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|
/*
* Copyright (c) 2016 Hisilicon Limited.
*
* This software is available to you under a choice of one of two
* licenses. You may choose to be licensed under the terms of the GNU
* General Public License (GPL) Version 2, available from the file
* COPYING in the main directory of this source tree, or the
* OpenIB.org BSD license below:
*
* 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.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
#include <linux/platform_device.h>
#include "hns_roce_common.h"
#include "hns_roce_device.h"
#include "hns_roce_eq.h"
static void eq_set_cons_index(struct hns_roce_eq *eq, int req_not)
{
roce_raw_write((eq->cons_index & CONS_INDEX_MASK) |
(req_not << eq->log_entries), eq->doorbell);
/* Memory barrier */
mb();
}
static struct hns_roce_aeqe *get_aeqe(struct hns_roce_eq *eq, u32 entry)
{
unsigned long off = (entry & (eq->entries - 1)) *
HNS_ROCE_AEQ_ENTRY_SIZE;
return (struct hns_roce_aeqe *)((u8 *)
(eq->buf_list[off / HNS_ROCE_BA_SIZE].buf) +
off % HNS_ROCE_BA_SIZE);
}
static struct hns_roce_aeqe *next_aeqe_sw(struct hns_roce_eq *eq)
{
struct hns_roce_aeqe *aeqe = get_aeqe(eq, eq->cons_index);
return (roce_get_bit(aeqe->asyn, HNS_ROCE_AEQE_U32_4_OWNER_S) ^
!!(eq->cons_index & eq->entries)) ? aeqe : NULL;
}
static void hns_roce_wq_catas_err_handle(struct hns_roce_dev *hr_dev,
struct hns_roce_aeqe *aeqe, int qpn)
{
struct device *dev = &hr_dev->pdev->dev;
dev_warn(dev, "Local Work Queue Catastrophic Error.\n");
switch (roce_get_field(aeqe->asyn, HNS_ROCE_AEQE_U32_4_EVENT_SUB_TYPE_M,
HNS_ROCE_AEQE_U32_4_EVENT_SUB_TYPE_S)) {
case HNS_ROCE_LWQCE_QPC_ERROR:
dev_warn(dev, "QP %d, QPC error.\n", qpn);
break;
case HNS_ROCE_LWQCE_MTU_ERROR:
dev_warn(dev, "QP %d, MTU error.\n", qpn);
break;
case HNS_ROCE_LWQCE_WQE_BA_ADDR_ERROR:
dev_warn(dev, "QP %d, WQE BA addr error.\n", qpn);
break;
case HNS_ROCE_LWQCE_WQE_ADDR_ERROR:
dev_warn(dev, "QP %d, WQE addr error.\n", qpn);
break;
case HNS_ROCE_LWQCE_SQ_WQE_SHIFT_ERROR:
dev_warn(dev, "QP %d, WQE shift error\n", qpn);
break;
case HNS_ROCE_LWQCE_SL_ERROR:
dev_warn(dev, "QP %d, SL error.\n", qpn);
break;
case HNS_ROCE_LWQCE_PORT_ERROR:
dev_warn(dev, "QP %d, port error.\n", qpn);
break;
default:
break;
}
}
static void hns_roce_local_wq_access_err_handle(struct hns_roce_dev *hr_dev,
struct hns_roce_aeqe *aeqe,
int qpn)
{
struct device *dev = &hr_dev->pdev->dev;
