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Merge pull request #495 from xushiwei/q

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patch library: syscall, os, os/exec; demo: cexec; oslookpath
This commit is contained in:
xushiwei
2024-07-12 01:20:03 +08:00
committed by GitHub
parent 4d006230f9 2cf92037e9
commit c7a078f17f
91 changed files with 22712 additions and 139 deletions
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20
_demo/cexec/exec.go Normal file
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@@ -0,0 +1,20 @@
package main
import (
"runtime"
"unsafe"
"github.com/goplus/llgo/c"
"github.com/goplus/llgo/c/os"
)
func main() {
ls := c.Str("ls")
args := []*c.Char{ls, c.Str("-l"), nil}
if runtime.GOOS == "windows" {
ls = c.Str("dir")
args = []*c.Char{ls, nil}
}
os.Execvp(ls, unsafe.SliceData(args))
}

19
_demo/oslookpath/lookpath.go Normal file
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@@ -0,0 +1,19 @@
package main
import (
"fmt"
"os/exec"
"runtime"
)
func main() {
ls := "ls"
if runtime.GOOS == "windows" {
ls = "dir"
}
lspath, _ := exec.LookPath(ls)
if lspath != "" {
ls = lspath
}
fmt.Println(ls)
}

26
_demo/sysexec/exec.go Normal file
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@@ -0,0 +1,26 @@
package main
import (
"fmt"
"os/exec"
"runtime"
"syscall"
)
func main() {
ls := "ls"
args := []string{"ls", "-l"}
if runtime.GOOS == "windows" {
ls = "dir"
args = nil
}
lspath, _ := exec.LookPath(ls)
if lspath != "" {
ls = lspath
}
err := syscall.Exec(ls, args, nil)
if err != nil {
fmt.Println("syscall.Exec error:", err)
return
}
}

42
c/os/os.go
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@@ -24,6 +24,7 @@ import (
_ "unsafe"
"github.com/goplus/llgo/c"
"github.com/goplus/llgo/c/syscall"
)
const (
@@ -40,7 +41,10 @@ type (
GidT C.gid_t
OffT C.off_t
DevT C.dev_t
StatT C.struct_stat
)
type (
StatT = syscall.Stat_t
)
//go:linkname Errno errno
@@ -104,8 +108,8 @@ func Chroot(path *c.Char) c.Int
// -----------------------------------------------------------------------------
//go:linkname Environ C.environ
func Environ() **c.Char
//go:linkname Environ environ
var Environ **c.Char
//go:linkname Getenv C.getenv
func Getenv(name *c.Char) *c.Char
@@ -204,6 +208,38 @@ func Isatty(fd c.Int) c.Int
// -----------------------------------------------------------------------------
// Execl(const char *path, const char *arg0, ..., /*, (char *)0, */)
//
// Execl requires the full path of the program to be provided.
//
//go:linkname Execl C.execl
func Execl(path *c.Char, __llgo_va_list ...any) c.Int
// Execle(const char *path, const char *arg0, ..., /* (char *)0, char *const envp[] */)
//
//go:linkname Execle C.execle
func Execle(path *c.Char, __llgo_va_list ...any) c.Int
// Execlp(const char *file, const char *arg0, ..., /*, (char *)0, */)
//
// Execlp only needs to provide the program name and it will search for the program in the
// paths specified in the PATH environment variable.
//
//go:linkname Execlp C.execlp
func Execlp(file *c.Char, __llgo_va_list ...any) c.Int
//go:linkname Execv C.execv
func Execv(path *c.Char, argv **c.Char) c.Int
//go:linkname Execve C.execve
func Execve(path *c.Char, argv **c.Char, envp **c.Char) c.Int
//go:linkname Execvp C.execvp
func Execvp(file *c.Char, argv **c.Char) c.Int
//go:linkname Fork C.fork
func Fork() c.Int
//go:linkname Kill C.kill
func Kill(pid c.Int, sig c.Int) c.Int

21
c/syscall/syscall.go Normal file
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@@ -0,0 +1,21 @@
/*
* Copyright (c) 2024 The GoPlus Authors (goplus.org). All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package syscall
const (
LLGoPackage = "decl"
)

10
c/syscall/unix/at_sysnum_darwin.go Normal file
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@@ -0,0 +1,10 @@
// Copyright 2018 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 unix
const AT_REMOVEDIR = 0x80
const AT_SYMLINK_NOFOLLOW = 0x0020
const UTIME_OMIT = -0x2

16
c/syscall/unix/at_sysnum_dragonfly.go Normal file
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@@ -0,0 +1,16 @@
// Copyright 2018 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 unix
import "syscall"
const unlinkatTrap uintptr = syscall.SYS_UNLINKAT
const openatTrap uintptr = syscall.SYS_OPENAT
const fstatatTrap uintptr = syscall.SYS_FSTATAT
const AT_REMOVEDIR = 0x2
const AT_SYMLINK_NOFOLLOW = 0x1
const UTIME_OMIT = -0x1

18
c/syscall/unix/at_sysnum_freebsd.go Normal file
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@@ -0,0 +1,18 @@
// Copyright 2018 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 unix
import "syscall"
const (
AT_REMOVEDIR = 0x800
AT_SYMLINK_NOFOLLOW = 0x200
UTIME_OMIT = -0x2
unlinkatTrap uintptr = syscall.SYS_UNLINKAT
openatTrap uintptr = syscall.SYS_OPENAT
posixFallocateTrap uintptr = syscall.SYS_POSIX_FALLOCATE
)

11
c/syscall/unix/at_sysnum_fstatat64_linux.go Normal file
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@@ -0,0 +1,11 @@
// Copyright 2018 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.
//go:build arm || mips || mipsle || 386
package unix
import "syscall"
const fstatatTrap uintptr = syscall.SYS_FSTATAT64

11
c/syscall/unix/at_sysnum_fstatat_linux.go Normal file
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@@ -0,0 +1,11 @@
// Copyright 2018 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.
//go:build arm64 || riscv64
package unix
import "syscall"
const fstatatTrap uintptr = syscall.SYS_FSTATAT

19
c/syscall/unix/at_sysnum_linux.go Normal file
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@@ -0,0 +1,19 @@
// Copyright 2018 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 unix
import "syscall"
const unlinkatTrap uintptr = syscall.SYS_UNLINKAT
const openatTrap uintptr = syscall.SYS_OPENAT
const (
AT_EACCESS = 0x200
AT_FDCWD = -0x64
AT_REMOVEDIR = 0x200
AT_SYMLINK_NOFOLLOW = 0x100
UTIME_OMIT = 0x3ffffffe
)

16
c/syscall/unix/at_sysnum_netbsd.go Normal file
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@@ -0,0 +1,16 @@
// Copyright 2018 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 unix
import "syscall"
const unlinkatTrap uintptr = syscall.SYS_UNLINKAT
const openatTrap uintptr = syscall.SYS_OPENAT
const fstatatTrap uintptr = syscall.SYS_FSTATAT
const AT_REMOVEDIR = 0x800
const AT_SYMLINK_NOFOLLOW = 0x200
const UTIME_OMIT = (1 << 30) - 2

11
c/syscall/unix/at_sysnum_newfstatat_linux.go Normal file
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@@ -0,0 +1,11 @@
// Copyright 2018 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.
//go:build amd64 || mips64 || mips64le || ppc64 || ppc64le || s390x
package unix
import "syscall"
const fstatatTrap uintptr = syscall.SYS_NEWFSTATAT

16
c/syscall/unix/at_sysnum_openbsd.go Normal file
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@@ -0,0 +1,16 @@
// Copyright 2018 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 unix
import "syscall"
const unlinkatTrap uintptr = syscall.SYS_UNLINKAT
const openatTrap uintptr = syscall.SYS_OPENAT
const fstatatTrap uintptr = syscall.SYS_FSTATAT
const AT_REMOVEDIR = 0x08
const AT_SYMLINK_NOFOLLOW = 0x02
const UTIME_OMIT = -0x1

288
c/syscall/ztypes_aix_ppc64.go Normal file
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@@ -0,0 +1,288 @@
// Code generated by cmd/cgo -godefs; DO NOT EDIT.
// cgo -godefs types_aix.go | go run mkpost.go
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
PathMax = 0x3ff
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int32
Pad_cgo_0 [4]byte
}
type Timeval32 struct {
Sec int32
Usec int32
}
type Timezone struct {
Minuteswest int32
Dsttime int32
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Pid_t int32
type _Gid_t uint32
type Flock_t struct {
Type int16
Whence int16
Sysid uint32
Pid int32
Vfs int32
Start int64
Len int64
}
type Stat_t struct {
Dev uint64
Ino uint64
Mode uint32
Nlink int16
Flag uint16
Uid uint32
Gid uint32
Rdev uint64
Ssize int32
Atim StTimespec_t
Mtim StTimespec_t
Ctim StTimespec_t
Blksize int64
Blocks int64
Vfstype int32
Vfs uint32
Type uint32
Gen uint32
Reserved [9]uint32
Padto_ll uint32
Size int64
}
type Statfs_t struct {
Version int32
Type int32
Bsize uint64
Blocks uint64
Bfree uint64
Bavail uint64
Files uint64
Ffree uint64
Fsid Fsid64_t
Vfstype int32
Fsize uint64
Vfsnumber int32
Vfsoff int32
Vfslen int32
Vfsvers int32
Fname [32]uint8
Fpack [32]uint8
Name_max int32
Pad_cgo_0 [4]byte
}
type Fsid64_t struct {
Val [2]uint64
}
type StTimespec_t struct {
Sec int64
Nsec int32
Pad_cgo_0 [4]byte
}
type Dirent struct {
Offset uint64
Ino uint64
Reclen uint16
Namlen uint16
Name [256]uint8
Pad_cgo_0 [4]byte
}
type RawSockaddrInet4 struct {
Len uint8
Family uint8
Port uint16
Addr [4]byte /* in_addr */
Zero [8]uint8
}
type RawSockaddrInet6 struct {
Len uint8
Family uint8
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Len uint8
Family uint8
Path [1023]uint8
}
type RawSockaddrDatalink struct {
Len uint8
Family uint8
Index uint16
Type uint8
Nlen uint8
Alen uint8
Slen uint8
Data [120]uint8
}
type RawSockaddr struct {
Len uint8
Family uint8
Data [14]uint8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [1012]uint8
}
type _Socklen uint32
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type ICMPv6Filter struct {
Filt [8]uint32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Linger struct {
Onoff int32
Linger int32
}
type Msghdr struct {
Name *byte
Namelen uint32
Iov *Iovec
Iovlen int32
Control *byte
Controllen uint32
Flags int32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x404
SizeofSockaddrUnix = 0x401
SizeofSockaddrDatalink = 0x80
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x30
SizeofCmsghdr = 0xc
SizeofICMPv6Filter = 0x20
)
const (
PTRACE_TRACEME = 0x0
PTRACE_CONT = 0x7
PTRACE_KILL = 0x8
)
const (
SizeofIfMsghdr = 0x10
)
type IfMsgHdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Addrlen uint8
Pad_cgo_0 [1]byte
}
type Utsname struct {
Sysname [32]uint8
Nodename [32]uint8
Release [32]uint8
Version [32]uint8
Machine [32]uint8
}
const (
_AT_FDCWD = -0x2
_AT_REMOVEDIR = 0x1
_AT_SYMLINK_NOFOLLOW = 0x1
)
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Cc [16]uint8
}

466
c/syscall/ztypes_darwin_amd64.go Normal file
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@@ -0,0 +1,466 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_darwin.go
//go:build amd64 && darwin
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int32
Pad_cgo_0 [4]byte
}
type Timeval32 struct {
Sec int32
Usec int32
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
type Stat_t struct {
Dev int32
Mode uint16
Nlink uint16
Ino uint64
Uid uint32
Gid uint32
Rdev int32
Pad_cgo_0 [4]byte
Atimespec Timespec
Mtimespec Timespec
Ctimespec Timespec
Birthtimespec Timespec
Size int64
Blocks int64
Blksize int32
Flags uint32
Gen uint32
Lspare int32
Qspare [2]int64
}
type Statfs_t struct {
Bsize uint32
Iosize int32
Blocks uint64
Bfree uint64
Bavail uint64
Files uint64
Ffree uint64
Fsid Fsid
Owner uint32
Type uint32
Flags uint32
Fssubtype uint32
Fstypename [16]int8
Mntonname [1024]int8
Mntfromname [1024]int8
Reserved [8]uint32
}
type Flock_t struct {
Start int64
Len int64
Pid int32
Type int16
Whence int16
}
type Fstore_t struct {
Flags uint32
Posmode int32
Offset int64
Length int64
Bytesalloc int64
}
type Radvisory_t struct {
Offset int64
Count int32
Pad_cgo_0 [4]byte
}
type Fbootstraptransfer_t struct {
Offset int64
Length uint64
Buffer *byte
}
type Log2phys_t struct {
Flags uint32
Contigbytes int64
Devoffset int64
}
type Fsid struct {
Val [2]int32
}
type Dirent struct {
Ino uint64
Seekoff uint64
Reclen uint16
Namlen uint16
Type uint8
Name [1024]int8
Pad_cgo_0 [3]byte
}
const (
pathMax = 0x400
)
type RawSockaddrInet4 struct {
Len uint8
Family uint8
Port uint16
Addr [4]byte /* in_addr */
Zero [8]int8
}
type RawSockaddrInet6 struct {
Len uint8
Family uint8
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Len uint8
Family uint8
Path [104]int8
}
type RawSockaddrDatalink struct {
Len uint8
Family uint8
Index uint16
Type uint8
Nlen uint8
Alen uint8
Slen uint8
Data [12]int8
}
type RawSockaddr struct {
Len uint8
Family uint8
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [92]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Pad_cgo_0 [4]byte
Iov *Iovec
Iovlen int32
Pad_cgo_1 [4]byte
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet4Pktinfo struct {
Ifindex uint32
Spec_dst [4]byte /* in_addr */
Addr [4]byte /* in_addr */
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Filt [8]uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x6c
SizeofSockaddrUnix = 0x6a
SizeofSockaddrDatalink = 0x14
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x30
SizeofCmsghdr = 0xc
SizeofInet4Pktinfo = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
)
const (
PTRACE_TRACEME = 0x0
PTRACE_CONT = 0x7
PTRACE_KILL = 0x8
)
type Kevent_t struct {
Ident uint64
Filter int16
Flags uint16
Fflags uint32
Data int64
Udata *byte
}
type FdSet struct {
Bits [32]int32
}
const (
SizeofIfMsghdr = 0x70
SizeofIfData = 0x60
SizeofIfaMsghdr = 0x14
SizeofIfmaMsghdr = 0x10
SizeofIfmaMsghdr2 = 0x14
SizeofRtMsghdr = 0x5c
SizeofRtMetrics = 0x38
)
type IfMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Data IfData
}
type IfData struct {
Type uint8
Typelen uint8
Physical uint8
Addrlen uint8
Hdrlen uint8
Recvquota uint8
Xmitquota uint8
Unused1 uint8
Mtu uint32
Metric uint32
Baudrate uint32
Ipackets uint32
Ierrors uint32
Opackets uint32
Oerrors uint32
Collisions uint32
Ibytes uint32
Obytes uint32
Imcasts uint32
Omcasts uint32
Iqdrops uint32
Noproto uint32
Recvtiming uint32
Xmittiming uint32
Lastchange Timeval32
Unused2 uint32
Hwassist uint32
Reserved1 uint32
Reserved2 uint32
}
type IfaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Metric int32
}
type IfmaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
}
type IfmaMsghdr2 struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Refcount int32
}
type RtMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Pad_cgo_0 [2]byte
Flags int32
Addrs int32
Pid int32
Seq int32
Errno int32
Use int32
Inits uint32
Rmx RtMetrics
}
type RtMetrics struct {
Locks uint32
Mtu uint32
Hopcount uint32
Expire int32
Recvpipe uint32
Sendpipe uint32
Ssthresh uint32
Rtt uint32
Rttvar uint32
Pksent uint32
Filler [4]uint32
}
const (
SizeofBpfVersion = 0x4
SizeofBpfStat = 0x8
SizeofBpfProgram = 0x10
SizeofBpfInsn = 0x8
SizeofBpfHdr = 0x14
)
type BpfVersion struct {
Major uint16
Minor uint16
}
type BpfStat struct {
Recv uint32
Drop uint32
}
type BpfProgram struct {
Len uint32
Pad_cgo_0 [4]byte
Insns *BpfInsn
}
type BpfInsn struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type BpfHdr struct {
Tstamp Timeval32
Caplen uint32
Datalen uint32
Hdrlen uint16
Pad_cgo_0 [2]byte
}
const (
_AT_FDCWD = -0x2
)
type Termios struct {
Iflag uint64
Oflag uint64
Cflag uint64
Lflag uint64
Cc [20]uint8
Pad_cgo_0 [4]byte
Ispeed uint64
Ospeed uint64
}

466
c/syscall/ztypes_darwin_arm64.go Normal file
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@@ -0,0 +1,466 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_darwin.go
//go:build arm64 && darwin
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int32
Pad_cgo_0 [4]byte
}
type Timeval32 struct {
Sec int32
Usec int32
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
type Stat_t struct {
Dev int32
Mode uint16
Nlink uint16
Ino uint64
Uid uint32
Gid uint32
Rdev int32
Pad_cgo_0 [4]byte
Atimespec Timespec
Mtimespec Timespec
Ctimespec Timespec
Birthtimespec Timespec
Size int64
Blocks int64
Blksize int32
Flags uint32
Gen uint32
Lspare int32
Qspare [2]int64
}
type Statfs_t struct {
Bsize uint32
Iosize int32
Blocks uint64
Bfree uint64
Bavail uint64
Files uint64
Ffree uint64
Fsid Fsid
Owner uint32
Type uint32
Flags uint32
Fssubtype uint32
Fstypename [16]int8
Mntonname [1024]int8
Mntfromname [1024]int8
Reserved [8]uint32
}
type Flock_t struct {
Start int64
Len int64
Pid int32
Type int16
Whence int16
}
type Fstore_t struct {
Flags uint32
Posmode int32
Offset int64
Length int64
Bytesalloc int64
}
type Radvisory_t struct {
Offset int64
Count int32
Pad_cgo_0 [4]byte
}
type Fbootstraptransfer_t struct {
Offset int64
Length uint64
Buffer *byte
}
type Log2phys_t struct {
Flags uint32
Contigbytes int64
Devoffset int64
}
type Fsid struct {
Val [2]int32
}
type Dirent struct {
Ino uint64
Seekoff uint64
Reclen uint16
Namlen uint16
Type uint8
Name [1024]int8
Pad_cgo_0 [3]byte
}
const (
pathMax = 0x400
)
type RawSockaddrInet4 struct {
Len uint8
Family uint8
Port uint16
Addr [4]byte /* in_addr */
Zero [8]int8
}
type RawSockaddrInet6 struct {
Len uint8
Family uint8
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Len uint8
Family uint8
Path [104]int8
}
type RawSockaddrDatalink struct {
Len uint8
Family uint8
Index uint16
Type uint8
Nlen uint8
Alen uint8
Slen uint8
Data [12]int8
}
type RawSockaddr struct {
Len uint8
Family uint8
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [92]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Pad_cgo_0 [4]byte
Iov *Iovec
Iovlen int32
Pad_cgo_1 [4]byte
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet4Pktinfo struct {
Ifindex uint32
Spec_dst [4]byte /* in_addr */
Addr [4]byte /* in_addr */
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Filt [8]uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x6c
SizeofSockaddrUnix = 0x6a
SizeofSockaddrDatalink = 0x14
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x30
SizeofCmsghdr = 0xc
SizeofInet4Pktinfo = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
)
const (
PTRACE_TRACEME = 0x0
PTRACE_CONT = 0x7
PTRACE_KILL = 0x8
)
type Kevent_t struct {
Ident uint64
Filter int16
Flags uint16
Fflags uint32
Data int64
Udata *byte
}
type FdSet struct {
Bits [32]int32
}
const (
SizeofIfMsghdr = 0x70
SizeofIfData = 0x60
SizeofIfaMsghdr = 0x14
SizeofIfmaMsghdr = 0x10
SizeofIfmaMsghdr2 = 0x14
SizeofRtMsghdr = 0x5c
SizeofRtMetrics = 0x38
)
type IfMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Data IfData
}
type IfData struct {
Type uint8
Typelen uint8
Physical uint8
Addrlen uint8
Hdrlen uint8
Recvquota uint8
Xmitquota uint8
Unused1 uint8
Mtu uint32
Metric uint32
Baudrate uint32
Ipackets uint32
Ierrors uint32
Opackets uint32
Oerrors uint32
Collisions uint32
Ibytes uint32
Obytes uint32
Imcasts uint32
Omcasts uint32
Iqdrops uint32
Noproto uint32
Recvtiming uint32
Xmittiming uint32
Lastchange Timeval32
Unused2 uint32
Hwassist uint32
Reserved1 uint32
Reserved2 uint32
}
type IfaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Metric int32
}
type IfmaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
}
type IfmaMsghdr2 struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Refcount int32
}
type RtMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Pad_cgo_0 [2]byte
Flags int32
Addrs int32
Pid int32
Seq int32
Errno int32
Use int32
Inits uint32
Rmx RtMetrics
}
type RtMetrics struct {
Locks uint32
Mtu uint32
Hopcount uint32
Expire int32
Recvpipe uint32
Sendpipe uint32
Ssthresh uint32
Rtt uint32
Rttvar uint32
Pksent uint32
Filler [4]uint32
}
const (
SizeofBpfVersion = 0x4
SizeofBpfStat = 0x8
SizeofBpfProgram = 0x10
SizeofBpfInsn = 0x8
SizeofBpfHdr = 0x14
)
type BpfVersion struct {
Major uint16
Minor uint16
}
type BpfStat struct {
Recv uint32
Drop uint32
}
type BpfProgram struct {
Len uint32
Pad_cgo_0 [4]byte
Insns *BpfInsn
}
type BpfInsn struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type BpfHdr struct {
Tstamp Timeval32
Caplen uint32
Datalen uint32
Hdrlen uint16
Pad_cgo_0 [2]byte
}
const (
_AT_FDCWD = -0x2
)
type Termios struct {
Iflag uint64
Oflag uint64
Cflag uint64
Lflag uint64
Cc [20]uint8
Pad_cgo_0 [4]byte
Ispeed uint64
Ospeed uint64
}

