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|
// SPDX-License-Identifier: GPL-2.0
/*
* Copyright 2016-2019 HabanaLabs, Ltd.
* All Rights Reserved.
*/
#include <uapi/misc/habanalabs.h>
#include "habanalabs.h"
#include <linux/uaccess.h>
#include <linux/slab.h>
static void job_wq_completion(struct work_struct *work);
static long _hl_cs_wait_ioctl(struct hl_device *hdev,
struct hl_ctx *ctx, u64 timeout_us, u64 seq);
static void cs_do_release(struct kref *ref);
static const char *hl_fence_get_driver_name(struct dma_fence *fence)
{
return "HabanaLabs";
}
static const char *hl_fence_get_timeline_name(struct dma_fence *fence)
{
struct hl_dma_fence *hl_fence =
container_of(fence, struct hl_dma_fence, base_fence);
return dev_name(hl_fence->hdev->dev);
}
static bool hl_fence_enable_signaling(struct dma_fence *fence)
{
return true;
}
static void hl_fence_release(struct dma_fence *fence)
{
struct hl_dma_fence *hl_fence =
container_of(fence, struct hl_dma_fence, base_fence);
kfree_rcu(hl_fence, base_fence.rcu);
}
static const struct dma_fence_ops hl_fence_ops = {
.get_driver_name = hl_fence_get_driver_name,
.get_timeline_name = hl_fence_get_timeline_name,
.enable_signaling = hl_fence_enable_signaling,
.wait = dma_fence_default_wait,
.release = hl_fence_release
};
static void cs_get(struct hl_cs *cs)
{
kref_get(&cs->refcount);
}
static int cs_get_unless_zero(struct hl_cs *cs)
{
return kref_get_unless_zero(&cs->refcount);
}
static void cs_put(struct hl_cs *cs)
{
kref_put(&cs->refcount, cs_do_release);
}
/*
* cs_parser - parse the user command submission
*
* @hpriv : pointer to the private data of the fd
* @job : pointer to the job that holds the command submission info
*
* The function parses the command submission of the user. It calls the
* ASIC specific parser, which returns a list of memory blocks to send
* to the device as different command buffers
*
*/
static int cs_parser(struct hl_fpriv *hpriv, struct hl_cs_job *job)
{
struct hl_device *hdev = hpriv->hdev;
struct hl_cs_parser parser;
int rc;
parser.ctx_id = job->cs->ctx->asid;
parser.cs_sequence = job->cs->sequence;
parser.job_id = job->id;
parser.hw_queue_id = job->hw_queue_id;
parser.job_userptr_list = &job->userptr_list;
parser.patched_cb = NULL;
parser.user_cb = job->user_cb;
parser.user_cb_size = job->user_cb_size;
parser.ext_queue = job->ext_queue;
job->patched_cb = NULL;
parser.use_virt_addr = hdev->mmu_enable;
rc = hdev->asic_funcs->cs_parser(hdev, &parser);
if (job->ext_queue) {
if (!rc) {
job->patched_cb = parser.patched_cb;
job->job_cb_size = parser.patched_cb_size;
spin_lock(&job->patched_cb->lock);
job->patched_cb->cs_cnt++;
spin_unlock(&job->patched_cb->lock);
}
/*
* Whether the parsing worked or not, we don't need the
* original CB anymore because it was already parsed and
* won't be accessed again for this CS
*/
spin_lock(&job->user_cb->lock);
job->user_cb->cs_cnt--;
spin_unlock(&job->user_cb->lock);
hl_cb_put(job->user_cb);
job->user_cb = NULL;
}
return rc;
}
static void free_job(struct hl_device *hdev, struct hl_cs_job *job)
{
struct hl_cs *cs = job->cs;
if (job->ext_queue) {
hl_userptr_delete_list(hdev, &job->userptr_list);
/*
* We might arrive here from rollback and patched CB wasn't
* created, so we need to check it's not NULL
*/
if (job->patched_cb) {
spin_lock(&job->patched_cb->lock);
job->patched_cb->cs_cnt--;
spin_unlock(&job->patched_cb->lock);
hl_cb_put(job->patched_cb);
}
}
/*
* This is the only place where there can be multiple threads
* modifying the list at the same time
*/
spin_lock(&cs->job_lock);
list_del(&job->cs_node);
spin_unlock(&cs->job_lock);
hl_debugfs_remove_job(hdev, job);
if (job->ext_queue)
cs_put(cs);
kfree(job);
}
static void cs_do_release(struct kref *ref)
{
struct hl_cs *cs = container_of(ref, struct hl_cs,
refcount);
struct hl_device *hdev = cs->ctx->hdev;
struct hl_cs_job *job, *tmp;
cs->completed = true;
/*
* Although if we reached here it means that all external jobs have
* finished, because each one of them took refcnt to CS, we still
* need to go over the internal jobs and free them. Otherwise, we
* will have leaked memory and what's worse, the CS object (and
* potentially the CTX object) could be released, while the JOB
* still holds a pointer to them (but no reference).