dev_warn(dev, "Local Access Violation Work Queue Error.\n");
switch (roce_get_field(aeqe->asyn, HNS_ROCE_AEQE_U32_4_EVENT_SUB_TYPE_M,
HNS_ROCE_AEQE_U32_4_EVENT_SUB_TYPE_S)) {
case HNS_ROCE_LAVWQE_R_KEY_VIOLATION:
dev_warn(dev, "QP %d, R_key violation.\n", qpn);
break;
case HNS_ROCE_LAVWQE_LENGTH_ERROR:
dev_warn(dev, "QP %d, length error.\n", qpn);
break;
case HNS_ROCE_LAVWQE_VA_ERROR:
dev_warn(dev, "QP %d, VA error.\n", qpn);
break;
case HNS_ROCE_LAVWQE_PD_ERROR:
dev_err(dev, "QP %d, PD error.\n", qpn);
break;
case HNS_ROCE_LAVWQE_RW_ACC_ERROR:
dev_warn(dev, "QP %d, rw acc error.\n", qpn);
break;
case HNS_ROCE_LAVWQE_KEY_STATE_ERROR:
dev_warn(dev, "QP %d, key state error.\n", qpn);
break;
case HNS_ROCE_LAVWQE_MR_OPERATION_ERROR:
dev_warn(dev, "QP %d, MR operation error.\n", qpn);
break;
default:
break;
}
}
static void hns_roce_qp_err_handle(struct hns_roce_dev *hr_dev,
struct hns_roce_aeqe *aeqe,
int event_type)
{
struct device *dev = &hr_dev->pdev->dev;
int phy_port;
int qpn;
qpn = roce_get_field(aeqe->event.qp_event.qp,
HNS_ROCE_AEQE_EVENT_QP_EVENT_QP_QPN_M,
HNS_ROCE_AEQE_EVENT_QP_EVENT_QP_QPN_S);
phy_port = roce_get_field(aeqe->event.qp_event.qp,
HNS_ROCE_AEQE_EVENT_QP_EVENT_PORT_NUM_M,
HNS_ROCE_AEQE_EVENT_QP_EVENT_PORT_NUM_S);
if (qpn <= 1)
qpn = HNS_ROCE_MAX_PORTS * qpn + phy_port;
switch (event_type) {
case HNS_ROCE_EVENT_TYPE_INV_REQ_LOCAL_WQ_ERROR:
dev_warn(dev, "Invalid Req Local Work Queue Error.\n"
"QP %d, phy_port %d.\n", qpn, phy_port);
break;
case HNS_ROCE_EVENT_TYPE_WQ_CATAS_ERROR:
hns_roce_wq_catas_err_handle(hr_dev, aeqe, qpn);
break;
case HNS_ROCE_EVENT_TYPE_LOCAL_WQ_ACCESS_ERROR:
hns_roce_local_wq_access_err_handle(hr_dev, aeqe, qpn);
break;
default:
break;
}
hns_roce_qp_event(hr_dev, qpn, event_type);
}
static void hns_roce_cq_err_handle(struct hns_roce_dev *hr_dev,
struct hns_roce_aeqe *aeqe,
int event_type)
{
struct device *dev = &hr_dev->pdev->dev;
u32 cqn;
cqn = le32_to_cpu(roce_get_field(aeqe->event.cq_event.cq,
HNS_ROCE_AEQE_EVENT_CQ_EVENT_CQ_CQN_M,
HNS_ROCE_AEQE_EVENT_CQ_EVENT_CQ_CQN_S));
switch (event_type) {
case HNS_ROCE_EVENT_TYPE_CQ_ACCESS_ERROR:
dev_warn(dev, "CQ 0x%x access err.\n", cqn);
break;
case HNS_ROCE_EVENT_TYPE_CQ_OVERFLOW:
dev_warn(dev, "CQ 0x%x overflow\n", cqn);
break;
case HNS_ROCE_EVENT_TYPE_CQ_ID_INVALID:
dev_warn(dev, "CQ 0x%x ID invalid.\n", cqn);
break;
default:
break;
}
hns_roce_cq_event(hr_dev, cqn, event_type);
}
