std::wstring call_command(command_context& ctx)
{
- auto result = ctx.channel.channel->stage().call(ctx.layer_index(), ctx.parameters);
+ auto result = ctx.channel.channel->stage().call(ctx.layer_index(), ctx.parameters).get();
// TODO: because of std::async deferred timed waiting does not work
CASPAR_THROW_EXCEPTION(timed_out());*/
std::wstringstream replyString;
- if (result.get().empty())
+ if (result.empty())
replyString << L"202 CALL OK\r\n";
else
- replyString << L"201 CALL OK\r\n" << result.get() << L"\r\n";
+ replyString << L"201 CALL OK\r\n" << result << L"\r\n";
return replyString.str();
}
void add_describer(core::help_sink& sink, const core::help_repository& repo)
{
sink.short_description(L"Add a consumer to a video channel.");
- sink.syntax(L"ADD [video_channel:int] [consumer:string] [parameters:string]");
+ sink.syntax(L"ADD [video_channel:int]{-[consumer_index:int]} [consumer:string] [parameters:string]");
sink.para()
->text(L"Adds a consumer to the specified video channel. The string ")
->code(L"consumer")->text(L" will be parsed by the available consumer factories. ")
->code(L"video_channel")->text(L". Different consumers require different parameters, ")
->text(L"some examples are below. Consumers can alternatively be specified by adding them to ")
->see(L"the CasparCG config file")->text(L".");
+ sink.para()
+ ->text(L"Specifying ")->code(L"consumer_index")
+ ->text(L" overrides the index that the consumer itself decides and can later be used with the ")
+ ->see(L"REMOVE")->text(L" command to remove the consumer.");
sink.para()->text(L"Examples:");
sink.example(L">> ADD 1 DECKLINK 1");
sink.example(L">> ADD 1 BLUEFISH 2");
sink.example(L">> ADD 1 IMAGE filename");
sink.example(L">> ADD 1 FILE filename.mov");
sink.example(L">> ADD 1 FILE filename.mov SEPARATE_KEY");
+ sink.example(
+ L">> ADD 1-700 FILE filename.mov SEPARATE_KEY\n"
+ L">> REMOVE 1-700", L"overriding the consumer index to easier remove later.");
sink.para()->text(L"The streaming consumer is an implementation of the ffmpeg_consumer and supports many of the same arguments:");
sink.example(L">> ADD 1 STREAM udp://localhost:5004 -vcodec libx264 -tune zerolatency -preset ultrafast -crf 25 -format mpegts -vf scale=240:180");
}
return L"202 LOG OK\r\n";
}
+void log_category_describer(core::help_sink& sink, const core::help_repository& repo)
+{
+ sink.short_description(L"Enable/disable a logging category in the server.");
+ sink.syntax(L"LOG CATEGORY [category:calltrace,communication] [enable:0,1]");
+ sink.para()->text(L"Enables or disables the specified logging category.");
+ sink.para()->text(L"Examples:");
+ sink.example(L">> LOG CATEGORY calltrace 1", L"to enable call trace");
+ sink.example(L">> LOG CATEGORY calltrace 0", L"to disable call trace");
+}
+
+std::wstring log_category_command(command_context& ctx)
+{
+ log::set_log_category(ctx.parameters.at(0), ctx.parameters.at(1) == L"1");
+
+ return L"202 LOG OK\r\n";
+}
+
void set_describer(core::help_sink& sink, const core::help_repository& repo)
{
sink.short_description(L"Change the value of a channel variable.");
return L"202 SET MODE OK\r\n";
}
- CASPAR_THROW_EXCEPTION(invalid_argument() << msg_info(L"Invalid video mode"));
+ CASPAR_THROW_EXCEPTION(user_error() << msg_info(L"Invalid video mode"));
}
else if (name == L"CHANNEL_LAYOUT")
{
return L"202 SET CHANNEL_LAYOUT OK\r\n";
}
- CASPAR_THROW_EXCEPTION(invalid_argument() << msg_info(L"Invalid audio channel layout"));
+ CASPAR_THROW_EXCEPTION(user_error() << msg_info(L"Invalid audio channel layout"));
}
- CASPAR_THROW_EXCEPTION(invalid_argument() << msg_info(L"Invalid channel variable"));
+ CASPAR_THROW_EXCEPTION(user_error() << msg_info(L"Invalid channel variable"));
