_CR_INT] = CCE_INT_DEV_CNTR_ELEM(CceSndCrInt,
			CCE_SEND_CREDIT_INT_CNT, CNTR_NORMAL),
[C_DC_UNC_ERR] = DC_PERF_CNTR(DcUnctblErr, DCC_ERR_UNCORRECTABLE_CNT,
			      CNTR_SYNTH),
4083 4084
[C_DC_RCV_ERR] = CNTR_ELEM("DcRecvErr", DCC_ERR_PORTRCV_ERR_CNT, 0, CNTR_SYNTH,
			    access_dc_rcv_err_cnt),
M
Mike Marciniszyn 已提交
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[C_DC_FM_CFG_ERR] = DC_PERF_CNTR(DcFmCfgErr, DCC_ERR_FMCONFIG_ERR_CNT,
				 CNTR_SYNTH),
[C_DC_RMT_PHY_ERR] = DC_PERF_CNTR(DcRmtPhyErr, DCC_ERR_RCVREMOTE_PHY_ERR_CNT,
				  CNTR_SYNTH),
[C_DC_DROPPED_PKT] = DC_PERF_CNTR(DcDroppedPkt, DCC_ERR_DROPPED_PKT_CNT,
				  CNTR_SYNTH),
[C_DC_MC_XMIT_PKTS] = DC_PERF_CNTR(DcMcXmitPkts,
				   DCC_PRF_PORT_XMIT_MULTICAST_CNT, CNTR_SYNTH),
[C_DC_MC_RCV_PKTS] = DC_PERF_CNTR(DcMcRcvPkts,
				  DCC_PRF_PORT_RCV_MULTICAST_PKT_CNT,
				  CNTR_SYNTH),
[C_DC_XMIT_CERR] = DC_PERF_CNTR(DcXmitCorr,
				DCC_PRF_PORT_XMIT_CORRECTABLE_CNT, CNTR_SYNTH),
[C_DC_RCV_CERR] = DC_PERF_CNTR(DcRcvCorrCnt, DCC_PRF_PORT_RCV_CORRECTABLE_CNT,
			       CNTR_SYNTH),
[C_DC_RCV_FCC] = DC_PERF_CNTR(DcRxFCntl, DCC_PRF_RX_FLOW_CRTL_CNT,
			      CNTR_SYNTH),
[C_DC_XMIT_FCC] = DC_PERF_CNTR(DcXmitFCntl, DCC_PRF_TX_FLOW_CRTL_CNT,
			       CNTR_SYNTH),
[C_DC_XMIT_FLITS] = DC_PERF_CNTR(DcXmitFlits, DCC_PRF_PORT_XMIT_DATA_CNT,
				 CNTR_SYNTH),
[C_DC_RCV_FLITS] = DC_PERF_CNTR(DcRcvFlits, DCC_PRF_PORT_RCV_DATA_CNT,
				CNTR_SYNTH),
[C_DC_XMIT_PKTS] = DC_PERF_CNTR(DcXmitPkts, DCC_PRF_PORT_XMIT_PKTS_CNT,
				CNTR_SYNTH),
[C_DC_RCV_PKTS] = DC_PERF_CNTR(DcRcvPkts, DCC_PRF_PORT_RCV_PKTS_CNT,
			       CNTR_SYNTH),
[C_DC_RX_FLIT_VL] = DC_PERF_CNTR(DcRxFlitVl, DCC_PRF_PORT_VL_RCV_DATA_CNT,
				 CNTR_SYNTH | CNTR_VL),
[C_DC_RX_PKT_VL] = DC_PERF_CNTR(DcRxPktVl, DCC_PRF_PORT_VL_RCV_PKTS_CNT,
				CNTR_SYNTH | CNTR_VL),
[C_DC_RCV_FCN] = DC_PERF_CNTR(DcRcvFcn, DCC_PRF_PORT_RCV_FECN_CNT, CNTR_SYNTH),
[C_DC_RCV_FCN_VL] = DC_PERF_CNTR(DcRcvFcnVl, DCC_PRF_PORT_VL_RCV_FECN_CNT,
				 CNTR_SYNTH | CNTR_VL),
[C_DC_RCV_BCN] = DC_PERF_CNTR(DcRcvBcn, DCC_PRF_PORT_RCV_BECN_CNT, CNTR_SYNTH),
[C_DC_RCV_BCN_VL] = DC_PERF_CNTR(DcRcvBcnVl, DCC_PRF_PORT_VL_RCV_BECN_CNT,
				 CNTR_SYNTH | CNTR_VL),
[C_DC_RCV_BBL] = DC_PERF_CNTR(DcRcvBbl, DCC_PRF_PORT_RCV_BUBBLE_CNT,
			      CNTR_SYNTH),
[C_DC_RCV_BBL_VL] = DC_PERF_CNTR(DcRcvBblVl, DCC_PRF_PORT_VL_RCV_BUBBLE_CNT,
				 CNTR_SYNTH | CNTR_VL),
[C_DC_MARK_FECN] = DC_PERF_CNTR(DcMarkFcn, DCC_PRF_PORT_MARK_FECN_CNT,
				CNTR_SYNTH),
[C_DC_MARK_FECN_VL] = DC_PERF_CNTR(DcMarkFcnVl, DCC_PRF_PORT_VL_MARK_FECN_CNT,
				   CNTR_SYNTH | CNTR_VL),
[C_DC_TOTAL_CRC] =
	DC_PERF_CNTR_LCB(DcTotCrc, DC_LCB_ERR_INFO_TOTAL_CRC_ERR,
			 CNTR_SYNTH),
[C_DC_CRC_LN0] = DC_PERF_CNTR_LCB(DcCrcLn0, DC_LCB_ERR_INFO_CRC_ERR_LN0,
				  CNTR_SYNTH),
[C_DC_CRC_LN1] = DC_PERF_CNTR_LCB(DcCrcLn1, DC_LCB_ERR_INFO_CRC_ERR_LN1,
				  CNTR_SYNTH),
[C_DC_CRC_LN2] = DC_PERF_CNTR_LCB(DcCrcLn2, DC_LCB_ERR_INFO_CRC_ERR_LN2,
				  CNTR_SYNTH),
[C_DC_CRC_LN3] = DC_PERF_CNTR_LCB(DcCrcLn3, DC_LCB_ERR_INFO_CRC_ERR_LN3,
				  CNTR_SYNTH),
[C_DC_CRC_MULT_LN] =
	DC_PERF_CNTR_LCB(DcMultLn, DC_LCB_ERR_INFO_CRC_ERR_MULTI_LN,
			 CNTR_SYNTH),
[C_DC_TX_REPLAY] = DC_PERF_CNTR_LCB(DcTxReplay, DC_LCB_ERR_INFO_TX_REPLAY_CNT,
				    CNTR_SYNTH),
[C_DC_RX_REPLAY] = DC_PERF_CNTR_LCB(DcRxReplay, DC_LCB_ERR_INFO_RX_REPLAY_CNT,
				    CNTR_SYNTH),
[C_DC_SEQ_CRC_CNT] =
	DC_PERF_CNTR_LCB(DcLinkSeqCrc, DC_LCB_ERR_INFO_SEQ_CRC_CNT,
			 CNTR_SYNTH),
[C_DC_ESC0_ONLY_CNT] =
	DC_PERF_CNTR_LCB(DcEsc0, DC_LCB_ERR_INFO_ESCAPE_0_ONLY_CNT,
			 CNTR_SYNTH),
[C_DC_ESC0_PLUS1_CNT] =
	DC_PERF_CNTR_LCB(DcEsc1, DC_LCB_ERR_INFO_ESCAPE_0_PLUS1_CNT,
			 CNTR_SYNTH),
[C_DC_ESC0_PLUS2_CNT] =
	DC_PERF_CNTR_LCB(DcEsc0Plus2, DC_LCB_ERR_INFO_ESCAPE_0_PLUS2_CNT,
			 CNTR_SYNTH),
[C_DC_REINIT_FROM_PEER_CNT] =
	DC_PERF_CNTR_LCB(DcReinitPeer, DC_LCB_ERR_INFO_REINIT_FROM_PEER_CNT,
			 CNTR_SYNTH),
[C_DC_SBE_CNT] = DC_PERF_CNTR_LCB(DcSbe, DC_LCB_ERR_INFO_SBE_CNT,
				  CNTR_SYNTH),
[C_DC_MISC_FLG_CNT] =
	DC_PERF_CNTR_LCB(DcMiscFlg, DC_LCB_ERR_INFO_MISC_FLG_CNT,
			 CNTR_SYNTH),
[C_DC_PRF_GOOD_LTP_CNT] =
	DC_PERF_CNTR_LCB(DcGoodLTP, DC_LCB_PRF_GOOD_LTP_CNT, CNTR_SYNTH),
[C_DC_PRF_ACCEPTED_LTP_CNT] =
	DC_PERF_CNTR_LCB(DcAccLTP, DC_LCB_PRF_ACCEPTED_LTP_CNT,
			 CNTR_SYNTH),
[C_DC_PRF_RX_FLIT_CNT] =
	DC_PERF_CNTR_LCB(DcPrfRxFlit, DC_LCB_PRF_RX_FLIT_CNT, CNTR_SYNTH),
[C_DC_PRF_TX_FLIT_CNT] =
	DC_PERF_CNTR_LCB(DcPrfTxFlit, DC_LCB_PRF_TX_FLIT_CNT, CNTR_SYNTH),
[C_DC_PRF_CLK_CNTR] =
	DC_PERF_CNTR_LCB(DcPrfClk, DC_LCB_PRF_CLK_CNTR, CNTR_SYNTH),
[C_DC_PG_DBG_FLIT_CRDTS_CNT] =
	DC_PERF_CNTR_LCB(DcFltCrdts, DC_LCB_PG_DBG_FLIT_CRDTS_CNT, CNTR_SYNTH),
[C_DC_PG_STS_PAUSE_COMPLETE_CNT] =
	DC_PERF_CNTR_LCB(DcPauseComp, DC_LCB_PG_STS_PAUSE_COMPLETE_CNT,
			 CNTR_SYNTH),
[C_DC_PG_STS_TX_SBE_CNT] =
	DC_PERF_CNTR_LCB(DcStsTxSbe, DC_LCB_PG_STS_TX_SBE_CNT, CNTR_SYNTH),
[C_DC_PG_STS_TX_MBE_CNT] =
	DC_PERF_CNTR_LCB(DcStsTxMbe, DC_LCB_PG_STS_TX_MBE_CNT,
			 CNTR_SYNTH),
[C_SW_CPU_INTR] = CNTR_ELEM("Intr", 0, 0, CNTR_NORMAL,
			    access_sw_cpu_intr),
[C_SW_CPU_RCV_LIM] = CNTR_ELEM("RcvLimit", 0, 0, CNTR_NORMAL,
			    access_sw_cpu_rcv_limit),
[C_SW_VTX_WAIT] = CNTR_ELEM("vTxWait", 0, 0, CNTR_NORMAL,
			    access_sw_vtx_wait),
[C_SW_PIO_WAIT] = CNTR_ELEM("PioWait", 0, 0, CNTR_NORMAL,
			    access_sw_pio_wait),
4197 4198
[C_SW_PIO_DRAIN] = CNTR_ELEM("PioDrain", 0, 0, CNTR_NORMAL,
			    access_sw_pio_drain),
M
Mike Marciniszyn 已提交
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[C_SW_KMEM_WAIT] = CNTR_ELEM("KmemWait", 0, 0, CNTR_NORMAL,
			    access_sw_kmem_wait),
4201 4202
[C_SW_SEND_SCHED] = CNTR_ELEM("SendSched", 0, 0, CNTR_NORMAL,
			    access_sw_send_schedule),
4203 4204 4205 4206 4207 4208 4209 4210 4211 4212 4213 4214 4215 4216 4217 4218
[C_SDMA_DESC_FETCHED_CNT] = CNTR_ELEM("SDEDscFdCn",
				      SEND_DMA_DESC_FETCHED_CNT, 0,
				      CNTR_NORMAL | CNTR_32BIT | CNTR_SDMA,
				      dev_access_u32_csr),
[C_SDMA_INT_CNT] = CNTR_ELEM("SDMAInt", 0, 0,
			     CNTR_NORMAL | CNTR_32BIT | CNTR_SDMA,
			     access_sde_int_cnt),
[C_SDMA_ERR_CNT] = CNTR_ELEM("SDMAErrCt", 0, 0,
			     CNTR_NORMAL | CNTR_32BIT | CNTR_SDMA,
			     access_sde_err_cnt),
[C_SDMA_IDLE_INT_CNT] = CNTR_ELEM("SDMAIdInt", 0, 0,
				  CNTR_NORMAL | CNTR_32BIT | CNTR_SDMA,
				  access_sde_idle_int_cnt),
[C_SDMA_PROGRESS_INT_CNT] = CNTR_ELEM("SDMAPrIntCn", 0, 0,
				      CNTR_NORMAL | CNTR_32BIT | CNTR_SDMA,
				      access_sde_progress_int_cnt),
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/* MISC_ERR_STATUS */
[C_MISC_PLL_LOCK_FAIL_ERR] = CNTR_ELEM("MISC_PLL_LOCK_FAIL_ERR", 0, 0,
				CNTR_NORMAL,
				access_misc_pll_lock_fail_err_cnt),
[C_MISC_MBIST_FAIL_ERR] = CNTR_ELEM("MISC_MBIST_FAIL_ERR", 0, 0,
				CNTR_NORMAL,
				access_misc_mbist_fail_err_cnt),
[C_MISC_INVALID_EEP_CMD_ERR] = CNTR_ELEM("MISC_INVALID_EEP_CMD_ERR", 0, 0,
				CNTR_NORMAL,
				access_misc_invalid_eep_cmd_err_cnt),
[C_MISC_EFUSE_DONE_PARITY_ERR] = CNTR_ELEM("MISC_EFUSE_DONE_PARITY_ERR", 0, 0,
				CNTR_NORMAL,
				access_misc_efuse_done_parity_err_cnt),
[C_MISC_EFUSE_WRITE_ERR] = CNTR_ELEM("MISC_EFUSE_WRITE_ERR", 0, 0,
				CNTR_NORMAL,
				access_misc_efuse_write_err_cnt),
[C_MISC_EFUSE_READ_BAD_ADDR_ERR] = CNTR_ELEM("MISC_EFUSE_READ_BAD_ADDR_ERR", 0,
				0, CNTR_NORMAL,
				access_misc_efuse_read_bad_addr_err_cnt),
[C_MISC_EFUSE_CSR_PARITY_ERR] = CNTR_ELEM("MISC_EFUSE_CSR_PARITY_ERR", 0, 0,
				CNTR_NORMAL,
				access_misc_efuse_csr_parity_err_cnt),
[C_MISC_FW_AUTH_FAILED_ERR] = CNTR_ELEM("MISC_FW_AUTH_FAILED_ERR", 0, 0,
				CNTR_NORMAL,
				access_misc_fw_auth_failed_err_cnt),
[C_MISC_KEY_MISMATCH_ERR] = CNTR_ELEM("MISC_KEY_MISMATCH_ERR", 0, 0,
				CNTR_NORMAL,
				access_misc_key_mismatch_err_cnt),
[C_MISC_SBUS_WRITE_FAILED_ERR] = CNTR_ELEM("MISC_SBUS_WRITE_FAILED_ERR", 0, 0,
				CNTR_NORMAL,
				access_misc_sbus_write_failed_err_cnt),
[C_MISC_CSR_WRITE_BAD_ADDR_ERR] = CNTR_ELEM("MISC_CSR_WRITE_BAD_ADDR_ERR", 0, 0,
				CNTR_NORMAL,
				access_misc_csr_write_bad_addr_err_cnt),
[C_MISC_CSR_READ_BAD_ADDR_ERR] = CNTR_ELEM("MISC_CSR_READ_BAD_ADDR_ERR", 0, 0,
				CNTR_NORMAL,
				access_misc_csr_read_bad_addr_err_cnt),
[C_MISC_CSR_PARITY_ERR] = CNTR_ELEM("MISC_CSR_PARITY_ERR", 0, 0,
				CNTR_NORMAL,
				access_misc_csr_parity_err_cnt),
/* CceErrStatus */
[C_CCE_ERR_STATUS_AGGREGATED_CNT] = CNTR_ELEM("CceErrStatusAggregatedCnt", 0, 0,
				CNTR_NORMAL,
				access_sw_cce_err_status_aggregated_cnt),
[C_CCE_MSIX_CSR_PARITY_ERR] = CNTR_ELEM("CceMsixCsrParityErr", 0, 0,
				CNTR_NORMAL,
				access_cce_msix_csr_parity_err_cnt),
[C_CCE_INT_MAP_UNC_ERR] = CNTR_ELEM("CceIntMapUncErr", 0, 0,
				CNTR_NORMAL,
				access_cce_int_map_unc_err_cnt),
[C_CCE_INT_MAP_COR_ERR] = CNTR_ELEM("CceIntMapCorErr", 0, 0,
				CNTR_NORMAL,
				access_cce_int_map_cor_err_cnt),
[C_CCE_MSIX_TABLE_UNC_ERR] = CNTR_ELEM("CceMsixTableUncErr", 0, 0,
				CNTR_NORMAL,
				access_cce_msix_table_unc_err_cnt),
[C_CCE_MSIX_TABLE_COR_ERR] = CNTR_ELEM("CceMsixTableCorErr", 0, 0,
				CNTR_NORMAL,
				access_cce_msix_table_cor_err_cnt),
[C_CCE_RXDMA_CONV_FIFO_PARITY_ERR] = CNTR_ELEM("CceRxdmaConvFifoParityErr", 0,
				0, CNTR_NORMAL,
				access_cce_rxdma_conv_fifo_parity_err_cnt),
[C_CCE_RCPL_ASYNC_FIFO_PARITY_ERR] = CNTR_ELEM("CceRcplAsyncFifoParityErr", 0,
				0, CNTR_NORMAL,
				access_cce_rcpl_async_fifo_parity_err_cnt),
[C_CCE_SEG_WRITE_BAD_ADDR_ERR] = CNTR_ELEM("CceSegWriteBadAddrErr", 0, 0,
				CNTR_NORMAL,
				access_cce_seg_write_bad_addr_err_cnt),
[C_CCE_SEG_READ_BAD_ADDR_ERR] = CNTR_ELEM("CceSegReadBadAddrErr", 0, 0,
				CNTR_NORMAL,
				access_cce_seg_read_bad_addr_err_cnt),
[C_LA_TRIGGERED] = CNTR_ELEM("Cce LATriggered", 0, 0,
				CNTR_NORMAL,
				access_la_triggered_cnt),
[C_CCE_TRGT_CPL_TIMEOUT_ERR] = CNTR_ELEM("CceTrgtCplTimeoutErr", 0, 0,
				CNTR_NORMAL,
				access_cce_trgt_cpl_timeout_err_cnt),
[C_PCIC_RECEIVE_PARITY_ERR] = CNTR_ELEM("PcicReceiveParityErr", 0, 0,
				CNTR_NORMAL,
				access_pcic_receive_parity_err_cnt),
[C_PCIC_TRANSMIT_BACK_PARITY_ERR] = CNTR_ELEM("PcicTransmitBackParityErr", 0, 0,
				CNTR_NORMAL,
				access_pcic_transmit_back_parity_err_cnt),
[C_PCIC_TRANSMIT_FRONT_PARITY_ERR] = CNTR_ELEM("PcicTransmitFrontParityErr", 0,
				0, CNTR_NORMAL,
				access_pcic_transmit_front_parity_err_cnt),
[C_PCIC_CPL_DAT_Q_UNC_ERR] = CNTR_ELEM("PcicCplDatQUncErr", 0, 0,
				CNTR_NORMAL,
				access_pcic_cpl_dat_q_unc_err_cnt),
[C_PCIC_CPL_HD_Q_UNC_ERR] = CNTR_ELEM("PcicCplHdQUncErr", 0, 0,
				CNTR_NORMAL,
				access_pcic_cpl_hd_q_unc_err_cnt),
[C_PCIC_POST_DAT_Q_UNC_ERR] = CNTR_ELEM("PcicPostDatQUncErr", 0, 0,
				CNTR_NORMAL,
				access_pcic_post_dat_q_unc_err_cnt),
[C_PCIC_POST_HD_Q_UNC_ERR] = CNTR_ELEM("PcicPostHdQUncErr", 0, 0,
				CNTR_NORMAL,
				access_pcic_post_hd_q_unc_err_cnt),
[C_PCIC_RETRY_SOT_MEM_UNC_ERR] = CNTR_ELEM("PcicRetrySotMemUncErr", 0, 0,
				CNTR_NORMAL,
				access_pcic_retry_sot_mem_unc_err_cnt),
[C_PCIC_RETRY_MEM_UNC_ERR] = CNTR_ELEM("PcicRetryMemUncErr", 0, 0,
				CNTR_NORMAL,
				access_pcic_retry_mem_unc_err),
[C_PCIC_N_POST_DAT_Q_PARITY_ERR] = CNTR_ELEM("PcicNPostDatQParityErr", 0, 0,
				CNTR_NORMAL,
				access_pcic_n_post_dat_q_parity_err_cnt),
[C_PCIC_N_POST_H_Q_PARITY_ERR] = CNTR_ELEM("PcicNPostHQParityErr", 0, 0,
				CNTR_NORMAL,
				access_pcic_n_post_h_q_parity_err_cnt),
[C_PCIC_CPL_DAT_Q_COR_ERR] = CNTR_ELEM("PcicCplDatQCorErr", 0, 0,
				CNTR_NORMAL,
				access_pcic_cpl_dat_q_cor_err_cnt),
[C_PCIC_CPL_HD_Q_COR_ERR] = CNTR_ELEM("PcicCplHdQCorErr", 0, 0,
				CNTR_NORMAL,
				access_pcic_cpl_hd_q_cor_err_cnt),
[C_PCIC_POST_DAT_Q_COR_ERR] = CNTR_ELEM("PcicPostDatQCorErr", 0, 0,
				CNTR_NORMAL,
				access_pcic_post_dat_q_cor_err_cnt),
[C_PCIC_POST_HD_Q_COR_ERR] = CNTR_ELEM("PcicPostHdQCorErr", 0, 0,
				CNTR_NORMAL,
				access_pcic_post_hd_q_cor_err_cnt),
[C_PCIC_RETRY_SOT_MEM_COR_ERR] = CNTR_ELEM("PcicRetrySotMemCorErr", 0, 0,
				CNTR_NORMAL,
				access_pcic_retry_sot_mem_cor_err_cnt),
[C_PCIC_RETRY_MEM_COR_ERR] = CNTR_ELEM("PcicRetryMemCorErr", 0, 0,
				CNTR_NORMAL,
				access_pcic_retry_mem_cor_err_cnt),
[C_CCE_CLI1_ASYNC_FIFO_DBG_PARITY_ERR] = CNTR_ELEM(
				"CceCli1AsyncFifoDbgParityError", 0, 0,
				CNTR_NORMAL,
				access_cce_cli1_async_fifo_dbg_parity_err_cnt),
[C_CCE_CLI1_ASYNC_FIFO_RXDMA_PARITY_ERR] = CNTR_ELEM(
				"CceCli1AsyncFifoRxdmaParityError", 0, 0,
				CNTR_NORMAL,
				access_cce_cli1_async_fifo_rxdma_parity_err_cnt
				),
[C_CCE_CLI1_ASYNC_FIFO_SDMA_HD_PARITY_ERR] = CNTR_ELEM(
			"CceCli1AsyncFifoSdmaHdParityErr", 0, 0,
			CNTR_NORMAL,
			access_cce_cli1_async_fifo_sdma_hd_parity_err_cnt),
[C_CCE_CLI1_ASYNC_FIFO_PIO_CRDT_PARITY_ERR] = CNTR_ELEM(
			"CceCli1AsyncFifoPioCrdtParityErr", 0, 0,
			CNTR_NORMAL,
			access_cce_cl1_async_fifo_pio_crdt_parity_err_cnt),
[C_CCE_CLI2_ASYNC_FIFO_PARITY_ERR] = CNTR_ELEM("CceCli2AsyncFifoParityErr", 0,
			0, CNTR_NORMAL,
			access_cce_cli2_async_fifo_parity_err_cnt),
[C_CCE_CSR_CFG_BUS_PARITY_ERR] = CNTR_ELEM("CceCsrCfgBusParityErr", 0, 0,
			CNTR_NORMAL,
			access_cce_csr_cfg_bus_parity_err_cnt),
[C_CCE_CLI0_ASYNC_FIFO_PARTIY_ERR] = CNTR_ELEM("CceCli0AsyncFifoParityErr", 0,
			0, CNTR_NORMAL,
			access_cce_cli0_async_fifo_parity_err_cnt),
[C_CCE_RSPD_DATA_PARITY_ERR] = CNTR_ELEM("CceRspdDataParityErr", 0, 0,
			CNTR_NORMAL,
			access_cce_rspd_data_parity_err_cnt),
[C_CCE_TRGT_ACCESS_ERR] = CNTR_ELEM("CceTrgtAccessErr", 0, 0,
			CNTR_NORMAL,
			access_cce_trgt_access_err_cnt),
[C_CCE_TRGT_ASYNC_FIFO_PARITY_ERR] = CNTR_ELEM("CceTrgtAsyncFifoParityErr", 0,
			0, CNTR_NORMAL,
			access_cce_trgt_async_fifo_parity_err_cnt),
[C_CCE_CSR_WRITE_BAD_ADDR_ERR] = CNTR_ELEM("CceCsrWriteBadAddrErr", 0, 0,
			CNTR_NORMAL,
			access_cce_csr_write_bad_addr_err_cnt),
[C_CCE_CSR_READ_BAD_ADDR_ERR] = CNTR_ELEM("CceCsrReadBadAddrErr", 0, 0,
			CNTR_NORMAL,
			access_cce_csr_read_bad_addr_err_cnt),
[C_CCE_CSR_PARITY_ERR] = CNTR_ELEM("CceCsrParityErr", 0, 0,
			CNTR_NORMAL,
			access_ccs_csr_parity_err_cnt),

/* RcvErrStatus */
[C_RX_CSR_PARITY_ERR] = CNTR_ELEM("RxCsrParityErr", 0, 0,
			CNTR_NORMAL,
			access_rx_csr_parity_err_cnt),
[C_RX_CSR_WRITE_BAD_ADDR_ERR] = CNTR_ELEM("RxCsrWriteBadAddrErr", 0, 0,
			CNTR_NORMAL,
			access_rx_csr_write_bad_addr_err_cnt),
[C_RX_CSR_READ_BAD_ADDR_ERR] = CNTR_ELEM("RxCsrReadBadAddrErr", 0, 0,
			CNTR_NORMAL,
			access_rx_csr_read_bad_addr_err_cnt),
[C_RX_DMA_CSR_UNC_ERR] = CNTR_ELEM("RxDmaCsrUncErr", 0, 0,
			CNTR_NORMAL,
			access_rx_dma_csr_unc_err_cnt),
[C_RX_DMA_DQ_FSM_ENCODING_ERR] = CNTR_ELEM("RxDmaDqFsmEncodingErr", 0, 0,
			CNTR_NORMAL,
			access_rx_dma_dq_fsm_encoding_err_cnt),
[C_RX_DMA_EQ_FSM_ENCODING_ERR] = CNTR_ELEM("RxDmaEqFsmEncodingErr", 0, 0,
			CNTR_NORMAL,
			access_rx_dma_eq_fsm_encoding_err_cnt),
[C_RX_DMA_CSR_PARITY_ERR] = CNTR_ELEM("RxDmaCsrParityErr", 0, 0,
			CNTR_NORMAL,
			access_rx_dma_csr_parity_err_cnt),
[C_RX_RBUF_DATA_COR_ERR] = CNTR_ELEM("RxRbufDataCorErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_data_cor_err_cnt),
[C_RX_RBUF_DATA_UNC_ERR] = CNTR_ELEM("RxRbufDataUncErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_data_unc_err_cnt),
[C_RX_DMA_DATA_FIFO_RD_COR_ERR] = CNTR_ELEM("RxDmaDataFifoRdCorErr", 0, 0,
			CNTR_NORMAL,
			access_rx_dma_data_fifo_rd_cor_err_cnt),
[C_RX_DMA_DATA_FIFO_RD_UNC_ERR] = CNTR_ELEM("RxDmaDataFifoRdUncErr", 0, 0,
			CNTR_NORMAL,
			access_rx_dma_data_fifo_rd_unc_err_cnt),
[C_RX_DMA_HDR_FIFO_RD_COR_ERR] = CNTR_ELEM("RxDmaHdrFifoRdCorErr", 0, 0,
			CNTR_NORMAL,
			access_rx_dma_hdr_fifo_rd_cor_err_cnt),
[C_RX_DMA_HDR_FIFO_RD_UNC_ERR] = CNTR_ELEM("RxDmaHdrFifoRdUncErr", 0, 0,
			CNTR_NORMAL,
			access_rx_dma_hdr_fifo_rd_unc_err_cnt),
[C_RX_RBUF_DESC_PART2_COR_ERR] = CNTR_ELEM("RxRbufDescPart2CorErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_desc_part2_cor_err_cnt),
[C_RX_RBUF_DESC_PART2_UNC_ERR] = CNTR_ELEM("RxRbufDescPart2UncErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_desc_part2_unc_err_cnt),
[C_RX_RBUF_DESC_PART1_COR_ERR] = CNTR_ELEM("RxRbufDescPart1CorErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_desc_part1_cor_err_cnt),
[C_RX_RBUF_DESC_PART1_UNC_ERR] = CNTR_ELEM("RxRbufDescPart1UncErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_desc_part1_unc_err_cnt),
[C_RX_HQ_INTR_FSM_ERR] = CNTR_ELEM("RxHqIntrFsmErr", 0, 0,
			CNTR_NORMAL,
			access_rx_hq_intr_fsm_err_cnt),
[C_RX_HQ_INTR_CSR_PARITY_ERR] = CNTR_ELEM("RxHqIntrCsrParityErr", 0, 0,
			CNTR_NORMAL,
			access_rx_hq_intr_csr_parity_err_cnt),
[C_RX_LOOKUP_CSR_PARITY_ERR] = CNTR_ELEM("RxLookupCsrParityErr", 0, 0,
			CNTR_NORMAL,
			access_rx_lookup_csr_parity_err_cnt),
[C_RX_LOOKUP_RCV_ARRAY_COR_ERR] = CNTR_ELEM("RxLookupRcvArrayCorErr", 0, 0,
			CNTR_NORMAL,
			access_rx_lookup_rcv_array_cor_err_cnt),
[C_RX_LOOKUP_RCV_ARRAY_UNC_ERR] = CNTR_ELEM("RxLookupRcvArrayUncErr", 0, 0,
			CNTR_NORMAL,
			access_rx_lookup_rcv_array_unc_err_cnt),
[C_RX_LOOKUP_DES_PART2_PARITY_ERR] = CNTR_ELEM("RxLookupDesPart2ParityErr", 0,
			0, CNTR_NORMAL,
			access_rx_lookup_des_part2_parity_err_cnt),
[C_RX_LOOKUP_DES_PART1_UNC_COR_ERR] = CNTR_ELEM("RxLookupDesPart1UncCorErr", 0,
			0, CNTR_NORMAL,
			access_rx_lookup_des_part1_unc_cor_err_cnt),
[C_RX_LOOKUP_DES_PART1_UNC_ERR] = CNTR_ELEM("RxLookupDesPart1UncErr", 0, 0,
			CNTR_NORMAL,
			access_rx_lookup_des_part1_unc_err_cnt),
[C_RX_RBUF_NEXT_FREE_BUF_COR_ERR] = CNTR_ELEM("RxRbufNextFreeBufCorErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_next_free_buf_cor_err_cnt),
[C_RX_RBUF_NEXT_FREE_BUF_UNC_ERR] = CNTR_ELEM("RxRbufNextFreeBufUncErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_next_free_buf_unc_err_cnt),
[C_RX_RBUF_FL_INIT_WR_ADDR_PARITY_ERR] = CNTR_ELEM(
			"RxRbufFlInitWrAddrParityErr", 0, 0,
			CNTR_NORMAL,
			access_rbuf_fl_init_wr_addr_parity_err_cnt),
[C_RX_RBUF_FL_INITDONE_PARITY_ERR] = CNTR_ELEM("RxRbufFlInitdoneParityErr", 0,
			0, CNTR_NORMAL,
			access_rx_rbuf_fl_initdone_parity_err_cnt),
[C_RX_RBUF_FL_WRITE_ADDR_PARITY_ERR] = CNTR_ELEM("RxRbufFlWrAddrParityErr", 0,
			0, CNTR_NORMAL,
			access_rx_rbuf_fl_write_addr_parity_err_cnt),
[C_RX_RBUF_FL_RD_ADDR_PARITY_ERR] = CNTR_ELEM("RxRbufFlRdAddrParityErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_fl_rd_addr_parity_err_cnt),
[C_RX_RBUF_EMPTY_ERR] = CNTR_ELEM("RxRbufEmptyErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_empty_err_cnt),
[C_RX_RBUF_FULL_ERR] = CNTR_ELEM("RxRbufFullErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_full_err_cnt),
[C_RX_RBUF_BAD_LOOKUP_ERR] = CNTR_ELEM("RxRBufBadLookupErr", 0, 0,
			CNTR_NORMAL,
			access_rbuf_bad_lookup_err_cnt),
[C_RX_RBUF_CTX_ID_PARITY_ERR] = CNTR_ELEM("RxRbufCtxIdParityErr", 0, 0,
			CNTR_NORMAL,
			access_rbuf_ctx_id_parity_err_cnt),
[C_RX_RBUF_CSR_QEOPDW_PARITY_ERR] = CNTR_ELEM("RxRbufCsrQEOPDWParityErr", 0, 0,
			CNTR_NORMAL,
			access_rbuf_csr_qeopdw_parity_err_cnt),
[C_RX_RBUF_CSR_Q_NUM_OF_PKT_PARITY_ERR] = CNTR_ELEM(
			"RxRbufCsrQNumOfPktParityErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_csr_q_num_of_pkt_parity_err_cnt),
[C_RX_RBUF_CSR_Q_T1_PTR_PARITY_ERR] = CNTR_ELEM(
			"RxRbufCsrQTlPtrParityErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_csr_q_t1_ptr_parity_err_cnt),
[C_RX_RBUF_CSR_Q_HD_PTR_PARITY_ERR] = CNTR_ELEM("RxRbufCsrQHdPtrParityErr", 0,
			0, CNTR_NORMAL,
			access_rx_rbuf_csr_q_hd_ptr_parity_err_cnt),
[C_RX_RBUF_CSR_Q_VLD_BIT_PARITY_ERR] = CNTR_ELEM("RxRbufCsrQVldBitParityErr", 0,
			0, CNTR_NORMAL,
			access_rx_rbuf_csr_q_vld_bit_parity_err_cnt),
[C_RX_RBUF_CSR_Q_NEXT_BUF_PARITY_ERR] = CNTR_ELEM("RxRbufCsrQNextBufParityErr",
			0, 0, CNTR_NORMAL,
			access_rx_rbuf_csr_q_next_buf_parity_err_cnt),
[C_RX_RBUF_CSR_Q_ENT_CNT_PARITY_ERR] = CNTR_ELEM("RxRbufCsrQEntCntParityErr", 0,
			0, CNTR_NORMAL,
			access_rx_rbuf_csr_q_ent_cnt_parity_err_cnt),
[C_RX_RBUF_CSR_Q_HEAD_BUF_NUM_PARITY_ERR] = CNTR_ELEM(
			"RxRbufCsrQHeadBufNumParityErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_csr_q_head_buf_num_parity_err_cnt),
[C_RX_RBUF_BLOCK_LIST_READ_COR_ERR] = CNTR_ELEM("RxRbufBlockListReadCorErr", 0,
			0, CNTR_NORMAL,
			access_rx_rbuf_block_list_read_cor_err_cnt),
[C_RX_RBUF_BLOCK_LIST_READ_UNC_ERR] = CNTR_ELEM("RxRbufBlockListReadUncErr", 0,
			0, CNTR_NORMAL,
			access_rx_rbuf_block_list_read_unc_err_cnt),
[C_RX_RBUF_LOOKUP_DES_COR_ERR] = CNTR_ELEM("RxRbufLookupDesCorErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_lookup_des_cor_err_cnt),
[C_RX_RBUF_LOOKUP_DES_UNC_ERR] = CNTR_ELEM("RxRbufLookupDesUncErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_lookup_des_unc_err_cnt),
[C_RX_RBUF_LOOKUP_DES_REG_UNC_COR_ERR] = CNTR_ELEM(
			"RxRbufLookupDesRegUncCorErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_lookup_des_reg_unc_cor_err_cnt),
[C_RX_RBUF_LOOKUP_DES_REG_UNC_ERR] = CNTR_ELEM("RxRbufLookupDesRegUncErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_lookup_des_reg_unc_err_cnt),
[C_RX_RBUF_FREE_LIST_COR_ERR] = CNTR_ELEM("RxRbufFreeListCorErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_free_list_cor_err_cnt),
[C_RX_RBUF_FREE_LIST_UNC_ERR] = CNTR_ELEM("RxRbufFreeListUncErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rbuf_free_list_unc_err_cnt),
[C_RX_RCV_FSM_ENCODING_ERR] = CNTR_ELEM("RxRcvFsmEncodingErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rcv_fsm_encoding_err_cnt),
[C_RX_DMA_FLAG_COR_ERR] = CNTR_ELEM("RxDmaFlagCorErr", 0, 0,
			CNTR_NORMAL,
			access_rx_dma_flag_cor_err_cnt),
[C_RX_DMA_FLAG_UNC_ERR] = CNTR_ELEM("RxDmaFlagUncErr", 0, 0,
			CNTR_NORMAL,
			access_rx_dma_flag_unc_err_cnt),
[C_RX_DC_SOP_EOP_PARITY_ERR] = CNTR_ELEM("RxDcSopEopParityErr", 0, 0,
			CNTR_NORMAL,
			access_rx_dc_sop_eop_parity_err_cnt),
[C_RX_RCV_CSR_PARITY_ERR] = CNTR_ELEM("RxRcvCsrParityErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rcv_csr_parity_err_cnt),
[C_RX_RCV_QP_MAP_TABLE_COR_ERR] = CNTR_ELEM("RxRcvQpMapTableCorErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rcv_qp_map_table_cor_err_cnt),
[C_RX_RCV_QP_MAP_TABLE_UNC_ERR] = CNTR_ELEM("RxRcvQpMapTableUncErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rcv_qp_map_table_unc_err_cnt),
[C_RX_RCV_DATA_COR_ERR] = CNTR_ELEM("RxRcvDataCorErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rcv_data_cor_err_cnt),
[C_RX_RCV_DATA_UNC_ERR] = CNTR_ELEM("RxRcvDataUncErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rcv_data_unc_err_cnt),
[C_RX_RCV_HDR_COR_ERR] = CNTR_ELEM("RxRcvHdrCorErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rcv_hdr_cor_err_cnt),
[C_RX_RCV_HDR_UNC_ERR] = CNTR_ELEM("RxRcvHdrUncErr", 0, 0,
			CNTR_NORMAL,
			access_rx_rcv_hdr_unc_err_cnt),
[C_RX_DC_INTF_PARITY_ERR] = CNTR_ELEM("RxDcIntfParityErr", 0, 0,
			CNTR_NORMAL,
			access_rx_dc_intf_parity_err_cnt),
[C_RX_DMA_CSR_COR_ERR] = CNTR_ELEM("RxDmaCsrCorErr", 0, 0,
			CNTR_NORMAL,
			access_rx_dma_csr_cor_err_cnt),
/* SendPioErrStatus */
[C_PIO_PEC_SOP_HEAD_PARITY_ERR] = CNTR_ELEM("PioPecSopHeadParityErr", 0, 0,
			CNTR_NORMAL,
			access_pio_pec_sop_head_parity_err_cnt),
[C_PIO_PCC_SOP_HEAD_PARITY_ERR] = CNTR_ELEM("PioPccSopHeadParityErr", 0, 0,
			CNTR_NORMAL,
			access_pio_pcc_sop_head_parity_err_cnt),
[C_PIO_LAST_RETURNED_CNT_PARITY_ERR] = CNTR_ELEM("PioLastReturnedCntParityErr",
			0, 0, CNTR_NORMAL,
			access_pio_last_returned_cnt_parity_err_cnt),
[C_PIO_CURRENT_FREE_CNT_PARITY_ERR] = CNTR_ELEM("PioCurrentFreeCntParityErr", 0,
			0, CNTR_NORMAL,
			access_pio_current_free_cnt_parity_err_cnt),
[C_PIO_RSVD_31_ERR] = CNTR_ELEM("Pio Reserved 31", 0, 0,
			CNTR_NORMAL,
			access_pio_reserved_31_err_cnt),
[C_PIO_RSVD_30_ERR] = CNTR_ELEM("Pio Reserved 30", 0, 0,
			CNTR_NORMAL,
			access_pio_reserved_30_err_cnt),
[C_PIO_PPMC_SOP_LEN_ERR] = CNTR_ELEM("PioPpmcSopLenErr", 0, 0,
			CNTR_NORMAL,
			access_pio_ppmc_sop_len_err_cnt),
[C_PIO_PPMC_BQC_MEM_PARITY_ERR] = CNTR_ELEM("PioPpmcBqcMemParityErr", 0, 0,
			CNTR_NORMAL,
			access_pio_ppmc_bqc_mem_parity_err_cnt),
[C_PIO_VL_FIFO_PARITY_ERR] = CNTR_ELEM("PioVlFifoParityErr", 0, 0,
			CNTR_NORMAL,
			access_pio_vl_fifo_parity_err_cnt),
[C_PIO_VLF_SOP_PARITY_ERR] = CNTR_ELEM("PioVlfSopParityErr", 0, 0,
			CNTR_NORMAL,
			access_pio_vlf_sop_parity_err_cnt),
[C_PIO_VLF_V1_LEN_PARITY_ERR] = CNTR_ELEM("PioVlfVlLenParityErr", 0, 0,
			CNTR_NORMAL,
			access_pio_vlf_v1_len_parity_err_cnt),
[C_PIO_BLOCK_QW_COUNT_PARITY_ERR] = CNTR_ELEM("PioBlockQwCountParityErr", 0, 0,
			CNTR_NORMAL,
			access_pio_block_qw_count_parity_err_cnt),
[C_PIO_WRITE_QW_VALID_PARITY_ERR] = CNTR_ELEM("PioWriteQwValidParityErr", 0, 0,
			CNTR_NORMAL,
			access_pio_write_qw_valid_parity_err_cnt),
[C_PIO_STATE_MACHINE_ERR] = CNTR_ELEM("PioStateMachineErr", 0, 0,
			CNTR_NORMAL,
			access_pio_state_machine_err_cnt),
[C_PIO_WRITE_DATA_PARITY_ERR] = CNTR_ELEM("PioWriteDataParityErr", 0, 0,
			CNTR_NORMAL,
			access_pio_write_data_parity_err_cnt),
[C_PIO_HOST_ADDR_MEM_COR_ERR] = CNTR_ELEM("PioHostAddrMemCorErr", 0, 0,
			CNTR_NORMAL,
			access_pio_host_addr_mem_cor_err_cnt),
[C_PIO_HOST_ADDR_MEM_UNC_ERR] = CNTR_ELEM("PioHostAddrMemUncErr", 0, 0,
			CNTR_NORMAL,
			access_pio_host_addr_mem_unc_err_cnt),
[C_PIO_PKT_EVICT_SM_OR_ARM_SM_ERR] = CNTR_ELEM("PioPktEvictSmOrArbSmErr", 0, 0,
			CNTR_NORMAL,
			access_pio_pkt_evict_sm_or_arb_sm_err_cnt),
[C_PIO_INIT_SM_IN_ERR] = CNTR_ELEM("PioInitSmInErr", 0, 0,
			CNTR_NORMAL,
			access_pio_init_sm_in_err_cnt),
[C_PIO_PPMC_PBL_FIFO_ERR] = CNTR_ELEM("PioPpmcPblFifoErr", 0, 0,
			CNTR_NORMAL,
			access_pio_ppmc_pbl_fifo_err_cnt),
[C_PIO_CREDIT_RET_FIFO_PARITY_ERR] = CNTR_ELEM("PioCreditRetFifoParityErr", 0,
			0, CNTR_NORMAL,
			access_pio_credit_ret_fifo_parity_err_cnt),
[C_PIO_V1_LEN_MEM_BANK1_COR_ERR] = CNTR_ELEM("PioVlLenMemBank1CorErr", 0, 0,
			CNTR_NORMAL,
			access_pio_v1_len_mem_bank1_cor_err_cnt),
[C_PIO_V1_LEN_MEM_BANK0_COR_ERR] = CNTR_ELEM("PioVlLenMemBank0CorErr", 0, 0,
			CNTR_NORMAL,
			access_pio_v1_len_mem_bank0_cor_err_cnt),
[C_PIO_V1_LEN_MEM_BANK1_UNC_ERR] = CNTR_ELEM("PioVlLenMemBank1UncErr", 0, 0,
			CNTR_NORMAL,
			access_pio_v1_len_mem_bank1_unc_err_cnt),
[C_PIO_V1_LEN_MEM_BANK0_UNC_ERR] = CNTR_ELEM("PioVlLenMemBank0UncErr", 0, 0,
			CNTR_NORMAL,
			access_pio_v1_len_mem_bank0_unc_err_cnt),
[C_PIO_SM_PKT_RESET_PARITY_ERR] = CNTR_ELEM("PioSmPktResetParityErr", 0, 0,
			CNTR_NORMAL,
			access_pio_sm_pkt_reset_parity_err_cnt),
[C_PIO_PKT_EVICT_FIFO_PARITY_ERR] = CNTR_ELEM("PioPktEvictFifoParityErr", 0, 0,
			CNTR_NORMAL,
			access_pio_pkt_evict_fifo_parity_err_cnt),
[C_PIO_SBRDCTRL_CRREL_FIFO_PARITY_ERR] = CNTR_ELEM(
			"PioSbrdctrlCrrelFifoParityErr", 0, 0,
			CNTR_NORMAL,
			access_pio_sbrdctrl_crrel_fifo_parity_err_cnt),
[C_PIO_SBRDCTL_CRREL_PARITY_ERR] = CNTR_ELEM("PioSbrdctlCrrelParityErr", 0, 0,
			CNTR_NORMAL,
			access_pio_sbrdctl_crrel_parity_err_cnt),
[C_PIO_PEC_FIFO_PARITY_ERR] = CNTR_ELEM("PioPecFifoParityErr", 0, 0,
			CNTR_NORMAL,
			access_pio_pec_fifo_parity_err_cnt),
[C_PIO_PCC_FIFO_PARITY_ERR] = CNTR_ELEM("PioPccFifoParityErr", 0, 0,
			CNTR_NORMAL,
			access_pio_pcc_fifo_parity_err_cnt),
[C_PIO_SB_MEM_FIFO1_ERR] = CNTR_ELEM("PioSbMemFifo1Err", 0, 0,
			CNTR_NORMAL,
			access_pio_sb_mem_fifo1_err_cnt),
[C_PIO_SB_MEM_FIFO0_ERR] = CNTR_ELEM("PioSbMemFifo0Err", 0, 0,
			CNTR_NORMAL,
			access_pio_sb_mem_fifo0_err_cnt),
[C_PIO_CSR_PARITY_ERR] = CNTR_ELEM("PioCsrParityErr", 0, 0,
			CNTR_NORMAL,
			access_pio_csr_parity_err_cnt),
[C_PIO_WRITE_ADDR_PARITY_ERR] = CNTR_ELEM("PioWriteAddrParityErr", 0, 0,
			CNTR_NORMAL,
			access_pio_write_addr_parity_err_cnt),
[C_PIO_WRITE_BAD_CTXT_ERR] = CNTR_ELEM("PioWriteBadCtxtErr", 0, 0,
			CNTR_NORMAL,
			access_pio_write_bad_ctxt_err_cnt),
/* SendDmaErrStatus */
[C_SDMA_PCIE_REQ_TRACKING_COR_ERR] = CNTR_ELEM("SDmaPcieReqTrackingCorErr", 0,
			0, CNTR_NORMAL,
			access_sdma_pcie_req_tracking_cor_err_cnt),
[C_SDMA_PCIE_REQ_TRACKING_UNC_ERR] = CNTR_ELEM("SDmaPcieReqTrackingUncErr", 0,
			0, CNTR_NORMAL,
			access_sdma_pcie_req_tracking_unc_err_cnt),
[C_SDMA_CSR_PARITY_ERR] = CNTR_ELEM("SDmaCsrParityErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_csr_parity_err_cnt),
[C_SDMA_RPY_TAG_ERR] = CNTR_ELEM("SDmaRpyTagErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_rpy_tag_err_cnt),
/* SendEgressErrStatus */
[C_TX_READ_PIO_MEMORY_CSR_UNC_ERR] = CNTR_ELEM("TxReadPioMemoryCsrUncErr", 0, 0,
			CNTR_NORMAL,
			access_tx_read_pio_memory_csr_unc_err_cnt),
[C_TX_READ_SDMA_MEMORY_CSR_UNC_ERR] = CNTR_ELEM("TxReadSdmaMemoryCsrUncErr", 0,
			0, CNTR_NORMAL,
			access_tx_read_sdma_memory_csr_err_cnt),
[C_TX_EGRESS_FIFO_COR_ERR] = CNTR_ELEM("TxEgressFifoCorErr", 0, 0,
			CNTR_NORMAL,
			access_tx_egress_fifo_cor_err_cnt),
[C_TX_READ_PIO_MEMORY_COR_ERR] = CNTR_ELEM("TxReadPioMemoryCorErr", 0, 0,
			CNTR_NORMAL,
			access_tx_read_pio_memory_cor_err_cnt),
[C_TX_READ_SDMA_MEMORY_COR_ERR] = CNTR_ELEM("TxReadSdmaMemoryCorErr", 0, 0,
			CNTR_NORMAL,
			access_tx_read_sdma_memory_cor_err_cnt),
[C_TX_SB_HDR_COR_ERR] = CNTR_ELEM("TxSbHdrCorErr", 0, 0,
			CNTR_NORMAL,
			access_tx_sb_hdr_cor_err_cnt),
[C_TX_CREDIT_OVERRUN_ERR] = CNTR_ELEM("TxCreditOverrunErr", 0, 0,
			CNTR_NORMAL,
			access_tx_credit_overrun_err_cnt),
[C_TX_LAUNCH_FIFO8_COR_ERR] = CNTR_ELEM("TxLaunchFifo8CorErr", 0, 0,
			CNTR_NORMAL,
			access_tx_launch_fifo8_cor_err_cnt),
[C_TX_LAUNCH_FIFO7_COR_ERR] = CNTR_ELEM("TxLaunchFifo7CorErr", 0, 0,
			CNTR_NORMAL,
			access_tx_launch_fifo7_cor_err_cnt),
[C_TX_LAUNCH_FIFO6_COR_ERR] = CNTR_ELEM("TxLaunchFifo6CorErr", 0, 0,
			CNTR_NORMAL,
			access_tx_launch_fifo6_cor_err_cnt),
[C_TX_LAUNCH_FIFO5_COR_ERR] = CNTR_ELEM("TxLaunchFifo5CorErr", 0, 0,
			CNTR_NORMAL,
			access_tx_launch_fifo5_cor_err_cnt),
[C_TX_LAUNCH_FIFO4_COR_ERR] = CNTR_ELEM("TxLaunchFifo4CorErr", 0, 0,
			CNTR_NORMAL,
			access_tx_launch_fifo4_cor_err_cnt),
[C_TX_LAUNCH_FIFO3_COR_ERR] = CNTR_ELEM("TxLaunchFifo3CorErr", 0, 0,
			CNTR_NORMAL,
			access_tx_launch_fifo3_cor_err_cnt),
[C_TX_LAUNCH_FIFO2_COR_ERR] = CNTR_ELEM("TxLaunchFifo2CorErr", 0, 0,
			CNTR_NORMAL,
			access_tx_launch_fifo2_cor_err_cnt),
[C_TX_LAUNCH_FIFO1_COR_ERR] = CNTR_ELEM("TxLaunchFifo1CorErr", 0, 0,
			CNTR_NORMAL,
			access_tx_launch_fifo1_cor_err_cnt),
[C_TX_LAUNCH_FIFO0_COR_ERR] = CNTR_ELEM("TxLaunchFifo0CorErr", 0, 0,
			CNTR_NORMAL,
			access_tx_launch_fifo0_cor_err_cnt),
[C_TX_CREDIT_RETURN_VL_ERR] = CNTR_ELEM("TxCreditReturnVLErr", 0, 0,
			CNTR_NORMAL,
			access_tx_credit_return_vl_err_cnt),
[C_TX_HCRC_INSERTION_ERR] = CNTR_ELEM("TxHcrcInsertionErr", 0, 0,
			CNTR_NORMAL,
			access_tx_hcrc_insertion_err_cnt),
[C_TX_EGRESS_FIFI_UNC_ERR] = CNTR_ELEM("TxEgressFifoUncErr", 0, 0,
			CNTR_NORMAL,
			access_tx_egress_fifo_unc_err_cnt),
[C_TX_READ_PIO_MEMORY_UNC_ERR] = CNTR_ELEM("TxReadPioMemoryUncErr", 0, 0,
			CNTR_NORMAL,
			access_tx_read_pio_memory_unc_err_cnt),
[C_TX_READ_SDMA_MEMORY_UNC_ERR] = CNTR_ELEM("TxReadSdmaMemoryUncErr", 0, 0,
			CNTR_NORMAL,
			access_tx_read_sdma_memory_unc_err_cnt),
[C_TX_SB_HDR_UNC_ERR] = CNTR_ELEM("TxSbHdrUncErr", 0, 0,
			CNTR_NORMAL,
			access_tx_sb_hdr_unc_err_cnt),
[C_TX_CREDIT_RETURN_PARITY_ERR] = CNTR_ELEM("TxCreditReturnParityErr", 0, 0,
			CNTR_NORMAL,
			access_tx_credit_return_partiy_err_cnt),
[C_TX_LAUNCH_FIFO8_UNC_OR_PARITY_ERR] = CNTR_ELEM("TxLaunchFifo8UncOrParityErr",
			0, 0, CNTR_NORMAL,
			access_tx_launch_fifo8_unc_or_parity_err_cnt),
[C_TX_LAUNCH_FIFO7_UNC_OR_PARITY_ERR] = CNTR_ELEM("TxLaunchFifo7UncOrParityErr",
			0, 0, CNTR_NORMAL,
			access_tx_launch_fifo7_unc_or_parity_err_cnt),
[C_TX_LAUNCH_FIFO6_UNC_OR_PARITY_ERR] = CNTR_ELEM("TxLaunchFifo6UncOrParityErr",
			0, 0, CNTR_NORMAL,
			access_tx_launch_fifo6_unc_or_parity_err_cnt),
[C_TX_LAUNCH_FIFO5_UNC_OR_PARITY_ERR] = CNTR_ELEM("TxLaunchFifo5UncOrParityErr",
			0, 0, CNTR_NORMAL,
			access_tx_launch_fifo5_unc_or_parity_err_cnt),
[C_TX_LAUNCH_FIFO4_UNC_OR_PARITY_ERR] = CNTR_ELEM("TxLaunchFifo4UncOrParityErr",
			0, 0, CNTR_NORMAL,
			access_tx_launch_fifo4_unc_or_parity_err_cnt),
[C_TX_LAUNCH_FIFO3_UNC_OR_PARITY_ERR] = CNTR_ELEM("TxLaunchFifo3UncOrParityErr",
			0, 0, CNTR_NORMAL,
			access_tx_launch_fifo3_unc_or_parity_err_cnt),
[C_TX_LAUNCH_FIFO2_UNC_OR_PARITY_ERR] = CNTR_ELEM("TxLaunchFifo2UncOrParityErr",
			0, 0, CNTR_NORMAL,
			access_tx_launch_fifo2_unc_or_parity_err_cnt),
[C_TX_LAUNCH_FIFO1_UNC_OR_PARITY_ERR] = CNTR_ELEM("TxLaunchFifo1UncOrParityErr",
			0, 0, CNTR_NORMAL,
			access_tx_launch_fifo1_unc_or_parity_err_cnt),
[C_TX_LAUNCH_FIFO0_UNC_OR_PARITY_ERR] = CNTR_ELEM("TxLaunchFifo0UncOrParityErr",
			0, 0, CNTR_NORMAL,
			access_tx_launch_fifo0_unc_or_parity_err_cnt),
[C_TX_SDMA15_DISALLOWED_PACKET_ERR] = CNTR_ELEM("TxSdma15DisallowedPacketErr",
			0, 0, CNTR_NORMAL,
			access_tx_sdma15_disallowed_packet_err_cnt),
[C_TX_SDMA14_DISALLOWED_PACKET_ERR] = CNTR_ELEM("TxSdma14DisallowedPacketErr",
			0, 0, CNTR_NORMAL,
			access_tx_sdma14_disallowed_packet_err_cnt),
[C_TX_SDMA13_DISALLOWED_PACKET_ERR] = CNTR_ELEM("TxSdma13DisallowedPacketErr",
			0, 0, CNTR_NORMAL,
			access_tx_sdma13_disallowed_packet_err_cnt),
[C_TX_SDMA12_DISALLOWED_PACKET_ERR] = CNTR_ELEM("TxSdma12DisallowedPacketErr",
			0, 0, CNTR_NORMAL,
			access_tx_sdma12_disallowed_packet_err_cnt),
[C_TX_SDMA11_DISALLOWED_PACKET_ERR] = CNTR_ELEM("TxSdma11DisallowedPacketErr",
			0, 0, CNTR_NORMAL,
			access_tx_sdma11_disallowed_packet_err_cnt),
[C_TX_SDMA10_DISALLOWED_PACKET_ERR] = CNTR_ELEM("TxSdma10DisallowedPacketErr",
			0, 0, CNTR_NORMAL,
			access_tx_sdma10_disallowed_packet_err_cnt),
[C_TX_SDMA9_DISALLOWED_PACKET_ERR] = CNTR_ELEM("TxSdma9DisallowedPacketErr",
			0, 0, CNTR_NORMAL,
			access_tx_sdma9_disallowed_packet_err_cnt),
[C_TX_SDMA8_DISALLOWED_PACKET_ERR] = CNTR_ELEM("TxSdma8DisallowedPacketErr",
			0, 0, CNTR_NORMAL,
			access_tx_sdma8_disallowed_packet_err_cnt),
[C_TX_SDMA7_DISALLOWED_PACKET_ERR] = CNTR_ELEM("TxSdma7DisallowedPacketErr",
			0, 0, CNTR_NORMAL,
			access_tx_sdma7_disallowed_packet_err_cnt),
[C_TX_SDMA6_DISALLOWED_PACKET_ERR] = CNTR_ELEM("TxSdma6DisallowedPacketErr",
			0, 0, CNTR_NORMAL,
			access_tx_sdma6_disallowed_packet_err_cnt),
[C_TX_SDMA5_DISALLOWED_PACKET_ERR] = CNTR_ELEM("TxSdma5DisallowedPacketErr",
			0, 0, CNTR_NORMAL,
			access_tx_sdma5_disallowed_packet_err_cnt),
[C_TX_SDMA4_DISALLOWED_PACKET_ERR] = CNTR_ELEM("TxSdma4DisallowedPacketErr",
			0, 0, CNTR_NORMAL,
			access_tx_sdma4_disallowed_packet_err_cnt),
[C_TX_SDMA3_DISALLOWED_PACKET_ERR] = CNTR_ELEM("TxSdma3DisallowedPacketErr",
			0, 0, CNTR_NORMAL,
			access_tx_sdma3_disallowed_packet_err_cnt),
[C_TX_SDMA2_DISALLOWED_PACKET_ERR] = CNTR_ELEM("TxSdma2DisallowedPacketErr",
			0, 0, CNTR_NORMAL,
			access_tx_sdma2_disallowed_packet_err_cnt),
[C_TX_SDMA1_DISALLOWED_PACKET_ERR] = CNTR_ELEM("TxSdma1DisallowedPacketErr",
			0, 0, CNTR_NORMAL,
			access_tx_sdma1_disallowed_packet_err_cnt),
[C_TX_SDMA0_DISALLOWED_PACKET_ERR] = CNTR_ELEM("TxSdma0DisallowedPacketErr",
			0, 0, CNTR_NORMAL,
			access_tx_sdma0_disallowed_packet_err_cnt),
[C_TX_CONFIG_PARITY_ERR] = CNTR_ELEM("TxConfigParityErr", 0, 0,
			CNTR_NORMAL,
			access_tx_config_parity_err_cnt),
[C_TX_SBRD_CTL_CSR_PARITY_ERR] = CNTR_ELEM("TxSbrdCtlCsrParityErr", 0, 0,
			CNTR_NORMAL,
			access_tx_sbrd_ctl_csr_parity_err_cnt),
[C_TX_LAUNCH_CSR_PARITY_ERR] = CNTR_ELEM("TxLaunchCsrParityErr", 0, 0,
			CNTR_NORMAL,
			access_tx_launch_csr_parity_err_cnt),
[C_TX_ILLEGAL_CL_ERR] = CNTR_ELEM("TxIllegalVLErr", 0, 0,
			CNTR_NORMAL,
			access_tx_illegal_vl_err_cnt),
[C_TX_SBRD_CTL_STATE_MACHINE_PARITY_ERR] = CNTR_ELEM(
			"TxSbrdCtlStateMachineParityErr", 0, 0,
			CNTR_NORMAL,
			access_tx_sbrd_ctl_state_machine_parity_err_cnt),
[C_TX_RESERVED_10] = CNTR_ELEM("Tx Egress Reserved 10", 0, 0,
			CNTR_NORMAL,
			access_egress_reserved_10_err_cnt),
[C_TX_RESERVED_9] = CNTR_ELEM("Tx Egress Reserved 9", 0, 0,
			CNTR_NORMAL,
			access_egress_reserved_9_err_cnt),
[C_TX_SDMA_LAUNCH_INTF_PARITY_ERR] = CNTR_ELEM("TxSdmaLaunchIntfParityErr",
			0, 0, CNTR_NORMAL,
			access_tx_sdma_launch_intf_parity_err_cnt),
[C_TX_PIO_LAUNCH_INTF_PARITY_ERR] = CNTR_ELEM("TxPioLaunchIntfParityErr", 0, 0,
			CNTR_NORMAL,
			access_tx_pio_launch_intf_parity_err_cnt),
[C_TX_RESERVED_6] = CNTR_ELEM("Tx Egress Reserved 6", 0, 0,
			CNTR_NORMAL,
			access_egress_reserved_6_err_cnt),
[C_TX_INCORRECT_LINK_STATE_ERR] = CNTR_ELEM("TxIncorrectLinkStateErr", 0, 0,
			CNTR_NORMAL,
			access_tx_incorrect_link_state_err_cnt),
[C_TX_LINK_DOWN_ERR] = CNTR_ELEM("TxLinkdownErr", 0, 0,
			CNTR_NORMAL,
			access_tx_linkdown_err_cnt),
[C_TX_EGRESS_FIFO_UNDERRUN_OR_PARITY_ERR] = CNTR_ELEM(
			"EgressFifoUnderrunOrParityErr", 0, 0,
			CNTR_NORMAL,
			access_tx_egress_fifi_underrun_or_parity_err_cnt),
[C_TX_RESERVED_2] = CNTR_ELEM("Tx Egress Reserved 2", 0, 0,
			CNTR_NORMAL,
			access_egress_reserved_2_err_cnt),
[C_TX_PKT_INTEGRITY_MEM_UNC_ERR] = CNTR_ELEM("TxPktIntegrityMemUncErr", 0, 0,
			CNTR_NORMAL,
			access_tx_pkt_integrity_mem_unc_err_cnt),
[C_TX_PKT_INTEGRITY_MEM_COR_ERR] = CNTR_ELEM("TxPktIntegrityMemCorErr", 0, 0,
			CNTR_NORMAL,
			access_tx_pkt_integrity_mem_cor_err_cnt),
/* SendErrStatus */
[C_SEND_CSR_WRITE_BAD_ADDR_ERR] = CNTR_ELEM("SendCsrWriteBadAddrErr", 0, 0,
			CNTR_NORMAL,
			access_send_csr_write_bad_addr_err_cnt),
[C_SEND_CSR_READ_BAD_ADD_ERR] = CNTR_ELEM("SendCsrReadBadAddrErr", 0, 0,
			CNTR_NORMAL,
			access_send_csr_read_bad_addr_err_cnt),
[C_SEND_CSR_PARITY_ERR] = CNTR_ELEM("SendCsrParityErr", 0, 0,
			CNTR_NORMAL,
			access_send_csr_parity_cnt),
/* SendCtxtErrStatus */
[C_PIO_WRITE_OUT_OF_BOUNDS_ERR] = CNTR_ELEM("PioWriteOutOfBoundsErr", 0, 0,
			CNTR_NORMAL,
			access_pio_write_out_of_bounds_err_cnt),
[C_PIO_WRITE_OVERFLOW_ERR] = CNTR_ELEM("PioWriteOverflowErr", 0, 0,
			CNTR_NORMAL,
			access_pio_write_overflow_err_cnt),
[C_PIO_WRITE_CROSSES_BOUNDARY_ERR] = CNTR_ELEM("PioWriteCrossesBoundaryErr",
			0, 0, CNTR_NORMAL,
			access_pio_write_crosses_boundary_err_cnt),
[C_PIO_DISALLOWED_PACKET_ERR] = CNTR_ELEM("PioDisallowedPacketErr", 0, 0,
			CNTR_NORMAL,
			access_pio_disallowed_packet_err_cnt),
[C_PIO_INCONSISTENT_SOP_ERR] = CNTR_ELEM("PioInconsistentSopErr", 0, 0,
			CNTR_NORMAL,
			access_pio_inconsistent_sop_err_cnt),
/* SendDmaEngErrStatus */
[C_SDMA_HEADER_REQUEST_FIFO_COR_ERR] = CNTR_ELEM("SDmaHeaderRequestFifoCorErr",
			0, 0, CNTR_NORMAL,
			access_sdma_header_request_fifo_cor_err_cnt),
[C_SDMA_HEADER_STORAGE_COR_ERR] = CNTR_ELEM("SDmaHeaderStorageCorErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_header_storage_cor_err_cnt),
[C_SDMA_PACKET_TRACKING_COR_ERR] = CNTR_ELEM("SDmaPacketTrackingCorErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_packet_tracking_cor_err_cnt),
[C_SDMA_ASSEMBLY_COR_ERR] = CNTR_ELEM("SDmaAssemblyCorErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_assembly_cor_err_cnt),
[C_SDMA_DESC_TABLE_COR_ERR] = CNTR_ELEM("SDmaDescTableCorErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_desc_table_cor_err_cnt),
[C_SDMA_HEADER_REQUEST_FIFO_UNC_ERR] = CNTR_ELEM("SDmaHeaderRequestFifoUncErr",
			0, 0, CNTR_NORMAL,
			access_sdma_header_request_fifo_unc_err_cnt),
[C_SDMA_HEADER_STORAGE_UNC_ERR] = CNTR_ELEM("SDmaHeaderStorageUncErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_header_storage_unc_err_cnt),
[C_SDMA_PACKET_TRACKING_UNC_ERR] = CNTR_ELEM("SDmaPacketTrackingUncErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_packet_tracking_unc_err_cnt),
[C_SDMA_ASSEMBLY_UNC_ERR] = CNTR_ELEM("SDmaAssemblyUncErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_assembly_unc_err_cnt),
[C_SDMA_DESC_TABLE_UNC_ERR] = CNTR_ELEM("SDmaDescTableUncErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_desc_table_unc_err_cnt),
[C_SDMA_TIMEOUT_ERR] = CNTR_ELEM("SDmaTimeoutErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_timeout_err_cnt),
[C_SDMA_HEADER_LENGTH_ERR] = CNTR_ELEM("SDmaHeaderLengthErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_header_length_err_cnt),
[C_SDMA_HEADER_ADDRESS_ERR] = CNTR_ELEM("SDmaHeaderAddressErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_header_address_err_cnt),
[C_SDMA_HEADER_SELECT_ERR] = CNTR_ELEM("SDmaHeaderSelectErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_header_select_err_cnt),
[C_SMDA_RESERVED_9] = CNTR_ELEM("SDma Reserved 9", 0, 0,
			CNTR_NORMAL,
			access_sdma_reserved_9_err_cnt),
[C_SDMA_PACKET_DESC_OVERFLOW_ERR] = CNTR_ELEM("SDmaPacketDescOverflowErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_packet_desc_overflow_err_cnt),
[C_SDMA_LENGTH_MISMATCH_ERR] = CNTR_ELEM("SDmaLengthMismatchErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_length_mismatch_err_cnt),
[C_SDMA_HALT_ERR] = CNTR_ELEM("SDmaHaltErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_halt_err_cnt),
[C_SDMA_MEM_READ_ERR] = CNTR_ELEM("SDmaMemReadErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_mem_read_err_cnt),
[C_SDMA_FIRST_DESC_ERR] = CNTR_ELEM("SDmaFirstDescErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_first_desc_err_cnt),
[C_SDMA_TAIL_OUT_OF_BOUNDS_ERR] = CNTR_ELEM("SDmaTailOutOfBoundsErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_tail_out_of_bounds_err_cnt),
[C_SDMA_TOO_LONG_ERR] = CNTR_ELEM("SDmaTooLongErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_too_long_err_cnt),
[C_SDMA_GEN_MISMATCH_ERR] = CNTR_ELEM("SDmaGenMismatchErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_gen_mismatch_err_cnt),
[C_SDMA_WRONG_DW_ERR] = CNTR_ELEM("SDmaWrongDwErr", 0, 0,
			CNTR_NORMAL,
			access_sdma_wrong_dw_err_cnt),
M
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};

