Commit c256f0a4 authored by Yuval Pavel Zholkover's avatar Yuval Pavel Zholkover Committed by Rob Pike

os: Plan 9 support.

R=rsc, ality, r, r2
CC=golang-dev
https://golang.org/cl/4149046
parent 1cc4a5cd
......@@ -19,29 +19,48 @@ GOFILES=\
types.go\
GOFILES_freebsd=\
error_posix.go\
env_unix.go\
file_posix.go\
file_unix.go\
sys_bsd.go\
exec_posix.go\
exec_unix.go\
GOFILES_darwin=\
error_posix.go\
env_unix.go\
file_posix.go\
file_unix.go\
sys_bsd.go\
exec_posix.go\
exec_unix.go\
GOFILES_linux=\
error_posix.go\
env_unix.go\
file_posix.go\
file_unix.go\
sys_linux.go\
exec_posix.go\
exec_unix.go\
GOFILES_windows=\
error_posix.go\
env_windows.go\
file_posix.go\
file_windows.go\
sys_windows.go\
exec_posix.go\
exec_windows.go\
GOFILES_plan9=\
error_plan9.go\
env_plan9.go\
file_plan9.go\
sys_plan9.go\
exec_plan9.go\
GOFILES+=$(GOFILES_$(GOOS))
include ../../Make.pkg
// Copyright 2009 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package os
import (
"syscall"
)
type dirInfo int
var markDirectory dirInfo = ^0
// Readdir reads the contents of the directory associated with file and
// returns an array of up to count FileInfo structures, as would be returned
// by Lstat, in directory order. Subsequent calls on the same file will yield
// further FileInfos. A negative count means to read the entire directory.
// Readdir returns the array and an Error, if any.
func (file *File) Readdir(count int) (fi []FileInfo, err Error) {
// If this file has no dirinfo, create one.
if file.dirinfo == nil {
file.dirinfo = &markDirectory
}
size := count
if size < 0 {
size = 100
}
result := make([]FileInfo, 0, size)
var buf [syscall.STATMAX]byte
for {
n, e := file.Read(buf[:])
if e != nil {
if e == EOF {
break
}
return []FileInfo{}, &PathError{"readdir", file.name, e}
}
if n < syscall.STATFIXLEN {
return []FileInfo{}, &PathError{"readdir", file.name, Eshortstat}
}
for i := 0; i < n; {
m, _ := gbit16(buf[i:])
m += 2
if m < syscall.STATFIXLEN {
return []FileInfo{}, &PathError{"readdir", file.name, Eshortstat}
}
d, e := UnmarshalDir(buf[i : i+int(m)])
if e != nil {
return []FileInfo{}, &PathError{"readdir", file.name, e}
}
var f FileInfo
fileInfoFromStat(&f, d)
result = append(result, f)
// a negative count means to read until EOF.
if count > 0 && len(result) >= count {
break
}
i += int(m)
}
}
return result, nil
}
// Readdirnames returns an array of up to count file names residing in the
// directory associated with file. A negative count will return all of them.
// Readdir returns the array and an Error, if any.
func (file *File) Readdirnames(count int) (names []string, err Error) {
fi, e := file.Readdir(count)
if e != nil {
return []string{}, e
}
names = make([]string, len(fi))
err = nil
for i, _ := range fi {
names[i] = fi[i].Name
}
return
}
type Dir struct {
// system-modified data
Type uint16 // server type
Dev uint32 // server subtype
// file data
Qid Qid // unique id from server
Mode uint32 // permissions
Atime uint32 // last read time
Mtime uint32 // last write time
Length uint64 // file length
Name string // last element of path
Uid string // owner name
Gid string // group name
Muid string // last modifier name
}
type Qid struct {
Path uint64 // the file server's unique identification for the file
Vers uint32 // version number for given Path
Type uint8 // the type of the file (syscall.QTDIR for example)
}
var nullDir = Dir{
^uint16(0),
^uint32(0),
Qid{^uint64(0), ^uint32(0), ^uint8(0)},
^uint32(0),
^uint32(0),
^uint32(0),
^uint64(0),
"",
"",
"",
"",
}
// Null assigns members of d with special "don't care" values indicating
// they should not be written by syscall.Wstat.
func (d *Dir) Null() {
*d = nullDir
}
// pdir appends a 9P Stat message based on the contents of Dir d to a byte slice b.
func pdir(b []byte, d *Dir) []byte {
n := len(b)
b = pbit16(b, 0) // length, filled in later
b = pbit16(b, d.Type)
b = pbit32(b, d.Dev)
b = pqid(b, d.Qid)
b = pbit32(b, d.Mode)
b = pbit32(b, d.Atime)
b = pbit32(b, d.Mtime)
b = pbit64(b, d.Length)
b = pstring(b, d.Name)
b = pstring(b, d.Uid)
b = pstring(b, d.Gid)
b = pstring(b, d.Muid)
pbit16(b[0:n], uint16(len(b)-(n+2)))
return b
}
// UnmarshalDir reads a 9P Stat message from a 9P protocol message strored in b,
// returning the corresponding Dir struct.
func UnmarshalDir(b []byte) (d *Dir, err Error) {
n := uint16(0)
n, b = gbit16(b)
if int(n) != len(b) {
return nil, Ebadstat
}
d = new(Dir)
d.Type, b = gbit16(b)
d.Dev, b = gbit32(b)
d.Qid, b = gqid(b)
d.Mode, b = gbit32(b)
d.Atime, b = gbit32(b)
d.Mtime, b = gbit32(b)
d.Length, b = gbit64(b)
d.Name, b = gstring(b)
d.Uid, b = gstring(b)
d.Gid, b = gstring(b)
d.Muid, b = gstring(b)
if len(b) != 0 {
return nil, Ebadstat
}
return d, nil
}
// gqid reads the qid part of a 9P Stat message from a 9P protocol message strored in b,
// returning the corresponding Qid struct and the remaining slice of b.
func gqid(b []byte) (Qid, []byte) {
var q Qid
q.Path, b = gbit64(b)
q.Vers, b = gbit32(b)
q.Type, b = gbit8(b)
return q, b
}
// pqid appends a Qid struct q to a 9P message b.
func pqid(b []byte, q Qid) []byte {
b = pbit64(b, q.Path)
b = pbit32(b, q.Vers)
b = pbit8(b, q.Type)
return b
}
// gbit8 reads a byte-sized numeric value from a 9P protocol message strored in b,
// returning the value and the remaining slice of b.
func gbit8(b []byte) (uint8, []byte) {
return uint8(b[0]), b[1:]
}
// gbit16 reads a 16-bit numeric value from a 9P protocol message strored in b,
// returning the value and the remaining slice of b.
func gbit16(b []byte) (uint16, []byte) {
return uint16(b[0]) | uint16(b[1])<<8, b[2:]
}
// gbit32 reads a 32-bit numeric value from a 9P protocol message strored in b,
// returning the value and the remaining slice of b.