453
c/syscall/ztypes_dragonfly_amd64.go Normal file
View File

@@ -0,0 +1,453 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_dragonfly.go
//go:build amd64 && dragonfly
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int64
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur int64
Max int64
}
type _Gid_t uint32
const (
S_IFMT = 0xf000
S_IFIFO = 0x1000
S_IFCHR = 0x2000
S_IFDIR = 0x4000
S_IFBLK = 0x6000
S_IFREG = 0x8000
S_IFLNK = 0xa000
S_IFSOCK = 0xc000
S_ISUID = 0x800
S_ISGID = 0x400
S_ISVTX = 0x200
S_IRUSR = 0x100
S_IWUSR = 0x80
S_IXUSR = 0x40
S_IRWXG = 0x38
S_IRWXO = 0x7
)
type Stat_t struct {
Ino uint64
Nlink uint32
Dev uint32
Mode uint16
Padding1 uint16
Uid uint32
Gid uint32
Rdev uint32
Atim Timespec
Mtim Timespec
Ctim Timespec
Size int64
Blocks int64
Blksize uint32
Flags uint32
Gen uint32
Lspare int32
Qspare1 int64
Qspare2 int64
}
type Statfs_t struct {
Spare2 int64
Bsize int64
Iosize int64
Blocks int64
Bfree int64
Bavail int64
Files int64
Ffree int64
Fsid Fsid
Owner uint32
Type int32
Flags int32
Pad_cgo_0 [4]byte
Syncwrites int64
Asyncwrites int64
Fstypename [16]int8
Mntonname [80]int8
Syncreads int64
Asyncreads int64
Spares1 int16
Mntfromname [80]int8
Spares2 int16
Pad_cgo_1 [4]byte
Spare [2]int64
}
type Flock_t struct {
Start int64
Len int64
Pid int32
Type int16
Whence int16
}
type Dirent struct {
Fileno uint64
Namlen uint16
Type uint8
Unused1 uint8
Unused2 uint32
Name [256]int8
}
type Fsid struct {
Val [2]int32
}
const (
pathMax = 0x400
)
type RawSockaddrInet4 struct {
Len uint8
Family uint8
Port uint16
Addr [4]byte /* in_addr */
Zero [8]int8
}
type RawSockaddrInet6 struct {
Len uint8
Family uint8
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Len uint8
Family uint8
Path [104]int8
}
type RawSockaddrDatalink struct {
Len uint8
Family uint8
Index uint16
Type uint8
Nlen uint8
Alen uint8
Slen uint8
Data [12]int8
Rcf uint16
Route [16]uint16
}
type RawSockaddr struct {
Len uint8
Family uint8
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [92]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Pad_cgo_0 [4]byte
Iov *Iovec
Iovlen int32
Pad_cgo_1 [4]byte
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Filt [8]uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x6c
SizeofSockaddrUnix = 0x6a
SizeofSockaddrDatalink = 0x36
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x30
SizeofCmsghdr = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
)
const (
PTRACE_TRACEME = 0x0
PTRACE_CONT = 0x7
PTRACE_KILL = 0x8
)
type Kevent_t struct {
Ident uint64
Filter int16
Flags uint16
Fflags uint32
Data int64
Udata *byte
}
type FdSet struct {
Bits [16]uint64
}
const (
SizeofIfMsghdr = 0xb0
SizeofIfData = 0xa0
SizeofIfaMsghdr = 0x14
SizeofIfmaMsghdr = 0x10
SizeofIfAnnounceMsghdr = 0x18
SizeofRtMsghdr = 0x98
SizeofRtMetrics = 0x70
)
type IfMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Data IfData
}
type IfData struct {
Type uint8
Physical uint8
Addrlen uint8
Hdrlen uint8
Recvquota uint8
Xmitquota uint8
Pad_cgo_0 [2]byte
Mtu uint64
Metric uint64
Link_state uint64
Baudrate uint64
Ipackets uint64
Ierrors uint64
Opackets uint64
Oerrors uint64
Collisions uint64
Ibytes uint64
Obytes uint64
Imcasts uint64
Omcasts uint64
Iqdrops uint64
Noproto uint64
Hwassist uint64
Unused uint64
Lastchange Timeval
}
type IfaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Metric int32
}
type IfmaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
}
type IfAnnounceMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Name [16]int8
What uint16
}
type RtMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Pad_cgo_0 [2]byte
Flags int32
Addrs int32
Pid int32
Seq int32
Errno int32
Use int32
Inits uint64
Rmx RtMetrics
}
type RtMetrics struct {
Locks uint64
Mtu uint64
Pksent uint64
Expire uint64
Sendpipe uint64
Ssthresh uint64
Rtt uint64
Rttvar uint64
Recvpipe uint64
Hopcount uint64
Mssopt uint16
Pad uint16
Pad_cgo_0 [4]byte
Msl uint64
Iwmaxsegs uint64
Iwcapsegs uint64
}
const (
SizeofBpfVersion = 0x4
SizeofBpfStat = 0x8
SizeofBpfProgram = 0x10
SizeofBpfInsn = 0x8
SizeofBpfHdr = 0x20
)
type BpfVersion struct {
Major uint16
Minor uint16
}
type BpfStat struct {
Recv uint32
Drop uint32
}
type BpfProgram struct {
Len uint32
Pad_cgo_0 [4]byte
Insns *BpfInsn
}
type BpfInsn struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type BpfHdr struct {
Tstamp Timeval
Caplen uint32
Datalen uint32
Hdrlen uint16
Pad_cgo_0 [6]byte
}
const (
_AT_FDCWD = 0xfffafdcd
)
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Cc [20]uint8
Ispeed uint32
Ospeed uint32
}

519
c/syscall/ztypes_freebsd_386.go Normal file
View File

@@ -0,0 +1,519 @@
// Code generated by cmd/cgo -godefs; DO NOT EDIT.
// cgo -godefs types_freebsd.go | go run mkpost.go
//go:build 386 && freebsd
package syscall
const (
sizeofPtr = 0x4
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x4
sizeofLongLong = 0x8
)
type (
_C_short int16
_C_int int32
_C_long int32
_C_long_long int64
)
type Timespec struct {
Sec int32
Nsec int32
}
type Timeval struct {
Sec int32
Usec int32
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int32
Ixrss int32
Idrss int32
Isrss int32
Minflt int32
Majflt int32
Nswap int32
Inblock int32
Oublock int32
Msgsnd int32
Msgrcv int32
Nsignals int32
Nvcsw int32
Nivcsw int32
}
type Rlimit struct {
Cur int64
Max int64
}
type _Gid_t uint32
const (
S_IFMT = 0xf000
S_IFIFO = 0x1000
S_IFCHR = 0x2000
S_IFDIR = 0x4000
S_IFBLK = 0x6000
S_IFREG = 0x8000
S_IFLNK = 0xa000
S_IFSOCK = 0xc000
S_ISUID = 0x800
S_ISGID = 0x400
S_ISVTX = 0x200
S_IRUSR = 0x100
S_IWUSR = 0x80
S_IXUSR = 0x40
S_IRWXG = 0x38
S_IRWXO = 0x7
)
const (
_statfsVersion = 0x20140518
_dirblksiz = 0x400
)
type Stat_t struct {
Dev uint64
Ino uint64
Nlink uint64
Mode uint16
Padding0 int16
Uid uint32
Gid uint32
Padding1 int32
Rdev uint64
Atim_ext int32
Atimespec Timespec
Mtim_ext int32
Mtimespec Timespec
Ctim_ext int32
Ctimespec Timespec
Btim_ext int32
Birthtimespec Timespec
Size int64
Blocks int64
Blksize int32
Flags uint32
Gen uint64
Spare [10]uint64
}
type Statfs_t struct {
Version uint32
Type uint32
Flags uint64
Bsize uint64
Iosize uint64
Blocks uint64
Bfree uint64
Bavail int64
Files uint64
Ffree int64
Syncwrites uint64
Asyncwrites uint64
Syncreads uint64
Asyncreads uint64
Spare [10]uint64
Namemax uint32
Owner uint32
Fsid Fsid
Charspare [80]int8
Fstypename [16]int8
Mntfromname [1024]int8
Mntonname [1024]int8
}
type Flock_t struct {
Start int64
Len int64
Pid int32
Type int16
Whence int16
Sysid int32
}
type Dirent struct {
Fileno uint64
Off int64
Reclen uint16
Type uint8
Pad0 uint8
Namlen uint16
Pad1 uint16
Name [256]int8
}
type Fsid struct {
Val [2]int32
}
const (
pathMax = 0x400
)
type RawSockaddrInet4 struct {
Len uint8
Family uint8
Port uint16
Addr [4]byte /* in_addr */
Zero [8]int8
}
type RawSockaddrInet6 struct {
Len uint8
Family uint8
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Len uint8
Family uint8
Path [104]int8
}
type RawSockaddrDatalink struct {
Len uint8
Family uint8
Index uint16
Type uint8
Nlen uint8
Alen uint8
Slen uint8
Data [46]int8
}
type RawSockaddr struct {
Len uint8
Family uint8
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [92]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint32
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPMreqn struct {
Multiaddr [4]byte /* in_addr */
Address [4]byte /* in_addr */
Ifindex int32
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Iov *Iovec
Iovlen int32
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Filt [8]uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x6c
SizeofSockaddrUnix = 0x6a
SizeofSockaddrDatalink = 0x36
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPMreqn = 0xc
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x1c
SizeofCmsghdr = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
)
const (
PTRACE_TRACEME = 0x0
PTRACE_CONT = 0x7
PTRACE_KILL = 0x8
)
type Kevent_t struct {
Ident uint32
Filter int16
Flags uint16
Fflags uint32
Data int32
Udata *byte
}
type FdSet struct {
X__fds_bits [32]uint32
}
const (
sizeofIfMsghdr = 0x64
SizeofIfMsghdr = 0x60
sizeofIfData = 0x54
SizeofIfData = 0x50
SizeofIfaMsghdr = 0x14
SizeofIfmaMsghdr = 0x10
SizeofIfAnnounceMsghdr = 0x18
SizeofRtMsghdr = 0x5c
SizeofRtMetrics = 0x38
)
type ifMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Data ifData
}
type IfMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Data IfData
}
type ifData struct {
Type uint8
Physical uint8
Addrlen uint8
Hdrlen uint8
Link_state uint8
Vhid uint8
Baudrate_pf uint8
Datalen uint8
Mtu uint32
Metric uint32
Baudrate uint32
Ipackets uint32
Ierrors uint32
Opackets uint32
Oerrors uint32
Collisions uint32
Ibytes uint32
Obytes uint32
Imcasts uint32
Omcasts uint32
Iqdrops uint32
Noproto uint32
Hwassist uint64
Epoch int32
Lastchange Timeval
}
type IfData struct {
Type uint8
Physical uint8
Addrlen uint8
Hdrlen uint8
Link_state uint8
Spare_char1 uint8
Spare_char2 uint8
Datalen uint8
Mtu uint32
Metric uint32
Baudrate uint32
Ipackets uint32
Ierrors uint32
Opackets uint32
Oerrors uint32
Collisions uint32
Ibytes uint32
Obytes uint32
Imcasts uint32
Omcasts uint32
Iqdrops uint32
Noproto uint32
Hwassist uint32
Epoch int32
Lastchange Timeval
}
type IfaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Metric int32
}
type IfmaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
}
type IfAnnounceMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Name [16]int8
What uint16
}
type RtMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Pad_cgo_0 [2]byte
Flags int32
Addrs int32
Pid int32
Seq int32
Errno int32
Fmask int32
Inits uint32
Rmx RtMetrics
}
type RtMetrics struct {
Locks uint32
Mtu uint32
Hopcount uint32
Expire uint32
Recvpipe uint32
Sendpipe uint32
Ssthresh uint32
Rtt uint32
Rttvar uint32
Pksent uint32
Weight uint32
Filler [3]uint32
}
const (
SizeofBpfVersion = 0x4
SizeofBpfStat = 0x8
SizeofBpfZbuf = 0xc
SizeofBpfProgram = 0x8
SizeofBpfInsn = 0x8
SizeofBpfHdr = 0x14
SizeofBpfZbufHeader = 0x20
)
type BpfVersion struct {
Major uint16
Minor uint16
}
type BpfStat struct {
Recv uint32
Drop uint32
}
type BpfZbuf struct {
Bufa *byte
Bufb *byte
Buflen uint32
}
type BpfProgram struct {
Len uint32
Insns *BpfInsn
}
type BpfInsn struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type BpfHdr struct {
Tstamp Timeval
Caplen uint32
Datalen uint32
Hdrlen uint16
Pad_cgo_0 [2]byte
}
type BpfZbufHeader struct {
Kernel_gen uint32
Kernel_len uint32
User_gen uint32
X_bzh_pad [5]uint32
}
const (
_AT_FDCWD = -0x64
_AT_SYMLINK_FOLLOW = 0x400
_AT_SYMLINK_NOFOLLOW = 0x200
)
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Cc [20]uint8
Ispeed uint32
Ospeed uint32
}

519
c/syscall/ztypes_freebsd_amd64.go Normal file
View File

@@ -0,0 +1,519 @@
// Code generated by cmd/cgo -godefs; DO NOT EDIT.
// cgo -godefs types_freebsd.go | go run mkpost.go
//go:build amd64 && freebsd
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int64
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur int64
Max int64
}
type _Gid_t uint32
const (
S_IFMT = 0xf000
S_IFIFO = 0x1000
S_IFCHR = 0x2000
S_IFDIR = 0x4000
S_IFBLK = 0x6000
S_IFREG = 0x8000
S_IFLNK = 0xa000
S_IFSOCK = 0xc000
S_ISUID = 0x800
S_ISGID = 0x400
S_ISVTX = 0x200
S_IRUSR = 0x100
S_IWUSR = 0x80
S_IXUSR = 0x40
S_IRWXG = 0x38
S_IRWXO = 0x7
)
const (
_statfsVersion = 0x20140518
_dirblksiz = 0x400
)
type Stat_t struct {
Dev uint64
Ino uint64
Nlink uint64
Mode uint16
Padding0 int16
Uid uint32
Gid uint32
Padding1 int32
Rdev uint64
Atimespec Timespec
Mtimespec Timespec
Ctimespec Timespec
Birthtimespec Timespec
Size int64
Blocks int64
Blksize int32
Flags uint32
Gen uint64
Spare [10]uint64
}
type Statfs_t struct {
Version uint32
Type uint32
Flags uint64
Bsize uint64
Iosize uint64
Blocks uint64
Bfree uint64
Bavail int64
Files uint64
Ffree int64
Syncwrites uint64
Asyncwrites uint64
Syncreads uint64
Asyncreads uint64
Spare [10]uint64
Namemax uint32
Owner uint32
Fsid Fsid
Charspare [80]int8
Fstypename [16]int8
Mntfromname [1024]int8
Mntonname [1024]int8
}
type Flock_t struct {
Start int64
Len int64
Pid int32
Type int16
Whence int16
Sysid int32
Pad_cgo_0 [4]byte
}
type Dirent struct {
Fileno uint64
Off int64
Reclen uint16
Type uint8
Pad0 uint8
Namlen uint16
Pad1 uint16
Name [256]int8
}
type Fsid struct {
Val [2]int32
}
const (
pathMax = 0x400
)
type RawSockaddrInet4 struct {
Len uint8
Family uint8
Port uint16
Addr [4]byte /* in_addr */
Zero [8]int8
}
type RawSockaddrInet6 struct {
Len uint8
Family uint8
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Len uint8
Family uint8
Path [104]int8
}
type RawSockaddrDatalink struct {
Len uint8
Family uint8
Index uint16
Type uint8
Nlen uint8
Alen uint8
Slen uint8
Data [46]int8
}
type RawSockaddr struct {
Len uint8
Family uint8
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [92]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPMreqn struct {
Multiaddr [4]byte /* in_addr */
Address [4]byte /* in_addr */
Ifindex int32
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Pad_cgo_0 [4]byte
Iov *Iovec
Iovlen int32
Pad_cgo_1 [4]byte
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Filt [8]uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x6c
SizeofSockaddrUnix = 0x6a
SizeofSockaddrDatalink = 0x36
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPMreqn = 0xc
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x30
SizeofCmsghdr = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
)
const (
PTRACE_TRACEME = 0x0
PTRACE_CONT = 0x7
PTRACE_KILL = 0x8
)
type Kevent_t struct {
Ident uint64
Filter int16
Flags uint16
Fflags uint32
Data int64
Udata *byte
}
type FdSet struct {
X__fds_bits [16]uint64
}
const (
sizeofIfMsghdr = 0xa8
SizeofIfMsghdr = 0xa8
sizeofIfData = 0x98
SizeofIfData = 0x98
SizeofIfaMsghdr = 0x14
SizeofIfmaMsghdr = 0x10
SizeofIfAnnounceMsghdr = 0x18
SizeofRtMsghdr = 0x98
SizeofRtMetrics = 0x70
)
type ifMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Data ifData
}
type IfMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Data IfData
}
type ifData struct {
Type uint8
Physical uint8
Addrlen uint8
Hdrlen uint8
Link_state uint8
Vhid uint8
Baudrate_pf uint8
Datalen uint8
Mtu uint64
Metric uint64
Baudrate uint64
Ipackets uint64
Ierrors uint64
Opackets uint64
Oerrors uint64
Collisions uint64
Ibytes uint64
Obytes uint64
Imcasts uint64
Omcasts uint64
Iqdrops uint64
Noproto uint64
Hwassist uint64
Epoch int64
Lastchange Timeval
}
type IfData struct {
Type uint8
Physical uint8
Addrlen uint8
Hdrlen uint8
Link_state uint8
Spare_char1 uint8
Spare_char2 uint8
Datalen uint8
Mtu uint64
Metric uint64
Baudrate uint64
Ipackets uint64
Ierrors uint64
Opackets uint64
Oerrors uint64
Collisions uint64
Ibytes uint64
Obytes uint64
Imcasts uint64
Omcasts uint64
Iqdrops uint64
Noproto uint64
Hwassist uint64
Epoch int64
Lastchange Timeval
}
type IfaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Metric int32
}
type IfmaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
}
type IfAnnounceMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Name [16]int8
What uint16
}
type RtMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Pad_cgo_0 [2]byte
Flags int32
Addrs int32
Pid int32
Seq int32
Errno int32
Fmask int32
Inits uint64
Rmx RtMetrics
}
type RtMetrics struct {
Locks uint64
Mtu uint64
Hopcount uint64
Expire uint64
Recvpipe uint64
Sendpipe uint64
Ssthresh uint64
Rtt uint64
Rttvar uint64
Pksent uint64
Weight uint64
Filler [3]uint64
}
const (
SizeofBpfVersion = 0x4
SizeofBpfStat = 0x8
SizeofBpfZbuf = 0x18
SizeofBpfProgram = 0x10
SizeofBpfInsn = 0x8
SizeofBpfHdr = 0x20
SizeofBpfZbufHeader = 0x20
)
type BpfVersion struct {
Major uint16
Minor uint16
}
type BpfStat struct {
Recv uint32
Drop uint32
}
type BpfZbuf struct {
Bufa *byte
Bufb *byte
Buflen uint64
}
type BpfProgram struct {
Len uint32
Pad_cgo_0 [4]byte
Insns *BpfInsn
}
type BpfInsn struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type BpfHdr struct {
Tstamp Timeval
Caplen uint32
Datalen uint32
Hdrlen uint16
Pad_cgo_0 [6]byte
}
type BpfZbufHeader struct {
Kernel_gen uint32
Kernel_len uint32
User_gen uint32
X_bzh_pad [5]uint32
}
const (
_AT_FDCWD = -0x64
_AT_SYMLINK_FOLLOW = 0x400
_AT_SYMLINK_NOFOLLOW = 0x200
)
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Cc [20]uint8
Ispeed uint32
Ospeed uint32
}

519
c/syscall/ztypes_freebsd_arm.go Normal file
View File

@@ -0,0 +1,519 @@
// Code generated by cmd/cgo -godefs; DO NOT EDIT.
// cgo -godefs -- -fsigned-char types_freebsd.go
//go:build arm && freebsd
package syscall
const (
sizeofPtr = 0x4
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x4
sizeofLongLong = 0x8
)
type (
_C_short int16
_C_int int32
_C_long int32
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int32
Pad_cgo_0 [4]byte
}
type Timeval struct {
Sec int64
Usec int32
Pad_cgo_0 [4]byte
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int32
Ixrss int32
Idrss int32
Isrss int32
Minflt int32
Majflt int32
Nswap int32
Inblock int32
Oublock int32
Msgsnd int32
Msgrcv int32
Nsignals int32
Nvcsw int32
Nivcsw int32
}
type Rlimit struct {
Cur int64
Max int64
}
type _Gid_t uint32
const (
S_IFMT = 0xf000
S_IFIFO = 0x1000
S_IFCHR = 0x2000
S_IFDIR = 0x4000
S_IFBLK = 0x6000
S_IFREG = 0x8000
S_IFLNK = 0xa000
S_IFSOCK = 0xc000
S_ISUID = 0x800
S_ISGID = 0x400
S_ISVTX = 0x200
S_IRUSR = 0x100
S_IWUSR = 0x80
S_IXUSR = 0x40
S_IRWXG = 0x38
S_IRWXO = 0x7
)
const (
_statfsVersion = 0x20140518
_dirblksiz = 0x400
)
type Stat_t struct {
Dev uint64
Ino uint64
Nlink uint64
Mode uint16
Padding0 int16
Uid uint32
Gid uint32
Padding1 int32
Rdev uint64
Atimespec Timespec
Mtimespec Timespec
Ctimespec Timespec
Birthtimespec Timespec
Size int64
Blocks int64
Blksize int32
Flags uint32
Gen uint64
Spare [10]uint64
}
type Statfs_t struct {
Version uint32
Type uint32
Flags uint64
Bsize uint64
Iosize uint64
Blocks uint64
Bfree uint64
Bavail int64
Files uint64
Ffree int64
Syncwrites uint64
Asyncwrites uint64
Syncreads uint64
Asyncreads uint64
Spare [10]uint64
Namemax uint32
Owner uint32
Fsid Fsid
Charspare [80]int8
Fstypename [16]int8
Mntfromname [1024]int8
Mntonname [1024]int8
}
type Flock_t struct {
Start int64
Len int64
Pid int32
Type int16
Whence int16
Sysid int32
Pad_cgo_0 [4]byte
}
type Dirent struct {
Fileno uint64
Off int64
Reclen uint16
Type uint8
Pad0 uint8
Namlen uint16
Pad1 uint16
Name [256]int8
}
type Fsid struct {
Val [2]int32
}
const (
pathMax = 0x400
)
type RawSockaddrInet4 struct {
Len uint8
Family uint8
Port uint16
Addr [4]byte /* in_addr */
Zero [8]int8
}
type RawSockaddrInet6 struct {
Len uint8
Family uint8
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Len uint8
Family uint8
Path [104]int8
}
type RawSockaddrDatalink struct {
Len uint8
Family uint8
Index uint16
Type uint8
Nlen uint8
Alen uint8
Slen uint8
Data [46]int8
}
type RawSockaddr struct {
Len uint8
Family uint8
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [92]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint32
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPMreqn struct {
Multiaddr [4]byte /* in_addr */
Address [4]byte /* in_addr */
Ifindex int32
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Iov *Iovec
Iovlen int32
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Filt [8]uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x6c
SizeofSockaddrUnix = 0x6a
SizeofSockaddrDatalink = 0x36
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPMreqn = 0xc
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x1c
SizeofCmsghdr = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
)
const (
PTRACE_TRACEME = 0x0
PTRACE_CONT = 0x7
PTRACE_KILL = 0x8
)
type Kevent_t struct {
Ident uint32
Filter int16
Flags uint16
Fflags uint32
Data int32
Udata *byte
}
type FdSet struct {
X__fds_bits [32]uint32
}
const (
sizeofIfMsghdr = 0x70
SizeofIfMsghdr = 0x70
sizeofIfData = 0x60
SizeofIfData = 0x60
SizeofIfaMsghdr = 0x14
SizeofIfmaMsghdr = 0x10
SizeofIfAnnounceMsghdr = 0x18
SizeofRtMsghdr = 0x5c
SizeofRtMetrics = 0x38
)
type ifMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Data ifData
}
type IfMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Data IfData
}
type ifData struct {
Type uint8
Physical uint8
Addrlen uint8
Hdrlen uint8
Link_state uint8
Vhid uint8
Baudrate_pf uint8
Datalen uint8
Mtu uint32
Metric uint32
Baudrate uint32
Ipackets uint32
Ierrors uint32
Opackets uint32
Oerrors uint32
Collisions uint32
Ibytes uint32
Obytes uint32
Imcasts uint32
Omcasts uint32
Iqdrops uint32
Noproto uint32
Hwassist uint64
Epoch int64
Lastchange Timeval
}
type IfData struct {
Type uint8
Physical uint8
Addrlen uint8
Hdrlen uint8
Link_state uint8
Spare_char1 uint8
Spare_char2 uint8
Datalen uint8
Mtu uint32
Metric uint32
Baudrate uint32
Ipackets uint32
Ierrors uint32
Opackets uint32
Oerrors uint32
Collisions uint32
Ibytes uint32
Obytes uint32
Imcasts uint32
Omcasts uint32
Iqdrops uint32
Noproto uint32
Hwassist uint32
Pad_cgo_0 [4]byte
Epoch int64
Lastchange Timeval
}
type IfaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Metric int32
}
type IfmaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
}
type IfAnnounceMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Name [16]int8
What uint16
}
type RtMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Pad_cgo_0 [2]byte
Flags int32
Addrs int32
Pid int32
Seq int32
Errno int32
Fmask int32
Inits uint32
Rmx RtMetrics
}
type RtMetrics struct {
Locks uint32
Mtu uint32
Hopcount uint32
Expire uint32
Recvpipe uint32
Sendpipe uint32
Ssthresh uint32
Rtt uint32
Rttvar uint32
Pksent uint32
Weight uint32
Filler [3]uint32
}
const (
SizeofBpfVersion = 0x4
SizeofBpfStat = 0x8
SizeofBpfZbuf = 0xc
SizeofBpfProgram = 0x8
SizeofBpfInsn = 0x8
SizeofBpfHdr = 0x20
SizeofBpfZbufHeader = 0x20
)
type BpfVersion struct {
Major uint16
Minor uint16
}
type BpfStat struct {
Recv uint32
Drop uint32
}
type BpfZbuf struct {
Bufa *byte
Bufb *byte
Buflen uint32
}
type BpfProgram struct {
Len uint32
Insns *BpfInsn
}
type BpfInsn struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type BpfHdr struct {
Tstamp Timeval
Caplen uint32
Datalen uint32
Hdrlen uint16
Pad_cgo_0 [6]byte
}
type BpfZbufHeader struct {
Kernel_gen uint32
Kernel_len uint32
User_gen uint32
X_bzh_pad [5]uint32
}
const (
_AT_FDCWD = -0x64
_AT_SYMLINK_FOLLOW = 0x400
_AT_SYMLINK_NOFOLLOW = 0x200
)
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Cc [20]uint8
Ispeed uint32
Ospeed uint32
}

