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|
/* SPDX-License-Identifier: BSD-3-Clause
* Copyright 2018 NXP
*/
#include <string.h>
#include <rte_eal.h>
#include <rte_fslmc.h>
#include <rte_atomic.h>
#include <rte_lcore.h>
#include <rte_rawdev.h>
#include <rte_rawdev_pmd.h>
#include <rte_malloc.h>
#include <rte_ring.h>
#include <rte_mempool.h>
#include <mc/fsl_dpdmai.h>
#include <portal/dpaa2_hw_pvt.h>
#include <portal/dpaa2_hw_dpio.h>
#include "dpaa2_qdma.h"
#include "dpaa2_qdma_logs.h"
#include "rte_pmd_dpaa2_qdma.h"
/* Dynamic log type identifier */
int dpaa2_qdma_logtype;
/* QDMA device */
static struct qdma_device qdma_dev;
/* QDMA H/W queues list */
TAILQ_HEAD(qdma_hw_queue_list, qdma_hw_queue);
static struct qdma_hw_queue_list qdma_queue_list
= TAILQ_HEAD_INITIALIZER(qdma_queue_list);
/* QDMA Virtual Queues */
static struct qdma_virt_queue *qdma_vqs;
/* QDMA per core data */
static struct qdma_per_core_info qdma_core_info[RTE_MAX_LCORE];
static struct qdma_hw_queue *
alloc_hw_queue(uint32_t lcore_id)
{
struct qdma_hw_queue *queue = NULL;
DPAA2_QDMA_FUNC_TRACE();
/* Get a free queue from the list */
TAILQ_FOREACH(queue, &qdma_queue_list, next) {
if (queue->num_users == 0) {
queue->lcore_id = lcore_id;
queue->num_users++;
break;
}
}
return queue;
}
static void
free_hw_queue(struct qdma_hw_queue *queue)
{
DPAA2_QDMA_FUNC_TRACE();
queue->num_users--;
}
static struct qdma_hw_queue *
get_hw_queue(uint32_t lcore_id)
{
struct qdma_per_core_info *core_info;
struct qdma_hw_queue *queue, *temp;
uint32_t least_num_users;
int num_hw_queues, i;
DPAA2_QDMA_FUNC_TRACE();
core_info = &qdma_core_info[lcore_id];
num_hw_queues = core_info->num_hw_queues;
/*
* Allocate a HW queue if there are less queues
* than maximum per core queues configured
*/
if (num_hw_queues < qdma_dev.max_hw_queues_per_core) {
queue = alloc_hw_queue(lcore_id);
if (queue) {
core_info->hw_queues[num_hw_queues] = queue;
core_info->num_hw_queues++;
return queue;
}
}
queue = core_info->hw_queues[0];
/* In case there is no queue associated with the core return NULL */
if (!queue)
return NULL;
/* Fetch the least loaded H/W queue */
least_num_users = core_info->hw_queues[0]->num_users;
for (i = 0; i < num_hw_queues; i++) {
temp = core_info->hw_queues[i];
if (temp->num_users < least_num_users)
queue = temp;
}
if (queue)
queue->num_users++;
return queue;
}
static void
put_hw_queue(struct qdma_hw_queue *queue)
{
struct qdma_per_core_info *core_info;
int lcore_id, num_hw_queues, i;
DPAA2_QDMA_FUNC_TRACE();
/*
* If this is the last user of the queue free it.
* Also remove it from QDMA core info.
