#include #include #include #include #include #include #include #include #define VT_LOG(level, format, ...) \ blog(level, "[VideoToolbox encoder]: " format, ##__VA_ARGS__) #define VT_LOG_ENCODER(encoder, level, format, ...) \ blog(level, "[VideoToolbox %s: 'h264']: " format, \ obs_encoder_get_name(encoder), ##__VA_ARGS__) #define VT_BLOG(level, format, ...) \ VT_LOG_ENCODER(enc->encoder, level, format, ##__VA_ARGS__) // Clipped from NSApplication as it is in a ObjC header extern const double NSAppKitVersionNumber; #define NSAppKitVersionNumber10_8 1187 #define APPLE_H264_ENC_ID_HW "com.apple.videotoolbox.videoencoder.h264.gva" #define APPLE_H264_ENC_ID_SW "com.apple.videotoolbox.videoencoder.h264" // Get around missing symbol on 10.8 during compilation enum { kCMFormatDescriptionBridgeError_InvalidParameter_ = -12712, }; static bool is_appkit10_9_or_greater() { return floor(NSAppKitVersionNumber) > NSAppKitVersionNumber10_8; } static DARRAY(struct vt_encoder { const char *name; const char *disp_name; const char *id; const char *codec_name; }) vt_encoders; struct vt_h264_encoder { obs_encoder_t *encoder; const char *vt_encoder_id; uint32_t width; uint32_t height; uint32_t keyint; uint32_t fps_num; uint32_t fps_den; uint32_t bitrate; bool limit_bitrate; uint32_t rc_max_bitrate; float rc_max_bitrate_window; const char *profile; bool bframes; enum video_format obs_pix_fmt; int vt_pix_fmt; enum video_colorspace colorspace; bool fullrange; VTCompressionSessionRef session; CMSimpleQueueRef queue; bool hw_enc; DARRAY(uint8_t) packet_data; DARRAY(uint8_t) extra_data; }; static void log_osstatus(int log_level, struct vt_h264_encoder *enc, const char *context, OSStatus code) { char *c_str = NULL; CFErrorRef err = CFErrorCreate(kCFAllocatorDefault, kCFErrorDomainOSStatus, code, NULL); CFStringRef str = CFErrorCopyDescription(err); c_str = cfstr_copy_cstr(str, kCFStringEncodingUTF8); if (c_str) { if (enc) VT_BLOG(log_level, "Error in %s: %s", context, c_str); else VT_LOG(log_level, "Error in %s: %s", context, c_str); } bfree(c_str); CFRelease(str); CFRelease(err); } static CFStringRef obs_to_vt_profile(const char *profile) { if (strcmp(profile, "baseline") == 0) return kVTProfileLevel_H264_Baseline_AutoLevel; else if (strcmp(profile, "main") == 0) return kVTProfileLevel_H264_Main_AutoLevel; else if (strcmp(profile, "high") == 0) return kVTProfileLevel_H264_High_AutoLevel; else return kVTProfileLevel_H264_Main_AutoLevel; } static CFStringRef obs_to_vt_colorspace(enum video_colorspace cs) { if (cs == VIDEO_CS_709) return kCVImageBufferYCbCrMatrix_ITU_R_709_2; else if (cs == VIDEO_CS_601) return kCVImageBufferYCbCrMatrix_ITU_R_601_4; return NULL; } #define STATUS_CHECK(c) \ code = c; \ if (code) { \ log_osstatus(LOG_ERROR, enc, #c, code); \ goto fail; \ } #define SESSION_CHECK(x) \ if ((code = (x)) != noErr) \ return code; static OSStatus session_set_prop_int(VTCompressionSessionRef session, CFStringRef key, int32_t val) { CFNumberRef n = CFNumberCreate(NULL, kCFNumberSInt32Type, &val); OSStatus code = VTSessionSetProperty(session, key, n); CFRelease(n); return code; } static OSStatus session_set_prop_str(VTCompressionSessionRef session, CFStringRef key, char *val) { CFStringRef