const system = switch(@compileVar("os")) { Os.linux => @import("linux.zig"), Os.darwin => @import("darwin.zig"), else => @compileError("Unsupported OS"), }; const errno = @import("errno.zig"); const math = @import("math.zig"); const debug = @import("debug.zig"); const assert = debug.assert; const os = @import("os.zig"); const mem = @import("mem.zig"); const Buffer0 = @import("cstr.zig").Buffer0; const fmt = @import("fmt.zig"); pub const stdin_fileno = 0; pub const stdout_fileno = 1; pub const stderr_fileno = 2; pub var stdin = InStream { .fd = stdin_fileno, }; pub var stdout = OutStream { .fd = stdout_fileno, .buffer = undefined, .index = 0, }; pub var stderr = OutStream { .fd = stderr_fileno, .buffer = undefined, .index = 0, }; /// The function received invalid input at runtime. An Invalid error means a /// bug in the program that called the function. error Invalid; /// When an Unexpected error occurs, code that emitted the error likely needs /// a patch to recognize the unexpected case so that it can handle it and emit /// a more specific error. error Unexpected; error DiskQuota; error FileTooBig; error Io; error NoSpaceLeft; error BadPerm; error PipeFail; error BadFd; error IsDir; error NotDir; error SymLinkLoop; error ProcessFdQuotaExceeded; error SystemFdQuotaExceeded; error NameTooLong; error NoDevice; error PathNotFound; error NoMem; error Unseekable; error Eof; const buffer_size = 4 * 1024; pub const OpenRead = 0b0001; pub const OpenWrite = 0b0010; pub const OpenCreate = 0b0100; pub const OpenTruncate = 0b1000; pub const OutStream = struct { fd: i32, buffer: [buffer_size]u8, index: usize, pub fn writeByte(self: &OutStream, b: u8) -> %void { if (self.buffer.len == self.index) %return self.flush(); self.buffer[self.index] = b; self.index += 1; } pub fn write(self: &OutStream, bytes: []const u8) -> %void { var src_index: usize = 0; while (src_index < bytes.len) { const dest_space_left = self.buffer.len - self.index; const copy_amt = math.min(dest_space_left, bytes.len - src_index); mem.copy(u8, self.buffer[self.index...], bytes[src_index...src_index + copy_amt]); self.index += copy_amt; assert(self.index <= self.buffer.len); if (self.index == self.buffer.len) { %return self.flush(); } src_index += copy_amt; } } /// Calls print and then flushes the buffer. pub fn printf(self: &OutStream, comptime format: []const u8, args: ...) -> %void { %return self.print(format, args); %return self.flush(); } /// Does not flush the buffer. pub fn print(self: &OutStream, comptime format: []const u8, args: ...) -> %void { var context = PrintContext { .self = self, .result = {}, }; _ = fmt.format(&context, printOutput, format, args); return context.result; } const PrintContext = struct { self: &OutStream, result: %void, }; fn printOutput(context: &PrintContext, bytes: []const u8) -> bool { context.self.write(bytes) %% |err| { context.result = err; return false; }; return true; } pub fn flush(self: &OutStream) -> %void { while (true) { const write_ret = system.write(self.fd, &self.buffer[0], self.index); const write_err = system.getErrno(write_ret); if (write_err > 0) { return switch (write_err) { errno.EINTR => continue, errno.EINVAL => unreachable, errno.EDQUOT => error.DiskQuota, errno.EFBIG => error.FileTooBig, errno.EIO => error.Io, errno.ENOSPC => error.NoSpaceLeft, errno.EPERM => error.BadPerm, errno.EPIPE => error.PipeFail, else => error.Unexpected, } } self.index = 0; return; } } pub fn close(self: &OutStream) { while (true) { const close_ret = system.close(self.fd); const close_err = system.getErrno(close_ret); if (close_err > 0 && close_err == errno.EINTR) continue; return; } } }; // TODO created a BufferedInStream struct and move some of this code there // BufferedInStream API goes on top of minimal InStream API. pub const InStream = struct { fd: i32, /// Call close to clean up. pub fn open(is: &InStream, path: []const u8) -> %void { switch (@compileVar("os")) { Os.linux, Os.darwin => { while (true) { const result = system.open(path, system.O_LARGEFILE|system.O_RDONLY, 0); const err = system.getErrno(result); if (err > 0) { return switch (err) { errno.EINTR => continue, errno.EFAULT => unreachable, errno.EINVAL => unreachable, errno.EACCES => error.BadPerm, errno.EFBIG, errno.EOVERFLOW => error.FileTooBig, errno.EISDIR => error.IsDir, errno.ELOOP => error.SymLinkLoop, errno.EMFILE => error.ProcessFdQuotaExceeded, errno.ENAMETOOLONG => error.NameTooLong, errno.ENFILE => error.SystemFdQuotaExceeded, errno.ENODEV => error.NoDevice, errno.ENOENT => error.PathNotFound, errno.ENOMEM => error.NoMem, errno.ENOSPC => error.NoSpaceLeft, errno.ENOTDIR => error.NotDir, errno.EPERM => error.BadPerm, else => error.Unexpected, } } is.fd = i32(result); return; } }, else => @compileError("unsupported OS"), } } /// Upon success, the stream is in an uninitialized state. To continue using it, /// you must use the open() function. pub fn close(is: &InStream) -> %void { switch (@compileVar("os")) { Os.linux, Os.darwin => { while (true) { const close_ret = system.close(is.fd); const close_err = system.getErrno(close_ret); if (close_err > 0) { return switch (close_err) { errno.EINTR => continue, errno.EIO => error.Io, errno.EBADF => error.BadFd, else => error.Unexpected, } } return; } }, else => @compileError("unsupported OS"), } } /// Returns the number of bytes read. If the number read is smaller than buf.len, then /// the stream reached End Of File. pub fn read(is: &InStream, buf: []u8) -> %usize { switch (@compileVar("os")) { Os.linux, Os.darwin => { var index: usize = 0; while (index < buf.len) { const amt_read = system.read(is.fd, &buf[index], buf.len - index); const read_err = system.getErrno(amt_read); if (read_err > 0) { switch (read_err) { errno.EINTR => continue, errno.EINVAL => unreachable, errno.EFAULT => unreachable, errno.EBADF => return error.BadFd, errno.EIO => return error.Io, else => return error.Unexpected, } } if (amt_read == 0) return index; index += amt_read; } return index; }, else => @compileError("unsupported OS"), } } pub fn readNoEof(is: &InStream, buf: []u8) -> %void { const amt_read = %return is.read(buf); if (amt_read < buf.len) return error.Eof; } pub fn readByte(is: &InStream) -> %u8 { var result: [1]u8 = undefined; %return is.readNoEof(result[0...]); return result[0]; } pub fn readIntLe(is: &InStream, comptime T: type) -> %T { is.readInt(false, T) } pub fn readIntBe(is: &InStream, comptime T: type) -> %T { is.readInt(true, T) } pub fn readInt(is: &InStream, is_be: bool, comptime T: type) -> %T { var bytes: [@sizeOf(T)]u8 = undefined; %return is.readNoEof(bytes[0...]); return mem.readInt(bytes, T, is_be); } pub fn readVarInt(is: &InStream, is_be: bool, comptime T: type, size: usize) -> %T { assert(size <= @sizeOf(T)); assert(size <= 8); var input_buf: [8]u8 = undefined; const input_slice = input_buf[0...size]; %return is.readNoEof(input_slice); return mem.readInt(input_slice, T, is_be); } pub fn seekForward(is: &InStream, amount: usize) -> %void { switch (@compileVar("os")) { Os.linux, Os.darwin => { const result = system.lseek(is.fd, amount, system.SEEK_CUR); const err = system.getErrno(result); if (err > 0) { return switch (err) { errno.EBADF => error.BadFd, errno.EINVAL => error.Unseekable, errno.EOVERFLOW => error.Unseekable, errno.ESPIPE => error.Unseekable, errno.ENXIO => error.Unseekable, else => error.Unexpected, }; } }, else => @compileError("unsupported OS"), } } pub fn seekTo(is: &InStream, pos: usize) -> %void { switch (@compileVar("os")) { Os.linux, Os.darwin => { const result = system.lseek(is.fd, pos, system.SEEK_SET); const err = system.getErrno(result); if (err > 0) { return switch (err) { errno.EBADF => error.BadFd, errno.EINVAL => error.Unseekable, errno.EOVERFLOW => error.Unseekable, errno.ESPIPE => error.Unseekable, errno.ENXIO => error.Unseekable, else => error.Unexpected, }; } }, else => @compileError("unsupported OS"), } } pub fn getPos(is: &InStream) -> %usize { switch (@compileVar("os")) { Os.linux, Os.darwin => { const result = system.lseek(is.fd, 0, system.SEEK_CUR); const err = system.getErrno(result); if (err > 0) { return switch (err) { errno.EBADF => error.BadFd, errno.EINVAL => error.Unseekable, errno.EOVERFLOW => error.Unseekable, errno.ESPIPE => error.Unseekable, errno.ENXIO => error.Unseekable, else => error.Unexpected, }; } return result; }, else => @compileError("unsupported OS"), } } pub fn getEndPos(is: &InStream) -> %usize { var stat: system.stat = undefined; const err = system.getErrno(system.fstat(is.fd, &stat)); if (err > 0) { return switch (err) { errno.EBADF => error.BadFd, errno.ENOMEM => error.NoMem, else => error.Unexpected, } } return usize(stat.size); } pub fn readAll(is: &InStream, buf: &Buffer0) -> %void { %return buf.resize(buffer_size); var actual_buf_len: usize = 0; while (true) { const dest_slice = buf.toSlice()[actual_buf_len...]; const bytes_read = %return is.read(dest_slice); actual_buf_len += bytes_read; if (bytes_read != dest_slice.len) { return buf.resize(actual_buf_len); } %return buf.resize(actual_buf_len + buffer_size); } } }; pub fn openSelfExe(stream: &InStream) -> %void { switch (@compileVar("os")) { Os.linux => { %return stream.open("/proc/self/exe"); }, Os.darwin => { %%stderr.printf("TODO: openSelfExe on Darwin\n"); os.abort(); }, else => @compileError("unsupported os"), } }