519
c/syscall/ztypes_freebsd_arm64.go Normal file
View File

@@ -0,0 +1,519 @@
// Code generated by cmd/cgo -godefs; DO NOT EDIT.
// cgo -godefs types_freebsd.go | go run mkpost.go
//go:build arm64 && freebsd
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int64
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur int64
Max int64
}
type _Gid_t uint32
const (
S_IFMT = 0xf000
S_IFIFO = 0x1000
S_IFCHR = 0x2000
S_IFDIR = 0x4000
S_IFBLK = 0x6000
S_IFREG = 0x8000
S_IFLNK = 0xa000
S_IFSOCK = 0xc000
S_ISUID = 0x800
S_ISGID = 0x400
S_ISVTX = 0x200
S_IRUSR = 0x100
S_IWUSR = 0x80
S_IXUSR = 0x40
S_IRWXG = 0x38
S_IRWXO = 0x7
)
const (
_statfsVersion = 0x20140518
_dirblksiz = 0x400
)
type Stat_t struct {
Dev uint64
Ino uint64
Nlink uint64
Mode uint16
Padding0 int16
Uid uint32
Gid uint32
Padding1 int32
Rdev uint64
Atimespec Timespec
Mtimespec Timespec
Ctimespec Timespec
Birthtimespec Timespec
Size int64
Blocks int64
Blksize int32
Flags uint32
Gen uint64
Spare [10]uint64
}
type Statfs_t struct {
Version uint32
Type uint32
Flags uint64
Bsize uint64
Iosize uint64
Blocks uint64
Bfree uint64
Bavail int64
Files uint64
Ffree int64
Syncwrites uint64
Asyncwrites uint64
Syncreads uint64
Asyncreads uint64
Spare [10]uint64
Namemax uint32
Owner uint32
Fsid Fsid
Charspare [80]int8
Fstypename [16]int8
Mntfromname [1024]int8
Mntonname [1024]int8
}
type Flock_t struct {
Start int64
Len int64
Pid int32
Type int16
Whence int16
Sysid int32
Pad_cgo_0 [4]byte
}
type Dirent struct {
Fileno uint64
Off int64
Reclen uint16
Type uint8
Pad0 uint8
Namlen uint16
Pad1 uint16
Name [256]int8
}
type Fsid struct {
Val [2]int32
}
const (
pathMax = 0x400
)
type RawSockaddrInet4 struct {
Len uint8
Family uint8
Port uint16
Addr [4]byte /* in_addr */
Zero [8]int8
}
type RawSockaddrInet6 struct {
Len uint8
Family uint8
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Len uint8
Family uint8
Path [104]int8
}
type RawSockaddrDatalink struct {
Len uint8
Family uint8
Index uint16
Type uint8
Nlen uint8
Alen uint8
Slen uint8
Data [46]int8
}
type RawSockaddr struct {
Len uint8
Family uint8
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [92]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPMreqn struct {
Multiaddr [4]byte /* in_addr */
Address [4]byte /* in_addr */
Ifindex int32
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Pad_cgo_0 [4]byte
Iov *Iovec
Iovlen int32
Pad_cgo_1 [4]byte
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Filt [8]uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x6c
SizeofSockaddrUnix = 0x6a
SizeofSockaddrDatalink = 0x36
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPMreqn = 0xc
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x30
SizeofCmsghdr = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
)
const (
PTRACE_TRACEME = 0x0
PTRACE_CONT = 0x7
PTRACE_KILL = 0x8
)
type Kevent_t struct {
Ident uint64
Filter int16
Flags uint16
Fflags uint32
Data int64
Udata *byte
}
type FdSet struct {
X__fds_bits [16]uint64
}
const (
sizeofIfMsghdr = 0xa8
SizeofIfMsghdr = 0xa8
sizeofIfData = 0x98
SizeofIfData = 0x98
SizeofIfaMsghdr = 0x14
SizeofIfmaMsghdr = 0x10
SizeofIfAnnounceMsghdr = 0x18
SizeofRtMsghdr = 0x98
SizeofRtMetrics = 0x70
)
type ifMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Data ifData
}
type IfMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Data IfData
}
type ifData struct {
Type uint8
Physical uint8
Addrlen uint8
Hdrlen uint8
Link_state uint8
Vhid uint8
Baudrate_pf uint8
Datalen uint8
Mtu uint64
Metric uint64
Baudrate uint64
Ipackets uint64
Ierrors uint64
Opackets uint64
Oerrors uint64
Collisions uint64
Ibytes uint64
Obytes uint64
Imcasts uint64
Omcasts uint64
Iqdrops uint64
Noproto uint64
Hwassist uint64
Epoch int64
Lastchange Timeval
}
type IfData struct {
Type uint8
Physical uint8
Addrlen uint8
Hdrlen uint8
Link_state uint8
Spare_char1 uint8
Spare_char2 uint8
Datalen uint8
Mtu uint64
Metric uint64
Baudrate uint64
Ipackets uint64
Ierrors uint64
Opackets uint64
Oerrors uint64
Collisions uint64
Ibytes uint64
Obytes uint64
Imcasts uint64
Omcasts uint64
Iqdrops uint64
Noproto uint64
Hwassist uint64
Epoch int64
Lastchange Timeval
}
type IfaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Metric int32
}
type IfmaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
}
type IfAnnounceMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Name [16]int8
What uint16
}
type RtMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Pad_cgo_0 [2]byte
Flags int32
Addrs int32
Pid int32
Seq int32
Errno int32
Fmask int32
Inits uint64
Rmx RtMetrics
}
type RtMetrics struct {
Locks uint64
Mtu uint64
Hopcount uint64
Expire uint64
Recvpipe uint64
Sendpipe uint64
Ssthresh uint64
Rtt uint64
Rttvar uint64
Pksent uint64
Weight uint64
Filler [3]uint64
}
const (
SizeofBpfVersion = 0x4
SizeofBpfStat = 0x8
SizeofBpfZbuf = 0x18
SizeofBpfProgram = 0x10
SizeofBpfInsn = 0x8
SizeofBpfHdr = 0x20
SizeofBpfZbufHeader = 0x20
)
type BpfVersion struct {
Major uint16
Minor uint16
}
type BpfStat struct {
Recv uint32
Drop uint32
}
type BpfZbuf struct {
Bufa *byte
Bufb *byte
Buflen uint64
}
type BpfProgram struct {
Len uint32
Pad_cgo_0 [4]byte
Insns *BpfInsn
}
type BpfInsn struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type BpfHdr struct {
Tstamp Timeval
Caplen uint32
Datalen uint32
Hdrlen uint16
Pad_cgo_0 [6]byte
}
type BpfZbufHeader struct {
Kernel_gen uint32
Kernel_len uint32
User_gen uint32
X_bzh_pad [5]uint32
}
const (
_AT_FDCWD = -0x64
_AT_SYMLINK_FOLLOW = 0x400
_AT_SYMLINK_NOFOLLOW = 0x200
)
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Cc [20]uint8
Ispeed uint32
Ospeed uint32
}

519
c/syscall/ztypes_freebsd_riscv64.go Normal file
View File

@@ -0,0 +1,519 @@
// Code generated by cmd/cgo -godefs; DO NOT EDIT.
// cgo -godefs types_freebsd.go | go run mkpost.go
//go:build riscv64 && freebsd
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int64
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur int64
Max int64
}
type _Gid_t uint32
const (
S_IFMT = 0xf000
S_IFIFO = 0x1000
S_IFCHR = 0x2000
S_IFDIR = 0x4000
S_IFBLK = 0x6000
S_IFREG = 0x8000
S_IFLNK = 0xa000
S_IFSOCK = 0xc000
S_ISUID = 0x800
S_ISGID = 0x400
S_ISVTX = 0x200
S_IRUSR = 0x100
S_IWUSR = 0x80
S_IXUSR = 0x40
S_IRWXG = 0x38
S_IRWXO = 0x7
)
const (
_statfsVersion = 0x20140518
_dirblksiz = 0x400
)
type Stat_t struct {
Dev uint64
Ino uint64
Nlink uint64
Mode uint16
Padding0 int16
Uid uint32
Gid uint32
Padding1 int32
Rdev uint64
Atimespec Timespec
Mtimespec Timespec
Ctimespec Timespec
Birthtimespec Timespec
Size int64
Blocks int64
Blksize int32
Flags uint32
Gen uint64
Spare [10]uint64
}
type Statfs_t struct {
Version uint32
Type uint32
Flags uint64
Bsize uint64
Iosize uint64
Blocks uint64
Bfree uint64
Bavail int64
Files uint64
Ffree int64
Syncwrites uint64
Asyncwrites uint64
Syncreads uint64
Asyncreads uint64
Spare [10]uint64
Namemax uint32
Owner uint32
Fsid Fsid
Charspare [80]int8
Fstypename [16]int8
Mntfromname [1024]int8
Mntonname [1024]int8
}
type Flock_t struct {
Start int64
Len int64
Pid int32
Type int16
Whence int16
Sysid int32
Pad_cgo_0 [4]byte
}
type Dirent struct {
Fileno uint64
Off int64
Reclen uint16
Type uint8
Pad0 uint8
Namlen uint16
Pad1 uint16
Name [256]int8
}
type Fsid struct {
Val [2]int32
}
const (
pathMax = 0x400
)
type RawSockaddrInet4 struct {
Len uint8
Family uint8
Port uint16
Addr [4]byte /* in_addr */
Zero [8]int8
}
type RawSockaddrInet6 struct {
Len uint8
Family uint8
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Len uint8
Family uint8
Path [104]int8
}
type RawSockaddrDatalink struct {
Len uint8
Family uint8
Index uint16
Type uint8
Nlen uint8
Alen uint8
Slen uint8
Data [46]int8
}
type RawSockaddr struct {
Len uint8
Family uint8
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [92]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPMreqn struct {
Multiaddr [4]byte /* in_addr */
Address [4]byte /* in_addr */
Ifindex int32
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Pad_cgo_0 [4]byte
Iov *Iovec
Iovlen int32
Pad_cgo_1 [4]byte
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Filt [8]uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x6c
SizeofSockaddrUnix = 0x6a
SizeofSockaddrDatalink = 0x36
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPMreqn = 0xc
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x30
SizeofCmsghdr = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
)
const (
PTRACE_TRACEME = 0x0
PTRACE_CONT = 0x7
PTRACE_KILL = 0x8
)
type Kevent_t struct {
Ident uint64
Filter int16
Flags uint16
Fflags uint32
Data int64
Udata *byte
}
type FdSet struct {
X__fds_bits [16]uint64
}
const (
sizeofIfMsghdr = 0xa8
SizeofIfMsghdr = 0xa8
sizeofIfData = 0x98
SizeofIfData = 0x98
SizeofIfaMsghdr = 0x14
SizeofIfmaMsghdr = 0x10
SizeofIfAnnounceMsghdr = 0x18
SizeofRtMsghdr = 0x98
SizeofRtMetrics = 0x70
)
type ifMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Data ifData
}
type IfMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Data IfData
}
type ifData struct {
Type uint8
Physical uint8
Addrlen uint8
Hdrlen uint8
Link_state uint8
Vhid uint8
Baudrate_pf uint8
Datalen uint8
Mtu uint64
Metric uint64
Baudrate uint64
Ipackets uint64
Ierrors uint64
Opackets uint64
Oerrors uint64
Collisions uint64
Ibytes uint64
Obytes uint64
Imcasts uint64
Omcasts uint64
Iqdrops uint64
Noproto uint64
Hwassist uint64
Epoch int64
Lastchange Timeval
}
type IfData struct {
Type uint8
Physical uint8
Addrlen uint8
Hdrlen uint8
Link_state uint8
Spare_char1 uint8
Spare_char2 uint8
Datalen uint8
Mtu uint64
Metric uint64
Baudrate uint64
Ipackets uint64
Ierrors uint64
Opackets uint64
Oerrors uint64
Collisions uint64
Ibytes uint64
Obytes uint64
Imcasts uint64
Omcasts uint64
Iqdrops uint64
Noproto uint64
Hwassist uint64
Epoch int64
Lastchange Timeval
}
type IfaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Metric int32
}
type IfmaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
}
type IfAnnounceMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Name [16]int8
What uint16
}
type RtMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Pad_cgo_0 [2]byte
Flags int32
Addrs int32
Pid int32
Seq int32
Errno int32
Fmask int32
Inits uint64
Rmx RtMetrics
}
type RtMetrics struct {
Locks uint64
Mtu uint64
Hopcount uint64
Expire uint64
Recvpipe uint64
Sendpipe uint64
Ssthresh uint64
Rtt uint64
Rttvar uint64
Pksent uint64
Weight uint64
Filler [3]uint64
}
const (
SizeofBpfVersion = 0x4
SizeofBpfStat = 0x8
SizeofBpfZbuf = 0x18
SizeofBpfProgram = 0x10
SizeofBpfInsn = 0x8
SizeofBpfHdr = 0x20
SizeofBpfZbufHeader = 0x20
)
type BpfVersion struct {
Major uint16
Minor uint16
}
type BpfStat struct {
Recv uint32
Drop uint32
}
type BpfZbuf struct {
Bufa *byte
Bufb *byte
Buflen uint64
}
type BpfProgram struct {
Len uint32
Pad_cgo_0 [4]byte
Insns *BpfInsn
}
type BpfInsn struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type BpfHdr struct {
Tstamp Timeval
Caplen uint32
Datalen uint32
Hdrlen uint16
Pad_cgo_0 [6]byte
}
type BpfZbufHeader struct {
Kernel_gen uint32
Kernel_len uint32
User_gen uint32
X_bzh_pad [5]uint32
}
const (
_AT_FDCWD = -0x64
_AT_SYMLINK_FOLLOW = 0x400
_AT_SYMLINK_NOFOLLOW = 0x200
)
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Cc [20]uint8
Ispeed uint32
Ospeed uint32
}

700
c/syscall/ztypes_linux_386.go Normal file
View File

@@ -0,0 +1,700 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_linux.go
//go:build 386 && linux
package syscall
const (
sizeofPtr = 0x4
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x4
sizeofLongLong = 0x8
PathMax = 0x1000
)
type (
_C_short int16
_C_int int32
_C_long int32
_C_long_long int64
)
type Timespec struct {
Sec int32
Nsec int32
}
type Timeval struct {
Sec int32
Usec int32
}
type Timex struct {
Modes uint32
Offset int32
Freq int32
Maxerror int32
Esterror int32
Status int32
Constant int32
Precision int32
Tolerance int32
Time Timeval
Tick int32
Ppsfreq int32
Jitter int32
Shift int32
Stabil int32
Jitcnt int32
Calcnt int32
Errcnt int32
Stbcnt int32
Tai int32
Pad_cgo_0 [44]byte
}
type Time_t int32
type Tms struct {
Utime int32
Stime int32
Cutime int32
Cstime int32
}
type Utimbuf struct {
Actime int32
Modtime int32
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int32
Ixrss int32
Idrss int32
Isrss int32
Minflt int32
Majflt int32
Nswap int32
Inblock int32
Oublock int32
Msgsnd int32
Msgrcv int32
Nsignals int32
Nvcsw int32
Nivcsw int32
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
type Stat_t struct {
Dev uint64
X__pad1 uint16
Pad_cgo_0 [2]byte
X__st_ino uint32
Mode uint32
Nlink uint32
Uid uint32
Gid uint32
Rdev uint64
X__pad2 uint16
Pad_cgo_1 [2]byte
Size int64
Blksize int32
Blocks int64
Atim Timespec
Mtim Timespec
Ctim Timespec
Ino uint64
}
type Statfs_t struct {
Type int32
Bsize int32
Blocks uint64
Bfree uint64
Bavail uint64
Files uint64
Ffree uint64
Fsid Fsid
Namelen int32
Frsize int32
Flags int32
Spare [4]int32
}
type Dirent struct {
Ino uint64
Off int64
Reclen uint16
Type uint8
Name [256]int8
Pad_cgo_0 [1]byte
}
type Fsid struct {
X__val [2]int32
}
type Flock_t struct {
Type int16
Whence int16
Start int64
Len int64
Pid int32
}
type RawSockaddrInet4 struct {
Family uint16
Port uint16
Addr [4]byte /* in_addr */
Zero [8]uint8
}
type RawSockaddrInet6 struct {
Family uint16
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Family uint16
Path [108]int8
}
type RawSockaddrLinklayer struct {
Family uint16
Protocol uint16
Ifindex int32
Hatype uint16
Pkttype uint8
Halen uint8
Addr [8]uint8
}
type RawSockaddrNetlink struct {
Family uint16
Pad uint16
Pid uint32
Groups uint32
}
type RawSockaddr struct {
Family uint16
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [96]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint32
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPMreqn struct {
Multiaddr [4]byte /* in_addr */
Address [4]byte /* in_addr */
Ifindex int32
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Iov *Iovec
Iovlen uint32
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet4Pktinfo struct {
Ifindex int32
Spec_dst [4]byte /* in_addr */
Addr [4]byte /* in_addr */
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Data [8]uint32
}
type Ucred struct {
Pid int32
Uid uint32
Gid uint32
}
type TCPInfo struct {
State uint8
Ca_state uint8
Retransmits uint8
Probes uint8
Backoff uint8
Options uint8
Pad_cgo_0 [2]byte
Rto uint32
Ato uint32
Snd_mss uint32
Rcv_mss uint32
Unacked uint32
Sacked uint32
Lost uint32
Retrans uint32
Fackets uint32
Last_data_sent uint32
Last_ack_sent uint32
Last_data_recv uint32
Last_ack_recv uint32
Pmtu uint32
Rcv_ssthresh uint32
Rtt uint32
Rttvar uint32
Snd_ssthresh uint32
Snd_cwnd uint32
Advmss uint32
Reordering uint32
Rcv_rtt uint32
Rcv_space uint32
Total_retrans uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x70
SizeofSockaddrUnix = 0x6e
SizeofSockaddrLinklayer = 0x14
SizeofSockaddrNetlink = 0xc
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPMreqn = 0xc
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x1c
SizeofCmsghdr = 0xc
SizeofInet4Pktinfo = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
SizeofUcred = 0xc
SizeofTCPInfo = 0x68
)
const (
IFA_UNSPEC = 0x0
IFA_ADDRESS = 0x1
IFA_LOCAL = 0x2
IFA_LABEL = 0x3
IFA_BROADCAST = 0x4
IFA_ANYCAST = 0x5
IFA_CACHEINFO = 0x6
IFA_MULTICAST = 0x7
IFLA_UNSPEC = 0x0
IFLA_ADDRESS = 0x1
IFLA_BROADCAST = 0x2
IFLA_IFNAME = 0x3
IFLA_MTU = 0x4
IFLA_LINK = 0x5
IFLA_QDISC = 0x6
IFLA_STATS = 0x7
IFLA_COST = 0x8
IFLA_PRIORITY = 0x9
IFLA_MASTER = 0xa
IFLA_WIRELESS = 0xb
IFLA_PROTINFO = 0xc
IFLA_TXQLEN = 0xd
IFLA_MAP = 0xe
IFLA_WEIGHT = 0xf
IFLA_OPERSTATE = 0x10
IFLA_LINKMODE = 0x11
IFLA_LINKINFO = 0x12
IFLA_NET_NS_PID = 0x13
IFLA_IFALIAS = 0x14
IFLA_MAX = 0x1d
RT_SCOPE_UNIVERSE = 0x0
RT_SCOPE_SITE = 0xc8
RT_SCOPE_LINK = 0xfd
RT_SCOPE_HOST = 0xfe
RT_SCOPE_NOWHERE = 0xff
RT_TABLE_UNSPEC = 0x0
RT_TABLE_COMPAT = 0xfc
RT_TABLE_DEFAULT = 0xfd
RT_TABLE_MAIN = 0xfe
RT_TABLE_LOCAL = 0xff
RT_TABLE_MAX = 0xffffffff
RTA_UNSPEC = 0x0
RTA_DST = 0x1
RTA_SRC = 0x2
RTA_IIF = 0x3
RTA_OIF = 0x4
RTA_GATEWAY = 0x5
RTA_PRIORITY = 0x6
RTA_PREFSRC = 0x7
RTA_METRICS = 0x8
RTA_MULTIPATH = 0x9
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
RTN_BROADCAST = 0x3
RTN_ANYCAST = 0x4
RTN_MULTICAST = 0x5
RTN_BLACKHOLE = 0x6
RTN_UNREACHABLE = 0x7
RTN_PROHIBIT = 0x8
RTN_THROW = 0x9
RTN_NAT = 0xa
RTN_XRESOLVE = 0xb
RTNLGRP_NONE = 0x0
RTNLGRP_LINK = 0x1
RTNLGRP_NOTIFY = 0x2
RTNLGRP_NEIGH = 0x3
RTNLGRP_TC = 0x4
RTNLGRP_IPV4_IFADDR = 0x5
RTNLGRP_IPV4_MROUTE = 0x6
RTNLGRP_IPV4_ROUTE = 0x7
RTNLGRP_IPV4_RULE = 0x8
RTNLGRP_IPV6_IFADDR = 0x9
RTNLGRP_IPV6_MROUTE = 0xa
RTNLGRP_IPV6_ROUTE = 0xb
RTNLGRP_IPV6_IFINFO = 0xc
RTNLGRP_IPV6_PREFIX = 0x12
RTNLGRP_IPV6_RULE = 0x13
RTNLGRP_ND_USEROPT = 0x14
SizeofNlMsghdr = 0x10
SizeofNlMsgerr = 0x14
SizeofRtGenmsg = 0x1
SizeofNlAttr = 0x4
SizeofRtAttr = 0x4
SizeofIfInfomsg = 0x10
SizeofIfAddrmsg = 0x8
SizeofRtMsg = 0xc
SizeofRtNexthop = 0x8
)
type NlMsghdr struct {
Len uint32
Type uint16
Flags uint16
Seq uint32
Pid uint32
}
type NlMsgerr struct {
Error int32
Msg NlMsghdr
}
type RtGenmsg struct {
Family uint8
}
type NlAttr struct {
Len uint16
Type uint16
}
type RtAttr struct {
Len uint16
Type uint16
}
type IfInfomsg struct {
Family uint8
X__ifi_pad uint8
Type uint16
Index int32
Flags uint32
Change uint32
}
type IfAddrmsg struct {
Family uint8
Prefixlen uint8
Flags uint8
Scope uint8
Index uint32
}
type RtMsg struct {
Family uint8
Dst_len uint8
Src_len uint8
Tos uint8
Table uint8
Protocol uint8
Scope uint8
Type uint8
Flags uint32
}
type RtNexthop struct {
Len uint16
Flags uint8
Hops uint8
Ifindex int32
}
const (
SizeofSockFilter = 0x8
SizeofSockFprog = 0x8
)
type SockFilter struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type SockFprog struct {
Len uint16
Pad_cgo_0 [2]byte
Filter *SockFilter
}
type InotifyEvent struct {
Wd int32
Mask uint32
Cookie uint32
Len uint32
Name [0]uint8
}
const SizeofInotifyEvent = 0x10
type PtraceRegs struct {
Ebx int32
Ecx int32
Edx int32
Esi int32
Edi int32
Ebp int32
Eax int32
Xds int32
Xes int32
Xfs int32
Xgs int32
Orig_eax int32
Eip int32
Xcs int32
Eflags int32
Esp int32
Xss int32
}
type FdSet struct {
Bits [32]int32
}
type Sysinfo_t struct {
Uptime int32
Loads [3]uint32
Totalram uint32
Freeram uint32
Sharedram uint32
Bufferram uint32
Totalswap uint32
Freeswap uint32
Procs uint16
Pad uint16
Totalhigh uint32
Freehigh uint32
Unit uint32
X_f [8]int8
}
type Utsname struct {
Sysname [65]int8
Nodename [65]int8
Release [65]int8
Version [65]int8
Machine [65]int8
Domainname [65]int8
}
type Ustat_t struct {
Tfree int32
Tinode uint32
Fname [6]int8
Fpack [6]int8
}
type EpollEvent struct {
Events uint32
Fd int32
Pad int32
}
const (
_AT_FDCWD = -0x64
_AT_REMOVEDIR = 0x200
_AT_SYMLINK_NOFOLLOW = 0x100
_AT_EACCESS = 0x200
)
type pollFd struct {
Fd int32
Events int16
Revents int16
}
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Line uint8
Cc [32]uint8
Pad_cgo_0 [3]byte
Ispeed uint32
Ospeed uint32
}
const (
VINTR = 0x0
VQUIT = 0x1
VERASE = 0x2
VKILL = 0x3
VEOF = 0x4
VTIME = 0x5
VMIN = 0x6
VSWTC = 0x7
VSTART = 0x8
VSTOP = 0x9
VSUSP = 0xa
VEOL = 0xb
VREPRINT = 0xc
VDISCARD = 0xd
VWERASE = 0xe
VLNEXT = 0xf
VEOL2 = 0x10
IGNBRK = 0x1
BRKINT = 0x2
IGNPAR = 0x4
PARMRK = 0x8
INPCK = 0x10
ISTRIP = 0x20
INLCR = 0x40
IGNCR = 0x80
ICRNL = 0x100
IUCLC = 0x200
IXON = 0x400
IXANY = 0x800
IXOFF = 0x1000
IMAXBEL = 0x2000
IUTF8 = 0x4000
OPOST = 0x1
OLCUC = 0x2
ONLCR = 0x4
OCRNL = 0x8
ONOCR = 0x10
ONLRET = 0x20
OFILL = 0x40
OFDEL = 0x80
B0 = 0x0
B50 = 0x1
B75 = 0x2
B110 = 0x3
B134 = 0x4
B150 = 0x5
B200 = 0x6
B300 = 0x7
B600 = 0x8
B1200 = 0x9
B1800 = 0xa
B2400 = 0xb
B4800 = 0xc
B9600 = 0xd
B19200 = 0xe
B38400 = 0xf
CSIZE = 0x30
CS5 = 0x0
CS6 = 0x10
CS7 = 0x20
CS8 = 0x30
CSTOPB = 0x40
CREAD = 0x80
PARENB = 0x100
PARODD = 0x200
HUPCL = 0x400
CLOCAL = 0x800
B57600 = 0x1001
B115200 = 0x1002
B230400 = 0x1003
B460800 = 0x1004
B500000 = 0x1005
B576000 = 0x1006
B921600 = 0x1007
B1000000 = 0x1008
B1152000 = 0x1009
B1500000 = 0x100a
B2000000 = 0x100b
B2500000 = 0x100c
B3000000 = 0x100d
B3500000 = 0x100e
B4000000 = 0x100f
ISIG = 0x1
ICANON = 0x2
XCASE = 0x4
ECHO = 0x8
ECHOE = 0x10
ECHOK = 0x20
ECHONL = 0x40
NOFLSH = 0x80
TOSTOP = 0x100
ECHOCTL = 0x200
ECHOPRT = 0x400
ECHOKE = 0x800
FLUSHO = 0x1000
PENDIN = 0x4000
IEXTEN = 0x8000
TCGETS = 0x5401
TCSETS = 0x5402
)

