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/*
* SPDX-License-Identifier: MIT
*
* Copyright © 2019 Intel Corporation
*/
#include <linux/suspend.h>
#include "i915_drv.h"
#include "i915_globals.h"
#include "i915_params.h"
#include "intel_context.h"
#include "intel_engine_pm.h"
#include "intel_gt.h"
#include "intel_gt_pm.h"
#include "intel_gt_requests.h"
#include "intel_llc.h"
#include "intel_pm.h"
#include "intel_rc6.h"
#include "intel_rps.h"
#include "intel_wakeref.h"
static void user_forcewake(struct intel_gt *gt, bool suspend)
{
int count = atomic_read(>->user_wakeref);
/* Inside suspend/resume so single threaded, no races to worry about. */
if (likely(!count))
return;
intel_gt_pm_get(gt);
if (suspend) {
GEM_BUG_ON(count > atomic_read(>->wakeref.count));
atomic_sub(count, >->wakeref.count);
} else {
atomic_add(count, >->wakeref.count);
}
intel_gt_pm_put(gt);
}
static int __gt_unpark(struct intel_wakeref *wf)
{
struct intel_gt *gt = container_of(wf, typeof(*gt), wakeref);
struct drm_i915_private *i915 = gt->i915;
GEM_TRACE("\n");
i915_globals_unpark();
/*
* It seems that the DMC likes to transition between the DC states a lot
* when there are no connected displays (no active power domains) during
* command submission.
*
* This activity has negative impact on the performance of the chip with
* huge latencies observed in the interrupt handler and elsewhere.
*
* Work around it by grabbing a GT IRQ power domain whilst there is any
* GT activity, preventing any DC state transitions.
*/
gt->awake = intel_display_power_get(i915, POWER_DOMAIN_GT_IRQ);
GEM_BUG_ON(!gt->awake);
if (NEEDS_RC6_CTX_CORRUPTION_WA(i915))
intel_uncore_forcewake_get(&i915->uncore, FORCEWAKE_ALL);
intel_rps_unpark(>->rps);
i915_pmu_gt_unparked(i915);
intel_gt_unpark_requests(gt);
return 0;
}
static int __gt_park(struct intel_wakeref *wf)
{
struct intel_gt *gt = container_of(wf, typeof(*gt), wakeref);
intel_wakeref_t wakeref = fetch_and_zero(>->awake);
struct drm_i915_private *i915 = gt->i915;
GEM_TRACE("\n");
intel_gt_park_requests(gt);
i915_vma_parked(gt);
i915_pmu_gt_parked(i915);
intel_rps_park(>->rps);
/* Everything switched off, flush any residual interrupt just in case */
intel_synchronize_irq(i915);
if (NEEDS_RC6_CTX_CORRUPTION_WA(i915)) {
intel_rc6_ctx_wa_check(&i915->gt.rc6);
intel_uncore_forcewake_put(&i915->uncore, FORCEWAKE_ALL);
}
GEM_BUG_ON(!wakeref);
intel_display_power_put(i915, POWER_DOMAIN_GT_IRQ, wakeref);
i915_globals_park();
return 0;
}
static const struct intel_wakeref_ops wf_ops = {
.get = __gt_unpark,
.put = __gt_park,
};
void intel_gt_pm_init_early(struct intel_gt *gt)
{
intel_wakeref_init(>->wakeref, gt->uncore->rpm, &wf_ops);
}
void intel_gt_pm_init(struct intel_gt *gt)
{
/*
* Enabling power-management should be "self-healing". If we cannot
* enable a feature, simply leave it disabled with a notice to the
* user.
*/
intel_rc6_init(>->rc6);
intel_rps_init(>->rps);
}
static bool reset_engines(struct intel_gt *gt)
{
if (INTEL_INFO(gt->i915)->gpu_reset_clobbers_display)
return false;
return __intel_gt_reset(gt, ALL_ENGINES) == 0;
}
/**
* intel_gt_sanitize: called after the GPU has lost power
* @gt: the i915 GT container
* @force: ignore a failed reset and sanitize engine state anyway
*
* Anytime we reset the GPU, either with an explicit GPU reset or through a
* PCI power cycle, the GPU loses state and we must reset our state tracking
* to match. Note that calling intel_gt_sanitize() if the GPU has not
* been reset results in much confusion!
*/
void intel_gt_sanitize(struct intel_gt *gt, bool force)
{
struct intel_engine_cs *engine;
enum intel_engine_id id;
intel_wakeref_t wakeref;
GEM_TRACE("force:%s\n", yesno(force));
/* Use a raw wakeref to avoid calling intel_display_power_get early */
wakeref = intel_runtime_pm_get(gt->uncore->rpm);
intel_uncore_forcewake_get(gt->uncore, FORCEWAKE_ALL);
/*
* As we have just resumed the machine and woken the device up from
* deep PCI sleep (presumably D3_cold), assume the HW has been reset
* back to defaults, recovering from whatever wedged state we left it
* in and so worth trying to use the device once more.
