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|
/*
* Copyright(c) 2011-2016 Intel Corporation. All rights reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice (including the next
* paragraph) shall be included in all copies or substantial portions of the
* Software.
*
* 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.
*
* Authors:
* Zhi Wang <zhi.a.wang@intel.com>
*
* Contributors:
* Ping Gao <ping.a.gao@intel.com>
* Tina Zhang <tina.zhang@intel.com>
* Chanbin Du <changbin.du@intel.com>
* Min He <min.he@intel.com>
* Bing Niu <bing.niu@intel.com>
* Zhenyu Wang <zhenyuw@linux.intel.com>
*
*/
#include <linux/kthread.h>
#include "i915_drv.h"
#include "gvt.h"
#define RING_CTX_OFF(x) \
offsetof(struct execlist_ring_context, x)
static void set_context_pdp_root_pointer(
struct execlist_ring_context *ring_context,
u32 pdp[8])
{
struct execlist_mmio_pair *pdp_pair = &ring_context->pdp3_UDW;
int i;
for (i = 0; i < 8; i++)
pdp_pair[i].val = pdp[7 - i];
}
static int populate_shadow_context(struct intel_vgpu_workload *workload)
{
struct intel_vgpu *vgpu = workload->vgpu;
struct intel_gvt *gvt = vgpu->gvt;
int ring_id = workload->ring_id;
struct i915_gem_context *shadow_ctx = workload->vgpu->shadow_ctx;
struct drm_i915_gem_object *ctx_obj =
shadow_ctx->engine[ring_id].state->obj;
struct execlist_ring_context *shadow_ring_context;
struct page *page;
void *dst;
unsigned long context_gpa, context_page_num;
int i;
gvt_dbg_sched("ring id %d workload lrca %x", ring_id,
workload->ctx_desc.lrca);
context_page_num = intel_lr_context_size(
gvt->dev_priv->engine[ring_id]);
context_page_num = context_page_num >> PAGE_SHIFT;
if (IS_BROADWELL(gvt->dev_priv) && ring_id == RCS)
context_page_num = 19;
i = 2;
while (i < context_page_num) {
context_gpa = intel_vgpu_gma_to_gpa(vgpu->gtt.ggtt_mm,
(u32)((workload->ctx_desc.lrca + i) <<
GTT_PAGE_SHIFT));
if (context_gpa == INTEL_GVT_INVALID_ADDR) {
gvt_vgpu_err("Invalid guest context descriptor\n");
return -EINVAL;
}
page = i915_gem_object_get_page(ctx_obj, LRC_PPHWSP_PN + i);
dst = kmap(page);
intel_gvt_hypervisor_read_gpa(vgpu, context_gpa, dst,
GTT_PAGE_SIZE);
kunmap(page);
i++;
}
page = i915_gem_object_get_page(ctx_obj, LRC_STATE_PN);
shadow_ring_context = kmap(page);
#define COPY_REG(name) \
intel_gvt_hypervisor_read_gpa(vgpu, workload->ring_context_gpa \
+ RING_CTX_OFF(name.val), &shadow_ring_context->name.val, 4)
COPY_REG(ctx_ctrl);
COPY_REG(ctx_timestamp);
if (ring_id == RCS) {
COPY_REG(bb_per_ctx_ptr);
COPY_REG(rcs_indirect_ctx);
COPY_REG(rcs_indirect_ctx_offset);
}
#undef COPY_REG
set_context_pdp_root_pointer(shadow_ring_context,
workload->shadow_mm->shadow_page_table);
intel_gvt_hypervisor_read_gpa(vgpu,
workload->ring_context_gpa +
sizeof(*shadow_ring_context),
(void *)shadow_ring_context +
sizeof(*shadow_ring_context),
GTT_PAGE_SIZE - sizeof(*shadow_ring_context));
kunmap(page);
return 0;
}
static int shadow_context_status_change(struct notifier_block *nb,
unsigned long action, void *data)
{
struct drm_i915_gem_request *req = (struct drm_i915_gem_request *)data;
struct intel_gvt *gvt = container_of(nb, struct intel_gvt,
shadow_ctx_notifier_block[req->engine->id]);
struct intel_gvt_workload_scheduler *scheduler = &gvt->scheduler;
struct intel_vgpu_workload *workload =
scheduler->current_workload[req->engine->id];
if (unlikely(!workload))
return NOTIFY_OK;
switch (action) {
