zig/lib/std/child_process.zig

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const std = @import("std.zig");
const cstr = std.cstr;
const unicode = std.unicode;
const io = std.io;
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const fs = std.fs;
const os = std.os;
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const process = std.process;
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const File = std.fs.File;
const windows = os.windows;
const mem = std.mem;
const debug = std.debug;
const BufMap = std.BufMap;
const Buffer = std.Buffer;
const builtin = @import("builtin");
const Os = builtin.Os;
const TailQueue = std.TailQueue;
const maxInt = std.math.maxInt;
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pub const ChildProcess = struct {
pid: if (builtin.os == .windows) void else i32,
handle: if (builtin.os == .windows) windows.HANDLE else void,
thread_handle: if (builtin.os == .windows) windows.HANDLE else void,
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allocator: *mem.Allocator,
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stdin: ?File,
stdout: ?File,
stderr: ?File,
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term: ?(SpawnError!Term),
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argv: []const []const u8,
/// Leave as null to use the current env map using the supplied allocator.
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env_map: ?*const BufMap,
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stdin_behavior: StdIo,
stdout_behavior: StdIo,
stderr_behavior: StdIo,
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/// Set to change the user id when spawning the child process.
uid: if (builtin.os == .windows) void else ?u32,
/// Set to change the group id when spawning the child process.
gid: if (builtin.os == .windows) void else ?u32,
/// Set to change the current working directory when spawning the child process.
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cwd: ?[]const u8,
err_pipe: if (builtin.os == .windows) void else [2]os.fd_t,
llnode: if (builtin.os == .windows) void else TailQueue(*ChildProcess).Node,
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pub const SpawnError = error{OutOfMemory} || os.ExecveError || os.SetIdError ||
os.ChangeCurDirError || windows.CreateProcessError;
pub const Term = union(enum) {
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Exited: u32,
Signal: u32,
Stopped: u32,
Unknown: u32,
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};
pub const StdIo = enum {
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Inherit,
Ignore,
Pipe,
Close,
};
/// First argument in argv is the executable.
/// On success must call deinit.
pub fn init(argv: []const []const u8, allocator: *mem.Allocator) !*ChildProcess {
const child = try allocator.create(ChildProcess);
child.* = ChildProcess{
.allocator = allocator,
.argv = argv,
.pid = undefined,
.handle = undefined,
.thread_handle = undefined,
.err_pipe = undefined,
.llnode = undefined,
.term = null,
.env_map = null,
.cwd = null,
.uid = if (builtin.os == .windows) {} else null,
.gid = if (builtin.os == .windows) {} else null,
.stdin = null,
.stdout = null,
.stderr = null,
.stdin_behavior = StdIo.Inherit,
.stdout_behavior = StdIo.Inherit,
.stderr_behavior = StdIo.Inherit,
};
errdefer allocator.destroy(child);
return child;
}
pub fn setUserName(self: *ChildProcess, name: []const u8) !void {
const user_info = try os.getUserInfo(name);
self.uid = user_info.uid;
self.gid = user_info.gid;
}
/// On success must call `kill` or `wait`.
pub fn spawn(self: *ChildProcess) !void {
if (builtin.os == .windows) {
return self.spawnWindows();
} else {
return self.spawnPosix();
}
}
pub fn spawnAndWait(self: *ChildProcess) !Term {
try self.spawn();
return self.wait();
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}
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/// Forcibly terminates child process and then cleans up all resources.
pub fn kill(self: *ChildProcess) !Term {
if (builtin.os == .windows) {
return self.killWindows(1);
} else {
return self.killPosix();
}
}
pub fn killWindows(self: *ChildProcess, exit_code: windows.UINT) !Term {
if (self.term) |term| {
self.cleanupStreams();
return term;
}
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try windows.TerminateProcess(self.handle, exit_code);
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try self.waitUnwrappedWindows();
return self.term.?;
}
pub fn killPosix(self: *ChildProcess) !Term {
if (self.term) |term| {
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self.cleanupStreams();
return term;
}
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try os.kill(self.pid, os.SIGTERM);
self.waitUnwrapped();
return self.term.?;
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}
/// Blocks until child process terminates and then cleans up all resources.
pub fn wait(self: *ChildProcess) !Term {
if (builtin.os == .windows) {
return self.waitWindows();
} else {
return self.waitPosix();
}
}
pub const ExecResult = struct {
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term: Term,
stdout: []u8,
stderr: []u8,
};
/// Spawns a child process, waits for it, collecting stdout and stderr, and then returns.
