linux/linux-5.18.11/drivers/net/ethernet/pensando/ionic/ionic_dev.c

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2024-03-22 18:12:32 +00:00
// SPDX-License-Identifier: GPL-2.0
/* Copyright(c) 2017 - 2019 Pensando Systems, Inc */
#include <linux/kernel.h>
#include <linux/types.h>
#include <linux/errno.h>
#include <linux/io.h>
#include <linux/slab.h>
#include <linux/etherdevice.h>
#include "ionic.h"
#include "ionic_dev.h"
#include "ionic_lif.h"
static void ionic_watchdog_cb(struct timer_list *t)
{
struct ionic *ionic = from_timer(ionic, t, watchdog_timer);
struct ionic_lif *lif = ionic->lif;
struct ionic_deferred_work *work;
int hb;
mod_timer(&ionic->watchdog_timer,
round_jiffies(jiffies + ionic->watchdog_period));
if (!lif)
return;
hb = ionic_heartbeat_check(ionic);
dev_dbg(ionic->dev, "%s: hb %d running %d UP %d\n",
__func__, hb, netif_running(lif->netdev),
test_bit(IONIC_LIF_F_UP, lif->state));
if (hb >= 0 &&
!test_bit(IONIC_LIF_F_FW_RESET, lif->state))
ionic_link_status_check_request(lif, CAN_NOT_SLEEP);
if (test_bit(IONIC_LIF_F_FILTER_SYNC_NEEDED, lif->state) &&
!test_bit(IONIC_LIF_F_FW_RESET, lif->state)) {
work = kzalloc(sizeof(*work), GFP_ATOMIC);
if (!work) {
netdev_err(lif->netdev, "rxmode change dropped\n");
return;
}
work->type = IONIC_DW_TYPE_RX_MODE;
netdev_dbg(lif->netdev, "deferred: rx_mode\n");
ionic_lif_deferred_enqueue(&lif->deferred, work);
}
}
static void ionic_watchdog_init(struct ionic *ionic)
{
struct ionic_dev *idev = &ionic->idev;
timer_setup(&ionic->watchdog_timer, ionic_watchdog_cb, 0);
ionic->watchdog_period = IONIC_WATCHDOG_SECS * HZ;
/* set times to ensure the first check will proceed */
atomic_long_set(&idev->last_check_time, jiffies - 2 * HZ);
idev->last_hb_time = jiffies - 2 * ionic->watchdog_period;
/* init as ready, so no transition if the first check succeeds */
idev->last_fw_hb = 0;
idev->fw_hb_ready = true;
idev->fw_status_ready = true;
idev->fw_generation = IONIC_FW_STS_F_GENERATION &
ioread8(&idev->dev_info_regs->fw_status);
}
void ionic_init_devinfo(struct ionic *ionic)
{
struct ionic_dev *idev = &ionic->idev;
idev->dev_info.asic_type = ioread8(&idev->dev_info_regs->asic_type);
idev->dev_info.asic_rev = ioread8(&idev->dev_info_regs->asic_rev);
memcpy_fromio(idev->dev_info.fw_version,
idev->dev_info_regs->fw_version,
IONIC_DEVINFO_FWVERS_BUFLEN);
memcpy_fromio(idev->dev_info.serial_num,
idev->dev_info_regs->serial_num,
IONIC_DEVINFO_SERIAL_BUFLEN);
idev->dev_info.fw_version[IONIC_DEVINFO_FWVERS_BUFLEN] = 0;
idev->dev_info.serial_num[IONIC_DEVINFO_SERIAL_BUFLEN] = 0;
dev_dbg(ionic->dev, "fw_version %s\n", idev->dev_info.fw_version);
}
int ionic_dev_setup(struct ionic *ionic)
{
struct ionic_dev_bar *bar = ionic->bars;
unsigned int num_bars = ionic->num_bars;
struct ionic_dev *idev = &ionic->idev;
struct device *dev = ionic->dev;
u32 sig;
/* BAR0: dev_cmd and interrupts */
if (num_bars < 1) {
dev_err(dev, "No bars found, aborting\n");
return -EFAULT;
}
if (bar->len < IONIC_BAR0_SIZE) {
dev_err(dev, "Resource bar size %lu too small, aborting\n",
bar->len);
return -EFAULT;
}
idev->dev_info_regs = bar->vaddr + IONIC_BAR0_DEV_INFO_REGS_OFFSET;
idev->dev_cmd_regs = bar->vaddr + IONIC_BAR0_DEV_CMD_REGS_OFFSET;
idev->intr_status = bar->vaddr + IONIC_BAR0_INTR_STATUS_OFFSET;
idev->intr_ctrl = bar->vaddr + IONIC_BAR0_INTR_CTRL_OFFSET;
idev->hwstamp_regs = &idev->dev_info_regs->hwstamp;
sig = ioread32(&idev->dev_info_regs->signature);
if (sig != IONIC_DEV_INFO_SIGNATURE) {