*/
if (intel_gt_is_wedged(gt))
intel_gt_unset_wedged(gt);
intel_uc_sanitize(>->uc);
for_each_engine(engine, gt, id)
if (engine->reset.prepare)
engine->reset.prepare(engine);
intel_uc_reset_prepare(>->uc);
if (reset_engines(gt) || force) {
for_each_engine(engine, gt, id)
__intel_engine_reset(engine, false);
}
for_each_engine(engine, gt, id)
if (engine->reset.finish)
engine->reset.finish(engine);
intel_uncore_forcewake_put(gt->uncore, FORCEWAKE_ALL);
intel_runtime_pm_put(gt->uncore->rpm, wakeref);
}
void intel_gt_pm_fini(struct intel_gt *gt)
{
intel_rc6_fini(>->rc6);
}
int intel_gt_resume(struct intel_gt *gt)
{
struct intel_engine_cs *engine;
enum intel_engine_id id;
int err = 0;
GEM_TRACE("\n");
/*
* After resume, we may need to poke into the pinned kernel
* contexts to paper over any damage caused by the sudden suspend.
* Only the kernel contexts should remain pinned over suspend,
* allowing us to fixup the user contexts on their first pin.
*/
intel_gt_pm_get(gt);
intel_uncore_forcewake_get(gt->uncore, FORCEWAKE_ALL);
intel_rc6_sanitize(>->rc6);
intel_rps_enable(>->rps);
intel_llc_enable(>->llc);
for_each_engine(engine, gt, id) {
struct intel_context *ce;
intel_engine_pm_get(engine);
ce = engine->kernel_context;
if (ce) {
GEM_BUG_ON(!intel_context_is_pinned(ce));
ce->ops->reset(ce);
}
engine->serial++; /* kernel context lost */
err = engine->resume(engine);
intel_engine_pm_put(engine);
if (err) {
dev_err(gt->i915->drm.dev,
"Failed to restart %s (%d)\n",
engine->name, err);
break;
}
}
intel_rc6_enable(>->rc6);
intel_uc_resume(>->uc);
user_forcewake(gt, false);
intel_uncore_forcewake_put(gt->uncore, FORCEWAKE_ALL);
intel_gt_pm_put(gt);
return err;
}
static void wait_for_suspend(struct intel_gt *gt)
{
if (!intel_gt_pm_is_awake(gt))
return;
if (intel_gt_wait_for_idle(gt, I915_GEM_IDLE_TIMEOUT) == -ETIME) {
/*
* Forcibly cancel outstanding work and leave
* the gpu quiet.
*/
intel_gt_set_wedged(gt);
}
intel_gt_pm_wait_for_idle(gt);
}
void intel_gt_suspend_prepare(struct intel_gt *gt)
{
user_forcewake(gt, true);
wait_for_suspend(gt);
intel_uc_suspend(>->uc);
}
static suspend_state_t pm_suspend_target(void)
{
#if IS_ENABLED(CONFIG_SUSPEND) && IS_ENABLED(CONFIG_PM_SLEEP)
return pm_suspend_target_state;
#else
return PM_SUSPEND_TO_IDLE;
#endif
}
void intel_gt_suspend_late(struct intel_gt *gt)
{
intel_wakeref_t wakeref;
/* We expect to be idle already; but also want to be independent */
wait_for_suspend(gt);
/*
* On disabling the device, we want to turn off HW access to memory
* that we no longer own.
*
* However, not all suspend-states disable the device. S0 (s2idle)
* is effectively runtime-suspend, the device is left powered on
* but needs to be put into a low power state. We need to keep
* powermanagement enabled, but we also retain system state and so
* it remains safe to keep on using our allocated memory.
*/
if (pm_suspend_target() == PM_SUSPEND_TO_IDLE)
return;
with_intel_runtime_pm(gt->uncore->rpm, wakeref) {
intel_rps_disable(>->rps);
intel_rc6_disable(>->rc6);
intel_llc_disable(>->llc);
}
intel_gt_sanitize(gt, false);
GEM_TRACE("\n");
}
void intel_gt_runtime_suspend(struct intel_gt *gt)
{
intel_uc_runtime_suspend(>->uc);
GEM_TRACE("\n");
}
int intel_gt_runtime_resume(struct intel_gt *gt)
{
GEM_TRACE("\n");
intel_gt_init_swizzling(gt);
return intel_uc_runtime_resume(>->uc);
}
#if IS_ENABLED(CONFIG_DRM_I915_SELFTEST)
#include "selftest_gt_pm.c"
#endif
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