*/
if (queue->num_users == 1) {
free_hw_queue(queue);
/* Remove the physical queue from core info */
lcore_id = queue->lcore_id;
core_info = &qdma_core_info[lcore_id];
num_hw_queues = core_info->num_hw_queues;
for (i = 0; i < num_hw_queues; i++) {
if (queue == core_info->hw_queues[i])
break;
}
for (; i < num_hw_queues - 1; i++)
core_info->hw_queues[i] = core_info->hw_queues[i + 1];
core_info->hw_queues[i] = NULL;
} else {
queue->num_users--;
}
}
int __rte_experimental
rte_qdma_init(void)
{
DPAA2_QDMA_FUNC_TRACE();
rte_spinlock_init(&qdma_dev.lock);
return 0;
}
void __rte_experimental
rte_qdma_attr_get(struct rte_qdma_attr *qdma_attr)
{
DPAA2_QDMA_FUNC_TRACE();
qdma_attr->num_hw_queues = qdma_dev.num_hw_queues;
}
int __rte_experimental
rte_qdma_reset(void)
{
struct qdma_hw_queue *queue;
int i;
DPAA2_QDMA_FUNC_TRACE();
/* In case QDMA device is not in stopped state, return -EBUSY */
if (qdma_dev.state == 1) {
DPAA2_QDMA_ERR(
"Device is in running state. Stop before reset.");
return -EBUSY;
}
/* In case there are pending jobs on any VQ, return -EBUSY */
for (i = 0; i < qdma_dev.max_vqs; i++) {
if (qdma_vqs[i].in_use && (qdma_vqs[i].num_enqueues !=
qdma_vqs[i].num_dequeues))
DPAA2_QDMA_ERR("Jobs are still pending on VQ: %d", i);
return -EBUSY;
}
/* Reset HW queues */
TAILQ_FOREACH(queue, &qdma_queue_list, next)
queue->num_users = 0;
/* Reset and free virtual queues */
for (i = 0; i < qdma_dev.max_vqs; i++) {
if (qdma_vqs[i].status_ring)
rte_ring_free(qdma_vqs[i].status_ring);
}
if (qdma_vqs)
rte_free(qdma_vqs);
qdma_vqs = NULL;
/* Reset per core info */
memset(&qdma_core_info, 0,
sizeof(struct qdma_per_core_info) * RTE_MAX_LCORE);
/* Free the FLE pool */
if (qdma_dev.fle_pool)
rte_mempool_free(qdma_dev.fle_pool);
/* Reset QDMA device structure */
qdma_dev.mode = RTE_QDMA_MODE_HW;
qdma_dev.max_hw_queues_per_core = 0;
qdma_dev.fle_pool = NULL;
qdma_dev.fle_pool_count = 0;
qdma_dev.max_vqs = 0;
return 0;
}
int __rte_experimental
rte_qdma_configure(struct rte_qdma_config *qdma_config)
{
int ret;
DPAA2_QDMA_FUNC_TRACE();
/* In case QDMA device is not in stopped state, return -EBUSY */
if (qdma_dev.state == 1) {
DPAA2_QDMA_ERR(
"Device is in running state. Stop before config.");
return -1;
}
/* Reset the QDMA device */
ret = rte_qdma_reset();
if (ret) {
DPAA2_QDMA_ERR("Resetting QDMA failed");
return ret;
}
/* Set mode */
qdma_dev.mode = qdma_config->mode;
/* Set max HW queue per core */
if (qdma_config->max_hw_queues_per_core > MAX_HW_QUEUE_PER_CORE) {
DPAA2_QDMA_ERR("H/W queues per core is more than: %d",
MAX_HW_QUEUE_PER_CORE);
return -EINVAL;
}
qdma_dev.max_hw_queues_per_core =
qdma_config->max_hw_queues_per_core;
/* Allocate Virtual Queues */
qdma_vqs = rte_malloc("qdma_virtual_queues",
(sizeof(struct qdma_virt_queue) * qdma_config->max_vqs),
RTE_CACHE_LINE_SIZE);
if (!qdma_vqs) {
DPAA2_QDMA_ERR("qdma_virtual_queues allocation failed");
return -ENOMEM;
}
qdma_dev.max_vqs = qdma_config->max_vqs;
/* Allocate FLE pool */
qdma_dev.fle_pool = rte_mempool_create("qdma_fle_pool",
qdma_config->fle_pool_count, QDMA_FLE_POOL_SIZE,
QDMA_FLE_CACHE_SIZE(qdma_config->fle_pool_count), 0,
NULL, NULL, NULL, NULL, SOCKET_ID_ANY, 0);
if (!qdma_dev.fle_pool) {
DPAA2_QDMA_ERR("qdma_fle_pool create failed");
rte_free(qdma_vqs);
qdma_vqs = NULL;
return -ENOMEM;
}
qdma_dev.fle_pool_count = qdma_config->fle_pool_count;
return 0;
}
