zig/std/os/index.zig

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const std = @import("../index.zig");
const builtin = @import("builtin");
const Os = builtin.Os;
const is_windows = builtin.os == Os.windows;
const os = this;
pub const windows = @import("windows/index.zig");
pub const darwin = @import("darwin.zig");
pub const linux = @import("linux/index.zig");
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pub const zen = @import("zen.zig");
pub const posix = switch(builtin.os) {
Os.linux => linux,
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Os.macosx, Os.ios => darwin,
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Os.zen => zen,
else => @compileError("Unsupported OS"),
};
pub const max_noalloc_path_len = 1024;
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pub const ChildProcess = @import("child_process.zig").ChildProcess;
pub const path = @import("path.zig");
pub const line_sep = switch (builtin.os) {
Os.windows => "\r\n",
else => "\n",
};
pub const page_size = 4 * 1024;
pub const UserInfo = @import("get_user_id.zig").UserInfo;
pub const getUserInfo = @import("get_user_id.zig").getUserInfo;
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const windows_util = @import("windows/util.zig");
pub const windowsWaitSingle = windows_util.windowsWaitSingle;
pub const windowsWrite = windows_util.windowsWrite;
pub const windowsIsCygwinPty = windows_util.windowsIsCygwinPty;
pub const windowsOpen = windows_util.windowsOpen;
pub const windowsLoadDll = windows_util.windowsLoadDll;
pub const windowsUnloadDll = windows_util.windowsUnloadDll;
pub const createWindowsEnvBlock = windows_util.createWindowsEnvBlock;
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pub const FileHandle = if (is_windows) windows.HANDLE else i32;
const debug = std.debug;
const assert = debug.assert;
const c = std.c;
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const mem = std.mem;
const Allocator = mem.Allocator;
const BufMap = std.BufMap;
const cstr = std.cstr;
const io = std.io;
const base64 = std.base64;
const ArrayList = std.ArrayList;
const Buffer = std.Buffer;
const math = std.math;
error SystemResources;
error AccessDenied;
error InvalidExe;
error FileSystem;
error IsDir;
error FileNotFound;
error FileBusy;
error PathAlreadyExists;
error SymLinkLoop;
error ReadOnlyFileSystem;
error LinkQuotaExceeded;
error RenameAcrossMountPoints;
error DirNotEmpty;
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error WouldBlock;
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/// Fills `buf` with random bytes. If linking against libc, this calls the
/// appropriate OS-specific library call. Otherwise it uses the zig standard
/// library implementation.
pub fn getRandomBytes(buf: []u8) %void {
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switch (builtin.os) {
Os.linux => while (true) {
// TODO check libc version and potentially call c.getrandom.
// See #397
const err = posix.getErrno(posix.getrandom(buf.ptr, buf.len, 0));
if (err > 0) {
switch (err) {
posix.EINVAL => unreachable,
posix.EFAULT => unreachable,
posix.EINTR => continue,
posix.ENOSYS => {
const fd = try posixOpenC(c"/dev/urandom", posix.O_RDONLY|posix.O_CLOEXEC, 0);
defer close(fd);
try posixRead(fd, buf);
return;
},
else => return unexpectedErrorPosix(err),
}
}
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return;
},
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Os.macosx, Os.ios => {
const fd = try posixOpenC(c"/dev/urandom", posix.O_RDONLY|posix.O_CLOEXEC, 0);
defer close(fd);
try posixRead(fd, buf);
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},
Os.windows => {
var hCryptProv: windows.HCRYPTPROV = undefined;
if (windows.CryptAcquireContextA(&hCryptProv, null, null, windows.PROV_RSA_FULL, 0) == 0) {
const err = windows.GetLastError();
return switch (err) {
else => unexpectedErrorWindows(err),
};
}
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defer _ = windows.CryptReleaseContext(hCryptProv, 0);
if (windows.CryptGenRandom(hCryptProv, windows.DWORD(buf.len), buf.ptr) == 0) {
const err = windows.GetLastError();
return switch (err) {
else => unexpectedErrorWindows(err),
};
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}
},
else => @compileError("Unsupported OS"),
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}
}
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test "os.getRandomBytes" {
var buf: [50]u8 = undefined;
try getRandomBytes(buf[0..]);
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}
/// Raises a signal in the current kernel thread, ending its execution.
/// If linking against libc, this calls the abort() libc function. Otherwise
/// it uses the zig standard library implementation.
pub fn abort() noreturn {
@setCold(true);
if (builtin.link_libc) {
c.abort();
}
switch (builtin.os) {
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Os.linux, Os.macosx, Os.ios => {
_ = posix.raise(posix.SIGABRT);
_ = posix.raise(posix.SIGKILL);
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while (true) {}
},
Os.windows => {
if (builtin.mode == builtin.Mode.Debug) {
@breakpoint();
}
windows.ExitProcess(3);
},
else => @compileError("Unsupported OS"),
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}
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}
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/// Exits the program cleanly with the specified status code.
pub fn exit(status: u8) noreturn {
@setCold(true);
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if (builtin.link_libc) {
c.exit(status);
}
switch (builtin.os) {
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Os.linux, Os.macosx, Os.ios => {
posix.exit(status);
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},
Os.windows => {
windows.ExitProcess(status);
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},
else => @compileError("Unsupported OS"),
}
}
/// Closes the file handle. Keeps trying if it gets interrupted by a signal.
pub fn close(handle: FileHandle) void {
if (is_windows) {
windows_util.windowsClose(handle);
} else {
while (true) {
const err = posix.getErrno(posix.close(handle));
if (err == posix.EINTR) {
continue;
} else {
return;
}
}
}
}
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/// Calls POSIX read, and keeps trying if it gets interrupted.
pub fn posixRead(fd: i32, buf: []u8) %void {
// Linux can return EINVAL when read amount is > 0x7ffff000
// See https://github.com/zig-lang/zig/pull/743#issuecomment-363158274
const max_buf_len = 0x7ffff000;
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var index: usize = 0;
while (index < buf.len) {
const want_to_read = math.min(buf.len - index, usize(max_buf_len));
const rc = posix.read(fd, &buf[index], want_to_read);
const err = posix.getErrno(rc);
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if (err > 0) {
return switch (err) {
posix.EINTR => continue,
posix.EINVAL, posix.EFAULT => unreachable,
posix.EAGAIN => error.WouldBlock,
posix.EBADF => error.FileClosed,
posix.EIO => error.InputOutput,
posix.EISDIR => error.IsDir,
posix.ENOBUFS, posix.ENOMEM => error.SystemResources,
else => unexpectedErrorPosix(err),
};
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}
index += rc;
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}
}
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error WouldBlock;
error FileClosed;
error DestinationAddressRequired;
error DiskQuota;
error FileTooBig;
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error InputOutput;
error NoSpaceLeft;
error BrokenPipe;
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/// Calls POSIX write, and keeps trying if it gets interrupted.
