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|
/*
* Copyright © 2009 Corbin Simpson <MostAwesomeDude@gmail.com>
* Copyright © 2009 Joakim Sindholt <opensource@zhasha.com>
* Copyright © 2011 Marek Olšák <maraeo@gmail.com>
* Copyright © 2015 Advanced Micro Devices, Inc.
* 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, sub license, 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 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
* NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS
* AND/OR ITS SUPPLIERS 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.
*
* The above copyright notice and this permission notice (including the
* next paragraph) shall be included in all copies or substantial portions
* of the Software.
*/
#include "amdgpu_cs.h"
#include "amdgpu_public.h"
#include "util/os_file.h"
#include "util/os_misc.h"
#include "util/u_cpu_detect.h"
#include "util/u_hash_table.h"
#include "util/hash_table.h"
#include "util/xmlconfig.h"
#include "drm-uapi/amdgpu_drm.h"
#include <xf86drm.h>
#include <stdio.h>
#include <sys/stat.h>
#include <fcntl.h>
#include "ac_llvm_util.h"
#include "sid.h"
static struct hash_table *dev_tab = NULL;
static simple_mtx_t dev_tab_mutex = _SIMPLE_MTX_INITIALIZER_NP;
DEBUG_GET_ONCE_BOOL_OPTION(all_bos, "RADEON_ALL_BOS", false)
static void handle_env_var_force_family(struct amdgpu_winsys *ws)
{
const char *family = debug_get_option("SI_FORCE_FAMILY", NULL);
unsigned i;
if (!family)
return;
for (i = CHIP_TAHITI; i < CHIP_LAST; i++) {
if (!strcmp(family, ac_get_llvm_processor_name(i))) {
/* Override family and chip_class. */
ws->info.family = i;
ws->info.name = "GCN-NOOP";
if (i >= CHIP_SIENNA)
ws->info.chip_class = GFX10_3;
else if (i >= CHIP_NAVI10)
ws->info.chip_class = GFX10;
else if (i >= CHIP_VEGA10)
ws->info.chip_class = GFX9;
else if (i >= CHIP_TONGA)
ws->info.chip_class = GFX8;
else if (i >= CHIP_BONAIRE)
ws->info.chip_class = GFX7;
else
ws->info.chip_class = GFX6;
/* Don't submit any IBs. */
setenv("RADEON_NOOP", "1", 1);
return;
}
}
fprintf(stderr, "radeonsi: Unknown family: %s\n", family);
exit(1);
}
/* Helper function to do the ioctls needed for setup and init. */
static bool do_winsys_init(struct amdgpu_winsys *ws,
const struct pipe_screen_config *config,
int fd)
{
if (!ac_query_gpu_info(fd, ws->dev, &ws->info, &ws->amdinfo))
goto fail;
/* TODO: Enable this once the kernel handles it efficiently. */
if (ws->info.has_dedicated_vram)
ws->info.has_local_buffers = false;
handle_env_var_force_family(ws);
ws->addrlib = amdgpu_addr_create(&ws->info, &ws->amdinfo, &ws->info.max_alignment);
if (!ws->addrlib) {
fprintf(stderr, "amdgpu: Cannot create addrlib.\n");
goto fail;
}
ws->check_vm = strstr(debug_get_option("R600_DEBUG", ""), "check_vm") != NULL ||
strstr(debug_get_option("AMD_DEBUG", ""), "check_vm") != NULL;
ws->debug_all_bos = debug_get_option_all_bos();
ws->reserve_vmid = strstr(debug_get_option("R600_DEBUG", ""), "reserve_vmid") != NULL ||
strstr(debug_get_option("AMD_DEBUG", ""), "reserve_vmid") != NULL;
