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drv.c
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drv.c
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/*
* Copyright 2016 The Chromium OS Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include <assert.h>
#include <errno.h>
#include <fcntl.h>
#include <pthread.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/mman.h>
#include <sys/types.h>
#include <unistd.h>
#include <xf86drm.h>
#ifdef __ANDROID__
#include <cutils/log.h>
#include <libgen.h>
#endif
#include "drv_priv.h"
#include "helpers.h"
#include "util.h"
#ifdef USE_GRALLOC1
#include "i915_private.h"
#endif
#ifdef DRV_AMDGPU
extern const struct backend backend_amdgpu;
#endif
extern const struct backend backend_evdi;
#ifdef DRV_EXYNOS
extern const struct backend backend_exynos;
#endif
#ifdef DRV_I915
extern const struct backend backend_i915;
#endif
#ifdef DRV_MARVELL
extern const struct backend backend_marvell;
#endif
#ifdef DRV_MEDIATEK
extern const struct backend backend_mediatek;
#endif
#ifdef DRV_MESON
extern const struct backend backend_meson;
#endif
#ifdef DRV_MSM
extern const struct backend backend_msm;
#endif
extern const struct backend backend_nouveau;
#ifdef DRV_RADEON
extern const struct backend backend_radeon;
#endif
#ifdef DRV_ROCKCHIP
extern const struct backend backend_rockchip;
#endif
#ifdef DRV_SYNAPTICS
extern const struct backend backend_synaptics;
#endif
#ifdef DRV_TEGRA
extern const struct backend backend_tegra;
#endif
extern const struct backend backend_udl;
#ifdef DRV_VC4
extern const struct backend backend_vc4;
#endif
#ifdef DRV_VIRTIO_GPU
extern const struct backend backend_virtio_gpu;
#endif
extern const struct backend backend_vgem;
static const struct backend *drv_get_backend(int fd)
{
drmVersionPtr drm_version;
unsigned int i;
drm_version = drmGetVersion(fd);
if (!drm_version)
return NULL;
const struct backend *backend_list[] = {
#ifdef DRV_AMDGPU
&backend_amdgpu,
#endif
&backend_evdi,
#ifdef DRV_EXYNOS
&backend_exynos,
#endif
#ifdef DRV_I915
&backend_i915,
#endif
#ifdef DRV_MARVELL
&backend_marvell,
#endif
#ifdef DRV_MEDIATEK
&backend_mediatek,
#endif
#ifdef DRV_MESON
&backend_meson,
#endif
#ifdef DRV_MSM
&backend_msm,
#endif
&backend_nouveau,
#ifdef DRV_RADEON
&backend_radeon,
#endif
#ifdef DRV_ROCKCHIP
&backend_rockchip,
#endif
#ifdef DRV_SYNAPTICS
&backend_synaptics,
#endif
#ifdef DRV_TEGRA
&backend_tegra,
#endif
&backend_udl,
#ifdef DRV_VC4
&backend_vc4,
#endif
#ifdef DRV_VIRTIO_GPU
&backend_virtio_gpu,
#endif
&backend_vgem,
};
for (i = 0; i < ARRAY_SIZE(backend_list); i++) {
const struct backend *b = backend_list[i];
// Exactly one of the main create functions must be defined.
assert((b->bo_create != NULL) ^ (b->bo_create_from_metadata != NULL));
// Either both or neither must be implemented.
assert((b->bo_compute_metadata != NULL) == (b->bo_create_from_metadata != NULL));
// Both can't be defined, but it's okay for neither to be (i.e. only bo_create).