/// If it succeeds, the caller owns result.stdout and result.stderr memory.
pub fn exec(allocator: *mem.Allocator, argv: []const []const u8, cwd: ?[]const u8, env_map: ?*const BufMap, max_output_size: usize) !ExecResult {
const child = try ChildProcess.init(argv, allocator);
defer child.deinit();
child.stdin_behavior = ChildProcess.StdIo.Ignore;
child.stdout_behavior = ChildProcess.StdIo.Pipe;
child.stderr_behavior = ChildProcess.StdIo.Pipe;
child.cwd = cwd;
child.env_map = env_map;
try child.spawn();
var stdout = Buffer.initNull(allocator);
var stderr = Buffer.initNull(allocator);
defer Buffer.deinit(&stdout);
defer Buffer.deinit(&stderr);
var stdout_file_in_stream = child.stdout.?.inStream();
var stderr_file_in_stream = child.stderr.?.inStream();
try stdout_file_in_stream.stream.readAllBuffer(&stdout, max_output_size);
try stderr_file_in_stream.stream.readAllBuffer(&stderr, max_output_size);
return ExecResult{
.term = try child.wait(),
.stdout = stdout.toOwnedSlice(),
.stderr = stderr.toOwnedSlice(),
};
}
fn waitWindows(self: *ChildProcess) !Term {
if (self.term) |term| {
self.cleanupStreams();
return term;
}
try self.waitUnwrappedWindows();
return self.term.?;
}
fn waitPosix(self: *ChildProcess) !Term {
if (self.term) |term| {
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self.cleanupStreams();
return term;
}
self.waitUnwrapped();
return self.term.?;
}
pub fn deinit(self: *ChildProcess) void {
self.allocator.destroy(self);
}
fn waitUnwrappedWindows(self: *ChildProcess) !void {
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const result = windows.WaitForSingleObject(self.handle, windows.INFINITE);
self.term = (SpawnError!Term)(x: {
var exit_code: windows.DWORD = undefined;
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if (windows.kernel32.GetExitCodeProcess(self.handle, &exit_code) == 0) {
break :x Term{ .Unknown = 0 };
} else {
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break :x Term{ .Exited = exit_code };
}
});
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os.close(self.handle);
os.close(self.thread_handle);
self.cleanupStreams();
return result;
}
fn waitUnwrapped(self: *ChildProcess) void {
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const status = os.waitpid(self.pid, 0);
self.cleanupStreams();
self.handleWaitResult(status);
}
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fn handleWaitResult(self: *ChildProcess, status: u32) void {
self.term = self.cleanupAfterWait(status);
}
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fn cleanupStreams(self: *ChildProcess) void {
if (self.stdin) |*stdin| {
stdin.close();
self.stdin = null;
}
if (self.stdout) |*stdout| {
stdout.close();
self.stdout = null;
}
if (self.stderr) |*stderr| {
stderr.close();
self.stderr = null;
}
}
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fn cleanupAfterWait(self: *ChildProcess, status: u32) !Term {
defer {
os.close(self.err_pipe[0]);
os.close(self.err_pipe[1]);
}
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// Write maxInt(ErrInt) to the write end of the err_pipe. This is after
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// waitpid, so this write is guaranteed to be after the child
// pid potentially wrote an error. This way we can do a blocking
// read on the error pipe and either get maxInt(ErrInt) (no error) or
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// an error code.
try writeIntFd(self.err_pipe[1], maxInt(ErrInt));
const err_int = try readIntFd(self.err_pipe[0]);
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// Here we potentially return the fork child's error
// from the parent pid.