*/
list_for_each_entry_safe(job, tmp, &cs->job_list, cs_node)
free_job(hdev, job);
/* We also need to update CI for internal queues */
if (cs->submitted) {
int cs_cnt = atomic_dec_return(&hdev->cs_active_cnt);
WARN_ONCE((cs_cnt < 0),
"hl%d: error in CS active cnt %d\n",
hdev->id, cs_cnt);
hl_int_hw_queue_update_ci(cs);
spin_lock(&hdev->hw_queues_mirror_lock);
/* remove CS from hw_queues mirror list */
list_del_init(&cs->mirror_node);
spin_unlock(&hdev->hw_queues_mirror_lock);
/*
* Don't cancel TDR in case this CS was timedout because we
* might be running from the TDR context
*/
if ((!cs->timedout) &&
(hdev->timeout_jiffies != MAX_SCHEDULE_TIMEOUT)) {
struct hl_cs *next;
if (cs->tdr_active)
cancel_delayed_work_sync(&cs->work_tdr);
spin_lock(&hdev->hw_queues_mirror_lock);
/* queue TDR for next CS */
next = list_first_entry_or_null(
&hdev->hw_queues_mirror_list,
struct hl_cs, mirror_node);
if ((next) && (!next->tdr_active)) {
next->tdr_active = true;
schedule_delayed_work(&next->work_tdr,
hdev->timeout_jiffies);
}
spin_unlock(&hdev->hw_queues_mirror_lock);
}
}
/*
* Must be called before hl_ctx_put because inside we use ctx to get
* the device
*/
hl_debugfs_remove_cs(cs);
hl_ctx_put(cs->ctx);
if (cs->timedout)
dma_fence_set_error(cs->fence, -ETIMEDOUT);
else if (cs->aborted)
dma_fence_set_error(cs->fence, -EIO);
dma_fence_signal(cs->fence);
dma_fence_put(cs->fence);
kfree(cs);
}
static void cs_timedout(struct work_struct *work)
{
struct hl_device *hdev;
int ctx_asid, rc;
struct hl_cs *cs = container_of(work, struct hl_cs,
work_tdr.work);
rc = cs_get_unless_zero(cs);
if (!rc)
return;
if ((!cs->submitted) || (cs->completed)) {
cs_put(cs);
return;
}
/* Mark the CS is timed out so we won't try to cancel its TDR */
cs->timedout = true;
hdev = cs->ctx->hdev;
ctx_asid = cs->ctx->asid;
/* TODO: add information about last signaled seq and last emitted seq */
dev_err(hdev->dev, "CS %d.%llu got stuck!\n", ctx_asid, cs->sequence);
cs_put(cs);
if (hdev->reset_on_lockup)
hl_device_reset(hdev, false, false);
}
static int allocate_cs(struct hl_device *hdev, struct hl_ctx *ctx,
struct hl_cs **cs_new)
{
struct hl_dma_fence *fence;
struct dma_fence *other = NULL;
struct hl_cs *cs;
int rc;
cs = kzalloc(sizeof(*cs), GFP_ATOMIC);
if (!cs)
return -ENOMEM;
cs->ctx = ctx;
cs->submitted = false;
cs->completed = false;
INIT_LIST_HEAD(&cs->job_list);
INIT_DELAYED_WORK(&cs->work_tdr, cs_timedout);
kref_init(&cs->refcount);
spin_lock_init(&cs->job_lock);
fence = kmalloc(sizeof(*fence), GFP_ATOMIC);
if (!fence) {
rc = -ENOMEM;
goto free_cs;
}
fence->hdev = hdev;
spin_lock_init(&fence->lock);
