package os_old foreign import lib "system:c" import "base:runtime" import "core:c" import "core:c/libc" import "core:strings" import "core:sys/haiku" import "core:sys/posix" Handle :: i32 Pid :: i32 File_Time :: i64 _Platform_Error :: haiku.Errno MAX_PATH :: haiku.PATH_MAX ENOSYS :: _Platform_Error(haiku.Errno.ENOSYS) INVALID_HANDLE :: ~Handle(0) stdin: Handle = 0 stdout: Handle = 1 stderr: Handle = 2 pid_t :: haiku.pid_t off_t :: haiku.off_t dev_t :: haiku.dev_t ino_t :: haiku.ino_t mode_t :: haiku.mode_t nlink_t :: haiku.nlink_t uid_t :: haiku.uid_t gid_t :: haiku.gid_t blksize_t :: haiku.blksize_t blkcnt_t :: haiku.blkcnt_t time_t :: haiku.time_t Unix_File_Time :: struct { seconds: time_t, nanoseconds: c.long, } OS_Stat :: struct { device_id: dev_t, // device ID that this file resides on serial: ino_t, // this file's serial inode ID mode: mode_t, // file mode (rwx for user, group, etc) nlink: nlink_t, // number of hard links to this file uid: uid_t, // user ID of the file's owner gid: gid_t, // group ID of the file's group size: off_t, // file size, in bytes rdev: dev_t, // device type (not used) block_size: blksize_t, // optimal blocksize for I/O last_access: Unix_File_Time, // time of last access modified: Unix_File_Time, // time of last data modification status_change: Unix_File_Time, // time of last file status change birthtime: Unix_File_Time, // time of file creation type: u32, // attribute/index type blocks: blkcnt_t, // blocks allocated for file } /* file access modes for open() */ O_RDONLY :: 0x0000 /* read only */ O_WRONLY :: 0x0001 /* write only */ O_RDWR :: 0x0002 /* read and write */ O_ACCMODE :: 0x0003 /* mask to get the access modes above */ O_RWMASK :: O_ACCMODE /* flags for open() */ O_EXCL :: 0x0100 /* exclusive creat */ O_CREATE :: 0x0200 /* create and open file */ O_TRUNC :: 0x0400 /* open with truncation */ O_NOCTTY :: 0x1000 /* don't make tty the controlling tty */ O_NOTRAVERSE :: 0x2000 /* do not traverse leaf link */ // File type S_IFMT :: 0o170000 // Type of file mask S_IFIFO :: 0o010000 // Named pipe (fifo) S_IFCHR :: 0o020000 // Character special S_IFDIR :: 0o040000 // Directory S_IFBLK :: 0o060000 // Block special S_IFREG :: 0o100000 // Regular S_IFLNK :: 0o120000 // Symbolic link S_IFSOCK :: 0o140000 // Socket S_ISVTX :: 0o001000 // Save swapped text even after use // File mode // Read, write, execute/search by owner S_IRWXU :: 0o0700 // RWX mask for owner S_IRUSR :: 0o0400 // R for owner S_IWUSR :: 0o0200 // W for owner S_IXUSR :: 0o0100 // X for owner // Read, write, execute/search by group S_IRWXG :: 0o0070 // RWX mask for group S_IRGRP :: 0o0040 // R for group S_IWGRP :: 0o0020 // W for group S_IXGRP :: 0o0010 // X for group // Read, write, execute/search by others S_IRWXO :: 0o0007 // RWX mask for other S_IROTH :: 0o0004 // R for other S_IWOTH :: 0o0002 // W for other S_IXOTH :: 0o0001 // X for other S_ISUID :: 0o4000 // Set user id on execution S_ISGID :: 0o2000 // Set group id on execution S_ISTXT :: 0o1000 // Sticky bit S_ISLNK :: #force_inline proc(m: u32) -> bool { return (m & S_IFMT) == S_IFLNK } S_ISREG :: #force_inline proc(m: u32) -> bool { return (m & S_IFMT) == S_IFREG } S_ISDIR :: #force_inline proc(m: u32) -> bool { return (m & S_IFMT) == S_IFDIR } S_ISCHR :: #force_inline proc(m: u32) -> bool { return (m & S_IFMT) == S_IFCHR } S_ISBLK :: #force_inline proc(m: u32) -> bool { return (m & S_IFMT) == S_IFBLK } S_ISFIFO :: #force_inline proc(m: u32) -> bool { return (m & S_IFMT) == S_IFIFO } S_ISSOCK :: #force_inline proc(m: u32) -> bool { return (m & S_IFMT) == S_IFSOCK } __error :: libc.errno _unix_open :: posix.open foreign lib { @(link_name="fork") _unix_fork :: proc() -> pid_t --- @(link_name="getthrid") _unix_getthrid :: proc() -> int --- @(link_name="close") _unix_close :: proc(fd: Handle) -> c.int --- @(link_name="read") _unix_read :: proc(fd: Handle, buf: rawptr, size: c.size_t) -> c.ssize_t --- @(link_name="pread") _unix_pread :: proc(fd: Handle, buf: rawptr, size: c.size_t, offset: i64) -> c.ssize_t --- @(link_name="write") _unix_write :: proc(fd: Handle, buf: rawptr, size: c.size_t) -> c.ssize_t --- @(link_name="pwrite") _unix_pwrite :: proc(fd: Handle, buf: rawptr, size: c.size_t, offset: i64) -> c.ssize_t --- @(link_name="lseek") _unix_seek :: proc(fd: Handle, offset: off_t, whence: c.int) -> off_t --- @(link_name="stat") _unix_stat :: proc(path: cstring, sb: ^OS_Stat) -> c.int --- @(link_name="fstat") _unix_fstat :: proc(fd: Handle, sb: ^OS_Stat) -> c.int --- @(link_name="lstat") _unix_lstat :: proc(path: cstring, sb: ^OS_Stat) -> c.int --- @(link_name="readlink") _unix_readlink :: proc(path: cstring, buf: ^byte, bufsiz: c.size_t) -> c.ssize_t --- @(link_name="access") _unix_access :: proc(path: cstring, mask: c.int) -> c.int --- @(link_name="getcwd") _unix_getcwd :: proc(buf: cstring, len: c.size_t) -> cstring --- @(link_name="chdir") _unix_chdir :: proc(path: cstring) -> c.int --- @(link_name="rename") _unix_rename :: proc(old, new: cstring) -> c.int --- @(link_name="unlink") _unix_unlink :: proc(path: cstring) -> c.int --- @(link_name="rmdir") _unix_rmdir :: proc(path: cstring) -> c.int --- @(link_name="mkdir") _unix_mkdir :: proc(path: cstring, mode: mode_t) -> c.int --- @(link_name="fsync") _unix_fsync :: proc(fd: Handle) -> c.int --- @(link_name="getpagesize") _unix_getpagesize :: proc() -> c.int --- @(link_name="sysconf") _sysconf :: proc(name: c.int) -> c.long --- @(link_name="fdopendir") _unix_fdopendir :: proc(fd: Handle) -> Dir --- @(link_name="closedir") _unix_closedir :: proc(dirp: Dir) -> c.int --- @(link_name="rewinddir") _unix_rewinddir :: proc(dirp: Dir) --- @(link_name="readdir_r") _unix_readdir_r :: proc(dirp: Dir, entry: ^Dirent, result: ^^Dirent) -> c.int --- @(link_name="dup") _unix_dup :: proc(fd: Handle) -> Handle --- @(link_name="malloc") _unix_malloc :: proc(size: c.size_t) -> rawptr --- @(link_name="calloc") _unix_calloc :: proc(num, size: c.size_t) -> rawptr --- @(link_name="free") _unix_free :: proc(ptr: rawptr) --- @(link_name="realloc") _unix_realloc :: proc(ptr: rawptr, size: c.size_t) -> rawptr --- @(link_name="getenv") _unix_getenv :: proc(cstring) -> cstring --- @(link_name="realpath") _unix_realpath :: proc(path: cstring, resolved_path: [^]byte = nil) -> cstring --- @(link_name="exit") _unix_exit :: proc(status: c.int) -> ! --- @(link_name="dlopen") _unix_dlopen :: proc(filename: cstring, flags: c.int) -> rawptr --- @(link_name="dlsym") _unix_dlsym :: proc(handle: rawptr, symbol: cstring) -> rawptr --- @(link_name="dlclose") _unix_dlclose :: proc(handle: rawptr) -> c.int --- @(link_name="dlerror") _unix_dlerror :: proc() -> cstring --- } MAXNAMLEN :: haiku.NAME_MAX Dirent :: struct { dev: dev_t, pdef: dev_t, ino: ino_t, pino: ino_t, reclen: u16, name: [MAXNAMLEN + 1]byte, // name } Dir :: distinct rawptr // DIR* @(require_results) is_path_separator :: proc(r: rune) -> bool { return r == '/' } @(require_results, no_instrumentation) get_last_error :: proc "contextless" () -> Error { return Platform_Error(__error()^) } @(require_results) fork :: proc() -> (Pid, Error) { pid := _unix_fork() if pid == -1 { return Pid(-1), get_last_error() } return Pid(pid), nil } @(require_results) open :: proc(path: string, flags: int = O_RDONLY, mode: int = 0) -> (Handle, Error) { runtime.DEFAULT_TEMP_ALLOCATOR_TEMP_GUARD() cstr := strings.clone_to_cstring(path, context.temp_allocator) handle := cast(Handle)_unix_open(cstr, transmute(posix.O_Flags)i32(flags), transmute(posix.mode_t)i32(mode)) if handle == -1 { return INVALID_HANDLE, get_last_error() } return handle, nil } close :: proc(fd: Handle) -> Error { result := _unix_close(fd) if result == -1 { return get_last_error() } return nil } flush :: proc(fd: Handle) -> Error { result := _unix_fsync(fd) if result == -1 { return get_last_error() } return nil } // In practice a read/write call would probably never read/write these big buffers all at once, // which is why the number of bytes is returned and why there are procs that will call this in a // loop for you. // We set a max of 1GB to keep alignment and to be safe. @(private) MAX_RW :: 1 << 30 read :: proc(fd: Handle, data: []byte) -> (int, Error) { to_read := min(c.size_t(len(data)), MAX_RW) bytes_read := _unix_read(fd, &data[0], to_read) if bytes_read == -1 { return -1, get_last_error() } return int(bytes_read), nil } write :: proc(fd: Handle, data: []byte) -> (int, Error) { if len(data) == 0 { return 0, nil } to_write := min(c.size_t(len(data)), MAX_RW) bytes_written := _unix_write(fd, &data[0], to_write) if bytes_written == -1 { return -1, get_last_error() } return int(bytes_written), nil } read_at :: proc(fd: Handle, data: []byte, offset: i64) -> (n: int, err: Error) { if len(data) == 0 { return 0, nil } to_read := min(uint(len(data)), MAX_RW) bytes_read := _unix_pread(fd, raw_data(data), to_read, offset) if bytes_read < 0 { return -1, get_last_error() } return bytes_read, nil } write_at :: proc(fd: Handle, data: []byte, offset: i64) -> (n: int, err: Error) { if len(data) == 0 { return 0, nil } to_write := min(uint(len(data)), MAX_RW) bytes_written := _unix_pwrite(fd, raw_data(data), to_write, offset) if bytes_written < 0 { return -1, get_last_error() } return bytes_written, nil } seek :: proc(fd: Handle, offset: i64, whence: int) -> (i64, Error) { switch whence { case SEEK_SET, SEEK_CUR, SEEK_END: break case: return 0, .Invalid_Whence } res := _unix_seek(fd, offset, c.int(whence)) if res == -1 { errno := get_last_error() switch errno { case .BAD_VALUE: return 0, .Invalid_Offset } return 0, errno } return res, nil } @(require_results) file_size :: proc(fd: Handle) -> (i64, Error) { s, err := _fstat(fd) if err != nil { return -1, err } return s.size, nil } // "Argv" arguments converted to Odin strings args := _alloc_command_line_arguments() @(private, require_results) _alloc_command_line_arguments :: proc "contextless" () -> []string { context = runtime.default_context() res := make([]string, len(runtime.args__)) for arg, i in runtime.args__ { res[i] = string(arg) } return res } @(private, fini) _delete_command_line_arguments :: proc "contextless" () { context = runtime.default_context() delete(args) } @(private, require_results, no_sanitize_memory) _stat :: proc(path: string) -> (OS_Stat, Error) { runtime.DEFAULT_TEMP_ALLOCATOR_TEMP_GUARD() cstr := strings.clone_to_cstring(path, context.temp_allocator) // deliberately uninitialized s: OS_Stat = --- res := _unix_stat(cstr, &s) if res == -1 { return s, get_last_error() } return s, nil } @(private, require_results, no_sanitize_memory) _lstat :: proc(path: string) -> (OS_Stat, Error) { runtime.DEFAULT_TEMP_ALLOCATOR_TEMP_GUARD() cstr := strings.clone_to_cstring(path, context.temp_allocator) // deliberately uninitialized s: OS_Stat = --- res := _unix_lstat(cstr, &s) if res == -1 { return s, get_last_error() } return s, nil } @(private, require_results, no_sanitize_memory) _fstat :: proc(fd: Handle) -> (OS_Stat, Error) { // deliberately uninitialized s: OS_Stat = --- res := _unix_fstat(fd, &s) if res == -1 { return s, get_last_error() } return s, nil } @(private) _fdopendir :: proc(fd: Handle) -> (Dir, Error) { dirp := _unix_fdopendir(fd) if dirp == cast(Dir)nil { return nil, get_last_error() } return dirp, nil } @(private) _closedir :: proc(dirp: Dir) -> Error { rc := _unix_closedir(dirp) if rc != 0 { return get_last_error() } return nil } @(private) _rewinddir :: proc(dirp: Dir) { _unix_rewinddir(dirp) } @(private, require_results) _readdir :: proc(dirp: Dir) -> (entry: Dirent, err: Error, end_of_stream: bool) { result: ^Dirent rc := _unix_readdir_r(dirp, &entry, &result) if rc != 0 { err = get_last_error() return } if result == nil { end_of_stream = true return } return } @(private, require_results) _readlink :: proc(path: string) -> (string, Error) { runtime.DEFAULT_TEMP_ALLOCATOR_TEMP_GUARD(ignore = context.temp_allocator == context.allocator) path_cstr := strings.clone_to_cstring(path, context.temp_allocator) bufsz : uint = MAX_PATH buf := make([]byte, MAX_PATH) for { rc := _unix_readlink(path_cstr, &(buf[0]), bufsz) if rc == -1 { delete(buf) return "", get_last_error() } else if rc == int(bufsz) { bufsz += MAX_PATH delete(buf) buf = make([]byte, bufsz) } else { return strings.string_from_ptr(&buf[0], rc), nil } } } @(require_results) absolute_path_from_handle :: proc(fd: Handle) -> (string, Error) { return "", Error(ENOSYS) } @(require_results) absolute_path_from_relative :: proc(rel: string, allocator := context.allocator) -> (path: string, err: Error) { rel := rel if rel == "" { rel = "." } runtime.DEFAULT_TEMP_ALLOCATOR_TEMP_GUARD(ignore = context.temp_allocator == context.allocator) rel_cstr := strings.clone_to_cstring(rel, context.temp_allocator) path_ptr := _unix_realpath(rel_cstr, nil) if path_ptr == nil { return "", get_last_error() } defer _unix_free(rawptr(path_ptr)) path_cstr := cstring(path_ptr) return strings.clone(string(path_cstr), allocator) } access :: proc(path: string, mask: int) -> (bool, Error) { runtime.DEFAULT_TEMP_ALLOCATOR_TEMP_GUARD() cstr := strings.clone_to_cstring(path, context.temp_allocator) res := _unix_access(cstr, c.int(mask)) if res == -1 { return false, get_last_error() } return true, nil } @(require_results) lookup_env_alloc :: proc(key: string, allocator := context.allocator) -> (value: string, found: bool) { runtime.DEFAULT_TEMP_ALLOCATOR_TEMP_GUARD(ignore = context.temp_allocator == allocator) path_str := strings.clone_to_cstring(key, context.temp_allocator) // NOTE(tetra): Lifetime of 'cstr' is unclear, but _unix_free(cstr) segfaults. cstr := _unix_getenv(path_str) if cstr == nil { return "", false } return strings.clone(string(cstr), allocator), true } @(require_results) lookup_env_buffer :: proc(buf: []u8, key: string) -> (value: string, err: Error) { if len(key) + 1 > len(buf) { return "", .Buffer_Full } else { copy(buf, key) buf[len(key)] = 0 } if value = string(_unix_getenv(cstring(raw_data(buf)))); value == "" { return "", .Env_Var_Not_Found } else { if len(value) > len(buf) { return "", .Buffer_Full } else { copy(buf, value) return string(buf[:len(value)]), nil } } } lookup_env :: proc{lookup_env_alloc, lookup_env_buffer} @(require_results) get_env_alloc :: proc(key: string, allocator := context.allocator) -> (value: string) { value, _ = lookup_env(key, allocator) return } @(require_results) get_env_buf :: proc(buf: []u8, key: string) -> (value: string) { value, _ = lookup_env(buf, key) return } get_env :: proc{get_env_alloc, get_env_buf} @(private, require_results) _processor_core_count :: proc() -> int { info: haiku.system_info haiku.get_system_info(&info) return int(info.cpu_count) } exit :: proc "contextless" (code: int) -> ! { runtime._cleanup_runtime_contextless() _unix_exit(i32(code)) } @(require_results) current_thread_id :: proc "contextless" () -> int { return int(haiku.find_thread(nil)) } @(private, require_results) _dup :: proc(fd: Handle) -> (Handle, Error) { dup := _unix_dup(fd) if dup == -1 { return INVALID_HANDLE, get_last_error() } return dup, nil }