if (err_int != maxInt(ErrInt)) {
return @errSetCast(SpawnError, @intToError(err_int));
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}
return statusToTerm(status);
}
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fn statusToTerm(status: u32) Term {
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return if (os.WIFEXITED(status))
Term{ .Exited = os.WEXITSTATUS(status) }
else if (os.WIFSIGNALED(status))
Term{ .Signal = os.WTERMSIG(status) }
else if (os.WIFSTOPPED(status))
Term{ .Stopped = os.WSTOPSIG(status) }
else
Term{ .Unknown = status };
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}
fn spawnPosix(self: *ChildProcess) !void {
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const stdin_pipe = if (self.stdin_behavior == StdIo.Pipe) try os.pipe() else undefined;
errdefer if (self.stdin_behavior == StdIo.Pipe) {
destroyPipe(stdin_pipe);
};
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const stdout_pipe = if (self.stdout_behavior == StdIo.Pipe) try os.pipe() else undefined;
errdefer if (self.stdout_behavior == StdIo.Pipe) {
destroyPipe(stdout_pipe);
};
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const stderr_pipe = if (self.stderr_behavior == StdIo.Pipe) try os.pipe() else undefined;
errdefer if (self.stderr_behavior == StdIo.Pipe) {
destroyPipe(stderr_pipe);
};
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const any_ignore = (self.stdin_behavior == StdIo.Ignore or self.stdout_behavior == StdIo.Ignore or self.stderr_behavior == StdIo.Ignore);
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const dev_null_fd = if (any_ignore) try os.openC(c"/dev/null", os.O_RDWR, 0) else undefined;
defer {
if (any_ignore) os.close(dev_null_fd);
}
var env_map_owned: BufMap = undefined;
var we_own_env_map: bool = undefined;
const env_map = if (self.env_map) |env_map| x: {
we_own_env_map = false;
break :x env_map;
} else x: {
we_own_env_map = true;
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env_map_owned = try process.getEnvMap(self.allocator);
break :x &env_map_owned;
};
defer {
if (we_own_env_map) env_map_owned.deinit();
}
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// This pipe is used to communicate errors between the time of fork
// and execve from the child process to the parent process.
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const err_pipe = try os.pipe();
errdefer destroyPipe(err_pipe);
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const pid_result = try os.fork();
if (pid_result == 0) {
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// we are the child
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setUpChildIo(self.stdin_behavior, stdin_pipe[0], os.STDIN_FILENO, dev_null_fd) catch |err| forkChildErrReport(err_pipe[1], err);
setUpChildIo(self.stdout_behavior, stdout_pipe[1], os.STDOUT_FILENO, dev_null_fd) catch |err| forkChildErrReport(err_pipe[1], err);
setUpChildIo(self.stderr_behavior, stderr_pipe[1], os.STDERR_FILENO, dev_null_fd) catch |err| forkChildErrReport(err_pipe[1], err);
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if (self.stdin_behavior == .Pipe) {
os.close(stdin_pipe[0]);
os.close(stdin_pipe[1]);
}
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if (self.stdout_behavior == .Pipe) {
os.close(stdout_pipe[0]);
os.close(stdout_pipe[1]);
}
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if (self.stderr_behavior == .Pipe) {
os.close(stderr_pipe[0]);
os.close(stderr_pipe[1]);
}
if (self.cwd) |cwd| {