dev_err(dev, "Incompatible firmware signature %x", sig);
return -EFAULT;
}
ionic_init_devinfo(ionic);
/* BAR1: doorbells */
bar++;
if (num_bars < 2) {
dev_err(dev, "Doorbell bar missing, aborting\n");
return -EFAULT;
}
ionic_watchdog_init(ionic);
idev->db_pages = bar->vaddr;
idev->phy_db_pages = bar->bus_addr;
return 0;
}
/* Devcmd Interface */
bool ionic_is_fw_running(struct ionic_dev *idev)
{
u8 fw_status = ioread8(&idev->dev_info_regs->fw_status);
/* firmware is useful only if the running bit is set and
* fw_status != 0xff (bad PCI read)
*/
return (fw_status != 0xff) && (fw_status & IONIC_FW_STS_F_RUNNING);
}
int ionic_heartbeat_check(struct ionic *ionic)
{
unsigned long check_time, last_check_time;
struct ionic_dev *idev = &ionic->idev;
struct ionic_lif *lif = ionic->lif;
bool fw_status_ready = true;
bool fw_hb_ready;
u8 fw_generation;
u8 fw_status;
u32 fw_hb;
/* wait a least one second before testing again */
check_time = jiffies;
last_check_time = atomic_long_read(&idev->last_check_time);
do_check_time:
if (time_before(check_time, last_check_time + HZ))
return 0;
if (!atomic_long_try_cmpxchg_relaxed(&idev->last_check_time,
&last_check_time, check_time)) {
/* if called concurrently, only the first should proceed. */
dev_dbg(ionic->dev, "%s: do_check_time again\n", __func__);
goto do_check_time;
}
fw_status = ioread8(&idev->dev_info_regs->fw_status);
/* If fw_status is not ready don't bother with the generation */
if (!ionic_is_fw_running(idev)) {
fw_status_ready = false;
} else {
fw_generation = fw_status & IONIC_FW_STS_F_GENERATION;
if (idev->fw_generation != fw_generation) {
dev_info(ionic->dev, "FW generation 0x%02x -> 0x%02x\n",
idev->fw_generation, fw_generation);
idev->fw_generation = fw_generation;
/* If the generation changed, the fw status is not
* ready so we need to trigger a fw-down cycle. After
* the down, the next watchdog will see the fw is up
* and the generation value stable, so will trigger
* the fw-up activity.
*
* If we had already moved to FW_RESET from a RESET event,
* it is possible that we never saw the fw_status go to 0,
* so we fake the current idev->fw_status_ready here to
* force the transition and get FW up again.
*/
if (test_bit(IONIC_LIF_F_FW_RESET, lif->state))
idev->fw_status_ready = false; /* go to running */
else
fw_status_ready = false; /* go to down */
}
}
dev_dbg(ionic->dev, "fw_status 0x%02x ready %d idev->ready %d last_hb 0x%x state 0x%02lx\n",
fw_status, fw_status_ready, idev->fw_status_ready,
idev->last_fw_hb, lif->state[0]);
/* is this a transition? */
if (fw_status_ready != idev->fw_status_ready &&
!test_bit(IONIC_LIF_F_FW_STOPPING, lif->state)) {
bool trigger = false;
idev->fw_status_ready = fw_status_ready;
if (!fw_status_ready &&
!test_bit(IONIC_LIF_F_FW_RESET, lif->state) &&
!test_and_set_bit(IONIC_LIF_F_FW_STOPPING, lif->state)) {
dev_info(ionic->dev, "FW stopped 0x%02x\n", fw_status);
trigger = true;
} else if (fw_status_ready &&
test_bit(IONIC_LIF_F_FW_RESET, lif->state)) {
dev_info(ionic->dev, "FW running 0x%02x\n", fw_status);
trigger = true;
}
if (trigger) {
struct ionic_deferred_work *work;
work = kzalloc(sizeof(*work), GFP_ATOMIC);
if (work) {
work->type = IONIC_DW_TYPE_LIF_RESET;
work->fw_status = fw_status_ready;
ionic_lif_deferred_enqueue(&lif->deferred, work);
}
}
}
if (!idev->fw_status_ready)
return -ENXIO;
/* Because of some variability in the actual FW heartbeat, we
* wait longer than the DEVCMD_TIMEOUT before checking again.