cs->fence = &fence->base_fence;
spin_lock(&ctx->cs_lock);
fence->cs_seq = ctx->cs_sequence;
other = ctx->cs_pending[fence->cs_seq & (HL_MAX_PENDING_CS - 1)];
if ((other) && (!dma_fence_is_signaled(other))) {
spin_unlock(&ctx->cs_lock);
rc = -EAGAIN;
goto free_fence;
}
dma_fence_init(&fence->base_fence, &hl_fence_ops, &fence->lock,
ctx->asid, ctx->cs_sequence);
cs->sequence = fence->cs_seq;
ctx->cs_pending[fence->cs_seq & (HL_MAX_PENDING_CS - 1)] =
&fence->base_fence;
ctx->cs_sequence++;
dma_fence_get(&fence->base_fence);
dma_fence_put(other);
spin_unlock(&ctx->cs_lock);
*cs_new = cs;
return 0;
free_fence:
kfree(fence);
free_cs:
kfree(cs);
return rc;
}
static void cs_rollback(struct hl_device *hdev, struct hl_cs *cs)
{
struct hl_cs_job *job, *tmp;
list_for_each_entry_safe(job, tmp, &cs->job_list, cs_node)
free_job(hdev, job);
}
void hl_cs_rollback_all(struct hl_device *hdev)
{
struct hl_cs *cs, *tmp;
/* flush all completions */
flush_workqueue(hdev->cq_wq);
/* Make sure we don't have leftovers in the H/W queues mirror list */
list_for_each_entry_safe(cs, tmp, &hdev->hw_queues_mirror_list,
mirror_node) {
cs_get(cs);
cs->aborted = true;
dev_warn_ratelimited(hdev->dev, "Killing CS %d.%llu\n",
cs->ctx->asid, cs->sequence);
cs_rollback(hdev, cs);
cs_put(cs);
}
}
static void job_wq_completion(struct work_struct *work)
{
struct hl_cs_job *job = container_of(work, struct hl_cs_job,
finish_work);
struct hl_cs *cs = job->cs;
struct hl_device *hdev = cs->ctx->hdev;
/* job is no longer needed */
free_job(hdev, job);
}
static struct hl_cb *validate_queue_index(struct hl_device *hdev,
struct hl_cb_mgr *cb_mgr,
struct hl_cs_chunk *chunk,
bool *ext_queue)
{
struct asic_fixed_properties *asic = &hdev->asic_prop;
struct hw_queue_properties *hw_queue_prop;
u32 cb_handle;
struct hl_cb *cb;
/* Assume external queue */
*ext_queue = true;
hw_queue_prop = &asic->hw_queues_props[chunk->queue_index];
if ((chunk->queue_index >= HL_MAX_QUEUES) ||
(hw_queue_prop->type == QUEUE_TYPE_NA)) {
dev_err(hdev->dev, "Queue index %d is invalid\n",
chunk->queue_index);
return NULL;
}
if (hw_queue_prop->kmd_only) {
dev_err(hdev->dev, "Queue index %d is restricted for KMD\n",
chunk->queue_index);
return NULL;
} else if (hw_queue_prop->type == QUEUE_TYPE_INT) {
*ext_queue = false;
return (struct hl_cb *) (uintptr_t) chunk->cb_handle;
}
/* Retrieve CB object */
cb_handle = (u32) (chunk->cb_handle >> PAGE_SHIFT);
cb = hl_cb_get(hdev, cb_mgr, cb_handle);
if (!cb) {
dev_err(hdev->dev, "CB handle 0x%x invalid\n", cb_handle);
return NULL;
}
if ((chunk->cb_size < 8) || (chunk->cb_size > cb->size)) {
