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|
/*
* Huawei HiNIC PCI Express Linux driver
* Copyright(c) 2017 Huawei Technologies Co., Ltd
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope 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.
*
*/
#include <linux/kernel.h>
#include <linux/types.h>
#include <linux/pci.h>
#include <linux/device.h>
#include <linux/dma-mapping.h>
#include <linux/vmalloc.h>
#include <linux/errno.h>
#include <linux/sizes.h>
#include <linux/atomic.h>
#include <linux/skbuff.h>
#include <linux/io.h>
#include <asm/barrier.h>
#include <asm/byteorder.h>
#include "hinic_common.h"
#include "hinic_hw_if.h"
#include "hinic_hw_wqe.h"
#include "hinic_hw_wq.h"
#include "hinic_hw_qp_ctxt.h"
#include "hinic_hw_qp.h"
#include "hinic_hw_io.h"
#define SQ_DB_OFF SZ_2K
/* The number of cache line to prefetch Until threshold state */
#define WQ_PREFETCH_MAX 2
/* The number of cache line to prefetch After threshold state */
#define WQ_PREFETCH_MIN 1
/* Threshold state */
#define WQ_PREFETCH_THRESHOLD 256
/* sizes of the SQ/RQ ctxt */
#define Q_CTXT_SIZE 48
#define CTXT_RSVD 240
#define SQ_CTXT_OFFSET(max_sqs, max_rqs, q_id) \
(((max_rqs) + (max_sqs)) * CTXT_RSVD + (q_id) * Q_CTXT_SIZE)
#define RQ_CTXT_OFFSET(max_sqs, max_rqs, q_id) \
(((max_rqs) + (max_sqs)) * CTXT_RSVD + \
(max_sqs + (q_id)) * Q_CTXT_SIZE)
#define SIZE_16BYTES(size) (ALIGN(size, 16) >> 4)
#define SIZE_8BYTES(size) (ALIGN(size, 8) >> 3)
#define SECT_SIZE_FROM_8BYTES(size) ((size) << 3)
#define SQ_DB_PI_HI_SHIFT 8
#define SQ_DB_PI_HI(prod_idx) ((prod_idx) >> SQ_DB_PI_HI_SHIFT)
#define SQ_DB_PI_LOW_MASK 0xFF
#define SQ_DB_PI_LOW(prod_idx) ((prod_idx) & SQ_DB_PI_LOW_MASK)
#define SQ_DB_ADDR(sq, pi) ((u64 *)((sq)->db_base) + SQ_DB_PI_LOW(pi))
#define SQ_MASKED_IDX(sq, idx) ((idx) & (sq)->wq->mask)
#define RQ_MASKED_IDX(rq, idx) ((idx) & (rq)->wq->mask)
#define TX_MAX_MSS_DEFAULT 0x3E00
enum sq_wqe_type {
SQ_NORMAL_WQE = 0,
};
enum rq_completion_fmt {
RQ_COMPLETE_SGE = 1
};
void hinic_qp_prepare_header(struct hinic_qp_ctxt_header *qp_ctxt_hdr,
enum hinic_qp_ctxt_type ctxt_type,
u16 num_queues, u16 max_queues)
{
u16 max_sqs = max_queues;
u16 max_rqs = max_queues;
qp_ctxt_hdr->num_queues = num_queues;
qp_ctxt_hdr->queue_type = ctxt_type;
if (ctxt_type == HINIC_QP_CTXT_TYPE_SQ)
qp_ctxt_hdr->addr_offset = SQ_CTXT_OFFSET(max_sqs, max_rqs, 0);
else
qp_ctxt_hdr->addr_offset = RQ_CTXT_OFFSET(max_sqs, max_rqs, 0);
qp_ctxt_hdr->addr_offset = SIZE_16BYTES(qp_ctxt_hdr->addr_offset);
hinic_cpu_to_be32(qp_ctxt_hdr, sizeof(*qp_ctxt_hdr));
}
void hinic_sq_prepare_ctxt(struct hinic_sq_ctxt *sq_ctxt,
struct hinic_sq *sq, u16 global_qid)
{
u32 wq_page_pfn_hi, wq_page_pfn_lo, wq_block_pfn_hi, wq_block_pfn_lo;
u64 wq_page_addr, wq_page_pfn, wq_block_pfn;
