// SPDX-FileCopyrightText: Copyright 2022 yuzu Emulator Project // SPDX-License-Identifier: GPL-2.0-or-later #include "video_core/vulkan_common/vulkan_wrapper.h" #ifdef _WIN32 #include #include #include #elif defined(YUZU_UNIX) #include #include #include #include #include #include #endif #include #include "video_core/vulkan_common/vulkan_instance.h" #include "video_core/vulkan_common/vulkan_library.h" #include "yuzu/startup_checks.h" void CheckVulkan() { // Just start the Vulkan loader, this will crash if something is wrong try { Vulkan::vk::InstanceDispatch dld; const Common::DynamicLibrary library = Vulkan::OpenLibrary(); const Vulkan::vk::Instance instance = Vulkan::CreateInstance(library, dld, VK_API_VERSION_1_0); } catch (const Vulkan::vk::Exception& exception) { fmt::print(stderr, "Failed to initialize Vulkan: {}\n", exception.what()); } } bool CheckEnvVars(bool* is_child) { #ifdef _WIN32 // Check environment variable to see if we are the child char variable_contents[8]; const DWORD startup_check_var = GetEnvironmentVariableA(STARTUP_CHECK_ENV_VAR, variable_contents, 8); if (startup_check_var > 0 && std::strncmp(variable_contents, ENV_VAR_ENABLED_TEXT, 8) == 0) { CheckVulkan(); return true; } // Don't perform startup checks if we are a child process char is_child_s[8]; const DWORD is_child_len = GetEnvironmentVariableA(IS_CHILD_ENV_VAR, is_child_s, 8); if (is_child_len > 0 && std::strncmp(is_child_s, ENV_VAR_ENABLED_TEXT, 8) == 0) { *is_child = true; return false; } else if (!SetEnvironmentVariableA(IS_CHILD_ENV_VAR, ENV_VAR_ENABLED_TEXT)) { fmt::print(stderr, "SetEnvironmentVariableA failed to set {} with error {}\n", IS_CHILD_ENV_VAR, GetLastError()); return true; } #elif defined(YUZU_UNIX) const char* startup_check_var = getenv(STARTUP_CHECK_ENV_VAR); if (startup_check_var != nullptr && std::strncmp(startup_check_var, ENV_VAR_ENABLED_TEXT, 8) == 0) { CheckVulkan(); return true; } #endif return false; } bool StartupChecks(const char* arg0, bool* has_broken_vulkan, bool perform_vulkan_check) { #ifdef _WIN32 // Set the startup variable for child processes const bool env_var_set = SetEnvironmentVariableA(STARTUP_CHECK_ENV_VAR, ENV_VAR_ENABLED_TEXT); if (!env_var_set) { fmt::print(stderr, "SetEnvironmentVariableA failed to set {} with error {}\n", STARTUP_CHECK_ENV_VAR, GetLastError()); return false; } if (perform_vulkan_check) { // Spawn child process that performs Vulkan check PROCESS_INFORMATION process_info; std::memset(&process_info, '\0', sizeof(process_info)); if (!SpawnChild(arg0, &process_info, 0)) { return false; } // Wait until the processs exits and get exit code from it WaitForSingleObject(process_info.hProcess, INFINITE); DWORD exit_code = STILL_ACTIVE; const int err = GetExitCodeProcess(process_info.hProcess, &exit_code); if (err == 0) { fmt::print(stderr, "GetExitCodeProcess failed with error {}\n", GetLastError()); } // Vulkan is broken if the child crashed (return value is not zero) *has_broken_vulkan = (exit_code != 0); if (CloseHandle(process_info.hProcess) == 0) { fmt::print(stderr, "CloseHandle failed with error {}\n", GetLastError()); } if (CloseHandle(process_info.hThread) == 0) { fmt::print(stderr, "CloseHandle failed with error {}\n", GetLastError()); } } if (!SetEnvironmentVariableA(STARTUP_CHECK_ENV_VAR, nullptr)) { fmt::print(stderr, "SetEnvironmentVariableA failed to clear {} with error {}\n", STARTUP_CHECK_ENV_VAR, GetLastError()); } #elif defined(YUZU_UNIX) const int env_var_set = setenv(STARTUP_CHECK_ENV_VAR, ENV_VAR_ENABLED_TEXT, 1); if (env_var_set == -1) { const int err = errno; fmt::print(stderr, "setenv failed to set {} with error {}\n", STARTUP_CHECK_ENV_VAR, err); return false; } if (perform_vulkan_check) { const pid_t pid = SpawnChild(arg0); if (pid == -1) { return false; } // Get exit code from child process int status; const int r_val = waitpid(pid, &status, 0); if (r_val == -1) { const int err = errno; fmt::print(stderr, "wait failed with error {}\n", err); return false; } // Vulkan is broken if the child crashed (return value is not zero) *has_broken_vulkan = (status != 0); } const int env_var_cleared = unsetenv(STARTUP_CHECK_ENV_VAR); if (env_var_cleared == -1) { const int err = errno; fmt::print(stderr, "unsetenv failed to clear {} with error {}\n", STARTUP_CHECK_ENV_VAR, err); } #endif return false; } #ifdef _WIN32 bool SpawnChild(const char* arg0, PROCESS_INFORMATION* pi, int flags) { STARTUPINFOA startup_info; std::memset(&startup_info, '\0', sizeof(startup_info)); startup_info.cb = sizeof(startup_info); char p_name[255]; std::strncpy(p_name, arg0, 254); p_name[254] = '\0'; const bool process_created = CreateProcessA(nullptr, // lpApplicationName p_name, // lpCommandLine nullptr, // lpProcessAttributes nullptr, // lpThreadAttributes false, // bInheritHandles flags, // dwCreationFlags nullptr, // lpEnvironment nullptr, // lpCurrentDirectory &startup_info, // lpStartupInfo pi // lpProcessInformation ); if (!process_created) { fmt::print(stderr, "CreateProcessA failed with error {}\n", GetLastError()); return false; } return true; } #elif defined(YUZU_UNIX) pid_t SpawnChild(const char* arg0) { const pid_t pid = fork(); if (pid == -1) { // error const int err = errno; fmt::print(stderr, "fork failed with error {}\n", err); return pid; } else if (pid == 0) { // child execl(arg0, arg0, nullptr); const int err = errno; fmt::print(stderr, "execl failed with error {}\n", err); _exit(0); } return pid; } #endif