ws->zero_all_vram_allocs = strstr(debug_get_option("R600_DEBUG", ""), "zerovram") != NULL ||
strstr(debug_get_option("AMD_DEBUG", ""), "zerovram") != NULL ||
driQueryOptionb(config->options, "radeonsi_zerovram");
ws->secure = strstr(debug_get_option("AMD_DEBUG", ""), "tmz");
if (ws->secure) {
fprintf(stderr, "=== TMZ usage enabled ===\n");
}
return true;
fail:
amdgpu_device_deinitialize(ws->dev);
ws->dev = NULL;
return false;
}
static void do_winsys_deinit(struct amdgpu_winsys *ws)
{
if (ws->reserve_vmid)
amdgpu_vm_unreserve_vmid(ws->dev, 0);
if (util_queue_is_initialized(&ws->cs_queue))
util_queue_destroy(&ws->cs_queue);
simple_mtx_destroy(&ws->bo_fence_lock);
for (unsigned i = 0; i < NUM_SLAB_ALLOCATORS; i++) {
if (ws->bo_slabs[i].groups)
pb_slabs_deinit(&ws->bo_slabs[i]);
}
pb_cache_deinit(&ws->bo_cache);
_mesa_hash_table_destroy(ws->bo_export_table, NULL);
simple_mtx_destroy(&ws->sws_list_lock);
simple_mtx_destroy(&ws->global_bo_list_lock);
simple_mtx_destroy(&ws->bo_export_table_lock);
AddrDestroy(ws->addrlib);
amdgpu_device_deinitialize(ws->dev);
FREE(ws);
}
static void amdgpu_winsys_destroy(struct radeon_winsys *rws)
{
struct amdgpu_screen_winsys *sws = amdgpu_screen_winsys(rws);
struct amdgpu_winsys *ws = sws->aws;
bool destroy;
/* When the reference counter drops to zero, remove the device pointer
* from the table.
* This must happen while the mutex is locked, so that
* amdgpu_winsys_create in another thread doesn't get the winsys
* from the table when the counter drops to 0.
*/
simple_mtx_lock(&dev_tab_mutex);
destroy = pipe_reference(&ws->reference, NULL);
if (destroy && dev_tab) {
_mesa_hash_table_remove_key(dev_tab, ws->dev);
if (_mesa_hash_table_num_entries(dev_tab) == 0) {
_mesa_hash_table_destroy(dev_tab, NULL);
dev_tab = NULL;
}
}
simple_mtx_unlock(&dev_tab_mutex);
if (destroy)
do_winsys_deinit(ws);
close(sws->fd);
FREE(rws);
}
static void amdgpu_winsys_query_info(struct radeon_winsys *rws,
struct radeon_info *info)
{
*info = amdgpu_winsys(rws)->info;
}
static bool amdgpu_cs_request_feature(struct radeon_cmdbuf *rcs,
enum radeon_feature_id fid,
bool enable)
{
return false;
}
static uint64_t amdgpu_query_value(struct radeon_winsys *rws,
enum radeon_value_id value)
{
struct amdgpu_winsys *ws = amdgpu_winsys(rws);
struct amdgpu_heap_info heap;
uint64_t retval = 0;
switch (value) {
case RADEON_REQUESTED_VRAM_MEMORY:
return ws->allocated_vram;
case RADEON_REQUESTED_GTT_MEMORY:
return ws->allocated_gtt;
case RADEON_MAPPED_VRAM:
return ws->mapped_vram;
case RADEON_MAPPED_GTT:
return ws->mapped_gtt;
case RADEON_BUFFER_WAIT_TIME_NS:
return ws->buffer_wait_time;
case RADEON_NUM_MAPPED_BUFFERS:
return ws->num_mapped_buffers;
case RADEON_TIMESTAMP:
amdgpu_query_info(ws->dev, AMDGPU_INFO_TIMESTAMP, 8, &retval);
return retval;
case RADEON_NUM_GFX_IBS:
return ws->num_gfx_IBs;
case RADEON_NUM_SDMA_IBS:
return ws->num_sdma_IBs;
case RADEON_GFX_BO_LIST_COUNTER:
return ws->gfx_bo_list_counter;
case RADEON_GFX_IB_SIZE_COUNTER:
return ws->gfx_ib_size_counter;
case RADEON_NUM_BYTES_MOVED:
amdgpu_query_info(ws->dev, AMDGPU_INFO_NUM_BYTES_MOVED, 8, &retval);
return retval;
case RADEON_NUM_EVICTIONS:
amdgpu_query_info(ws->dev, AMDGPU_INFO_NUM_EVICTIONS, 8, &retval);
return retval;
case RADEON_NUM_VRAM_CPU_PAGE_FAULTS:
amdgpu_query_info(ws->dev, AMDGPU_INFO_NUM_VRAM_CPU_PAGE_FAULTS, 8, &retval);
return retval;
case RADEON_VRAM_USAGE:
amdgpu_query_heap_info(ws->dev, AMDGPU_GEM_DOMAIN_VRAM, 0, &heap);
return heap.heap_usage;
case RADEON_VRAM_VIS_USAGE:
amdgpu_query_heap_info(ws->dev, AMDGPU_GEM_DOMAIN_VRAM,
AMDGPU_GEM_CREATE_CPU_ACCESS_REQUIRED, &heap);
return heap.heap_usage;
case RADEON_GTT_USAGE:
amdgpu_query_heap_info(ws->dev, AMDGPU_GEM_DOMAIN_GTT, 0, &heap);
return heap.heap_usage;
case RADEON_GPU_TEMPERATURE:
amdgpu_query_sensor_info(ws->dev, AMDGPU_INFO_SENSOR_GPU_TEMP, 4, &retval);
return retval;
case RADEON_CURRENT_SCLK:
amdgpu_query_sensor_info(ws->dev, AMDGPU_INFO_SENSOR_GFX_SCLK, 4, &retval);
return retval;
case RADEON_CURRENT_MCLK:
amdgpu_query_sensor_info(ws->dev, AMDGPU_INFO_SENSOR_GFX_MCLK, 4, &retval);
return retval;
case RADEON_CS_THREAD_TIME:
return util_queue_get_thread_time_nano(&ws->cs_queue, 0);
}
return 0;
}
static bool amdgpu_read_registers(struct radeon_winsys *rws,
unsigned reg_offset,
unsigned num_registers, uint32_t *out)
{
struct amdgpu_winsys *ws = amdgpu_winsys(rws);
return amdgpu_read_mm_registers(ws->dev, reg_offset / 4, num_registers,
0xffffffff, 0, out) == 0;
}
static bool amdgpu_winsys_unref(struct radeon_winsys *rws)
{
struct amdgpu_screen_winsys *sws = amdgpu_screen_winsys(rws);
struct amdgpu_winsys *aws = sws->aws;
bool ret;
simple_mtx_lock(&aws->sws_list_lock);
ret = pipe_reference(&sws->reference, NULL);
if (ret) {
struct amdgpu_screen_winsys **sws_iter;
struct amdgpu_winsys *aws = sws->aws;
/* Remove this amdgpu_screen_winsys from amdgpu_winsys' list, so that
* amdgpu_winsys_create can't re-use it anymore
*/
for (sws_iter = &aws->sws_list; *sws_iter; sws_iter = &(*sws_iter)->next) {
if (*sws_iter == sws) {
*sws_iter = sws->next;
break;
}
}
}
simple_mtx_unlock(&aws->sws_list_lock);
if (ret && sws->kms_handles) {
struct drm_gem_close args;
hash_table_foreach(sws->kms_handles, entry) {
args.handle = (uintptr_t)entry->data;
drmIoctl(sws->fd, DRM_IOCTL_GEM_CLOSE, &args);
}
_mesa_hash_table_destroy(sws->kms_handles, NULL);
}
return ret;
}
static void amdgpu_pin_threads_to_L3_cache(struct radeon_winsys *rws,
unsigned cache)
{
struct amdgpu_winsys *ws = amdgpu_winsys(rws);
util_pin_thread_to_L3(ws->cs_queue.threads[0], cache,
util_cpu_caps.cores_per_L3);
}
static uint32_t kms_handle_hash(const void *key)
{
const struct amdgpu_winsys_bo *bo = key;
return bo->u.real.kms_handle;
}
static bool kms_handle_equals(const void *a, const void *b)
{
return a == b;
}
static bool amdgpu_ws_is_secure(struct radeon_winsys *rws)
{
struct amdgpu_winsys *ws = amdgpu_winsys(rws);
return ws->secure;
}
static bool amdgpu_cs_is_secure(struct radeon_cmdbuf *rcs)