u16 pi_start, ci_start;
struct hinic_wq *wq;
wq = sq->wq;
ci_start = atomic_read(&wq->cons_idx);
pi_start = atomic_read(&wq->prod_idx);
/* Read the first page paddr from the WQ page paddr ptrs */
wq_page_addr = be64_to_cpu(*wq->block_vaddr);
wq_page_pfn = HINIC_WQ_PAGE_PFN(wq_page_addr);
wq_page_pfn_hi = upper_32_bits(wq_page_pfn);
wq_page_pfn_lo = lower_32_bits(wq_page_pfn);
wq_block_pfn = HINIC_WQ_BLOCK_PFN(wq->block_paddr);
wq_block_pfn_hi = upper_32_bits(wq_block_pfn);
wq_block_pfn_lo = lower_32_bits(wq_block_pfn);
sq_ctxt->ceq_attr = HINIC_SQ_CTXT_CEQ_ATTR_SET(global_qid,
GLOBAL_SQ_ID) |
HINIC_SQ_CTXT_CEQ_ATTR_SET(0, EN);
sq_ctxt->ci_wrapped = HINIC_SQ_CTXT_CI_SET(ci_start, IDX) |
HINIC_SQ_CTXT_CI_SET(1, WRAPPED);
sq_ctxt->wq_hi_pfn_pi =
HINIC_SQ_CTXT_WQ_PAGE_SET(wq_page_pfn_hi, HI_PFN) |
HINIC_SQ_CTXT_WQ_PAGE_SET(pi_start, PI);
sq_ctxt->wq_lo_pfn = wq_page_pfn_lo;
sq_ctxt->pref_cache =
HINIC_SQ_CTXT_PREF_SET(WQ_PREFETCH_MIN, CACHE_MIN) |
HINIC_SQ_CTXT_PREF_SET(WQ_PREFETCH_MAX, CACHE_MAX) |
HINIC_SQ_CTXT_PREF_SET(WQ_PREFETCH_THRESHOLD, CACHE_THRESHOLD);
sq_ctxt->pref_wrapped = 1;
sq_ctxt->pref_wq_hi_pfn_ci =
HINIC_SQ_CTXT_PREF_SET(ci_start, CI) |
HINIC_SQ_CTXT_PREF_SET(wq_page_pfn_hi, WQ_HI_PFN);
sq_ctxt->pref_wq_lo_pfn = wq_page_pfn_lo;
sq_ctxt->wq_block_hi_pfn =
HINIC_SQ_CTXT_WQ_BLOCK_SET(wq_block_pfn_hi, HI_PFN);
sq_ctxt->wq_block_lo_pfn = wq_block_pfn_lo;
hinic_cpu_to_be32(sq_ctxt, sizeof(*sq_ctxt));
}
void hinic_rq_prepare_ctxt(struct hinic_rq_ctxt *rq_ctxt,
struct hinic_rq *rq, u16 global_qid)
{
u32 wq_page_pfn_hi, wq_page_pfn_lo, wq_block_pfn_hi, wq_block_pfn_lo;
u64 wq_page_addr, wq_page_pfn, wq_block_pfn;
u16 pi_start, ci_start;
struct hinic_wq *wq;
wq = rq->wq;
ci_start = atomic_read(&wq->cons_idx);
pi_start = atomic_read(&wq->prod_idx);
/* Read the first page paddr from the WQ page paddr ptrs */
wq_page_addr = be64_to_cpu(*wq->block_vaddr);
wq_page_pfn = HINIC_WQ_PAGE_PFN(wq_page_addr);
wq_page_pfn_hi = upper_32_bits(wq_page_pfn);
wq_page_pfn_lo = lower_32_bits(wq_page_pfn);
wq_block_pfn = HINIC_WQ_BLOCK_PFN(wq->block_paddr);
wq_block_pfn_hi = upper_32_bits(wq_block_pfn);
wq_block_pfn_lo = lower_32_bits(wq_block_pfn);
rq_ctxt->ceq_attr = HINIC_RQ_CTXT_CEQ_ATTR_SET(0, EN) |
HINIC_RQ_CTXT_CEQ_ATTR_SET(1, WRAPPED);
rq_ctxt->pi_intr_attr = HINIC_RQ_CTXT_PI_SET(pi_start, IDX) |
HINIC_RQ_CTXT_PI_SET(rq->msix_entry, INTR);
rq_ctxt->wq_hi_pfn_ci = HINIC_RQ_CTXT_WQ_PAGE_SET(wq_page_pfn_hi,
HI_PFN) |
HINIC_RQ_CTXT_WQ_PAGE_SET(ci_start, CI);
rq_ctxt->wq_lo_pfn = wq_page_pfn_lo;
rq_ctxt->pref_cache =
HINIC_RQ_CTXT_PREF_SET(WQ_PREFETCH_MIN, CACHE_MIN) |
HINIC_RQ_CTXT_PREF_SET(WQ_PREFETCH_MAX, CACHE_MAX) |
HINIC_RQ_CTXT_PREF_SET(WQ_PREFETCH_THRESHOLD, CACHE_THRESHOLD);
rq_ctxt->pref_wrapped = 1;
