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|
/*
* Copyright © 2008-2010 Intel Corporation
*
* 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:
* Eric Anholt <eric@anholt.net>
* Zou Nan hai <nanhai.zou@intel.com>
* Xiang Hai hao<haihao.xiang@intel.com>
*
*/
#include <linux/log2.h>
#include <drm/i915_drm.h>
#include "gem/i915_gem_context.h"
#include "gen6_ppgtt.h"
#include "i915_drv.h"
#include "i915_trace.h"
#include "intel_context.h"
#include "intel_gt.h"
#include "intel_gt_irq.h"
#include "intel_gt_pm_irq.h"
#include "intel_reset.h"
#include "intel_ring.h"
#include "intel_workarounds.h"
/* Rough estimate of the typical request size, performing a flush,
* set-context and then emitting the batch.
*/
#define LEGACY_REQUEST_SIZE 200
static int
gen2_render_ring_flush(struct i915_request *rq, u32 mode)
{
unsigned int num_store_dw;
u32 cmd, *cs;
cmd = MI_FLUSH;
num_store_dw = 0;
if (mode & EMIT_INVALIDATE)
cmd |= MI_READ_FLUSH;
if (mode & EMIT_FLUSH)
num_store_dw = 4;
cs = intel_ring_begin(rq, 2 + 3 * num_store_dw);
if (IS_ERR(cs))
return PTR_ERR(cs);
*cs++ = cmd;
while (num_store_dw--) {
*cs++ = MI_STORE_DWORD_IMM | MI_MEM_VIRTUAL;
*cs++ = intel_gt_scratch_offset(rq->engine->gt,
INTEL_GT_SCRATCH_FIELD_DEFAULT);
*cs++ = 0;
}
*cs++ = MI_FLUSH | MI_NO_WRITE_FLUSH;
intel_ring_advance(rq, cs);
return 0;
}
static int
gen4_render_ring_flush(struct i915_request *rq, u32 mode)
{
u32 cmd, *cs;
int i;
/*
* read/write caches:
*
* I915_GEM_DOMAIN_RENDER is always invalidated, but is
* only flushed if MI_NO_WRITE_FLUSH is unset. On 965, it is
* also flushed at 2d versus 3d pipeline switches.
*
* read-only caches:
*
* I915_GEM_DOMAIN_SAMPLER is flushed on pre-965 if
* MI_READ_FLUSH is set, and is always flushed on 965.
*
* I915_GEM_DOMAIN_COMMAND may not exist?
*
* I915_GEM_DOMAIN_INSTRUCTION, which exists on 965, is
* invalidated when MI_EXE_FLUSH is set.
*
* I915_GEM_DOMAIN_VERTEX, which exists on 965, is
* invalidated with every MI_FLUSH.
*
* TLBs:
*
* On 965, TLBs associated with I915_GEM_DOMAIN_COMMAND
* and I915_GEM_DOMAIN_CPU in are invalidated at PTE write and
* I915_GEM_DOMAIN_RENDER and I915_GEM_DOMAIN_SAMPLER
* are flushed at any MI_FLUSH.
*/
cmd = MI_FLUSH;
if (mode & EMIT_INVALIDATE) {
cmd |= MI_EXE_FLUSH;
if (IS_G4X(rq->i915) || IS_GEN(rq->i915, 5))
cmd |= MI_INVALIDATE_ISP;
}
i = 2;
if (mode & EMIT_INVALIDATE)
i += 20;
cs = intel_ring_begin(rq, i);
if (IS_ERR(cs))
return PTR_ERR(cs);
*cs++ = cmd;
/*
* A random delay to let the CS invalidate take effect? Without this
* delay, the GPU relocation path fails as the CS does not see
* the updated contents. Just as important, if we apply the flushes
* to the EMIT_FLUSH branch (i.e. immediately after the relocation
* write and before the invalidate on the next batch), the relocations
* still fail. This implies that is a delay following invalidation
* that is required to reset the caches as opposed to a delay to
* ensure the memory is written.
*/
if (mode & EMIT_INVALIDATE) {
*cs++ = GFX_OP_PIPE_CONTROL(4) | PIPE_CONTROL_QW_WRITE;
*cs++ = intel_gt_scratch_offset(rq->engine->gt,
INTEL_GT_SCRATCH_FIELD_DEFAULT) |
PIPE_CONTROL_GLOBAL_GTT;
*cs++ = 0;
*cs++ = 0;
for (i = 0; i < 12; i++)
*cs++ = MI_FLUSH;
*cs++ = GFX_OP_PIPE_CONTROL(4) | PIPE_CONTROL_QW_WRITE;
*cs++ = intel_gt_scratch_offset(rq->engine->gt,
INTEL_GT_SCRATCH_FIELD_DEFAULT) |
PIPE_CONTROL_GLOBAL_GTT;
*cs++ = 0;
*cs++ = 0;
}
*cs++ = cmd;
intel_ring_advance(rq, cs);
return 0;
}
/*
* Emits a PIPE_CONTROL with a non-zero post-sync operation, for
* implementing two workarounds on gen6. From section 1.4.7.1
* "PIPE_CONTROL" of the Sandy Bridge PRM volume 2 part 1:
*
* [DevSNB-C+{W/A}] Before any depth stall flush (including those
* produced by non-pipelined state commands), software needs to first
* send a PIPE_CONTROL with no bits set except Post-Sync Operation !=
* 0.
*
* [Dev-SNB{W/A}]: Before a PIPE_CONTROL with Write Cache Flush Enable
* =1, a PIPE_CONTROL with any non-zero post-sync-op is required.
*
* And the workaround for these two requires this workaround first:
*
* [Dev-SNB{W/A}]: Pipe-control with CS-stall bit set must be sent
* BEFORE the pipe-control with a post-sync op and no write-cache
* flushes.
*
* And this last workaround is tricky because of the requirements on
* that bit. From section 1.4.7.2.3 "Stall" of the Sandy Bridge PRM
* volume 2 part 1:
*
* "1 of the following must also be set:
* - Render Target Cache Flush Enable ([12] of DW1)
* - Depth Cache Flush Enable ([0] of DW1)
* - Stall at Pixel Scoreboard ([1] of DW1)
* - Depth Stall ([13] of DW1)
* - Post-Sync Operation ([13] of DW1)
* - Notify Enable ([8] of DW1)"
*
* The cache flushes require the workaround flush that triggered this
* one, so we can't use it. Depth stall would trigger the same.
* Post-sync nonzero is what triggered this second workaround, so we
* can't use that one either. Notify enable is IRQs, which aren't
* really our business. That leaves only stall at scoreboard.
*/
static int
gen6_emit_post_sync_nonzero_flush(struct i915_request *rq)
{
u32 scratch_addr =
intel_gt_scratch_offset(rq->engine->gt,
INTEL_GT_SCRATCH_FIELD_RENDER_FLUSH);
u32 *cs;
cs = intel_ring_begin(rq, 6);
if (IS_ERR(cs))
return PTR_ERR(cs);
*cs++ = GFX_OP_PIPE_CONTROL(5);
*cs++ = PIPE_CONTROL_CS_STALL | PIPE_CONTROL_STALL_AT_SCOREBOARD;
*cs++ = scratch_addr | PIPE_CONTROL_GLOBAL_GTT;
*cs++ = 0; /* low dword */
*cs++ = 0; /* high dword */
*cs++ = MI_NOOP;
intel_ring_advance(rq, cs);
cs = intel_ring_begin(rq, 6);
if (IS_ERR(cs))
return PTR_ERR(cs);
*cs++ = GFX_OP_PIPE_CONTROL(5);
*cs++ = PIPE_CONTROL_QW_WRITE;
*cs++ = scratch_addr | PIPE_CONTROL_GLOBAL_GTT;
*cs++ = 0;
*cs++ = 0;
*cs++ = MI_NOOP;
intel_ring_advance(rq, cs);
return 0;
}
static int
gen6_render_ring_flush(struct i915_request *rq, u32 mode)
{
u32 scratch_addr =
intel_gt_scratch_offset(rq->engine->gt,
INTEL_GT_SCRATCH_FIELD_RENDER_FLUSH);
u32 *cs, flags = 0;
int ret;
/* Force SNB workarounds for PIPE_CONTROL flushes */
ret = gen6_emit_post_sync_nonzero_flush(rq);
if (ret)
return ret;
/* Just flush everything. Experiments have shown that reducing the
* number of bits based on the write domains has little performance
* impact.
*/
if (mode & EMIT_FLUSH) {
flags |= PIPE_CONTROL_RENDER_TARGET_CACHE_FLUSH;
flags |= PIPE_CONTROL_DEPTH_CACHE_FLUSH;
/*
* Ensure that any following seqno writes only happen
* when the render cache is indeed flushed.