static void hns_roce_db_overflow_handle(struct hns_roce_dev *hr_dev,
struct hns_roce_aeqe *aeqe)
{
struct device *dev = &hr_dev->pdev->dev;
switch (roce_get_field(aeqe->asyn, HNS_ROCE_AEQE_U32_4_EVENT_SUB_TYPE_M,
HNS_ROCE_AEQE_U32_4_EVENT_SUB_TYPE_S)) {
case HNS_ROCE_DB_SUBTYPE_SDB_OVF:
dev_warn(dev, "SDB overflow.\n");
break;
case HNS_ROCE_DB_SUBTYPE_SDB_ALM_OVF:
dev_warn(dev, "SDB almost overflow.\n");
break;
case HNS_ROCE_DB_SUBTYPE_SDB_ALM_EMP:
dev_warn(dev, "SDB almost empty.\n");
break;
case HNS_ROCE_DB_SUBTYPE_ODB_OVF:
dev_warn(dev, "ODB overflow.\n");
break;
case HNS_ROCE_DB_SUBTYPE_ODB_ALM_OVF:
dev_warn(dev, "ODB almost overflow.\n");
break;
case HNS_ROCE_DB_SUBTYPE_ODB_ALM_EMP:
dev_warn(dev, "SDB almost empty.\n");
break;
default:
break;
}
}
static int hns_roce_aeq_int(struct hns_roce_dev *hr_dev, struct hns_roce_eq *eq)
{
struct device *dev = &hr_dev->pdev->dev;
struct hns_roce_aeqe *aeqe;
int aeqes_found = 0;
int event_type;
while ((aeqe = next_aeqe_sw(eq))) {
dev_dbg(dev, "aeqe = %p, aeqe->asyn.event_type = 0x%lx\n", aeqe,
roce_get_field(aeqe->asyn,
HNS_ROCE_AEQE_U32_4_EVENT_TYPE_M,
HNS_ROCE_AEQE_U32_4_EVENT_TYPE_S));
/* Memory barrier */
rmb();
event_type = roce_get_field(aeqe->asyn,
HNS_ROCE_AEQE_U32_4_EVENT_TYPE_M,
HNS_ROCE_AEQE_U32_4_EVENT_TYPE_S);
switch (event_type) {
case HNS_ROCE_EVENT_TYPE_PATH_MIG:
dev_warn(dev, "PATH MIG not supported\n");
break;
case HNS_ROCE_EVENT_TYPE_COMM_EST:
dev_warn(dev, "COMMUNICATION established\n");
break;
case HNS_ROCE_EVENT_TYPE_SQ_DRAINED:
dev_warn(dev, "SQ DRAINED not supported\n");
break;
case HNS_ROCE_EVENT_TYPE_PATH_MIG_FAILED:
dev_warn(dev, "PATH MIG failed\n");
break;
case HNS_ROCE_EVENT_TYPE_INV_REQ_LOCAL_WQ_ERROR:
case HNS_ROCE_EVENT_TYPE_WQ_CATAS_ERROR:
case HNS_ROCE_EVENT_TYPE_LOCAL_WQ_ACCESS_ERROR:
hns_roce_qp_err_handle(hr_dev, aeqe, event_type);
break;
case HNS_ROCE_EVENT_TYPE_SRQ_LIMIT_REACH:
case HNS_ROCE_EVENT_TYPE_SRQ_CATAS_ERROR:
case HNS_ROCE_EVENT_TYPE_SRQ_LAST_WQE_REACH:
dev_warn(dev, "SRQ not support!\n");
break;
case HNS_ROCE_EVENT_TYPE_CQ_ACCESS_ERROR:
case HNS_ROCE_EVENT_TYPE_CQ_OVERFLOW:
case HNS_ROCE_EVENT_TYPE_CQ_ID_INVALID:
hns_roce_cq_err_handle(hr_dev, aeqe, event_type);
break;
case HNS_ROCE_EVENT_TYPE_PORT_CHANGE:
dev_warn(dev, "port change.\n");
break;
case HNS_ROCE_EVENT_TYPE_MB:
hns_roce_cmd_event(hr_dev,
le16_to_cpu(aeqe->event.cmd.token),
aeqe->event.cmd.status,
le64_to_cpu(aeqe->event.cmd.out_param
));
break;