rq_ctxt->pref_wq_hi_pfn_ci =
HINIC_RQ_CTXT_PREF_SET(wq_page_pfn_hi, WQ_HI_PFN) |
HINIC_RQ_CTXT_PREF_SET(ci_start, CI);
rq_ctxt->pref_wq_lo_pfn = wq_page_pfn_lo;
rq_ctxt->pi_paddr_hi = upper_32_bits(rq->pi_dma_addr);
rq_ctxt->pi_paddr_lo = lower_32_bits(rq->pi_dma_addr);
rq_ctxt->wq_block_hi_pfn =
HINIC_RQ_CTXT_WQ_BLOCK_SET(wq_block_pfn_hi, HI_PFN);
rq_ctxt->wq_block_lo_pfn = wq_block_pfn_lo;
hinic_cpu_to_be32(rq_ctxt, sizeof(*rq_ctxt));
}
/**
* alloc_sq_skb_arr - allocate sq array for saved skb
* @sq: HW Send Queue
*
* Return 0 - Success, negative - Failure
**/
static int alloc_sq_skb_arr(struct hinic_sq *sq)
{
struct hinic_wq *wq = sq->wq;
size_t skb_arr_size;
skb_arr_size = wq->q_depth * sizeof(*sq->saved_skb);
sq->saved_skb = vzalloc(skb_arr_size);
if (!sq->saved_skb)
return -ENOMEM;
return 0;
}
/**
* free_sq_skb_arr - free sq array for saved skb
* @sq: HW Send Queue
**/
static void free_sq_skb_arr(struct hinic_sq *sq)
{
vfree(sq->saved_skb);
}
/**
* alloc_rq_skb_arr - allocate rq array for saved skb
* @rq: HW Receive Queue
*
* Return 0 - Success, negative - Failure
**/
static int alloc_rq_skb_arr(struct hinic_rq *rq)
{
struct hinic_wq *wq = rq->wq;
size_t skb_arr_size;
skb_arr_size = wq->q_depth * sizeof(*rq->saved_skb);
rq->saved_skb = vzalloc(skb_arr_size);
if (!rq->saved_skb)
return -ENOMEM;
return 0;
}
/**
* free_rq_skb_arr - free rq array for saved skb
* @rq: HW Receive Queue
**/
static void free_rq_skb_arr(struct hinic_rq *rq)
{
vfree(rq->saved_skb);
}
/**
* hinic_init_sq - Initialize HW Send Queue
* @sq: HW Send Queue
* @hwif: HW Interface for accessing HW
* @wq: Work Queue for the data of the SQ
* @entry: msix entry for sq
* @ci_addr: address for reading the current HW consumer index
* @ci_dma_addr: dma address for reading the current HW consumer index
* @db_base: doorbell base address
*
* Return 0 - Success, negative - Failure
**/
int hinic_init_sq(struct hinic_sq *sq, struct hinic_hwif *hwif,
struct hinic_wq *wq, struct msix_entry *entry,
void *ci_addr, dma_addr_t ci_dma_addr,
void __iomem *db_base)
{
sq->hwif = hwif;
sq->wq = wq;
sq->irq = entry->vector;
sq->msix_entry = entry->entry;
sq->hw_ci_addr = ci_addr;
sq->hw_ci_dma_addr = ci_dma_addr;
sq->db_base = db_base + SQ_DB_OFF;
return alloc_sq_skb_arr(sq);
}
/**
* hinic_clean_sq - Clean HW Send Queue's Resources
* @sq: Send Queue
**/
void hinic_clean_sq(struct hinic_sq *sq)
{
free_sq_skb_arr(sq);
}
/**
* alloc_rq_cqe - allocate rq completion queue elements
* @rq: HW Receive Queue
*
* Return 0 - Success, negative - Failure
**/
static int alloc_rq_cqe(struct hinic_rq *rq)
{
struct hinic_hwif *hwif = rq->hwif;
struct pci_dev *pdev = hwif->pdev;
size_t cqe_dma_size, cqe_size;
struct hinic_wq *wq = rq->wq;
int j, i;