*/
flags |= PIPE_CONTROL_CS_STALL;
}
if (mode & EMIT_INVALIDATE) {
flags |= PIPE_CONTROL_TLB_INVALIDATE;
flags |= PIPE_CONTROL_INSTRUCTION_CACHE_INVALIDATE;
flags |= PIPE_CONTROL_TEXTURE_CACHE_INVALIDATE;
flags |= PIPE_CONTROL_VF_CACHE_INVALIDATE;
flags |= PIPE_CONTROL_CONST_CACHE_INVALIDATE;
flags |= PIPE_CONTROL_STATE_CACHE_INVALIDATE;
/*
* TLB invalidate requires a post-sync write.
*/
flags |= PIPE_CONTROL_QW_WRITE | PIPE_CONTROL_CS_STALL;
}
cs = intel_ring_begin(rq, 4);
if (IS_ERR(cs))
return PTR_ERR(cs);
*cs++ = GFX_OP_PIPE_CONTROL(4);
*cs++ = flags;
*cs++ = scratch_addr | PIPE_CONTROL_GLOBAL_GTT;
*cs++ = 0;
intel_ring_advance(rq, cs);
return 0;
}
static u32 *gen6_rcs_emit_breadcrumb(struct i915_request *rq, u32 *cs)
{
/* First we do the gen6_emit_post_sync_nonzero_flush w/a */
*cs++ = GFX_OP_PIPE_CONTROL(4);
*cs++ = PIPE_CONTROL_CS_STALL | PIPE_CONTROL_STALL_AT_SCOREBOARD;
*cs++ = 0;
*cs++ = 0;
*cs++ = GFX_OP_PIPE_CONTROL(4);
*cs++ = PIPE_CONTROL_QW_WRITE;
*cs++ = intel_gt_scratch_offset(rq->engine->gt,
INTEL_GT_SCRATCH_FIELD_DEFAULT) |
PIPE_CONTROL_GLOBAL_GTT;
*cs++ = 0;
/* Finally we can flush and with it emit the breadcrumb */
*cs++ = GFX_OP_PIPE_CONTROL(4);
*cs++ = (PIPE_CONTROL_RENDER_TARGET_CACHE_FLUSH |
PIPE_CONTROL_DEPTH_CACHE_FLUSH |
PIPE_CONTROL_DC_FLUSH_ENABLE |
PIPE_CONTROL_QW_WRITE |
PIPE_CONTROL_CS_STALL);
*cs++ = i915_request_active_timeline(rq)->hwsp_offset |
PIPE_CONTROL_GLOBAL_GTT;
*cs++ = rq->fence.seqno;
*cs++ = MI_USER_INTERRUPT;
*cs++ = MI_NOOP;
rq->tail = intel_ring_offset(rq, cs);
assert_ring_tail_valid(rq->ring, rq->tail);
return cs;
}
static int
gen7_render_ring_cs_stall_wa(struct i915_request *rq)
{
u32 *cs;
cs = intel_ring_begin(rq, 4);
if (IS_ERR(cs))
return PTR_ERR(cs);
*cs++ = GFX_OP_PIPE_CONTROL(4);
*cs++ = PIPE_CONTROL_CS_STALL | PIPE_CONTROL_STALL_AT_SCOREBOARD;
*cs++ = 0;
*cs++ = 0;
intel_ring_advance(rq, cs);
return 0;
}
static int
gen7_render_ring_flush(struct i915_request *rq, u32 mode)
{
u32 scratch_addr =
intel_gt_scratch_offset(rq->engine->gt,
INTEL_GT_SCRATCH_FIELD_RENDER_FLUSH);
u32 *cs, flags = 0;
/*
* Ensure that any following seqno writes only happen when the render
* cache is indeed flushed.
*
* Workaround: 4th PIPE_CONTROL command (except the ones with only
* read-cache invalidate bits set) must have the CS_STALL bit set. We
* don't try to be clever and just set it unconditionally.
*/
flags |= PIPE_CONTROL_CS_STALL;
/*
* CS_STALL suggests at least a post-sync write.
*/
flags |= PIPE_CONTROL_QW_WRITE;
flags |= PIPE_CONTROL_GLOBAL_GTT_IVB;
/* Just flush everything. Experiments have shown that reducing the
* number of bits based on the write domains has little performance
* impact.
*/
if (mode & EMIT_FLUSH) {
flags |= PIPE_CONTROL_RENDER_TARGET_CACHE_FLUSH;
flags |= PIPE_CONTROL_DEPTH_CACHE_FLUSH;
flags |= PIPE_CONTROL_DC_FLUSH_ENABLE;
flags |= PIPE_CONTROL_FLUSH_ENABLE;
}
if (mode & EMIT_INVALIDATE) {
flags |= PIPE_CONTROL_TLB_INVALIDATE;
flags |= PIPE_CONTROL_INSTRUCTION_CACHE_INVALIDATE;
flags |= PIPE_CONTROL_TEXTURE_CACHE_INVALIDATE;
flags |= PIPE_CONTROL_VF_CACHE_INVALIDATE;
flags |= PIPE_CONTROL_CONST_CACHE_INVALIDATE;
flags |= PIPE_CONTROL_STATE_CACHE_INVALIDATE;
flags |= PIPE_CONTROL_MEDIA_STATE_CLEAR;
/* Workaround: we must issue a pipe_control with CS-stall bit
* set before a pipe_control command that has the state cache
* invalidate bit set. */
gen7_render_ring_cs_stall_wa(rq);
}
cs = intel_ring_begin(rq, 4);
if (IS_ERR(cs))
return PTR_ERR(cs);
*cs++ = GFX_OP_PIPE_CONTROL(4);
*cs++ = flags;
*cs++ = scratch_addr;
*cs++ = 0;
intel_ring_advance(rq, cs);
return 0;
}
static u32 *gen7_rcs_emit_breadcrumb(struct i915_request *rq, u32 *cs)
{
*cs++ = GFX_OP_PIPE_CONTROL(4);
*cs++ = (PIPE_CONTROL_RENDER_TARGET_CACHE_FLUSH |
PIPE_CONTROL_DEPTH_CACHE_FLUSH |
PIPE_CONTROL_DC_FLUSH_ENABLE |
PIPE_CONTROL_FLUSH_ENABLE |
PIPE_CONTROL_QW_WRITE |
PIPE_CONTROL_GLOBAL_GTT_IVB |
PIPE_CONTROL_CS_STALL);
*cs++ = i915_request_active_timeline(rq)->hwsp_offset;
*cs++ = rq->fence.seqno;
*cs++ = MI_USER_INTERRUPT;
*cs++ = MI_NOOP;
rq->tail = intel_ring_offset(rq, cs);
assert_ring_tail_valid(rq->ring, rq->tail);
return cs;
}
static u32 *gen6_xcs_emit_breadcrumb(struct i915_request *rq, u32 *cs)
{
GEM_BUG_ON(i915_request_active_timeline(rq)->hwsp_ggtt != rq->engine->status_page.vma);
GEM_BUG_ON(offset_in_page(i915_request_active_timeline(rq)->hwsp_offset) != I915_GEM_HWS_SEQNO_ADDR);
*cs++ = MI_FLUSH_DW | MI_FLUSH_DW_OP_STOREDW | MI_FLUSH_DW_STORE_INDEX;
*cs++ = I915_GEM_HWS_SEQNO_ADDR | MI_FLUSH_DW_USE_GTT;
*cs++ = rq->fence.seqno;
*cs++ = MI_USER_INTERRUPT;
rq->tail = intel_ring_offset(rq, cs);
assert_ring_tail_valid(rq->ring, rq->tail);
return cs;
}
#define GEN7_XCS_WA 32
static u32 *gen7_xcs_emit_breadcrumb(struct i915_request *rq, u32 *cs)
{
int i;
GEM_BUG_ON(i915_request_active_timeline(rq)->hwsp_ggtt != rq->engine->status_page.vma);
GEM_BUG_ON(offset_in_page(i915_request_active_timeline(rq)->hwsp_offset) != I915_GEM_HWS_SEQNO_ADDR);
*cs++ = MI_FLUSH_DW | MI_INVALIDATE_TLB |
MI_FLUSH_DW_OP_STOREDW | MI_FLUSH_DW_STORE_INDEX;
*cs++ = I915_GEM_HWS_SEQNO_ADDR | MI_FLUSH_DW_USE_GTT;
*cs++ = rq->fence.seqno;
for (i = 0; i < GEN7_XCS_WA; i++) {
*cs++ = MI_STORE_DWORD_INDEX;
*cs++ = I915_GEM_HWS_SEQNO_ADDR;
*cs++ = rq->fence.seqno;
}
*cs++ = MI_FLUSH_DW;
*cs++ = 0;
*cs++ = 0;
*cs++ = MI_USER_INTERRUPT;
*cs++ = MI_NOOP;
rq->tail = intel_ring_offset(rq, cs);
assert_ring_tail_valid(rq->ring, rq->tail);
return cs;
}
#undef GEN7_XCS_WA
static void set_hwstam(struct intel_engine_cs *engine, u32 mask)
{
/*
* Keep the render interrupt unmasked as this papers over
* lost interrupts following a reset.