int __rte_experimental
rte_qdma_start(void)
{
DPAA2_QDMA_FUNC_TRACE();
qdma_dev.state = 1;
return 0;
}
int __rte_experimental
rte_qdma_vq_create(uint32_t lcore_id, uint32_t flags)
{
char ring_name[32];
int i;
DPAA2_QDMA_FUNC_TRACE();
rte_spinlock_lock(&qdma_dev.lock);
/* Get a free Virtual Queue */
for (i = 0; i < qdma_dev.max_vqs; i++) {
if (qdma_vqs[i].in_use == 0)
break;
}
/* Return in case no VQ is free */
if (i == qdma_dev.max_vqs) {
rte_spinlock_unlock(&qdma_dev.lock);
return -ENODEV;
}
if (qdma_dev.mode == RTE_QDMA_MODE_HW ||
(flags & RTE_QDMA_VQ_EXCLUSIVE_PQ)) {
/* Allocate HW queue for a VQ */
qdma_vqs[i].hw_queue = alloc_hw_queue(lcore_id);
qdma_vqs[i].exclusive_hw_queue = 1;
} else {
/* Allocate a Ring for Virutal Queue in VQ mode */
sprintf(ring_name, "status ring %d", i);
qdma_vqs[i].status_ring = rte_ring_create(ring_name,
qdma_dev.fle_pool_count, rte_socket_id(), 0);
if (!qdma_vqs[i].status_ring) {
DPAA2_QDMA_ERR("Status ring creation failed for vq");
rte_spinlock_unlock(&qdma_dev.lock);
return rte_errno;
}
/* Get a HW queue (shared) for a VQ */
qdma_vqs[i].hw_queue = get_hw_queue(lcore_id);
qdma_vqs[i].exclusive_hw_queue = 0;
}
if (qdma_vqs[i].hw_queue == NULL) {
DPAA2_QDMA_ERR("No H/W queue available for VQ");
if (qdma_vqs[i].status_ring)
rte_ring_free(qdma_vqs[i].status_ring);
qdma_vqs[i].status_ring = NULL;
rte_spinlock_unlock(&qdma_dev.lock);
return -ENODEV;
}
qdma_vqs[i].in_use = 1;
qdma_vqs[i].lcore_id = lcore_id;
rte_spinlock_unlock(&qdma_dev.lock);
return i;
}
static void
dpaa2_qdma_populate_fle(struct qbman_fle *fle,
uint64_t src, uint64_t dest,
size_t len, uint32_t flags)
{
struct qdma_sdd *sdd;
DPAA2_QDMA_FUNC_TRACE();
sdd = (struct qdma_sdd *)((uint8_t *)(fle) +
(DPAA2_QDMA_MAX_FLE * sizeof(struct qbman_fle)));
/* first frame list to source descriptor */
DPAA2_SET_FLE_ADDR(fle, DPAA2_VADDR_TO_IOVA(sdd));
DPAA2_SET_FLE_LEN(fle, (2 * (sizeof(struct qdma_sdd))));
/* source and destination descriptor */
DPAA2_SET_SDD_RD_COHERENT(sdd); /* source descriptor CMD */
sdd++;
DPAA2_SET_SDD_WR_COHERENT(sdd); /* dest descriptor CMD */
fle++;
/* source frame list to source buffer */
if (flags & RTE_QDMA_JOB_SRC_PHY) {
DPAA2_SET_FLE_ADDR(fle, src);
DPAA2_SET_FLE_BMT(fle);
} else {
DPAA2_SET_FLE_ADDR(fle, DPAA2_VADDR_TO_IOVA(src));
}
DPAA2_SET_FLE_LEN(fle, len);
fle++;
/* destination frame list to destination buffer */
if (flags & RTE_QDMA_JOB_DEST_PHY) {
DPAA2_SET_FLE_BMT(fle);
DPAA2_SET_FLE_ADDR(fle, dest);
} else {
DPAA2_SET_FLE_ADDR(fle, DPAA2_VADDR_TO_IOVA(dest));
}
DPAA2_SET_FLE_LEN(fle, len);
/* Final bit: 1, for last frame list */
DPAA2_SET_FLE_FIN(fle);
}
static int
dpdmai_dev_enqueue(struct dpaa2_dpdmai_dev *dpdmai_dev,
uint16_t txq_id,
uint16_t vq_id,
struct rte_qdma_job *job)
{
struct qdma_io_meta *io_meta;
struct qbman_fd fd;
struct dpaa2_queue *txq;
struct qbman_fle *fle;
struct qbman_eq_desc eqdesc;
struct qbman_swp *swp;
int ret;
DPAA2_QDMA_FUNC_TRACE();
if (unlikely(!DPAA2_PER_LCORE_DPIO)) {
ret = dpaa2_affine_qbman_swp();
if (ret) {
DPAA2_QDMA_ERR("Failure in affining portal");
return 0;
}
}
swp = DPAA2_PER_LCORE_PORTAL;
txq = &(dpdmai_dev->tx_queue[txq_id]);
/* Prepare enqueue descriptor */
qbman_eq_desc_clear(&eqdesc);
qbman_eq_desc_set_fq(&eqdesc, txq->fqid);
qbman_eq_desc_set_no_orp(&eqdesc, 0);
qbman_eq_desc_set_response(&eqdesc, 0, 0);
/*
* Get an FLE/SDD from FLE pool.