func gbit32(b []byte) (uint32, []byte) {
return uint32(b[0]) | uint32(b[1])<<8 | uint32(b[2])<<16 | uint32(b[3])<<24, b[4:]
}
// gbit64 reads a 64-bit numeric value from a 9P protocol message strored in b,
// returning the value and the remaining slice of b.
func gbit64(b []byte) (uint64, []byte) {
lo, b := gbit32(b)
hi, b := gbit32(b)
return uint64(hi)<<32 | uint64(lo), b
}
// gstring reads a string from a 9P protocol message strored in b,
// returning the value as a Go string and the remaining slice of b.
func gstring(b []byte) (string, []byte) {
n, b := gbit16(b)
return string(b[0:n]), b[n:]
}
// pbit8 appends a byte-sized numeric value x to a 9P message b.
func pbit8(b []byte, x uint8) []byte {
n := len(b)
if n+1 > cap(b) {
nb := make([]byte, n, 100+2*cap(b))
copy(nb, b)
b = nb
}
b = b[0 : n+1]
b[n] = x
return b
}
// pbit16 appends a 16-bit numeric value x to a 9P message b.
func pbit16(b []byte, x uint16) []byte {
n := len(b)
if n+2 > cap(b) {
nb := make([]byte, n, 100+2*cap(b))
copy(nb, b)
b = nb
}
b = b[0 : n+2]
b[n] = byte(x)
b[n+1] = byte(x >> 8)
return b
}
// pbit32 appends a 32-bit numeric value x to a 9P message b.
func pbit32(b []byte, x uint32) []byte {
n := len(b)
if n+4 > cap(b) {
nb := make([]byte, n, 100+2*cap(b))
copy(nb, b)
b = nb
}
b = b[0 : n+4]
b[n] = byte(x)
b[n+1] = byte(x >> 8)
b[n+2] = byte(x >> 16)
b[n+3] = byte(x >> 24)
return b
}
// pbit64 appends a 64-bit numeric value x to a 9P message b.
func pbit64(b []byte, x uint64) []byte {
b = pbit32(b, uint32(x))
b = pbit32(b, uint32(x>>32))
return b
}
// pstring appends a Go string s to a 9P message b.
func pstring(b []byte, s string) []byte {
if len(s) >= 1<<16 {
panic(NewError("string too long"))
}
b = pbit16(b, uint16(len(s)))
b = append(b, []byte(s)...)
return b
}
// Copyright 2011 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// Plan 9 environment variables.
package os
import "syscall"
// ENOENV is the Error indicating that an environment variable does not exist.
var ENOENV = NewError("no such environment variable")
// Getenverror retrieves the value of the environment variable named by the key.
// It returns the value and an error, if any.
func Getenverror(key string) (value string, err Error) {
if len(key) == 0 {
return "", EINVAL
}
f, e := Open("/env/"+key, O_RDONLY, 0)
if iserror(e) {
return "", ENOENV
}
defer f.Close()
var buf [4096]byte
n, e := f.Read(buf[:len(buf)-1])
if iserror(e) {
return "", ENOENV
}
buf[n] = 0
return string(buf[0:n]), nil
}
// Getenv retrieves the value of the environment variable named by the key.
// It returns the value, which will be empty if the variable is not present.
func Getenv(key string) string {
v, _ := Getenverror(key)
return v
}
// Setenv sets the value of the environment variable named by the key.
// It returns an Error, if any.
func Setenv(key, value string) Error {
if len(key) == 0 {
return EINVAL
}
f, e := Open("/env/"+key, O_WRONLY|O_CREAT, 0666)
if iserror(e) {
return e
}
defer f.Close()
_, e = f.Write(syscall.StringByteSlice(value))
return nil
}
// Clearenv deletes all environment variables.
func Clearenv() {
syscall.RawSyscall(syscall.SYS_RFORK, syscall.RFCENVG, 0, 0)
}
// Environ returns an array of strings representing the environment,
// in the form "key=value".
func Environ() []string {
env := make([]string, 0, 100)
f, e := Open("/env", O_RDONLY, 0)
if iserror(e) {
panic(e)
}
defer f.Close()
names, e := f.Readdirnames(-1)
if iserror(e) {
panic(e)
}
for _, k := range names {
if v, e := Getenverror(k); !iserror(e) {
env = append(env, k+"="+v)
}
}
return env[0:len(env)]
}
// TempDir returns the default directory to use for temporary files.
func TempDir() string {
return "/tmp"
}
......@@ -4,8 +4,6 @@
package os
import syscall "syscall"
// An Error can represent any printable error condition.
type Error interface {
String() string
......@@ -26,63 +24,6 @@ func (e ErrorString) Timeout() bool { return false }
// NewError converts s to an ErrorString, which satisfies the Error interface.
func NewError(s string) Error { return ErrorString(s) }
// Errno is the Unix error number. Names such as EINVAL are simple
// wrappers to convert the error number into an Error.
type Errno int64
func (e Errno) String() string { return syscall.Errstr(int(e)) }
func (e Errno) Temporary() bool {
return e == Errno(syscall.EINTR) || e.Timeout()
}
func (e Errno) Timeout() bool {
return e == Errno(syscall.EAGAIN) || e == Errno(syscall.EWOULDBLOCK) || e == Errno(syscall.ETIMEDOUT)
}
// Commonly known Unix errors.
var (
EPERM Error = Errno(syscall.EPERM)
ENOENT Error = Errno(syscall.ENOENT)
ESRCH Error = Errno(syscall.ESRCH)
EINTR Error = Errno(syscall.EINTR)
EIO Error = Errno(syscall.EIO)
ENXIO Error = Errno(syscall.ENXIO)
E2BIG Error = Errno(syscall.E2BIG)
ENOEXEC Error = Errno(syscall.ENOEXEC)
EBADF Error = Errno(syscall.EBADF)
ECHILD Error = Errno(syscall.ECHILD)
EDEADLK Error = Errno(syscall.EDEADLK)
ENOMEM Error = Errno(syscall.ENOMEM)
EACCES Error = Errno(syscall.EACCES)
EFAULT Error = Errno(syscall.EFAULT)
EBUSY Error = Errno(syscall.EBUSY)
EEXIST Error = Errno(syscall.EEXIST)
EXDEV Error = Errno(syscall.EXDEV)
ENODEV Error = Errno(syscall.ENODEV)
ENOTDIR Error = Errno(syscall.ENOTDIR)
EISDIR Error = Errno(syscall.EISDIR)
EINVAL Error = Errno(syscall.EINVAL)
ENFILE Error = Errno(syscall.ENFILE)
EMFILE Error = Errno(syscall.EMFILE)
ENOTTY Error = Errno(syscall.ENOTTY)
EFBIG Error = Errno(syscall.EFBIG)
ENOSPC Error = Errno(syscall.ENOSPC)
ESPIPE Error = Errno(syscall.ESPIPE)
EROFS Error = Errno(syscall.EROFS)
EMLINK Error = Errno(syscall.EMLINK)
EPIPE Error = Errno(syscall.EPIPE)
EAGAIN Error = Errno(syscall.EAGAIN)
EDOM Error = Errno(syscall.EDOM)
ERANGE Error = Errno(syscall.ERANGE)
EADDRINUSE Error = Errno(syscall.EADDRINUSE)
ECONNREFUSED Error = Errno(syscall.ECONNREFUSED)
ENAMETOOLONG Error = Errno(syscall.ENAMETOOLONG)
EAFNOSUPPORT Error = Errno(syscall.EAFNOSUPPORT)
ETIMEDOUT Error = Errno(syscall.ETIMEDOUT)
ENOTCONN Error = Errno(syscall.ENOTCONN)
)
// PathError records an error and the operation and file path that caused it.
type PathError struct {
Op string
......@@ -91,25 +32,3 @@ type PathError struct {
}
func (e *PathError) String() string { return e.Op + " " + e.Path + ": " + e.Error.String() }
// SyscallError records an error from a specific system call.
type SyscallError struct {
Syscall string
Errno Errno
}
func (e *SyscallError) String() string { return e.Syscall + ": " + e.Errno.String() }
// Note: If the name of the function NewSyscallError changes,
// pkg/go/doc/doc.go should be adjusted since it hardwires
// this name in a heuristic.