*/
if (engine->class == RENDER_CLASS) {
if (INTEL_GEN(engine->i915) >= 6)
mask &= ~BIT(0);
else
mask &= ~I915_USER_INTERRUPT;
}
intel_engine_set_hwsp_writemask(engine, mask);
}
static void set_hws_pga(struct intel_engine_cs *engine, phys_addr_t phys)
{
u32 addr;
addr = lower_32_bits(phys);
if (INTEL_GEN(engine->i915) >= 4)
addr |= (phys >> 28) & 0xf0;
intel_uncore_write(engine->uncore, HWS_PGA, addr);
}
static struct page *status_page(struct intel_engine_cs *engine)
{
struct drm_i915_gem_object *obj = engine->status_page.vma->obj;
GEM_BUG_ON(!i915_gem_object_has_pinned_pages(obj));
return sg_page(obj->mm.pages->sgl);
}
static void ring_setup_phys_status_page(struct intel_engine_cs *engine)
{
set_hws_pga(engine, PFN_PHYS(page_to_pfn(status_page(engine))));
set_hwstam(engine, ~0u);
}
static void set_hwsp(struct intel_engine_cs *engine, u32 offset)
{
i915_reg_t hwsp;
/*
* The ring status page addresses are no longer next to the rest of
* the ring registers as of gen7.
*/
if (IS_GEN(engine->i915, 7)) {
switch (engine->id) {
/*
* No more rings exist on Gen7. Default case is only to shut up
* gcc switch check warning.
*/
default:
GEM_BUG_ON(engine->id);
/* fallthrough */
case RCS0:
hwsp = RENDER_HWS_PGA_GEN7;
break;
case BCS0:
hwsp = BLT_HWS_PGA_GEN7;
break;
case VCS0:
hwsp = BSD_HWS_PGA_GEN7;
break;
case VECS0:
hwsp = VEBOX_HWS_PGA_GEN7;
break;
}
} else if (IS_GEN(engine->i915, 6)) {
hwsp = RING_HWS_PGA_GEN6(engine->mmio_base);
} else {
hwsp = RING_HWS_PGA(engine->mmio_base);
}
intel_uncore_write(engine->uncore, hwsp, offset);
intel_uncore_posting_read(engine->uncore, hwsp);
}
static void flush_cs_tlb(struct intel_engine_cs *engine)
{
struct drm_i915_private *dev_priv = engine->i915;
if (!IS_GEN_RANGE(dev_priv, 6, 7))
return;
/* ring should be idle before issuing a sync flush*/
WARN_ON((ENGINE_READ(engine, RING_MI_MODE) & MODE_IDLE) == 0);
ENGINE_WRITE(engine, RING_INSTPM,
_MASKED_BIT_ENABLE(INSTPM_TLB_INVALIDATE |
INSTPM_SYNC_FLUSH));
if (intel_wait_for_register(engine->uncore,
RING_INSTPM(engine->mmio_base),
INSTPM_SYNC_FLUSH, 0,
1000))
DRM_ERROR("%s: wait for SyncFlush to complete for TLB invalidation timed out\n",
engine->name);
}
static void ring_setup_status_page(struct intel_engine_cs *engine)
{
set_hwsp(engine, i915_ggtt_offset(engine->status_page.vma));
set_hwstam(engine, ~0u);
flush_cs_tlb(engine);
}
static bool stop_ring(struct intel_engine_cs *engine)
{
struct drm_i915_private *dev_priv = engine->i915;
if (INTEL_GEN(dev_priv) > 2) {
ENGINE_WRITE(engine,
RING_MI_MODE, _MASKED_BIT_ENABLE(STOP_RING));
if (intel_wait_for_register(engine->uncore,
RING_MI_MODE(engine->mmio_base),
MODE_IDLE,
MODE_IDLE,
1000)) {
DRM_ERROR("%s : timed out trying to stop ring\n",
engine->name);
/*
* Sometimes we observe that the idle flag is not
* set even though the ring is empty. So double
* check before giving up.
*/
if (ENGINE_READ(engine, RING_HEAD) !=
ENGINE_READ(engine, RING_TAIL))
return false;
}
}
ENGINE_WRITE(engine, RING_HEAD, ENGINE_READ(engine, RING_TAIL));
ENGINE_WRITE(engine, RING_HEAD, 0);
ENGINE_WRITE(engine, RING_TAIL, 0);
/* The ring must be empty before it is disabled */
ENGINE_WRITE(engine, RING_CTL, 0);
return (ENGINE_READ(engine, RING_HEAD) & HEAD_ADDR) == 0;
}
static int xcs_resume(struct intel_engine_cs *engine)
{
struct drm_i915_private *dev_priv = engine->i915;
struct intel_ring *ring = engine->legacy.ring;
int ret = 0;
ENGINE_TRACE(engine, "ring:{HEAD:%04x, TAIL:%04x}\n",
ring->head, ring->tail);
intel_uncore_forcewake_get(engine->uncore, FORCEWAKE_ALL);
/* WaClearRingBufHeadRegAtInit:ctg,elk */
if (!stop_ring(engine)) {
/* G45 ring initialization often fails to reset head to zero */
DRM_DEBUG_DRIVER("%s head not reset to zero "
"ctl %08x head %08x tail %08x start %08x\n",
engine->name,
ENGINE_READ(engine, RING_CTL),
ENGINE_READ(engine, RING_HEAD),
ENGINE_READ(engine, RING_TAIL),
ENGINE_READ(engine, RING_START));
if (!stop_ring(engine)) {
DRM_ERROR("failed to set %s head to zero "
"ctl %08x head %08x tail %08x start %08x\n",
engine->name,
ENGINE_READ(engine, RING_CTL),
ENGINE_READ(engine, RING_HEAD),
ENGINE_READ(engine, RING_TAIL),
ENGINE_READ(engine, RING_START));
ret = -EIO;
goto out;
}
}
if (HWS_NEEDS_PHYSICAL(dev_priv))
ring_setup_phys_status_page(engine);
else
ring_setup_status_page(engine);
intel_engine_reset_breadcrumbs(engine);
/* Enforce ordering by reading HEAD register back */
ENGINE_POSTING_READ(engine, RING_HEAD);
/*
* Initialize the ring. This must happen _after_ we've cleared the ring
* registers with the above sequence (the readback of the HEAD registers
* also enforces ordering), otherwise the hw might lose the new ring
* register values.
*/
ENGINE_WRITE(engine, RING_START, i915_ggtt_offset(ring->vma));
/* Check that the ring offsets point within the ring! */
GEM_BUG_ON(!intel_ring_offset_valid(ring, ring->head));
GEM_BUG_ON(!intel_ring_offset_valid(ring, ring->tail));
intel_ring_update_space(ring);
/* First wake the ring up to an empty/idle ring */
ENGINE_WRITE(engine, RING_HEAD, ring->head);
ENGINE_WRITE(engine, RING_TAIL, ring->head);
ENGINE_POSTING_READ(engine, RING_TAIL);
ENGINE_WRITE(engine, RING_CTL, RING_CTL_SIZE(ring->size) | RING_VALID);
/* If the head is still not zero, the ring is dead */
if (intel_wait_for_register(engine->uncore,
RING_CTL(engine->mmio_base),
RING_VALID, RING_VALID,
50)) {
DRM_ERROR("%s initialization failed "
"ctl %08x (valid? %d) head %08x [%08x] tail %08x [%08x] start %08x [expected %08x]\n",
engine->name,
ENGINE_READ(engine, RING_CTL),
ENGINE_READ(engine, RING_CTL) & RING_VALID,
ENGINE_READ(engine, RING_HEAD), ring->head,
ENGINE_READ(engine, RING_TAIL), ring->tail,
ENGINE_READ(engine, RING_START),
i915_ggtt_offset(ring->vma));
ret = -EIO;
goto out;
}
if (INTEL_GEN(dev_priv) > 2)
ENGINE_WRITE(engine,
RING_MI_MODE, _MASKED_BIT_DISABLE(STOP_RING));
/* Now awake, let it get started */
if (ring->tail != ring->head) {
ENGINE_WRITE(engine, RING_TAIL, ring->tail);
ENGINE_POSTING_READ(engine, RING_TAIL);
}
/* Papering over lost _interrupts_ immediately following the restart */
intel_engine_signal_breadcrumbs(engine);
out:
intel_uncore_forcewake_put(engine->uncore, FORCEWAKE_ALL);
return ret;
}
static void reset_prepare(struct intel_engine_cs *engine)
{
struct intel_uncore *uncore = engine->uncore;
const u32 base = engine->mmio_base;
/*
* We stop engines, otherwise we might get failed reset and a
* dead gpu (on elk). Also as modern gpu as kbl can suffer
* from system hang if batchbuffer is progressing when
* the reset is issued, regardless of READY_TO_RESET ack.
