Release 4.7 drivers/scsi/csiostor/csio_wr.c
/*
* This file is part of the Chelsio FCoE driver for Linux.
*
* Copyright (c) 2008-2012 Chelsio Communications, Inc. All rights reserved.
*
* 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/kernel.h>
#include <linux/string.h>
#include <linux/compiler.h>
#include <linux/slab.h>
#include <asm/page.h>
#include <linux/cache.h>
#include "csio_hw.h"
#include "csio_wr.h"
#include "csio_mb.h"
#include "csio_defs.h"
int csio_intr_coalesce_cnt;
/* value:SGE_INGRESS_RX_THRESHOLD[0] */
static int csio_sge_thresh_reg;
/* SGE_INGRESS_RX_THRESHOLD[0] */
int csio_intr_coalesce_time = 10;
/* value:SGE_TIMER_VALUE_1 */
static int csio_sge_timer_reg = 1;
#define CSIO_SET_FLBUF_SIZE(_hw, _reg, _val) \
csio_wr_reg32((_hw), (_val), SGE_FL_BUFFER_SIZE##_reg##_A)
static void
csio_get_flbuf_size(struct csio_hw *hw, struct csio_sge *sge, uint32_t reg)
{
sge->sge_fl_buf_size[reg] = csio_rd_reg32(hw, SGE_FL_BUFFER_SIZE0_A +
reg * sizeof(uint32_t));
}
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/* Free list buffer size */
static inline uint32_t
csio_wr_fl_bufsz(struct csio_sge *sge, struct csio_dma_buf *buf)
{
return sge->sge_fl_buf_size[buf->paddr & 0xF];
}
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/* Size of the egress queue status page */
static inline uint32_t
csio_wr_qstat_pgsz(struct csio_hw *hw)
{
return (hw->wrm.sge.sge_control & EGRSTATUSPAGESIZE_F) ? 128 : 64;
}
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/* Ring freelist doorbell */
static inline void
csio_wr_ring_fldb(struct csio_hw *hw, struct csio_q *flq)
{
/*
* Ring the doorbell only when we have atleast CSIO_QCREDIT_SZ
* number of bytes in the freelist queue. This translates to atleast
* 8 freelist buffer pointers (since each pointer is 8 bytes).
*/
if (flq->inc_idx >= 8) {
csio_wr_reg32(hw, DBPRIO_F | QID_V(flq->un.fl.flid) |
PIDX_T5_V(flq->inc_idx / 8) | DBTYPE_F,
MYPF_REG(SGE_PF_KDOORBELL_A));
flq->inc_idx &= 7;
}
}
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/* Write a 0 cidx increment value to enable SGE interrupts for this queue */
static void
csio_wr_sge_intr_enable(struct csio_hw *hw, uint16_t iqid)
{
csio_wr_reg32(hw, CIDXINC_V(0) |
INGRESSQID_V(iqid) |
TIMERREG_V(X_TIMERREG_RESTART_COUNTER),
MYPF_REG(SGE_PF_GTS_A));
}
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/*
* csio_wr_fill_fl - Populate the FL buffers of a FL queue.
* @hw: HW module.
* @flq: Freelist queue.
*
* Fill up freelist buffer entries with buffers of size specified
* in the size register.
*
*/
static int
csio_wr_fill_fl(struct csio_hw *hw, struct csio_q *flq)
{
struct csio_wrm *wrm = csio_hw_to_wrm(hw);
struct csio_sge *sge = &wrm->sge;
__be64 *d = (__be64 *)(flq->vstart);
struct csio_dma_buf *buf = &flq->un.fl.bufs[0];
uint64_t paddr;
int sreg = flq->un.fl.sreg;
int n = flq->credits;
while (n--) {
buf->len = sge->sge_fl_buf_size[sreg];
buf->vaddr = pci_alloc_consistent(hw->pdev, buf->len,
&buf->paddr);
if (!buf->vaddr) {
csio_err(hw, "Could only fill %d buffers!\n", n + 1);
return -ENOMEM;
}
paddr = buf->paddr | (sreg & 0xF);
*d++ = cpu_to_be64(paddr);
buf++;
}
return 0;
}
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/*
* csio_wr_update_fl -
* @hw: HW module.
* @flq: Freelist queue.
*
*
*/
static inline void
csio_wr_update_fl(struct csio_hw *hw, struct csio_q *flq, uint16_t n)
{
flq->inc_idx += n;
flq->pidx += n;
if (unlikely(flq->pidx >= flq->credits))
flq->pidx -= (uint16_t)flq->credits;
CSIO_INC_STATS(flq, n_flq_refill);
}
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/*
* csio_wr_alloc_q - Allocate a WR queue and initialize it.
* @hw: HW module
* @qsize: Size of the queue in bytes
* @wrsize: Since of WR in this queue, if fixed.
* @type: Type of queue (Ingress/Egress/Freelist)
* @owner: Module that owns this queue.
* @nflb: Number of freelist buffers for FL.
* @sreg: What is the FL buffer size register?
* @iq_int_handler: Ingress queue handler in INTx mode.
*
* This function allocates and sets up a queue for the caller
* of size qsize, aligned at the required boundary. This is subject to
* be free entries being available in the queue array. If one is found,
* it is initialized with the allocated queue, marked as being used (owner),
* and a handle returned to the caller in form of the queue's index
* into the q_arr array.
* If user has indicated a freelist (by specifying nflb > 0), create
* another queue (with its own index into q_arr) for the freelist. Allocate
* memory for DMA buffer metadata (vaddr, len etc). Save off the freelist
* idx in the ingress queue's flq.idx. This is how a Freelist is associated
* with its owning ingress queue.
*/
int
csio_wr_alloc_q(struct csio_hw *hw, uint32_t qsize, uint32_t wrsize,
uint16_t type, void *owner, uint32_t nflb, int sreg,
iq_handler_t iq_intx_handler)
{
struct csio_wrm *wrm = csio_hw_to_wrm(hw);
struct csio_q *q, *flq;
int free_idx = wrm->free_qidx;
int ret_idx = free_idx;
uint32_t qsz;
int flq_idx;
if (free_idx >= wrm->num_q) {
csio_err(hw, "No more free queues.\n");
return -1;
}
switch (type) {
case CSIO_EGRESS:
qsz = ALIGN(qsize, CSIO_QCREDIT_SZ) + csio_wr_qstat_pgsz(hw);
break;
case CSIO_INGRESS:
switch (wrsize) {
case 16:
case 32:
case 64:
case 128:
break;
default:
csio_err(hw, "Invalid Ingress queue WR size:%d\n",
wrsize);
return -1;
}
/*
* Number of elements must be a multiple of 16
* So this includes status page size
*/
qsz = ALIGN(qsize/wrsize, 16) * wrsize;
break;
case CSIO_FREELIST:
qsz = ALIGN(qsize/wrsize, 8) * wrsize + csio_wr_qstat_pgsz(hw);
break;
default:
csio_err(hw, "Invalid queue type: 0x%x\n", type);
return -1;
}
q = wrm->q_arr[free_idx];
q->vstart = pci_zalloc_consistent(hw->pdev, qsz, &q->pstart);
if (!q->vstart) {
csio_err(hw,
"Failed to allocate DMA memory for "
"queue at id: %d size: %d\n", free_idx, qsize);
return -1;
}
q->type = type;
q->owner = owner;
q->pidx = q->cidx = q->inc_idx = 0;
q->size = qsz;
q->wr_sz = wrsize; /* If using fixed size WRs */
wrm->free_qidx++;
if (type == CSIO_INGRESS) {
/* Since queue area is set to zero */
q->un.iq.genbit = 1;
/*
* Ingress queue status page size is always the size of
* the ingress queue entry.