cqe_size = wq->q_depth * sizeof(*rq->cqe);
rq->cqe = vzalloc(cqe_size);
if (!rq->cqe)
return -ENOMEM;
cqe_dma_size = wq->q_depth * sizeof(*rq->cqe_dma);
rq->cqe_dma = vzalloc(cqe_dma_size);
if (!rq->cqe_dma)
goto err_cqe_dma_arr_alloc;
for (i = 0; i < wq->q_depth; i++) {
rq->cqe[i] = dma_zalloc_coherent(&pdev->dev,
sizeof(*rq->cqe[i]),
&rq->cqe_dma[i], GFP_KERNEL);
if (!rq->cqe[i])
goto err_cqe_alloc;
}
return 0;
err_cqe_alloc:
for (j = 0; j < i; j++)
dma_free_coherent(&pdev->dev, sizeof(*rq->cqe[j]), rq->cqe[j],
rq->cqe_dma[j]);
vfree(rq->cqe_dma);
err_cqe_dma_arr_alloc:
vfree(rq->cqe);
return -ENOMEM;
}
/**
* free_rq_cqe - free rq completion queue elements
* @rq: HW Receive Queue
**/
static void free_rq_cqe(struct hinic_rq *rq)
{
struct hinic_hwif *hwif = rq->hwif;
struct pci_dev *pdev = hwif->pdev;
struct hinic_wq *wq = rq->wq;
int i;
for (i = 0; i < wq->q_depth; i++)
dma_free_coherent(&pdev->dev, sizeof(*rq->cqe[i]), rq->cqe[i],
rq->cqe_dma[i]);
vfree(rq->cqe_dma);
vfree(rq->cqe);
}
/**
* hinic_init_rq - Initialize HW Receive Queue
* @rq: HW Receive Queue
* @hwif: HW Interface for accessing HW
* @wq: Work Queue for the data of the RQ
* @entry: msix entry for rq
*
* Return 0 - Success, negative - Failure
**/
int hinic_init_rq(struct hinic_rq *rq, struct hinic_hwif *hwif,
struct hinic_wq *wq, struct msix_entry *entry)
{
struct pci_dev *pdev = hwif->pdev;
size_t pi_size;
int err;
rq->hwif = hwif;
rq->wq = wq;
rq->irq = entry->vector;
rq->msix_entry = entry->entry;
rq->buf_sz = HINIC_RX_BUF_SZ;
err = alloc_rq_skb_arr(rq);
if (err) {
dev_err(&pdev->dev, "Failed to allocate rq priv data\n");
return err;
}
err = alloc_rq_cqe(rq);
if (err) {
dev_err(&pdev->dev, "Failed to allocate rq cqe\n");
goto err_alloc_rq_cqe;
}
/* HW requirements: Must be at least 32 bit */
pi_size = ALIGN(sizeof(*rq->pi_virt_addr), sizeof(u32));
rq->pi_virt_addr = dma_zalloc_coherent(&pdev->dev, pi_size,
&rq->pi_dma_addr, GFP_KERNEL);
if (!rq->pi_virt_addr) {
dev_err(&pdev->dev, "Failed to allocate PI address\n");
err = -ENOMEM;
goto err_pi_virt;
}
return 0;
err_pi_virt:
free_rq_cqe(rq);
err_alloc_rq_cqe:
free_rq_skb_arr(rq);
return err;
}
/**
* hinic_clean_rq - Clean HW Receive Queue's Resources
* @rq: HW Receive Queue
**/
void hinic_clean_rq(struct hinic_rq *rq)
{
struct hinic_hwif *hwif = rq->hwif;
struct pci_dev *pdev = hwif->pdev;
size_t pi_size;
pi_size = ALIGN(sizeof(*rq->pi_virt_addr), sizeof(u32));
dma_free_coherent(&pdev->dev, pi_size, rq->pi_virt_addr,
rq->pi_dma_addr);
free_rq_cqe(rq);
free_rq_skb_arr(rq);
}
/**
* hinic_get_sq_free_wqebbs - return number of free wqebbs for use
* @sq: send queue
*
* Return number of free wqebbs
**/
int hinic_get_sq_free_wqebbs(struct hinic_sq *sq)
{
struct hinic_wq *wq = sq->wq;
return atomic_read(&wq->delta) - 1;