* Thus assume it is best to stop engines on all gens
* where we have a gpu reset.
*
* WaKBLVECSSemaphoreWaitPoll:kbl (on ALL_ENGINES)
*
* WaMediaResetMainRingCleanup:ctg,elk (presumably)
*
* FIXME: Wa for more modern gens needs to be validated
*/
ENGINE_TRACE(engine, "\n");
if (intel_engine_stop_cs(engine))
ENGINE_TRACE(engine, "timed out on STOP_RING\n");
intel_uncore_write_fw(uncore,
RING_HEAD(base),
intel_uncore_read_fw(uncore, RING_TAIL(base)));
intel_uncore_posting_read_fw(uncore, RING_HEAD(base)); /* paranoia */
intel_uncore_write_fw(uncore, RING_HEAD(base), 0);
intel_uncore_write_fw(uncore, RING_TAIL(base), 0);
intel_uncore_posting_read_fw(uncore, RING_TAIL(base));
/* The ring must be empty before it is disabled */
intel_uncore_write_fw(uncore, RING_CTL(base), 0);
/* Check acts as a post */
if (intel_uncore_read_fw(uncore, RING_HEAD(base)))
ENGINE_TRACE(engine, "ring head [%x] not parked\n",
intel_uncore_read_fw(uncore, RING_HEAD(base)));
}
static void reset_rewind(struct intel_engine_cs *engine, bool stalled)
{
struct i915_request *pos, *rq;
unsigned long flags;
u32 head;
rq = NULL;
spin_lock_irqsave(&engine->active.lock, flags);
list_for_each_entry(pos, &engine->active.requests, sched.link) {
if (!i915_request_completed(pos)) {
rq = pos;
break;
}
}
/*
* The guilty request will get skipped on a hung engine.
*
* Users of client default contexts do not rely on logical
* state preserved between batches so it is safe to execute
* queued requests following the hang. Non default contexts
* rely on preserved state, so skipping a batch loses the
* evolution of the state and it needs to be considered corrupted.
* Executing more queued batches on top of corrupted state is
* risky. But we take the risk by trying to advance through
* the queued requests in order to make the client behaviour
* more predictable around resets, by not throwing away random
* amount of batches it has prepared for execution. Sophisticated
* clients can use gem_reset_stats_ioctl and dma fence status
* (exported via sync_file info ioctl on explicit fences) to observe
* when it loses the context state and should rebuild accordingly.
*
* The context ban, and ultimately the client ban, mechanism are safety
* valves if client submission ends up resulting in nothing more than
* subsequent hangs.
*/
if (rq) {
/*
* Try to restore the logical GPU state to match the
* continuation of the request queue. If we skip the
* context/PD restore, then the next request may try to execute
* assuming that its context is valid and loaded on the GPU and
* so may try to access invalid memory, prompting repeated GPU
* hangs.
*
* If the request was guilty, we still restore the logical
* state in case the next request requires it (e.g. the
* aliasing ppgtt), but skip over the hung batch.
*
* If the request was innocent, we try to replay the request
* with the restored context.
*/
__i915_request_reset(rq, stalled);
GEM_BUG_ON(rq->ring != engine->legacy.ring);
head = rq->head;
} else {
head = engine->legacy.ring->tail;
}
engine->legacy.ring->head = intel_ring_wrap(engine->legacy.ring, head);
spin_unlock_irqrestore(&engine->active.lock, flags);
}
static void reset_finish(struct intel_engine_cs *engine)
{
}
static int rcs_resume(struct intel_engine_cs *engine)
{
struct drm_i915_private *i915 = engine->i915;
struct intel_uncore *uncore = engine->uncore;
/*
* Disable CONSTANT_BUFFER before it is loaded from the context
* image. For as it is loaded, it is executed and the stored
* address may no longer be valid, leading to a GPU hang.
*
* This imposes the requirement that userspace reload their
* CONSTANT_BUFFER on every batch, fortunately a requirement
* they are already accustomed to from before contexts were
* enabled.
*/
if (IS_GEN(i915, 4))
intel_uncore_write(uncore, ECOSKPD,
_MASKED_BIT_ENABLE(ECO_CONSTANT_BUFFER_SR_DISABLE));
/* WaTimedSingleVertexDispatch:cl,bw,ctg,elk,ilk,snb */
if (IS_GEN_RANGE(i915, 4, 6))
intel_uncore_write(uncore, MI_MODE,
_MASKED_BIT_ENABLE(VS_TIMER_DISPATCH));
/* We need to disable the AsyncFlip performance optimisations in order
* to use MI_WAIT_FOR_EVENT within the CS. It should already be
* programmed to '1' on all products.
*
* WaDisableAsyncFlipPerfMode:snb,ivb,hsw,vlv
*/
if (IS_GEN_RANGE(i915, 6, 7))
intel_uncore_write(uncore, MI_MODE,
_MASKED_BIT_ENABLE(ASYNC_FLIP_PERF_DISABLE));
/* Required for the hardware to program scanline values for waiting */
/* WaEnableFlushTlbInvalidationMode:snb */
if (IS_GEN(i915, 6))
intel_uncore_write(uncore, GFX_MODE,
_MASKED_BIT_ENABLE(GFX_TLB_INVALIDATE_EXPLICIT));
/* WaBCSVCSTlbInvalidationMode:ivb,vlv,hsw */
if (IS_GEN(i915, 7))
intel_uncore_write(uncore, GFX_MODE_GEN7,
_MASKED_BIT_ENABLE(GFX_TLB_INVALIDATE_EXPLICIT) |
_MASKED_BIT_ENABLE(GFX_REPLAY_MODE));
if (IS_GEN(i915, 6)) {
/* From the Sandybridge PRM, volume 1 part 3, page 24:
* "If this bit is set, STCunit will have LRA as replacement
* policy. [...] This bit must be reset. LRA replacement
* policy is not supported."