static struct cntr_entry port_cntrs[PORT_CNTR_LAST] = {
[C_TX_UNSUP_VL] = TXE32_PORT_CNTR_ELEM(TxUnVLErr, SEND_UNSUP_VL_ERR_CNT,
			CNTR_NORMAL),
[C_TX_INVAL_LEN] = TXE32_PORT_CNTR_ELEM(TxInvalLen, SEND_LEN_ERR_CNT,
			CNTR_NORMAL),
[C_TX_MM_LEN_ERR] = TXE32_PORT_CNTR_ELEM(TxMMLenErr, SEND_MAX_MIN_LEN_ERR_CNT,
			CNTR_NORMAL),
[C_TX_UNDERRUN] = TXE32_PORT_CNTR_ELEM(TxUnderrun, SEND_UNDERRUN_CNT,
			CNTR_NORMAL),
[C_TX_FLOW_STALL] = TXE32_PORT_CNTR_ELEM(TxFlowStall, SEND_FLOW_STALL_CNT,
			CNTR_NORMAL),
[C_TX_DROPPED] = TXE32_PORT_CNTR_ELEM(TxDropped, SEND_DROPPED_PKT_CNT,
			CNTR_NORMAL),
[C_TX_HDR_ERR] = TXE32_PORT_CNTR_ELEM(TxHdrErr, SEND_HEADERS_ERR_CNT,
			CNTR_NORMAL),
[C_TX_PKT] = TXE64_PORT_CNTR_ELEM(TxPkt, SEND_DATA_PKT_CNT, CNTR_NORMAL),
[C_TX_WORDS] = TXE64_PORT_CNTR_ELEM(TxWords, SEND_DWORD_CNT, CNTR_NORMAL),
[C_TX_WAIT] = TXE64_PORT_CNTR_ELEM(TxWait, SEND_WAIT_CNT, CNTR_SYNTH),
[C_TX_FLIT_VL] = TXE64_PORT_CNTR_ELEM(TxFlitVL, SEND_DATA_VL0_CNT,
5028
				      CNTR_SYNTH | CNTR_VL),
M
Mike Marciniszyn 已提交
5029
[C_TX_PKT_VL] = TXE64_PORT_CNTR_ELEM(TxPktVL, SEND_DATA_PKT_VL0_CNT,
5030
				     CNTR_SYNTH | CNTR_VL),
M
Mike Marciniszyn 已提交
5031
[C_TX_WAIT_VL] = TXE64_PORT_CNTR_ELEM(TxWaitVL, SEND_WAIT_VL0_CNT,
5032
				      CNTR_SYNTH | CNTR_VL),
M
Mike Marciniszyn 已提交
5033 5034 5035
[C_RX_PKT] = RXE64_PORT_CNTR_ELEM(RxPkt, RCV_DATA_PKT_CNT, CNTR_NORMAL),
[C_RX_WORDS] = RXE64_PORT_CNTR_ELEM(RxWords, RCV_DWORD_CNT, CNTR_NORMAL),
[C_SW_LINK_DOWN] = CNTR_ELEM("SwLinkDown", 0, 0, CNTR_SYNTH | CNTR_32BIT,
5036
			     access_sw_link_dn_cnt),
M
Mike Marciniszyn 已提交
5037
[C_SW_LINK_UP] = CNTR_ELEM("SwLinkUp", 0, 0, CNTR_SYNTH | CNTR_32BIT,
5038
			   access_sw_link_up_cnt),
5039 5040
[C_SW_UNKNOWN_FRAME] = CNTR_ELEM("UnknownFrame", 0, 0, CNTR_NORMAL,
				 access_sw_unknown_frame_cnt),
M
Mike Marciniszyn 已提交
5041
[C_SW_XMIT_DSCD] = CNTR_ELEM("XmitDscd", 0, 0, CNTR_SYNTH | CNTR_32BIT,
5042
			     access_sw_xmit_discards),
M
Mike Marciniszyn 已提交
5043
[C_SW_XMIT_DSCD_VL] = CNTR_ELEM("XmitDscdVl", 0, 0,
5044 5045
				CNTR_SYNTH | CNTR_32BIT | CNTR_VL,
				access_sw_xmit_discards),
M
Mike Marciniszyn 已提交
5046
[C_SW_XMIT_CSTR_ERR] = CNTR_ELEM("XmitCstrErr", 0, 0, CNTR_SYNTH,
5047
				 access_xmit_constraint_errs),
M
Mike Marciniszyn 已提交
5048
[C_SW_RCV_CSTR_ERR] = CNTR_ELEM("RcvCstrErr", 0, 0, CNTR_SYNTH,
5049
				access_rcv_constraint_errs),
M
Mike Marciniszyn 已提交
5050 5051 5052 5053 5054 5055 5056 5057 5058 5059 5060 5061 5062 5063 5064
[C_SW_IBP_LOOP_PKTS] = SW_IBP_CNTR(LoopPkts, loop_pkts),
[C_SW_IBP_RC_RESENDS] = SW_IBP_CNTR(RcResend, rc_resends),
[C_SW_IBP_RNR_NAKS] = SW_IBP_CNTR(RnrNak, rnr_naks),
[C_SW_IBP_OTHER_NAKS] = SW_IBP_CNTR(OtherNak, other_naks),
[C_SW_IBP_RC_TIMEOUTS] = SW_IBP_CNTR(RcTimeOut, rc_timeouts),
[C_SW_IBP_PKT_DROPS] = SW_IBP_CNTR(PktDrop, pkt_drops),
[C_SW_IBP_DMA_WAIT] = SW_IBP_CNTR(DmaWait, dmawait),
[C_SW_IBP_RC_SEQNAK] = SW_IBP_CNTR(RcSeqNak, rc_seqnak),
[C_SW_IBP_RC_DUPREQ] = SW_IBP_CNTR(RcDupRew, rc_dupreq),
[C_SW_IBP_RDMA_SEQ] = SW_IBP_CNTR(RdmaSeq, rdma_seq),
[C_SW_IBP_UNALIGNED] = SW_IBP_CNTR(Unaligned, unaligned),
[C_SW_IBP_SEQ_NAK] = SW_IBP_CNTR(SeqNak, seq_naks),
[C_SW_CPU_RC_ACKS] = CNTR_ELEM("RcAcks", 0, 0, CNTR_NORMAL,
			       access_sw_cpu_rc_acks),
[C_SW_CPU_RC_QACKS] = CNTR_ELEM("RcQacks", 0, 0, CNTR_NORMAL,
5065
				access_sw_cpu_rc_qacks),
M
Mike Marciniszyn 已提交
5066
[C_SW_CPU_RC_DELAYED_COMP] = CNTR_ELEM("RcDelayComp", 0, 0, CNTR_NORMAL,
5067
				       access_sw_cpu_rc_delayed_comp),
M
Mike Marciniszyn 已提交
5068 5069 5070 5071 5072 5073 5074 5075 5076 5077 5078 5079 5080 5081 5082 5083 5084 5085 5086 5087 5088 5089 5090 5091 5092 5093 5094 5095 5096 5097 5098 5099 5100 5101 5102 5103 5104 5105 5106 5107 5108 5109 5110 5111 5112 5113 5114 5115 5116 5117 5118 5119 5120 5121 5122 5123 5124 5125 5126 5127 5128 5129 5130 5131 5132 5133 5134 5135 5136 5137 5138 5139 5140 5141 5142 5143 5144 5145 5146 5147 5148 5149 5150 5151 5152 5153 5154 5155 5156 5157 5158 5159 5160 5161 5162 5163 5164 5165 5166
[OVR_LBL(0)] = OVR_ELM(0), [OVR_LBL(1)] = OVR_ELM(1),
[OVR_LBL(2)] = OVR_ELM(2), [OVR_LBL(3)] = OVR_ELM(3),
[OVR_LBL(4)] = OVR_ELM(4), [OVR_LBL(5)] = OVR_ELM(5),
[OVR_LBL(6)] = OVR_ELM(6), [OVR_LBL(7)] = OVR_ELM(7),
[OVR_LBL(8)] = OVR_ELM(8), [OVR_LBL(9)] = OVR_ELM(9),
[OVR_LBL(10)] = OVR_ELM(10), [OVR_LBL(11)] = OVR_ELM(11),
[OVR_LBL(12)] = OVR_ELM(12), [OVR_LBL(13)] = OVR_ELM(13),
[OVR_LBL(14)] = OVR_ELM(14), [OVR_LBL(15)] = OVR_ELM(15),
[OVR_LBL(16)] = OVR_ELM(16), [OVR_LBL(17)] = OVR_ELM(17),
[OVR_LBL(18)] = OVR_ELM(18), [OVR_LBL(19)] = OVR_ELM(19),
[OVR_LBL(20)] = OVR_ELM(20), [OVR_LBL(21)] = OVR_ELM(21),
[OVR_LBL(22)] = OVR_ELM(22), [OVR_LBL(23)] = OVR_ELM(23),
[OVR_LBL(24)] = OVR_ELM(24), [OVR_LBL(25)] = OVR_ELM(25),
[OVR_LBL(26)] = OVR_ELM(26), [OVR_LBL(27)] = OVR_ELM(27),
[OVR_LBL(28)] = OVR_ELM(28), [OVR_LBL(29)] = OVR_ELM(29),
[OVR_LBL(30)] = OVR_ELM(30), [OVR_LBL(31)] = OVR_ELM(31),
[OVR_LBL(32)] = OVR_ELM(32), [OVR_LBL(33)] = OVR_ELM(33),
[OVR_LBL(34)] = OVR_ELM(34), [OVR_LBL(35)] = OVR_ELM(35),
[OVR_LBL(36)] = OVR_ELM(36), [OVR_LBL(37)] = OVR_ELM(37),
[OVR_LBL(38)] = OVR_ELM(38), [OVR_LBL(39)] = OVR_ELM(39),
[OVR_LBL(40)] = OVR_ELM(40), [OVR_LBL(41)] = OVR_ELM(41),
[OVR_LBL(42)] = OVR_ELM(42), [OVR_LBL(43)] = OVR_ELM(43),
[OVR_LBL(44)] = OVR_ELM(44), [OVR_LBL(45)] = OVR_ELM(45),
[OVR_LBL(46)] = OVR_ELM(46), [OVR_LBL(47)] = OVR_ELM(47),
[OVR_LBL(48)] = OVR_ELM(48), [OVR_LBL(49)] = OVR_ELM(49),
[OVR_LBL(50)] = OVR_ELM(50), [OVR_LBL(51)] = OVR_ELM(51),
[OVR_LBL(52)] = OVR_ELM(52), [OVR_LBL(53)] = OVR_ELM(53),
[OVR_LBL(54)] = OVR_ELM(54), [OVR_LBL(55)] = OVR_ELM(55),
[OVR_LBL(56)] = OVR_ELM(56), [OVR_LBL(57)] = OVR_ELM(57),
[OVR_LBL(58)] = OVR_ELM(58), [OVR_LBL(59)] = OVR_ELM(59),
[OVR_LBL(60)] = OVR_ELM(60), [OVR_LBL(61)] = OVR_ELM(61),
[OVR_LBL(62)] = OVR_ELM(62), [OVR_LBL(63)] = OVR_ELM(63),
[OVR_LBL(64)] = OVR_ELM(64), [OVR_LBL(65)] = OVR_ELM(65),
[OVR_LBL(66)] = OVR_ELM(66), [OVR_LBL(67)] = OVR_ELM(67),
[OVR_LBL(68)] = OVR_ELM(68), [OVR_LBL(69)] = OVR_ELM(69),
[OVR_LBL(70)] = OVR_ELM(70), [OVR_LBL(71)] = OVR_ELM(71),
[OVR_LBL(72)] = OVR_ELM(72), [OVR_LBL(73)] = OVR_ELM(73),
[OVR_LBL(74)] = OVR_ELM(74), [OVR_LBL(75)] = OVR_ELM(75),
[OVR_LBL(76)] = OVR_ELM(76), [OVR_LBL(77)] = OVR_ELM(77),
[OVR_LBL(78)] = OVR_ELM(78), [OVR_LBL(79)] = OVR_ELM(79),
[OVR_LBL(80)] = OVR_ELM(80), [OVR_LBL(81)] = OVR_ELM(81),
[OVR_LBL(82)] = OVR_ELM(82), [OVR_LBL(83)] = OVR_ELM(83),
[OVR_LBL(84)] = OVR_ELM(84), [OVR_LBL(85)] = OVR_ELM(85),
[OVR_LBL(86)] = OVR_ELM(86), [OVR_LBL(87)] = OVR_ELM(87),
[OVR_LBL(88)] = OVR_ELM(88), [OVR_LBL(89)] = OVR_ELM(89),
[OVR_LBL(90)] = OVR_ELM(90), [OVR_LBL(91)] = OVR_ELM(91),
[OVR_LBL(92)] = OVR_ELM(92), [OVR_LBL(93)] = OVR_ELM(93),
[OVR_LBL(94)] = OVR_ELM(94), [OVR_LBL(95)] = OVR_ELM(95),
[OVR_LBL(96)] = OVR_ELM(96), [OVR_LBL(97)] = OVR_ELM(97),
[OVR_LBL(98)] = OVR_ELM(98), [OVR_LBL(99)] = OVR_ELM(99),
[OVR_LBL(100)] = OVR_ELM(100), [OVR_LBL(101)] = OVR_ELM(101),
[OVR_LBL(102)] = OVR_ELM(102), [OVR_LBL(103)] = OVR_ELM(103),
[OVR_LBL(104)] = OVR_ELM(104), [OVR_LBL(105)] = OVR_ELM(105),
[OVR_LBL(106)] = OVR_ELM(106), [OVR_LBL(107)] = OVR_ELM(107),
[OVR_LBL(108)] = OVR_ELM(108), [OVR_LBL(109)] = OVR_ELM(109),
[OVR_LBL(110)] = OVR_ELM(110), [OVR_LBL(111)] = OVR_ELM(111),
[OVR_LBL(112)] = OVR_ELM(112), [OVR_LBL(113)] = OVR_ELM(113),
[OVR_LBL(114)] = OVR_ELM(114), [OVR_LBL(115)] = OVR_ELM(115),
[OVR_LBL(116)] = OVR_ELM(116), [OVR_LBL(117)] = OVR_ELM(117),
[OVR_LBL(118)] = OVR_ELM(118), [OVR_LBL(119)] = OVR_ELM(119),
[OVR_LBL(120)] = OVR_ELM(120), [OVR_LBL(121)] = OVR_ELM(121),
[OVR_LBL(122)] = OVR_ELM(122), [OVR_LBL(123)] = OVR_ELM(123),
[OVR_LBL(124)] = OVR_ELM(124), [OVR_LBL(125)] = OVR_ELM(125),
[OVR_LBL(126)] = OVR_ELM(126), [OVR_LBL(127)] = OVR_ELM(127),
[OVR_LBL(128)] = OVR_ELM(128), [OVR_LBL(129)] = OVR_ELM(129),
[OVR_LBL(130)] = OVR_ELM(130), [OVR_LBL(131)] = OVR_ELM(131),
[OVR_LBL(132)] = OVR_ELM(132), [OVR_LBL(133)] = OVR_ELM(133),
[OVR_LBL(134)] = OVR_ELM(134), [OVR_LBL(135)] = OVR_ELM(135),
[OVR_LBL(136)] = OVR_ELM(136), [OVR_LBL(137)] = OVR_ELM(137),
[OVR_LBL(138)] = OVR_ELM(138), [OVR_LBL(139)] = OVR_ELM(139),
[OVR_LBL(140)] = OVR_ELM(140), [OVR_LBL(141)] = OVR_ELM(141),
[OVR_LBL(142)] = OVR_ELM(142), [OVR_LBL(143)] = OVR_ELM(143),
[OVR_LBL(144)] = OVR_ELM(144), [OVR_LBL(145)] = OVR_ELM(145),
[OVR_LBL(146)] = OVR_ELM(146), [OVR_LBL(147)] = OVR_ELM(147),
[OVR_LBL(148)] = OVR_ELM(148), [OVR_LBL(149)] = OVR_ELM(149),
[OVR_LBL(150)] = OVR_ELM(150), [OVR_LBL(151)] = OVR_ELM(151),
[OVR_LBL(152)] = OVR_ELM(152), [OVR_LBL(153)] = OVR_ELM(153),
[OVR_LBL(154)] = OVR_ELM(154), [OVR_LBL(155)] = OVR_ELM(155),
[OVR_LBL(156)] = OVR_ELM(156), [OVR_LBL(157)] = OVR_ELM(157),
[OVR_LBL(158)] = OVR_ELM(158), [OVR_LBL(159)] = OVR_ELM(159),
};

/* ======================================================================== */

/* return true if this is chip revision revision a */
int is_ax(struct hfi1_devdata *dd)
{
	u8 chip_rev_minor =
		dd->revision >> CCE_REVISION_CHIP_REV_MINOR_SHIFT
			& CCE_REVISION_CHIP_REV_MINOR_MASK;
	return (chip_rev_minor & 0xf0) == 0;
}

/* return true if this is chip revision revision b */
int is_bx(struct hfi1_devdata *dd)
{
	u8 chip_rev_minor =
		dd->revision >> CCE_REVISION_CHIP_REV_MINOR_SHIFT
			& CCE_REVISION_CHIP_REV_MINOR_MASK;
5167
	return (chip_rev_minor & 0xF0) == 0x10;
M
Mike Marciniszyn 已提交
5168 5169 5170 5171 5172 5173 5174 5175 5176 5177 5178 5179 5180 5181 5182 5183 5184 5185 5186 5187 5188 5189 5190 5191 5192 5193 5194 5195 5196 5197 5198 5199 5200 5201 5202 5203 5204 5205 5206 5207 5208 5209 5210 5211 5212 5213 5214 5215
}

/*
 * Append string s to buffer buf.  Arguments curp and len are the current
 * position and remaining length, respectively.
 *
 * return 0 on success, 1 on out of room
 */
static int append_str(char *buf, char **curp, int *lenp, const char *s)
{
	char *p = *curp;
	int len = *lenp;
	int result = 0; /* success */
	char c;

	/* add a comma, if first in the buffer */
	if (p != buf) {
		if (len == 0) {
			result = 1; /* out of room */
			goto done;
		}
		*p++ = ',';
		len--;
	}

	/* copy the string */
	while ((c = *s++) != 0) {
		if (len == 0) {
			result = 1; /* out of room */
			goto done;
		}
		*p++ = c;
		len--;
	}

done:
	/* write return values */
	*curp = p;
	*lenp = len;

	return result;
}

/*
 * Using the given flag table, print a comma separated string into
 * the buffer.  End in '*' if the buffer is too short.
 */
static char *flag_string(char *buf, int buf_len, u64 flags,
5216
			 struct flag_table *table, int table_size)
M
Mike Marciniszyn 已提交
5217 5218 5219 5220 5221 5222 5223 5224 5225 5226 5227 5228 5229 5230 5231 5232 5233 5234 5235 5236 5237 5238 5239 5240 5241 5242 5243 5244 5245 5246 5247 5248 5249 5250 5251 5252 5253 5254 5255 5256 5257 5258 5259 5260 5261 5262 5263 5264 5265 5266 5267 5268 5269 5270 5271 5272 5273 5274 5275 5276
{
	char extra[32];
	char *p = buf;
	int len = buf_len;
	int no_room = 0;
	int i;

	/* make sure there is at least 2 so we can form "*" */
	if (len < 2)
		return "";

	len--;	/* leave room for a nul */
	for (i = 0; i < table_size; i++) {
		if (flags & table[i].flag) {
			no_room = append_str(buf, &p, &len, table[i].str);
			if (no_room)
				break;
			flags &= ~table[i].flag;
		}
	}

	/* any undocumented bits left? */
	if (!no_room && flags) {
		snprintf(extra, sizeof(extra), "bits 0x%llx", flags);
		no_room = append_str(buf, &p, &len, extra);
	}

	/* add * if ran out of room */
	if (no_room) {
		/* may need to back up to add space for a '*' */
		if (len == 0)
			--p;
		*p++ = '*';
	}

	/* add final nul - space already allocated above */
	*p = 0;
	return buf;
}

/* first 8 CCE error interrupt source names */
static const char * const cce_misc_names[] = {
	"CceErrInt",		/* 0 */
	"RxeErrInt",		/* 1 */
	"MiscErrInt",		/* 2 */
	"Reserved3",		/* 3 */
	"PioErrInt",		/* 4 */
	"SDmaErrInt",		/* 5 */
	"EgressErrInt",		/* 6 */
	"TxeErrInt"		/* 7 */
};

/*
 * Return the miscellaneous error interrupt name.
 */
static char *is_misc_err_name(char *buf, size_t bsize, unsigned int source)
{
	if (source < ARRAY_SIZE(cce_misc_names))
		strncpy(buf, cce_misc_names[source], bsize);
	else
5277 5278
		snprintf(buf, bsize, "Reserved%u",
			 source + IS_GENERAL_ERR_START);
M
Mike Marciniszyn 已提交
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	return buf;
}

/*
 * Return the SDMA engine error interrupt name.
 */
static char *is_sdma_eng_err_name(char *buf, size_t bsize, unsigned int source)
{
	snprintf(buf, bsize, "SDmaEngErrInt%u", source);
	return buf;
}

/*
 * Return the send context error interrupt name.
 */
static char *is_sendctxt_err_name(char *buf, size_t bsize, unsigned int source)
{
	snprintf(buf, bsize, "SendCtxtErrInt%u", source);
	return buf;
}

static const char * const various_names[] = {
	"PbcInt",
	"GpioAssertInt",
	"Qsfp1Int",
	"Qsfp2Int",
	"TCritInt"
};

/*
 * Return the various interrupt name.
 */
static char *is_various_name(char *buf, size_t bsize, unsigned int source)
{
	if (source < ARRAY_SIZE(various_names))
		strncpy(buf, various_names[source], bsize);
	else
5317
		snprintf(buf, bsize, "Reserved%u", source + IS_VARIOUS_START);
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Mike Marciniszyn 已提交
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	return buf;
}

/*
 * Return the DC interrupt name.
 */
static char *is_dc_name(char *buf, size_t bsize, unsigned int source)
{
	static const char * const dc_int_names[] = {
		"common",
		"lcb",
		"8051",
		"lbm"	/* local block merge */
	};

	if (source < ARRAY_SIZE(dc_int_names))
		snprintf(buf, bsize, "dc_%s_int", dc_int_names[source]);
	else
		snprintf(buf, bsize, "DCInt%u", source);
	return buf;
}

static const char * const sdma_int_names[] = {
	"SDmaInt",
	"SdmaIdleInt",
	"SdmaProgressInt",
};

/*
 * Return the SDMA engine interrupt name.
 */
static char *is_sdma_eng_name(char *buf, size_t bsize, unsigned int source)
{
	/* what interrupt */
	unsigned int what  = source / TXE_NUM_SDMA_ENGINES;
	/* which engine */
	unsigned int which = source % TXE_NUM_SDMA_ENGINES;

	if (likely(what < 3))
		snprintf(buf, bsize, "%s%u", sdma_int_names[what], which);
	else
		snprintf(buf, bsize, "Invalid SDMA interrupt %u", source);
	return buf;
}

/*
 * Return the receive available interrupt name.
 */
static char *is_rcv_avail_name(char *buf, size_t bsize, unsigned int source)
{
	snprintf(buf, bsize, "RcvAvailInt%u", source);
	return buf;
}

/*
 * Return the receive urgent interrupt name.
 */
static char *is_rcv_urgent_name(char *buf, size_t bsize, unsigned int source)
{
	snprintf(buf, bsize, "RcvUrgentInt%u", source);
	return buf;
}

/*
 * Return the send credit interrupt name.
 */
static char *is_send_credit_name(char *buf, size_t bsize, unsigned int source)
{
	snprintf(buf, bsize, "SendCreditInt%u", source);
	return buf;
}

/*
 * Return the reserved interrupt name.
 */
static char *is_reserved_name(char *buf, size_t bsize, unsigned int source)
{
	snprintf(buf, bsize, "Reserved%u", source + IS_RESERVED_START);
	return buf;
}

static char *cce_err_status_string(char *buf, int buf_len, u64 flags)
{
	return flag_string(buf, buf_len, flags,
5402 5403
			   cce_err_status_flags,
			   ARRAY_SIZE(cce_err_status_flags));
M
Mike Marciniszyn 已提交
5404 5405 5406 5407 5408
}

static char *rxe_err_status_string(char *buf, int buf_len, u64 flags)
{
	return flag_string(buf, buf_len, flags,
5409 5410
			   rxe_err_status_flags,
			   ARRAY_SIZE(rxe_err_status_flags));
M
Mike Marciniszyn 已提交
5411 5412 5413 5414 5415
}

static char *misc_err_status_string(char *buf, int buf_len, u64 flags)
{
	return flag_string(buf, buf_len, flags, misc_err_status_flags,
5416
			   ARRAY_SIZE(misc_err_status_flags));
M
Mike Marciniszyn 已提交
5417 5418 5419 5420 5421
}

static char *pio_err_status_string(char *buf, int buf_len, u64 flags)
{
	return flag_string(buf, buf_len, flags,
5422 5423
			   pio_err_status_flags,
			   ARRAY_SIZE(pio_err_status_flags));
M
Mike Marciniszyn 已提交
5424 5425 5426 5427 5428
}

static char *sdma_err_status_string(char *buf, int buf_len, u64 flags)
{
	return flag_string(buf, buf_len, flags,
5429 5430
			   sdma_err_status_flags,
			   ARRAY_SIZE(sdma_err_status_flags));
M
Mike Marciniszyn 已提交
5431 5432 5433 5434 5435
}

static char *egress_err_status_string(char *buf, int buf_len, u64 flags)
{
	return flag_string(buf, buf_len, flags,
5436 5437
			   egress_err_status_flags,
			   ARRAY_SIZE(egress_err_status_flags));
M
Mike Marciniszyn 已提交
5438 5439 5440 5441 5442
}

static char *egress_err_info_string(char *buf, int buf_len, u64 flags)
{
	return flag_string(buf, buf_len, flags,
5443 5444
			   egress_err_info_flags,
			   ARRAY_SIZE(egress_err_info_flags));
M
Mike Marciniszyn 已提交
5445 5446 5447 5448 5449
}

static char *send_err_status_string(char *buf, int buf_len, u64 flags)
{
	return flag_string(buf, buf_len, flags,
5450 5451
			   send_err_status_flags,
			   ARRAY_SIZE(send_err_status_flags));
M
Mike Marciniszyn 已提交
5452 5453 5454 5455 5456
}

static void handle_cce_err(struct hfi1_devdata *dd, u32 unused, u64 reg)
{
	char buf[96];
5457
	int i = 0;
M
Mike Marciniszyn 已提交
5458 5459 5460 5461 5462 5463

	/*
	 * For most these errors, there is nothing that can be done except
	 * report or record it.
	 */
	dd_dev_info(dd, "CCE Error: %s\n",
5464
		    cce_err_status_string(buf, sizeof(buf), reg));
M
Mike Marciniszyn 已提交
5465

5466 5467
	if ((reg & CCE_ERR_STATUS_CCE_CLI2_ASYNC_FIFO_PARITY_ERR_SMASK) &&
	    is_ax(dd) && (dd->icode != ICODE_FUNCTIONAL_SIMULATOR)) {
M
Mike Marciniszyn 已提交
5468 5469 5470 5471
		/* this error requires a manual drop into SPC freeze mode */
		/* then a fix up */
		start_freeze_handling(dd->pport, FREEZE_SELF);
	}
5472 5473 5474 5475 5476 5477 5478 5479

	for (i = 0; i < NUM_CCE_ERR_STATUS_COUNTERS; i++) {
		if (reg & (1ull << i)) {
			incr_cntr64(&dd->cce_err_status_cnt[i]);
			/* maintain a counter over all cce_err_status errors */
			incr_cntr64(&dd->sw_cce_err_status_aggregate);
		}
	}
M
Mike Marciniszyn 已提交
5480 5481 5482 5483 5484 5485 5486 5487 5488 5489 5490 5491 5492 5493
}

/*
 * Check counters for receive errors that do not have an interrupt
 * associated with them.
 */
#define RCVERR_CHECK_TIME 10
static void update_rcverr_timer(unsigned long opaque)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)opaque;
	struct hfi1_pportdata *ppd = dd->pport;
	u32 cur_ovfl_cnt = read_dev_cntr(dd, C_RCV_OVF, CNTR_INVALID_VL);

	if (dd->rcv_ovfl_cnt < cur_ovfl_cnt &&
5494
	    ppd->port_error_action & OPA_PI_MASK_EX_BUFFER_OVERRUN) {
M
Mike Marciniszyn 已提交
5495
		dd_dev_info(dd, "%s: PortErrorAction bounce\n", __func__);
5496 5497 5498
		set_link_down_reason(
		ppd, OPA_LINKDOWN_REASON_EXCESSIVE_BUFFER_OVERRUN, 0,
		OPA_LINKDOWN_REASON_EXCESSIVE_BUFFER_OVERRUN);
M
Mike Marciniszyn 已提交
5499 5500
		queue_work(ppd->hfi1_wq, &ppd->link_bounce_work);
	}
5501
	dd->rcv_ovfl_cnt = (u32)cur_ovfl_cnt;
M
Mike Marciniszyn 已提交
5502 5503 5504 5505 5506 5507

	mod_timer(&dd->rcverr_timer, jiffies + HZ * RCVERR_CHECK_TIME);
}

static int init_rcverr(struct hfi1_devdata *dd)
{
5508
	setup_timer(&dd->rcverr_timer, update_rcverr_timer, (unsigned long)dd);
M
Mike Marciniszyn 已提交
5509 5510 5511 5512 5513 5514 5515 5516 5517 5518 5519 5520 5521 5522 5523
	/* Assume the hardware counter has been reset */
	dd->rcv_ovfl_cnt = 0;
	return mod_timer(&dd->rcverr_timer, jiffies + HZ * RCVERR_CHECK_TIME);
}

static void free_rcverr(struct hfi1_devdata *dd)
{
	if (dd->rcverr_timer.data)
		del_timer_sync(&dd->rcverr_timer);
	dd->rcverr_timer.data = 0;
}

static void handle_rxe_err(struct hfi1_devdata *dd, u32 unused, u64 reg)
{
	char buf[96];
5524
	int i = 0;
M
Mike Marciniszyn 已提交
5525 5526

	dd_dev_info(dd, "Receive Error: %s\n",
5527
		    rxe_err_status_string(buf, sizeof(buf), reg));
M
Mike Marciniszyn 已提交
5528 5529 5530 5531 5532 5533 5534 5535

	if (reg & ALL_RXE_FREEZE_ERR) {
		int flags = 0;

		/*
		 * Freeze mode recovery is disabled for the errors
		 * in RXE_FREEZE_ABORT_MASK
		 */
5536
		if (is_ax(dd) && (reg & RXE_FREEZE_ABORT_MASK))
M
Mike Marciniszyn 已提交
5537 5538 5539 5540
			flags = FREEZE_ABORT;

		start_freeze_handling(dd->pport, flags);
	}
5541 5542 5543 5544 5545

	for (i = 0; i < NUM_RCV_ERR_STATUS_COUNTERS; i++) {
		if (reg & (1ull << i))
			incr_cntr64(&dd->rcv_err_status_cnt[i]);
	}
M
Mike Marciniszyn 已提交
5546 5547 5548 5549 5550
}

static void handle_misc_err(struct hfi1_devdata *dd, u32 unused, u64 reg)
{
	char buf[96];
5551
	int i = 0;
M
Mike Marciniszyn 已提交
5552 5553

	dd_dev_info(dd, "Misc Error: %s",
5554
		    misc_err_status_string(buf, sizeof(buf), reg));
5555 5556 5557 5558
	for (i = 0; i < NUM_MISC_ERR_STATUS_COUNTERS; i++) {
		if (reg & (1ull << i))
			incr_cntr64(&dd->misc_err_status_cnt[i]);
	}
M
Mike Marciniszyn 已提交
5559 5560 5561 5562 5563
}

static void handle_pio_err(struct hfi1_devdata *dd, u32 unused, u64 reg)
{
	char buf[96];
5564
	int i = 0;
M
Mike Marciniszyn 已提交
5565 5566

	dd_dev_info(dd, "PIO Error: %s\n",
5567
		    pio_err_status_string(buf, sizeof(buf), reg));
M
Mike Marciniszyn 已提交
5568 5569 5570

	if (reg & ALL_PIO_FREEZE_ERR)
		start_freeze_handling(dd->pport, 0);
5571 5572 5573 5574 5575

	for (i = 0; i < NUM_SEND_PIO_ERR_STATUS_COUNTERS; i++) {
		if (reg & (1ull << i))
			incr_cntr64(&dd->send_pio_err_status_cnt[i]);
	}
M
Mike Marciniszyn 已提交
5576 5577 5578 5579 5580
}

static void handle_sdma_err(struct hfi1_devdata *dd, u32 unused, u64 reg)
{
	char buf[96];
5581
	int i = 0;
M
Mike Marciniszyn 已提交
5582 5583

	dd_dev_info(dd, "SDMA Error: %s\n",
5584
		    sdma_err_status_string(buf, sizeof(buf), reg));
M
Mike Marciniszyn 已提交
5585 5586 5587

	if (reg & ALL_SDMA_FREEZE_ERR)
		start_freeze_handling(dd->pport, 0);
5588 5589 5590 5591 5592

	for (i = 0; i < NUM_SEND_DMA_ERR_STATUS_COUNTERS; i++) {
		if (reg & (1ull << i))
			incr_cntr64(&dd->send_dma_err_status_cnt[i]);
	}
M
Mike Marciniszyn 已提交
5593 5594
}

5595
static inline void __count_port_discards(struct hfi1_pportdata *ppd)
M
Mike Marciniszyn 已提交
5596
{
5597 5598
	incr_cntr64(&ppd->port_xmit_discards);
}
M
Mike Marciniszyn 已提交
5599

5600 5601 5602
static void count_port_inactive(struct hfi1_devdata *dd)
{
	__count_port_discards(dd->pport);
M
Mike Marciniszyn 已提交
5603 5604 5605 5606 5607 5608 5609 5610 5611 5612 5613
}

/*
 * We have had a "disallowed packet" error during egress. Determine the
 * integrity check which failed, and update relevant error counter, etc.
 *
 * Note that the SEND_EGRESS_ERR_INFO register has only a single
 * bit of state per integrity check, and so we can miss the reason for an
 * egress error if more than one packet fails the same integrity check
 * since we cleared the corresponding bit in SEND_EGRESS_ERR_INFO.
 */
5614 5615
static void handle_send_egress_err_info(struct hfi1_devdata *dd,
					int vl)
M
Mike Marciniszyn 已提交
5616 5617 5618 5619 5620 5621 5622 5623 5624 5625
{
	struct hfi1_pportdata *ppd = dd->pport;
	u64 src = read_csr(dd, SEND_EGRESS_ERR_SOURCE); /* read first */
	u64 info = read_csr(dd, SEND_EGRESS_ERR_INFO);
	char buf[96];

	/* clear down all observed info as quickly as possible after read */
	write_csr(dd, SEND_EGRESS_ERR_INFO, info);

	dd_dev_info(dd,
5626 5627
		    "Egress Error Info: 0x%llx, %s Egress Error Src 0x%llx\n",
		    info, egress_err_info_string(buf, sizeof(buf), info), src);
M
Mike Marciniszyn 已提交
5628 5629

	/* Eventually add other counters for each bit */
5630 5631
	if (info & PORT_DISCARD_EGRESS_ERRS) {
		int weight, i;
M
Mike Marciniszyn 已提交
5632

5633
		/*
5634 5635 5636 5637 5638 5639 5640 5641 5642 5643 5644 5645 5646 5647 5648 5649 5650 5651 5652 5653
		 * Count all applicable bits as individual errors and
		 * attribute them to the packet that triggered this handler.
		 * This may not be completely accurate due to limitations
		 * on the available hardware error information.  There is
		 * a single information register and any number of error
		 * packets may have occurred and contributed to it before
		 * this routine is called.  This means that:
		 * a) If multiple packets with the same error occur before
		 *    this routine is called, earlier packets are missed.
		 *    There is only a single bit for each error type.
		 * b) Errors may not be attributed to the correct VL.
		 *    The driver is attributing all bits in the info register
		 *    to the packet that triggered this call, but bits
		 *    could be an accumulation of different packets with
		 *    different VLs.
		 * c) A single error packet may have multiple counts attached
		 *    to it.  There is no way for the driver to know if
		 *    multiple bits set in the info register are due to a
		 *    single packet or multiple packets.  The driver assumes
		 *    multiple packets.
5654
		 */
5655
		weight = hweight64(info & PORT_DISCARD_EGRESS_ERRS);
5656 5657 5658 5659 5660 5661 5662 5663
		for (i = 0; i < weight; i++) {
			__count_port_discards(ppd);
			if (vl >= 0 && vl < TXE_NUM_DATA_VL)
				incr_cntr64(&ppd->port_xmit_discards_vl[vl]);
			else if (vl == 15)
				incr_cntr64(&ppd->port_xmit_discards_vl
					    [C_VL_15]);
		}
M
Mike Marciniszyn 已提交
5664 5665 5666 5667 5668 5669 5670 5671 5672 5673 5674 5675 5676 5677 5678 5679 5680
	}
}

/*
 * Input value is a bit position within the SEND_EGRESS_ERR_STATUS
 * register. Does it represent a 'port inactive' error?
 */
static inline int port_inactive_err(u64 posn)
{
	return (posn >= SEES(TX_LINKDOWN) &&
		posn <= SEES(TX_INCORRECT_LINK_STATE));
}

/*
 * Input value is a bit position within the SEND_EGRESS_ERR_STATUS
 * register. Does it represent a 'disallowed packet' error?
 */
5681
static inline int disallowed_pkt_err(int posn)
M
Mike Marciniszyn 已提交
5682 5683 5684 5685 5686
{
	return (posn >= SEES(TX_SDMA0_DISALLOWED_PACKET) &&
		posn <= SEES(TX_SDMA15_DISALLOWED_PACKET));
}

5687 5688 5689 5690 5691 5692 5693 5694 5695 5696 5697 5698 5699 5700 5701 5702 5703 5704 5705 5706 5707 5708 5709 5710 5711 5712 5713 5714 5715 5716 5717 5718 5719 5720 5721 5722 5723 5724 5725 5726 5727 5728 5729 5730
/*
 * Input value is a bit position of one of the SDMA engine disallowed
 * packet errors.  Return which engine.  Use of this must be guarded by
 * disallowed_pkt_err().
 */
static inline int disallowed_pkt_engine(int posn)
{
	return posn - SEES(TX_SDMA0_DISALLOWED_PACKET);
}

/*
 * Translate an SDMA engine to a VL.  Return -1 if the tranlation cannot
 * be done.
 */
static int engine_to_vl(struct hfi1_devdata *dd, int engine)
{
	struct sdma_vl_map *m;
	int vl;

	/* range check */
	if (engine < 0 || engine >= TXE_NUM_SDMA_ENGINES)
		return -1;

	rcu_read_lock();
	m = rcu_dereference(dd->sdma_map);
	vl = m->engine_to_vl[engine];
	rcu_read_unlock();

	return vl;
}

/*
 * Translate the send context (sofware index) into a VL.  Return -1 if the
 * translation cannot be done.
 */
static int sc_to_vl(struct hfi1_devdata *dd, int sw_index)
{
	struct send_context_info *sci;
	struct send_context *sc;
	int i;

	sci = &dd->send_contexts[sw_index];

	/* there is no information for user (PSM) and ack contexts */
5731
	if ((sci->type != SC_KERNEL) && (sci->type != SC_VL15))
5732 5733 5734 5735 5736 5737 5738 5739 5740 5741 5742 5743 5744 5745
		return -1;

	sc = sci->sc;
	if (!sc)
		return -1;
	if (dd->vld[15].sc == sc)
		return 15;
	for (i = 0; i < num_vls; i++)
		if (dd->vld[i].sc == sc)
			return i;

	return -1;
}

M
Mike Marciniszyn 已提交
5746 5747 5748 5749
static void handle_egress_err(struct hfi1_devdata *dd, u32 unused, u64 reg)
{
	u64 reg_copy = reg, handled = 0;
	char buf[96];
5750
	int i = 0;
M
Mike Marciniszyn 已提交
5751 5752 5753

	if (reg & ALL_TXE_EGRESS_FREEZE_ERR)
		start_freeze_handling(dd->pport, 0);
5754 5755 5756
	else if (is_ax(dd) &&
		 (reg & SEND_EGRESS_ERR_STATUS_TX_CREDIT_RETURN_VL_ERR_SMASK) &&
		 (dd->icode != ICODE_FUNCTIONAL_SIMULATOR))
M
Mike Marciniszyn 已提交
5757 5758 5759 5760
		start_freeze_handling(dd->pport, 0);

	while (reg_copy) {
		int posn = fls64(reg_copy);
5761
		/* fls64() returns a 1-based offset, we want it zero based */
M
Mike Marciniszyn 已提交
5762
		int shift = posn - 1;
5763
		u64 mask = 1ULL << shift;
M
Mike Marciniszyn 已提交
5764 5765 5766

		if (port_inactive_err(shift)) {
			count_port_inactive(dd);
5767
			handled |= mask;
M
Mike Marciniszyn 已提交
5768
		} else if (disallowed_pkt_err(shift)) {
5769 5770 5771 5772
			int vl = engine_to_vl(dd, disallowed_pkt_engine(shift));

			handle_send_egress_err_info(dd, vl);
			handled |= mask;
M
Mike Marciniszyn 已提交
5773
		}
5774
		reg_copy &= ~mask;
M
Mike Marciniszyn 已提交
5775 5776 5777 5778 5779 5780
	}

	reg &= ~handled;

	if (reg)
		dd_dev_info(dd, "Egress Error: %s\n",
5781
			    egress_err_status_string(buf, sizeof(buf), reg));
5782 5783 5784 5785 5786

	for (i = 0; i < NUM_SEND_EGRESS_ERR_STATUS_COUNTERS; i++) {
		if (reg & (1ull << i))
			incr_cntr64(&dd->send_egress_err_status_cnt[i]);
	}
M
Mike Marciniszyn 已提交
5787 5788 5789 5790 5791
}

static void handle_txe_err(struct hfi1_devdata *dd, u32 unused, u64 reg)
{
	char buf[96];
5792
	int i = 0;
M
Mike Marciniszyn 已提交
5793 5794

	dd_dev_info(dd, "Send Error: %s\n",
5795
		    send_err_status_string(buf, sizeof(buf), reg));
M
Mike Marciniszyn 已提交
5796

5797 5798 5799 5800
	for (i = 0; i < NUM_SEND_ERR_STATUS_COUNTERS; i++) {
		if (reg & (1ull << i))
			incr_cntr64(&dd->send_err_status_cnt[i]);
	}
M
Mike Marciniszyn 已提交
5801 5802 5803 5804 5805 5806 5807 5808 5809 5810 5811 5812 5813 5814 5815 5816 5817 5818 5819 5820 5821 5822 5823 5824 5825 5826 5827 5828 5829 5830 5831 5832 5833 5834 5835 5836 5837 5838 5839 5840
}

/*
 * The maximum number of times the error clear down will loop before
 * blocking a repeating error.  This value is arbitrary.
 */
#define MAX_CLEAR_COUNT 20

/*
 * Clear and handle an error register.  All error interrupts are funneled
 * through here to have a central location to correctly handle single-
 * or multi-shot errors.
 *
 * For non per-context registers, call this routine with a context value
 * of 0 so the per-context offset is zero.
 *
 * If the handler loops too many times, assume that something is wrong
 * and can't be fixed, so mask the error bits.
 */
static void interrupt_clear_down(struct hfi1_devdata *dd,
				 u32 context,
				 const struct err_reg_info *eri)
{
	u64 reg;
	u32 count;

	/* read in a loop until no more errors are seen */
	count = 0;
	while (1) {
		reg = read_kctxt_csr(dd, context, eri->status);
		if (reg == 0)
			break;
		write_kctxt_csr(dd, context, eri->clear, reg);
		if (likely(eri->handler))
			eri->handler(dd, context, reg);
		count++;
		if (count > MAX_CLEAR_COUNT) {
			u64 mask;

			dd_dev_err(dd, "Repeating %s bits 0x%llx - masking\n",
5841
				   eri->desc, reg);
M
Mike Marciniszyn 已提交
5842 5843 5844 5845 5846 5847 5848 5849 5850 5851 5852 5853 5854 5855 5856 5857 5858 5859 5860 5861 5862 5863 5864
			/*
			 * Read-modify-write so any other masked bits
			 * remain masked.
			 */
			mask = read_kctxt_csr(dd, context, eri->mask);
			mask &= ~reg;
			write_kctxt_csr(dd, context, eri->mask, mask);
			break;
		}
	}
}

/*
 * CCE block "misc" interrupt.  Source is < 16.
 */
static void is_misc_err_int(struct hfi1_devdata *dd, unsigned int source)
{
	const struct err_reg_info *eri = &misc_errs[source];

	if (eri->handler) {
		interrupt_clear_down(dd, 0, eri);
	} else {
		dd_dev_err(dd, "Unexpected misc interrupt (%u) - reserved\n",
5865
			   source);
M
Mike Marciniszyn 已提交
5866 5867 5868 5869 5870 5871
	}
}

static char *send_context_err_status_string(char *buf, int buf_len, u64 flags)
{
	return flag_string(buf, buf_len, flags,
5872 5873
			   sc_err_status_flags,
			   ARRAY_SIZE(sc_err_status_flags));
M
Mike Marciniszyn 已提交
5874 5875 5876 5877 5878 5879 5880 5881 5882 5883 5884 5885 5886 5887 5888 5889 5890 5891 5892
}

/*
 * Send context error interrupt.  Source (hw_context) is < 160.
 *
 * All send context errors cause the send context to halt.  The normal
 * clear-down mechanism cannot be used because we cannot clear the
 * error bits until several other long-running items are done first.
 * This is OK because with the context halted, nothing else is going
 * to happen on it anyway.
 */
static void is_sendctxt_err_int(struct hfi1_devdata *dd,
				unsigned int hw_context)
{
	struct send_context_info *sci;
	struct send_context *sc;
	char flags[96];
	u64 status;
	u32 sw_index;
5893
	int i = 0;
M
Mike Marciniszyn 已提交
5894 5895 5896 5897

	sw_index = dd->hw_to_sw[hw_context];
	if (sw_index >= dd->num_send_contexts) {
		dd_dev_err(dd,
5898 5899
			   "out of range sw index %u for send context %u\n",
			   sw_index, hw_context);
M
Mike Marciniszyn 已提交
5900 5901 5902 5903 5904 5905
		return;
	}
	sci = &dd->send_contexts[sw_index];
	sc = sci->sc;
	if (!sc) {
		dd_dev_err(dd, "%s: context %u(%u): no sc?\n", __func__,
5906
			   sw_index, hw_context);
M
Mike Marciniszyn 已提交
5907 5908 5909 5910 5911 5912 5913 5914 5915
		return;
	}

	/* tell the software that a halt has begun */
	sc_stop(sc, SCF_HALTED);

	status = read_kctxt_csr(dd, hw_context, SEND_CTXT_ERR_STATUS);

	dd_dev_info(dd, "Send Context %u(%u) Error: %s\n", sw_index, hw_context,
5916 5917
		    send_context_err_status_string(flags, sizeof(flags),
						   status));
M
Mike Marciniszyn 已提交
5918 5919

	if (status & SEND_CTXT_ERR_STATUS_PIO_DISALLOWED_PACKET_ERR_SMASK)
5920
		handle_send_egress_err_info(dd, sc_to_vl(dd, sw_index));
M
Mike Marciniszyn 已提交
5921 5922 5923 5924 5925 5926 5927

	/*
	 * Automatically restart halted kernel contexts out of interrupt
	 * context.  User contexts must ask the driver to restart the context.
	 */
	if (sc->type != SC_USER)
		queue_work(dd->pport->hfi1_wq, &sc->halt_work);
5928 5929 5930 5931 5932 5933 5934 5935 5936 5937

	/*
	 * Update the counters for the corresponding status bits.
	 * Note that these particular counters are aggregated over all
	 * 160 contexts.
	 */
	for (i = 0; i < NUM_SEND_CTXT_ERR_STATUS_COUNTERS; i++) {
		if (status & (1ull << i))
			incr_cntr64(&dd->sw_ctxt_err_status_cnt[i]);
	}
M
Mike Marciniszyn 已提交
5938 5939 5940 5941 5942 5943
}

static void handle_sdma_eng_err(struct hfi1_devdata *dd,
				unsigned int source, u64 status)
{
	struct sdma_engine *sde;
5944
	int i = 0;
M
Mike Marciniszyn 已提交
5945 5946 5947 5948 5949 5950 5951 5952

	sde = &dd->per_sdma[source];
#ifdef CONFIG_SDMA_VERBOSITY
	dd_dev_err(sde->dd, "CONFIG SDMA(%u) %s:%d %s()\n", sde->this_idx,
		   slashstrip(__FILE__), __LINE__, __func__);
	dd_dev_err(sde->dd, "CONFIG SDMA(%u) source: %u status 0x%llx\n",
		   sde->this_idx, source, (unsigned long long)status);
#endif
5953
	sde->err_cnt++;
M
Mike Marciniszyn 已提交
5954
	sdma_engine_error(sde, status);
5955 5956 5957 5958 5959 5960 5961 5962 5963 5964

	/*
	* Update the counters for the corresponding status bits.
	* Note that these particular counters are aggregated over
	* all 16 DMA engines.
	*/
	for (i = 0; i < NUM_SEND_DMA_ENG_ERR_STATUS_COUNTERS; i++) {
		if (status & (1ull << i))
			incr_cntr64(&dd->sw_send_dma_eng_err_status_cnt[i]);
	}
M
Mike Marciniszyn 已提交
5965 5966 5967 5968 5969 5970 5971 5972 5973 5974 5975 5976 5977 5978 5979 5980 5981 5982 5983 5984 5985 5986 5987 5988 5989 5990 5991 5992 5993 5994 5995 5996 5997 5998 5999 6000 6001
}

/*
 * CCE block SDMA error interrupt.  Source is < 16.
 */
static void is_sdma_eng_err_int(struct hfi1_devdata *dd, unsigned int source)
{
#ifdef CONFIG_SDMA_VERBOSITY
	struct sdma_engine *sde = &dd->per_sdma[source];

	dd_dev_err(dd, "CONFIG SDMA(%u) %s:%d %s()\n", sde->this_idx,
		   slashstrip(__FILE__), __LINE__, __func__);
	dd_dev_err(dd, "CONFIG SDMA(%u) source: %u\n", sde->this_idx,
		   source);
	sdma_dumpstate(sde);
#endif
	interrupt_clear_down(dd, source, &sdma_eng_err);
}

/*
 * CCE block "various" interrupt.  Source is < 8.
 */
static void is_various_int(struct hfi1_devdata *dd, unsigned int source)
{
	const struct err_reg_info *eri = &various_err[source];

	/*
	 * TCritInt cannot go through interrupt_clear_down()
	 * because it is not a second tier interrupt. The handler
	 * should be called directly.
	 */
	if (source == TCRIT_INT_SOURCE)
		handle_temp_err(dd);
	else if (eri->handler)
		interrupt_clear_down(dd, 0, eri);
	else
		dd_dev_info(dd,
6002 6003
			    "%s: Unimplemented/reserved interrupt %d\n",
			    __func__, source);
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Mike Marciniszyn 已提交
6004 6005 6006 6007
}

static void handle_qsfp_int(struct hfi1_devdata *dd, u32 src_ctx, u64 reg)
{
6008
	/* src_ctx is always zero */
M
Mike Marciniszyn 已提交
6009 6010 6011 6012 6013 6014
	struct hfi1_pportdata *ppd = dd->pport;
	unsigned long flags;
	u64 qsfp_int_mgmt = (u64)(QSFP_HFI0_INT_N | QSFP_HFI0_MODPRST_N);

	if (reg & QSFP_HFI0_MODPRST_N) {
		if (!qsfp_mod_present(ppd)) {
6015 6016 6017
			dd_dev_info(dd, "%s: QSFP module removed\n",
				    __func__);

M
Mike Marciniszyn 已提交
6018 6019 6020 6021 6022 6023 6024 6025 6026 6027 6028 6029
			ppd->driver_link_ready = 0;
			/*
			 * Cable removed, reset all our information about the
			 * cache and cable capabilities
			 */

			spin_lock_irqsave(&ppd->qsfp_info.qsfp_lock, flags);
			/*
			 * We don't set cache_refresh_required here as we expect
			 * an interrupt when a cable is inserted
			 */
			ppd->qsfp_info.cache_valid = 0;
6030 6031
			ppd->qsfp_info.reset_needed = 0;
			ppd->qsfp_info.limiting_active = 0;
M
Mike Marciniszyn 已提交
6032
			spin_unlock_irqrestore(&ppd->qsfp_info.qsfp_lock,
6033
					       flags);
6034 6035 6036
			/* Invert the ModPresent pin now to detect plug-in */
			write_csr(dd, dd->hfi1_id ? ASIC_QSFP2_INVERT :
				  ASIC_QSFP1_INVERT, qsfp_int_mgmt);
6037 6038 6039

			if ((ppd->offline_disabled_reason >
			  HFI1_ODR_MASK(
6040
			  OPA_LINKDOWN_REASON_LOCAL_MEDIA_NOT_INSTALLED)) ||
6041 6042 6043 6044
			  (ppd->offline_disabled_reason ==
			  HFI1_ODR_MASK(OPA_LINKDOWN_REASON_NONE)))
				ppd->offline_disabled_reason =
				HFI1_ODR_MASK(
6045
				OPA_LINKDOWN_REASON_LOCAL_MEDIA_NOT_INSTALLED);
6046

M
Mike Marciniszyn 已提交
6047 6048 6049 6050 6051 6052 6053 6054 6055 6056
			if (ppd->host_link_state == HLS_DN_POLL) {
				/*
				 * The link is still in POLL. This means
				 * that the normal link down processing
				 * will not happen. We have to do it here
				 * before turning the DC off.
				 */
				queue_work(ppd->hfi1_wq, &ppd->link_down_work);
			}
		} else {
6057 6058 6059
			dd_dev_info(dd, "%s: QSFP module inserted\n",
				    __func__);

M
Mike Marciniszyn 已提交
6060 6061 6062 6063
			spin_lock_irqsave(&ppd->qsfp_info.qsfp_lock, flags);
			ppd->qsfp_info.cache_valid = 0;
			ppd->qsfp_info.cache_refresh_required = 1;
			spin_unlock_irqrestore(&ppd->qsfp_info.qsfp_lock,
6064
					       flags);
M
Mike Marciniszyn 已提交
6065

6066 6067 6068 6069
			/*
			 * Stop inversion of ModPresent pin to detect
			 * removal of the cable
			 */
M
Mike Marciniszyn 已提交
6070
			qsfp_int_mgmt &= ~(u64)QSFP_HFI0_MODPRST_N;
6071 6072 6073 6074 6075
			write_csr(dd, dd->hfi1_id ? ASIC_QSFP2_INVERT :
				  ASIC_QSFP1_INVERT, qsfp_int_mgmt);

			ppd->offline_disabled_reason =
				HFI1_ODR_MASK(OPA_LINKDOWN_REASON_TRANSIENT);
M
Mike Marciniszyn 已提交
6076 6077 6078 6079
		}
	}

	if (reg & QSFP_HFI0_INT_N) {
6080
		dd_dev_info(dd, "%s: Interrupt received from QSFP module\n",
6081
			    __func__);
M
Mike Marciniszyn 已提交
6082 6083 6084 6085 6086 6087 6088 6089 6090 6091 6092 6093 6094 6095 6096
		spin_lock_irqsave(&ppd->qsfp_info.qsfp_lock, flags);
		ppd->qsfp_info.check_interrupt_flags = 1;
		spin_unlock_irqrestore(&ppd->qsfp_info.qsfp_lock, flags);
	}

	/* Schedule the QSFP work only if there is a cable attached. */
	if (qsfp_mod_present(ppd))
		queue_work(ppd->hfi1_wq, &ppd->qsfp_info.qsfp_work);
}

static int request_host_lcb_access(struct hfi1_devdata *dd)
{
	int ret;

	ret = do_8051_command(dd, HCMD_MISC,
6097 6098
			      (u64)HCMD_MISC_REQUEST_LCB_ACCESS <<
			      LOAD_DATA_FIELD_ID_SHIFT, NULL);
M
Mike Marciniszyn 已提交
6099 6100
	if (ret != HCMD_SUCCESS) {
		dd_dev_err(dd, "%s: command failed with error %d\n",
6101
			   __func__, ret);
M
Mike Marciniszyn 已提交
6102 6103 6104 6105 6106 6107 6108 6109 6110
	}
	return ret == HCMD_SUCCESS ? 0 : -EBUSY;
}

static int request_8051_lcb_access(struct hfi1_devdata *dd)
{
	int ret;

	ret = do_8051_command(dd, HCMD_MISC,
6111 6112
			      (u64)HCMD_MISC_GRANT_LCB_ACCESS <<
			      LOAD_DATA_FIELD_ID_SHIFT, NULL);
M
Mike Marciniszyn 已提交
6113 6114
	if (ret != HCMD_SUCCESS) {
		dd_dev_err(dd, "%s: command failed with error %d\n",
6115
			   __func__, ret);
M
Mike Marciniszyn 已提交
6116 6117 6118 6119 6120 6121 6122 6123 6124 6125 6126
	}
	return ret == HCMD_SUCCESS ? 0 : -EBUSY;
}

/*
 * Set the LCB selector - allow host access.  The DCC selector always
 * points to the host.
 */
static inline void set_host_lcb_access(struct hfi1_devdata *dd)
{
	write_csr(dd, DC_DC8051_CFG_CSR_ACCESS_SEL,
6127 6128
		  DC_DC8051_CFG_CSR_ACCESS_SEL_DCC_SMASK |
		  DC_DC8051_CFG_CSR_ACCESS_SEL_LCB_SMASK);
M
Mike Marciniszyn 已提交
6129 6130 6131 6132 6133 6134 6135 6136 6137
}

/*
 * Clear the LCB selector - allow 8051 access.  The DCC selector always
 * points to the host.
 */
static inline void set_8051_lcb_access(struct hfi1_devdata *dd)
{
	write_csr(dd, DC_DC8051_CFG_CSR_ACCESS_SEL,
6138
		  DC_DC8051_CFG_CSR_ACCESS_SEL_DCC_SMASK);
M
Mike Marciniszyn 已提交
6139 6140 6141 6142 6143 6144 6145 6146 6147 6148 6149 6150 6151 6152 6153 6154 6155 6156 6157 6158 6159 6160 6161 6162 6163 6164
}

/*
 * Acquire LCB access from the 8051.  If the host already has access,
 * just increment a counter.  Otherwise, inform the 8051 that the
 * host is taking access.
 *
 * Returns:
 *	0 on success
 *	-EBUSY if the 8051 has control and cannot be disturbed
 *	-errno if unable to acquire access from the 8051
 */
int acquire_lcb_access(struct hfi1_devdata *dd, int sleep_ok)
{
	struct hfi1_pportdata *ppd = dd->pport;
	int ret = 0;

	/*
	 * Use the host link state lock so the operation of this routine
	 * { link state check, selector change, count increment } can occur
	 * as a unit against a link state change.  Otherwise there is a
	 * race between the state change and the count increment.
	 */
	if (sleep_ok) {
		mutex_lock(&ppd->hls_lock);
	} else {
D
Dan Carpenter 已提交
6165
		while (!mutex_trylock(&ppd->hls_lock))
M
Mike Marciniszyn 已提交
6166 6167 6168 6169
			udelay(1);
	}

	/* this access is valid only when the link is up */
6170
	if (ppd->host_link_state & HLS_DOWN) {
M
Mike Marciniszyn 已提交
6171
		dd_dev_info(dd, "%s: link state %s not up\n",
6172
			    __func__, link_state_name(ppd->host_link_state));
M
Mike Marciniszyn 已提交
6173 6174 6175 6176 6177 6178 6179 6180
		ret = -EBUSY;
		goto done;
	}

	if (dd->lcb_access_count == 0) {
		ret = request_host_lcb_access(dd);
		if (ret) {
			dd_dev_err(dd,
6181 6182
				   "%s: unable to acquire LCB access, err %d\n",
				   __func__, ret);
M
Mike Marciniszyn 已提交
6183 6184 6185 6186 6187 6188 6189 6190 6191 6192 6193 6194 6195 6196 6197 6198 6199 6200 6201 6202 6203 6204 6205 6206 6207 6208 6209 6210 6211 6212
			goto done;
		}
		set_host_lcb_access(dd);
	}
	dd->lcb_access_count++;
done:
	mutex_unlock(&ppd->hls_lock);
	return ret;
}

/*
 * Release LCB access by decrementing the use count.  If the count is moving
 * from 1 to 0, inform 8051 that it has control back.
 *
 * Returns:
 *	0 on success
 *	-errno if unable to release access to the 8051
 */
int release_lcb_access(struct hfi1_devdata *dd, int sleep_ok)
{
	int ret = 0;

	/*
	 * Use the host link state lock because the acquire needed it.
	 * Here, we only need to keep { selector change, count decrement }
	 * as a unit.
	 */
	if (sleep_ok) {
		mutex_lock(&dd->pport->hls_lock);
	} else {
D
Dan Carpenter 已提交
6213
		while (!mutex_trylock(&dd->pport->hls_lock))
M
Mike Marciniszyn 已提交
6214 6215 6216 6217 6218
			udelay(1);
	}

	if (dd->lcb_access_count == 0) {
		dd_dev_err(dd, "%s: LCB access count is zero.  Skipping.\n",
6219
			   __func__);
M
Mike Marciniszyn 已提交
6220 6221 6222 6223 6224 6225 6226 6227
		goto done;
	}

	if (dd->lcb_access_count == 1) {
		set_8051_lcb_access(dd);
		ret = request_8051_lcb_access(dd);
		if (ret) {
			dd_dev_err(dd,
6228 6229
				   "%s: unable to release LCB access, err %d\n",
				   __func__, ret);
M
Mike Marciniszyn 已提交
6230 6231 6232 6233 6234 6235 6236 6237 6238 6239 6240 6241 6242 6243 6244 6245 6246 6247 6248 6249 6250 6251 6252 6253 6254 6255 6256 6257 6258 6259 6260
			/* restore host access if the grant didn't work */
			set_host_lcb_access(dd);
			goto done;
		}
	}
	dd->lcb_access_count--;
done:
	mutex_unlock(&dd->pport->hls_lock);
	return ret;
}

/*
 * Initialize LCB access variables and state.  Called during driver load,
 * after most of the initialization is finished.
 *
 * The DC default is LCB access on for the host.  The driver defaults to
 * leaving access to the 8051.  Assign access now - this constrains the call
 * to this routine to be after all LCB set-up is done.  In particular, after
 * hf1_init_dd() -> set_up_interrupts() -> clear_all_interrupts()
 */
static void init_lcb_access(struct hfi1_devdata *dd)
{
	dd->lcb_access_count = 0;
}

/*
 * Write a response back to a 8051 request.
 */
static void hreq_response(struct hfi1_devdata *dd, u8 return_code, u16 rsp_data)
{
	write_csr(dd, DC_DC8051_CFG_EXT_DEV_0,
6261 6262 6263 6264
		  DC_DC8051_CFG_EXT_DEV_0_COMPLETED_SMASK |
		  (u64)return_code <<
		  DC_DC8051_CFG_EXT_DEV_0_RETURN_CODE_SHIFT |
		  (u64)rsp_data << DC_DC8051_CFG_EXT_DEV_0_RSP_DATA_SHIFT);
M
Mike Marciniszyn 已提交
6265 6266 6267
}

/*
6268
 * Handle host requests from the 8051.
M
Mike Marciniszyn 已提交
6269
 */
6270
static void handle_8051_request(struct hfi1_pportdata *ppd)
M
Mike Marciniszyn 已提交
6271
{
6272
	struct hfi1_devdata *dd = ppd->dd;
M
Mike Marciniszyn 已提交
6273
	u64 reg;
6274
	u16 data = 0;
6275
	u8 type;
M
Mike Marciniszyn 已提交
6276 6277 6278 6279 6280 6281 6282 6283 6284 6285 6286 6287 6288 6289 6290 6291 6292 6293 6294 6295

	reg = read_csr(dd, DC_DC8051_CFG_EXT_DEV_1);
	if ((reg & DC_DC8051_CFG_EXT_DEV_1_REQ_NEW_SMASK) == 0)
		return;	/* no request */

	/* zero out COMPLETED so the response is seen */
	write_csr(dd, DC_DC8051_CFG_EXT_DEV_0, 0);