// NewSyscallError returns, as an Error, a new SyscallError
// with the given system call name and error number.
// As a convenience, if errno is 0, NewSyscallError returns nil.
func NewSyscallError(syscall string, errno int) Error {
if errno == 0 {
return nil
}
return &SyscallError{syscall, Errno(errno)}
}
// Copyright 2011 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package os
import syscall "syscall"
// SyscallError records an error from a specific system call.
type SyscallError struct {
Syscall string
Err string
}
func (e *SyscallError) String() string { return e.Syscall + ": " + e.Err }
// Note: If the name of the function NewSyscallError changes,
// pkg/go/doc/doc.go should be adjusted since it hardwires
// this name in a heuristic.
// NewSyscallError returns, as an Error, a new SyscallError
// with the given system call name and error details.
// As a convenience, if err is nil, NewSyscallError returns nil.
func NewSyscallError(syscall string, err syscall.Error) Error {
if err == nil {
return nil
}
return &SyscallError{syscall, err.String()}
}
var (
Eshortstat = NewError("stat buffer too small")
Ebadstat = NewError("malformed stat buffer")
Ebadfd = NewError("fd out of range or not open")
Ebadarg = NewError("bad arg in system call")
Enotdir = NewError("not a directory")
Enonexist = NewError("file does not exist")
EINVAL = Ebadarg
ENOTDIR = Enotdir
ENOENT = Enonexist
ENAMETOOLONG = NewError("file name too long")
ERANGE = NewError("math result not representable")
EPIPE = NewError("Broken Pipe")
EPLAN9 = NewError("not supported by plan 9")
)
func iserror(err syscall.Error) bool {
return err != nil
}
func Errno(e syscall.Error) syscall.Error { return e }
// Copyright 2009 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package os
import syscall "syscall"
// Errno is the Unix error number. Names such as EINVAL are simple
// wrappers to convert the error number into an Error.
type Errno int64
func (e Errno) String() string { return syscall.Errstr(int(e)) }
func (e Errno) Temporary() bool {
return e == Errno(syscall.EINTR) || e.Timeout()
}
func (e Errno) Timeout() bool {
return e == Errno(syscall.EAGAIN) || e == Errno(syscall.EWOULDBLOCK) || e == Errno(syscall.ETIMEDOUT)
}
// Commonly known Unix errors.
var (
EPERM Error = Errno(syscall.EPERM)
ENOENT Error = Errno(syscall.ENOENT)
ESRCH Error = Errno(syscall.ESRCH)
EINTR Error = Errno(syscall.EINTR)
EIO Error = Errno(syscall.EIO)
ENXIO Error = Errno(syscall.ENXIO)
E2BIG Error = Errno(syscall.E2BIG)
ENOEXEC Error = Errno(syscall.ENOEXEC)
EBADF Error = Errno(syscall.EBADF)
ECHILD Error = Errno(syscall.ECHILD)
EDEADLK Error = Errno(syscall.EDEADLK)
ENOMEM Error = Errno(syscall.ENOMEM)
EACCES Error = Errno(syscall.EACCES)
EFAULT Error = Errno(syscall.EFAULT)
EBUSY Error = Errno(syscall.EBUSY)
EEXIST Error = Errno(syscall.EEXIST)
EXDEV Error = Errno(syscall.EXDEV)
ENODEV Error = Errno(syscall.ENODEV)
ENOTDIR Error = Errno(syscall.ENOTDIR)
EISDIR Error = Errno(syscall.EISDIR)
EINVAL Error = Errno(syscall.EINVAL)
ENFILE Error = Errno(syscall.ENFILE)
EMFILE Error = Errno(syscall.EMFILE)
ENOTTY Error = Errno(syscall.ENOTTY)
EFBIG Error = Errno(syscall.EFBIG)
ENOSPC Error = Errno(syscall.ENOSPC)
ESPIPE Error = Errno(syscall.ESPIPE)
EROFS Error = Errno(syscall.EROFS)
EMLINK Error = Errno(syscall.EMLINK)
EPIPE Error = Errno(syscall.EPIPE)
EAGAIN Error = Errno(syscall.EAGAIN)
EDOM Error = Errno(syscall.EDOM)
ERANGE Error = Errno(syscall.ERANGE)
EADDRINUSE Error = Errno(syscall.EADDRINUSE)
ECONNREFUSED Error = Errno(syscall.ECONNREFUSED)
ENAMETOOLONG Error = Errno(syscall.ENAMETOOLONG)
EAFNOSUPPORT Error = Errno(syscall.EAFNOSUPPORT)
ETIMEDOUT Error = Errno(syscall.ETIMEDOUT)
ENOTCONN Error = Errno(syscall.ENOTCONN)
)
// SyscallError records an error from a specific system call.
type SyscallError struct {
Syscall string
Errno Errno
}
func (e *SyscallError) String() string { return e.Syscall + ": " + e.Errno.String() }
// Note: If the name of the function NewSyscallError changes,
// pkg/go/doc/doc.go should be adjusted since it hardwires
// this name in a heuristic.
// NewSyscallError returns, as an Error, a new SyscallError
// with the given system call name and error details.
// As a convenience, if errno is 0, NewSyscallError returns nil.
func NewSyscallError(syscall string, errno int) Error {
if errno == 0 {
return nil
}
return &SyscallError{syscall, Errno(errno)}
}
func iserror(errno int) bool {
return errno != 0
}
......@@ -39,126 +39,6 @@ type ProcAttr struct {
Files []*File
}
// StartProcess starts a new process with the program, arguments and attributes
// specified by name, argv and attr.
func StartProcess(name string, argv []string, attr *ProcAttr) (p *Process, err Error) {
sysattr := &syscall.ProcAttr{
Dir: attr.Dir,
Env: attr.Env,
}
if sysattr.Env == nil {
sysattr.Env = Environ()
}
// Create array of integer (system) fds.
intfd := make([]int, len(attr.Files))
for i, f := range attr.Files {
if f == nil {
intfd[i] = -1
} else {
intfd[i] = f.Fd()
}
}
sysattr.Files = intfd
pid, h, e := syscall.StartProcess(name, argv, sysattr)
if e != 0 {
return nil, &PathError{"fork/exec", name, Errno(e)}
}
return newProcess(pid, h), nil
}
// Exec replaces the current process with an execution of the
// named binary, with arguments argv and environment envv.