*/
intel_uncore_write(uncore, CACHE_MODE_0,
_MASKED_BIT_DISABLE(CM0_STC_EVICT_DISABLE_LRA_SNB));
}
if (IS_GEN_RANGE(i915, 6, 7))
intel_uncore_write(uncore, INSTPM,
_MASKED_BIT_ENABLE(INSTPM_FORCE_ORDERING));
return xcs_resume(engine);
}
static void reset_cancel(struct intel_engine_cs *engine)
{
struct i915_request *request;
unsigned long flags;
spin_lock_irqsave(&engine->active.lock, flags);
/* Mark all submitted requests as skipped. */
list_for_each_entry(request, &engine->active.requests, sched.link) {
if (!i915_request_signaled(request))
dma_fence_set_error(&request->fence, -EIO);
i915_request_mark_complete(request);
}
/* Remaining _unready_ requests will be nop'ed when submitted */
spin_unlock_irqrestore(&engine->active.lock, flags);
}
static void i9xx_submit_request(struct i915_request *request)
{
i915_request_submit(request);
wmb(); /* paranoid flush writes out of the WCB before mmio */
ENGINE_WRITE(request->engine, RING_TAIL,
intel_ring_set_tail(request->ring, request->tail));
}
static u32 *i9xx_emit_breadcrumb(struct i915_request *rq, u32 *cs)
{
GEM_BUG_ON(i915_request_active_timeline(rq)->hwsp_ggtt != rq->engine->status_page.vma);
GEM_BUG_ON(offset_in_page(i915_request_active_timeline(rq)->hwsp_offset) != I915_GEM_HWS_SEQNO_ADDR);
*cs++ = MI_FLUSH;
*cs++ = MI_STORE_DWORD_INDEX;
*cs++ = I915_GEM_HWS_SEQNO_ADDR;
*cs++ = rq->fence.seqno;
*cs++ = MI_USER_INTERRUPT;
*cs++ = MI_NOOP;
rq->tail = intel_ring_offset(rq, cs);
assert_ring_tail_valid(rq->ring, rq->tail);
return cs;
}
#define GEN5_WA_STORES 8 /* must be at least 1! */
static u32 *gen5_emit_breadcrumb(struct i915_request *rq, u32 *cs)
{
int i;
GEM_BUG_ON(i915_request_active_timeline(rq)->hwsp_ggtt != rq->engine->status_page.vma);
GEM_BUG_ON(offset_in_page(i915_request_active_timeline(rq)->hwsp_offset) != I915_GEM_HWS_SEQNO_ADDR);
*cs++ = MI_FLUSH;
BUILD_BUG_ON(GEN5_WA_STORES < 1);
for (i = 0; i < GEN5_WA_STORES; i++) {
*cs++ = MI_STORE_DWORD_INDEX;
*cs++ = I915_GEM_HWS_SEQNO_ADDR;
*cs++ = rq->fence.seqno;
}
*cs++ = MI_USER_INTERRUPT;
rq->tail = intel_ring_offset(rq, cs);
assert_ring_tail_valid(rq->ring, rq->tail);
return cs;
}
#undef GEN5_WA_STORES
static void
gen5_irq_enable(struct intel_engine_cs *engine)
{
gen5_gt_enable_irq(engine->gt, engine->irq_enable_mask);
}
static void
gen5_irq_disable(struct intel_engine_cs *engine)
{
gen5_gt_disable_irq(engine->gt, engine->irq_enable_mask);
}
static void
i9xx_irq_enable(struct intel_engine_cs *engine)
{
engine->i915->irq_mask &= ~engine->irq_enable_mask;
intel_uncore_write(engine->uncore, GEN2_IMR, engine->i915->irq_mask);
intel_uncore_posting_read_fw(engine->uncore, GEN2_IMR);
}
static void
i9xx_irq_disable(struct intel_engine_cs *engine)
{
engine->i915->irq_mask |= engine->irq_enable_mask;
intel_uncore_write(engine->uncore, GEN2_IMR, engine->i915->irq_mask);
}
static void
i8xx_irq_enable(struct intel_engine_cs *engine)
{
struct drm_i915_private *i915 = engine->i915;
i915->irq_mask &= ~engine->irq_enable_mask;
intel_uncore_write16(&i915->uncore, GEN2_IMR, i915->irq_mask);
ENGINE_POSTING_READ16(engine, RING_IMR);
}
static void
i8xx_irq_disable(struct intel_engine_cs *engine)
{
struct drm_i915_private *i915 = engine->i915;
i915->irq_mask |= engine->irq_enable_mask;
intel_uncore_write16(&i915->uncore, GEN2_IMR, i915->irq_mask);
}
static int
bsd_ring_flush(struct i915_request *rq, u32 mode)
{
u32 *cs;
cs = intel_ring_begin(rq, 2);
if (IS_ERR(cs))
return PTR_ERR(cs);
*cs++ = MI_FLUSH;
*cs++ = MI_NOOP;
intel_ring_advance(rq, cs);
return 0;
}
static void
gen6_irq_enable(struct intel_engine_cs *engine)
{
ENGINE_WRITE(engine, RING_IMR,
~(engine->irq_enable_mask | engine->irq_keep_mask));
/* Flush/delay to ensure the RING_IMR is active before the GT IMR */
ENGINE_POSTING_READ(engine, RING_IMR);
gen5_gt_enable_irq(engine->gt, engine->irq_enable_mask);
}
static void
gen6_irq_disable(struct intel_engine_cs *engine)
{
ENGINE_WRITE(engine, RING_IMR, ~engine->irq_keep_mask);
gen5_gt_disable_irq(engine->gt, engine->irq_enable_mask);
}
static void
hsw_vebox_irq_enable(struct intel_engine_cs *engine)
{
ENGINE_WRITE(engine, RING_IMR, ~engine->irq_enable_mask);
/* Flush/delay to ensure the RING_IMR is active before the GT IMR */
ENGINE_POSTING_READ(engine, RING_IMR);
gen6_gt_pm_unmask_irq(engine->gt, engine->irq_enable_mask);
}
static void
hsw_vebox_irq_disable(struct intel_engine_cs *engine)
{
ENGINE_WRITE(engine, RING_IMR, ~0);
gen6_gt_pm_mask_irq(engine->gt, engine->irq_enable_mask);
}
static int
i965_emit_bb_start(struct i915_request *rq,
u64 offset, u32 length,
unsigned int dispatch_flags)
{
u32 *cs;
cs = intel_ring_begin(rq, 2);
if (IS_ERR(cs))
return PTR_ERR(cs);
*cs++ = MI_BATCH_BUFFER_START | MI_BATCH_GTT | (dispatch_flags &
I915_DISPATCH_SECURE ? 0 : MI_BATCH_NON_SECURE_I965);
*cs++ = offset;
intel_ring_advance(rq, cs);
return 0;
}
/* Just userspace ABI convention to limit the wa batch bo to a resonable size */
#define I830_BATCH_LIMIT SZ_256K
#define I830_TLB_ENTRIES (2)
#define I830_WA_SIZE max(I830_TLB_ENTRIES*4096, I830_BATCH_LIMIT)
static int
i830_emit_bb_start(struct i915_request *rq,
u64 offset, u32 len,
unsigned int dispatch_flags)
{
u32 *cs, cs_offset =
intel_gt_scratch_offset(rq->engine->gt,
INTEL_GT_SCRATCH_FIELD_DEFAULT);
GEM_BUG_ON(rq->engine->gt->scratch->size < I830_WA_SIZE);
cs = intel_ring_begin(rq, 6);
if (IS_ERR(cs))
return PTR_ERR(cs);
/* Evict the invalid PTE TLBs */
*cs++ = COLOR_BLT_CMD | BLT_WRITE_RGBA;
*cs++ = BLT_DEPTH_32 | BLT_ROP_COLOR_COPY | 4096;
*cs++ = I830_TLB_ENTRIES << 16 | 4; /* load each page */
*cs++ = cs_offset;
*cs++ = 0xdeadbeef;
*cs++ = MI_NOOP;
intel_ring_advance(rq, cs);
if ((dispatch_flags & I915_DISPATCH_PINNED) == 0) {
if (len > I830_BATCH_LIMIT)
return -ENOSPC;
cs = intel_ring_begin(rq, 6 + 2);
if (IS_ERR(cs))
return PTR_ERR(cs);
/* Blit the batch (which has now all relocs applied) to the
* stable batch scratch bo area (so that the CS never
* stumbles over its tlb invalidation bug) ...
*/
*cs++ = SRC_COPY_BLT_CMD | BLT_WRITE_RGBA | (6 - 2);
*cs++ = BLT_DEPTH_32 | BLT_ROP_SRC_COPY | 4096;
*cs++ = DIV_ROUND_UP(len, 4096) << 16 | 4096;
*cs++ = cs_offset;
*cs++ = 4096;
*cs++ = offset;
*cs++ = MI_FLUSH;
*cs++ = MI_NOOP;
intel_ring_advance(rq, cs);
/* ... and execute it. */
offset = cs_offset;
}
cs = intel_ring_begin(rq, 2);
if (IS_ERR(cs))
return PTR_ERR(cs);
*cs++ = MI_BATCH_BUFFER_START | MI_BATCH_GTT;
*cs++ = offset | (dispatch_flags & I915_DISPATCH_SECURE ? 0 :
MI_BATCH_NON_SECURE);
intel_ring_advance(rq, cs);
return 0;
}
static int
i915_emit_bb_start(struct i915_request *rq,
u64 offset, u32 len,
unsigned int dispatch_flags)
{
u32 *cs;
cs = intel_ring_begin(rq, 2);
if (IS_ERR(cs))
return PTR_ERR(cs);
*cs++ = MI_BATCH_BUFFER_START | MI_BATCH_GTT;
*cs++ = offset | (dispatch_flags & I915_DISPATCH_SECURE ? 0 :
MI_BATCH_NON_SECURE);
intel_ring_advance(rq, cs);
return 0;
}
static void __ring_context_fini(struct intel_context *ce)
{
i915_vma_put(ce->state);
}
static void ring_context_destroy(struct kref *ref)
{
struct intel_context *ce = container_of(ref, typeof(*ce), ref);
GEM_BUG_ON(intel_context_is_pinned(ce));
if (ce->state)
__ring_context_fini(ce);
intel_context_fini(ce);
intel_context_free(ce);
}
static struct i915_address_space *vm_alias(struct intel_context *ce)
{
struct i915_address_space *vm;
vm = ce->vm;
if (i915_is_ggtt(vm))
vm = &i915_vm_to_ggtt(vm)->alias->vm;
return vm;
}
static int __context_pin_ppgtt(struct intel_context *ce)
{
struct i915_address_space *vm;
int err = 0;
vm = vm_alias(ce);
if (vm)
err = gen6_ppgtt_pin(i915_vm_to_ppgtt((vm)));
return err;
}
static void __context_unpin_ppgtt(struct intel_context *ce)
{
struct i915_address_space *vm;
vm = vm_alias(ce);
if (vm)
gen6_ppgtt_unpin(i915_vm_to_ppgtt(vm));
}
static void ring_context_unpin(struct intel_context *ce)
{
__context_unpin_ppgtt(ce);
}
static struct i915_vma *
alloc_context_vma(struct intel_engine_cs *engine)
{
struct drm_i915_private *i915 = engine->i915;
struct drm_i915_gem_object *obj;
struct i915_vma *vma;
int err;
obj = i915_gem_object_create_shmem(i915, engine->context_size);
if (IS_ERR(obj))
return ERR_CAST(obj);
/*
* Try to make the context utilize L3 as well as LLC.