	/* extract request details */
	type = (reg >> DC_DC8051_CFG_EXT_DEV_1_REQ_TYPE_SHIFT)
			& DC_DC8051_CFG_EXT_DEV_1_REQ_TYPE_MASK;
	data = (reg >> DC_DC8051_CFG_EXT_DEV_1_REQ_DATA_SHIFT)
			& DC_DC8051_CFG_EXT_DEV_1_REQ_DATA_MASK;

	switch (type) {
	case HREQ_LOAD_CONFIG:
	case HREQ_SAVE_CONFIG:
	case HREQ_READ_CONFIG:
	case HREQ_SET_TX_EQ_ABS:
	case HREQ_SET_TX_EQ_REL:
6296
	case HREQ_ENABLE:
M
Mike Marciniszyn 已提交
6297
		dd_dev_info(dd, "8051 request: request 0x%x not supported\n",
6298
			    type);
M
Mike Marciniszyn 已提交
6299 6300 6301 6302 6303 6304 6305 6306 6307 6308 6309 6310 6311 6312 6313 6314 6315 6316 6317 6318
		hreq_response(dd, HREQ_NOT_SUPPORTED, 0);
		break;
	case HREQ_CONFIG_DONE:
		hreq_response(dd, HREQ_SUCCESS, 0);
		break;

	case HREQ_INTERFACE_TEST:
		hreq_response(dd, HREQ_SUCCESS, data);
		break;
	default:
		dd_dev_err(dd, "8051 request: unknown request 0x%x\n", type);
		hreq_response(dd, HREQ_NOT_SUPPORTED, 0);
		break;
	}
}

static void write_global_credit(struct hfi1_devdata *dd,
				u8 vau, u16 total, u16 shared)
{
	write_csr(dd, SEND_CM_GLOBAL_CREDIT,
6319 6320 6321 6322 6323
		  ((u64)total <<
		   SEND_CM_GLOBAL_CREDIT_TOTAL_CREDIT_LIMIT_SHIFT) |
		  ((u64)shared <<
		   SEND_CM_GLOBAL_CREDIT_SHARED_LIMIT_SHIFT) |
		  ((u64)vau << SEND_CM_GLOBAL_CREDIT_AU_SHIFT));
M
Mike Marciniszyn 已提交
6324 6325 6326 6327 6328 6329 6330 6331 6332 6333 6334
}

/*
 * Set up initial VL15 credits of the remote.  Assumes the rest of
 * the CM credit registers are zero from a previous global or credit reset .
 */
void set_up_vl15(struct hfi1_devdata *dd, u8 vau, u16 vl15buf)
{
	/* leave shared count at zero for both global and VL15 */
	write_global_credit(dd, vau, vl15buf, 0);

6335 6336
	write_csr(dd, SEND_CM_CREDIT_VL15, (u64)vl15buf
		  << SEND_CM_CREDIT_VL15_DEDICATED_LIMIT_VL_SHIFT);
M
Mike Marciniszyn 已提交
6337 6338 6339 6340 6341 6342 6343 6344 6345 6346 6347 6348
}

/*
 * Zero all credit details from the previous connection and
 * reset the CM manager's internal counters.
 */
void reset_link_credits(struct hfi1_devdata *dd)
{
	int i;

	/* remove all previous VL credit limits */
	for (i = 0; i < TXE_NUM_DATA_VL; i++)
6349
		write_csr(dd, SEND_CM_CREDIT_VL + (8 * i), 0);
M
Mike Marciniszyn 已提交
6350 6351 6352 6353 6354 6355 6356 6357 6358 6359 6360 6361 6362 6363 6364 6365 6366 6367 6368 6369 6370 6371 6372 6373 6374 6375 6376 6377 6378 6379 6380 6381 6382 6383 6384 6385 6386 6387 6388 6389 6390
	write_csr(dd, SEND_CM_CREDIT_VL15, 0);
	write_global_credit(dd, 0, 0, 0);
	/* reset the CM block */
	pio_send_control(dd, PSC_CM_RESET);
}

/* convert a vCU to a CU */
static u32 vcu_to_cu(u8 vcu)
{
	return 1 << vcu;
}

/* convert a CU to a vCU */
static u8 cu_to_vcu(u32 cu)
{
	return ilog2(cu);
}

/* convert a vAU to an AU */
static u32 vau_to_au(u8 vau)
{
	return 8 * (1 << vau);
}

static void set_linkup_defaults(struct hfi1_pportdata *ppd)
{
	ppd->sm_trap_qp = 0x0;
	ppd->sa_qp = 0x1;
}

/*
 * Graceful LCB shutdown.  This leaves the LCB FIFOs in reset.
 */
static void lcb_shutdown(struct hfi1_devdata *dd, int abort)
{
	u64 reg;

	/* clear lcb run: LCB_CFG_RUN.EN = 0 */
	write_csr(dd, DC_LCB_CFG_RUN, 0);
	/* set tx fifo reset: LCB_CFG_TX_FIFOS_RESET.VAL = 1 */
	write_csr(dd, DC_LCB_CFG_TX_FIFOS_RESET,
6391
		  1ull << DC_LCB_CFG_TX_FIFOS_RESET_VAL_SHIFT);
M
Mike Marciniszyn 已提交
6392 6393 6394
	/* set dcc reset csr: DCC_CFG_RESET.{reset_lcb,reset_rx_fpe} = 1 */
	dd->lcb_err_en = read_csr(dd, DC_LCB_ERR_EN);
	reg = read_csr(dd, DCC_CFG_RESET);
6395 6396 6397
	write_csr(dd, DCC_CFG_RESET, reg |
		  (1ull << DCC_CFG_RESET_RESET_LCB_SHIFT) |
		  (1ull << DCC_CFG_RESET_RESET_RX_FPE_SHIFT));
6398
	(void)read_csr(dd, DCC_CFG_RESET); /* make sure the write completed */
M
Mike Marciniszyn 已提交
6399 6400 6401 6402 6403 6404 6405 6406 6407 6408 6409 6410 6411 6412
	if (!abort) {
		udelay(1);    /* must hold for the longer of 16cclks or 20ns */
		write_csr(dd, DCC_CFG_RESET, reg);
		write_csr(dd, DC_LCB_ERR_EN, dd->lcb_err_en);
	}
}

/*
 * This routine should be called after the link has been transitioned to
 * OFFLINE (OFFLINE state has the side effect of putting the SerDes into
 * reset).
 *
 * The expectation is that the caller of this routine would have taken
 * care of properly transitioning the link into the correct state.
T
Tadeusz Struk 已提交
6413 6414
 * NOTE: the caller needs to acquire the dd->dc8051_lock lock
 *       before calling this function.
M
Mike Marciniszyn 已提交
6415
 */
T
Tadeusz Struk 已提交
6416
static void _dc_shutdown(struct hfi1_devdata *dd)
M
Mike Marciniszyn 已提交
6417
{
T
Tadeusz Struk 已提交
6418
	lockdep_assert_held(&dd->dc8051_lock);
M
Mike Marciniszyn 已提交
6419

T
Tadeusz Struk 已提交
6420
	if (dd->dc_shutdown)
M
Mike Marciniszyn 已提交
6421
		return;
T
Tadeusz Struk 已提交
6422

M
Mike Marciniszyn 已提交
6423 6424 6425
	dd->dc_shutdown = 1;
	/* Shutdown the LCB */
	lcb_shutdown(dd, 1);
6426 6427
	/*
	 * Going to OFFLINE would have causes the 8051 to put the
M
Mike Marciniszyn 已提交
6428
	 * SerDes into reset already. Just need to shut down the 8051,
6429 6430
	 * itself.
	 */
M
Mike Marciniszyn 已提交
6431 6432 6433
	write_csr(dd, DC_DC8051_CFG_RST, 0x1);
}

T
Tadeusz Struk 已提交
6434 6435 6436 6437 6438 6439 6440
static void dc_shutdown(struct hfi1_devdata *dd)
{
	mutex_lock(&dd->dc8051_lock);
	_dc_shutdown(dd);
	mutex_unlock(&dd->dc8051_lock);
}

6441 6442 6443
/*
 * Calling this after the DC has been brought out of reset should not
 * do any damage.
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 * NOTE: the caller needs to acquire the dd->dc8051_lock lock
 *       before calling this function.
6446
 */
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static void _dc_start(struct hfi1_devdata *dd)
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{
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	lockdep_assert_held(&dd->dc8051_lock);
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	if (!dd->dc_shutdown)
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		return;

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	/* Take the 8051 out of reset */
	write_csr(dd, DC_DC8051_CFG_RST, 0ull);
	/* Wait until 8051 is ready */
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	if (wait_fm_ready(dd, TIMEOUT_8051_START))
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		dd_dev_err(dd, "%s: timeout starting 8051 firmware\n",
6459
			   __func__);
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	/* Take away reset for LCB and RX FPE (set in lcb_shutdown). */
	write_csr(dd, DCC_CFG_RESET, 0x10);
	/* lcb_shutdown() with abort=1 does not restore these */
	write_csr(dd, DC_LCB_ERR_EN, dd->lcb_err_en);
	dd->dc_shutdown = 0;
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}

static void dc_start(struct hfi1_devdata *dd)
{
	mutex_lock(&dd->dc8051_lock);
	_dc_start(dd);
	mutex_unlock(&dd->dc8051_lock);
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}

/*
 * These LCB adjustments are for the Aurora SerDes core in the FPGA.
 */
static void adjust_lcb_for_fpga_serdes(struct hfi1_devdata *dd)
{
	u64 rx_radr, tx_radr;
	u32 version;

	if (dd->icode != ICODE_FPGA_EMULATION)
		return;

	/*
	 * These LCB defaults on emulator _s are good, nothing to do here:
	 *	LCB_CFG_TX_FIFOS_RADR
	 *	LCB_CFG_RX_FIFOS_RADR
	 *	LCB_CFG_LN_DCLK
	 *	LCB_CFG_IGNORE_LOST_RCLK
	 */
	if (is_emulator_s(dd))
		return;
	/* else this is _p */

	version = emulator_rev(dd);
6498
	if (!is_ax(dd))
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		version = 0x2d;	/* all B0 use 0x2d or higher settings */

	if (version <= 0x12) {
		/* release 0x12 and below */

		/*
		 * LCB_CFG_RX_FIFOS_RADR.RST_VAL = 0x9
		 * LCB_CFG_RX_FIFOS_RADR.OK_TO_JUMP_VAL = 0x9
		 * LCB_CFG_RX_FIFOS_RADR.DO_NOT_JUMP_VAL = 0xa
		 */
		rx_radr =
		      0xaull << DC_LCB_CFG_RX_FIFOS_RADR_DO_NOT_JUMP_VAL_SHIFT
		    | 0x9ull << DC_LCB_CFG_RX_FIFOS_RADR_OK_TO_JUMP_VAL_SHIFT
		    | 0x9ull << DC_LCB_CFG_RX_FIFOS_RADR_RST_VAL_SHIFT;
		/*
		 * LCB_CFG_TX_FIFOS_RADR.ON_REINIT = 0 (default)
		 * LCB_CFG_TX_FIFOS_RADR.RST_VAL = 6
		 */
		tx_radr = 6ull << DC_LCB_CFG_TX_FIFOS_RADR_RST_VAL_SHIFT;
	} else if (version <= 0x18) {
		/* release 0x13 up to 0x18 */
		/* LCB_CFG_RX_FIFOS_RADR = 0x988 */
		rx_radr =
		      0x9ull << DC_LCB_CFG_RX_FIFOS_RADR_DO_NOT_JUMP_VAL_SHIFT
		    | 0x8ull << DC_LCB_CFG_RX_FIFOS_RADR_OK_TO_JUMP_VAL_SHIFT
		    | 0x8ull << DC_LCB_CFG_RX_FIFOS_RADR_RST_VAL_SHIFT;
		tx_radr = 7ull << DC_LCB_CFG_TX_FIFOS_RADR_RST_VAL_SHIFT;
	} else if (version == 0x19) {
		/* release 0x19 */
		/* LCB_CFG_RX_FIFOS_RADR = 0xa99 */
		rx_radr =
		      0xAull << DC_LCB_CFG_RX_FIFOS_RADR_DO_NOT_JUMP_VAL_SHIFT
		    | 0x9ull << DC_LCB_CFG_RX_FIFOS_RADR_OK_TO_JUMP_VAL_SHIFT
		    | 0x9ull << DC_LCB_CFG_RX_FIFOS_RADR_RST_VAL_SHIFT;
		tx_radr = 3ull << DC_LCB_CFG_TX_FIFOS_RADR_RST_VAL_SHIFT;
	} else if (version == 0x1a) {
		/* release 0x1a */
		/* LCB_CFG_RX_FIFOS_RADR = 0x988 */
		rx_radr =
		      0x9ull << DC_LCB_CFG_RX_FIFOS_RADR_DO_NOT_JUMP_VAL_SHIFT
		    | 0x8ull << DC_LCB_CFG_RX_FIFOS_RADR_OK_TO_JUMP_VAL_SHIFT
		    | 0x8ull << DC_LCB_CFG_RX_FIFOS_RADR_RST_VAL_SHIFT;
		tx_radr = 7ull << DC_LCB_CFG_TX_FIFOS_RADR_RST_VAL_SHIFT;
		write_csr(dd, DC_LCB_CFG_LN_DCLK, 1ull);
	} else {
		/* release 0x1b and higher */
		/* LCB_CFG_RX_FIFOS_RADR = 0x877 */
		rx_radr =
		      0x8ull << DC_LCB_CFG_RX_FIFOS_RADR_DO_NOT_JUMP_VAL_SHIFT
		    | 0x7ull << DC_LCB_CFG_RX_FIFOS_RADR_OK_TO_JUMP_VAL_SHIFT
		    | 0x7ull << DC_LCB_CFG_RX_FIFOS_RADR_RST_VAL_SHIFT;
		tx_radr = 3ull << DC_LCB_CFG_TX_FIFOS_RADR_RST_VAL_SHIFT;
	}

	write_csr(dd, DC_LCB_CFG_RX_FIFOS_RADR, rx_radr);
	/* LCB_CFG_IGNORE_LOST_RCLK.EN = 1 */
	write_csr(dd, DC_LCB_CFG_IGNORE_LOST_RCLK,
6556
		  DC_LCB_CFG_IGNORE_LOST_RCLK_EN_SMASK);
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	write_csr(dd, DC_LCB_CFG_TX_FIFOS_RADR, tx_radr);
}

/*
 * Handle a SMA idle message
 *
 * This is a work-queue function outside of the interrupt.
 */
void handle_sma_message(struct work_struct *work)
{
	struct hfi1_pportdata *ppd = container_of(work, struct hfi1_pportdata,
							sma_message_work);
	struct hfi1_devdata *dd = ppd->dd;
	u64 msg;
	int ret;

6573 6574 6575 6576
	/*
	 * msg is bytes 1-4 of the 40-bit idle message - the command code
	 * is stripped off
	 */
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	ret = read_idle_sma(dd, &msg);
	if (ret)
		return;
	dd_dev_info(dd, "%s: SMA message 0x%llx\n", __func__, msg);
	/*
	 * React to the SMA message.  Byte[1] (0 for us) is the command.
	 */
	switch (msg & 0xff) {
	case SMA_IDLE_ARM:
		/*
		 * See OPAv1 table 9-14 - HFI and External Switch Ports Key
		 * State Transitions
		 *
		 * Only expected in INIT or ARMED, discard otherwise.
		 */
		if (ppd->host_link_state & (HLS_UP_INIT | HLS_UP_ARMED))
			ppd->neighbor_normal = 1;
		break;
	case SMA_IDLE_ACTIVE:
		/*
		 * See OPAv1 table 9-14 - HFI and External Switch Ports Key
		 * State Transitions
		 *
		 * Can activate the node.  Discard otherwise.
		 */
6602 6603
		if (ppd->host_link_state == HLS_UP_ARMED &&
		    ppd->is_active_optimize_enabled) {
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			ppd->neighbor_normal = 1;
			ret = set_link_state(ppd, HLS_UP_ACTIVE);
			if (ret)
				dd_dev_err(
					dd,
					"%s: received Active SMA idle message, couldn't set link to Active\n",
					__func__);
		}
		break;
	default:
		dd_dev_err(dd,
6615 6616
			   "%s: received unexpected SMA idle message 0x%llx\n",
			   __func__, msg);
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		break;
	}
}

static void adjust_rcvctrl(struct hfi1_devdata *dd, u64 add, u64 clear)
{
	u64 rcvctrl;
	unsigned long flags;

	spin_lock_irqsave(&dd->rcvctrl_lock, flags);
	rcvctrl = read_csr(dd, RCV_CTRL);
	rcvctrl |= add;
	rcvctrl &= ~clear;
	write_csr(dd, RCV_CTRL, rcvctrl);
	spin_unlock_irqrestore(&dd->rcvctrl_lock, flags);
}

static inline void add_rcvctrl(struct hfi1_devdata *dd, u64 add)
{
	adjust_rcvctrl(dd, add, 0);
}

static inline void clear_rcvctrl(struct hfi1_devdata *dd, u64 clear)
{
	adjust_rcvctrl(dd, 0, clear);
}

/*
 * Called from all interrupt handlers to start handling an SPC freeze.
 */
void start_freeze_handling(struct hfi1_pportdata *ppd, int flags)
{
	struct hfi1_devdata *dd = ppd->dd;
	struct send_context *sc;
	int i;

	if (flags & FREEZE_SELF)
		write_csr(dd, CCE_CTRL, CCE_CTRL_SPC_FREEZE_SMASK);

	/* enter frozen mode */
	dd->flags |= HFI1_FROZEN;

	/* notify all SDMA engines that they are going into a freeze */
	sdma_freeze_notify(dd, !!(flags & FREEZE_LINK_DOWN));

	/* do halt pre-handling on all enabled send contexts */
	for (i = 0; i < dd->num_send_contexts; i++) {
		sc = dd->send_contexts[i].sc;
		if (sc && (sc->flags & SCF_ENABLED))
			sc_stop(sc, SCF_FROZEN | SCF_HALTED);
	}

	/* Send context are frozen. Notify user space */
	hfi1_set_uevent_bits(ppd, _HFI1_EVENT_FROZEN_BIT);

	if (flags & FREEZE_ABORT) {
		dd_dev_err(dd,
			   "Aborted freeze recovery. Please REBOOT system\n");
		return;
	}
	/* queue non-interrupt handler */
	queue_work(ppd->hfi1_wq, &ppd->freeze_work);
}

/*
 * Wait until all 4 sub-blocks indicate that they have frozen or unfrozen,
 * depending on the "freeze" parameter.
 *
 * No need to return an error if it times out, our only option
 * is to proceed anyway.
 */
static void wait_for_freeze_status(struct hfi1_devdata *dd, int freeze)
{
	unsigned long timeout;
	u64 reg;

	timeout = jiffies + msecs_to_jiffies(FREEZE_STATUS_TIMEOUT);
	while (1) {
		reg = read_csr(dd, CCE_STATUS);
		if (freeze) {
			/* waiting until all indicators are set */
			if ((reg & ALL_FROZE) == ALL_FROZE)
				return;	/* all done */
		} else {
			/* waiting until all indicators are clear */
			if ((reg & ALL_FROZE) == 0)
				return; /* all done */
		}

		if (time_after(jiffies, timeout)) {
			dd_dev_err(dd,
6708 6709 6710
				   "Time out waiting for SPC %sfreeze, bits 0x%llx, expecting 0x%llx, continuing",
				   freeze ? "" : "un", reg & ALL_FROZE,
				   freeze ? ALL_FROZE : 0ull);
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			return;
		}
		usleep_range(80, 120);
	}
}

/*
 * Do all freeze handling for the RXE block.
 */
static void rxe_freeze(struct hfi1_devdata *dd)
{
	int i;

	/* disable port */
	clear_rcvctrl(dd, RCV_CTRL_RCV_PORT_ENABLE_SMASK);

	/* disable all receive contexts */
	for (i = 0; i < dd->num_rcv_contexts; i++)
		hfi1_rcvctrl(dd, HFI1_RCVCTRL_CTXT_DIS, i);
}

/*
 * Unfreeze handling for the RXE block - kernel contexts only.
 * This will also enable the port.  User contexts will do unfreeze
 * handling on a per-context basis as they call into the driver.
 *
 */
static void rxe_kernel_unfreeze(struct hfi1_devdata *dd)
{
6740
	u32 rcvmask;
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	int i;

	/* enable all kernel contexts */
6744 6745 6746 6747 6748 6749 6750
	for (i = 0; i < dd->num_rcv_contexts; i++) {
		struct hfi1_ctxtdata *rcd = dd->rcd[i];

		/* Ensure all non-user contexts(including vnic) are enabled */
		if (!rcd || !rcd->sc || (rcd->sc->type == SC_USER))
			continue;

6751 6752 6753 6754 6755 6756
		rcvmask = HFI1_RCVCTRL_CTXT_ENB;
		/* HFI1_RCVCTRL_TAILUPD_[ENB|DIS] needs to be set explicitly */
		rcvmask |= HFI1_CAP_KGET_MASK(dd->rcd[i]->flags, DMA_RTAIL) ?
			HFI1_RCVCTRL_TAILUPD_ENB : HFI1_RCVCTRL_TAILUPD_DIS;
		hfi1_rcvctrl(dd, rcvmask, i);
	}
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	/* enable port */
	add_rcvctrl(dd, RCV_CTRL_RCV_PORT_ENABLE_SMASK);
}

/*
 * Non-interrupt SPC freeze handling.
 *
 * This is a work-queue function outside of the triggering interrupt.
 */
void handle_freeze(struct work_struct *work)
{
	struct hfi1_pportdata *ppd = container_of(work, struct hfi1_pportdata,
								freeze_work);
	struct hfi1_devdata *dd = ppd->dd;

	/* wait for freeze indicators on all affected blocks */
	wait_for_freeze_status(dd, 1);

	/* SPC is now frozen */

	/* do send PIO freeze steps */
	pio_freeze(dd);

	/* do send DMA freeze steps */
	sdma_freeze(dd);

	/* do send egress freeze steps - nothing to do */

	/* do receive freeze steps */
	rxe_freeze(dd);

	/*
	 * Unfreeze the hardware - clear the freeze, wait for each
	 * block's frozen bit to clear, then clear the frozen flag.
	 */
	write_csr(dd, CCE_CTRL, CCE_CTRL_SPC_UNFREEZE_SMASK);
	wait_for_freeze_status(dd, 0);

6796
	if (is_ax(dd)) {
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		write_csr(dd, CCE_CTRL, CCE_CTRL_SPC_FREEZE_SMASK);
		wait_for_freeze_status(dd, 1);
		write_csr(dd, CCE_CTRL, CCE_CTRL_SPC_UNFREEZE_SMASK);
		wait_for_freeze_status(dd, 0);
	}

	/* do send PIO unfreeze steps for kernel contexts */
	pio_kernel_unfreeze(dd);

	/* do send DMA unfreeze steps */
	sdma_unfreeze(dd);

	/* do send egress unfreeze steps - nothing to do */

	/* do receive unfreeze steps for kernel contexts */
	rxe_kernel_unfreeze(dd);

	/*
	 * The unfreeze procedure touches global device registers when
	 * it disables and re-enables RXE. Mark the device unfrozen
	 * after all that is done so other parts of the driver waiting
	 * for the device to unfreeze don't do things out of order.
	 *
	 * The above implies that the meaning of HFI1_FROZEN flag is
	 * "Device has gone into freeze mode and freeze mode handling
	 * is still in progress."
	 *
	 * The flag will be removed when freeze mode processing has
	 * completed.
	 */
	dd->flags &= ~HFI1_FROZEN;
	wake_up(&dd->event_queue);

	/* no longer frozen */
}

/*
 * Handle a link up interrupt from the 8051.
 *
 * This is a work-queue function outside of the interrupt.
 */
void handle_link_up(struct work_struct *work)
{
	struct hfi1_pportdata *ppd = container_of(work, struct hfi1_pportdata,
6841
						  link_up_work);
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	set_link_state(ppd, HLS_UP_INIT);

	/* cache the read of DC_LCB_STS_ROUND_TRIP_LTP_CNT */
	read_ltp_rtt(ppd->dd);
	/*
	 * OPA specifies that certain counters are cleared on a transition
	 * to link up, so do that.
	 */
	clear_linkup_counters(ppd->dd);
	/*
	 * And (re)set link up default values.
	 */
	set_linkup_defaults(ppd);

	/* enforce link speed enabled */
	if ((ppd->link_speed_active & ppd->link_speed_enabled) == 0) {
		/* oops - current speed is not enabled, bounce */
		dd_dev_err(ppd->dd,
6860 6861
			   "Link speed active 0x%x is outside enabled 0x%x, downing link\n",
			   ppd->link_speed_active, ppd->link_speed_enabled);
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		set_link_down_reason(ppd, OPA_LINKDOWN_REASON_SPEED_POLICY, 0,
6863
				     OPA_LINKDOWN_REASON_SPEED_POLICY);
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		set_link_state(ppd, HLS_DN_OFFLINE);
		start_link(ppd);
	}
}

6869 6870 6871 6872
/*
 * Several pieces of LNI information were cached for SMA in ppd.
 * Reset these on link down
 */
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static void reset_neighbor_info(struct hfi1_pportdata *ppd)
{
	ppd->neighbor_guid = 0;
	ppd->neighbor_port_number = 0;
	ppd->neighbor_type = 0;
	ppd->neighbor_fm_security = 0;
}

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static const char * const link_down_reason_strs[] = {
	[OPA_LINKDOWN_REASON_NONE] = "None",
	[OPA_LINKDOWN_REASON_RCV_ERROR_0] = "Recive error 0",
	[OPA_LINKDOWN_REASON_BAD_PKT_LEN] = "Bad packet length",
	[OPA_LINKDOWN_REASON_PKT_TOO_LONG] = "Packet too long",
	[OPA_LINKDOWN_REASON_PKT_TOO_SHORT] = "Packet too short",
	[OPA_LINKDOWN_REASON_BAD_SLID] = "Bad SLID",
	[OPA_LINKDOWN_REASON_BAD_DLID] = "Bad DLID",
	[OPA_LINKDOWN_REASON_BAD_L2] = "Bad L2",
	[OPA_LINKDOWN_REASON_BAD_SC] = "Bad SC",
	[OPA_LINKDOWN_REASON_RCV_ERROR_8] = "Receive error 8",
	[OPA_LINKDOWN_REASON_BAD_MID_TAIL] = "Bad mid tail",
	[OPA_LINKDOWN_REASON_RCV_ERROR_10] = "Receive error 10",
	[OPA_LINKDOWN_REASON_PREEMPT_ERROR] = "Preempt error",
	[OPA_LINKDOWN_REASON_PREEMPT_VL15] = "Preempt vl15",
	[OPA_LINKDOWN_REASON_BAD_VL_MARKER] = "Bad VL marker",
	[OPA_LINKDOWN_REASON_RCV_ERROR_14] = "Receive error 14",
	[OPA_LINKDOWN_REASON_RCV_ERROR_15] = "Receive error 15",
	[OPA_LINKDOWN_REASON_BAD_HEAD_DIST] = "Bad head distance",
	[OPA_LINKDOWN_REASON_BAD_TAIL_DIST] = "Bad tail distance",
	[OPA_LINKDOWN_REASON_BAD_CTRL_DIST] = "Bad control distance",
	[OPA_LINKDOWN_REASON_BAD_CREDIT_ACK] = "Bad credit ack",
	[OPA_LINKDOWN_REASON_UNSUPPORTED_VL_MARKER] = "Unsupported VL marker",
	[OPA_LINKDOWN_REASON_BAD_PREEMPT] = "Bad preempt",
	[OPA_LINKDOWN_REASON_BAD_CONTROL_FLIT] = "Bad control flit",
	[OPA_LINKDOWN_REASON_EXCEED_MULTICAST_LIMIT] = "Exceed multicast limit",
	[OPA_LINKDOWN_REASON_RCV_ERROR_24] = "Receive error 24",
	[OPA_LINKDOWN_REASON_RCV_ERROR_25] = "Receive error 25",
	[OPA_LINKDOWN_REASON_RCV_ERROR_26] = "Receive error 26",
	[OPA_LINKDOWN_REASON_RCV_ERROR_27] = "Receive error 27",
	[OPA_LINKDOWN_REASON_RCV_ERROR_28] = "Receive error 28",
	[OPA_LINKDOWN_REASON_RCV_ERROR_29] = "Receive error 29",
	[OPA_LINKDOWN_REASON_RCV_ERROR_30] = "Receive error 30",
	[OPA_LINKDOWN_REASON_EXCESSIVE_BUFFER_OVERRUN] =
					"Excessive buffer overrun",
	[OPA_LINKDOWN_REASON_UNKNOWN] = "Unknown",
	[OPA_LINKDOWN_REASON_REBOOT] = "Reboot",
	[OPA_LINKDOWN_REASON_NEIGHBOR_UNKNOWN] = "Neighbor unknown",
	[OPA_LINKDOWN_REASON_FM_BOUNCE] = "FM bounce",
	[OPA_LINKDOWN_REASON_SPEED_POLICY] = "Speed policy",
	[OPA_LINKDOWN_REASON_WIDTH_POLICY] = "Width policy",
	[OPA_LINKDOWN_REASON_DISCONNECTED] = "Disconnected",
	[OPA_LINKDOWN_REASON_LOCAL_MEDIA_NOT_INSTALLED] =
					"Local media not installed",
	[OPA_LINKDOWN_REASON_NOT_INSTALLED] = "Not installed",
	[OPA_LINKDOWN_REASON_CHASSIS_CONFIG] = "Chassis config",
	[OPA_LINKDOWN_REASON_END_TO_END_NOT_INSTALLED] =
					"End to end not installed",
	[OPA_LINKDOWN_REASON_POWER_POLICY] = "Power policy",
	[OPA_LINKDOWN_REASON_LINKSPEED_POLICY] = "Link speed policy",
	[OPA_LINKDOWN_REASON_LINKWIDTH_POLICY] = "Link width policy",
	[OPA_LINKDOWN_REASON_SWITCH_MGMT] = "Switch management",
	[OPA_LINKDOWN_REASON_SMA_DISABLED] = "SMA disabled",
	[OPA_LINKDOWN_REASON_TRANSIENT] = "Transient"
};

/* return the neighbor link down reason string */
static const char *link_down_reason_str(u8 reason)
{
	const char *str = NULL;

	if (reason < ARRAY_SIZE(link_down_reason_strs))
		str = link_down_reason_strs[reason];
	if (!str)
		str = "(invalid)";

	return str;
}

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/*
 * Handle a link down interrupt from the 8051.
 *
 * This is a work-queue function outside of the interrupt.
 */
void handle_link_down(struct work_struct *work)
{
	u8 lcl_reason, neigh_reason = 0;
6958
	u8 link_down_reason;
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6959
	struct hfi1_pportdata *ppd = container_of(work, struct hfi1_pportdata,
6960 6961 6962
						  link_down_work);
	int was_up;
	static const char ldr_str[] = "Link down reason: ";
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6964 6965 6966 6967 6968 6969 6970
	if ((ppd->host_link_state &
	     (HLS_DN_POLL | HLS_VERIFY_CAP | HLS_GOING_UP)) &&
	     ppd->port_type == PORT_TYPE_FIXED)
		ppd->offline_disabled_reason =
			HFI1_ODR_MASK(OPA_LINKDOWN_REASON_NOT_INSTALLED);

	/* Go offline first, then deal with reading/writing through 8051 */
6971
	was_up = !!(ppd->host_link_state & HLS_UP);
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	set_link_state(ppd, HLS_DN_OFFLINE);

6974 6975 6976 6977 6978 6979 6980 6981 6982 6983 6984 6985 6986 6987 6988 6989 6990 6991 6992 6993 6994 6995 6996 6997 6998 6999 7000 7001 7002 7003 7004
	if (was_up) {
		lcl_reason = 0;
		/* link down reason is only valid if the link was up */
		read_link_down_reason(ppd->dd, &link_down_reason);
		switch (link_down_reason) {
		case LDR_LINK_TRANSFER_ACTIVE_LOW:
			/* the link went down, no idle message reason */
			dd_dev_info(ppd->dd, "%sUnexpected link down\n",
				    ldr_str);
			break;
		case LDR_RECEIVED_LINKDOWN_IDLE_MSG:
			/*
			 * The neighbor reason is only valid if an idle message
			 * was received for it.
			 */
			read_planned_down_reason_code(ppd->dd, &neigh_reason);
			dd_dev_info(ppd->dd,
				    "%sNeighbor link down message %d, %s\n",
				    ldr_str, neigh_reason,
				    link_down_reason_str(neigh_reason));
			break;
		case LDR_RECEIVED_HOST_OFFLINE_REQ:
			dd_dev_info(ppd->dd,
				    "%sHost requested link to go offline\n",
				    ldr_str);
			break;
		default:
			dd_dev_info(ppd->dd, "%sUnknown reason 0x%x\n",
				    ldr_str, link_down_reason);
			break;
		}
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7006 7007 7008 7009 7010 7011 7012 7013 7014 7015
		/*
		 * If no reason, assume peer-initiated but missed
		 * LinkGoingDown idle flits.
		 */
		if (neigh_reason == 0)
			lcl_reason = OPA_LINKDOWN_REASON_NEIGHBOR_UNKNOWN;
	} else {
		/* went down while polling or going up */
		lcl_reason = OPA_LINKDOWN_REASON_TRANSIENT;
	}
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	set_link_down_reason(ppd, lcl_reason, neigh_reason, 0);

7019 7020 7021 7022 7023 7024 7025 7026 7027
	/* inform the SMA when the link transitions from up to down */
	if (was_up && ppd->local_link_down_reason.sma == 0 &&
	    ppd->neigh_link_down_reason.sma == 0) {
		ppd->local_link_down_reason.sma =
					ppd->local_link_down_reason.latest;
		ppd->neigh_link_down_reason.sma =
					ppd->neigh_link_down_reason.latest;
	}

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	reset_neighbor_info(ppd);

	/* disable the port */
	clear_rcvctrl(ppd->dd, RCV_CTRL_RCV_PORT_ENABLE_SMASK);

7033 7034 7035 7036
	/*
	 * If there is no cable attached, turn the DC off. Otherwise,
	 * start the link bring up.
	 */
7037
	if (ppd->port_type == PORT_TYPE_QSFP && !qsfp_mod_present(ppd))
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		dc_shutdown(ppd->dd);
7039
	else
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		start_link(ppd);
}

void handle_link_bounce(struct work_struct *work)
{
	struct hfi1_pportdata *ppd = container_of(work, struct hfi1_pportdata,
							link_bounce_work);

	/*
	 * Only do something if the link is currently up.
	 */
	if (ppd->host_link_state & HLS_UP) {
		set_link_state(ppd, HLS_DN_OFFLINE);
		start_link(ppd);
	} else {
		dd_dev_info(ppd->dd, "%s: link not up (%s), nothing to do\n",
7056
			    __func__, link_state_name(ppd->host_link_state));
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Mike Marciniszyn 已提交
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	}
}

/*
 * Mask conversion: Capability exchange to Port LTP.  The capability
 * exchange has an implicit 16b CRC that is mandatory.
 */
static int cap_to_port_ltp(int cap)
{
	int port_ltp = PORT_LTP_CRC_MODE_16; /* this mode is mandatory */

	if (cap & CAP_CRC_14B)
		port_ltp |= PORT_LTP_CRC_MODE_14;
	if (cap & CAP_CRC_48B)
		port_ltp |= PORT_LTP_CRC_MODE_48;
	if (cap & CAP_CRC_12B_16B_PER_LANE)
		port_ltp |= PORT_LTP_CRC_MODE_PER_LANE;

	return port_ltp;
}

/*
 * Convert an OPA Port LTP mask to capability mask
 */
int port_ltp_to_cap(int port_ltp)
{
	int cap_mask = 0;

	if (port_ltp & PORT_LTP_CRC_MODE_14)
		cap_mask |= CAP_CRC_14B;
	if (port_ltp & PORT_LTP_CRC_MODE_48)
		cap_mask |= CAP_CRC_48B;
	if (port_ltp & PORT_LTP_CRC_MODE_PER_LANE)
		cap_mask |= CAP_CRC_12B_16B_PER_LANE;

	return cap_mask;
}

/*
 * Convert a single DC LCB CRC mode to an OPA Port LTP mask.
 */
static int lcb_to_port_ltp(int lcb_crc)
{
	int port_ltp = 0;

	if (lcb_crc == LCB_CRC_12B_16B_PER_LANE)
		port_ltp = PORT_LTP_CRC_MODE_PER_LANE;
	else if (lcb_crc == LCB_CRC_48B)
		port_ltp = PORT_LTP_CRC_MODE_48;
	else if (lcb_crc == LCB_CRC_14B)
		port_ltp = PORT_LTP_CRC_MODE_14;
	else
		port_ltp = PORT_LTP_CRC_MODE_16;

	return port_ltp;
}

/*
 * Our neighbor has indicated that we are allowed to act as a fabric
 * manager, so place the full management partition key in the second
 * (0-based) pkey array position (see OPAv1, section 20.2.2.6.8). Note
 * that we should already have the limited management partition key in
 * array element 1, and also that the port is not yet up when
 * add_full_mgmt_pkey() is invoked.
 */
static void add_full_mgmt_pkey(struct hfi1_pportdata *ppd)
{
	struct hfi1_devdata *dd = ppd->dd;

7126 7127 7128 7129
	/* Sanity check - ppd->pkeys[2] should be 0, or already initalized */
	if (!((ppd->pkeys[2] == 0) || (ppd->pkeys[2] == FULL_MGMT_P_KEY)))
		dd_dev_warn(dd, "%s pkey[2] already set to 0x%x, resetting it to 0x%x\n",
			    __func__, ppd->pkeys[2], FULL_MGMT_P_KEY);
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	ppd->pkeys[2] = FULL_MGMT_P_KEY;
	(void)hfi1_set_ib_cfg(ppd, HFI1_IB_CFG_PKEYS, 0);
7132
	hfi1_event_pkey_change(ppd->dd, ppd->port);
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}

7135
static void clear_full_mgmt_pkey(struct hfi1_pportdata *ppd)
7136
{
7137 7138 7139
	if (ppd->pkeys[2] != 0) {
		ppd->pkeys[2] = 0;
		(void)hfi1_set_ib_cfg(ppd, HFI1_IB_CFG_PKEYS, 0);
7140
		hfi1_event_pkey_change(ppd->dd, ppd->port);
7141
	}
7142 7143
}

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/*
 * Convert the given link width to the OPA link width bitmask.
 */
static u16 link_width_to_bits(struct hfi1_devdata *dd, u16 width)
{
	switch (width) {
	case 0:
		/*
		 * Simulator and quick linkup do not set the width.
		 * Just set it to 4x without complaint.
		 */
		if (dd->icode == ICODE_FUNCTIONAL_SIMULATOR || quick_linkup)
			return OPA_LINK_WIDTH_4X;
		return 0; /* no lanes up */
	case 1: return OPA_LINK_WIDTH_1X;
	case 2: return OPA_LINK_WIDTH_2X;
	case 3: return OPA_LINK_WIDTH_3X;
	default:
		dd_dev_info(dd, "%s: invalid width %d, using 4\n",
7163
			    __func__, width);
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		/* fall through */
	case 4: return OPA_LINK_WIDTH_4X;
	}
}

/*
 * Do a population count on the bottom nibble.
 */
static const u8 bit_counts[16] = {
	0, 1, 1, 2, 1, 2, 2, 3, 1, 2, 2, 3, 2, 3, 3, 4
};
7175

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Mike Marciniszyn 已提交
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static inline u8 nibble_to_count(u8 nibble)
{
	return bit_counts[nibble & 0xf];
}

/*
 * Read the active lane information from the 8051 registers and return
 * their widths.
 *
 * Active lane information is found in these 8051 registers:
 *	enable_lane_tx
 *	enable_lane_rx
 */
static void get_link_widths(struct hfi1_devdata *dd, u16 *tx_width,
			    u16 *rx_width)
{
	u16 tx, rx;
	u8 enable_lane_rx;
	u8 enable_lane_tx;
	u8 tx_polarity_inversion;
	u8 rx_polarity_inversion;
	u8 max_rate;

	/* read the active lanes */
	read_tx_settings(dd, &enable_lane_tx, &tx_polarity_inversion,
7201
			 &rx_polarity_inversion, &max_rate);
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	read_local_lni(dd, &enable_lane_rx);

	/* convert to counts */
	tx = nibble_to_count(enable_lane_tx);
	rx = nibble_to_count(enable_lane_rx);

	/*
	 * Set link_speed_active here, overriding what was set in
	 * handle_verify_cap().  The ASIC 8051 firmware does not correctly
	 * set the max_rate field in handle_verify_cap until v0.19.
	 */
7213
	if ((dd->icode == ICODE_RTL_SILICON) &&
7214
	    (dd->dc8051_ver < dc8051_ver(0, 19, 0))) {
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		/* max_rate: 0 = 12.5G, 1 = 25G */
		switch (max_rate) {
		case 0:
			dd->pport[0].link_speed_active = OPA_LINK_SPEED_12_5G;
			break;
		default:
			dd_dev_err(dd,
7222 7223
				   "%s: unexpected max rate %d, using 25Gb\n",
				   __func__, (int)max_rate);
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			/* fall through */
		case 1:
			dd->pport[0].link_speed_active = OPA_LINK_SPEED_25G;
			break;
		}
	}

	dd_dev_info(dd,
7232 7233
		    "Fabric active lanes (width): tx 0x%x (%d), rx 0x%x (%d)\n",
		    enable_lane_tx, tx, enable_lane_rx, rx);
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	*tx_width = link_width_to_bits(dd, tx);
	*rx_width = link_width_to_bits(dd, rx);
}

/*
 * Read verify_cap_local_fm_link_width[1] to obtain the link widths.
 * Valid after the end of VerifyCap and during LinkUp.  Does not change
 * after link up.  I.e. look elsewhere for downgrade information.
 *
 * Bits are:
 *	+ bits [7:4] contain the number of active transmitters
 *	+ bits [3:0] contain the number of active receivers
 * These are numbers 1 through 4 and can be different values if the
 * link is asymmetric.
 *
 * verify_cap_local_fm_link_width[0] retains its original value.
 */
static void get_linkup_widths(struct hfi1_devdata *dd, u16 *tx_width,
			      u16 *rx_width)
{
	u16 widths, tx, rx;
	u8 misc_bits, local_flags;
	u16 active_tx, active_rx;

	read_vc_local_link_width(dd, &misc_bits, &local_flags, &widths);
	tx = widths >> 12;
	rx = (widths >> 8) & 0xf;

	*tx_width = link_width_to_bits(dd, tx);
	*rx_width = link_width_to_bits(dd, rx);

	/* print the active widths */
	get_link_widths(dd, &active_tx, &active_rx);
}

/*
 * Set ppd->link_width_active and ppd->link_width_downgrade_active using
 * hardware information when the link first comes up.
 *
 * The link width is not available until after VerifyCap.AllFramesReceived
 * (the trigger for handle_verify_cap), so this is outside that routine
 * and should be called when the 8051 signals linkup.
 */
void get_linkup_link_widths(struct hfi1_pportdata *ppd)
{
	u16 tx_width, rx_width;

	/* get end-of-LNI link widths */
	get_linkup_widths(ppd->dd, &tx_width, &rx_width);

	/* use tx_width as the link is supposed to be symmetric on link up */
	ppd->link_width_active = tx_width;
	/* link width downgrade active (LWD.A) starts out matching LW.A */
	ppd->link_width_downgrade_tx_active = ppd->link_width_active;
	ppd->link_width_downgrade_rx_active = ppd->link_width_active;
	/* per OPA spec, on link up LWD.E resets to LWD.S */
	ppd->link_width_downgrade_enabled = ppd->link_width_downgrade_supported;
	/* cache the active egress rate (units {10^6 bits/sec]) */
	ppd->current_egress_rate = active_egress_rate(ppd);
}

/*
 * Handle a verify capabilities interrupt from the 8051.
 *
 * This is a work-queue function outside of the interrupt.
 */
void handle_verify_cap(struct work_struct *work)
{
	struct hfi1_pportdata *ppd = container_of(work, struct hfi1_pportdata,
								link_vc_work);
	struct hfi1_devdata *dd = ppd->dd;
	u64 reg;
	u8 power_management;
	u8 continious;
	u8 vcu;
	u8 vau;
	u8 z;
	u16 vl15buf;
	u16 link_widths;
	u16 crc_mask;
	u16 crc_val;
	u16 device_id;
	u16 active_tx, active_rx;
	u8 partner_supported_crc;
	u8 remote_tx_rate;
	u8 device_rev;

	set_link_state(ppd, HLS_VERIFY_CAP);

	lcb_shutdown(dd, 0);
	adjust_lcb_for_fpga_serdes(dd);

	/*
	 * These are now valid:
	 *	remote VerifyCap fields in the general LNI config
	 *	CSR DC8051_STS_REMOTE_GUID
	 *	CSR DC8051_STS_REMOTE_NODE_TYPE
	 *	CSR DC8051_STS_REMOTE_FM_SECURITY
	 *	CSR DC8051_STS_REMOTE_PORT_NO
	 */

	read_vc_remote_phy(dd, &power_management, &continious);
7336 7337
	read_vc_remote_fabric(dd, &vau, &z, &vcu, &vl15buf,
			      &partner_supported_crc);
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Mike Marciniszyn 已提交
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	read_vc_remote_link_width(dd, &remote_tx_rate, &link_widths);
	read_remote_device_id(dd, &device_id, &device_rev);
	/*
	 * And the 'MgmtAllowed' information, which is exchanged during
	 * LNI, is also be available at this point.
	 */
	read_mgmt_allowed(dd, &ppd->mgmt_allowed);
	/* print the active widths */
	get_link_widths(dd, &active_tx, &active_rx);
	dd_dev_info(dd,
7348 7349
		    "Peer PHY: power management 0x%x, continuous updates 0x%x\n",
		    (int)power_management, (int)continious);
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7350
	dd_dev_info(dd,
7351 7352 7353
		    "Peer Fabric: vAU %d, Z %d, vCU %d, vl15 credits 0x%x, CRC sizes 0x%x\n",
		    (int)vau, (int)z, (int)vcu, (int)vl15buf,
		    (int)partner_supported_crc);
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	dd_dev_info(dd, "Peer Link Width: tx rate 0x%x, widths 0x%x\n",
7355
		    (u32)remote_tx_rate, (u32)link_widths);
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7356
	dd_dev_info(dd, "Peer Device ID: 0x%04x, Revision 0x%02x\n",
7357
		    (u32)device_id, (u32)device_rev);
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	/*
	 * The peer vAU value just read is the peer receiver value.  HFI does
	 * not support a transmit vAU of 0 (AU == 8).  We advertised that
	 * with Z=1 in the fabric capabilities sent to the peer.  The peer
	 * will see our Z=1, and, if it advertised a vAU of 0, will move its
	 * receive to vAU of 1 (AU == 16).  Do the same here.  We do not care
	 * about the peer Z value - our sent vAU is 3 (hardwired) and is not
	 * subject to the Z value exception.
	 */
	if (vau == 0)
		vau = 1;
	set_up_vl15(dd, vau, vl15buf);

	/* set up the LCB CRC mode */
	crc_mask = ppd->port_crc_mode_enabled & partner_supported_crc;

	/* order is important: use the lowest bit in common */
	if (crc_mask & CAP_CRC_14B)
		crc_val = LCB_CRC_14B;
	else if (crc_mask & CAP_CRC_48B)
		crc_val = LCB_CRC_48B;
	else if (crc_mask & CAP_CRC_12B_16B_PER_LANE)
		crc_val = LCB_CRC_12B_16B_PER_LANE;
	else
		crc_val = LCB_CRC_16B;

	dd_dev_info(dd, "Final LCB CRC mode: %d\n", (int)crc_val);
	write_csr(dd, DC_LCB_CFG_CRC_MODE,
		  (u64)crc_val << DC_LCB_CFG_CRC_MODE_TX_VAL_SHIFT);

	/* set (14b only) or clear sideband credit */
	reg = read_csr(dd, SEND_CM_CTRL);
	if (crc_val == LCB_CRC_14B && crc_14b_sideband) {
		write_csr(dd, SEND_CM_CTRL,
7392
			  reg | SEND_CM_CTRL_FORCE_CREDIT_MODE_SMASK);
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Mike Marciniszyn 已提交
7393 7394
	} else {
		write_csr(dd, SEND_CM_CTRL,
7395
			  reg & ~SEND_CM_CTRL_FORCE_CREDIT_MODE_SMASK);
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	}

	ppd->link_speed_active = 0;	/* invalid value */
7399
	if (dd->dc8051_ver < dc8051_ver(0, 20, 0)) {
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		/* remote_tx_rate: 0 = 12.5G, 1 = 25G */
		switch (remote_tx_rate) {
		case 0:
			ppd->link_speed_active = OPA_LINK_SPEED_12_5G;
			break;
		case 1:
			ppd->link_speed_active = OPA_LINK_SPEED_25G;
			break;
		}
	} else {
		/* actual rate is highest bit of the ANDed rates */
		u8 rate = remote_tx_rate & ppd->local_tx_rate;

		if (rate & 2)
			ppd->link_speed_active = OPA_LINK_SPEED_25G;
		else if (rate & 1)
			ppd->link_speed_active = OPA_LINK_SPEED_12_5G;
	}
	if (ppd->link_speed_active == 0) {
		dd_dev_err(dd, "%s: unexpected remote tx rate %d, using 25Gb\n",
7420
			   __func__, (int)remote_tx_rate);
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		ppd->link_speed_active = OPA_LINK_SPEED_25G;
	}

	/*
	 * Cache the values of the supported, enabled, and active
	 * LTP CRC modes to return in 'portinfo' queries. But the bit
	 * flags that are returned in the portinfo query differ from
	 * what's in the link_crc_mask, crc_sizes, and crc_val
	 * variables. Convert these here.
	 */
	ppd->port_ltp_crc_mode = cap_to_port_ltp(link_crc_mask) << 8;
		/* supported crc modes */
	ppd->port_ltp_crc_mode |=
		cap_to_port_ltp(ppd->port_crc_mode_enabled) << 4;
		/* enabled crc modes */
	ppd->port_ltp_crc_mode |= lcb_to_port_ltp(crc_val);
		/* active crc mode */

	/* set up the remote credit return table */
	assign_remote_cm_au_table(dd, vcu);

	/*
	 * The LCB is reset on entry to handle_verify_cap(), so this must
	 * be applied on every link up.
	 *
	 * Adjust LCB error kill enable to kill the link if
	 * these RBUF errors are seen:
	 *	REPLAY_BUF_MBE_SMASK
	 *	FLIT_INPUT_BUF_MBE_SMASK
	 */
7451
	if (is_ax(dd)) {			/* fixed in B0 */
M
Mike Marciniszyn 已提交
7452 7453 7454 7455 7456 7457 7458 7459 7460 7461 7462 7463 7464 7465 7466 7467 7468 7469 7470 7471 7472 7473 7474 7475
		reg = read_csr(dd, DC_LCB_CFG_LINK_KILL_EN);
		reg |= DC_LCB_CFG_LINK_KILL_EN_REPLAY_BUF_MBE_SMASK
			| DC_LCB_CFG_LINK_KILL_EN_FLIT_INPUT_BUF_MBE_SMASK;
		write_csr(dd, DC_LCB_CFG_LINK_KILL_EN, reg);
	}

	/* pull LCB fifos out of reset - all fifo clocks must be stable */
	write_csr(dd, DC_LCB_CFG_TX_FIFOS_RESET, 0);

	/* give 8051 access to the LCB CSRs */
	write_csr(dd, DC_LCB_ERR_EN, 0); /* mask LCB errors */
	set_8051_lcb_access(dd);

	ppd->neighbor_guid =
		read_csr(dd, DC_DC8051_STS_REMOTE_GUID);
	ppd->neighbor_port_number = read_csr(dd, DC_DC8051_STS_REMOTE_PORT_NO) &
					DC_DC8051_STS_REMOTE_PORT_NO_VAL_SMASK;
	ppd->neighbor_type =
		read_csr(dd, DC_DC8051_STS_REMOTE_NODE_TYPE) &
		DC_DC8051_STS_REMOTE_NODE_TYPE_VAL_MASK;
	ppd->neighbor_fm_security =
		read_csr(dd, DC_DC8051_STS_REMOTE_FM_SECURITY) &
		DC_DC8051_STS_LOCAL_FM_SECURITY_DISABLED_MASK;
	dd_dev_info(dd,
7476 7477 7478
		    "Neighbor Guid: %llx Neighbor type %d MgmtAllowed %d FM security bypass %d\n",
		    ppd->neighbor_guid, ppd->neighbor_type,
		    ppd->mgmt_allowed, ppd->neighbor_fm_security);
M
Mike Marciniszyn 已提交
7479 7480 7481 7482 7483 7484 7485 7486 7487 7488 7489 7490 7491 7492 7493 7494
	if (ppd->mgmt_allowed)
		add_full_mgmt_pkey(ppd);

	/* tell the 8051 to go to LinkUp */
	set_link_state(ppd, HLS_GOING_UP);
}

/*
 * Apply the link width downgrade enabled policy against the current active
 * link widths.
 *
 * Called when the enabled policy changes or the active link widths change.
 */
void apply_link_downgrade_policy(struct hfi1_pportdata *ppd, int refresh_widths)
{
	int do_bounce = 0;
D
Dean Luick 已提交
7495 7496
	int tries;
	u16 lwde;
M
Mike Marciniszyn 已提交
7497 7498
	u16 tx, rx;

D
Dean Luick 已提交
7499 7500 7501
	/* use the hls lock to avoid a race with actual link up */
	tries = 0;
retry:
M
Mike Marciniszyn 已提交
7502 7503
	mutex_lock(&ppd->hls_lock);
	/* only apply if the link is up */
7504
	if (ppd->host_link_state & HLS_DOWN) {
D
Dean Luick 已提交
7505 7506 7507 7508 7509 7510 7511 7512 7513 7514 7515 7516 7517 7518 7519
		/* still going up..wait and retry */
		if (ppd->host_link_state & HLS_GOING_UP) {
			if (++tries < 1000) {
				mutex_unlock(&ppd->hls_lock);
				usleep_range(100, 120); /* arbitrary */
				goto retry;
			}
			dd_dev_err(ppd->dd,
				   "%s: giving up waiting for link state change\n",
				   __func__);
		}
		goto done;
	}

	lwde = ppd->link_width_downgrade_enabled;
M
Mike Marciniszyn 已提交
7520 7521 7522 7523 7524 7525 7526

	if (refresh_widths) {
		get_link_widths(ppd->dd, &tx, &rx);
		ppd->link_width_downgrade_tx_active = tx;
		ppd->link_width_downgrade_rx_active = rx;
	}

7527 7528 7529 7530 7531
	if (ppd->link_width_downgrade_tx_active == 0 ||
	    ppd->link_width_downgrade_rx_active == 0) {
		/* the 8051 reported a dead link as a downgrade */
		dd_dev_err(ppd->dd, "Link downgrade is really a link down, ignoring\n");
	} else if (lwde == 0) {
M
Mike Marciniszyn 已提交
7532 7533 7534 7535
		/* downgrade is disabled */

		/* bounce if not at starting active width */
		if ((ppd->link_width_active !=
7536 7537 7538
		     ppd->link_width_downgrade_tx_active) ||
		    (ppd->link_width_active !=
		     ppd->link_width_downgrade_rx_active)) {
M
Mike Marciniszyn 已提交
7539
			dd_dev_err(ppd->dd,
7540
				   "Link downgrade is disabled and link has downgraded, downing link\n");
M
Mike Marciniszyn 已提交
7541
			dd_dev_err(ppd->dd,
7542 7543 7544 7545
				   "  original 0x%x, tx active 0x%x, rx active 0x%x\n",
				   ppd->link_width_active,
				   ppd->link_width_downgrade_tx_active,
				   ppd->link_width_downgrade_rx_active);
M
Mike Marciniszyn 已提交
7546 7547
			do_bounce = 1;
		}
7548 7549
	} else if ((lwde & ppd->link_width_downgrade_tx_active) == 0 ||
		   (lwde & ppd->link_width_downgrade_rx_active) == 0) {
M
Mike Marciniszyn 已提交
7550 7551
		/* Tx or Rx is outside the enabled policy */
		dd_dev_err(ppd->dd,
7552
			   "Link is outside of downgrade allowed, downing link\n");
M
Mike Marciniszyn 已提交
7553
		dd_dev_err(ppd->dd,
7554 7555 7556
			   "  enabled 0x%x, tx active 0x%x, rx active 0x%x\n",
			   lwde, ppd->link_width_downgrade_tx_active,
			   ppd->link_width_downgrade_rx_active);
M
Mike Marciniszyn 已提交
7557 7558 7559
		do_bounce = 1;
	}

D
Dean Luick 已提交
7560 7561 7562
done:
	mutex_unlock(&ppd->hls_lock);

M
Mike Marciniszyn 已提交
7563 7564
	if (do_bounce) {
		set_link_down_reason(ppd, OPA_LINKDOWN_REASON_WIDTH_POLICY, 0,
7565
				     OPA_LINKDOWN_REASON_WIDTH_POLICY);
M
Mike Marciniszyn 已提交
7566 7567 7568 7569 7570 7571 7572 7573 7574 7575 7576 7577 7578 7579 7580 7581 7582 7583 7584 7585 7586 7587 7588 7589 7590 7591 7592 7593 7594 7595 7596 7597 7598 7599 7600 7601 7602 7603 7604 7605 7606 7607 7608 7609 7610 7611 7612 7613 7614 7615 7616 7617 7618 7619 7620 7621 7622 7623 7624 7625 7626 7627 7628 7629 7630 7631 7632 7633 7634 7635 7636 7637 7638 7639 7640 7641 7642 7643 7644 7645 7646
		set_link_state(ppd, HLS_DN_OFFLINE);
		start_link(ppd);
	}
}

/*
 * Handle a link downgrade interrupt from the 8051.
 *
 * This is a work-queue function outside of the interrupt.
 */
void handle_link_downgrade(struct work_struct *work)
{
	struct hfi1_pportdata *ppd = container_of(work, struct hfi1_pportdata,
							link_downgrade_work);

	dd_dev_info(ppd->dd, "8051: Link width downgrade\n");
	apply_link_downgrade_policy(ppd, 1);
}

static char *dcc_err_string(char *buf, int buf_len, u64 flags)
{
	return flag_string(buf, buf_len, flags, dcc_err_flags,
		ARRAY_SIZE(dcc_err_flags));
}

static char *lcb_err_string(char *buf, int buf_len, u64 flags)
{
	return flag_string(buf, buf_len, flags, lcb_err_flags,
		ARRAY_SIZE(lcb_err_flags));
}

static char *dc8051_err_string(char *buf, int buf_len, u64 flags)
{
	return flag_string(buf, buf_len, flags, dc8051_err_flags,
		ARRAY_SIZE(dc8051_err_flags));
}

static char *dc8051_info_err_string(char *buf, int buf_len, u64 flags)
{
	return flag_string(buf, buf_len, flags, dc8051_info_err_flags,
		ARRAY_SIZE(dc8051_info_err_flags));
}

static char *dc8051_info_host_msg_string(char *buf, int buf_len, u64 flags)
{
	return flag_string(buf, buf_len, flags, dc8051_info_host_msg_flags,
		ARRAY_SIZE(dc8051_info_host_msg_flags));
}

static void handle_8051_interrupt(struct hfi1_devdata *dd, u32 unused, u64 reg)
{
	struct hfi1_pportdata *ppd = dd->pport;
	u64 info, err, host_msg;
	int queue_link_down = 0;
	char buf[96];

	/* look at the flags */
	if (reg & DC_DC8051_ERR_FLG_SET_BY_8051_SMASK) {
		/* 8051 information set by firmware */
		/* read DC8051_DBG_ERR_INFO_SET_BY_8051 for details */
		info = read_csr(dd, DC_DC8051_DBG_ERR_INFO_SET_BY_8051);
		err = (info >> DC_DC8051_DBG_ERR_INFO_SET_BY_8051_ERROR_SHIFT)
			& DC_DC8051_DBG_ERR_INFO_SET_BY_8051_ERROR_MASK;
		host_msg = (info >>
			DC_DC8051_DBG_ERR_INFO_SET_BY_8051_HOST_MSG_SHIFT)
			& DC_DC8051_DBG_ERR_INFO_SET_BY_8051_HOST_MSG_MASK;

		/*
		 * Handle error flags.
		 */
		if (err & FAILED_LNI) {
			/*
			 * LNI error indications are cleared by the 8051
			 * only when starting polling.  Only pay attention
			 * to them when in the states that occur during
			 * LNI.
			 */
			if (ppd->host_link_state
			    & (HLS_DN_POLL | HLS_VERIFY_CAP | HLS_GOING_UP)) {
				queue_link_down = 1;
				dd_dev_info(dd, "Link error: %s\n",
7647 7648 7649 7650
					    dc8051_info_err_string(buf,
								   sizeof(buf),
								   err &
								   FAILED_LNI));
M
Mike Marciniszyn 已提交
7651 7652 7653
			}
			err &= ~(u64)FAILED_LNI;
		}
7654 7655 7656 7657 7658
		/* unknown frames can happen durning LNI, just count */
		if (err & UNKNOWN_FRAME) {
			ppd->unknown_frame_count++;
			err &= ~(u64)UNKNOWN_FRAME;
		}
M
Mike Marciniszyn 已提交
7659 7660 7661
		if (err) {
			/* report remaining errors, but do not do anything */
			dd_dev_err(dd, "8051 info error: %s\n",
7662 7663
				   dc8051_info_err_string(buf, sizeof(buf),
							  err));
M
Mike Marciniszyn 已提交
7664 7665 7666 7667 7668 7669 7670 7671 7672 7673 7674 7675 7676 7677 7678 7679 7680 7681 7682 7683 7684 7685 7686 7687 7688 7689 7690
		}

		/*
		 * Handle host message flags.
		 */
		if (host_msg & HOST_REQ_DONE) {
			/*
			 * Presently, the driver does a busy wait for
			 * host requests to complete.  This is only an
			 * informational message.
			 * NOTE: The 8051 clears the host message
			 * information *on the next 8051 command*.
			 * Therefore, when linkup is achieved,
			 * this flag will still be set.
			 */
			host_msg &= ~(u64)HOST_REQ_DONE;
		}
		if (host_msg & BC_SMA_MSG) {
			queue_work(ppd->hfi1_wq, &ppd->sma_message_work);
			host_msg &= ~(u64)BC_SMA_MSG;
		}
		if (host_msg & LINKUP_ACHIEVED) {
			dd_dev_info(dd, "8051: Link up\n");
			queue_work(ppd->hfi1_wq, &ppd->link_up_work);
			host_msg &= ~(u64)LINKUP_ACHIEVED;
		}
		if (host_msg & EXT_DEVICE_CFG_REQ) {
7691
			handle_8051_request(ppd);
M
Mike Marciniszyn 已提交
7692 7693 7694 7695 7696 7697 7698 7699 7700 7701 7702 7703 7704 7705 7706 7707 7708 7709 7710 7711 7712 7713 7714 7715
			host_msg &= ~(u64)EXT_DEVICE_CFG_REQ;
		}
		if (host_msg & VERIFY_CAP_FRAME) {
			queue_work(ppd->hfi1_wq, &ppd->link_vc_work);
			host_msg &= ~(u64)VERIFY_CAP_FRAME;
		}
		if (host_msg & LINK_GOING_DOWN) {
			const char *extra = "";
			/* no downgrade action needed if going down */
			if (host_msg & LINK_WIDTH_DOWNGRADED) {
				host_msg &= ~(u64)LINK_WIDTH_DOWNGRADED;
				extra = " (ignoring downgrade)";
			}
			dd_dev_info(dd, "8051: Link down%s\n", extra);
			queue_link_down = 1;
			host_msg &= ~(u64)LINK_GOING_DOWN;
		}
		if (host_msg & LINK_WIDTH_DOWNGRADED) {
			queue_work(ppd->hfi1_wq, &ppd->link_downgrade_work);
			host_msg &= ~(u64)LINK_WIDTH_DOWNGRADED;
		}
		if (host_msg) {
			/* report remaining messages, but do not do anything */
			dd_dev_info(dd, "8051 info host message: %s\n",
7716 7717 7718
				    dc8051_info_host_msg_string(buf,
								sizeof(buf),
								host_msg));
M
Mike Marciniszyn 已提交
7719 7720 7721 7722 7723 7724 7725 7726 7727 7728 7729 7730
		}

		reg &= ~DC_DC8051_ERR_FLG_SET_BY_8051_SMASK;
	}
	if (reg & DC_DC8051_ERR_FLG_LOST_8051_HEART_BEAT_SMASK) {
		/*
		 * Lost the 8051 heartbeat.  If this happens, we
		 * receive constant interrupts about it.  Disable
		 * the interrupt after the first.
		 */
		dd_dev_err(dd, "Lost 8051 heartbeat\n");
		write_csr(dd, DC_DC8051_ERR_EN,
7731 7732
			  read_csr(dd, DC_DC8051_ERR_EN) &
			  ~DC_DC8051_ERR_EN_LOST_8051_HEART_BEAT_SMASK);
M
Mike Marciniszyn 已提交
7733 7734 7735 7736 7737 7738

		reg &= ~DC_DC8051_ERR_FLG_LOST_8051_HEART_BEAT_SMASK;
	}
	if (reg) {
		/* report the error, but do not do anything */
		dd_dev_err(dd, "8051 error: %s\n",
7739
			   dc8051_err_string(buf, sizeof(buf), reg));
M
Mike Marciniszyn 已提交
7740 7741 7742
	}

	if (queue_link_down) {
7743 7744 7745 7746
		/*
		 * if the link is already going down or disabled, do not
		 * queue another
		 */
7747 7748 7749
		if ((ppd->host_link_state &
		    (HLS_GOING_OFFLINE | HLS_LINK_COOLDOWN)) ||
		    ppd->link_enabled == 0) {
M
Mike Marciniszyn 已提交
7750
			dd_dev_info(dd, "%s: not queuing link down\n",
7751
				    __func__);
M
Mike Marciniszyn 已提交
7752 7753 7754 7755 7756 7757 7758 7759 7760 7761 7762 7763 7764 7765 7766 7767 7768 7769 7770 7771 7772 7773 7774 7775 7776 7777 7778 7779 7780 7781 7782 7783 7784 7785 7786 7787 7788 7789 7790 7791 7792 7793 7794 7795 7796 7797 7798 7799 7800 7801 7802 7803 7804 7805 7806 7807 7808 7809 7810 7811 7812 7813 7814 7815 7816 7817 7818 7819 7820 7821 7822 7823 7824 7825 7826 7827 7828 7829 7830 7831 7832 7833 7834 7835 7836 7837 7838 7839 7840 7841 7842 7843 7844 7845 7846 7847 7848 7849 7850 7851 7852 7853 7854 7855 7856 7857 7858 7859 7860 7861 7862 7863 7864 7865 7866 7867 7868 7869 7870 7871 7872 7873 7874 7875
		} else {
			queue_work(ppd->hfi1_wq, &ppd->link_down_work);
		}
	}
}

static const char * const fm_config_txt[] = {
[0] =
	"BadHeadDist: Distance violation between two head flits",
[1] =
	"BadTailDist: Distance violation between two tail flits",
[2] =
	"BadCtrlDist: Distance violation between two credit control flits",
[3] =
	"BadCrdAck: Credits return for unsupported VL",
[4] =
	"UnsupportedVLMarker: Received VL Marker",
[5] =
	"BadPreempt: Exceeded the preemption nesting level",
[6] =
	"BadControlFlit: Received unsupported control flit",
/* no 7 */
[8] =
	"UnsupportedVLMarker: Received VL Marker for unconfigured or disabled VL",
};

static const char * const port_rcv_txt[] = {
[1] =
	"BadPktLen: Illegal PktLen",
[2] =
	"PktLenTooLong: Packet longer than PktLen",
[3] =
	"PktLenTooShort: Packet shorter than PktLen",
[4] =
	"BadSLID: Illegal SLID (0, using multicast as SLID, does not include security validation of SLID)",
[5] =
	"BadDLID: Illegal DLID (0, doesn't match HFI)",
[6] =
	"BadL2: Illegal L2 opcode",
[7] =
	"BadSC: Unsupported SC",
[9] =
	"BadRC: Illegal RC",
[11] =
	"PreemptError: Preempting with same VL",
[12] =
	"PreemptVL15: Preempting a VL15 packet",
};

