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|
/*
* Copyright © 2015 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.
*/
#include "aub_write.h"
#include <inttypes.h>
#include <signal.h>
#include <stdarg.h>
#include <stdlib.h>
#include <string.h>
#include "i915_drm.h"
#include "intel_aub.h"
#include "gen_context.h"
#ifndef ALIGN
#define ALIGN(x, y) (((x) + (y)-1) & ~((y)-1))
#endif
#define MI_BATCH_NON_SECURE_I965 (1 << 8)
#define min(a, b) ({ \
__typeof(a) _a = (a); \
__typeof(b) _b = (b); \
_a < _b ? _a : _b; \
})
#define max(a, b) ({ \
__typeof(a) _a = (a); \
__typeof(b) _b = (b); \
_a > _b ? _a : _b; \
})
enum gen_ring {
GEN_RING_RENDER,
GEN_RING_BLITTER,
GEN_RING_VIDEO,
};
static const uint32_t *
get_context_init(const struct gen_device_info *devinfo, enum gen_ring ring)
{
static const uint32_t *gen8_contexts[] = {
[GEN_RING_RENDER] = gen8_render_context_init,
[GEN_RING_BLITTER] = gen8_blitter_context_init,
[GEN_RING_VIDEO] = gen8_video_context_init,
};
static const uint32_t *gen10_contexts[] = {
[GEN_RING_RENDER] = gen10_render_context_init,
[GEN_RING_BLITTER] = gen10_blitter_context_init,
[GEN_RING_VIDEO] = gen10_video_context_init,
};
assert(devinfo->gen >= 8);
if (devinfo->gen <= 10)
return gen8_contexts[ring];
return gen10_contexts[ring];
}
static void __attribute__ ((format(__printf__, 2, 3)))
fail_if(int cond, const char *format, ...)
{
va_list args;
if (!cond)
return;
va_start(args, format);
vfprintf(stderr, format, args);
va_end(args);
raise(SIGTRAP);
}
static inline uint32_t
align_u32(uint32_t v, uint32_t a)
{
return (v + a - 1) & ~(a - 1);
}
static void
aub_ppgtt_table_finish(struct aub_ppgtt_table *table, int level)
{
if (level == 1)
return;
for (unsigned i = 0; i < ARRAY_SIZE(table->subtables); i++) {
if (table->subtables[i]) {
aub_ppgtt_table_finish(table->subtables[i], level - 1);
free(table->subtables[i]);
}
}
}
void
aub_file_init(struct aub_file *aub, FILE *file, uint16_t pci_id)
{
memset(aub, 0, sizeof(*aub));
aub->file = file;
aub->pci_id = pci_id;
fail_if(!gen_get_device_info(pci_id, &aub->devinfo),
"failed to identify chipset=0x%x\n", pci_id);
aub->addr_bits = aub->devinfo.gen >= 8 ? 48 : 32;
aub->pml4.phys_addr = PML4_PHYS_ADDR;
}
void
aub_file_finish(struct aub_file *aub)
{
aub_ppgtt_table_finish(&aub->pml4, 4);
fclose(aub->file);
}
uint32_t
aub_gtt_size(struct aub_file *aub)
{
return NUM_PT_ENTRIES * (aub->addr_bits > 32 ? GEN8_PTE_SIZE : PTE_SIZE);
}
static void
data_out(struct aub_file *aub, const void *data, size_t size)
{
if (size == 0)
return;
fail_if(fwrite(data, 1, size, aub->file) == 0,
"Writing to output failed\n");
}
static void
dword_out(struct aub_file *aub, uint32_t data)
{
data_out(aub, &data, sizeof(data));
}
static void
mem_trace_memory_write_header_out(struct aub_file *aub, uint64_t addr,
uint32_t len, uint32_t addr_space,
const char *desc)
{
uint32_t dwords = ALIGN(len, sizeof(uint32_t)) / sizeof(uint32_t);
if (aub->verbose_log_file) {
fprintf(aub->verbose_log_file,
" MEM WRITE (0x%016" PRIx64 "-0x%016" PRIx64 ") %s\n",