case INTEL_CONTEXT_SCHEDULE_IN:
intel_gvt_load_render_mmio(workload->vgpu,
workload->ring_id);
atomic_set(&workload->shadow_ctx_active, 1);
break;
case INTEL_CONTEXT_SCHEDULE_OUT:
intel_gvt_restore_render_mmio(workload->vgpu,
workload->ring_id);
/* If the status is -EINPROGRESS means this workload
* doesn't meet any issue during dispatching so when
* get the SCHEDULE_OUT set the status to be zero for
* good. If the status is NOT -EINPROGRESS means there
* is something wrong happened during dispatching and
* the status should not be set to zero
*/
if (workload->status == -EINPROGRESS)
workload->status = 0;
atomic_set(&workload->shadow_ctx_active, 0);
break;
default:
WARN_ON(1);
return NOTIFY_OK;
}
wake_up(&workload->shadow_ctx_status_wq);
return NOTIFY_OK;
}
static int dispatch_workload(struct intel_vgpu_workload *workload)
{
int ring_id = workload->ring_id;
struct i915_gem_context *shadow_ctx = workload->vgpu->shadow_ctx;
struct drm_i915_private *dev_priv = workload->vgpu->gvt->dev_priv;
struct intel_engine_cs *engine = dev_priv->engine[ring_id];
struct drm_i915_gem_request *rq;
struct intel_vgpu *vgpu = workload->vgpu;
int ret;
gvt_dbg_sched("ring id %d prepare to dispatch workload %p\n",
ring_id, workload);
shadow_ctx->desc_template &= ~(0x3 << GEN8_CTX_ADDRESSING_MODE_SHIFT);
shadow_ctx->desc_template |= workload->ctx_desc.addressing_mode <<
GEN8_CTX_ADDRESSING_MODE_SHIFT;
mutex_lock(&dev_priv->drm.struct_mutex);
/* pin shadow context by gvt even the shadow context will be pinned
* when i915 alloc request. That is because gvt will update the guest
* context from shadow context when workload is completed, and at that
* moment, i915 may already unpined the shadow context to make the
* shadow_ctx pages invalid. So gvt need to pin itself. After update
* the guest context, gvt can unpin the shadow_ctx safely.
*/
ret = engine->context_pin(engine, shadow_ctx);
if (ret) {
gvt_vgpu_err("fail to pin shadow context\n");
workload->status = ret;
mutex_unlock(&dev_priv->drm.struct_mutex);
return ret;
}
rq = i915_gem_request_alloc(dev_priv->engine[ring_id], shadow_ctx);
if (IS_ERR(rq)) {
gvt_vgpu_err("fail to allocate gem request\n");
ret = PTR_ERR(rq);
goto out;
}
gvt_dbg_sched("ring id %d get i915 gem request %p\n", ring_id, rq);
workload->req = i915_gem_request_get(rq);
ret = intel_gvt_scan_and_shadow_workload(workload);
if (ret)
goto out;
if ((workload->ring_id == RCS) &&
(workload->wa_ctx.indirect_ctx.size != 0)) {
ret = intel_gvt_scan_and_shadow_wa_ctx(&workload->wa_ctx);
if (ret)
goto out;
}
ret = populate_shadow_context(workload);
if (ret)
goto out;
if (workload->prepare) {
ret = workload->prepare(workload);
if (ret)
goto out;
}
gvt_dbg_sched("ring id %d submit workload to i915 %p\n",
ring_id, workload->req);
ret = 0;
workload->dispatched = true;
out:
if (ret)
workload->status = ret;
if (!IS_ERR_OR_NULL(rq))
i915_add_request_no_flush(rq);
else
engine->context_unpin(engine, shadow_ctx);
mutex_unlock(&dev_priv->drm.struct_mutex);
return ret;
}
static struct intel_vgpu_workload *pick_next_workload(
struct intel_gvt *gvt, int ring_id)
{
struct intel_gvt_workload_scheduler *scheduler = &gvt->scheduler;
struct intel_vgpu_workload *workload = NULL;
mutex_lock(&gvt->lock);
/*
* no current vgpu / will be scheduled out / no workload
* bail out
*/
if (!scheduler->current_vgpu) {
gvt_dbg_sched("ring id %d stop - no current vgpu\n", ring_id);
