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|
#include "../include/utils.h"
#include "../include/window/window.h"
#include <time.h>
#include <string.h>
#include <stdio.h>
#include <unistd.h>
#include <fcntl.h>
#include <stdlib.h>
#include <sys/stat.h>
#include <sys/random.h>
#include <errno.h>
#include <assert.h>
#include <xf86drmMode.h>
#include <xf86drm.h>
#include <libdrm/drm_fourcc.h>
#include <X11/Xatom.h>
#include <X11/extensions/Xrandr.h>
#include <va/va_drmcommon.h>
#include <libavcodec/avcodec.h>
#include <libavutil/hwcontext_vaapi.h>
double clock_get_monotonic_seconds(void) {
struct timespec ts;
ts.tv_sec = 0;
ts.tv_nsec = 0;
clock_gettime(CLOCK_MONOTONIC, &ts);
return (double)ts.tv_sec + (double)ts.tv_nsec * 0.000000001;
}
bool generate_random_characters(char *buffer, int buffer_size, const char *alphabet, size_t alphabet_size) {
/* TODO: Use other functions on other platforms than linux */
if(getrandom(buffer, buffer_size, 0) < buffer_size) {
fprintf(stderr, "Failed to get random bytes, error: %s\n", strerror(errno));
return false;
}
for(int i = 0; i < buffer_size; ++i) {
unsigned char c = *(unsigned char*)&buffer[i];
buffer[i] = alphabet[c % alphabet_size];
}
return true;
}
bool generate_random_characters_standard_alphabet(char *buffer, int buffer_size) {
return generate_random_characters(buffer, buffer_size, "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789", 62);
}
static const XRRModeInfo* get_mode_info(const XRRScreenResources *sr, RRMode id) {
for(int i = 0; i < sr->nmode; ++i) {
if(sr->modes[i].id == id)
return &sr->modes[i];
}
return NULL;
}
static gsr_monitor_rotation x11_rotation_to_gsr_rotation(int rot) {
switch(rot) {
case RR_Rotate_0: return GSR_MONITOR_ROT_0;
case RR_Rotate_90: return GSR_MONITOR_ROT_90;
case RR_Rotate_180: return GSR_MONITOR_ROT_180;
case RR_Rotate_270: return GSR_MONITOR_ROT_270;
}
return GSR_MONITOR_ROT_0;
}
static uint32_t x11_output_get_connector_id(Display *dpy, RROutput output, Atom randr_connector_id_atom) {
Atom type = 0;
int format = 0;
unsigned long bytes_after = 0;
unsigned long nitems = 0;
unsigned char *prop = NULL;
XRRGetOutputProperty(dpy, output, randr_connector_id_atom, 0, 128, false, false, AnyPropertyType, &type, &format, &nitems, &bytes_after, &prop);
long result = 0;
if(type == XA_INTEGER && format == 32)
result = *(long*)prop;
free(prop);
return result;
}
static vec2i get_monitor_size_rotated(int width, int height, gsr_monitor_rotation rotation) {
vec2i size = { .x = width, .y = height };
if(rotation == GSR_MONITOR_ROT_90 || rotation == GSR_MONITOR_ROT_270) {
int tmp_x = size.x;
size.x = size.y;
size.y = tmp_x;
}
return size;
}
void for_each_active_monitor_output_x11_not_cached(Display *display, active_monitor_callback callback, void *userdata) {
XRRScreenResources *screen_res = XRRGetScreenResources(display, DefaultRootWindow(display));
if(!screen_res)
return;
const Atom randr_connector_id_atom = XInternAtom(display, "CONNECTOR_ID", False);
char display_name[256];
for(int i = 0; i < screen_res->noutput; ++i) {
XRROutputInfo *out_info = XRRGetOutputInfo(display, screen_res, screen_res->outputs[i]);
if(out_info && out_info->crtc && out_info->connection == RR_Connected) {
XRRCrtcInfo *crt_info = XRRGetCrtcInfo(display, screen_res, out_info->crtc);
if(crt_info && crt_info->mode) {
// We want to use the current mode info width/height (mode_info->width/height) instead of crtc info width/height (crt_info->width/height) because crtc info
// is scaled if the monitor is scaled (xrandr --output DP-1 --scale 1.5). Normally this is not an issue for x11 applications,
// but gpu screen recorder captures the drm framebuffer instead of x11 api. This drm framebuffer which doesn't increase in size when using xrandr scaling.