addr, addr + len, desc);
}
dword_out(aub, CMD_MEM_TRACE_MEMORY_WRITE | (5 + dwords - 1));
dword_out(aub, addr & 0xFFFFFFFF); /* addr lo */
dword_out(aub, addr >> 32); /* addr hi */
dword_out(aub, addr_space); /* gtt */
dword_out(aub, len);
}
static void
register_write_out(struct aub_file *aub, uint32_t addr, uint32_t value)
{
uint32_t dwords = 1;
dword_out(aub, CMD_MEM_TRACE_REGISTER_WRITE | (5 + dwords - 1));
dword_out(aub, addr);
dword_out(aub, AUB_MEM_TRACE_REGISTER_SIZE_DWORD |
AUB_MEM_TRACE_REGISTER_SPACE_MMIO);
dword_out(aub, 0xFFFFFFFF); /* mask lo */
dword_out(aub, 0x00000000); /* mask hi */
dword_out(aub, value);
}
static void
populate_ppgtt_table(struct aub_file *aub, struct aub_ppgtt_table *table,
int start, int end, int level)
{
static uint64_t phys_addrs_allocator = (PML4_PHYS_ADDR >> 12) + 1;
uint64_t entries[512] = {0};
int dirty_start = 512, dirty_end = 0;
if (aub->verbose_log_file) {
fprintf(aub->verbose_log_file,
" PPGTT (0x%016" PRIx64 "), lvl %d, start: %x, end: %x\n",
table->phys_addr, level, start, end);
}
for (int i = start; i <= end; i++) {
if (!table->subtables[i]) {
dirty_start = min(dirty_start, i);
dirty_end = max(dirty_end, i);
if (level == 1) {
table->subtables[i] =
(void *)(phys_addrs_allocator++ << 12);
if (aub->verbose_log_file) {
fprintf(aub->verbose_log_file,
" Adding entry: %x, phys_addr: 0x%016" PRIx64 "\n",
i, (uint64_t)table->subtables[i]);
}
} else {
table->subtables[i] =
calloc(1, sizeof(struct aub_ppgtt_table));
table->subtables[i]->phys_addr =
phys_addrs_allocator++ << 12;
if (aub->verbose_log_file) {
fprintf(aub->verbose_log_file,
" Adding entry: %x, phys_addr: 0x%016" PRIx64 "\n",
i, table->subtables[i]->phys_addr);
}
}
}
entries[i] = 3 /* read/write | present */ |
(level == 1 ? (uint64_t)table->subtables[i] :
table->subtables[i]->phys_addr);
}
if (dirty_start <= dirty_end) {
uint64_t write_addr = table->phys_addr + dirty_start *
sizeof(uint64_t);
uint64_t write_size = (dirty_end - dirty_start + 1) *
sizeof(uint64_t);
mem_trace_memory_write_header_out(aub, write_addr, write_size,
AUB_MEM_TRACE_MEMORY_ADDRESS_SPACE_PHYSICAL,
"PPGTT update");
data_out(aub, entries + dirty_start, write_size);
}
}
void
aub_map_ppgtt(struct aub_file *aub, uint64_t start, uint64_t size)
{
uint64_t l4_start = start & 0xff8000000000;
uint64_t l4_end = ((start + size - 1) | 0x007fffffffff) & 0xffffffffffff;
#define L4_index(addr) (((addr) >> 39) & 0x1ff)
#define L3_index(addr) (((addr) >> 30) & 0x1ff)
#define L2_index(addr) (((addr) >> 21) & 0x1ff)
#define L1_index(addr) (((addr) >> 12) & 0x1ff)
#define L3_table(addr) (aub->pml4.subtables[L4_index(addr)])
#define L2_table(addr) (L3_table(addr)->subtables[L3_index(addr)])
#define L1_table(addr) (L2_table(addr)->subtables[L2_index(addr)])
if (aub->verbose_log_file) {
fprintf(aub->verbose_log_file,
" Mapping PPGTT address: 0x%" PRIx64 ", size: %" PRIu64"\n",
start, size);
}
populate_ppgtt_table(aub, &aub->pml4, L4_index(l4_start), L4_index(l4_end), 4);