pub fn posixWrite(fd: i32, bytes: []const u8) %void {
while (true) {
const write_ret = posix.write(fd, bytes.ptr, bytes.len);
const write_err = posix.getErrno(write_ret);
if (write_err > 0) {
return switch (write_err) {
posix.EINTR => continue,
posix.EINVAL, posix.EFAULT => unreachable,
posix.EAGAIN => error.WouldBlock,
posix.EBADF => error.FileClosed,
posix.EDESTADDRREQ => error.DestinationAddressRequired,
posix.EDQUOT => error.DiskQuota,
posix.EFBIG => error.FileTooBig,
posix.EIO => error.InputOutput,
posix.ENOSPC => error.NoSpaceLeft,
posix.EPERM => error.AccessDenied,
posix.EPIPE => error.BrokenPipe,
else => unexpectedErrorPosix(write_err),
};
}
return;
}
}
/// ::file_path may need to be copied in memory to add a null terminating byte. In this case
/// a fixed size buffer of size ::max_noalloc_path_len is an attempted solution. If the fixed
/// size buffer is too small, and the provided allocator is null, ::error.NameTooLong is returned.
/// otherwise if the fixed size buffer is too small, allocator is used to obtain the needed memory.
/// Calls POSIX open, keeps trying if it gets interrupted, and translates
/// the return value into zig errors.
pub fn posixOpen(file_path: []const u8, flags: u32, perm: usize, allocator: ?&Allocator) %i32 {
var stack_buf: [max_noalloc_path_len]u8 = undefined;
var path0: []u8 = undefined;
var need_free = false;
if (file_path.len < stack_buf.len) {
path0 = stack_buf[0..file_path.len + 1];
} else if (allocator) |a| {
path0 = try a.alloc(u8, file_path.len + 1);
need_free = true;
} else {
return error.NameTooLong;
}
defer if (need_free) {
(??allocator).free(path0);
};
mem.copy(u8, path0, file_path);
path0[file_path.len] = 0;
return posixOpenC(path0.ptr, flags, perm);
}
pub fn posixOpenC(file_path: &const u8, flags: u32, perm: usize) %i32 {
while (true) {
const result = posix.open(file_path, flags, perm);
const err = posix.getErrno(result);
if (err > 0) {
return switch (err) {
posix.EINTR => continue,
posix.EFAULT => unreachable,
posix.EINVAL => unreachable,
posix.EACCES => error.AccessDenied,
posix.EFBIG, posix.EOVERFLOW => error.FileTooBig,
posix.EISDIR => error.IsDir,
posix.ELOOP => error.SymLinkLoop,
posix.EMFILE => error.ProcessFdQuotaExceeded,
posix.ENAMETOOLONG => error.NameTooLong,
posix.ENFILE => error.SystemFdQuotaExceeded,
posix.ENODEV => error.NoDevice,
posix.ENOENT => error.PathNotFound,
posix.ENOMEM => error.SystemResources,
posix.ENOSPC => error.NoSpaceLeft,
posix.ENOTDIR => error.NotDir,
posix.EPERM => error.AccessDenied,
posix.EEXIST => error.PathAlreadyExists,
else => unexpectedErrorPosix(err),
};
}
return i32(result);
}
}
pub fn posixDup2(old_fd: i32, new_fd: i32) %void {
while (true) {
const err = posix.getErrno(posix.dup2(old_fd, new_fd));
if (err > 0) {
return switch (err) {
posix.EBUSY, posix.EINTR => continue,
posix.EMFILE => error.ProcessFdQuotaExceeded,
posix.EINVAL => unreachable,
else => unexpectedErrorPosix(err),
};
}
return;
}
}
pub fn createNullDelimitedEnvMap(allocator: &Allocator, env_map: &const BufMap) %[]?&u8 {
const envp_count = env_map.count();
const envp_buf = try allocator.alloc(?&u8, envp_count + 1);
mem.set(?&u8, envp_buf, null);
errdefer freeNullDelimitedEnvMap(allocator, envp_buf);
{
var it = env_map.iterator();
var i: usize = 0;
while (it.next()) |pair| : (i += 1) {
const env_buf = try allocator.alloc(u8, pair.key.len + pair.value.len + 2);
@memcpy(&env_buf[0], pair.key.ptr, pair.key.len);
env_buf[pair.key.len] = '=';
@memcpy(&env_buf[pair.key.len + 1], pair.value.ptr, pair.value.len);
env_buf[env_buf.len - 1] = 0;
envp_buf[i] = env_buf.ptr;
}
assert(i == envp_count);
}
assert(envp_buf[envp_count] == null);
return envp_buf;
}
pub fn freeNullDelimitedEnvMap(allocator: &Allocator, envp_buf: []?&u8) void {
for (envp_buf) |env| {
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const env_buf = if (env) |ptr| ptr[0 .. cstr.len(ptr) + 1] else break;
allocator.free(env_buf);
}
allocator.free(envp_buf);
}
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/// This function must allocate memory to add a null terminating bytes on path and each arg.
/// It must also convert to KEY=VALUE\0 format for environment variables, and include null
/// pointers after the args and after the environment variables.
/// `argv[0]` is the executable path.
/// This function also uses the PATH environment variable to get the full path to the executable.