dev_err(hdev->dev, "CB size %u invalid\n", chunk->cb_size);
goto release_cb;
}
spin_lock(&cb->lock);
cb->cs_cnt++;
spin_unlock(&cb->lock);
return cb;
release_cb:
hl_cb_put(cb);
return NULL;
}
struct hl_cs_job *hl_cs_allocate_job(struct hl_device *hdev, bool ext_queue)
{
struct hl_cs_job *job;
job = kzalloc(sizeof(*job), GFP_ATOMIC);
if (!job)
return NULL;
job->ext_queue = ext_queue;
if (job->ext_queue) {
INIT_LIST_HEAD(&job->userptr_list);
INIT_WORK(&job->finish_work, job_wq_completion);
}
return job;
}
static int _hl_cs_ioctl(struct hl_fpriv *hpriv, void __user *chunks,
u32 num_chunks, u64 *cs_seq)
{
struct hl_device *hdev = hpriv->hdev;
struct hl_cs_chunk *cs_chunk_array;
struct hl_cs_job *job;
struct hl_cs *cs;
struct hl_cb *cb;
bool ext_queue_present = false;
u32 size_to_copy;
int rc, i, parse_cnt;
*cs_seq = ULLONG_MAX;
if (num_chunks > HL_MAX_JOBS_PER_CS) {
dev_err(hdev->dev,
"Number of chunks can NOT be larger than %d\n",
HL_MAX_JOBS_PER_CS);
rc = -EINVAL;
goto out;
}
cs_chunk_array = kmalloc_array(num_chunks, sizeof(*cs_chunk_array),
GFP_ATOMIC);
if (!cs_chunk_array) {
rc = -ENOMEM;
goto out;
}
size_to_copy = num_chunks * sizeof(struct hl_cs_chunk);
if (copy_from_user(cs_chunk_array, chunks, size_to_copy)) {
dev_err(hdev->dev, "Failed to copy cs chunk array from user\n");
rc = -EFAULT;
goto free_cs_chunk_array;
}
/* increment refcnt for context */
hl_ctx_get(hdev, hpriv->ctx);
rc = allocate_cs(hdev, hpriv->ctx, &cs);
if (rc) {
hl_ctx_put(hpriv->ctx);
goto free_cs_chunk_array;
}
*cs_seq = cs->sequence;
hl_debugfs_add_cs(cs);
/* Validate ALL the CS chunks before submitting the CS */
for (i = 0, parse_cnt = 0 ; i < num_chunks ; i++, parse_cnt++) {
struct hl_cs_chunk *chunk = &cs_chunk_array[i];
bool ext_queue;
cb = validate_queue_index(hdev, &hpriv->cb_mgr, chunk,
&ext_queue);
if (ext_queue) {
ext_queue_present = true;
if (!cb) {
rc = -EINVAL;
goto free_cs_object;
}
}
job = hl_cs_allocate_job(hdev, ext_queue);
if (!job) {
dev_err(hdev->dev, "Failed to allocate a new job\n");
rc = -ENOMEM;
if (ext_queue)
goto release_cb;
else
goto free_cs_object;
}
job->id = i + 1;
job->cs = cs;
job->user_cb = cb;
job->user_cb_size = chunk->cb_size;
if (job->ext_queue)
job->job_cb_size = cb->size;
else
job->job_cb_size = chunk->cb_size;
job->hw_queue_id = chunk->queue_index;
cs->jobs_in_queue_cnt[job->hw_queue_id]++;
list_add_tail(&job->cs_node, &cs->job_list);
/*
* Increment CS reference. When CS reference is 0, CS is
* done and can be signaled to user and free all its resources
* Only increment for JOB on external queues, because only
* for those JOBs we get completion
*/