// Maybe a better option would be to get the drm crtc size instead.
const XRRModeInfo *mode_info = get_mode_info(screen_res, crt_info->mode);
if(mode_info && out_info->nameLen < (int)sizeof(display_name)) {
snprintf(display_name, sizeof(display_name), "%.*s", (int)out_info->nameLen, out_info->name);
const gsr_monitor_rotation rotation = x11_rotation_to_gsr_rotation(crt_info->rotation);
const vec2i monitor_size = get_monitor_size_rotated(mode_info->width, mode_info->height, rotation);
const gsr_monitor monitor = {
.name = display_name,
.name_len = out_info->nameLen,
.pos = { .x = crt_info->x, .y = crt_info->y },
.size = monitor_size,
.connector_id = x11_output_get_connector_id(display, screen_res->outputs[i], randr_connector_id_atom),
.rotation = rotation,
.monitor_identifier = out_info->crtc
};
callback(&monitor, userdata);
}
}
if(crt_info)
XRRFreeCrtcInfo(crt_info);
}
if(out_info)
XRRFreeOutputInfo(out_info);
}
XRRFreeScreenResources(screen_res);
}
/* TODO: Support more connector types */
int get_connector_type_by_name(const char *name) {
int len = strlen(name);
if(len >= 5 && strncmp(name, "HDMI-", 5) == 0)
return 1;
else if(len >= 3 && strncmp(name, "DP-", 3) == 0)
return 2;
else if(len >= 12 && strncmp(name, "DisplayPort-", 12) == 0)
return 3;
else if(len >= 4 && strncmp(name, "eDP-", 4) == 0)
return 4;
else
return -1;
}
drm_connector_type_count* drm_connector_types_get_index(drm_connector_type_count *type_counts, int *num_type_counts, int connector_type) {
for(int i = 0; i < *num_type_counts; ++i) {
if(type_counts[i].type == connector_type)
return &type_counts[i];
}
if(*num_type_counts == CONNECTOR_TYPE_COUNTS)
return NULL;
const int index = *num_type_counts;
type_counts[index].type = connector_type;
type_counts[index].count = 0;
type_counts[index].count_active = 0;
++*num_type_counts;
return &type_counts[index];
}
uint32_t monitor_identifier_from_type_and_count(int monitor_type_index, int monitor_type_count) {
return ((uint32_t)monitor_type_index << 16) | ((uint32_t)monitor_type_count);
}
static bool connector_get_property_by_name(int drmfd, drmModeConnectorPtr props, const char *name, uint64_t *result) {
for(int i = 0; i < props->count_props; ++i) {
drmModePropertyPtr prop = drmModeGetProperty(drmfd, props->props[i]);
if(prop) {
if(strcmp(name, prop->name) == 0) {
*result = props->prop_values[i];
drmModeFreeProperty(prop);
return true;
}
drmModeFreeProperty(prop);
}
}
return false;
}
static void for_each_active_monitor_output_drm(const char *card_path, active_monitor_callback callback, void *userdata) {
int fd = open(card_path, O_RDONLY);
if(fd == -1) {
fprintf(stderr, "gsr error: for_each_active_monitor_output_drm failed, failed to open \"%s\", error: %s\n", card_path, strerror(errno));
return;
}
drmSetClientCap(fd, DRM_CLIENT_CAP_ATOMIC, 1);
drm_connector_type_count type_counts[CONNECTOR_TYPE_COUNTS];
int num_type_counts = 0;
char display_name[256];
drmModeResPtr resources = drmModeGetResources(fd);
if(resources) {
for(int i = 0; i < resources->count_connectors; ++i) {
drmModeConnectorPtr connector = drmModeGetConnectorCurrent(fd, resources->connectors[i]);
if(!connector)
continue;
drm_connector_type_count *connector_type = drm_connector_types_get_index(type_counts, &num_type_counts, connector->connector_type);
const char *connection_name = drmModeGetConnectorTypeName(connector->connector_type);
const int connection_name_len = strlen(connection_name);
if(connector_type)
++connector_type->count;
if(connector->connection != DRM_MODE_CONNECTED) {
drmModeFreeConnector(connector);
continue;
}
if(connector_type)
++connector_type->count_active;
uint64_t crtc_id = 0;