case HNS_ROCE_EVENT_TYPE_DB_OVERFLOW:
hns_roce_db_overflow_handle(hr_dev, aeqe);
break;
case HNS_ROCE_EVENT_TYPE_CEQ_OVERFLOW:
dev_warn(dev, "CEQ 0x%lx overflow.\n",
roce_get_field(aeqe->event.ce_event.ceqe,
HNS_ROCE_AEQE_EVENT_CE_EVENT_CEQE_CEQN_M,
HNS_ROCE_AEQE_EVENT_CE_EVENT_CEQE_CEQN_S));
break;
default:
dev_warn(dev, "Unhandled event %d on EQ %d at index %u\n",
event_type, eq->eqn, eq->cons_index);
break;
};
eq->cons_index++;
aeqes_found = 1;
if (eq->cons_index > 2 * hr_dev->caps.aeqe_depth - 1) {
dev_warn(dev, "cons_index overflow, set back to zero\n"
);
eq->cons_index = 0;
}
}
eq_set_cons_index(eq, 0);
return aeqes_found;
}
static struct hns_roce_ceqe *get_ceqe(struct hns_roce_eq *eq, u32 entry)
{
unsigned long off = (entry & (eq->entries - 1)) *
HNS_ROCE_CEQ_ENTRY_SIZE;
return (struct hns_roce_ceqe *)((u8 *)
(eq->buf_list[off / HNS_ROCE_BA_SIZE].buf) +
off % HNS_ROCE_BA_SIZE);
}
static struct hns_roce_ceqe *next_ceqe_sw(struct hns_roce_eq *eq)
{
struct hns_roce_ceqe *ceqe = get_ceqe(eq, eq->cons_index);
return (!!(roce_get_bit(ceqe->ceqe.comp,
HNS_ROCE_CEQE_CEQE_COMP_OWNER_S))) ^
(!!(eq->cons_index & eq->entries)) ? ceqe : NULL;
}
static int hns_roce_ceq_int(struct hns_roce_dev *hr_dev, struct hns_roce_eq *eq)
{
struct hns_roce_ceqe *ceqe;
int ceqes_found = 0;
u32 cqn;
while ((ceqe = next_ceqe_sw(eq))) {
/* Memory barrier */
rmb();
cqn = roce_get_field(ceqe->ceqe.comp,
HNS_ROCE_CEQE_CEQE_COMP_CQN_M,
HNS_ROCE_CEQE_CEQE_COMP_CQN_S);
hns_roce_cq_completion(hr_dev, cqn);
++eq->cons_index;
ceqes_found = 1;
if (eq->cons_index > 2 * hr_dev->caps.ceqe_depth[eq->eqn] - 1) {
dev_warn(&eq->hr_dev->pdev->dev,
"cons_index overflow, set back to zero\n");
eq->cons_index = 0;
}
}
eq_set_cons_index(eq, 0);
return ceqes_found;
}
static int hns_roce_aeq_ovf_int(struct hns_roce_dev *hr_dev,
struct hns_roce_eq *eq)
{
struct device *dev = &eq->hr_dev->pdev->dev;
int eqovf_found = 0;
u32 caepaemask_val;
u32 cealmovf_val;
u32 caepaest_val;
u32 aeshift_val;
u32 ceshift_val;
u32 cemask_val;
int i = 0;
/**
* AEQ overflow ECC mult bit err CEQ overflow alarm
* must clear interrupt, mask irq, clear irq, cancel mask operation
*/
aeshift_val = roce_read(hr_dev, ROCEE_CAEP_AEQC_AEQE_SHIFT_REG);
if (roce_get_bit(aeshift_val,
ROCEE_CAEP_AEQC_AEQE_SHIFT_CAEP_AEQ_ALM_OVF_INT_ST_S) == 1) {
dev_warn(dev, "AEQ overflow!\n");
/* Set mask */
caepaemask_val = roce_read(hr_dev, ROCEE_CAEP_AE_MASK_REG);
roce_set_bit(caepaemask_val,