goto out;
}
if (scheduler->need_reschedule) {
gvt_dbg_sched("ring id %d stop - will reschedule\n", ring_id);
goto out;
}
if (list_empty(workload_q_head(scheduler->current_vgpu, ring_id))) {
gvt_dbg_sched("ring id %d stop - no available workload\n",
ring_id);
goto out;
}
/*
* still have current workload, maybe the workload disptacher
* fail to submit it for some reason, resubmit it.
*/
if (scheduler->current_workload[ring_id]) {
workload = scheduler->current_workload[ring_id];
gvt_dbg_sched("ring id %d still have current workload %p\n",
ring_id, workload);
goto out;
}
/*
* pick a workload as current workload
* once current workload is set, schedule policy routines
* will wait the current workload is finished when trying to
* schedule out a vgpu.
*/
scheduler->current_workload[ring_id] = container_of(
workload_q_head(scheduler->current_vgpu, ring_id)->next,
struct intel_vgpu_workload, list);
workload = scheduler->current_workload[ring_id];
gvt_dbg_sched("ring id %d pick new workload %p\n", ring_id, workload);
atomic_inc(&workload->vgpu->running_workload_num);
out:
mutex_unlock(&gvt->lock);
return workload;
}
static void update_guest_context(struct intel_vgpu_workload *workload)
{
struct intel_vgpu *vgpu = workload->vgpu;
struct intel_gvt *gvt = vgpu->gvt;
int ring_id = workload->ring_id;
struct i915_gem_context *shadow_ctx = workload->vgpu->shadow_ctx;
struct drm_i915_gem_object *ctx_obj =
shadow_ctx->engine[ring_id].state->obj;
struct execlist_ring_context *shadow_ring_context;
struct page *page;
void *src;
unsigned long context_gpa, context_page_num;
int i;
gvt_dbg_sched("ring id %d workload lrca %x\n", ring_id,
workload->ctx_desc.lrca);
context_page_num = intel_lr_context_size(
gvt->dev_priv->engine[ring_id]);
context_page_num = context_page_num >> PAGE_SHIFT;
if (IS_BROADWELL(gvt->dev_priv) && ring_id == RCS)
context_page_num = 19;
i = 2;
while (i < context_page_num) {
context_gpa = intel_vgpu_gma_to_gpa(vgpu->gtt.ggtt_mm,
(u32)((workload->ctx_desc.lrca + i) <<
GTT_PAGE_SHIFT));
if (context_gpa == INTEL_GVT_INVALID_ADDR) {
gvt_vgpu_err("invalid guest context descriptor\n");
return;
}
page = i915_gem_object_get_page(ctx_obj, LRC_PPHWSP_PN + i);
src = kmap(page);
intel_gvt_hypervisor_write_gpa(vgpu, context_gpa, src,
GTT_PAGE_SIZE);
kunmap(page);
i++;
}
intel_gvt_hypervisor_write_gpa(vgpu, workload->ring_context_gpa +
RING_CTX_OFF(ring_header.val), &workload->rb_tail, 4);
page = i915_gem_object_get_page(ctx_obj, LRC_STATE_PN);
shadow_ring_context = kmap(page);
#define COPY_REG(name) \
intel_gvt_hypervisor_write_gpa(vgpu, workload->ring_context_gpa + \
RING_CTX_OFF(name.val), &shadow_ring_context->name.val, 4)
COPY_REG(ctx_ctrl);
COPY_REG(ctx_timestamp);
#undef COPY_REG
intel_gvt_hypervisor_write_gpa(vgpu,
workload->ring_context_gpa +
sizeof(*shadow_ring_context),
(void *)shadow_ring_context +
sizeof(*shadow_ring_context),
GTT_PAGE_SIZE - sizeof(*shadow_ring_context));
kunmap(page);
}
static void complete_current_workload(struct intel_gvt *gvt, int ring_id)
{
struct intel_gvt_workload_scheduler *scheduler = &gvt->scheduler;
struct intel_vgpu_workload *workload;
struct intel_vgpu *vgpu;
int event;
mutex_lock(&gvt->lock);
workload = scheduler->current_workload[ring_id];
vgpu = workload->vgpu;
/* For the workload w/ request, needs to wait for the context
* switch to make sure request is completed.
