looper/playback_process.cpp
2024-09-06 10:06:32 -07:00

521 lines
20 KiB
C++

#include <google/protobuf/descriptor.h>
#include <google/protobuf/wire_format_lite.h>
#include <grpcpp/client_context.h>
#include <grpcpp/impl/codegen/server_interface.h>
#include <grpcpp/server_builder.h>
#include <grpcpp/support/status.h>
#include "playback_process.hpp"
#include "ipc/common.pb.h"
#include "playback_backend.hpp"
#include <functional>
#include "rpc.hpp"
#include "thirdparty/CRC.hpp"
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <unistd.h>
#include <exception>
#include <thread>
#include <config.h>
#include <signal.h>
#include "backend.hpp"
#include "util.hpp"
#include "log.hpp"
#include <chrono>
#include <fmt/core.h>
#include <fmt/format.h>
#ifdef __WINDOWS__
#include <windows.h>
#endif
#include <google/protobuf/message.h>
using namespace google::protobuf;
int sndfd;
int rcvfd;
extern char *executable_path;
using grpc::ClientContext;
void print_field_descriptor(const google::protobuf::FieldDescriptor *fdesc, const google::protobuf::Message &msg, size_t level) {
auto desc = msg.GetDescriptor();
auto reflection = msg.GetReflection();
static std::map<google::protobuf::FieldDescriptor::Label, const char*> labelNames = {
{(google::protobuf::FieldDescriptor::Label)0, "(Error)"},
{google::protobuf::FieldDescriptor::LABEL_OPTIONAL, "Optional"},
{google::protobuf::FieldDescriptor::LABEL_REPEATED, "Repeated"},
{google::protobuf::FieldDescriptor::LABEL_REQUIRED, "Required"}
};
DEBUG.writef_level(level, "- %s = %d", fdesc->full_name().c_str(), fdesc->number());
level++;
DEBUG.writef_level(level, "Type: %s (C++: %s)", fdesc->type_name(), fdesc->cpp_type_name());
std::string value = "(None)";
if (fdesc->has_default_value()) {
FORMAT_CPP_TYPE_LOWERCASE(fdesc, value, fdesc->default_value_);
DEBUG.writef_level(level, "Default value: %s", value.c_str());
}
DEBUG.writef_level(level, "Label: %s", labelNames.contains(fdesc->label()) ? labelNames[fdesc->label()] : labelNames[(google::protobuf::FieldDescriptor::Label)0]);
DEBUG.writef_level(level, "Index: %d", fdesc->index());
if (fdesc->type() == google::protobuf::FieldDescriptor::TYPE_MESSAGE || fdesc->type() == google::protobuf::FieldDescriptor::TYPE_GROUP) {
const google::protobuf::Descriptor *desc = fdesc->message_type();
DEBUG.writef_level(level, "Value: (Message)");
const Message &out_msg = reflection->GetMessage(msg, fdesc);
print_ipc_message(out_msg, level + 1);
return;
}
if (fdesc->type() == google::protobuf::FieldDescriptor::TYPE_BYTES) {
value = "(bytes)";
} else {
FORMAT_CPP_TYPE_TITLECASE(fdesc, value, reflection->Get, msg, fdesc);
}
DEBUG.writef_level(level, "Value: %s", value.c_str());
}
void print_ipc_message(const google::protobuf::Message &msg, size_t level) {
const google::protobuf::Descriptor *msgdesc = msg.GetDescriptor();
const google::protobuf::Reflection *reflect = msg.GetReflection();
DEBUG.writef_level(level, "Message type: %s", msg.GetTypeName().c_str());
std::vector<const FieldDescriptor *> descriptors;
reflect->ListFields(msg, &descriptors);
DEBUG.writef_level(level, "Message field count: %d", descriptors.size());
for (auto field : descriptors) {
print_field_descriptor(field, msg, level);
}
auto &unknown_fields = reflect->GetUnknownFields(msg);
DEBUG.writef_level(level, "Unknown fields: %d", unknown_fields.field_count());
}
grpc::Status PlaybackProcessServiceImpl::Render(grpc::ServerContext *ctx, const RenderCommand *cmd, RenderResponseOrError *response) {