*/
last_check_time = idev->last_hb_time;
if (time_before(check_time, last_check_time + DEVCMD_TIMEOUT * 2 * HZ))
return 0;
fw_hb = ioread32(&idev->dev_info_regs->fw_heartbeat);
fw_hb_ready = fw_hb != idev->last_fw_hb;
/* early FW version had no heartbeat, so fake it */
if (!fw_hb_ready && !fw_hb)
fw_hb_ready = true;
dev_dbg(ionic->dev, "%s: fw_hb %u last_fw_hb %u ready %u\n",
__func__, fw_hb, idev->last_fw_hb, fw_hb_ready);
idev->last_fw_hb = fw_hb;
/* log a transition */
if (fw_hb_ready != idev->fw_hb_ready) {
idev->fw_hb_ready = fw_hb_ready;
if (!fw_hb_ready)
dev_info(ionic->dev, "FW heartbeat stalled at %d\n", fw_hb);
else
dev_info(ionic->dev, "FW heartbeat restored at %d\n", fw_hb);
}
if (!fw_hb_ready)
return -ENXIO;
idev->last_hb_time = check_time;
return 0;
}
u8 ionic_dev_cmd_status(struct ionic_dev *idev)
{
return ioread8(&idev->dev_cmd_regs->comp.comp.status);
}
bool ionic_dev_cmd_done(struct ionic_dev *idev)
{
return ioread32(&idev->dev_cmd_regs->done) & IONIC_DEV_CMD_DONE;
}
void ionic_dev_cmd_comp(struct ionic_dev *idev, union ionic_dev_cmd_comp *comp)
{
memcpy_fromio(comp, &idev->dev_cmd_regs->comp, sizeof(*comp));
}
void ionic_dev_cmd_go(struct ionic_dev *idev, union ionic_dev_cmd *cmd)
{
memcpy_toio(&idev->dev_cmd_regs->cmd, cmd, sizeof(*cmd));
iowrite32(0, &idev->dev_cmd_regs->done);
iowrite32(1, &idev->dev_cmd_regs->doorbell);
}
/* Device commands */
void ionic_dev_cmd_identify(struct ionic_dev *idev, u8 ver)
{
union ionic_dev_cmd cmd = {
.identify.opcode = IONIC_CMD_IDENTIFY,
.identify.ver = ver,
};
ionic_dev_cmd_go(idev, &cmd);
}
void ionic_dev_cmd_init(struct ionic_dev *idev)
{
union ionic_dev_cmd cmd = {
.init.opcode = IONIC_CMD_INIT,
.init.type = 0,
};
ionic_dev_cmd_go(idev, &cmd);
}
void ionic_dev_cmd_reset(struct ionic_dev *idev)
{
union ionic_dev_cmd cmd = {
.reset.opcode = IONIC_CMD_RESET,
};
ionic_dev_cmd_go(idev, &cmd);
}
/* Port commands */
void ionic_dev_cmd_port_identify(struct ionic_dev *idev)
{
union ionic_dev_cmd cmd = {
.port_init.opcode = IONIC_CMD_PORT_IDENTIFY,
.port_init.index = 0,
};
ionic_dev_cmd_go(idev, &cmd);
}
void ionic_dev_cmd_port_init(struct ionic_dev *idev)
{
union ionic_dev_cmd cmd = {
.port_init.opcode = IONIC_CMD_PORT_INIT,
.port_init.index = 0,
.port_init.info_pa = cpu_to_le64(idev->port_info_pa),
};
ionic_dev_cmd_go(idev, &cmd);
}
void ionic_dev_cmd_port_reset(struct ionic_dev *idev)
{
union ionic_dev_cmd cmd = {
.port_reset.opcode = IONIC_CMD_PORT_RESET,
.port_reset.index = 0,
};
ionic_dev_cmd_go(idev, &cmd);
}
void ionic_dev_cmd_port_state(struct ionic_dev *idev, u8 state)
{
union ionic_dev_cmd cmd = {
.port_setattr.opcode = IONIC_CMD_PORT_SETATTR,
.port_setattr.index = 0,
.port_setattr.attr = IONIC_PORT_ATTR_STATE,
.port_setattr.state = state,
};
ionic_dev_cmd_go(idev, &cmd);
}
void ionic_dev_cmd_port_speed(struct ionic_dev *idev, u32 speed)