ROCEE_CAEP_AE_MASK_CAEP_AEQ_ALM_OVF_MASK_S,
HNS_ROCE_INT_MASK_ENABLE);
roce_write(hr_dev, ROCEE_CAEP_AE_MASK_REG, caepaemask_val);
/* Clear int state(INT_WC : write 1 clear) */
caepaest_val = roce_read(hr_dev, ROCEE_CAEP_AE_ST_REG);
roce_set_bit(caepaest_val,
ROCEE_CAEP_AE_ST_CAEP_AEQ_ALM_OVF_S, 1);
roce_write(hr_dev, ROCEE_CAEP_AE_ST_REG, caepaest_val);
/* Clear mask */
caepaemask_val = roce_read(hr_dev, ROCEE_CAEP_AE_MASK_REG);
roce_set_bit(caepaemask_val,
ROCEE_CAEP_AE_MASK_CAEP_AEQ_ALM_OVF_MASK_S,
HNS_ROCE_INT_MASK_DISABLE);
roce_write(hr_dev, ROCEE_CAEP_AE_MASK_REG, caepaemask_val);
}
/* CEQ almost overflow */
for (i = 0; i < hr_dev->caps.num_comp_vectors; i++) {
ceshift_val = roce_read(hr_dev, ROCEE_CAEP_CEQC_SHIFT_0_REG +
i * CEQ_REG_OFFSET);
if (roce_get_bit(ceshift_val,
ROCEE_CAEP_CEQC_SHIFT_CAEP_CEQ_ALM_OVF_INT_ST_S) == 1) {
dev_warn(dev, "CEQ[%d] almost overflow!\n", i);
eqovf_found++;
/* Set mask */
cemask_val = roce_read(hr_dev,
ROCEE_CAEP_CE_IRQ_MASK_0_REG +
i * CEQ_REG_OFFSET);
roce_set_bit(cemask_val,
ROCEE_CAEP_CE_IRQ_MASK_CAEP_CEQ_ALM_OVF_MASK_S,
HNS_ROCE_INT_MASK_ENABLE);
roce_write(hr_dev, ROCEE_CAEP_CE_IRQ_MASK_0_REG +
i * CEQ_REG_OFFSET, cemask_val);
/* Clear int state(INT_WC : write 1 clear) */
cealmovf_val = roce_read(hr_dev,
ROCEE_CAEP_CEQ_ALM_OVF_0_REG +
i * CEQ_REG_OFFSET);
roce_set_bit(cealmovf_val,
ROCEE_CAEP_CEQ_ALM_OVF_CAEP_CEQ_ALM_OVF_S,
1);
roce_write(hr_dev, ROCEE_CAEP_CEQ_ALM_OVF_0_REG +
i * CEQ_REG_OFFSET, cealmovf_val);
/* Clear mask */
cemask_val = roce_read(hr_dev,
ROCEE_CAEP_CE_IRQ_MASK_0_REG +
i * CEQ_REG_OFFSET);
roce_set_bit(cemask_val,
ROCEE_CAEP_CE_IRQ_MASK_CAEP_CEQ_ALM_OVF_MASK_S,
HNS_ROCE_INT_MASK_DISABLE);
roce_write(hr_dev, ROCEE_CAEP_CE_IRQ_MASK_0_REG +
i * CEQ_REG_OFFSET, cemask_val);
}
}
/* ECC multi-bit error alarm */
dev_warn(dev, "ECC UCERR ALARM: 0x%x, 0x%x, 0x%x\n",
roce_read(hr_dev, ROCEE_ECC_UCERR_ALM0_REG),
roce_read(hr_dev, ROCEE_ECC_UCERR_ALM1_REG),
roce_read(hr_dev, ROCEE_ECC_UCERR_ALM2_REG));
dev_warn(dev, "ECC CERR ALARM: 0x%x, 0x%x, 0x%x\n",
roce_read(hr_dev, ROCEE_ECC_CERR_ALM0_REG),
roce_read(hr_dev, ROCEE_ECC_CERR_ALM1_REG),
roce_read(hr_dev, ROCEE_ECC_CERR_ALM2_REG));
return eqovf_found;
}
static int hns_roce_eq_int(struct hns_roce_dev *hr_dev, struct hns_roce_eq *eq)
{
int eqes_found = 0;
if (likely(eq->type_flag == HNS_ROCE_CEQ))
/* CEQ irq routine, CEQ is pulse irq, not clear */
eqes_found = hns_roce_ceq_int(hr_dev, eq);