size_t maxlen = cmd->len();
void *ptr = malloc(maxlen);
size_t len = cur_backend->render(ptr, maxlen);
std::string buf = std::string(len, ' ', std::allocator<char>());
memcpy(buf.data(), ptr, len);
free(ptr);
auto output = new RenderResponse();
output->set_data(buf);
output->set_len(len);
response->set_allocated_output(output);
return grpc::Status::OK;
}
grpc::Status PlaybackProcessServiceImpl::Get(grpc::ServerContext *ctx, const GetProperty *request, PropertyDataOrError *response) {
PropertyData *data = new PropertyData();
ErrorResponse *err_maybe = nullptr;
switch (request->id()) {
case PropertyId::StreamIdProperty: {
StreamId id;
id.set_id(cur_backend->get_stream_idx());
data->mutable_value()->PackFrom(id);
} break;
case PropertyId::FilenameProperty: {
StringProperty prop;
prop.set_value(std::filesystem::path(cur_backend->get_current_file().value_or("None")).filename().string());
data->mutable_value()->PackFrom(prop);
} break;
case PropertyId::BackendId: {
StringProperty prop;
prop.set_value(cur_backend->get_id());
data->mutable_value()->PackFrom(prop);
} break;
case PropertyId::BackendName: {
StringProperty prop;
prop.set_value(cur_backend->get_name());
data->mutable_value()->PackFrom(prop);
}
case PropertyId::FilePathProperty: {
StringProperty path;
path.set_value(cur_backend->get_current_file().value_or(""));
data->mutable_value()->PackFrom(path);
} break;
case PropertyId::SpecProperty: {
AudioSpec spec;
SDL_AudioSpec sdl_spec = cur_backend->get_spec();
audio_data_t sample_spec = sdl_to_sample_spec(sdl_spec.format);
DEBUG.writefln("Sample_spec.size: %d", sample_spec.size);
spec.set_bits(sample_spec.size * 8);
spec.set_channel_count(sdl_spec.channels);
spec.set_endian(sample_spec.endian ? EndianID::BIG : EndianID::LITTLE);
spec.set_format_type(sample_spec.is_float ? FormatType::FLOAT : sample_spec.is_signed ? FormatType::SIGNED : FormatType::UNSIGNED);
spec.set_sample_rate(sdl_spec.freq);
data->mutable_value()->PackFrom(spec);
} break;
case PropertyId::StreamsProperty: {
auto full_streams = cur_backend->get_streams();
if (request->has_idx()) {
size_t idx = (size_t)request->idx();
Stream stream;
if (idx >= full_streams.size()) {
ErrorResponse *err = new ErrorResponse();
err->set_id("invalid_index");
err->set_desc("An attempt to access an array element outside the boundaries of that array was detected.");
err->set_fatal(false);
err_maybe = err;
break;
}
auto backend_stream = full_streams[idx];
stream.set_id(backend_stream.id);
stream.set_len(backend_stream.length);
stream.set_title(backend_stream.name);
data->mutable_value()->PackFrom(stream);
} else {
StreamList out_streams;
for (auto backend_stream : full_streams) {
Stream stream = *out_streams.add_streams();
stream.set_id(backend_stream.id);
stream.set_len(backend_stream.length);
stream.set_title(backend_stream.name);
}
data->mutable_value()->PackFrom(out_streams);
}
} break;
case PropertyId::TitleProperty: {
StringProperty title;
title.set_value(cur_backend->get_title().value_or(""));
data->mutable_value()->PackFrom(title);
} break;
case PropertyId::PositionProperty: {
Position pos;
pos.set_pos(cur_backend->get_position());
data->mutable_value()->PackFrom(pos);
} break;
case PropertyId::BackendSpecific: {
if (!request->has_path()) {
ErrorResponse *err = new ErrorResponse();
err->set_id("param_missing");
err->set_fatal(false);
err->set_desc("Backend specific parameters require a path.");
err_maybe = err;