}
void data_store_describer(core::help_sink& sink, const core::help_repository& repo)
void data_retrieve_describer(core::help_sink& sink, const core::help_repository& repo)
{
sink.short_description(L"Retrieve a dataset.");
- sink.syntax(L"DATA RETRIEVE [name:string] [data:string]");
+ sink.syntax(L"DATA RETRIEVE [name:string]");
sink.para()->text(L"Returns the data saved under the name ")->code(L"name")->text(L".");
sink.para()->text(L"Examples:");
sink.example(L">> DATA RETRIEVE my_data");
// Template Graphics Commands
-int get_and_validate_layer(const std::wstring& layerstring) {
- int length = layerstring.length();
- for (int i = 0; i < length; ++i) {
- if (!std::isdigit(layerstring[i])) {
- CASPAR_THROW_EXCEPTION(invalid_argument() << msg_info(layerstring + L" is not a layer"));
- }
- }
-
- return boost::lexical_cast<int>(layerstring);
-}
-
void cg_add_describer(core::help_sink& sink, const core::help_repository& repo)
{
sink.short_description(L"Prepare a template for displaying.");
{
//CG 1 ADD 0 "template_folder/templatename" [STARTLABEL] 0/1 [DATA]
- int layer = get_and_validate_layer(ctx.parameters.at(0));
+ int layer = boost::lexical_cast<int>(ctx.parameters.at(0));
std::wstring label; //_parameters[2]
bool bDoStart = false; //_parameters[2] alt. _parameters[3]
unsigned int dataIndex = 3;
std::wstring cg_play_command(command_context& ctx)
{
- int layer = get_and_validate_layer(ctx.parameters.at(0));
+ int layer = boost::lexical_cast<int>(ctx.parameters.at(0));
ctx.cg_registry->get_proxy(spl::make_shared_ptr(ctx.channel.channel), ctx.layer_index(core::cg_proxy::DEFAULT_LAYER))->play(layer);
return L"202 CG OK\r\n";
auto proxy = ctx.cg_registry->get_proxy(spl::make_shared_ptr(ctx.channel.channel), ctx.layer_index(core::cg_proxy::DEFAULT_LAYER));
if (proxy == cg_proxy::empty())
- CASPAR_THROW_EXCEPTION(file_not_found() << msg_info(L"No CG proxy running on layer"));
+ CASPAR_THROW_EXCEPTION(expected_user_error() << msg_info(L"No CG proxy running on layer"));
return proxy;
}
std::wstring cg_stop_command(command_context& ctx)
{
- int layer = get_and_validate_layer(ctx.parameters.at(0));
+ int layer = boost::lexical_cast<int>(ctx.parameters.at(0));
get_expected_cg_proxy(ctx)->stop(layer, 0);
return L"202 CG OK\r\n";
std::wstring cg_next_command(command_context& ctx)
{
- int layer = get_and_validate_layer(ctx.parameters.at(0));
+ int layer = boost::lexical_cast<int>(ctx.parameters.at(0));
get_expected_cg_proxy(ctx)->next(layer);
return L"202 CG OK\r\n";
std::wstring cg_remove_command(command_context& ctx)
{
- int layer = get_and_validate_layer(ctx.parameters.at(0));
+ int layer = boost::lexical_cast<int>(ctx.parameters.at(0));
get_expected_cg_proxy(ctx)->remove(layer);
return L"202 CG OK\r\n";
std::wstring cg_update_command(command_context& ctx)
{
- int layer = get_and_validate_layer(ctx.parameters.at(0));
+ int layer = boost::lexical_cast<int>(ctx.parameters.at(0));
std::wstring dataString = ctx.parameters.at(1);
if (dataString.at(0) != L'<' && dataString.at(0) != L'{')
{
std::wstringstream replyString;
replyString << L"201 CG OK\r\n";
- int layer = get_and_validate_layer(ctx.parameters.at(0));
+ int layer = boost::lexical_cast<int>(ctx.parameters.at(0));
auto result = get_expected_cg_proxy(ctx)->invoke(layer, ctx.parameters.at(1));
replyString << result << L"\r\n";
}
else
{
- int layer = get_and_validate_layer(ctx.parameters.at(0));
+ int layer = boost::lexical_cast<int>(ctx.parameters.at(0));
auto desc = get_expected_cg_proxy(ctx)->description(layer);
replyString << desc << L"\r\n";
{
transform.image_transform.is_key = value;
return transform;
- }, 0, L"linear"));
+ }, 0, tweener(L"linear")));
