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|
// SPDX-License-Identifier: MIT
/*
* Copyright © 2020 Intel Corporation
*/
#include "i915_drv.h"
#include "intel_context.h"
#include "intel_gpu_commands.h"
#include "intel_gt.h"
#include "intel_gtt.h"
#include "intel_migrate.h"
#include "intel_ring.h"
struct insert_pte_data {
u64 offset;
bool is_lmem;
};
#define CHUNK_SZ SZ_8M /* ~1ms at 8GiB/s preemption delay */
static bool engine_supports_migration(struct intel_engine_cs *engine)
{
if (!engine)
return false;
/*
* We need the ability to prevent aribtration (MI_ARB_ON_OFF),
* the ability to write PTE using inline data (MI_STORE_DATA)
* and of course the ability to do the block transfer (blits).
*/
GEM_BUG_ON(engine->class != COPY_ENGINE_CLASS);
return true;
}
static void insert_pte(struct i915_address_space *vm,
struct i915_page_table *pt,
void *data)
{
struct insert_pte_data *d = data;
vm->insert_page(vm, px_dma(pt), d->offset, I915_CACHE_NONE,
d->is_lmem ? PTE_LM : 0);
d->offset += PAGE_SIZE;
}
static struct i915_address_space *migrate_vm(struct intel_gt *gt)
{
struct i915_vm_pt_stash stash = {};
struct i915_ppgtt *vm;
int err;
int i;
/*
* We construct a very special VM for use by all migration contexts,
* it is kept pinned so that it can be used at any time. As we need
* to pre-allocate the page directories for the migration VM, this
* limits us to only using a small number of prepared vma.
*
* To be able to pipeline and reschedule migration operations while
* avoiding unnecessary contention on the vm itself, the PTE updates
* are inline with the blits. All the blits use the same fixed
* addresses, with the backing store redirection being updated on the
* fly. Only 2 implicit vma are used for all migration operations.
*
* We lay the ppGTT out as:
*
* [0, CHUNK_SZ) -> first object
* [CHUNK_SZ, 2 * CHUNK_SZ) -> second object
* [2 * CHUNK_SZ, 2 * CHUNK_SZ + 2 * CHUNK_SZ >> 9] -> PTE
*
* By exposing the dma addresses of the page directories themselves
* within the ppGTT, we are then able to rewrite the PTE prior to use.
* But the PTE update and subsequent migration operation must be atomic,
* i.e. within the same non-preemptible window so that we do not switch
* to another migration context that overwrites the PTE.
*
* TODO: Add support for huge LMEM PTEs
*/
vm = i915_ppgtt_create(gt, I915_BO_ALLOC_PM_EARLY);
if (IS_ERR(vm))
return ERR_CAST(vm);
if (!vm->vm.allocate_va_range || !vm->vm.foreach) {
err = -ENODEV;
goto err_vm;
}
/*
* Each engine instance is assigned its own chunk in the VM, so
* that we can run multiple instances concurrently
*/
for (i = 0; i < ARRAY_SIZE(gt->engine_class[COPY_ENGINE_CLASS]); i++) {
struct intel_engine_cs *engine;
u64 base = (u64)i << 32;
struct insert_pte_data d = {};
struct i915_gem_ww_ctx ww;
u64 sz;
engine = gt->engine_class[COPY_ENGINE_CLASS][i];
if (!engine_supports_migration(engine))
continue;
/*
* We copy in 8MiB chunks. Each PDE covers 2MiB, so we need
* 4x2 page directories for source/destination.
*/
sz = 2 * CHUNK_SZ;
d.offset = base + sz;
/*
* We need another page directory setup so that we can write
* the 8x512 PTE in each chunk.