assert((b->bo_create_with_modifiers == NULL) ||
(b->bo_create_from_metadata == NULL));
if (!strcmp(drm_version->name, b->name)) {
drmFreeVersion(drm_version);
return b;
}
}
drmFreeVersion(drm_version);
return NULL;
}
struct driver *drv_create(int fd)
{
struct driver *drv;
int ret;
drv = (struct driver *)calloc(1, sizeof(*drv));
if (!drv)
return NULL;
drv->fd = fd;
drv->backend = drv_get_backend(fd);
if (!drv->backend)
goto free_driver;
if (pthread_mutex_init(&drv->driver_lock, NULL))
goto free_driver;
drv->buffer_table = drmHashCreate();
if (!drv->buffer_table)
goto free_lock;
drv->mappings = drv_array_init(sizeof(struct mapping));
if (!drv->mappings)
goto free_buffer_table;
drv->combos = drv_array_init(sizeof(struct combination));
if (!drv->combos)
goto free_mappings;
return drv;
free_mappings:
drv_array_destroy(drv->mappings);
free_buffer_table:
drmHashDestroy(drv->buffer_table);
free_lock:
pthread_mutex_destroy(&drv->driver_lock);
free_driver:
free(drv);
return NULL;
}
int drv_init(struct driver * drv, uint32_t grp_type)
{
int ret = 0;
assert(drv);
assert(drv->backend);
drv->gpu_grp_type = grp_type;
if (drv->backend->init) {
ret = drv->backend->init(drv);
}
return ret;
}
void drv_destroy(struct driver *drv)
{
pthread_mutex_lock(&drv->driver_lock);
if (drv->backend->close)
drv->backend->close(drv);
drmHashDestroy(drv->buffer_table);
drv_array_destroy(drv->mappings);
drv_array_destroy(drv->combos);
pthread_mutex_unlock(&drv->driver_lock);
pthread_mutex_destroy(&drv->driver_lock);
free(drv);
}
int drv_get_fd(struct driver *drv)
{
return drv->fd;
}
const char *drv_get_name(struct driver *drv)
{
return drv->backend->name;
}
struct combination *drv_get_combination(struct driver *drv, uint32_t format, uint64_t use_flags)
{
struct combination *curr, *best;
if (format == DRM_FORMAT_NONE || use_flags == BO_USE_NONE)
return 0;
best = NULL;
uint32_t i;
for (i = 0; i < drv_array_size(drv->combos); i++) {
curr = drv_array_at_idx(drv->combos, i);
if ((format == curr->format) && use_flags == (curr->use_flags & use_flags))
if (!best || best->metadata.priority < curr->metadata.priority)
best = curr;
}
return best;
}
struct bo *drv_bo_new(struct driver *drv, uint32_t width, uint32_t height, uint32_t format,
uint64_t use_flags, bool is_test_buffer)
{
struct bo *bo;
bo = (struct bo *)calloc(1, sizeof(*bo));
if (!bo)
return NULL;
bo->drv = drv;
bo->meta.width = width;
bo->meta.height = height;
bo->meta.format = format;
bo->meta.use_flags = use_flags;
bo->meta.num_planes = drv_num_planes_from_format(format);
bo->is_test_buffer = is_test_buffer;
if (!bo->meta.num_planes) {
free(bo);
return NULL;
}
return bo;
}
struct bo *drv_bo_create(struct driver *drv, uint32_t width, uint32_t height, uint32_t format,
uint64_t use_flags)
{
int ret;
size_t plane;
struct bo *bo;
bool is_test_alloc;
is_test_alloc = use_flags & BO_USE_TEST_ALLOC;
use_flags &= ~BO_USE_TEST_ALLOC;
bo = drv_bo_new(drv, width, height, format, use_flags, is_test_alloc);
if (!bo)
return NULL;
ret = -EINVAL;
if (drv->backend->bo_compute_metadata) {
ret = drv->backend->bo_compute_metadata(bo, width, height, format, use_flags, NULL,
0);
if (!is_test_alloc && ret == 0)
ret = drv->backend->bo_create_from_metadata(bo);
} else if (!is_test_alloc) {