// If successful, Exec never returns. If it fails, it returns an Error.
// StartProcess is almost always a better way to execute a program.
func Exec(name string, argv []string, envv []string) Error {
if envv == nil {
envv = Environ()
}
e := syscall.Exec(name, argv, envv)
if e != 0 {
return &PathError{"exec", name, Errno(e)}
}
return nil
}
// TODO(rsc): Should os implement its own syscall.WaitStatus
// wrapper with the methods, or is exposing the underlying one enough?
//
// TODO(rsc): Certainly need to have Rusage struct,
// since syscall one might have different field types across
// different OS.
// Waitmsg stores the information about an exited process as reported by Wait.
type Waitmsg struct {
Pid int // The process's id.
syscall.WaitStatus // System-dependent status info.
Rusage *syscall.Rusage // System-dependent resource usage info.
}
// Wait waits for process pid to exit or stop, and then returns a
// Waitmsg describing its status and an Error, if any. The options
// (WNOHANG etc.) affect the behavior of the Wait call.
// Wait is equivalent to calling FindProcess and then Wait
// and Release on the result.
func Wait(pid int, options int) (w *Waitmsg, err Error) {
p, e := FindProcess(pid)
if e != nil {
return nil, e
}
defer p.Release()
return p.Wait(options)
}
// Convert i to decimal string.
func itod(i int) string {
if i == 0 {
return "0"
}
u := uint64(i)
if i < 0 {
u = -u
}
// Assemble decimal in reverse order.
var b [32]byte
bp := len(b)
for ; u > 0; u /= 10 {
bp--
b[bp] = byte(u%10) + '0'
}
if i < 0 {
bp--
b[bp] = '-'
}
return string(b[bp:])
}
func (w Waitmsg) String() string {
// TODO(austin) Use signal names when possible?
res := ""
switch {
case w.Exited():
res = "exit status " + itod(w.ExitStatus())
case w.Signaled():
res = "signal " + itod(w.Signal())
case w.Stopped():
res = "stop signal " + itod(w.StopSignal())
if w.StopSignal() == syscall.SIGTRAP && w.TrapCause() != 0 {
res += " (trap " + itod(w.TrapCause()) + ")"
}
case w.Continued():
res = "continued"
}
if w.CoreDump() {
res += " (core dumped)"
}
return res
}
// Getpid returns the process id of the caller.
func Getpid() int { return syscall.Getpid() }
......
// Copyright 2009 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package os
import (
"runtime"
"syscall"
)
// StartProcess starts a new process with the program, arguments and attributes
// specified by name, argv and attr.
func StartProcess(name string, argv []string, attr *ProcAttr) (p *Process, err Error) {
sysattr := &syscall.ProcAttr{
Dir: attr.Dir,
Env: attr.Env,
}
// Create array of integer (system) fds.
intfd := make([]int, len(attr.Files))
for i, f := range attr.Files {
if f == nil {
intfd[i] = -1
} else {
intfd[i] = f.Fd()
}
}
sysattr.Files = intfd
pid, h, e := syscall.StartProcess(name, argv, sysattr)
if iserror(e) {
return nil, &PathError{"fork/exec", name, e}
}
return newProcess(pid, h), nil
}
// Exec replaces the current process with an execution of the
// named binary, with arguments argv and environment envv.
// If successful, Exec never returns. If it fails, it returns an Error.
// ForkExec is almost always a better way to execute a program.
func Exec(name string, argv []string, envv []string) Error {
e := syscall.Exec(name, argv, envv)
if iserror(e) {
return &PathError{"exec", name, e}
}
return nil
}
// Waitmsg stores the information about an exited process as reported by Wait.
type Waitmsg syscall.Waitmsg
// Wait waits for the Process to exit or stop, and then returns a
// Waitmsg describing its status and an Error, if any. The options
// (WNOHANG etc.) affect the behavior of the Wait call.
func (p *Process) Wait(options int) (w *Waitmsg, err Error) {
var waitmsg syscall.Waitmsg
if p.Pid == -1 {
return nil, EINVAL
}
for true {
err = syscall.Await(&waitmsg)
if iserror(err) {
return nil, NewSyscallError("wait", err)
}
if waitmsg.Pid == p.Pid {
break
}
}
return (*Waitmsg)(&waitmsg), nil
}
// Wait waits for process pid to exit or stop, and then returns a
// Waitmsg describing its status and an Error, if any. The options
// (WNOHANG etc.) affect the behavior of the Wait call.
// Wait is equivalent to calling FindProcess and then Wait
// and Release on the result.
func Wait(pid int, options int) (w *Waitmsg, err Error) {
p, e := FindProcess(pid)
if e != nil {
return nil, e
}
defer p.Release()
return p.Wait(options)
}
// Release releases any resources associated with the Process.
func (p *Process) Release() Error {
// NOOP for Plan 9.
p.Pid = -1
// no need for a finalizer anymore
runtime.SetFinalizer(p, nil)
return nil
}
// FindProcess looks for a running process by its pid.
// The Process it returns can be used to obtain information
// about the underlying operating system process.
func FindProcess(pid int) (p *Process, err Error) {
// NOOP for Plan 9.
return newProcess(pid, 0), nil
}
func (w Waitmsg) String() string {
return "exit status: " + w.Msg
}
// Copyright 2009 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package os
import "syscall"
// StartProcess starts a new process with the program, arguments and attributes
// specified by name, argv and attr.
func StartProcess(name string, argv []string, attr *ProcAttr) (p *Process, err Error) {
sysattr := &syscall.ProcAttr{
Dir: attr.Dir,
Env: attr.Env,
}
if sysattr.Env == nil {
sysattr.Env = Environ()
}
// Create array of integer (system) fds.
intfd := make([]int, len(attr.Files))
for i, f := range attr.Files {
if f == nil {
intfd[i] = -1
} else {
intfd[i] = f.Fd()
}
}
sysattr.Files = intfd
pid, h, e := syscall.StartProcess(name, argv, sysattr)
if iserror(e) {
return nil, &PathError{"fork/exec", name, Errno(e)}
}
return newProcess(pid, h), nil
}
// Exec replaces the current process with an execution of the
// named binary, with arguments argv and environment envv.
// If successful, Exec never returns. If it fails, it returns an Error.
// StartProcess is almost always a better way to execute a program.
func Exec(name string, argv []string, envv []string) Error {
if envv == nil {
envv = Environ()
}
e := syscall.Exec(name, argv, envv)
if iserror(e) {
return &PathError{"exec", name, Errno(e)}
}
return nil
}
// TODO(rsc): Should os implement its own syscall.WaitStatus
// wrapper with the methods, or is exposing the underlying one enough?
//
// TODO(rsc): Certainly need to have Rusage struct,
// since syscall one might have different field types across
// different OS.