pub fn posixExecve(argv: []const []const u8, env_map: &const BufMap,
allocator: &Allocator) %void
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{
const argv_buf = try allocator.alloc(?&u8, argv.len + 1);
mem.set(?&u8, argv_buf, null);
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defer {
for (argv_buf) |arg| {
const arg_buf = if (arg) |ptr| cstr.toSlice(ptr) else break;
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allocator.free(arg_buf);
}
allocator.free(argv_buf);
}
for (argv) |arg, i| {
const arg_buf = try allocator.alloc(u8, arg.len + 1);
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@memcpy(&arg_buf[0], arg.ptr, arg.len);
arg_buf[arg.len] = 0;
argv_buf[i] = arg_buf.ptr;
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}
argv_buf[argv.len] = null;
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const envp_buf = try createNullDelimitedEnvMap(allocator, env_map);
defer freeNullDelimitedEnvMap(allocator, envp_buf);
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const exe_path = argv[0];
if (mem.indexOfScalar(u8, exe_path, '/') != null) {
return posixExecveErrnoToErr(posix.getErrno(posix.execve(??argv_buf[0], argv_buf.ptr, envp_buf.ptr)));
}
const PATH = getEnvPosix("PATH") ?? "/usr/local/bin:/bin/:/usr/bin";
// PATH.len because it is >= the largest search_path
// +1 for the / to join the search path and exe_path
// +1 for the null terminating byte
const path_buf = try allocator.alloc(u8, PATH.len + exe_path.len + 2);
defer allocator.free(path_buf);
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var it = mem.split(PATH, ":");
var seen_eacces = false;
var err: usize = undefined;
while (it.next()) |search_path| {
mem.copy(u8, path_buf, search_path);
path_buf[search_path.len] = '/';
mem.copy(u8, path_buf[search_path.len + 1 ..], exe_path);
path_buf[search_path.len + exe_path.len + 1] = 0;
err = posix.getErrno(posix.execve(path_buf.ptr, argv_buf.ptr, envp_buf.ptr));
assert(err > 0);
if (err == posix.EACCES) {
seen_eacces = true;
} else if (err != posix.ENOENT) {
return posixExecveErrnoToErr(err);
}
}
if (seen_eacces) {
err = posix.EACCES;
}
return posixExecveErrnoToErr(err);
}
fn posixExecveErrnoToErr(err: usize) error {
assert(err > 0);
return switch (err) {
posix.EFAULT => unreachable,
posix.E2BIG, posix.EMFILE, posix.ENAMETOOLONG, posix.ENFILE, posix.ENOMEM => error.SystemResources,
posix.EACCES, posix.EPERM => error.AccessDenied,
posix.EINVAL, posix.ENOEXEC => error.InvalidExe,
posix.EIO, posix.ELOOP => error.FileSystem,
posix.EISDIR => error.IsDir,
posix.ENOENT => error.FileNotFound,
posix.ENOTDIR => error.NotDir,
posix.ETXTBSY => error.FileBusy,
else => unexpectedErrorPosix(err),
};
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}
pub var posix_environ_raw: []&u8 = undefined;
/// Caller must free result when done.
pub fn getEnvMap(allocator: &Allocator) %BufMap {
var result = BufMap.init(allocator);
errdefer result.deinit();
if (is_windows) {
const ptr = windows.GetEnvironmentStringsA() ?? return error.OutOfMemory;
defer assert(windows.FreeEnvironmentStringsA(ptr) != 0);
var i: usize = 0;
while (true) {
if (ptr[i] == 0)
return result;
const key_start = i;
while (ptr[i] != 0 and ptr[i] != '=') : (i += 1) {}
const key = ptr[key_start..i];
if (ptr[i] == '=') i += 1;
const value_start = i;
while (ptr[i] != 0) : (i += 1) {}
const value = ptr[value_start..i];
i += 1; // skip over null byte
try result.set(key, value);
}
} else {
for (posix_environ_raw) |ptr| {
var line_i: usize = 0;
while (ptr[line_i] != 0 and ptr[line_i] != '=') : (line_i += 1) {}
const key = ptr[0..line_i];
var end_i: usize = line_i;
while (ptr[end_i] != 0) : (end_i += 1) {}
const value = ptr[line_i + 1..end_i];
try result.set(key, value);
}
return result;
}
}
pub fn getEnvPosix(key: []const u8) ?[]const u8 {
for (posix_environ_raw) |ptr| {
var line_i: usize = 0;
while (ptr[line_i] != 0 and ptr[line_i] != '=') : (line_i += 1) {}
const this_key = ptr[0..line_i];
if (!mem.eql(u8, key, this_key))
continue;
var end_i: usize = line_i;
while (ptr[end_i] != 0) : (end_i += 1) {}
const this_value = ptr[line_i + 1..end_i];
return this_value;
}
return null;
}
error EnvironmentVariableNotFound;
/// Caller must free returned memory.
pub fn getEnvVarOwned(allocator: &mem.Allocator, key: []const u8) %[]u8 {
if (is_windows) {
const key_with_null = try cstr.addNullByte(allocator, key);
defer allocator.free(key_with_null);
var buf = try allocator.alloc(u8, 256);
errdefer allocator.free(buf);
while (true) {
const windows_buf_len = try math.cast(windows.DWORD, buf.len);
const result = windows.GetEnvironmentVariableA(key_with_null.ptr, buf.ptr, windows_buf_len);
if (result == 0) {
const err = windows.GetLastError();
return switch (err) {
windows.ERROR.ENVVAR_NOT_FOUND => error.EnvironmentVariableNotFound,
else => unexpectedErrorWindows(err),
};
}
if (result > buf.len) {
buf = try allocator.realloc(u8, buf, result);
continue;
}
return allocator.shrink(u8, buf, result);
}
} else {
const result = getEnvPosix(key) ?? return error.EnvironmentVariableNotFound;
return mem.dupe(allocator, u8, result);
}
}
/// Caller must free the returned memory.
pub fn getCwd(allocator: &Allocator) %[]u8 {
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switch (builtin.os) {
Os.windows => {
var buf = try allocator.alloc(u8, 256);
errdefer allocator.free(buf);
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while (true) {
const result = windows.GetCurrentDirectoryA(windows.WORD(buf.len), buf.ptr);
if (result == 0) {
const err = windows.GetLastError();
return switch (err) {
else => unexpectedErrorWindows(err),
};
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}
if (result > buf.len) {
buf = try allocator.realloc(u8, buf, result);
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continue;
}
return allocator.shrink(u8, buf, result);
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}
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},
else => {
var buf = try allocator.alloc(u8, 1024);
errdefer allocator.free(buf);
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while (true) {
const err = posix.getErrno(posix.getcwd(buf.ptr, buf.len));
if (err == posix.ERANGE) {
buf = try allocator.realloc(u8, buf, buf.len * 2);
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continue;
} else if (err > 0) {
return unexpectedErrorPosix(err);
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}
return allocator.shrink(u8, buf, cstr.len(buf.ptr));
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}
},
}
}
test "os.getCwd" {
// at least call it so it gets compiled
_ = getCwd(debug.global_allocator);
}
pub fn symLink(allocator: &Allocator, existing_path: []const u8, new_path: []const u8) %void {