* Note: IO metadata is before the FLE and SDD memory.
*/
ret = rte_mempool_get(qdma_dev.fle_pool, (void **)(&io_meta));
if (ret) {
DPAA2_QDMA_DP_WARN("Memory alloc failed for FLE");
return ret;
}
/* Set the metadata */
io_meta->cnxt = (size_t)job;
io_meta->id = vq_id;
fle = (struct qbman_fle *)(io_meta + 1);
/* populate Frame descriptor */
memset(&fd, 0, sizeof(struct qbman_fd));
DPAA2_SET_FD_ADDR(&fd, DPAA2_VADDR_TO_IOVA(fle));
DPAA2_SET_FD_COMPOUND_FMT(&fd);
DPAA2_SET_FD_FRC(&fd, QDMA_SER_CTX);
/* Populate FLE */
memset(fle, 0, QDMA_FLE_POOL_SIZE);
dpaa2_qdma_populate_fle(fle, job->src, job->dest, job->len, job->flags);
/* Enqueue the packet to the QBMAN */
do {
ret = qbman_swp_enqueue_multiple(swp, &eqdesc, &fd, NULL, 1);
if (ret < 0 && ret != -EBUSY)
DPAA2_QDMA_ERR("Transmit failure with err: %d", ret);
} while (ret == -EBUSY);
DPAA2_QDMA_DP_DEBUG("Successfully transmitted a packet");
return ret;
}
int __rte_experimental
rte_qdma_vq_enqueue_multi(uint16_t vq_id,
struct rte_qdma_job **job,
uint16_t nb_jobs)
{
int i, ret;
DPAA2_QDMA_FUNC_TRACE();
for (i = 0; i < nb_jobs; i++) {
ret = rte_qdma_vq_enqueue(vq_id, job[i]);
if (ret < 0)
break;
}
return i;
}
int __rte_experimental
rte_qdma_vq_enqueue(uint16_t vq_id,
struct rte_qdma_job *job)
{
struct qdma_virt_queue *qdma_vq = &qdma_vqs[vq_id];
struct qdma_hw_queue *qdma_pq = qdma_vq->hw_queue;
struct dpaa2_dpdmai_dev *dpdmai_dev = qdma_pq->dpdmai_dev;
int ret;
DPAA2_QDMA_FUNC_TRACE();
/* Return error in case of wrong lcore_id */
if (rte_lcore_id() != qdma_vq->lcore_id) {
DPAA2_QDMA_ERR("QDMA enqueue for vqid %d on wrong core",
vq_id);
return -EINVAL;
}
ret = dpdmai_dev_enqueue(dpdmai_dev, qdma_pq->queue_id, vq_id, job);
if (ret < 0) {
DPAA2_QDMA_ERR("DPDMAI device enqueue failed: %d", ret);
return ret;
}
qdma_vq->num_enqueues++;
return 1;
}
/* Function to receive a QDMA job for a given device and queue*/
static int
dpdmai_dev_dequeue(struct dpaa2_dpdmai_dev *dpdmai_dev,
uint16_t rxq_id,
uint16_t *vq_id,
struct rte_qdma_job **job)
{
struct qdma_io_meta *io_meta;
struct dpaa2_queue *rxq;
struct qbman_result *dq_storage;
struct qbman_pull_desc pulldesc;
const struct qbman_fd *fd;
struct qbman_swp *swp;
struct qbman_fle *fle;
uint32_t fqid;
uint8_t status;
int ret;
DPAA2_QDMA_FUNC_TRACE();
if (unlikely(!DPAA2_PER_LCORE_DPIO)) {
ret = dpaa2_affine_qbman_swp();
if (ret) {
DPAA2_QDMA_ERR("Failure in affining portal");
return 0;
}
}
swp = DPAA2_PER_LCORE_PORTAL;
rxq = &(dpdmai_dev->rx_queue[rxq_id]);
dq_storage = rxq->q_storage->dq_storage[0];
fqid = rxq->fqid;
/* Prepare dequeue descriptor */