718
c/syscall/ztypes_linux_amd64.go Normal file
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@@ -0,0 +1,718 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_linux.go
//go:build amd64 && linux
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
PathMax = 0x1000
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int64
}
type Timex struct {
Modes uint32
Pad_cgo_0 [4]byte
Offset int64
Freq int64
Maxerror int64
Esterror int64
Status int32
Pad_cgo_1 [4]byte
Constant int64
Precision int64
Tolerance int64
Time Timeval
Tick int64
Ppsfreq int64
Jitter int64
Shift int32
Pad_cgo_2 [4]byte
Stabil int64
Jitcnt int64
Calcnt int64
Errcnt int64
Stbcnt int64
Tai int32
Pad_cgo_3 [44]byte
}
type Time_t int64
type Tms struct {
Utime int64
Stime int64
Cutime int64
Cstime int64
}
type Utimbuf struct {
Actime int64
Modtime int64
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
type Stat_t struct {
Dev uint64
Ino uint64
Nlink uint64
Mode uint32
Uid uint32
Gid uint32
X__pad0 int32
Rdev uint64
Size int64
Blksize int64
Blocks int64
Atim Timespec
Mtim Timespec
Ctim Timespec
X__unused [3]int64
}
type Statfs_t struct {
Type int64
Bsize int64
Blocks uint64
Bfree uint64
Bavail uint64
Files uint64
Ffree uint64
Fsid Fsid
Namelen int64
Frsize int64
Flags int64
Spare [4]int64
}
type Dirent struct {
Ino uint64
Off int64
Reclen uint16
Type uint8
Name [256]int8
Pad_cgo_0 [5]byte
}
type Fsid struct {
X__val [2]int32
}
type Flock_t struct {
Type int16
Whence int16
Pad_cgo_0 [4]byte
Start int64
Len int64
Pid int32
Pad_cgo_1 [4]byte
}
type RawSockaddrInet4 struct {
Family uint16
Port uint16
Addr [4]byte /* in_addr */
Zero [8]uint8
}
type RawSockaddrInet6 struct {
Family uint16
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Family uint16
Path [108]int8
}
type RawSockaddrLinklayer struct {
Family uint16
Protocol uint16
Ifindex int32
Hatype uint16
Pkttype uint8
Halen uint8
Addr [8]uint8
}
type RawSockaddrNetlink struct {
Family uint16
Pad uint16
Pid uint32
Groups uint32
}
type RawSockaddr struct {
Family uint16
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [96]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPMreqn struct {
Multiaddr [4]byte /* in_addr */
Address [4]byte /* in_addr */
Ifindex int32
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Pad_cgo_0 [4]byte
Iov *Iovec
Iovlen uint64
Control *byte
Controllen uint64
Flags int32
Pad_cgo_1 [4]byte
}
type Cmsghdr struct {
Len uint64
Level int32
Type int32
}
type Inet4Pktinfo struct {
Ifindex int32
Spec_dst [4]byte /* in_addr */
Addr [4]byte /* in_addr */
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Data [8]uint32
}
type Ucred struct {
Pid int32
Uid uint32
Gid uint32
}
type TCPInfo struct {
State uint8
Ca_state uint8
Retransmits uint8
Probes uint8
Backoff uint8
Options uint8
Pad_cgo_0 [2]byte
Rto uint32
Ato uint32
Snd_mss uint32
Rcv_mss uint32
Unacked uint32
Sacked uint32
Lost uint32
Retrans uint32
Fackets uint32
Last_data_sent uint32
Last_ack_sent uint32
Last_data_recv uint32
Last_ack_recv uint32
Pmtu uint32
Rcv_ssthresh uint32
Rtt uint32
Rttvar uint32
Snd_ssthresh uint32
Snd_cwnd uint32
Advmss uint32
Reordering uint32
Rcv_rtt uint32
Rcv_space uint32
Total_retrans uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x70
SizeofSockaddrUnix = 0x6e
SizeofSockaddrLinklayer = 0x14
SizeofSockaddrNetlink = 0xc
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPMreqn = 0xc
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x38
SizeofCmsghdr = 0x10
SizeofInet4Pktinfo = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
SizeofUcred = 0xc
SizeofTCPInfo = 0x68
)
const (
IFA_UNSPEC = 0x0
IFA_ADDRESS = 0x1
IFA_LOCAL = 0x2
IFA_LABEL = 0x3
IFA_BROADCAST = 0x4
IFA_ANYCAST = 0x5
IFA_CACHEINFO = 0x6
IFA_MULTICAST = 0x7
IFLA_UNSPEC = 0x0
IFLA_ADDRESS = 0x1
IFLA_BROADCAST = 0x2
IFLA_IFNAME = 0x3
IFLA_MTU = 0x4
IFLA_LINK = 0x5
IFLA_QDISC = 0x6
IFLA_STATS = 0x7
IFLA_COST = 0x8
IFLA_PRIORITY = 0x9
IFLA_MASTER = 0xa
IFLA_WIRELESS = 0xb
IFLA_PROTINFO = 0xc
IFLA_TXQLEN = 0xd
IFLA_MAP = 0xe
IFLA_WEIGHT = 0xf
IFLA_OPERSTATE = 0x10
IFLA_LINKMODE = 0x11
IFLA_LINKINFO = 0x12
IFLA_NET_NS_PID = 0x13
IFLA_IFALIAS = 0x14
IFLA_MAX = 0x1d
RT_SCOPE_UNIVERSE = 0x0
RT_SCOPE_SITE = 0xc8
RT_SCOPE_LINK = 0xfd
RT_SCOPE_HOST = 0xfe
RT_SCOPE_NOWHERE = 0xff
RT_TABLE_UNSPEC = 0x0
RT_TABLE_COMPAT = 0xfc
RT_TABLE_DEFAULT = 0xfd
RT_TABLE_MAIN = 0xfe
RT_TABLE_LOCAL = 0xff
RT_TABLE_MAX = 0xffffffff
RTA_UNSPEC = 0x0
RTA_DST = 0x1
RTA_SRC = 0x2
RTA_IIF = 0x3
RTA_OIF = 0x4
RTA_GATEWAY = 0x5
RTA_PRIORITY = 0x6
RTA_PREFSRC = 0x7
RTA_METRICS = 0x8
RTA_MULTIPATH = 0x9
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
RTN_BROADCAST = 0x3
RTN_ANYCAST = 0x4
RTN_MULTICAST = 0x5
RTN_BLACKHOLE = 0x6
RTN_UNREACHABLE = 0x7
RTN_PROHIBIT = 0x8
RTN_THROW = 0x9
RTN_NAT = 0xa
RTN_XRESOLVE = 0xb
RTNLGRP_NONE = 0x0
RTNLGRP_LINK = 0x1
RTNLGRP_NOTIFY = 0x2
RTNLGRP_NEIGH = 0x3
RTNLGRP_TC = 0x4
RTNLGRP_IPV4_IFADDR = 0x5
RTNLGRP_IPV4_MROUTE = 0x6
RTNLGRP_IPV4_ROUTE = 0x7
RTNLGRP_IPV4_RULE = 0x8
RTNLGRP_IPV6_IFADDR = 0x9
RTNLGRP_IPV6_MROUTE = 0xa
RTNLGRP_IPV6_ROUTE = 0xb
RTNLGRP_IPV6_IFINFO = 0xc
RTNLGRP_IPV6_PREFIX = 0x12
RTNLGRP_IPV6_RULE = 0x13
RTNLGRP_ND_USEROPT = 0x14
SizeofNlMsghdr = 0x10
SizeofNlMsgerr = 0x14
SizeofRtGenmsg = 0x1
SizeofNlAttr = 0x4
SizeofRtAttr = 0x4
SizeofIfInfomsg = 0x10
SizeofIfAddrmsg = 0x8
SizeofRtMsg = 0xc
SizeofRtNexthop = 0x8
)
type NlMsghdr struct {
Len uint32
Type uint16
Flags uint16
Seq uint32
Pid uint32
}
type NlMsgerr struct {
Error int32
Msg NlMsghdr
}
type RtGenmsg struct {
Family uint8
}
type NlAttr struct {
Len uint16
Type uint16
}
type RtAttr struct {
Len uint16
Type uint16
}
type IfInfomsg struct {
Family uint8
X__ifi_pad uint8
Type uint16
Index int32
Flags uint32
Change uint32
}
type IfAddrmsg struct {
Family uint8
Prefixlen uint8
Flags uint8
Scope uint8
Index uint32
}
type RtMsg struct {
Family uint8
Dst_len uint8
Src_len uint8
Tos uint8
Table uint8
Protocol uint8
Scope uint8
Type uint8
Flags uint32
}
type RtNexthop struct {
Len uint16
Flags uint8
Hops uint8
Ifindex int32
}
const (
SizeofSockFilter = 0x8
SizeofSockFprog = 0x10
)
type SockFilter struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type SockFprog struct {
Len uint16
Pad_cgo_0 [6]byte
Filter *SockFilter
}
type InotifyEvent struct {
Wd int32
Mask uint32
Cookie uint32
Len uint32
Name [0]uint8
}
const SizeofInotifyEvent = 0x10
type PtraceRegs struct {
R15 uint64
R14 uint64
R13 uint64
R12 uint64
Rbp uint64
Rbx uint64
R11 uint64
R10 uint64
R9 uint64
R8 uint64
Rax uint64
Rcx uint64
Rdx uint64
Rsi uint64
Rdi uint64
Orig_rax uint64
Rip uint64
Cs uint64
Eflags uint64
Rsp uint64
Ss uint64
Fs_base uint64
Gs_base uint64
Ds uint64
Es uint64
Fs uint64
Gs uint64
}
type FdSet struct {
Bits [16]int64
}
type Sysinfo_t struct {
Uptime int64
Loads [3]uint64
Totalram uint64
Freeram uint64
Sharedram uint64
Bufferram uint64
Totalswap uint64
Freeswap uint64
Procs uint16
Pad uint16
Pad_cgo_0 [4]byte
Totalhigh uint64
Freehigh uint64
Unit uint32
X_f [0]byte
Pad_cgo_1 [4]byte
}
type Utsname struct {
Sysname [65]int8
Nodename [65]int8
Release [65]int8
Version [65]int8
Machine [65]int8
Domainname [65]int8
}
type Ustat_t struct {
Tfree int32
Pad_cgo_0 [4]byte
Tinode uint64
Fname [6]int8
Fpack [6]int8
Pad_cgo_1 [4]byte
}
type EpollEvent struct {
Events uint32
Fd int32
Pad int32
}
const (
_AT_FDCWD = -0x64
_AT_REMOVEDIR = 0x200
_AT_SYMLINK_NOFOLLOW = 0x100
_AT_EACCESS = 0x200
)
type pollFd struct {
Fd int32
Events int16
Revents int16
}
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Line uint8
Cc [32]uint8
Pad_cgo_0 [3]byte
Ispeed uint32
Ospeed uint32
}
const (
VINTR = 0x0
VQUIT = 0x1
VERASE = 0x2
VKILL = 0x3
VEOF = 0x4
VTIME = 0x5
VMIN = 0x6
VSWTC = 0x7
VSTART = 0x8
VSTOP = 0x9
VSUSP = 0xa
VEOL = 0xb
VREPRINT = 0xc
VDISCARD = 0xd
VWERASE = 0xe
VLNEXT = 0xf
VEOL2 = 0x10
IGNBRK = 0x1
BRKINT = 0x2
IGNPAR = 0x4
PARMRK = 0x8
INPCK = 0x10
ISTRIP = 0x20
INLCR = 0x40
IGNCR = 0x80
ICRNL = 0x100
IUCLC = 0x200
IXON = 0x400
IXANY = 0x800
IXOFF = 0x1000
IMAXBEL = 0x2000
IUTF8 = 0x4000
OPOST = 0x1
OLCUC = 0x2
ONLCR = 0x4
OCRNL = 0x8
ONOCR = 0x10
ONLRET = 0x20
OFILL = 0x40
OFDEL = 0x80
B0 = 0x0
B50 = 0x1
B75 = 0x2
B110 = 0x3
B134 = 0x4
B150 = 0x5
B200 = 0x6
B300 = 0x7
B600 = 0x8
B1200 = 0x9
B1800 = 0xa
B2400 = 0xb
B4800 = 0xc
B9600 = 0xd
B19200 = 0xe
B38400 = 0xf
CSIZE = 0x30
CS5 = 0x0
CS6 = 0x10
CS7 = 0x20
CS8 = 0x30
CSTOPB = 0x40
CREAD = 0x80
PARENB = 0x100
PARODD = 0x200
HUPCL = 0x400
CLOCAL = 0x800
B57600 = 0x1001
B115200 = 0x1002
B230400 = 0x1003
B460800 = 0x1004
B500000 = 0x1005
B576000 = 0x1006
B921600 = 0x1007
B1000000 = 0x1008
B1152000 = 0x1009
B1500000 = 0x100a
B2000000 = 0x100b
B2500000 = 0x100c
B3000000 = 0x100d
B3500000 = 0x100e
B4000000 = 0x100f
ISIG = 0x1
ICANON = 0x2
XCASE = 0x4
ECHO = 0x8
ECHOE = 0x10
ECHOK = 0x20
ECHONL = 0x40
NOFLSH = 0x80
TOSTOP = 0x100
ECHOCTL = 0x200
ECHOPRT = 0x400
ECHOKE = 0x800
FLUSHO = 0x1000
PENDIN = 0x4000
IEXTEN = 0x8000
TCGETS = 0x5401
TCSETS = 0x5402
)