else if (likely(eq->type_flag == HNS_ROCE_AEQ))
/* AEQ irq routine, AEQ is pulse irq, not clear */
eqes_found = hns_roce_aeq_int(hr_dev, eq);
else
/* AEQ queue overflow irq */
eqes_found = hns_roce_aeq_ovf_int(hr_dev, eq);
return eqes_found;
}
static irqreturn_t hns_roce_msi_x_interrupt(int irq, void *eq_ptr)
{
int int_work = 0;
struct hns_roce_eq *eq = eq_ptr;
struct hns_roce_dev *hr_dev = eq->hr_dev;
int_work = hns_roce_eq_int(hr_dev, eq);
return IRQ_RETVAL(int_work);
}
static void hns_roce_enable_eq(struct hns_roce_dev *hr_dev, int eq_num,
int enable_flag)
{
void __iomem *eqc = hr_dev->eq_table.eqc_base[eq_num];
u32 val;
val = readl(eqc);
if (enable_flag)
roce_set_field(val,
ROCEE_CAEP_AEQC_AEQE_SHIFT_CAEP_AEQC_STATE_M,
ROCEE_CAEP_AEQC_AEQE_SHIFT_CAEP_AEQC_STATE_S,
HNS_ROCE_EQ_STAT_VALID);
else
roce_set_field(val,
ROCEE_CAEP_AEQC_AEQE_SHIFT_CAEP_AEQC_STATE_M,
ROCEE_CAEP_AEQC_AEQE_SHIFT_CAEP_AEQC_STATE_S,
HNS_ROCE_EQ_STAT_INVALID);
writel(val, eqc);
}
static int hns_roce_create_eq(struct hns_roce_dev *hr_dev,
struct hns_roce_eq *eq)
{
void __iomem *eqc = hr_dev->eq_table.eqc_base[eq->eqn];
struct device *dev = &hr_dev->pdev->dev;
dma_addr_t tmp_dma_addr;
u32 eqconsindx_val = 0;
u32 eqcuridx_val = 0;
u32 eqshift_val = 0;
int num_bas = 0;
int ret;
int i;
num_bas = (PAGE_ALIGN(eq->entries * eq->eqe_size) +
HNS_ROCE_BA_SIZE - 1) / HNS_ROCE_BA_SIZE;
if ((eq->entries * eq->eqe_size) > HNS_ROCE_BA_SIZE) {
dev_err(dev, "[error]eq buf %d gt ba size(%d) need bas=%d\n",
(eq->entries * eq->eqe_size), HNS_ROCE_BA_SIZE,
num_bas);
return -EINVAL;
}
eq->buf_list = kcalloc(num_bas, sizeof(*eq->buf_list), GFP_KERNEL);
if (!eq->buf_list)
return -ENOMEM;
for (i = 0; i < num_bas; ++i) {
eq->buf_list[i].buf = dma_alloc_coherent(dev, HNS_ROCE_BA_SIZE,
&tmp_dma_addr,
GFP_KERNEL);
if (!eq->buf_list[i].buf) {
ret = -ENOMEM;
goto err_out_free_pages;
}
eq->buf_list[i].map = tmp_dma_addr;
memset(eq->buf_list[i].buf, 0, HNS_ROCE_BA_SIZE);
}
eq->cons_index = 0;
roce_set_field(eqshift_val,
ROCEE_CAEP_AEQC_AEQE_SHIFT_CAEP_AEQC_STATE_M,
ROCEE_CAEP_AEQC_AEQE_SHIFT_CAEP_AEQC_STATE_S,
HNS_ROCE_EQ_STAT_INVALID);
roce_set_field(eqshift_val,
ROCEE_CAEP_AEQC_AEQE_SHIFT_CAEP_AEQC_AEQE_SHIFT_M,
ROCEE_CAEP_AEQC_AEQE_SHIFT_CAEP_AEQC_AEQE_SHIFT_S,
eq->log_entries);
writel(eqshift_val, eqc);
/* Configure eq extended address 12~44bit */
writel((u32)(eq->buf_list[0].map >> 12), (u8 *)eqc + 4);
/*
* Configure eq extended address 45~49 bit.