*/
sz += (sz >> 12) * sizeof(u64);
err = i915_vm_alloc_pt_stash(&vm->vm, &stash, sz);
if (err)
goto err_vm;
for_i915_gem_ww(&ww, err, true) {
err = i915_vm_lock_objects(&vm->vm, &ww);
if (err)
continue;
err = i915_vm_map_pt_stash(&vm->vm, &stash);
if (err)
continue;
vm->vm.allocate_va_range(&vm->vm, &stash, base, sz);
}
i915_vm_free_pt_stash(&vm->vm, &stash);
if (err)
goto err_vm;
/* Now allow the GPU to rewrite the PTE via its own ppGTT */
d.is_lmem = i915_gem_object_is_lmem(vm->vm.scratch[0]);
vm->vm.foreach(&vm->vm, base, base + sz, insert_pte, &d);
}
return &vm->vm;
err_vm:
i915_vm_put(&vm->vm);
return ERR_PTR(err);
}
static struct intel_engine_cs *first_copy_engine(struct intel_gt *gt)
{
struct intel_engine_cs *engine;
int i;
for (i = 0; i < ARRAY_SIZE(gt->engine_class[COPY_ENGINE_CLASS]); i++) {
engine = gt->engine_class[COPY_ENGINE_CLASS][i];
if (engine_supports_migration(engine))
return engine;
}
return NULL;
}
static struct intel_context *pinned_context(struct intel_gt *gt)
{
static struct lock_class_key key;
struct intel_engine_cs *engine;
struct i915_address_space *vm;
struct intel_context *ce;
engine = first_copy_engine(gt);
if (!engine)
return ERR_PTR(-ENODEV);
vm = migrate_vm(gt);
if (IS_ERR(vm))
return ERR_CAST(vm);
ce = intel_engine_create_pinned_context(engine, vm, SZ_512K,
I915_GEM_HWS_MIGRATE,
&key, "migrate");
i915_vm_put(vm);
return ce;
}
int intel_migrate_init(struct intel_migrate *m, struct intel_gt *gt)
{
struct intel_context *ce;
memset(m, 0, sizeof(*m));
ce = pinned_context(gt);
if (IS_ERR(ce))
return PTR_ERR(ce);
m->context = ce;
return 0;
}
static int random_index(unsigned int max)
{
return upper_32_bits(mul_u32_u32(get_random_u32(), max));
}
static struct intel_context *__migrate_engines(struct intel_gt *gt)
{
struct intel_engine_cs *engines[MAX_ENGINE_INSTANCE];
struct intel_engine_cs *engine;
unsigned int count, i;
count = 0;
for (i = 0; i < ARRAY_SIZE(gt->engine_class[COPY_ENGINE_CLASS]); i++) {
engine = gt->engine_class[COPY_ENGINE_CLASS][i];
if (engine_supports_migration(engine))
engines[count++] = engine;
}
return intel_context_create(engines[random_index(count)]);
}
struct intel_context *intel_migrate_create_context(struct intel_migrate *m)
{
struct intel_context *ce;
/*
* We randomly distribute contexts across the engines upon constrction,
* as they all share the same pinned vm, and so in order to allow
* multiple blits to run in parallel, we must construct each blit
* to use a different range of the vm for its GTT. This has to be
* known at construction, so we can not use the late greedy load
* balancing of the virtual-engine.
