/* SPDX-License-Identifier: GPL-2.0-or-later */ /* * Copyright (C) 2020, Google Inc. * * unixsocket_ipc.cpp - Unix socket IPC test */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "libcamera/internal/ipa_data_serializer.h" #include "libcamera/internal/ipc_pipe.h" #include "libcamera/internal/ipc_pipe_unixsocket.h" #include "libcamera/internal/process.h" #include "test.h" using namespace std; using namespace libcamera; enum { CmdExit = 0, CmdGetSync = 1, CmdSetAsync = 2, }; const int32_t kInitialValue = 1337; const int32_t kChangedValue = 9001; class UnixSocketTestIPCSlave { public: UnixSocketTestIPCSlave() : value_(kInitialValue), exitCode_(EXIT_FAILURE), exit_(false) { dispatcher_ = Thread::current()->eventDispatcher(); ipc_.readyRead.connect(this, &UnixSocketTestIPCSlave::readyRead); } int run(UniqueFD fd) { if (ipc_.bind(std::move(fd))) { cerr << "Failed to connect to IPC channel" << endl; return EXIT_FAILURE; } while (!exit_) dispatcher_->processEvents(); ipc_.close(); return exitCode_; } private: void readyRead() { IPCUnixSocket::Payload message; int ret; ret = ipc_.receive(&message); if (ret) { cerr << "Receive message failed: " << ret << endl; return; } IPCMessage ipcMessage(message); uint32_t cmd = ipcMessage.header().cmd; switch (cmd) { case CmdExit: { exit_ = true; break; } case CmdGetSync: { IPCMessage::Header header = { cmd, ipcMessage.header().cookie }; IPCMessage response(header); vector buf; tie(buf, ignore) = IPADataSerializer::serialize(value_); response.data().insert(response.data().end(), buf.begin(), buf.end()); ret = ipc_.send(response.payload()); if (ret < 0) { cerr << "Reply failed" << endl; stop(ret); } break; } case CmdSetAsync: { value_ = IPADataSerializer::deserialize(ipcMessage.data()); break; } } } void stop(int code) { exitCode_ = code; exit_ = true; } int32_t value_; IPCUnixSocket ipc_; EventDispatcher *dispatcher_; int exitCode_; bool exit_; }; class UnixSocketTestIPC : public Test { protected: int init() { return 0; } int setValue(int32_t val) { IPCMessage msg(CmdSetAsync); tie(msg.data(), ignore) = IPADataSerializer::serialize(val); int ret = ipc_->sendAsync(msg); if (ret < 0) { cerr << "Failed to call set value" << endl; return ret; } return 0; } int getValue() { IPCMessage msg(CmdGetSync); IPCMessage buf; int ret = ipc_->sendSync(msg, &buf); if (ret < 0) { cerr << "Failed to call get value" << endl; return ret; } return IPADataSerializer::deserialize(buf.data()); } int exit() { IPCMessage msg(CmdExit); int ret = ipc_->sendAsync(msg); if (ret < 0) { cerr << "Failed to call exit" << endl; return ret; } return 0; } int run() { ipc_ = std::make_unique("", self().c_str()); if (!ipc_->isConnected()) { cerr << "Failed to create IPCPipe" << endl; return TestFail; } int ret = getValue(); if (ret != kInitialValue) { cerr << "Wrong initial value, expected " << kInitialValue << ", got " << ret << endl; return TestFail; } ret = setValue(kChangedValue); if (ret < 0) { cerr << "Failed to set value: " << strerror(-ret) << endl; return TestFail; } ret = getValue(); if (ret != kChangedValue) { cerr << "Wrong set value, expected " << kChangedValue << ", got " << ret << endl; return TestFail; } ret = exit(); if (ret < 0) { cerr << "Failed to exit: " << strerror(-ret) << endl; return TestFail; } return TestPass; } private: ProcessManager processManager_; unique_ptr ipc_; }; /* * Can't use TEST_REGISTER() as single binary needs to act as both client and * server */ int main(int argc, char **argv) */ #pragma once #include <libcamera/base/log.h> namespace libcamera { LOG_DECLARE_CATEGORY