*
* On VLV we don't have L3 controls in the PTEs so we
* shouldn't touch the cache level, especially as that
* would make the object snooped which might have a
* negative performance impact.
*
* Snooping is required on non-llc platforms in execlist
* mode, but since all GGTT accesses use PAT entry 0 we
* get snooping anyway regardless of cache_level.
*
* This is only applicable for Ivy Bridge devices since
* later platforms don't have L3 control bits in the PTE.
*/
if (IS_IVYBRIDGE(i915))
i915_gem_object_set_cache_coherency(obj, I915_CACHE_L3_LLC);
if (engine->default_state) {
void *defaults, *vaddr;
vaddr = i915_gem_object_pin_map(obj, I915_MAP_WB);
if (IS_ERR(vaddr)) {
err = PTR_ERR(vaddr);
goto err_obj;
}
defaults = i915_gem_object_pin_map(engine->default_state,
I915_MAP_WB);
if (IS_ERR(defaults)) {
err = PTR_ERR(defaults);
goto err_map;
}
memcpy(vaddr, defaults, engine->context_size);
i915_gem_object_unpin_map(engine->default_state);
i915_gem_object_flush_map(obj);
i915_gem_object_unpin_map(obj);
}
vma = i915_vma_instance(obj, &engine->gt->ggtt->vm, NULL);
if (IS_ERR(vma)) {
err = PTR_ERR(vma);
goto err_obj;
}
return vma;
err_map:
i915_gem_object_unpin_map(obj);
err_obj:
i915_gem_object_put(obj);
return ERR_PTR(err);
}
static int ring_context_alloc(struct intel_context *ce)
{
struct intel_engine_cs *engine = ce->engine;
/* One ringbuffer to rule them all */
GEM_BUG_ON(!engine->legacy.ring);
ce->ring = engine->legacy.ring;
ce->timeline = intel_timeline_get(engine->legacy.timeline);
GEM_BUG_ON(ce->state);
if (engine->context_size) {
struct i915_vma *vma;
vma = alloc_context_vma(engine);
if (IS_ERR(vma))
return PTR_ERR(vma);
ce->state = vma;
if (engine->default_state)
__set_bit(CONTEXT_VALID_BIT, &ce->flags);
}
return 0;
}
static int ring_context_pin(struct intel_context *ce)
{
return __context_pin_ppgtt(ce);
}
static void ring_context_reset(struct intel_context *ce)
{
intel_ring_reset(ce->ring, ce->ring->emit);
}
static const struct intel_context_ops ring_context_ops = {
.alloc = ring_context_alloc,
.pin = ring_context_pin,
.unpin = ring_context_unpin,
.enter = intel_context_enter_engine,
.exit = intel_context_exit_engine,
.reset = ring_context_reset,
.destroy = ring_context_destroy,
};
static int load_pd_dir(struct i915_request *rq,
const struct i915_ppgtt *ppgtt,
u32 valid)
{
const struct intel_engine_cs * const engine = rq->engine;
u32 *cs;
cs = intel_ring_begin(rq, 12);
if (IS_ERR(cs))
return PTR_ERR(cs);
*cs++ = MI_LOAD_REGISTER_IMM(1);
*cs++ = i915_mmio_reg_offset(RING_PP_DIR_DCLV(engine->mmio_base));
*cs++ = valid;
*cs++ = MI_LOAD_REGISTER_IMM(1);
*cs++ = i915_mmio_reg_offset(RING_PP_DIR_BASE(engine->mmio_base));
*cs++ = px_base(ppgtt->pd)->ggtt_offset << 10;
/* Stall until the page table load is complete? */
*cs++ = MI_STORE_REGISTER_MEM | MI_SRM_LRM_GLOBAL_GTT;
*cs++ = i915_mmio_reg_offset(RING_PP_DIR_BASE(engine->mmio_base));
*cs++ = intel_gt_scratch_offset(engine->gt,
INTEL_GT_SCRATCH_FIELD_DEFAULT);
*cs++ = MI_LOAD_REGISTER_IMM(1);
*cs++ = i915_mmio_reg_offset(RING_INSTPM(engine->mmio_base));
*cs++ = _MASKED_BIT_ENABLE(INSTPM_TLB_INVALIDATE);
intel_ring_advance(rq, cs);
return rq->engine->emit_flush(rq, EMIT_FLUSH);
}
static inline int mi_set_context(struct i915_request *rq, u32 flags)
{
struct drm_i915_private *i915 = rq->i915;
struct intel_engine_cs *engine = rq->engine;
enum intel_engine_id id;
const int num_engines =
IS_HASWELL(i915) ? RUNTIME_INFO(i915)->num_engines - 1 : 0;
bool force_restore = false;
int len;
u32 *cs;
len = 4;
if (IS_GEN(i915, 7))
len += 2 + (num_engines ? 4 * num_engines + 6 : 0);
else if (IS_GEN(i915, 5))
len += 2;
if (flags & MI_FORCE_RESTORE) {
GEM_BUG_ON(flags & MI_RESTORE_INHIBIT);
flags &= ~MI_FORCE_RESTORE;
force_restore = true;
len += 2;
}
cs = intel_ring_begin(rq, len);
if (IS_ERR(cs))
return PTR_ERR(cs);
/* WaProgramMiArbOnOffAroundMiSetContext:ivb,vlv,hsw,bdw,chv */
if (IS_GEN(i915, 7)) {
*cs++ = MI_ARB_ON_OFF | MI_ARB_DISABLE;
if (num_engines) {
struct intel_engine_cs *signaller;
*cs++ = MI_LOAD_REGISTER_IMM(num_engines);
for_each_engine(signaller, engine->gt, id) {
if (signaller == engine)
continue;
*cs++ = i915_mmio_reg_offset(
RING_PSMI_CTL(signaller->mmio_base));
*cs++ = _MASKED_BIT_ENABLE(
GEN6_PSMI_SLEEP_MSG_DISABLE);
}
}
} else if (IS_GEN(i915, 5)) {
/*
* This w/a is only listed for pre-production ilk a/b steppings,
* but is also mentioned for programming the powerctx. To be
* safe, just apply the workaround; we do not use SyncFlush so
* this should never take effect and so be a no-op!
*/
*cs++ = MI_SUSPEND_FLUSH | MI_SUSPEND_FLUSH_EN;
}
if (force_restore) {
/*
* The HW doesn't handle being told to restore the current
* context very well. Quite often it likes goes to go off and
* sulk, especially when it is meant to be reloading PP_DIR.
* A very simple fix to force the reload is to simply switch
* away from the current context and back again.
*
* Note that the kernel_context will contain random state
* following the INHIBIT_RESTORE. We accept this since we
* never use the kernel_context state; it is merely a
* placeholder we use to flush other contexts.