transforms.apply();
return L"202 MIXER OK\r\n";
{
transform.image_transform.blend_mode = value;
return transform;
- }, 0, L"linear"));
+ }, 0, tweener(L"linear")));
transforms.apply();
return L"202 MIXER OK\r\n";
{
transform.image_transform.use_mipmap = value;
return transform;
- }, 0, L"linear"));
+ }, 0, tweener(L"linear")));
transforms.apply();
return L"202 MIXER OK\r\n";
if (channel.channel != self.channel)
{
core::diagnostics::call_context::for_thread().layer = index;
- auto producer = ctx.producer_registry->create_producer(get_producer_dependencies(channel.channel, ctx), L"route://" + boost::lexical_cast<std::wstring>(channel.channel->index()));
+ auto producer = ctx.producer_registry->create_producer(get_producer_dependencies(self.channel, ctx), L"route://" + boost::lexical_cast<std::wstring>(channel.channel->index()));
self.channel->stage().load(index, producer, false);
self.channel->stage().play(index);
index++;
return L"202 THUMBNAIL GENERATE OK\r\n";
}
else
- CASPAR_THROW_EXCEPTION(caspar_exception() << msg_info(L"Thumbnail generation turned off"));
+ CASPAR_THROW_EXCEPTION(not_supported() << msg_info(L"Thumbnail generation turned off"));
}
void thumbnail_generateall_describer(core::help_sink& sink, const core::help_repository& repo)
return L"202 THUMBNAIL GENERATE_ALL OK\r\n";
}
else
- CASPAR_THROW_EXCEPTION(caspar_exception() << msg_info(L"Thumbnail generation turned off"));
+ CASPAR_THROW_EXCEPTION(not_supported() << msg_info(L"Thumbnail generation turned off"));
}
// Query Commands
L">> VERSION FLASH\n"
L"<< 201 VERSION OK\n"
L"<< 11.8.800.94");
+ sink.example(
+ L">> VERSION TEMPLATEHOST\n"
+ L"<< 201 VERSION OK\n"
+ L"<< unknown");
+ sink.example(
+ L">> VERSION CEF\n"
+ L"<< 201 VERSION OK\n"
+ L"<< 3.1750.1805");
}
std::wstring version_command(command_context& ctx)
return result.str();
}
+void gl_gc_describer(core::help_sink& sink, const core::help_repository& repo)
+{
+ sink.short_description(L"Release pooled OpenGL resources.");
+ sink.syntax(L"GL GC");
+ sink.para()->text(L"Releases all the pooled OpenGL resources. ")->strong(L"May cause a pause on all video channels.");
+}
+
+std::wstring gl_gc_command(command_context& ctx)
+{
+ auto device = ctx.ogl_device;
+
+ if (!device)
+ CASPAR_THROW_EXCEPTION(not_supported() << msg_info("GL command only supported with OpenGL accelerator."));
+
+ device->gc().wait();
+
+ return L"202 GL GC OK\r\n";
+}
+
static const int WIDTH = 80;
struct max_width_sink : public core::help_sink
repo.register_channel_command( L"Basic Commands", L"REMOVE", remove_describer, remove_command, 0);
repo.register_channel_command( L"Basic Commands", L"PRINT", print_describer, print_command, 0);
repo.register_command( L"Basic Commands", L"LOG LEVEL", log_level_describer, log_level_command, 1);
+ repo.register_command( L"Basic Commands", L"LOG CATEGORY", log_category_describer, log_category_command, 2);
repo.register_channel_command( L"Basic Commands", L"SET", set_describer, set_command, 2);
repo.register_command( L"Basic Commands", L"LOCK", lock_describer, lock_command, 2);
repo.register_channel_command( L"Query Commands", L"INFO DELAY", info_delay_describer, info_delay_command, 0);
repo.register_command( L"Query Commands", L"DIAG", diag_describer, diag_command, 0);
repo.register_command( L"Query Commands", L"GL INFO", gl_info_describer, gl_info_command, 0);
+ repo.register_command( L"Query Commands", L"GL GC", gl_gc_describer, gl_gc_command, 0);
repo.register_command( L"Query Commands", L"BYE", bye_describer, bye_command, 0);
repo.register_command( L"Query Commands", L"KILL", kill_describer, kill_command, 0);
repo.register_command( L"Query Commands", L"RESTART", restart_describer, restart_command, 0);