* For the workload w/o request, directly complete the workload.
*/
if (workload->req) {
struct drm_i915_private *dev_priv =
workload->vgpu->gvt->dev_priv;
struct intel_engine_cs *engine =
dev_priv->engine[workload->ring_id];
wait_event(workload->shadow_ctx_status_wq,
!atomic_read(&workload->shadow_ctx_active));
i915_gem_request_put(fetch_and_zero(&workload->req));
if (!workload->status && !vgpu->resetting) {
update_guest_context(workload);
for_each_set_bit(event, workload->pending_events,
INTEL_GVT_EVENT_MAX)
intel_vgpu_trigger_virtual_event(vgpu, event);
}
mutex_lock(&dev_priv->drm.struct_mutex);
/* unpin shadow ctx as the shadow_ctx update is done */
engine->context_unpin(engine, workload->vgpu->shadow_ctx);
mutex_unlock(&dev_priv->drm.struct_mutex);
}
gvt_dbg_sched("ring id %d complete workload %p status %d\n",
ring_id, workload, workload->status);
scheduler->current_workload[ring_id] = NULL;
list_del_init(&workload->list);
workload->complete(workload);
atomic_dec(&vgpu->running_workload_num);
wake_up(&scheduler->workload_complete_wq);
mutex_unlock(&gvt->lock);
}
struct workload_thread_param {
struct intel_gvt *gvt;
int ring_id;
};
static DEFINE_MUTEX(scheduler_mutex);
static int workload_thread(void *priv)
{
struct workload_thread_param *p = (struct workload_thread_param *)priv;
struct intel_gvt *gvt = p->gvt;
int ring_id = p->ring_id;
struct intel_gvt_workload_scheduler *scheduler = &gvt->scheduler;
struct intel_vgpu_workload *workload = NULL;
struct intel_vgpu *vgpu = NULL;
int ret;
bool need_force_wake = IS_SKYLAKE(gvt->dev_priv);
DEFINE_WAIT_FUNC(wait, woken_wake_function);
kfree(p);
gvt_dbg_core("workload thread for ring %d started\n", ring_id);
while (!kthread_should_stop()) {
add_wait_queue(&scheduler->waitq[ring_id], &wait);
do {
workload = pick_next_workload(gvt, ring_id);
if (workload)
break;
wait_woken(&wait, TASK_INTERRUPTIBLE,
MAX_SCHEDULE_TIMEOUT);
} while (!kthread_should_stop());
remove_wait_queue(&scheduler->waitq[ring_id], &wait);
if (!workload)
break;
mutex_lock(&scheduler_mutex);
gvt_dbg_sched("ring id %d next workload %p vgpu %d\n",
workload->ring_id, workload,
workload->vgpu->id);
intel_runtime_pm_get(gvt->dev_priv);
gvt_dbg_sched("ring id %d will dispatch workload %p\n",
workload->ring_id, workload);
if (need_force_wake)
intel_uncore_forcewake_get(gvt->dev_priv,
FORCEWAKE_ALL);
mutex_lock(&gvt->lock);
ret = dispatch_workload(workload);
mutex_unlock(&gvt->lock);
if (ret) {
vgpu = workload->vgpu;
gvt_vgpu_err("fail to dispatch workload, skip\n");
goto complete;
}
gvt_dbg_sched("ring id %d wait workload %p\n",
workload->ring_id, workload);