}
/**
* hinic_get_rq_free_wqebbs - return number of free wqebbs for use
* @rq: recv queue
*
* Return number of free wqebbs
**/
int hinic_get_rq_free_wqebbs(struct hinic_rq *rq)
{
struct hinic_wq *wq = rq->wq;
return atomic_read(&wq->delta) - 1;
}
static void sq_prepare_ctrl(struct hinic_sq_ctrl *ctrl, u16 prod_idx,
int nr_descs)
{
u32 ctrl_size, task_size, bufdesc_size;
ctrl_size = SIZE_8BYTES(sizeof(struct hinic_sq_ctrl));
task_size = SIZE_8BYTES(sizeof(struct hinic_sq_task));
bufdesc_size = nr_descs * sizeof(struct hinic_sq_bufdesc);
bufdesc_size = SIZE_8BYTES(bufdesc_size);
ctrl->ctrl_info = HINIC_SQ_CTRL_SET(bufdesc_size, BUFDESC_SECT_LEN) |
HINIC_SQ_CTRL_SET(task_size, TASKSECT_LEN) |
HINIC_SQ_CTRL_SET(SQ_NORMAL_WQE, DATA_FORMAT) |
HINIC_SQ_CTRL_SET(ctrl_size, LEN);
ctrl->queue_info = HINIC_SQ_CTRL_SET(TX_MAX_MSS_DEFAULT,
QUEUE_INFO_MSS);
}
static void sq_prepare_task(struct hinic_sq_task *task)
{
task->pkt_info0 =
HINIC_SQ_TASK_INFO0_SET(0, L2HDR_LEN) |
HINIC_SQ_TASK_INFO0_SET(HINIC_L4_OFF_DISABLE, L4_OFFLOAD) |
HINIC_SQ_TASK_INFO0_SET(HINIC_OUTER_L3TYPE_UNKNOWN,
INNER_L3TYPE) |
HINIC_SQ_TASK_INFO0_SET(HINIC_VLAN_OFF_DISABLE,
VLAN_OFFLOAD) |
HINIC_SQ_TASK_INFO0_SET(HINIC_PKT_NOT_PARSED, PARSE_FLAG);
task->pkt_info1 =
HINIC_SQ_TASK_INFO1_SET(HINIC_MEDIA_UNKNOWN, MEDIA_TYPE) |
HINIC_SQ_TASK_INFO1_SET(0, INNER_L4_LEN) |
HINIC_SQ_TASK_INFO1_SET(0, INNER_L3_LEN);
task->pkt_info2 =
HINIC_SQ_TASK_INFO2_SET(0, TUNNEL_L4_LEN) |
HINIC_SQ_TASK_INFO2_SET(0, OUTER_L3_LEN) |
HINIC_SQ_TASK_INFO2_SET(HINIC_TUNNEL_L4TYPE_UNKNOWN,
TUNNEL_L4TYPE) |
HINIC_SQ_TASK_INFO2_SET(HINIC_OUTER_L3TYPE_UNKNOWN,
OUTER_L3TYPE);
task->ufo_v6_identify = 0;
task->pkt_info4 = HINIC_SQ_TASK_INFO4_SET(HINIC_L2TYPE_ETH, L2TYPE);
task->zero_pad = 0;
}
/**
* hinic_sq_prepare_wqe - prepare wqe before insert to the queue
* @sq: send queue
* @prod_idx: pi value
* @sq_wqe: wqe to prepare
* @sges: sges for use by the wqe for send for buf addresses
* @nr_sges: number of sges
**/
void hinic_sq_prepare_wqe(struct hinic_sq *sq, u16 prod_idx,
struct hinic_sq_wqe *sq_wqe, struct hinic_sge *sges,
int nr_sges)
{
int i;
sq_prepare_ctrl(&sq_wqe->ctrl, prod_idx, nr_sges);
sq_prepare_task(&sq_wqe->task);
for (i = 0; i < nr_sges; i++)
sq_wqe->buf_descs[i].sge = sges[i];
}
/**
* sq_prepare_db - prepare doorbell to write
* @sq: send queue
* @prod_idx: pi value for the doorbell
* @cos: cos of the doorbell
*
* Return db value
**/
static u32 sq_prepare_db(struct hinic_sq *sq, u16 prod_idx, unsigned int cos)
{
struct hinic_qp *qp = container_of(sq, struct hinic_qp, sq);
u8 hi_prod_idx = SQ_DB_PI_HI(SQ_MASKED_IDX(sq, prod_idx));
/* Data should be written to HW in Big Endian Format */
return cpu_to_be32(HINIC_SQ_DB_INFO_SET(hi_prod_idx, PI_HI) |