if (job->ext_queue)
cs_get(cs);
hl_debugfs_add_job(hdev, job);
rc = cs_parser(hpriv, job);
if (rc) {
dev_err(hdev->dev,
"Failed to parse JOB %d.%llu.%d, err %d, rejecting the CS\n",
cs->ctx->asid, cs->sequence, job->id, rc);
goto free_cs_object;
}
}
if (!ext_queue_present) {
dev_err(hdev->dev,
"Reject CS %d.%llu because no external queues jobs\n",
cs->ctx->asid, cs->sequence);
rc = -EINVAL;
goto free_cs_object;
}
rc = hl_hw_queue_schedule_cs(cs);
if (rc) {
dev_err(hdev->dev,
"Failed to submit CS %d.%llu to H/W queues, error %d\n",
cs->ctx->asid, cs->sequence, rc);
goto free_cs_object;
}
rc = HL_CS_STATUS_SUCCESS;
goto put_cs;
release_cb:
spin_lock(&cb->lock);
cb->cs_cnt--;
spin_unlock(&cb->lock);
hl_cb_put(cb);
free_cs_object:
cs_rollback(hdev, cs);
*cs_seq = ULLONG_MAX;
/* The path below is both for good and erroneous exits */
put_cs:
/* We finished with the CS in this function, so put the ref */
cs_put(cs);
free_cs_chunk_array:
kfree(cs_chunk_array);
out:
return rc;
}
int hl_cs_ioctl(struct hl_fpriv *hpriv, void *data)
{
struct hl_device *hdev = hpriv->hdev;
union hl_cs_args *args = data;
struct hl_ctx *ctx = hpriv->ctx;
void __user *chunks;
u32 num_chunks;
u64 cs_seq = ULONG_MAX;
int rc, do_restore;
bool need_soft_reset = false;
if (hl_device_disabled_or_in_reset(hdev)) {
dev_warn(hdev->dev,
"Device is %s. Can't submit new CS\n",
atomic_read(&hdev->in_reset) ? "in_reset" : "disabled");
rc = -EBUSY;
goto out;
}
do_restore = atomic_cmpxchg(&ctx->thread_restore_token, 1, 0);
if (do_restore || (args->in.cs_flags & HL_CS_FLAGS_FORCE_RESTORE)) {
long ret;
chunks = (void __user *)(uintptr_t)args->in.chunks_restore;
num_chunks = args->in.num_chunks_restore;
mutex_lock(&hpriv->restore_phase_mutex);
if (do_restore) {
rc = hdev->asic_funcs->context_switch(hdev, ctx->asid);
if (rc) {
dev_err_ratelimited(hdev->dev,
"Failed to switch to context %d, rejecting CS! %d\n",
ctx->asid, rc);
/*
* If we timedout, or if the device is not IDLE
* while we want to do context-switch (-EBUSY),
* we need to soft-reset because QMAN is
* probably stuck. However, we can't call to
* reset here directly because of deadlock, so
* need to do it at the very end of this
* function
*/
if ((rc == -ETIMEDOUT) || (rc == -EBUSY))
need_soft_reset = true;
mutex_unlock(&hpriv->restore_phase_mutex);
goto out;
}
}
hdev->asic_funcs->restore_phase_topology(hdev);
if (num_chunks == 0) {
dev_dbg(hdev->dev,
"Need to run restore phase but restore CS is empty\n");
rc = 0;
} else {
rc = _hl_cs_ioctl(hpriv, chunks, num_chunks,
&cs_seq);
}
mutex_unlock(&hpriv->restore_phase_mutex);
if (rc) {
dev_err(hdev->dev,