*/
q->credits = (qsz - q->wr_sz) / q->wr_sz;
q->vwrap = (void *)((uintptr_t)(q->vstart) + qsz
- q->wr_sz);
/* Allocate memory for FL if requested */
if (nflb > 0) {
flq_idx = csio_wr_alloc_q(hw, nflb * sizeof(__be64),
sizeof(__be64), CSIO_FREELIST,
owner, 0, sreg, NULL);
if (flq_idx == -1) {
csio_err(hw,
"Failed to allocate FL queue"
" for IQ idx:%d\n", free_idx);
return -1;
}
/* Associate the new FL with the Ingress quue */
q->un.iq.flq_idx = flq_idx;
flq = wrm->q_arr[q->un.iq.flq_idx];
flq->un.fl.bufs = kzalloc(flq->credits *
sizeof(struct csio_dma_buf),
GFP_KERNEL);
if (!flq->un.fl.bufs) {
csio_err(hw,
"Failed to allocate FL queue bufs"
" for IQ idx:%d\n", free_idx);
return -1;
}
flq->un.fl.packen = 0;
flq->un.fl.offset = 0;
flq->un.fl.sreg = sreg;
/* Fill up the free list buffers */
if (csio_wr_fill_fl(hw, flq))
return -1;
/*
* Make sure in a FLQ, atleast 1 credit (8 FL buffers)
* remains unpopulated,otherwise HW thinks
* FLQ is empty.
*/
flq->pidx = flq->inc_idx = flq->credits - 8;
} else {
q->un.iq.flq_idx = -1;
}
/* Associate the IQ INTx handler. */
q->un.iq.iq_intx_handler = iq_intx_handler;
csio_q_iqid(hw, ret_idx) = CSIO_MAX_QID;
} else if (type == CSIO_EGRESS) {
q->credits = (qsz - csio_wr_qstat_pgsz(hw)) / CSIO_QCREDIT_SZ;
q->vwrap = (void *)((uintptr_t)(q->vstart) + qsz
- csio_wr_qstat_pgsz(hw));
csio_q_eqid(hw, ret_idx) = CSIO_MAX_QID;
} else { /* Freelist */
q->credits = (qsz - csio_wr_qstat_pgsz(hw)) / sizeof(__be64);
q->vwrap = (void *)((uintptr_t)(q->vstart) + qsz
- csio_wr_qstat_pgsz(hw));
csio_q_flid(hw, ret_idx) = CSIO_MAX_QID;
}
return ret_idx;
}
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/*
* csio_wr_iq_create_rsp - Response handler for IQ creation.
* @hw: The HW module.
* @mbp: Mailbox.
* @iq_idx: Ingress queue that got created.
*
* Handle FW_IQ_CMD mailbox completion. Save off the assigned IQ/FL ids.
*/
static int
csio_wr_iq_create_rsp(struct csio_hw *hw, struct csio_mb *mbp, int iq_idx)
{
struct csio_iq_params iqp;
enum fw_retval retval;
uint32_t iq_id;
int flq_idx;
memset(&iqp, 0, sizeof(struct csio_iq_params));
csio_mb_iq_alloc_write_rsp(hw, mbp, &retval, &iqp);
if (retval != FW_SUCCESS) {
csio_err(hw, "IQ cmd returned 0x%x!\n", retval);
mempool_free(mbp, hw->mb_mempool);
return -EINVAL;
}
csio_q_iqid(hw, iq_idx) = iqp.iqid;
csio_q_physiqid(hw, iq_idx) = iqp.physiqid;
csio_q_pidx(hw, iq_idx) = csio_q_cidx(hw, iq_idx) = 0;
csio_q_inc_idx(hw, iq_idx) = 0;
/* Actual iq-id. */
iq_id = iqp.iqid - hw->wrm.fw_iq_start;
/* Set the iq-id to iq map table. */
if (iq_id >= CSIO_MAX_IQ) {
csio_err(hw,
"Exceeding MAX_IQ(%d) supported!"
" iqid:%d rel_iqid:%d FW iq_start:%d\n",
CSIO_MAX_IQ, iq_id, iqp.iqid, hw->wrm.fw_iq_start);
mempool_free(mbp, hw->mb_mempool);
return -EINVAL;
}
csio_q_set_intr_map(hw, iq_idx, iq_id);
/*
* During FW_IQ_CMD, FW sets interrupt_sent bit to 1 in the SGE
* ingress context of this queue. This will block interrupts to
* this queue until the next GTS write. Therefore, we do a
* 0-cidx increment GTS write for this queue just to clear the
* interrupt_sent bit. This will re-enable interrupts to this
* queue.
*/
csio_wr_sge_intr_enable(hw, iqp.physiqid);
flq_idx = csio_q_iq_flq_idx(hw, iq_idx);
if (flq_idx != -1) {
struct csio_q *flq = hw->wrm.q_arr[flq_idx];
csio_q_flid(hw, flq_idx) = iqp.fl0id;
csio_q_cidx(hw, flq_idx) = 0;
csio_q_pidx(hw, flq_idx) = csio_q_credits(hw, flq_idx) - 8;
csio_q_inc_idx(hw, flq_idx) = csio_q_credits(hw, flq_idx) - 8;
/* Now update SGE about the buffers allocated during init */
csio_wr_ring_fldb(hw, flq);
}
mempool_free(mbp, hw->mb_mempool);
return 0;
}
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/*
* csio_wr_iq_create - Configure an Ingress queue with FW.
* @hw: The HW module.
* @priv: Private data object.
* @iq_idx: Ingress queue index in the WR module.
* @vec: MSIX vector.
* @portid: PCIE Channel to be associated with this queue.
* @async: Is this a FW asynchronous message handling queue?
* @cbfn: Completion callback.
*
* This API configures an ingress queue with FW by issuing a FW_IQ_CMD mailbox
* with alloc/write bits set.
*/
int
csio_wr_iq_create(struct csio_hw *hw, void *priv, int iq_idx,
uint32_t vec, uint8_t portid, bool async,
void (*cbfn) (struct csio_hw *, struct csio_mb *))
{
struct csio_mb *mbp;
struct csio_iq_params iqp;
int flq_idx;
memset(&iqp, 0, sizeof(struct csio_iq_params));
csio_q_portid(hw, iq_idx) = portid;
mbp = mempool_alloc(hw->mb_mempool, GFP_ATOMIC);
if (!mbp) {
csio_err(hw, "IQ command out of memory!\n");
return -ENOMEM;
}
switch (hw->intr_mode) {
case CSIO_IM_INTX:
case CSIO_IM_MSI:
/* For interrupt forwarding queue only */
if (hw->intr_iq_idx == iq_idx)
iqp.iqandst = X_INTERRUPTDESTINATION_PCIE;
else
iqp.iqandst = X_INTERRUPTDESTINATION_IQ;
iqp.iqandstindex =
csio_q_physiqid(hw, hw->intr_iq_idx);
break;
case CSIO_IM_MSIX:
iqp.iqandst = X_INTERRUPTDESTINATION_PCIE;
iqp.iqandstindex = (uint16_t)vec;
break;
case CSIO_IM_NONE:
mempool_free(mbp, hw->mb_mempool);
return -EINVAL;
}
/* Pass in the ingress queue cmd parameters */
iqp.pfn = hw->pfn;
iqp.vfn = 0;
iqp.iq_start = 1;
iqp.viid = 0;
iqp.type = FW_IQ_TYPE_FL_INT_CAP;
iqp.iqasynch = async;
if (csio_intr_coalesce_cnt)
iqp.iqanus = X_UPDATESCHEDULING_COUNTER_OPTTIMER;
else
iqp.iqanus = X_UPDATESCHEDULING_TIMER;
iqp.iqanud = X_UPDATEDELIVERY_INTERRUPT;
iqp.iqpciech = portid;
iqp.iqintcntthresh = (uint8_t)csio_sge_thresh_reg;
switch (csio_q_wr_sz(hw, iq_idx)) {
case 16:
iqp.iqesize = 0; break;
case 32:
iqp.iqesize = 1; break;
case 64:
iqp.iqesize = 2; break;
case 128:
iqp.iqesize = 3; break;
}
iqp.iqsize = csio_q_size(hw, iq_idx) /
csio_q_wr_sz(hw, iq_idx);
iqp.iqaddr = csio_q_pstart(hw, iq_idx);
flq_idx = csio_q_iq_flq_idx(hw, iq_idx);
if (flq_idx != -1) {
struct csio_q *flq = hw->wrm.q_arr[flq_idx];
iqp.fl0paden = 1;
iqp.fl0packen = flq->un.fl.packen ? 1 : 0;
iqp.fl0fbmin = X_FETCHBURSTMIN_64B;
iqp.fl0fbmax = X_FETCHBURSTMAX_512B;
iqp.fl0size = csio_q_size(hw, flq_idx) / CSIO_QCREDIT_SZ;
iqp.fl0addr = csio_q_pstart(hw, flq_idx);
}
csio_mb_iq_alloc_write(hw, mbp, priv, CSIO_MB_DEFAULT_TMO, &iqp, cbfn);
if (csio_mb_issue(hw, mbp)) {
csio_err(hw, "Issue of IQ cmd failed!\n");
mempool_free(mbp, hw->mb_mempool);
return -EINVAL;
}
if (cbfn != NULL)
return 0;
return csio_wr_iq_create_rsp(hw, mbp, iq_idx);
}
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/*
* csio_wr_eq_create_rsp - Response handler for EQ creation.