689
c/syscall/ztypes_linux_arm.go Normal file
View File

@@ -0,0 +1,689 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_linux.go
//go:build arm && linux
package syscall
const (
sizeofPtr = 0x4
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x4
sizeofLongLong = 0x8
PathMax = 0x1000
)
type (
_C_short int16
_C_int int32
_C_long int32
_C_long_long int64
)
type Timespec struct {
Sec int32
Nsec int32
}
type Timeval struct {
Sec int32
Usec int32
}
type Timex struct {
Modes uint32
Offset int32
Freq int32
Maxerror int32
Esterror int32
Status int32
Constant int32
Precision int32
Tolerance int32
Time Timeval
Tick int32
Ppsfreq int32
Jitter int32
Shift int32
Stabil int32
Jitcnt int32
Calcnt int32
Errcnt int32
Stbcnt int32
Tai int32
Pad_cgo_0 [44]byte
}
type Time_t int32
type Tms struct {
Utime int32
Stime int32
Cutime int32
Cstime int32
}
type Utimbuf struct {
Actime int32
Modtime int32
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int32
Ixrss int32
Idrss int32
Isrss int32
Minflt int32
Majflt int32
Nswap int32
Inblock int32
Oublock int32
Msgsnd int32
Msgrcv int32
Nsignals int32
Nvcsw int32
Nivcsw int32
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
type Stat_t struct {
Dev uint64
X__pad1 uint16
Pad_cgo_0 [2]byte
X__st_ino uint32
Mode uint32
Nlink uint32
Uid uint32
Gid uint32
Rdev uint64
X__pad2 uint16
Pad_cgo_1 [6]byte
Size int64
Blksize int32
Pad_cgo_2 [4]byte
Blocks int64
Atim Timespec
Mtim Timespec
Ctim Timespec
Ino uint64
}
type Statfs_t struct {
Type int32
Bsize int32
Blocks uint64
Bfree uint64
Bavail uint64
Files uint64
Ffree uint64
Fsid Fsid
Namelen int32
Frsize int32
Flags int32
Spare [4]int32
Pad_cgo_0 [4]byte
}
type Dirent struct {
Ino uint64
Off int64
Reclen uint16
Type uint8
Name [256]uint8
Pad_cgo_0 [5]byte
}
type Fsid struct {
X__val [2]int32
}
type Flock_t struct {
Type int16
Whence int16
Pad_cgo_0 [4]byte
Start int64
Len int64
Pid int32
Pad_cgo_1 [4]byte
}
type RawSockaddrInet4 struct {
Family uint16
Port uint16
Addr [4]byte /* in_addr */
Zero [8]uint8
}
type RawSockaddrInet6 struct {
Family uint16
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Family uint16
Path [108]int8
}
type RawSockaddrLinklayer struct {
Family uint16
Protocol uint16
Ifindex int32
Hatype uint16
Pkttype uint8
Halen uint8
Addr [8]uint8
}
type RawSockaddrNetlink struct {
Family uint16
Pad uint16
Pid uint32
Groups uint32
}
type RawSockaddr struct {
Family uint16
Data [14]uint8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [96]uint8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint32
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPMreqn struct {
Multiaddr [4]byte /* in_addr */
Address [4]byte /* in_addr */
Ifindex int32
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Iov *Iovec
Iovlen uint32
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet4Pktinfo struct {
Ifindex int32
Spec_dst [4]byte /* in_addr */
Addr [4]byte /* in_addr */
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Data [8]uint32
}
type Ucred struct {
Pid int32
Uid uint32
Gid uint32
}
type TCPInfo struct {
State uint8
Ca_state uint8
Retransmits uint8
Probes uint8
Backoff uint8
Options uint8
Pad_cgo_0 [2]byte
Rto uint32
Ato uint32
Snd_mss uint32
Rcv_mss uint32
Unacked uint32
Sacked uint32
Lost uint32
Retrans uint32
Fackets uint32
Last_data_sent uint32
Last_ack_sent uint32
Last_data_recv uint32
Last_ack_recv uint32
Pmtu uint32
Rcv_ssthresh uint32
Rtt uint32
Rttvar uint32
Snd_ssthresh uint32
Snd_cwnd uint32
Advmss uint32
Reordering uint32
Rcv_rtt uint32
Rcv_space uint32
Total_retrans uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x70
SizeofSockaddrUnix = 0x6e
SizeofSockaddrLinklayer = 0x14
SizeofSockaddrNetlink = 0xc
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPMreqn = 0xc
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x1c
SizeofCmsghdr = 0xc
SizeofInet4Pktinfo = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
SizeofUcred = 0xc
SizeofTCPInfo = 0x68
)
const (
IFA_UNSPEC = 0x0
IFA_ADDRESS = 0x1
IFA_LOCAL = 0x2
IFA_LABEL = 0x3
IFA_BROADCAST = 0x4
IFA_ANYCAST = 0x5
IFA_CACHEINFO = 0x6
IFA_MULTICAST = 0x7
IFLA_UNSPEC = 0x0
IFLA_ADDRESS = 0x1
IFLA_BROADCAST = 0x2
IFLA_IFNAME = 0x3
IFLA_MTU = 0x4
IFLA_LINK = 0x5
IFLA_QDISC = 0x6
IFLA_STATS = 0x7
IFLA_COST = 0x8
IFLA_PRIORITY = 0x9
IFLA_MASTER = 0xa
IFLA_WIRELESS = 0xb
IFLA_PROTINFO = 0xc
IFLA_TXQLEN = 0xd
IFLA_MAP = 0xe
IFLA_WEIGHT = 0xf
IFLA_OPERSTATE = 0x10
IFLA_LINKMODE = 0x11
IFLA_LINKINFO = 0x12
IFLA_NET_NS_PID = 0x13
IFLA_IFALIAS = 0x14
IFLA_MAX = 0x1d
RT_SCOPE_UNIVERSE = 0x0
RT_SCOPE_SITE = 0xc8
RT_SCOPE_LINK = 0xfd
RT_SCOPE_HOST = 0xfe
RT_SCOPE_NOWHERE = 0xff
RT_TABLE_UNSPEC = 0x0
RT_TABLE_COMPAT = 0xfc
RT_TABLE_DEFAULT = 0xfd
RT_TABLE_MAIN = 0xfe
RT_TABLE_LOCAL = 0xff
RT_TABLE_MAX = 0xffffffff
RTA_UNSPEC = 0x0
RTA_DST = 0x1
RTA_SRC = 0x2
RTA_IIF = 0x3
RTA_OIF = 0x4
RTA_GATEWAY = 0x5
RTA_PRIORITY = 0x6
RTA_PREFSRC = 0x7
RTA_METRICS = 0x8
RTA_MULTIPATH = 0x9
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
RTN_BROADCAST = 0x3
RTN_ANYCAST = 0x4
RTN_MULTICAST = 0x5
RTN_BLACKHOLE = 0x6
RTN_UNREACHABLE = 0x7
RTN_PROHIBIT = 0x8
RTN_THROW = 0x9
RTN_NAT = 0xa
RTN_XRESOLVE = 0xb
RTNLGRP_NONE = 0x0
RTNLGRP_LINK = 0x1
RTNLGRP_NOTIFY = 0x2
RTNLGRP_NEIGH = 0x3
RTNLGRP_TC = 0x4
RTNLGRP_IPV4_IFADDR = 0x5
RTNLGRP_IPV4_MROUTE = 0x6
RTNLGRP_IPV4_ROUTE = 0x7
RTNLGRP_IPV4_RULE = 0x8
RTNLGRP_IPV6_IFADDR = 0x9
RTNLGRP_IPV6_MROUTE = 0xa
RTNLGRP_IPV6_ROUTE = 0xb
RTNLGRP_IPV6_IFINFO = 0xc
RTNLGRP_IPV6_PREFIX = 0x12
RTNLGRP_IPV6_RULE = 0x13
RTNLGRP_ND_USEROPT = 0x14
SizeofNlMsghdr = 0x10
SizeofNlMsgerr = 0x14
SizeofRtGenmsg = 0x1
SizeofNlAttr = 0x4
SizeofRtAttr = 0x4
SizeofIfInfomsg = 0x10
SizeofIfAddrmsg = 0x8
SizeofRtMsg = 0xc
SizeofRtNexthop = 0x8
)
type NlMsghdr struct {
Len uint32
Type uint16
Flags uint16
Seq uint32
Pid uint32
}
type NlMsgerr struct {
Error int32
Msg NlMsghdr
}
type RtGenmsg struct {
Family uint8
}
type NlAttr struct {
Len uint16
Type uint16
}
type RtAttr struct {
Len uint16
Type uint16
}
type IfInfomsg struct {
Family uint8
X__ifi_pad uint8
Type uint16
Index int32
Flags uint32
Change uint32
}
type IfAddrmsg struct {
Family uint8
Prefixlen uint8
Flags uint8
Scope uint8
Index uint32
}
type RtMsg struct {
Family uint8
Dst_len uint8
Src_len uint8
Tos uint8
Table uint8
Protocol uint8
Scope uint8
Type uint8
Flags uint32
}
type RtNexthop struct {
Len uint16
Flags uint8
Hops uint8
Ifindex int32
}
const (
SizeofSockFilter = 0x8
SizeofSockFprog = 0x8
)
type SockFilter struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type SockFprog struct {
Len uint16
Pad_cgo_0 [2]byte
Filter *SockFilter
}
type InotifyEvent struct {
Wd int32
Mask uint32
Cookie uint32
Len uint32
Name [0]uint8
}
const SizeofInotifyEvent = 0x10
type PtraceRegs struct {
Uregs [18]uint32
}
type FdSet struct {
Bits [32]int32
}
type Sysinfo_t struct {
Uptime int32
Loads [3]uint32
Totalram uint32
Freeram uint32
Sharedram uint32
Bufferram uint32
Totalswap uint32
Freeswap uint32
Procs uint16
Pad uint16
Totalhigh uint32
Freehigh uint32
Unit uint32
X_f [8]uint8
}
type Utsname struct {
Sysname [65]uint8
Nodename [65]uint8
Release [65]uint8
Version [65]uint8
Machine [65]uint8
Domainname [65]uint8
}
type Ustat_t struct {
Tfree int32
Tinode uint32
Fname [6]uint8
Fpack [6]uint8
}
type EpollEvent struct {
Events uint32
PadFd int32
Fd int32
Pad int32
}
const (
_AT_FDCWD = -0x64
_AT_REMOVEDIR = 0x200
_AT_SYMLINK_NOFOLLOW = 0x100
_AT_EACCESS = 0x200
)
type pollFd struct {
Fd int32
Events int16
Revents int16
}
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Line uint8
Cc [32]uint8
Pad_cgo_0 [3]byte
Ispeed uint32
Ospeed uint32
}
const (
VINTR = 0x0
VQUIT = 0x1
VERASE = 0x2
VKILL = 0x3
VEOF = 0x4
VTIME = 0x5
VMIN = 0x6
VSWTC = 0x7
VSTART = 0x8
VSTOP = 0x9
VSUSP = 0xa
VEOL = 0xb
VREPRINT = 0xc
VDISCARD = 0xd
VWERASE = 0xe
VLNEXT = 0xf
VEOL2 = 0x10
IGNBRK = 0x1
BRKINT = 0x2
IGNPAR = 0x4
PARMRK = 0x8
INPCK = 0x10
ISTRIP = 0x20
INLCR = 0x40
IGNCR = 0x80
ICRNL = 0x100
IUCLC = 0x200
IXON = 0x400
IXANY = 0x800
IXOFF = 0x1000
IMAXBEL = 0x2000
IUTF8 = 0x4000
OPOST = 0x1
OLCUC = 0x2
ONLCR = 0x4
OCRNL = 0x8
ONOCR = 0x10
ONLRET = 0x20
OFILL = 0x40
OFDEL = 0x80
B0 = 0x0
B50 = 0x1
B75 = 0x2
B110 = 0x3
B134 = 0x4
B150 = 0x5
B200 = 0x6
B300 = 0x7
B600 = 0x8
B1200 = 0x9
B1800 = 0xa
B2400 = 0xb
B4800 = 0xc
B9600 = 0xd
B19200 = 0xe
B38400 = 0xf
CSIZE = 0x30
CS5 = 0x0
CS6 = 0x10
CS7 = 0x20
CS8 = 0x30
CSTOPB = 0x40
CREAD = 0x80
PARENB = 0x100
PARODD = 0x200
HUPCL = 0x400
CLOCAL = 0x800
B57600 = 0x1001
B115200 = 0x1002
B230400 = 0x1003
B460800 = 0x1004
B500000 = 0x1005
B576000 = 0x1006
B921600 = 0x1007
B1000000 = 0x1008
B1152000 = 0x1009
B1500000 = 0x100a
B2000000 = 0x100b
B2500000 = 0x100c
B3000000 = 0x100d
B3500000 = 0x100e
B4000000 = 0x100f
ISIG = 0x1
ICANON = 0x2
XCASE = 0x4
ECHO = 0x8
ECHOE = 0x10
ECHOK = 0x20
ECHONL = 0x40
NOFLSH = 0x80
TOSTOP = 0x100
ECHOCTL = 0x200
ECHOPRT = 0x400
ECHOKE = 0x800
FLUSHO = 0x1000
PENDIN = 0x4000
IEXTEN = 0x8000
TCGETS = 0x5401
TCSETS = 0x5402
)

603
c/syscall/ztypes_linux_arm64.go Normal file
View File

@@ -0,0 +1,603 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs -- -fsigned-char types_linux.go
//go:build arm64 && linux
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
PathMax = 0x1000
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int64
}
type Timex struct {
Modes uint32
Pad_cgo_0 [4]byte
Offset int64
Freq int64
Maxerror int64
Esterror int64
Status int32
Pad_cgo_1 [4]byte
Constant int64
Precision int64
Tolerance int64
Time Timeval
Tick int64
Ppsfreq int64
Jitter int64
Shift int32
Pad_cgo_2 [4]byte
Stabil int64
Jitcnt int64
Calcnt int64
Errcnt int64
Stbcnt int64
Tai int32
Pad_cgo_3 [44]byte
}
type Time_t int64
type Tms struct {
Utime int64
Stime int64
Cutime int64
Cstime int64
}
type Utimbuf struct {
Actime int64
Modtime int64
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
type Stat_t struct {
Dev uint64
Ino uint64
Mode uint32
Nlink uint32
Uid uint32
Gid uint32
Rdev uint64
X__pad1 uint64
Size int64
Blksize int32
X__pad2 int32
Blocks int64
Atim Timespec
Mtim Timespec
Ctim Timespec
X__glibc_reserved [2]int32
}
type Statfs_t struct {
Type int64
Bsize int64
Blocks uint64
Bfree uint64
Bavail uint64
Files uint64
Ffree uint64
Fsid Fsid
Namelen int64
Frsize int64
Flags int64
Spare [4]int64
}
type Dirent struct {
Ino uint64
Off int64
Reclen uint16
Type uint8
Name [256]int8
Pad_cgo_0 [5]byte
}
type Fsid struct {
X__val [2]int32
}
type Flock_t struct {
Type int16
Whence int16
Pad_cgo_0 [4]byte
Start int64
Len int64
Pid int32
Pad_cgo_1 [4]byte
}
type RawSockaddrInet4 struct {
Family uint16
Port uint16
Addr [4]byte /* in_addr */
Zero [8]uint8
}
type RawSockaddrInet6 struct {
Family uint16
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Family uint16
Path [108]int8
}
type RawSockaddrLinklayer struct {
Family uint16
Protocol uint16
Ifindex int32
Hatype uint16
Pkttype uint8
Halen uint8
Addr [8]uint8
}
type RawSockaddrNetlink struct {
Family uint16
Pad uint16
Pid uint32
Groups uint32
}
type RawSockaddr struct {
Family uint16
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [96]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPMreqn struct {
Multiaddr [4]byte /* in_addr */
Address [4]byte /* in_addr */
Ifindex int32
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Pad_cgo_0 [4]byte
Iov *Iovec
Iovlen uint64
Control *byte
Controllen uint64
Flags int32
Pad_cgo_1 [4]byte
}
type Cmsghdr struct {
Len uint64
Level int32
Type int32
}
type Inet4Pktinfo struct {
Ifindex int32
Spec_dst [4]byte /* in_addr */
Addr [4]byte /* in_addr */
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Data [8]uint32
}
type Ucred struct {
Pid int32
Uid uint32
Gid uint32
}
type TCPInfo struct {
State uint8
Ca_state uint8
Retransmits uint8
Probes uint8
Backoff uint8
Options uint8
Pad_cgo_0 [2]byte
Rto uint32
Ato uint32
Snd_mss uint32
Rcv_mss uint32
Unacked uint32
Sacked uint32
Lost uint32
Retrans uint32
Fackets uint32
Last_data_sent uint32
Last_ack_sent uint32
Last_data_recv uint32
Last_ack_recv uint32
Pmtu uint32
Rcv_ssthresh uint32
Rtt uint32
Rttvar uint32
Snd_ssthresh uint32
Snd_cwnd uint32
Advmss uint32
Reordering uint32
Rcv_rtt uint32
Rcv_space uint32
Total_retrans uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x70
SizeofSockaddrUnix = 0x6e
SizeofSockaddrLinklayer = 0x14
SizeofSockaddrNetlink = 0xc
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPMreqn = 0xc
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x38
SizeofCmsghdr = 0x10
SizeofInet4Pktinfo = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
SizeofUcred = 0xc
SizeofTCPInfo = 0x68
)
const (
IFA_UNSPEC = 0x0
IFA_ADDRESS = 0x1
IFA_LOCAL = 0x2
IFA_LABEL = 0x3
IFA_BROADCAST = 0x4
IFA_ANYCAST = 0x5
IFA_CACHEINFO = 0x6
IFA_MULTICAST = 0x7
IFLA_UNSPEC = 0x0
IFLA_ADDRESS = 0x1
IFLA_BROADCAST = 0x2
IFLA_IFNAME = 0x3
IFLA_MTU = 0x4
IFLA_LINK = 0x5
IFLA_QDISC = 0x6
IFLA_STATS = 0x7
IFLA_COST = 0x8
IFLA_PRIORITY = 0x9
IFLA_MASTER = 0xa
IFLA_WIRELESS = 0xb
IFLA_PROTINFO = 0xc
IFLA_TXQLEN = 0xd
IFLA_MAP = 0xe
IFLA_WEIGHT = 0xf
IFLA_OPERSTATE = 0x10
IFLA_LINKMODE = 0x11
IFLA_LINKINFO = 0x12
IFLA_NET_NS_PID = 0x13
IFLA_IFALIAS = 0x14
IFLA_MAX = 0x24
RT_SCOPE_UNIVERSE = 0x0
RT_SCOPE_SITE = 0xc8
RT_SCOPE_LINK = 0xfd
RT_SCOPE_HOST = 0xfe
RT_SCOPE_NOWHERE = 0xff
RT_TABLE_UNSPEC = 0x0
RT_TABLE_COMPAT = 0xfc
RT_TABLE_DEFAULT = 0xfd
RT_TABLE_MAIN = 0xfe
RT_TABLE_LOCAL = 0xff
RT_TABLE_MAX = 0xffffffff
RTA_UNSPEC = 0x0
RTA_DST = 0x1
RTA_SRC = 0x2
RTA_IIF = 0x3
RTA_OIF = 0x4
RTA_GATEWAY = 0x5
RTA_PRIORITY = 0x6
RTA_PREFSRC = 0x7
RTA_METRICS = 0x8
RTA_MULTIPATH = 0x9
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
RTN_BROADCAST = 0x3
RTN_ANYCAST = 0x4
RTN_MULTICAST = 0x5
RTN_BLACKHOLE = 0x6
RTN_UNREACHABLE = 0x7
RTN_PROHIBIT = 0x8
RTN_THROW = 0x9
RTN_NAT = 0xa
RTN_XRESOLVE = 0xb
RTNLGRP_NONE = 0x0
RTNLGRP_LINK = 0x1
RTNLGRP_NOTIFY = 0x2
RTNLGRP_NEIGH = 0x3
RTNLGRP_TC = 0x4
RTNLGRP_IPV4_IFADDR = 0x5
RTNLGRP_IPV4_MROUTE = 0x6
RTNLGRP_IPV4_ROUTE = 0x7
RTNLGRP_IPV4_RULE = 0x8
RTNLGRP_IPV6_IFADDR = 0x9
RTNLGRP_IPV6_MROUTE = 0xa
RTNLGRP_IPV6_ROUTE = 0xb
RTNLGRP_IPV6_IFINFO = 0xc
RTNLGRP_IPV6_PREFIX = 0x12
RTNLGRP_IPV6_RULE = 0x13
RTNLGRP_ND_USEROPT = 0x14
SizeofNlMsghdr = 0x10
SizeofNlMsgerr = 0x14
SizeofRtGenmsg = 0x1
SizeofNlAttr = 0x4
SizeofRtAttr = 0x4
SizeofIfInfomsg = 0x10
SizeofIfAddrmsg = 0x8
SizeofRtMsg = 0xc
SizeofRtNexthop = 0x8
)
type NlMsghdr struct {
Len uint32
Type uint16
Flags uint16
Seq uint32
Pid uint32
}
type NlMsgerr struct {
Error int32
Msg NlMsghdr
}
type RtGenmsg struct {
Family uint8
}
type NlAttr struct {
Len uint16
Type uint16
}
type RtAttr struct {
Len uint16
Type uint16
}
type IfInfomsg struct {
Family uint8
X__ifi_pad uint8
Type uint16
Index int32
Flags uint32
Change uint32
}
type IfAddrmsg struct {
Family uint8
Prefixlen uint8
Flags uint8
Scope uint8
Index uint32
}
type RtMsg struct {
Family uint8
Dst_len uint8
Src_len uint8
Tos uint8
Table uint8
Protocol uint8
Scope uint8
Type uint8
Flags uint32
}
type RtNexthop struct {
Len uint16
Flags uint8
Hops uint8
Ifindex int32
}
const (
SizeofSockFilter = 0x8
SizeofSockFprog = 0x10
)
type SockFilter struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type SockFprog struct {
Len uint16
Pad_cgo_0 [6]byte
Filter *SockFilter
}
type InotifyEvent struct {
Wd int32
Mask uint32
Cookie uint32
Len uint32
Name [0]int8
}
const SizeofInotifyEvent = 0x10
type PtraceRegs struct {
Regs [31]uint64
Sp uint64
Pc uint64
Pstate uint64
}
type FdSet struct {
Bits [16]int64
}
type Sysinfo_t struct {
Uptime int64
Loads [3]uint64
Totalram uint64
Freeram uint64
Sharedram uint64
Bufferram uint64
Totalswap uint64
Freeswap uint64
Procs uint16
Pad uint16
Pad_cgo_0 [4]byte
Totalhigh uint64
Freehigh uint64
Unit uint32
X_f [0]int8
Pad_cgo_1 [4]byte
}
type Utsname struct {
Sysname [65]int8
Nodename [65]int8
Release [65]int8
Version [65]int8
Machine [65]int8
Domainname [65]int8
}
type Ustat_t struct {
Tfree int32
Pad_cgo_0 [4]byte
Tinode uint64
Fname [6]int8
Fpack [6]int8
Pad_cgo_1 [4]byte
}
type EpollEvent struct {
Events uint32
_ int32
Fd int32
Pad int32
}
const (
_AT_FDCWD = -0x64
_AT_REMOVEDIR = 0x200
_AT_SYMLINK_NOFOLLOW = 0x100
_AT_EACCESS = 0x200
)
type pollFd struct {
Fd int32
Events int16
Revents int16
}
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Line uint8
Cc [32]uint8
Pad_cgo_0 [3]byte
Ispeed uint32
Ospeed uint32
}
const (
IUCLC = 0x200
OLCUC = 0x2
TCGETS = 0x5401
TCSETS = 0x5402
XCASE = 0x4
)