connector_get_property_by_name(fd, connector, "CRTC_ID", &crtc_id);
drmModeCrtcPtr crtc = drmModeGetCrtc(fd, crtc_id);
if(connector_type && crtc_id > 0 && crtc && connection_name_len + 5 < (int)sizeof(display_name)) {
const int display_name_len = snprintf(display_name, sizeof(display_name), "%s-%d", connection_name, connector_type->count);
const int connector_type_index_name = get_connector_type_by_name(display_name);
gsr_monitor monitor = {
.name = display_name,
.name_len = display_name_len,
.pos = { .x = crtc->x, .y = crtc->y },
.size = { .x = (int)crtc->width, .y = (int)crtc->height },
.connector_id = connector->connector_id,
.rotation = GSR_MONITOR_ROT_0,
.monitor_identifier = connector_type_index_name != -1 ? monitor_identifier_from_type_and_count(connector_type_index_name, connector_type->count_active) : 0
};
callback(&monitor, userdata);
}
if(crtc)
drmModeFreeCrtc(crtc);
drmModeFreeConnector(connector);
}
drmModeFreeResources(resources);
}
close(fd);
}
void for_each_active_monitor_output(const gsr_window *window, const char *card_path, gsr_connection_type connection_type, active_monitor_callback callback, void *userdata) {
switch(connection_type) {
case GSR_CONNECTION_X11:
case GSR_CONNECTION_WAYLAND:
gsr_window_for_each_active_monitor_output_cached(window, callback, userdata);
break;
case GSR_CONNECTION_DRM:
for_each_active_monitor_output_drm(card_path, callback, userdata);
break;
}
}
static void get_monitor_by_name_callback(const gsr_monitor *monitor, void *userdata) {
get_monitor_by_name_userdata *data = (get_monitor_by_name_userdata*)userdata;
if(!data->found_monitor && strcmp(data->name, monitor->name) == 0) {
data->monitor->pos = monitor->pos;
data->monitor->size = monitor->size;
data->monitor->connector_id = monitor->connector_id;
data->monitor->rotation = monitor->rotation;
data->monitor->monitor_identifier = monitor->monitor_identifier;
data->found_monitor = true;
}
}
bool get_monitor_by_name(const gsr_egl *egl, gsr_connection_type connection_type, const char *name, gsr_monitor *monitor) {
get_monitor_by_name_userdata userdata;
userdata.name = name;
userdata.name_len = strlen(name);
userdata.monitor = monitor;
userdata.found_monitor = false;
for_each_active_monitor_output(egl->window, egl->card_path, connection_type, get_monitor_by_name_callback, &userdata);
return userdata.found_monitor;
}
typedef struct {
const gsr_monitor *monitor;
gsr_monitor_rotation rotation;
bool match_found;
} get_monitor_by_connector_id_userdata;
static bool vec2i_eql(vec2i a, vec2i b) {
return a.x == b.x && a.y == b.y;
}
static void get_monitor_by_name_and_size_callback(const gsr_monitor *monitor, void *userdata) {
get_monitor_by_connector_id_userdata *data = (get_monitor_by_connector_id_userdata*)userdata;
if(monitor->name && data->monitor->name && strcmp(monitor->name, data->monitor->name) == 0 && vec2i_eql(monitor->size, data->monitor->size)) {
data->rotation = monitor->rotation;
data->match_found = true;
}
}
static void get_monitor_by_connector_id_callback(const gsr_monitor *monitor, void *userdata) {
get_monitor_by_connector_id_userdata *data = (get_monitor_by_connector_id_userdata*)userdata;
if(monitor->connector_id == data->monitor->connector_id ||
(!monitor->connector_id && monitor->monitor_identifier == data->monitor->monitor_identifier))
{
data->rotation = monitor->rotation;
data->match_found = true;
}
}
gsr_monitor_rotation drm_monitor_get_display_server_rotation(const gsr_window *window, const gsr_monitor *monitor) {
if(gsr_window_get_display_server(window) == GSR_DISPLAY_SERVER_WAYLAND) {
{
get_monitor_by_connector_id_userdata userdata;
userdata.monitor = monitor;
userdata.rotation = GSR_MONITOR_ROT_0;