* @hw: The HW module.
* @mbp: Mailbox.
* @eq_idx: Egress queue that got created.
*
* Handle FW_EQ_OFLD_CMD mailbox completion. Save off the assigned EQ ids.
*/
static int
csio_wr_eq_cfg_rsp(struct csio_hw *hw, struct csio_mb *mbp, int eq_idx)
{
struct csio_eq_params eqp;
enum fw_retval retval;
memset(&eqp, 0, sizeof(struct csio_eq_params));
csio_mb_eq_ofld_alloc_write_rsp(hw, mbp, &retval, &eqp);
if (retval != FW_SUCCESS) {
csio_err(hw, "EQ OFLD cmd returned 0x%x!\n", retval);
mempool_free(mbp, hw->mb_mempool);
return -EINVAL;
}
csio_q_eqid(hw, eq_idx) = (uint16_t)eqp.eqid;
csio_q_physeqid(hw, eq_idx) = (uint16_t)eqp.physeqid;
csio_q_pidx(hw, eq_idx) = csio_q_cidx(hw, eq_idx) = 0;
csio_q_inc_idx(hw, eq_idx) = 0;
mempool_free(mbp, hw->mb_mempool);
return 0;
}
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/*
* csio_wr_eq_create - Configure an Egress queue with FW.
* @hw: HW module.
* @priv: Private data.
* @eq_idx: Egress queue index in the WR module.
* @iq_idx: Associated ingress queue index.
* @cbfn: Completion callback.
*
* This API configures a offload egress queue with FW by issuing a
* FW_EQ_OFLD_CMD (with alloc + write ) mailbox.
*/
int
csio_wr_eq_create(struct csio_hw *hw, void *priv, int eq_idx,
int iq_idx, uint8_t portid,
void (*cbfn) (struct csio_hw *, struct csio_mb *))
{
struct csio_mb *mbp;
struct csio_eq_params eqp;
memset(&eqp, 0, sizeof(struct csio_eq_params));
mbp = mempool_alloc(hw->mb_mempool, GFP_ATOMIC);
if (!mbp) {
csio_err(hw, "EQ command out of memory!\n");
return -ENOMEM;
}
eqp.pfn = hw->pfn;
eqp.vfn = 0;
eqp.eqstart = 1;
eqp.hostfcmode = X_HOSTFCMODE_STATUS_PAGE;
eqp.iqid = csio_q_iqid(hw, iq_idx);
eqp.fbmin = X_FETCHBURSTMIN_64B;
eqp.fbmax = X_FETCHBURSTMAX_512B;
eqp.cidxfthresh = 0;
eqp.pciechn = portid;
eqp.eqsize = csio_q_size(hw, eq_idx) / CSIO_QCREDIT_SZ;
eqp.eqaddr = csio_q_pstart(hw, eq_idx);
csio_mb_eq_ofld_alloc_write(hw, mbp, priv, CSIO_MB_DEFAULT_TMO,
&eqp, cbfn);
if (csio_mb_issue(hw, mbp)) {
csio_err(hw, "Issue of EQ OFLD cmd failed!\n");
mempool_free(mbp, hw->mb_mempool);
return -EINVAL;
}
if (cbfn != NULL)
return 0;
return csio_wr_eq_cfg_rsp(hw, mbp, eq_idx);
}
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/*
* csio_wr_iq_destroy_rsp - Response handler for IQ removal.
* @hw: The HW module.
* @mbp: Mailbox.
* @iq_idx: Ingress queue that was freed.
*
* Handle FW_IQ_CMD (free) mailbox completion.
*/
static int
csio_wr_iq_destroy_rsp(struct csio_hw *hw, struct csio_mb *mbp, int iq_idx)
{
enum fw_retval retval = csio_mb_fw_retval(mbp);
int rv = 0;
if (retval != FW_SUCCESS)
rv = -EINVAL;
mempool_free(mbp, hw->mb_mempool);
return rv;
}
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/*
* csio_wr_iq_destroy - Free an ingress queue.
* @hw: The HW module.
* @priv: Private data object.
* @iq_idx: Ingress queue index to destroy
* @cbfn: Completion callback.
*
* This API frees an ingress queue by issuing the FW_IQ_CMD
* with the free bit set.
*/
static int
csio_wr_iq_destroy(struct csio_hw *hw, void *priv, int iq_idx,
void (*cbfn)(struct csio_hw *, struct csio_mb *))
{
int rv = 0;
struct csio_mb *mbp;
struct csio_iq_params iqp;
int flq_idx;
memset(&iqp, 0, sizeof(struct csio_iq_params));
mbp = mempool_alloc(hw->mb_mempool, GFP_ATOMIC);
if (!mbp)
return -ENOMEM;
iqp.pfn = hw->pfn;
iqp.vfn = 0;
iqp.iqid = csio_q_iqid(hw, iq_idx);
iqp.type = FW_IQ_TYPE_FL_INT_CAP;
flq_idx = csio_q_iq_flq_idx(hw, iq_idx);
if (flq_idx != -1)
iqp.fl0id = csio_q_flid(hw, flq_idx);
else
iqp.fl0id = 0xFFFF;
iqp.fl1id = 0xFFFF;
csio_mb_iq_free(hw, mbp, priv, CSIO_MB_DEFAULT_TMO, &iqp, cbfn);
rv = csio_mb_issue(hw, mbp);
if (rv != 0) {
mempool_free(mbp, hw->mb_mempool);
return rv;
}
if (cbfn != NULL)
return 0;
return csio_wr_iq_destroy_rsp(hw, mbp, iq_idx);
}
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/*
* csio_wr_eq_destroy_rsp - Response handler for OFLD EQ creation.
* @hw: The HW module.
* @mbp: Mailbox.
* @eq_idx: Egress queue that was freed.
*
* Handle FW_OFLD_EQ_CMD (free) mailbox completion.