#define OPA_LDR_FMCONFIG_OFFSET 16
#define OPA_LDR_PORTRCV_OFFSET 0
static void handle_dcc_err(struct hfi1_devdata *dd, u32 unused, u64 reg)
{
	u64 info, hdr0, hdr1;
	const char *extra;
	char buf[96];
	struct hfi1_pportdata *ppd = dd->pport;
	u8 lcl_reason = 0;
	int do_bounce = 0;

	if (reg & DCC_ERR_FLG_UNCORRECTABLE_ERR_SMASK) {
		if (!(dd->err_info_uncorrectable & OPA_EI_STATUS_SMASK)) {
			info = read_csr(dd, DCC_ERR_INFO_UNCORRECTABLE);
			dd->err_info_uncorrectable = info & OPA_EI_CODE_SMASK;
			/* set status bit */
			dd->err_info_uncorrectable |= OPA_EI_STATUS_SMASK;
		}
		reg &= ~DCC_ERR_FLG_UNCORRECTABLE_ERR_SMASK;
	}

	if (reg & DCC_ERR_FLG_LINK_ERR_SMASK) {
		struct hfi1_pportdata *ppd = dd->pport;
		/* this counter saturates at (2^32) - 1 */
		if (ppd->link_downed < (u32)UINT_MAX)
			ppd->link_downed++;
		reg &= ~DCC_ERR_FLG_LINK_ERR_SMASK;
	}

	if (reg & DCC_ERR_FLG_FMCONFIG_ERR_SMASK) {
		u8 reason_valid = 1;

		info = read_csr(dd, DCC_ERR_INFO_FMCONFIG);
		if (!(dd->err_info_fmconfig & OPA_EI_STATUS_SMASK)) {
			dd->err_info_fmconfig = info & OPA_EI_CODE_SMASK;
			/* set status bit */
			dd->err_info_fmconfig |= OPA_EI_STATUS_SMASK;
		}
		switch (info) {
		case 0:
		case 1:
		case 2:
		case 3:
		case 4:
		case 5:
		case 6:
			extra = fm_config_txt[info];
			break;
		case 8:
			extra = fm_config_txt[info];
			if (ppd->port_error_action &
			    OPA_PI_MASK_FM_CFG_UNSUPPORTED_VL_MARKER) {
				do_bounce = 1;
				/*
				 * lcl_reason cannot be derived from info
				 * for this error
				 */
				lcl_reason =
				  OPA_LINKDOWN_REASON_UNSUPPORTED_VL_MARKER;
			}
			break;
		default:
			reason_valid = 0;
			snprintf(buf, sizeof(buf), "reserved%lld", info);
			extra = buf;
			break;
		}

		if (reason_valid && !do_bounce) {
			do_bounce = ppd->port_error_action &
					(1 << (OPA_LDR_FMCONFIG_OFFSET + info));
			lcl_reason = info + OPA_LINKDOWN_REASON_BAD_HEAD_DIST;
		}

		/* just report this */
7876 7877
		dd_dev_info_ratelimited(dd, "DCC Error: fmconfig error: %s\n",
					extra);
M
Mike Marciniszyn 已提交
7878 7879 7880 7881 7882 7883 7884 7885 7886 7887 7888 7889 7890 7891 7892 7893
		reg &= ~DCC_ERR_FLG_FMCONFIG_ERR_SMASK;
	}

	if (reg & DCC_ERR_FLG_RCVPORT_ERR_SMASK) {
		u8 reason_valid = 1;

		info = read_csr(dd, DCC_ERR_INFO_PORTRCV);
		hdr0 = read_csr(dd, DCC_ERR_INFO_PORTRCV_HDR0);
		hdr1 = read_csr(dd, DCC_ERR_INFO_PORTRCV_HDR1);
		if (!(dd->err_info_rcvport.status_and_code &
		      OPA_EI_STATUS_SMASK)) {
			dd->err_info_rcvport.status_and_code =
				info & OPA_EI_CODE_SMASK;
			/* set status bit */
			dd->err_info_rcvport.status_and_code |=
				OPA_EI_STATUS_SMASK;
7894 7895 7896 7897
			/*
			 * save first 2 flits in the packet that caused
			 * the error
			 */
B
Bart Van Assche 已提交
7898 7899
			dd->err_info_rcvport.packet_flit1 = hdr0;
			dd->err_info_rcvport.packet_flit2 = hdr1;
M
Mike Marciniszyn 已提交
7900 7901 7902 7903 7904 7905 7906 7907 7908 7909 7910 7911 7912 7913 7914 7915 7916 7917 7918 7919 7920 7921 7922 7923 7924 7925 7926 7927
		}
		switch (info) {
		case 1:
		case 2:
		case 3:
		case 4:
		case 5:
		case 6:
		case 7:
		case 9:
		case 11:
		case 12:
			extra = port_rcv_txt[info];
			break;
		default:
			reason_valid = 0;
			snprintf(buf, sizeof(buf), "reserved%lld", info);
			extra = buf;
			break;
		}

		if (reason_valid && !do_bounce) {
			do_bounce = ppd->port_error_action &
					(1 << (OPA_LDR_PORTRCV_OFFSET + info));
			lcl_reason = info + OPA_LINKDOWN_REASON_RCV_ERROR_0;
		}

		/* just report this */
7928 7929 7930
		dd_dev_info_ratelimited(dd, "DCC Error: PortRcv error: %s\n"
					"               hdr0 0x%llx, hdr1 0x%llx\n",
					extra, hdr0, hdr1);
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		reg &= ~DCC_ERR_FLG_RCVPORT_ERR_SMASK;
	}

	if (reg & DCC_ERR_FLG_EN_CSR_ACCESS_BLOCKED_UC_SMASK) {
		/* informative only */
7937
		dd_dev_info_ratelimited(dd, "8051 access to LCB blocked\n");
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		reg &= ~DCC_ERR_FLG_EN_CSR_ACCESS_BLOCKED_UC_SMASK;
	}
	if (reg & DCC_ERR_FLG_EN_CSR_ACCESS_BLOCKED_HOST_SMASK) {
		/* informative only */
7942
		dd_dev_info_ratelimited(dd, "host access to LCB blocked\n");
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		reg &= ~DCC_ERR_FLG_EN_CSR_ACCESS_BLOCKED_HOST_SMASK;
	}

7946 7947 7948
	if (unlikely(hfi1_dbg_fault_suppress_err(&dd->verbs_dev)))
		reg &= ~DCC_ERR_FLG_LATE_EBP_ERR_SMASK;

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	/* report any remaining errors */
	if (reg)
7951 7952
		dd_dev_info_ratelimited(dd, "DCC Error: %s\n",
					dcc_err_string(buf, sizeof(buf), reg));
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	if (lcl_reason == 0)
		lcl_reason = OPA_LINKDOWN_REASON_UNKNOWN;

	if (do_bounce) {
7958 7959
		dd_dev_info_ratelimited(dd, "%s: PortErrorAction bounce\n",
					__func__);
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		set_link_down_reason(ppd, lcl_reason, 0, lcl_reason);
		queue_work(ppd->hfi1_wq, &ppd->link_bounce_work);
	}
}

static void handle_lcb_err(struct hfi1_devdata *dd, u32 unused, u64 reg)
{
	char buf[96];

	dd_dev_info(dd, "LCB Error: %s\n",
7970
		    lcb_err_string(buf, sizeof(buf), reg));
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}

/*
 * CCE block DC interrupt.  Source is < 8.
 */
static void is_dc_int(struct hfi1_devdata *dd, unsigned int source)
{
	const struct err_reg_info *eri = &dc_errs[source];

	if (eri->handler) {
		interrupt_clear_down(dd, 0, eri);
	} else if (source == 3 /* dc_lbm_int */) {
		/*
		 * This indicates that a parity error has occurred on the
		 * address/control lines presented to the LBM.  The error
		 * is a single pulse, there is no associated error flag,
		 * and it is non-maskable.  This is because if a parity
		 * error occurs on the request the request is dropped.
		 * This should never occur, but it is nice to know if it
		 * ever does.
		 */
		dd_dev_err(dd, "Parity error in DC LBM block\n");
	} else {
		dd_dev_err(dd, "Invalid DC interrupt %u\n", source);
	}
}

/*
 * TX block send credit interrupt.  Source is < 160.
 */
static void is_send_credit_int(struct hfi1_devdata *dd, unsigned int source)
{
	sc_group_release_update(dd, source);
}

/*
 * TX block SDMA interrupt.  Source is < 48.
 *
 * SDMA interrupts are grouped by type:
 *
 *	 0 -  N-1 = SDma
 *	 N - 2N-1 = SDmaProgress
 *	2N - 3N-1 = SDmaIdle
 */
static void is_sdma_eng_int(struct hfi1_devdata *dd, unsigned int source)
{
	/* what interrupt */
	unsigned int what  = source / TXE_NUM_SDMA_ENGINES;
	/* which engine */
	unsigned int which = source % TXE_NUM_SDMA_ENGINES;

#ifdef CONFIG_SDMA_VERBOSITY
	dd_dev_err(dd, "CONFIG SDMA(%u) %s:%d %s()\n", which,
		   slashstrip(__FILE__), __LINE__, __func__);
	sdma_dumpstate(&dd->per_sdma[which]);
#endif

	if (likely(what < 3 && which < dd->num_sdma)) {
		sdma_engine_interrupt(&dd->per_sdma[which], 1ull << source);
	} else {
		/* should not happen */
		dd_dev_err(dd, "Invalid SDMA interrupt 0x%x\n", source);
	}
}

/*
 * RX block receive available interrupt.  Source is < 160.
 */
static void is_rcv_avail_int(struct hfi1_devdata *dd, unsigned int source)
{
	struct hfi1_ctxtdata *rcd;
	char *err_detail;

	if (likely(source < dd->num_rcv_contexts)) {
		rcd = dd->rcd[source];
		if (rcd) {
8047 8048 8049
			/* Check for non-user contexts, including vnic */
			if ((source < dd->first_dyn_alloc_ctxt) ||
			    (rcd->sc && (rcd->sc->type == SC_KERNEL)))
8050
				rcd->do_interrupt(rcd, 0);
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			else
				handle_user_interrupt(rcd);
			return;	/* OK */
		}
		/* received an interrupt, but no rcd */
		err_detail = "dataless";
	} else {
		/* received an interrupt, but are not using that context */
		err_detail = "out of range";
	}
	dd_dev_err(dd, "unexpected %s receive available context interrupt %u\n",
8062
		   err_detail, source);
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}

/*
 * RX block receive urgent interrupt.  Source is < 160.
 */
static void is_rcv_urgent_int(struct hfi1_devdata *dd, unsigned int source)
{
	struct hfi1_ctxtdata *rcd;
	char *err_detail;

	if (likely(source < dd->num_rcv_contexts)) {
		rcd = dd->rcd[source];
		if (rcd) {
			/* only pay attention to user urgent interrupts */
8077 8078
			if ((source >= dd->first_dyn_alloc_ctxt) &&
			    (!rcd->sc || (rcd->sc->type == SC_USER)))
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				handle_user_interrupt(rcd);
			return;	/* OK */
		}
		/* received an interrupt, but no rcd */
		err_detail = "dataless";
	} else {
		/* received an interrupt, but are not using that context */
		err_detail = "out of range";
	}
	dd_dev_err(dd, "unexpected %s receive urgent context interrupt %u\n",
8089
		   err_detail, source);
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}

/*
 * Reserved range interrupt.  Should not be called in normal operation.
 */
static void is_reserved_int(struct hfi1_devdata *dd, unsigned int source)
{
	char name[64];

	dd_dev_err(dd, "unexpected %s interrupt\n",
8100
		   is_reserved_name(name, sizeof(name), source));
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}

static const struct is_table is_table[] = {
8104 8105 8106 8107
/*
 * start		 end
 *				name func		interrupt func
 */
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{ IS_GENERAL_ERR_START,  IS_GENERAL_ERR_END,
				is_misc_err_name,	is_misc_err_int },
{ IS_SDMAENG_ERR_START,  IS_SDMAENG_ERR_END,
				is_sdma_eng_err_name,	is_sdma_eng_err_int },
{ IS_SENDCTXT_ERR_START, IS_SENDCTXT_ERR_END,
				is_sendctxt_err_name,	is_sendctxt_err_int },
{ IS_SDMA_START,	     IS_SDMA_END,
				is_sdma_eng_name,	is_sdma_eng_int },
{ IS_VARIOUS_START,	     IS_VARIOUS_END,
				is_various_name,	is_various_int },
{ IS_DC_START,	     IS_DC_END,
				is_dc_name,		is_dc_int },
{ IS_RCVAVAIL_START,     IS_RCVAVAIL_END,
				is_rcv_avail_name,	is_rcv_avail_int },
{ IS_RCVURGENT_START,    IS_RCVURGENT_END,
				is_rcv_urgent_name,	is_rcv_urgent_int },
{ IS_SENDCREDIT_START,   IS_SENDCREDIT_END,
				is_send_credit_name,	is_send_credit_int},
{ IS_RESERVED_START,     IS_RESERVED_END,
				is_reserved_name,	is_reserved_int},
};

/*
 * Interrupt source interrupt - called when the given source has an interrupt.
 * Source is a bit index into an array of 64-bit integers.
 */
static void is_interrupt(struct hfi1_devdata *dd, unsigned int source)
{
	const struct is_table *entry;

	/* avoids a double compare by walking the table in-order */
	for (entry = &is_table[0]; entry->is_name; entry++) {
		if (source < entry->end) {
			trace_hfi1_interrupt(dd, entry, source);
			entry->is_int(dd, source - entry->start);
			return;
		}
	}
	/* fell off the end */
	dd_dev_err(dd, "invalid interrupt source %u\n", source);
}

/*
 * General interrupt handler.  This is able to correctly handle
 * all interrupts in case INTx is used.
 */
static irqreturn_t general_interrupt(int irq, void *data)
{
	struct hfi1_devdata *dd = data;
	u64 regs[CCE_NUM_INT_CSRS];
	u32 bit;
	int i;

	this_cpu_inc(*dd->int_counter);

	/* phase 1: scan and clear all handled interrupts */
	for (i = 0; i < CCE_NUM_INT_CSRS; i++) {
		if (dd->gi_mask[i] == 0) {
			regs[i] = 0;	/* used later */
			continue;
		}
		regs[i] = read_csr(dd, CCE_INT_STATUS + (8 * i)) &
				dd->gi_mask[i];
		/* only clear if anything is set */
		if (regs[i])
			write_csr(dd, CCE_INT_CLEAR + (8 * i), regs[i]);
	}

	/* phase 2: call the appropriate handler */
	for_each_set_bit(bit, (unsigned long *)&regs[0],
8178
			 CCE_NUM_INT_CSRS * 64) {
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		is_interrupt(dd, bit);
	}

	return IRQ_HANDLED;
}

static irqreturn_t sdma_interrupt(int irq, void *data)
{
	struct sdma_engine *sde = data;
	struct hfi1_devdata *dd = sde->dd;
	u64 status;

#ifdef CONFIG_SDMA_VERBOSITY
	dd_dev_err(dd, "CONFIG SDMA(%u) %s:%d %s()\n", sde->this_idx,
		   slashstrip(__FILE__), __LINE__, __func__);
	sdma_dumpstate(sde);
#endif

	this_cpu_inc(*dd->int_counter);

	/* This read_csr is really bad in the hot path */
	status = read_csr(dd,
8201 8202
			  CCE_INT_STATUS + (8 * (IS_SDMA_START / 64)))
			  & sde->imask;
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	if (likely(status)) {
		/* clear the interrupt(s) */
		write_csr(dd,
8206 8207
			  CCE_INT_CLEAR + (8 * (IS_SDMA_START / 64)),
			  status);
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		/* handle the interrupt(s) */
		sdma_engine_interrupt(sde, status);
	} else
		dd_dev_err(dd, "SDMA engine %u interrupt, but no status bits set\n",
8213
			   sde->this_idx);
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	return IRQ_HANDLED;
}

/*
8219 8220 8221
 * Clear the receive interrupt.  Use a read of the interrupt clear CSR
 * to insure that the write completed.  This does NOT guarantee that
 * queued DMA writes to memory from the chip are pushed.
8222 8223 8224 8225 8226 8227 8228 8229 8230 8231 8232 8233 8234
 */
static inline void clear_recv_intr(struct hfi1_ctxtdata *rcd)
{
	struct hfi1_devdata *dd = rcd->dd;
	u32 addr = CCE_INT_CLEAR + (8 * rcd->ireg);

	mmiowb();	/* make sure everything before is written */
	write_csr(dd, addr, rcd->imask);
	/* force the above write on the chip and get a value back */
	(void)read_csr(dd, addr);
}

/* force the receive interrupt */
8235
void force_recv_intr(struct hfi1_ctxtdata *rcd)
8236 8237 8238 8239
{
	write_csr(rcd->dd, CCE_INT_FORCE + (8 * rcd->ireg), rcd->imask);
}

8240 8241 8242 8243 8244 8245 8246 8247 8248 8249
/*
 * Return non-zero if a packet is present.
 *
 * This routine is called when rechecking for packets after the RcvAvail
 * interrupt has been cleared down.  First, do a quick check of memory for
 * a packet present.  If not found, use an expensive CSR read of the context
 * tail to determine the actual tail.  The CSR read is necessary because there
 * is no method to push pending DMAs to memory other than an interrupt and we
 * are trying to determine if we need to force an interrupt.
 */
8250 8251
static inline int check_packet_present(struct hfi1_ctxtdata *rcd)
{
8252 8253 8254
	u32 tail;
	int present;

8255
	if (!HFI1_CAP_IS_KSET(DMA_RTAIL))
8256
		present = (rcd->seq_cnt ==
8257
				rhf_rcv_seq(rhf_to_cpu(get_rhf_addr(rcd))));
8258 8259 8260 8261 8262
	else /* is RDMA rtail */
		present = (rcd->head != get_rcvhdrtail(rcd));

	if (present)
		return 1;
8263

8264 8265 8266
	/* fall back to a CSR read, correct indpendent of DMA_RTAIL */
	tail = (u32)read_uctxt_csr(rcd->dd, rcd->ctxt, RCV_HDR_TAIL);
	return rcd->head != tail;
8267 8268 8269 8270 8271 8272
}

/*
 * Receive packet IRQ handler.  This routine expects to be on its own IRQ.
 * This routine will try to handle packets immediately (latency), but if
 * it finds too many, it will invoke the thread handler (bandwitdh).  The
J
Jubin John 已提交
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 * chip receive interrupt is *not* cleared down until this or the thread (if
8274 8275
 * invoked) is finished.  The intent is to avoid extra interrupts while we
 * are processing packets anyway.
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 */
static irqreturn_t receive_context_interrupt(int irq, void *data)
{
	struct hfi1_ctxtdata *rcd = data;
	struct hfi1_devdata *dd = rcd->dd;
8281 8282
	int disposition;
	int present;
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	trace_hfi1_receive_interrupt(dd, rcd->ctxt);
	this_cpu_inc(*dd->int_counter);
8286
	aspm_ctx_disable(rcd);
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8288 8289
	/* receive interrupt remains blocked while processing packets */
	disposition = rcd->do_interrupt(rcd, 0);
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8290

8291 8292 8293 8294 8295 8296 8297 8298 8299 8300 8301 8302 8303 8304 8305 8306 8307 8308 8309 8310 8311 8312 8313 8314 8315 8316 8317 8318 8319 8320 8321 8322 8323 8324 8325 8326 8327 8328 8329 8330 8331 8332 8333 8334 8335 8336 8337
	/*
	 * Too many packets were seen while processing packets in this
	 * IRQ handler.  Invoke the handler thread.  The receive interrupt
	 * remains blocked.
	 */
	if (disposition == RCV_PKT_LIMIT)
		return IRQ_WAKE_THREAD;

	/*
	 * The packet processor detected no more packets.  Clear the receive
	 * interrupt and recheck for a packet packet that may have arrived
	 * after the previous check and interrupt clear.  If a packet arrived,
	 * force another interrupt.
	 */
	clear_recv_intr(rcd);
	present = check_packet_present(rcd);
	if (present)
		force_recv_intr(rcd);

	return IRQ_HANDLED;
}

/*
 * Receive packet thread handler.  This expects to be invoked with the
 * receive interrupt still blocked.
 */
static irqreturn_t receive_context_thread(int irq, void *data)
{
	struct hfi1_ctxtdata *rcd = data;
	int present;

	/* receive interrupt is still blocked from the IRQ handler */
	(void)rcd->do_interrupt(rcd, 1);

	/*
	 * The packet processor will only return if it detected no more
	 * packets.  Hold IRQs here so we can safely clear the interrupt and
	 * recheck for a packet that may have arrived after the previous
	 * check and the interrupt clear.  If a packet arrived, force another
	 * interrupt.
	 */
	local_irq_disable();
	clear_recv_intr(rcd);
	present = check_packet_present(rcd);
	if (present)
		force_recv_intr(rcd);
	local_irq_enable();
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	return IRQ_HANDLED;
}

/* ========================================================================= */

u32 read_physical_state(struct hfi1_devdata *dd)
{
	u64 reg;

	reg = read_csr(dd, DC_DC8051_STS_CUR_STATE);
	return (reg >> DC_DC8051_STS_CUR_STATE_PORT_SHIFT)
				& DC_DC8051_STS_CUR_STATE_PORT_MASK;
}

8353
u32 read_logical_state(struct hfi1_devdata *dd)
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{
	u64 reg;

	reg = read_csr(dd, DCC_CFG_PORT_CONFIG);
	return (reg >> DCC_CFG_PORT_CONFIG_LINK_STATE_SHIFT)
				& DCC_CFG_PORT_CONFIG_LINK_STATE_MASK;
}

static void set_logical_state(struct hfi1_devdata *dd, u32 chip_lstate)
{
	u64 reg;

	reg = read_csr(dd, DCC_CFG_PORT_CONFIG);
	/* clear current state, set new state */
	reg &= ~DCC_CFG_PORT_CONFIG_LINK_STATE_SMASK;
	reg |= (u64)chip_lstate << DCC_CFG_PORT_CONFIG_LINK_STATE_SHIFT;
	write_csr(dd, DCC_CFG_PORT_CONFIG, reg);
}

/*
 * Use the 8051 to read a LCB CSR.
 */
static int read_lcb_via_8051(struct hfi1_devdata *dd, u32 addr, u64 *data)
{
	u32 regno;
	int ret;

	if (dd->icode == ICODE_FUNCTIONAL_SIMULATOR) {
		if (acquire_lcb_access(dd, 0) == 0) {
			*data = read_csr(dd, addr);
			release_lcb_access(dd, 0);
			return 0;
		}
		return -EBUSY;
	}

	/* register is an index of LCB registers: (offset - base) / 8 */
	regno = (addr - DC_LCB_CFG_RUN) >> 3;
	ret = do_8051_command(dd, HCMD_READ_LCB_CSR, regno, data);
	if (ret != HCMD_SUCCESS)
		return -EBUSY;
	return 0;
}

8398 8399 8400 8401 8402 8403 8404 8405 8406 8407 8408 8409 8410 8411 8412 8413 8414 8415 8416 8417 8418 8419 8420 8421 8422 8423 8424 8425 8426 8427 8428 8429 8430 8431 8432 8433 8434 8435 8436 8437 8438 8439 8440 8441 8442 8443
/*
 * Provide a cache for some of the LCB registers in case the LCB is
 * unavailable.
 * (The LCB is unavailable in certain link states, for example.)
 */
struct lcb_datum {
	u32 off;
	u64 val;
};

static struct lcb_datum lcb_cache[] = {
	{ DC_LCB_ERR_INFO_RX_REPLAY_CNT, 0},
	{ DC_LCB_ERR_INFO_SEQ_CRC_CNT, 0 },
	{ DC_LCB_ERR_INFO_REINIT_FROM_PEER_CNT, 0 },
};

static void update_lcb_cache(struct hfi1_devdata *dd)
{
	int i;
	int ret;
	u64 val;

	for (i = 0; i < ARRAY_SIZE(lcb_cache); i++) {
		ret = read_lcb_csr(dd, lcb_cache[i].off, &val);

		/* Update if we get good data */
		if (likely(ret != -EBUSY))
			lcb_cache[i].val = val;
	}
}

static int read_lcb_cache(u32 off, u64 *val)
{
	int i;

	for (i = 0; i < ARRAY_SIZE(lcb_cache); i++) {
		if (lcb_cache[i].off == off) {
			*val = lcb_cache[i].val;
			return 0;
		}
	}

	pr_warn("%s bad offset 0x%x\n", __func__, off);
	return -1;
}

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/*
 * Read an LCB CSR.  Access may not be in host control, so check.
 * Return 0 on success, -EBUSY on failure.
 */
int read_lcb_csr(struct hfi1_devdata *dd, u32 addr, u64 *data)
{
	struct hfi1_pportdata *ppd = dd->pport;

	/* if up, go through the 8051 for the value */
	if (ppd->host_link_state & HLS_UP)
		return read_lcb_via_8051(dd, addr, data);
8455 8456 8457 8458 8459 8460 8461
	/* if going up or down, check the cache, otherwise, no access */
	if (ppd->host_link_state & (HLS_GOING_UP | HLS_GOING_OFFLINE)) {
		if (read_lcb_cache(addr, data))
			return -EBUSY;
		return 0;
	}

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	/* otherwise, host has access */
	*data = read_csr(dd, addr);
	return 0;
}

/*
 * Use the 8051 to write a LCB CSR.
 */
static int write_lcb_via_8051(struct hfi1_devdata *dd, u32 addr, u64 data)
{
8472 8473
	u32 regno;
	int ret;
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8474

8475
	if (dd->icode == ICODE_FUNCTIONAL_SIMULATOR ||
8476
	    (dd->dc8051_ver < dc8051_ver(0, 20, 0))) {
8477 8478 8479 8480 8481 8482
		if (acquire_lcb_access(dd, 0) == 0) {
			write_csr(dd, addr, data);
			release_lcb_access(dd, 0);
			return 0;
		}
		return -EBUSY;
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	}
8484 8485 8486 8487 8488 8489 8490

	/* register is an index of LCB registers: (offset - base) / 8 */
	regno = (addr - DC_LCB_CFG_RUN) >> 3;
	ret = do_8051_command(dd, HCMD_WRITE_LCB_CSR, regno, &data);
	if (ret != HCMD_SUCCESS)
		return -EBUSY;
	return 0;
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}

/*
 * Write an LCB CSR.  Access may not be in host control, so check.
 * Return 0 on success, -EBUSY on failure.
 */
int write_lcb_csr(struct hfi1_devdata *dd, u32 addr, u64 data)
{
	struct hfi1_pportdata *ppd = dd->pport;

	/* if up, go through the 8051 for the value */
	if (ppd->host_link_state & HLS_UP)
		return write_lcb_via_8051(dd, addr, data);
	/* if going up or down, no access */
	if (ppd->host_link_state & (HLS_GOING_UP | HLS_GOING_OFFLINE))
		return -EBUSY;
	/* otherwise, host has access */
	write_csr(dd, addr, data);
	return 0;
}

/*
 * Returns:
 *	< 0 = Linux error, not able to get access
 *	> 0 = 8051 command RETURN_CODE
 */
static int do_8051_command(
	struct hfi1_devdata *dd,
	u32 type,
	u64 in_data,
	u64 *out_data)
{
	u64 reg, completed;
	int return_code;
	unsigned long timeout;

	hfi1_cdbg(DC8051, "type %d, data 0x%012llx", type, in_data);

T
Tadeusz Struk 已提交
8529
	mutex_lock(&dd->dc8051_lock);
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Mike Marciniszyn 已提交
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	/* We can't send any commands to the 8051 if it's in reset */
	if (dd->dc_shutdown) {
		return_code = -ENODEV;
		goto fail;
	}

	/*
	 * If an 8051 host command timed out previously, then the 8051 is
	 * stuck.
	 *
	 * On first timeout, attempt to reset and restart the entire DC
	 * block (including 8051). (Is this too big of a hammer?)
	 *
	 * If the 8051 times out a second time, the reset did not bring it
	 * back to healthy life. In that case, fail any subsequent commands.
	 */
	if (dd->dc8051_timed_out) {
		if (dd->dc8051_timed_out > 1) {
			dd_dev_err(dd,
				   "Previous 8051 host command timed out, skipping command %u\n",
				   type);
			return_code = -ENXIO;
			goto fail;
		}
T
Tadeusz Struk 已提交
8555 8556
		_dc_shutdown(dd);
		_dc_start(dd);
M
Mike Marciniszyn 已提交
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	}

	/*
	 * If there is no timeout, then the 8051 command interface is
	 * waiting for a command.
	 */

8564 8565 8566 8567 8568 8569 8570 8571 8572 8573 8574 8575 8576
	/*
	 * When writing a LCB CSR, out_data contains the full value to
	 * to be written, while in_data contains the relative LCB
	 * address in 7:0.  Do the work here, rather than the caller,
	 * of distrubting the write data to where it needs to go:
	 *
	 * Write data
	 *   39:00 -> in_data[47:8]
	 *   47:40 -> DC8051_CFG_EXT_DEV_0.RETURN_CODE
	 *   63:48 -> DC8051_CFG_EXT_DEV_0.RSP_DATA
	 */
	if (type == HCMD_WRITE_LCB_CSR) {
		in_data |= ((*out_data) & 0xffffffffffull) << 8;
8577 8578 8579 8580
		/* must preserve COMPLETED - it is tied to hardware */
		reg = read_csr(dd, DC_DC8051_CFG_EXT_DEV_0);
		reg &= DC_DC8051_CFG_EXT_DEV_0_COMPLETED_SMASK;
		reg |= ((((*out_data) >> 40) & 0xff) <<
8581 8582 8583 8584 8585 8586
				DC_DC8051_CFG_EXT_DEV_0_RETURN_CODE_SHIFT)
		      | ((((*out_data) >> 48) & 0xffff) <<
				DC_DC8051_CFG_EXT_DEV_0_RSP_DATA_SHIFT);
		write_csr(dd, DC_DC8051_CFG_EXT_DEV_0, reg);
	}

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Mike Marciniszyn 已提交
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	/*
	 * Do two writes: the first to stabilize the type and req_data, the
	 * second to activate.
	 */
	reg = ((u64)type & DC_DC8051_CFG_HOST_CMD_0_REQ_TYPE_MASK)
			<< DC_DC8051_CFG_HOST_CMD_0_REQ_TYPE_SHIFT
		| (in_data & DC_DC8051_CFG_HOST_CMD_0_REQ_DATA_MASK)
			<< DC_DC8051_CFG_HOST_CMD_0_REQ_DATA_SHIFT;
	write_csr(dd, DC_DC8051_CFG_HOST_CMD_0, reg);
	reg |= DC_DC8051_CFG_HOST_CMD_0_REQ_NEW_SMASK;
	write_csr(dd, DC_DC8051_CFG_HOST_CMD_0, reg);

	/* wait for completion, alternate: interrupt */
	timeout = jiffies + msecs_to_jiffies(DC8051_COMMAND_TIMEOUT);
	while (1) {
		reg = read_csr(dd, DC_DC8051_CFG_HOST_CMD_1);
		completed = reg & DC_DC8051_CFG_HOST_CMD_1_COMPLETED_SMASK;
		if (completed)
			break;
		if (time_after(jiffies, timeout)) {
			dd->dc8051_timed_out++;
			dd_dev_err(dd, "8051 host command %u timeout\n", type);
			if (out_data)
				*out_data = 0;
			return_code = -ETIMEDOUT;
			goto fail;
		}
		udelay(2);
	}

	if (out_data) {
		*out_data = (reg >> DC_DC8051_CFG_HOST_CMD_1_RSP_DATA_SHIFT)
				& DC_DC8051_CFG_HOST_CMD_1_RSP_DATA_MASK;
		if (type == HCMD_READ_LCB_CSR) {
			/* top 16 bits are in a different register */
			*out_data |= (read_csr(dd, DC_DC8051_CFG_EXT_DEV_1)
				& DC_DC8051_CFG_EXT_DEV_1_REQ_DATA_SMASK)
				<< (48
				    - DC_DC8051_CFG_EXT_DEV_1_REQ_DATA_SHIFT);
		}
	}
	return_code = (reg >> DC_DC8051_CFG_HOST_CMD_1_RETURN_CODE_SHIFT)
				& DC_DC8051_CFG_HOST_CMD_1_RETURN_CODE_MASK;
	dd->dc8051_timed_out = 0;
	/*
	 * Clear command for next user.
	 */
	write_csr(dd, DC_DC8051_CFG_HOST_CMD_0, 0);

fail:
T
Tadeusz Struk 已提交
8637
	mutex_unlock(&dd->dc8051_lock);
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Mike Marciniszyn 已提交
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	return return_code;
}

static int set_physical_link_state(struct hfi1_devdata *dd, u64 state)
{
	return do_8051_command(dd, HCMD_CHANGE_PHY_STATE, state, NULL);
}

8646 8647
int load_8051_config(struct hfi1_devdata *dd, u8 field_id,
		     u8 lane_id, u32 config_data)
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Mike Marciniszyn 已提交
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{
	u64 data;
	int ret;

	data = (u64)field_id << LOAD_DATA_FIELD_ID_SHIFT
		| (u64)lane_id << LOAD_DATA_LANE_ID_SHIFT
		| (u64)config_data << LOAD_DATA_DATA_SHIFT;
	ret = do_8051_command(dd, HCMD_LOAD_CONFIG_DATA, data, NULL);
	if (ret != HCMD_SUCCESS) {
		dd_dev_err(dd,
8658 8659
			   "load 8051 config: field id %d, lane %d, err %d\n",
			   (int)field_id, (int)lane_id, ret);
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Mike Marciniszyn 已提交
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	}
	return ret;
}

/*
 * Read the 8051 firmware "registers".  Use the RAM directly.  Always
 * set the result, even on error.
 * Return 0 on success, -errno on failure
 */
8669 8670
int read_8051_config(struct hfi1_devdata *dd, u8 field_id, u8 lane_id,
		     u32 *result)
M
Mike Marciniszyn 已提交
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{
	u64 big_data;
	u32 addr;
	int ret;

	/* address start depends on the lane_id */
	if (lane_id < 4)
		addr = (4 * NUM_GENERAL_FIELDS)
			+ (lane_id * 4 * NUM_LANE_FIELDS);
	else
		addr = 0;
	addr += field_id * 4;

	/* read is in 8-byte chunks, hardware will truncate the address down */
	ret = read_8051_data(dd, addr, 8, &big_data);

	if (ret == 0) {
		/* extract the 4 bytes we want */
		if (addr & 0x4)
			*result = (u32)(big_data >> 32);
		else
			*result = (u32)big_data;
	} else {
		*result = 0;
		dd_dev_err(dd, "%s: direct read failed, lane %d, field %d!\n",
8696
			   __func__, lane_id, field_id);
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Mike Marciniszyn 已提交
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	}

	return ret;
}

static int write_vc_local_phy(struct hfi1_devdata *dd, u8 power_management,
			      u8 continuous)
{
	u32 frame;

	frame = continuous << CONTINIOUS_REMOTE_UPDATE_SUPPORT_SHIFT
		| power_management << POWER_MANAGEMENT_SHIFT;
	return load_8051_config(dd, VERIFY_CAP_LOCAL_PHY,
				GENERAL_CONFIG, frame);
}

static int write_vc_local_fabric(struct hfi1_devdata *dd, u8 vau, u8 z, u8 vcu,
				 u16 vl15buf, u8 crc_sizes)
{
	u32 frame;

	frame = (u32)vau << VAU_SHIFT
		| (u32)z << Z_SHIFT
		| (u32)vcu << VCU_SHIFT
		| (u32)vl15buf << VL15BUF_SHIFT
		| (u32)crc_sizes << CRC_SIZES_SHIFT;
	return load_8051_config(dd, VERIFY_CAP_LOCAL_FABRIC,
				GENERAL_CONFIG, frame);
}

static void read_vc_local_link_width(struct hfi1_devdata *dd, u8 *misc_bits,
				     u8 *flag_bits, u16 *link_widths)
{
	u32 frame;

	read_8051_config(dd, VERIFY_CAP_LOCAL_LINK_WIDTH, GENERAL_CONFIG,
8733
			 &frame);
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Mike Marciniszyn 已提交
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	*misc_bits = (frame >> MISC_CONFIG_BITS_SHIFT) & MISC_CONFIG_BITS_MASK;
	*flag_bits = (frame >> LOCAL_FLAG_BITS_SHIFT) & LOCAL_FLAG_BITS_MASK;
	*link_widths = (frame >> LINK_WIDTH_SHIFT) & LINK_WIDTH_MASK;
}

static int write_vc_local_link_width(struct hfi1_devdata *dd,
				     u8 misc_bits,
				     u8 flag_bits,
				     u16 link_widths)
{
	u32 frame;

	frame = (u32)misc_bits << MISC_CONFIG_BITS_SHIFT
		| (u32)flag_bits << LOCAL_FLAG_BITS_SHIFT
		| (u32)link_widths << LINK_WIDTH_SHIFT;
	return load_8051_config(dd, VERIFY_CAP_LOCAL_LINK_WIDTH, GENERAL_CONFIG,
		     frame);
}

static int write_local_device_id(struct hfi1_devdata *dd, u16 device_id,
				 u8 device_rev)
{
	u32 frame;

	frame = ((u32)device_id << LOCAL_DEVICE_ID_SHIFT)
		| ((u32)device_rev << LOCAL_DEVICE_REV_SHIFT);
	return load_8051_config(dd, LOCAL_DEVICE_ID, GENERAL_CONFIG, frame);
}

static void read_remote_device_id(struct hfi1_devdata *dd, u16 *device_id,
				  u8 *device_rev)
{
	u32 frame;

	read_8051_config(dd, REMOTE_DEVICE_ID, GENERAL_CONFIG, &frame);
	*device_id = (frame >> REMOTE_DEVICE_ID_SHIFT) & REMOTE_DEVICE_ID_MASK;
	*device_rev = (frame >> REMOTE_DEVICE_REV_SHIFT)
			& REMOTE_DEVICE_REV_MASK;
}

8774 8775
void read_misc_status(struct hfi1_devdata *dd, u8 *ver_major, u8 *ver_minor,
		      u8 *ver_patch)
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Mike Marciniszyn 已提交
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{
	u32 frame;

	read_8051_config(dd, MISC_STATUS, GENERAL_CONFIG, &frame);
8780 8781 8782 8783 8784 8785 8786 8787
	*ver_major = (frame >> STS_FM_VERSION_MAJOR_SHIFT) &
		STS_FM_VERSION_MAJOR_MASK;
	*ver_minor = (frame >> STS_FM_VERSION_MINOR_SHIFT) &
		STS_FM_VERSION_MINOR_MASK;

	read_8051_config(dd, VERSION_PATCH, GENERAL_CONFIG, &frame);
	*ver_patch = (frame >> STS_FM_VERSION_PATCH_SHIFT) &
		STS_FM_VERSION_PATCH_MASK;
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Mike Marciniszyn 已提交
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}

static void read_vc_remote_phy(struct hfi1_devdata *dd, u8 *power_management,
			       u8 *continuous)
{
	u32 frame;

	read_8051_config(dd, VERIFY_CAP_REMOTE_PHY, GENERAL_CONFIG, &frame);
	*power_management = (frame >> POWER_MANAGEMENT_SHIFT)
					& POWER_MANAGEMENT_MASK;
	*continuous = (frame >> CONTINIOUS_REMOTE_UPDATE_SUPPORT_SHIFT)
					& CONTINIOUS_REMOTE_UPDATE_SUPPORT_MASK;
}

static void read_vc_remote_fabric(struct hfi1_devdata *dd, u8 *vau, u8 *z,
				  u8 *vcu, u16 *vl15buf, u8 *crc_sizes)
{
	u32 frame;

	read_8051_config(dd, VERIFY_CAP_REMOTE_FABRIC, GENERAL_CONFIG, &frame);
	*vau = (frame >> VAU_SHIFT) & VAU_MASK;
	*z = (frame >> Z_SHIFT) & Z_MASK;
	*vcu = (frame >> VCU_SHIFT) & VCU_MASK;
	*vl15buf = (frame >> VL15BUF_SHIFT) & VL15BUF_MASK;
	*crc_sizes = (frame >> CRC_SIZES_SHIFT) & CRC_SIZES_MASK;
}

static void read_vc_remote_link_width(struct hfi1_devdata *dd,
				      u8 *remote_tx_rate,
				      u16 *link_widths)
{
	u32 frame;

	read_8051_config(dd, VERIFY_CAP_REMOTE_LINK_WIDTH, GENERAL_CONFIG,
8822
			 &frame);
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Mike Marciniszyn 已提交
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	*remote_tx_rate = (frame >> REMOTE_TX_RATE_SHIFT)
				& REMOTE_TX_RATE_MASK;
	*link_widths = (frame >> LINK_WIDTH_SHIFT) & LINK_WIDTH_MASK;
}

static void read_local_lni(struct hfi1_devdata *dd, u8 *enable_lane_rx)
{
	u32 frame;

	read_8051_config(dd, LOCAL_LNI_INFO, GENERAL_CONFIG, &frame);
	*enable_lane_rx = (frame >> ENABLE_LANE_RX_SHIFT) & ENABLE_LANE_RX_MASK;
}

static void read_mgmt_allowed(struct hfi1_devdata *dd, u8 *mgmt_allowed)
{
	u32 frame;

	read_8051_config(dd, REMOTE_LNI_INFO, GENERAL_CONFIG, &frame);
	*mgmt_allowed = (frame >> MGMT_ALLOWED_SHIFT) & MGMT_ALLOWED_MASK;
}

static void read_last_local_state(struct hfi1_devdata *dd, u32 *lls)
{
	read_8051_config(dd, LAST_LOCAL_STATE_COMPLETE, GENERAL_CONFIG, lls);
}

static void read_last_remote_state(struct hfi1_devdata *dd, u32 *lrs)
{
	read_8051_config(dd, LAST_REMOTE_STATE_COMPLETE, GENERAL_CONFIG, lrs);
}

void hfi1_read_link_quality(struct hfi1_devdata *dd, u8 *link_quality)
{
	u32 frame;
	int ret;

	*link_quality = 0;
	if (dd->pport->host_link_state & HLS_UP) {
		ret = read_8051_config(dd, LINK_QUALITY_INFO, GENERAL_CONFIG,
8862
				       &frame);
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Mike Marciniszyn 已提交
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		if (ret == 0)
			*link_quality = (frame >> LINK_QUALITY_SHIFT)
						& LINK_QUALITY_MASK;
	}
}

static void read_planned_down_reason_code(struct hfi1_devdata *dd, u8 *pdrrc)
{
	u32 frame;

	read_8051_config(dd, LINK_QUALITY_INFO, GENERAL_CONFIG, &frame);
	*pdrrc = (frame >> DOWN_REMOTE_REASON_SHIFT) & DOWN_REMOTE_REASON_MASK;
}

8877 8878 8879 8880 8881 8882 8883 8884
static void read_link_down_reason(struct hfi1_devdata *dd, u8 *ldr)
{
	u32 frame;

	read_8051_config(dd, LINK_DOWN_REASON, GENERAL_CONFIG, &frame);
	*ldr = (frame & 0xff);
}

M
Mike Marciniszyn 已提交
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static int read_tx_settings(struct hfi1_devdata *dd,
			    u8 *enable_lane_tx,
			    u8 *tx_polarity_inversion,
			    u8 *rx_polarity_inversion,
			    u8 *max_rate)
{
	u32 frame;
	int ret;

	ret = read_8051_config(dd, TX_SETTINGS, GENERAL_CONFIG, &frame);
	*enable_lane_tx = (frame >> ENABLE_LANE_TX_SHIFT)
				& ENABLE_LANE_TX_MASK;
	*tx_polarity_inversion = (frame >> TX_POLARITY_INVERSION_SHIFT)
				& TX_POLARITY_INVERSION_MASK;
	*rx_polarity_inversion = (frame >> RX_POLARITY_INVERSION_SHIFT)
				& RX_POLARITY_INVERSION_MASK;
	*max_rate = (frame >> MAX_RATE_SHIFT) & MAX_RATE_MASK;
	return ret;
}

static int write_tx_settings(struct hfi1_devdata *dd,
			     u8 enable_lane_tx,
			     u8 tx_polarity_inversion,
			     u8 rx_polarity_inversion,
			     u8 max_rate)
{
	u32 frame;

	/* no need to mask, all variable sizes match field widths */
	frame = enable_lane_tx << ENABLE_LANE_TX_SHIFT
		| tx_polarity_inversion << TX_POLARITY_INVERSION_SHIFT
		| rx_polarity_inversion << RX_POLARITY_INVERSION_SHIFT
		| max_rate << MAX_RATE_SHIFT;
	return load_8051_config(dd, TX_SETTINGS, GENERAL_CONFIG, frame);
}

/*
 * Read an idle LCB message.
 *
 * Returns 0 on success, -EINVAL on error
 */
static int read_idle_message(struct hfi1_devdata *dd, u64 type, u64 *data_out)
{
	int ret;

8930
	ret = do_8051_command(dd, HCMD_READ_LCB_IDLE_MSG, type, data_out);
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Mike Marciniszyn 已提交
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	if (ret != HCMD_SUCCESS) {
		dd_dev_err(dd, "read idle message: type %d, err %d\n",
8933
			   (u32)type, ret);
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Mike Marciniszyn 已提交
8934 8935 8936 8937 8938 8939 8940 8941 8942 8943 8944 8945 8946 8947 8948 8949
		return -EINVAL;
	}
	dd_dev_info(dd, "%s: read idle message 0x%llx\n", __func__, *data_out);
	/* return only the payload as we already know the type */
	*data_out >>= IDLE_PAYLOAD_SHIFT;
	return 0;
}

/*
 * Read an idle SMA message.  To be done in response to a notification from
 * the 8051.
 *
 * Returns 0 on success, -EINVAL on error
 */
static int read_idle_sma(struct hfi1_devdata *dd, u64 *data)
{
8950 8951
	return read_idle_message(dd, (u64)IDLE_SMA << IDLE_MSG_TYPE_SHIFT,
				 data);
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Mike Marciniszyn 已提交
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}

/*
 * Send an idle LCB message.
 *
 * Returns 0 on success, -EINVAL on error
 */
static int send_idle_message(struct hfi1_devdata *dd, u64 data)
{
	int ret;

	dd_dev_info(dd, "%s: sending idle message 0x%llx\n", __func__, data);
	ret = do_8051_command(dd, HCMD_SEND_LCB_IDLE_MSG, data, NULL);
	if (ret != HCMD_SUCCESS) {
		dd_dev_err(dd, "send idle message: data 0x%llx, err %d\n",
8967
			   data, ret);
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Mike Marciniszyn 已提交
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		return -EINVAL;
	}
	return 0;
}

/*
 * Send an idle SMA message.
 *
 * Returns 0 on success, -EINVAL on error
 */
int send_idle_sma(struct hfi1_devdata *dd, u64 message)
{
	u64 data;

8982 8983
	data = ((message & IDLE_PAYLOAD_MASK) << IDLE_PAYLOAD_SHIFT) |
		((u64)IDLE_SMA << IDLE_MSG_TYPE_SHIFT);
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Mike Marciniszyn 已提交
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	return send_idle_message(dd, data);
}

/*
 * Initialize the LCB then do a quick link up.  This may or may not be
 * in loopback.
 *
 * return 0 on success, -errno on error
 */
static int do_quick_linkup(struct hfi1_devdata *dd)
{
	int ret;

	lcb_shutdown(dd, 0);

	if (loopback) {
		/* LCB_CFG_LOOPBACK.VAL = 2 */
		/* LCB_CFG_LANE_WIDTH.VAL = 0 */
		write_csr(dd, DC_LCB_CFG_LOOPBACK,
9003
			  IB_PACKET_TYPE << DC_LCB_CFG_LOOPBACK_VAL_SHIFT);
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Mike Marciniszyn 已提交
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		write_csr(dd, DC_LCB_CFG_LANE_WIDTH, 0);
	}

	/* start the LCBs */
	/* LCB_CFG_TX_FIFOS_RESET.VAL = 0 */
	write_csr(dd, DC_LCB_CFG_TX_FIFOS_RESET, 0);

	/* simulator only loopback steps */
	if (loopback && dd->icode == ICODE_FUNCTIONAL_SIMULATOR) {
		/* LCB_CFG_RUN.EN = 1 */
		write_csr(dd, DC_LCB_CFG_RUN,
9015
			  1ull << DC_LCB_CFG_RUN_EN_SHIFT);
M
Mike Marciniszyn 已提交
9016

D
Dean Luick 已提交
9017 9018 9019
		ret = wait_link_transfer_active(dd, 10);
		if (ret)
			return ret;
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Mike Marciniszyn 已提交
9020 9021

		write_csr(dd, DC_LCB_CFG_ALLOW_LINK_UP,
9022
			  1ull << DC_LCB_CFG_ALLOW_LINK_UP_VAL_SHIFT);
M
Mike Marciniszyn 已提交
9023 9024 9025 9026 9027 9028 9029 9030 9031 9032 9033
	}

	if (!loopback) {
		/*
		 * When doing quick linkup and not in loopback, both
		 * sides must be done with LCB set-up before either
		 * starts the quick linkup.  Put a delay here so that
		 * both sides can be started and have a chance to be
		 * done with LCB set up before resuming.
		 */
		dd_dev_err(dd,
9034
			   "Pausing for peer to be finished with LCB set up\n");
M
Mike Marciniszyn 已提交
9035
		msleep(5000);
9036
		dd_dev_err(dd, "Continuing with quick linkup\n");
M
Mike Marciniszyn 已提交
9037 9038 9039 9040 9041 9042 9043 9044 9045 9046 9047 9048 9049
	}

	write_csr(dd, DC_LCB_ERR_EN, 0); /* mask LCB errors */
	set_8051_lcb_access(dd);

	/*
	 * State "quick" LinkUp request sets the physical link state to
	 * LinkUp without a verify capability sequence.
	 * This state is in simulator v37 and later.
	 */
	ret = set_physical_link_state(dd, PLS_QUICK_LINKUP);
	if (ret != HCMD_SUCCESS) {
		dd_dev_err(dd,
9050 9051
			   "%s: set physical link state to quick LinkUp failed with return %d\n",
			   __func__, ret);
M
Mike Marciniszyn 已提交
9052 9053 9054 9055 9056 9057 9058 9059 9060 9061 9062 9063 9064 9065 9066 9067 9068 9069 9070 9071 9072 9073 9074 9075

		set_host_lcb_access(dd);
		write_csr(dd, DC_LCB_ERR_EN, ~0ull); /* watch LCB errors */

		if (ret >= 0)
			ret = -EINVAL;
		return ret;
	}

	return 0; /* success */
}

/*
 * Set the SerDes to internal loopback mode.
 * Returns 0 on success, -errno on error.
 */
static int set_serdes_loopback_mode(struct hfi1_devdata *dd)
{
	int ret;

	ret = set_physical_link_state(dd, PLS_INTERNAL_SERDES_LOOPBACK);
	if (ret == HCMD_SUCCESS)
		return 0;
	dd_dev_err(dd,
9076 9077
		   "Set physical link state to SerDes Loopback failed with return %d\n",
		   ret);
M
Mike Marciniszyn 已提交
9078 9079 9080 9081 9082 9083 9084 9085 9086 9087 9088 9089 9090 9091
	if (ret >= 0)
		ret = -EINVAL;
	return ret;
}

/*
 * Do all special steps to set up loopback.
 */
static int init_loopback(struct hfi1_devdata *dd)
{
	dd_dev_info(dd, "Entering loopback mode\n");

	/* all loopbacks should disable self GUID check */
	write_csr(dd, DC_DC8051_CFG_MODE,
9092
		  (read_csr(dd, DC_DC8051_CFG_MODE) | DISABLE_SELF_GUID_CHECK));
M
Mike Marciniszyn 已提交
9093 9094 9095 9096 9097 9098 9099

	/*
	 * The simulator has only one loopback option - LCB.  Switch
	 * to that option, which includes quick link up.
	 *
	 * Accept all valid loopback values.
	 */
9100 9101 9102
	if ((dd->icode == ICODE_FUNCTIONAL_SIMULATOR) &&
	    (loopback == LOOPBACK_SERDES || loopback == LOOPBACK_LCB ||
	     loopback == LOOPBACK_CABLE)) {
M
Mike Marciniszyn 已提交
9103 9104 9105 9106 9107 9108 9109 9110 9111 9112 9113 9114 9115 9116 9117 9118 9119 9120 9121 9122
		loopback = LOOPBACK_LCB;
		quick_linkup = 1;
		return 0;
	}

	/* handle serdes loopback */
	if (loopback == LOOPBACK_SERDES) {
		/* internal serdes loopack needs quick linkup on RTL */
		if (dd->icode == ICODE_RTL_SILICON)
			quick_linkup = 1;
		return set_serdes_loopback_mode(dd);
	}

	/* LCB loopback - handled at poll time */
	if (loopback == LOOPBACK_LCB) {
		quick_linkup = 1; /* LCB is always quick linkup */

		/* not supported in emulation due to emulation RTL changes */
		if (dd->icode == ICODE_FPGA_EMULATION) {
			dd_dev_err(dd,
9123
				   "LCB loopback not supported in emulation\n");
M
Mike Marciniszyn 已提交
9124 9125 9126 9127 9128 9129 9130 9131 9132 9133 9134 9135 9136 9137 9138 9139 9140 9141 9142 9143 9144 9145 9146 9147 9148 9149
			return -EINVAL;
		}
		return 0;
	}

	/* external cable loopback requires no extra steps */
	if (loopback == LOOPBACK_CABLE)
		return 0;

	dd_dev_err(dd, "Invalid loopback mode %d\n", loopback);
	return -EINVAL;
}

/*
 * Translate from the OPA_LINK_WIDTH handed to us by the FM to bits
 * used in the Verify Capability link width attribute.
 */
static u16 opa_to_vc_link_widths(u16 opa_widths)
{
	int i;
	u16 result = 0;

	static const struct link_bits {
		u16 from;
		u16 to;
	} opa_link_xlate[] = {
9150 9151 9152 9153
		{ OPA_LINK_WIDTH_1X, 1 << (1 - 1)  },
		{ OPA_LINK_WIDTH_2X, 1 << (2 - 1)  },
		{ OPA_LINK_WIDTH_3X, 1 << (3 - 1)  },
		{ OPA_LINK_WIDTH_4X, 1 << (4 - 1)  },
M
Mike Marciniszyn 已提交
9154 9155 9156 9157 9158 9159 9160 9161 9162 9163 9164 9165 9166 9167 9168 9169 9170 9171 9172 9173 9174 9175 9176 9177 9178
	};

	for (i = 0; i < ARRAY_SIZE(opa_link_xlate); i++) {
		if (opa_widths & opa_link_xlate[i].from)
			result |= opa_link_xlate[i].to;
	}
	return result;
}

/*
 * Set link attributes before moving to polling.
 */
static int set_local_link_attributes(struct hfi1_pportdata *ppd)
{
	struct hfi1_devdata *dd = ppd->dd;
	u8 enable_lane_tx;
	u8 tx_polarity_inversion;
	u8 rx_polarity_inversion;
	int ret;

	/* reset our fabric serdes to clear any lingering problems */
	fabric_serdes_reset(dd);

	/* set the local tx rate - need to read-modify-write */
	ret = read_tx_settings(dd, &enable_lane_tx, &tx_polarity_inversion,
9179
			       &rx_polarity_inversion, &ppd->local_tx_rate);
M
Mike Marciniszyn 已提交
9180 9181 9182
	if (ret)
		goto set_local_link_attributes_fail;

9183
	if (dd->dc8051_ver < dc8051_ver(0, 20, 0)) {
M
Mike Marciniszyn 已提交
9184 9185 9186 9187 9188 9189 9190 9191 9192 9193 9194 9195 9196
		/* set the tx rate to the fastest enabled */
		if (ppd->link_speed_enabled & OPA_LINK_SPEED_25G)
			ppd->local_tx_rate = 1;
		else
			ppd->local_tx_rate = 0;
	} else {
		/* set the tx rate to all enabled */
		ppd->local_tx_rate = 0;
		if (ppd->link_speed_enabled & OPA_LINK_SPEED_25G)
			ppd->local_tx_rate |= 2;
		if (ppd->link_speed_enabled & OPA_LINK_SPEED_12_5G)
			ppd->local_tx_rate |= 1;
	}
9197 9198

	enable_lane_tx = 0xF; /* enable all four lanes */
M
Mike Marciniszyn 已提交
9199
	ret = write_tx_settings(dd, enable_lane_tx, tx_polarity_inversion,
9200
				rx_polarity_inversion, ppd->local_tx_rate);
M
Mike Marciniszyn 已提交
9201 9202 9203 9204 9205 9206
	if (ret != HCMD_SUCCESS)
		goto set_local_link_attributes_fail;

	/*
	 * DC supports continuous updates.
	 */
9207 9208 9209
	ret = write_vc_local_phy(dd,
				 0 /* no power management */,
				 1 /* continuous updates */);
M
Mike Marciniszyn 已提交
9210 9211 9212 9213 9214 9215 9216 9217 9218 9219
	if (ret != HCMD_SUCCESS)
		goto set_local_link_attributes_fail;

	/* z=1 in the next call: AU of 0 is not supported by the hardware */
	ret = write_vc_local_fabric(dd, dd->vau, 1, dd->vcu, dd->vl15_init,
				    ppd->port_crc_mode_enabled);
	if (ret != HCMD_SUCCESS)
		goto set_local_link_attributes_fail;

	ret = write_vc_local_link_width(dd, 0, 0,
9220 9221
					opa_to_vc_link_widths(
						ppd->link_width_enabled));
M
Mike Marciniszyn 已提交
9222 9223 9224 9225 9226 9227 9228 9229 9230 9231
	if (ret != HCMD_SUCCESS)
		goto set_local_link_attributes_fail;

	/* let peer know who we are */
	ret = write_local_device_id(dd, dd->pcidev->device, dd->minrev);
	if (ret == HCMD_SUCCESS)
		return 0;

set_local_link_attributes_fail:
	dd_dev_err(dd,
9232 9233
		   "Failed to set local link attributes, return 0x%x\n",
		   ret);
M
Mike Marciniszyn 已提交
9234 9235 9236 9237
	return ret;
}

/*
9238 9239 9240
 * Call this to start the link.
 * Do not do anything if the link is disabled.
 * Returns 0 if link is disabled, moved to polling, or the driver is not ready.
M
Mike Marciniszyn 已提交
9241 9242 9243
 */
int start_link(struct hfi1_pportdata *ppd)
{
9244 9245 9246 9247 9248 9249
	/*
	 * Tune the SerDes to a ballpark setting for optimal signal and bit
	 * error rate.  Needs to be done before starting the link.
	 */
	tune_serdes(ppd);

M
Mike Marciniszyn 已提交
9250 9251
	if (!ppd->link_enabled) {
		dd_dev_info(ppd->dd,
9252 9253
			    "%s: stopping link start because link is disabled\n",
			    __func__);
M
Mike Marciniszyn 已提交
9254 9255 9256 9257
		return 0;
	}
	if (!ppd->driver_link_ready) {
		dd_dev_info(ppd->dd,
9258 9259
			    "%s: stopping link start because driver is not ready\n",
			    __func__);
M
Mike Marciniszyn 已提交
9260 9261 9262
		return 0;
	}

9263 9264 9265 9266 9267 9268 9269
	/*
	 * FULL_MGMT_P_KEY is cleared from the pkey table, so that the
	 * pkey table can be configured properly if the HFI unit is connected
	 * to switch port with MgmtAllowed=NO
	 */
	clear_full_mgmt_pkey(ppd);

9270
	return set_link_state(ppd, HLS_DN_POLL);
M
Mike Marciniszyn 已提交
9271 9272
}

9273 9274 9275 9276 9277 9278 9279
static void wait_for_qsfp_init(struct hfi1_pportdata *ppd)
{
	struct hfi1_devdata *dd = ppd->dd;
	u64 mask;
	unsigned long timeout;

	/*
9280 9281 9282 9283 9284 9285 9286 9287 9288 9289 9290
	 * Some QSFP cables have a quirk that asserts the IntN line as a side
	 * effect of power up on plug-in. We ignore this false positive
	 * interrupt until the module has finished powering up by waiting for
	 * a minimum timeout of the module inrush initialization time of
	 * 500 ms (SFF 8679 Table 5-6) to ensure the voltage rails in the
	 * module have stabilized.
	 */
	msleep(500);

	/*
	 * Check for QSFP interrupt for t_init (SFF 8679 Table 8-1)
9291 9292 9293 9294 9295
	 */
	timeout = jiffies + msecs_to_jiffies(2000);
	while (1) {
		mask = read_csr(dd, dd->hfi1_id ?
				ASIC_QSFP2_IN : ASIC_QSFP1_IN);
9296
		if (!(mask & QSFP_HFI0_INT_N))
9297 9298 9299 9300 9301 9302 9303 9304 9305 9306 9307 9308 9309 9310 9311 9312
			break;
		if (time_after(jiffies, timeout)) {
			dd_dev_info(dd, "%s: No IntN detected, reset complete\n",
				    __func__);
			break;
		}
		udelay(2);
	}
}

static void set_qsfp_int_n(struct hfi1_pportdata *ppd, u8 enable)
{
	struct hfi1_devdata *dd = ppd->dd;
	u64 mask;

	mask = read_csr(dd, dd->hfi1_id ? ASIC_QSFP2_MASK : ASIC_QSFP1_MASK);
9313 9314 9315 9316 9317 9318 9319
	if (enable) {
		/*
		 * Clear the status register to avoid an immediate interrupt
		 * when we re-enable the IntN pin
		 */
		write_csr(dd, dd->hfi1_id ? ASIC_QSFP2_CLEAR : ASIC_QSFP1_CLEAR,
			  QSFP_HFI0_INT_N);
9320
		mask |= (u64)QSFP_HFI0_INT_N;
9321
	} else {
9322
		mask &= ~(u64)QSFP_HFI0_INT_N;
9323
	}
9324 9325 9326 9327
	write_csr(dd, dd->hfi1_id ? ASIC_QSFP2_MASK : ASIC_QSFP1_MASK, mask);
}

void reset_qsfp(struct hfi1_pportdata *ppd)
M
Mike Marciniszyn 已提交
9328 9329 9330 9331
{
	struct hfi1_devdata *dd = ppd->dd;
	u64 mask, qsfp_mask;

9332 9333 9334 9335
	/* Disable INT_N from triggering QSFP interrupts */
	set_qsfp_int_n(ppd, 0);

	/* Reset the QSFP */
M
Mike Marciniszyn 已提交
9336 9337 9338
	mask = (u64)QSFP_HFI0_RESET_N;

	qsfp_mask = read_csr(dd,
9339
			     dd->hfi1_id ? ASIC_QSFP2_OUT : ASIC_QSFP1_OUT);
M
Mike Marciniszyn 已提交
9340 9341
	qsfp_mask &= ~mask;
	write_csr(dd,
9342
		  dd->hfi1_id ? ASIC_QSFP2_OUT : ASIC_QSFP1_OUT, qsfp_mask);
M
Mike Marciniszyn 已提交
9343 9344 9345 9346 9347

	udelay(10);

	qsfp_mask |= mask;
	write_csr(dd,
9348
		  dd->hfi1_id ? ASIC_QSFP2_OUT : ASIC_QSFP1_OUT, qsfp_mask);
9349 9350 9351 9352 9353 9354 9355 9356

	wait_for_qsfp_init(ppd);

	/*
	 * Allow INT_N to trigger the QSFP interrupt to watch
	 * for alarms and warnings
	 */
	set_qsfp_int_n(ppd, 1);
M
Mike Marciniszyn 已提交
9357 9358 9359 9360 9361 9362 9363 9364
}

static int handle_qsfp_error_conditions(struct hfi1_pportdata *ppd,
					u8 *qsfp_interrupt_status)
{
	struct hfi1_devdata *dd = ppd->dd;

	if ((qsfp_interrupt_status[0] & QSFP_HIGH_TEMP_ALARM) ||
9365 9366 9367
	    (qsfp_interrupt_status[0] & QSFP_HIGH_TEMP_WARNING))
		dd_dev_info(dd, "%s: QSFP cable on fire\n",
			    __func__);
M
Mike Marciniszyn 已提交
9368 9369

	if ((qsfp_interrupt_status[0] & QSFP_LOW_TEMP_ALARM) ||
9370 9371 9372
	    (qsfp_interrupt_status[0] & QSFP_LOW_TEMP_WARNING))
		dd_dev_info(dd, "%s: QSFP cable temperature too low\n",
			    __func__);
M
Mike Marciniszyn 已提交
9373

9374 9375 9376 9377 9378 9379
	/*
	 * The remaining alarms/warnings don't matter if the link is down.
	 */
	if (ppd->host_link_state & HLS_DOWN)
		return 0;

M
Mike Marciniszyn 已提交
9380
	if ((qsfp_interrupt_status[1] & QSFP_HIGH_VCC_ALARM) ||
9381 9382 9383
	    (qsfp_interrupt_status[1] & QSFP_HIGH_VCC_WARNING))
		dd_dev_info(dd, "%s: QSFP supply voltage too high\n",
			    __func__);
M
Mike Marciniszyn 已提交
9384 9385

	if ((qsfp_interrupt_status[1] & QSFP_LOW_VCC_ALARM) ||
9386 9387 9388
	    (qsfp_interrupt_status[1] & QSFP_LOW_VCC_WARNING))
		dd_dev_info(dd, "%s: QSFP supply voltage too low\n",
			    __func__);
M
Mike Marciniszyn 已提交
9389 9390 9391 9392