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if (is_windows) {
return symLinkWindows(allocator, existing_path, new_path);
} else {
return symLinkPosix(allocator, existing_path, new_path);
}
}
pub fn symLinkWindows(allocator: &Allocator, existing_path: []const u8, new_path: []const u8) %void {
const existing_with_null = try cstr.addNullByte(allocator, existing_path);
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defer allocator.free(existing_with_null);
const new_with_null = try cstr.addNullByte(allocator, new_path);
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defer allocator.free(new_with_null);
if (windows.CreateSymbolicLinkA(existing_with_null.ptr, new_with_null.ptr, 0) == 0) {
const err = windows.GetLastError();
return switch (err) {
else => unexpectedErrorWindows(err),
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};
}
}
pub fn symLinkPosix(allocator: &Allocator, existing_path: []const u8, new_path: []const u8) %void {
const full_buf = try allocator.alloc(u8, existing_path.len + new_path.len + 2);
defer allocator.free(full_buf);
const existing_buf = full_buf;
mem.copy(u8, existing_buf, existing_path);
existing_buf[existing_path.len] = 0;
const new_buf = full_buf[existing_path.len + 1..];
mem.copy(u8, new_buf, new_path);
new_buf[new_path.len] = 0;
const err = posix.getErrno(posix.symlink(existing_buf.ptr, new_buf.ptr));
if (err > 0) {
return switch (err) {
posix.EFAULT, posix.EINVAL => unreachable,
posix.EACCES, posix.EPERM => error.AccessDenied,
posix.EDQUOT => error.DiskQuota,
posix.EEXIST => error.PathAlreadyExists,
posix.EIO => error.FileSystem,
posix.ELOOP => error.SymLinkLoop,
posix.ENAMETOOLONG => error.NameTooLong,
posix.ENOENT => error.FileNotFound,
posix.ENOTDIR => error.NotDir,
posix.ENOMEM => error.SystemResources,
posix.ENOSPC => error.NoSpaceLeft,
posix.EROFS => error.ReadOnlyFileSystem,
else => unexpectedErrorPosix(err),
};
}
}
// here we replace the standard +/ with -_ so that it can be used in a file name
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const b64_fs_encoder = base64.Base64Encoder.init(
"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-_",
base64.standard_pad_char);
pub fn atomicSymLink(allocator: &Allocator, existing_path: []const u8, new_path: []const u8) %void {
if (symLink(allocator, existing_path, new_path)) {
return;
} else |err| {
if (err != error.PathAlreadyExists) {
return err;
}
}
var rand_buf: [12]u8 = undefined;
const tmp_path = try allocator.alloc(u8, new_path.len + base64.Base64Encoder.calcSize(rand_buf.len));
defer allocator.free(tmp_path);
mem.copy(u8, tmp_path[0..], new_path);
while (true) {
try getRandomBytes(rand_buf[0..]);
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b64_fs_encoder.encode(tmp_path[new_path.len..], rand_buf);
if (symLink(allocator, existing_path, tmp_path)) {
return rename(allocator, tmp_path, new_path);
} else |err| {
if (err == error.PathAlreadyExists) {
continue;
} else {
return err;
}
}
}
}
pub fn deleteFile(allocator: &Allocator, file_path: []const u8) %void {
if (builtin.os == Os.windows) {
return deleteFileWindows(allocator, file_path);
} else {
return deleteFilePosix(allocator, file_path);
}
}
error FileNotFound;
error AccessDenied;
pub fn deleteFileWindows(allocator: &Allocator, file_path: []const u8) %void {
const buf = try allocator.alloc(u8, file_path.len + 1);
defer allocator.free(buf);
mem.copy(u8, buf, file_path);
buf[file_path.len] = 0;
if (windows.DeleteFileA(buf.ptr) == 0) {
const err = windows.GetLastError();
return switch (err) {
windows.ERROR.FILE_NOT_FOUND => error.FileNotFound,
windows.ERROR.ACCESS_DENIED => error.AccessDenied,
windows.ERROR.FILENAME_EXCED_RANGE, windows.ERROR.INVALID_PARAMETER => error.NameTooLong,
else => unexpectedErrorWindows(err),
};
}
}
pub fn deleteFilePosix(allocator: &Allocator, file_path: []const u8) %void {
const buf = try allocator.alloc(u8, file_path.len + 1);
defer allocator.free(buf);
mem.copy(u8, buf, file_path);
buf[file_path.len] = 0;
const err = posix.getErrno(posix.unlink(buf.ptr));
if (err > 0) {
return switch (err) {
posix.EACCES, posix.EPERM => error.AccessDenied,
posix.EBUSY => error.FileBusy,
posix.EFAULT, posix.EINVAL => unreachable,
posix.EIO => error.FileSystem,
posix.EISDIR => error.IsDir,
posix.ELOOP => error.SymLinkLoop,
posix.ENAMETOOLONG => error.NameTooLong,
posix.ENOENT => error.FileNotFound,
posix.ENOTDIR => error.NotDir,
posix.ENOMEM => error.SystemResources,
posix.EROFS => error.ReadOnlyFileSystem,
else => unexpectedErrorPosix(err),
};
}
}
/// Calls ::copyFileMode with 0o666 for the mode.
pub fn copyFile(allocator: &Allocator, source_path: []const u8, dest_path: []const u8) %void {
return copyFileMode(allocator, source_path, dest_path, 0o666);
}
// TODO instead of accepting a mode argument, use the mode from fstat'ing the source path once open
/// Guaranteed to be atomic.
pub fn copyFileMode(allocator: &Allocator, source_path: []const u8, dest_path: []const u8, mode: usize) %void {
var rand_buf: [12]u8 = undefined;
const tmp_path = try allocator.alloc(u8, dest_path.len + base64.Base64Encoder.calcSize(rand_buf.len));
defer allocator.free(tmp_path);
mem.copy(u8, tmp_path[0..], dest_path);
try getRandomBytes(rand_buf[0..]);
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b64_fs_encoder.encode(tmp_path[dest_path.len..], rand_buf);
var out_file = try io.File.openWriteMode(tmp_path, mode, allocator);
defer out_file.close();
errdefer _ = deleteFile(allocator, tmp_path);
var in_file = try io.File.openRead(source_path, allocator);
defer in_file.close();
var buf: [page_size]u8 = undefined;
while (true) {
const amt = try in_file.read(buf[0..]);
try out_file.write(buf[0..amt]);
if (amt != buf.len)
return rename(allocator, tmp_path, dest_path);
}
}
pub fn rename(allocator: &Allocator, old_path: []const u8, new_path: []const u8) %void {
const full_buf = try allocator.alloc(u8, old_path.len + new_path.len + 2);
defer allocator.free(full_buf);
const old_buf = full_buf;
mem.copy(u8, old_buf, old_path);
old_buf[old_path.len] = 0;
const new_buf = full_buf[old_path.len + 1..];
mem.copy(u8, new_buf, new_path);
new_buf[new_path.len] = 0;
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if (is_windows) {
const flags = windows.MOVEFILE_REPLACE_EXISTING|windows.MOVEFILE_WRITE_THROUGH;
if (windows.MoveFileExA(old_buf.ptr, new_buf.ptr, flags) == 0) {
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const err = windows.GetLastError();
return switch (err) {
else => unexpectedErrorWindows(err),
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};
}
} else {
const err = posix.getErrno(posix.rename(old_buf.ptr, new_buf.ptr));