"Failed to submit restore CS for context %d (%d)\n",
ctx->asid, rc);
goto out;
}
/* Need to wait for restore completion before execution phase */
if (num_chunks > 0) {
ret = _hl_cs_wait_ioctl(hdev, ctx,
jiffies_to_usecs(hdev->timeout_jiffies),
cs_seq);
if (ret <= 0) {
dev_err(hdev->dev,
"Restore CS for context %d failed to complete %ld\n",
ctx->asid, ret);
rc = -ENOEXEC;
goto out;
}
}
ctx->thread_restore_wait_token = 1;
} else if (!ctx->thread_restore_wait_token) {
u32 tmp;
rc = hl_poll_timeout_memory(hdev,
(u64) (uintptr_t) &ctx->thread_restore_wait_token,
jiffies_to_usecs(hdev->timeout_jiffies),
&tmp);
if (rc || !tmp) {
dev_err(hdev->dev,
"restore phase hasn't finished in time\n");
rc = -ETIMEDOUT;
goto out;
}
}
chunks = (void __user *)(uintptr_t)args->in.chunks_execute;
num_chunks = args->in.num_chunks_execute;
if (num_chunks == 0) {
dev_err(hdev->dev,
"Got execute CS with 0 chunks, context %d\n",
ctx->asid);
rc = -EINVAL;
goto out;
}
rc = _hl_cs_ioctl(hpriv, chunks, num_chunks, &cs_seq);
out:
if (rc != -EAGAIN) {
memset(args, 0, sizeof(*args));
args->out.status = rc;
args->out.seq = cs_seq;
}
if (((rc == -ETIMEDOUT) || (rc == -EBUSY)) && (need_soft_reset))
hl_device_reset(hdev, false, false);
return rc;
}
static long _hl_cs_wait_ioctl(struct hl_device *hdev,
struct hl_ctx *ctx, u64 timeout_us, u64 seq)
{
struct dma_fence *fence;
unsigned long timeout;
long rc;
if (timeout_us == MAX_SCHEDULE_TIMEOUT)
timeout = timeout_us;
else
timeout = usecs_to_jiffies(timeout_us);
hl_ctx_get(hdev, ctx);
fence = hl_ctx_get_fence(ctx, seq);
if (IS_ERR(fence)) {
rc = PTR_ERR(fence);
} else if (fence) {
rc = dma_fence_wait_timeout(fence, true, timeout);
if (fence->error == -ETIMEDOUT)
rc = -ETIMEDOUT;
else if (fence->error == -EIO)
rc = -EIO;
dma_fence_put(fence);
} else
rc = 1;
hl_ctx_put(ctx);
return rc;
}
int hl_cs_wait_ioctl(struct hl_fpriv *hpriv, void *data)
{
struct hl_device *hdev = hpriv->hdev;
union hl_wait_cs_args *args = data;
u64 seq = args->in.seq;
long rc;
rc = _hl_cs_wait_ioctl(hdev, hpriv->ctx, args->in.timeout_us, seq);
memset(args, 0, sizeof(*args));
if (rc < 0) {
dev_err(hdev->dev, "Error %ld on waiting for CS handle %llu\n",
rc, seq);
if (rc == -ERESTARTSYS) {
args->out.status = HL_WAIT_CS_STATUS_INTERRUPTED;
rc = -EINTR;
} else if (rc == -ETIMEDOUT) {
args->out.status = HL_WAIT_CS_STATUS_TIMEDOUT;
} else if (rc == -EIO) {
args->out.status = HL_WAIT_CS_STATUS_ABORTED;
}
return rc;
}
if (rc == 0)
args->out.status = HL_WAIT_CS_STATUS_BUSY;
else
args->out.status = HL_WAIT_CS_STATUS_COMPLETED;
return 0;
}
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