qbman_pull_desc_clear(&pulldesc);
qbman_pull_desc_set_fq(&pulldesc, fqid);
qbman_pull_desc_set_storage(&pulldesc, dq_storage,
(uint64_t)(DPAA2_VADDR_TO_IOVA(dq_storage)), 1);
qbman_pull_desc_set_numframes(&pulldesc, 1);
while (1) {
if (qbman_swp_pull(swp, &pulldesc)) {
DPAA2_QDMA_DP_WARN("VDQ command not issued. QBMAN busy");
continue;
}
break;
}
/* Check if previous issued command is completed. */
while (!qbman_check_command_complete(dq_storage))
;
/* Loop until dq_storage is updated with new token by QBMAN */
while (!qbman_check_new_result(dq_storage))
;
/* Check for valid frame. */
status = qbman_result_DQ_flags(dq_storage);
if (unlikely((status & QBMAN_DQ_STAT_VALIDFRAME) == 0)) {
DPAA2_QDMA_DP_DEBUG("No frame is delivered");
return 0;
}
/* Get the FD */
fd = qbman_result_DQ_fd(dq_storage);
/*
* Fetch metadata from FLE. job and vq_id were set
* in metadata in the enqueue operation.
*/
fle = (struct qbman_fle *)DPAA2_IOVA_TO_VADDR(DPAA2_GET_FD_ADDR(fd));
io_meta = (struct qdma_io_meta *)(fle) - 1;
if (vq_id)
*vq_id = io_meta->id;
*job = (struct rte_qdma_job *)(size_t)io_meta->cnxt;
(*job)->status = DPAA2_GET_FD_ERR(fd);
/* Free FLE to the pool */
rte_mempool_put(qdma_dev.fle_pool, io_meta);
DPAA2_QDMA_DP_DEBUG("packet received");
return 1;
}
int __rte_experimental
rte_qdma_vq_dequeue_multi(uint16_t vq_id,
struct rte_qdma_job **job,
uint16_t nb_jobs)
{
int i;
DPAA2_QDMA_FUNC_TRACE();
for (i = 0; i < nb_jobs; i++) {
job[i] = rte_qdma_vq_dequeue(vq_id);
if (!job[i])
break;
}
return i;
}
struct rte_qdma_job * __rte_experimental
rte_qdma_vq_dequeue(uint16_t vq_id)
{
struct qdma_virt_queue *qdma_vq = &qdma_vqs[vq_id];
struct qdma_hw_queue *qdma_pq = qdma_vq->hw_queue;
struct dpaa2_dpdmai_dev *dpdmai_dev = qdma_pq->dpdmai_dev;
struct rte_qdma_job *job = NULL;
struct qdma_virt_queue *temp_qdma_vq;
int dequeue_budget = QDMA_DEQUEUE_BUDGET;
int ring_count, ret, i;
uint16_t temp_vq_id;
DPAA2_QDMA_FUNC_TRACE();
/* Return error in case of wrong lcore_id */
if (rte_lcore_id() != (unsigned int)(qdma_vq->lcore_id)) {
DPAA2_QDMA_ERR("QDMA dequeue for vqid %d on wrong core",
vq_id);
return NULL;
}
/* Only dequeue when there are pending jobs on VQ */
if (qdma_vq->num_enqueues == qdma_vq->num_dequeues)
return NULL;
if (qdma_vq->exclusive_hw_queue) {
/* In case of exclusive queue directly fetch from HW queue */
ret = dpdmai_dev_dequeue(dpdmai_dev, qdma_pq->queue_id,
NULL, &job);
if (ret < 0) {
DPAA2_QDMA_ERR(
"Dequeue from DPDMAI device failed: %d", ret);
return NULL;
}
} else {
/*
* Get the QDMA completed jobs from the software ring.