*/
*cs++ = MI_SET_CONTEXT;
*cs++ = i915_ggtt_offset(engine->kernel_context->state) |
MI_MM_SPACE_GTT |
MI_RESTORE_INHIBIT;
}
*cs++ = MI_NOOP;
*cs++ = MI_SET_CONTEXT;
*cs++ = i915_ggtt_offset(rq->context->state) | flags;
/*
* w/a: MI_SET_CONTEXT must always be followed by MI_NOOP
* WaMiSetContext_Hang:snb,ivb,vlv
*/
*cs++ = MI_NOOP;
if (IS_GEN(i915, 7)) {
if (num_engines) {
struct intel_engine_cs *signaller;
i915_reg_t last_reg = {}; /* keep gcc quiet */
*cs++ = MI_LOAD_REGISTER_IMM(num_engines);
for_each_engine(signaller, engine->gt, id) {
if (signaller == engine)
continue;
last_reg = RING_PSMI_CTL(signaller->mmio_base);
*cs++ = i915_mmio_reg_offset(last_reg);
*cs++ = _MASKED_BIT_DISABLE(
GEN6_PSMI_SLEEP_MSG_DISABLE);
}
/* Insert a delay before the next switch! */
*cs++ = MI_STORE_REGISTER_MEM | MI_SRM_LRM_GLOBAL_GTT;
*cs++ = i915_mmio_reg_offset(last_reg);
*cs++ = intel_gt_scratch_offset(engine->gt,
INTEL_GT_SCRATCH_FIELD_DEFAULT);
*cs++ = MI_NOOP;
}
*cs++ = MI_ARB_ON_OFF | MI_ARB_ENABLE;
} else if (IS_GEN(i915, 5)) {
*cs++ = MI_SUSPEND_FLUSH;
}
intel_ring_advance(rq, cs);
return 0;
}
static int remap_l3_slice(struct i915_request *rq, int slice)
{
u32 *cs, *remap_info = rq->i915->l3_parity.remap_info[slice];
int i;
if (!remap_info)
return 0;
cs = intel_ring_begin(rq, GEN7_L3LOG_SIZE/4 * 2 + 2);
if (IS_ERR(cs))
return PTR_ERR(cs);
/*
* Note: We do not worry about the concurrent register cacheline hang
* here because no other code should access these registers other than
* at initialization time.
*/
*cs++ = MI_LOAD_REGISTER_IMM(GEN7_L3LOG_SIZE/4);
for (i = 0; i < GEN7_L3LOG_SIZE/4; i++) {
*cs++ = i915_mmio_reg_offset(GEN7_L3LOG(slice, i));
*cs++ = remap_info[i];
}
*cs++ = MI_NOOP;
intel_ring_advance(rq, cs);
return 0;
}
static int remap_l3(struct i915_request *rq)
{
struct i915_gem_context *ctx = i915_request_gem_context(rq);
int i, err;
if (!ctx || !ctx->remap_slice)
return 0;
for (i = 0; i < MAX_L3_SLICES; i++) {
if (!(ctx->remap_slice & BIT(i)))
continue;
err = remap_l3_slice(rq, i);
if (err)
return err;
}
ctx->remap_slice = 0;
return 0;
}
static int switch_mm(struct i915_request *rq, struct i915_address_space *vm)
{
int ret;
if (!vm)
return 0;
ret = rq->engine->emit_flush(rq, EMIT_FLUSH);
if (ret)
return ret;
/*
* Not only do we need a full barrier (post-sync write) after
* invalidating the TLBs, but we need to wait a little bit
* longer. Whether this is merely delaying us, or the
* subsequent flush is a key part of serialising with the
* post-sync op, this extra pass appears vital before a
* mm switch!
*/
ret = load_pd_dir(rq, i915_vm_to_ppgtt(vm), PP_DIR_DCLV_2G);
if (ret)
return ret;
return rq->engine->emit_flush(rq, EMIT_INVALIDATE);
}
static int switch_context(struct i915_request *rq)
{
struct intel_context *ce = rq->context;
int ret;
GEM_BUG_ON(HAS_EXECLISTS(rq->i915));
ret = switch_mm(rq, vm_alias(ce));
if (ret)
return ret;
if (ce->state) {
u32 flags;
GEM_BUG_ON(rq->engine->id != RCS0);
/* For resource streamer on HSW+ and power context elsewhere */
BUILD_BUG_ON(HSW_MI_RS_SAVE_STATE_EN != MI_SAVE_EXT_STATE_EN);
BUILD_BUG_ON(HSW_MI_RS_RESTORE_STATE_EN != MI_RESTORE_EXT_STATE_EN);
flags = MI_SAVE_EXT_STATE_EN | MI_MM_SPACE_GTT;
if (test_bit(CONTEXT_VALID_BIT, &ce->flags))
flags |= MI_RESTORE_EXT_STATE_EN;
else
flags |= MI_RESTORE_INHIBIT;
ret = mi_set_context(rq, flags);
if (ret)
return ret;
}
ret = remap_l3(rq);
if (ret)
return ret;
return 0;
}
static int ring_request_alloc(struct i915_request *request)
{
int ret;
GEM_BUG_ON(!intel_context_is_pinned(request->context));
GEM_BUG_ON(i915_request_timeline(request)->has_initial_breadcrumb);
/*
* Flush enough space to reduce the likelihood of waiting after
* we start building the request - in which case we will just
* have to repeat work.
*/
request->reserved_space += LEGACY_REQUEST_SIZE;
/* Unconditionally invalidate GPU caches and TLBs. */
ret = request->engine->emit_flush(request, EMIT_INVALIDATE);
if (ret)
return ret;
ret = switch_context(request);
if (ret)
return ret;
request->reserved_space -= LEGACY_REQUEST_SIZE;
return 0;
}
static void gen6_bsd_submit_request(struct i915_request *request)
{
struct intel_uncore *uncore = request->engine->uncore;
intel_uncore_forcewake_get(uncore, FORCEWAKE_ALL);
/* Every tail move must follow the sequence below */
/* Disable notification that the ring is IDLE. The GT
* will then assume that it is busy and bring it out of rc6.
*/
intel_uncore_write_fw(uncore, GEN6_BSD_SLEEP_PSMI_CONTROL,
_MASKED_BIT_ENABLE(GEN6_BSD_SLEEP_MSG_DISABLE));
/* Clear the context id. Here be magic! */
intel_uncore_write64_fw(uncore, GEN6_BSD_RNCID, 0x0);
/* Wait for the ring not to be idle, i.e. for it to wake up. */
if (__intel_wait_for_register_fw(uncore,
GEN6_BSD_SLEEP_PSMI_CONTROL,
GEN6_BSD_SLEEP_INDICATOR,
0,
1000, 0, NULL))
DRM_ERROR("timed out waiting for the BSD ring to wake up\n");
/* Now that the ring is fully powered up, update the tail */
i9xx_submit_request(request);
/* Let the ring send IDLE messages to the GT again,
* and so let it sleep to conserve power when idle.
*/
intel_uncore_write_fw(uncore, GEN6_BSD_SLEEP_PSMI_CONTROL,
_MASKED_BIT_DISABLE(GEN6_BSD_SLEEP_MSG_DISABLE));
intel_uncore_forcewake_put(uncore, FORCEWAKE_ALL);
}
static int mi_flush_dw(struct i915_request *rq, u32 flags)
{
u32 cmd, *cs;
cs = intel_ring_begin(rq, 4);
if (IS_ERR(cs))
return PTR_ERR(cs);
cmd = MI_FLUSH_DW;
/*
* We always require a command barrier so that subsequent
* commands, such as breadcrumb interrupts, are strictly ordered
* wrt the contents of the write cache being flushed to memory
* (and thus being coherent from the CPU).
*/
cmd |= MI_FLUSH_DW_STORE_INDEX | MI_FLUSH_DW_OP_STOREDW;
/*
* Bspec vol 1c.3 - blitter engine command streamer:
* "If ENABLED, all TLBs will be invalidated once the flush
* operation is complete. This bit is only valid when the
* Post-Sync Operation field is a value of 1h or 3h."
*/
cmd |= flags;
*cs++ = cmd;
*cs++ = I915_GEM_HWS_SCRATCH_ADDR | MI_FLUSH_DW_USE_GTT;
*cs++ = 0;
*cs++ = MI_NOOP;
intel_ring_advance(rq, cs);
return 0;
}
static int gen6_flush_dw(struct i915_request *rq, u32 mode, u32 invflags)
{
return mi_flush_dw(rq, mode & EMIT_INVALIDATE ? invflags : 0);
}
static int gen6_bsd_ring_flush(struct i915_request *rq, u32 mode)
{
return gen6_flush_dw(rq, mode, MI_INVALIDATE_TLB | MI_INVALIDATE_BSD);
}
static int
hsw_emit_bb_start(struct i915_request *rq,
u64 offset, u32 len,
unsigned int dispatch_flags)
{
u32 *cs;
cs = intel_ring_begin(rq, 2);
if (IS_ERR(cs))
return PTR_ERR(cs);
*cs++ = MI_BATCH_BUFFER_START | (dispatch_flags & I915_DISPATCH_SECURE ?