* 44 = 32 + 12, When evaluating addr to hardware, shift 12 because of
* using 4K page, and shift more 32 because of
* caculating the high 32 bit value evaluated to hardware.
*/
roce_set_field(eqcuridx_val, ROCEE_CAEP_AEQE_CUR_IDX_CAEP_AEQ_BT_H_M,
ROCEE_CAEP_AEQE_CUR_IDX_CAEP_AEQ_BT_H_S,
eq->buf_list[0].map >> 44);
roce_set_field(eqcuridx_val,
ROCEE_CAEP_AEQE_CUR_IDX_CAEP_AEQE_CUR_IDX_M,
ROCEE_CAEP_AEQE_CUR_IDX_CAEP_AEQE_CUR_IDX_S, 0);
writel(eqcuridx_val, (u8 *)eqc + 8);
/* Configure eq consumer index */
roce_set_field(eqconsindx_val,
ROCEE_CAEP_AEQE_CONS_IDX_CAEP_AEQE_CONS_IDX_M,
ROCEE_CAEP_AEQE_CONS_IDX_CAEP_AEQE_CONS_IDX_S, 0);
writel(eqconsindx_val, (u8 *)eqc + 0xc);
return 0;
err_out_free_pages:
for (i = i - 1; i >= 0; i--)
dma_free_coherent(dev, HNS_ROCE_BA_SIZE, eq->buf_list[i].buf,
eq->buf_list[i].map);
kfree(eq->buf_list);
return ret;
}
static void hns_roce_free_eq(struct hns_roce_dev *hr_dev,
struct hns_roce_eq *eq)
{
int i = 0;
int npages = (PAGE_ALIGN(eq->eqe_size * eq->entries) +
HNS_ROCE_BA_SIZE - 1) / HNS_ROCE_BA_SIZE;
if (!eq->buf_list)
return;
for (i = 0; i < npages; ++i)
dma_free_coherent(&hr_dev->pdev->dev, HNS_ROCE_BA_SIZE,
eq->buf_list[i].buf, eq->buf_list[i].map);
kfree(eq->buf_list);
}
static void hns_roce_int_mask_en(struct hns_roce_dev *hr_dev)
{
int i = 0;
u32 aemask_val;
int masken = 0;
/* AEQ INT */
aemask_val = roce_read(hr_dev, ROCEE_CAEP_AE_MASK_REG);
roce_set_bit(aemask_val, ROCEE_CAEP_AE_MASK_CAEP_AEQ_ALM_OVF_MASK_S,
masken);
roce_set_bit(aemask_val, ROCEE_CAEP_AE_MASK_CAEP_AE_IRQ_MASK_S, masken);
roce_write(hr_dev, ROCEE_CAEP_AE_MASK_REG, aemask_val);
/* CEQ INT */
for (i = 0; i < hr_dev->caps.num_comp_vectors; i++) {
/* IRQ mask */
roce_write(hr_dev, ROCEE_CAEP_CE_IRQ_MASK_0_REG +
i * CEQ_REG_OFFSET, masken);
}
}
static void hns_roce_ce_int_default_cfg(struct hns_roce_dev *hr_dev)
{
/* Configure ce int interval */
roce_write(hr_dev, ROCEE_CAEP_CE_INTERVAL_CFG_REG,
HNS_ROCE_CEQ_DEFAULT_INTERVAL);
/* Configure ce int burst num */
roce_write(hr_dev, ROCEE_CAEP_CE_BURST_NUM_CFG_REG,
HNS_ROCE_CEQ_DEFAULT_BURST_NUM);
}
int hns_roce_init_eq_table(struct hns_roce_dev *hr_dev)
{
struct hns_roce_eq_table *eq_table = &hr_dev->eq_table;
struct device *dev = &hr_dev->pdev->dev;
struct hns_roce_eq *eq = NULL;
int eq_num = 0;
int ret = 0;
int i = 0;
int j = 0;
eq_num = hr_dev->caps.num_comp_vectors + hr_dev->caps.num_aeq_vectors;
eq_table->eq = kcalloc(eq_num, sizeof(*eq_table->eq), GFP_KERNEL);