*/
ce = __migrate_engines(m->context->engine->gt);
if (IS_ERR(ce))
return ce;
ce->ring = NULL;
ce->ring_size = SZ_256K;
i915_vm_put(ce->vm);
ce->vm = i915_vm_get(m->context->vm);
return ce;
}
static inline struct sgt_dma sg_sgt(struct scatterlist *sg)
{
dma_addr_t addr = sg_dma_address(sg);
return (struct sgt_dma){ sg, addr, addr + sg_dma_len(sg) };
}
static int emit_no_arbitration(struct i915_request *rq)
{
u32 *cs;
cs = intel_ring_begin(rq, 2);
if (IS_ERR(cs))
return PTR_ERR(cs);
/* Explicitly disable preemption for this request. */
*cs++ = MI_ARB_ON_OFF;
*cs++ = MI_NOOP;
intel_ring_advance(rq, cs);
return 0;
}
static int emit_pte(struct i915_request *rq,
struct sgt_dma *it,
enum i915_cache_level cache_level,
bool is_lmem,
u64 offset,
int length)
{
const u64 encode = rq->context->vm->pte_encode(0, cache_level,
is_lmem ? PTE_LM : 0);
struct intel_ring *ring = rq->ring;
int total = 0;
u32 *hdr, *cs;
int pkt;
GEM_BUG_ON(GRAPHICS_VER(rq->engine->i915) < 8);
/* Compute the page directory offset for the target address range */
offset += (u64)rq->engine->instance << 32;
offset >>= 12;
offset *= sizeof(u64);
offset += 2 * CHUNK_SZ;
cs = intel_ring_begin(rq, 6);
if (IS_ERR(cs))
return PTR_ERR(cs);
/* Pack as many PTE updates as possible into a single MI command */
pkt = min_t(int, 0x400, ring->space / sizeof(u32) + 5);
pkt = min_t(int, pkt, (ring->size - ring->emit) / sizeof(u32) + 5);
hdr = cs;
*cs++ = MI_STORE_DATA_IMM | REG_BIT(21); /* as qword elements */
*cs++ = lower_32_bits(offset);
*cs++ = upper_32_bits(offset);
do {
if (cs - hdr >= pkt) {
*hdr += cs - hdr - 2;
*cs++ = MI_NOOP;
ring->emit = (void *)cs - ring->vaddr;
intel_ring_advance(rq, cs);
intel_ring_update_space(ring);
cs = intel_ring_begin(rq, 6);
if (IS_ERR(cs))
return PTR_ERR(cs);
pkt = min_t(int, 0x400, ring->space / sizeof(u32) + 5);
pkt = min_t(int, pkt, (ring->size - ring->emit) / sizeof(u32) + 5);
hdr = cs;
*cs++ = MI_STORE_DATA_IMM | REG_BIT(21);
*cs++ = lower_32_bits(offset);
*cs++ = upper_32_bits(offset);
}
*cs++ = lower_32_bits(encode | it->dma);
*cs++ = upper_32_bits(encode | it->dma);
offset += 8;
total += I915_GTT_PAGE_SIZE;
it->dma += I915_GTT_PAGE_SIZE;
if (it->dma >= it->max) {
it->sg = __sg_next(it->sg);
if (!it->sg || sg_dma_len(it->sg) == 0)
break;
it->dma = sg_dma_address(it->sg);
it->max = it->dma + sg_dma_len(it->sg);
}
} while (total < length);
*hdr += cs - hdr - 2;
*cs++ = MI_NOOP;
ring->emit = (void *)cs - ring->vaddr;
intel_ring_advance(rq, cs);
intel_ring_update_space(ring);
return total;
}
static bool wa_1209644611_applies(int ver, u32 size)
{
u32 height = size >> PAGE_SHIFT;
if (ver != 11)
return false;
return height % 4 == 3 && height <= 8;
}
static int emit_copy(struct i915_request *rq, int size)
{
const int ver = GRAPHICS_VER(rq->engine->i915);
u32 instance = rq->engine->instance;
u32 *cs;
cs = intel_ring_begin(rq, ver >= 8 ? 10 : 6);
if (IS_ERR(cs))
return PTR_ERR(cs);
if (ver >= 9 && !wa_1209644611_applies(ver, size)) {
*cs++ = GEN9_XY_FAST_COPY_BLT_CMD | (10 - 2);