* In case they are not available on the ring poke the HW
* to fetch completed jobs from corresponding HW queues
*/
ring_count = rte_ring_count(qdma_vq->status_ring);
if (ring_count == 0) {
/* TODO - How to have right budget */
for (i = 0; i < dequeue_budget; i++) {
ret = dpdmai_dev_dequeue(dpdmai_dev,
qdma_pq->queue_id, &temp_vq_id, &job);
if (ret == 0)
break;
temp_qdma_vq = &qdma_vqs[temp_vq_id];
rte_ring_enqueue(temp_qdma_vq->status_ring,
(void *)(job));
ring_count = rte_ring_count(
qdma_vq->status_ring);
if (ring_count)
break;
}
}
/* Dequeue job from the software ring to provide to the user */
rte_ring_dequeue(qdma_vq->status_ring, (void **)&job);
if (job)
qdma_vq->num_dequeues++;
}
return job;
}
void __rte_experimental
rte_qdma_vq_stats(uint16_t vq_id,
struct rte_qdma_vq_stats *vq_status)
{
struct qdma_virt_queue *qdma_vq = &qdma_vqs[vq_id];
DPAA2_QDMA_FUNC_TRACE();
if (qdma_vq->in_use) {
vq_status->exclusive_hw_queue = qdma_vq->exclusive_hw_queue;
vq_status->lcore_id = qdma_vq->lcore_id;
vq_status->num_enqueues = qdma_vq->num_enqueues;
vq_status->num_dequeues = qdma_vq->num_dequeues;
vq_status->num_pending_jobs = vq_status->num_enqueues -
vq_status->num_dequeues;
}
}
int __rte_experimental
rte_qdma_vq_destroy(uint16_t vq_id)
{
struct qdma_virt_queue *qdma_vq = &qdma_vqs[vq_id];
DPAA2_QDMA_FUNC_TRACE();
/* In case there are pending jobs on any VQ, return -EBUSY */
if (qdma_vq->num_enqueues != qdma_vq->num_dequeues)
return -EBUSY;
rte_spinlock_lock(&qdma_dev.lock);
if (qdma_vq->exclusive_hw_queue)
free_hw_queue(qdma_vq->hw_queue);
else {
if (qdma_vqs->status_ring)
rte_ring_free(qdma_vqs->status_ring);
put_hw_queue(qdma_vq->hw_queue);
}
memset(qdma_vq, 0, sizeof(struct qdma_virt_queue));
rte_spinlock_lock(&qdma_dev.lock);
return 0;
}
void __rte_experimental
rte_qdma_stop(void)
{
DPAA2_QDMA_FUNC_TRACE();
qdma_dev.state = 0;
}
void __rte_experimental
rte_qdma_destroy(void)
{
DPAA2_QDMA_FUNC_TRACE();
rte_qdma_reset();
}
static const struct rte_rawdev_ops dpaa2_qdma_ops;
static int
add_hw_queues_to_list(struct dpaa2_dpdmai_dev *dpdmai_dev)
{
struct qdma_hw_queue *queue;
int i;
DPAA2_QDMA_FUNC_TRACE();
for (i = 0; i < dpdmai_dev->num_queues; i++) {
queue = rte_zmalloc(NULL, sizeof(struct qdma_hw_queue), 0);
if (!queue) {
DPAA2_QDMA_ERR(
"Memory allocation failed for QDMA queue");
return -ENOMEM;
}
queue->dpdmai_dev = dpdmai_dev;
queue->queue_id = i;
TAILQ_INSERT_TAIL(&qdma_queue_list, queue, next);
qdma_dev.num_hw_queues++;
}
return 0;
}
static void
remove_hw_queues_from_list(struct dpaa2_dpdmai_dev *dpdmai_dev)
{
struct qdma_hw_queue *queue = NULL;
struct qdma_hw_queue *tqueue = NULL;
DPAA2_QDMA_FUNC_TRACE();