0 : MI_BATCH_PPGTT_HSW | MI_BATCH_NON_SECURE_HSW);
/* bit0-7 is the length on GEN6+ */
*cs++ = offset;
intel_ring_advance(rq, cs);
return 0;
}
static int
gen6_emit_bb_start(struct i915_request *rq,
u64 offset, u32 len,
unsigned int dispatch_flags)
{
u32 *cs;
cs = intel_ring_begin(rq, 2);
if (IS_ERR(cs))
return PTR_ERR(cs);
*cs++ = MI_BATCH_BUFFER_START | (dispatch_flags & I915_DISPATCH_SECURE ?
0 : MI_BATCH_NON_SECURE_I965);
/* bit0-7 is the length on GEN6+ */
*cs++ = offset;
intel_ring_advance(rq, cs);
return 0;
}
/* Blitter support (SandyBridge+) */
static int gen6_ring_flush(struct i915_request *rq, u32 mode)
{
return gen6_flush_dw(rq, mode, MI_INVALIDATE_TLB);
}
static void i9xx_set_default_submission(struct intel_engine_cs *engine)
{
engine->submit_request = i9xx_submit_request;
engine->park = NULL;
engine->unpark = NULL;
}
static void gen6_bsd_set_default_submission(struct intel_engine_cs *engine)
{
i9xx_set_default_submission(engine);
engine->submit_request = gen6_bsd_submit_request;
}
static void ring_release(struct intel_engine_cs *engine)
{
struct drm_i915_private *dev_priv = engine->i915;
WARN_ON(INTEL_GEN(dev_priv) > 2 &&
(ENGINE_READ(engine, RING_MI_MODE) & MODE_IDLE) == 0);
intel_engine_cleanup_common(engine);
intel_ring_unpin(engine->legacy.ring);
intel_ring_put(engine->legacy.ring);
intel_timeline_unpin(engine->legacy.timeline);
intel_timeline_put(engine->legacy.timeline);
}
static void setup_irq(struct intel_engine_cs *engine)
{
struct drm_i915_private *i915 = engine->i915;
if (INTEL_GEN(i915) >= 6) {
engine->irq_enable = gen6_irq_enable;
engine->irq_disable = gen6_irq_disable;
} else if (INTEL_GEN(i915) >= 5) {
engine->irq_enable = gen5_irq_enable;
engine->irq_disable = gen5_irq_disable;
} else if (INTEL_GEN(i915) >= 3) {
engine->irq_enable = i9xx_irq_enable;
engine->irq_disable = i9xx_irq_disable;
} else {
engine->irq_enable = i8xx_irq_enable;
engine->irq_disable = i8xx_irq_disable;
}
}
static void setup_common(struct intel_engine_cs *engine)
{
struct drm_i915_private *i915 = engine->i915;
/* gen8+ are only supported with execlists */
GEM_BUG_ON(INTEL_GEN(i915) >= 8);
setup_irq(engine);
engine->resume = xcs_resume;
engine->reset.prepare = reset_prepare;
engine->reset.rewind = reset_rewind;
engine->reset.cancel = reset_cancel;
engine->reset.finish = reset_finish;
engine->cops = &ring_context_ops;
engine->request_alloc = ring_request_alloc;
/*
* Using a global execution timeline; the previous final breadcrumb is
* equivalent to our next initial bread so we can elide
* engine->emit_init_breadcrumb().
*/
engine->emit_fini_breadcrumb = i9xx_emit_breadcrumb;
if (IS_GEN(i915, 5))
engine->emit_fini_breadcrumb = gen5_emit_breadcrumb;
engine->set_default_submission = i9xx_set_default_submission;
if (INTEL_GEN(i915) >= 6)
engine->emit_bb_start = gen6_emit_bb_start;
else if (INTEL_GEN(i915) >= 4)
engine->emit_bb_start = i965_emit_bb_start;
else if (IS_I830(i915) || IS_I845G(i915))
engine->emit_bb_start = i830_emit_bb_start;
else
engine->emit_bb_start = i915_emit_bb_start;
}
static void setup_rcs(struct intel_engine_cs *engine)
{
struct drm_i915_private *i915 = engine->i915;
if (HAS_L3_DPF(i915))
engine->irq_keep_mask = GT_RENDER_L3_PARITY_ERROR_INTERRUPT;
engine->irq_enable_mask = GT_RENDER_USER_INTERRUPT;
if (INTEL_GEN(i915) >= 7) {
engine->emit_flush = gen7_render_ring_flush;
engine->emit_fini_breadcrumb = gen7_rcs_emit_breadcrumb;
} else if (IS_GEN(i915, 6)) {
engine->emit_flush = gen6_render_ring_flush;
engine->emit_fini_breadcrumb = gen6_rcs_emit_breadcrumb;
} else if (IS_GEN(i915, 5)) {
engine->emit_flush = gen4_render_ring_flush;
} else {
if (INTEL_GEN(i915) < 4)
engine->emit_flush = gen2_render_ring_flush;
else
engine->emit_flush = gen4_render_ring_flush;
engine->irq_enable_mask = I915_USER_INTERRUPT;
}
if (IS_HASWELL(i915))
engine->emit_bb_start = hsw_emit_bb_start;
engine->resume = rcs_resume;
}
static void setup_vcs(struct intel_engine_cs *engine)
{
struct drm_i915_private *i915 = engine->i915;
if (INTEL_GEN(i915) >= 6) {
/* gen6 bsd needs a special wa for tail updates */
if (IS_GEN(i915, 6))
engine->set_default_submission = gen6_bsd_set_default_submission;
engine->emit_flush = gen6_bsd_ring_flush;
engine->irq_enable_mask = GT_BSD_USER_INTERRUPT;
if (IS_GEN(i915, 6))
engine->emit_fini_breadcrumb = gen6_xcs_emit_breadcrumb;
else
engine->emit_fini_breadcrumb = gen7_xcs_emit_breadcrumb;
} else {
engine->emit_flush = bsd_ring_flush;
if (IS_GEN(i915, 5))
engine->irq_enable_mask = ILK_BSD_USER_INTERRUPT;
else
engine->irq_enable_mask = I915_BSD_USER_INTERRUPT;
}
}
static void setup_bcs(struct intel_engine_cs *engine)
{
struct drm_i915_private *i915 = engine->i915;
engine->emit_flush = gen6_ring_flush;
engine->irq_enable_mask = GT_BLT_USER_INTERRUPT;
if (IS_GEN(i915, 6))
engine->emit_fini_breadcrumb = gen6_xcs_emit_breadcrumb;
else
engine->emit_fini_breadcrumb = gen7_xcs_emit_breadcrumb;
}
static void setup_vecs(struct intel_engine_cs *engine)
{
struct drm_i915_private *i915 = engine->i915;
GEM_BUG_ON(INTEL_GEN(i915) < 7);
engine->emit_flush = gen6_ring_flush;
engine->irq_enable_mask = PM_VEBOX_USER_INTERRUPT;
engine->irq_enable = hsw_vebox_irq_enable;
engine->irq_disable = hsw_vebox_irq_disable;
engine->emit_fini_breadcrumb = gen7_xcs_emit_breadcrumb;
}
int intel_ring_submission_setup(struct intel_engine_cs *engine)
{
struct intel_timeline *timeline;
struct intel_ring *ring;
int err;
setup_common(engine);
switch (engine->class) {
case RENDER_CLASS:
setup_rcs(engine);
break;
case VIDEO_DECODE_CLASS:
setup_vcs(engine);
break;
case COPY_ENGINE_CLASS:
setup_bcs(engine);
break;
case VIDEO_ENHANCEMENT_CLASS:
setup_vecs(engine);
break;
default:
MISSING_CASE(engine->class);
return -ENODEV;
}
timeline = intel_timeline_create(engine->gt, engine->status_page.vma);
if (IS_ERR(timeline)) {
err = PTR_ERR(timeline);
goto err;
}
GEM_BUG_ON(timeline->has_initial_breadcrumb);
err = intel_timeline_pin(timeline);
if (err)
goto err_timeline;
ring = intel_engine_create_ring(engine, SZ_16K);
if (IS_ERR(ring)) {
err = PTR_ERR(ring);
goto err_timeline_unpin;
}
err = intel_ring_pin(ring);
if (err)
goto err_ring;
GEM_BUG_ON(engine->legacy.ring);
engine->legacy.ring = ring;
engine->legacy.timeline = timeline;
GEM_BUG_ON(timeline->hwsp_ggtt != engine->status_page.vma);
/* Finally, take ownership and responsibility for cleanup! */
engine->release = ring_release;
return 0;
err_ring:
intel_ring_put(ring);
err_timeline_unpin:
intel_timeline_unpin(timeline);
err_timeline:
intel_timeline_put(timeline);
err:
intel_engine_cleanup_common(engine);
return err;
}
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