HINIC_SQ_DB_INFO_SET(HINIC_DB_SQ_TYPE, TYPE) |
HINIC_SQ_DB_INFO_SET(HINIC_DATA_PATH, PATH) |
HINIC_SQ_DB_INFO_SET(cos, COS) |
HINIC_SQ_DB_INFO_SET(qp->q_id, QID));
}
/**
* hinic_sq_write_db- write doorbell
* @sq: send queue
* @prod_idx: pi value for the doorbell
* @wqe_size: wqe size
* @cos: cos of the wqe
**/
void hinic_sq_write_db(struct hinic_sq *sq, u16 prod_idx, unsigned int wqe_size,
unsigned int cos)
{
struct hinic_wq *wq = sq->wq;
/* increment prod_idx to the next */
prod_idx += ALIGN(wqe_size, wq->wqebb_size) / wq->wqebb_size;
wmb(); /* Write all before the doorbell */
writel(sq_prepare_db(sq, prod_idx, cos), SQ_DB_ADDR(sq, prod_idx));
}
/**
* hinic_sq_get_wqe - get wqe ptr in the current pi and update the pi
* @sq: sq to get wqe from
* @wqe_size: wqe size
* @prod_idx: returned pi
*
* Return wqe pointer
**/
struct hinic_sq_wqe *hinic_sq_get_wqe(struct hinic_sq *sq,
unsigned int wqe_size, u16 *prod_idx)
{
struct hinic_hw_wqe *hw_wqe = hinic_get_wqe(sq->wq, wqe_size,
prod_idx);
if (IS_ERR(hw_wqe))
return NULL;
return &hw_wqe->sq_wqe;
}
/**
* hinic_sq_write_wqe - write the wqe to the sq
* @sq: send queue
* @prod_idx: pi of the wqe
* @sq_wqe: the wqe to write
* @skb: skb to save
* @wqe_size: the size of the wqe
**/
void hinic_sq_write_wqe(struct hinic_sq *sq, u16 prod_idx,
struct hinic_sq_wqe *sq_wqe,
struct sk_buff *skb, unsigned int wqe_size)
{
struct hinic_hw_wqe *hw_wqe = (struct hinic_hw_wqe *)sq_wqe;
sq->saved_skb[prod_idx] = skb;
/* The data in the HW should be in Big Endian Format */
hinic_cpu_to_be32(sq_wqe, wqe_size);
hinic_write_wqe(sq->wq, hw_wqe, wqe_size);
}
/**
* hinic_sq_read_wqebb - read wqe ptr in the current ci and update the ci, the
* wqe only have one wqebb
* @sq: send queue
* @skb: return skb that was saved
* @wqe_size: the wqe size ptr
* @cons_idx: consumer index of the wqe
*
* Return wqe in ci position
**/
struct hinic_sq_wqe *hinic_sq_read_wqebb(struct hinic_sq *sq,
struct sk_buff **skb,
unsigned int *wqe_size, u16 *cons_idx)
{
struct hinic_hw_wqe *hw_wqe;
struct hinic_sq_wqe *sq_wqe;
struct hinic_sq_ctrl *ctrl;
unsigned int buf_sect_len;
u32 ctrl_info;
/* read the ctrl section for getting wqe size */
hw_wqe = hinic_read_wqe(sq->wq, sizeof(*ctrl), cons_idx);
if (IS_ERR(hw_wqe))
return NULL;
*skb = sq->saved_skb[*cons_idx];
sq_wqe = &hw_wqe->sq_wqe;
ctrl = &sq_wqe->ctrl;
ctrl_info = be32_to_cpu(ctrl->ctrl_info);
buf_sect_len = HINIC_SQ_CTRL_GET(ctrl_info, BUFDESC_SECT_LEN);
*wqe_size = sizeof(*ctrl) + sizeof(sq_wqe->task);
*wqe_size += SECT_SIZE_FROM_8BYTES(buf_sect_len);
*wqe_size = ALIGN(*wqe_size, sq->wq->wqebb_size);
return &hw_wqe->sq_wqe;
}
/**
* hinic_sq_read_wqe - read wqe ptr in the current ci and update the ci
* @sq: send queue
* @skb: return skb that was saved