s = CFStringCreateWithFileSystemRepresentation(NULL, val); OSStatus code = VTSessionSetProperty(session, key, s); CFRelease(s); return code; } static OSStatus session_set_prop(VTCompressionSessionRef session, CFStringRef key, CFTypeRef val) { return VTSessionSetProperty(session, key, val); } static OSStatus session_set_bitrate(VTCompressionSessionRef session, int new_bitrate, bool limit_bitrate, int max_bitrate, float max_bitrate_window) { OSStatus code; SESSION_CHECK(session_set_prop_int( session, kVTCompressionPropertyKey_AverageBitRate, new_bitrate * 1000)); if (limit_bitrate) { int32_t cpb_size = max_bitrate * 125 * max_bitrate_window; CFNumberRef cf_cpb_size = CFNumberCreate(NULL, kCFNumberIntType, &cpb_size); CFNumberRef cf_cpb_window_s = CFNumberCreate( NULL, kCFNumberFloatType, &max_bitrate_window); CFMutableArrayRef rate_control = CFArrayCreateMutable( kCFAllocatorDefault, 2, &kCFTypeArrayCallBacks); CFArrayAppendValue(rate_control, cf_cpb_size); CFArrayAppendValue(rate_control, cf_cpb_window_s); code = session_set_prop( session, kVTCompressionPropertyKey_DataRateLimits, rate_control); CFRelease(cf_cpb_size); CFRelease(cf_cpb_window_s); CFRelease(rate_control); if (code == kVTPropertyNotSupportedErr) { log_osstatus(LOG_WARNING, NULL, "setting DataRateLimits on session", code); return noErr; } } return noErr; } static OSStatus session_set_colorspace(VTCompressionSessionRef session, enum video_colorspace cs) { CFStringRef matrix = obs_to_vt_colorspace(cs); OSStatus code; if (matrix != NULL) { SESSION_CHECK(session_set_prop( session, kVTCompressionPropertyKey_ColorPrimaries, kCVImageBufferColorPrimaries_ITU_R_709_2)); SESSION_CHECK(session_set_prop( session, kVTCompressionPropertyKey_TransferFunction, kCVImageBufferTransferFunction_ITU_R_709_2)); SESSION_CHECK(session_set_prop( session, kVTCompressionPropertyKey_YCbCrMatrix, matrix)); } return noErr; } #undef SESSION_CHECK void sample_encoded_callback(void *data, void *source, OSStatus status, VTEncodeInfoFlags info_flags, CMSampleBufferRef buffer) { UNUSED_PARAMETER(status); UNUSED_PARAMETER(info_flags); CMSimpleQueueRef queue = data; CVPixelBufferRef pixbuf = source; if (buffer != NULL) { CFRetain(buffer); CMSimpleQueueEnqueue(queue, buffer); } CFRelease(pixbuf); } #define ENCODER_ID kVTVideoEncoderSpecification_EncoderID #define ENABLE_HW_ACCEL \ kVTVideoEncoderSpecification_EnableHardwareAcceleratedVideoEncoder #define REQUIRE_HW_ACCEL \ kVTVideoEncoderSpecification_RequireHardwareAcceleratedVideoEncoder static inline CFMutableDictionaryRef create_encoder_spec(const char *vt_encoder_id) { CFMutableDictionaryRef encoder_spec = CFDictionaryCreateMutable( kCFAllocatorDefault, 3, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks); CFStringRef id = CFStringCreateWithFileSystemRepresentation(NULL, vt_encoder_id); CFDictionaryAddValue(encoder_spec, ENCODER_ID, id); CFRelease(id); CFDictionaryAddValue(encoder_spec, ENABLE_HW_ACCEL, kCFBooleanTrue); CFDictionaryAddValue(encoder_spec, REQUIRE_HW_ACCEL, kCFBooleanFalse); return encoder_spec; } #undef ENCODER_ID #undef REQUIRE_HW_ACCEL #undef ENABLE_HW_ACCEL static inline CFMutableDictionaryRef create_pixbuf_spec(struct vt_h264_encoder *enc) { CFMutableDictionaryRef