	/* Byte 2 is vendor specific */

	if ((qsfp_interrupt_status[3] & QSFP_HIGH_POWER_ALARM) ||
9393 9394 9395
	    (qsfp_interrupt_status[3] & QSFP_HIGH_POWER_WARNING))
		dd_dev_info(dd, "%s: Cable RX channel 1/2 power too high\n",
			    __func__);
M
Mike Marciniszyn 已提交
9396 9397

	if ((qsfp_interrupt_status[3] & QSFP_LOW_POWER_ALARM) ||
9398 9399 9400
	    (qsfp_interrupt_status[3] & QSFP_LOW_POWER_WARNING))
		dd_dev_info(dd, "%s: Cable RX channel 1/2 power too low\n",
			    __func__);
M
Mike Marciniszyn 已提交
9401 9402

	if ((qsfp_interrupt_status[4] & QSFP_HIGH_POWER_ALARM) ||
9403 9404 9405
	    (qsfp_interrupt_status[4] & QSFP_HIGH_POWER_WARNING))
		dd_dev_info(dd, "%s: Cable RX channel 3/4 power too high\n",
			    __func__);
M
Mike Marciniszyn 已提交
9406 9407

	if ((qsfp_interrupt_status[4] & QSFP_LOW_POWER_ALARM) ||
9408 9409 9410
	    (qsfp_interrupt_status[4] & QSFP_LOW_POWER_WARNING))
		dd_dev_info(dd, "%s: Cable RX channel 3/4 power too low\n",
			    __func__);
M
Mike Marciniszyn 已提交
9411 9412

	if ((qsfp_interrupt_status[5] & QSFP_HIGH_BIAS_ALARM) ||
9413 9414 9415
	    (qsfp_interrupt_status[5] & QSFP_HIGH_BIAS_WARNING))
		dd_dev_info(dd, "%s: Cable TX channel 1/2 bias too high\n",
			    __func__);
M
Mike Marciniszyn 已提交
9416 9417

	if ((qsfp_interrupt_status[5] & QSFP_LOW_BIAS_ALARM) ||
9418 9419 9420
	    (qsfp_interrupt_status[5] & QSFP_LOW_BIAS_WARNING))
		dd_dev_info(dd, "%s: Cable TX channel 1/2 bias too low\n",
			    __func__);
M
Mike Marciniszyn 已提交
9421 9422

	if ((qsfp_interrupt_status[6] & QSFP_HIGH_BIAS_ALARM) ||
9423 9424 9425
	    (qsfp_interrupt_status[6] & QSFP_HIGH_BIAS_WARNING))
		dd_dev_info(dd, "%s: Cable TX channel 3/4 bias too high\n",
			    __func__);
M
Mike Marciniszyn 已提交
9426 9427

	if ((qsfp_interrupt_status[6] & QSFP_LOW_BIAS_ALARM) ||
9428 9429 9430
	    (qsfp_interrupt_status[6] & QSFP_LOW_BIAS_WARNING))
		dd_dev_info(dd, "%s: Cable TX channel 3/4 bias too low\n",
			    __func__);
M
Mike Marciniszyn 已提交
9431 9432

	if ((qsfp_interrupt_status[7] & QSFP_HIGH_POWER_ALARM) ||
9433 9434 9435
	    (qsfp_interrupt_status[7] & QSFP_HIGH_POWER_WARNING))
		dd_dev_info(dd, "%s: Cable TX channel 1/2 power too high\n",
			    __func__);
M
Mike Marciniszyn 已提交
9436 9437

	if ((qsfp_interrupt_status[7] & QSFP_LOW_POWER_ALARM) ||
9438 9439 9440
	    (qsfp_interrupt_status[7] & QSFP_LOW_POWER_WARNING))
		dd_dev_info(dd, "%s: Cable TX channel 1/2 power too low\n",
			    __func__);
M
Mike Marciniszyn 已提交
9441 9442

	if ((qsfp_interrupt_status[8] & QSFP_HIGH_POWER_ALARM) ||
9443 9444 9445
	    (qsfp_interrupt_status[8] & QSFP_HIGH_POWER_WARNING))
		dd_dev_info(dd, "%s: Cable TX channel 3/4 power too high\n",
			    __func__);
M
Mike Marciniszyn 已提交
9446 9447

	if ((qsfp_interrupt_status[8] & QSFP_LOW_POWER_ALARM) ||
9448 9449 9450
	    (qsfp_interrupt_status[8] & QSFP_LOW_POWER_WARNING))
		dd_dev_info(dd, "%s: Cable TX channel 3/4 power too low\n",
			    __func__);
M
Mike Marciniszyn 已提交
9451 9452 9453 9454 9455 9456 9457

	/* Bytes 9-10 and 11-12 are reserved */
	/* Bytes 13-15 are vendor specific */

	return 0;
}

9458
/* This routine will only be scheduled if the QSFP module present is asserted */
9459
void qsfp_event(struct work_struct *work)
M
Mike Marciniszyn 已提交
9460 9461 9462 9463 9464 9465 9466 9467 9468 9469 9470 9471 9472 9473
{
	struct qsfp_data *qd;
	struct hfi1_pportdata *ppd;
	struct hfi1_devdata *dd;

	qd = container_of(work, struct qsfp_data, qsfp_work);
	ppd = qd->ppd;
	dd = ppd->dd;

	/* Sanity check */
	if (!qsfp_mod_present(ppd))
		return;

	/*
9474 9475
	 * Turn DC back on after cable has been re-inserted. Up until
	 * now, the DC has been in reset to save power.
M
Mike Marciniszyn 已提交
9476 9477 9478 9479
	 */
	dc_start(dd);

	if (qd->cache_refresh_required) {
9480
		set_qsfp_int_n(ppd, 0);
M
Mike Marciniszyn 已提交
9481

9482 9483 9484 9485 9486
		wait_for_qsfp_init(ppd);

		/*
		 * Allow INT_N to trigger the QSFP interrupt to watch
		 * for alarms and warnings
M
Mike Marciniszyn 已提交
9487
		 */
9488 9489 9490
		set_qsfp_int_n(ppd, 1);

		start_link(ppd);
M
Mike Marciniszyn 已提交
9491 9492 9493 9494 9495
	}

	if (qd->check_interrupt_flags) {
		u8 qsfp_interrupt_status[16] = {0,};

9496 9497
		if (one_qsfp_read(ppd, dd->hfi1_id, 6,
				  &qsfp_interrupt_status[0], 16) != 16) {
M
Mike Marciniszyn 已提交
9498
			dd_dev_info(dd,
9499 9500
				    "%s: Failed to read status of QSFP module\n",
				    __func__);
M
Mike Marciniszyn 已提交
9501 9502 9503
		} else {
			unsigned long flags;

9504 9505
			handle_qsfp_error_conditions(
					ppd, qsfp_interrupt_status);
M
Mike Marciniszyn 已提交
9506 9507 9508
			spin_lock_irqsave(&ppd->qsfp_info.qsfp_lock, flags);
			ppd->qsfp_info.check_interrupt_flags = 0;
			spin_unlock_irqrestore(&ppd->qsfp_info.qsfp_lock,
9509
					       flags);
M
Mike Marciniszyn 已提交
9510 9511 9512 9513
		}
	}
}

9514
static void init_qsfp_int(struct hfi1_devdata *dd)
M
Mike Marciniszyn 已提交
9515
{
9516 9517 9518 9519
	struct hfi1_pportdata *ppd = dd->pport;
	u64 qsfp_mask, cce_int_mask;
	const int qsfp1_int_smask = QSFP1_INT % 64;
	const int qsfp2_int_smask = QSFP2_INT % 64;
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Mike Marciniszyn 已提交
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9521 9522 9523 9524 9525 9526 9527 9528 9529 9530 9531 9532 9533 9534 9535 9536
	/*
	 * disable QSFP1 interrupts for HFI1, QSFP2 interrupts for HFI0
	 * Qsfp1Int and Qsfp2Int are adjacent bits in the same CSR,
	 * therefore just one of QSFP1_INT/QSFP2_INT can be used to find
	 * the index of the appropriate CSR in the CCEIntMask CSR array
	 */
	cce_int_mask = read_csr(dd, CCE_INT_MASK +
				(8 * (QSFP1_INT / 64)));
	if (dd->hfi1_id) {
		cce_int_mask &= ~((u64)1 << qsfp1_int_smask);
		write_csr(dd, CCE_INT_MASK + (8 * (QSFP1_INT / 64)),
			  cce_int_mask);
	} else {
		cce_int_mask &= ~((u64)1 << qsfp2_int_smask);
		write_csr(dd, CCE_INT_MASK + (8 * (QSFP2_INT / 64)),
			  cce_int_mask);
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Mike Marciniszyn 已提交
9537 9538 9539 9540
	}

	qsfp_mask = (u64)(QSFP_HFI0_INT_N | QSFP_HFI0_MODPRST_N);
	/* Clear current status to avoid spurious interrupts */
9541 9542 9543 9544 9545 9546
	write_csr(dd, dd->hfi1_id ? ASIC_QSFP2_CLEAR : ASIC_QSFP1_CLEAR,
		  qsfp_mask);
	write_csr(dd, dd->hfi1_id ? ASIC_QSFP2_MASK : ASIC_QSFP1_MASK,
		  qsfp_mask);

	set_qsfp_int_n(ppd, 0);
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	/* Handle active low nature of INT_N and MODPRST_N pins */
	if (qsfp_mod_present(ppd))
		qsfp_mask &= ~(u64)QSFP_HFI0_MODPRST_N;
	write_csr(dd,
		  dd->hfi1_id ? ASIC_QSFP2_INVERT : ASIC_QSFP1_INVERT,
		  qsfp_mask);
}

9556 9557 9558 9559 9560
/*
 * Do a one-time initialize of the LCB block.
 */
static void init_lcb(struct hfi1_devdata *dd)
{
9561 9562 9563 9564
	/* simulator does not correctly handle LCB cclk loopback, skip */
	if (dd->icode == ICODE_FUNCTIONAL_SIMULATOR)
		return;

9565 9566 9567 9568 9569 9570 9571 9572 9573 9574 9575 9576
	/* the DC has been reset earlier in the driver load */

	/* set LCB for cclk loopback on the port */
	write_csr(dd, DC_LCB_CFG_TX_FIFOS_RESET, 0x01);
	write_csr(dd, DC_LCB_CFG_LANE_WIDTH, 0x00);
	write_csr(dd, DC_LCB_CFG_REINIT_AS_SLAVE, 0x00);
	write_csr(dd, DC_LCB_CFG_CNT_FOR_SKIP_STALL, 0x110);
	write_csr(dd, DC_LCB_CFG_CLK_CNTR, 0x08);
	write_csr(dd, DC_LCB_CFG_LOOPBACK, 0x02);
	write_csr(dd, DC_LCB_CFG_TX_FIFOS_RESET, 0x00);
}

D
Dean Luick 已提交
9577 9578 9579 9580 9581 9582 9583 9584 9585
/*
 * Perform a test read on the QSFP.  Return 0 on success, -ERRNO
 * on error.
 */
static int test_qsfp_read(struct hfi1_pportdata *ppd)
{
	int ret;
	u8 status;

9586 9587 9588 9589 9590
	/*
	 * Report success if not a QSFP or, if it is a QSFP, but the cable is
	 * not present
	 */
	if (ppd->port_type != PORT_TYPE_QSFP || !qsfp_mod_present(ppd))
D
Dean Luick 已提交
9591 9592 9593 9594 9595 9596 9597 9598 9599 9600 9601 9602 9603 9604 9605 9606 9607 9608 9609 9610 9611 9612 9613 9614 9615 9616 9617 9618 9619 9620 9621 9622 9623 9624 9625 9626 9627 9628 9629 9630 9631 9632 9633 9634 9635 9636 9637 9638 9639 9640 9641 9642 9643 9644 9645 9646
		return 0;

	/* read byte 2, the status byte */
	ret = one_qsfp_read(ppd, ppd->dd->hfi1_id, 2, &status, 1);
	if (ret < 0)
		return ret;
	if (ret != 1)
		return -EIO;

	return 0; /* success */
}

/*
 * Values for QSFP retry.
 *
 * Give up after 10s (20 x 500ms).  The overall timeout was empirically
 * arrived at from experience on a large cluster.
 */
#define MAX_QSFP_RETRIES 20
#define QSFP_RETRY_WAIT 500 /* msec */

/*
 * Try a QSFP read.  If it fails, schedule a retry for later.
 * Called on first link activation after driver load.
 */
static void try_start_link(struct hfi1_pportdata *ppd)
{
	if (test_qsfp_read(ppd)) {
		/* read failed */
		if (ppd->qsfp_retry_count >= MAX_QSFP_RETRIES) {
			dd_dev_err(ppd->dd, "QSFP not responding, giving up\n");
			return;
		}
		dd_dev_info(ppd->dd,
			    "QSFP not responding, waiting and retrying %d\n",
			    (int)ppd->qsfp_retry_count);
		ppd->qsfp_retry_count++;
		queue_delayed_work(ppd->hfi1_wq, &ppd->start_link_work,
				   msecs_to_jiffies(QSFP_RETRY_WAIT));
		return;
	}
	ppd->qsfp_retry_count = 0;

	start_link(ppd);
}

/*
 * Workqueue function to start the link after a delay.
 */
void handle_start_link(struct work_struct *work)
{
	struct hfi1_pportdata *ppd = container_of(work, struct hfi1_pportdata,
						  start_link_work.work);
	try_start_link(ppd);
}

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Mike Marciniszyn 已提交
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int bringup_serdes(struct hfi1_pportdata *ppd)
{
	struct hfi1_devdata *dd = ppd->dd;
	u64 guid;
	int ret;

	if (HFI1_CAP_IS_KSET(EXTENDED_PSN))
		add_rcvctrl(dd, RCV_CTRL_RCV_EXTENDED_PSN_ENABLE_SMASK);

9656
	guid = ppd->guids[HFI1_PORT_GUID_INDEX];
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Mike Marciniszyn 已提交
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	if (!guid) {
		if (dd->base_guid)
			guid = dd->base_guid + ppd->port - 1;
9660
		ppd->guids[HFI1_PORT_GUID_INDEX] = guid;
M
Mike Marciniszyn 已提交
9661 9662 9663 9664 9665
	}

	/* Set linkinit_reason on power up per OPA spec */
	ppd->linkinit_reason = OPA_LINKINIT_REASON_LINKUP;

9666 9667 9668
	/* one-time init of the LCB */
	init_lcb(dd);

M
Mike Marciniszyn 已提交
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	if (loopback) {
		ret = init_loopback(dd);
		if (ret < 0)
			return ret;
	}

9675 9676 9677 9678 9679 9680 9681
	get_port_type(ppd);
	if (ppd->port_type == PORT_TYPE_QSFP) {
		set_qsfp_int_n(ppd, 0);
		wait_for_qsfp_init(ppd);
		set_qsfp_int_n(ppd, 1);
	}

D
Dean Luick 已提交
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	try_start_link(ppd);
	return 0;
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}

void hfi1_quiet_serdes(struct hfi1_pportdata *ppd)
{
	struct hfi1_devdata *dd = ppd->dd;

	/*
	 * Shut down the link and keep it down.   First turn off that the
	 * driver wants to allow the link to be up (driver_link_ready).
	 * Then make sure the link is not automatically restarted
	 * (link_enabled).  Cancel any pending restart.  And finally
	 * go offline.
	 */
	ppd->driver_link_ready = 0;
	ppd->link_enabled = 0;

D
Dean Luick 已提交
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	ppd->qsfp_retry_count = MAX_QSFP_RETRIES; /* prevent more retries */
	flush_delayed_work(&ppd->start_link_work);
	cancel_delayed_work_sync(&ppd->start_link_work);

9704 9705
	ppd->offline_disabled_reason =
			HFI1_ODR_MASK(OPA_LINKDOWN_REASON_SMA_DISABLED);
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Mike Marciniszyn 已提交
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	set_link_down_reason(ppd, OPA_LINKDOWN_REASON_SMA_DISABLED, 0,
9707
			     OPA_LINKDOWN_REASON_SMA_DISABLED);
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	set_link_state(ppd, HLS_DN_OFFLINE);

	/* disable the port */
	clear_rcvctrl(dd, RCV_CTRL_RCV_PORT_ENABLE_SMASK);
}

static inline int init_cpu_counters(struct hfi1_devdata *dd)
{
	struct hfi1_pportdata *ppd;
	int i;

	ppd = (struct hfi1_pportdata *)(dd + 1);
	for (i = 0; i < dd->num_pports; i++, ppd++) {
9721 9722 9723 9724 9725 9726 9727 9728
		ppd->ibport_data.rvp.rc_acks = NULL;
		ppd->ibport_data.rvp.rc_qacks = NULL;
		ppd->ibport_data.rvp.rc_acks = alloc_percpu(u64);
		ppd->ibport_data.rvp.rc_qacks = alloc_percpu(u64);
		ppd->ibport_data.rvp.rc_delayed_comp = alloc_percpu(u64);
		if (!ppd->ibport_data.rvp.rc_acks ||
		    !ppd->ibport_data.rvp.rc_delayed_comp ||
		    !ppd->ibport_data.rvp.rc_qacks)
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Mike Marciniszyn 已提交
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			return -ENOMEM;
	}

	return 0;
}

static const char * const pt_names[] = {
	"expected",
	"eager",
	"invalid"
};

static const char *pt_name(u32 type)
{
	return type >= ARRAY_SIZE(pt_names) ? "unknown" : pt_names[type];
}

/*
 * index is the index into the receive array
 */
void hfi1_put_tid(struct hfi1_devdata *dd, u32 index,
		  u32 type, unsigned long pa, u16 order)
{
	u64 reg;
	void __iomem *base = (dd->rcvarray_wc ? dd->rcvarray_wc :
			      (dd->kregbase + RCV_ARRAY));

	if (!(dd->flags & HFI1_PRESENT))
		goto done;

	if (type == PT_INVALID) {
		pa = 0;
	} else if (type > PT_INVALID) {
		dd_dev_err(dd,
9763 9764
			   "unexpected receive array type %u for index %u, not handled\n",
			   type, index);
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Mike Marciniszyn 已提交
9765 9766 9767 9768 9769 9770 9771 9772 9773 9774 9775 9776 9777 9778 9779 9780 9781 9782 9783 9784 9785 9786 9787 9788 9789 9790 9791 9792 9793 9794 9795 9796 9797 9798 9799 9800 9801 9802
		goto done;
	}

	hfi1_cdbg(TID, "type %s, index 0x%x, pa 0x%lx, bsize 0x%lx",
		  pt_name(type), index, pa, (unsigned long)order);

#define RT_ADDR_SHIFT 12	/* 4KB kernel address boundary */
	reg = RCV_ARRAY_RT_WRITE_ENABLE_SMASK
		| (u64)order << RCV_ARRAY_RT_BUF_SIZE_SHIFT
		| ((pa >> RT_ADDR_SHIFT) & RCV_ARRAY_RT_ADDR_MASK)
					<< RCV_ARRAY_RT_ADDR_SHIFT;
	writeq(reg, base + (index * 8));

	if (type == PT_EAGER)
		/*
		 * Eager entries are written one-by-one so we have to push them
		 * after we write the entry.
		 */
		flush_wc();
done:
	return;
}

void hfi1_clear_tids(struct hfi1_ctxtdata *rcd)
{
	struct hfi1_devdata *dd = rcd->dd;
	u32 i;

	/* this could be optimized */
	for (i = rcd->eager_base; i < rcd->eager_base +
		     rcd->egrbufs.alloced; i++)
		hfi1_put_tid(dd, i, PT_INVALID, 0, 0);

	for (i = rcd->expected_base;
			i < rcd->expected_base + rcd->expected_count; i++)
		hfi1_put_tid(dd, i, PT_INVALID, 0, 0);
}

9803 9804
struct ib_header *hfi1_get_msgheader(
	struct hfi1_devdata *dd, __le32 *rhf_addr)
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Mike Marciniszyn 已提交
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{
	u32 offset = rhf_hdrq_offset(rhf_to_cpu(rhf_addr));

9808
	return (struct ib_header *)
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		(rhf_addr - dd->rhf_offset + offset);
}

static const char * const ib_cfg_name_strings[] = {
	"HFI1_IB_CFG_LIDLMC",
	"HFI1_IB_CFG_LWID_DG_ENB",
	"HFI1_IB_CFG_LWID_ENB",
	"HFI1_IB_CFG_LWID",
	"HFI1_IB_CFG_SPD_ENB",
	"HFI1_IB_CFG_SPD",
	"HFI1_IB_CFG_RXPOL_ENB",
	"HFI1_IB_CFG_LREV_ENB",
	"HFI1_IB_CFG_LINKLATENCY",
	"HFI1_IB_CFG_HRTBT",
	"HFI1_IB_CFG_OP_VLS",
	"HFI1_IB_CFG_VL_HIGH_CAP",
	"HFI1_IB_CFG_VL_LOW_CAP",
	"HFI1_IB_CFG_OVERRUN_THRESH",
	"HFI1_IB_CFG_PHYERR_THRESH",
	"HFI1_IB_CFG_LINKDEFAULT",
	"HFI1_IB_CFG_PKEYS",
	"HFI1_IB_CFG_MTU",
	"HFI1_IB_CFG_LSTATE",
	"HFI1_IB_CFG_VL_HIGH_LIMIT",
	"HFI1_IB_CFG_PMA_TICKS",
	"HFI1_IB_CFG_PORT"
};

static const char *ib_cfg_name(int which)
{
	if (which < 0 || which >= ARRAY_SIZE(ib_cfg_name_strings))
		return "invalid";
	return ib_cfg_name_strings[which];
}

int hfi1_get_ib_cfg(struct hfi1_pportdata *ppd, int which)
{
	struct hfi1_devdata *dd = ppd->dd;
	int val = 0;

	switch (which) {
	case HFI1_IB_CFG_LWID_ENB: /* allowed Link-width */
		val = ppd->link_width_enabled;
		break;
	case HFI1_IB_CFG_LWID: /* currently active Link-width */
		val = ppd->link_width_active;
		break;
	case HFI1_IB_CFG_SPD_ENB: /* allowed Link speeds */
		val = ppd->link_speed_enabled;
		break;
	case HFI1_IB_CFG_SPD: /* current Link speed */
		val = ppd->link_speed_active;
		break;

	case HFI1_IB_CFG_RXPOL_ENB: /* Auto-RX-polarity enable */
	case HFI1_IB_CFG_LREV_ENB: /* Auto-Lane-reversal enable */
	case HFI1_IB_CFG_LINKLATENCY:
		goto unimplemented;

	case HFI1_IB_CFG_OP_VLS:
		val = ppd->vls_operational;
		break;
	case HFI1_IB_CFG_VL_HIGH_CAP: /* VL arb high priority table size */
		val = VL_ARB_HIGH_PRIO_TABLE_SIZE;
		break;
	case HFI1_IB_CFG_VL_LOW_CAP: /* VL arb low priority table size */
		val = VL_ARB_LOW_PRIO_TABLE_SIZE;
		break;
	case HFI1_IB_CFG_OVERRUN_THRESH: /* IB overrun threshold */
		val = ppd->overrun_threshold;
		break;
	case HFI1_IB_CFG_PHYERR_THRESH: /* IB PHY error threshold */
		val = ppd->phy_error_threshold;
		break;
	case HFI1_IB_CFG_LINKDEFAULT: /* IB link default (sleep/poll) */
		val = dd->link_default;
		break;

	case HFI1_IB_CFG_HRTBT: /* Heartbeat off/enable/auto */
	case HFI1_IB_CFG_PMA_TICKS:
	default:
unimplemented:
		if (HFI1_CAP_IS_KSET(PRINT_UNIMPL))
			dd_dev_info(
				dd,
				"%s: which %s: not implemented\n",
				__func__,
				ib_cfg_name(which));
		break;
	}

	return val;
}

/*
 * The largest MAD packet size.
 */
#define MAX_MAD_PACKET 2048

/*
 * Return the maximum header bytes that can go on the _wire_
 * for this device. This count includes the ICRC which is
 * not part of the packet held in memory but it is appended
 * by the HW.
 * This is dependent on the device's receive header entry size.
 * HFI allows this to be set per-receive context, but the
 * driver presently enforces a global value.
 */
u32 lrh_max_header_bytes(struct hfi1_devdata *dd)
{
	/*
	 * The maximum non-payload (MTU) bytes in LRH.PktLen are
	 * the Receive Header Entry Size minus the PBC (or RHF) size
	 * plus one DW for the ICRC appended by HW.
	 *
	 * dd->rcd[0].rcvhdrqentsize is in DW.
	 * We use rcd[0] as all context will have the same value. Also,
	 * the first kernel context would have been allocated by now so
	 * we are guaranteed a valid value.
	 */
	return (dd->rcd[0]->rcvhdrqentsize - 2/*PBC/RHF*/ + 1/*ICRC*/) << 2;
}

/*
 * Set Send Length
 * @ppd - per port data
 *
 * Set the MTU by limiting how many DWs may be sent.  The SendLenCheck*
 * registers compare against LRH.PktLen, so use the max bytes included
 * in the LRH.
 *
 * This routine changes all VL values except VL15, which it maintains at
 * the same value.
 */
static void set_send_length(struct hfi1_pportdata *ppd)
{
	struct hfi1_devdata *dd = ppd->dd;
9946 9947
	u32 max_hb = lrh_max_header_bytes(dd), dcmtu;
	u32 maxvlmtu = dd->vld[15].mtu;
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Mike Marciniszyn 已提交
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	u64 len1 = 0, len2 = (((dd->vld[15].mtu + max_hb) >> 2)
			      & SEND_LEN_CHECK1_LEN_VL15_MASK) <<
		SEND_LEN_CHECK1_LEN_VL15_SHIFT;
9951
	int i, j;
9952
	u32 thres;
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	for (i = 0; i < ppd->vls_supported; i++) {
		if (dd->vld[i].mtu > maxvlmtu)
			maxvlmtu = dd->vld[i].mtu;
		if (i <= 3)
			len1 |= (((dd->vld[i].mtu + max_hb) >> 2)
				 & SEND_LEN_CHECK0_LEN_VL0_MASK) <<
				((i % 4) * SEND_LEN_CHECK0_LEN_VL1_SHIFT);
		else
			len2 |= (((dd->vld[i].mtu + max_hb) >> 2)
				 & SEND_LEN_CHECK1_LEN_VL4_MASK) <<
				((i % 4) * SEND_LEN_CHECK1_LEN_VL5_SHIFT);
	}
	write_csr(dd, SEND_LEN_CHECK0, len1);
	write_csr(dd, SEND_LEN_CHECK1, len2);
	/* adjust kernel credit return thresholds based on new MTUs */
	/* all kernel receive contexts have the same hdrqentsize */
	for (i = 0; i < ppd->vls_supported; i++) {
9971 9972 9973
		thres = min(sc_percent_to_threshold(dd->vld[i].sc, 50),
			    sc_mtu_to_threshold(dd->vld[i].sc,
						dd->vld[i].mtu,
9974
						dd->rcd[0]->rcvhdrqentsize));
9975 9976 9977 9978
		for (j = 0; j < INIT_SC_PER_VL; j++)
			sc_set_cr_threshold(
					pio_select_send_context_vl(dd, j, i),
					    thres);
9979 9980 9981 9982 9983 9984
	}
	thres = min(sc_percent_to_threshold(dd->vld[15].sc, 50),
		    sc_mtu_to_threshold(dd->vld[15].sc,
					dd->vld[15].mtu,
					dd->rcd[0]->rcvhdrqentsize));
	sc_set_cr_threshold(dd->vld[15].sc, thres);
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	/* Adjust maximum MTU for the port in DC */
	dcmtu = maxvlmtu == 10240 ? DCC_CFG_PORT_MTU_CAP_10240 :
		(ilog2(maxvlmtu >> 8) + 1);
	len1 = read_csr(ppd->dd, DCC_CFG_PORT_CONFIG);
	len1 &= ~DCC_CFG_PORT_CONFIG_MTU_CAP_SMASK;
	len1 |= ((u64)dcmtu & DCC_CFG_PORT_CONFIG_MTU_CAP_MASK) <<
		DCC_CFG_PORT_CONFIG_MTU_CAP_SHIFT;
	write_csr(ppd->dd, DCC_CFG_PORT_CONFIG, len1);
}

static void set_lidlmc(struct hfi1_pportdata *ppd)
{
	int i;
	u64 sreg = 0;
	struct hfi1_devdata *dd = ppd->dd;
	u32 mask = ~((1U << ppd->lmc) - 1);
	u64 c1 = read_csr(ppd->dd, DCC_CFG_PORT_CONFIG1);

	c1 &= ~(DCC_CFG_PORT_CONFIG1_TARGET_DLID_SMASK
		| DCC_CFG_PORT_CONFIG1_DLID_MASK_SMASK);
	c1 |= ((ppd->lid & DCC_CFG_PORT_CONFIG1_TARGET_DLID_MASK)
10007
			<< DCC_CFG_PORT_CONFIG1_TARGET_DLID_SHIFT) |
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Mike Marciniszyn 已提交
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	      ((mask & DCC_CFG_PORT_CONFIG1_DLID_MASK_MASK)
			<< DCC_CFG_PORT_CONFIG1_DLID_MASK_SHIFT);
	write_csr(ppd->dd, DCC_CFG_PORT_CONFIG1, c1);

	/*
	 * Iterate over all the send contexts and set their SLID check
	 */
	sreg = ((mask & SEND_CTXT_CHECK_SLID_MASK_MASK) <<
			SEND_CTXT_CHECK_SLID_MASK_SHIFT) |
	       (((ppd->lid & mask) & SEND_CTXT_CHECK_SLID_VALUE_MASK) <<
			SEND_CTXT_CHECK_SLID_VALUE_SHIFT);

	for (i = 0; i < dd->chip_send_contexts; i++) {
		hfi1_cdbg(LINKVERB, "SendContext[%d].SLID_CHECK = 0x%x",
			  i, (u32)sreg);
		write_kctxt_csr(dd, i, SEND_CTXT_CHECK_SLID, sreg);
	}

	/* Now we have to do the same thing for the sdma engines */
	sdma_update_lmc(dd, mask, ppd->lid);
}

static int wait_phy_linkstate(struct hfi1_devdata *dd, u32 state, u32 msecs)
{
	unsigned long timeout;
	u32 curr_state;

	timeout = jiffies + msecs_to_jiffies(msecs);
	while (1) {
		curr_state = read_physical_state(dd);
		if (curr_state == state)
			break;
		if (time_after(jiffies, timeout)) {
			dd_dev_err(dd,
10042 10043
				   "timeout waiting for phy link state 0x%x, current state is 0x%x\n",
				   state, curr_state);
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Mike Marciniszyn 已提交
10044 10045 10046 10047 10048 10049 10050 10051
			return -ETIMEDOUT;
		}
		usleep_range(1950, 2050); /* sleep 2ms-ish */
	}

	return 0;
}

10052 10053 10054 10055 10056 10057 10058 10059 10060 10061 10062 10063 10064 10065 10066 10067 10068 10069 10070 10071 10072 10073 10074 10075 10076 10077 10078 10079 10080 10081 10082 10083 10084 10085 10086 10087 10088 10089 10090 10091 10092 10093 10094 10095 10096 10097 10098 10099 10100 10101 10102 10103 10104 10105 10106 10107 10108 10109 10110 10111 10112 10113 10114 10115 10116 10117 10118 10119 10120 10121 10122 10123 10124 10125 10126 10127 10128 10129 10130 10131 10132 10133 10134 10135 10136 10137 10138 10139 10140 10141 10142 10143 10144 10145 10146 10147 10148 10149 10150 10151 10152 10153 10154 10155 10156 10157 10158 10159 10160 10161 10162 10163 10164 10165 10166 10167 10168 10169 10170 10171 10172 10173 10174 10175 10176
static const char *state_completed_string(u32 completed)
{
	static const char * const state_completed[] = {
		"EstablishComm",
		"OptimizeEQ",
		"VerifyCap"
	};

	if (completed < ARRAY_SIZE(state_completed))
		return state_completed[completed];

	return "unknown";
}

static const char all_lanes_dead_timeout_expired[] =
	"All lanes were inactive – was the interconnect media removed?";
static const char tx_out_of_policy[] =
	"Passing lanes on local port do not meet the local link width policy";
static const char no_state_complete[] =
	"State timeout occurred before link partner completed the state";
static const char * const state_complete_reasons[] = {
	[0x00] = "Reason unknown",
	[0x01] = "Link was halted by driver, refer to LinkDownReason",
	[0x02] = "Link partner reported failure",
	[0x10] = "Unable to achieve frame sync on any lane",
	[0x11] =
	  "Unable to find a common bit rate with the link partner",
	[0x12] =
	  "Unable to achieve frame sync on sufficient lanes to meet the local link width policy",
	[0x13] =
	  "Unable to identify preset equalization on sufficient lanes to meet the local link width policy",
	[0x14] = no_state_complete,
	[0x15] =
	  "State timeout occurred before link partner identified equalization presets",
	[0x16] =
	  "Link partner completed the EstablishComm state, but the passing lanes do not meet the local link width policy",
	[0x17] = tx_out_of_policy,
	[0x20] = all_lanes_dead_timeout_expired,
	[0x21] =
	  "Unable to achieve acceptable BER on sufficient lanes to meet the local link width policy",
	[0x22] = no_state_complete,
	[0x23] =
	  "Link partner completed the OptimizeEq state, but the passing lanes do not meet the local link width policy",
	[0x24] = tx_out_of_policy,
	[0x30] = all_lanes_dead_timeout_expired,
	[0x31] =
	  "State timeout occurred waiting for host to process received frames",
	[0x32] = no_state_complete,
	[0x33] =
	  "Link partner completed the VerifyCap state, but the passing lanes do not meet the local link width policy",
	[0x34] = tx_out_of_policy,
};

static const char *state_complete_reason_code_string(struct hfi1_pportdata *ppd,
						     u32 code)
{
	const char *str = NULL;

	if (code < ARRAY_SIZE(state_complete_reasons))
		str = state_complete_reasons[code];

	if (str)
		return str;
	return "Reserved";
}

/* describe the given last state complete frame */
static void decode_state_complete(struct hfi1_pportdata *ppd, u32 frame,
				  const char *prefix)
{
	struct hfi1_devdata *dd = ppd->dd;
	u32 success;
	u32 state;
	u32 reason;
	u32 lanes;

	/*
	 * Decode frame:
	 *  [ 0: 0] - success
	 *  [ 3: 1] - state
	 *  [ 7: 4] - next state timeout
	 *  [15: 8] - reason code
	 *  [31:16] - lanes
	 */
	success = frame & 0x1;
	state = (frame >> 1) & 0x7;
	reason = (frame >> 8) & 0xff;
	lanes = (frame >> 16) & 0xffff;

	dd_dev_err(dd, "Last %s LNI state complete frame 0x%08x:\n",
		   prefix, frame);
	dd_dev_err(dd, "    last reported state state: %s (0x%x)\n",
		   state_completed_string(state), state);
	dd_dev_err(dd, "    state successfully completed: %s\n",
		   success ? "yes" : "no");
	dd_dev_err(dd, "    fail reason 0x%x: %s\n",
		   reason, state_complete_reason_code_string(ppd, reason));
	dd_dev_err(dd, "    passing lane mask: 0x%x", lanes);
}

/*
 * Read the last state complete frames and explain them.  This routine
 * expects to be called if the link went down during link negotiation
 * and initialization (LNI).  That is, anywhere between polling and link up.
 */
static void check_lni_states(struct hfi1_pportdata *ppd)
{
	u32 last_local_state;
	u32 last_remote_state;

	read_last_local_state(ppd->dd, &last_local_state);
	read_last_remote_state(ppd->dd, &last_remote_state);

	/*
	 * Don't report anything if there is nothing to report.  A value of
	 * 0 means the link was taken down while polling and there was no
	 * training in-process.
	 */
	if (last_local_state == 0 && last_remote_state == 0)
		return;

	decode_state_complete(ppd, last_local_state, "transmitted");
	decode_state_complete(ppd, last_remote_state, "received");
}

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Dean Luick 已提交
10177 10178 10179 10180 10181 10182 10183 10184 10185 10186 10187 10188 10189 10190 10191 10192 10193 10194 10195 10196 10197 10198 10199 10200 10201 10202 10203 10204 10205 10206 10207 10208 10209 10210 10211 10212 10213 10214 10215 10216 10217 10218 10219 10220 10221 10222 10223 10224 10225 10226 10227 10228 10229 10230 10231 10232 10233 10234
/* wait for wait_ms for LINK_TRANSFER_ACTIVE to go to 1 */
static int wait_link_transfer_active(struct hfi1_devdata *dd, int wait_ms)
{
	u64 reg;
	unsigned long timeout;

	/* watch LCB_STS_LINK_TRANSFER_ACTIVE */
	timeout = jiffies + msecs_to_jiffies(wait_ms);
	while (1) {
		reg = read_csr(dd, DC_LCB_STS_LINK_TRANSFER_ACTIVE);
		if (reg)
			break;
		if (time_after(jiffies, timeout)) {
			dd_dev_err(dd,
				   "timeout waiting for LINK_TRANSFER_ACTIVE\n");
			return -ETIMEDOUT;
		}
		udelay(2);
	}
	return 0;
}

/* called when the logical link state is not down as it should be */
static void force_logical_link_state_down(struct hfi1_pportdata *ppd)
{
	struct hfi1_devdata *dd = ppd->dd;

	/*
	 * Bring link up in LCB loopback
	 */
	write_csr(dd, DC_LCB_CFG_TX_FIFOS_RESET, 1);
	write_csr(dd, DC_LCB_CFG_IGNORE_LOST_RCLK,
		  DC_LCB_CFG_IGNORE_LOST_RCLK_EN_SMASK);

	write_csr(dd, DC_LCB_CFG_LANE_WIDTH, 0);
	write_csr(dd, DC_LCB_CFG_REINIT_AS_SLAVE, 0);
	write_csr(dd, DC_LCB_CFG_CNT_FOR_SKIP_STALL, 0x110);
	write_csr(dd, DC_LCB_CFG_LOOPBACK, 0x2);

	write_csr(dd, DC_LCB_CFG_TX_FIFOS_RESET, 0);
	(void)read_csr(dd, DC_LCB_CFG_TX_FIFOS_RESET);
	udelay(3);
	write_csr(dd, DC_LCB_CFG_ALLOW_LINK_UP, 1);
	write_csr(dd, DC_LCB_CFG_RUN, 1ull << DC_LCB_CFG_RUN_EN_SHIFT);

	wait_link_transfer_active(dd, 100);

	/*
	 * Bring the link down again.
	 */
	write_csr(dd, DC_LCB_CFG_TX_FIFOS_RESET, 1);
	write_csr(dd, DC_LCB_CFG_ALLOW_LINK_UP, 0);
	write_csr(dd, DC_LCB_CFG_IGNORE_LOST_RCLK, 0);

	/* call again to adjust ppd->statusp, if needed */
	get_logical_state(ppd);
}

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Mike Marciniszyn 已提交
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/*
 * Helper for set_link_state().  Do not call except from that routine.
 * Expects ppd->hls_mutex to be held.
 *
 * @rem_reason value to be sent to the neighbor
 *
 * LinkDownReasons only set if transition succeeds.
 */
static int goto_offline(struct hfi1_pportdata *ppd, u8 rem_reason)
{
	struct hfi1_devdata *dd = ppd->dd;
	u32 pstate, previous_state;
	int ret;
	int do_transition;
	int do_wait;

10251 10252
	update_lcb_cache(dd);

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Mike Marciniszyn 已提交
10253 10254 10255 10256 10257 10258 10259 10260 10261 10262 10263 10264 10265 10266 10267 10268
	previous_state = ppd->host_link_state;
	ppd->host_link_state = HLS_GOING_OFFLINE;
	pstate = read_physical_state(dd);
	if (pstate == PLS_OFFLINE) {
		do_transition = 0;	/* in right state */
		do_wait = 0;		/* ...no need to wait */
	} else if ((pstate & 0xff) == PLS_OFFLINE) {
		do_transition = 0;	/* in an offline transient state */
		do_wait = 1;		/* ...wait for it to settle */
	} else {
		do_transition = 1;	/* need to move to offline */
		do_wait = 1;		/* ...will need to wait */
	}

	if (do_transition) {
		ret = set_physical_link_state(dd,
10269
					      (rem_reason << 8) | PLS_OFFLINE);
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Mike Marciniszyn 已提交
10270 10271 10272

		if (ret != HCMD_SUCCESS) {
			dd_dev_err(dd,
10273 10274
				   "Failed to transition to Offline link state, return %d\n",
				   ret);
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Mike Marciniszyn 已提交
10275 10276
			return -EINVAL;
		}
10277 10278
		if (ppd->offline_disabled_reason ==
				HFI1_ODR_MASK(OPA_LINKDOWN_REASON_NONE))
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Mike Marciniszyn 已提交
10279
			ppd->offline_disabled_reason =
10280
			HFI1_ODR_MASK(OPA_LINKDOWN_REASON_TRANSIENT);
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Mike Marciniszyn 已提交
10281 10282 10283 10284
	}

	if (do_wait) {
		/* it can take a while for the link to go down */
10285
		ret = wait_phy_linkstate(dd, PLS_OFFLINE, 10000);
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Mike Marciniszyn 已提交
10286 10287 10288 10289 10290 10291 10292 10293 10294 10295
		if (ret < 0)
			return ret;
	}

	/*
	 * Now in charge of LCB - must be after the physical state is
	 * offline.quiet and before host_link_state is changed.
	 */
	set_host_lcb_access(dd);
	write_csr(dd, DC_LCB_ERR_EN, ~0ull); /* watch LCB errors */
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Dean Luick 已提交
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	/* make sure the logical state is also down */
	ret = wait_logical_linkstate(ppd, IB_PORT_DOWN, 1000);
	if (ret)
		force_logical_link_state_down(ppd);

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Mike Marciniszyn 已提交
10302 10303
	ppd->host_link_state = HLS_LINK_COOLDOWN; /* LCB access allowed */

10304 10305 10306
	if (ppd->port_type == PORT_TYPE_QSFP &&
	    ppd->qsfp_info.limiting_active &&
	    qsfp_mod_present(ppd)) {
10307 10308 10309 10310 10311 10312 10313 10314 10315 10316 10317
		int ret;

		ret = acquire_chip_resource(dd, qsfp_resource(dd), QSFP_WAIT);
		if (ret == 0) {
			set_qsfp_tx(ppd, 0);
			release_chip_resource(dd, qsfp_resource(dd));
		} else {
			/* not fatal, but should warn */
			dd_dev_err(dd,
				   "Unable to acquire lock to turn off QSFP TX\n");
		}
10318 10319
	}

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Mike Marciniszyn 已提交
10320 10321 10322 10323 10324 10325
	/*
	 * The LNI has a mandatory wait time after the physical state
	 * moves to Offline.Quiet.  The wait time may be different
	 * depending on how the link went down.  The 8051 firmware
	 * will observe the needed wait time and only move to ready
	 * when that is completed.  The largest of the quiet timeouts
10326 10327
	 * is 6s, so wait that long and then at least 0.5s more for
	 * other transitions, and another 0.5s for a buffer.
M
Mike Marciniszyn 已提交
10328
	 */
10329
	ret = wait_fm_ready(dd, 7000);
M
Mike Marciniszyn 已提交
10330 10331
	if (ret) {
		dd_dev_err(dd,
10332
			   "After going offline, timed out waiting for the 8051 to become ready to accept host requests\n");
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Mike Marciniszyn 已提交
10333 10334 10335 10336 10337 10338 10339 10340 10341 10342 10343 10344 10345 10346 10347 10348 10349 10350
		/* state is really offline, so make it so */
		ppd->host_link_state = HLS_DN_OFFLINE;
		return ret;
	}

	/*
	 * The state is now offline and the 8051 is ready to accept host
	 * requests.
	 *	- change our state
	 *	- notify others if we were previously in a linkup state
	 */
	ppd->host_link_state = HLS_DN_OFFLINE;
	if (previous_state & HLS_UP) {
		/* went down while link was up */
		handle_linkup_change(dd, 0);
	} else if (previous_state
			& (HLS_DN_POLL | HLS_VERIFY_CAP | HLS_GOING_UP)) {
		/* went down while attempting link up */
10351
		check_lni_states(ppd);
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Mike Marciniszyn 已提交
10352 10353 10354 10355 10356 10357 10358 10359 10360 10361 10362 10363 10364 10365 10366 10367 10368 10369 10370 10371 10372 10373 10374 10375 10376 10377 10378 10379 10380 10381 10382 10383 10384 10385 10386 10387 10388 10389 10390 10391 10392 10393 10394 10395 10396 10397 10398 10399 10400 10401 10402 10403 10404 10405 10406 10407 10408 10409 10410 10411 10412 10413 10414 10415 10416 10417 10418 10419 10420 10421 10422 10423 10424 10425 10426 10427 10428 10429 10430 10431 10432 10433 10434 10435 10436 10437 10438 10439 10440 10441 10442 10443 10444 10445 10446 10447
	}

	/* the active link width (downgrade) is 0 on link down */
	ppd->link_width_active = 0;
	ppd->link_width_downgrade_tx_active = 0;
	ppd->link_width_downgrade_rx_active = 0;
	ppd->current_egress_rate = 0;
	return 0;
}

/* return the link state name */
static const char *link_state_name(u32 state)
{
	const char *name;
	int n = ilog2(state);
	static const char * const names[] = {
		[__HLS_UP_INIT_BP]	 = "INIT",
		[__HLS_UP_ARMED_BP]	 = "ARMED",
		[__HLS_UP_ACTIVE_BP]	 = "ACTIVE",
		[__HLS_DN_DOWNDEF_BP]	 = "DOWNDEF",
		[__HLS_DN_POLL_BP]	 = "POLL",
		[__HLS_DN_DISABLE_BP]	 = "DISABLE",
		[__HLS_DN_OFFLINE_BP]	 = "OFFLINE",
		[__HLS_VERIFY_CAP_BP]	 = "VERIFY_CAP",
		[__HLS_GOING_UP_BP]	 = "GOING_UP",
		[__HLS_GOING_OFFLINE_BP] = "GOING_OFFLINE",
		[__HLS_LINK_COOLDOWN_BP] = "LINK_COOLDOWN"
	};

	name = n < ARRAY_SIZE(names) ? names[n] : NULL;
	return name ? name : "unknown";
}

/* return the link state reason name */
static const char *link_state_reason_name(struct hfi1_pportdata *ppd, u32 state)
{
	if (state == HLS_UP_INIT) {
		switch (ppd->linkinit_reason) {
		case OPA_LINKINIT_REASON_LINKUP:
			return "(LINKUP)";
		case OPA_LINKINIT_REASON_FLAPPING:
			return "(FLAPPING)";
		case OPA_LINKINIT_OUTSIDE_POLICY:
			return "(OUTSIDE_POLICY)";
		case OPA_LINKINIT_QUARANTINED:
			return "(QUARANTINED)";
		case OPA_LINKINIT_INSUFIC_CAPABILITY:
			return "(INSUFIC_CAPABILITY)";
		default:
			break;
		}
	}
	return "";
}

/*
 * driver_physical_state - convert the driver's notion of a port's
 * state (an HLS_*) into a physical state (a {IB,OPA}_PORTPHYSSTATE_*).
 * Return -1 (converted to a u32) to indicate error.
 */
u32 driver_physical_state(struct hfi1_pportdata *ppd)
{
	switch (ppd->host_link_state) {
	case HLS_UP_INIT:
	case HLS_UP_ARMED:
	case HLS_UP_ACTIVE:
		return IB_PORTPHYSSTATE_LINKUP;
	case HLS_DN_POLL:
		return IB_PORTPHYSSTATE_POLLING;
	case HLS_DN_DISABLE:
		return IB_PORTPHYSSTATE_DISABLED;
	case HLS_DN_OFFLINE:
		return OPA_PORTPHYSSTATE_OFFLINE;
	case HLS_VERIFY_CAP:
		return IB_PORTPHYSSTATE_POLLING;
	case HLS_GOING_UP:
		return IB_PORTPHYSSTATE_POLLING;
	case HLS_GOING_OFFLINE:
		return OPA_PORTPHYSSTATE_OFFLINE;
	case HLS_LINK_COOLDOWN:
		return OPA_PORTPHYSSTATE_OFFLINE;
	case HLS_DN_DOWNDEF:
	default:
		dd_dev_err(ppd->dd, "invalid host_link_state 0x%x\n",
			   ppd->host_link_state);
		return  -1;
	}
}

/*
 * driver_logical_state - convert the driver's notion of a port's
 * state (an HLS_*) into a logical state (a IB_PORT_*). Return -1
 * (converted to a u32) to indicate error.
 */
u32 driver_logical_state(struct hfi1_pportdata *ppd)
{
10448
	if (ppd->host_link_state && (ppd->host_link_state & HLS_DOWN))
M
Mike Marciniszyn 已提交
10449 10450 10451 10452 10453 10454 10455 10456 10457 10458 10459 10460 10461 10462 10463 10464 10465 10466 10467 10468 10469 10470 10471 10472 10473 10474 10475 10476 10477 10478 10479 10480 10481 10482 10483 10484 10485 10486 10487 10488 10489 10490 10491 10492 10493 10494 10495 10496 10497
		return IB_PORT_DOWN;

	switch (ppd->host_link_state & HLS_UP) {
	case HLS_UP_INIT:
		return IB_PORT_INIT;
	case HLS_UP_ARMED:
		return IB_PORT_ARMED;
	case HLS_UP_ACTIVE:
		return IB_PORT_ACTIVE;
	default:
		dd_dev_err(ppd->dd, "invalid host_link_state 0x%x\n",
			   ppd->host_link_state);
	return -1;
	}
}

void set_link_down_reason(struct hfi1_pportdata *ppd, u8 lcl_reason,
			  u8 neigh_reason, u8 rem_reason)
{
	if (ppd->local_link_down_reason.latest == 0 &&
	    ppd->neigh_link_down_reason.latest == 0) {
		ppd->local_link_down_reason.latest = lcl_reason;
		ppd->neigh_link_down_reason.latest = neigh_reason;
		ppd->remote_link_down_reason = rem_reason;
	}
}

/*
 * Change the physical and/or logical link state.
 *
 * Do not call this routine while inside an interrupt.  It contains
 * calls to routines that can take multiple seconds to finish.
 *
 * Returns 0 on success, -errno on failure.
 */
int set_link_state(struct hfi1_pportdata *ppd, u32 state)
{
	struct hfi1_devdata *dd = ppd->dd;
	struct ib_event event = {.device = NULL};
	int ret1, ret = 0;
	int orig_new_state, poll_bounce;

	mutex_lock(&ppd->hls_lock);

	orig_new_state = state;
	if (state == HLS_DN_DOWNDEF)
		state = dd->link_default;

	/* interpret poll -> poll as a link bounce */
10498 10499
	poll_bounce = ppd->host_link_state == HLS_DN_POLL &&
		      state == HLS_DN_POLL;
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Mike Marciniszyn 已提交
10500 10501

	dd_dev_info(dd, "%s: current %s, new %s %s%s\n", __func__,
10502 10503 10504 10505
		    link_state_name(ppd->host_link_state),
		    link_state_name(orig_new_state),
		    poll_bounce ? "(bounce) " : "",
		    link_state_reason_name(ppd, state));
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Mike Marciniszyn 已提交
10506 10507 10508 10509 10510 10511 10512 10513 10514 10515 10516 10517 10518 10519 10520 10521 10522 10523

	/*
	 * If we're going to a (HLS_*) link state that implies the logical
	 * link state is neither of (IB_PORT_ARMED, IB_PORT_ACTIVE), then
	 * reset is_sm_config_started to 0.
	 */
	if (!(state & (HLS_UP_ARMED | HLS_UP_ACTIVE)))
		ppd->is_sm_config_started = 0;

	/*
	 * Do nothing if the states match.  Let a poll to poll link bounce
	 * go through.
	 */
	if (ppd->host_link_state == state && !poll_bounce)
		goto done;

	switch (state) {
	case HLS_UP_INIT:
10524 10525
		if (ppd->host_link_state == HLS_DN_POLL &&
		    (quick_linkup || dd->icode == ICODE_FUNCTIONAL_SIMULATOR)) {
M
Mike Marciniszyn 已提交
10526 10527 10528 10529 10530 10531 10532
			/*
			 * Quick link up jumps from polling to here.
			 *
			 * Whether in normal or loopback mode, the
			 * simulator jumps from polling to link up.
			 * Accept that here.
			 */
10533
			/* OK */
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Mike Marciniszyn 已提交
10534 10535 10536 10537 10538 10539 10540 10541 10542 10543
		} else if (ppd->host_link_state != HLS_GOING_UP) {
			goto unexpected;
		}

		ppd->host_link_state = HLS_UP_INIT;
		ret = wait_logical_linkstate(ppd, IB_PORT_INIT, 1000);
		if (ret) {
			/* logical state didn't change, stay at going_up */
			ppd->host_link_state = HLS_GOING_UP;
			dd_dev_err(dd,
10544 10545
				   "%s: logical state did not change to INIT\n",
				   __func__);
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Mike Marciniszyn 已提交
10546 10547 10548 10549 10550 10551 10552 10553 10554 10555 10556 10557 10558 10559 10560 10561 10562 10563 10564 10565 10566 10567 10568
		} else {
			/* clear old transient LINKINIT_REASON code */
			if (ppd->linkinit_reason >= OPA_LINKINIT_REASON_CLEAR)
				ppd->linkinit_reason =
					OPA_LINKINIT_REASON_LINKUP;

			/* enable the port */
			add_rcvctrl(dd, RCV_CTRL_RCV_PORT_ENABLE_SMASK);

			handle_linkup_change(dd, 1);
		}
		break;
	case HLS_UP_ARMED:
		if (ppd->host_link_state != HLS_UP_INIT)
			goto unexpected;

		ppd->host_link_state = HLS_UP_ARMED;
		set_logical_state(dd, LSTATE_ARMED);
		ret = wait_logical_linkstate(ppd, IB_PORT_ARMED, 1000);
		if (ret) {
			/* logical state didn't change, stay at init */
			ppd->host_link_state = HLS_UP_INIT;
			dd_dev_err(dd,
10569 10570
				   "%s: logical state did not change to ARMED\n",
				   __func__);
M
Mike Marciniszyn 已提交
10571 10572 10573 10574 10575 10576 10577 10578 10579 10580 10581 10582 10583 10584 10585 10586 10587 10588 10589 10590
		}
		/*
		 * The simulator does not currently implement SMA messages,
		 * so neighbor_normal is not set.  Set it here when we first
		 * move to Armed.
		 */
		if (dd->icode == ICODE_FUNCTIONAL_SIMULATOR)
			ppd->neighbor_normal = 1;
		break;
	case HLS_UP_ACTIVE:
		if (ppd->host_link_state != HLS_UP_ARMED)
			goto unexpected;

		ppd->host_link_state = HLS_UP_ACTIVE;
		set_logical_state(dd, LSTATE_ACTIVE);
		ret = wait_logical_linkstate(ppd, IB_PORT_ACTIVE, 1000);
		if (ret) {
			/* logical state didn't change, stay at armed */
			ppd->host_link_state = HLS_UP_ARMED;
			dd_dev_err(dd,
10591 10592
				   "%s: logical state did not change to ACTIVE\n",
				   __func__);
M
Mike Marciniszyn 已提交
10593 10594 10595 10596 10597
		} else {
			/* tell all engines to go running */
			sdma_all_running(dd);

			/* Signal the IB layer that the port has went active */
10598
			event.device = &dd->verbs_dev.rdi.ibdev;
M
Mike Marciniszyn 已提交
10599 10600 10601 10602 10603 10604 10605 10606 10607 10608 10609 10610 10611 10612 10613 10614 10615 10616 10617 10618 10619 10620 10621 10622 10623 10624
			event.element.port_num = ppd->port;
			event.event = IB_EVENT_PORT_ACTIVE;
		}
		break;
	case HLS_DN_POLL:
		if ((ppd->host_link_state == HLS_DN_DISABLE ||
		     ppd->host_link_state == HLS_DN_OFFLINE) &&
		    dd->dc_shutdown)
			dc_start(dd);
		/* Hand LED control to the DC */
		write_csr(dd, DCC_CFG_LED_CNTRL, 0);

		if (ppd->host_link_state != HLS_DN_OFFLINE) {
			u8 tmp = ppd->link_enabled;

			ret = goto_offline(ppd, ppd->remote_link_down_reason);
			if (ret) {
				ppd->link_enabled = tmp;
				break;
			}
			ppd->remote_link_down_reason = 0;

			if (ppd->driver_link_ready)
				ppd->link_enabled = 1;
		}

10625
		set_all_slowpath(ppd->dd);
M
Mike Marciniszyn 已提交
10626 10627 10628 10629 10630 10631 10632 10633 10634 10635 10636 10637 10638 10639
		ret = set_local_link_attributes(ppd);
		if (ret)
			break;

		ppd->port_error_action = 0;
		ppd->host_link_state = HLS_DN_POLL;

		if (quick_linkup) {
			/* quick linkup does not go into polling */
			ret = do_quick_linkup(dd);
		} else {
			ret1 = set_physical_link_state(dd, PLS_POLLING);
			if (ret1 != HCMD_SUCCESS) {
				dd_dev_err(dd,
10640 10641
					   "Failed to transition to Polling link state, return 0x%x\n",
					   ret1);
M
Mike Marciniszyn 已提交
10642 10643 10644
				ret = -EINVAL;
			}
		}
10645 10646
		ppd->offline_disabled_reason =
			HFI1_ODR_MASK(OPA_LINKDOWN_REASON_NONE);
M
Mike Marciniszyn 已提交
10647 10648 10649 10650 10651 10652 10653 10654 10655 10656 10657 10658 10659 10660 10661 10662 10663 10664 10665 10666 10667
		/*
		 * If an error occurred above, go back to offline.  The
		 * caller may reschedule another attempt.
		 */
		if (ret)
			goto_offline(ppd, 0);
		break;
	case HLS_DN_DISABLE:
		/* link is disabled */
		ppd->link_enabled = 0;

		/* allow any state to transition to disabled */

		/* must transition to offline first */
		if (ppd->host_link_state != HLS_DN_OFFLINE) {
			ret = goto_offline(ppd, ppd->remote_link_down_reason);
			if (ret)
				break;
			ppd->remote_link_down_reason = 0;
		}

10668 10669 10670 10671 10672 10673 10674 10675 10676 10677
		if (!dd->dc_shutdown) {
			ret1 = set_physical_link_state(dd, PLS_DISABLED);
			if (ret1 != HCMD_SUCCESS) {
				dd_dev_err(dd,
					   "Failed to transition to Disabled link state, return 0x%x\n",
					   ret1);
				ret = -EINVAL;
				break;
			}
			dc_shutdown(dd);
M
Mike Marciniszyn 已提交
10678 10679 10680 10681 10682 10683 10684 10685 10686 10687 10688 10689 10690 10691 10692 10693 10694 10695 10696 10697 10698 10699 10700 10701
		}
		ppd->host_link_state = HLS_DN_DISABLE;
		break;
	case HLS_DN_OFFLINE:
		if (ppd->host_link_state == HLS_DN_DISABLE)
			dc_start(dd);

		/* allow any state to transition to offline */
		ret = goto_offline(ppd, ppd->remote_link_down_reason);
		if (!ret)
			ppd->remote_link_down_reason = 0;
		break;
	case HLS_VERIFY_CAP:
		if (ppd->host_link_state != HLS_DN_POLL)
			goto unexpected;
		ppd->host_link_state = HLS_VERIFY_CAP;
		break;
	case HLS_GOING_UP:
		if (ppd->host_link_state != HLS_VERIFY_CAP)
			goto unexpected;

		ret1 = set_physical_link_state(dd, PLS_LINKUP);
		if (ret1 != HCMD_SUCCESS) {
			dd_dev_err(dd,
10702 10703
				   "Failed to transition to link up state, return 0x%x\n",
				   ret1);
M
Mike Marciniszyn 已提交
10704 10705 10706 10707 10708 10709 10710 10711 10712 10713
			ret = -EINVAL;
			break;
		}
		ppd->host_link_state = HLS_GOING_UP;
		break;

	case HLS_GOING_OFFLINE:		/* transient within goto_offline() */
	case HLS_LINK_COOLDOWN:		/* transient within goto_offline() */
	default:
		dd_dev_info(dd, "%s: state 0x%x: not supported\n",
10714
			    __func__, state);
M
Mike Marciniszyn 已提交
10715 10716 10717 10718 10719 10720 10721 10722
		ret = -EINVAL;
		break;
	}

	goto done;

unexpected:
	dd_dev_err(dd, "%s: unexpected state transition from %s to %s\n",
10723 10724
		   __func__, link_state_name(ppd->host_link_state),
		   link_state_name(state));
M
Mike Marciniszyn 已提交
10725 10726 10727 10728 10729 10730 10731 10732 10733 10734 10735 10736 10737 10738 10739 10740 10741 10742 10743 10744 10745 10746 10747 10748 10749
	ret = -EINVAL;

done:
	mutex_unlock(&ppd->hls_lock);

	if (event.device)
		ib_dispatch_event(&event);

	return ret;
}

int hfi1_set_ib_cfg(struct hfi1_pportdata *ppd, int which, u32 val)
{
	u64 reg;
	int ret = 0;

	switch (which) {
	case HFI1_IB_CFG_LIDLMC:
		set_lidlmc(ppd);
		break;
	case HFI1_IB_CFG_VL_HIGH_LIMIT:
		/*
		 * The VL Arbitrator high limit is sent in units of 4k
		 * bytes, while HFI stores it in units of 64 bytes.
		 */
10750
		val *= 4096 / 64;
M
Mike Marciniszyn 已提交
10751 10752 10753 10754 10755 10756 10757 10758 10759 10760 10761 10762 10763 10764 10765 10766 10767 10768 10769 10770 10771 10772 10773 10774 10775 10776 10777 10778 10779 10780 10781 10782 10783 10784 10785 10786 10787 10788 10789 10790 10791 10792 10793 10794 10795 10796 10797 10798 10799 10800 10801 10802 10803 10804 10805 10806 10807 10808 10809 10810 10811
		reg = ((u64)val & SEND_HIGH_PRIORITY_LIMIT_LIMIT_MASK)
			<< SEND_HIGH_PRIORITY_LIMIT_LIMIT_SHIFT;
		write_csr(ppd->dd, SEND_HIGH_PRIORITY_LIMIT, reg);
		break;
	case HFI1_IB_CFG_LINKDEFAULT: /* IB link default (sleep/poll) */
		/* HFI only supports POLL as the default link down state */
		if (val != HLS_DN_POLL)
			ret = -EINVAL;
		break;
	case HFI1_IB_CFG_OP_VLS:
		if (ppd->vls_operational != val) {
			ppd->vls_operational = val;
			if (!ppd->port)
				ret = -EINVAL;
		}
		break;
	/*
	 * For link width, link width downgrade, and speed enable, always AND
	 * the setting with what is actually supported.  This has two benefits.
	 * First, enabled can't have unsupported values, no matter what the
	 * SM or FM might want.  Second, the ALL_SUPPORTED wildcards that mean
	 * "fill in with your supported value" have all the bits in the
	 * field set, so simply ANDing with supported has the desired result.
	 */
	case HFI1_IB_CFG_LWID_ENB: /* set allowed Link-width */
		ppd->link_width_enabled = val & ppd->link_width_supported;
		break;
	case HFI1_IB_CFG_LWID_DG_ENB: /* set allowed link width downgrade */
		ppd->link_width_downgrade_enabled =
				val & ppd->link_width_downgrade_supported;
		break;
	case HFI1_IB_CFG_SPD_ENB: /* allowed Link speeds */
		ppd->link_speed_enabled = val & ppd->link_speed_supported;
		break;
	case HFI1_IB_CFG_OVERRUN_THRESH: /* IB overrun threshold */
		/*
		 * HFI does not follow IB specs, save this value
		 * so we can report it, if asked.
		 */
		ppd->overrun_threshold = val;
		break;
	case HFI1_IB_CFG_PHYERR_THRESH: /* IB PHY error threshold */
		/*
		 * HFI does not follow IB specs, save this value
		 * so we can report it, if asked.
		 */
		ppd->phy_error_threshold = val;
		break;

	case HFI1_IB_CFG_MTU:
		set_send_length(ppd);
		break;

	case HFI1_IB_CFG_PKEYS:
		if (HFI1_CAP_IS_KSET(PKEY_CHECK))
			set_partition_keys(ppd);
		break;

	default:
		if (HFI1_CAP_IS_KSET(PRINT_UNIMPL))
			dd_dev_info(ppd->dd,
10812 10813
				    "%s: which %s, val 0x%x: not implemented\n",
				    __func__, ib_cfg_name(which), val);
M
Mike Marciniszyn 已提交
10814 10815 10816 10817 10818 10819 10820 10821 10822 10823 10824 10825 10826 10827 10828 10829 10830 10831 10832 10833 10834 10835 10836 10837 10838 10839 10840 10841 10842 10843 10844 10845 10846 10847 10848 10849 10850 10851 10852 10853 10854 10855 10856 10857 10858 10859 10860 10861 10862 10863 10864 10865 10866 10867 10868 10869 10870 10871 10872 10873 10874 10875 10876 10877 10878 10879
		break;
	}
	return ret;
}

/* begin functions related to vl arbitration table caching */
static void init_vl_arb_caches(struct hfi1_pportdata *ppd)
{
	int i;

	BUILD_BUG_ON(VL_ARB_TABLE_SIZE !=
			VL_ARB_LOW_PRIO_TABLE_SIZE);
	BUILD_BUG_ON(VL_ARB_TABLE_SIZE !=
			VL_ARB_HIGH_PRIO_TABLE_SIZE);

	/*
	 * Note that we always return values directly from the
	 * 'vl_arb_cache' (and do no CSR reads) in response to a
	 * 'Get(VLArbTable)'. This is obviously correct after a
	 * 'Set(VLArbTable)', since the cache will then be up to
	 * date. But it's also correct prior to any 'Set(VLArbTable)'
	 * since then both the cache, and the relevant h/w registers
	 * will be zeroed.
	 */

	for (i = 0; i < MAX_PRIO_TABLE; i++)
		spin_lock_init(&ppd->vl_arb_cache[i].lock);
}

/*
 * vl_arb_lock_cache
 *
 * All other vl_arb_* functions should be called only after locking
 * the cache.
 */
static inline struct vl_arb_cache *
vl_arb_lock_cache(struct hfi1_pportdata *ppd, int idx)
{
	if (idx != LO_PRIO_TABLE && idx != HI_PRIO_TABLE)
		return NULL;
	spin_lock(&ppd->vl_arb_cache[idx].lock);
	return &ppd->vl_arb_cache[idx];
}

static inline void vl_arb_unlock_cache(struct hfi1_pportdata *ppd, int idx)
{
	spin_unlock(&ppd->vl_arb_cache[idx].lock);
}

static void vl_arb_get_cache(struct vl_arb_cache *cache,
			     struct ib_vl_weight_elem *vl)
{
	memcpy(vl, cache->table, VL_ARB_TABLE_SIZE * sizeof(*vl));
}

static void vl_arb_set_cache(struct vl_arb_cache *cache,
			     struct ib_vl_weight_elem *vl)
{
	memcpy(cache->table, vl, VL_ARB_TABLE_SIZE * sizeof(*vl));
}

static int vl_arb_match_cache(struct vl_arb_cache *cache,
			      struct ib_vl_weight_elem *vl)
{
	return !memcmp(cache->table, vl, VL_ARB_TABLE_SIZE * sizeof(*vl));
}
10880

M
Mike Marciniszyn 已提交
10881 10882 10883 10884 10885 10886 10887 10888 10889 10890 10891 10892 10893 10894 10895 10896 10897 10898 10899 10900 10901 10902 10903 10904 10905 10906 10907 10908 10909 10910 10911 10912 10913 10914 10915 10916 10917 10918 10919 10920 10921 10922 10923 10924 10925 10926 10927 10928 10929 10930 10931 10932 10933 10934 10935 10936 10937 10938 10939 10940 10941 10942 10943 10944 10945 10946 10947 10948 10949 10950 10951 10952 10953 10954 10955 10956 10957 10958 10959 10960 10961 10962 10963 10964 10965 10966 10967
/* end functions related to vl arbitration table caching */

static int set_vl_weights(struct hfi1_pportdata *ppd, u32 target,
			  u32 size, struct ib_vl_weight_elem *vl)
{
	struct hfi1_devdata *dd = ppd->dd;
	u64 reg;
	unsigned int i, is_up = 0;
	int drain, ret = 0;

	mutex_lock(&ppd->hls_lock);

	if (ppd->host_link_state & HLS_UP)
		is_up = 1;

	drain = !is_ax(dd) && is_up;

	if (drain)
		/*
		 * Before adjusting VL arbitration weights, empty per-VL
		 * FIFOs, otherwise a packet whose VL weight is being
		 * set to 0 could get stuck in a FIFO with no chance to
		 * egress.
		 */
		ret = stop_drain_data_vls(dd);

	if (ret) {
		dd_dev_err(
			dd,
			"%s: cannot stop/drain VLs - refusing to change VL arbitration weights\n",
			__func__);
		goto err;
	}

	for (i = 0; i < size; i++, vl++) {
		/*
		 * NOTE: The low priority shift and mask are used here, but
		 * they are the same for both the low and high registers.
		 */
		reg = (((u64)vl->vl & SEND_LOW_PRIORITY_LIST_VL_MASK)
				<< SEND_LOW_PRIORITY_LIST_VL_SHIFT)
		      | (((u64)vl->weight
				& SEND_LOW_PRIORITY_LIST_WEIGHT_MASK)
				<< SEND_LOW_PRIORITY_LIST_WEIGHT_SHIFT);
		write_csr(dd, target + (i * 8), reg);
	}
	pio_send_control(dd, PSC_GLOBAL_VLARB_ENABLE);

	if (drain)
		open_fill_data_vls(dd); /* reopen all VLs */

err:
	mutex_unlock(&ppd->hls_lock);

	return ret;
}

/*
 * Read one credit merge VL register.
 */
static void read_one_cm_vl(struct hfi1_devdata *dd, u32 csr,
			   struct vl_limit *vll)
{
	u64 reg = read_csr(dd, csr);

	vll->dedicated = cpu_to_be16(
		(reg >> SEND_CM_CREDIT_VL_DEDICATED_LIMIT_VL_SHIFT)
		& SEND_CM_CREDIT_VL_DEDICATED_LIMIT_VL_MASK);
	vll->shared = cpu_to_be16(
		(reg >> SEND_CM_CREDIT_VL_SHARED_LIMIT_VL_SHIFT)
		& SEND_CM_CREDIT_VL_SHARED_LIMIT_VL_MASK);
}

