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ladybird/Userland/Utilities/asctl.cpp
kleines Filmröllchen ab49fcfb7c LibAudio+Userland: Remove Audio::LegacyBuffer 
The file is now renamed to Queue.h, and the Resampler APIs with
LegacyBuffer are also removed. These changes look large because nobody
actually needs Buffer.h (or Queue.h). It was mostly transitive
dependencies on the massive list of includes in that header, which are
now almost all gone. Instead, we include common things like Sample.h
directly, which should give faster compile times as very few files
actually need Queue.h.
2022-05-03 23:09:20 +02:00

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/*
* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2021, kleines Filmröllchen <filmroellchen@serenityos.org>
* Copyright (c) 2021, David Isaksson <davidisaksson93@gmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Variant.h>
#include <AK/Vector.h>
#include <LibAudio/ConnectionFromClient.h>
#include <LibCore/ArgsParser.h>
#include <LibCore/EventLoop.h>
#include <LibCore/File.h>
#include <LibCore/System.h>
#include <LibMain/Main.h>
#include <math.h>
#include <stdio.h>
#include <sys/ioctl.h>
enum AudioVariable : u32 {
Volume,
Mute,
SampleRate
};
// asctl: audio server control utility
ErrorOr<int> serenity_main(Main::Arguments arguments)
{
Core::EventLoop loop;
auto audio_client = TRY(Audio::ConnectionFromClient::try_create());
audio_client->async_pause_playback();
String command = String::empty();
Vector<StringView> command_arguments;
bool human_mode = false;
Core::ArgsParser args_parser;
args_parser.set_general_help("Send control signals to the audio server and hardware.");
args_parser.add_option(human_mode, "Print human-readable output", "human-readable", 'h');
args_parser.add_positional_argument(command, "Command, either (g)et or (s)et\n\n\tThe get command accepts a list of variables to print.\n\tThey are printed in the given order.\n\tIf no value is specified, all are printed.\n\n\tThe set command accepts a any number of variables\n\tfollowed by the value they should be set to.\n\n\tPossible variables are (v)olume, (m)ute, sample(r)ate.\n", "command");
args_parser.add_positional_argument(command_arguments, "Arguments for the command", "args", Core::ArgsParser::Required::No);
args_parser.parse(arguments);
TRY(Core::System::unveil(nullptr, nullptr));
TRY(Core::System::pledge("stdio rpath wpath recvfd thread"));
if (command.equals_ignoring_case("get") || command == "g") {
// Get variables
Vector<AudioVariable> values_to_print;
if (command_arguments.is_empty()) {
values_to_print.append(AudioVariable::Volume);
values_to_print.append(AudioVariable::Mute);
values_to_print.append(AudioVariable::SampleRate);
} else {
for (auto& variable : command_arguments) {
if (variable.is_one_of("v"sv, "volume"sv))
values_to_print.append(AudioVariable::Volume);
else if (variable.is_one_of("m"sv, "mute"sv))
values_to_print.append(AudioVariable::Mute);
else if (variable.is_one_of("r"sv, "samplerate"sv))
values_to_print.append(AudioVariable::SampleRate);
else {
warnln("Error: Unrecognized variable {}", variable);
return 1;
}
}
}
for (auto to_print : values_to_print) {
switch (to_print) {
case AudioVariable::Volume: {
auto volume = static_cast<int>(round(audio_client->get_main_mix_volume() * 100));
if (human_mode)
outln("Volume: {}%", volume);
else
out("{} ", volume);
break;
}
case AudioVariable::Mute: {
bool muted = audio_client->is_main_mix_muted();
if (human_mode)
outln("Muted: {}", muted ? "Yes" : "No");
else
out("{} ", muted ? 1 : 0);
break;
}
case AudioVariable::SampleRate: {
u32 sample_rate = audio_client->get_sample_rate();
if (human_mode)
outln("Sample rate: {:5d} Hz", sample_rate);
else
out("{} ", sample_rate);
break;
}
}
}
if (!human_mode)
outln();
} else if (command.equals_ignoring_case("set") || command == "s") {
// Set variables
HashMap<AudioVariable, Variant<int, bool>> values_to_set;
for (size_t i = 0; i < command_arguments.size(); ++i) {
if (i == command_arguments.size() - 1) {
warnln("Error: value missing for last variable");
return 1;
}
auto& variable = command_arguments[i];
if (variable.is_one_of("v"sv, "volume"sv)) {
auto volume = command_arguments[++i].to_int();
if (!volume.has_value()) {
warnln("Error: {} is not an integer volume", command_arguments[i - 1]);
return 1;
}
if (volume.value() < 0 || volume.value() > 100) {
warnln("Error: {} is not between 0 and 100", command_arguments[i - 1]);
return 1;
}
values_to_set.set(AudioVariable::Volume, volume.value());
} else if (variable.is_one_of("m"sv, "mute"sv)) {
auto& mute_text = command_arguments[++i];
bool mute;
if (mute_text.equals_ignoring_case("true") || mute_text == "1") {
mute = true;
} else if (mute_text.equals_ignoring_case("false") || mute_text == "0") {
mute = false;
} else {
warnln("Error: {} is not one of {{0, 1, true, false}}", mute_text);
return 1;
}
values_to_set.set(AudioVariable::Mute, mute);
} else if (variable.is_one_of("r"sv, "samplerate"sv)) {
auto sample_rate = command_arguments[++i].to_int();
if (!sample_rate.has_value()) {
warnln("Error: {} is not an integer sample rate", command_arguments[i - 1]);
return 1;
}
values_to_set.set(AudioVariable::SampleRate, sample_rate.value());
} else {
warnln("Error: Unrecognized variable {}", command_arguments[i]);
return 1;
}
}
for (auto to_set : values_to_set) {
switch (to_set.key) {
case AudioVariable::Volume: {
int& volume = to_set.value.get<int>();
audio_client->set_main_mix_volume(static_cast<double>(volume) / 100);
break;
}
case AudioVariable::Mute: {
bool& mute = to_set.value.get<bool>();
audio_client->set_main_mix_muted(mute);
break;
}
case AudioVariable::SampleRate: {
int& sample_rate = to_set.value.get<int>();
audio_client->set_sample_rate(sample_rate);
break;
}
}
}
}
return 0;
}
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