{
struct amdgpu_cs *cs = amdgpu_cs(rcs);
return cs->csc->secure;
}
static void amdgpu_cs_set_secure(struct radeon_cmdbuf *rcs, bool secure)
{
struct amdgpu_cs *cs = amdgpu_cs(rcs);
cs->csc->secure = secure;
}
PUBLIC struct radeon_winsys *
amdgpu_winsys_create(int fd, const struct pipe_screen_config *config,
radeon_screen_create_t screen_create)
{
struct amdgpu_screen_winsys *ws;
struct amdgpu_winsys *aws;
amdgpu_device_handle dev;
uint32_t drm_major, drm_minor;
int r;
ws = CALLOC_STRUCT(amdgpu_screen_winsys);
if (!ws)
return NULL;
pipe_reference_init(&ws->reference, 1);
ws->fd = fcntl(fd, F_DUPFD_CLOEXEC, 0);
/* Look up the winsys from the dev table. */
simple_mtx_lock(&dev_tab_mutex);
if (!dev_tab)
dev_tab = util_hash_table_create_ptr_keys();
/* Initialize the amdgpu device. This should always return the same pointer
* for the same fd. */
r = amdgpu_device_initialize(ws->fd, &drm_major, &drm_minor, &dev);
if (r) {
fprintf(stderr, "amdgpu: amdgpu_device_initialize failed.\n");
goto fail;
}
/* Lookup a winsys if we have already created one for this device. */
aws = util_hash_table_get(dev_tab, dev);
if (aws) {
struct amdgpu_screen_winsys *sws_iter;
/* Release the device handle, because we don't need it anymore.
* This function is returning an existing winsys instance, which
* has its own device handle.
*/
amdgpu_device_deinitialize(dev);
simple_mtx_lock(&aws->sws_list_lock);
for (sws_iter = aws->sws_list; sws_iter; sws_iter = sws_iter->next) {
r = os_same_file_description(sws_iter->fd, ws->fd);
if (r == 0) {
close(ws->fd);
FREE(ws);
ws = sws_iter;
pipe_reference(NULL, &ws->reference);
simple_mtx_unlock(&aws->sws_list_lock);
goto unlock;
} else if (r < 0) {
static bool logged;
if (!logged) {
os_log_message("amdgpu: os_same_file_description couldn't "
"determine if two DRM fds reference the same "
"file description.\n"
"If they do, bad things may happen!\n");
logged = true;
}
}
}
simple_mtx_unlock(&aws->sws_list_lock);
ws->kms_handles = _mesa_hash_table_create(NULL, kms_handle_hash,
kms_handle_equals);
if (!ws->kms_handles)
goto fail;
pipe_reference(NULL, &aws->reference);
} else {
/* Create a new winsys. */
aws = CALLOC_STRUCT(amdgpu_winsys);
if (!aws)
goto fail;
aws->dev = dev;
aws->fd = ws->fd;
aws->info.drm_major = drm_major;
aws->info.drm_minor = drm_minor;
if (!do_winsys_init(aws, config, fd))
goto fail_alloc;
/* Create managers. */
pb_cache_init(&aws->bo_cache, RADEON_MAX_CACHED_HEAPS,
500000, aws->check_vm ? 1.0f : 2.0f, 0,
(aws->info.vram_size + aws->info.gart_size) / 8,
amdgpu_bo_destroy, amdgpu_bo_can_reclaim);
unsigned min_slab_order = 9; /* 512 bytes */
unsigned max_slab_order = 18; /* 256 KB - higher numbers increase memory usage */
unsigned num_slab_orders_per_allocator = (max_slab_order - min_slab_order) /
NUM_SLAB_ALLOCATORS;
/* Divide the size order range among slab managers. */
for (unsigned i = 0; i < NUM_SLAB_ALLOCATORS; i++) {
unsigned min_order = min_slab_order;
unsigned max_order = MIN2(min_order + num_slab_orders_per_allocator,