userdata.match_found = false;
gsr_window_for_each_active_monitor_output_cached(window, get_monitor_by_name_and_size_callback, &userdata);
if(userdata.match_found)
return userdata.rotation;
}
{
get_monitor_by_connector_id_userdata userdata;
userdata.monitor = monitor;
userdata.rotation = GSR_MONITOR_ROT_0;
userdata.match_found = false;
gsr_window_for_each_active_monitor_output_cached(window, get_monitor_by_connector_id_callback, &userdata);
return userdata.rotation;
}
} else {
get_monitor_by_connector_id_userdata userdata;
userdata.monitor = monitor;
userdata.rotation = GSR_MONITOR_ROT_0;
userdata.match_found = false;
gsr_window_for_each_active_monitor_output_cached(window, get_monitor_by_connector_id_callback, &userdata);
return userdata.rotation;
}
return GSR_MONITOR_ROT_0;
}
bool gl_get_gpu_info(gsr_egl *egl, gsr_gpu_info *info) {
const char *software_renderers[] = { "llvmpipe", "SWR", "softpipe", NULL };
bool supported = true;
const unsigned char *gl_vendor = egl->glGetString(GL_VENDOR);
const unsigned char *gl_renderer = egl->glGetString(GL_RENDERER);
const unsigned char *gl_version = egl->glGetString(GL_VERSION);
info->gpu_version = 0;
info->is_steam_deck = false;
info->driver_major = 0;
info->driver_minor = 0;
info->driver_patch = 0;
if(!gl_vendor) {
fprintf(stderr, "gsr error: failed to get gpu vendor\n");
supported = false;
goto end;
}
if(gl_renderer) {
for(int i = 0; software_renderers[i]; ++i) {
if(strstr((const char*)gl_renderer, software_renderers[i])) {
fprintf(stderr, "gsr error: your opengl environment is not properly setup. It's using %s (software rendering) for opengl instead of your graphics card. Please make sure your graphics driver is properly installed\n", software_renderers[i]);
supported = false;
goto end;
}
}
}
if(strstr((const char*)gl_vendor, "AMD"))
info->vendor = GSR_GPU_VENDOR_AMD;
else if(strstr((const char*)gl_vendor, "Mesa") && gl_renderer && strstr((const char*)gl_renderer, "AMD"))
info->vendor = GSR_GPU_VENDOR_AMD;
else if(strstr((const char*)gl_vendor, "Intel"))
info->vendor = GSR_GPU_VENDOR_INTEL;
else if(strstr((const char*)gl_vendor, "NVIDIA"))
info->vendor = GSR_GPU_VENDOR_NVIDIA;
else {
fprintf(stderr, "gsr error: unknown gpu vendor: %s\n", gl_vendor);
supported = false;
goto end;
}
if(gl_renderer) {
if(info->vendor == GSR_GPU_VENDOR_NVIDIA)
sscanf((const char*)gl_renderer, "%*s %*s %*s %d", &info->gpu_version);
info->is_steam_deck = strstr((const char*)gl_renderer, "vangogh") != NULL;
}
if(gl_version) {
const char *mesa_p = strstr((const char*)gl_version, "Mesa ");
if(mesa_p) {
mesa_p += 5;
int major = 0;
int minor = 0;
int patch = 0;
if(sscanf(mesa_p, "%d.%d.%d", &major, &minor, &patch) == 3) {
info->driver_major = major;
info->driver_minor = minor;
info->driver_patch = patch;
}
}
}
end:
return supported;
}
static bool version_greater_than(int major, int minor, int patch, int other_major, int other_minor, int other_patch) {
return (major > other_major) || (major == other_major && minor > other_minor) || (major == other_major && minor == other_minor && patch > other_patch);
}
bool gl_driver_version_greater_than(const gsr_egl *egl, int major, int minor, int patch) {
return version_greater_than(egl->gpu_info.driver_major, egl->gpu_info.driver_minor, egl->gpu_info.driver_patch, major, minor, patch);
}
bool try_card_has_valid_plane(const char *card_path) {
drmVersion *ver = NULL;
drmModePlaneResPtr planes = NULL;
bool found_screen_card = false;
int fd = open(card_path, O_RDONLY);
if(fd == -1)
return false;
ver = drmGetVersion(fd);
if(!ver || strstr(ver->name, "nouveau"))
goto next;
drmSetClientCap(fd, DRM_CLIENT_CAP_UNIVERSAL_PLANES, 1);
