// Copyright 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // This file contains functions for launching subprocesses. #ifndef BASE_PROCESS_LAUNCH_H_ #define BASE_PROCESS_LAUNCH_H_ #include #include #include #include #include "base/base_export.h" #include "base/command_line.h" #include "base/environment.h" #include "base/macros.h" #include "base/process/process.h" #include "base/process/process_handle.h" #include "base/strings/string_piece.h" #include "build/build_config.h" #if defined(OS_WIN) #include #elif defined(OS_FUCHSIA) #include #include #endif #if defined(OS_POSIX) || defined(OS_FUCHSIA) #include "base/posix/file_descriptor_shuffle.h" #endif #if defined(OS_MACOSX) && !defined(OS_IOS) #include "base/mac/mach_port_rendezvous.h" #endif namespace base { #if defined(OS_WIN) typedef std::vector HandlesToInheritVector; #elif defined(OS_FUCHSIA) struct PathToTransfer { base::FilePath path; zx_handle_t handle; }; struct HandleToTransfer { uint32_t id; zx_handle_t handle; }; typedef std::vector HandlesToTransferVector; typedef std::vector> FileHandleMappingVector; #elif defined(OS_POSIX) typedef std::vector> FileHandleMappingVector; #endif // defined(OS_WIN) // Options for launching a subprocess that are passed to LaunchProcess(). // The default constructor constructs the object with default options. struct BASE_EXPORT LaunchOptions { #if (defined(OS_POSIX) || defined(OS_FUCHSIA)) && !defined(OS_MACOSX) // Delegate to be run in between fork and exec in the subprocess (see // pre_exec_delegate below) class BASE_EXPORT PreExecDelegate { public: PreExecDelegate() = default; virtual ~PreExecDelegate() = default; // Since this is to be run between fork and exec, and fork may have happened // while multiple threads were running, this function needs to be async // safe. virtual void RunAsyncSafe() = 0; private: DISALLOW_COPY_AND_ASSIGN(PreExecDelegate); }; #endif // defined(OS_POSIX) LaunchOptions(); LaunchOptions(const LaunchOptions&); ~LaunchOptions(); // If true, wait for the process to complete. bool wait = false; // If not empty, change to this directory before executing the new process. base::FilePath current_directory; #if defined(OS_WIN) bool start_hidden = false; // Sets STARTF_FORCEOFFFEEDBACK so that the feedback cursor is forced off // while the process is starting. bool feedback_cursor_off = false; // Windows can inherit handles when it launches child processes. // See https://blogs.msdn.microsoft.com/oldnewthing/20111216-00/?p=8873 // for a good overview of Windows handle inheritance. // // Implementation note: it might be nice to implement in terms of // base::Optional<>, but then the natural default state (vector not present) // would be "all inheritable handles" while we want "no inheritance." enum class Inherit { // Only those handles in |handles_to_inherit| vector are inherited. If the // vector is empty, no handles are inherited. The handles in the vector must // all be inheritable. kSpecific, // All handles in the current process which are inheritable are inherited. // In production code this flag should be used only when running // short-lived, trusted binaries, because open handles from other libraries // and subsystems will leak to the child process, causing errors such as // open socket hangs. There are also race conditions that can cause handle // over-sharing. // // |handles_to_inherit| must be null. // // DEPRECATED. THIS SHOULD NOT BE USED. Explicitly map all handles that // need to be shared in new code. // TODO(brettw) bug 748258: remove this. kAll }; Inherit inherit_mode = Inherit::kSpecific; HandlesToInheritVector handles_to_inherit; // If non-null, runs as if the user represented by the token had launched it. // Whether the application is visible on the interactive desktop depends on // the token belonging to an interactive logon session. // // To avoid hard to diagnose problems, when specified this loads the // environment variables associated with the user and if this operation fails // the entire call fails as well. UserTokenHandle as_user = nullptr; // If true, use an empty string for the desktop name. bool empty_desktop_name = false; // If non-null, launches the application in that job object. The process will // be