for (uint64_t l4 = l4_start; l4 < l4_end; l4 += (1ULL << 39)) {
uint64_t l3_start = max(l4, start & 0xffffc0000000);
uint64_t l3_end = min(l4 + (1ULL << 39) - 1,
((start + size - 1) | 0x00003fffffff) & 0xffffffffffff);
uint64_t l3_start_idx = L3_index(l3_start);
uint64_t l3_end_idx = L3_index(l3_end);
populate_ppgtt_table(aub, L3_table(l4), l3_start_idx, l3_end_idx, 3);
for (uint64_t l3 = l3_start; l3 < l3_end; l3 += (1ULL << 30)) {
uint64_t l2_start = max(l3, start & 0xffffffe00000);
uint64_t l2_end = min(l3 + (1ULL << 30) - 1,
((start + size - 1) | 0x0000001fffff) & 0xffffffffffff);
uint64_t l2_start_idx = L2_index(l2_start);
uint64_t l2_end_idx = L2_index(l2_end);
populate_ppgtt_table(aub, L2_table(l3), l2_start_idx, l2_end_idx, 2);
for (uint64_t l2 = l2_start; l2 < l2_end; l2 += (1ULL << 21)) {
uint64_t l1_start = max(l2, start & 0xfffffffff000);
uint64_t l1_end = min(l2 + (1ULL << 21) - 1,
((start + size - 1) | 0x000000000fff) & 0xffffffffffff);
uint64_t l1_start_idx = L1_index(l1_start);
uint64_t l1_end_idx = L1_index(l1_end);
populate_ppgtt_table(aub, L1_table(l2), l1_start_idx, l1_end_idx, 1);
}
}
}
}
static uint64_t
ppgtt_lookup(struct aub_file *aub, uint64_t ppgtt_addr)
{
return (uint64_t)L1_table(ppgtt_addr)->subtables[L1_index(ppgtt_addr)];
}
static void
write_execlists_header(struct aub_file *aub, const char *name)
{
char app_name[8 * 4];
int app_name_len, dwords;
app_name_len =
snprintf(app_name, sizeof(app_name), "PCI-ID=0x%X %s",
aub->pci_id, name);
app_name_len = ALIGN(app_name_len, sizeof(uint32_t));
dwords = 5 + app_name_len / sizeof(uint32_t);
dword_out(aub, CMD_MEM_TRACE_VERSION | (dwords - 1));
dword_out(aub, AUB_MEM_TRACE_VERSION_FILE_VERSION);
dword_out(aub, aub->devinfo.simulator_id << AUB_MEM_TRACE_VERSION_DEVICE_SHIFT);
dword_out(aub, 0); /* version */
dword_out(aub, 0); /* version */
data_out(aub, app_name, app_name_len);
/* GGTT PT */
uint32_t ggtt_ptes = STATIC_GGTT_MAP_SIZE >> 12;
mem_trace_memory_write_header_out(aub, STATIC_GGTT_MAP_START >> 12,
ggtt_ptes * GEN8_PTE_SIZE,
AUB_MEM_TRACE_MEMORY_ADDRESS_SPACE_GGTT_ENTRY,
"GGTT PT");
for (uint32_t i = 0; i < ggtt_ptes; i++) {
dword_out(aub, 1 + 0x1000 * i + STATIC_GGTT_MAP_START);
dword_out(aub, 0);
}
/* RENDER_RING */
mem_trace_memory_write_header_out(aub, RENDER_RING_ADDR, RING_SIZE,
AUB_MEM_TRACE_MEMORY_ADDRESS_SPACE_GGTT,
"RENDER RING");
for (uint32_t i = 0; i < RING_SIZE; i += sizeof(uint32_t))
dword_out(aub, 0);
/* RENDER_PPHWSP */
mem_trace_memory_write_header_out(aub, RENDER_CONTEXT_ADDR,
PPHWSP_SIZE +
CONTEXT_RENDER_SIZE,
AUB_MEM_TRACE_MEMORY_ADDRESS_SPACE_GGTT,
"RENDER PPHWSP");
for (uint32_t i = 0; i < PPHWSP_SIZE; i += sizeof(uint32_t))
dword_out(aub, 0);
/* RENDER_CONTEXT */
data_out(aub, get_context_init(&aub->devinfo, GEN_RING_RENDER), CONTEXT_RENDER_SIZE);
/* BLITTER_RING */
mem_trace_memory_write_header_out(aub, BLITTER_RING_ADDR, RING_SIZE,
AUB_MEM_TRACE_MEMORY_ADDRESS_SPACE_GGTT,
"BLITTER RING");
for (uint32_t i = 0; i < RING_SIZE; i += sizeof(uint32_t))
dword_out(aub, 0);
/* BLITTER_PPHWSP */