pixbuf_spec = CFDictionaryCreateMutable( kCFAllocatorDefault, 3, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks); CFNumberRef n = CFNumberCreate(NULL, kCFNumberSInt32Type, &enc->vt_pix_fmt); CFDictionaryAddValue(pixbuf_spec, kCVPixelBufferPixelFormatTypeKey, n); CFRelease(n); n = CFNumberCreate(NULL, kCFNumberSInt32Type, &enc->width); CFDictionaryAddValue(pixbuf_spec, kCVPixelBufferWidthKey, n); CFRelease(n); n = CFNumberCreate(NULL, kCFNumberSInt32Type, &enc->height); CFDictionaryAddValue(pixbuf_spec, kCVPixelBufferHeightKey, n); CFRelease(n); return pixbuf_spec; } static bool create_encoder(struct vt_h264_encoder *enc) { OSStatus code; VTCompressionSessionRef s; CFDictionaryRef encoder_spec = create_encoder_spec(enc->vt_encoder_id); CFDictionaryRef pixbuf_spec = create_pixbuf_spec(enc); STATUS_CHECK(VTCompressionSessionCreate( kCFAllocatorDefault, enc->width, enc->height, kCMVideoCodecType_H264, encoder_spec, pixbuf_spec, NULL, &sample_encoded_callback, enc->queue, &s)); CFRelease(encoder_spec); CFRelease(pixbuf_spec); CFBooleanRef b = NULL; code = VTSessionCopyProperty( s, kVTCompressionPropertyKey_UsingHardwareAcceleratedVideoEncoder, NULL, &b); if (code == noErr && (enc->hw_enc = CFBooleanGetValue(b))) VT_BLOG(LOG_INFO, "session created with hardware encoding"); else enc->hw_enc = false; if (b != NULL) CFRelease(b); STATUS_CHECK(session_set_prop_int( s, kVTCompressionPropertyKey_MaxKeyFrameIntervalDuration, enc->keyint)); STATUS_CHECK(session_set_prop_int( s, kVTCompressionPropertyKey_MaxKeyFrameInterval, enc->keyint * ((float)enc->fps_num / enc->fps_den))); STATUS_CHECK(session_set_prop_int( s, kVTCompressionPropertyKey_ExpectedFrameRate, ceil((float)enc->fps_num / enc->fps_den))); STATUS_CHECK(session_set_prop( s, kVTCompressionPropertyKey_AllowFrameReordering, enc->bframes ? kCFBooleanTrue : kCFBooleanFalse)); // This can fail depending on hardware configuration code = session_set_prop(s, kVTCompressionPropertyKey_RealTime, kCFBooleanTrue); if (code != noErr) log_osstatus(LOG_WARNING, enc, "setting " "kVTCompressionPropertyKey_RealTime, " "frame delay might be increased", code); STATUS_CHECK(session_set_prop(s, kVTCompressionPropertyKey_ProfileLevel, obs_to_vt_profile(enc->profile))); STATUS_CHECK(session_set_bitrate(s, enc->bitrate, enc->limit_bitrate, enc->rc_max_bitrate, enc->rc_max_bitrate_window)); STATUS_CHECK(session_set_colorspace(s, enc->colorspace)); STATUS_CHECK(VTCompressionSessionPrepareToEncodeFrames(s)); enc->session = s; return true; fail: if (encoder_spec != NULL) CFRelease(encoder_spec); if (pixbuf_spec != NULL) CFRelease(pixbuf_spec); return false; } static void vt_h264_destroy(void *data) { struct vt_h264_encoder *enc = data; if (enc) { if (enc->session != NULL) { VTCompressionSessionInvalidate(enc->session); CFRelease(enc->session); } da_free(enc->packet_data); da_free(enc->extra_data); bfree(enc); } } static void dump_encoder_info(struct vt_h264_encoder *enc) { VT_BLOG(LOG_INFO, "settings:\n" "\tvt_encoder_id %s\n" "\tbitrate: %d (kbps)\n" "\tfps_num: %d\n" "\tfps_den: %d\n" "\twidth: %d\n" "\theight: %d\n" "\tkeyint: %d (s)\n" "\tlimit_bitrate: %s\n" "\trc_max_bitrate: %d (kbps)\n" "\trc_max_bitrate_window: %f (s)\n" "\thw_enc: %s\n" "\tprofile: %s\n", enc->vt_encoder_id, enc->bitrate, enc->fps_num, enc->fps_den, enc->width, enc->height, enc->keyint, enc->limit_bitrate ? "on" : "off", enc->rc_max_bitrate, enc->rc_max_bitrate_window, enc->hw_enc ? "on" : "off", (enc->profile != NULL && !!strlen(enc->profile)) ? enc->profile : "default"); } static void vt_h264_video_info(void *data, struct video_scale_info *info) { struct vt_h264_encoder *enc = data; if (info->format == VIDEO_FORMAT_I420) { enc->obs_pix_fmt = info->format; enc->vt_pix_fmt = enc->fullrange ? kCVPixelFormatType_420YpCbCr8PlanarFullRange : kCVPixelFormatType_420YpCbCr8Planar; return; } if (info->format == VIDEO_FORMAT_I444) VT_BLOG(LOG_WARNING, "I444 color format not supported"); // Anything else, return default enc->obs_pix_fmt = VIDEO_FORMAT_NV12; enc->vt_pix_fmt = enc->fullrange ? kCVPixelFormatType_420YpCbCr8BiPlanarFullRange : kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange; info->format = enc->obs_pix_fmt; } static void update_params(struct vt_h264_encoder *enc, obs_data_t *settings) { video_t *video = obs_encoder_video(enc->encoder); const struct video_output_info *voi = video_output_get_info(video); struct video_scale_info info = {.format = voi->format}; enc->fullrange = voi->range == VIDEO_RANGE_FULL; // also sets the enc->vt_pix_fmt vt_h264_video_info(enc, &info); enc->colorspace = voi->colorspace; enc->width = obs_encoder_get_width(enc->encoder); enc->height = obs_encoder_get_height(enc->encoder); enc->fps_num = voi->fps_num; enc->fps_den = voi->fps_den; enc->keyint = (uint32_t)obs_data_get_int(settings, "keyint_sec"); enc->bitrate = (uint32_t)obs_data_get_int(settings, "bitrate"); enc->profile = obs_data_get_string(settings, "profile"); enc->limit_bitrate = obs_data_get_bool(settings, "limit_bitrate"); enc->rc_max_bitrate = obs_data_get_int(settings, "max_bitrate"); enc->rc_max_bitrate_window = obs_data_get_double(settings, "max_bitrate_window"); enc->bframes = obs_data_get_bool(settings, "bframes"); } static bool vt_h264_update(void *data, obs_data_t *settings) { struct vt_h264_encoder *enc = data; uint32_t old_bitrate = enc->bitrate; bool old_limit_bitrate = enc->limit_bitrate; update_params(enc, settings); if (old_bitrate == enc->bitrate && old_limit_bitrate == enc->limit_bitrate) return true; OSStatus code = session_set_bitrate(enc->session, enc->bitrate, enc->limit_bitrate, enc->rc_max_bitrate, enc->rc_max_bitrate_window); if (code != noErr) VT_BLOG(LOG_WARNING, "failed to set bitrate to session"); CFNumberRef n; VTSessionCopyProperty(enc->session, kVTCompressionPropertyKey_AverageBitRate, NULL, &n); uint32_t session_bitrate; CFNumberGetValue(n, kCFNumberIntType, &session_bitrate); CFRelease(n); if (session_bitrate == old_bitrate) { VT_BLOG(LOG_WARNING, "failed to update current session " " bitrate from %d->%d", old_bitrate, enc->bitrate); } dump_encoder_info(enc); return true; } static void *vt_h264_create(obs_data_t *settings, obs_encoder_t *encoder, const char *vt_encoder_id) { struct vt_h264_encoder *enc = bzalloc(sizeof(struct vt_h264_encoder)); OSStatus code; enc->encoder = encoder; enc->vt_encoder_id = vt_encoder_id; update_params(enc, settings); STATUS_CHECK(CMSimpleQueueCreate(NULL, 