/*
 * Read the current credit merge limits.
 */
static int get_buffer_control(struct hfi1_devdata *dd,
			      struct buffer_control *bc, u16 *overall_limit)
{
	u64 reg;
	int i;

	/* not all entries are filled in */
	memset(bc, 0, sizeof(*bc));

	/* OPA and HFI have a 1-1 mapping */
	for (i = 0; i < TXE_NUM_DATA_VL; i++)
10968
		read_one_cm_vl(dd, SEND_CM_CREDIT_VL + (8 * i), &bc->vl[i]);
M
Mike Marciniszyn 已提交
10969 10970 10971 10972 10973 10974 10975 10976 10977 10978 10979 10980 10981 10982 10983 10984 10985 10986 10987 10988 10989 10990 10991 10992 10993 10994 10995 10996 10997 10998 10999 11000 11001 11002 11003 11004 11005 11006 11007 11008 11009 11010 11011 11012 11013 11014 11015 11016 11017 11018 11019 11020 11021

	/* NOTE: assumes that VL* and VL15 CSRs are bit-wise identical */
	read_one_cm_vl(dd, SEND_CM_CREDIT_VL15, &bc->vl[15]);

	reg = read_csr(dd, SEND_CM_GLOBAL_CREDIT);
	bc->overall_shared_limit = cpu_to_be16(
		(reg >> SEND_CM_GLOBAL_CREDIT_SHARED_LIMIT_SHIFT)
		& SEND_CM_GLOBAL_CREDIT_SHARED_LIMIT_MASK);
	if (overall_limit)
		*overall_limit = (reg
			>> SEND_CM_GLOBAL_CREDIT_TOTAL_CREDIT_LIMIT_SHIFT)
			& SEND_CM_GLOBAL_CREDIT_TOTAL_CREDIT_LIMIT_MASK;
	return sizeof(struct buffer_control);
}

static int get_sc2vlnt(struct hfi1_devdata *dd, struct sc2vlnt *dp)
{
	u64 reg;
	int i;

	/* each register contains 16 SC->VLnt mappings, 4 bits each */
	reg = read_csr(dd, DCC_CFG_SC_VL_TABLE_15_0);
	for (i = 0; i < sizeof(u64); i++) {
		u8 byte = *(((u8 *)&reg) + i);

		dp->vlnt[2 * i] = byte & 0xf;
		dp->vlnt[(2 * i) + 1] = (byte & 0xf0) >> 4;
	}

	reg = read_csr(dd, DCC_CFG_SC_VL_TABLE_31_16);
	for (i = 0; i < sizeof(u64); i++) {
		u8 byte = *(((u8 *)&reg) + i);

		dp->vlnt[16 + (2 * i)] = byte & 0xf;
		dp->vlnt[16 + (2 * i) + 1] = (byte & 0xf0) >> 4;
	}
	return sizeof(struct sc2vlnt);
}

static void get_vlarb_preempt(struct hfi1_devdata *dd, u32 nelems,
			      struct ib_vl_weight_elem *vl)
{
	unsigned int i;

	for (i = 0; i < nelems; i++, vl++) {
		vl->vl = 0xf;
		vl->weight = 0;
	}
}

static void set_sc2vlnt(struct hfi1_devdata *dd, struct sc2vlnt *dp)
{
	write_csr(dd, DCC_CFG_SC_VL_TABLE_15_0,
11022 11023 11024 11025 11026 11027 11028 11029 11030 11031 11032 11033 11034 11035 11036 11037 11038
		  DC_SC_VL_VAL(15_0,
			       0, dp->vlnt[0] & 0xf,
			       1, dp->vlnt[1] & 0xf,
			       2, dp->vlnt[2] & 0xf,
			       3, dp->vlnt[3] & 0xf,
			       4, dp->vlnt[4] & 0xf,
			       5, dp->vlnt[5] & 0xf,
			       6, dp->vlnt[6] & 0xf,
			       7, dp->vlnt[7] & 0xf,
			       8, dp->vlnt[8] & 0xf,
			       9, dp->vlnt[9] & 0xf,
			       10, dp->vlnt[10] & 0xf,
			       11, dp->vlnt[11] & 0xf,
			       12, dp->vlnt[12] & 0xf,
			       13, dp->vlnt[13] & 0xf,
			       14, dp->vlnt[14] & 0xf,
			       15, dp->vlnt[15] & 0xf));
M
Mike Marciniszyn 已提交
11039
	write_csr(dd, DCC_CFG_SC_VL_TABLE_31_16,
11040 11041 11042 11043 11044 11045 11046 11047 11048 11049 11050 11051 11052 11053 11054 11055 11056
		  DC_SC_VL_VAL(31_16,
			       16, dp->vlnt[16] & 0xf,
			       17, dp->vlnt[17] & 0xf,
			       18, dp->vlnt[18] & 0xf,
			       19, dp->vlnt[19] & 0xf,
			       20, dp->vlnt[20] & 0xf,
			       21, dp->vlnt[21] & 0xf,
			       22, dp->vlnt[22] & 0xf,
			       23, dp->vlnt[23] & 0xf,
			       24, dp->vlnt[24] & 0xf,
			       25, dp->vlnt[25] & 0xf,
			       26, dp->vlnt[26] & 0xf,
			       27, dp->vlnt[27] & 0xf,
			       28, dp->vlnt[28] & 0xf,
			       29, dp->vlnt[29] & 0xf,
			       30, dp->vlnt[30] & 0xf,
			       31, dp->vlnt[31] & 0xf));
M
Mike Marciniszyn 已提交
11057 11058 11059 11060 11061 11062 11063
}

static void nonzero_msg(struct hfi1_devdata *dd, int idx, const char *what,
			u16 limit)
{
	if (limit != 0)
		dd_dev_info(dd, "Invalid %s limit %d on VL %d, ignoring\n",
11064
			    what, (int)limit, idx);
M
Mike Marciniszyn 已提交
11065 11066 11067 11068 11069 11070 11071 11072 11073 11074 11075 11076 11077 11078 11079 11080 11081 11082 11083 11084 11085 11086 11087 11088 11089 11090 11091 11092 11093 11094 11095 11096 11097 11098 11099 11100 11101 11102 11103 11104 11105 11106 11107 11108 11109 11110 11111 11112 11113 11114 11115 11116 11117 11118 11119 11120 11121 11122 11123 11124 11125 11126 11127 11128 11129 11130 11131 11132 11133 11134 11135 11136 11137 11138 11139 11140 11141
}

/* change only the shared limit portion of SendCmGLobalCredit */
static void set_global_shared(struct hfi1_devdata *dd, u16 limit)
{
	u64 reg;

	reg = read_csr(dd, SEND_CM_GLOBAL_CREDIT);
	reg &= ~SEND_CM_GLOBAL_CREDIT_SHARED_LIMIT_SMASK;
	reg |= (u64)limit << SEND_CM_GLOBAL_CREDIT_SHARED_LIMIT_SHIFT;
	write_csr(dd, SEND_CM_GLOBAL_CREDIT, reg);
}

/* change only the total credit limit portion of SendCmGLobalCredit */
static void set_global_limit(struct hfi1_devdata *dd, u16 limit)
{
	u64 reg;

	reg = read_csr(dd, SEND_CM_GLOBAL_CREDIT);
	reg &= ~SEND_CM_GLOBAL_CREDIT_TOTAL_CREDIT_LIMIT_SMASK;
	reg |= (u64)limit << SEND_CM_GLOBAL_CREDIT_TOTAL_CREDIT_LIMIT_SHIFT;
	write_csr(dd, SEND_CM_GLOBAL_CREDIT, reg);
}

/* set the given per-VL shared limit */
static void set_vl_shared(struct hfi1_devdata *dd, int vl, u16 limit)
{
	u64 reg;
	u32 addr;

	if (vl < TXE_NUM_DATA_VL)
		addr = SEND_CM_CREDIT_VL + (8 * vl);
	else
		addr = SEND_CM_CREDIT_VL15;

	reg = read_csr(dd, addr);
	reg &= ~SEND_CM_CREDIT_VL_SHARED_LIMIT_VL_SMASK;
	reg |= (u64)limit << SEND_CM_CREDIT_VL_SHARED_LIMIT_VL_SHIFT;
	write_csr(dd, addr, reg);
}

/* set the given per-VL dedicated limit */
static void set_vl_dedicated(struct hfi1_devdata *dd, int vl, u16 limit)
{
	u64 reg;
	u32 addr;

	if (vl < TXE_NUM_DATA_VL)
		addr = SEND_CM_CREDIT_VL + (8 * vl);
	else
		addr = SEND_CM_CREDIT_VL15;

	reg = read_csr(dd, addr);
	reg &= ~SEND_CM_CREDIT_VL_DEDICATED_LIMIT_VL_SMASK;
	reg |= (u64)limit << SEND_CM_CREDIT_VL_DEDICATED_LIMIT_VL_SHIFT;
	write_csr(dd, addr, reg);
}

/* spin until the given per-VL status mask bits clear */
static void wait_for_vl_status_clear(struct hfi1_devdata *dd, u64 mask,
				     const char *which)
{
	unsigned long timeout;
	u64 reg;

	timeout = jiffies + msecs_to_jiffies(VL_STATUS_CLEAR_TIMEOUT);
	while (1) {
		reg = read_csr(dd, SEND_CM_CREDIT_USED_STATUS) & mask;

		if (reg == 0)
			return;	/* success */
		if (time_after(jiffies, timeout))
			break;		/* timed out */
		udelay(1);
	}

	dd_dev_err(dd,
11142 11143
		   "%s credit change status not clearing after %dms, mask 0x%llx, not clear 0x%llx\n",
		   which, VL_STATUS_CLEAR_TIMEOUT, mask, reg);
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11144 11145 11146 11147 11148
	/*
	 * If this occurs, it is likely there was a credit loss on the link.
	 * The only recovery from that is a link bounce.
	 */
	dd_dev_err(dd,
11149
		   "Continuing anyway.  A credit loss may occur.  Suggest a link bounce\n");
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Mike Marciniszyn 已提交
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}

/*
 * The number of credits on the VLs may be changed while everything
 * is "live", but the following algorithm must be followed due to
 * how the hardware is actually implemented.  In particular,
 * Return_Credit_Status[] is the only correct status check.
 *
 * if (reducing Global_Shared_Credit_Limit or any shared limit changing)
 *     set Global_Shared_Credit_Limit = 0
 *     use_all_vl = 1
 * mask0 = all VLs that are changing either dedicated or shared limits
 * set Shared_Limit[mask0] = 0
 * spin until Return_Credit_Status[use_all_vl ? all VL : mask0] == 0
 * if (changing any dedicated limit)
 *     mask1 = all VLs that are lowering dedicated limits
 *     lower Dedicated_Limit[mask1]
 *     spin until Return_Credit_Status[mask1] == 0
 *     raise Dedicated_Limits
 * raise Shared_Limits
 * raise Global_Shared_Credit_Limit
 *
 * lower = if the new limit is lower, set the limit to the new value
 * raise = if the new limit is higher than the current value (may be changed
 *	earlier in the algorithm), set the new limit to the new value
 */
11176 11177
int set_buffer_control(struct hfi1_pportdata *ppd,
		       struct buffer_control *new_bc)
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11178
{
11179
	struct hfi1_devdata *dd = ppd->dd;
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	u64 changing_mask, ld_mask, stat_mask;
	int change_count;
	int i, use_all_mask;
	int this_shared_changing;
11184
	int vl_count = 0, ret;
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Mike Marciniszyn 已提交
11185 11186 11187 11188 11189 11190 11191 11192 11193 11194 11195 11196 11197 11198 11199 11200 11201 11202 11203 11204 11205 11206 11207 11208 11209 11210 11211 11212 11213 11214 11215
	/*
	 * A0: add the variable any_shared_limit_changing below and in the
	 * algorithm above.  If removing A0 support, it can be removed.
	 */
	int any_shared_limit_changing;
	struct buffer_control cur_bc;
	u8 changing[OPA_MAX_VLS];
	u8 lowering_dedicated[OPA_MAX_VLS];
	u16 cur_total;
	u32 new_total = 0;
	const u64 all_mask =
	SEND_CM_CREDIT_USED_STATUS_VL0_RETURN_CREDIT_STATUS_SMASK
	 | SEND_CM_CREDIT_USED_STATUS_VL1_RETURN_CREDIT_STATUS_SMASK
	 | SEND_CM_CREDIT_USED_STATUS_VL2_RETURN_CREDIT_STATUS_SMASK
	 | SEND_CM_CREDIT_USED_STATUS_VL3_RETURN_CREDIT_STATUS_SMASK
	 | SEND_CM_CREDIT_USED_STATUS_VL4_RETURN_CREDIT_STATUS_SMASK
	 | SEND_CM_CREDIT_USED_STATUS_VL5_RETURN_CREDIT_STATUS_SMASK
	 | SEND_CM_CREDIT_USED_STATUS_VL6_RETURN_CREDIT_STATUS_SMASK
	 | SEND_CM_CREDIT_USED_STATUS_VL7_RETURN_CREDIT_STATUS_SMASK
	 | SEND_CM_CREDIT_USED_STATUS_VL15_RETURN_CREDIT_STATUS_SMASK;

#define valid_vl(idx) ((idx) < TXE_NUM_DATA_VL || (idx) == 15)
#define NUM_USABLE_VLS 16	/* look at VL15 and less */

	/* find the new total credits, do sanity check on unused VLs */
	for (i = 0; i < OPA_MAX_VLS; i++) {
		if (valid_vl(i)) {
			new_total += be16_to_cpu(new_bc->vl[i].dedicated);
			continue;
		}
		nonzero_msg(dd, i, "dedicated",
11216
			    be16_to_cpu(new_bc->vl[i].dedicated));
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Mike Marciniszyn 已提交
11217
		nonzero_msg(dd, i, "shared",
11218
			    be16_to_cpu(new_bc->vl[i].shared));
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Mike Marciniszyn 已提交
11219 11220 11221 11222
		new_bc->vl[i].dedicated = 0;
		new_bc->vl[i].shared = 0;
	}
	new_total += be16_to_cpu(new_bc->overall_shared_limit);
11223

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	/* fetch the current values */
	get_buffer_control(dd, &cur_bc, &cur_total);

	/*
	 * Create the masks we will use.
	 */
	memset(changing, 0, sizeof(changing));
	memset(lowering_dedicated, 0, sizeof(lowering_dedicated));
11232 11233 11234 11235
	/*
	 * NOTE: Assumes that the individual VL bits are adjacent and in
	 * increasing order
	 */
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Mike Marciniszyn 已提交
11236 11237 11238 11239 11240 11241 11242 11243 11244 11245 11246 11247 11248
	stat_mask =
		SEND_CM_CREDIT_USED_STATUS_VL0_RETURN_CREDIT_STATUS_SMASK;
	changing_mask = 0;
	ld_mask = 0;
	change_count = 0;
	any_shared_limit_changing = 0;
	for (i = 0; i < NUM_USABLE_VLS; i++, stat_mask <<= 1) {
		if (!valid_vl(i))
			continue;
		this_shared_changing = new_bc->vl[i].shared
						!= cur_bc.vl[i].shared;
		if (this_shared_changing)
			any_shared_limit_changing = 1;
11249 11250
		if (new_bc->vl[i].dedicated != cur_bc.vl[i].dedicated ||
		    this_shared_changing) {
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11251 11252 11253 11254 11255 11256 11257 11258 11259 11260 11261 11262 11263 11264 11265 11266 11267 11268 11269 11270
			changing[i] = 1;
			changing_mask |= stat_mask;
			change_count++;
		}
		if (be16_to_cpu(new_bc->vl[i].dedicated) <
					be16_to_cpu(cur_bc.vl[i].dedicated)) {
			lowering_dedicated[i] = 1;
			ld_mask |= stat_mask;
		}
	}

	/* bracket the credit change with a total adjustment */
	if (new_total > cur_total)
		set_global_limit(dd, new_total);

	/*
	 * Start the credit change algorithm.
	 */
	use_all_mask = 0;
	if ((be16_to_cpu(new_bc->overall_shared_limit) <
11271 11272
	     be16_to_cpu(cur_bc.overall_shared_limit)) ||
	    (is_ax(dd) && any_shared_limit_changing)) {
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Mike Marciniszyn 已提交
11273 11274 11275 11276 11277 11278 11279 11280 11281 11282 11283 11284 11285 11286 11287 11288
		set_global_shared(dd, 0);
		cur_bc.overall_shared_limit = 0;
		use_all_mask = 1;
	}

	for (i = 0; i < NUM_USABLE_VLS; i++) {
		if (!valid_vl(i))
			continue;

		if (changing[i]) {
			set_vl_shared(dd, i, 0);
			cur_bc.vl[i].shared = 0;
		}
	}

	wait_for_vl_status_clear(dd, use_all_mask ? all_mask : changing_mask,
11289
				 "shared");
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11290 11291 11292 11293 11294 11295 11296 11297

	if (change_count > 0) {
		for (i = 0; i < NUM_USABLE_VLS; i++) {
			if (!valid_vl(i))
				continue;

			if (lowering_dedicated[i]) {
				set_vl_dedicated(dd, i,
11298 11299
						 be16_to_cpu(new_bc->
							     vl[i].dedicated));
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				cur_bc.vl[i].dedicated =
						new_bc->vl[i].dedicated;
			}
		}

		wait_for_vl_status_clear(dd, ld_mask, "dedicated");

		/* now raise all dedicated that are going up */
		for (i = 0; i < NUM_USABLE_VLS; i++) {
			if (!valid_vl(i))
				continue;

			if (be16_to_cpu(new_bc->vl[i].dedicated) >
					be16_to_cpu(cur_bc.vl[i].dedicated))
				set_vl_dedicated(dd, i,
11315 11316
						 be16_to_cpu(new_bc->
							     vl[i].dedicated));
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Mike Marciniszyn 已提交
11317 11318 11319 11320 11321 11322 11323 11324 11325 11326 11327 11328 11329 11330 11331
		}
	}

	/* next raise all shared that are going up */
	for (i = 0; i < NUM_USABLE_VLS; i++) {
		if (!valid_vl(i))
			continue;

		if (be16_to_cpu(new_bc->vl[i].shared) >
				be16_to_cpu(cur_bc.vl[i].shared))
			set_vl_shared(dd, i, be16_to_cpu(new_bc->vl[i].shared));
	}

	/* finally raise the global shared */
	if (be16_to_cpu(new_bc->overall_shared_limit) >
11332
	    be16_to_cpu(cur_bc.overall_shared_limit))
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Mike Marciniszyn 已提交
11333
		set_global_shared(dd,
11334
				  be16_to_cpu(new_bc->overall_shared_limit));
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Mike Marciniszyn 已提交
11335 11336 11337 11338

	/* bracket the credit change with a total adjustment */
	if (new_total < cur_total)
		set_global_limit(dd, new_total);
11339 11340 11341 11342 11343 11344 11345 11346 11347 11348 11349 11350 11351 11352 11353 11354 11355 11356 11357 11358 11359 11360

	/*
	 * Determine the actual number of operational VLS using the number of
	 * dedicated and shared credits for each VL.
	 */
	if (change_count > 0) {
		for (i = 0; i < TXE_NUM_DATA_VL; i++)
			if (be16_to_cpu(new_bc->vl[i].dedicated) > 0 ||
			    be16_to_cpu(new_bc->vl[i].shared) > 0)
				vl_count++;
		ppd->actual_vls_operational = vl_count;
		ret = sdma_map_init(dd, ppd->port - 1, vl_count ?
				    ppd->actual_vls_operational :
				    ppd->vls_operational,
				    NULL);
		if (ret == 0)
			ret = pio_map_init(dd, ppd->port - 1, vl_count ?
					   ppd->actual_vls_operational :
					   ppd->vls_operational, NULL);
		if (ret)
			return ret;
	}
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Mike Marciniszyn 已提交
11361 11362 11363 11364 11365 11366 11367 11368 11369 11370 11371 11372 11373 11374 11375 11376 11377 11378 11379 11380 11381 11382 11383 11384 11385 11386 11387 11388 11389 11390 11391 11392 11393 11394 11395 11396 11397 11398 11399 11400 11401 11402 11403 11404 11405 11406 11407 11408 11409 11410 11411 11412 11413 11414 11415 11416 11417 11418 11419 11420 11421 11422 11423 11424 11425 11426 11427 11428 11429 11430 11431 11432 11433 11434 11435 11436 11437 11438 11439 11440 11441 11442 11443 11444 11445 11446 11447 11448 11449 11450 11451
	return 0;
}

/*
 * Read the given fabric manager table. Return the size of the
 * table (in bytes) on success, and a negative error code on
 * failure.
 */
int fm_get_table(struct hfi1_pportdata *ppd, int which, void *t)

{
	int size;
	struct vl_arb_cache *vlc;

	switch (which) {
	case FM_TBL_VL_HIGH_ARB:
		size = 256;
		/*
		 * OPA specifies 128 elements (of 2 bytes each), though
		 * HFI supports only 16 elements in h/w.
		 */
		vlc = vl_arb_lock_cache(ppd, HI_PRIO_TABLE);
		vl_arb_get_cache(vlc, t);
		vl_arb_unlock_cache(ppd, HI_PRIO_TABLE);
		break;
	case FM_TBL_VL_LOW_ARB:
		size = 256;
		/*
		 * OPA specifies 128 elements (of 2 bytes each), though
		 * HFI supports only 16 elements in h/w.
		 */
		vlc = vl_arb_lock_cache(ppd, LO_PRIO_TABLE);
		vl_arb_get_cache(vlc, t);
		vl_arb_unlock_cache(ppd, LO_PRIO_TABLE);
		break;
	case FM_TBL_BUFFER_CONTROL:
		size = get_buffer_control(ppd->dd, t, NULL);
		break;
	case FM_TBL_SC2VLNT:
		size = get_sc2vlnt(ppd->dd, t);
		break;
	case FM_TBL_VL_PREEMPT_ELEMS:
		size = 256;
		/* OPA specifies 128 elements, of 2 bytes each */
		get_vlarb_preempt(ppd->dd, OPA_MAX_VLS, t);
		break;
	case FM_TBL_VL_PREEMPT_MATRIX:
		size = 256;
		/*
		 * OPA specifies that this is the same size as the VL
		 * arbitration tables (i.e., 256 bytes).
		 */
		break;
	default:
		return -EINVAL;
	}
	return size;
}

/*
 * Write the given fabric manager table.
 */
int fm_set_table(struct hfi1_pportdata *ppd, int which, void *t)
{
	int ret = 0;
	struct vl_arb_cache *vlc;

	switch (which) {
	case FM_TBL_VL_HIGH_ARB:
		vlc = vl_arb_lock_cache(ppd, HI_PRIO_TABLE);
		if (vl_arb_match_cache(vlc, t)) {
			vl_arb_unlock_cache(ppd, HI_PRIO_TABLE);
			break;
		}
		vl_arb_set_cache(vlc, t);
		vl_arb_unlock_cache(ppd, HI_PRIO_TABLE);
		ret = set_vl_weights(ppd, SEND_HIGH_PRIORITY_LIST,
				     VL_ARB_HIGH_PRIO_TABLE_SIZE, t);
		break;
	case FM_TBL_VL_LOW_ARB:
		vlc = vl_arb_lock_cache(ppd, LO_PRIO_TABLE);
		if (vl_arb_match_cache(vlc, t)) {
			vl_arb_unlock_cache(ppd, LO_PRIO_TABLE);
			break;
		}
		vl_arb_set_cache(vlc, t);
		vl_arb_unlock_cache(ppd, LO_PRIO_TABLE);
		ret = set_vl_weights(ppd, SEND_LOW_PRIORITY_LIST,
				     VL_ARB_LOW_PRIO_TABLE_SIZE, t);
		break;
	case FM_TBL_BUFFER_CONTROL:
11452
		ret = set_buffer_control(ppd, t);
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Mike Marciniszyn 已提交
11453 11454 11455 11456 11457 11458 11459 11460 11461 11462 11463 11464 11465 11466 11467 11468 11469
		break;
	case FM_TBL_SC2VLNT:
		set_sc2vlnt(ppd->dd, t);
		break;
	default:
		ret = -EINVAL;
	}
	return ret;
}

/*
 * Disable all data VLs.
 *
 * Return 0 if disabled, non-zero if the VLs cannot be disabled.
 */
static int disable_data_vls(struct hfi1_devdata *dd)
{
11470
	if (is_ax(dd))
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		return 1;

	pio_send_control(dd, PSC_DATA_VL_DISABLE);

	return 0;
}

/*
 * open_fill_data_vls() - the counterpart to stop_drain_data_vls().
 * Just re-enables all data VLs (the "fill" part happens
 * automatically - the name was chosen for symmetry with
 * stop_drain_data_vls()).
 *
 * Return 0 if successful, non-zero if the VLs cannot be enabled.
 */
int open_fill_data_vls(struct hfi1_devdata *dd)
{
11488
	if (is_ax(dd))
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Mike Marciniszyn 已提交
11489 11490 11491 11492 11493 11494 11495 11496 11497 11498 11499 11500 11501 11502 11503 11504 11505 11506 11507 11508 11509 11510 11511 11512 11513 11514 11515 11516 11517 11518 11519 11520 11521 11522 11523 11524 11525 11526 11527 11528 11529 11530 11531 11532 11533 11534 11535 11536 11537 11538 11539 11540 11541 11542 11543 11544 11545 11546 11547 11548 11549 11550 11551 11552 11553 11554 11555 11556 11557 11558 11559 11560 11561 11562 11563 11564 11565 11566 11567 11568 11569 11570 11571 11572 11573 11574 11575 11576 11577 11578 11579 11580 11581 11582 11583 11584 11585 11586 11587 11588 11589 11590 11591 11592 11593 11594 11595 11596 11597 11598 11599 11600 11601
		return 1;

	pio_send_control(dd, PSC_DATA_VL_ENABLE);

	return 0;
}

/*
 * drain_data_vls() - assumes that disable_data_vls() has been called,
 * wait for occupancy (of per-VL FIFOs) for all contexts, and SDMA
 * engines to drop to 0.
 */
static void drain_data_vls(struct hfi1_devdata *dd)
{
	sc_wait(dd);
	sdma_wait(dd);
	pause_for_credit_return(dd);
}

/*
 * stop_drain_data_vls() - disable, then drain all per-VL fifos.
 *
 * Use open_fill_data_vls() to resume using data VLs.  This pair is
 * meant to be used like this:
 *
 * stop_drain_data_vls(dd);
 * // do things with per-VL resources
 * open_fill_data_vls(dd);
 */
int stop_drain_data_vls(struct hfi1_devdata *dd)
{
	int ret;

	ret = disable_data_vls(dd);
	if (ret == 0)
		drain_data_vls(dd);

	return ret;
}

/*
 * Convert a nanosecond time to a cclock count.  No matter how slow
 * the cclock, a non-zero ns will always have a non-zero result.
 */
u32 ns_to_cclock(struct hfi1_devdata *dd, u32 ns)
{
	u32 cclocks;

	if (dd->icode == ICODE_FPGA_EMULATION)
		cclocks = (ns * 1000) / FPGA_CCLOCK_PS;
	else  /* simulation pretends to be ASIC */
		cclocks = (ns * 1000) / ASIC_CCLOCK_PS;
	if (ns && !cclocks)	/* if ns nonzero, must be at least 1 */
		cclocks = 1;
	return cclocks;
}

/*
 * Convert a cclock count to nanoseconds. Not matter how slow
 * the cclock, a non-zero cclocks will always have a non-zero result.
 */
u32 cclock_to_ns(struct hfi1_devdata *dd, u32 cclocks)
{
	u32 ns;

	if (dd->icode == ICODE_FPGA_EMULATION)
		ns = (cclocks * FPGA_CCLOCK_PS) / 1000;
	else  /* simulation pretends to be ASIC */
		ns = (cclocks * ASIC_CCLOCK_PS) / 1000;
	if (cclocks && !ns)
		ns = 1;
	return ns;
}

/*
 * Dynamically adjust the receive interrupt timeout for a context based on
 * incoming packet rate.
 *
 * NOTE: Dynamic adjustment does not allow rcv_intr_count to be zero.
 */
static void adjust_rcv_timeout(struct hfi1_ctxtdata *rcd, u32 npkts)
{
	struct hfi1_devdata *dd = rcd->dd;
	u32 timeout = rcd->rcvavail_timeout;

	/*
	 * This algorithm doubles or halves the timeout depending on whether
	 * the number of packets received in this interrupt were less than or
	 * greater equal the interrupt count.
	 *
	 * The calculations below do not allow a steady state to be achieved.
	 * Only at the endpoints it is possible to have an unchanging
	 * timeout.
	 */
	if (npkts < rcv_intr_count) {
		/*
		 * Not enough packets arrived before the timeout, adjust
		 * timeout downward.
		 */
		if (timeout < 2) /* already at minimum? */
			return;
		timeout >>= 1;
	} else {
		/*
		 * More than enough packets arrived before the timeout, adjust
		 * timeout upward.
		 */
		if (timeout >= dd->rcv_intr_timeout_csr) /* already at max? */
			return;
		timeout = min(timeout << 1, dd->rcv_intr_timeout_csr);
	}

	rcd->rcvavail_timeout = timeout;
11602 11603 11604 11605
	/*
	 * timeout cannot be larger than rcv_intr_timeout_csr which has already
	 * been verified to be in range
	 */
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Mike Marciniszyn 已提交
11606
	write_kctxt_csr(dd, rcd->ctxt, RCV_AVAIL_TIME_OUT,
11607 11608
			(u64)timeout <<
			RCV_AVAIL_TIME_OUT_TIME_OUT_RELOAD_SHIFT);
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Mike Marciniszyn 已提交
11609 11610 11611 11612 11613 11614 11615 11616 11617 11618 11619 11620 11621 11622 11623 11624 11625 11626 11627 11628 11629 11630 11631 11632 11633 11634 11635 11636 11637 11638 11639 11640 11641 11642 11643 11644 11645 11646 11647 11648 11649 11650 11651 11652 11653 11654 11655 11656 11657 11658 11659 11660 11661 11662 11663 11664 11665 11666 11667 11668 11669 11670 11671 11672 11673
}

void update_usrhead(struct hfi1_ctxtdata *rcd, u32 hd, u32 updegr, u32 egrhd,
		    u32 intr_adjust, u32 npkts)
{
	struct hfi1_devdata *dd = rcd->dd;
	u64 reg;
	u32 ctxt = rcd->ctxt;

	/*
	 * Need to write timeout register before updating RcvHdrHead to ensure
	 * that a new value is used when the HW decides to restart counting.
	 */
	if (intr_adjust)
		adjust_rcv_timeout(rcd, npkts);
	if (updegr) {
		reg = (egrhd & RCV_EGR_INDEX_HEAD_HEAD_MASK)
			<< RCV_EGR_INDEX_HEAD_HEAD_SHIFT;
		write_uctxt_csr(dd, ctxt, RCV_EGR_INDEX_HEAD, reg);
	}
	mmiowb();
	reg = ((u64)rcv_intr_count << RCV_HDR_HEAD_COUNTER_SHIFT) |
		(((u64)hd & RCV_HDR_HEAD_HEAD_MASK)
			<< RCV_HDR_HEAD_HEAD_SHIFT);
	write_uctxt_csr(dd, ctxt, RCV_HDR_HEAD, reg);
	mmiowb();
}

u32 hdrqempty(struct hfi1_ctxtdata *rcd)
{
	u32 head, tail;

	head = (read_uctxt_csr(rcd->dd, rcd->ctxt, RCV_HDR_HEAD)
		& RCV_HDR_HEAD_HEAD_SMASK) >> RCV_HDR_HEAD_HEAD_SHIFT;

	if (rcd->rcvhdrtail_kvaddr)
		tail = get_rcvhdrtail(rcd);
	else
		tail = read_uctxt_csr(rcd->dd, rcd->ctxt, RCV_HDR_TAIL);

	return head == tail;
}

/*
 * Context Control and Receive Array encoding for buffer size:
 *	0x0 invalid
 *	0x1   4 KB
 *	0x2   8 KB
 *	0x3  16 KB
 *	0x4  32 KB
 *	0x5  64 KB
 *	0x6 128 KB
 *	0x7 256 KB
 *	0x8 512 KB (Receive Array only)
 *	0x9   1 MB (Receive Array only)
 *	0xa   2 MB (Receive Array only)
 *
 *	0xB-0xF - reserved (Receive Array only)
 *
 *
 * This routine assumes that the value has already been sanity checked.
 */
static u32 encoded_size(u32 size)
{
	switch (size) {
11674 11675 11676 11677 11678 11679 11680 11681 11682 11683
	case   4 * 1024: return 0x1;
	case   8 * 1024: return 0x2;
	case  16 * 1024: return 0x3;
	case  32 * 1024: return 0x4;
	case  64 * 1024: return 0x5;
	case 128 * 1024: return 0x6;
	case 256 * 1024: return 0x7;
	case 512 * 1024: return 0x8;
	case   1 * 1024 * 1024: return 0x9;
	case   2 * 1024 * 1024: return 0xa;
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	}
	return 0x1;	/* if invalid, go with the minimum size */
}

void hfi1_rcvctrl(struct hfi1_devdata *dd, unsigned int op, int ctxt)
{
	struct hfi1_ctxtdata *rcd;
	u64 rcvctrl, reg;
	int did_enable = 0;

	rcd = dd->rcd[ctxt];
	if (!rcd)
		return;

	hfi1_cdbg(RCVCTRL, "ctxt %d op 0x%x", ctxt, op);

	rcvctrl = read_kctxt_csr(dd, ctxt, RCV_CTXT_CTRL);
	/* if the context already enabled, don't do the extra steps */
11702 11703
	if ((op & HFI1_RCVCTRL_CTXT_ENB) &&
	    !(rcvctrl & RCV_CTXT_CTRL_ENABLE_SMASK)) {
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Mike Marciniszyn 已提交
11704 11705
		/* reset the tail and hdr addresses, and sequence count */
		write_kctxt_csr(dd, ctxt, RCV_HDR_ADDR,
11706
				rcd->rcvhdrq_dma);
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Mike Marciniszyn 已提交
11707 11708
		if (HFI1_CAP_KGET_MASK(rcd->flags, DMA_RTAIL))
			write_kctxt_csr(dd, ctxt, RCV_HDR_TAIL_ADDR,
11709
					rcd->rcvhdrqtailaddr_dma);
M
Mike Marciniszyn 已提交
11710 11711 11712 11713 11714 11715 11716 11717 11718 11719 11720 11721 11722 11723 11724 11725 11726 11727 11728 11729 11730 11731 11732 11733 11734 11735 11736 11737 11738 11739 11740 11741 11742 11743 11744 11745 11746 11747 11748 11749 11750 11751 11752 11753 11754 11755 11756 11757 11758 11759 11760 11761 11762 11763
		rcd->seq_cnt = 1;

		/* reset the cached receive header queue head value */
		rcd->head = 0;

		/*
		 * Zero the receive header queue so we don't get false
		 * positives when checking the sequence number.  The
		 * sequence numbers could land exactly on the same spot.
		 * E.g. a rcd restart before the receive header wrapped.
		 */
		memset(rcd->rcvhdrq, 0, rcd->rcvhdrq_size);

		/* starting timeout */
		rcd->rcvavail_timeout = dd->rcv_intr_timeout_csr;

		/* enable the context */
		rcvctrl |= RCV_CTXT_CTRL_ENABLE_SMASK;

		/* clean the egr buffer size first */
		rcvctrl &= ~RCV_CTXT_CTRL_EGR_BUF_SIZE_SMASK;
		rcvctrl |= ((u64)encoded_size(rcd->egrbufs.rcvtid_size)
				& RCV_CTXT_CTRL_EGR_BUF_SIZE_MASK)
					<< RCV_CTXT_CTRL_EGR_BUF_SIZE_SHIFT;

		/* zero RcvHdrHead - set RcvHdrHead.Counter after enable */
		write_uctxt_csr(dd, ctxt, RCV_HDR_HEAD, 0);
		did_enable = 1;

		/* zero RcvEgrIndexHead */
		write_uctxt_csr(dd, ctxt, RCV_EGR_INDEX_HEAD, 0);

		/* set eager count and base index */
		reg = (((u64)(rcd->egrbufs.alloced >> RCV_SHIFT)
			& RCV_EGR_CTRL_EGR_CNT_MASK)
		       << RCV_EGR_CTRL_EGR_CNT_SHIFT) |
			(((rcd->eager_base >> RCV_SHIFT)
			  & RCV_EGR_CTRL_EGR_BASE_INDEX_MASK)
			 << RCV_EGR_CTRL_EGR_BASE_INDEX_SHIFT);
		write_kctxt_csr(dd, ctxt, RCV_EGR_CTRL, reg);

		/*
		 * Set TID (expected) count and base index.
		 * rcd->expected_count is set to individual RcvArray entries,
		 * not pairs, and the CSR takes a pair-count in groups of
		 * four, so divide by 8.
		 */
		reg = (((rcd->expected_count >> RCV_SHIFT)
					& RCV_TID_CTRL_TID_PAIR_CNT_MASK)
				<< RCV_TID_CTRL_TID_PAIR_CNT_SHIFT) |
		      (((rcd->expected_base >> RCV_SHIFT)
					& RCV_TID_CTRL_TID_BASE_INDEX_MASK)
				<< RCV_TID_CTRL_TID_BASE_INDEX_SHIFT);
		write_kctxt_csr(dd, ctxt, RCV_TID_CTRL, reg);
11764 11765
		if (ctxt == HFI1_CTRL_CTXT)
			write_csr(dd, RCV_VL15, HFI1_CTRL_CTXT);
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Mike Marciniszyn 已提交
11766 11767 11768
	}
	if (op & HFI1_RCVCTRL_CTXT_DIS) {
		write_csr(dd, RCV_VL15, 0);
11769 11770 11771 11772 11773
		/*
		 * When receive context is being disabled turn on tail
		 * update with a dummy tail address and then disable
		 * receive context.
		 */
11774
		if (dd->rcvhdrtail_dummy_dma) {
11775
			write_kctxt_csr(dd, ctxt, RCV_HDR_TAIL_ADDR,
11776
					dd->rcvhdrtail_dummy_dma);
11777
			/* Enabling RcvCtxtCtrl.TailUpd is intentional. */
11778 11779 11780
			rcvctrl |= RCV_CTXT_CTRL_TAIL_UPD_SMASK;
		}

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11781 11782 11783 11784 11785 11786
		rcvctrl &= ~RCV_CTXT_CTRL_ENABLE_SMASK;
	}
	if (op & HFI1_RCVCTRL_INTRAVAIL_ENB)
		rcvctrl |= RCV_CTXT_CTRL_INTR_AVAIL_SMASK;
	if (op & HFI1_RCVCTRL_INTRAVAIL_DIS)
		rcvctrl &= ~RCV_CTXT_CTRL_INTR_AVAIL_SMASK;
11787
	if (op & HFI1_RCVCTRL_TAILUPD_ENB && rcd->rcvhdrqtailaddr_dma)
M
Mike Marciniszyn 已提交
11788
		rcvctrl |= RCV_CTXT_CTRL_TAIL_UPD_SMASK;
11789 11790 11791 11792 11793
	if (op & HFI1_RCVCTRL_TAILUPD_DIS) {
		/* See comment on RcvCtxtCtrl.TailUpd above */
		if (!(op & HFI1_RCVCTRL_CTXT_DIS))
			rcvctrl &= ~RCV_CTXT_CTRL_TAIL_UPD_SMASK;
	}
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11794 11795 11796 11797 11798
	if (op & HFI1_RCVCTRL_TIDFLOW_ENB)
		rcvctrl |= RCV_CTXT_CTRL_TID_FLOW_ENABLE_SMASK;
	if (op & HFI1_RCVCTRL_TIDFLOW_DIS)
		rcvctrl &= ~RCV_CTXT_CTRL_TID_FLOW_ENABLE_SMASK;
	if (op & HFI1_RCVCTRL_ONE_PKT_EGR_ENB) {
11799 11800 11801 11802
		/*
		 * In one-packet-per-eager mode, the size comes from
		 * the RcvArray entry.
		 */
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Mike Marciniszyn 已提交
11803 11804 11805 11806 11807 11808 11809 11810 11811 11812 11813 11814 11815 11816 11817 11818 11819 11820
		rcvctrl &= ~RCV_CTXT_CTRL_EGR_BUF_SIZE_SMASK;
		rcvctrl |= RCV_CTXT_CTRL_ONE_PACKET_PER_EGR_BUFFER_SMASK;
	}
	if (op & HFI1_RCVCTRL_ONE_PKT_EGR_DIS)
		rcvctrl &= ~RCV_CTXT_CTRL_ONE_PACKET_PER_EGR_BUFFER_SMASK;
	if (op & HFI1_RCVCTRL_NO_RHQ_DROP_ENB)
		rcvctrl |= RCV_CTXT_CTRL_DONT_DROP_RHQ_FULL_SMASK;
	if (op & HFI1_RCVCTRL_NO_RHQ_DROP_DIS)
		rcvctrl &= ~RCV_CTXT_CTRL_DONT_DROP_RHQ_FULL_SMASK;
	if (op & HFI1_RCVCTRL_NO_EGR_DROP_ENB)
		rcvctrl |= RCV_CTXT_CTRL_DONT_DROP_EGR_FULL_SMASK;
	if (op & HFI1_RCVCTRL_NO_EGR_DROP_DIS)
		rcvctrl &= ~RCV_CTXT_CTRL_DONT_DROP_EGR_FULL_SMASK;
	rcd->rcvctrl = rcvctrl;
	hfi1_cdbg(RCVCTRL, "ctxt %d rcvctrl 0x%llx\n", ctxt, rcvctrl);
	write_kctxt_csr(dd, ctxt, RCV_CTXT_CTRL, rcd->rcvctrl);

	/* work around sticky RcvCtxtStatus.BlockedRHQFull */
11821 11822
	if (did_enable &&
	    (rcvctrl & RCV_CTXT_CTRL_DONT_DROP_RHQ_FULL_SMASK)) {
M
Mike Marciniszyn 已提交
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		reg = read_kctxt_csr(dd, ctxt, RCV_CTXT_STATUS);
		if (reg != 0) {
			dd_dev_info(dd, "ctxt %d status %lld (blocked)\n",
11826
				    ctxt, reg);
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Mike Marciniszyn 已提交
11827 11828 11829 11830 11831 11832
			read_uctxt_csr(dd, ctxt, RCV_HDR_HEAD);
			write_uctxt_csr(dd, ctxt, RCV_HDR_HEAD, 0x10);
			write_uctxt_csr(dd, ctxt, RCV_HDR_HEAD, 0x00);
			read_uctxt_csr(dd, ctxt, RCV_HDR_HEAD);
			reg = read_kctxt_csr(dd, ctxt, RCV_CTXT_STATUS);
			dd_dev_info(dd, "ctxt %d status %lld (%s blocked)\n",
11833
				    ctxt, reg, reg == 0 ? "not" : "still");
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Mike Marciniszyn 已提交
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		}
	}

	if (did_enable) {
		/*
		 * The interrupt timeout and count must be set after
		 * the context is enabled to take effect.
		 */
		/* set interrupt timeout */
		write_kctxt_csr(dd, ctxt, RCV_AVAIL_TIME_OUT,
11844
				(u64)rcd->rcvavail_timeout <<
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Mike Marciniszyn 已提交
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				RCV_AVAIL_TIME_OUT_TIME_OUT_RELOAD_SHIFT);

		/* set RcvHdrHead.Counter, zero RcvHdrHead.Head (again) */
		reg = (u64)rcv_intr_count << RCV_HDR_HEAD_COUNTER_SHIFT;
		write_uctxt_csr(dd, ctxt, RCV_HDR_HEAD, reg);
	}

	if (op & (HFI1_RCVCTRL_TAILUPD_DIS | HFI1_RCVCTRL_CTXT_DIS))
		/*
		 * If the context has been disabled and the Tail Update has
11855 11856
		 * been cleared, set the RCV_HDR_TAIL_ADDR CSR to dummy address
		 * so it doesn't contain an address that is invalid.
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Mike Marciniszyn 已提交
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		 */
11858
		write_kctxt_csr(dd, ctxt, RCV_HDR_TAIL_ADDR,
11859
				dd->rcvhdrtail_dummy_dma);
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}

11862
u32 hfi1_read_cntrs(struct hfi1_devdata *dd, char **namep, u64 **cntrp)
M
Mike Marciniszyn 已提交
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{
	int ret;
	u64 val = 0;

	if (namep) {
		ret = dd->cntrnameslen;
		*namep = dd->cntrnames;
	} else {
		const struct cntr_entry *entry;
		int i, j;

		ret = (dd->ndevcntrs) * sizeof(u64);

		/* Get the start of the block of counters */
		*cntrp = dd->cntrs;

		/*
		 * Now go and fill in each counter in the block.
		 */
		for (i = 0; i < DEV_CNTR_LAST; i++) {
			entry = &dev_cntrs[i];
			hfi1_cdbg(CNTR, "reading %s", entry->name);
			if (entry->flags & CNTR_DISABLED) {
				/* Nothing */
				hfi1_cdbg(CNTR, "\tDisabled\n");
			} else {
				if (entry->flags & CNTR_VL) {
					hfi1_cdbg(CNTR, "\tPer VL\n");
					for (j = 0; j < C_VL_COUNT; j++) {
						val = entry->rw_cntr(entry,
								  dd, j,
								  CNTR_MODE_R,
								  0);
						hfi1_cdbg(
						   CNTR,
						   "\t\tRead 0x%llx for %d\n",
						   val, j);
						dd->cntrs[entry->offset + j] =
									    val;
					}
11903 11904 11905 11906 11907 11908 11909 11910 11911 11912 11913 11914 11915 11916
				} else if (entry->flags & CNTR_SDMA) {
					hfi1_cdbg(CNTR,
						  "\t Per SDMA Engine\n");
					for (j = 0; j < dd->chip_sdma_engines;
					     j++) {
						val =
						entry->rw_cntr(entry, dd, j,
							       CNTR_MODE_R, 0);
						hfi1_cdbg(CNTR,
							  "\t\tRead 0x%llx for %d\n",
							  val, j);
						dd->cntrs[entry->offset + j] =
									val;
					}
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				} else {
					val = entry->rw_cntr(entry, dd,
							CNTR_INVALID_VL,
							CNTR_MODE_R, 0);
					dd->cntrs[entry->offset] = val;
					hfi1_cdbg(CNTR, "\tRead 0x%llx", val);
				}
			}
		}
	}
	return ret;
}

/*
 * Used by sysfs to create files for hfi stats to read
 */
11933
u32 hfi1_read_portcntrs(struct hfi1_pportdata *ppd, char **namep, u64 **cntrp)
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Mike Marciniszyn 已提交
11934 11935 11936 11937 11938
{
	int ret;
	u64 val = 0;

	if (namep) {
11939 11940
		ret = ppd->dd->portcntrnameslen;
		*namep = ppd->dd->portcntrnames;
M
Mike Marciniszyn 已提交
11941 11942 11943 11944
	} else {
		const struct cntr_entry *entry;
		int i, j;

11945
		ret = ppd->dd->nportcntrs * sizeof(u64);
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Mike Marciniszyn 已提交
11946 11947 11948 11949 11950 11951 11952 11953 11954 11955 11956 11957 11958 11959 11960 11961 11962 11963 11964 11965 11966 11967 11968 11969 11970 11971 11972 11973 11974 11975 11976 11977 11978 11979 11980 11981 11982 11983 11984 11985 11986 11987 11988 11989 11990 11991 11992 11993
		*cntrp = ppd->cntrs;

		for (i = 0; i < PORT_CNTR_LAST; i++) {
			entry = &port_cntrs[i];
			hfi1_cdbg(CNTR, "reading %s", entry->name);
			if (entry->flags & CNTR_DISABLED) {
				/* Nothing */
				hfi1_cdbg(CNTR, "\tDisabled\n");
				continue;
			}

			if (entry->flags & CNTR_VL) {
				hfi1_cdbg(CNTR, "\tPer VL");
				for (j = 0; j < C_VL_COUNT; j++) {
					val = entry->rw_cntr(entry, ppd, j,
							       CNTR_MODE_R,
							       0);
					hfi1_cdbg(
					   CNTR,
					   "\t\tRead 0x%llx for %d",
					   val, j);
					ppd->cntrs[entry->offset + j] = val;
				}
			} else {
				val = entry->rw_cntr(entry, ppd,
						       CNTR_INVALID_VL,
						       CNTR_MODE_R,
						       0);
				ppd->cntrs[entry->offset] = val;
				hfi1_cdbg(CNTR, "\tRead 0x%llx", val);
			}
		}
	}
	return ret;
}

static void free_cntrs(struct hfi1_devdata *dd)
{
	struct hfi1_pportdata *ppd;
	int i;

	if (dd->synth_stats_timer.data)
		del_timer_sync(&dd->synth_stats_timer);
	dd->synth_stats_timer.data = 0;
	ppd = (struct hfi1_pportdata *)(dd + 1);
	for (i = 0; i < dd->num_pports; i++, ppd++) {
		kfree(ppd->cntrs);
		kfree(ppd->scntrs);
11994 11995 11996
		free_percpu(ppd->ibport_data.rvp.rc_acks);
		free_percpu(ppd->ibport_data.rvp.rc_qacks);
		free_percpu(ppd->ibport_data.rvp.rc_delayed_comp);
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Mike Marciniszyn 已提交
11997 11998
		ppd->cntrs = NULL;
		ppd->scntrs = NULL;
11999 12000 12001
		ppd->ibport_data.rvp.rc_acks = NULL;
		ppd->ibport_data.rvp.rc_qacks = NULL;
		ppd->ibport_data.rvp.rc_delayed_comp = NULL;
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	}
	kfree(dd->portcntrnames);
	dd->portcntrnames = NULL;
	kfree(dd->cntrs);
	dd->cntrs = NULL;
	kfree(dd->scntrs);
	dd->scntrs = NULL;
	kfree(dd->cntrnames);
	dd->cntrnames = NULL;
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	if (dd->update_cntr_wq) {
		destroy_workqueue(dd->update_cntr_wq);
		dd->update_cntr_wq = NULL;
	}
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}

static u64 read_dev_port_cntr(struct hfi1_devdata *dd, struct cntr_entry *entry,
			      u64 *psval, void *context, int vl)
{
	u64 val;
	u64 sval = *psval;

	if (entry->flags & CNTR_DISABLED) {
		dd_dev_err(dd, "Counter %s not enabled", entry->name);
		return 0;
	}

	hfi1_cdbg(CNTR, "cntr: %s vl %d psval 0x%llx", entry->name, vl, *psval);

	val = entry->rw_cntr(entry, context, vl, CNTR_MODE_R, 0);

	/* If its a synthetic counter there is more work we need to do */
	if (entry->flags & CNTR_SYNTH) {
		if (sval == CNTR_MAX) {
			/* No need to read already saturated */
			return CNTR_MAX;
		}

		if (entry->flags & CNTR_32BIT) {
			/* 32bit counters can wrap multiple times */
			u64 upper = sval >> 32;
			u64 lower = (sval << 32) >> 32;

			if (lower > val) { /* hw wrapped */
				if (upper == CNTR_32BIT_MAX)
					val = CNTR_MAX;
				else
					upper++;
			}

			if (val != CNTR_MAX)
				val = (upper << 32) | val;

		} else {
			/* If we rolled we are saturated */
			if ((val < sval) || (val > CNTR_MAX))
				val = CNTR_MAX;
		}
	}

	*psval = val;

	hfi1_cdbg(CNTR, "\tNew val=0x%llx", val);

	return val;
}

static u64 write_dev_port_cntr(struct hfi1_devdata *dd,
			       struct cntr_entry *entry,
			       u64 *psval, void *context, int vl, u64 data)
{
	u64 val;

	if (entry->flags & CNTR_DISABLED) {
		dd_dev_err(dd, "Counter %s not enabled", entry->name);
		return 0;
	}

	hfi1_cdbg(CNTR, "cntr: %s vl %d psval 0x%llx", entry->name, vl, *psval);

	if (entry->flags & CNTR_SYNTH) {
		*psval = data;
		if (entry->flags & CNTR_32BIT) {
			val = entry->rw_cntr(entry, context, vl, CNTR_MODE_W,
					     (data << 32) >> 32);
			val = data; /* return the full 64bit value */
		} else {
			val = entry->rw_cntr(entry, context, vl, CNTR_MODE_W,
					     data);
		}
	} else {
		val = entry->rw_cntr(entry, context, vl, CNTR_MODE_W, data);
	}

	*psval = val;

	hfi1_cdbg(CNTR, "\tNew val=0x%llx", val);

	return val;
}

u64 read_dev_cntr(struct hfi1_devdata *dd, int index, int vl)
{
	struct cntr_entry *entry;
	u64 *sval;

	entry = &dev_cntrs[index];
	sval = dd->scntrs + entry->offset;

	if (vl != CNTR_INVALID_VL)
		sval += vl;

	return read_dev_port_cntr(dd, entry, sval, dd, vl);
}

u64 write_dev_cntr(struct hfi1_devdata *dd, int index, int vl, u64 data)
{
	struct cntr_entry *entry;
	u64 *sval;

	entry = &dev_cntrs[index];
	sval = dd->scntrs + entry->offset;

	if (vl != CNTR_INVALID_VL)
		sval += vl;

	return write_dev_port_cntr(dd, entry, sval, dd, vl, data);
}

u64 read_port_cntr(struct hfi1_pportdata *ppd, int index, int vl)
{
	struct cntr_entry *entry;
	u64 *sval;

	entry = &port_cntrs[index];
	sval = ppd->scntrs + entry->offset;

	if (vl != CNTR_INVALID_VL)
		sval += vl;

	if ((index >= C_RCV_HDR_OVF_FIRST + ppd->dd->num_rcv_contexts) &&
	    (index <= C_RCV_HDR_OVF_LAST)) {
		/* We do not want to bother for disabled contexts */
		return 0;
	}

	return read_dev_port_cntr(ppd->dd, entry, sval, ppd, vl);
}

u64 write_port_cntr(struct hfi1_pportdata *ppd, int index, int vl, u64 data)
{
	struct cntr_entry *entry;
	u64 *sval;

	entry = &port_cntrs[index];
	sval = ppd->scntrs + entry->offset;

	if (vl != CNTR_INVALID_VL)
		sval += vl;

	if ((index >= C_RCV_HDR_OVF_FIRST + ppd->dd->num_rcv_contexts) &&
	    (index <= C_RCV_HDR_OVF_LAST)) {
		/* We do not want to bother for disabled contexts */
		return 0;
	}

	return write_dev_port_cntr(ppd->dd, entry, sval, ppd, vl, data);
}

T
Tadeusz Struk 已提交
12170
static void do_update_synth_timer(struct work_struct *work)
M
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12171 12172 12173 12174 12175 12176 12177 12178
{
	u64 cur_tx;
	u64 cur_rx;
	u64 total_flits;
	u8 update = 0;
	int i, j, vl;
	struct hfi1_pportdata *ppd;
	struct cntr_entry *entry;
T
Tadeusz Struk 已提交
12179 12180
	struct hfi1_devdata *dd = container_of(work, struct hfi1_devdata,
					       update_cntr_work);
M
Mike Marciniszyn 已提交
12181 12182 12183 12184 12185 12186 12187 12188 12189 12190 12191 12192 12193 12194 12195 12196 12197 12198 12199 12200 12201 12202 12203 12204 12205 12206 12207 12208 12209 12210 12211 12212 12213 12214 12215 12216 12217 12218 12219 12220 12221 12222 12223 12224 12225 12226 12227 12228 12229 12230 12231 12232 12233 12234 12235 12236 12237 12238 12239 12240 12241 12242 12243 12244 12245 12246 12247 12248 12249 12250 12251 12252 12253 12254 12255 12256 12257 12258 12259 12260 12261 12262

	/*
	 * Rather than keep beating on the CSRs pick a minimal set that we can
	 * check to watch for potential roll over. We can do this by looking at
	 * the number of flits sent/recv. If the total flits exceeds 32bits then
	 * we have to iterate all the counters and update.
	 */
	entry = &dev_cntrs[C_DC_RCV_FLITS];
	cur_rx = entry->rw_cntr(entry, dd, CNTR_INVALID_VL, CNTR_MODE_R, 0);

	entry = &dev_cntrs[C_DC_XMIT_FLITS];
	cur_tx = entry->rw_cntr(entry, dd, CNTR_INVALID_VL, CNTR_MODE_R, 0);

	hfi1_cdbg(
	    CNTR,
	    "[%d] curr tx=0x%llx rx=0x%llx :: last tx=0x%llx rx=0x%llx\n",
	    dd->unit, cur_tx, cur_rx, dd->last_tx, dd->last_rx);

	if ((cur_tx < dd->last_tx) || (cur_rx < dd->last_rx)) {
		/*
		 * May not be strictly necessary to update but it won't hurt and
		 * simplifies the logic here.
		 */
		update = 1;
		hfi1_cdbg(CNTR, "[%d] Tripwire counter rolled, updating",
			  dd->unit);
	} else {
		total_flits = (cur_tx - dd->last_tx) + (cur_rx - dd->last_rx);
		hfi1_cdbg(CNTR,
			  "[%d] total flits 0x%llx limit 0x%llx\n", dd->unit,
			  total_flits, (u64)CNTR_32BIT_MAX);
		if (total_flits >= CNTR_32BIT_MAX) {
			hfi1_cdbg(CNTR, "[%d] 32bit limit hit, updating",
				  dd->unit);
			update = 1;
		}
	}

	if (update) {
		hfi1_cdbg(CNTR, "[%d] Updating dd and ppd counters", dd->unit);
		for (i = 0; i < DEV_CNTR_LAST; i++) {
			entry = &dev_cntrs[i];
			if (entry->flags & CNTR_VL) {
				for (vl = 0; vl < C_VL_COUNT; vl++)
					read_dev_cntr(dd, i, vl);
			} else {
				read_dev_cntr(dd, i, CNTR_INVALID_VL);
			}
		}
		ppd = (struct hfi1_pportdata *)(dd + 1);
		for (i = 0; i < dd->num_pports; i++, ppd++) {
			for (j = 0; j < PORT_CNTR_LAST; j++) {
				entry = &port_cntrs[j];
				if (entry->flags & CNTR_VL) {
					for (vl = 0; vl < C_VL_COUNT; vl++)
						read_port_cntr(ppd, j, vl);
				} else {
					read_port_cntr(ppd, j, CNTR_INVALID_VL);
				}
			}
		}

		/*
		 * We want the value in the register. The goal is to keep track
		 * of the number of "ticks" not the counter value. In other
		 * words if the register rolls we want to notice it and go ahead
		 * and force an update.
		 */
		entry = &dev_cntrs[C_DC_XMIT_FLITS];
		dd->last_tx = entry->rw_cntr(entry, dd, CNTR_INVALID_VL,
						CNTR_MODE_R, 0);

		entry = &dev_cntrs[C_DC_RCV_FLITS];
		dd->last_rx = entry->rw_cntr(entry, dd, CNTR_INVALID_VL,
						CNTR_MODE_R, 0);

		hfi1_cdbg(CNTR, "[%d] setting last tx/rx to 0x%llx 0x%llx",
			  dd->unit, dd->last_tx, dd->last_rx);

	} else {
		hfi1_cdbg(CNTR, "[%d] No update necessary", dd->unit);
	}
T
Tadeusz Struk 已提交
12263
}
M
Mike Marciniszyn 已提交
12264

T
Tadeusz Struk 已提交
12265 12266 12267 12268 12269
static void update_synth_timer(unsigned long opaque)
{
	struct hfi1_devdata *dd = (struct hfi1_devdata *)opaque;

	queue_work(dd->update_cntr_wq, &dd->update_cntr_work);
B
Bart Van Assche 已提交
12270
	mod_timer(&dd->synth_stats_timer, jiffies + HZ * SYNTH_CNT_TIME);
M
Mike Marciniszyn 已提交
12271 12272
}

12273
#define C_MAX_NAME 16 /* 15 chars + one for /0 */
M
Mike Marciniszyn 已提交
12274 12275
static int init_cntrs(struct hfi1_devdata *dd)
{
12276
	int i, rcv_ctxts, j;
M
Mike Marciniszyn 已提交
12277 12278 12279 12280
	size_t sz;
	char *p;
	char name[C_MAX_NAME];
	struct hfi1_pportdata *ppd;
12281 12282
	const char *bit_type_32 = ",32";
	const int bit_type_32_sz = strlen(bit_type_32);
M
Mike Marciniszyn 已提交
12283 12284

	/* set up the stats timer; the add_timer is done at the end */
12285 12286
	setup_timer(&dd->synth_stats_timer, update_synth_timer,
		    (unsigned long)dd);
M
Mike Marciniszyn 已提交
12287 12288 12289 12290 12291 12292 12293 12294 12295 12296 12297 12298 12299 12300 12301 12302

	/***********************/
	/* per device counters */
	/***********************/

	/* size names and determine how many we have*/
	dd->ndevcntrs = 0;
	sz = 0;

	for (i = 0; i < DEV_CNTR_LAST; i++) {
		if (dev_cntrs[i].flags & CNTR_DISABLED) {
			hfi1_dbg_early("\tSkipping %s\n", dev_cntrs[i].name);
			continue;
		}

		if (dev_cntrs[i].flags & CNTR_VL) {
12303
			dev_cntrs[i].offset = dd->ndevcntrs;
M
Mike Marciniszyn 已提交
12304 12305
			for (j = 0; j < C_VL_COUNT; j++) {
				snprintf(name, C_MAX_NAME, "%s%d",
12306
					 dev_cntrs[i].name, vl_from_idx(j));
M
Mike Marciniszyn 已提交
12307
				sz += strlen(name);
12308 12309 12310
				/* Add ",32" for 32-bit counters */
				if (dev_cntrs[i].flags & CNTR_32BIT)
					sz += bit_type_32_sz;
M
Mike Marciniszyn 已提交
12311 12312 12313
				sz++;
				dd->ndevcntrs++;
			}
12314
		} else if (dev_cntrs[i].flags & CNTR_SDMA) {
12315
			dev_cntrs[i].offset = dd->ndevcntrs;
12316 12317 12318
			for (j = 0; j < dd->chip_sdma_engines; j++) {
				snprintf(name, C_MAX_NAME, "%s%d",
					 dev_cntrs[i].name, j);
M
Mike Marciniszyn 已提交
12319
				sz += strlen(name);
12320 12321 12322
				/* Add ",32" for 32-bit counters */
				if (dev_cntrs[i].flags & CNTR_32BIT)
					sz += bit_type_32_sz;
M
Mike Marciniszyn 已提交
12323 12324 12325 12326
				sz++;
				dd->ndevcntrs++;
			}
		} else {
12327
			/* +1 for newline. */
M
Mike Marciniszyn 已提交
12328
			sz += strlen(dev_cntrs[i].name) + 1;
12329 12330 12331
			/* Add ",32" for 32-bit counters */
			if (dev_cntrs[i].flags & CNTR_32BIT)
				sz += bit_type_32_sz;
12332
			dev_cntrs[i].offset = dd->ndevcntrs;
M
Mike Marciniszyn 已提交
12333 12334 12335 12336 12337
			dd->ndevcntrs++;
		}
	}

	/* allocate space for the counter values */
12338
	dd->cntrs = kcalloc(dd->ndevcntrs, sizeof(u64), GFP_KERNEL);
M
Mike Marciniszyn 已提交
12339 12340 12341
	if (!dd->cntrs)
		goto bail;

12342
	dd->scntrs = kcalloc(dd->ndevcntrs, sizeof(u64), GFP_KERNEL);
M
Mike Marciniszyn 已提交
12343 12344 12345 12346 12347 12348 12349 12350 12351 12352
	if (!dd->scntrs)
		goto bail;

	/* allocate space for the counter names */
	dd->cntrnameslen = sz;
	dd->cntrnames = kmalloc(sz, GFP_KERNEL);
	if (!dd->cntrnames)
		goto bail;

	/* fill in the names */
12353
	for (p = dd->cntrnames, i = 0; i < DEV_CNTR_LAST; i++) {
M
Mike Marciniszyn 已提交
12354 12355
		if (dev_cntrs[i].flags & CNTR_DISABLED) {
			/* Nothing */
12356 12357 12358 12359 12360 12361 12362 12363 12364 12365 12366 12367
		} else if (dev_cntrs[i].flags & CNTR_VL) {
			for (j = 0; j < C_VL_COUNT; j++) {
				snprintf(name, C_MAX_NAME, "%s%d",
					 dev_cntrs[i].name,
					 vl_from_idx(j));
				memcpy(p, name, strlen(name));
				p += strlen(name);

				/* Counter is 32 bits */
				if (dev_cntrs[i].flags & CNTR_32BIT) {
					memcpy(p, bit_type_32, bit_type_32_sz);
					p += bit_type_32_sz;
M
Mike Marciniszyn 已提交
12368
				}
12369 12370 12371 12372 12373 12374 12375 12376 12377 12378 12379 12380 12381 12382

				*p++ = '\n';
			}
		} else if (dev_cntrs[i].flags & CNTR_SDMA) {
			for (j = 0; j < dd->chip_sdma_engines; j++) {
				snprintf(name, C_MAX_NAME, "%s%d",
					 dev_cntrs[i].name, j);
				memcpy(p, name, strlen(name));
				p += strlen(name);

				/* Counter is 32 bits */
				if (dev_cntrs[i].flags & CNTR_32BIT) {
					memcpy(p, bit_type_32, bit_type_32_sz);
					p += bit_type_32_sz;
12383
				}
12384

M
Mike Marciniszyn 已提交
12385 12386
				*p++ = '\n';
			}
12387 12388 12389 12390 12391 12392 12393 12394 12395 12396 12397
		} else {
			memcpy(p, dev_cntrs[i].name, strlen(dev_cntrs[i].name));
			p += strlen(dev_cntrs[i].name);

			/* Counter is 32 bits */
			if (dev_cntrs[i].flags & CNTR_32BIT) {
				memcpy(p, bit_type_32, bit_type_32_sz);
				p += bit_type_32_sz;
			}