planes = drmModeGetPlaneResources(fd);
if(!planes)
goto next;
for(uint32_t j = 0; j < planes->count_planes; ++j) {
drmModePlanePtr plane = drmModeGetPlane(fd, planes->planes[j]);
if(!plane)
continue;
if(plane->fb_id)
found_screen_card = true;
drmModeFreePlane(plane);
if(found_screen_card)
break;
}
next:
if(planes)
drmModeFreePlaneResources(planes);
if(ver)
drmFreeVersion(ver);
close(fd);
if(found_screen_card)
return true;
return false;
}
bool gsr_get_valid_card_path(gsr_egl *egl, char *output, bool is_monitor_capture) {
if(egl->dri_card_path) {
snprintf(output, 128, "%s", egl->dri_card_path);
return is_monitor_capture ? try_card_has_valid_plane(output) : true;
}
for(int i = 0; i < 10; ++i) {
snprintf(output, 128, DRM_DEV_NAME, DRM_DIR_NAME, i);
if(try_card_has_valid_plane(output))
return true;
}
return false;
}
bool gsr_card_path_get_render_path(const char *card_path, char *render_path) {
int fd = open(card_path, O_RDONLY);
if(fd == -1)
return false;
char *render_path_tmp = drmGetRenderDeviceNameFromFd(fd);
if(render_path_tmp) {
snprintf(render_path, 128, "%s", render_path_tmp);
free(render_path_tmp);
close(fd);
return true;
}
close(fd);
return false;
}
int create_directory_recursive(char *path) {
int path_len = strlen(path);
char *p = path;
char *end = path + path_len;
for(;;) {
char *slash_p = strchr(p, '/');
// Skips first '/', we don't want to try and create the root directory
if(slash_p == path) {
++p;
continue;
}
if(!slash_p)
slash_p = end;
char prev_char = *slash_p;
*slash_p = '\0';
int err = mkdir(path, S_IRWXU);
*slash_p = prev_char;
if(err == -1 && errno != EEXIST)
return err;
if(slash_p == end)
break;
else
p = slash_p + 1;
}
return 0;
}
void setup_dma_buf_attrs(intptr_t *img_attr, uint32_t format, uint32_t width, uint32_t height, const int *fds, const uint32_t *offsets, const uint32_t *pitches, const uint64_t *modifiers, int num_planes, bool use_modifier) {
size_t img_attr_index = 0;
img_attr[img_attr_index++] = EGL_LINUX_DRM_FOURCC_EXT;
img_attr[img_attr_index++] = format;
img_attr[img_attr_index++] = EGL_WIDTH;
img_attr[img_attr_index++] = width;
img_attr[img_attr_index++] = EGL_HEIGHT;
img_attr[img_attr_index++] = height;
if(num_planes >= 1) {
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE0_FD_EXT;
img_attr[img_attr_index++] = fds[0];
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE0_OFFSET_EXT;
img_attr[img_attr_index++] = offsets[0];
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE0_PITCH_EXT;
img_attr[img_attr_index++] = pitches[0];
if(use_modifier) {
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE0_MODIFIER_LO_EXT;
img_attr[img_attr_index++] = modifiers[0] & 0xFFFFFFFFULL;
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE0_MODIFIER_HI_EXT;
img_attr[img_attr_index++] = modifiers[0] >> 32ULL;
}
}
if(num_planes >= 2) {
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE1_FD_EXT;
img_attr[img_attr_index++] = fds[1];
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE1_OFFSET_EXT;
img_attr[img_attr_index++] = offsets[1];
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE1_PITCH_EXT;
img_attr[img_attr_index++] = pitches[1];
if(use_modifier) {
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE1_MODIFIER_LO_EXT;
img_attr[img_attr_index++] = modifiers[1] & 0xFFFFFFFFULL;
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE1_MODIFIER_HI_EXT;
img_attr[img_attr_index++] = modifiers[1] >> 32ULL;
}
}
if(num_planes >= 3) {
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE2_FD_EXT;
img_attr[img_attr_index++] = fds[2];
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE2_OFFSET_EXT;
img_attr[img_attr_index++] = offsets[2];