mem_trace_memory_write_header_out(aub, BLITTER_CONTEXT_ADDR,
PPHWSP_SIZE +
CONTEXT_OTHER_SIZE,
AUB_MEM_TRACE_MEMORY_ADDRESS_SPACE_GGTT,
"BLITTER PPHWSP");
for (uint32_t i = 0; i < PPHWSP_SIZE; i += sizeof(uint32_t))
dword_out(aub, 0);
/* BLITTER_CONTEXT */
data_out(aub, get_context_init(&aub->devinfo, GEN_RING_BLITTER), CONTEXT_OTHER_SIZE);
/* VIDEO_RING */
mem_trace_memory_write_header_out(aub, VIDEO_RING_ADDR, RING_SIZE,
AUB_MEM_TRACE_MEMORY_ADDRESS_SPACE_GGTT,
"VIDEO RING");
for (uint32_t i = 0; i < RING_SIZE; i += sizeof(uint32_t))
dword_out(aub, 0);
/* VIDEO_PPHWSP */
mem_trace_memory_write_header_out(aub, VIDEO_CONTEXT_ADDR,
PPHWSP_SIZE +
CONTEXT_OTHER_SIZE,
AUB_MEM_TRACE_MEMORY_ADDRESS_SPACE_GGTT,
"VIDEO PPHWSP");
for (uint32_t i = 0; i < PPHWSP_SIZE; i += sizeof(uint32_t))
dword_out(aub, 0);
/* VIDEO_CONTEXT */
data_out(aub, get_context_init(&aub->devinfo, GEN_RING_VIDEO), CONTEXT_OTHER_SIZE);
register_write_out(aub, HWS_PGA_RCSUNIT, RENDER_CONTEXT_ADDR);
register_write_out(aub, HWS_PGA_VCSUNIT0, VIDEO_CONTEXT_ADDR);
register_write_out(aub, HWS_PGA_BCSUNIT, BLITTER_CONTEXT_ADDR);
register_write_out(aub, GFX_MODE_RCSUNIT, 0x80008000 /* execlist enable */);
register_write_out(aub, GFX_MODE_VCSUNIT0, 0x80008000 /* execlist enable */);
register_write_out(aub, GFX_MODE_BCSUNIT, 0x80008000 /* execlist enable */);
}
static void write_legacy_header(struct aub_file *aub, const char *name)
{
char app_name[8 * 4];
char comment[16];
int comment_len, comment_dwords, dwords;
uint32_t entry = 0x200003;
comment_len = snprintf(comment, sizeof(comment), "PCI-ID=0x%x", aub->pci_id);
comment_dwords = ((comment_len + 3) / 4);
/* Start with a (required) version packet. */
dwords = 13 + comment_dwords;
dword_out(aub, CMD_AUB_HEADER | (dwords - 2));
dword_out(aub, (4 << AUB_HEADER_MAJOR_SHIFT) |
(0 << AUB_HEADER_MINOR_SHIFT));
/* Next comes a 32-byte application name. */
strncpy(app_name, name, sizeof(app_name));
app_name[sizeof(app_name) - 1] = 0;
data_out(aub, app_name, sizeof(app_name));
dword_out(aub, 0); /* timestamp */
dword_out(aub, 0); /* timestamp */
dword_out(aub, comment_len);
data_out(aub, comment, comment_dwords * 4);
/* Set up the GTT. The max we can handle is 64M */
dword_out(aub, CMD_AUB_TRACE_HEADER_BLOCK |
((aub->addr_bits > 32 ? 6 : 5) - 2));
dword_out(aub, AUB_TRACE_MEMTYPE_GTT_ENTRY |
AUB_TRACE_TYPE_NOTYPE | AUB_TRACE_OP_DATA_WRITE);
dword_out(aub, 0); /* subtype */
dword_out(aub, 0); /* offset */
dword_out(aub, aub_gtt_size(aub)); /* size */
if (aub->addr_bits > 32)
dword_out(aub, 0);
for (uint32_t i = 0; i < NUM_PT_ENTRIES; i++) {
dword_out(aub, entry + 0x1000 * i);
if (aub->addr_bits > 32)
dword_out(aub, 0);
}
}
void
aub_write_header(struct aub_file *aub, const char *app_name)
{
if (aub_use_execlists(aub))
write_execlists_header(aub, app_name);
else
write_legacy_header(aub, app_name);
}
/**
* Break up large objects into multiple writes. Otherwise a 128kb VBO
* would overflow the 16 bits of size field in the packet header and
* everything goes badly after that.