			*p++ = '\n';
M
Mike Marciniszyn 已提交
12398 12399 12400 12401 12402 12403 12404 12405 12406 12407 12408 12409 12410 12411 12412 12413 12414 12415 12416 12417 12418 12419 12420 12421 12422 12423 12424 12425 12426 12427 12428
		}
	}

	/*********************/
	/* per port counters */
	/*********************/

	/*
	 * Go through the counters for the overflows and disable the ones we
	 * don't need. This varies based on platform so we need to do it
	 * dynamically here.
	 */
	rcv_ctxts = dd->num_rcv_contexts;
	for (i = C_RCV_HDR_OVF_FIRST + rcv_ctxts;
	     i <= C_RCV_HDR_OVF_LAST; i++) {
		port_cntrs[i].flags |= CNTR_DISABLED;
	}

	/* size port counter names and determine how many we have*/
	sz = 0;
	dd->nportcntrs = 0;
	for (i = 0; i < PORT_CNTR_LAST; i++) {
		if (port_cntrs[i].flags & CNTR_DISABLED) {
			hfi1_dbg_early("\tSkipping %s\n", port_cntrs[i].name);
			continue;
		}

		if (port_cntrs[i].flags & CNTR_VL) {
			port_cntrs[i].offset = dd->nportcntrs;
			for (j = 0; j < C_VL_COUNT; j++) {
				snprintf(name, C_MAX_NAME, "%s%d",
12429
					 port_cntrs[i].name, vl_from_idx(j));
M
Mike Marciniszyn 已提交
12430
				sz += strlen(name);
12431 12432 12433
				/* Add ",32" for 32-bit counters */
				if (port_cntrs[i].flags & CNTR_32BIT)
					sz += bit_type_32_sz;
M
Mike Marciniszyn 已提交
12434 12435 12436 12437
				sz++;
				dd->nportcntrs++;
			}
		} else {
12438
			/* +1 for newline */
M
Mike Marciniszyn 已提交
12439
			sz += strlen(port_cntrs[i].name) + 1;
12440 12441 12442
			/* Add ",32" for 32-bit counters */
			if (port_cntrs[i].flags & CNTR_32BIT)
				sz += bit_type_32_sz;
M
Mike Marciniszyn 已提交
12443 12444 12445 12446 12447 12448 12449 12450 12451 12452 12453 12454 12455 12456 12457 12458 12459 12460 12461
			port_cntrs[i].offset = dd->nportcntrs;
			dd->nportcntrs++;
		}
	}

	/* allocate space for the counter names */
	dd->portcntrnameslen = sz;
	dd->portcntrnames = kmalloc(sz, GFP_KERNEL);
	if (!dd->portcntrnames)
		goto bail;

	/* fill in port cntr names */
	for (p = dd->portcntrnames, i = 0; i < PORT_CNTR_LAST; i++) {
		if (port_cntrs[i].flags & CNTR_DISABLED)
			continue;

		if (port_cntrs[i].flags & CNTR_VL) {
			for (j = 0; j < C_VL_COUNT; j++) {
				snprintf(name, C_MAX_NAME, "%s%d",
12462
					 port_cntrs[i].name, vl_from_idx(j));
M
Mike Marciniszyn 已提交
12463 12464
				memcpy(p, name, strlen(name));
				p += strlen(name);
12465 12466 12467 12468 12469 12470 12471

				/* Counter is 32 bits */
				if (port_cntrs[i].flags & CNTR_32BIT) {
					memcpy(p, bit_type_32, bit_type_32_sz);
					p += bit_type_32_sz;
				}

M
Mike Marciniszyn 已提交
12472 12473 12474 12475 12476 12477
				*p++ = '\n';
			}
		} else {
			memcpy(p, port_cntrs[i].name,
			       strlen(port_cntrs[i].name));
			p += strlen(port_cntrs[i].name);
12478 12479 12480 12481 12482 12483 12484

			/* Counter is 32 bits */
			if (port_cntrs[i].flags & CNTR_32BIT) {
				memcpy(p, bit_type_32, bit_type_32_sz);
				p += bit_type_32_sz;
			}

M
Mike Marciniszyn 已提交
12485 12486 12487 12488 12489 12490 12491 12492 12493 12494 12495 12496 12497 12498 12499 12500 12501 12502 12503 12504
			*p++ = '\n';
		}
	}

	/* allocate per port storage for counter values */
	ppd = (struct hfi1_pportdata *)(dd + 1);
	for (i = 0; i < dd->num_pports; i++, ppd++) {
		ppd->cntrs = kcalloc(dd->nportcntrs, sizeof(u64), GFP_KERNEL);
		if (!ppd->cntrs)
			goto bail;

		ppd->scntrs = kcalloc(dd->nportcntrs, sizeof(u64), GFP_KERNEL);
		if (!ppd->scntrs)
			goto bail;
	}

	/* CPU counters need to be allocated and zeroed */
	if (init_cpu_counters(dd))
		goto bail;

T
Tadeusz Struk 已提交
12505 12506 12507 12508 12509 12510 12511
	dd->update_cntr_wq = alloc_ordered_workqueue("hfi1_update_cntr_%d",
						     WQ_MEM_RECLAIM, dd->unit);
	if (!dd->update_cntr_wq)
		goto bail;

	INIT_WORK(&dd->update_cntr_work, do_update_synth_timer);

M
Mike Marciniszyn 已提交
12512 12513 12514 12515 12516 12517 12518 12519 12520 12521 12522 12523
	mod_timer(&dd->synth_stats_timer, jiffies + HZ * SYNTH_CNT_TIME);
	return 0;
bail:
	free_cntrs(dd);
	return -ENOMEM;
}

static u32 chip_to_opa_lstate(struct hfi1_devdata *dd, u32 chip_lstate)
{
	switch (chip_lstate) {
	default:
		dd_dev_err(dd,
12524 12525
			   "Unknown logical state 0x%x, reporting IB_PORT_DOWN\n",
			   chip_lstate);
M
Mike Marciniszyn 已提交
12526 12527 12528 12529 12530 12531 12532 12533 12534 12535 12536 12537 12538 12539 12540 12541 12542 12543
		/* fall through */
	case LSTATE_DOWN:
		return IB_PORT_DOWN;
	case LSTATE_INIT:
		return IB_PORT_INIT;
	case LSTATE_ARMED:
		return IB_PORT_ARMED;
	case LSTATE_ACTIVE:
		return IB_PORT_ACTIVE;
	}
}

u32 chip_to_opa_pstate(struct hfi1_devdata *dd, u32 chip_pstate)
{
	/* look at the HFI meta-states only */
	switch (chip_pstate & 0xf0) {
	default:
		dd_dev_err(dd, "Unexpected chip physical state of 0x%x\n",
12544
			   chip_pstate);
M
Mike Marciniszyn 已提交
12545 12546 12547 12548 12549 12550 12551 12552 12553 12554 12555 12556 12557 12558 12559 12560 12561 12562 12563 12564 12565 12566 12567 12568 12569 12570 12571 12572 12573 12574 12575 12576 12577 12578 12579 12580 12581 12582 12583 12584 12585 12586 12587 12588 12589 12590 12591 12592 12593 12594 12595 12596 12597 12598 12599 12600 12601 12602 12603 12604 12605 12606 12607 12608 12609
		/* fall through */
	case PLS_DISABLED:
		return IB_PORTPHYSSTATE_DISABLED;
	case PLS_OFFLINE:
		return OPA_PORTPHYSSTATE_OFFLINE;
	case PLS_POLLING:
		return IB_PORTPHYSSTATE_POLLING;
	case PLS_CONFIGPHY:
		return IB_PORTPHYSSTATE_TRAINING;
	case PLS_LINKUP:
		return IB_PORTPHYSSTATE_LINKUP;
	case PLS_PHYTEST:
		return IB_PORTPHYSSTATE_PHY_TEST;
	}
}

/* return the OPA port logical state name */
const char *opa_lstate_name(u32 lstate)
{
	static const char * const port_logical_names[] = {
		"PORT_NOP",
		"PORT_DOWN",
		"PORT_INIT",
		"PORT_ARMED",
		"PORT_ACTIVE",
		"PORT_ACTIVE_DEFER",
	};
	if (lstate < ARRAY_SIZE(port_logical_names))
		return port_logical_names[lstate];
	return "unknown";
}

/* return the OPA port physical state name */
const char *opa_pstate_name(u32 pstate)
{
	static const char * const port_physical_names[] = {
		"PHYS_NOP",
		"reserved1",
		"PHYS_POLL",
		"PHYS_DISABLED",
		"PHYS_TRAINING",
		"PHYS_LINKUP",
		"PHYS_LINK_ERR_RECOVER",
		"PHYS_PHY_TEST",
		"reserved8",
		"PHYS_OFFLINE",
		"PHYS_GANGED",
		"PHYS_TEST",
	};
	if (pstate < ARRAY_SIZE(port_physical_names))
		return port_physical_names[pstate];
	return "unknown";
}

/*
 * Read the hardware link state and set the driver's cached value of it.
 * Return the (new) current value.
 */
u32 get_logical_state(struct hfi1_pportdata *ppd)
{
	u32 new_state;

	new_state = chip_to_opa_lstate(ppd->dd, read_logical_state(ppd->dd));
	if (new_state != ppd->lstate) {
		dd_dev_info(ppd->dd, "logical state changed to %s (0x%x)\n",
12610
			    opa_lstate_name(new_state), new_state);
M
Mike Marciniszyn 已提交
12611 12612 12613 12614 12615 12616 12617 12618 12619 12620 12621 12622 12623 12624 12625 12626 12627 12628 12629 12630 12631 12632 12633 12634 12635 12636 12637 12638 12639 12640 12641 12642 12643 12644 12645 12646 12647 12648 12649 12650 12651 12652 12653 12654 12655 12656 12657 12658 12659 12660 12661 12662 12663 12664 12665 12666 12667 12668 12669 12670 12671 12672 12673
		ppd->lstate = new_state;
	}
	/*
	 * Set port status flags in the page mapped into userspace
	 * memory. Do it here to ensure a reliable state - this is
	 * the only function called by all state handling code.
	 * Always set the flags due to the fact that the cache value
	 * might have been changed explicitly outside of this
	 * function.
	 */
	if (ppd->statusp) {
		switch (ppd->lstate) {
		case IB_PORT_DOWN:
		case IB_PORT_INIT:
			*ppd->statusp &= ~(HFI1_STATUS_IB_CONF |
					   HFI1_STATUS_IB_READY);
			break;
		case IB_PORT_ARMED:
			*ppd->statusp |= HFI1_STATUS_IB_CONF;
			break;
		case IB_PORT_ACTIVE:
			*ppd->statusp |= HFI1_STATUS_IB_READY;
			break;
		}
	}
	return ppd->lstate;
}

/**
 * wait_logical_linkstate - wait for an IB link state change to occur
 * @ppd: port device
 * @state: the state to wait for
 * @msecs: the number of milliseconds to wait
 *
 * Wait up to msecs milliseconds for IB link state change to occur.
 * For now, take the easy polling route.
 * Returns 0 if state reached, otherwise -ETIMEDOUT.
 */
static int wait_logical_linkstate(struct hfi1_pportdata *ppd, u32 state,
				  int msecs)
{
	unsigned long timeout;

	timeout = jiffies + msecs_to_jiffies(msecs);
	while (1) {
		if (get_logical_state(ppd) == state)
			return 0;
		if (time_after(jiffies, timeout))
			break;
		msleep(20);
	}
	dd_dev_err(ppd->dd, "timeout waiting for link state 0x%x\n", state);

	return -ETIMEDOUT;
}

u8 hfi1_ibphys_portstate(struct hfi1_pportdata *ppd)
{
	u32 pstate;
	u32 ib_pstate;

	pstate = read_physical_state(ppd->dd);
	ib_pstate = chip_to_opa_pstate(ppd->dd, pstate);
12674
	if (ppd->last_pstate != ib_pstate) {
M
Mike Marciniszyn 已提交
12675
		dd_dev_info(ppd->dd,
12676 12677 12678
			    "%s: physical state changed to %s (0x%x), phy 0x%x\n",
			    __func__, opa_pstate_name(ib_pstate), ib_pstate,
			    pstate);
12679
		ppd->last_pstate = ib_pstate;
M
Mike Marciniszyn 已提交
12680 12681 12682 12683 12684 12685 12686 12687 12688 12689 12690 12691
	}
	return ib_pstate;
}

#define CLEAR_STATIC_RATE_CONTROL_SMASK(r) \
(r &= ~SEND_CTXT_CHECK_ENABLE_DISALLOW_PBC_STATIC_RATE_CONTROL_SMASK)

#define SET_STATIC_RATE_CONTROL_SMASK(r) \
(r |= SEND_CTXT_CHECK_ENABLE_DISALLOW_PBC_STATIC_RATE_CONTROL_SMASK)

int hfi1_init_ctxt(struct send_context *sc)
{
12692
	if (sc) {
M
Mike Marciniszyn 已提交
12693 12694 12695 12696 12697 12698 12699 12700 12701 12702 12703 12704 12705 12706 12707 12708 12709 12710 12711 12712 12713 12714 12715 12716 12717 12718 12719 12720 12721 12722 12723 12724 12725 12726 12727 12728 12729 12730 12731 12732 12733 12734 12735 12736 12737 12738 12739 12740 12741 12742 12743 12744 12745 12746 12747 12748 12749 12750
		struct hfi1_devdata *dd = sc->dd;
		u64 reg;
		u8 set = (sc->type == SC_USER ?
			  HFI1_CAP_IS_USET(STATIC_RATE_CTRL) :
			  HFI1_CAP_IS_KSET(STATIC_RATE_CTRL));
		reg = read_kctxt_csr(dd, sc->hw_context,
				     SEND_CTXT_CHECK_ENABLE);
		if (set)
			CLEAR_STATIC_RATE_CONTROL_SMASK(reg);
		else
			SET_STATIC_RATE_CONTROL_SMASK(reg);
		write_kctxt_csr(dd, sc->hw_context,
				SEND_CTXT_CHECK_ENABLE, reg);
	}
	return 0;
}

int hfi1_tempsense_rd(struct hfi1_devdata *dd, struct hfi1_temp *temp)
{
	int ret = 0;
	u64 reg;

	if (dd->icode != ICODE_RTL_SILICON) {
		if (HFI1_CAP_IS_KSET(PRINT_UNIMPL))
			dd_dev_info(dd, "%s: tempsense not supported by HW\n",
				    __func__);
		return -EINVAL;
	}
	reg = read_csr(dd, ASIC_STS_THERM);
	temp->curr = ((reg >> ASIC_STS_THERM_CURR_TEMP_SHIFT) &
		      ASIC_STS_THERM_CURR_TEMP_MASK);
	temp->lo_lim = ((reg >> ASIC_STS_THERM_LO_TEMP_SHIFT) &
			ASIC_STS_THERM_LO_TEMP_MASK);
	temp->hi_lim = ((reg >> ASIC_STS_THERM_HI_TEMP_SHIFT) &
			ASIC_STS_THERM_HI_TEMP_MASK);
	temp->crit_lim = ((reg >> ASIC_STS_THERM_CRIT_TEMP_SHIFT) &
			  ASIC_STS_THERM_CRIT_TEMP_MASK);
	/* triggers is a 3-bit value - 1 bit per trigger. */
	temp->triggers = (u8)((reg >> ASIC_STS_THERM_LOW_SHIFT) & 0x7);

	return ret;
}

/* ========================================================================= */

/*
 * Enable/disable chip from delivering interrupts.
 */
void set_intr_state(struct hfi1_devdata *dd, u32 enable)
{
	int i;

	/*
	 * In HFI, the mask needs to be 1 to allow interrupts.
	 */
	if (enable) {
		/* enable all interrupts */
		for (i = 0; i < CCE_NUM_INT_CSRS; i++)
12751
			write_csr(dd, CCE_INT_MASK + (8 * i), ~(u64)0);
M
Mike Marciniszyn 已提交
12752

12753
		init_qsfp_int(dd);
M
Mike Marciniszyn 已提交
12754 12755
	} else {
		for (i = 0; i < CCE_NUM_INT_CSRS; i++)
12756
			write_csr(dd, CCE_INT_MASK + (8 * i), 0ull);
M
Mike Marciniszyn 已提交
12757 12758 12759 12760 12761 12762 12763 12764 12765 12766 12767
	}
}

/*
 * Clear all interrupt sources on the chip.
 */
static void clear_all_interrupts(struct hfi1_devdata *dd)
{
	int i;

	for (i = 0; i < CCE_NUM_INT_CSRS; i++)
12768
		write_csr(dd, CCE_INT_CLEAR + (8 * i), ~(u64)0);
M
Mike Marciniszyn 已提交
12769 12770 12771 12772 12773 12774 12775 12776 12777 12778 12779 12780 12781 12782 12783 12784 12785 12786 12787 12788 12789 12790 12791 12792 12793 12794 12795 12796 12797 12798 12799 12800 12801 12802

	write_csr(dd, CCE_ERR_CLEAR, ~(u64)0);
	write_csr(dd, MISC_ERR_CLEAR, ~(u64)0);
	write_csr(dd, RCV_ERR_CLEAR, ~(u64)0);
	write_csr(dd, SEND_ERR_CLEAR, ~(u64)0);
	write_csr(dd, SEND_PIO_ERR_CLEAR, ~(u64)0);
	write_csr(dd, SEND_DMA_ERR_CLEAR, ~(u64)0);
	write_csr(dd, SEND_EGRESS_ERR_CLEAR, ~(u64)0);
	for (i = 0; i < dd->chip_send_contexts; i++)
		write_kctxt_csr(dd, i, SEND_CTXT_ERR_CLEAR, ~(u64)0);
	for (i = 0; i < dd->chip_sdma_engines; i++)
		write_kctxt_csr(dd, i, SEND_DMA_ENG_ERR_CLEAR, ~(u64)0);

	write_csr(dd, DCC_ERR_FLG_CLR, ~(u64)0);
	write_csr(dd, DC_LCB_ERR_CLR, ~(u64)0);
	write_csr(dd, DC_DC8051_ERR_CLR, ~(u64)0);
}

/* Move to pcie.c? */
static void disable_intx(struct pci_dev *pdev)
{
	pci_intx(pdev, 0);
}

static void clean_up_interrupts(struct hfi1_devdata *dd)
{
	int i;

	/* remove irqs - must happen before disabling/turning off */
	if (dd->num_msix_entries) {
		/* MSI-X */
		struct hfi1_msix_entry *me = dd->msix_entries;

		for (i = 0; i < dd->num_msix_entries; i++, me++) {
12803
			if (!me->arg) /* => no irq, no affinity */
12804 12805
				continue;
			hfi1_put_irq_affinity(dd, &dd->msix_entries[i]);
M
Mike Marciniszyn 已提交
12806 12807 12808 12809 12810 12811 12812 12813 12814 12815 12816 12817 12818
			free_irq(me->msix.vector, me->arg);
		}
	} else {
		/* INTx */
		if (dd->requested_intx_irq) {
			free_irq(dd->pcidev->irq, dd);
			dd->requested_intx_irq = 0;
		}
	}

	/* turn off interrupts */
	if (dd->num_msix_entries) {
		/* MSI-X */
12819
		pci_disable_msix(dd->pcidev);
M
Mike Marciniszyn 已提交
12820 12821 12822 12823 12824 12825 12826 12827 12828 12829 12830 12831 12832 12833 12834 12835 12836 12837 12838 12839 12840 12841 12842 12843 12844 12845 12846 12847
	} else {
		/* INTx */
		disable_intx(dd->pcidev);
	}

	/* clean structures */
	kfree(dd->msix_entries);
	dd->msix_entries = NULL;
	dd->num_msix_entries = 0;
}

/*
 * Remap the interrupt source from the general handler to the given MSI-X
 * interrupt.
 */
static void remap_intr(struct hfi1_devdata *dd, int isrc, int msix_intr)
{
	u64 reg;
	int m, n;

	/* clear from the handled mask of the general interrupt */
	m = isrc / 64;
	n = isrc % 64;
	dd->gi_mask[m] &= ~((u64)1 << n);

	/* direct the chip source to the given MSI-X interrupt */
	m = isrc / 8;
	n = isrc % 8;
12848 12849 12850 12851
	reg = read_csr(dd, CCE_INT_MAP + (8 * m));
	reg &= ~((u64)0xff << (8 * n));
	reg |= ((u64)msix_intr & 0xff) << (8 * n);
	write_csr(dd, CCE_INT_MAP + (8 * m), reg);
M
Mike Marciniszyn 已提交
12852 12853 12854 12855 12856 12857 12858 12859 12860 12861 12862 12863
}

static void remap_sdma_interrupts(struct hfi1_devdata *dd,
				  int engine, int msix_intr)
{
	/*
	 * SDMA engine interrupt sources grouped by type, rather than
	 * engine.  Per-engine interrupts are as follows:
	 *	SDMA
	 *	SDMAProgress
	 *	SDMAIdle
	 */
12864
	remap_intr(dd, IS_SDMA_START + 0 * TXE_NUM_SDMA_ENGINES + engine,
12865
		   msix_intr);
12866
	remap_intr(dd, IS_SDMA_START + 1 * TXE_NUM_SDMA_ENGINES + engine,
12867
		   msix_intr);
12868
	remap_intr(dd, IS_SDMA_START + 2 * TXE_NUM_SDMA_ENGINES + engine,
12869
		   msix_intr);
M
Mike Marciniszyn 已提交
12870 12871 12872 12873 12874 12875
}

static int request_intx_irq(struct hfi1_devdata *dd)
{
	int ret;

12876 12877
	snprintf(dd->intx_name, sizeof(dd->intx_name), DRIVER_NAME "_%d",
		 dd->unit);
M
Mike Marciniszyn 已提交
12878
	ret = request_irq(dd->pcidev->irq, general_interrupt,
12879
			  IRQF_SHARED, dd->intx_name, dd);
M
Mike Marciniszyn 已提交
12880 12881
	if (ret)
		dd_dev_err(dd, "unable to request INTx interrupt, err %d\n",
12882
			   ret);
M
Mike Marciniszyn 已提交
12883 12884 12885 12886 12887 12888 12889 12890 12891 12892
	else
		dd->requested_intx_irq = 1;
	return ret;
}

static int request_msix_irqs(struct hfi1_devdata *dd)
{
	int first_general, last_general;
	int first_sdma, last_sdma;
	int first_rx, last_rx;
12893
	int i, ret = 0;
M
Mike Marciniszyn 已提交
12894 12895 12896

	/* calculate the ranges we are going to use */
	first_general = 0;
12897 12898 12899 12900
	last_general = first_general + 1;
	first_sdma = last_general;
	last_sdma = first_sdma + dd->num_sdma;
	first_rx = last_sdma;
12901 12902 12903 12904
	last_rx = first_rx + dd->n_krcv_queues + HFI1_NUM_VNIC_CTXT;

	/* VNIC MSIx interrupts get mapped when VNIC contexts are created */
	dd->first_dyn_msix_idx = first_rx + dd->n_krcv_queues;
M
Mike Marciniszyn 已提交
12905 12906 12907 12908 12909 12910 12911 12912 12913 12914 12915 12916

	/*
	 * Sanity check - the code expects all SDMA chip source
	 * interrupts to be in the same CSR, starting at bit 0.  Verify
	 * that this is true by checking the bit location of the start.
	 */
	BUILD_BUG_ON(IS_SDMA_START % 64);

	for (i = 0; i < dd->num_msix_entries; i++) {
		struct hfi1_msix_entry *me = &dd->msix_entries[i];
		const char *err_info;
		irq_handler_t handler;
12917
		irq_handler_t thread = NULL;
12918
		void *arg = NULL;
M
Mike Marciniszyn 已提交
12919 12920 12921 12922 12923 12924 12925 12926 12927 12928
		int idx;
		struct hfi1_ctxtdata *rcd = NULL;
		struct sdma_engine *sde = NULL;

		/* obtain the arguments to request_irq */
		if (first_general <= i && i < last_general) {
			idx = i - first_general;
			handler = general_interrupt;
			arg = dd;
			snprintf(me->name, sizeof(me->name),
12929
				 DRIVER_NAME "_%d", dd->unit);
M
Mike Marciniszyn 已提交
12930
			err_info = "general";
12931
			me->type = IRQ_GENERAL;
M
Mike Marciniszyn 已提交
12932 12933 12934 12935 12936 12937
		} else if (first_sdma <= i && i < last_sdma) {
			idx = i - first_sdma;
			sde = &dd->per_sdma[idx];
			handler = sdma_interrupt;
			arg = sde;
			snprintf(me->name, sizeof(me->name),
12938
				 DRIVER_NAME "_%d sdma%d", dd->unit, idx);
M
Mike Marciniszyn 已提交
12939 12940
			err_info = "sdma";
			remap_sdma_interrupts(dd, idx, i);
12941
			me->type = IRQ_SDMA;
M
Mike Marciniszyn 已提交
12942 12943 12944
		} else if (first_rx <= i && i < last_rx) {
			idx = i - first_rx;
			rcd = dd->rcd[idx];
12945 12946 12947 12948 12949 12950 12951 12952 12953 12954 12955 12956 12957 12958 12959 12960 12961 12962 12963
			if (rcd) {
				/*
				 * Set the interrupt register and mask for this
				 * context's interrupt.
				 */
				rcd->ireg = (IS_RCVAVAIL_START + idx) / 64;
				rcd->imask = ((u64)1) <<
					  ((IS_RCVAVAIL_START + idx) % 64);
				handler = receive_context_interrupt;
				thread = receive_context_thread;
				arg = rcd;
				snprintf(me->name, sizeof(me->name),
					 DRIVER_NAME "_%d kctxt%d",
					 dd->unit, idx);
				err_info = "receive context";
				remap_intr(dd, IS_RCVAVAIL_START + idx, i);
				me->type = IRQ_RCVCTXT;
				rcd->msix_intr = i;
			}
M
Mike Marciniszyn 已提交
12964 12965
		} else {
			/* not in our expected range - complain, then
12966 12967
			 * ignore it
			 */
M
Mike Marciniszyn 已提交
12968
			dd_dev_err(dd,
12969
				   "Unexpected extra MSI-X interrupt %d\n", i);
M
Mike Marciniszyn 已提交
12970 12971 12972
			continue;
		}
		/* no argument, no interrupt */
12973
		if (!arg)
M
Mike Marciniszyn 已提交
12974 12975
			continue;
		/* make sure the name is terminated */
12976
		me->name[sizeof(me->name) - 1] = 0;
M
Mike Marciniszyn 已提交
12977

12978
		ret = request_threaded_irq(me->msix.vector, handler, thread, 0,
12979
					   me->name, arg);
M
Mike Marciniszyn 已提交
12980 12981
		if (ret) {
			dd_dev_err(dd,
12982 12983
				   "unable to allocate %s interrupt, vector %d, index %d, err %d\n",
				   err_info, me->msix.vector, idx, ret);
M
Mike Marciniszyn 已提交
12984 12985 12986 12987 12988 12989 12990 12991
			return ret;
		}
		/*
		 * assign arg after request_irq call, so it will be
		 * cleaned up
		 */
		me->arg = arg;

12992 12993 12994 12995
		ret = hfi1_get_irq_affinity(dd, me);
		if (ret)
			dd_dev_err(dd,
				   "unable to pin IRQ %d\n", ret);
M
Mike Marciniszyn 已提交
12996 12997 12998 12999 13000
	}

	return ret;
}

13001 13002 13003 13004 13005 13006 13007 13008 13009 13010 13011 13012 13013 13014 13015 13016 13017 13018 13019 13020 13021 13022 13023 13024 13025 13026 13027 13028 13029 13030 13031 13032 13033 13034 13035 13036 13037 13038 13039 13040 13041 13042 13043 13044 13045 13046 13047 13048 13049 13050 13051 13052 13053 13054 13055 13056 13057 13058 13059 13060 13061 13062 13063 13064 13065 13066 13067 13068 13069 13070 13071 13072 13073 13074 13075 13076 13077 13078
void hfi1_vnic_synchronize_irq(struct hfi1_devdata *dd)
{
	int i;

	if (!dd->num_msix_entries) {
		synchronize_irq(dd->pcidev->irq);
		return;
	}

	for (i = 0; i < dd->vnic.num_ctxt; i++) {
		struct hfi1_ctxtdata *rcd = dd->vnic.ctxt[i];
		struct hfi1_msix_entry *me = &dd->msix_entries[rcd->msix_intr];

		synchronize_irq(me->msix.vector);
	}
}

void hfi1_reset_vnic_msix_info(struct hfi1_ctxtdata *rcd)
{
	struct hfi1_devdata *dd = rcd->dd;
	struct hfi1_msix_entry *me = &dd->msix_entries[rcd->msix_intr];

	if (!me->arg) /* => no irq, no affinity */
		return;

	hfi1_put_irq_affinity(dd, me);
	free_irq(me->msix.vector, me->arg);

	me->arg = NULL;
}

void hfi1_set_vnic_msix_info(struct hfi1_ctxtdata *rcd)
{
	struct hfi1_devdata *dd = rcd->dd;
	struct hfi1_msix_entry *me;
	int idx = rcd->ctxt;
	void *arg = rcd;
	int ret;

	rcd->msix_intr = dd->vnic.msix_idx++;
	me = &dd->msix_entries[rcd->msix_intr];

	/*
	 * Set the interrupt register and mask for this
	 * context's interrupt.
	 */
	rcd->ireg = (IS_RCVAVAIL_START + idx) / 64;
	rcd->imask = ((u64)1) <<
		  ((IS_RCVAVAIL_START + idx) % 64);

	snprintf(me->name, sizeof(me->name),
		 DRIVER_NAME "_%d kctxt%d", dd->unit, idx);
	me->name[sizeof(me->name) - 1] = 0;
	me->type = IRQ_RCVCTXT;

	remap_intr(dd, IS_RCVAVAIL_START + idx, rcd->msix_intr);

	ret = request_threaded_irq(me->msix.vector, receive_context_interrupt,
				   receive_context_thread, 0, me->name, arg);
	if (ret) {
		dd_dev_err(dd, "vnic irq request (vector %d, idx %d) fail %d\n",
			   me->msix.vector, idx, ret);
		return;
	}
	/*
	 * assign arg after request_irq call, so it will be
	 * cleaned up
	 */
	me->arg = arg;

	ret = hfi1_get_irq_affinity(dd, me);
	if (ret) {
		dd_dev_err(dd,
			   "unable to pin IRQ %d\n", ret);
		free_irq(me->msix.vector, me->arg);
	}
}

M
Mike Marciniszyn 已提交
13079 13080 13081 13082 13083 13084 13085 13086 13087 13088 13089 13090 13091 13092
/*
 * Set the general handler to accept all interrupts, remap all
 * chip interrupts back to MSI-X 0.
 */
static void reset_interrupts(struct hfi1_devdata *dd)
{
	int i;

	/* all interrupts handled by the general handler */
	for (i = 0; i < CCE_NUM_INT_CSRS; i++)
		dd->gi_mask[i] = ~(u64)0;

	/* all chip interrupts map to MSI-X 0 */
	for (i = 0; i < CCE_NUM_INT_MAP_CSRS; i++)
13093
		write_csr(dd, CCE_INT_MAP + (8 * i), 0);
M
Mike Marciniszyn 已提交
13094 13095 13096 13097 13098 13099 13100 13101 13102 13103 13104 13105 13106 13107 13108 13109
}

static int set_up_interrupts(struct hfi1_devdata *dd)
{
	struct hfi1_msix_entry *entries;
	u32 total, request;
	int i, ret;
	int single_interrupt = 0; /* we expect to have all the interrupts */

	/*
	 * Interrupt count:
	 *	1 general, "slow path" interrupt (includes the SDMA engines
	 *		slow source, SDMACleanupDone)
	 *	N interrupts - one per used SDMA engine
	 *	M interrupt - one per kernel receive context
	 */
13110
	total = 1 + dd->num_sdma + dd->n_krcv_queues + HFI1_NUM_VNIC_CTXT;
M
Mike Marciniszyn 已提交
13111 13112 13113 13114 13115 13116 13117 13118 13119 13120 13121 13122 13123 13124 13125 13126 13127 13128 13129 13130 13131 13132 13133 13134 13135 13136 13137 13138 13139 13140 13141 13142 13143 13144 13145 13146 13147 13148 13149 13150 13151 13152 13153 13154 13155 13156 13157 13158 13159 13160 13161 13162 13163 13164 13165 13166 13167 13168 13169 13170 13171 13172 13173 13174

	entries = kcalloc(total, sizeof(*entries), GFP_KERNEL);
	if (!entries) {
		ret = -ENOMEM;
		goto fail;
	}
	/* 1-1 MSI-X entry assignment */
	for (i = 0; i < total; i++)
		entries[i].msix.entry = i;

	/* ask for MSI-X interrupts */
	request = total;
	request_msix(dd, &request, entries);

	if (request == 0) {
		/* using INTx */
		/* dd->num_msix_entries already zero */
		kfree(entries);
		single_interrupt = 1;
		dd_dev_err(dd, "MSI-X failed, using INTx interrupts\n");
	} else {
		/* using MSI-X */
		dd->num_msix_entries = request;
		dd->msix_entries = entries;

		if (request != total) {
			/* using MSI-X, with reduced interrupts */
			dd_dev_err(
				dd,
				"cannot handle reduced interrupt case, want %u, got %u\n",
				total, request);
			ret = -EINVAL;
			goto fail;
		}
		dd_dev_info(dd, "%u MSI-X interrupts allocated\n", total);
	}

	/* mask all interrupts */
	set_intr_state(dd, 0);
	/* clear all pending interrupts */
	clear_all_interrupts(dd);

	/* reset general handler mask, chip MSI-X mappings */
	reset_interrupts(dd);

	if (single_interrupt)
		ret = request_intx_irq(dd);
	else
		ret = request_msix_irqs(dd);
	if (ret)
		goto fail;

	return 0;

fail:
	clean_up_interrupts(dd);
	return ret;
}

/*
 * Set up context values in dd.  Sets:
 *
 *	num_rcv_contexts - number of contexts being used
 *	n_krcv_queues - number of kernel contexts
13175 13176
 *	first_dyn_alloc_ctxt - first dynamically allocated context
 *                             in array of contexts
M
Mike Marciniszyn 已提交
13177 13178 13179 13180 13181
 *	freectxts  - number of free user contexts
 *	num_send_contexts - number of PIO send contexts being used
 */
static int set_up_context_variables(struct hfi1_devdata *dd)
{
13182
	unsigned long num_kernel_contexts;
M
Mike Marciniszyn 已提交
13183 13184 13185
	int total_contexts;
	int ret;
	unsigned ngroups;
13186 13187
	int qos_rmt_count;
	int user_rmt_reduced;
M
Mike Marciniszyn 已提交
13188 13189

	/*
D
Dean Luick 已提交
13190
	 * Kernel receive contexts:
13191
	 * - Context 0 - control context (VL15/multicast/error)
D
Dean Luick 已提交
13192 13193 13194
	 * - Context 1 - first kernel context
	 * - Context 2 - second kernel context
	 * ...
M
Mike Marciniszyn 已提交
13195 13196
	 */
	if (n_krcvqs)
13197
		/*
D
Dean Luick 已提交
13198 13199 13200
		 * n_krcvqs is the sum of module parameter kernel receive
		 * contexts, krcvqs[].  It does not include the control
		 * context, so add that.
13201
		 */
D
Dean Luick 已提交
13202
		num_kernel_contexts = n_krcvqs + 1;
M
Mike Marciniszyn 已提交
13203
	else
13204
		num_kernel_contexts = DEFAULT_KRCVQS + 1;
M
Mike Marciniszyn 已提交
13205 13206 13207 13208 13209 13210
	/*
	 * Every kernel receive context needs an ACK send context.
	 * one send context is allocated for each VL{0-7} and VL15
	 */
	if (num_kernel_contexts > (dd->chip_send_contexts - num_vls - 1)) {
		dd_dev_err(dd,
13211
			   "Reducing # kernel rcv contexts to: %d, from %lu\n",
M
Mike Marciniszyn 已提交
13212
			   (int)(dd->chip_send_contexts - num_vls - 1),
13213
			   num_kernel_contexts);
M
Mike Marciniszyn 已提交
13214 13215 13216
		num_kernel_contexts = dd->chip_send_contexts - num_vls - 1;
	}
	/*
13217 13218 13219
	 * User contexts:
	 *	- default to 1 user context per real (non-HT) CPU core if
	 *	  num_user_contexts is negative
M
Mike Marciniszyn 已提交
13220
	 */
13221
	if (num_user_contexts < 0)
13222
		num_user_contexts =
13223
			cpumask_weight(&node_affinity.real_cpu_mask);
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	total_contexts = num_kernel_contexts + num_user_contexts;

	/*
	 * Adjust the counts given a global max.
	 */
	if (total_contexts > dd->chip_rcv_contexts) {
		dd_dev_err(dd,
			   "Reducing # user receive contexts to: %d, from %d\n",
			   (int)(dd->chip_rcv_contexts - num_kernel_contexts),
			   (int)num_user_contexts);
		num_user_contexts = dd->chip_rcv_contexts - num_kernel_contexts;
		/* recalculate */
		total_contexts = num_kernel_contexts + num_user_contexts;
	}

13240 13241 13242 13243 13244 13245 13246 13247 13248 13249 13250 13251 13252
	/* each user context requires an entry in the RMT */
	qos_rmt_count = qos_rmt_entries(dd, NULL, NULL);
	if (qos_rmt_count + num_user_contexts > NUM_MAP_ENTRIES) {
		user_rmt_reduced = NUM_MAP_ENTRIES - qos_rmt_count;
		dd_dev_err(dd,
			   "RMT size is reducing the number of user receive contexts from %d to %d\n",
			   (int)num_user_contexts,
			   user_rmt_reduced);
		/* recalculate */
		num_user_contexts = user_rmt_reduced;
		total_contexts = num_kernel_contexts + num_user_contexts;
	}

13253 13254 13255 13256 13257
	/* Accommodate VNIC contexts */
	if ((total_contexts + HFI1_NUM_VNIC_CTXT) <= dd->chip_rcv_contexts)
		total_contexts += HFI1_NUM_VNIC_CTXT;

	/* the first N are kernel contexts, the rest are user/vnic contexts */
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	dd->num_rcv_contexts = total_contexts;
	dd->n_krcv_queues = num_kernel_contexts;
13260
	dd->first_dyn_alloc_ctxt = num_kernel_contexts;
13261
	dd->num_user_contexts = num_user_contexts;
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	dd->freectxts = num_user_contexts;
	dd_dev_info(dd,
13264 13265 13266 13267 13268
		    "rcv contexts: chip %d, used %d (kernel %d, user %d)\n",
		    (int)dd->chip_rcv_contexts,
		    (int)dd->num_rcv_contexts,
		    (int)dd->n_krcv_queues,
		    (int)dd->num_rcv_contexts - dd->n_krcv_queues);
M
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	/*
	 * Receive array allocation:
	 *   All RcvArray entries are divided into groups of 8. This
	 *   is required by the hardware and will speed up writes to
	 *   consecutive entries by using write-combining of the entire
	 *   cacheline.
	 *
	 *   The number of groups are evenly divided among all contexts.
	 *   any left over groups will be given to the first N user
	 *   contexts.
	 */
	dd->rcv_entries.group_size = RCV_INCREMENT;
	ngroups = dd->chip_rcv_array_count / dd->rcv_entries.group_size;
	dd->rcv_entries.ngroups = ngroups / dd->num_rcv_contexts;
	dd->rcv_entries.nctxt_extra = ngroups -
		(dd->num_rcv_contexts * dd->rcv_entries.ngroups);
	dd_dev_info(dd, "RcvArray groups %u, ctxts extra %u\n",
		    dd->rcv_entries.ngroups,
		    dd->rcv_entries.nctxt_extra);
	if (dd->rcv_entries.ngroups * dd->rcv_entries.group_size >
	    MAX_EAGER_ENTRIES * 2) {
		dd->rcv_entries.ngroups = (MAX_EAGER_ENTRIES * 2) /
			dd->rcv_entries.group_size;
		dd_dev_info(dd,
13294 13295
			    "RcvArray group count too high, change to %u\n",
			    dd->rcv_entries.ngroups);
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		dd->rcv_entries.nctxt_extra = 0;
	}
	/*
	 * PIO send contexts
	 */
	ret = init_sc_pools_and_sizes(dd);
	if (ret >= 0) {	/* success */
		dd->num_send_contexts = ret;
		dd_dev_info(
			dd,
13306
			"send contexts: chip %d, used %d (kernel %d, ack %d, user %d, vl15 %d)\n",
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			dd->chip_send_contexts,
			dd->num_send_contexts,
			dd->sc_sizes[SC_KERNEL].count,
			dd->sc_sizes[SC_ACK].count,
13311 13312
			dd->sc_sizes[SC_USER].count,
			dd->sc_sizes[SC_VL15].count);
M
Mike Marciniszyn 已提交
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		ret = 0;	/* success */
	}

	return ret;
}

/*
 * Set the device/port partition key table. The MAD code
 * will ensure that, at least, the partial management
 * partition key is present in the table.
 */
static void set_partition_keys(struct hfi1_pportdata *ppd)
{
	struct hfi1_devdata *dd = ppd->dd;
	u64 reg = 0;
	int i;

	dd_dev_info(dd, "Setting partition keys\n");
	for (i = 0; i < hfi1_get_npkeys(dd); i++) {
		reg |= (ppd->pkeys[i] &
			RCV_PARTITION_KEY_PARTITION_KEY_A_MASK) <<
			((i % 4) *
			 RCV_PARTITION_KEY_PARTITION_KEY_B_SHIFT);
		/* Each register holds 4 PKey values. */
		if ((i % 4) == 3) {
			write_csr(dd, RCV_PARTITION_KEY +
				  ((i - 3) * 2), reg);
			reg = 0;
		}
	}

	/* Always enable HW pkeys check when pkeys table is set */
	add_rcvctrl(dd, RCV_CTRL_RCV_PARTITION_KEY_ENABLE_SMASK);
}

/*
 * These CSRs and memories are uninitialized on reset and must be
 * written before reading to set the ECC/parity bits.
 *
 * NOTE: All user context CSRs that are not mmaped write-only
 * (e.g. the TID flows) must be initialized even if the driver never
 * reads them.
 */
static void write_uninitialized_csrs_and_memories(struct hfi1_devdata *dd)
{
	int i, j;

	/* CceIntMap */
	for (i = 0; i < CCE_NUM_INT_MAP_CSRS; i++)
13362
		write_csr(dd, CCE_INT_MAP + (8 * i), 0);
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	/* SendCtxtCreditReturnAddr */
	for (i = 0; i < dd->chip_send_contexts; i++)
		write_kctxt_csr(dd, i, SEND_CTXT_CREDIT_RETURN_ADDR, 0);

	/* PIO Send buffers */
	/* SDMA Send buffers */
13370 13371 13372 13373
	/*
	 * These are not normally read, and (presently) have no method
	 * to be read, so are not pre-initialized
	 */
M
Mike Marciniszyn 已提交
13374 13375 13376 13377 13378 13379 13380 13381

	/* RcvHdrAddr */
	/* RcvHdrTailAddr */
	/* RcvTidFlowTable */
	for (i = 0; i < dd->chip_rcv_contexts; i++) {
		write_kctxt_csr(dd, i, RCV_HDR_ADDR, 0);
		write_kctxt_csr(dd, i, RCV_HDR_TAIL_ADDR, 0);
		for (j = 0; j < RXE_NUM_TID_FLOWS; j++)
13382
			write_uctxt_csr(dd, i, RCV_TID_FLOW_TABLE + (8 * j), 0);
M
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13383 13384 13385 13386
	}

	/* RcvArray */
	for (i = 0; i < dd->chip_rcv_array_count; i++)
13387
		write_csr(dd, RCV_ARRAY + (8 * i),
13388
			  RCV_ARRAY_RT_WRITE_ENABLE_SMASK);
M
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	/* RcvQPMapTable */
	for (i = 0; i < 32; i++)
		write_csr(dd, RCV_QP_MAP_TABLE + (8 * i), 0);
}

/*
 * Use the ctrl_bits in CceCtrl to clear the status_bits in CceStatus.
 */
static void clear_cce_status(struct hfi1_devdata *dd, u64 status_bits,
			     u64 ctrl_bits)
{
	unsigned long timeout;
	u64 reg;

	/* is the condition present? */
	reg = read_csr(dd, CCE_STATUS);
	if ((reg & status_bits) == 0)
		return;

	/* clear the condition */
	write_csr(dd, CCE_CTRL, ctrl_bits);

	/* wait for the condition to clear */
	timeout = jiffies + msecs_to_jiffies(CCE_STATUS_TIMEOUT);
	while (1) {
		reg = read_csr(dd, CCE_STATUS);
		if ((reg & status_bits) == 0)
			return;
		if (time_after(jiffies, timeout)) {
			dd_dev_err(dd,
13420 13421
				   "Timeout waiting for CceStatus to clear bits 0x%llx, remaining 0x%llx\n",
				   status_bits, reg & status_bits);
M
Mike Marciniszyn 已提交
13422 13423 13424 13425 13426 13427 13428 13429 13430 13431 13432 13433 13434 13435 13436 13437 13438 13439 13440 13441 13442 13443 13444 13445 13446 13447 13448 13449 13450 13451 13452
			return;
		}
		udelay(1);
	}
}

/* set CCE CSRs to chip reset defaults */
static void reset_cce_csrs(struct hfi1_devdata *dd)
{
	int i;

	/* CCE_REVISION read-only */
	/* CCE_REVISION2 read-only */
	/* CCE_CTRL - bits clear automatically */
	/* CCE_STATUS read-only, use CceCtrl to clear */
	clear_cce_status(dd, ALL_FROZE, CCE_CTRL_SPC_UNFREEZE_SMASK);
	clear_cce_status(dd, ALL_TXE_PAUSE, CCE_CTRL_TXE_RESUME_SMASK);
	clear_cce_status(dd, ALL_RXE_PAUSE, CCE_CTRL_RXE_RESUME_SMASK);
	for (i = 0; i < CCE_NUM_SCRATCH; i++)
		write_csr(dd, CCE_SCRATCH + (8 * i), 0);
	/* CCE_ERR_STATUS read-only */
	write_csr(dd, CCE_ERR_MASK, 0);
	write_csr(dd, CCE_ERR_CLEAR, ~0ull);
	/* CCE_ERR_FORCE leave alone */
	for (i = 0; i < CCE_NUM_32_BIT_COUNTERS; i++)
		write_csr(dd, CCE_COUNTER_ARRAY32 + (8 * i), 0);
	write_csr(dd, CCE_DC_CTRL, CCE_DC_CTRL_RESETCSR);
	/* CCE_PCIE_CTRL leave alone */
	for (i = 0; i < CCE_NUM_MSIX_VECTORS; i++) {
		write_csr(dd, CCE_MSIX_TABLE_LOWER + (8 * i), 0);
		write_csr(dd, CCE_MSIX_TABLE_UPPER + (8 * i),
13453
			  CCE_MSIX_TABLE_UPPER_RESETCSR);
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	}
	for (i = 0; i < CCE_NUM_MSIX_PBAS; i++) {
		/* CCE_MSIX_PBA read-only */
		write_csr(dd, CCE_MSIX_INT_GRANTED, ~0ull);
		write_csr(dd, CCE_MSIX_VEC_CLR_WITHOUT_INT, ~0ull);
	}
	for (i = 0; i < CCE_NUM_INT_MAP_CSRS; i++)
		write_csr(dd, CCE_INT_MAP, 0);
	for (i = 0; i < CCE_NUM_INT_CSRS; i++) {
		/* CCE_INT_STATUS read-only */
		write_csr(dd, CCE_INT_MASK + (8 * i), 0);
		write_csr(dd, CCE_INT_CLEAR + (8 * i), ~0ull);
		/* CCE_INT_FORCE leave alone */
		/* CCE_INT_BLOCKED read-only */
	}
	for (i = 0; i < CCE_NUM_32_BIT_INT_COUNTERS; i++)
		write_csr(dd, CCE_INT_COUNTER_ARRAY32 + (8 * i), 0);
}

/* set MISC CSRs to chip reset defaults */
static void reset_misc_csrs(struct hfi1_devdata *dd)
{
	int i;

	for (i = 0; i < 32; i++) {
		write_csr(dd, MISC_CFG_RSA_R2 + (8 * i), 0);
		write_csr(dd, MISC_CFG_RSA_SIGNATURE + (8 * i), 0);
		write_csr(dd, MISC_CFG_RSA_MODULUS + (8 * i), 0);
	}
13483 13484 13485 13486
	/*
	 * MISC_CFG_SHA_PRELOAD leave alone - always reads 0 and can
	 * only be written 128-byte chunks
	 */
M
Mike Marciniszyn 已提交
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	/* init RSA engine to clear lingering errors */
	write_csr(dd, MISC_CFG_RSA_CMD, 1);
	write_csr(dd, MISC_CFG_RSA_MU, 0);
	write_csr(dd, MISC_CFG_FW_CTRL, 0);
	/* MISC_STS_8051_DIGEST read-only */
	/* MISC_STS_SBM_DIGEST read-only */
	/* MISC_STS_PCIE_DIGEST read-only */
	/* MISC_STS_FAB_DIGEST read-only */
	/* MISC_ERR_STATUS read-only */
	write_csr(dd, MISC_ERR_MASK, 0);
	write_csr(dd, MISC_ERR_CLEAR, ~0ull);
	/* MISC_ERR_FORCE leave alone */
}

/* set TXE CSRs to chip reset defaults */
static void reset_txe_csrs(struct hfi1_devdata *dd)
{
	int i;

	/*
	 * TXE Kernel CSRs
	 */
	write_csr(dd, SEND_CTRL, 0);
	__cm_reset(dd, 0);	/* reset CM internal state */
	/* SEND_CONTEXTS read-only */
	/* SEND_DMA_ENGINES read-only */
	/* SEND_PIO_MEM_SIZE read-only */
	/* SEND_DMA_MEM_SIZE read-only */
	write_csr(dd, SEND_HIGH_PRIORITY_LIMIT, 0);
	pio_reset_all(dd);	/* SEND_PIO_INIT_CTXT */
	/* SEND_PIO_ERR_STATUS read-only */
	write_csr(dd, SEND_PIO_ERR_MASK, 0);
	write_csr(dd, SEND_PIO_ERR_CLEAR, ~0ull);
	/* SEND_PIO_ERR_FORCE leave alone */
	/* SEND_DMA_ERR_STATUS read-only */
	write_csr(dd, SEND_DMA_ERR_MASK, 0);
	write_csr(dd, SEND_DMA_ERR_CLEAR, ~0ull);
	/* SEND_DMA_ERR_FORCE leave alone */
	/* SEND_EGRESS_ERR_STATUS read-only */
	write_csr(dd, SEND_EGRESS_ERR_MASK, 0);
	write_csr(dd, SEND_EGRESS_ERR_CLEAR, ~0ull);
	/* SEND_EGRESS_ERR_FORCE leave alone */
	write_csr(dd, SEND_BTH_QP, 0);
	write_csr(dd, SEND_STATIC_RATE_CONTROL, 0);
	write_csr(dd, SEND_SC2VLT0, 0);
	write_csr(dd, SEND_SC2VLT1, 0);
	write_csr(dd, SEND_SC2VLT2, 0);
	write_csr(dd, SEND_SC2VLT3, 0);
	write_csr(dd, SEND_LEN_CHECK0, 0);
	write_csr(dd, SEND_LEN_CHECK1, 0);
	/* SEND_ERR_STATUS read-only */
	write_csr(dd, SEND_ERR_MASK, 0);
	write_csr(dd, SEND_ERR_CLEAR, ~0ull);
	/* SEND_ERR_FORCE read-only */
	for (i = 0; i < VL_ARB_LOW_PRIO_TABLE_SIZE; i++)
13542
		write_csr(dd, SEND_LOW_PRIORITY_LIST + (8 * i), 0);
M
Mike Marciniszyn 已提交
13543
	for (i = 0; i < VL_ARB_HIGH_PRIO_TABLE_SIZE; i++)
13544 13545 13546
		write_csr(dd, SEND_HIGH_PRIORITY_LIST + (8 * i), 0);
	for (i = 0; i < dd->chip_send_contexts / NUM_CONTEXTS_PER_SET; i++)
		write_csr(dd, SEND_CONTEXT_SET_CTRL + (8 * i), 0);
M
Mike Marciniszyn 已提交
13547
	for (i = 0; i < TXE_NUM_32_BIT_COUNTER; i++)
13548
		write_csr(dd, SEND_COUNTER_ARRAY32 + (8 * i), 0);
M
Mike Marciniszyn 已提交
13549
	for (i = 0; i < TXE_NUM_64_BIT_COUNTER; i++)
13550
		write_csr(dd, SEND_COUNTER_ARRAY64 + (8 * i), 0);
M
Mike Marciniszyn 已提交
13551
	write_csr(dd, SEND_CM_CTRL, SEND_CM_CTRL_RESETCSR);
13552
	write_csr(dd, SEND_CM_GLOBAL_CREDIT, SEND_CM_GLOBAL_CREDIT_RESETCSR);
M
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13553 13554 13555 13556 13557 13558 13559
	/* SEND_CM_CREDIT_USED_STATUS read-only */
	write_csr(dd, SEND_CM_TIMER_CTRL, 0);
	write_csr(dd, SEND_CM_LOCAL_AU_TABLE0_TO3, 0);
	write_csr(dd, SEND_CM_LOCAL_AU_TABLE4_TO7, 0);
	write_csr(dd, SEND_CM_REMOTE_AU_TABLE0_TO3, 0);
	write_csr(dd, SEND_CM_REMOTE_AU_TABLE4_TO7, 0);
	for (i = 0; i < TXE_NUM_DATA_VL; i++)
13560
		write_csr(dd, SEND_CM_CREDIT_VL + (8 * i), 0);
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	write_csr(dd, SEND_CM_CREDIT_VL15, 0);
	/* SEND_CM_CREDIT_USED_VL read-only */
	/* SEND_CM_CREDIT_USED_VL15 read-only */
	/* SEND_EGRESS_CTXT_STATUS read-only */
	/* SEND_EGRESS_SEND_DMA_STATUS read-only */
	write_csr(dd, SEND_EGRESS_ERR_INFO, ~0ull);
	/* SEND_EGRESS_ERR_INFO read-only */
	/* SEND_EGRESS_ERR_SOURCE read-only */

	/*
	 * TXE Per-Context CSRs
	 */
	for (i = 0; i < dd->chip_send_contexts; i++) {
		write_kctxt_csr(dd, i, SEND_CTXT_CTRL, 0);
		write_kctxt_csr(dd, i, SEND_CTXT_CREDIT_CTRL, 0);
		write_kctxt_csr(dd, i, SEND_CTXT_CREDIT_RETURN_ADDR, 0);
		write_kctxt_csr(dd, i, SEND_CTXT_CREDIT_FORCE, 0);
		write_kctxt_csr(dd, i, SEND_CTXT_ERR_MASK, 0);
		write_kctxt_csr(dd, i, SEND_CTXT_ERR_CLEAR, ~0ull);
		write_kctxt_csr(dd, i, SEND_CTXT_CHECK_ENABLE, 0);
		write_kctxt_csr(dd, i, SEND_CTXT_CHECK_VL, 0);
		write_kctxt_csr(dd, i, SEND_CTXT_CHECK_JOB_KEY, 0);
		write_kctxt_csr(dd, i, SEND_CTXT_CHECK_PARTITION_KEY, 0);
		write_kctxt_csr(dd, i, SEND_CTXT_CHECK_SLID, 0);
		write_kctxt_csr(dd, i, SEND_CTXT_CHECK_OPCODE, 0);
	}

	/*
	 * TXE Per-SDMA CSRs
	 */
	for (i = 0; i < dd->chip_sdma_engines; i++) {
		write_kctxt_csr(dd, i, SEND_DMA_CTRL, 0);
		/* SEND_DMA_STATUS read-only */
		write_kctxt_csr(dd, i, SEND_DMA_BASE_ADDR, 0);
		write_kctxt_csr(dd, i, SEND_DMA_LEN_GEN, 0);
		write_kctxt_csr(dd, i, SEND_DMA_TAIL, 0);
		/* SEND_DMA_HEAD read-only */
		write_kctxt_csr(dd, i, SEND_DMA_HEAD_ADDR, 0);
		write_kctxt_csr(dd, i, SEND_DMA_PRIORITY_THLD, 0);
		/* SEND_DMA_IDLE_CNT read-only */
		write_kctxt_csr(dd, i, SEND_DMA_RELOAD_CNT, 0);
		write_kctxt_csr(dd, i, SEND_DMA_DESC_CNT, 0);
		/* SEND_DMA_DESC_FETCHED_CNT read-only */
		/* SEND_DMA_ENG_ERR_STATUS read-only */
		write_kctxt_csr(dd, i, SEND_DMA_ENG_ERR_MASK, 0);
		write_kctxt_csr(dd, i, SEND_DMA_ENG_ERR_CLEAR, ~0ull);
		/* SEND_DMA_ENG_ERR_FORCE leave alone */
		write_kctxt_csr(dd, i, SEND_DMA_CHECK_ENABLE, 0);
		write_kctxt_csr(dd, i, SEND_DMA_CHECK_VL, 0);
		write_kctxt_csr(dd, i, SEND_DMA_CHECK_JOB_KEY, 0);
		write_kctxt_csr(dd, i, SEND_DMA_CHECK_PARTITION_KEY, 0);
		write_kctxt_csr(dd, i, SEND_DMA_CHECK_SLID, 0);
		write_kctxt_csr(dd, i, SEND_DMA_CHECK_OPCODE, 0);
		write_kctxt_csr(dd, i, SEND_DMA_MEMORY, 0);
	}
}

/*
 * Expect on entry:
 * o Packet ingress is disabled, i.e. RcvCtrl.RcvPortEnable == 0
 */
static void init_rbufs(struct hfi1_devdata *dd)
{
	u64 reg;
	int count;

	/*
	 * Wait for DMA to stop: RxRbufPktPending and RxPktInProgress are
	 * clear.
	 */
	count = 0;
	while (1) {
		reg = read_csr(dd, RCV_STATUS);
		if ((reg & (RCV_STATUS_RX_RBUF_PKT_PENDING_SMASK
			    | RCV_STATUS_RX_PKT_IN_PROGRESS_SMASK)) == 0)
			break;
		/*
		 * Give up after 1ms - maximum wait time.
		 *
13640
		 * RBuf size is 136KiB.  Slowest possible is PCIe Gen1 x1 at
M
Mike Marciniszyn 已提交
13641
		 * 250MB/s bandwidth.  Lower rate to 66% for overhead to get:
13642
		 *	136 KB / (66% * 250MB/s) = 844us
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Mike Marciniszyn 已提交
13643 13644 13645
		 */
		if (count++ > 500) {
			dd_dev_err(dd,
13646 13647
				   "%s: in-progress DMA not clearing: RcvStatus 0x%llx, continuing\n",
				   __func__, reg);
M
Mike Marciniszyn 已提交
13648 13649 13650 13651 13652 13653 13654 13655 13656 13657 13658 13659 13660 13661 13662 13663 13664 13665 13666 13667 13668 13669 13670 13671 13672 13673 13674 13675
			break;
		}
		udelay(2); /* do not busy-wait the CSR */
	}

	/* start the init - expect RcvCtrl to be 0 */
	write_csr(dd, RCV_CTRL, RCV_CTRL_RX_RBUF_INIT_SMASK);

	/*
	 * Read to force the write of Rcvtrl.RxRbufInit.  There is a brief
	 * period after the write before RcvStatus.RxRbufInitDone is valid.
	 * The delay in the first run through the loop below is sufficient and
	 * required before the first read of RcvStatus.RxRbufInintDone.
	 */
	read_csr(dd, RCV_CTRL);

	/* wait for the init to finish */
	count = 0;
	while (1) {
		/* delay is required first time through - see above */
		udelay(2); /* do not busy-wait the CSR */
		reg = read_csr(dd, RCV_STATUS);
		if (reg & (RCV_STATUS_RX_RBUF_INIT_DONE_SMASK))
			break;

		/* give up after 100us - slowest possible at 33MHz is 73us */
		if (count++ > 50) {
			dd_dev_err(dd,
13676 13677
				   "%s: RcvStatus.RxRbufInit not set, continuing\n",
				   __func__);
M
Mike Marciniszyn 已提交
13678 13679 13680 13681 13682 13683 13684 13685 13686 13687 13688 13689 13690 13691 13692 13693 13694 13695 13696 13697 13698 13699 13700 13701 13702
			break;
		}
	}
}

/* set RXE CSRs to chip reset defaults */
static void reset_rxe_csrs(struct hfi1_devdata *dd)
{
	int i, j;

	/*
	 * RXE Kernel CSRs
	 */
	write_csr(dd, RCV_CTRL, 0);
	init_rbufs(dd);
	/* RCV_STATUS read-only */
	/* RCV_CONTEXTS read-only */
	/* RCV_ARRAY_CNT read-only */
	/* RCV_BUF_SIZE read-only */
	write_csr(dd, RCV_BTH_QP, 0);
	write_csr(dd, RCV_MULTICAST, 0);
	write_csr(dd, RCV_BYPASS, 0);
	write_csr(dd, RCV_VL15, 0);
	/* this is a clear-down */
	write_csr(dd, RCV_ERR_INFO,
13703
		  RCV_ERR_INFO_RCV_EXCESS_BUFFER_OVERRUN_SMASK);
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Mike Marciniszyn 已提交
13704 13705 13706 13707 13708 13709 13710 13711 13712 13713 13714 13715
	/* RCV_ERR_STATUS read-only */
	write_csr(dd, RCV_ERR_MASK, 0);
	write_csr(dd, RCV_ERR_CLEAR, ~0ull);
	/* RCV_ERR_FORCE leave alone */
	for (i = 0; i < 32; i++)
		write_csr(dd, RCV_QP_MAP_TABLE + (8 * i), 0);
	for (i = 0; i < 4; i++)
		write_csr(dd, RCV_PARTITION_KEY + (8 * i), 0);
	for (i = 0; i < RXE_NUM_32_BIT_COUNTERS; i++)
		write_csr(dd, RCV_COUNTER_ARRAY32 + (8 * i), 0);
	for (i = 0; i < RXE_NUM_64_BIT_COUNTERS; i++)
		write_csr(dd, RCV_COUNTER_ARRAY64 + (8 * i), 0);
13716 13717
	for (i = 0; i < RXE_NUM_RSM_INSTANCES; i++)
		clear_rsm_rule(dd, i);
M
Mike Marciniszyn 已提交
13718 13719 13720 13721 13722 13723 13724 13725 13726 13727 13728 13729 13730 13731 13732 13733 13734 13735 13736 13737 13738 13739 13740 13741 13742 13743 13744 13745
	for (i = 0; i < 32; i++)
		write_csr(dd, RCV_RSM_MAP_TABLE + (8 * i), 0);

	/*
	 * RXE Kernel and User Per-Context CSRs
	 */
	for (i = 0; i < dd->chip_rcv_contexts; i++) {
		/* kernel */
		write_kctxt_csr(dd, i, RCV_CTXT_CTRL, 0);
		/* RCV_CTXT_STATUS read-only */
		write_kctxt_csr(dd, i, RCV_EGR_CTRL, 0);
		write_kctxt_csr(dd, i, RCV_TID_CTRL, 0);
		write_kctxt_csr(dd, i, RCV_KEY_CTRL, 0);
		write_kctxt_csr(dd, i, RCV_HDR_ADDR, 0);
		write_kctxt_csr(dd, i, RCV_HDR_CNT, 0);
		write_kctxt_csr(dd, i, RCV_HDR_ENT_SIZE, 0);
		write_kctxt_csr(dd, i, RCV_HDR_SIZE, 0);
		write_kctxt_csr(dd, i, RCV_HDR_TAIL_ADDR, 0);
		write_kctxt_csr(dd, i, RCV_AVAIL_TIME_OUT, 0);
		write_kctxt_csr(dd, i, RCV_HDR_OVFL_CNT, 0);

		/* user */
		/* RCV_HDR_TAIL read-only */
		write_uctxt_csr(dd, i, RCV_HDR_HEAD, 0);
		/* RCV_EGR_INDEX_TAIL read-only */
		write_uctxt_csr(dd, i, RCV_EGR_INDEX_HEAD, 0);
		/* RCV_EGR_OFFSET_TAIL read-only */
		for (j = 0; j < RXE_NUM_TID_FLOWS; j++) {
13746 13747
			write_uctxt_csr(dd, i,
					RCV_TID_FLOW_TABLE + (8 * j), 0);
M
Mike Marciniszyn 已提交
13748 13749 13750 13751 13752 13753 13754 13755 13756 13757 13758 13759 13760 13761 13762 13763 13764 13765 13766 13767 13768 13769 13770 13771 13772 13773 13774 13775 13776 13777 13778 13779 13780 13781 13782 13783 13784 13785 13786 13787 13788 13789 13790 13791 13792 13793 13794 13795 13796 13797 13798 13799 13800 13801 13802 13803 13804 13805 13806 13807 13808 13809 13810 13811 13812 13813 13814 13815 13816 13817 13818 13819 13820 13821 13822 13823 13824 13825 13826 13827 13828 13829 13830 13831 13832 13833 13834 13835 13836 13837 13838 13839 13840 13841 13842 13843 13844 13845 13846 13847 13848
		}
	}
}

/*
 * Set sc2vl tables.
 *
 * They power on to zeros, so to avoid send context errors
 * they need to be set:
 *
 * SC 0-7 -> VL 0-7 (respectively)
 * SC 15  -> VL 15
 * otherwise
 *        -> VL 0
 */
static void init_sc2vl_tables(struct hfi1_devdata *dd)
{
	int i;
	/* init per architecture spec, constrained by hardware capability */

	/* HFI maps sent packets */
	write_csr(dd, SEND_SC2VLT0, SC2VL_VAL(
		0,
		0, 0, 1, 1,
		2, 2, 3, 3,
		4, 4, 5, 5,
		6, 6, 7, 7));
	write_csr(dd, SEND_SC2VLT1, SC2VL_VAL(
		1,
		8, 0, 9, 0,
		10, 0, 11, 0,
		12, 0, 13, 0,
		14, 0, 15, 15));
	write_csr(dd, SEND_SC2VLT2, SC2VL_VAL(
		2,
		16, 0, 17, 0,
		18, 0, 19, 0,
		20, 0, 21, 0,
		22, 0, 23, 0));
	write_csr(dd, SEND_SC2VLT3, SC2VL_VAL(
		3,
		24, 0, 25, 0,
		26, 0, 27, 0,
		28, 0, 29, 0,
		30, 0, 31, 0));

	/* DC maps received packets */
	write_csr(dd, DCC_CFG_SC_VL_TABLE_15_0, DC_SC_VL_VAL(
		15_0,
		0, 0, 1, 1,  2, 2,  3, 3,  4, 4,  5, 5,  6, 6,  7,  7,
		8, 0, 9, 0, 10, 0, 11, 0, 12, 0, 13, 0, 14, 0, 15, 15));
	write_csr(dd, DCC_CFG_SC_VL_TABLE_31_16, DC_SC_VL_VAL(
		31_16,
		16, 0, 17, 0, 18, 0, 19, 0, 20, 0, 21, 0, 22, 0, 23, 0,
		24, 0, 25, 0, 26, 0, 27, 0, 28, 0, 29, 0, 30, 0, 31, 0));

	/* initialize the cached sc2vl values consistently with h/w */
	for (i = 0; i < 32; i++) {
		if (i < 8 || i == 15)
			*((u8 *)(dd->sc2vl) + i) = (u8)i;
		else
			*((u8 *)(dd->sc2vl) + i) = 0;
	}
}