635
c/syscall/ztypes_linux_loong64.go Normal file
View File

@@ -0,0 +1,635 @@
// Code generated by cmd/cgo -godefs; DO NOT EDIT.
// cgo -godefs types_linux.go | go run mkpost.go
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
PathMax = 0x1000
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int64
}
type Timex struct {
Modes uint32
Offset int64
Freq int64
Maxerror int64
Esterror int64
Status int32
Constant int64
Precision int64
Tolerance int64
Time Timeval
Tick int64
Ppsfreq int64
Jitter int64
Shift int32
Stabil int64
Jitcnt int64
Calcnt int64
Errcnt int64
Stbcnt int64
Tai int32
Pad_cgo_0 [44]byte
}
type Time_t int64
type Tms struct {
Utime int64
Stime int64
Cutime int64
Cstime int64
}
type Utimbuf struct {
Actime int64
Modtime int64
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
type Stat_t struct {
Dev uint64
Ino uint64
Mode uint32
Nlink uint32
Uid uint32
Gid uint32
Rdev uint64
X__pad1 uint64
Size int64
Blksize int32
X__pad2 int32
Blocks int64
Atim Timespec
Mtim Timespec
Ctim Timespec
X__glibc_reserved [2]int32
}
type statxTimestamp struct {
Sec int64
Nsec uint32
X__reserved int32
}
type statx_t struct {
Mask uint32
Blksize uint32
Attributes uint64
Nlink uint32
Uid uint32
Gid uint32
Mode uint16
X__spare0 [1]uint16
Ino uint64
Size uint64
Blocks uint64
Attributes_mask uint64
Atime statxTimestamp
Btime statxTimestamp
Ctime statxTimestamp
Mtime statxTimestamp
Rdev_major uint32
Rdev_minor uint32
Dev_major uint32
Dev_minor uint32
Mnt_id uint64
X__spare2 uint64
X__spare3 [12]uint64
}
type Statfs_t struct {
Type int64
Bsize int64
Blocks uint64
Bfree uint64
Bavail uint64
Files uint64
Ffree uint64
Fsid Fsid
Namelen int64
Frsize int64
Flags int64
Spare [4]int64
}
type Dirent struct {
Ino uint64
Off int64
Reclen uint16
Type uint8
Name [256]int8
Pad_cgo_0 [5]byte
}
type Fsid struct {
X__val [2]int32
}
type Flock_t struct {
Type int16
Whence int16
Start int64
Len int64
Pid int32
Pad_cgo_0 [4]byte
}
type RawSockaddrInet4 struct {
Family uint16
Port uint16
Addr [4]byte /* in_addr */
Zero [8]uint8
}
type RawSockaddrInet6 struct {
Family uint16
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Family uint16
Path [108]int8
}
type RawSockaddrLinklayer struct {
Family uint16
Protocol uint16
Ifindex int32
Hatype uint16
Pkttype uint8
Halen uint8
Addr [8]uint8
}
type RawSockaddrNetlink struct {
Family uint16
Pad uint16
Pid uint32
Groups uint32
}
type RawSockaddr struct {
Family uint16
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [96]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPMreqn struct {
Multiaddr [4]byte /* in_addr */
Address [4]byte /* in_addr */
Ifindex int32
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Iov *Iovec
Iovlen uint64
Control *byte
Controllen uint64
Flags int32
Pad_cgo_0 [4]byte
}
type Cmsghdr struct {
Len uint64
Level int32
Type int32
}
type Inet4Pktinfo struct {
Ifindex int32
Spec_dst [4]byte /* in_addr */
Addr [4]byte /* in_addr */
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Data [8]uint32
}
type Ucred struct {
Pid int32
Uid uint32
Gid uint32
}
type TCPInfo struct {
State uint8
Ca_state uint8
Retransmits uint8
Probes uint8
Backoff uint8
Options uint8
Rto uint32
Ato uint32
Snd_mss uint32
Rcv_mss uint32
Unacked uint32
Sacked uint32
Lost uint32
Retrans uint32
Fackets uint32
Last_data_sent uint32
Last_ack_sent uint32
Last_data_recv uint32
Last_ack_recv uint32
Pmtu uint32
Rcv_ssthresh uint32
Rtt uint32
Rttvar uint32
Snd_ssthresh uint32
Snd_cwnd uint32
Advmss uint32
Reordering uint32
Rcv_rtt uint32
Rcv_space uint32
Total_retrans uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x70
SizeofSockaddrUnix = 0x6e
SizeofSockaddrLinklayer = 0x14
SizeofSockaddrNetlink = 0xc
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPMreqn = 0xc
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x38
SizeofCmsghdr = 0x10
SizeofInet4Pktinfo = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
SizeofUcred = 0xc
SizeofTCPInfo = 0x68
)
const (
IFA_UNSPEC = 0x0
IFA_ADDRESS = 0x1
IFA_LOCAL = 0x2
IFA_LABEL = 0x3
IFA_BROADCAST = 0x4
IFA_ANYCAST = 0x5
IFA_CACHEINFO = 0x6
IFA_MULTICAST = 0x7
IFLA_UNSPEC = 0x0
IFLA_ADDRESS = 0x1
IFLA_BROADCAST = 0x2
IFLA_IFNAME = 0x3
IFLA_MTU = 0x4
IFLA_LINK = 0x5
IFLA_QDISC = 0x6
IFLA_STATS = 0x7
IFLA_COST = 0x8
IFLA_PRIORITY = 0x9
IFLA_MASTER = 0xa
IFLA_WIRELESS = 0xb
IFLA_PROTINFO = 0xc
IFLA_TXQLEN = 0xd
IFLA_MAP = 0xe
IFLA_WEIGHT = 0xf
IFLA_OPERSTATE = 0x10
IFLA_LINKMODE = 0x11
IFLA_LINKINFO = 0x12
IFLA_NET_NS_PID = 0x13
IFLA_IFALIAS = 0x14
IFLA_MAX = 0x3a
RT_SCOPE_UNIVERSE = 0x0
RT_SCOPE_SITE = 0xc8
RT_SCOPE_LINK = 0xfd
RT_SCOPE_HOST = 0xfe
RT_SCOPE_NOWHERE = 0xff
RT_TABLE_UNSPEC = 0x0
RT_TABLE_COMPAT = 0xfc
RT_TABLE_DEFAULT = 0xfd
RT_TABLE_MAIN = 0xfe
RT_TABLE_LOCAL = 0xff
RT_TABLE_MAX = 0xffffffff
RTA_UNSPEC = 0x0
RTA_DST = 0x1
RTA_SRC = 0x2
RTA_IIF = 0x3
RTA_OIF = 0x4
RTA_GATEWAY = 0x5
RTA_PRIORITY = 0x6
RTA_PREFSRC = 0x7
RTA_METRICS = 0x8
RTA_MULTIPATH = 0x9
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
RTN_BROADCAST = 0x3
RTN_ANYCAST = 0x4
RTN_MULTICAST = 0x5
RTN_BLACKHOLE = 0x6
RTN_UNREACHABLE = 0x7
RTN_PROHIBIT = 0x8
RTN_THROW = 0x9
RTN_NAT = 0xa
RTN_XRESOLVE = 0xb
RTNLGRP_NONE = 0x0
RTNLGRP_LINK = 0x1
RTNLGRP_NOTIFY = 0x2
RTNLGRP_NEIGH = 0x3
RTNLGRP_TC = 0x4
RTNLGRP_IPV4_IFADDR = 0x5
RTNLGRP_IPV4_MROUTE = 0x6
RTNLGRP_IPV4_ROUTE = 0x7
RTNLGRP_IPV4_RULE = 0x8
RTNLGRP_IPV6_IFADDR = 0x9
RTNLGRP_IPV6_MROUTE = 0xa
RTNLGRP_IPV6_ROUTE = 0xb
RTNLGRP_IPV6_IFINFO = 0xc
RTNLGRP_IPV6_PREFIX = 0x12
RTNLGRP_IPV6_RULE = 0x13
RTNLGRP_ND_USEROPT = 0x14
SizeofNlMsghdr = 0x10
SizeofNlMsgerr = 0x14
SizeofRtGenmsg = 0x1
SizeofNlAttr = 0x4
SizeofRtAttr = 0x4
SizeofIfInfomsg = 0x10
SizeofIfAddrmsg = 0x8
SizeofRtMsg = 0xc
SizeofRtNexthop = 0x8
)
type NlMsghdr struct {
Len uint32
Type uint16
Flags uint16
Seq uint32
Pid uint32
}
type NlMsgerr struct {
Error int32
Msg NlMsghdr
}
type RtGenmsg struct {
Family uint8
}
type NlAttr struct {
Len uint16
Type uint16
}
type RtAttr struct {
Len uint16
Type uint16
}
type IfInfomsg struct {
Family uint8
X__ifi_pad uint8
Type uint16
Index int32
Flags uint32
Change uint32
}
type IfAddrmsg struct {
Family uint8
Prefixlen uint8
Flags uint8
Scope uint8
Index uint32
}
type RtMsg struct {
Family uint8
Dst_len uint8
Src_len uint8
Tos uint8
Table uint8
Protocol uint8
Scope uint8
Type uint8
Flags uint32
}
type RtNexthop struct {
Len uint16
Flags uint8
Hops uint8
Ifindex int32
}
const (
SizeofSockFilter = 0x8
SizeofSockFprog = 0x10
)
type SockFilter struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type SockFprog struct {
Len uint16
Filter *SockFilter
}
type InotifyEvent struct {
Wd int32
Mask uint32
Cookie uint32
Len uint32
}
const SizeofInotifyEvent = 0x10
type PtraceRegs struct {
Regs [32]uint64
Orig_a0 uint64
Era uint64
Badv uint64
Reserved [10]uint64
}
type ptracePsw struct {
}
type ptraceFpregs struct {
}
type ptracePer struct {
}
type FdSet struct {
Bits [16]int64
}
type Sysinfo_t struct {
Uptime int64
Loads [3]uint64
Totalram uint64
Freeram uint64
Sharedram uint64
Bufferram uint64
Totalswap uint64
Freeswap uint64
Procs uint16
Pad uint16
Totalhigh uint64
Freehigh uint64
Unit uint32
X_f [0]int8
Pad_cgo_0 [4]byte
}
type Utsname struct {
Sysname [65]int8
Nodename [65]int8
Release [65]int8
Version [65]int8
Machine [65]int8
Domainname [65]int8
}
type Ustat_t struct {
Tfree int32
Tinode uint64
Fname [6]int8
Fpack [6]int8
Pad_cgo_0 [4]byte
}
type EpollEvent struct {
Events uint32
X_padFd int32
Fd int32
Pad int32
}
const (
_AT_FDCWD = -0x64
_AT_REMOVEDIR = 0x200
_AT_SYMLINK_NOFOLLOW = 0x100
_AT_EACCESS = 0x200
_AT_EMPTY_PATH = 0x1000
_AT_NO_AUTOMOUNT = 0x800
_STATX_BASIC_STATS = 0x7ff
)
type pollFd struct {
Fd int32
Events int16
Revents int16
}
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Line uint8
Cc [32]uint8
Ispeed uint32
Ospeed uint32
}
const (
IUCLC = 0x200
OLCUC = 0x2
TCGETS = 0x5401
TCSETS = 0x5402
XCASE = 0x4
)

599
c/syscall/ztypes_linux_mips.go Normal file
View File

@@ -0,0 +1,599 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_linux.go
package syscall
const (
sizeofPtr = 0x4
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x4
sizeofLongLong = 0x8
PathMax = 0x1000
)
type (
_C_short int16
_C_int int32
_C_long int32
_C_long_long int64
)
type Timespec struct {
Sec int32
Nsec int32
}
type Timeval struct {
Sec int32
Usec int32
}
type Timex struct {
Modes uint32
Offset int32
Freq int32
Maxerror int32
Esterror int32
Status int32
Constant int32
Precision int32
Tolerance int32
Time Timeval
Tick int32
Ppsfreq int32
Jitter int32
Shift int32
Stabil int32
Jitcnt int32
Calcnt int32
Errcnt int32
Stbcnt int32
Tai int32
Pad_cgo_0 [44]byte
}
type Time_t int32
type Tms struct {
Utime int32
Stime int32
Cutime int32
Cstime int32
}
type Utimbuf struct {
Actime int32
Modtime int32
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int32
Ixrss int32
Idrss int32
Isrss int32
Minflt int32
Majflt int32
Nswap int32
Inblock int32
Oublock int32
Msgsnd int32
Msgrcv int32
Nsignals int32
Nvcsw int32
Nivcsw int32
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
type Stat_t struct {
Dev uint32
Pad1 [3]int32
Ino uint64
Mode uint32
Nlink uint32
Uid uint32
Gid uint32
Rdev uint32
Pad2 [3]int32
Size int64
Atim Timespec
Mtim Timespec
Ctim Timespec
Blksize int32
Pad4 int32
Blocks int64
Pad5 [14]int32
}
type Statfs_t struct {
Type int32
Bsize int32
Frsize int32
Pad_cgo_0 [4]byte
Blocks uint64
Bfree uint64
Files uint64
Ffree uint64
Bavail uint64
Fsid Fsid
Namelen int32
Flags int32
Spare [5]int32
Pad_cgo_1 [4]byte
}
type Dirent struct {
Ino uint64
Off int64
Reclen uint16
Type uint8
Name [256]int8
Pad_cgo_0 [5]byte
}
type Fsid struct {
X__val [2]int32
}
type Flock_t struct {
Type int16
Whence int16
Pad_cgo_0 [4]byte
Start int64
Len int64
Pid int32
Pad_cgo_1 [4]byte
}
type RawSockaddrInet4 struct {
Family uint16
Port uint16
Addr [4]byte /* in_addr */
Zero [8]uint8
}
type RawSockaddrInet6 struct {
Family uint16
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Family uint16
Path [108]int8
}
type RawSockaddrLinklayer struct {
Family uint16
Protocol uint16
Ifindex int32
Hatype uint16
Pkttype uint8
Halen uint8
Addr [8]uint8
}
type RawSockaddrNetlink struct {
Family uint16
Pad uint16
Pid uint32
Groups uint32
}
type RawSockaddr struct {
Family uint16
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [96]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint32
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPMreqn struct {
Multiaddr [4]byte /* in_addr */
Address [4]byte /* in_addr */
Ifindex int32
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Iov *Iovec
Iovlen uint32
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet4Pktinfo struct {
Ifindex int32
Spec_dst [4]byte /* in_addr */
Addr [4]byte /* in_addr */
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Data [8]uint32
}
type Ucred struct {
Pid int32
Uid uint32
Gid uint32
}
type TCPInfo struct {
State uint8
Ca_state uint8
Retransmits uint8
Probes uint8
Backoff uint8
Options uint8
Pad_cgo_0 [2]byte
Rto uint32
Ato uint32
Snd_mss uint32
Rcv_mss uint32
Unacked uint32
Sacked uint32
Lost uint32
Retrans uint32
Fackets uint32
Last_data_sent uint32
Last_ack_sent uint32
Last_data_recv uint32
Last_ack_recv uint32
Pmtu uint32
Rcv_ssthresh uint32
Rtt uint32
Rttvar uint32
Snd_ssthresh uint32
Snd_cwnd uint32
Advmss uint32
Reordering uint32
Rcv_rtt uint32
Rcv_space uint32
Total_retrans uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x70
SizeofSockaddrUnix = 0x6e
SizeofSockaddrLinklayer = 0x14
SizeofSockaddrNetlink = 0xc
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPMreqn = 0xc
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x1c
SizeofCmsghdr = 0xc
SizeofInet4Pktinfo = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
SizeofUcred = 0xc
SizeofTCPInfo = 0x68
)
const (
IFA_UNSPEC = 0x0
IFA_ADDRESS = 0x1
IFA_LOCAL = 0x2
IFA_LABEL = 0x3
IFA_BROADCAST = 0x4
IFA_ANYCAST = 0x5
IFA_CACHEINFO = 0x6
IFA_MULTICAST = 0x7
IFLA_UNSPEC = 0x0
IFLA_ADDRESS = 0x1
IFLA_BROADCAST = 0x2
IFLA_IFNAME = 0x3
IFLA_MTU = 0x4
IFLA_LINK = 0x5
IFLA_QDISC = 0x6
IFLA_STATS = 0x7
IFLA_COST = 0x8
IFLA_PRIORITY = 0x9
IFLA_MASTER = 0xa
IFLA_WIRELESS = 0xb
IFLA_PROTINFO = 0xc
IFLA_TXQLEN = 0xd
IFLA_MAP = 0xe
IFLA_WEIGHT = 0xf
IFLA_OPERSTATE = 0x10
IFLA_LINKMODE = 0x11
IFLA_LINKINFO = 0x12
IFLA_NET_NS_PID = 0x13
IFLA_IFALIAS = 0x14
IFLA_MAX = 0x27
RT_SCOPE_UNIVERSE = 0x0
RT_SCOPE_SITE = 0xc8
RT_SCOPE_LINK = 0xfd
RT_SCOPE_HOST = 0xfe
RT_SCOPE_NOWHERE = 0xff
RT_TABLE_UNSPEC = 0x0
RT_TABLE_COMPAT = 0xfc
RT_TABLE_DEFAULT = 0xfd
RT_TABLE_MAIN = 0xfe
RT_TABLE_LOCAL = 0xff
RT_TABLE_MAX = 0xffffffff
RTA_UNSPEC = 0x0
RTA_DST = 0x1
RTA_SRC = 0x2
RTA_IIF = 0x3
RTA_OIF = 0x4
RTA_GATEWAY = 0x5
RTA_PRIORITY = 0x6
RTA_PREFSRC = 0x7
RTA_METRICS = 0x8
RTA_MULTIPATH = 0x9
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
RTN_BROADCAST = 0x3
RTN_ANYCAST = 0x4
RTN_MULTICAST = 0x5
RTN_BLACKHOLE = 0x6
RTN_UNREACHABLE = 0x7
RTN_PROHIBIT = 0x8
RTN_THROW = 0x9
RTN_NAT = 0xa
RTN_XRESOLVE = 0xb
RTNLGRP_NONE = 0x0
RTNLGRP_LINK = 0x1
RTNLGRP_NOTIFY = 0x2
RTNLGRP_NEIGH = 0x3
RTNLGRP_TC = 0x4
RTNLGRP_IPV4_IFADDR = 0x5
RTNLGRP_IPV4_MROUTE = 0x6
RTNLGRP_IPV4_ROUTE = 0x7
RTNLGRP_IPV4_RULE = 0x8
RTNLGRP_IPV6_IFADDR = 0x9
RTNLGRP_IPV6_MROUTE = 0xa
RTNLGRP_IPV6_ROUTE = 0xb
RTNLGRP_IPV6_IFINFO = 0xc
RTNLGRP_IPV6_PREFIX = 0x12
RTNLGRP_IPV6_RULE = 0x13
RTNLGRP_ND_USEROPT = 0x14
SizeofNlMsghdr = 0x10
SizeofNlMsgerr = 0x14
SizeofRtGenmsg = 0x1
SizeofNlAttr = 0x4
SizeofRtAttr = 0x4
SizeofIfInfomsg = 0x10
SizeofIfAddrmsg = 0x8
SizeofRtMsg = 0xc
SizeofRtNexthop = 0x8
)
type NlMsghdr struct {
Len uint32
Type uint16
Flags uint16
Seq uint32
Pid uint32
}
type NlMsgerr struct {
Error int32
Msg NlMsghdr
}
type RtGenmsg struct {
Family uint8
}
type NlAttr struct {
Len uint16
Type uint16
}
type RtAttr struct {
Len uint16
Type uint16
}
type IfInfomsg struct {
Family uint8
X__ifi_pad uint8
Type uint16
Index int32
Flags uint32
Change uint32
}
type IfAddrmsg struct {
Family uint8
Prefixlen uint8
Flags uint8
Scope uint8
Index uint32
}
type RtMsg struct {
Family uint8
Dst_len uint8
Src_len uint8
Tos uint8
Table uint8
Protocol uint8
Scope uint8
Type uint8
Flags uint32
}
type RtNexthop struct {
Len uint16
Flags uint8
Hops uint8
Ifindex int32
}
const (
SizeofSockFilter = 0x8
SizeofSockFprog = 0x8
)
type SockFilter struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type SockFprog struct {
Len uint16
Pad_cgo_0 [2]byte
Filter *SockFilter
}
type InotifyEvent struct {
Wd int32
Mask uint32
Cookie uint32
Len uint32
}
const SizeofInotifyEvent = 0x10
type PtraceRegs struct {
Regs [109]uint32
U_tsize uint32
U_dsize uint32
U_ssize uint32
Start_code uint32
Start_data uint32
Start_stack uint32
Signal int32
U_ar0 *byte
Magic uint32
U_comm [32]int8
}
type FdSet struct {
Bits [32]int32
}
type Sysinfo_t struct {
Uptime int32
Loads [3]uint32
Totalram uint32
Freeram uint32
Sharedram uint32
Bufferram uint32
Totalswap uint32
Freeswap uint32
Procs uint16
Pad uint16
Totalhigh uint32
Freehigh uint32
Unit uint32
X_f [8]int8
}
type Utsname struct {
Sysname [65]int8
Nodename [65]int8
Release [65]int8
Version [65]int8
Machine [65]int8
Domainname [65]int8
}
type Ustat_t struct {
Tfree int32
Tinode uint32
Fname [6]int8
Fpack [6]int8
}
type EpollEvent struct {
Events uint32
PadFd int32
Fd int32
Pad int32
}
const (
_AT_FDCWD = -0x64
_AT_REMOVEDIR = 0x200
_AT_SYMLINK_NOFOLLOW = 0x100
_AT_EACCESS = 0x200
)
type pollFd struct {
Fd int32
Events int16
Revents int16
}
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Line uint8
Cc [32]uint8
Pad_cgo_0 [3]byte
}
const (
IUCLC = 0x200
OLCUC = 0x2
TCGETS = 0x540d
TCSETS = 0x540e
XCASE = 0x4
)

606
c/syscall/ztypes_linux_mips64.go Normal file
View File

@@ -0,0 +1,606 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_linux.go
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
PathMax = 0x1000
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int64
}
type Timex struct {
Modes uint32
Pad_cgo_0 [4]byte
Offset int64
Freq int64
Maxerror int64
Esterror int64
Status int32
Pad_cgo_1 [4]byte
Constant int64
Precision int64
Tolerance int64
Time Timeval
Tick int64
Ppsfreq int64
Jitter int64
Shift int32
Pad_cgo_2 [4]byte
Stabil int64
Jitcnt int64
Calcnt int64
Errcnt int64
Stbcnt int64
Tai int32
Pad_cgo_3 [44]byte
}
type Time_t int64
type Tms struct {
Utime int64
Stime int64
Cutime int64
Cstime int64
}
type Utimbuf struct {
Actime int64
Modtime int64
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
type Stat_t struct {
Dev uint32
Pad1 [3]int32
Ino uint64
Mode uint32
Nlink uint32
Uid uint32
Gid uint32
Rdev uint32
Pad2 [3]uint32
Size int64
Atim Timespec
Mtim Timespec
Ctim Timespec
Blksize uint32
Pad4 uint32
Blocks int64
}
type Statfs_t struct {
Type int64
Bsize int64
Frsize int64
Blocks uint64
Bfree uint64
Files uint64
Ffree uint64
Bavail uint64
Fsid Fsid
Namelen int64
Flags int64
Spare [5]int64
}
type Dirent struct {
Ino uint64
Off int64
Reclen uint16
Type uint8
Name [256]int8
Pad_cgo_0 [5]byte
}
type Fsid struct {
X__val [2]int32
}
type Flock_t struct {
Type int16
Whence int16
Pad_cgo_0 [4]byte
Start int64
Len int64
Pid int32
Pad_cgo_1 [4]byte
}
type RawSockaddrInet4 struct {
Family uint16
Port uint16
Addr [4]byte /* in_addr */
Zero [8]uint8
}
type RawSockaddrInet6 struct {
Family uint16
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Family uint16
Path [108]int8
}
type RawSockaddrLinklayer struct {
Family uint16
Protocol uint16
Ifindex int32
Hatype uint16
Pkttype uint8
Halen uint8
Addr [8]uint8
}
type RawSockaddrNetlink struct {
Family uint16
Pad uint16
Pid uint32
Groups uint32
}
type RawSockaddr struct {
Family uint16
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [96]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPMreqn struct {
Multiaddr [4]byte /* in_addr */
Address [4]byte /* in_addr */
Ifindex int32
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Pad_cgo_0 [4]byte
Iov *Iovec
Iovlen uint64
Control *byte
Controllen uint64
Flags int32
Pad_cgo_1 [4]byte
}
type Cmsghdr struct {
Len uint64
Level int32
Type int32
}
type Inet4Pktinfo struct {
Ifindex int32
Spec_dst [4]byte /* in_addr */
Addr [4]byte /* in_addr */
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Data [8]uint32
}
type Ucred struct {
Pid int32
Uid uint32
Gid uint32
}
type TCPInfo struct {
State uint8
Ca_state uint8
Retransmits uint8
Probes uint8
Backoff uint8
Options uint8
Pad_cgo_0 [2]byte
Rto uint32
Ato uint32
Snd_mss uint32
Rcv_mss uint32
Unacked uint32
Sacked uint32
Lost uint32
Retrans uint32
Fackets uint32
Last_data_sent uint32
Last_ack_sent uint32
Last_data_recv uint32
Last_ack_recv uint32
Pmtu uint32
Rcv_ssthresh uint32
Rtt uint32
Rttvar uint32
Snd_ssthresh uint32
Snd_cwnd uint32
Advmss uint32
Reordering uint32
Rcv_rtt uint32
Rcv_space uint32
Total_retrans uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x70
SizeofSockaddrUnix = 0x6e
SizeofSockaddrLinklayer = 0x14
SizeofSockaddrNetlink = 0xc
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPMreqn = 0xc
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x38
SizeofCmsghdr = 0x10
SizeofInet4Pktinfo = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
SizeofUcred = 0xc
SizeofTCPInfo = 0x68
)
const (
IFA_UNSPEC = 0x0
IFA_ADDRESS = 0x1
IFA_LOCAL = 0x2
IFA_LABEL = 0x3
IFA_BROADCAST = 0x4
IFA_ANYCAST = 0x5
IFA_CACHEINFO = 0x6
IFA_MULTICAST = 0x7
IFLA_UNSPEC = 0x0
IFLA_ADDRESS = 0x1
IFLA_BROADCAST = 0x2
IFLA_IFNAME = 0x3
IFLA_MTU = 0x4
IFLA_LINK = 0x5
IFLA_QDISC = 0x6
IFLA_STATS = 0x7
IFLA_COST = 0x8
IFLA_PRIORITY = 0x9
IFLA_MASTER = 0xa
IFLA_WIRELESS = 0xb
IFLA_PROTINFO = 0xc
IFLA_TXQLEN = 0xd
IFLA_MAP = 0xe
IFLA_WEIGHT = 0xf
IFLA_OPERSTATE = 0x10
IFLA_LINKMODE = 0x11
IFLA_LINKINFO = 0x12
IFLA_NET_NS_PID = 0x13
IFLA_IFALIAS = 0x14
IFLA_MAX = 0x22
RT_SCOPE_UNIVERSE = 0x0
RT_SCOPE_SITE = 0xc8
RT_SCOPE_LINK = 0xfd
RT_SCOPE_HOST = 0xfe
RT_SCOPE_NOWHERE = 0xff
RT_TABLE_UNSPEC = 0x0
RT_TABLE_COMPAT = 0xfc
RT_TABLE_DEFAULT = 0xfd
RT_TABLE_MAIN = 0xfe
RT_TABLE_LOCAL = 0xff
RT_TABLE_MAX = 0xffffffff
RTA_UNSPEC = 0x0
RTA_DST = 0x1
RTA_SRC = 0x2
RTA_IIF = 0x3
RTA_OIF = 0x4
RTA_GATEWAY = 0x5
RTA_PRIORITY = 0x6
RTA_PREFSRC = 0x7
RTA_METRICS = 0x8
RTA_MULTIPATH = 0x9
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
RTN_BROADCAST = 0x3
RTN_ANYCAST = 0x4
RTN_MULTICAST = 0x5
RTN_BLACKHOLE = 0x6
RTN_UNREACHABLE = 0x7
RTN_PROHIBIT = 0x8
RTN_THROW = 0x9
RTN_NAT = 0xa
RTN_XRESOLVE = 0xb
RTNLGRP_NONE = 0x0
RTNLGRP_LINK = 0x1
RTNLGRP_NOTIFY = 0x2
RTNLGRP_NEIGH = 0x3
RTNLGRP_TC = 0x4
RTNLGRP_IPV4_IFADDR = 0x5
RTNLGRP_IPV4_MROUTE = 0x6
RTNLGRP_IPV4_ROUTE = 0x7
RTNLGRP_IPV4_RULE = 0x8
RTNLGRP_IPV6_IFADDR = 0x9
RTNLGRP_IPV6_MROUTE = 0xa
RTNLGRP_IPV6_ROUTE = 0xb
RTNLGRP_IPV6_IFINFO = 0xc
RTNLGRP_IPV6_PREFIX = 0x12
RTNLGRP_IPV6_RULE = 0x13
RTNLGRP_ND_USEROPT = 0x14
SizeofNlMsghdr = 0x10
SizeofNlMsgerr = 0x14
SizeofRtGenmsg = 0x1
SizeofNlAttr = 0x4
SizeofRtAttr = 0x4
SizeofIfInfomsg = 0x10
SizeofIfAddrmsg = 0x8
SizeofRtMsg = 0xc
SizeofRtNexthop = 0x8
)
type NlMsghdr struct {
Len uint32
Type uint16
Flags uint16
Seq uint32
Pid uint32
}
type NlMsgerr struct {
Error int32
Msg NlMsghdr
}
type RtGenmsg struct {
Family uint8
}
type NlAttr struct {
Len uint16
Type uint16
}
type RtAttr struct {
Len uint16
Type uint16
}
type IfInfomsg struct {
Family uint8
X__ifi_pad uint8
Type uint16
Index int32
Flags uint32
Change uint32
}
type IfAddrmsg struct {
Family uint8
Prefixlen uint8
Flags uint8
Scope uint8
Index uint32
}
type RtMsg struct {
Family uint8
Dst_len uint8
Src_len uint8
Tos uint8
Table uint8
Protocol uint8
Scope uint8
Type uint8
Flags uint32
}
type RtNexthop struct {
Len uint16
Flags uint8
Hops uint8
Ifindex int32
}
const (
SizeofSockFilter = 0x8
SizeofSockFprog = 0x10
)
type SockFilter struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type SockFprog struct {
Len uint16
Pad_cgo_0 [6]byte
Filter *SockFilter
}
type InotifyEvent struct {
Wd int32
Mask uint32
Cookie uint32
Len uint32
Name [0]int8
}
const SizeofInotifyEvent = 0x10
type PtraceRegs struct {
Regs [102]uint64
U_tsize uint64
U_dsize uint64
U_ssize uint64
Start_code uint64
Start_data uint64
Start_stack uint64
Signal int64
U_ar0 uint64
Magic uint64
U_comm [32]int8
}
type FdSet struct {
Bits [16]int64
}
type Sysinfo_t struct {
Uptime int64
Loads [3]uint64
Totalram uint64
Freeram uint64
Sharedram uint64
Bufferram uint64
Totalswap uint64
Freeswap uint64
Procs uint16
Pad uint16
Pad_cgo_0 [4]byte
Totalhigh uint64
Freehigh uint64
Unit uint32
X_f [0]int8
Pad_cgo_1 [4]byte
}
type Utsname struct {
Sysname [65]int8
Nodename [65]int8
Release [65]int8
Version [65]int8
Machine [65]int8
Domainname [65]int8
}
type Ustat_t struct {
Tfree int32
Pad_cgo_0 [4]byte
Tinode uint64
Fname [6]int8
Fpack [6]int8
Pad_cgo_1 [4]byte
}
type EpollEvent struct {
Events uint32
_ int32
Fd int32
Pad int32
}
const (
_AT_FDCWD = -0x64
_AT_REMOVEDIR = 0x200
_AT_SYMLINK_NOFOLLOW = 0x100
_AT_EACCESS = 0x200
)
type pollFd struct {
Fd int32
Events int16
Revents int16
}
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Line uint8
Cc [32]uint8
Pad_cgo_0 [3]byte
}
const (
IUCLC = 0x200
OLCUC = 0x2
TCGETS = 0x540d
TCSETS = 0x540e
XCASE = 0x4
)