ret = drv->backend->bo_create(bo, width, height, format, use_flags);
}
if (ret) {
free(bo);
return NULL;
}
pthread_mutex_lock(&drv->driver_lock);
for (plane = 0; plane < bo->meta.num_planes; plane++) {
if (plane > 0)
assert(bo->meta.offsets[plane] >= bo->meta.offsets[plane - 1]);
drv_increment_reference_count(drv, bo, plane);
}
pthread_mutex_unlock(&drv->driver_lock);
return bo;
}
struct bo *drv_bo_create_with_modifiers(struct driver *drv, uint32_t width, uint32_t height,
uint32_t format, const uint64_t *modifiers, uint32_t count)
{
int ret;
size_t plane;
struct bo *bo;
if (!drv->backend->bo_create_with_modifiers && !drv->backend->bo_compute_metadata) {
errno = ENOENT;
return NULL;
}
bo = drv_bo_new(drv, width, height, format, BO_USE_NONE, false);
if (!bo)
return NULL;
ret = -EINVAL;
if (drv->backend->bo_compute_metadata) {
ret = drv->backend->bo_compute_metadata(bo, width, height, format, BO_USE_NONE,
modifiers, count);
if (ret == 0)
ret = drv->backend->bo_create_from_metadata(bo);
} else {
ret = drv->backend->bo_create_with_modifiers(bo, width, height, format, modifiers,
count);
}
if (ret) {
free(bo);
return NULL;
}
pthread_mutex_lock(&drv->driver_lock);
for (plane = 0; plane < bo->meta.num_planes; plane++) {
if (plane > 0)
assert(bo->meta.offsets[plane] >= bo->meta.offsets[plane - 1]);
drv_increment_reference_count(drv, bo, plane);
}
pthread_mutex_unlock(&drv->driver_lock);
return bo;
}
void drv_bo_destroy(struct bo *bo)
{
int ret;
size_t plane;
uintptr_t total = 0;
struct driver *drv = bo->drv;
if (!bo->is_test_buffer) {
pthread_mutex_lock(&drv->driver_lock);
for (plane = 0; plane < bo->meta.num_planes; plane++)
drv_decrement_reference_count(drv, bo, plane);
for (plane = 0; plane < bo->meta.num_planes; plane++)
total += drv_get_reference_count(drv, bo, plane);
pthread_mutex_unlock(&drv->driver_lock);
if (total == 0) {
ret = drv_mapping_destroy(bo);
assert(ret == 0);
bo->drv->backend->bo_destroy(bo);
}
}
free(bo);
}
struct bo *drv_bo_import(struct driver *drv, struct drv_import_fd_data *data)
{
int ret;
size_t plane;
struct bo *bo;
off_t seek_end;
bo = drv_bo_new(drv, data->width, data->height, data->format, data->use_flags, false);
if (!bo)
return NULL;
ret = drv->backend->bo_import(bo, data);
if (ret) {
free(bo);
return NULL;
}
for (plane = 0; plane < bo->meta.num_planes; plane++) {
pthread_mutex_lock(&bo->drv->driver_lock);
drv_increment_reference_count(bo->drv, bo, plane);
pthread_mutex_unlock(&bo->drv->driver_lock);
}
for (plane = 0; plane < bo->meta.num_planes; plane++) {
bo->meta.strides[plane] = data->strides[plane];
bo->meta.offsets[plane] = data->offsets[plane];
bo->meta.format_modifiers[plane] = data->format_modifiers[plane];
seek_end = lseek(data->fds[plane], 0, SEEK_END);
if (seek_end == (off_t)(-1)) {
drv_log("lseek() failed with %s\n", strerror(errno));
goto destroy_bo;
}
lseek(data->fds[plane], 0, SEEK_SET);
if (plane == bo->meta.num_planes - 1 || data->offsets[plane + 1] == 0)
bo->meta.sizes[plane] = seek_end - data->offsets[plane];
else
bo->meta.sizes[plane] = data->offsets[plane + 1] - data->offsets[plane];
if ((int64_t)bo->meta.offsets[plane] + bo->meta.sizes[plane] > seek_end) {
drv_log("buffer size is too large.\n");
goto destroy_bo;
}
bo->meta.total_size += bo->meta.sizes[plane];
}
return bo;
destroy_bo:
drv_bo_destroy(bo);
return NULL;
}
void *drv_bo_map(struct bo *bo, const struct rectangle *rect, uint32_t map_flags,
struct mapping **map_data, size_t plane)
{
uint32_t i;
uint8_t *addr;
struct mapping mapping;
assert(rect->width >= 0);
assert(rect->height >= 0);
assert(rect->x + rect->width <= drv_bo_get_width(bo));
assert(rect->y + rect->height <= drv_bo_get_height(bo));
assert(BO_MAP_READ_WRITE & map_flags);
/* No CPU access for protected buffers. */
assert(!(bo->meta.use_flags & BO_USE_PROTECTED));
if (bo->is_test_buffer) {
return MAP_FAILED;
}
memset(&mapping, 0, sizeof(mapping));
mapping.rect = *rect;
mapping.refcount = 1;
pthread_mutex_lock(&bo->drv->driver_lock);
for (i = 0; i < drv_array_size(bo->drv->mappings); i++) {
struct mapping *prior = (struct mapping *)drv_array_at_idx(bo->drv->mappings, i);
if (prior->vma->handle != bo->handles[plane].u32 ||
prior->vma->map_flags != map_flags)
continue;
if (rect->x != prior->rect.x || rect->y != prior->rect.y ||
rect->width != prior->rect.width || rect->height != prior->rect.height)
continue;
prior->refcount++;
*map_data = prior;
goto exact_match;
}
for (i = 0; i < drv_array_size(bo->drv->mappings); i++) {
struct mapping *prior = (struct mapping *)drv_array_at_idx(bo->drv->mappings, i);
if (prior->vma->handle != bo->handles[plane].u32 ||
prior->vma->map_flags != map_flags)
continue;
prior->vma->refcount++;
mapping.vma = prior->vma;
goto success;
}
mapping.vma = calloc(1, sizeof(*mapping.vma));
memcpy(mapping.vma->map_strides, bo->meta.strides, sizeof(mapping.vma->map_strides));
addr = bo->drv->backend->bo_map(bo, mapping.vma, plane, map_flags);
if (addr == MAP_FAILED) {
*map_data = NULL;
free(mapping.vma);
pthread_mutex_unlock(&bo->drv->driver_lock);
return MAP_FAILED;
}
mapping.vma->refcount = 1;
mapping.vma->addr = addr;
mapping.vma->handle = bo->handles[plane].u32;
mapping.vma->map_flags = map_flags;
success:
*map_data = drv_array_append(bo->drv->mappings, &mapping);
exact_match:
drv_bo_invalidate(bo, *map_data);
addr = (uint8_t *)((*map_data)->vma->addr);
addr += drv_bo_get_plane_offset(bo, plane);
pthread_mutex_unlock(&bo->drv->driver_lock);
return (void *)addr;
}
int drv_bo_unmap(struct bo *bo, struct mapping *mapping)
{
uint32_t i;
int ret = 0;
pthread_mutex_lock(&bo->drv->driver_lock);
if (--mapping->refcount)
goto out;
if (!--mapping->vma->refcount) {
ret = bo->drv->backend->bo_unmap(bo, mapping->vma);
free(mapping->vma);
}
for (i = 0; i < drv_array_size(bo->drv->mappings); i++) {
if (mapping == (struct mapping *)drv_array_at_idx(bo->drv->mappings, i)) {
drv_array_remove(bo->drv->mappings, i);
break;
}
}
out:
pthread_mutex_unlock(&bo->drv->driver_lock);
return ret;
}
int drv_bo_invalidate(struct bo *bo, struct mapping *mapping)
{
int ret = 0;
assert(mapping);
assert(mapping->vma);
assert(mapping->refcount > 0);
assert(mapping->vma->refcount > 0);
if (bo->drv->backend->bo_invalidate)
ret = bo->drv->backend->bo_invalidate(bo, mapping);
return ret;
}
int drv_bo_flush(struct bo *bo, struct mapping *mapping)
{
int ret = 0;
assert(mapping);
assert(mapping->vma);
assert(mapping->refcount > 0);
assert(mapping->vma->refcount > 0);
if (bo->drv->backend->bo_flush)
ret = bo->drv->backend->bo_flush(bo, mapping);
return ret;
}