/*
 * Read chip sizes and then reset parts to sane, disabled, values.  We cannot
 * depend on the chip going through a power-on reset - a driver may be loaded
 * and unloaded many times.
 *
 * Do not write any CSR values to the chip in this routine - there may be
 * a reset following the (possible) FLR in this routine.
 *
 */
static void init_chip(struct hfi1_devdata *dd)
{
	int i;

	/*
	 * Put the HFI CSRs in a known state.
	 * Combine this with a DC reset.
	 *
	 * Stop the device from doing anything while we do a
	 * reset.  We know there are no other active users of
	 * the device since we are now in charge.  Turn off
	 * off all outbound and inbound traffic and make sure
	 * the device does not generate any interrupts.
	 */

	/* disable send contexts and SDMA engines */
	write_csr(dd, SEND_CTRL, 0);
	for (i = 0; i < dd->chip_send_contexts; i++)
		write_kctxt_csr(dd, i, SEND_CTXT_CTRL, 0);
	for (i = 0; i < dd->chip_sdma_engines; i++)
		write_kctxt_csr(dd, i, SEND_DMA_CTRL, 0);
	/* disable port (turn off RXE inbound traffic) and contexts */
	write_csr(dd, RCV_CTRL, 0);
	for (i = 0; i < dd->chip_rcv_contexts; i++)
		write_csr(dd, RCV_CTXT_CTRL, 0);
	/* mask all interrupt sources */
	for (i = 0; i < CCE_NUM_INT_CSRS; i++)
13849
		write_csr(dd, CCE_INT_MASK + (8 * i), 0ull);
M
Mike Marciniszyn 已提交
13850 13851 13852 13853 13854 13855 13856 13857

	/*
	 * DC Reset: do a full DC reset before the register clear.
	 * A recommended length of time to hold is one CSR read,
	 * so reread the CceDcCtrl.  Then, hold the DC in reset
	 * across the clear.
	 */
	write_csr(dd, CCE_DC_CTRL, CCE_DC_CTRL_DC_RESET_SMASK);
13858
	(void)read_csr(dd, CCE_DC_CTRL);
M
Mike Marciniszyn 已提交
13859 13860 13861 13862 13863 13864 13865 13866 13867 13868 13869 13870 13871 13872 13873

	if (use_flr) {
		/*
		 * A FLR will reset the SPC core and part of the PCIe.
		 * The parts that need to be restored have already been
		 * saved.
		 */
		dd_dev_info(dd, "Resetting CSRs with FLR\n");

		/* do the FLR, the DC reset will remain */
		hfi1_pcie_flr(dd);

		/* restore command and BARs */
		restore_pci_variables(dd);

13874
		if (is_ax(dd)) {
M
Mike Marciniszyn 已提交
13875 13876 13877 13878 13879 13880 13881 13882 13883 13884 13885 13886 13887
			dd_dev_info(dd, "Resetting CSRs with FLR\n");
			hfi1_pcie_flr(dd);
			restore_pci_variables(dd);
		}
	} else {
		dd_dev_info(dd, "Resetting CSRs with writes\n");
		reset_cce_csrs(dd);
		reset_txe_csrs(dd);
		reset_rxe_csrs(dd);
		reset_misc_csrs(dd);
	}
	/* clear the DC reset */
	write_csr(dd, CCE_DC_CTRL, 0);
13888

M
Mike Marciniszyn 已提交
13889
	/* Set the LED off */
13890 13891
	setextled(dd, 0);

M
Mike Marciniszyn 已提交
13892 13893
	/*
	 * Clear the QSFP reset.
13894
	 * An FLR enforces a 0 on all out pins. The driver does not touch
M
Mike Marciniszyn 已提交
13895
	 * ASIC_QSFPn_OUT otherwise.  This leaves RESET_N low and
13896
	 * anything plugged constantly in reset, if it pays attention
M
Mike Marciniszyn 已提交
13897
	 * to RESET_N.
13898
	 * Prime examples of this are optical cables. Set all pins high.
M
Mike Marciniszyn 已提交
13899 13900 13901
	 * I2CCLK and I2CDAT will change per direction, and INT_N and
	 * MODPRS_N are input only and their value is ignored.
	 */
13902 13903
	write_csr(dd, ASIC_QSFP1_OUT, 0x1f);
	write_csr(dd, ASIC_QSFP2_OUT, 0x1f);
13904
	init_chip_resources(dd);
M
Mike Marciniszyn 已提交
13905 13906 13907 13908 13909 13910 13911 13912 13913
}

static void init_early_variables(struct hfi1_devdata *dd)
{
	int i;

	/* assign link credit variables */
	dd->vau = CM_VAU;
	dd->link_credits = CM_GLOBAL_CREDITS;
13914
	if (is_ax(dd))
M
Mike Marciniszyn 已提交
13915 13916 13917 13918 13919 13920 13921 13922 13923 13924 13925 13926 13927 13928 13929 13930 13931 13932 13933 13934 13935 13936 13937 13938 13939 13940 13941 13942 13943 13944
		dd->link_credits--;
	dd->vcu = cu_to_vcu(hfi1_cu);
	/* enough room for 8 MAD packets plus header - 17K */
	dd->vl15_init = (8 * (2048 + 128)) / vau_to_au(dd->vau);
	if (dd->vl15_init > dd->link_credits)
		dd->vl15_init = dd->link_credits;

	write_uninitialized_csrs_and_memories(dd);

	if (HFI1_CAP_IS_KSET(PKEY_CHECK))
		for (i = 0; i < dd->num_pports; i++) {
			struct hfi1_pportdata *ppd = &dd->pport[i];

			set_partition_keys(ppd);
		}
	init_sc2vl_tables(dd);
}

static void init_kdeth_qp(struct hfi1_devdata *dd)
{
	/* user changed the KDETH_QP */
	if (kdeth_qp != 0 && kdeth_qp >= 0xff) {
		/* out of range or illegal value */
		dd_dev_err(dd, "Invalid KDETH queue pair prefix, ignoring");
		kdeth_qp = 0;
	}
	if (kdeth_qp == 0)	/* not set, or failed range check */
		kdeth_qp = DEFAULT_KDETH_QP;

	write_csr(dd, SEND_BTH_QP,
13945 13946
		  (kdeth_qp & SEND_BTH_QP_KDETH_QP_MASK) <<
		  SEND_BTH_QP_KDETH_QP_SHIFT);
M
Mike Marciniszyn 已提交
13947 13948

	write_csr(dd, RCV_BTH_QP,
13949 13950
		  (kdeth_qp & RCV_BTH_QP_KDETH_QP_MASK) <<
		  RCV_BTH_QP_KDETH_QP_SHIFT);
M
Mike Marciniszyn 已提交
13951 13952 13953 13954 13955 13956 13957 13958 13959 13960 13961 13962 13963 13964 13965 13966 13967 13968 13969 13970 13971 13972 13973 13974 13975 13976 13977 13978
}

/**
 * init_qpmap_table
 * @dd - device data
 * @first_ctxt - first context
 * @last_ctxt - first context
 *
 * This return sets the qpn mapping table that
 * is indexed by qpn[8:1].
 *
 * The routine will round robin the 256 settings
 * from first_ctxt to last_ctxt.
 *
 * The first/last looks ahead to having specialized
 * receive contexts for mgmt and bypass.  Normal
 * verbs traffic will assumed to be on a range
 * of receive contexts.
 */
static void init_qpmap_table(struct hfi1_devdata *dd,
			     u32 first_ctxt,
			     u32 last_ctxt)
{
	u64 reg = 0;
	u64 regno = RCV_QP_MAP_TABLE;
	int i;
	u64 ctxt = first_ctxt;

13979
	for (i = 0; i < 256; i++) {
M
Mike Marciniszyn 已提交
13980 13981 13982 13983
		reg |= ctxt << (8 * (i % 8));
		ctxt++;
		if (ctxt > last_ctxt)
			ctxt = first_ctxt;
13984
		if (i % 8 == 7) {
M
Mike Marciniszyn 已提交
13985 13986 13987 13988 13989 13990 13991 13992 13993 13994
			write_csr(dd, regno, reg);
			reg = 0;
			regno += 8;
		}
	}

	add_rcvctrl(dd, RCV_CTRL_RCV_QP_MAP_ENABLE_SMASK
			| RCV_CTRL_RCV_BYPASS_ENABLE_SMASK);
}

13995 13996 13997 13998 13999
struct rsm_map_table {
	u64 map[NUM_MAP_REGS];
	unsigned int used;
};

14000 14001 14002 14003 14004 14005 14006 14007 14008 14009 14010 14011 14012 14013 14014
struct rsm_rule_data {
	u8 offset;
	u8 pkt_type;
	u32 field1_off;
	u32 field2_off;
	u32 index1_off;
	u32 index1_width;
	u32 index2_off;
	u32 index2_width;
	u32 mask1;
	u32 value1;
	u32 mask2;
	u32 value2;
};

14015 14016 14017 14018 14019 14020 14021 14022 14023 14024 14025 14026 14027 14028 14029 14030 14031 14032 14033 14034 14035 14036 14037 14038 14039 14040 14041 14042 14043 14044 14045 14046 14047 14048 14049 14050 14051
/*
 * Return an initialized RMT map table for users to fill in.  OK if it
 * returns NULL, indicating no table.
 */
static struct rsm_map_table *alloc_rsm_map_table(struct hfi1_devdata *dd)
{
	struct rsm_map_table *rmt;
	u8 rxcontext = is_ax(dd) ? 0 : 0xff;  /* 0 is default if a0 ver. */

	rmt = kmalloc(sizeof(*rmt), GFP_KERNEL);
	if (rmt) {
		memset(rmt->map, rxcontext, sizeof(rmt->map));
		rmt->used = 0;
	}

	return rmt;
}

/*
 * Write the final RMT map table to the chip and free the table.  OK if
 * table is NULL.
 */
static void complete_rsm_map_table(struct hfi1_devdata *dd,
				   struct rsm_map_table *rmt)
{
	int i;

	if (rmt) {
		/* write table to chip */
		for (i = 0; i < NUM_MAP_REGS; i++)
			write_csr(dd, RCV_RSM_MAP_TABLE + (8 * i), rmt->map[i]);

		/* enable RSM */
		add_rcvctrl(dd, RCV_CTRL_RCV_RSM_ENABLE_SMASK);
	}
}

14052 14053 14054 14055 14056 14057 14058 14059 14060 14061 14062 14063 14064 14065 14066 14067 14068 14069 14070 14071 14072 14073 14074 14075
/*
 * Add a receive side mapping rule.
 */
static void add_rsm_rule(struct hfi1_devdata *dd, u8 rule_index,
			 struct rsm_rule_data *rrd)
{
	write_csr(dd, RCV_RSM_CFG + (8 * rule_index),
		  (u64)rrd->offset << RCV_RSM_CFG_OFFSET_SHIFT |
		  1ull << rule_index | /* enable bit */
		  (u64)rrd->pkt_type << RCV_RSM_CFG_PACKET_TYPE_SHIFT);
	write_csr(dd, RCV_RSM_SELECT + (8 * rule_index),
		  (u64)rrd->field1_off << RCV_RSM_SELECT_FIELD1_OFFSET_SHIFT |
		  (u64)rrd->field2_off << RCV_RSM_SELECT_FIELD2_OFFSET_SHIFT |
		  (u64)rrd->index1_off << RCV_RSM_SELECT_INDEX1_OFFSET_SHIFT |
		  (u64)rrd->index1_width << RCV_RSM_SELECT_INDEX1_WIDTH_SHIFT |
		  (u64)rrd->index2_off << RCV_RSM_SELECT_INDEX2_OFFSET_SHIFT |
		  (u64)rrd->index2_width << RCV_RSM_SELECT_INDEX2_WIDTH_SHIFT);
	write_csr(dd, RCV_RSM_MATCH + (8 * rule_index),
		  (u64)rrd->mask1 << RCV_RSM_MATCH_MASK1_SHIFT |
		  (u64)rrd->value1 << RCV_RSM_MATCH_VALUE1_SHIFT |
		  (u64)rrd->mask2 << RCV_RSM_MATCH_MASK2_SHIFT |
		  (u64)rrd->value2 << RCV_RSM_MATCH_VALUE2_SHIFT);
}

14076 14077 14078 14079 14080 14081 14082 14083 14084 14085
/*
 * Clear a receive side mapping rule.
 */
static void clear_rsm_rule(struct hfi1_devdata *dd, u8 rule_index)
{
	write_csr(dd, RCV_RSM_CFG + (8 * rule_index), 0);
	write_csr(dd, RCV_RSM_SELECT + (8 * rule_index), 0);
	write_csr(dd, RCV_RSM_MATCH + (8 * rule_index), 0);
}

14086 14087 14088 14089 14090 14091 14092 14093 14094 14095 14096 14097 14098 14099 14100 14101 14102 14103 14104 14105 14106 14107 14108 14109 14110 14111 14112 14113 14114 14115 14116 14117 14118 14119 14120 14121 14122 14123 14124 14125 14126 14127 14128 14129
/* return the number of RSM map table entries that will be used for QOS */
static int qos_rmt_entries(struct hfi1_devdata *dd, unsigned int *mp,
			   unsigned int *np)
{
	int i;
	unsigned int m, n;
	u8 max_by_vl = 0;

	/* is QOS active at all? */
	if (dd->n_krcv_queues <= MIN_KERNEL_KCTXTS ||
	    num_vls == 1 ||
	    krcvqsset <= 1)
		goto no_qos;

	/* determine bits for qpn */
	for (i = 0; i < min_t(unsigned int, num_vls, krcvqsset); i++)
		if (krcvqs[i] > max_by_vl)
			max_by_vl = krcvqs[i];
	if (max_by_vl > 32)
		goto no_qos;
	m = ilog2(__roundup_pow_of_two(max_by_vl));

	/* determine bits for vl */
	n = ilog2(__roundup_pow_of_two(num_vls));

	/* reject if too much is used */
	if ((m + n) > 7)
		goto no_qos;

	if (mp)
		*mp = m;
	if (np)
		*np = n;

	return 1 << (m + n);

no_qos:
	if (mp)
		*mp = 0;
	if (np)
		*np = 0;
	return 0;
}

M
Mike Marciniszyn 已提交
14130 14131 14132
/**
 * init_qos - init RX qos
 * @dd - device data
14133
 * @rmt - RSM map table
M
Mike Marciniszyn 已提交
14134
 *
D
Dean Luick 已提交
14135 14136
 * This routine initializes Rule 0 and the RSM map table to implement
 * quality of service (qos).
M
Mike Marciniszyn 已提交
14137
 *
D
Dean Luick 已提交
14138 14139
 * If all of the limit tests succeed, qos is applied based on the array
 * interpretation of krcvqs where entry 0 is VL0.
M
Mike Marciniszyn 已提交
14140
 *
D
Dean Luick 已提交
14141 14142
 * The number of vl bits (n) and the number of qpn bits (m) are computed to
 * feed both the RSM map table and the single rule.
M
Mike Marciniszyn 已提交
14143
 */
14144
static void init_qos(struct hfi1_devdata *dd, struct rsm_map_table *rmt)
M
Mike Marciniszyn 已提交
14145
{
14146
	struct rsm_rule_data rrd;
M
Mike Marciniszyn 已提交
14147
	unsigned qpns_per_vl, ctxt, i, qpn, n = 1, m;
14148
	unsigned int rmt_entries;
M
Mike Marciniszyn 已提交
14149 14150
	u64 reg;

14151
	if (!rmt)
M
Mike Marciniszyn 已提交
14152
		goto bail;
14153 14154
	rmt_entries = qos_rmt_entries(dd, &m, &n);
	if (rmt_entries == 0)
M
Mike Marciniszyn 已提交
14155
		goto bail;
14156 14157
	qpns_per_vl = 1 << m;

14158 14159 14160
	/* enough room in the map table? */
	rmt_entries = 1 << (m + n);
	if (rmt->used + rmt_entries >= NUM_MAP_ENTRIES)
14161
		goto bail;
14162

14163
	/* add qos entries to the the RSM map table */
D
Dean Luick 已提交
14164
	for (i = 0, ctxt = FIRST_KERNEL_KCTXT; i < num_vls; i++) {
M
Mike Marciniszyn 已提交
14165 14166 14167 14168 14169 14170
		unsigned tctxt;

		for (qpn = 0, tctxt = ctxt;
		     krcvqs[i] && qpn < qpns_per_vl; qpn++) {
			unsigned idx, regoff, regidx;

14171 14172
			/* generate the index the hardware will produce */
			idx = rmt->used + ((qpn << n) ^ i);
M
Mike Marciniszyn 已提交
14173 14174
			regoff = (idx % 8) * 8;
			regidx = idx / 8;
14175 14176
			/* replace default with context number */
			reg = rmt->map[regidx];
M
Mike Marciniszyn 已提交
14177 14178 14179
			reg &= ~(RCV_RSM_MAP_TABLE_RCV_CONTEXT_A_MASK
				<< regoff);
			reg |= (u64)(tctxt++) << regoff;
14180
			rmt->map[regidx] = reg;
M
Mike Marciniszyn 已提交
14181 14182 14183 14184 14185
			if (tctxt == ctxt + krcvqs[i])
				tctxt = ctxt;
		}
		ctxt += krcvqs[i];
	}
14186 14187 14188 14189 14190 14191 14192 14193 14194 14195 14196 14197 14198 14199 14200

	rrd.offset = rmt->used;
	rrd.pkt_type = 2;
	rrd.field1_off = LRH_BTH_MATCH_OFFSET;
	rrd.field2_off = LRH_SC_MATCH_OFFSET;
	rrd.index1_off = LRH_SC_SELECT_OFFSET;
	rrd.index1_width = n;
	rrd.index2_off = QPN_SELECT_OFFSET;
	rrd.index2_width = m + n;
	rrd.mask1 = LRH_BTH_MASK;
	rrd.value1 = LRH_BTH_VALUE;
	rrd.mask2 = LRH_SC_MASK;
	rrd.value2 = LRH_SC_VALUE;

	/* add rule 0 */
14201
	add_rsm_rule(dd, RSM_INS_VERBS, &rrd);
14202

14203 14204
	/* mark RSM map entries as used */
	rmt->used += rmt_entries;
D
Dean Luick 已提交
14205 14206
	/* map everything else to the mcast/err/vl15 context */
	init_qpmap_table(dd, HFI1_CTRL_CTXT, HFI1_CTRL_CTXT);
M
Mike Marciniszyn 已提交
14207 14208 14209 14210
	dd->qos_shift = n + 1;
	return;
bail:
	dd->qos_shift = 1;
14211
	init_qpmap_table(dd, FIRST_KERNEL_KCTXT, dd->n_krcv_queues - 1);
M
Mike Marciniszyn 已提交
14212 14213
}

14214 14215 14216 14217 14218 14219 14220 14221 14222 14223 14224 14225 14226 14227 14228 14229 14230
static void init_user_fecn_handling(struct hfi1_devdata *dd,
				    struct rsm_map_table *rmt)
{
	struct rsm_rule_data rrd;
	u64 reg;
	int i, idx, regoff, regidx;
	u8 offset;

	/* there needs to be enough room in the map table */
	if (rmt->used + dd->num_user_contexts >= NUM_MAP_ENTRIES) {
		dd_dev_err(dd, "User FECN handling disabled - too many user contexts allocated\n");
		return;
	}

	/*
	 * RSM will extract the destination context as an index into the
	 * map table.  The destination contexts are a sequential block
14231
	 * in the range first_dyn_alloc_ctxt...num_rcv_contexts-1 (inclusive).
14232 14233 14234 14235 14236 14237 14238
	 * Map entries are accessed as offset + extracted value.  Adjust
	 * the added offset so this sequence can be placed anywhere in
	 * the table - as long as the entries themselves do not wrap.
	 * There are only enough bits in offset for the table size, so
	 * start with that to allow for a "negative" offset.
	 */
	offset = (u8)(NUM_MAP_ENTRIES + (int)rmt->used -
14239
						(int)dd->first_dyn_alloc_ctxt);
14240

14241
	for (i = dd->first_dyn_alloc_ctxt, idx = rmt->used;
14242 14243 14244 14245 14246 14247 14248 14249 14250 14251 14252 14253 14254 14255 14256 14257 14258 14259 14260 14261 14262 14263 14264 14265 14266 14267 14268 14269 14270 14271 14272 14273 14274
				i < dd->num_rcv_contexts; i++, idx++) {
		/* replace with identity mapping */
		regoff = (idx % 8) * 8;
		regidx = idx / 8;
		reg = rmt->map[regidx];
		reg &= ~(RCV_RSM_MAP_TABLE_RCV_CONTEXT_A_MASK << regoff);
		reg |= (u64)i << regoff;
		rmt->map[regidx] = reg;
	}

	/*
	 * For RSM intercept of Expected FECN packets:
	 * o packet type 0 - expected
	 * o match on F (bit 95), using select/match 1, and
	 * o match on SH (bit 133), using select/match 2.
	 *
	 * Use index 1 to extract the 8-bit receive context from DestQP
	 * (start at bit 64).  Use that as the RSM map table index.
	 */
	rrd.offset = offset;
	rrd.pkt_type = 0;
	rrd.field1_off = 95;
	rrd.field2_off = 133;
	rrd.index1_off = 64;
	rrd.index1_width = 8;
	rrd.index2_off = 0;
	rrd.index2_width = 0;
	rrd.mask1 = 1;
	rrd.value1 = 1;
	rrd.mask2 = 1;
	rrd.value2 = 1;

	/* add rule 1 */
14275
	add_rsm_rule(dd, RSM_INS_FECN, &rrd);
14276 14277 14278 14279

	rmt->used += dd->num_user_contexts;
}

14280 14281 14282 14283 14284 14285 14286 14287 14288 14289 14290 14291 14292 14293 14294 14295 14296 14297 14298 14299 14300 14301 14302 14303 14304 14305 14306 14307 14308 14309 14310 14311 14312 14313 14314 14315 14316 14317 14318 14319 14320 14321 14322 14323 14324 14325 14326 14327 14328 14329 14330 14331 14332 14333 14334 14335 14336 14337 14338 14339 14340 14341 14342 14343 14344 14345 14346 14347 14348 14349 14350 14351 14352
/* Initialize RSM for VNIC */
void hfi1_init_vnic_rsm(struct hfi1_devdata *dd)
{
	u8 i, j;
	u8 ctx_id = 0;
	u64 reg;
	u32 regoff;
	struct rsm_rule_data rrd;

	if (hfi1_vnic_is_rsm_full(dd, NUM_VNIC_MAP_ENTRIES)) {
		dd_dev_err(dd, "Vnic RSM disabled, rmt entries used = %d\n",
			   dd->vnic.rmt_start);
		return;
	}

	dev_dbg(&(dd)->pcidev->dev, "Vnic rsm start = %d, end %d\n",
		dd->vnic.rmt_start,
		dd->vnic.rmt_start + NUM_VNIC_MAP_ENTRIES);

	/* Update RSM mapping table, 32 regs, 256 entries - 1 ctx per byte */
	regoff = RCV_RSM_MAP_TABLE + (dd->vnic.rmt_start / 8) * 8;
	reg = read_csr(dd, regoff);
	for (i = 0; i < NUM_VNIC_MAP_ENTRIES; i++) {
		/* Update map register with vnic context */
		j = (dd->vnic.rmt_start + i) % 8;
		reg &= ~(0xffllu << (j * 8));
		reg |= (u64)dd->vnic.ctxt[ctx_id++]->ctxt << (j * 8);
		/* Wrap up vnic ctx index */
		ctx_id %= dd->vnic.num_ctxt;
		/* Write back map register */
		if (j == 7 || ((i + 1) == NUM_VNIC_MAP_ENTRIES)) {
			dev_dbg(&(dd)->pcidev->dev,
				"Vnic rsm map reg[%d] =0x%llx\n",
				regoff - RCV_RSM_MAP_TABLE, reg);

			write_csr(dd, regoff, reg);
			regoff += 8;
			if (i < (NUM_VNIC_MAP_ENTRIES - 1))
				reg = read_csr(dd, regoff);
		}
	}

	/* Add rule for vnic */
	rrd.offset = dd->vnic.rmt_start;
	rrd.pkt_type = 4;
	/* Match 16B packets */
	rrd.field1_off = L2_TYPE_MATCH_OFFSET;
	rrd.mask1 = L2_TYPE_MASK;
	rrd.value1 = L2_16B_VALUE;
	/* Match ETH L4 packets */
	rrd.field2_off = L4_TYPE_MATCH_OFFSET;
	rrd.mask2 = L4_16B_TYPE_MASK;
	rrd.value2 = L4_16B_ETH_VALUE;
	/* Calc context from veswid and entropy */
	rrd.index1_off = L4_16B_HDR_VESWID_OFFSET;
	rrd.index1_width = ilog2(NUM_VNIC_MAP_ENTRIES);
	rrd.index2_off = L2_16B_ENTROPY_OFFSET;
	rrd.index2_width = ilog2(NUM_VNIC_MAP_ENTRIES);
	add_rsm_rule(dd, RSM_INS_VNIC, &rrd);

	/* Enable RSM if not already enabled */
	add_rcvctrl(dd, RCV_CTRL_RCV_RSM_ENABLE_SMASK);
}

void hfi1_deinit_vnic_rsm(struct hfi1_devdata *dd)
{
	clear_rsm_rule(dd, RSM_INS_VNIC);

	/* Disable RSM if used only by vnic */
	if (dd->vnic.rmt_start == 0)
		clear_rcvctrl(dd, RCV_CTRL_RCV_RSM_ENABLE_SMASK);
}

M
Mike Marciniszyn 已提交
14353 14354
static void init_rxe(struct hfi1_devdata *dd)
{
14355 14356
	struct rsm_map_table *rmt;

M
Mike Marciniszyn 已提交
14357 14358
	/* enable all receive errors */
	write_csr(dd, RCV_ERR_MASK, ~0ull);
14359 14360 14361 14362

	rmt = alloc_rsm_map_table(dd);
	/* set up QOS, including the QPN map table */
	init_qos(dd, rmt);
14363
	init_user_fecn_handling(dd, rmt);
14364
	complete_rsm_map_table(dd, rmt);
14365 14366
	/* record number of used rsm map entries for vnic */
	dd->vnic.rmt_start = rmt->used;
14367 14368
	kfree(rmt);

M
Mike Marciniszyn 已提交
14369 14370 14371 14372 14373 14374 14375 14376 14377 14378 14379 14380 14381 14382 14383 14384 14385 14386 14387 14388 14389 14390 14391 14392 14393 14394 14395 14396 14397 14398 14399 14400 14401 14402 14403 14404
	/*
	 * make sure RcvCtrl.RcvWcb <= PCIe Device Control
	 * Register Max_Payload_Size (PCI_EXP_DEVCTL in Linux PCIe config
	 * space, PciCfgCap2.MaxPayloadSize in HFI).  There is only one
	 * invalid configuration: RcvCtrl.RcvWcb set to its max of 256 and
	 * Max_PayLoad_Size set to its minimum of 128.
	 *
	 * Presently, RcvCtrl.RcvWcb is not modified from its default of 0
	 * (64 bytes).  Max_Payload_Size is possibly modified upward in
	 * tune_pcie_caps() which is called after this routine.
	 */
}

static void init_other(struct hfi1_devdata *dd)
{
	/* enable all CCE errors */
	write_csr(dd, CCE_ERR_MASK, ~0ull);
	/* enable *some* Misc errors */
	write_csr(dd, MISC_ERR_MASK, DRIVER_MISC_MASK);
	/* enable all DC errors, except LCB */
	write_csr(dd, DCC_ERR_FLG_EN, ~0ull);
	write_csr(dd, DC_DC8051_ERR_EN, ~0ull);
}

/*
 * Fill out the given AU table using the given CU.  A CU is defined in terms
 * AUs.  The table is a an encoding: given the index, how many AUs does that
 * represent?
 *
 * NOTE: Assumes that the register layout is the same for the
 * local and remote tables.
 */
static void assign_cm_au_table(struct hfi1_devdata *dd, u32 cu,
			       u32 csr0to3, u32 csr4to7)
{
	write_csr(dd, csr0to3,
14405 14406 14407 14408 14409 14410
		  0ull << SEND_CM_LOCAL_AU_TABLE0_TO3_LOCAL_AU_TABLE0_SHIFT |
		  1ull << SEND_CM_LOCAL_AU_TABLE0_TO3_LOCAL_AU_TABLE1_SHIFT |
		  2ull * cu <<
		  SEND_CM_LOCAL_AU_TABLE0_TO3_LOCAL_AU_TABLE2_SHIFT |
		  4ull * cu <<
		  SEND_CM_LOCAL_AU_TABLE0_TO3_LOCAL_AU_TABLE3_SHIFT);
M
Mike Marciniszyn 已提交
14411
	write_csr(dd, csr4to7,
14412 14413 14414 14415 14416 14417 14418 14419
		  8ull * cu <<
		  SEND_CM_LOCAL_AU_TABLE4_TO7_LOCAL_AU_TABLE4_SHIFT |
		  16ull * cu <<
		  SEND_CM_LOCAL_AU_TABLE4_TO7_LOCAL_AU_TABLE5_SHIFT |
		  32ull * cu <<
		  SEND_CM_LOCAL_AU_TABLE4_TO7_LOCAL_AU_TABLE6_SHIFT |
		  64ull * cu <<
		  SEND_CM_LOCAL_AU_TABLE4_TO7_LOCAL_AU_TABLE7_SHIFT);
M
Mike Marciniszyn 已提交
14420 14421 14422 14423 14424
}

static void assign_local_cm_au_table(struct hfi1_devdata *dd, u8 vcu)
{
	assign_cm_au_table(dd, vcu_to_cu(vcu), SEND_CM_LOCAL_AU_TABLE0_TO3,
14425
			   SEND_CM_LOCAL_AU_TABLE4_TO7);
M
Mike Marciniszyn 已提交
14426 14427 14428 14429 14430
}

void assign_remote_cm_au_table(struct hfi1_devdata *dd, u8 vcu)
{
	assign_cm_au_table(dd, vcu_to_cu(vcu), SEND_CM_REMOTE_AU_TABLE0_TO3,
14431
			   SEND_CM_REMOTE_AU_TABLE4_TO7);
M
Mike Marciniszyn 已提交
14432 14433 14434 14435 14436 14437 14438 14439 14440 14441 14442 14443 14444 14445 14446 14447 14448 14449 14450 14451 14452 14453 14454 14455 14456 14457 14458 14459 14460 14461 14462 14463 14464 14465 14466 14467 14468 14469 14470 14471 14472 14473 14474 14475 14476 14477 14478 14479 14480 14481 14482
}

static void init_txe(struct hfi1_devdata *dd)
{
	int i;

	/* enable all PIO, SDMA, general, and Egress errors */
	write_csr(dd, SEND_PIO_ERR_MASK, ~0ull);
	write_csr(dd, SEND_DMA_ERR_MASK, ~0ull);
	write_csr(dd, SEND_ERR_MASK, ~0ull);
	write_csr(dd, SEND_EGRESS_ERR_MASK, ~0ull);

	/* enable all per-context and per-SDMA engine errors */
	for (i = 0; i < dd->chip_send_contexts; i++)
		write_kctxt_csr(dd, i, SEND_CTXT_ERR_MASK, ~0ull);
	for (i = 0; i < dd->chip_sdma_engines; i++)
		write_kctxt_csr(dd, i, SEND_DMA_ENG_ERR_MASK, ~0ull);

	/* set the local CU to AU mapping */
	assign_local_cm_au_table(dd, dd->vcu);

	/*
	 * Set reasonable default for Credit Return Timer
	 * Don't set on Simulator - causes it to choke.
	 */
	if (dd->icode != ICODE_FUNCTIONAL_SIMULATOR)
		write_csr(dd, SEND_CM_TIMER_CTRL, HFI1_CREDIT_RETURN_RATE);
}

int hfi1_set_ctxt_jkey(struct hfi1_devdata *dd, unsigned ctxt, u16 jkey)
{
	struct hfi1_ctxtdata *rcd = dd->rcd[ctxt];
	unsigned sctxt;
	int ret = 0;
	u64 reg;

	if (!rcd || !rcd->sc) {
		ret = -EINVAL;
		goto done;
	}
	sctxt = rcd->sc->hw_context;
	reg = SEND_CTXT_CHECK_JOB_KEY_MASK_SMASK | /* mask is always 1's */
		((jkey & SEND_CTXT_CHECK_JOB_KEY_VALUE_MASK) <<
		 SEND_CTXT_CHECK_JOB_KEY_VALUE_SHIFT);
	/* JOB_KEY_ALLOW_PERMISSIVE is not allowed by default */
	if (HFI1_CAP_KGET_MASK(rcd->flags, ALLOW_PERM_JKEY))
		reg |= SEND_CTXT_CHECK_JOB_KEY_ALLOW_PERMISSIVE_SMASK;
	write_kctxt_csr(dd, sctxt, SEND_CTXT_CHECK_JOB_KEY, reg);
	/*
	 * Enable send-side J_KEY integrity check, unless this is A0 h/w
	 */
14483
	if (!is_ax(dd)) {
M
Mike Marciniszyn 已提交
14484 14485 14486 14487 14488 14489 14490 14491 14492 14493 14494 14495 14496 14497 14498 14499 14500 14501 14502 14503 14504 14505 14506 14507 14508 14509 14510 14511 14512 14513 14514 14515
		reg = read_kctxt_csr(dd, sctxt, SEND_CTXT_CHECK_ENABLE);
		reg |= SEND_CTXT_CHECK_ENABLE_CHECK_JOB_KEY_SMASK;
		write_kctxt_csr(dd, sctxt, SEND_CTXT_CHECK_ENABLE, reg);
	}

	/* Enable J_KEY check on receive context. */
	reg = RCV_KEY_CTRL_JOB_KEY_ENABLE_SMASK |
		((jkey & RCV_KEY_CTRL_JOB_KEY_VALUE_MASK) <<
		 RCV_KEY_CTRL_JOB_KEY_VALUE_SHIFT);
	write_kctxt_csr(dd, ctxt, RCV_KEY_CTRL, reg);
done:
	return ret;
}

int hfi1_clear_ctxt_jkey(struct hfi1_devdata *dd, unsigned ctxt)
{
	struct hfi1_ctxtdata *rcd = dd->rcd[ctxt];
	unsigned sctxt;
	int ret = 0;
	u64 reg;

	if (!rcd || !rcd->sc) {
		ret = -EINVAL;
		goto done;
	}
	sctxt = rcd->sc->hw_context;
	write_kctxt_csr(dd, sctxt, SEND_CTXT_CHECK_JOB_KEY, 0);
	/*
	 * Disable send-side J_KEY integrity check, unless this is A0 h/w.
	 * This check would not have been enabled for A0 h/w, see
	 * set_ctxt_jkey().
	 */
14516
	if (!is_ax(dd)) {
M
Mike Marciniszyn 已提交
14517 14518 14519 14520 14521 14522 14523 14524 14525 14526 14527 14528 14529 14530 14531 14532 14533
		reg = read_kctxt_csr(dd, sctxt, SEND_CTXT_CHECK_ENABLE);
		reg &= ~SEND_CTXT_CHECK_ENABLE_CHECK_JOB_KEY_SMASK;
		write_kctxt_csr(dd, sctxt, SEND_CTXT_CHECK_ENABLE, reg);
	}
	/* Turn off the J_KEY on the receive side */
	write_kctxt_csr(dd, ctxt, RCV_KEY_CTRL, 0);
done:
	return ret;
}

int hfi1_set_ctxt_pkey(struct hfi1_devdata *dd, unsigned ctxt, u16 pkey)
{
	struct hfi1_ctxtdata *rcd;
	unsigned sctxt;
	int ret = 0;
	u64 reg;

14534
	if (ctxt < dd->num_rcv_contexts) {
M
Mike Marciniszyn 已提交
14535
		rcd = dd->rcd[ctxt];
14536
	} else {
M
Mike Marciniszyn 已提交
14537 14538 14539 14540 14541 14542 14543 14544 14545 14546 14547 14548 14549
		ret = -EINVAL;
		goto done;
	}
	if (!rcd || !rcd->sc) {
		ret = -EINVAL;
		goto done;
	}
	sctxt = rcd->sc->hw_context;
	reg = ((u64)pkey & SEND_CTXT_CHECK_PARTITION_KEY_VALUE_MASK) <<
		SEND_CTXT_CHECK_PARTITION_KEY_VALUE_SHIFT;
	write_kctxt_csr(dd, sctxt, SEND_CTXT_CHECK_PARTITION_KEY, reg);
	reg = read_kctxt_csr(dd, sctxt, SEND_CTXT_CHECK_ENABLE);
	reg |= SEND_CTXT_CHECK_ENABLE_CHECK_PARTITION_KEY_SMASK;
14550
	reg &= ~SEND_CTXT_CHECK_ENABLE_DISALLOW_KDETH_PACKETS_SMASK;
M
Mike Marciniszyn 已提交
14551 14552 14553 14554 14555 14556 14557 14558 14559 14560 14561 14562
	write_kctxt_csr(dd, sctxt, SEND_CTXT_CHECK_ENABLE, reg);
done:
	return ret;
}

int hfi1_clear_ctxt_pkey(struct hfi1_devdata *dd, unsigned ctxt)
{
	struct hfi1_ctxtdata *rcd;
	unsigned sctxt;
	int ret = 0;
	u64 reg;

14563
	if (ctxt < dd->num_rcv_contexts) {
M
Mike Marciniszyn 已提交
14564
		rcd = dd->rcd[ctxt];
14565
	} else {
M
Mike Marciniszyn 已提交
14566 14567 14568 14569 14570 14571 14572 14573 14574 14575 14576 14577 14578 14579 14580 14581 14582 14583 14584 14585 14586 14587
		ret = -EINVAL;
		goto done;
	}
	if (!rcd || !rcd->sc) {
		ret = -EINVAL;
		goto done;
	}
	sctxt = rcd->sc->hw_context;
	reg = read_kctxt_csr(dd, sctxt, SEND_CTXT_CHECK_ENABLE);
	reg &= ~SEND_CTXT_CHECK_ENABLE_CHECK_PARTITION_KEY_SMASK;
	write_kctxt_csr(dd, sctxt, SEND_CTXT_CHECK_ENABLE, reg);
	write_kctxt_csr(dd, sctxt, SEND_CTXT_CHECK_PARTITION_KEY, 0);
done:
	return ret;
}

/*
 * Start doing the clean up the the chip. Our clean up happens in multiple
 * stages and this is just the first.
 */
void hfi1_start_cleanup(struct hfi1_devdata *dd)
{
14588
	aspm_exit(dd);
M
Mike Marciniszyn 已提交
14589 14590 14591
	free_cntrs(dd);
	free_rcverr(dd);
	clean_up_interrupts(dd);
14592
	finish_chip_resources(dd);
M
Mike Marciniszyn 已提交
14593 14594 14595 14596 14597 14598
}

#define HFI_BASE_GUID(dev) \
	((dev)->base_guid & ~(1ULL << GUID_HFI_INDEX_SHIFT))

/*
D
Dean Luick 已提交
14599 14600 14601
 * Information can be shared between the two HFIs on the same ASIC
 * in the same OS.  This function finds the peer device and sets
 * up a shared structure.
M
Mike Marciniszyn 已提交
14602
 */
D
Dean Luick 已提交
14603
static int init_asic_data(struct hfi1_devdata *dd)
M
Mike Marciniszyn 已提交
14604 14605 14606
{
	unsigned long flags;
	struct hfi1_devdata *tmp, *peer = NULL;
14607
	struct hfi1_asic_data *asic_data;
D
Dean Luick 已提交
14608
	int ret = 0;
M
Mike Marciniszyn 已提交
14609

14610 14611 14612 14613 14614
	/* pre-allocate the asic structure in case we are the first device */
	asic_data = kzalloc(sizeof(*dd->asic_data), GFP_KERNEL);
	if (!asic_data)
		return -ENOMEM;

M
Mike Marciniszyn 已提交
14615 14616 14617 14618 14619 14620 14621 14622 14623 14624
	spin_lock_irqsave(&hfi1_devs_lock, flags);
	/* Find our peer device */
	list_for_each_entry(tmp, &hfi1_dev_list, list) {
		if ((HFI_BASE_GUID(dd) == HFI_BASE_GUID(tmp)) &&
		    dd->unit != tmp->unit) {
			peer = tmp;
			break;
		}
	}

D
Dean Luick 已提交
14625
	if (peer) {
14626
		/* use already allocated structure */
D
Dean Luick 已提交
14627
		dd->asic_data = peer->asic_data;
14628
		kfree(asic_data);
D
Dean Luick 已提交
14629
	} else {
14630
		dd->asic_data = asic_data;
D
Dean Luick 已提交
14631 14632 14633
		mutex_init(&dd->asic_data->asic_resource_mutex);
	}
	dd->asic_data->dds[dd->hfi1_id] = dd; /* self back-pointer */
M
Mike Marciniszyn 已提交
14634
	spin_unlock_irqrestore(&hfi1_devs_lock, flags);
14635 14636 14637 14638 14639

	/* first one through - set up i2c devices */
	if (!peer)
		ret = set_up_i2c(dd, dd->asic_data);

D
Dean Luick 已提交
14640
	return ret;
M
Mike Marciniszyn 已提交
14641 14642
}

14643 14644 14645 14646 14647 14648 14649 14650 14651 14652 14653 14654 14655 14656 14657 14658 14659
/*
 * Set dd->boardname.  Use a generic name if a name is not returned from
 * EFI variable space.
 *
 * Return 0 on success, -ENOMEM if space could not be allocated.
 */
static int obtain_boardname(struct hfi1_devdata *dd)
{
	/* generic board description */
	const char generic[] =
		"Intel Omni-Path Host Fabric Interface Adapter 100 Series";
	unsigned long size;
	int ret;

	ret = read_hfi1_efi_var(dd, "description", &size,
				(void **)&dd->boardname);
	if (ret) {
14660
		dd_dev_info(dd, "Board description not found\n");
14661 14662 14663 14664 14665 14666 14667 14668
		/* use generic description */
		dd->boardname = kstrdup(generic, GFP_KERNEL);
		if (!dd->boardname)
			return -ENOMEM;
	}
	return 0;
}

14669 14670 14671 14672 14673 14674 14675 14676 14677 14678 14679 14680 14681 14682 14683 14684 14685 14686 14687 14688 14689 14690 14691 14692 14693 14694 14695 14696 14697 14698 14699 14700 14701 14702 14703 14704 14705 14706 14707 14708 14709 14710 14711 14712
/*
 * Check the interrupt registers to make sure that they are mapped correctly.
 * It is intended to help user identify any mismapping by VMM when the driver
 * is running in a VM. This function should only be called before interrupt
 * is set up properly.
 *
 * Return 0 on success, -EINVAL on failure.
 */
static int check_int_registers(struct hfi1_devdata *dd)
{
	u64 reg;
	u64 all_bits = ~(u64)0;
	u64 mask;

	/* Clear CceIntMask[0] to avoid raising any interrupts */
	mask = read_csr(dd, CCE_INT_MASK);
	write_csr(dd, CCE_INT_MASK, 0ull);
	reg = read_csr(dd, CCE_INT_MASK);
	if (reg)
		goto err_exit;

	/* Clear all interrupt status bits */
	write_csr(dd, CCE_INT_CLEAR, all_bits);
	reg = read_csr(dd, CCE_INT_STATUS);
	if (reg)
		goto err_exit;

	/* Set all interrupt status bits */
	write_csr(dd, CCE_INT_FORCE, all_bits);
	reg = read_csr(dd, CCE_INT_STATUS);
	if (reg != all_bits)
		goto err_exit;

	/* Restore the interrupt mask */
	write_csr(dd, CCE_INT_CLEAR, all_bits);
	write_csr(dd, CCE_INT_MASK, mask);

	return 0;
err_exit:
	write_csr(dd, CCE_INT_MASK, mask);
	dd_dev_err(dd, "Interrupt registers not properly mapped by VMM\n");
	return -EINVAL;
}

M
Mike Marciniszyn 已提交
14713
/**
14714
 * Allocate and initialize the device structure for the hfi.
M
Mike Marciniszyn 已提交
14715 14716 14717 14718 14719 14720 14721 14722 14723 14724 14725 14726 14727 14728 14729 14730 14731 14732 14733 14734 14735 14736
 * @dev: the pci_dev for hfi1_ib device
 * @ent: pci_device_id struct for this dev
 *
 * Also allocates, initializes, and returns the devdata struct for this
 * device instance
 *
 * This is global, and is called directly at init to set up the
 * chip-specific function pointers for later use.
 */
struct hfi1_devdata *hfi1_init_dd(struct pci_dev *pdev,
				  const struct pci_device_id *ent)
{
	struct hfi1_devdata *dd;
	struct hfi1_pportdata *ppd;
	u64 reg;
	int i, ret;
	static const char * const inames[] = { /* implementation names */
		"RTL silicon",
		"RTL VCS simulation",
		"RTL FPGA emulation",
		"Functional simulator"
	};
14737
	struct pci_dev *parent = pdev->bus->self;
M
Mike Marciniszyn 已提交
14738

14739 14740
	dd = hfi1_alloc_devdata(pdev, NUM_IB_PORTS *
				sizeof(struct hfi1_pportdata));
M
Mike Marciniszyn 已提交
14741 14742 14743 14744 14745 14746 14747 14748 14749 14750 14751 14752 14753 14754 14755 14756 14757 14758 14759 14760
	if (IS_ERR(dd))
		goto bail;
	ppd = dd->pport;
	for (i = 0; i < dd->num_pports; i++, ppd++) {
		int vl;
		/* init common fields */
		hfi1_init_pportdata(pdev, ppd, dd, 0, 1);
		/* DC supports 4 link widths */
		ppd->link_width_supported =
			OPA_LINK_WIDTH_1X | OPA_LINK_WIDTH_2X |
			OPA_LINK_WIDTH_3X | OPA_LINK_WIDTH_4X;
		ppd->link_width_downgrade_supported =
			ppd->link_width_supported;
		/* start out enabling only 4X */
		ppd->link_width_enabled = OPA_LINK_WIDTH_4X;
		ppd->link_width_downgrade_enabled =
					ppd->link_width_downgrade_supported;
		/* link width active is 0 when link is down */
		/* link width downgrade active is 0 when link is down */

14761 14762
		if (num_vls < HFI1_MIN_VLS_SUPPORTED ||
		    num_vls > HFI1_MAX_VLS_SUPPORTED) {
M
Mike Marciniszyn 已提交
14763 14764 14765 14766 14767 14768 14769
			hfi1_early_err(&pdev->dev,
				       "Invalid num_vls %u, using %u VLs\n",
				    num_vls, HFI1_MAX_VLS_SUPPORTED);
			num_vls = HFI1_MAX_VLS_SUPPORTED;
		}
		ppd->vls_supported = num_vls;
		ppd->vls_operational = ppd->vls_supported;
14770
		ppd->actual_vls_operational = ppd->vls_supported;
M
Mike Marciniszyn 已提交
14771 14772 14773 14774 14775 14776 14777 14778 14779 14780 14781 14782 14783 14784 14785 14786 14787 14788 14789
		/* Set the default MTU. */
		for (vl = 0; vl < num_vls; vl++)
			dd->vld[vl].mtu = hfi1_max_mtu;
		dd->vld[15].mtu = MAX_MAD_PACKET;
		/*
		 * Set the initial values to reasonable default, will be set
		 * for real when link is up.
		 */
		ppd->lstate = IB_PORT_DOWN;
		ppd->overrun_threshold = 0x4;
		ppd->phy_error_threshold = 0xf;
		ppd->port_crc_mode_enabled = link_crc_mask;
		/* initialize supported LTP CRC mode */
		ppd->port_ltp_crc_mode = cap_to_port_ltp(link_crc_mask) << 8;
		/* initialize enabled LTP CRC mode */
		ppd->port_ltp_crc_mode |= cap_to_port_ltp(link_crc_mask) << 4;
		/* start in offline */
		ppd->host_link_state = HLS_DN_OFFLINE;
		init_vl_arb_caches(ppd);
14790
		ppd->last_pstate = 0xff; /* invalid value */
M
Mike Marciniszyn 已提交
14791 14792 14793 14794 14795 14796 14797 14798 14799
	}

	dd->link_default = HLS_DN_POLL;

	/*
	 * Do remaining PCIe setup and save PCIe values in dd.
	 * Any error printing is already done by the init code.
	 * On return, we have the chip mapped.
	 */
14800
	ret = hfi1_pcie_ddinit(dd, pdev);
M
Mike Marciniszyn 已提交
14801 14802 14803 14804 14805 14806 14807 14808 14809 14810 14811 14812 14813 14814 14815
	if (ret < 0)
		goto bail_free;

	/* verify that reads actually work, save revision for reset check */
	dd->revision = read_csr(dd, CCE_REVISION);
	if (dd->revision == ~(u64)0) {
		dd_dev_err(dd, "cannot read chip CSRs\n");
		ret = -EINVAL;
		goto bail_cleanup;
	}
	dd->majrev = (dd->revision >> CCE_REVISION_CHIP_REV_MAJOR_SHIFT)
			& CCE_REVISION_CHIP_REV_MAJOR_MASK;
	dd->minrev = (dd->revision >> CCE_REVISION_CHIP_REV_MINOR_SHIFT)
			& CCE_REVISION_CHIP_REV_MINOR_MASK;

14816 14817 14818 14819 14820 14821 14822 14823 14824 14825 14826
	/*
	 * Check interrupt registers mapping if the driver has no access to
	 * the upstream component. In this case, it is likely that the driver
	 * is running in a VM.
	 */
	if (!parent) {
		ret = check_int_registers(dd);
		if (ret)
			goto bail_cleanup;
	}

14827 14828 14829 14830
	/*
	 * obtain the hardware ID - NOT related to unit, which is a
	 * software enumeration
	 */
M
Mike Marciniszyn 已提交
14831 14832 14833 14834 14835 14836 14837
	reg = read_csr(dd, CCE_REVISION2);
	dd->hfi1_id = (reg >> CCE_REVISION2_HFI_ID_SHIFT)
					& CCE_REVISION2_HFI_ID_MASK;
	/* the variable size will remove unwanted bits */
	dd->icode = reg >> CCE_REVISION2_IMPL_CODE_SHIFT;
	dd->irev = reg >> CCE_REVISION2_IMPL_REVISION_SHIFT;
	dd_dev_info(dd, "Implementation: %s, revision 0x%x\n",
14838 14839
		    dd->icode < ARRAY_SIZE(inames) ?
		    inames[dd->icode] : "unknown", (int)dd->irev);
M
Mike Marciniszyn 已提交
14840 14841 14842 14843 14844 14845 14846 14847 14848 14849 14850 14851 14852 14853 14854 14855 14856 14857 14858 14859 14860 14861 14862 14863 14864

	/* speeds the hardware can support */
	dd->pport->link_speed_supported = OPA_LINK_SPEED_25G;
	/* speeds allowed to run at */
	dd->pport->link_speed_enabled = dd->pport->link_speed_supported;
	/* give a reasonable active value, will be set on link up */
	dd->pport->link_speed_active = OPA_LINK_SPEED_25G;

	dd->chip_rcv_contexts = read_csr(dd, RCV_CONTEXTS);
	dd->chip_send_contexts = read_csr(dd, SEND_CONTEXTS);
	dd->chip_sdma_engines = read_csr(dd, SEND_DMA_ENGINES);
	dd->chip_pio_mem_size = read_csr(dd, SEND_PIO_MEM_SIZE);
	dd->chip_sdma_mem_size = read_csr(dd, SEND_DMA_MEM_SIZE);
	/* fix up link widths for emulation _p */
	ppd = dd->pport;
	if (dd->icode == ICODE_FPGA_EMULATION && is_emulator_p(dd)) {
		ppd->link_width_supported =
			ppd->link_width_enabled =
			ppd->link_width_downgrade_supported =
			ppd->link_width_downgrade_enabled =
				OPA_LINK_WIDTH_1X;
	}
	/* insure num_vls isn't larger than number of sdma engines */
	if (HFI1_CAP_IS_KSET(SDMA) && num_vls > dd->chip_sdma_engines) {
		dd_dev_err(dd, "num_vls %u too large, using %u VLs\n",
14865 14866 14867
			   num_vls, dd->chip_sdma_engines);
		num_vls = dd->chip_sdma_engines;
		ppd->vls_supported = dd->chip_sdma_engines;
14868
		ppd->vls_operational = ppd->vls_supported;
M
Mike Marciniszyn 已提交
14869 14870 14871 14872 14873 14874 14875 14876 14877 14878 14879 14880 14881 14882 14883 14884 14885 14886
	}

	/*
	 * Convert the ns parameter to the 64 * cclocks used in the CSR.
	 * Limit the max if larger than the field holds.  If timeout is
	 * non-zero, then the calculated field will be at least 1.
	 *
	 * Must be after icode is set up - the cclock rate depends
	 * on knowing the hardware being used.
	 */
	dd->rcv_intr_timeout_csr = ns_to_cclock(dd, rcv_intr_timeout) / 64;
	if (dd->rcv_intr_timeout_csr >
			RCV_AVAIL_TIME_OUT_TIME_OUT_RELOAD_MASK)
		dd->rcv_intr_timeout_csr =
			RCV_AVAIL_TIME_OUT_TIME_OUT_RELOAD_MASK;
	else if (dd->rcv_intr_timeout_csr == 0 && rcv_intr_timeout)
		dd->rcv_intr_timeout_csr = 1;

14887 14888 14889
	/* needs to be done before we look for the peer device */
	read_guid(dd);

D
Dean Luick 已提交
14890 14891 14892 14893
	/* set up shared ASIC data with peer device */
	ret = init_asic_data(dd);
	if (ret)
		goto bail_cleanup;
14894

M
Mike Marciniszyn 已提交
14895 14896 14897 14898 14899 14900 14901 14902
	/* obtain chip sizes, reset chip CSRs */
	init_chip(dd);

	/* read in the PCIe link speed information */
	ret = pcie_speeds(dd);
	if (ret)
		goto bail_cleanup;

14903 14904 14905 14906 14907
	/* call before get_platform_config(), after init_chip_resources() */
	ret = eprom_init(dd);
	if (ret)
		goto bail_free_rcverr;

14908 14909 14910
	/* Needs to be called before hfi1_firmware_init */
	get_platform_config(dd);

M
Mike Marciniszyn 已提交
14911 14912 14913 14914 14915 14916 14917 14918 14919 14920 14921 14922 14923 14924 14925 14926 14927 14928 14929 14930 14931 14932 14933 14934 14935 14936
	/* read in firmware */
	ret = hfi1_firmware_init(dd);
	if (ret)
		goto bail_cleanup;

	/*
	 * In general, the PCIe Gen3 transition must occur after the
	 * chip has been idled (so it won't initiate any PCIe transactions
	 * e.g. an interrupt) and before the driver changes any registers
	 * (the transition will reset the registers).
	 *
	 * In particular, place this call after:
	 * - init_chip()     - the chip will not initiate any PCIe transactions
	 * - pcie_speeds()   - reads the current link speed
	 * - hfi1_firmware_init() - the needed firmware is ready to be
	 *			    downloaded
	 */
	ret = do_pcie_gen3_transition(dd);
	if (ret)
		goto bail_cleanup;

	/* start setting dd values and adjusting CSRs */
	init_early_variables(dd);

	parse_platform_config(dd);

14937 14938
	ret = obtain_boardname(dd);
	if (ret)
M
Mike Marciniszyn 已提交
14939 14940 14941
		goto bail_cleanup;

	snprintf(dd->boardversion, BOARD_VERS_MAX,
14942
		 "ChipABI %u.%u, ChipRev %u.%u, SW Compat %llu\n",
M
Mike Marciniszyn 已提交
14943 14944 14945 14946 14947 14948 14949 14950 14951 14952 14953 14954 14955 14956 14957 14958 14959 14960 14961
		 HFI1_CHIP_VERS_MAJ, HFI1_CHIP_VERS_MIN,
		 (u32)dd->majrev,
		 (u32)dd->minrev,
		 (dd->revision >> CCE_REVISION_SW_SHIFT)
		    & CCE_REVISION_SW_MASK);

	ret = set_up_context_variables(dd);
	if (ret)
		goto bail_cleanup;

	/* set initial RXE CSRs */
	init_rxe(dd);
	/* set initial TXE CSRs */
	init_txe(dd);
	/* set initial non-RXE, non-TXE CSRs */
	init_other(dd);
	/* set up KDETH QP prefix in both RX and TX CSRs */
	init_kdeth_qp(dd);

14962 14963 14964
	ret = hfi1_dev_affinity_init(dd);
	if (ret)
		goto bail_cleanup;
14965

M
Mike Marciniszyn 已提交
14966 14967 14968 14969 14970 14971 14972 14973 14974 14975 14976 14977 14978 14979 14980 14981 14982 14983 14984 14985 14986 14987 14988 14989 14990 14991 14992 14993 14994 14995 14996 14997 14998 14999 15000
	/* send contexts must be set up before receive contexts */
	ret = init_send_contexts(dd);
	if (ret)
		goto bail_cleanup;

	ret = hfi1_create_ctxts(dd);
	if (ret)
		goto bail_cleanup;

	dd->rcvhdrsize = DEFAULT_RCVHDRSIZE;
	/*
	 * rcd[0] is guaranteed to be valid by this point. Also, all
	 * context are using the same value, as per the module parameter.
	 */
	dd->rhf_offset = dd->rcd[0]->rcvhdrqentsize - sizeof(u64) / sizeof(u32);

	ret = init_pervl_scs(dd);
	if (ret)
		goto bail_cleanup;

	/* sdma init */
	for (i = 0; i < dd->num_pports; ++i) {
		ret = sdma_init(dd, i);
		if (ret)
			goto bail_cleanup;
	}

	/* use contexts created by hfi1_create_ctxts */
	ret = set_up_interrupts(dd);
	if (ret)
		goto bail_cleanup;

	/* set up LCB access - must be after set_up_interrupts() */
	init_lcb_access(dd);

15001 15002 15003 15004 15005
	/*
	 * Serial number is created from the base guid:
	 * [27:24] = base guid [38:35]
	 * [23: 0] = base guid [23: 0]
	 */
M
Mike Marciniszyn 已提交
15006
	snprintf(dd->serial, SERIAL_MAX, "0x%08llx\n",
15007 15008
		 (dd->base_guid & 0xFFFFFF) |
		     ((dd->base_guid >> 11) & 0xF000000));
M
Mike Marciniszyn 已提交
15009 15010 15011 15012 15013 15014 15015 15016 15017 15018 15019 15020 15021 15022 15023 15024 15025 15026 15027

	dd->oui1 = dd->base_guid >> 56 & 0xFF;
	dd->oui2 = dd->base_guid >> 48 & 0xFF;
	dd->oui3 = dd->base_guid >> 40 & 0xFF;

	ret = load_firmware(dd); /* asymmetric with dispose_firmware() */
	if (ret)
		goto bail_clear_intr;

	thermal_init(dd);

	ret = init_cntrs(dd);
	if (ret)
		goto bail_clear_intr;

	ret = init_rcverr(dd);
	if (ret)
		goto bail_free_cntrs;

15028 15029 15030 15031 15032
	init_completion(&dd->user_comp);

	/* The user refcount starts with one to inidicate an active device */
	atomic_set(&dd->user_refcount, 1);

M
Mike Marciniszyn 已提交
15033 15034 15035 15036 15037 15038 15039 15040 15041 15042 15043 15044 15045 15046 15047 15048 15049 15050 15051 15052 15053 15054 15055 15056 15057 15058 15059 15060 15061 15062 15063 15064 15065 15066 15067 15068 15069 15070 15071 15072 15073 15074 15075 15076 15077 15078 15079 15080 15081 15082 15083 15084 15085 15086 15087 15088 15089 15090 15091 15092 15093 15094 15095 15096 15097 15098 15099 15100 15101 15102 15103 15104 15105 15106 15107 15108 15109
	goto bail;

bail_free_rcverr:
	free_rcverr(dd);
bail_free_cntrs:
	free_cntrs(dd);
bail_clear_intr:
	clean_up_interrupts(dd);
bail_cleanup:
	hfi1_pcie_ddcleanup(dd);
bail_free:
	hfi1_free_devdata(dd);
	dd = ERR_PTR(ret);
bail:
	return dd;
}

static u16 delay_cycles(struct hfi1_pportdata *ppd, u32 desired_egress_rate,
			u32 dw_len)
{
	u32 delta_cycles;
	u32 current_egress_rate = ppd->current_egress_rate;
	/* rates here are in units of 10^6 bits/sec */

	if (desired_egress_rate == -1)
		return 0; /* shouldn't happen */

	if (desired_egress_rate >= current_egress_rate)
		return 0; /* we can't help go faster, only slower */

	delta_cycles = egress_cycles(dw_len * 4, desired_egress_rate) -
			egress_cycles(dw_len * 4, current_egress_rate);

	return (u16)delta_cycles;
}

/**
 * create_pbc - build a pbc for transmission
 * @flags: special case flags or-ed in built pbc
 * @srate: static rate
 * @vl: vl
 * @dwlen: dword length (header words + data words + pbc words)
 *
 * Create a PBC with the given flags, rate, VL, and length.
 *
 * NOTE: The PBC created will not insert any HCRC - all callers but one are
 * for verbs, which does not use this PSM feature.  The lone other caller
 * is for the diagnostic interface which calls this if the user does not
 * supply their own PBC.
 */
u64 create_pbc(struct hfi1_pportdata *ppd, u64 flags, int srate_mbs, u32 vl,
	       u32 dw_len)
{
	u64 pbc, delay = 0;

	if (unlikely(srate_mbs))
		delay = delay_cycles(ppd, srate_mbs, dw_len);

	pbc = flags
		| (delay << PBC_STATIC_RATE_CONTROL_COUNT_SHIFT)
		| ((u64)PBC_IHCRC_NONE << PBC_INSERT_HCRC_SHIFT)
		| (vl & PBC_VL_MASK) << PBC_VL_SHIFT
		| (dw_len & PBC_LENGTH_DWS_MASK)
			<< PBC_LENGTH_DWS_SHIFT;

	return pbc;
}

#define SBUS_THERMAL    0x4f
#define SBUS_THERM_MONITOR_MODE 0x1

#define THERM_FAILURE(dev, ret, reason) \
	dd_dev_err((dd),						\
		   "Thermal sensor initialization failed: %s (%d)\n",	\
		   (reason), (ret))

/*
15110
 * Initialize the thermal sensor.
M
Mike Marciniszyn 已提交
15111 15112 15113 15114 15115 15116 15117 15118 15119 15120 15121 15122 15123
 *
 * After initialization, enable polling of thermal sensor through
 * SBus interface. In order for this to work, the SBus Master
 * firmware has to be loaded due to the fact that the HW polling
 * logic uses SBus interrupts, which are not supported with
 * default firmware. Otherwise, no data will be returned through
 * the ASIC_STS_THERM CSR.
 */
static int thermal_init(struct hfi1_devdata *dd)
{
	int ret = 0;

	if (dd->icode != ICODE_RTL_SILICON ||
15124
	    check_chip_resource(dd, CR_THERM_INIT, NULL))
M
Mike Marciniszyn 已提交
15125 15126
		return ret;

15127 15128 15129 15130 15131 15132
	ret = acquire_chip_resource(dd, CR_SBUS, SBUS_TIMEOUT);
	if (ret) {
		THERM_FAILURE(dd, ret, "Acquire SBus");
		return ret;
	}

M
Mike Marciniszyn 已提交
15133
	dd_dev_info(dd, "Initializing thermal sensor\n");
15134 15135 15136
	/* Disable polling of thermal readings */
	write_csr(dd, ASIC_CFG_THERM_POLL_EN, 0x0);
	msleep(100);
M
Mike Marciniszyn 已提交
15137 15138 15139 15140 15141 15142 15143 15144 15145 15146 15147 15148 15149 15150 15151 15152 15153 15154 15155 15156 15157 15158 15159 15160 15161 15162 15163 15164 15165 15166 15167 15168 15169 15170 15171 15172 15173 15174 15175 15176 15177 15178
	/* Thermal Sensor Initialization */
	/*    Step 1: Reset the Thermal SBus Receiver */
	ret = sbus_request_slow(dd, SBUS_THERMAL, 0x0,
				RESET_SBUS_RECEIVER, 0);
	if (ret) {
		THERM_FAILURE(dd, ret, "Bus Reset");
		goto done;
	}
	/*    Step 2: Set Reset bit in Thermal block */
	ret = sbus_request_slow(dd, SBUS_THERMAL, 0x0,
				WRITE_SBUS_RECEIVER, 0x1);
	if (ret) {
		THERM_FAILURE(dd, ret, "Therm Block Reset");
		goto done;
	}
	/*    Step 3: Write clock divider value (100MHz -> 2MHz) */
	ret = sbus_request_slow(dd, SBUS_THERMAL, 0x1,
				WRITE_SBUS_RECEIVER, 0x32);
	if (ret) {
		THERM_FAILURE(dd, ret, "Write Clock Div");
		goto done;
	}
	/*    Step 4: Select temperature mode */
	ret = sbus_request_slow(dd, SBUS_THERMAL, 0x3,
				WRITE_SBUS_RECEIVER,
				SBUS_THERM_MONITOR_MODE);
	if (ret) {
		THERM_FAILURE(dd, ret, "Write Mode Sel");
		goto done;
	}
	/*    Step 5: De-assert block reset and start conversion */
	ret = sbus_request_slow(dd, SBUS_THERMAL, 0x0,
				WRITE_SBUS_RECEIVER, 0x2);
	if (ret) {
		THERM_FAILURE(dd, ret, "Write Reset Deassert");
		goto done;
	}
	/*    Step 5.1: Wait for first conversion (21.5ms per spec) */
	msleep(22);

	/* Enable polling of thermal readings */
	write_csr(dd, ASIC_CFG_THERM_POLL_EN, 0x1);
15179 15180 15181 15182 15183 15184

	/* Set initialized flag */
	ret = acquire_chip_resource(dd, CR_THERM_INIT, 0);
	if (ret)
		THERM_FAILURE(dd, ret, "Unable to set thermal init flag");

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done:
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	release_chip_resource(dd, CR_SBUS);
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	return ret;
}

static void handle_temp_err(struct hfi1_devdata *dd)
{
	struct hfi1_pportdata *ppd = &dd->pport[0];
	/*
	 * Thermal Critical Interrupt
	 * Put the device into forced freeze mode, take link down to
	 * offline, and put DC into reset.
	 */
	dd_dev_emerg(dd,
		     "Critical temperature reached! Forcing device into freeze mode!\n");
	dd->flags |= HFI1_FORCED_FREEZE;
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	start_freeze_handling(ppd, FREEZE_SELF | FREEZE_ABORT);
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	/*
	 * Shut DC down as much and as quickly as possible.
	 *
	 * Step 1: Take the link down to OFFLINE. This will cause the
	 *         8051 to put the Serdes in reset. However, we don't want to
	 *         go through the entire link state machine since we want to
	 *         shutdown ASAP. Furthermore, this is not a graceful shutdown
	 *         but rather an attempt to save the chip.
	 *         Code below is almost the same as quiet_serdes() but avoids
	 *         all the extra work and the sleeps.
	 */
	ppd->driver_link_ready = 0;
	ppd->link_enabled = 0;
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	set_physical_link_state(dd, (OPA_LINKDOWN_REASON_SMA_DISABLED << 8) |
				PLS_OFFLINE);
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	/*
	 * Step 2: Shutdown LCB and 8051
	 *         After shutdown, do not restore DC_CFG_RESET value.
	 */
	dc_shutdown(dd);
}