*/
static int
csio_wr_eq_destroy_rsp(struct csio_hw *hw, struct csio_mb *mbp, int eq_idx)
{
enum fw_retval retval = csio_mb_fw_retval(mbp);
int rv = 0;
if (retval != FW_SUCCESS)
rv = -EINVAL;
mempool_free(mbp, hw->mb_mempool);
return rv;
}
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/*
* csio_wr_eq_destroy - Free an Egress queue.
* @hw: The HW module.
* @priv: Private data object.
* @eq_idx: Egress queue index to destroy
* @cbfn: Completion callback.
*
* This API frees an Egress queue by issuing the FW_EQ_OFLD_CMD
* with the free bit set.
*/
static int
csio_wr_eq_destroy(struct csio_hw *hw, void *priv, int eq_idx,
void (*cbfn) (struct csio_hw *, struct csio_mb *))
{
int rv = 0;
struct csio_mb *mbp;
struct csio_eq_params eqp;
memset(&eqp, 0, sizeof(struct csio_eq_params));
mbp = mempool_alloc(hw->mb_mempool, GFP_ATOMIC);
if (!mbp)
return -ENOMEM;
eqp.pfn = hw->pfn;
eqp.vfn = 0;
eqp.eqid = csio_q_eqid(hw, eq_idx);
csio_mb_eq_ofld_free(hw, mbp, priv, CSIO_MB_DEFAULT_TMO, &eqp, cbfn);
rv = csio_mb_issue(hw, mbp);
if (rv != 0) {
mempool_free(mbp, hw->mb_mempool);
return rv;
}
if (cbfn != NULL)
return 0;
return csio_wr_eq_destroy_rsp(hw, mbp, eq_idx);
}
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/*
* csio_wr_cleanup_eq_stpg - Cleanup Egress queue status page
* @hw: HW module
* @qidx: Egress queue index
*
* Cleanup the Egress queue status page.
*/
static void
csio_wr_cleanup_eq_stpg(struct csio_hw *hw, int qidx)
{
struct csio_q *q = csio_hw_to_wrm(hw)->q_arr[qidx];
struct csio_qstatus_page *stp = (struct csio_qstatus_page *)q->vwrap;
memset(stp, 0, sizeof(*stp));
}
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/*
* csio_wr_cleanup_iq_ftr - Cleanup Footer entries in IQ
* @hw: HW module
* @qidx: Ingress queue index
*
* Cleanup the footer entries in the given ingress queue,
* set to 1 the internal copy of genbit.
*/
static void
csio_wr_cleanup_iq_ftr(struct csio_hw *hw, int qidx)
{
struct csio_wrm *wrm = csio_hw_to_wrm(hw);
struct csio_q *q = wrm->q_arr[qidx];
void *wr;
struct csio_iqwr_footer *ftr;
uint32_t i = 0;
/* set to 1 since we are just about zero out genbit */
q->un.iq.genbit = 1;
for (i = 0; i < q->credits; i++) {
/* Get the WR */
wr = (void *)((uintptr_t)q->vstart +
(i * q->wr_sz));
/* Get the footer */
ftr = (struct csio_iqwr_footer *)((uintptr_t)wr +
(q->wr_sz - sizeof(*ftr)));
/* Zero out footer */
memset(ftr, 0, sizeof(*ftr));
}
}
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int
csio_wr_destroy_queues(struct csio_hw *hw, bool cmd)
{
int i, flq_idx;
struct csio_q *q;
struct csio_wrm *wrm = csio_hw_to_wrm(hw);
int rv;
for (i = 0; i < wrm->free_qidx; i++) {
q = wrm->q_arr[i];
switch (q->type) {
case CSIO_EGRESS:
if (csio_q_eqid(hw, i) != CSIO_MAX_QID) {
csio_wr_cleanup_eq_stpg(hw, i);
if (!cmd) {
csio_q_eqid(hw, i) = CSIO_MAX_QID;
continue;
}
rv = csio_wr_eq_destroy(hw, NULL, i, NULL);
if ((rv == -EBUSY) || (rv == -ETIMEDOUT))
cmd = false;
csio_q_eqid(hw, i) = CSIO_MAX_QID;
}
case CSIO_INGRESS:
if (csio_q_iqid(hw, i) != CSIO_MAX_QID) {
csio_wr_cleanup_iq_ftr(hw, i);
if (!cmd) {
csio_q_iqid(hw, i) = CSIO_MAX_QID;
flq_idx = csio_q_iq_flq_idx(hw, i);
if (flq_idx != -1)
csio_q_flid(hw, flq_idx) =
CSIO_MAX_QID;
continue;
}
rv = csio_wr_iq_destroy(hw, NULL, i, NULL);
if ((rv == -EBUSY) || (rv == -ETIMEDOUT))
cmd = false;
csio_q_iqid(hw, i) = CSIO_MAX_QID;
flq_idx = csio_q_iq_flq_idx(hw, i);
if (flq_idx != -1)
csio_q_flid(hw, flq_idx) = CSIO_MAX_QID;
}
default:
break;
}
}
hw->flags &= ~CSIO_HWF_Q_FW_ALLOCED;
return 0;
}
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/*
* csio_wr_get - Get requested size of WR entry/entries from queue.
* @hw: HW module.
* @qidx: Index of queue.
* @size: Cumulative size of Work request(s).
* @wrp: Work request pair.
*
* If requested credits are available, return the start address of the
* work request in the work request pair. Set pidx accordingly and
* return.
*
* NOTE about WR pair:
* ==================
* A WR can start towards the end of a queue, and then continue at the
* beginning, since the queue is considered to be circular. This will
* require a pair of address/size to be passed back to the caller -
* hence Work request pair format.
*/
int
csio_wr_get(struct csio_hw *hw, int qidx, uint32_t size,
struct csio_wr_pair *wrp)
{
struct csio_wrm *wrm = csio_hw_to_wrm(hw);
struct csio_q *q = wrm->q_arr[qidx];
void *cwr = (void *)((uintptr_t)(q->vstart) +
(q->pidx * CSIO_QCREDIT_SZ));
struct csio_qstatus_page *stp = (struct csio_qstatus_page *)q->vwrap;
uint16_t cidx = q->cidx = ntohs(stp->cidx);
uint16_t pidx = q->pidx;
uint32_t req_sz = ALIGN(size, CSIO_QCREDIT_SZ);
int req_credits = req_sz / CSIO_QCREDIT_SZ;
int credits;
CSIO_DB_ASSERT(q->owner != NULL);
CSIO_DB_ASSERT((qidx >= 0) && (qidx < wrm->free_qidx));
CSIO_DB_ASSERT(cidx <= q->credits);
/* Calculate credits */
if (pidx > cidx) {
credits = q->credits - (pidx - cidx) - 1;
} else if (cidx > pidx) {
credits = cidx - pidx - 1;
} else {
/* cidx == pidx, empty queue */
credits = q->credits;
CSIO_INC_STATS(q, n_qempty);
}
/*
* Check if we have enough credits.
* credits = 1 implies queue is full.
*/
if (!credits || (req_credits > credits)) {
CSIO_INC_STATS(q, n_qfull);
return -EBUSY;
}
/*
* If we are here, we have enough credits to satisfy the
* request. Check if we are near the end of q, and if WR spills over.
* If it does, use the first addr/size to cover the queue until
* the end. Fit the remainder portion of the request at the top
* of queue and return it in the second addr/len. Set pidx
* accordingly.