* @wqe_size: the size of the wqe
* @cons_idx: consumer index of the wqe
*
* Return wqe in ci position
**/
struct hinic_sq_wqe *hinic_sq_read_wqe(struct hinic_sq *sq,
struct sk_buff **skb,
unsigned int wqe_size, u16 *cons_idx)
{
struct hinic_hw_wqe *hw_wqe;
hw_wqe = hinic_read_wqe(sq->wq, wqe_size, cons_idx);
*skb = sq->saved_skb[*cons_idx];
return &hw_wqe->sq_wqe;
}
/**
* hinic_sq_put_wqe - release the ci for new wqes
* @sq: send queue
* @wqe_size: the size of the wqe
**/
void hinic_sq_put_wqe(struct hinic_sq *sq, unsigned int wqe_size)
{
hinic_put_wqe(sq->wq, wqe_size);
}
/**
* hinic_sq_get_sges - get sges from the wqe
* @sq_wqe: wqe to get the sges from its buffer addresses
* @sges: returned sges
* @nr_sges: number sges to return
**/
void hinic_sq_get_sges(struct hinic_sq_wqe *sq_wqe, struct hinic_sge *sges,
int nr_sges)
{
int i;
for (i = 0; i < nr_sges && i < HINIC_MAX_SQ_BUFDESCS; i++) {
sges[i] = sq_wqe->buf_descs[i].sge;
hinic_be32_to_cpu(&sges[i], sizeof(sges[i]));
}
}
/**
* hinic_rq_get_wqe - get wqe ptr in the current pi and update the pi
* @rq: rq to get wqe from
* @wqe_size: wqe size
* @prod_idx: returned pi
*
* Return wqe pointer
**/
struct hinic_rq_wqe *hinic_rq_get_wqe(struct hinic_rq *rq,
unsigned int wqe_size, u16 *prod_idx)
{
struct hinic_hw_wqe *hw_wqe = hinic_get_wqe(rq->wq, wqe_size,
prod_idx);
if (IS_ERR(hw_wqe))
return NULL;
return &hw_wqe->rq_wqe;
}
/**
* hinic_rq_write_wqe - write the wqe to the rq
* @rq: recv queue
* @prod_idx: pi of the wqe
* @rq_wqe: the wqe to write
* @skb: skb to save
**/
void hinic_rq_write_wqe(struct hinic_rq *rq, u16 prod_idx,
struct hinic_rq_wqe *rq_wqe, struct sk_buff *skb)
{
struct hinic_hw_wqe *hw_wqe = (struct hinic_hw_wqe *)rq_wqe;
rq->saved_skb[prod_idx] = skb;
/* The data in the HW should be in Big Endian Format */
hinic_cpu_to_be32(rq_wqe, sizeof(*rq_wqe));
hinic_write_wqe(rq->wq, hw_wqe, sizeof(*rq_wqe));
}
/**
* hinic_rq_read_wqe - read wqe ptr in the current ci and update the ci
* @rq: recv queue
* @wqe_size: the size of the wqe
* @skb: return saved skb
* @cons_idx: consumer index of the wqe
*
* Return wqe in ci position
**/
struct hinic_rq_wqe *hinic_rq_read_wqe(struct hinic_rq *rq,
unsigned int wqe_size,
struct sk_buff **skb, u16 *cons_idx)
{
struct hinic_hw_wqe *hw_wqe;
struct hinic_rq_cqe *cqe;
int rx_done;
u32 status;
hw_wqe = hinic_read_wqe(rq->wq, wqe_size, cons_idx);
if (IS_ERR(hw_wqe))
return NULL;
cqe = rq->cqe[*cons_idx];
status = be32_to_cpu(cqe->status);
rx_done = HINIC_RQ_CQE_STATUS_GET(status, RXDONE);
if (!rx_done)
return NULL;
*skb = rq->saved_skb[*cons_idx];
return &hw_wqe->rq_wqe;
}
/**
* hinic_rq_read_next_wqe - increment ci and read the wqe in ci position
* @rq: recv queue
* @wqe_size: the size of the wqe
* @skb: return saved skb