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE2_PITCH_EXT;
img_attr[img_attr_index++] = pitches[2];
if(use_modifier) {
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE2_MODIFIER_LO_EXT;
img_attr[img_attr_index++] = modifiers[2] & 0xFFFFFFFFULL;
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE2_MODIFIER_HI_EXT;
img_attr[img_attr_index++] = modifiers[2] >> 32ULL;
}
}
if(num_planes >= 4) {
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE3_FD_EXT;
img_attr[img_attr_index++] = fds[3];
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE3_OFFSET_EXT;
img_attr[img_attr_index++] = offsets[3];
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE3_PITCH_EXT;
img_attr[img_attr_index++] = pitches[3];
if(use_modifier) {
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE3_MODIFIER_LO_EXT;
img_attr[img_attr_index++] = modifiers[3] & 0xFFFFFFFFULL;
img_attr[img_attr_index++] = EGL_DMA_BUF_PLANE3_MODIFIER_HI_EXT;
img_attr[img_attr_index++] = modifiers[3] >> 32ULL;
}
}
img_attr[img_attr_index++] = EGL_NONE;
assert(img_attr_index <= 44);
}
static VADisplay video_codec_context_get_vaapi_display(AVCodecContext *video_codec_context) {
AVBufferRef *hw_frames_ctx = video_codec_context->hw_frames_ctx;
if(!hw_frames_ctx)
return NULL;
AVHWFramesContext *hw_frame_context = (AVHWFramesContext*)hw_frames_ctx->data;
AVHWDeviceContext *device_context = (AVHWDeviceContext*)hw_frame_context->device_ctx;
if(device_context->type != AV_HWDEVICE_TYPE_VAAPI)
return NULL;
AVVAAPIDeviceContext *vactx = device_context->hwctx;
return vactx->display;
}
bool video_codec_context_is_vaapi(AVCodecContext *video_codec_context) {
AVBufferRef *hw_frames_ctx = video_codec_context->hw_frames_ctx;
if(!hw_frames_ctx)
return NULL;
AVHWFramesContext *hw_frame_context = (AVHWFramesContext*)hw_frames_ctx->data;
AVHWDeviceContext *device_context = (AVHWDeviceContext*)hw_frame_context->device_ctx;
return device_context->type == AV_HWDEVICE_TYPE_VAAPI;
}
static uint32_t drm_fourcc_to_va_fourcc(uint32_t drm_fourcc) {
switch(drm_fourcc) {
case DRM_FORMAT_XRGB8888: return VA_FOURCC_BGRX;
case DRM_FORMAT_XBGR8888: return VA_FOURCC_RGBX;
case DRM_FORMAT_RGBX8888: return VA_FOURCC_XBGR;
case DRM_FORMAT_BGRX8888: return VA_FOURCC_XRGB;
case DRM_FORMAT_ARGB8888: return VA_FOURCC_BGRA;
case DRM_FORMAT_ABGR8888: return VA_FOURCC_RGBA;
case DRM_FORMAT_RGBA8888: return VA_FOURCC_ABGR;
case DRM_FORMAT_BGRA8888: return VA_FOURCC_ARGB;
default: return drm_fourcc;
}
}
bool vaapi_copy_drm_planes_to_video_surface(AVCodecContext *video_codec_context, AVFrame *video_frame, vec2i source_pos, vec2i source_size, vec2i dest_pos, vec2i dest_size, uint32_t format, vec2i size, const int *fds, const uint32_t *offsets, const uint32_t *pitches, const uint64_t *modifiers, int num_planes) {
VAConfigID config_id = 0;
VAContextID context_id = 0;
VASurfaceID input_surface_id = 0;
VABufferID buffer_id = 0;
bool success = true;
VADisplay va_dpy = video_codec_context_get_vaapi_display(video_codec_context);
if(!va_dpy) {
success = false;
goto done;
}
VAStatus va_status = vaCreateConfig(va_dpy, VAProfileNone, VAEntrypointVideoProc, NULL, 0, &config_id);
if(va_status != VA_STATUS_SUCCESS) {
fprintf(stderr, "gsr error: vaapi_copy_drm_planes_to_video_surface: vaCreateConfig failed, error: %s\n", vaErrorStr(va_status));
success = false;
goto done;
}
VASurfaceID output_surface_id = (uintptr_t)video_frame->data[3];
va_status = vaCreateContext(va_dpy, config_id, size.x, size.y, VA_PROGRESSIVE, &output_surface_id, 1, &context_id);
if(va_status != VA_STATUS_SUCCESS) {
fprintf(stderr, "gsr error: vaapi_copy_drm_planes_to_video_surface: vaCreateContext failed, error: %s\n", vaErrorStr(va_status));