*/
if (unlikely(((uintptr_t)cwr + req_sz) > (uintptr_t)(q->vwrap))) {
wrp->addr1 = cwr;
wrp->size1 = (uint32_t)((uintptr_t)q->vwrap - (uintptr_t)cwr);
wrp->addr2 = q->vstart;
wrp->size2 = req_sz - wrp->size1;
q->pidx = (uint16_t)(ALIGN(wrp->size2, CSIO_QCREDIT_SZ) /
CSIO_QCREDIT_SZ);
CSIO_INC_STATS(q, n_qwrap);
CSIO_INC_STATS(q, n_eq_wr_split);
} else {
wrp->addr1 = cwr;
wrp->size1 = req_sz;
wrp->addr2 = NULL;
wrp->size2 = 0;
q->pidx += (uint16_t)req_credits;
/* We are the end of queue, roll back pidx to top of queue */
if (unlikely(q->pidx == q->credits)) {
q->pidx = 0;
CSIO_INC_STATS(q, n_qwrap);
}
}
q->inc_idx = (uint16_t)req_credits;
CSIO_INC_STATS(q, n_tot_reqs);
return 0;
}
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/*
* csio_wr_copy_to_wrp - Copies given data into WR.
* @data_buf - Data buffer
* @wrp - Work request pair.
* @wr_off - Work request offset.
* @data_len - Data length.
*
* Copies the given data in Work Request. Work request pair(wrp) specifies
* address information of Work request.
* Returns: none
*/
void
csio_wr_copy_to_wrp(void *data_buf, struct csio_wr_pair *wrp,
uint32_t wr_off, uint32_t data_len)
{
uint32_t nbytes;
/* Number of space available in buffer addr1 of WRP */
nbytes = ((wrp->size1 - wr_off) >= data_len) ?
data_len : (wrp->size1 - wr_off);
memcpy((uint8_t *) wrp->addr1 + wr_off, data_buf, nbytes);
data_len -= nbytes;
/* Write the remaining data from the begining of circular buffer */
if (data_len) {
CSIO_DB_ASSERT(data_len <= wrp->size2);
CSIO_DB_ASSERT(wrp->addr2 != NULL);
memcpy(wrp->addr2, (uint8_t *) data_buf + nbytes, data_len);
}
}
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/*
* csio_wr_issue - Notify chip of Work request.
* @hw: HW module.
* @qidx: Index of queue.
* @prio: 0: Low priority, 1: High priority
*
* Rings the SGE Doorbell by writing the current producer index of the passed
* in queue into the register.
*
*/
int
csio_wr_issue(struct csio_hw *hw, int qidx, bool prio)
{
struct csio_wrm *wrm = csio_hw_to_wrm(hw);
struct csio_q *q = wrm->q_arr[qidx];
CSIO_DB_ASSERT((qidx >= 0) && (qidx < wrm->free_qidx));
wmb();
/* Ring SGE Doorbell writing q->pidx into it */
csio_wr_reg32(hw, DBPRIO_V(prio) | QID_V(q->un.eq.physeqid) |
PIDX_T5_V(q->inc_idx) | DBTYPE_F,
MYPF_REG(SGE_PF_KDOORBELL_A));
q->inc_idx = 0;
return 0;
}
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static inline uint32_t
csio_wr_avail_qcredits(struct csio_q *q)
{
if (q->pidx > q->cidx)
return q->pidx - q->cidx;
else if (q->cidx > q->pidx)
return q->credits - (q->cidx - q->pidx);
else
return 0; /* cidx == pidx, empty queue */
}
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/*
* csio_wr_inval_flq_buf - Invalidate a free list buffer entry.
* @hw: HW module.
* @flq: The freelist queue.
*
* Invalidate the driver's version of a freelist buffer entry,
* without freeing the associated the DMA memory. The entry
* to be invalidated is picked up from the current Free list
* queue cidx.
*
*/
static inline void
csio_wr_inval_flq_buf(struct csio_hw *hw, struct csio_q *flq)
{
flq->cidx++;
if (flq->cidx == flq->credits) {
flq->cidx = 0;
CSIO_INC_STATS(flq, n_qwrap);
}
}
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/*
* csio_wr_process_fl - Process a freelist completion.
* @hw: HW module.
* @q: The ingress queue attached to the Freelist.
* @wr: The freelist completion WR in the ingress queue.
* @len_to_qid: The lower 32-bits of the first flit of the RSP footer
* @iq_handler: Caller's handler for this completion.
* @priv: Private pointer of caller
*
*/
static inline void
csio_wr_process_fl(struct csio_hw *hw, struct csio_q *q,
void *wr, uint32_t len_to_qid,
void (*iq_handler)(struct csio_hw *, void *,
uint32_t, struct csio_fl_dma_buf *,
void *),
void *priv)
{
struct csio_wrm *wrm = csio_hw_to_wrm(hw);
struct csio_sge *sge = &wrm->sge;
struct csio_fl_dma_buf flb;
struct csio_dma_buf *buf, *fbuf;
uint32_t bufsz, len, lastlen = 0;
int n;
struct csio_q *flq = hw->wrm.q_arr[q->un.iq.flq_idx];
CSIO_DB_ASSERT(flq != NULL);
len = len_to_qid;
if (len & IQWRF_NEWBUF) {
if (flq->un.fl.offset > 0) {
csio_wr_inval_flq_buf(hw, flq);
flq->un.fl.offset = 0;
}
len = IQWRF_LEN_GET(len);
}
CSIO_DB_ASSERT(len != 0);
flb.totlen = len;
/* Consume all freelist buffers used for len bytes */
for (n = 0, fbuf = flb.flbufs; ; n++, fbuf++) {
buf = &flq->un.fl.bufs[flq->cidx];
bufsz = csio_wr_fl_bufsz(sge, buf);
fbuf->paddr = buf->paddr;
fbuf->vaddr = buf->vaddr;
flb.offset = flq->un.fl.offset;
lastlen = min(bufsz, len);
fbuf->len = lastlen;
len -= lastlen;
if (!len)
break;
csio_wr_inval_flq_buf(hw, flq);
}
flb.defer_free = flq->un.fl.packen ? 0 : 1;
iq_handler(hw, wr, q->wr_sz - sizeof(struct csio_iqwr_footer),
&flb, priv);
if (flq->un.fl.packen)
flq->un.fl.offset += ALIGN(lastlen, sge->csio_fl_align);
else
csio_wr_inval_flq_buf(hw, flq);
}
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/*
* csio_is_new_iqwr - Is this a new Ingress queue entry ?
* @q: Ingress quueue.
* @ftr: Ingress queue WR SGE footer.
*
* The entry is new if our generation bit matches the corresponding
* bit in the footer of the current WR.
*/
static inline bool
csio_is_new_iqwr(struct csio_q *q, struct csio_iqwr_footer *ftr)
{
return (q->un.iq.genbit == (ftr->u.type_gen >> IQWRF_GEN_SHIFT));
}
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/*
* csio_wr_process_iq - Process elements in Ingress queue.
* @hw: HW pointer
* @qidx: Index of queue
* @iq_handler: Handler for this queue
* @priv: Caller's private pointer
*
* This routine walks through every entry of the ingress queue, calling
* the provided iq_handler with the entry, until the generation bit
* flips.
*/
int
csio_wr_process_iq(struct csio_hw *hw, struct csio_q *q,
void (*iq_handler)(struct csio_hw *, void *,
uint32_t, struct csio_fl_dma_buf *,
void *),
void *priv)
{
struct csio_wrm *wrm = csio_hw_to_wrm(hw);
void *wr = (void *)((uintptr_t)q->vstart + (q->cidx * q->wr_sz));
struct csio_iqwr_footer *ftr;
uint32_t wr_type, fw_qid, qid;
struct csio_q *q_completed;
struct csio_q *flq = csio_iq_has_fl(q) ?
wrm->q_arr[q->un.iq.flq_idx] : NULL;
int rv = 0;
/* Get the footer */
ftr = (struct csio_iqwr_footer *)((uintptr_t)wr +
(q->wr_sz - sizeof(*ftr)));
/*
* When q wrapped around last time, driver should have inverted
* ic.genbit as well.