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os.chdir(cwd) catch |err| forkChildErrReport(err_pipe[1], err);
}
if (self.gid) |gid| {
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os.setregid(gid, gid) catch |err| forkChildErrReport(err_pipe[1], err);
}
if (self.uid) |uid| {
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os.setreuid(uid, uid) catch |err| forkChildErrReport(err_pipe[1], err);
}
const err = os.execvpe(self.allocator, self.argv, env_map);
forkChildErrReport(err_pipe[1], err);
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}
// we are the parent
const pid = @intCast(i32, pid_result);
if (self.stdin_behavior == StdIo.Pipe) {
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self.stdin = File.openHandle(stdin_pipe[1]);
} else {
self.stdin = null;
}
if (self.stdout_behavior == StdIo.Pipe) {
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self.stdout = File.openHandle(stdout_pipe[0]);
} else {
self.stdout = null;
}
if (self.stderr_behavior == StdIo.Pipe) {
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self.stderr = File.openHandle(stderr_pipe[0]);
} else {
self.stderr = null;
}
self.pid = pid;
self.err_pipe = err_pipe;
self.llnode = TailQueue(*ChildProcess).Node.init(self);
self.term = null;
if (self.stdin_behavior == StdIo.Pipe) {
os.close(stdin_pipe[0]);
}
if (self.stdout_behavior == StdIo.Pipe) {
os.close(stdout_pipe[1]);
}
if (self.stderr_behavior == StdIo.Pipe) {
os.close(stderr_pipe[1]);
}
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}
fn spawnWindows(self: *ChildProcess) !void {
const saAttr = windows.SECURITY_ATTRIBUTES{
.nLength = @sizeOf(windows.SECURITY_ATTRIBUTES),
.bInheritHandle = windows.TRUE,
.lpSecurityDescriptor = null,
};
const any_ignore = (self.stdin_behavior == StdIo.Ignore or self.stdout_behavior == StdIo.Ignore or self.stderr_behavior == StdIo.Ignore);
const nul_handle = if (any_ignore) blk: {
break :blk try windows.CreateFile("NUL", windows.GENERIC_READ, windows.FILE_SHARE_READ, null, windows.OPEN_EXISTING, windows.FILE_ATTRIBUTE_NORMAL, null);
} else blk: {
break :blk undefined;
};
defer {
if (any_ignore) os.close(nul_handle);
}
if (any_ignore) {
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try windows.SetHandleInformation(nul_handle, windows.HANDLE_FLAG_INHERIT, 0);
}
var g_hChildStd_IN_Rd: ?windows.HANDLE = null;
var g_hChildStd_IN_Wr: ?windows.HANDLE = null;
switch (self.stdin_behavior) {
StdIo.Pipe => {
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try windowsMakePipeIn(&g_hChildStd_IN_Rd, &g_hChildStd_IN_Wr, &saAttr);
},
StdIo.Ignore => {
g_hChildStd_IN_Rd = nul_handle;
},
StdIo.Inherit => {
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g_hChildStd_IN_Rd = windows.GetStdHandle(windows.STD_INPUT_HANDLE) catch null;
},
StdIo.Close => {
g_hChildStd_IN_Rd = null;
},
}
errdefer if (self.stdin_behavior == StdIo.Pipe) {
windowsDestroyPipe(g_hChildStd_IN_Rd, g_hChildStd_IN_Wr);
};
var g_hChildStd_OUT_Rd: ?windows.HANDLE = null;
var g_hChildStd_OUT_Wr: ?windows.HANDLE = null;
switch (self.stdout_behavior) {
StdIo.Pipe => {
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try windowsMakePipeOut(&g_hChildStd_OUT_Rd, &g_hChildStd_OUT_Wr, &saAttr);
},
StdIo.Ignore => {
g_hChildStd_OUT_Wr = nul_handle;
},
StdIo.Inherit => {
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g_hChildStd_OUT_Wr = windows.GetStdHandle(windows.STD_OUTPUT_HANDLE) catch null;
},
StdIo.Close => {
g_hChildStd_OUT_Wr = null;
},
}
errdefer if (self.stdin_behavior == StdIo.Pipe) {
windowsDestroyPipe(g_hChildStd_OUT_Rd, g_hChildStd_OUT_Wr);
};