// Waitmsg stores the information about an exited process as reported by Wait.
type Waitmsg struct {
Pid int // The process's id.
syscall.WaitStatus // System-dependent status info.
Rusage *syscall.Rusage // System-dependent resource usage info.
}
// Wait waits for process pid to exit or stop, and then returns a
// Waitmsg describing its status and an Error, if any. The options
// (WNOHANG etc.) affect the behavior of the Wait call.
// Wait is equivalent to calling FindProcess and then Wait
// and Release on the result.
func Wait(pid int, options int) (w *Waitmsg, err Error) {
p, e := FindProcess(pid)
if e != nil {
return nil, e
}
defer p.Release()
return p.Wait(options)
}
// Convert i to decimal string.
func itod(i int) string {
if i == 0 {
return "0"
}
u := uint64(i)
if i < 0 {
u = -u
}
// Assemble decimal in reverse order.
var b [32]byte
bp := len(b)
for ; u > 0; u /= 10 {
bp--
b[bp] = byte(u%10) + '0'
}
if i < 0 {
bp--
b[bp] = '-'
}
return string(b[bp:])
}
func (w Waitmsg) String() string {
// TODO(austin) Use signal names when possible?
res := ""
switch {
case w.Exited():
res = "exit status " + itod(w.ExitStatus())
case w.Signaled():
res = "signal " + itod(w.Signal())
case w.Stopped():
res = "stop signal " + itod(w.StopSignal())
if w.StopSignal() == syscall.SIGTRAP && w.TrapCause() != 0 {
res += " (trap " + itod(w.TrapCause()) + ")"
}
case w.Continued():
res = "continued"
}
if w.CoreDump() {
res += " (core dumped)"
}
return res
}
......@@ -83,10 +83,10 @@ func (file *File) Read(b []byte) (n int, err Error) {
if n < 0 {
n = 0
}
if n == 0 && e == 0 {
if n == 0 && !iserror(e) {
return 0, EOF
}
if e != 0 {
if iserror(e) {
err = &PathError{"read", file.name, Errno(e)}
}
return n, err
......@@ -102,10 +102,10 @@ func (file *File) ReadAt(b []byte, off int64) (n int, err Error) {
}
for len(b) > 0 {
m, e := syscall.Pread(file.fd, b, off)
if m == 0 && e == 0 {
if m == 0 && !iserror(e) {
return n, EOF
}
if e != 0 {
if iserror(e) {
err = &PathError{"read", file.name, Errno(e)}
break
}
......@@ -127,15 +127,10 @@ func (file *File) Write(b []byte) (n int, err Error) {
if n < 0 {
n = 0
}
if e == syscall.EPIPE {
file.nepipe++
if file.nepipe >= 10 {
Exit(syscall.EPIPE)
}
} else {
file.nepipe = 0
}
if e != 0 {
epipecheck(file, e)
if iserror(e) {
err = &PathError{"write", file.name, Errno(e)}
}
return n, err
......@@ -150,7 +145,7 @@ func (file *File) WriteAt(b []byte, off int64) (n int, err Error) {
}
for len(b) > 0 {
m, e := syscall.Pwrite(file.fd, b, off)
if e != 0 {
if iserror(e) {
err = &PathError{"write", file.name, Errno(e)}
break
}
......@@ -167,10 +162,10 @@ func (file *File) WriteAt(b []byte, off int64) (n int, err Error) {
// It returns the new offset and an Error, if any.
func (file *File) Seek(offset int64, whence int) (ret int64, err Error) {
r, e := syscall.Seek(file.fd, offset, whence)
if e == 0 && file.dirinfo != nil && r != 0 {
if !iserror(e) && file.dirinfo != nil && r != 0 {
e = syscall.EISDIR
}
if e != 0 {
if iserror(e) {
return 0, &PathError{"seek", file.name, Errno(e)}
}
return r, nil
......@@ -187,71 +182,19 @@ func (file *File) WriteString(s string) (ret int, err Error) {
return file.Write(b)
}
// Pipe returns a connected pair of Files; reads from r return bytes written to w.
// It returns the files and an Error, if any.
func Pipe() (r *File, w *File, err Error) {
var p [2]int
// See ../syscall/exec.go for description of lock.
syscall.ForkLock.RLock()
e := syscall.Pipe(p[0:])
if e != 0 {
syscall.ForkLock.RUnlock()
return nil, nil, NewSyscallError("pipe", e)
}
syscall.CloseOnExec(p[0])
syscall.CloseOnExec(p[1])
syscall.ForkLock.RUnlock()
return NewFile(p[0], "|0"), NewFile(p[1], "|1"), nil
}
// Mkdir creates a new directory with the specified name and permission bits.
// It returns an error, if any.
func Mkdir(name string, perm uint32) Error {
e := syscall.Mkdir(name, perm)
if e != 0 {
if iserror(e) {
return &PathError{"mkdir", name, Errno(e)}
}
return nil
}
// Stat returns a FileInfo structure describing the named file and an error, if any.
// If name names a valid symbolic link, the returned FileInfo describes
// the file pointed at by the link and has fi.FollowedSymlink set to true.
// If name names an invalid symbolic link, the returned FileInfo describes
// the link itself and has fi.FollowedSymlink set to false.
func Stat(name string) (fi *FileInfo, err Error) {
var lstat, stat syscall.Stat_t
e := syscall.Lstat(name, &lstat)
if e != 0 {
return nil, &PathError{"stat", name, Errno(e)}
}
statp := &lstat
if lstat.Mode&syscall.S_IFMT == syscall.S_IFLNK {
e := syscall.Stat(name, &stat)
if e == 0 {
statp = &stat
}
}
return fileInfoFromStat(name, new(FileInfo), &lstat, statp), nil
}
// Lstat returns the FileInfo structure describing the named file and an
// error, if any. If the file is a symbolic link, the returned FileInfo
// describes the symbolic link. Lstat makes no attempt to follow the link.
func Lstat(name string) (fi *FileInfo, err Error) {
var stat syscall.Stat_t
e := syscall.Lstat(name, &stat)
if e != 0 {
return nil, &PathError{"lstat", name, Errno(e)}
}
return fileInfoFromStat(name, new(FileInfo), &stat, &stat), nil
}
// Chdir changes the current working directory to the named directory.
func Chdir(dir string) Error {
if e := syscall.Chdir(dir); e != 0 {
if e := syscall.Chdir(dir); iserror(e) {
return &PathError{"chdir", dir, Errno(e)}
}
return nil
......@@ -260,179 +203,8 @@ func Chdir(dir string) Error {
// Chdir changes the current working directory to the file,
// which must be a directory.
func (f *File) Chdir() Error {
if e := syscall.Fchdir(f.fd); e != 0 {
if e := syscall.Fchdir(f.fd); iserror(e) {
return &PathError{"chdir", f.name, Errno(e)}
}
return nil
}
// Remove removes the named file or directory.
func Remove(name string) Error {
// System call interface forces us to know
// whether name is a file or directory.
// Try both: it is cheaper on average than
// doing a Stat plus the right one.
e := syscall.Unlink(name)
if e == 0 {
return nil
}
e1 := syscall.Rmdir(name)
if e1 == 0 {
return nil
}
// Both failed: figure out which error to return.