terminated immediately and LaunchProcess() will fail if assignment to // the job object fails. HANDLE job_handle = nullptr; // Handles for the redirection of stdin, stdout and stderr. The caller should // either set all three of them or none (i.e. there is no way to redirect // stderr without redirecting stdin). // // The handles must be inheritable. Pseudo handles are used when stdout and // stderr redirect to the console. In that case, GetFileType() will return // FILE_TYPE_CHAR and they're automatically inherited by child processes. See // https://msdn.microsoft.com/en-us/library/windows/desktop/ms682075.aspx // Otherwise, the caller must ensure that the |inherit_mode| and/or // |handles_to_inherit| set so that the handles are inherited. HANDLE stdin_handle = nullptr; HANDLE stdout_handle = nullptr; HANDLE stderr_handle = nullptr; // If set to true, ensures that the child process is launched with the // CREATE_BREAKAWAY_FROM_JOB flag which allows it to breakout of the parent // job if any. bool force_breakaway_from_job_ = false; // If set to true, permission to bring windows to the foreground is passed to // the launched process if the current process has such permission. bool grant_foreground_privilege = false; #elif defined(OS_POSIX) || defined(OS_FUCHSIA) // Remap file descriptors according to the mapping of src_fd->dest_fd to // propagate FDs into the child process. FileHandleMappingVector fds_to_remap; #endif // defined(OS_WIN) #if defined(OS_WIN) || defined(OS_POSIX) || defined(OS_FUCHSIA) // Set/unset environment variables. These are applied on top of the parent // process environment. Empty (the default) means to inherit the same // environment. See internal::AlterEnvironment(). EnvironmentMap environment; // Clear the environment for the new process before processing changes from // |environment|. bool clear_environment = false; #endif // OS_WIN || OS_POSIX || OS_FUCHSIA #if defined(OS_LINUX) // If non-zero, start the process using clone(), using flags as provided. // Unlike in clone, clone_flags may not contain a custom termination signal // that is sent to the parent when the child dies. The termination signal will // always be set to SIGCHLD. int clone_flags = 0; // By default, child processes will have the PR_SET_NO_NEW_PRIVS bit set. If // true, then this bit will not be set in the new child process. bool allow_new_privs = false; // Sets parent process death signal to SIGKILL. bool kill_on_parent_death = false; #endif // defined(OS_LINUX) #if defined(OS_MACOSX) && !defined(OS_IOS) // Mach ports that will be accessible to the child process. These are not // directly inherited across process creation, but they are stored by a Mach // IPC server that a child process can communicate with to retrieve them. // // After calling LaunchProcess(), any rights that were transferred with MOVE // dispositions will be consumed, even on failure. // // See base/mac/mach_port_rendezvous.h for details. MachPortsForRendezvous mach_ports_for_rendezvous; // When a child process is launched, the system tracks the parent process // with a concept of "responsibility". The responsible process will be // associated with any requests for private data stored on the system via // the TCC subsystem. When launching processes that run foreign/third-party // code, the responsibility for the child process should be disclaimed so // that any TCC requests are not associated with the parent. bool disclaim_responsibility = false; #endif #if defined(OS_FUCHSIA) // If valid, launches the application in that job object. zx_handle_t job_handle = ZX_HANDLE_INVALID; // Specifies additional handles to transfer (not duplicate) to the child // process. Each entry is an pair, with an |id| created using the // PA_HND() macro. The child retrieves the handle // |zx_take_startup_handle(id)|. The supplied handles are consumed by // LaunchProcess() even on failure. // Note that PA_USER1 ids are reserved for use by AddHandleToTransfer(), below // and by convention PA_USER0 is reserved for use by the embedding // application. HandlesToTransferVector handles_to_transfer; // Allocates a unique id for |handle| in |handles_to_transfer|, inserts it, // and returns the generated id. static uint32_t