TAILQ_FOREACH_SAFE(queue, &qdma_queue_list, next, tqueue) {
if (queue->dpdmai_dev == dpdmai_dev) {
TAILQ_REMOVE(&qdma_queue_list, queue, next);
rte_free(queue);
queue = NULL;
}
}
}
static int
dpaa2_dpdmai_dev_uninit(struct rte_rawdev *rawdev)
{
struct dpaa2_dpdmai_dev *dpdmai_dev = rawdev->dev_private;
int ret, i;
DPAA2_QDMA_FUNC_TRACE();
if (rte_eal_process_type() != RTE_PROC_PRIMARY)
return 0;
/* Remove HW queues from global list */
remove_hw_queues_from_list(dpdmai_dev);
ret = dpdmai_disable(&dpdmai_dev->dpdmai, CMD_PRI_LOW,
dpdmai_dev->token);
if (ret)
DPAA2_QDMA_ERR("dmdmai disable failed");
/* Set up the DQRR storage for Rx */
for (i = 0; i < dpdmai_dev->num_queues; i++) {
struct dpaa2_queue *rxq = &(dpdmai_dev->rx_queue[i]);
if (rxq->q_storage) {
dpaa2_free_dq_storage(rxq->q_storage);
rte_free(rxq->q_storage);
}
}
/* Close the device at underlying layer*/
ret = dpdmai_close(&dpdmai_dev->dpdmai, CMD_PRI_LOW, dpdmai_dev->token);
if (ret)
DPAA2_QDMA_ERR("Failure closing dpdmai device");
return 0;
}
static int
dpaa2_dpdmai_dev_init(struct rte_rawdev *rawdev, int dpdmai_id)
{
struct dpaa2_dpdmai_dev *dpdmai_dev = rawdev->dev_private;
struct dpdmai_rx_queue_cfg rx_queue_cfg;
struct dpdmai_attr attr;
struct dpdmai_rx_queue_attr rx_attr;
struct dpdmai_tx_queue_attr tx_attr;
int ret, i;
DPAA2_QDMA_FUNC_TRACE();
/* For secondary processes, the primary has done all the work */
if (rte_eal_process_type() != RTE_PROC_PRIMARY)
return 0;
/* Open DPDMAI device */
dpdmai_dev->dpdmai_id = dpdmai_id;
dpdmai_dev->dpdmai.regs = rte_mcp_ptr_list[MC_PORTAL_INDEX];
ret = dpdmai_open(&dpdmai_dev->dpdmai, CMD_PRI_LOW,
dpdmai_dev->dpdmai_id, &dpdmai_dev->token);
if (ret) {
DPAA2_QDMA_ERR("dpdmai_open() failed with err: %d", ret);
return ret;
}
/* Get DPDMAI attributes */
ret = dpdmai_get_attributes(&dpdmai_dev->dpdmai, CMD_PRI_LOW,
dpdmai_dev->token, &attr);
if (ret) {
DPAA2_QDMA_ERR("dpdmai get attributes failed with err: %d",
ret);
goto init_err;
}
dpdmai_dev->num_queues = attr.num_of_queues;
/* Set up Rx Queues */
for (i = 0; i < dpdmai_dev->num_queues; i++) {
struct dpaa2_queue *rxq;
memset(&rx_queue_cfg, 0, sizeof(struct dpdmai_rx_queue_cfg));
ret = dpdmai_set_rx_queue(&dpdmai_dev->dpdmai,
CMD_PRI_LOW,
dpdmai_dev->token,
i, 0, &rx_queue_cfg);
if (ret) {
DPAA2_QDMA_ERR("Setting Rx queue failed with err: %d",
ret);
goto init_err;
}
/* Allocate DQ storage for the DPDMAI Rx queues */
rxq = &(dpdmai_dev->rx_queue[i]);
rxq->q_storage = rte_malloc("dq_storage",
sizeof(struct queue_storage_info_t),
RTE_CACHE_LINE_SIZE);
if (!rxq->q_storage) {
DPAA2_QDMA_ERR("q_storage allocation failed");
ret = -ENOMEM;
goto init_err;