var g_hChildStd_ERR_Rd: ?windows.HANDLE = null;
var g_hChildStd_ERR_Wr: ?windows.HANDLE = null;
switch (self.stderr_behavior) {
StdIo.Pipe => {
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try windowsMakePipeOut(&g_hChildStd_ERR_Rd, &g_hChildStd_ERR_Wr, &saAttr);
},
StdIo.Ignore => {
g_hChildStd_ERR_Wr = nul_handle;
},
StdIo.Inherit => {
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g_hChildStd_ERR_Wr = windows.GetStdHandle(windows.STD_ERROR_HANDLE) catch null;
},
StdIo.Close => {
g_hChildStd_ERR_Wr = null;
},
}
errdefer if (self.stdin_behavior == StdIo.Pipe) {
windowsDestroyPipe(g_hChildStd_ERR_Rd, g_hChildStd_ERR_Wr);
};
const cmd_line = try windowsCreateCommandLine(self.allocator, self.argv);
defer self.allocator.free(cmd_line);
var siStartInfo = windows.STARTUPINFOW{
.cb = @sizeOf(windows.STARTUPINFOW),
.hStdError = g_hChildStd_ERR_Wr,
.hStdOutput = g_hChildStd_OUT_Wr,
.hStdInput = g_hChildStd_IN_Rd,
.dwFlags = windows.STARTF_USESTDHANDLES,
.lpReserved = null,
.lpDesktop = null,
.lpTitle = null,
.dwX = 0,
.dwY = 0,
.dwXSize = 0,
.dwYSize = 0,
.dwXCountChars = 0,
.dwYCountChars = 0,
.dwFillAttribute = 0,
.wShowWindow = 0,
.cbReserved2 = 0,
.lpReserved2 = null,
};
var piProcInfo: windows.PROCESS_INFORMATION = undefined;
const cwd_slice = if (self.cwd) |cwd| try cstr.addNullByte(self.allocator, cwd) else null;
defer if (cwd_slice) |cwd| self.allocator.free(cwd);
const cwd_w = if (cwd_slice) |cwd| try unicode.utf8ToUtf16LeWithNull(self.allocator, cwd) else null;
defer if (cwd_w) |cwd| self.allocator.free(cwd);
const cwd_w_ptr = if (cwd_w) |cwd| cwd.ptr else null;
const maybe_envp_buf = if (self.env_map) |env_map| try createWindowsEnvBlock(self.allocator, env_map) else null;
defer if (maybe_envp_buf) |envp_buf| self.allocator.free(envp_buf);
const envp_ptr = if (maybe_envp_buf) |envp_buf| envp_buf.ptr else null;
// the cwd set in ChildProcess is in effect when choosing the executable path
// to match posix semantics
const app_name = x: {
if (self.cwd) |cwd| {
const resolved = try fs.path.resolve(self.allocator, [_][]const u8{ cwd, self.argv[0] });
defer self.allocator.free(resolved);
break :x try cstr.addNullByte(self.allocator, resolved);
} else {
break :x try cstr.addNullByte(self.allocator, self.argv[0]);
}
};
defer self.allocator.free(app_name);
const app_name_w = try unicode.utf8ToUtf16LeWithNull(self.allocator, app_name);
defer self.allocator.free(app_name_w);
const cmd_line_w = try unicode.utf8ToUtf16LeWithNull(self.allocator, cmd_line);
defer self.allocator.free(cmd_line_w);
windowsCreateProcess(app_name_w.ptr, cmd_line_w.ptr, envp_ptr, cwd_w_ptr, &siStartInfo, &piProcInfo) catch |no_path_err| {
if (no_path_err != error.FileNotFound) return no_path_err;
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const PATH = try process.getEnvVarOwned(self.allocator, "PATH");
defer self.allocator.free(PATH);
const PATHEXT = try process.getEnvVarOwned(self.allocator, "PATHEXT");
defer self.allocator.free(PATHEXT);
var it = mem.tokenize(PATH, ";");
retry: while (it.next()) |search_path| {
var ext_it = mem.tokenize(PATHEXT, ";");
while (ext_it.next()) |app_ext| {
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const app_basename = try mem.concat(self.allocator, u8, [_][]const u8{ app_name[0 .. app_name.len - 1], app_ext });
defer self.allocator.free(app_basename);
const joined_path = try fs.path.join(self.allocator, [_][]const u8{ search_path, app_basename });
defer self.allocator.free(joined_path);
const joined_path_w = try unicode.utf8ToUtf16LeWithNull(self.allocator, joined_path);