{
union ionic_dev_cmd cmd = {
.port_setattr.opcode = IONIC_CMD_PORT_SETATTR,
.port_setattr.index = 0,
.port_setattr.attr = IONIC_PORT_ATTR_SPEED,
.port_setattr.speed = cpu_to_le32(speed),
};
ionic_dev_cmd_go(idev, &cmd);
}
void ionic_dev_cmd_port_autoneg(struct ionic_dev *idev, u8 an_enable)
{
union ionic_dev_cmd cmd = {
.port_setattr.opcode = IONIC_CMD_PORT_SETATTR,
.port_setattr.index = 0,
.port_setattr.attr = IONIC_PORT_ATTR_AUTONEG,
.port_setattr.an_enable = an_enable,
};
ionic_dev_cmd_go(idev, &cmd);
}
void ionic_dev_cmd_port_fec(struct ionic_dev *idev, u8 fec_type)
{
union ionic_dev_cmd cmd = {
.port_setattr.opcode = IONIC_CMD_PORT_SETATTR,
.port_setattr.index = 0,
.port_setattr.attr = IONIC_PORT_ATTR_FEC,
.port_setattr.fec_type = fec_type,
};
ionic_dev_cmd_go(idev, &cmd);
}
void ionic_dev_cmd_port_pause(struct ionic_dev *idev, u8 pause_type)
{
union ionic_dev_cmd cmd = {
.port_setattr.opcode = IONIC_CMD_PORT_SETATTR,
.port_setattr.index = 0,
.port_setattr.attr = IONIC_PORT_ATTR_PAUSE,
.port_setattr.pause_type = pause_type,
};
ionic_dev_cmd_go(idev, &cmd);
}
/* VF commands */
int ionic_set_vf_config(struct ionic *ionic, int vf,
struct ionic_vf_setattr_cmd *vfc)
{
union ionic_dev_cmd cmd = {
.vf_setattr.opcode = IONIC_CMD_VF_SETATTR,
.vf_setattr.attr = vfc->attr,
.vf_setattr.vf_index = cpu_to_le16(vf),
};
int err;
memcpy(cmd.vf_setattr.pad, vfc->pad, sizeof(vfc->pad));
mutex_lock(&ionic->dev_cmd_lock);
ionic_dev_cmd_go(&ionic->idev, &cmd);
err = ionic_dev_cmd_wait(ionic, DEVCMD_TIMEOUT);
mutex_unlock(&ionic->dev_cmd_lock);
return err;
}
int ionic_dev_cmd_vf_getattr(struct ionic *ionic, int vf, u8 attr,
struct ionic_vf_getattr_comp *comp)
{
union ionic_dev_cmd cmd = {
.vf_getattr.opcode = IONIC_CMD_VF_GETATTR,
.vf_getattr.attr = attr,
.vf_getattr.vf_index = cpu_to_le16(vf),
};
int err;
if (vf >= ionic->num_vfs)
return -EINVAL;
switch (attr) {
case IONIC_VF_ATTR_SPOOFCHK:
case IONIC_VF_ATTR_TRUST:
case IONIC_VF_ATTR_LINKSTATE:
case IONIC_VF_ATTR_MAC:
case IONIC_VF_ATTR_VLAN:
case IONIC_VF_ATTR_RATE:
break;
case IONIC_VF_ATTR_STATSADDR:
default:
return -EINVAL;
}
mutex_lock(&ionic->dev_cmd_lock);
ionic_dev_cmd_go(&ionic->idev, &cmd);
err = ionic_dev_cmd_wait_nomsg(ionic, DEVCMD_TIMEOUT);
memcpy_fromio(comp, &ionic->idev.dev_cmd_regs->comp.vf_getattr,
sizeof(*comp));
mutex_unlock(&ionic->dev_cmd_lock);
if (err && comp->status != IONIC_RC_ENOSUPP)
ionic_dev_cmd_dev_err_print(ionic, cmd.vf_getattr.opcode,
comp->status, err);
return err;
}
/* LIF commands */
void ionic_dev_cmd_queue_identify(struct ionic_dev *idev,
u16 lif_type, u8 qtype, u8 qver)
{
union ionic_dev_cmd cmd = {
.q_identify.opcode = IONIC_CMD_Q_IDENTIFY,
.q_identify.lif_type = cpu_to_le16(lif_type),
.q_identify.type = qtype,
.q_identify.ver = qver,
};
ionic_dev_cmd_go(idev, &cmd);