success = false;
goto done;
}
VADRMPRIMESurfaceDescriptor buf = {0};
buf.fourcc = drm_fourcc_to_va_fourcc(format);//VA_FOURCC_BGRX; // TODO: VA_FOURCC_BGRA, VA_FOURCC_X2R10G10B10
buf.width = size.x;
buf.height = size.y;
buf.num_objects = num_planes;
buf.num_layers = 1;
buf.layers[0].drm_format = format;
buf.layers[0].num_planes = buf.num_objects;
for(int i = 0; i < num_planes; ++i) {
buf.objects[i].fd = fds[i];
buf.objects[i].size = size.y * pitches[i]; // TODO:
buf.objects[i].drm_format_modifier = modifiers[i];
buf.layers[0].object_index[i] = i;
buf.layers[0].offset[i] = offsets[i];
buf.layers[0].pitch[i] = pitches[i];
}
VASurfaceAttrib attribs[2] = {0};
attribs[0].type = VASurfaceAttribMemoryType;
attribs[0].flags = VA_SURFACE_ATTRIB_SETTABLE;
attribs[0].value.type = VAGenericValueTypeInteger;
attribs[0].value.value.i = VA_SURFACE_ATTRIB_MEM_TYPE_DRM_PRIME_2;
attribs[1].type = VASurfaceAttribExternalBufferDescriptor;
attribs[1].flags = VA_SURFACE_ATTRIB_SETTABLE;
attribs[1].value.type = VAGenericValueTypePointer;
attribs[1].value.value.p = &buf;
// TODO: RT_FORMAT with 10 bit/hdr, VA_RT_FORMAT_RGB32_10
// TODO: Max size same as source_size
va_status = vaCreateSurfaces(va_dpy, VA_RT_FORMAT_RGB32, size.x, size.y, &input_surface_id, 1, attribs, 2);
if(va_status != VA_STATUS_SUCCESS) {
fprintf(stderr, "gsr error: vaapi_copy_drm_planes_to_video_surface: vaCreateSurfaces failed, error: %s\n", vaErrorStr(va_status));
success = false;
goto done;
}
const VARectangle source_region = {
.x = source_pos.x,
.y = source_pos.y,
.width = source_size.x,
.height = source_size.y
};
const VARectangle output_region = {
.x = dest_pos.x,
.y = dest_pos.y,
.width = dest_size.x,
.height = dest_size.y
};
const bool scaled = dest_size.x != source_size.x || dest_size.y != source_size.y;
// Copying a surface to another surface will automatically perform the color conversion. Thanks vaapi!
VAProcPipelineParameterBuffer params = {0};
params.surface = input_surface_id;
params.surface_region = NULL;
params.surface_region = &source_region;
params.output_region = &output_region;
params.output_background_color = 0;
params.filter_flags = scaled ? (VA_FILTER_SCALING_HQ | VA_FILTER_INTERPOLATION_BILINEAR) : 0;
params.pipeline_flags = VA_PROC_PIPELINE_FAST;
params.input_color_properties.colour_primaries = 1;
params.input_color_properties.transfer_characteristics = 1;
params.input_color_properties.matrix_coefficients = 1;
params.surface_color_standard = VAProcColorStandardBT709; // TODO:
params.input_color_properties.color_range = video_frame->color_range == AVCOL_RANGE_JPEG ? VA_SOURCE_RANGE_FULL : VA_SOURCE_RANGE_REDUCED;
params.output_color_properties.colour_primaries = 1;
params.output_color_properties.transfer_characteristics = 1;
params.output_color_properties.matrix_coefficients = 1;
params.output_color_standard = VAProcColorStandardBT709; // TODO:
params.output_color_properties.color_range = video_frame->color_range == AVCOL_RANGE_JPEG ? VA_SOURCE_RANGE_FULL : VA_SOURCE_RANGE_REDUCED;
params.processing_mode = VAProcPerformanceMode;
// VAProcPipelineCaps pipeline_caps = {0};
// va_status = vaQueryVideoProcPipelineCaps(self->va_dpy,
// self->context_id,
// NULL, 0,
// &pipeline_caps);
// if(va_status == VA_STATUS_SUCCESS) {
// fprintf(stderr, "pipeline_caps: %u, %u\n", (unsigned int)pipeline_caps.rotation_flags, pipeline_caps.blend_flags);
// }
// TODO: params.output_hdr_metadata
// TODO:
// if (first surface to render)
// pipeline_param->output_background_color = 0xff000000; // black
va_status = vaCreateBuffer(va_dpy, context_id, VAProcPipelineParameterBufferType, sizeof(params), 1, ¶ms, &buffer_id);