*/
void
aub_write_trace_block(struct aub_file *aub,
uint32_t type, void *virtual,
uint32_t size, uint64_t gtt_offset)
{
uint32_t block_size;
uint32_t subtype = 0;
static const char null_block[8 * 4096];
for (uint32_t offset = 0; offset < size; offset += block_size) {
block_size = min(8 * 4096, size - offset);
if (aub_use_execlists(aub)) {
block_size = min(4096, block_size);
mem_trace_memory_write_header_out(aub,
ppgtt_lookup(aub, gtt_offset + offset),
block_size,
AUB_MEM_TRACE_MEMORY_ADDRESS_SPACE_PHYSICAL,
"Trace Block");
} else {
dword_out(aub, CMD_AUB_TRACE_HEADER_BLOCK |
((aub->addr_bits > 32 ? 6 : 5) - 2));
dword_out(aub, AUB_TRACE_MEMTYPE_GTT |
type | AUB_TRACE_OP_DATA_WRITE);
dword_out(aub, subtype);
dword_out(aub, gtt_offset + offset);
dword_out(aub, align_u32(block_size, 4));
if (aub->addr_bits > 32)
dword_out(aub, (gtt_offset + offset) >> 32);
}
if (virtual)
data_out(aub, ((char *) virtual) + offset, block_size);
else
data_out(aub, null_block, block_size);
/* Pad to a multiple of 4 bytes. */
data_out(aub, null_block, -block_size & 3);
}
}
static void
aub_dump_execlist(struct aub_file *aub, uint64_t batch_offset, int ring_flag)
{
uint32_t ring_addr;
uint64_t descriptor;
uint32_t elsp_reg;
uint32_t elsq_reg;
uint32_t status_reg;
uint32_t control_reg;
switch (ring_flag) {
case I915_EXEC_DEFAULT:
case I915_EXEC_RENDER:
ring_addr = RENDER_RING_ADDR;
descriptor = RENDER_CONTEXT_DESCRIPTOR;
elsp_reg = EXECLIST_SUBMITPORT_RCSUNIT;
elsq_reg = EXECLIST_SQ_CONTENTS0_RCSUNIT;
status_reg = EXECLIST_STATUS_RCSUNIT;
control_reg = EXECLIST_CONTROL_RCSUNIT;
break;
case I915_EXEC_BSD:
ring_addr = VIDEO_RING_ADDR;
descriptor = VIDEO_CONTEXT_DESCRIPTOR;
elsp_reg = EXECLIST_SUBMITPORT_VCSUNIT0;
elsq_reg = EXECLIST_SQ_CONTENTS0_VCSUNIT0;
status_reg = EXECLIST_STATUS_VCSUNIT0;
control_reg = EXECLIST_CONTROL_VCSUNIT0;
break;
case I915_EXEC_BLT:
ring_addr = BLITTER_RING_ADDR;
descriptor = BLITTER_CONTEXT_DESCRIPTOR;
elsp_reg = EXECLIST_SUBMITPORT_BCSUNIT;
elsq_reg = EXECLIST_SQ_CONTENTS0_BCSUNIT;
status_reg = EXECLIST_STATUS_BCSUNIT;
control_reg = EXECLIST_CONTROL_BCSUNIT;
break;
default:
unreachable("unknown ring");
}
mem_trace_memory_write_header_out(aub, ring_addr, 16,
AUB_MEM_TRACE_MEMORY_ADDRESS_SPACE_GGTT,
"RING MI_BATCH_BUFFER_START user");
dword_out(aub, AUB_MI_BATCH_BUFFER_START | MI_BATCH_NON_SECURE_I965 | (3 - 2));
dword_out(aub, batch_offset & 0xFFFFFFFF);
dword_out(aub, batch_offset >> 32);
dword_out(aub, 0 /* MI_NOOP */);
mem_trace_memory_write_header_out(aub, ring_addr + 8192 + 20, 4,
AUB_MEM_TRACE_MEMORY_ADDRESS_SPACE_GGTT,