break;
}
auto output_maybe = cur_backend->get(request->path());
if (output_maybe.has_value()) {
data->mutable_value()->PackFrom(output_maybe.value());
} else {
ErrorResponse *err = new ErrorResponse;
err->set_id("not_found");
err->set_fatal(false);
err->set_desc("The backend reported that the property was not found.");
err_maybe = err;
}
} break;
default: {
ErrorResponse *err = new ErrorResponse();
err->set_id("invalid_property");
err->set_fatal(false);
err->set_desc("The property requested was invalid or write-only");
err_maybe = err;
} break;
}
if (err_maybe != nullptr) {
delete data;
response->set_allocated_err(err_maybe);
} else {
response->set_allocated_output(data);
}
return grpc::Status::OK;
}
grpc::Status HostProcessImpl::WriteLog(grpc::ServerContext *ctx, const LogMessage *msg, SimpleAckResponse *response) {
return grpc::Status::OK;
}
grpc::Status HostProcessImpl::SetAddress(grpc::ServerContext *ctx, const StringProperty *value, MaybeError *response) {
process->host_channel.value().construct_client(value->value());
process->done = true;
return grpc::Status::OK;
}
grpc::Status PlaybackProcessServiceImpl::Set(grpc::ServerContext *ctx, const SetProperty *request, MaybeError *response) {
ErrorResponse *err_maybe = nullptr;
switch (request->id()) {
case PropertyId::PositionProperty: {
cur_backend->seek(resolve_any<Position>(request->value())->pos());
} break;
case PropertyId::StreamIdProperty: {
cur_backend->switch_stream(resolve_any<StreamId>(request->value())->id());
} break;
case PropertyId::BackendSpecific: {
if (!request->has_path()) {
ErrorResponse *err = new ErrorResponse();
err->set_id("param_missing");
err->set_fatal(false);
err->set_desc("Backend specific parameters require a path.");
err_maybe = err;
break;
}
if (!cur_backend->set(request->path(), request->value())) {
ErrorResponse *err = new ErrorResponse();
err->set_id("not_found");
err->set_fatal(false);
err->set_desc("The backend reported that the property being set was invalid for it.");
err_maybe = err;
}
} break;
default: {
ErrorResponse *err = new ErrorResponse();
err->set_id("invalid_property");
err->set_fatal(false);
err->set_desc("The property requested was invalid or read-only");
err_maybe = err;
} break;
}
if (err_maybe != nullptr) {
response->set_allocated_err(err_maybe);
}
return grpc::Status::OK;
}
grpc::Status PlaybackProcessServiceImpl::Reset(grpc::ServerContext *ctx, const ResetProperty *request, ResetResponse *response) {
auto path = request->path();
std::optional<uint64_t> idx = {};
if (request->has_idx()) {
idx = request->idx();
}
auto output = cur_backend->reset(path);
if (output.has_value()) {
PropertyDataOrError *real_output = new PropertyDataOrError();
PropertyData *data = new PropertyData();
data->mutable_value()->PackFrom(output.value());
data->set_id(PropertyId::BackendSpecific);
data->clear_idx();
real_output->set_allocated_output(data);
response->set_allocated_value(real_output);
}
return grpc::Status::OK;
}
grpc::Status PlaybackProcessServiceImpl::Quit(grpc::ServerContext *ctx, const QuitCmd *request, MaybeError *response) {
process->done = true;
process->playback_process_channel.value().get_server()->get_server()->Shutdown();
return grpc::Status::OK;
}
grpc::Status PlaybackProcessServiceImpl::Init(grpc::ServerContext *ctx, const InitCommand *cmd, MaybeError *response) {
cur_backend = nullptr;
auto filename = cmd->filename();
auto idx = cmd->idx();
for (auto &backend : PlaybackBackendHelper()) {