606
c/syscall/ztypes_linux_mips64le.go Normal file
View File

@@ -0,0 +1,606 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_linux.go
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
PathMax = 0x1000
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int64
}
type Timex struct {
Modes uint32
Pad_cgo_0 [4]byte
Offset int64
Freq int64
Maxerror int64
Esterror int64
Status int32
Pad_cgo_1 [4]byte
Constant int64
Precision int64
Tolerance int64
Time Timeval
Tick int64
Ppsfreq int64
Jitter int64
Shift int32
Pad_cgo_2 [4]byte
Stabil int64
Jitcnt int64
Calcnt int64
Errcnt int64
Stbcnt int64
Tai int32
Pad_cgo_3 [44]byte
}
type Time_t int64
type Tms struct {
Utime int64
Stime int64
Cutime int64
Cstime int64
}
type Utimbuf struct {
Actime int64
Modtime int64
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
type Stat_t struct {
Dev uint32
Pad1 [3]int32
Ino uint64
Mode uint32
Nlink uint32
Uid uint32
Gid uint32
Rdev uint32
Pad2 [3]uint32
Size int64
Atim Timespec
Mtim Timespec
Ctim Timespec
Blksize uint32
Pad4 uint32
Blocks int64
}
type Statfs_t struct {
Type int64
Bsize int64
Frsize int64
Blocks uint64
Bfree uint64
Files uint64
Ffree uint64
Bavail uint64
Fsid Fsid
Namelen int64
Flags int64
Spare [5]int64
}
type Dirent struct {
Ino uint64
Off int64
Reclen uint16
Type uint8
Name [256]int8
Pad_cgo_0 [5]byte
}
type Fsid struct {
X__val [2]int32
}
type Flock_t struct {
Type int16
Whence int16
Pad_cgo_0 [4]byte
Start int64
Len int64
Pid int32
Pad_cgo_1 [4]byte
}
type RawSockaddrInet4 struct {
Family uint16
Port uint16
Addr [4]byte /* in_addr */
Zero [8]uint8
}
type RawSockaddrInet6 struct {
Family uint16
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Family uint16
Path [108]int8
}
type RawSockaddrLinklayer struct {
Family uint16
Protocol uint16
Ifindex int32
Hatype uint16
Pkttype uint8
Halen uint8
Addr [8]uint8
}
type RawSockaddrNetlink struct {
Family uint16
Pad uint16
Pid uint32
Groups uint32
}
type RawSockaddr struct {
Family uint16
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [96]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPMreqn struct {
Multiaddr [4]byte /* in_addr */
Address [4]byte /* in_addr */
Ifindex int32
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Pad_cgo_0 [4]byte
Iov *Iovec
Iovlen uint64
Control *byte
Controllen uint64
Flags int32
Pad_cgo_1 [4]byte
}
type Cmsghdr struct {
Len uint64
Level int32
Type int32
}
type Inet4Pktinfo struct {
Ifindex int32
Spec_dst [4]byte /* in_addr */
Addr [4]byte /* in_addr */
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Data [8]uint32
}
type Ucred struct {
Pid int32
Uid uint32
Gid uint32
}
type TCPInfo struct {
State uint8
Ca_state uint8
Retransmits uint8
Probes uint8
Backoff uint8
Options uint8
Pad_cgo_0 [2]byte
Rto uint32
Ato uint32
Snd_mss uint32
Rcv_mss uint32
Unacked uint32
Sacked uint32
Lost uint32
Retrans uint32
Fackets uint32
Last_data_sent uint32
Last_ack_sent uint32
Last_data_recv uint32
Last_ack_recv uint32
Pmtu uint32
Rcv_ssthresh uint32
Rtt uint32
Rttvar uint32
Snd_ssthresh uint32
Snd_cwnd uint32
Advmss uint32
Reordering uint32
Rcv_rtt uint32
Rcv_space uint32
Total_retrans uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x70
SizeofSockaddrUnix = 0x6e
SizeofSockaddrLinklayer = 0x14
SizeofSockaddrNetlink = 0xc
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPMreqn = 0xc
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x38
SizeofCmsghdr = 0x10
SizeofInet4Pktinfo = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
SizeofUcred = 0xc
SizeofTCPInfo = 0x68
)
const (
IFA_UNSPEC = 0x0
IFA_ADDRESS = 0x1
IFA_LOCAL = 0x2
IFA_LABEL = 0x3
IFA_BROADCAST = 0x4
IFA_ANYCAST = 0x5
IFA_CACHEINFO = 0x6
IFA_MULTICAST = 0x7
IFLA_UNSPEC = 0x0
IFLA_ADDRESS = 0x1
IFLA_BROADCAST = 0x2
IFLA_IFNAME = 0x3
IFLA_MTU = 0x4
IFLA_LINK = 0x5
IFLA_QDISC = 0x6
IFLA_STATS = 0x7
IFLA_COST = 0x8
IFLA_PRIORITY = 0x9
IFLA_MASTER = 0xa
IFLA_WIRELESS = 0xb
IFLA_PROTINFO = 0xc
IFLA_TXQLEN = 0xd
IFLA_MAP = 0xe
IFLA_WEIGHT = 0xf
IFLA_OPERSTATE = 0x10
IFLA_LINKMODE = 0x11
IFLA_LINKINFO = 0x12
IFLA_NET_NS_PID = 0x13
IFLA_IFALIAS = 0x14
IFLA_MAX = 0x22
RT_SCOPE_UNIVERSE = 0x0
RT_SCOPE_SITE = 0xc8
RT_SCOPE_LINK = 0xfd
RT_SCOPE_HOST = 0xfe
RT_SCOPE_NOWHERE = 0xff
RT_TABLE_UNSPEC = 0x0
RT_TABLE_COMPAT = 0xfc
RT_TABLE_DEFAULT = 0xfd
RT_TABLE_MAIN = 0xfe
RT_TABLE_LOCAL = 0xff
RT_TABLE_MAX = 0xffffffff
RTA_UNSPEC = 0x0
RTA_DST = 0x1
RTA_SRC = 0x2
RTA_IIF = 0x3
RTA_OIF = 0x4
RTA_GATEWAY = 0x5
RTA_PRIORITY = 0x6
RTA_PREFSRC = 0x7
RTA_METRICS = 0x8
RTA_MULTIPATH = 0x9
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
RTN_BROADCAST = 0x3
RTN_ANYCAST = 0x4
RTN_MULTICAST = 0x5
RTN_BLACKHOLE = 0x6
RTN_UNREACHABLE = 0x7
RTN_PROHIBIT = 0x8
RTN_THROW = 0x9
RTN_NAT = 0xa
RTN_XRESOLVE = 0xb
RTNLGRP_NONE = 0x0
RTNLGRP_LINK = 0x1
RTNLGRP_NOTIFY = 0x2
RTNLGRP_NEIGH = 0x3
RTNLGRP_TC = 0x4
RTNLGRP_IPV4_IFADDR = 0x5
RTNLGRP_IPV4_MROUTE = 0x6
RTNLGRP_IPV4_ROUTE = 0x7
RTNLGRP_IPV4_RULE = 0x8
RTNLGRP_IPV6_IFADDR = 0x9
RTNLGRP_IPV6_MROUTE = 0xa
RTNLGRP_IPV6_ROUTE = 0xb
RTNLGRP_IPV6_IFINFO = 0xc
RTNLGRP_IPV6_PREFIX = 0x12
RTNLGRP_IPV6_RULE = 0x13
RTNLGRP_ND_USEROPT = 0x14
SizeofNlMsghdr = 0x10
SizeofNlMsgerr = 0x14
SizeofRtGenmsg = 0x1
SizeofNlAttr = 0x4
SizeofRtAttr = 0x4
SizeofIfInfomsg = 0x10
SizeofIfAddrmsg = 0x8
SizeofRtMsg = 0xc
SizeofRtNexthop = 0x8
)
type NlMsghdr struct {
Len uint32
Type uint16
Flags uint16
Seq uint32
Pid uint32
}
type NlMsgerr struct {
Error int32
Msg NlMsghdr
}
type RtGenmsg struct {
Family uint8
}
type NlAttr struct {
Len uint16
Type uint16
}
type RtAttr struct {
Len uint16
Type uint16
}
type IfInfomsg struct {
Family uint8
X__ifi_pad uint8
Type uint16
Index int32
Flags uint32
Change uint32
}
type IfAddrmsg struct {
Family uint8
Prefixlen uint8
Flags uint8
Scope uint8
Index uint32
}
type RtMsg struct {
Family uint8
Dst_len uint8
Src_len uint8
Tos uint8
Table uint8
Protocol uint8
Scope uint8
Type uint8
Flags uint32
}
type RtNexthop struct {
Len uint16
Flags uint8
Hops uint8
Ifindex int32
}
const (
SizeofSockFilter = 0x8
SizeofSockFprog = 0x10
)
type SockFilter struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type SockFprog struct {
Len uint16
Pad_cgo_0 [6]byte
Filter *SockFilter
}
type InotifyEvent struct {
Wd int32
Mask uint32
Cookie uint32
Len uint32
Name [0]int8
}
const SizeofInotifyEvent = 0x10
type PtraceRegs struct {
Regs [102]uint64
U_tsize uint64
U_dsize uint64
U_ssize uint64
Start_code uint64
Start_data uint64
Start_stack uint64
Signal int64
U_ar0 uint64
Magic uint64
U_comm [32]int8
}
type FdSet struct {
Bits [16]int64
}
type Sysinfo_t struct {
Uptime int64
Loads [3]uint64
Totalram uint64
Freeram uint64
Sharedram uint64
Bufferram uint64
Totalswap uint64
Freeswap uint64
Procs uint16
Pad uint16
Pad_cgo_0 [4]byte
Totalhigh uint64
Freehigh uint64
Unit uint32
X_f [0]int8
Pad_cgo_1 [4]byte
}
type Utsname struct {
Sysname [65]int8
Nodename [65]int8
Release [65]int8
Version [65]int8
Machine [65]int8
Domainname [65]int8
}
type Ustat_t struct {
Tfree int32
Pad_cgo_0 [4]byte
Tinode uint64
Fname [6]int8
Fpack [6]int8
Pad_cgo_1 [4]byte
}
type EpollEvent struct {
Events uint32
_ int32
Fd int32
Pad int32
}
const (
_AT_FDCWD = -0x64
_AT_REMOVEDIR = 0x200
_AT_SYMLINK_NOFOLLOW = 0x100
_AT_EACCESS = 0x200
)
type pollFd struct {
Fd int32
Events int16
Revents int16
}
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Line uint8
Cc [32]uint8
Pad_cgo_0 [3]byte
}
const (
IUCLC = 0x200
OLCUC = 0x2
TCGETS = 0x540d
TCSETS = 0x540e
XCASE = 0x4
)

599
c/syscall/ztypes_linux_mipsle.go Normal file
View File

@@ -0,0 +1,599 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_linux.go
package syscall
const (
sizeofPtr = 0x4
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x4
sizeofLongLong = 0x8
PathMax = 0x1000
)
type (
_C_short int16
_C_int int32
_C_long int32
_C_long_long int64
)
type Timespec struct {
Sec int32
Nsec int32
}
type Timeval struct {
Sec int32
Usec int32
}
type Timex struct {
Modes uint32
Offset int32
Freq int32
Maxerror int32
Esterror int32
Status int32
Constant int32
Precision int32
Tolerance int32
Time Timeval
Tick int32
Ppsfreq int32
Jitter int32
Shift int32
Stabil int32
Jitcnt int32
Calcnt int32
Errcnt int32
Stbcnt int32
Tai int32
Pad_cgo_0 [44]byte
}
type Time_t int32
type Tms struct {
Utime int32
Stime int32
Cutime int32
Cstime int32
}
type Utimbuf struct {
Actime int32
Modtime int32
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int32
Ixrss int32
Idrss int32
Isrss int32
Minflt int32
Majflt int32
Nswap int32
Inblock int32
Oublock int32
Msgsnd int32
Msgrcv int32
Nsignals int32
Nvcsw int32
Nivcsw int32
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
type Stat_t struct {
Dev uint32
Pad1 [3]int32
Ino uint64
Mode uint32
Nlink uint32
Uid uint32
Gid uint32
Rdev uint32
Pad2 [3]int32
Size int64
Atim Timespec
Mtim Timespec
Ctim Timespec
Blksize int32
Pad4 int32
Blocks int64
Pad5 [14]int32
}
type Statfs_t struct {
Type int32
Bsize int32
Frsize int32
Pad_cgo_0 [4]byte
Blocks uint64
Bfree uint64
Files uint64
Ffree uint64
Bavail uint64
Fsid Fsid
Namelen int32
Flags int32
Spare [5]int32
Pad_cgo_1 [4]byte
}
type Dirent struct {
Ino uint64
Off int64
Reclen uint16
Type uint8
Name [256]int8
Pad_cgo_0 [5]byte
}
type Fsid struct {
X__val [2]int32
}
type Flock_t struct {
Type int16
Whence int16
Pad_cgo_0 [4]byte
Start int64
Len int64
Pid int32
Pad_cgo_1 [4]byte
}
type RawSockaddrInet4 struct {
Family uint16
Port uint16
Addr [4]byte /* in_addr */
Zero [8]uint8
}
type RawSockaddrInet6 struct {
Family uint16
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Family uint16
Path [108]int8
}
type RawSockaddrLinklayer struct {
Family uint16
Protocol uint16
Ifindex int32
Hatype uint16
Pkttype uint8
Halen uint8
Addr [8]uint8
}
type RawSockaddrNetlink struct {
Family uint16
Pad uint16
Pid uint32
Groups uint32
}
type RawSockaddr struct {
Family uint16
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [96]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint32
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPMreqn struct {
Multiaddr [4]byte /* in_addr */
Address [4]byte /* in_addr */
Ifindex int32
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Iov *Iovec
Iovlen uint32
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet4Pktinfo struct {
Ifindex int32
Spec_dst [4]byte /* in_addr */
Addr [4]byte /* in_addr */
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Data [8]uint32
}
type Ucred struct {
Pid int32
Uid uint32
Gid uint32
}
type TCPInfo struct {
State uint8
Ca_state uint8
Retransmits uint8
Probes uint8
Backoff uint8
Options uint8
Pad_cgo_0 [2]byte
Rto uint32
Ato uint32
Snd_mss uint32
Rcv_mss uint32
Unacked uint32
Sacked uint32
Lost uint32
Retrans uint32
Fackets uint32
Last_data_sent uint32
Last_ack_sent uint32
Last_data_recv uint32
Last_ack_recv uint32
Pmtu uint32
Rcv_ssthresh uint32
Rtt uint32
Rttvar uint32
Snd_ssthresh uint32
Snd_cwnd uint32
Advmss uint32
Reordering uint32
Rcv_rtt uint32
Rcv_space uint32
Total_retrans uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x70
SizeofSockaddrUnix = 0x6e
SizeofSockaddrLinklayer = 0x14
SizeofSockaddrNetlink = 0xc
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPMreqn = 0xc
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x1c
SizeofCmsghdr = 0xc
SizeofInet4Pktinfo = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
SizeofUcred = 0xc
SizeofTCPInfo = 0x68
)
const (
IFA_UNSPEC = 0x0
IFA_ADDRESS = 0x1
IFA_LOCAL = 0x2
IFA_LABEL = 0x3
IFA_BROADCAST = 0x4
IFA_ANYCAST = 0x5
IFA_CACHEINFO = 0x6
IFA_MULTICAST = 0x7
IFLA_UNSPEC = 0x0
IFLA_ADDRESS = 0x1
IFLA_BROADCAST = 0x2
IFLA_IFNAME = 0x3
IFLA_MTU = 0x4
IFLA_LINK = 0x5
IFLA_QDISC = 0x6
IFLA_STATS = 0x7
IFLA_COST = 0x8
IFLA_PRIORITY = 0x9
IFLA_MASTER = 0xa
IFLA_WIRELESS = 0xb
IFLA_PROTINFO = 0xc
IFLA_TXQLEN = 0xd
IFLA_MAP = 0xe
IFLA_WEIGHT = 0xf
IFLA_OPERSTATE = 0x10
IFLA_LINKMODE = 0x11
IFLA_LINKINFO = 0x12
IFLA_NET_NS_PID = 0x13
IFLA_IFALIAS = 0x14
IFLA_MAX = 0x27
RT_SCOPE_UNIVERSE = 0x0
RT_SCOPE_SITE = 0xc8
RT_SCOPE_LINK = 0xfd
RT_SCOPE_HOST = 0xfe
RT_SCOPE_NOWHERE = 0xff
RT_TABLE_UNSPEC = 0x0
RT_TABLE_COMPAT = 0xfc
RT_TABLE_DEFAULT = 0xfd
RT_TABLE_MAIN = 0xfe
RT_TABLE_LOCAL = 0xff
RT_TABLE_MAX = 0xffffffff
RTA_UNSPEC = 0x0
RTA_DST = 0x1
RTA_SRC = 0x2
RTA_IIF = 0x3
RTA_OIF = 0x4
RTA_GATEWAY = 0x5
RTA_PRIORITY = 0x6
RTA_PREFSRC = 0x7
RTA_METRICS = 0x8
RTA_MULTIPATH = 0x9
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
RTN_BROADCAST = 0x3
RTN_ANYCAST = 0x4
RTN_MULTICAST = 0x5
RTN_BLACKHOLE = 0x6
RTN_UNREACHABLE = 0x7
RTN_PROHIBIT = 0x8
RTN_THROW = 0x9
RTN_NAT = 0xa
RTN_XRESOLVE = 0xb
RTNLGRP_NONE = 0x0
RTNLGRP_LINK = 0x1
RTNLGRP_NOTIFY = 0x2
RTNLGRP_NEIGH = 0x3
RTNLGRP_TC = 0x4
RTNLGRP_IPV4_IFADDR = 0x5
RTNLGRP_IPV4_MROUTE = 0x6
RTNLGRP_IPV4_ROUTE = 0x7
RTNLGRP_IPV4_RULE = 0x8
RTNLGRP_IPV6_IFADDR = 0x9
RTNLGRP_IPV6_MROUTE = 0xa
RTNLGRP_IPV6_ROUTE = 0xb
RTNLGRP_IPV6_IFINFO = 0xc
RTNLGRP_IPV6_PREFIX = 0x12
RTNLGRP_IPV6_RULE = 0x13
RTNLGRP_ND_USEROPT = 0x14
SizeofNlMsghdr = 0x10
SizeofNlMsgerr = 0x14
SizeofRtGenmsg = 0x1
SizeofNlAttr = 0x4
SizeofRtAttr = 0x4
SizeofIfInfomsg = 0x10
SizeofIfAddrmsg = 0x8
SizeofRtMsg = 0xc
SizeofRtNexthop = 0x8
)
type NlMsghdr struct {
Len uint32
Type uint16
Flags uint16
Seq uint32
Pid uint32
}
type NlMsgerr struct {
Error int32
Msg NlMsghdr
}
type RtGenmsg struct {
Family uint8
}
type NlAttr struct {
Len uint16
Type uint16
}
type RtAttr struct {
Len uint16
Type uint16
}
type IfInfomsg struct {
Family uint8
X__ifi_pad uint8
Type uint16
Index int32
Flags uint32
Change uint32
}
type IfAddrmsg struct {
Family uint8
Prefixlen uint8
Flags uint8
Scope uint8
Index uint32
}
type RtMsg struct {
Family uint8
Dst_len uint8
Src_len uint8
Tos uint8
Table uint8
Protocol uint8
Scope uint8
Type uint8
Flags uint32
}
type RtNexthop struct {
Len uint16
Flags uint8
Hops uint8
Ifindex int32
}
const (
SizeofSockFilter = 0x8
SizeofSockFprog = 0x8
)
type SockFilter struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type SockFprog struct {
Len uint16
Pad_cgo_0 [2]byte
Filter *SockFilter
}
type InotifyEvent struct {
Wd int32
Mask uint32
Cookie uint32
Len uint32
}
const SizeofInotifyEvent = 0x10
type PtraceRegs struct {
Regs [109]uint32
U_tsize uint32
U_dsize uint32
U_ssize uint32
Start_code uint32
Start_data uint32
Start_stack uint32
Signal int32
U_ar0 *byte
Magic uint32
U_comm [32]int8
}
type FdSet struct {
Bits [32]int32
}
type Sysinfo_t struct {
Uptime int32
Loads [3]uint32
Totalram uint32
Freeram uint32
Sharedram uint32
Bufferram uint32
Totalswap uint32
Freeswap uint32
Procs uint16
Pad uint16
Totalhigh uint32
Freehigh uint32
Unit uint32
X_f [8]int8
}
type Utsname struct {
Sysname [65]int8
Nodename [65]int8
Release [65]int8
Version [65]int8
Machine [65]int8
Domainname [65]int8
}
type Ustat_t struct {
Tfree int32
Tinode uint32
Fname [6]int8
Fpack [6]int8
}
type EpollEvent struct {
Events uint32
PadFd int32
Fd int32
Pad int32
}
const (
_AT_FDCWD = -0x64
_AT_REMOVEDIR = 0x200
_AT_SYMLINK_NOFOLLOW = 0x100
_AT_EACCESS = 0x200
)
type pollFd struct {
Fd int32
Events int16
Revents int16
}
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Line uint8
Cc [32]uint8
Pad_cgo_0 [3]byte
}
const (
IUCLC = 0x200
OLCUC = 0x2
TCGETS = 0x540d
TCSETS = 0x540e
XCASE = 0x4
)