}
void ionic_dev_cmd_lif_identify(struct ionic_dev *idev, u8 type, u8 ver)
{
union ionic_dev_cmd cmd = {
.lif_identify.opcode = IONIC_CMD_LIF_IDENTIFY,
.lif_identify.type = type,
.lif_identify.ver = ver,
};
ionic_dev_cmd_go(idev, &cmd);
}
void ionic_dev_cmd_lif_init(struct ionic_dev *idev, u16 lif_index,
dma_addr_t info_pa)
{
union ionic_dev_cmd cmd = {
.lif_init.opcode = IONIC_CMD_LIF_INIT,
.lif_init.index = cpu_to_le16(lif_index),
.lif_init.info_pa = cpu_to_le64(info_pa),
};
ionic_dev_cmd_go(idev, &cmd);
}
void ionic_dev_cmd_lif_reset(struct ionic_dev *idev, u16 lif_index)
{
union ionic_dev_cmd cmd = {
.lif_init.opcode = IONIC_CMD_LIF_RESET,
.lif_init.index = cpu_to_le16(lif_index),
};
ionic_dev_cmd_go(idev, &cmd);
}
void ionic_dev_cmd_adminq_init(struct ionic_dev *idev, struct ionic_qcq *qcq,
u16 lif_index, u16 intr_index)
{
struct ionic_queue *q = &qcq->q;
struct ionic_cq *cq = &qcq->cq;
union ionic_dev_cmd cmd = {
.q_init.opcode = IONIC_CMD_Q_INIT,
.q_init.lif_index = cpu_to_le16(lif_index),
.q_init.type = q->type,
.q_init.ver = qcq->q.lif->qtype_info[q->type].version,
.q_init.index = cpu_to_le32(q->index),
.q_init.flags = cpu_to_le16(IONIC_QINIT_F_IRQ |
IONIC_QINIT_F_ENA),
.q_init.pid = cpu_to_le16(q->pid),
.q_init.intr_index = cpu_to_le16(intr_index),
.q_init.ring_size = ilog2(q->num_descs),
.q_init.ring_base = cpu_to_le64(q->base_pa),
.q_init.cq_ring_base = cpu_to_le64(cq->base_pa),
};
ionic_dev_cmd_go(idev, &cmd);
}
int ionic_db_page_num(struct ionic_lif *lif, int pid)
{
return (lif->hw_index * lif->dbid_count) + pid;
}
int ionic_cq_init(struct ionic_lif *lif, struct ionic_cq *cq,
struct ionic_intr_info *intr,
unsigned int num_descs, size_t desc_size)
{
unsigned int ring_size;
if (desc_size == 0 || !is_power_of_2(num_descs))
return -EINVAL;
ring_size = ilog2(num_descs);
if (ring_size < 2 || ring_size > 16)
return -EINVAL;
cq->lif = lif;
cq->bound_intr = intr;
cq->num_descs = num_descs;
cq->desc_size = desc_size;
cq->tail_idx = 0;
cq->done_color = 1;
return 0;
}
void ionic_cq_map(struct ionic_cq *cq, void *base, dma_addr_t base_pa)
{
struct ionic_cq_info *cur;
unsigned int i;
cq->base = base;
cq->base_pa = base_pa;
for (i = 0, cur = cq->info; i < cq->num_descs; i++, cur++)
cur->cq_desc = base + (i * cq->desc_size);
}
void ionic_cq_bind(struct ionic_cq *cq, struct ionic_queue *q)
{
cq->bound_q = q;
}
unsigned int ionic_cq_service(struct ionic_cq *cq, unsigned int work_to_do,
ionic_cq_cb cb, ionic_cq_done_cb done_cb,
void *done_arg)
{
struct ionic_cq_info *cq_info;
unsigned int work_done = 0;
if (work_to_do == 0)
return 0;
cq_info = &cq->info[cq->tail_idx];
while (cb(cq, cq_info)) {
if (cq->tail_idx == cq->num_descs - 1)
cq->done_color = !cq->done_color;
cq->tail_idx = (cq->tail_idx + 1) & (cq->num_descs - 1);
cq_info = &cq->info[cq->tail_idx];
if (++work_done >= work_to_do)