*cs++ = BLT_DEPTH_32 | PAGE_SIZE;
*cs++ = 0;
*cs++ = size >> PAGE_SHIFT << 16 | PAGE_SIZE / 4;
*cs++ = CHUNK_SZ; /* dst offset */
*cs++ = instance;
*cs++ = 0;
*cs++ = PAGE_SIZE;
*cs++ = 0; /* src offset */
*cs++ = instance;
} else if (ver >= 8) {
*cs++ = XY_SRC_COPY_BLT_CMD | BLT_WRITE_RGBA | (10 - 2);
*cs++ = BLT_DEPTH_32 | BLT_ROP_SRC_COPY | PAGE_SIZE;
*cs++ = 0;
*cs++ = size >> PAGE_SHIFT << 16 | PAGE_SIZE / 4;
*cs++ = CHUNK_SZ; /* dst offset */
*cs++ = instance;
*cs++ = 0;
*cs++ = PAGE_SIZE;
*cs++ = 0; /* src offset */
*cs++ = instance;
} else {
GEM_BUG_ON(instance);
*cs++ = SRC_COPY_BLT_CMD | BLT_WRITE_RGBA | (6 - 2);
*cs++ = BLT_DEPTH_32 | BLT_ROP_SRC_COPY | PAGE_SIZE;
*cs++ = size >> PAGE_SHIFT << 16 | PAGE_SIZE;
*cs++ = CHUNK_SZ; /* dst offset */
*cs++ = PAGE_SIZE;
*cs++ = 0; /* src offset */
}
intel_ring_advance(rq, cs);
return 0;
}
int
intel_context_migrate_copy(struct intel_context *ce,
struct dma_fence *await,
struct scatterlist *src,
enum i915_cache_level src_cache_level,
bool src_is_lmem,
struct scatterlist *dst,
enum i915_cache_level dst_cache_level,
bool dst_is_lmem,
struct i915_request **out)
{
struct sgt_dma it_src = sg_sgt(src), it_dst = sg_sgt(dst);
struct i915_request *rq;
int err;
GEM_BUG_ON(ce->vm != ce->engine->gt->migrate.context->vm);
*out = NULL;
GEM_BUG_ON(ce->ring->size < SZ_64K);
do {
int len;
rq = i915_request_create(ce);
if (IS_ERR(rq)) {
err = PTR_ERR(rq);
goto out_ce;
}
if (await) {
err = i915_request_await_dma_fence(rq, await);
if (err)
goto out_rq;
if (rq->engine->emit_init_breadcrumb) {
err = rq->engine->emit_init_breadcrumb(rq);
if (err)
goto out_rq;
}
await = NULL;
}
/* The PTE updates + copy must not be interrupted. */
err = emit_no_arbitration(rq);
if (err)
goto out_rq;
len = emit_pte(rq, &it_src, src_cache_level, src_is_lmem, 0,
CHUNK_SZ);
if (len <= 0) {
err = len;
goto out_rq;
}
err = emit_pte(rq, &it_dst, dst_cache_level, dst_is_lmem,
CHUNK_SZ, len);
if (err < 0)
goto out_rq;
if (err < len) {
err = -EINVAL;
goto out_rq;
}
err = rq->engine->emit_flush(rq, EMIT_INVALIDATE);
if (err)
goto out_rq;
err = emit_copy(rq, len);
/* Arbitration is re-enabled between requests. */
out_rq:
if (*out)
i915_request_put(*out);
*out = i915_request_get(rq);
i915_request_add(rq);
if (err || !it_src.sg || !sg_dma_len(it_src.sg))
break;
cond_resched();
} while (1);
out_ce:
return err;
}
static int emit_clear(struct i915_request *rq, int size, u32 value)
{
const int ver = GRAPHICS_VER(rq->engine->i915);
u32 instance = rq->engine->instance;
u32 *cs;
GEM_BUG_ON(size >> PAGE_SHIFT > S16_MAX);
cs = intel_ring_begin(rq, ver >= 8 ? 8 : 6);
if (IS_ERR(cs))
return PTR_ERR(cs);
if (ver >= 8) {
*cs++ = XY_COLOR_BLT_CMD | BLT_WRITE_RGBA | (7 - 2);
*cs++ = BLT_DEPTH_32 | BLT_ROP_COLOR_COPY | PAGE_SIZE;
*cs++ = 0;
*cs++ = size >> PAGE_SHIFT << 16 | PAGE_SIZE / 4;
*cs++ = 0; /* offset */
*cs++ = instance;
*cs++ = value;
*cs++ = MI_NOOP;
} else {
GEM_BUG_ON(instance);
*cs++ = XY_COLOR_BLT_CMD | BLT_WRITE_RGBA | (6 - 2);
*cs++ = BLT_DEPTH_32 | BLT_ROP_COLOR_COPY | PAGE_SIZE;