AddHandleToTransfer( HandlesToTransferVector* handles_to_transfer, zx_handle_t handle); // Specifies which basic capabilities to grant to the child process. // By default the child process will receive the caller's complete namespace, // access to the current base::fuchsia::DefaultJob(), handles for stdio and // access to the dynamic library loader. // Note that the child is always provided access to the loader service. uint32_t spawn_flags = FDIO_SPAWN_CLONE_NAMESPACE | FDIO_SPAWN_CLONE_STDIO | FDIO_SPAWN_CLONE_JOB; // Specifies paths to clone from the calling process' namespace into that of // the child process. If |paths_to_clone| is empty then the process will // receive either a full copy of the parent's namespace, or an empty one, // depending on whether FDIO_SPAWN_CLONE_NAMESPACE is set. std::vector paths_to_clone; // Specifies handles which will be installed as files or directories in the // child process' namespace. Paths installed by |paths_to_clone| will be // overridden by these entries. std::vector paths_to_transfer; // Suffix that will be added to the process name. When specified process name // will be set to "". std::string process_name_suffix; #endif // defined(OS_FUCHSIA) #if defined(OS_POSIX) // If not empty, launch the specified executable instead of // cmdline.GetProgram(). This is useful when it is necessary to pass a custom // argv[0]. base::FilePath real_path; #if !defined(OS_MACOSX) // If non-null, a delegate to be run immediately prior to executing the new // program in the child process. // // WARNING: If LaunchProcess is called in the presence of multiple threads, // code running in this delegate essentially needs to be async-signal safe // (see man 7 signal for a list of allowed functions). PreExecDelegate* pre_exec_delegate = nullptr; #endif // !defined(OS_MACOSX) // Each element is an RLIMIT_* constant that should be raised to its // rlim_max. This pointer is owned by the caller and must live through // the call to LaunchProcess(). const std::vector* maximize_rlimits = nullptr; // If true, start the process in a new process group, instead of // inheriting the parent's process group. The pgid of the child process // will be the same as its pid. bool new_process_group = false; #endif // defined(OS_POSIX) #if defined(OS_CHROMEOS) // If non-negative, the specified file descriptor will be set as the launched // process' controlling terminal. int ctrl_terminal_fd = -1; #endif // defined(OS_CHROMEOS) }; // Launch a process via the command line |cmdline|. // See the documentation of LaunchOptions for details on |options|. // // Returns a valid Process upon success. // // Unix-specific notes: // - All file descriptors open in the parent process will be closed in the // child process except for any preserved by options::fds_to_remap, and // stdin, stdout, and stderr. If not remapped by options::fds_to_remap, // stdin is reopened as /dev/null, and the child is allowed to inherit its // parent's stdout and stderr. // - If the first argument on the command line does not contain a slash, // PATH will be searched. (See man execvp.) BASE_EXPORT Process LaunchProcess(const CommandLine& cmdline, const LaunchOptions& options); #if defined(OS_WIN) // Windows-specific LaunchProcess that takes the command line as a // string. Useful for situations where you need to control the // command line arguments directly, but prefer the CommandLine version // if launching Chrome itself. // // The first command line argument should be the path to the process, // and don't forget to quote it. // // Example (including literal quotes) // cmdline = "c:\windows\explorer.exe" -foo "c:\bar\" BASE_EXPORT Process LaunchProcess(const CommandLine::StringType& cmdline, const LaunchOptions& options); // Launches a process with elevated privileges. This does not behave exactly // like LaunchProcess as it uses ShellExecuteEx instead of CreateProcess to // create the process. This means the process will have elevated privileges // and thus some common operations like OpenProcess will fail. Currently the // only supported LaunchOptions are |start_hidden| and |wait|. BASE_EXPORT Process LaunchElevatedProcess(const CommandLine& cmdline, const LaunchOptions& options); #elif