100, &enc->queue)); if (!create_encoder(enc)) goto fail; dump_encoder_info(enc); return enc; fail: vt_h264_destroy(enc); return NULL; } static void *vt_h264_create_hw(obs_data_t *settings, obs_encoder_t *encoder) { return vt_h264_create(settings, encoder, APPLE_H264_ENC_ID_HW); } static void *vt_h264_create_sw(obs_data_t *settings, obs_encoder_t *encoder) { return vt_h264_create(settings, encoder, APPLE_H264_ENC_ID_SW); } static const uint8_t annexb_startcode[4] = {0, 0, 0, 1}; static void packet_put(struct darray *packet, const uint8_t *buf, size_t size) { darray_push_back_array(sizeof(uint8_t), packet, buf, size); } static void packet_put_startcode(struct darray *packet, int size) { assert(size == 3 || size == 4); packet_put(packet, &annexb_startcode[4 - size], size); } static void convert_block_nals_to_annexb(struct vt_h264_encoder *enc, struct darray *packet, CMBlockBufferRef block, int nal_length_bytes) { size_t block_size; uint8_t *block_buf; CMBlockBufferGetDataPointer(block, 0, NULL, &block_size, (char **)&block_buf); size_t bytes_remaining = block_size; while (bytes_remaining > 0) { uint32_t nal_size; if (nal_length_bytes == 1) nal_size = block_buf[0]; else if (nal_length_bytes == 2) nal_size = CFSwapInt16BigToHost( ((uint16_t *)block_buf)[0]); else if (nal_length_bytes == 4) nal_size = CFSwapInt32BigToHost( ((uint32_t *)block_buf)[0]); else return; bytes_remaining -= nal_length_bytes; block_buf += nal_length_bytes; if (bytes_remaining < nal_size) { VT_BLOG(LOG_ERROR, "invalid nal block"); return; } packet_put_startcode(packet, 3); packet_put(packet, block_buf, nal_size); bytes_remaining -= nal_size; block_buf += nal_size; } } static bool handle_keyframe(struct vt_h264_encoder *enc, CMFormatDescriptionRef format_desc, size_t param_count, struct darray *packet, struct darray *extra_data) { OSStatus code; const uint8_t *param; size_t param_size; for (size_t i = 0; i < param_count; i++) { code = CMVideoFormatDescriptionGetH264ParameterSetAtIndex( format_desc, i, ¶m, ¶m_size, NULL, NULL); if (code != noErr) { log_osstatus(LOG_ERROR, enc, "getting NAL parameter " "at index", code); return false; } packet_put_startcode(packet, 4); packet_put(packet, param, param_size); } // if we were passed an extra_data array, fill it with // SPS, PPS, etc. if (extra_data != NULL) packet_put(extra_data, packet->array, packet->num); return true; } static bool convert_sample_to_annexb(struct vt_h264_encoder *enc, struct darray *packet, struct darray *extra_data, CMSampleBufferRef buffer, bool keyframe) { OSStatus code; CMFormatDescriptionRef format_desc = CMSampleBufferGetFormatDescription(buffer); size_t param_count; int nal_length_bytes; code = CMVideoFormatDescriptionGetH264ParameterSetAtIndex( format_desc, 0, NULL, NULL, ¶m_count, &nal_length_bytes); // it is not clear what errors this function can return // so we check the two most reasonable if (code == kCMFormatDescriptionBridgeError_InvalidParameter_ || code == kCMFormatDescriptionError_InvalidParameter) { VT_BLOG(LOG_WARNING, "assuming 2 parameter sets " "and 4 byte NAL length header"); param_count = 2; nal_length_bytes = 4; } else if (code != noErr) { log_osstatus(LOG_ERROR, enc, "getting