if(va_status != VA_STATUS_SUCCESS) {
fprintf(stderr, "gsr error: vaapi_copy_drm_planes_to_video_surface: vaCreateBuffer failed, error: %d\n", va_status);
success = false;
goto done;
}
va_status = vaBeginPicture(va_dpy, context_id, output_surface_id);
if(va_status != VA_STATUS_SUCCESS) {
fprintf(stderr, "gsr error: vaapi_copy_drm_planes_to_video_surface: vaBeginPicture failed, error: %d\n", va_status);
success = false;
goto done;
}
va_status = vaRenderPicture(va_dpy, context_id, &buffer_id, 1);
if(va_status != VA_STATUS_SUCCESS) {
vaEndPicture(va_dpy, context_id);
fprintf(stderr, "gsr error: vaapi_copy_drm_planes_to_video_surface: vaRenderPicture failed, error: %d\n", va_status);
success = false;
goto done;
}
va_status = vaEndPicture(va_dpy, context_id);
if(va_status != VA_STATUS_SUCCESS) {
fprintf(stderr, "gsr error: vaapi_copy_drm_planes_to_video_surface: vaEndPicture failed, error: %d\n", va_status);
success = false;
goto done;
}
// vaSyncBuffer(va_dpy, buffer_id, 1000 * 1000 * 1000);
// vaSyncSurface(va_dpy, input_surface_id);
// vaSyncSurface(va_dpy, output_surface_id);
done:
if(buffer_id)
vaDestroyBuffer(va_dpy, buffer_id);
if(input_surface_id)
vaDestroySurfaces(va_dpy, &input_surface_id, 1);
if(context_id)
vaDestroyContext(va_dpy, context_id);
if(config_id)
vaDestroyConfig(va_dpy, config_id);
return success;
}
bool vaapi_copy_egl_image_to_video_surface(gsr_egl *egl, EGLImage image, vec2i source_pos, vec2i source_size, vec2i dest_pos, vec2i dest_size, AVCodecContext *video_codec_context, AVFrame *video_frame) {
if(!image)
return false;
int texture_fourcc = 0;
int texture_num_planes = 0;
uint64_t texture_modifiers = 0;
if(!egl->eglExportDMABUFImageQueryMESA(egl->egl_display, image, &texture_fourcc, &texture_num_planes, &texture_modifiers)) {
fprintf(stderr, "gsr error: gsr_capture_xcomposite_vaapi_tick: eglExportDMABUFImageQueryMESA failed\n");
return false;
}
if(texture_num_planes <= 0 || texture_num_planes > 8) {
fprintf(stderr, "gsr error: gsr_capture_xcomposite_vaapi_tick: expected planes size to be 0<planes<=8 for drm buf, got %d planes\n", texture_num_planes);
return false;
}
int texture_fds[8];
int32_t texture_strides[8];
int32_t texture_offsets[8];
while(egl->eglGetError() != EGL_SUCCESS){}
if(!egl->eglExportDMABUFImageMESA(egl->egl_display, image, texture_fds, texture_strides, texture_offsets)) {
fprintf(stderr, "gsr error: gsr_capture_xcomposite_vaapi_tick: eglExportDMABUFImageMESA failed, error: %d\n", egl->eglGetError());
return false;
}
int fds[8];
uint32_t offsets[8];
uint32_t pitches[8];
uint64_t modifiers[8];
for(int i = 0; i < texture_num_planes; ++i) {
fds[i] = texture_fds[i];
offsets[i] = texture_offsets[i];
pitches[i] = texture_strides[i];
modifiers[i] = texture_modifiers;
if(fds[i] == -1)
texture_num_planes = i;
}
const bool success = texture_num_planes > 0 && vaapi_copy_drm_planes_to_video_surface(video_codec_context, video_frame, source_pos, source_size, dest_pos, dest_size, texture_fourcc, source_size, fds, offsets, pitches, modifiers, texture_num_planes);
for(int i = 0; i < texture_num_planes; ++i) {
if(texture_fds[i] > 0) {
close(texture_fds[i]);
texture_fds[i] = -1;
}
}
return success;
}
vec2i scale_keep_aspect_ratio(vec2i from, vec2i to) {
if(from.x == 0 || from.y == 0)
return (vec2i){0, 0};
const double height_to_width_ratio = (double)from.y / (double)from.x;
from.x = to.x;
from.y = from.x * height_to_width_ratio;
if(from.y > to.y) {
const double width_height_ratio = (double)from.x / (double)from.y;
from.y = to.y;
from.x = from.y * width_height_ratio;
}
return from;
}
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