defined(OS_POSIX) || defined(OS_FUCHSIA) // A POSIX-specific version of LaunchProcess that takes an argv array // instead of a CommandLine. Useful for situations where you need to // control the command line arguments directly, but prefer the // CommandLine version if launching Chrome itself. BASE_EXPORT Process LaunchProcess(const std::vector& argv, const LaunchOptions& options); #if !defined(OS_MACOSX) // Close all file descriptors, except those which are a destination in the // given multimap. Only call this function in a child process where you know // that there aren't any other threads. BASE_EXPORT void CloseSuperfluousFds(const InjectiveMultimap& saved_map); #endif // defined(OS_MACOSX) #endif // defined(OS_WIN) #if defined(OS_WIN) // Set |job_object|'s JOBOBJECT_EXTENDED_LIMIT_INFORMATION // BasicLimitInformation.LimitFlags to |limit_flags|. BASE_EXPORT bool SetJobObjectLimitFlags(HANDLE job_object, DWORD limit_flags); // Output multi-process printf, cout, cerr, etc to the cmd.exe console that ran // chrome. This is not thread-safe: only call from main thread. BASE_EXPORT void RouteStdioToConsole(bool create_console_if_not_found); #endif // defined(OS_WIN) // Executes the application specified by |cl| and wait for it to exit. Stores // the output (stdout) in |output|. Redirects stderr to /dev/null. Returns true // on success (application launched and exited cleanly, with exit code // indicating success). BASE_EXPORT bool GetAppOutput(const CommandLine& cl, std::string* output); // Like GetAppOutput, but also includes stderr. BASE_EXPORT bool GetAppOutputAndError(const CommandLine& cl, std::string* output); // A version of |GetAppOutput()| which also returns the exit code of the // executed command. Returns true if the application runs and exits cleanly. If // this is the case the exit code of the application is available in // |*exit_code|. BASE_EXPORT bool GetAppOutputWithExitCode(const CommandLine& cl, std::string* output, int* exit_code); #if defined(OS_WIN) // A Windows-specific version of GetAppOutput that takes a command line string // instead of a CommandLine object. Useful for situations where you need to // control the command line arguments directly. BASE_EXPORT bool GetAppOutput(CommandLine::StringPieceType cl, std::string* output); #elif defined(OS_POSIX) || defined(OS_FUCHSIA) // A POSIX-specific version of GetAppOutput that takes an argv array // instead of a CommandLine. Useful for situations where you need to // control the command line arguments directly. BASE_EXPORT bool GetAppOutput(const std::vector& argv, std::string* output); // Like the above POSIX-specific version of GetAppOutput, but also includes // stderr. BASE_EXPORT bool GetAppOutputAndError(const std::vector& argv, std::string* output); #endif // defined(OS_WIN) // If supported on the platform, and the user has sufficent rights, increase // the current process's scheduling priority to a high priority. BASE_EXPORT void RaiseProcessToHighPriority(); // Creates a LaunchOptions object suitable for launching processes in a test // binary. This should not be called in production/released code. BASE_EXPORT LaunchOptions LaunchOptionsForTest(); #if defined(OS_LINUX) || defined(OS_NACL_NONSFI) // A wrapper for clone with fork-like behavior, meaning that it returns the // child's pid in the parent and 0 in the child. |flags|, |ptid|, and |ctid| are // as in the clone system call (the CLONE_VM flag is not supported). // // This function uses the libc clone wrapper (which updates libc's pid cache) // internally, so callers may expect things like getpid() to work correctly // after in both the child and parent. // // As with fork(), callers should be extremely careful when calling this while // multiple threads are running, since at the time the fork happened, the // threads could have been in any state (potentially holding locks, etc.). // Callers should most likely call execve() in the child soon after calling // this. // // It is unsafe to use any pthread APIs after ForkWithFlags(). // However, performing an exec() will lift this restriction. BASE_EXPORT pid_t ForkWithFlags(unsigned long flags, pid_t* ptid, pid_t* ctid); #endif } // namespace base #endif // BASE_PROCESS_LAUNCH_H_