*cs++ = 0;
*cs++ = size >> PAGE_SHIFT << 16 | PAGE_SIZE / 4;
*cs++ = 0;
*cs++ = value;
}
intel_ring_advance(rq, cs);
return 0;
}
int
intel_context_migrate_clear(struct intel_context *ce,
struct dma_fence *await,
struct scatterlist *sg,
enum i915_cache_level cache_level,
bool is_lmem,
u32 value,
struct i915_request **out)
{
struct sgt_dma it = sg_sgt(sg);
struct i915_request *rq;
int err;
GEM_BUG_ON(ce->vm != ce->engine->gt->migrate.context->vm);
*out = NULL;
GEM_BUG_ON(ce->ring->size < SZ_64K);
do {
int len;
rq = i915_request_create(ce);
if (IS_ERR(rq)) {
err = PTR_ERR(rq);
goto out_ce;
}
if (await) {
err = i915_request_await_dma_fence(rq, await);
if (err)
goto out_rq;
if (rq->engine->emit_init_breadcrumb) {
err = rq->engine->emit_init_breadcrumb(rq);
if (err)
goto out_rq;
}
await = NULL;
}
/* The PTE updates + clear must not be interrupted. */
err = emit_no_arbitration(rq);
if (err)
goto out_rq;
len = emit_pte(rq, &it, cache_level, is_lmem, 0, CHUNK_SZ);
if (len <= 0) {
err = len;
goto out_rq;
}
err = rq->engine->emit_flush(rq, EMIT_INVALIDATE);
if (err)
goto out_rq;
err = emit_clear(rq, len, value);
/* Arbitration is re-enabled between requests. */
out_rq:
if (*out)
i915_request_put(*out);
*out = i915_request_get(rq);
i915_request_add(rq);
if (err || !it.sg || !sg_dma_len(it.sg))
break;
cond_resched();
} while (1);
out_ce:
return err;
}
int intel_migrate_copy(struct intel_migrate *m,
struct i915_gem_ww_ctx *ww,
struct dma_fence *await,
struct scatterlist *src,
enum i915_cache_level src_cache_level,
bool src_is_lmem,
struct scatterlist *dst,
enum i915_cache_level dst_cache_level,
bool dst_is_lmem,
struct i915_request **out)
{
struct intel_context *ce;
int err;
*out = NULL;
if (!m->context)
return -ENODEV;
ce = intel_migrate_create_context(m);
if (IS_ERR(ce))
ce = intel_context_get(m->context);
GEM_BUG_ON(IS_ERR(ce));
err = intel_context_pin_ww(ce, ww);
if (err)
goto out;
err = intel_context_migrate_copy(ce, await,
src, src_cache_level, src_is_lmem,
dst, dst_cache_level, dst_is_lmem,
out);
intel_context_unpin(ce);
out:
intel_context_put(ce);
return err;
}
int
intel_migrate_clear(struct intel_migrate *m,
struct i915_gem_ww_ctx *ww,
struct dma_fence *await,
struct scatterlist *sg,
enum i915_cache_level cache_level,
bool is_lmem,
u32 value,
struct i915_request **out)
{
struct intel_context *ce;
int err;
*out = NULL;
if (!m->context)
return -ENODEV;
ce = intel_migrate_create_context(m);
if (IS_ERR(ce))
ce = intel_context_get(m->context);
GEM_BUG_ON(IS_ERR(ce));
err = intel_context_pin_ww(ce, ww);
if (err)
goto out;
err = intel_context_migrate_clear(ce, await, sg, cache_level,
is_lmem, value, out);
intel_context_unpin(ce);
out:
intel_context_put(ce);
return err;
}
void intel_migrate_fini(struct intel_migrate *m)
{
struct intel_context *ce;
ce = fetch_and_zero(&m->context);
if (!ce)
return;
intel_engine_destroy_pinned_context(ce);
}
#if IS_ENABLED(CONFIG_DRM_I915_SELFTEST)
#include "selftest_migrate.c"
#endif
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