}
memset(rxq->q_storage, 0, sizeof(struct queue_storage_info_t));
ret = dpaa2_alloc_dq_storage(rxq->q_storage);
if (ret) {
DPAA2_QDMA_ERR("dpaa2_alloc_dq_storage failed");
goto init_err;
}
}
/* Get Rx and Tx queues FQID's */
for (i = 0; i < dpdmai_dev->num_queues; i++) {
ret = dpdmai_get_rx_queue(&dpdmai_dev->dpdmai, CMD_PRI_LOW,
dpdmai_dev->token, i, 0, &rx_attr);
if (ret) {
DPAA2_QDMA_ERR("Reading device failed with err: %d",
ret);
goto init_err;
}
dpdmai_dev->rx_queue[i].fqid = rx_attr.fqid;
ret = dpdmai_get_tx_queue(&dpdmai_dev->dpdmai, CMD_PRI_LOW,
dpdmai_dev->token, i, 0, &tx_attr);
if (ret) {
DPAA2_QDMA_ERR("Reading device failed with err: %d",
ret);
goto init_err;
}
dpdmai_dev->tx_queue[i].fqid = tx_attr.fqid;
}
/* Enable the device */
ret = dpdmai_enable(&dpdmai_dev->dpdmai, CMD_PRI_LOW,
dpdmai_dev->token);
if (ret) {
DPAA2_QDMA_ERR("Enabling device failed with err: %d", ret);
goto init_err;
}
/* Add the HW queue to the global list */
ret = add_hw_queues_to_list(dpdmai_dev);
if (ret) {
DPAA2_QDMA_ERR("Adding H/W queue to list failed");
goto init_err;
}
DPAA2_QDMA_DEBUG("Initialized dpdmai object successfully");
return 0;
init_err:
dpaa2_dpdmai_dev_uninit(rawdev);
return ret;
}
static int
rte_dpaa2_qdma_probe(struct rte_dpaa2_driver *dpaa2_drv,
struct rte_dpaa2_device *dpaa2_dev)
{
struct rte_rawdev *rawdev;
int ret;
DPAA2_QDMA_FUNC_TRACE();
rawdev = rte_rawdev_pmd_allocate(dpaa2_dev->device.name,
sizeof(struct dpaa2_dpdmai_dev),
rte_socket_id());
if (!rawdev) {
DPAA2_QDMA_ERR("Unable to allocate rawdevice");
return -EINVAL;
}
dpaa2_dev->rawdev = rawdev;
rawdev->dev_ops = &dpaa2_qdma_ops;
rawdev->device = &dpaa2_dev->device;
rawdev->driver_name = dpaa2_drv->driver.name;
/* Invoke PMD device initialization function */
ret = dpaa2_dpdmai_dev_init(rawdev, dpaa2_dev->object_id);
if (ret) {
rte_rawdev_pmd_release(rawdev);
return ret;
}
return 0;
}
static int
rte_dpaa2_qdma_remove(struct rte_dpaa2_device *dpaa2_dev)
{
struct rte_rawdev *rawdev = dpaa2_dev->rawdev;
int ret;
DPAA2_QDMA_FUNC_TRACE();
dpaa2_dpdmai_dev_uninit(rawdev);
ret = rte_rawdev_pmd_release(rawdev);
if (ret)
DPAA2_QDMA_ERR("Device cleanup failed");
return 0;
}
static struct rte_dpaa2_driver rte_dpaa2_qdma_pmd = {
.drv_flags = RTE_DPAA2_DRV_IOVA_AS_VA,
.drv_type = DPAA2_QDMA,
.probe = rte_dpaa2_qdma_probe,
.remove = rte_dpaa2_qdma_remove,
};
RTE_PMD_REGISTER_DPAA2(dpaa2_qdma, rte_dpaa2_qdma_pmd);
RTE_INIT(dpaa2_qdma_init_log)
{
dpaa2_qdma_logtype = rte_log_register("pmd.raw.dpaa2.qdma");
if (dpaa2_qdma_logtype >= 0)
rte_log_set_level(dpaa2_qdma_logtype, RTE_LOG_INFO);
}
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