break;
}
if (work_done && done_cb)
done_cb(done_arg);
return work_done;
}
int ionic_q_init(struct ionic_lif *lif, struct ionic_dev *idev,
struct ionic_queue *q, unsigned int index, const char *name,
unsigned int num_descs, size_t desc_size,
size_t sg_desc_size, unsigned int pid)
{
unsigned int ring_size;
if (desc_size == 0 || !is_power_of_2(num_descs))
return -EINVAL;
ring_size = ilog2(num_descs);
if (ring_size < 2 || ring_size > 16)
return -EINVAL;
q->lif = lif;
q->idev = idev;
q->index = index;
q->num_descs = num_descs;
q->desc_size = desc_size;
q->sg_desc_size = sg_desc_size;
q->tail_idx = 0;
q->head_idx = 0;
q->pid = pid;
snprintf(q->name, sizeof(q->name), "L%d-%s%u", lif->index, name, index);
return 0;
}
void ionic_q_map(struct ionic_queue *q, void *base, dma_addr_t base_pa)
{
struct ionic_desc_info *cur;
unsigned int i;
q->base = base;
q->base_pa = base_pa;
for (i = 0, cur = q->info; i < q->num_descs; i++, cur++)
cur->desc = base + (i * q->desc_size);
}
void ionic_q_sg_map(struct ionic_queue *q, void *base, dma_addr_t base_pa)
{
struct ionic_desc_info *cur;
unsigned int i;
q->sg_base = base;
q->sg_base_pa = base_pa;
for (i = 0, cur = q->info; i < q->num_descs; i++, cur++)
cur->sg_desc = base + (i * q->sg_desc_size);
}
void ionic_q_post(struct ionic_queue *q, bool ring_doorbell, ionic_desc_cb cb,
void *cb_arg)
{
struct ionic_desc_info *desc_info;
struct ionic_lif *lif = q->lif;
struct device *dev = q->dev;
desc_info = &q->info[q->head_idx];
desc_info->cb = cb;
desc_info->cb_arg = cb_arg;
q->head_idx = (q->head_idx + 1) & (q->num_descs - 1);
dev_dbg(dev, "lif=%d qname=%s qid=%d qtype=%d p_index=%d ringdb=%d\n",
q->lif->index, q->name, q->hw_type, q->hw_index,
q->head_idx, ring_doorbell);
if (ring_doorbell)
ionic_dbell_ring(lif->kern_dbpage, q->hw_type,
q->dbval | q->head_idx);
}
static bool ionic_q_is_posted(struct ionic_queue *q, unsigned int pos)
{
unsigned int mask, tail, head;
mask = q->num_descs - 1;
tail = q->tail_idx;
head = q->head_idx;
return ((pos - tail) & mask) < ((head - tail) & mask);
}
void ionic_q_service(struct ionic_queue *q, struct ionic_cq_info *cq_info,
unsigned int stop_index)
{
struct ionic_desc_info *desc_info;
ionic_desc_cb cb;
void *cb_arg;
u16 index;
/* check for empty queue */
if (q->tail_idx == q->head_idx)
return;
/* stop index must be for a descriptor that is not yet completed */
if (unlikely(!ionic_q_is_posted(q, stop_index)))
dev_err(q->dev,
"ionic stop is not posted %s stop %u tail %u head %u\n",
q->name, stop_index, q->tail_idx, q->head_idx);
do {
desc_info = &q->info[q->tail_idx];
index = q->tail_idx;
q->tail_idx = (q->tail_idx + 1) & (q->num_descs - 1);
cb = desc_info->cb;
cb_arg = desc_info->cb_arg;
desc_info->cb = NULL;
desc_info->cb_arg = NULL;
if (cb)
cb(q, desc_info, cq_info, cb_arg);
} while (index != stop_index);
}