defer self.allocator.free(joined_path_w);
if (windowsCreateProcess(joined_path_w.ptr, cmd_line_w.ptr, envp_ptr, cwd_w_ptr, &siStartInfo, &piProcInfo)) |_| {
break :retry;
} else |err| switch (err) {
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error.FileNotFound => continue,
error.AccessDenied => continue,
else => return err,
}
}
} else {
return no_path_err; // return the original error
}
};
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if (g_hChildStd_IN_Wr) |h| {
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self.stdin = File.openHandle(h);
} else {
self.stdin = null;
}
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if (g_hChildStd_OUT_Rd) |h| {
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self.stdout = File.openHandle(h);
} else {
self.stdout = null;
}
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if (g_hChildStd_ERR_Rd) |h| {
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self.stderr = File.openHandle(h);
} else {
self.stderr = null;
}
self.handle = piProcInfo.hProcess;
self.thread_handle = piProcInfo.hThread;
self.term = null;
if (self.stdin_behavior == StdIo.Pipe) {
os.close(g_hChildStd_IN_Rd.?);
}
if (self.stderr_behavior == StdIo.Pipe) {
os.close(g_hChildStd_ERR_Wr.?);
}
if (self.stdout_behavior == StdIo.Pipe) {
os.close(g_hChildStd_OUT_Wr.?);
}
}
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fn setUpChildIo(stdio: StdIo, pipe_fd: i32, std_fileno: i32, dev_null_fd: i32) !void {
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switch (stdio) {
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StdIo.Pipe => try os.dup2(pipe_fd, std_fileno),
StdIo.Close => os.close(std_fileno),
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StdIo.Inherit => {},
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StdIo.Ignore => try os.dup2(dev_null_fd, std_fileno),
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}
}
};
fn windowsCreateProcess(app_name: [*]u16, cmd_line: [*]u16, envp_ptr: ?[*]u16, cwd_ptr: ?[*]u16, lpStartupInfo: *windows.STARTUPINFOW, lpProcessInformation: *windows.PROCESS_INFORMATION) !void {
// TODO the docs for environment pointer say:
// > A pointer to the environment block for the new process. If this parameter
// > is NULL, the new process uses the environment of the calling process.
// > ...
// > An environment block can contain either Unicode or ANSI characters. If
// > the environment block pointed to by lpEnvironment contains Unicode
// > characters, be sure that dwCreationFlags includes CREATE_UNICODE_ENVIRONMENT.
// > If this parameter is NULL and the environment block of the parent process
// > contains Unicode characters, you must also ensure that dwCreationFlags
// > includes CREATE_UNICODE_ENVIRONMENT.
// This seems to imply that we have to somehow know whether our process parent passed
// CREATE_UNICODE_ENVIRONMENT if we want to pass NULL for the environment parameter.
// Since we do not know this information that would imply that we must not pass NULL
// for the parameter.
// However this would imply that programs compiled with -DUNICODE could not pass
// environment variables to programs that were not, which seems unlikely.
// More investigation is needed.
return windows.CreateProcessW(
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app_name,
cmd_line,
null,
null,
windows.TRUE,
windows.CREATE_UNICODE_ENVIRONMENT,
@ptrCast(?*c_void, envp_ptr),
cwd_ptr,
lpStartupInfo,
lpProcessInformation,
);
}
/// Caller must dealloc.
/// Guarantees a null byte at result[result.len].