// OS X and Linux differ on whether unlink(dir)
// returns EISDIR, so can't use that. However,
// both agree that rmdir(file) returns ENOTDIR,
// so we can use that to decide which error is real.
// Rmdir might also return ENOTDIR if given a bad
// file path, like /etc/passwd/foo, but in that case,
// both errors will be ENOTDIR, so it's okay to
// use the error from unlink.
// For windows syscall.ENOTDIR is set
// to syscall.ERROR_DIRECTORY, hopefully it should
// do the trick.
if e1 != syscall.ENOTDIR {
e = e1
}
return &PathError{"remove", name, Errno(e)}
}
// LinkError records an error during a link or symlink or rename
// system call and the paths that caused it.
type LinkError struct {
Op string
Old string
New string
Error Error
}
func (e *LinkError) String() string {
return e.Op + " " + e.Old + " " + e.New + ": " + e.Error.String()
}
// Link creates a hard link.
func Link(oldname, newname string) Error {
e := syscall.Link(oldname, newname)
if e != 0 {
return &LinkError{"link", oldname, newname, Errno(e)}
}
return nil
}
// Symlink creates a symbolic link.
func Symlink(oldname, newname string) Error {
e := syscall.Symlink(oldname, newname)
if e != 0 {
return &LinkError{"symlink", oldname, newname, Errno(e)}
}
return nil
}
// Readlink reads the contents of a symbolic link: the destination of
// the link. It returns the contents and an Error, if any.
func Readlink(name string) (string, Error) {
for len := 128; ; len *= 2 {
b := make([]byte, len)
n, e := syscall.Readlink(name, b)
if e != 0 {
return "", &PathError{"readlink", name, Errno(e)}
}
if n < len {
return string(b[0:n]), nil
}
}
// Silence 6g.
return "", nil
}
// Rename renames a file.
func Rename(oldname, newname string) Error {
e := syscall.Rename(oldname, newname)
if e != 0 {
return &LinkError{"rename", oldname, newname, Errno(e)}
}
return nil
}
// Chmod changes the mode of the named file to mode.
// If the file is a symbolic link, it changes the mode of the link's target.
func Chmod(name string, mode uint32) Error {
if e := syscall.Chmod(name, mode); e != 0 {
return &PathError{"chmod", name, Errno(e)}
}
return nil
}
// Chmod changes the mode of the file to mode.
func (f *File) Chmod(mode uint32) Error {
if e := syscall.Fchmod(f.fd, mode); e != 0 {
return &PathError{"chmod", f.name, Errno(e)}
}
return nil
}
// Chown changes the numeric uid and gid of the named file.
// If the file is a symbolic link, it changes the uid and gid of the link's target.
func Chown(name string, uid, gid int) Error {
if e := syscall.Chown(name, uid, gid); e != 0 {
return &PathError{"chown", name, Errno(e)}
}
return nil
}
// Lchown changes the numeric uid and gid of the named file.
// If the file is a symbolic link, it changes the uid and gid of the link itself.
func Lchown(name string, uid, gid int) Error {
if e := syscall.Lchown(name, uid, gid); e != 0 {
return &PathError{"lchown", name, Errno(e)}
}
return nil
}
// Chown changes the numeric uid and gid of the named file.
func (f *File) Chown(uid, gid int) Error {
if e := syscall.Fchown(f.fd, uid, gid); e != 0 {
return &PathError{"chown", f.name, Errno(e)}
}
return nil
}
// Truncate changes the size of the file.
// It does not change the I/O offset.
func (f *File) Truncate(size int64) Error {
if e := syscall.Ftruncate(f.fd, size); e != 0 {
return &PathError{"truncate", f.name, Errno(e)}
}
return nil
}
// Sync commits the current contents of the file to stable storage.
// Typically, this means flushing the file system's in-memory copy
// of recently written data to disk.
func (file *File) Sync() (err Error) {
if file == nil {
return EINVAL
}
if e := syscall.Fsync(file.fd); e != 0 {
return NewSyscallError("fsync", e)
}
return nil
}
// Chtimes changes the access and modification times of the named
// file, similar to the Unix utime() or utimes() functions.
//
// The argument times are in nanoseconds, although the underlying
// filesystem may truncate or round the values to a more
// coarse time unit.
func Chtimes(name string, atime_ns int64, mtime_ns int64) Error {
var utimes [2]syscall.Timeval
utimes[0] = syscall.NsecToTimeval(atime_ns)
utimes[1] = syscall.NsecToTimeval(mtime_ns)
if e := syscall.Utimes(name, utimes[0:]); e != 0 {
return &PathError{"chtimes", name, Errno(e)}
}
return nil
}
// Copyright 2011 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package os
import (
"runtime"
"syscall"
)
func epipecheck(file *File, e syscall.Error) {
}
// DevNull is the name of the operating system's ``null device.''
// On Unix-like systems, it is "/dev/null"; on Windows, "NUL".
const DevNull = "/dev/null"
// Open opens the named file with specified flag (O_RDONLY etc.) and perm.
// If successful, methods on the returned File can be used for I/O.
// It returns the File and an Error, if any.
func Open(name string, flag int, perm uint32) (file *File, err Error) {
var fd int
var e syscall.Error
syscall.ForkLock.RLock()
if flag&O_CREAT == O_CREAT {
fd, e = syscall.Create(name, flag & ^O_CREAT, perm)
} else {
fd, e = syscall.Open(name, flag)
}
syscall.ForkLock.RUnlock()
if e != nil {
return nil, &PathError{"open", name, e}
}
return NewFile(fd, name), nil
}
// Close closes the File, rendering it unusable for I/O.
// It returns an Error, if any.
func (file *File) Close() Error {
if file == nil || file.fd < 0 {
return Ebadfd
}
var err Error
syscall.ForkLock.RLock()
if e := syscall.Close(file.fd); e != nil {
err = &PathError{"close", file.name, e}
}
syscall.ForkLock.RUnlock()
file.fd = -1 // so it can't be closed again
// no need for a finalizer anymore
runtime.SetFinalizer(file, nil)
return err
}
// Stat returns the FileInfo structure describing file.
// It returns the FileInfo and an error, if any.
func (file *File) Stat() (fi *FileInfo, err Error) {
return dirstat(file)
}
// Truncate changes the size of the file.
// It does not change the I/O offset.
func (f *File) Truncate(size int64) Error {
var d Dir
d.Null()
d.Length = uint64(size)
if e := syscall.Fwstat(f.fd, pdir(nil, &d)); iserror(e) {
return &PathError{"truncate", f.name, e}
}
return nil
}
// Chmod changes the mode of the file to mode.
func (f *File) Chmod(mode uint32) Error {
var d Dir
d.Null()
d.Mode = mode & 0777
if e := syscall.Fwstat(f.fd, pdir(nil, &d)); iserror(e) {
return &PathError{"chmod", f.name, e}
}
return nil
}
// Sync commits the current contents of the file to stable storage.