max_slab_order);
if (!pb_slabs_init(&aws->bo_slabs[i],
min_order, max_order,
RADEON_MAX_SLAB_HEAPS,
aws,
amdgpu_bo_can_reclaim_slab,
amdgpu_bo_slab_alloc_normal,
amdgpu_bo_slab_free)) {
amdgpu_winsys_destroy(&ws->base);
simple_mtx_unlock(&dev_tab_mutex);
return NULL;
}
if (aws->secure && !pb_slabs_init(&aws->bo_slabs_encrypted[i],
min_order, max_order,
RADEON_MAX_SLAB_HEAPS,
aws,
amdgpu_bo_can_reclaim_slab,
amdgpu_bo_slab_alloc_encrypted,
amdgpu_bo_slab_free)) {
amdgpu_winsys_destroy(&ws->base);
simple_mtx_unlock(&dev_tab_mutex);
return NULL;
}
min_slab_order = max_order + 1;
}
aws->info.min_alloc_size = 1 << aws->bo_slabs[0].min_order;
/* init reference */
pipe_reference_init(&aws->reference, 1);
list_inithead(&aws->global_bo_list);
aws->bo_export_table = util_hash_table_create_ptr_keys();
(void) simple_mtx_init(&aws->sws_list_lock, mtx_plain);
(void) simple_mtx_init(&aws->global_bo_list_lock, mtx_plain);
(void) simple_mtx_init(&aws->bo_fence_lock, mtx_plain);
(void) simple_mtx_init(&aws->bo_export_table_lock, mtx_plain);
if (!util_queue_init(&aws->cs_queue, "cs", 8, 1,
UTIL_QUEUE_INIT_RESIZE_IF_FULL)) {
amdgpu_winsys_destroy(&ws->base);
simple_mtx_unlock(&dev_tab_mutex);
return NULL;
}
_mesa_hash_table_insert(dev_tab, dev, aws);
if (aws->reserve_vmid) {
r = amdgpu_vm_reserve_vmid(dev, 0);
if (r) {
amdgpu_winsys_destroy(&ws->base);
simple_mtx_unlock(&dev_tab_mutex);
return NULL;
}
}
}
ws->aws = aws;
/* Set functions. */
ws->base.unref = amdgpu_winsys_unref;
ws->base.destroy = amdgpu_winsys_destroy;
ws->base.query_info = amdgpu_winsys_query_info;
ws->base.cs_request_feature = amdgpu_cs_request_feature;
ws->base.query_value = amdgpu_query_value;
ws->base.read_registers = amdgpu_read_registers;
ws->base.pin_threads_to_L3_cache = amdgpu_pin_threads_to_L3_cache;
ws->base.ws_is_secure = amdgpu_ws_is_secure;
ws->base.cs_is_secure = amdgpu_cs_is_secure;
ws->base.cs_set_secure = amdgpu_cs_set_secure;
amdgpu_bo_init_functions(ws);
amdgpu_cs_init_functions(ws);
amdgpu_surface_init_functions(ws);
/* Create the screen at the end. The winsys must be initialized
* completely.
*
* Alternatively, we could create the screen based on "ws->gen"
* and link all drivers into one binary blob. */
ws->base.screen = screen_create(&ws->base, config);
if (!ws->base.screen) {
amdgpu_winsys_destroy(&ws->base);
simple_mtx_unlock(&dev_tab_mutex);
return NULL;
}
simple_mtx_lock(&aws->sws_list_lock);
ws->next = aws->sws_list;
aws->sws_list = ws;
simple_mtx_unlock(&aws->sws_list_lock);
unlock:
/* We must unlock the mutex once the winsys is fully initialized, so that
* other threads attempting to create the winsys from the same fd will
* get a fully initialized winsys and not just half-way initialized. */
simple_mtx_unlock(&dev_tab_mutex);
return &ws->base;
fail_alloc:
FREE(aws);
fail:
if (ws->kms_handles)
_mesa_hash_table_destroy(ws->kms_handles, NULL);
close(ws->fd);
FREE(ws);
simple_mtx_unlock(&dev_tab_mutex);
return NULL;
}
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