if (err > 0) {
return switch (err) {
posix.EACCES, posix.EPERM => error.AccessDenied,
posix.EBUSY => error.FileBusy,
posix.EDQUOT => error.DiskQuota,
posix.EFAULT, posix.EINVAL => unreachable,
posix.EISDIR => error.IsDir,
posix.ELOOP => error.SymLinkLoop,
posix.EMLINK => error.LinkQuotaExceeded,
posix.ENAMETOOLONG => error.NameTooLong,
posix.ENOENT => error.FileNotFound,
posix.ENOTDIR => error.NotDir,
posix.ENOMEM => error.SystemResources,
posix.ENOSPC => error.NoSpaceLeft,
posix.EEXIST, posix.ENOTEMPTY => error.PathAlreadyExists,
posix.EROFS => error.ReadOnlyFileSystem,
posix.EXDEV => error.RenameAcrossMountPoints,
else => unexpectedErrorPosix(err),
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};
}
}
}
pub fn makeDir(allocator: &Allocator, dir_path: []const u8) %void {
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if (is_windows) {
return makeDirWindows(allocator, dir_path);
} else {
return makeDirPosix(allocator, dir_path);
}
}
pub fn makeDirWindows(allocator: &Allocator, dir_path: []const u8) %void {
const path_buf = try cstr.addNullByte(allocator, dir_path);
defer allocator.free(path_buf);
if (windows.CreateDirectoryA(path_buf.ptr, null) == 0) {
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const err = windows.GetLastError();
return switch (err) {
windows.ERROR.ALREADY_EXISTS => error.PathAlreadyExists,
windows.ERROR.PATH_NOT_FOUND => error.FileNotFound,
else => unexpectedErrorWindows(err),
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};
}
}
pub fn makeDirPosix(allocator: &Allocator, dir_path: []const u8) %void {
const path_buf = try cstr.addNullByte(allocator, dir_path);
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defer allocator.free(path_buf);
const err = posix.getErrno(posix.mkdir(path_buf.ptr, 0o755));
if (err > 0) {
return switch (err) {
posix.EACCES, posix.EPERM => error.AccessDenied,
posix.EDQUOT => error.DiskQuota,
posix.EEXIST => error.PathAlreadyExists,
posix.EFAULT => unreachable,
posix.ELOOP => error.SymLinkLoop,
posix.EMLINK => error.LinkQuotaExceeded,
posix.ENAMETOOLONG => error.NameTooLong,
posix.ENOENT => error.FileNotFound,
posix.ENOMEM => error.SystemResources,
posix.ENOSPC => error.NoSpaceLeft,
posix.ENOTDIR => error.NotDir,
posix.EROFS => error.ReadOnlyFileSystem,
else => unexpectedErrorPosix(err),
};
}
}
/// Calls makeDir recursively to make an entire path. Returns success if the path
/// already exists and is a directory.
pub fn makePath(allocator: &Allocator, full_path: []const u8) %void {
const resolved_path = try path.resolve(allocator, full_path);
defer allocator.free(resolved_path);
var end_index: usize = resolved_path.len;
while (true) {
makeDir(allocator, resolved_path[0..end_index]) catch |err| {
if (err == error.PathAlreadyExists) {
// TODO stat the file and return an error if it's not a directory
// this is important because otherwise a dangling symlink
// could cause an infinite loop
if (end_index == resolved_path.len)
return;
} else if (err == error.FileNotFound) {
// march end_index backward until next path component
while (true) {
end_index -= 1;
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if (os.path.isSep(resolved_path[end_index]))
break;
}
continue;
} else {
return err;
}
};
if (end_index == resolved_path.len)
return;
// march end_index forward until next path component
while (true) {
end_index += 1;
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if (end_index == resolved_path.len or os.path.isSep(resolved_path[end_index]))
break;
}
}
}
/// Returns ::error.DirNotEmpty if the directory is not empty.
/// To delete a directory recursively, see ::deleteTree
pub fn deleteDir(allocator: &Allocator, dir_path: []const u8) %void {
const path_buf = try allocator.alloc(u8, dir_path.len + 1);
defer allocator.free(path_buf);
mem.copy(u8, path_buf, dir_path);
path_buf[dir_path.len] = 0;
const err = posix.getErrno(posix.rmdir(path_buf.ptr));
if (err > 0) {
return switch (err) {
posix.EACCES, posix.EPERM => error.AccessDenied,
posix.EBUSY => error.FileBusy,
posix.EFAULT, posix.EINVAL => unreachable,
posix.ELOOP => error.SymLinkLoop,
posix.ENAMETOOLONG => error.NameTooLong,
posix.ENOENT => error.FileNotFound,
posix.ENOMEM => error.SystemResources,
posix.ENOTDIR => error.NotDir,
posix.EEXIST, posix.ENOTEMPTY => error.DirNotEmpty,
posix.EROFS => error.ReadOnlyFileSystem,
else => unexpectedErrorPosix(err),
};
}
}
/// Whether ::full_path describes a symlink, file, or directory, this function
/// removes it. If it cannot be removed because it is a non-empty directory,
/// this function recursively removes its entries and then tries again.
// TODO non-recursive implementation
pub fn deleteTree(allocator: &Allocator, full_path: []const u8) %void {
start_over: while (true) {
// First, try deleting the item as a file. This way we don't follow sym links.
if (deleteFile(allocator, full_path)) {
return;
} else |err| {
if (err == error.FileNotFound)
return;
if (err != error.IsDir)
return err;
}
{
var dir = Dir.open(allocator, full_path) catch |err| {
if (err == error.FileNotFound)
return;
if (err == error.NotDir)
continue :start_over;
return err;
};
defer dir.close();
var full_entry_buf = ArrayList(u8).init(allocator);
defer full_entry_buf.deinit();
while (try dir.next()) |entry| {
try full_entry_buf.resize(full_path.len + entry.name.len + 1);
const full_entry_path = full_entry_buf.toSlice();
mem.copy(u8, full_entry_path, full_path);
full_entry_path[full_path.len] = '/';
mem.copy(u8, full_entry_path[full_path.len + 1..], entry.name);
try deleteTree(allocator, full_entry_path);
}
}
return deleteDir(allocator, full_path);
}
}
pub const Dir = struct {
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// See man getdents
fd: i32,
allocator: &Allocator,
buf: []u8,
index: usize,
end_index: usize,
const LinuxEntry = extern struct {
d_ino: usize,
d_off: usize,
d_reclen: u16,
d_name: u8, // field address is the address of first byte of name
};
pub const Entry = struct {
name: []const u8,
kind: Kind,
pub const Kind = enum {
BlockDevice,
CharacterDevice,
Directory,
NamedPipe,
SymLink,
File,
UnixDomainSocket,
Unknown,
};
};
pub fn open(allocator: &Allocator, dir_path: []const u8) %Dir {
const fd = try posixOpen(dir_path, posix.O_RDONLY|posix.O_DIRECTORY|posix.O_CLOEXEC, 0, allocator);
return Dir {
.allocator = allocator,
.fd = fd,
.index = 0,
.end_index = 0,
.buf = []u8{},
};
}
pub fn close(self: &Dir) void {
self.allocator.free(self.buf);
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os.close(self.fd);
}
/// Memory such as file names referenced in this returned entry becomes invalid
/// with subsequent calls to next, as well as when this ::Dir is deinitialized.