parameter count from sample", code); return false; } if (keyframe && !handle_keyframe(enc, format_desc, param_count, packet, extra_data)) return false; CMBlockBufferRef block = CMSampleBufferGetDataBuffer(buffer); convert_block_nals_to_annexb(enc, packet, block, nal_length_bytes); return true; } static bool is_sample_keyframe(CMSampleBufferRef buffer) { CFArrayRef attachments = CMSampleBufferGetSampleAttachmentsArray(buffer, false); if (attachments != NULL) { CFDictionaryRef attachment; CFBooleanRef has_dependencies; attachment = (CFDictionaryRef)CFArrayGetValueAtIndex(attachments, 0); has_dependencies = (CFBooleanRef)CFDictionaryGetValue( attachment, kCMSampleAttachmentKey_DependsOnOthers); return has_dependencies == kCFBooleanFalse; } return false; } static bool parse_sample(struct vt_h264_encoder *enc, CMSampleBufferRef buffer, struct encoder_packet *packet, CMTime off) { CMTime pts = CMSampleBufferGetPresentationTimeStamp(buffer); CMTime dts = CMSampleBufferGetDecodeTimeStamp(buffer); pts = CMTimeMultiplyByFloat64(pts, ((Float64)enc->fps_num / enc->fps_den)); dts = CMTimeMultiplyByFloat64(dts, ((Float64)enc->fps_num / enc->fps_den)); // imitate x264's negative dts when bframes might have pts < dts if (enc->bframes) dts = CMTimeSubtract(dts, off); bool keyframe = is_sample_keyframe(buffer); da_resize(enc->packet_data, 0); // If we are still looking for extra data struct darray *extra_data = NULL; if (enc->extra_data.num == 0) extra_data = &enc->extra_data.da; if (!convert_sample_to_annexb(enc, &enc->packet_data.da, extra_data, buffer, keyframe)) goto fail; packet->type = OBS_ENCODER_VIDEO; packet->pts = (int64_t)(CMTimeGetSeconds(pts)); packet->dts = (int64_t)(CMTimeGetSeconds(dts)); packet->data = enc->packet_data.array; packet->size = enc->packet_data.num; packet->keyframe = keyframe; CFRelease(buffer); return true; fail: CFRelease(buffer); return false; } bool get_cached_pixel_buffer(struct vt_h264_encoder *enc, CVPixelBufferRef *buf) { OSStatus code; CVPixelBufferPoolRef pool = VTCompressionSessionGetPixelBufferPool(enc->session); if (!pool) return kCVReturnError; CVPixelBufferRef pixbuf; STATUS_CHECK(CVPixelBufferPoolCreatePixelBuffer(NULL, pool, &pixbuf)); // Why aren't these already set on the pixel buffer? // I would have expected pixel buffers from the session's // pool to have the correct color space stuff set CFStringRef matrix = obs_to_vt_colorspace(enc->colorspace); CVBufferSetAttachment(pixbuf, kCVImageBufferYCbCrMatrixKey, matrix, kCVAttachmentMode_ShouldPropagate); CVBufferSetAttachment(pixbuf, kCVImageBufferColorPrimariesKey, kCVImageBufferColorPrimaries_ITU_R_709_2, kCVAttachmentMode_ShouldPropagate); CVBufferSetAttachment(pixbuf, kCVImageBufferTransferFunctionKey, kCVImageBufferTransferFunction_ITU_R_709_2, kCVAttachmentMode_ShouldPropagate); *buf = pixbuf; return true; fail: return false; } static bool vt_h264_encode(void *data, struct encoder_frame *frame, struct encoder_packet *packet, bool *received_packet) { struct vt_h264_encoder *enc = data; OSStatus code; CMTime dur = CMTimeMake(enc->fps_den, enc->fps_num); CMTime off = CMTimeMultiply(dur, 2); CMTime pts = CMTimeMultiply(dur, frame->pts); CVPixelBufferRef pixbuf = NULL; if (!get_cached_pixel_buffer(enc, &pixbuf)) { VT_BLOG(LOG_ERROR, "Unable to create pixel buffer"); goto fail; } STATUS_CHECK(CVPixelBufferLockBaseAddress(pixbuf, 0)); for (int i = 0; i < MAX_AV_PLANES; i++) { if (frame->data[i] == NULL) break; uint8_t *p = (uint8_t *)CVPixelBufferGetBaseAddressOfPlane( pixbuf, i); uint8_t *f = frame->data[i]; size_t plane_linesize = CVPixelBufferGetBytesPerRowOfPlane(pixbuf, i); size_t plane_height = CVPixelBufferGetHeightOfPlane(pixbuf, i); for (size_t j = 0; j < plane_height; j++) { memcpy(p, f, frame->linesize[i]); p += plane_linesize; f += frame->linesize[i]; } } STATUS_CHECK(CVPixelBufferUnlockBaseAddress(pixbuf, 0)); STATUS_CHECK(VTCompressionSessionEncodeFrame(enc->session, pixbuf, pts, dur, NULL, pixbuf, NULL)); CMSampleBufferRef buffer = (CMSampleBufferRef)CMSimpleQueueDequeue(enc->queue); // No samples waiting in the queue if (buffer == NULL) return true; *received_packet = true; return parse_sample(enc, buffer, packet, off); fail: return false; } #undef STATUS_CHECK #undef CFNUM_INT static bool vt_h264_extra_data(void *data, uint8_t **extra_data, size_t *size) { struct vt_h264_encoder *enc = (struct vt_h264_encoder *)data; *extra_data = enc->extra_data.array; *size = enc->extra_data.num; return true; } static const char *vt_h264_getname_hw(void *unused) { UNUSED_PARAMETER(unused); return obs_module_text("VTH264EncHW"); } static const char *vt_h264_getname_sw(void *unused) { UNUSED_PARAMETER(unused); return obs_module_text("VTH264EncSW"); } #define TEXT_VT_ENCODER obs_module_text("VTEncoder") #define TEXT_BITRATE obs_module_text("Bitrate") #define TEXT_USE_MAX_BITRATE obs_module_text("UseMaxBitrate") #define TEXT_MAX_BITRATE obs_module_text("MaxBitrate") #define TEXT_MAX_BITRATE_WINDOW obs_module_text("MaxBitrateWindow") #define TEXT_KEYINT_SEC obs_module_text("KeyframeIntervalSec") #define TEXT_PROFILE obs_module_text("Profile") #define TEXT_NONE obs_module_text("None") #define TEXT_DEFAULT obs_module_text("DefaultEncoder") #define TEXT_BFRAMES obs_module_text("UseBFrames") static bool limit_bitrate_modified(obs_properties_t *ppts, obs_property_t *p, obs_data_t *settings) { bool use_max_bitrate = obs_data_get_bool(settings, "limit_bitrate"); p = obs_properties_get(ppts, "max_bitrate"); obs_property_set_visible(p, use_max_bitrate); p = obs_properties_get(ppts, "max_bitrate_window"); obs_property_set_visible(p, use_max_bitrate); return true; } static obs_properties_t *vt_h264_properties(void *unused) { UNUSED_PARAMETER(unused); obs_properties_t *props = obs_properties_create(); obs_property_t *p; p = obs_properties_add_int(props, "bitrate", TEXT_BITRATE, 50, 10000000, 50); obs_property_int_set_suffix(p, " Kbps"); p = obs_properties_add_bool(props, "limit_bitrate", TEXT_USE_MAX_BITRATE); obs_property_set_modified_callback(p, limit_bitrate_modified); p = obs_properties_add_int(props, "max_bitrate", TEXT_MAX_BITRATE, 50, 10000000, 50); obs_property_int_set_suffix(p, " Kbps"); obs_properties_add_float(props, "max_bitrate_window", TEXT_MAX_BITRATE_WINDOW, 0.10f, 10.0f, 0.25f); obs_properties_add_int(props, "keyint_sec", TEXT_KEYINT_SEC, 0, 20, 1); p = obs_properties_add_list(props, "profile", TEXT_PROFILE, OBS_COMBO_TYPE_LIST, OBS_COMBO_FORMAT_STRING); obs_property_list_add_string(p, TEXT_NONE, ""); obs_property_list_add_string(p, "baseline", "baseline"); obs_property_list_add_string(p, "main", "main"); obs_property_list_add_string(p, "high", "high"); obs_properties_add_bool(props, "bframes", TEXT_BFRAMES); return props; } static void vt_h264_defaults(obs_data_t *settings) { obs_data_set_default_int(settings, "bitrate", 2500); obs_data_set_default_bool(settings, "limit_bitrate", false); obs_data_set_default_int(settings, "max_bitrate", 2500); obs_data_set_default_double(settings, "max_bitrate_window", 1.5f); obs_data_set_default_int(settings, "keyint_sec", 0); obs_data_set_default_string(settings, "profile", ""); obs_data_set_default_bool(settings, "bframes", true); } OBS_DECLARE_MODULE() OBS_MODULE_USE_DEFAULT_LOCALE("mac-h264", "en-US") void encoder_list_create() { CFArrayRef encoder_list; VTCopyVideoEncoderList(NULL, &encoder_list); CFIndex size = CFArrayGetCount(encoder_list); for (CFIndex i = 0; i < size; i++) { CFDictionaryRef encoder_dict = CFArrayGetValueAtIndex(encoder_list, i); #define VT_DICTSTR(key, name) \ CFStringRef name##_ref = CFDictionaryGetValue(encoder_dict, key); \ CFIndex name##_len = CFStringGetLength(name##_ref); \ char *name = bzalloc(name##_len + 1); \ CFStringGetFileSystemRepresentation(name##_ref, name, name##_len); VT_DICTSTR(kVTVideoEncoderList_CodecName, codec_name); if (strcmp("H.264", codec_name) != 0) { bfree(codec_name); continue; } VT_DICTSTR(kVTVideoEncoderList_EncoderName, name); VT_DICTSTR(kVTVideoEncoderList_EncoderID, id); VT_DICTSTR(kVTVideoEncoderList_DisplayName, disp_name); struct vt_encoder enc = { .name = name, .id = id, .disp_name = disp_name, .codec_name = codec_name, }; da_push_back(vt_encoders, &enc); #undef VT_DICTSTR } } void encoder_list_destroy() { for (size_t i = 0; i < vt_encoders.num; i++) { bfree((char *)vt_encoders.array[i].name); bfree((char *)vt_encoders.array[i].id); bfree((char *)vt_encoders.array[i].codec_name); bfree((char *)vt_encoders.array[i].disp_name); } da_free(vt_encoders); } void register_encoders() { struct obs_encoder_info info = { .type = OBS_ENCODER_VIDEO, .codec = "h264", .destroy = vt_h264_destroy, .encode = vt_h264_encode, .update = vt_h264_update, .get_properties = vt_h264_properties, .get_defaults = vt_h264_defaults, .get_video_info = vt_h264_video_info, .get_extra_data = vt_h264_extra_data, .caps = OBS_ENCODER_CAP_DYN_BITRATE, }; for (size_t i = 0; i < vt_encoders.num; i++) { if (strcmp(vt_encoders.array[i].id, APPLE_H264_ENC_ID_HW) == 0) { info.id = "vt_h264_hw"; info.get_name = vt_h264_getname_hw; info.create = vt_h264_create_hw; obs_register_encoder(&info); } else if (strcmp(vt_encoders.array[i].id, APPLE_H264_ENC_ID_SW) == 0) { info.id = "vt_h264_sw"; info.get_name = vt_h264_getname_sw; info.create = vt_h264_create_sw; obs_register_encoder(&info); } } } bool obs_module_load(void) { if (!is_appkit10_9_or_greater()) { VT_LOG(LOG_WARNING, "Not adding VideoToolbox H264 encoder; " "AppKit must be version 10.9 or greater"); return false; } encoder_list_create(); register_encoders(); VT_LOG(LOG_INFO, "Adding VideoToolbox H264 encoders"); return true; } void obs_module_unload(void) { encoder_list_destroy(); }