try {
backend.second->init(filename.c_str(), idx);
} catch (std::exception e) {
backend.second->cleanup();
continue;
}
cur_backend = backend.second;
break;
}
if (cur_backend == nullptr) {
ErrorResponse *maybe_error = new ErrorResponse();
maybe_error->set_desc("Couldn't find a backend.");
maybe_error->set_id("no_backend_for_file");
maybe_error->set_fatal(true);
response->set_allocated_err(maybe_error);
process->done = true;
process->playback_process_channel.value().get_server()->get_server()->Shutdown();
return grpc::Status::OK;
}
return grpc::Status::OK;
}
void init_logging_subprocess(PlaybackProcess *proc) {
Looper::Log::init_logging();
}
PlaybackStream deserialize_stream(Stream serialized) {
PlaybackStream stream;
stream.id = serialized.id();
stream.length = serialized.len();
stream.name = serialized.title();
return stream;
}
Stream serialize_stream(PlaybackStream stream, std::optional<Stream*> stream_ptr = {}) {
Stream serialized;
serialized.set_id(stream.id);
serialized.set_len(stream.length);
serialized.set_title(stream.name);
if (stream_ptr.has_value()) {
*(stream_ptr.value()) = serialized;
}
return serialized;
}
std::vector<PlaybackStream> deserialize_stream_list(StreamList list) {
int len = list.streams_size();
std::vector<PlaybackStream> output;
output.reserve(len);
for (int i = 0; i < len; i++) {
Stream stream = list.streams(i);
output.push_back(deserialize_stream(stream));
}
return output;
}
StreamList serialize_stream_list(std::vector<PlaybackStream> streams) {
StreamList list;
for (auto input : streams) {
Stream *stream = list.add_streams();
serialize_stream(input, stream);
}
return list;
}
PlaybackProcess::PlaybackProcess(std::vector<std::string> args) {
done = false;
is_playback_process = true;
init_playback_backends();
init_audio_data();
std::string address = args[0];
auto mk_service = [this]() -> grpc::Service* {
PlaybackProcessServiceImpl *output = new PlaybackProcessServiceImpl();
output->process = this;
return output;
};
playback_process_channel = IPCChannel<PlaybackProcessService, HostProcess>(mk_service);
playback_process_channel.value().construct_client(address);
{
StringProperty property;
property.set_value(playback_process_channel.value().get_server()->get_address());
ClientContext ctx;
MaybeError response;
playback_process_channel.value().get_stub()->SetAddress(&ctx, property, &response);
}
Looper::Log::init_logging();
}
PlaybackProcess::PlaybackProcess(std::string filename, int idx) {
done = false;
auto mk_service = [this]() -> grpc::Service* {
HostProcessImpl *output = new HostProcessImpl();
output->process = this;
return output;
};
this->done = false;
host_channel = IPCChannel<HostProcess, PlaybackProcessService>(mk_service);
std::string address = host_channel.value().get_server()->get_address();
std::vector<std::string> new_args;
new_args.push_back(executable_path);
new_args.push_back("--process-type");
new_args.push_back("playback");
new_args.push_back(address);
pid = launch(new_args);
while (!done) {
std::this_thread::yield();
}
ClientContext ctx;
InitCommand cmd;
cmd.set_filename(filename);
cmd.set_idx(idx);
MaybeError output;
get_stub()->Init(&ctx, cmd, &output);
if (output.has_err()) {
throw std::exception();
}
}
bool PlaybackProcess::process_running() {
if (is_playback_process) return true;
return kill(pid, 0) == 0;
}
void PlaybackProcess::run_playback_process() {
playback_process_channel.value().get_server()->get_server()->Wait();