*/
while (csio_is_new_iqwr(q, ftr)) {
CSIO_DB_ASSERT(((uintptr_t)wr + q->wr_sz) <=
(uintptr_t)q->vwrap);
rmb();
wr_type = IQWRF_TYPE_GET(ftr->u.type_gen);
switch (wr_type) {
case X_RSPD_TYPE_CPL:
/* Subtract footer from WR len */
iq_handler(hw, wr, q->wr_sz - sizeof(*ftr), NULL, priv);
break;
case X_RSPD_TYPE_FLBUF:
csio_wr_process_fl(hw, q, wr,
ntohl(ftr->pldbuflen_qid),
iq_handler, priv);
break;
case X_RSPD_TYPE_INTR:
fw_qid = ntohl(ftr->pldbuflen_qid);
qid = fw_qid - wrm->fw_iq_start;
q_completed = hw->wrm.intr_map[qid];
if (unlikely(qid ==
csio_q_physiqid(hw, hw->intr_iq_idx))) {
/*
* We are already in the Forward Interrupt
* Interrupt Queue Service! Do-not service
* again!
*
*/
} else {
CSIO_DB_ASSERT(q_completed);
CSIO_DB_ASSERT(
q_completed->un.iq.iq_intx_handler);
/* Call the queue handler. */
q_completed->un.iq.iq_intx_handler(hw, NULL,
0, NULL, (void *)q_completed);
}
break;
default:
csio_warn(hw, "Unknown resp type 0x%x received\n",
wr_type);
CSIO_INC_STATS(q, n_rsp_unknown);
break;
}
/*
* Ingress *always* has fixed size WR entries. Therefore,
* there should always be complete WRs towards the end of
* queue.
*/
if (((uintptr_t)wr + q->wr_sz) == (uintptr_t)q->vwrap) {
/* Roll over to start of queue */
q->cidx = 0;
wr = q->vstart;
/* Toggle genbit */
q->un.iq.genbit ^= 0x1;
CSIO_INC_STATS(q, n_qwrap);
} else {
q->cidx++;
wr = (void *)((uintptr_t)(q->vstart) +
(q->cidx * q->wr_sz));
}
ftr = (struct csio_iqwr_footer *)((uintptr_t)wr +
(q->wr_sz - sizeof(*ftr)));
q->inc_idx++;
} /* while (q->un.iq.genbit == hdr->genbit) */
/*
* We need to re-arm SGE interrupts in case we got a stray interrupt,
* especially in msix mode. With INTx, this may be a common occurence.
*/
if (unlikely(!q->inc_idx)) {
CSIO_INC_STATS(q, n_stray_comp);
rv = -EINVAL;
goto restart;
}
/* Replenish free list buffers if pending falls below low water mark */
if (flq) {
uint32_t avail = csio_wr_avail_qcredits(flq);
if (avail <= 16) {
/* Make sure in FLQ, atleast 1 credit (8 FL buffers)
* remains unpopulated otherwise HW thinks
* FLQ is empty.
*/
csio_wr_update_fl(hw, flq, (flq->credits - 8) - avail);
csio_wr_ring_fldb(hw, flq);
}
}
restart:
/* Now inform SGE about our incremental index value */
csio_wr_reg32(hw, CIDXINC_V(q->inc_idx) |
INGRESSQID_V(q->un.iq.physiqid) |
TIMERREG_V(csio_sge_timer_reg),
MYPF_REG(SGE_PF_GTS_A));
q->stats.n_tot_rsps += q->inc_idx;
q->inc_idx = 0;
return rv;
}
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int
csio_wr_process_iq_idx(struct csio_hw *hw, int qidx,
void (*iq_handler)(struct csio_hw *, void *,
uint32_t, struct csio_fl_dma_buf *,
void *),
void *priv)
{
struct csio_wrm *wrm = csio_hw_to_wrm(hw);
struct csio_q *iq = wrm->q_arr[qidx];
return csio_wr_process_iq(hw, iq, iq_handler, priv);
}
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naresh kumar inna | naresh kumar inna | 74 | 100.00% | 1 | 100.00% |
| Total | 74 | 100.00% | 1 | 100.00% |
static int
csio_closest_timer(struct csio_sge *s, int time)
{
int i, delta, match = 0, min_delta = INT_MAX;
for (i = 0; i < ARRAY_SIZE(s->timer_val); i++) {
delta = time - s->timer_val[i];
if (delta < 0)
delta = -delta;
if (delta < min_delta) {
min_delta = delta;
match = i;
}
}
return match;
}
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| Person | Tokens | Prop | Commits | CommitProp |
naresh kumar inna | naresh kumar inna | 88 | 100.00% | 1 | 100.00% |
| Total | 88 | 100.00% | 1 | 100.00% |
static int
csio_closest_thresh(struct csio_sge *s, int cnt)
{
int i, delta, match = 0, min_delta = INT_MAX;
for (i = 0; i < ARRAY_SIZE(s->counter_val); i++) {
delta = cnt - s->counter_val[i];
if (delta < 0)
delta = -delta;
if (delta < min_delta) {
min_delta = delta;
match = i;
}
}
return match;
}
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| Person | Tokens | Prop | Commits | CommitProp |
naresh kumar inna | naresh kumar inna | 88 | 100.00% | 1 | 100.00% |
| Total | 88 | 100.00% | 1 | 100.00% |
static void
csio_wr_fixup_host_params(struct csio_hw *hw)
{
struct csio_wrm *wrm = csio_hw_to_wrm(hw);
struct csio_sge *sge = &wrm->sge;
uint32_t clsz = L1_CACHE_BYTES;
uint32_t s_hps = PAGE_SHIFT - 10;
uint32_t ingpad = 0;
uint32_t stat_len = clsz > 64 ? 128 : 64;
csio_wr_reg32(hw, HOSTPAGESIZEPF0_V(s_hps) | HOSTPAGESIZEPF1_V(s_hps) |
HOSTPAGESIZEPF2_V(s_hps) | HOSTPAGESIZEPF3_V(s_hps) |
HOSTPAGESIZEPF4_V(s_hps) | HOSTPAGESIZEPF5_V(s_hps) |
HOSTPAGESIZEPF6_V(s_hps) | HOSTPAGESIZEPF7_V(s_hps),
SGE_HOST_PAGE_SIZE_A);
sge->csio_fl_align = clsz < 32 ? 32 : clsz;
ingpad = ilog2(sge->csio_fl_align) - 5;
csio_set_reg_field(hw, SGE_CONTROL_A,
INGPADBOUNDARY_V(INGPADBOUNDARY_M) |
EGRSTATUSPAGESIZE_F,
INGPADBOUNDARY_V(ingpad) |
EGRSTATUSPAGESIZE_V(stat_len != 64));
/* FL BUFFER SIZE#0 is Page size i,e already aligned to cache line */
csio_wr_reg32(hw, PAGE_SIZE, SGE_FL_BUFFER_SIZE0_A);
/*
* If using hard params, the following will get set correctly
* in csio_wr_set_sge().