int drv_bo_flush_or_unmap(struct bo *bo, struct mapping *mapping)
{
int ret = 0;
assert(mapping);
assert(mapping->vma);
assert(mapping->refcount > 0);
assert(mapping->vma->refcount > 0);
assert(!(bo->meta.use_flags & BO_USE_PROTECTED));
if (bo->drv->backend->bo_flush)
ret = bo->drv->backend->bo_flush(bo, mapping);
else
ret = drv_bo_unmap(bo, mapping);
return ret;
}
uint32_t drv_bo_get_width(struct bo *bo)
{
return bo->meta.width;
}
uint32_t drv_bo_get_height(struct bo *bo)
{
return bo->meta.height;
}
size_t drv_bo_get_num_planes(struct bo *bo)
{
return bo->meta.num_planes;
}
union bo_handle drv_bo_get_plane_handle(struct bo *bo, size_t plane)
{
return bo->handles[plane];
}
#ifndef DRM_RDWR
#define DRM_RDWR O_RDWR
#endif
int drv_bo_get_plane_fd(struct bo *bo, size_t plane)
{
int ret, fd;
assert(plane < bo->meta.num_planes);
if (bo->is_test_buffer) {
return -EINVAL;
}
ret = drmPrimeHandleToFD(bo->drv->fd, bo->handles[plane].u32, DRM_CLOEXEC | DRM_RDWR, &fd);
// Older DRM implementations blocked DRM_RDWR, but gave a read/write mapping anyways
if (ret)
ret = drmPrimeHandleToFD(bo->drv->fd, bo->handles[plane].u32, DRM_CLOEXEC, &fd);
return (ret) ? ret : fd;
}
uint32_t drv_bo_get_plane_offset(struct bo *bo, size_t plane)
{
assert(plane < bo->meta.num_planes);
return bo->meta.offsets[plane];
}
uint32_t drv_bo_get_plane_size(struct bo *bo, size_t plane)
{
assert(plane < bo->meta.num_planes);
return bo->meta.sizes[plane];
}
uint32_t drv_bo_get_plane_stride(struct bo *bo, size_t plane)
{
assert(plane < bo->meta.num_planes);
return bo->meta.strides[plane];
}
uint64_t drv_bo_get_plane_format_modifier(struct bo *bo, size_t plane)
{
assert(plane < bo->meta.num_planes);
return bo->meta.format_modifiers[plane];
}
uint32_t drv_bo_get_format(struct bo *bo)
{
return bo->meta.format;
}
size_t drv_bo_get_total_size(struct bo *bo)
{
return bo->meta.total_size;
}
uint32_t drv_resolve_format(struct driver *drv, uint32_t format, uint64_t use_flags)
{
if (drv->backend->resolve_format)
return drv->backend->resolve_format(drv, format, use_flags);
return format;
}
uint32_t drv_num_buffers_per_bo(struct bo *bo)
{
uint32_t count = 0;
size_t plane, p;
if (bo->is_test_buffer) {
return 0;
}
for (plane = 0; plane < bo->meta.num_planes; plane++) {
for (p = 0; p < plane; p++)
if (bo->handles[p].u32 == bo->handles[plane].u32)
break;
if (p == plane)
count++;
}
return count;
}
void drv_log_prefix(const char *prefix, const char *file, int line, const char *format, ...)
{
char buf[50];
snprintf(buf, sizeof(buf), "[%s:%s(%d)]", prefix, basename(file), line);
va_list args;
va_start(args, format);
#ifdef __ANDROID__
__android_log_vprint(ANDROID_LOG_ERROR, buf, format, args);
#else
fprintf(stderr, "%s ", buf);
vfprintf(stderr, format, args);
#endif
va_end(args);
}
int drv_resource_info(struct bo *bo, uint32_t strides[DRV_MAX_PLANES],
uint32_t offsets[DRV_MAX_PLANES])
{
for (uint32_t plane = 0; plane < bo->meta.num_planes; plane++) {
strides[plane] = bo->meta.strides[plane];
offsets[plane] = bo->meta.offsets[plane];
}
if (bo->drv->backend->resource_info)
return bo->drv->backend->resource_info(bo, strides, offsets);
return 0;
}
#ifdef USE_GRALLOC1
uint32_t drv_bo_get_stride_or_tiling(struct bo *bo)
{
return bo->meta.tiling ? bo->meta.tiling : drv_bo_get_plane_stride(bo, 0);
}
#endif