if (!eq_table->eq)
return -ENOMEM;
eq_table->eqc_base = kcalloc(eq_num, sizeof(*eq_table->eqc_base),
GFP_KERNEL);
if (!eq_table->eqc_base) {
ret = -ENOMEM;
goto err_eqc_base_alloc_fail;
}
for (i = 0; i < eq_num; i++) {
eq = &eq_table->eq[i];
eq->hr_dev = hr_dev;
eq->eqn = i;
eq->irq = hr_dev->irq[i];
eq->log_page_size = PAGE_SHIFT;
if (i < hr_dev->caps.num_comp_vectors) {
/* CEQ */
eq_table->eqc_base[i] = hr_dev->reg_base +
ROCEE_CAEP_CEQC_SHIFT_0_REG +
HNS_ROCE_CEQC_REG_OFFSET * i;
eq->type_flag = HNS_ROCE_CEQ;
eq->doorbell = hr_dev->reg_base +
ROCEE_CAEP_CEQC_CONS_IDX_0_REG +
HNS_ROCE_CEQC_REG_OFFSET * i;
eq->entries = hr_dev->caps.ceqe_depth[i];
eq->log_entries = ilog2(eq->entries);
eq->eqe_size = sizeof(struct hns_roce_ceqe);
} else {
/* AEQ */
eq_table->eqc_base[i] = hr_dev->reg_base +
ROCEE_CAEP_AEQC_AEQE_SHIFT_REG;
eq->type_flag = HNS_ROCE_AEQ;
eq->doorbell = hr_dev->reg_base +
ROCEE_CAEP_AEQE_CONS_IDX_REG;
eq->entries = hr_dev->caps.aeqe_depth;
eq->log_entries = ilog2(eq->entries);
eq->eqe_size = sizeof(struct hns_roce_aeqe);
}
}
/* Disable irq */
hns_roce_int_mask_en(hr_dev);
/* Configure CE irq interval and burst num */
hns_roce_ce_int_default_cfg(hr_dev);
for (i = 0; i < eq_num; i++) {
ret = hns_roce_create_eq(hr_dev, &eq_table->eq[i]);
if (ret) {
dev_err(dev, "eq create failed\n");
goto err_create_eq_fail;
}
}
for (j = 0; j < eq_num; j++) {
ret = request_irq(eq_table->eq[j].irq, hns_roce_msi_x_interrupt,
0, hr_dev->irq_names[j], eq_table->eq + j);
if (ret) {
dev_err(dev, "request irq error!\n");
goto err_request_irq_fail;
}
}
for (i = 0; i < eq_num; i++)
hns_roce_enable_eq(hr_dev, i, EQ_ENABLE);
return 0;
err_request_irq_fail:
for (j = j - 1; j >= 0; j--)
free_irq(eq_table->eq[j].irq, eq_table->eq + j);
err_create_eq_fail:
for (i = i - 1; i >= 0; i--)
hns_roce_free_eq(hr_dev, &eq_table->eq[i]);
kfree(eq_table->eqc_base);
err_eqc_base_alloc_fail:
kfree(eq_table->eq);
return ret;
}
void hns_roce_cleanup_eq_table(struct hns_roce_dev *hr_dev)
{
int i;
int eq_num;
struct hns_roce_eq_table *eq_table = &hr_dev->eq_table;
eq_num = hr_dev->caps.num_comp_vectors + hr_dev->caps.num_aeq_vectors;
for (i = 0; i < eq_num; i++) {
/* Disable EQ */
hns_roce_enable_eq(hr_dev, i, EQ_DISABLE);
free_irq(eq_table->eq[i].irq, eq_table->eq + i);
hns_roce_free_eq(hr_dev, &eq_table->eq[i]);
}
kfree(eq_table->eqc_base);
kfree(eq_table->eq);
}
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