* @cons_idx: consumer index in the wq
*
* Return wqe in incremented ci position
**/
struct hinic_rq_wqe *hinic_rq_read_next_wqe(struct hinic_rq *rq,
unsigned int wqe_size,
struct sk_buff **skb,
u16 *cons_idx)
{
struct hinic_wq *wq = rq->wq;
struct hinic_hw_wqe *hw_wqe;
unsigned int num_wqebbs;
wqe_size = ALIGN(wqe_size, wq->wqebb_size);
num_wqebbs = wqe_size / wq->wqebb_size;
*cons_idx = RQ_MASKED_IDX(rq, *cons_idx + num_wqebbs);
*skb = rq->saved_skb[*cons_idx];
hw_wqe = hinic_read_wqe_direct(wq, *cons_idx);
return &hw_wqe->rq_wqe;
}
/**
* hinic_put_wqe - release the ci for new wqes
* @rq: recv queue
* @cons_idx: consumer index of the wqe
* @wqe_size: the size of the wqe
**/
void hinic_rq_put_wqe(struct hinic_rq *rq, u16 cons_idx,
unsigned int wqe_size)
{
struct hinic_rq_cqe *cqe = rq->cqe[cons_idx];
u32 status = be32_to_cpu(cqe->status);
status = HINIC_RQ_CQE_STATUS_CLEAR(status, RXDONE);
/* Rx WQE size is 1 WQEBB, no wq shadow*/
cqe->status = cpu_to_be32(status);
wmb(); /* clear done flag */
hinic_put_wqe(rq->wq, wqe_size);
}
/**
* hinic_rq_get_sge - get sge from the wqe
* @rq: recv queue
* @rq_wqe: wqe to get the sge from its buf address
* @cons_idx: consumer index
* @sge: returned sge
**/
void hinic_rq_get_sge(struct hinic_rq *rq, struct hinic_rq_wqe *rq_wqe,
u16 cons_idx, struct hinic_sge *sge)
{
struct hinic_rq_cqe *cqe = rq->cqe[cons_idx];
u32 len = be32_to_cpu(cqe->len);
sge->hi_addr = be32_to_cpu(rq_wqe->buf_desc.hi_addr);
sge->lo_addr = be32_to_cpu(rq_wqe->buf_desc.lo_addr);
sge->len = HINIC_RQ_CQE_SGE_GET(len, LEN);
}
/**
* hinic_rq_prepare_wqe - prepare wqe before insert to the queue
* @rq: recv queue
* @prod_idx: pi value
* @rq_wqe: the wqe
* @sge: sge for use by the wqe for recv buf address
**/
void hinic_rq_prepare_wqe(struct hinic_rq *rq, u16 prod_idx,
struct hinic_rq_wqe *rq_wqe, struct hinic_sge *sge)
{
struct hinic_rq_cqe_sect *cqe_sect = &rq_wqe->cqe_sect;
struct hinic_rq_bufdesc *buf_desc = &rq_wqe->buf_desc;
struct hinic_rq_cqe *cqe = rq->cqe[prod_idx];
struct hinic_rq_ctrl *ctrl = &rq_wqe->ctrl;
dma_addr_t cqe_dma = rq->cqe_dma[prod_idx];
ctrl->ctrl_info =
HINIC_RQ_CTRL_SET(SIZE_8BYTES(sizeof(*ctrl)), LEN) |
HINIC_RQ_CTRL_SET(SIZE_8BYTES(sizeof(*cqe_sect)),
COMPLETE_LEN) |
HINIC_RQ_CTRL_SET(SIZE_8BYTES(sizeof(*buf_desc)),
BUFDESC_SECT_LEN) |
HINIC_RQ_CTRL_SET(RQ_COMPLETE_SGE, COMPLETE_FORMAT);
hinic_set_sge(&cqe_sect->sge, cqe_dma, sizeof(*cqe));
buf_desc->hi_addr = sge->hi_addr;
buf_desc->lo_addr = sge->lo_addr;
}
/**
* hinic_rq_update - update pi of the rq
* @rq: recv queue
* @prod_idx: pi value
**/
void hinic_rq_update(struct hinic_rq *rq, u16 prod_idx)
{
*rq->pi_virt_addr = cpu_to_be16(RQ_MASKED_IDX(rq, prod_idx + 1));
}
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