pub fn next(self: &Dir) %?Entry {
start_over: while (true) {
if (self.index >= self.end_index) {
if (self.buf.len == 0) {
self.buf = try self.allocator.alloc(u8, page_size);
}
while (true) {
const result = posix.getdents(self.fd, self.buf.ptr, self.buf.len);
const err = linux.getErrno(result);
if (err > 0) {
switch (err) {
posix.EBADF, posix.EFAULT, posix.ENOTDIR => unreachable,
posix.EINVAL => {
self.buf = try self.allocator.realloc(u8, self.buf, self.buf.len * 2);
continue;
},
else => return unexpectedErrorPosix(err),
}
}
if (result == 0)
return null;
self.index = 0;
self.end_index = result;
break;
}
}
const linux_entry = @ptrCast(& align(1) LinuxEntry, &self.buf[self.index]);
const next_index = self.index + linux_entry.d_reclen;
self.index = next_index;
const name = cstr.toSlice(&linux_entry.d_name);
// skip . and .. entries
if (mem.eql(u8, name, ".") or mem.eql(u8, name, "..")) {
continue :start_over;
}
const type_char = self.buf[next_index - 1];
const entry_kind = switch (type_char) {
posix.DT_BLK => Entry.Kind.BlockDevice,
posix.DT_CHR => Entry.Kind.CharacterDevice,
posix.DT_DIR => Entry.Kind.Directory,
posix.DT_FIFO => Entry.Kind.NamedPipe,
posix.DT_LNK => Entry.Kind.SymLink,
posix.DT_REG => Entry.Kind.File,
posix.DT_SOCK => Entry.Kind.UnixDomainSocket,
else => Entry.Kind.Unknown,
};
return Entry {
.name = name,
.kind = entry_kind,
};
}
}
};
pub fn changeCurDir(allocator: &Allocator, dir_path: []const u8) %void {
const path_buf = try allocator.alloc(u8, dir_path.len + 1);
defer allocator.free(path_buf);
mem.copy(u8, path_buf, dir_path);
path_buf[dir_path.len] = 0;
const err = posix.getErrno(posix.chdir(path_buf.ptr));
if (err > 0) {
return switch (err) {
posix.EACCES => error.AccessDenied,
posix.EFAULT => unreachable,
posix.EIO => error.FileSystem,
posix.ELOOP => error.SymLinkLoop,
posix.ENAMETOOLONG => error.NameTooLong,
posix.ENOENT => error.FileNotFound,
posix.ENOMEM => error.SystemResources,
posix.ENOTDIR => error.NotDir,
else => unexpectedErrorPosix(err),
};
}
}
/// Read value of a symbolic link.
pub fn readLink(allocator: &Allocator, pathname: []const u8) %[]u8 {
const path_buf = try allocator.alloc(u8, pathname.len + 1);
defer allocator.free(path_buf);
mem.copy(u8, path_buf, pathname);
path_buf[pathname.len] = 0;
var result_buf = try allocator.alloc(u8, 1024);
errdefer allocator.free(result_buf);
while (true) {
const ret_val = posix.readlink(path_buf.ptr, result_buf.ptr, result_buf.len);
const err = posix.getErrno(ret_val);
if (err > 0) {
return switch (err) {
posix.EACCES => error.AccessDenied,
posix.EFAULT, posix.EINVAL => unreachable,
posix.EIO => error.FileSystem,
posix.ELOOP => error.SymLinkLoop,
posix.ENAMETOOLONG => error.NameTooLong,
posix.ENOENT => error.FileNotFound,
posix.ENOMEM => error.SystemResources,
posix.ENOTDIR => error.NotDir,
else => unexpectedErrorPosix(err),
};
}
if (ret_val == result_buf.len) {
result_buf = try allocator.realloc(u8, result_buf, result_buf.len * 2);
continue;
}
return allocator.shrink(u8, result_buf, ret_val);
}
}
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pub fn sleep(seconds: usize, nanoseconds: usize) void {
switch(builtin.os) {
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Os.linux, Os.macosx, Os.ios => {
posixSleep(u63(seconds), u63(nanoseconds));
},
Os.windows => {
const milliseconds = seconds * 1000 + nanoseconds / 1000000;
windows.Sleep(windows.DWORD(milliseconds));
},
else => @compileError("Unsupported OS"),
}
}
const u63 = @IntType(false, 63);
pub fn posixSleep(seconds: u63, nanoseconds: u63) void {
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var req = posix.timespec {
.tv_sec = seconds,
.tv_nsec = nanoseconds,
};
var rem: posix.timespec = undefined;
while (true) {
const ret_val = posix.nanosleep(&req, &rem);
const err = posix.getErrno(ret_val);
if (err == 0) return;
switch (err) {
posix.EFAULT => unreachable,
posix.EINVAL => {
// Sometimes Darwin returns EINVAL for no reason.
// We treat it as a spurious wakeup.
return;
},
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posix.EINTR => {
req = rem;
continue;
},
else => return,
}
}
}
test "os.sleep" {
sleep(0, 1);
}
error ResourceLimitReached;
error InvalidUserId;
error PermissionDenied;
pub fn posix_setuid(uid: u32) %void {
const err = posix.getErrno(posix.setuid(uid));
if (err == 0) return;
return switch (err) {
posix.EAGAIN => error.ResourceLimitReached,
posix.EINVAL => error.InvalidUserId,
posix.EPERM => error.PermissionDenied,
else => unexpectedErrorPosix(err),
};
}
pub fn posix_setreuid(ruid: u32, euid: u32) %void {
const err = posix.getErrno(posix.setreuid(ruid, euid));
if (err == 0) return;
return switch (err) {
posix.EAGAIN => error.ResourceLimitReached,
posix.EINVAL => error.InvalidUserId,
posix.EPERM => error.PermissionDenied,
else => unexpectedErrorPosix(err),
};
}
pub fn posix_setgid(gid: u32) %void {
const err = posix.getErrno(posix.setgid(gid));
if (err == 0) return;
return switch (err) {
posix.EAGAIN => error.ResourceLimitReached,
posix.EINVAL => error.InvalidUserId,
posix.EPERM => error.PermissionDenied,
else => unexpectedErrorPosix(err),
};
}
pub fn posix_setregid(rgid: u32, egid: u32) %void {
const err = posix.getErrno(posix.setregid(rgid, egid));
if (err == 0) return;
return switch (err) {
posix.EAGAIN => error.ResourceLimitReached,
posix.EINVAL => error.InvalidUserId,
posix.EPERM => error.PermissionDenied,
else => unexpectedErrorPosix(err),
};
}
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error NoStdHandles;
pub fn windowsGetStdHandle(handle_id: windows.DWORD) %windows.HANDLE {
if (windows.GetStdHandle(handle_id)) |handle| {
if (handle == windows.INVALID_HANDLE_VALUE) {
const err = windows.GetLastError();
return switch (err) {
else => os.unexpectedErrorWindows(err),
};
}
return handle;
} else {
return error.NoStdHandles;
}
}
pub const ArgIteratorPosix = struct {
index: usize,
count: usize,
pub fn init() ArgIteratorPosix {
return ArgIteratorPosix {
.index = 0,
.count = raw.len,
};
}
pub fn next(self: &ArgIteratorPosix) ?[]const u8 {
if (self.index == self.count)
return null;
const s = raw[self.index];
self.index += 1;
return cstr.toSlice(s);
}
pub fn skip(self: &ArgIteratorPosix) bool {
if (self.index == self.count)
return false;
self.index += 1;
return true;
}
/// This is marked as public but actually it's only meant to be used
/// internally by zig's startup code.