// Typically, this means flushing the file system's in-memory copy
// of recently written data to disk.
func (f *File) Sync() (err Error) {
if f == nil {
return EINVAL
}
var d Dir
d.Null()
if e := syscall.Fwstat(f.fd, pdir(nil, &d)); iserror(e) {
return NewSyscallError("fsync", e)
}
return nil
}
// Truncate changes the size of the named file.
// If the file is a symbolic link, it changes the size of the link's target.
func Truncate(name string, size int64) Error {
var d Dir
d.Null()
d.Length = uint64(size)
if e := syscall.Wstat(name, pdir(nil, &d)); iserror(e) {
return &PathError{"truncate", name, e}
}
return nil
}
// Remove removes the named file or directory.
func Remove(name string) Error {
if e := syscall.Remove(name); iserror(e) {
return &PathError{"remove", name, e}
}
return nil
}
// Rename renames a file.
func Rename(oldname, newname string) Error {
var d Dir
d.Null()
d.Name = newname
if e := syscall.Wstat(oldname, pdir(nil, &d)); iserror(e) {
return &PathError{"rename", oldname, e}
}
return nil
}
// Chmod changes the mode of the named file to mode.
func Chmod(name string, mode uint32) Error {
var d Dir
d.Null()
d.Mode = mode & 0777
if e := syscall.Wstat(name, pdir(nil, &d)); iserror(e) {
return &PathError{"chmod", name, e}
}
return nil
}
// ChownPlan9 changes the uid and gid strings of the named file.
func ChownPlan9(name, uid, gid string) Error {
var d Dir
d.Null()
d.Uid = uid
d.Gid = gid
if e := syscall.Wstat(name, pdir(nil, &d)); iserror(e) {
return &PathError{"chown_plan9", name, e}
}
return nil
}
// Chtimes changes the access and modification times of the named
// file, similar to the Unix utime() or utimes() functions.
//
// The argument times are in nanoseconds, although the underlying
// filesystem may truncate or round the values to a more
// coarse time unit.
func Chtimes(name string, atimeNs int64, mtimeNs int64) Error {
var d Dir
d.Null()
d.Atime = uint32(atimeNs / 1e9)
d.Mtime = uint32(mtimeNs / 1e9)
if e := syscall.Wstat(name, pdir(nil, &d)); iserror(e) {
return &PathError{"chtimes", name, e}
}
return nil
}
func Pipe() (r *File, w *File, err Error) {
var p [2]int
syscall.ForkLock.RLock()
if e := syscall.Pipe(p[0:]); iserror(e) {
syscall.ForkLock.RUnlock()
return nil, nil, NewSyscallError("pipe", e)
}
syscall.ForkLock.RUnlock()
return NewFile(p[0], "|0"), NewFile(p[1], "|1"), nil
}
// not supported on Plan 9
// Link creates a hard link.
func Link(oldname, newname string) Error {
return EPLAN9
}
func Symlink(oldname, newname string) Error {
return EPLAN9
}
func Readlink(name string) (string, Error) {
return "", EPLAN9
}
func Chown(name string, uid, gid int) Error {
return EPLAN9
}
func Lchown(name string, uid, gid int) Error {
return EPLAN9
}
func (f *File) Chown(uid, gid int) Error {
return EPLAN9
}
// Copyright 2009 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// The os package provides a platform-independent interface to operating
// system functionality. The design is Unix-like.
package os
import (
"syscall"
)
func epipecheck(file *File, e int) {
if e == syscall.EPIPE {
file.nepipe++
if file.nepipe >= 10 {
Exit(syscall.EPIPE)
}
} else {
file.nepipe = 0
}
}
// Pipe returns a connected pair of Files; reads from r return bytes written to w.
// It returns the files and an Error, if any.
func Pipe() (r *File, w *File, err Error) {
var p [2]int
// See ../syscall/exec.go for description of lock.
syscall.ForkLock.RLock()
e := syscall.Pipe(p[0:])
if iserror(e) {
syscall.ForkLock.RUnlock()
return nil, nil, NewSyscallError("pipe", e)
}
syscall.CloseOnExec(p[0])
syscall.CloseOnExec(p[1])
syscall.ForkLock.RUnlock()
return NewFile(p[0], "|0"), NewFile(p[1], "|1"), nil
}
// Stat returns a FileInfo structure describing the named file and an error, if any.
// If name names a valid symbolic link, the returned FileInfo describes
// the file pointed at by the link and has fi.FollowedSymlink set to true.
// If name names an invalid symbolic link, the returned FileInfo describes
// the link itself and has fi.FollowedSymlink set to false.
func Stat(name string) (fi *FileInfo, err Error) {
var lstat, stat syscall.Stat_t
e := syscall.Lstat(name, &lstat)
if iserror(e) {
return nil, &PathError{"stat", name, Errno(e)}
}
statp := &lstat
if lstat.Mode&syscall.S_IFMT == syscall.S_IFLNK {
e := syscall.Stat(name, &stat)
if !iserror(e) {
statp = &stat
}
}
return fileInfoFromStat(name, new(FileInfo), &lstat, statp), nil
}
// Lstat returns the FileInfo structure describing the named file and an
// error, if any. If the file is a symbolic link, the returned FileInfo
// describes the symbolic link. Lstat makes no attempt to follow the link.
func Lstat(name string) (fi *FileInfo, err Error) {
var stat syscall.Stat_t
e := syscall.Lstat(name, &stat)
if iserror(e) {
return nil, &PathError{"lstat", name, Errno(e)}
}
return fileInfoFromStat(name, new(FileInfo), &stat, &stat), nil
}
// Remove removes the named file or directory.
func Remove(name string) Error {
// System call interface forces us to know
// whether name is a file or directory.
// Try both: it is cheaper on average than
// doing a Stat plus the right one.
e := syscall.Unlink(name)
if !iserror(e) {
return nil
}
e1 := syscall.Rmdir(name)
if !iserror(e1) {
return nil
}
// Both failed: figure out which error to return.
// OS X and Linux differ on whether unlink(dir)
// returns EISDIR, so can't use that. However,
// both agree that rmdir(file) returns ENOTDIR,
// so we can use that to decide which error is real.
// Rmdir might also return ENOTDIR if given a bad
// file path, like /etc/passwd/foo, but in that case,
// both errors will be ENOTDIR, so it's okay to
// use the error from unlink.