"RING BUFFER HEAD");
dword_out(aub, 0); /* RING_BUFFER_HEAD */
mem_trace_memory_write_header_out(aub, ring_addr + 8192 + 28, 4,
AUB_MEM_TRACE_MEMORY_ADDRESS_SPACE_GGTT,
"RING BUFFER TAIL");
dword_out(aub, 16); /* RING_BUFFER_TAIL */
if (aub->devinfo.gen >= 11) {
register_write_out(aub, elsq_reg, descriptor & 0xFFFFFFFF);
register_write_out(aub, elsq_reg + sizeof(uint32_t), descriptor >> 32);
register_write_out(aub, control_reg, 1);
} else {
register_write_out(aub, elsp_reg, 0);
register_write_out(aub, elsp_reg, 0);
register_write_out(aub, elsp_reg, descriptor >> 32);
register_write_out(aub, elsp_reg, descriptor & 0xFFFFFFFF);
}
dword_out(aub, CMD_MEM_TRACE_REGISTER_POLL | (5 + 1 - 1));
dword_out(aub, status_reg);
dword_out(aub, AUB_MEM_TRACE_REGISTER_SIZE_DWORD |
AUB_MEM_TRACE_REGISTER_SPACE_MMIO);
if (aub->devinfo.gen >= 11) {
dword_out(aub, 0x00000001); /* mask lo */
dword_out(aub, 0x00000000); /* mask hi */
dword_out(aub, 0x00000001);
} else {
dword_out(aub, 0x00000010); /* mask lo */
dword_out(aub, 0x00000000); /* mask hi */
dword_out(aub, 0x00000000);
}
}
static void
aub_dump_ringbuffer(struct aub_file *aub, uint64_t batch_offset,
uint64_t offset, int ring_flag)
{
uint32_t ringbuffer[4096];
unsigned aub_mi_bbs_len;
int ring = AUB_TRACE_TYPE_RING_PRB0; /* The default ring */
int ring_count = 0;
if (ring_flag == I915_EXEC_BSD)
ring = AUB_TRACE_TYPE_RING_PRB1;
else if (ring_flag == I915_EXEC_BLT)
ring = AUB_TRACE_TYPE_RING_PRB2;
/* Make a ring buffer to execute our batchbuffer. */
memset(ringbuffer, 0, sizeof(ringbuffer));
aub_mi_bbs_len = aub->addr_bits > 32 ? 3 : 2;
ringbuffer[ring_count] = AUB_MI_BATCH_BUFFER_START | (aub_mi_bbs_len - 2);
aub_write_reloc(&aub->devinfo, &ringbuffer[ring_count + 1], batch_offset);
ring_count += aub_mi_bbs_len;
/* Write out the ring. This appears to trigger execution of
* the ring in the simulator.
*/
dword_out(aub, CMD_AUB_TRACE_HEADER_BLOCK |
((aub->addr_bits > 32 ? 6 : 5) - 2));
dword_out(aub, AUB_TRACE_MEMTYPE_GTT | ring | AUB_TRACE_OP_COMMAND_WRITE);
dword_out(aub, 0); /* general/surface subtype */
dword_out(aub, offset);
dword_out(aub, ring_count * 4);
if (aub->addr_bits > 32)
dword_out(aub, offset >> 32);
data_out(aub, ringbuffer, ring_count * 4);
}
void
aub_write_exec(struct aub_file *aub, uint64_t batch_addr,
uint64_t offset, int ring_flag)
{
if (aub_use_execlists(aub)) {
aub_dump_execlist(aub, batch_addr, ring_flag);
} else {
/* Dump ring buffer */
aub_dump_ringbuffer(aub, batch_addr, offset, ring_flag);
}
fflush(aub->file);
}
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