pub var raw: []&u8 = undefined;
};
pub const ArgIteratorWindows = struct {
index: usize,
cmd_line: &const u8,
in_quote: bool,
quote_count: usize,
seen_quote_count: usize,
pub fn init() ArgIteratorWindows {
return initWithCmdLine(windows.GetCommandLineA());
}
pub fn initWithCmdLine(cmd_line: &const u8) ArgIteratorWindows {
return ArgIteratorWindows {
.index = 0,
.cmd_line = cmd_line,
.in_quote = false,
.quote_count = countQuotes(cmd_line),
.seen_quote_count = 0,
};
}
/// You must free the returned memory when done.
pub fn next(self: &ArgIteratorWindows, allocator: &Allocator) ?%[]u8 {
// march forward over whitespace
while (true) : (self.index += 1) {
const byte = self.cmd_line[self.index];
switch (byte) {
0 => return null,
' ', '\t' => continue,
else => break,
}
}
return self.internalNext(allocator);
}
pub fn skip(self: &ArgIteratorWindows) bool {
// march forward over whitespace
while (true) : (self.index += 1) {
const byte = self.cmd_line[self.index];
switch (byte) {
0 => return false,
' ', '\t' => continue,
else => break,
}
}
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var backslash_count: usize = 0;
while (true) : (self.index += 1) {
const byte = self.cmd_line[self.index];
switch (byte) {
0 => return true,
'"' => {
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const quote_is_real = backslash_count % 2 == 0;
if (quote_is_real) {
self.seen_quote_count += 1;
}
},
'\\' => {
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backslash_count += 1;
},
' ', '\t' => {
if (self.seen_quote_count % 2 == 0 or self.seen_quote_count == self.quote_count) {
return true;
}
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backslash_count = 0;
},
else => {
backslash_count = 0;
continue;
},
}
}
}
fn internalNext(self: &ArgIteratorWindows, allocator: &Allocator) %[]u8 {
var buf = try Buffer.initSize(allocator, 0);
defer buf.deinit();
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var backslash_count: usize = 0;
while (true) : (self.index += 1) {
const byte = self.cmd_line[self.index];
switch (byte) {
0 => return buf.toOwnedSlice(),
'"' => {
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const quote_is_real = backslash_count % 2 == 0;
try self.emitBackslashes(&buf, backslash_count / 2);
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backslash_count = 0;
if (quote_is_real) {
self.seen_quote_count += 1;
if (self.seen_quote_count == self.quote_count and self.seen_quote_count % 2 == 1) {
try buf.appendByte('"');
}
} else {
try buf.appendByte('"');
}
},
'\\' => {
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backslash_count += 1;
},
' ', '\t' => {
try self.emitBackslashes(&buf, backslash_count);
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backslash_count = 0;
if (self.seen_quote_count % 2 == 1 and self.seen_quote_count != self.quote_count) {
try buf.appendByte(byte);
} else {
return buf.toOwnedSlice();
}
},
else => {
try self.emitBackslashes(&buf, backslash_count);
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backslash_count = 0;
try buf.appendByte(byte);
},
}
}
}
fn emitBackslashes(self: &ArgIteratorWindows, buf: &Buffer, emit_count: usize) %void {
var i: usize = 0;
while (i < emit_count) : (i += 1) {
try buf.appendByte('\\');
}
}
fn countQuotes(cmd_line: &const u8) usize {
var result: usize = 0;
var backslash_count: usize = 0;
var index: usize = 0;
while (true) : (index += 1) {
const byte = cmd_line[index];
switch (byte) {
0 => return result,
'\\' => backslash_count += 1,
'"' => {
result += 1 - (backslash_count % 2);
backslash_count = 0;
},
else => {
backslash_count = 0;
},
}
}
}
};
pub const ArgIterator = struct {
inner: if (builtin.os == Os.windows) ArgIteratorWindows else ArgIteratorPosix,
pub fn init() ArgIterator {
return ArgIterator {
.inner = if (builtin.os == Os.windows) ArgIteratorWindows.init() else ArgIteratorPosix.init(),
};
}
/// You must free the returned memory when done.
pub fn next(self: &ArgIterator, allocator: &Allocator) ?%[]u8 {
if (builtin.os == Os.windows) {
return self.inner.next(allocator);
} else {
return mem.dupe(allocator, u8, self.inner.next() ?? return null);
}
}
/// If you only are targeting posix you can call this and not need an allocator.
pub fn nextPosix(self: &ArgIterator) ?[]const u8 {
return self.inner.next();
}
/// Parse past 1 argument without capturing it.
/// Returns `true` if skipped an arg, `false` if we are at the end.
pub fn skip(self: &ArgIterator) bool {
return self.inner.skip();
}
};
pub fn args() ArgIterator {
return ArgIterator.init();
}
/// Caller must call freeArgs on result.
pub fn argsAlloc(allocator: &mem.Allocator) %[]const []u8 {
// TODO refactor to only make 1 allocation.