// For windows syscall.ENOTDIR is set
// to syscall.ERROR_DIRECTORY, hopefully it should
// do the trick.
if e1 != syscall.ENOTDIR {
e = e1
}
return &PathError{"remove", name, Errno(e)}
}
// LinkError records an error during a link or symlink or rename
// system call and the paths that caused it.
type LinkError struct {
Op string
Old string
New string
Error Error
}
func (e *LinkError) String() string {
return e.Op + " " + e.Old + " " + e.New + ": " + e.Error.String()
}
// Link creates a hard link.
func Link(oldname, newname string) Error {
e := syscall.Link(oldname, newname)
if iserror(e) {
return &LinkError{"link", oldname, newname, Errno(e)}
}
return nil
}
// Symlink creates a symbolic link.
func Symlink(oldname, newname string) Error {
e := syscall.Symlink(oldname, newname)
if iserror(e) {
return &LinkError{"symlink", oldname, newname, Errno(e)}
}
return nil
}
// Readlink reads the contents of a symbolic link: the destination of
// the link. It returns the contents and an Error, if any.
func Readlink(name string) (string, Error) {
for len := 128; ; len *= 2 {
b := make([]byte, len)
n, e := syscall.Readlink(name, b)
if iserror(e) {
return "", &PathError{"readlink", name, Errno(e)}
}
if n < len {
return string(b[0:n]), nil
}
}
// Silence 6g.
return "", nil
}
// Rename renames a file.
func Rename(oldname, newname string) Error {
e := syscall.Rename(oldname, newname)
if iserror(e) {
return &LinkError{"rename", oldname, newname, Errno(e)}
}
return nil
}
// Chmod changes the mode of the named file to mode.
// If the file is a symbolic link, it changes the mode of the link's target.
func Chmod(name string, mode uint32) Error {
if e := syscall.Chmod(name, mode); iserror(e) {
return &PathError{"chmod", name, Errno(e)}
}
return nil
}
// Chmod changes the mode of the file to mode.
func (f *File) Chmod(mode uint32) Error {
if e := syscall.Fchmod(f.fd, mode); iserror(e) {
return &PathError{"chmod", f.name, Errno(e)}
}
return nil
}
// Chown changes the numeric uid and gid of the named file.
// If the file is a symbolic link, it changes the uid and gid of the link's target.
func Chown(name string, uid, gid int) Error {
if e := syscall.Chown(name, uid, gid); iserror(e) {
return &PathError{"chown", name, Errno(e)}
}
return nil
}
// Lchown changes the numeric uid and gid of the named file.
// If the file is a symbolic link, it changes the uid and gid of the link itself.
func Lchown(name string, uid, gid int) Error {
if e := syscall.Lchown(name, uid, gid); iserror(e) {
return &PathError{"lchown", name, Errno(e)}
}
return nil
}
// Chown changes the numeric uid and gid of the named file.
func (f *File) Chown(uid, gid int) Error {
if e := syscall.Fchown(f.fd, uid, gid); iserror(e) {
return &PathError{"chown", f.name, Errno(e)}
}
return nil
}
// Truncate changes the size of the file.
// It does not change the I/O offset.
func (f *File) Truncate(size int64) Error {
if e := syscall.Ftruncate(f.fd, size); iserror(e) {
return &PathError{"truncate", f.name, Errno(e)}
}
return nil
}
// Sync commits the current contents of the file to stable storage.
// Typically, this means flushing the file system's in-memory copy
// of recently written data to disk.
func (file *File) Sync() (err Error) {
if file == nil {
return EINVAL
}
if e := syscall.Fsync(file.fd); iserror(e) {
return NewSyscallError("fsync", e)
}
return nil
}
// Chtimes changes the access and modification times of the named
// file, similar to the Unix utime() or utimes() functions.
//
// The argument times are in nanoseconds, although the underlying
// filesystem may truncate or round the values to a more
// coarse time unit.
func Chtimes(name string, atime_ns int64, mtime_ns int64) Error {
var utimes [2]syscall.Timeval
utimes[0] = syscall.NsecToTimeval(atime_ns)
utimes[1] = syscall.NsecToTimeval(mtime_ns)
if e := syscall.Utimes(name, utimes[0:]); iserror(e) {
return &PathError{"chtimes", name, Errno(e)}
}
return nil
}
......@@ -26,8 +26,8 @@ func Getegid() int { return syscall.Getegid() }
// Getgroups returns a list of the numeric ids of groups that the caller belongs to.
func Getgroups() ([]int, Error) {
gids, errno := syscall.Getgroups()
return gids, NewSyscallError("getgroups", errno)
gids, e := syscall.Getgroups()
return gids, NewSyscallError("getgroups", e)
}
// Exit causes the current program to exit with the given status code.
......
// Copyright 2011 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package os
import "syscall"
func fileInfoFromStat(fi *FileInfo, d *Dir) *FileInfo {
fi.Dev = uint64(d.Qid.Vers) | uint64(d.Qid.Type<<32)
fi.Ino = d.Qid.Path
fi.Mode = uint32(d.Mode) & 0777
if (d.Mode & syscall.DMDIR) == syscall.DMDIR {
fi.Mode |= syscall.S_IFDIR
} else {
fi.Mode |= syscall.S_IFREG
}
fi.Size = int64(d.Length)
fi.Atime_ns = 1e9 * int64(d.Atime)
fi.Mtime_ns = 1e9 * int64(d.Mtime)
fi.Name = d.Name
fi.FollowedSymlink = false
return fi
}
// arg is an open *File or a path string.
func dirstat(arg interface{}) (fi *FileInfo, err Error) {
var name string
nd := syscall.STATFIXLEN + 16*4
for i := 0; i < 2; i++ { /* should work by the second try */
buf := make([]byte, nd)
var n int
var e syscall.Error
switch syscallArg := arg.(type) {
case *File:
name = syscallArg.name
n, e = syscall.Fstat(syscallArg.fd, buf)
case string:
name = syscallArg
n, e = syscall.Stat(name, buf)
}
if e != nil {
return nil, &PathError{"stat", name, e}
}
if n < syscall.STATFIXLEN {
return nil, &PathError{"stat", name, Eshortstat}
}
ntmp, _ := gbit16(buf)
nd = int(ntmp)
if nd <= n {
d, e := UnmarshalDir(buf[:n])
if e != nil {
return nil, &PathError{"stat", name, e}
}
return fileInfoFromStat(new(FileInfo), d), nil
}
}
return nil, &PathError{"stat", name, Ebadstat}
}
// Stat returns a FileInfo structure describing the named file and an error, if any.
func Stat(name string) (fi *FileInfo, err Error) {
return dirstat(name)
}
// Lstat returns the FileInfo structure describing the named file and an
// error, if any. If the file is a symbolic link (though Plan 9 does not have symbolic links),
// the returned FileInfo describes the symbolic link. Lstat makes no attempt to follow the link.
func Lstat(name string) (fi *FileInfo, err Error) {
return dirstat(name)
}
// Copyright 2011 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// Plan 9-specific
package os
func Hostname() (name string, err Error) {
f, err := Open("#c/sysname", O_RDONLY, 0)
if err != nil {
return "", err
}
defer f.Close()
var buf [128]byte
n, err := f.Read(buf[:len(buf)-1])
if err != nil {
return "", err
}
if n > 0 {
buf[n] = 0
}
return string(buf[0:n]), nil
}
......@@ -13,8 +13,8 @@ import "syscall"
// time is the Unix epoch.
func Time() (sec int64, nsec int64, err Error) {
var tv syscall.Timeval
if errno := syscall.Gettimeofday(&tv); errno != 0 {
return 0, 0, NewSyscallError("gettimeofday", errno)
if e := syscall.Gettimeofday(&tv); iserror(e) {
return 0, 0, NewSyscallError("gettimeofday", e)
}
return int64(tv.Sec), int64(tv.Usec) * 1000, err
}
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