fn windowsCreateCommandLine(allocator: *mem.Allocator, argv: []const []const u8) ![]u8 {
var buf = try Buffer.initSize(allocator, 0);
defer buf.deinit();
var buf_stream = &io.BufferOutStream.init(&buf).stream;
for (argv) |arg, arg_i| {
if (arg_i != 0) try buf.appendByte(' ');
if (mem.indexOfAny(u8, arg, " \t\n\"") == null) {
try buf.append(arg);
continue;
}
try buf.appendByte('"');
var backslash_count: usize = 0;
for (arg) |byte| {
switch (byte) {
'\\' => backslash_count += 1,
'"' => {
try buf_stream.writeByteNTimes('\\', backslash_count * 2 + 1);
try buf.appendByte('"');
backslash_count = 0;
},
else => {
try buf_stream.writeByteNTimes('\\', backslash_count);
try buf.appendByte(byte);
backslash_count = 0;
},
}
}
try buf_stream.writeByteNTimes('\\', backslash_count * 2);
try buf.appendByte('"');
}
return buf.toOwnedSlice();
}
fn windowsDestroyPipe(rd: ?windows.HANDLE, wr: ?windows.HANDLE) void {
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if (rd) |h| os.close(h);
if (wr) |h| os.close(h);
}
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fn windowsMakePipeIn(rd: *?windows.HANDLE, wr: *?windows.HANDLE, sattr: *const windows.SECURITY_ATTRIBUTES) !void {
var rd_h: windows.HANDLE = undefined;
var wr_h: windows.HANDLE = undefined;
try windows.CreatePipe(&rd_h, &wr_h, sattr);
errdefer windowsDestroyPipe(rd_h, wr_h);
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try windows.SetHandleInformation(wr_h, windows.HANDLE_FLAG_INHERIT, 0);
rd.* = rd_h;
wr.* = wr_h;
}
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fn windowsMakePipeOut(rd: *?windows.HANDLE, wr: *?windows.HANDLE, sattr: *const windows.SECURITY_ATTRIBUTES) !void {
var rd_h: windows.HANDLE = undefined;
var wr_h: windows.HANDLE = undefined;
try windows.CreatePipe(&rd_h, &wr_h, sattr);
errdefer windowsDestroyPipe(rd_h, wr_h);
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try windows.SetHandleInformation(rd_h, windows.HANDLE_FLAG_INHERIT, 0);
rd.* = rd_h;
wr.* = wr_h;
}
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fn destroyPipe(pipe: [2]os.fd_t) void {
os.close(pipe[0]);
os.close(pipe[1]);
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}
// Child of fork calls this to report an error to the fork parent.
// Then the child exits.
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fn forkChildErrReport(fd: i32, err: ChildProcess.SpawnError) noreturn {
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writeIntFd(fd, @as(ErrInt,@errorToInt(err))) catch {};
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os.exit(1);
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}
const ErrInt = @IntType(false, @sizeOf(anyerror) * 8);
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fn writeIntFd(fd: i32, value: ErrInt) !void {
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const stream = &File.openHandle(fd).outStream().stream;
breaking API changes to all readInt/writeInt functions & more * add `@bswap` builtin function. See #767 * comptime evaluation facilities are improved to be able to handle a `@ptrCast` with a backing array. * `@truncate` allows "truncating" a u0 value to any integer type, and the result is always comptime known to be `0`. * when specifying pointer alignment in a type expression, the alignment value of pointers which do not have addresses at runtime is ignored, and always has the default/ABI alignment * threw in a fix to freebsd/x86_64.zig to update syntax from language changes * some improvements are pending #863 closes #638 closes #1733 std lib API changes * io.InStream().readIntNe renamed to readIntNative * io.InStream().readIntLe renamed to readIntLittle * io.InStream().readIntBe renamed to readIntBig * introduced io.InStream().readIntForeign * io.InStream().readInt has parameter order changed * io.InStream().readVarInt has parameter order changed * io.InStream().writeIntNe renamed to writeIntNative * introduced io.InStream().writeIntForeign * io.InStream().writeIntLe renamed to writeIntLittle * io.InStream().writeIntBe renamed to writeIntBig * io.InStream().writeInt has parameter order changed * mem.readInt has different parameters and semantics * introduced mem.readIntNative * introduced mem.readIntForeign * mem.readIntBE renamed to mem.readIntBig and different API * mem.readIntLE renamed to mem.readIntLittle and different API * introduced mem.readIntSliceNative * introduced mem.readIntSliceForeign * introduced mem.readIntSliceLittle * introduced mem.readIntSliceBig * introduced mem.readIntSlice * mem.writeInt has different parameters and semantics * introduced mem.writeIntNative * introduced mem.writeIntForeign * mem.writeIntBE renamed to mem.readIntBig and different semantics * mem.writeIntLE renamed to mem.readIntLittle and different semantics * introduced mem.writeIntSliceForeign * introduced mem.writeIntSliceNative * introduced mem.writeIntSliceBig * introduced mem.writeIntSliceLittle * introduced mem.writeIntSlice * removed mem.endianSwapIfLe * removed mem.endianSwapIfBe * removed mem.endianSwapIf * added mem.littleToNative * added mem.bigToNative * added mem.toNative * added mem.nativeTo * added mem.nativeToLittle * added mem.nativeToBig
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stream.writeIntNative(ErrInt, value) catch return error.SystemResources;
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}
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fn readIntFd(fd: i32) !ErrInt {
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const stream = &File.openHandle(fd).inStream().stream;
breaking API changes to all readInt/writeInt functions & more * add `@bswap` builtin function. See #767 * comptime evaluation facilities are improved to be able to handle a `@ptrCast` with a backing array. * `@truncate` allows "truncating" a u0 value to any integer type, and the result is always comptime known to be `0`. * when specifying pointer alignment in a type expression, the alignment value of pointers which do not have addresses at runtime is ignored, and always has the default/ABI alignment * threw in a fix to freebsd/x86_64.zig to update syntax from language changes * some improvements are pending #863 closes #638 closes #1733 std lib API changes * io.InStream().readIntNe renamed to readIntNative * io.InStream().readIntLe renamed to readIntLittle * io.InStream().readIntBe renamed to readIntBig * introduced io.InStream().readIntForeign * io.InStream().readInt has parameter order changed * io.InStream().readVarInt has parameter order changed * io.InStream().writeIntNe renamed to writeIntNative * introduced io.InStream().writeIntForeign * io.InStream().writeIntLe renamed to writeIntLittle * io.InStream().writeIntBe renamed to writeIntBig * io.InStream().writeInt has parameter order changed * mem.readInt has different parameters and semantics * introduced mem.readIntNative * introduced mem.readIntForeign * mem.readIntBE renamed to mem.readIntBig and different API * mem.readIntLE renamed to mem.readIntLittle and different API * introduced mem.readIntSliceNative * introduced mem.readIntSliceForeign * introduced mem.readIntSliceLittle * introduced mem.readIntSliceBig * introduced mem.readIntSlice * mem.writeInt has different parameters and semantics * introduced mem.writeIntNative * introduced mem.writeIntForeign * mem.writeIntBE renamed to mem.readIntBig and different semantics * mem.writeIntLE renamed to mem.readIntLittle and different semantics * introduced mem.writeIntSliceForeign * introduced mem.writeIntSliceNative * introduced mem.writeIntSliceBig * introduced mem.writeIntSliceLittle * introduced mem.writeIntSlice * removed mem.endianSwapIfLe * removed mem.endianSwapIfBe * removed mem.endianSwapIf * added mem.littleToNative * added mem.bigToNative * added mem.toNative * added mem.nativeTo * added mem.nativeToLittle * added mem.nativeToBig
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return stream.readIntNative(ErrInt) catch return error.SystemResources;
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}
/// Caller must free result.
pub fn createWindowsEnvBlock(allocator: *mem.Allocator, env_map: *const BufMap) ![]u16 {
// count bytes needed
const max_chars_needed = x: {
var max_chars_needed: usize = 4; // 4 for the final 4 null bytes
var it = env_map.iterator();
while (it.next()) |pair| {
// +1 for '='
// +1 for null byte
max_chars_needed += pair.key.len + pair.value.len + 2;
}
break :x max_chars_needed;
};
const result = try allocator.alloc(u16, max_chars_needed);
errdefer allocator.free(result);
var it = env_map.iterator();
var i: usize = 0;
while (it.next()) |pair| {
i += try unicode.utf8ToUtf16Le(result[i..], pair.key);
result[i] = '=';
i += 1;
i += try unicode.utf8ToUtf16Le(result[i..], pair.value);
result[i] = 0;
i += 1;
}
result[i] = 0;
i += 1;
result[i] = 0;
i += 1;
result[i] = 0;
i += 1;
result[i] = 0;
i += 1;
return allocator.shrink(result, i);
}