var it = args();
var contents = try Buffer.initSize(allocator, 0);
defer contents.deinit();
var slice_list = ArrayList(usize).init(allocator);
defer slice_list.deinit();
while (it.next(allocator)) |arg_or_err| {
const arg = try arg_or_err;
defer allocator.free(arg);
try contents.append(arg);
try slice_list.append(arg.len);
}
const contents_slice = contents.toSliceConst();
const slice_sizes = slice_list.toSliceConst();
const slice_list_bytes = try math.mul(usize, @sizeOf([]u8), slice_sizes.len);
const total_bytes = try math.add(usize, slice_list_bytes, contents_slice.len);
const buf = try allocator.alignedAlloc(u8, @alignOf([]u8), total_bytes);
errdefer allocator.free(buf);
const result_slice_list = ([][]u8)(buf[0..slice_list_bytes]);
const result_contents = buf[slice_list_bytes..];
mem.copy(u8, result_contents, contents_slice);
var contents_index: usize = 0;
for (slice_sizes) |len, i| {
const new_index = contents_index + len;
result_slice_list[i] = result_contents[contents_index..new_index];
contents_index = new_index;
}
return result_slice_list;
}
pub fn argsFree(allocator: &mem.Allocator, args_alloc: []const []u8) void {
var total_bytes: usize = 0;
for (args_alloc) |arg| {
total_bytes += @sizeOf([]u8) + arg.len;
}
const unaligned_allocated_buf = @ptrCast(&u8, args_alloc.ptr)[0..total_bytes];
const aligned_allocated_buf = @alignCast(@alignOf([]u8), unaligned_allocated_buf);
return allocator.free(aligned_allocated_buf);
}
test "windows arg parsing" {
testWindowsCmdLine(c"a b\tc d", [][]const u8{"a", "b", "c", "d"});
testWindowsCmdLine(c"\"abc\" d e", [][]const u8{"abc", "d", "e"});
testWindowsCmdLine(c"a\\\\\\b d\"e f\"g h", [][]const u8{"a\\\\\\b", "de fg", "h"});
testWindowsCmdLine(c"a\\\\\\\"b c d", [][]const u8{"a\\\"b", "c", "d"});
testWindowsCmdLine(c"a\\\\\\\\\"b c\" d e", [][]const u8{"a\\\\b c", "d", "e"});
testWindowsCmdLine(c"a b\tc \"d f", [][]const u8{"a", "b", "c", "\"d", "f"});
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testWindowsCmdLine(c"\".\\..\\zig-cache\\build\" \"bin\\zig.exe\" \".\\..\" \".\\..\\zig-cache\" \"--help\"",
[][]const u8{".\\..\\zig-cache\\build", "bin\\zig.exe", ".\\..", ".\\..\\zig-cache", "--help"});
}
fn testWindowsCmdLine(input_cmd_line: &const u8, expected_args: []const []const u8) void {
var it = ArgIteratorWindows.initWithCmdLine(input_cmd_line);
for (expected_args) |expected_arg| {
const arg = ??it.next(debug.global_allocator) catch unreachable;
assert(mem.eql(u8, arg, expected_arg));
}
assert(it.next(debug.global_allocator) == null);
}
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test "std.os" {
_ = @import("child_process.zig");
_ = @import("darwin_errno.zig");
_ = @import("darwin.zig");
_ = @import("get_user_id.zig");
_ = @import("linux/errno.zig");
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//_ = @import("linux_i386.zig");
_ = @import("linux/x86_64.zig");
_ = @import("linux/index.zig");
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_ = @import("path.zig");
_ = @import("windows/index.zig");
}
error Unexpected;
// TODO make this a build variable that you can set
const unexpected_error_tracing = false;
/// Call this when you made a syscall or something that sets errno
/// and you get an unexpected error.
pub fn unexpectedErrorPosix(errno: usize) error {
if (unexpected_error_tracing) {
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debug.warn("unexpected errno: {}\n", errno);
debug.dumpStackTrace();
}
return error.Unexpected;
}
/// Call this when you made a windows DLL call or something that does SetLastError
/// and you get an unexpected error.
pub fn unexpectedErrorWindows(err: windows.DWORD) error {
if (unexpected_error_tracing) {
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debug.warn("unexpected GetLastError(): {}\n", err);
debug.dumpStackTrace();
}
return error.Unexpected;
}
pub fn openSelfExe() %io.File {
switch (builtin.os) {
Os.linux => {
return io.File.openRead("/proc/self/exe", null);
},
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Os.macosx, Os.ios => {
@panic("TODO: openSelfExe on Darwin");
},
else => @compileError("Unsupported OS"),
}
}
/// Get the path to the current executable.
/// If you only need the directory, use selfExeDirPath.
/// If you only want an open file handle, use openSelfExe.
/// This function may return an error if the current executable
/// was deleted after spawning.
/// Caller owns returned memory.
pub fn selfExePath(allocator: &mem.Allocator) %[]u8 {
switch (builtin.os) {
Os.linux => {
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// If the currently executing binary has been deleted,
// the file path looks something like `/a/b/c/exe (deleted)`
return readLink(allocator, "/proc/self/exe");
},
Os.windows => {
var out_path = try Buffer.initSize(allocator, 0xff);
errdefer out_path.deinit();
while (true) {
const dword_len = try math.cast(windows.DWORD, out_path.len());
const copied_amt = windows.GetModuleFileNameA(null, out_path.ptr(), dword_len);
if (copied_amt <= 0) {
const err = windows.GetLastError();
return switch (err) {
else => unexpectedErrorWindows(err),
};
}
if (copied_amt < out_path.len()) {
out_path.shrink(copied_amt);
return out_path.toOwnedSlice();
}
const new_len = (out_path.len() << 1) | 0b1;
try out_path.resize(new_len);
}
},
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Os.macosx, Os.ios => {
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var u32_len: u32 = 0;
const ret1 = c._NSGetExecutablePath(undefined, &u32_len);
assert(ret1 != 0);
const bytes = try allocator.alloc(u8, u32_len);
errdefer allocator.free(bytes);
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const ret2 = c._NSGetExecutablePath(bytes.ptr, &u32_len);
assert(ret2 == 0);
return bytes;
},
else => @compileError("Unsupported OS"),
}
}
/// Get the directory path that contains the current executable.
/// Caller owns returned memory.
pub fn selfExeDirPath(allocator: &mem.Allocator) %[]u8 {
switch (builtin.os) {
Os.linux => {
// If the currently executing binary has been deleted,
// the file path looks something like `/a/b/c/exe (deleted)`
// This path cannot be opened, but it's valid for determining the directory
// the executable was in when it was run.
const full_exe_path = try readLink(allocator, "/proc/self/exe");
errdefer allocator.free(full_exe_path);
const dir = path.dirname(full_exe_path);
return allocator.shrink(u8, full_exe_path, dir.len);
},
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Os.windows, Os.macosx, Os.ios => {
const self_exe_path = try selfExePath(allocator);
errdefer allocator.free(self_exe_path);
const dirname = os.path.dirname(self_exe_path);
return allocator.shrink(u8, self_exe_path, dirname.len);
},
else => @compileError("unimplemented: std.os.selfExeDirPath for " ++ @tagName(builtin.os)),
}
}
pub fn isTty(handle: FileHandle) bool {
if (is_windows) {
return windows_util.windowsIsTty(handle);
} else {
if (builtin.link_libc) {
return c.isatty(handle) != 0;
} else {
return posix.isatty(handle);
}
}
}