i915_wait_request(workload->req, 0, MAX_SCHEDULE_TIMEOUT);
complete:
gvt_dbg_sched("will complete workload %p, status: %d\n",
workload, workload->status);
complete_current_workload(gvt, ring_id);
if (need_force_wake)
intel_uncore_forcewake_put(gvt->dev_priv,
FORCEWAKE_ALL);
intel_runtime_pm_put(gvt->dev_priv);
mutex_unlock(&scheduler_mutex);
}
return 0;
}
void intel_gvt_wait_vgpu_idle(struct intel_vgpu *vgpu)
{
struct intel_gvt *gvt = vgpu->gvt;
struct intel_gvt_workload_scheduler *scheduler = &gvt->scheduler;
if (atomic_read(&vgpu->running_workload_num)) {
gvt_dbg_sched("wait vgpu idle\n");
wait_event(scheduler->workload_complete_wq,
!atomic_read(&vgpu->running_workload_num));
}
}
void intel_gvt_clean_workload_scheduler(struct intel_gvt *gvt)
{
struct intel_gvt_workload_scheduler *scheduler = &gvt->scheduler;
struct intel_engine_cs *engine;
enum intel_engine_id i;
gvt_dbg_core("clean workload scheduler\n");
for_each_engine(engine, gvt->dev_priv, i) {
atomic_notifier_chain_unregister(
&engine->context_status_notifier,
&gvt->shadow_ctx_notifier_block[i]);
kthread_stop(scheduler->thread[i]);
}
}
int intel_gvt_init_workload_scheduler(struct intel_gvt *gvt)
{
struct intel_gvt_workload_scheduler *scheduler = &gvt->scheduler;
struct workload_thread_param *param = NULL;
struct intel_engine_cs *engine;
enum intel_engine_id i;
int ret;
gvt_dbg_core("init workload scheduler\n");
init_waitqueue_head(&scheduler->workload_complete_wq);
for_each_engine(engine, gvt->dev_priv, i) {
init_waitqueue_head(&scheduler->waitq[i]);
param = kzalloc(sizeof(*param), GFP_KERNEL);
if (!param) {
ret = -ENOMEM;
goto err;
}
param->gvt = gvt;
param->ring_id = i;
scheduler->thread[i] = kthread_run(workload_thread, param,
"gvt workload %d", i);
if (IS_ERR(scheduler->thread[i])) {
gvt_err("fail to create workload thread\n");
ret = PTR_ERR(scheduler->thread[i]);
goto err;
}
gvt->shadow_ctx_notifier_block[i].notifier_call =
shadow_context_status_change;
atomic_notifier_chain_register(&engine->context_status_notifier,
&gvt->shadow_ctx_notifier_block[i]);
}
return 0;
err:
intel_gvt_clean_workload_scheduler(gvt);
kfree(param);
param = NULL;
return ret;
}
void intel_vgpu_clean_gvt_context(struct intel_vgpu *vgpu)
{
i915_gem_context_put_unlocked(vgpu->shadow_ctx);
}
int intel_vgpu_init_gvt_context(struct intel_vgpu *vgpu)
{
atomic_set(&vgpu->running_workload_num, 0);
vgpu->shadow_ctx = i915_gem_context_create_gvt(
&vgpu->gvt->dev_priv->drm);
if (IS_ERR(vgpu->shadow_ctx))
return PTR_ERR(vgpu->shadow_ctx);
vgpu->shadow_ctx->engine[RCS].initialised = true;
return 0;
}
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