*/
if (hw->flags & CSIO_HWF_USING_SOFT_PARAMS) {
csio_wr_reg32(hw,
(csio_rd_reg32(hw, SGE_FL_BUFFER_SIZE2_A) +
sge->csio_fl_align - 1) & ~(sge->csio_fl_align - 1),
SGE_FL_BUFFER_SIZE2_A);
csio_wr_reg32(hw,
(csio_rd_reg32(hw, SGE_FL_BUFFER_SIZE3_A) +
sge->csio_fl_align - 1) & ~(sge->csio_fl_align - 1),
SGE_FL_BUFFER_SIZE3_A);
}
csio_wr_reg32(hw, HPZ0_V(PAGE_SHIFT - 12), ULP_RX_TDDP_PSZ_A);
/* default value of rx_dma_offset of the NIC driver */
csio_set_reg_field(hw, SGE_CONTROL_A,
PKTSHIFT_V(PKTSHIFT_M),
PKTSHIFT_V(CSIO_SGE_RX_DMA_OFFSET));
csio_hw_tp_wr_bits_indirect(hw, TP_INGRESS_CONFIG_A,
CSUM_HAS_PSEUDO_HDR_F, 0);
}
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| Person | Tokens | Prop | Commits | CommitProp |
naresh kumar inna | naresh kumar inna | 230 | 81.85% | 1 | 16.67% |
hariprasad shenai | hariprasad shenai | 31 | 11.03% | 3 | 50.00% |
arvind bhushan | arvind bhushan | 20 | 7.12% | 2 | 33.33% |
| Total | 281 | 100.00% | 6 | 100.00% |
static void
csio_init_intr_coalesce_parms(struct csio_hw *hw)
{
struct csio_wrm *wrm = csio_hw_to_wrm(hw);
struct csio_sge *sge = &wrm->sge;
csio_sge_thresh_reg = csio_closest_thresh(sge, csio_intr_coalesce_cnt);
if (csio_intr_coalesce_cnt) {
csio_sge_thresh_reg = 0;
csio_sge_timer_reg = X_TIMERREG_RESTART_COUNTER;
return;
}
csio_sge_timer_reg = csio_closest_timer(sge, csio_intr_coalesce_time);
}
Contributors
| Person | Tokens | Prop | Commits | CommitProp |
naresh kumar inna | naresh kumar inna | 64 | 100.00% | 1 | 100.00% |
| Total | 64 | 100.00% | 1 | 100.00% |
/*
* csio_wr_get_sge - Get SGE register values.
* @hw: HW module.
*
* Used by non-master functions and by master-functions relying on config file.
*/
static void
csio_wr_get_sge(struct csio_hw *hw)
{
struct csio_wrm *wrm = csio_hw_to_wrm(hw);
struct csio_sge *sge = &wrm->sge;
uint32_t ingpad;
int i;
u32 timer_value_0_and_1, timer_value_2_and_3, timer_value_4_and_5;
u32 ingress_rx_threshold;
sge->sge_control = csio_rd_reg32(hw, SGE_CONTROL_A);
ingpad = INGPADBOUNDARY_G(sge->sge_control);
switch (ingpad) {
case X_INGPCIEBOUNDARY_32B:
sge->csio_fl_align = 32; break;
case X_INGPCIEBOUNDARY_64B:
sge->csio_fl_align = 64; break;
case X_INGPCIEBOUNDARY_128B:
sge->csio_fl_align = 128; break;
case X_INGPCIEBOUNDARY_256B:
sge->csio_fl_align = 256; break;
case X_INGPCIEBOUNDARY_512B:
sge->csio_fl_align = 512; break;
case X_INGPCIEBOUNDARY_1024B:
sge->csio_fl_align = 1024; break;
case X_INGPCIEBOUNDARY_2048B:
sge->csio_fl_align = 2048; break;
case X_INGPCIEBOUNDARY_4096B:
sge->csio_fl_align = 4096; break;
}
for (i = 0; i < CSIO_SGE_FL_SIZE_REGS; i++)
csio_get_flbuf_size(hw, sge, i);
timer_value_0_and_1 = csio_rd_reg32(hw, SGE_TIMER_VALUE_0_AND_1_A);
timer_value_2_and_3 = csio_rd_reg32(hw, SGE_TIMER_VALUE_2_AND_3_A);
timer_value_4_and_5 = csio_rd_reg32(hw, SGE_TIMER_VALUE_4_AND_5_A);
sge->timer_val[0] = (uint16_t)csio_core_ticks_to_us(hw,
TIMERVALUE0_G(timer_value_0_and_1));
sge->timer_val[1] = (uint16_t)csio_core_ticks_to_us(hw,
TIMERVALUE1_G(timer_value_0_and_1));
sge->timer_val[2] = (uint16_t)csio_core_ticks_to_us(hw,
TIMERVALUE2_G(timer_value_2_and_3));
sge->timer_val[3] = (uint16_t)csio_core_ticks_to_us(hw,
TIMERVALUE3_G(timer_value_2_and_3));
sge->timer_val[4] = (uint16_t)csio_core_ticks_to_us(hw,
TIMERVALUE4_G(timer_value_4_and_5));
sge->timer_val[5] = (uint16_t)csio_core_ticks_to_us(hw,
TIMERVALUE5_G(timer_value_4_and_5));
ingress_rx_threshold = csio_rd_reg32(hw, SGE_INGRESS_RX_THRESHOLD_A);
sge->counter_val[0] = THRESHOLD_0_G(ingress_rx_threshold);
sge->counter_val[1] = THRESHOLD_1_G(ingress_rx_threshold);
sge->counter_val[2] = THRESHOLD_2_G(ingress_rx_threshold);
sge->counter_val[3] = THRESHOLD_3_G(ingress_rx_threshold);
csio_init_intr_coalesce_parms(hw);
}
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| Person | Tokens | Prop | Commits | CommitProp |
naresh kumar inna | naresh kumar inna | 368 | 95.83% | 1 | 33.33% |
hariprasad shenai | hariprasad shenai | 16 | 4.17% | 2 | 66.67% |
| Total | 384 | 100.00% | 3 | 100.00% |
/*
* csio_wr_set_sge - Initialize SGE registers
* @hw: HW module.
*
* Used by Master function to initialize SGE registers in the absence
* of a config file.
*/
static void
csio_wr_set_sge(struct csio_hw *hw)
{
struct csio_wrm *wrm = csio_hw_to_wrm(hw);
struct csio_sge *sge = &wrm->sge;
int i;
/*
* Set up our basic SGE mode to deliver CPL messages to our Ingress
* Queue and Packet Date to the Free List.
*/
csio_set_reg_field(hw, SGE_CONTROL_A, RXPKTCPLMODE_F, RXPKTCPLMODE_F);
sge->sge_control = csio_rd_reg32(hw, SGE_CONTROL_A);
/* sge->csio_fl_align is set up by csio_wr_fixup_host_params(). */
/*
* Set up to drop DOORBELL writes when the DOORBELL FIFO overflows
* and generate an interrupt when this occurs so we can recover.