}
int looper_run_playback_process(std::vector<std::string> args) {
auto proc = PlaybackProcess(args);
proc.run_playback_process();
return 0;
}
PropertyData PlaybackProcess::get_property(PropertyId property, std::optional<uint64_t> idx) {
GetProperty get_property;
get_property.set_id(property);
if (idx.has_value()) {
get_property.set_idx(idx.value());
} else {
get_property.clear_idx();
}
ClientContext context;
PropertyDataOrError output;
get_stub()->Get(&context, get_property, &output);
if (output.has_err()) {
throw std::exception();
}
return output.output();
}
void PlaybackProcess::set_property(PropertyId id, PropertyData data, std::optional<uint64_t> idx) {
SetProperty set_property;
set_property.set_id(id);
set_property.mutable_value()->PackFrom(data);
if (idx.has_value()) {
set_property.set_idx(idx.value());
} else {
set_property.clear_idx();
}
ClientContext context;
MaybeError output;
get_stub()->Set(&context, set_property, &output);
}
std::string PlaybackProcess::get_version_code() {
return std::string(TAG) +
#ifdef DEBUG_MODE
std::string("-debugmode") +
#endif
std::string("-at") + std::string(__TIME__);
}
double PlaybackProcess::get_position() {
auto *tmp = get_property_value<Position>(PropertyId::PositionProperty);
double output = tmp->pos();
delete tmp;
return output;
}
void PlaybackProcess::set_position(double value) {
Position *pos = new Position();
pos->set_pos(value);
set_property_value<Position>(PropertyId::PositionProperty, pos);
delete pos;
}
size_t PlaybackProcess::get_stream_idx() {
StreamId *id = get_property_value<StreamId>(PropertyId::StreamIdProperty);
size_t output = id->id();
delete id;
return output;
}
void PlaybackProcess::set_stream_idx(size_t idx) {
StreamId *id = new StreamId();
id->set_id(idx);
set_property_value<StreamId>(PropertyId::StreamIdProperty, id);
delete id;
}
std::string PlaybackProcess::get_title() {
return get_property_string(PropertyId::TitleProperty);
}
std::string PlaybackProcess::get_file_path() {
return get_property_string(PropertyId::FilePathProperty);
}
std::string PlaybackProcess::get_file_name() {
return get_property_string(PropertyId::FilenameProperty);
}
PlaybackStream PlaybackProcess::get_playback_stream(size_t idx) {
auto *stream = get_property_value<Stream>(PropertyId::StreamsProperty, idx);
PlaybackStream output = deserialize_stream(*stream);
delete stream;
return output;
}
std::string PlaybackProcess::get_backend_id() {
return get_property_string(PropertyId::BackendId);
}
std::string PlaybackProcess::get_backend_name() {
return get_property_string(PropertyId::BackendName);
}
std::vector<PlaybackStream> PlaybackProcess::get_playback_streams() {
auto *list = get_property_value<StreamList>(PropertyId::StreamsProperty);
auto output = deserialize_stream_list(*list);
delete list;
return output;
}
size_t PlaybackProcess::render(void *buf, size_t maxlen) {
RenderCommand rend_cmd = RenderCommand();
rend_cmd.set_len(maxlen);
ClientContext ctx;
RenderResponseOrError response;
get_stub()->Render(&ctx, rend_cmd, &response);
if (response.has_err()) {
return 0;
} else {
std::string data = response.output().data();
memcpy(buf, data.data(), data.length());
return data.length();
}
}
AudioSpec *PlaybackProcess::get_audio_spec() {
return get_property_value<AudioSpec>(PropertyId::SpecProperty);
}
PlaybackProcess::~PlaybackProcess() {
ClientContext ctx;
QuitCmd quit_cmd;
MaybeError output;
get_stub()->Quit(&ctx, quit_cmd, &output);
done = true;
}