*/
csio_set_reg_field(hw, SGE_DBFIFO_STATUS_A,
LP_INT_THRESH_T5_V(LP_INT_THRESH_T5_M),
LP_INT_THRESH_T5_V(CSIO_SGE_DBFIFO_INT_THRESH));
csio_set_reg_field(hw, SGE_DBFIFO_STATUS2_A,
HP_INT_THRESH_T5_V(LP_INT_THRESH_T5_M),
HP_INT_THRESH_T5_V(CSIO_SGE_DBFIFO_INT_THRESH));
csio_set_reg_field(hw, SGE_DOORBELL_CONTROL_A, ENABLE_DROP_F,
ENABLE_DROP_F);
/* SGE_FL_BUFFER_SIZE0 is set up by csio_wr_fixup_host_params(). */
CSIO_SET_FLBUF_SIZE(hw, 1, CSIO_SGE_FLBUF_SIZE1);
csio_wr_reg32(hw, (CSIO_SGE_FLBUF_SIZE2 + sge->csio_fl_align - 1)
& ~(sge->csio_fl_align - 1), SGE_FL_BUFFER_SIZE2_A);
csio_wr_reg32(hw, (CSIO_SGE_FLBUF_SIZE3 + sge->csio_fl_align - 1)
& ~(sge->csio_fl_align - 1), SGE_FL_BUFFER_SIZE3_A);
CSIO_SET_FLBUF_SIZE(hw, 4, CSIO_SGE_FLBUF_SIZE4);
CSIO_SET_FLBUF_SIZE(hw, 5, CSIO_SGE_FLBUF_SIZE5);
CSIO_SET_FLBUF_SIZE(hw, 6, CSIO_SGE_FLBUF_SIZE6);
CSIO_SET_FLBUF_SIZE(hw, 7, CSIO_SGE_FLBUF_SIZE7);
CSIO_SET_FLBUF_SIZE(hw, 8, CSIO_SGE_FLBUF_SIZE8);
for (i = 0; i < CSIO_SGE_FL_SIZE_REGS; i++)
csio_get_flbuf_size(hw, sge, i);
/* Initialize interrupt coalescing attributes */
sge->timer_val[0] = CSIO_SGE_TIMER_VAL_0;
sge->timer_val[1] = CSIO_SGE_TIMER_VAL_1;
sge->timer_val[2] = CSIO_SGE_TIMER_VAL_2;
sge->timer_val[3] = CSIO_SGE_TIMER_VAL_3;
sge->timer_val[4] = CSIO_SGE_TIMER_VAL_4;
sge->timer_val[5] = CSIO_SGE_TIMER_VAL_5;
sge->counter_val[0] = CSIO_SGE_INT_CNT_VAL_0;
sge->counter_val[1] = CSIO_SGE_INT_CNT_VAL_1;
sge->counter_val[2] = CSIO_SGE_INT_CNT_VAL_2;
sge->counter_val[3] = CSIO_SGE_INT_CNT_VAL_3;
csio_wr_reg32(hw, THRESHOLD_0_V(sge->counter_val[0]) |
THRESHOLD_1_V(sge->counter_val[1]) |
THRESHOLD_2_V(sge->counter_val[2]) |
THRESHOLD_3_V(sge->counter_val[3]),
SGE_INGRESS_RX_THRESHOLD_A);
csio_wr_reg32(hw,
TIMERVALUE0_V(csio_us_to_core_ticks(hw, sge->timer_val[0])) |
TIMERVALUE1_V(csio_us_to_core_ticks(hw, sge->timer_val[1])),
SGE_TIMER_VALUE_0_AND_1_A);
csio_wr_reg32(hw,
TIMERVALUE2_V(csio_us_to_core_ticks(hw, sge->timer_val[2])) |
TIMERVALUE3_V(csio_us_to_core_ticks(hw, sge->timer_val[3])),
SGE_TIMER_VALUE_2_AND_3_A);
csio_wr_reg32(hw,
TIMERVALUE4_V(csio_us_to_core_ticks(hw, sge->timer_val[4])) |
TIMERVALUE5_V(csio_us_to_core_ticks(hw, sge->timer_val[5])),
SGE_TIMER_VALUE_4_AND_5_A);
csio_init_intr_coalesce_parms(hw);
}
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| Person | Tokens | Prop | Commits | CommitProp |
naresh kumar inna | naresh kumar inna | 408 | 83.78% | 1 | 16.67% |
arvind bhushan | arvind bhushan | 41 | 8.42% | 2 | 33.33% |
hariprasad shenai | hariprasad shenai | 24 | 4.93% | 2 | 33.33% |
praveen madhavan | praveen madhavan | 14 | 2.87% | 1 | 16.67% |
| Total | 487 | 100.00% | 6 | 100.00% |
void
csio_wr_sge_init(struct csio_hw *hw)
{
/*
* If we are master and chip is not initialized:
* - If we plan to use the config file, we need to fixup some
* host specific registers, and read the rest of the SGE
* configuration.
* - If we dont plan to use the config file, we need to initialize
* SGE entirely, including fixing the host specific registers.
* If we are master and chip is initialized, just read and work off of
* the already initialized SGE values.
* If we arent the master, we are only allowed to read and work off of
* the already initialized SGE values.
*
* Therefore, before calling this function, we assume that the master-
* ship of the card, state and whether to use config file or not, have
* already been decided.
*/
if (csio_is_hw_master(hw)) {
if (hw->fw_state != CSIO_DEV_STATE_INIT)
csio_wr_fixup_host_params(hw);
if (hw->flags & CSIO_HWF_USING_SOFT_PARAMS)
csio_wr_get_sge(hw);
else
csio_wr_set_sge(hw);
} else
csio_wr_get_sge(hw);
}
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| Person | Tokens | Prop | Commits | CommitProp |
naresh kumar inna | naresh kumar inna | 49 | 84.48% | 1 | 50.00% |
arvind bhushan | arvind bhushan | 9 | 15.52% | 1 | 50.00% |
| Total | 58 | 100.00% | 2 | 100.00% |
/*
* csio_wrm_init - Initialize Work request module.
* @wrm: WR module
* @hw: HW pointer
*
* Allocates memory for an array of queue pointers starting at q_arr.
*/
int
csio_wrm_init(struct csio_wrm *wrm, struct csio_hw *hw)
{
int i;
if (!wrm->num_q) {
csio_err(hw, "Num queues is not set\n");
return -EINVAL;
}
wrm->q_arr = kzalloc(sizeof(struct csio_q *) * wrm->num_q, GFP_KERNEL);
if (!wrm->q_arr)
goto err;
for (i = 0; i < wrm->num_q; i++) {
wrm->q_arr[i] = kzalloc(sizeof(struct csio_q), GFP_KERNEL);
if (!wrm->q_arr[i]) {
while (--i >= 0)
kfree(wrm->q_arr[i]);
goto err_free_arr;
}
}
wrm->free_qidx = 0;
return 0;
err_free_arr:
kfree(wrm->q_arr);
err:
return -ENOMEM;
}
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| Person | Tokens | Prop | Commits | CommitProp |
naresh kumar inna | naresh kumar inna | 159 | 100.00% | 1 | 100.00% |
| Total | 159 | 100.00% | 1 | 100.00% |
/*
* csio_wrm_exit - Initialize Work request module.
* @wrm: WR module
* @hw: HW module
*
* Uninitialize WR module. Free q_arr and pointers in it.
* We have the additional job of freeing the DMA memory associated
* with the queues.
*/
void
csio_wrm_exit(struct csio_wrm *wrm, struct csio_hw *hw)
{
int i;
uint32_t j;
struct csio_q *q;
struct csio_dma_buf *buf;
for (i = 0; i < wrm->num_q; i++) {
q = wrm->q_arr[i];
if (wrm->free_qidx && (i < wrm->free_qidx)) {
if (q->type == CSIO_FREELIST) {
if (!q->un.fl.bufs)
continue;
for (j = 0; j < q->credits; j++) {
buf = &q->un.fl.bufs[j];
if (!buf->vaddr)
continue;
pci_free_consistent(hw->pdev, buf->len,
buf->vaddr,
buf->paddr);
}
kfree(q->un.fl.bufs);
}
pci_free_consistent(hw->pdev, q->size,
q->vstart, q->pstart);
}
kfree(q);
}
hw->flags &= ~CSIO_HWF_Q_MEM_ALLOCED;
kfree(wrm->q_arr);
}
Contributors
| Person | Tokens | Prop | Commits | CommitProp |
naresh kumar inna | naresh kumar inna | 202 | 100.00% | 1 | 100.00% |
| Total | 202 | 100.00% | 1 | 100.00% |
Overall Contributors
| Person | Tokens | Prop | Commits | CommitProp |
naresh kumar inna | naresh kumar inna | 6932 | 97.48% | 1 | 11.11% |
hariprasad shenai | hariprasad shenai | 88 | 1.24% | 4 | 44.44% |
arvind bhushan | arvind bhushan | 70 | 0.98% | 2 | 22.22% |
praveen madhavan | praveen madhavan | 20 | 0.28% | 1 | 11.11% |
joe perches | joe perches | 1 | 0.01% | 1 | 11.11% |
| Total | 7111 | 100.00% | 9 | 100.00% |
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