613
c/syscall/ztypes_linux_ppc64.go Normal file
View File

@@ -0,0 +1,613 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_linux.go
//go:build ppc64 && linux
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
PathMax = 0x1000
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int64
}
type Timex struct {
Modes uint32
Pad_cgo_0 [4]byte
Offset int64
Freq int64
Maxerror int64
Esterror int64
Status int32
Pad_cgo_1 [4]byte
Constant int64
Precision int64
Tolerance int64
Time Timeval
Tick int64
Ppsfreq int64
Jitter int64
Shift int32
Pad_cgo_2 [4]byte
Stabil int64
Jitcnt int64
Calcnt int64
Errcnt int64
Stbcnt int64
Tai int32
Pad_cgo_3 [44]byte
}
type Time_t int64
type Tms struct {
Utime int64
Stime int64
Cutime int64
Cstime int64
}
type Utimbuf struct {
Actime int64
Modtime int64
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
type Stat_t struct {
Dev uint64
Ino uint64
Nlink uint64
Mode uint32
Uid uint32
Gid uint32
X__pad2 int32
Rdev uint64
Size int64
Blksize int64
Blocks int64
Atim Timespec
Mtim Timespec
Ctim Timespec
X__unused4 uint64
X__unused5 uint64
X__unused6 uint64
}
type Statfs_t struct {
Type int64
Bsize int64
Blocks uint64
Bfree uint64
Bavail uint64
Files uint64
Ffree uint64
Fsid Fsid
Namelen int64
Frsize int64
Flags int64
Spare [4]int64
}
type Dirent struct {
Ino uint64
Off int64
Reclen uint16
Type uint8
Name [256]uint8
Pad_cgo_0 [5]byte
}
type Fsid struct {
X__val [2]int32
}
type Flock_t struct {
Type int16
Whence int16
Pad_cgo_0 [4]byte
Start int64
Len int64
Pid int32
Pad_cgo_1 [4]byte
}
type RawSockaddrInet4 struct {
Family uint16
Port uint16
Addr [4]byte /* in_addr */
Zero [8]uint8
}
type RawSockaddrInet6 struct {
Family uint16
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Family uint16
Path [108]int8
}
type RawSockaddrLinklayer struct {
Family uint16
Protocol uint16
Ifindex int32
Hatype uint16
Pkttype uint8
Halen uint8
Addr [8]uint8
}
type RawSockaddrNetlink struct {
Family uint16
Pad uint16
Pid uint32
Groups uint32
}
type RawSockaddr struct {
Family uint16
Data [14]uint8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [96]uint8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPMreqn struct {
Multiaddr [4]byte /* in_addr */
Address [4]byte /* in_addr */
Ifindex int32
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Pad_cgo_0 [4]byte
Iov *Iovec
Iovlen uint64
Control *byte
Controllen uint64
Flags int32
Pad_cgo_1 [4]byte
}
type Cmsghdr struct {
Len uint64
Level int32
Type int32
}
type Inet4Pktinfo struct {
Ifindex int32
Spec_dst [4]byte /* in_addr */
Addr [4]byte /* in_addr */
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Data [8]uint32
}
type Ucred struct {
Pid int32
Uid uint32
Gid uint32
}
type TCPInfo struct {
State uint8
Ca_state uint8
Retransmits uint8
Probes uint8
Backoff uint8
Options uint8
Pad_cgo_0 [2]byte
Rto uint32
Ato uint32
Snd_mss uint32
Rcv_mss uint32
Unacked uint32
Sacked uint32
Lost uint32
Retrans uint32
Fackets uint32
Last_data_sent uint32
Last_ack_sent uint32
Last_data_recv uint32
Last_ack_recv uint32
Pmtu uint32
Rcv_ssthresh uint32
Rtt uint32
Rttvar uint32
Snd_ssthresh uint32
Snd_cwnd uint32
Advmss uint32
Reordering uint32
Rcv_rtt uint32
Rcv_space uint32
Total_retrans uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x70
SizeofSockaddrUnix = 0x6e
SizeofSockaddrLinklayer = 0x14
SizeofSockaddrNetlink = 0xc
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPMreqn = 0xc
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x38
SizeofCmsghdr = 0x10
SizeofInet4Pktinfo = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
SizeofUcred = 0xc
SizeofTCPInfo = 0x68
)
const (
IFA_UNSPEC = 0x0
IFA_ADDRESS = 0x1
IFA_LOCAL = 0x2
IFA_LABEL = 0x3
IFA_BROADCAST = 0x4
IFA_ANYCAST = 0x5
IFA_CACHEINFO = 0x6
IFA_MULTICAST = 0x7
IFLA_UNSPEC = 0x0
IFLA_ADDRESS = 0x1
IFLA_BROADCAST = 0x2
IFLA_IFNAME = 0x3
IFLA_MTU = 0x4
IFLA_LINK = 0x5
IFLA_QDISC = 0x6
IFLA_STATS = 0x7
IFLA_COST = 0x8
IFLA_PRIORITY = 0x9
IFLA_MASTER = 0xa
IFLA_WIRELESS = 0xb
IFLA_PROTINFO = 0xc
IFLA_TXQLEN = 0xd
IFLA_MAP = 0xe
IFLA_WEIGHT = 0xf
IFLA_OPERSTATE = 0x10
IFLA_LINKMODE = 0x11
IFLA_LINKINFO = 0x12
IFLA_NET_NS_PID = 0x13
IFLA_IFALIAS = 0x14
IFLA_MAX = 0x22
RT_SCOPE_UNIVERSE = 0x0
RT_SCOPE_SITE = 0xc8
RT_SCOPE_LINK = 0xfd
RT_SCOPE_HOST = 0xfe
RT_SCOPE_NOWHERE = 0xff
RT_TABLE_UNSPEC = 0x0
RT_TABLE_COMPAT = 0xfc
RT_TABLE_DEFAULT = 0xfd
RT_TABLE_MAIN = 0xfe
RT_TABLE_LOCAL = 0xff
RT_TABLE_MAX = 0xffffffff
RTA_UNSPEC = 0x0
RTA_DST = 0x1
RTA_SRC = 0x2
RTA_IIF = 0x3
RTA_OIF = 0x4
RTA_GATEWAY = 0x5
RTA_PRIORITY = 0x6
RTA_PREFSRC = 0x7
RTA_METRICS = 0x8
RTA_MULTIPATH = 0x9
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
RTN_BROADCAST = 0x3
RTN_ANYCAST = 0x4
RTN_MULTICAST = 0x5
RTN_BLACKHOLE = 0x6
RTN_UNREACHABLE = 0x7
RTN_PROHIBIT = 0x8
RTN_THROW = 0x9
RTN_NAT = 0xa
RTN_XRESOLVE = 0xb
RTNLGRP_NONE = 0x0
RTNLGRP_LINK = 0x1
RTNLGRP_NOTIFY = 0x2
RTNLGRP_NEIGH = 0x3
RTNLGRP_TC = 0x4
RTNLGRP_IPV4_IFADDR = 0x5
RTNLGRP_IPV4_MROUTE = 0x6
RTNLGRP_IPV4_ROUTE = 0x7
RTNLGRP_IPV4_RULE = 0x8
RTNLGRP_IPV6_IFADDR = 0x9
RTNLGRP_IPV6_MROUTE = 0xa
RTNLGRP_IPV6_ROUTE = 0xb
RTNLGRP_IPV6_IFINFO = 0xc
RTNLGRP_IPV6_PREFIX = 0x12
RTNLGRP_IPV6_RULE = 0x13
RTNLGRP_ND_USEROPT = 0x14
SizeofNlMsghdr = 0x10
SizeofNlMsgerr = 0x14
SizeofRtGenmsg = 0x1
SizeofNlAttr = 0x4
SizeofRtAttr = 0x4
SizeofIfInfomsg = 0x10
SizeofIfAddrmsg = 0x8
SizeofRtMsg = 0xc
SizeofRtNexthop = 0x8
)
type NlMsghdr struct {
Len uint32
Type uint16
Flags uint16
Seq uint32
Pid uint32
}
type NlMsgerr struct {
Error int32
Msg NlMsghdr
}
type RtGenmsg struct {
Family uint8
}
type NlAttr struct {
Len uint16
Type uint16
}
type RtAttr struct {
Len uint16
Type uint16
}
type IfInfomsg struct {
Family uint8
X__ifi_pad uint8
Type uint16
Index int32
Flags uint32
Change uint32
}
type IfAddrmsg struct {
Family uint8
Prefixlen uint8
Flags uint8
Scope uint8
Index uint32
}
type RtMsg struct {
Family uint8
Dst_len uint8
Src_len uint8
Tos uint8
Table uint8
Protocol uint8
Scope uint8
Type uint8
Flags uint32
}
type RtNexthop struct {
Len uint16
Flags uint8
Hops uint8
Ifindex int32
}
const (
SizeofSockFilter = 0x8
SizeofSockFprog = 0x10
)
type SockFilter struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type SockFprog struct {
Len uint16
Pad_cgo_0 [6]byte
Filter *SockFilter
}
type InotifyEvent struct {
Wd int32
Mask uint32
Cookie uint32
Len uint32
Name [0]uint8
}
const SizeofInotifyEvent = 0x10
type PtraceRegs struct {
Gpr [32]uint64
Nip uint64
Msr uint64
Orig_gpr3 uint64
Ctr uint64
Link uint64
Xer uint64
Ccr uint64
Softe uint64
Trap uint64
Dar uint64
Dsisr uint64
Result uint64
}
type FdSet struct {
Bits [16]int64
}
type Sysinfo_t struct {
Uptime int64
Loads [3]uint64
Totalram uint64
Freeram uint64
Sharedram uint64
Bufferram uint64
Totalswap uint64
Freeswap uint64
Procs uint16
Pad uint16
Pad_cgo_0 [4]byte
Totalhigh uint64
Freehigh uint64
Unit uint32
X_f [0]uint8
Pad_cgo_1 [4]byte
}
type Utsname struct {
Sysname [65]uint8
Nodename [65]uint8
Release [65]uint8
Version [65]uint8
Machine [65]uint8
Domainname [65]uint8
}
type Ustat_t struct {
Tfree int32
Pad_cgo_0 [4]byte
Tinode uint64
Fname [6]uint8
Fpack [6]uint8
Pad_cgo_1 [4]byte
}
type EpollEvent struct {
Events uint32
X_padFd int32
Fd int32
Pad int32
}
const (
_AT_FDCWD = -0x64
_AT_REMOVEDIR = 0x200
_AT_SYMLINK_NOFOLLOW = 0x100
_AT_EACCESS = 0x200
)
type pollFd struct {
Fd int32
Events int16
Revents int16
}
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Line uint8
Cc [32]uint8
Pad_cgo_0 [3]byte
Ispeed uint32
Ospeed uint32
}
const (
IUCLC = 0x1000
OLCUC = 0x4
TCGETS = 0x402c7413
TCSETS = 0x802c7414
XCASE = 0x4000
)

613
c/syscall/ztypes_linux_ppc64le.go Normal file
View File

@@ -0,0 +1,613 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_linux.go
//go:build ppc64le && linux
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
PathMax = 0x1000
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int64
}
type Timex struct {
Modes uint32
Pad_cgo_0 [4]byte
Offset int64
Freq int64
Maxerror int64
Esterror int64
Status int32
Pad_cgo_1 [4]byte
Constant int64
Precision int64
Tolerance int64
Time Timeval
Tick int64
Ppsfreq int64
Jitter int64
Shift int32
Pad_cgo_2 [4]byte
Stabil int64
Jitcnt int64
Calcnt int64
Errcnt int64
Stbcnt int64
Tai int32
Pad_cgo_3 [44]byte
}
type Time_t int64
type Tms struct {
Utime int64
Stime int64
Cutime int64
Cstime int64
}
type Utimbuf struct {
Actime int64
Modtime int64
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
type Stat_t struct {
Dev uint64
Ino uint64
Nlink uint64
Mode uint32
Uid uint32
Gid uint32
X__pad2 int32
Rdev uint64
Size int64
Blksize int64
Blocks int64
Atim Timespec
Mtim Timespec
Ctim Timespec
X__glibc_reserved4 uint64
X__glibc_reserved5 uint64
X__glibc_reserved6 uint64
}
type Statfs_t struct {
Type int64
Bsize int64
Blocks uint64
Bfree uint64
Bavail uint64
Files uint64
Ffree uint64
Fsid Fsid
Namelen int64
Frsize int64
Flags int64
Spare [4]int64
}
type Dirent struct {
Ino uint64
Off int64
Reclen uint16
Type uint8
Name [256]uint8
Pad_cgo_0 [5]byte
}
type Fsid struct {
X__val [2]int32
}
type Flock_t struct {
Type int16
Whence int16
Pad_cgo_0 [4]byte
Start int64
Len int64
Pid int32
Pad_cgo_1 [4]byte
}
type RawSockaddrInet4 struct {
Family uint16
Port uint16
Addr [4]byte /* in_addr */
Zero [8]uint8
}
type RawSockaddrInet6 struct {
Family uint16
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Family uint16
Path [108]int8
}
type RawSockaddrLinklayer struct {
Family uint16
Protocol uint16
Ifindex int32
Hatype uint16
Pkttype uint8
Halen uint8
Addr [8]uint8
}
type RawSockaddrNetlink struct {
Family uint16
Pad uint16
Pid uint32
Groups uint32
}
type RawSockaddr struct {
Family uint16
Data [14]uint8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [96]uint8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPMreqn struct {
Multiaddr [4]byte /* in_addr */
Address [4]byte /* in_addr */
Ifindex int32
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Pad_cgo_0 [4]byte
Iov *Iovec
Iovlen uint64
Control *byte
Controllen uint64
Flags int32
Pad_cgo_1 [4]byte
}
type Cmsghdr struct {
Len uint64
Level int32
Type int32
}
type Inet4Pktinfo struct {
Ifindex int32
Spec_dst [4]byte /* in_addr */
Addr [4]byte /* in_addr */
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Data [8]uint32
}
type Ucred struct {
Pid int32
Uid uint32
Gid uint32
}
type TCPInfo struct {
State uint8
Ca_state uint8
Retransmits uint8
Probes uint8
Backoff uint8
Options uint8
Pad_cgo_0 [2]byte
Rto uint32
Ato uint32
Snd_mss uint32
Rcv_mss uint32
Unacked uint32
Sacked uint32
Lost uint32
Retrans uint32
Fackets uint32
Last_data_sent uint32
Last_ack_sent uint32
Last_data_recv uint32
Last_ack_recv uint32
Pmtu uint32
Rcv_ssthresh uint32
Rtt uint32
Rttvar uint32
Snd_ssthresh uint32
Snd_cwnd uint32
Advmss uint32
Reordering uint32
Rcv_rtt uint32
Rcv_space uint32
Total_retrans uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x70
SizeofSockaddrUnix = 0x6e
SizeofSockaddrLinklayer = 0x14
SizeofSockaddrNetlink = 0xc
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPMreqn = 0xc
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x38
SizeofCmsghdr = 0x10
SizeofInet4Pktinfo = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
SizeofUcred = 0xc
SizeofTCPInfo = 0x68
)
const (
IFA_UNSPEC = 0x0
IFA_ADDRESS = 0x1
IFA_LOCAL = 0x2
IFA_LABEL = 0x3
IFA_BROADCAST = 0x4
IFA_ANYCAST = 0x5
IFA_CACHEINFO = 0x6
IFA_MULTICAST = 0x7
IFLA_UNSPEC = 0x0
IFLA_ADDRESS = 0x1
IFLA_BROADCAST = 0x2
IFLA_IFNAME = 0x3
IFLA_MTU = 0x4
IFLA_LINK = 0x5
IFLA_QDISC = 0x6
IFLA_STATS = 0x7
IFLA_COST = 0x8
IFLA_PRIORITY = 0x9
IFLA_MASTER = 0xa
IFLA_WIRELESS = 0xb
IFLA_PROTINFO = 0xc
IFLA_TXQLEN = 0xd
IFLA_MAP = 0xe
IFLA_WEIGHT = 0xf
IFLA_OPERSTATE = 0x10
IFLA_LINKMODE = 0x11
IFLA_LINKINFO = 0x12
IFLA_NET_NS_PID = 0x13
IFLA_IFALIAS = 0x14
IFLA_MAX = 0x22
RT_SCOPE_UNIVERSE = 0x0
RT_SCOPE_SITE = 0xc8
RT_SCOPE_LINK = 0xfd
RT_SCOPE_HOST = 0xfe
RT_SCOPE_NOWHERE = 0xff
RT_TABLE_UNSPEC = 0x0
RT_TABLE_COMPAT = 0xfc
RT_TABLE_DEFAULT = 0xfd
RT_TABLE_MAIN = 0xfe
RT_TABLE_LOCAL = 0xff
RT_TABLE_MAX = 0xffffffff
RTA_UNSPEC = 0x0
RTA_DST = 0x1
RTA_SRC = 0x2
RTA_IIF = 0x3
RTA_OIF = 0x4
RTA_GATEWAY = 0x5
RTA_PRIORITY = 0x6
RTA_PREFSRC = 0x7
RTA_METRICS = 0x8
RTA_MULTIPATH = 0x9
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
RTN_BROADCAST = 0x3
RTN_ANYCAST = 0x4
RTN_MULTICAST = 0x5
RTN_BLACKHOLE = 0x6
RTN_UNREACHABLE = 0x7
RTN_PROHIBIT = 0x8
RTN_THROW = 0x9
RTN_NAT = 0xa
RTN_XRESOLVE = 0xb
RTNLGRP_NONE = 0x0
RTNLGRP_LINK = 0x1
RTNLGRP_NOTIFY = 0x2
RTNLGRP_NEIGH = 0x3
RTNLGRP_TC = 0x4
RTNLGRP_IPV4_IFADDR = 0x5
RTNLGRP_IPV4_MROUTE = 0x6
RTNLGRP_IPV4_ROUTE = 0x7
RTNLGRP_IPV4_RULE = 0x8
RTNLGRP_IPV6_IFADDR = 0x9
RTNLGRP_IPV6_MROUTE = 0xa
RTNLGRP_IPV6_ROUTE = 0xb
RTNLGRP_IPV6_IFINFO = 0xc
RTNLGRP_IPV6_PREFIX = 0x12
RTNLGRP_IPV6_RULE = 0x13
RTNLGRP_ND_USEROPT = 0x14
SizeofNlMsghdr = 0x10
SizeofNlMsgerr = 0x14
SizeofRtGenmsg = 0x1
SizeofNlAttr = 0x4
SizeofRtAttr = 0x4
SizeofIfInfomsg = 0x10
SizeofIfAddrmsg = 0x8
SizeofRtMsg = 0xc
SizeofRtNexthop = 0x8
)
type NlMsghdr struct {
Len uint32
Type uint16
Flags uint16
Seq uint32
Pid uint32
}
type NlMsgerr struct {
Error int32
Msg NlMsghdr
}
type RtGenmsg struct {
Family uint8
}
type NlAttr struct {
Len uint16
Type uint16
}
type RtAttr struct {
Len uint16
Type uint16
}
type IfInfomsg struct {
Family uint8
X__ifi_pad uint8
Type uint16
Index int32
Flags uint32
Change uint32
}
type IfAddrmsg struct {
Family uint8
Prefixlen uint8
Flags uint8
Scope uint8
Index uint32
}
type RtMsg struct {
Family uint8
Dst_len uint8
Src_len uint8
Tos uint8
Table uint8
Protocol uint8
Scope uint8
Type uint8
Flags uint32
}
type RtNexthop struct {
Len uint16
Flags uint8
Hops uint8
Ifindex int32
}
const (
SizeofSockFilter = 0x8
SizeofSockFprog = 0x10
)
type SockFilter struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type SockFprog struct {
Len uint16
Pad_cgo_0 [6]byte
Filter *SockFilter
}
type InotifyEvent struct {
Wd int32
Mask uint32
Cookie uint32
Len uint32
Name [0]uint8
}
const SizeofInotifyEvent = 0x10
type PtraceRegs struct {
Gpr [32]uint64
Nip uint64
Msr uint64
Orig_gpr3 uint64
Ctr uint64
Link uint64
Xer uint64
Ccr uint64
Softe uint64
Trap uint64
Dar uint64
Dsisr uint64
Result uint64
}
type FdSet struct {
Bits [16]int64
}
type Sysinfo_t struct {
Uptime int64
Loads [3]uint64
Totalram uint64
Freeram uint64
Sharedram uint64
Bufferram uint64
Totalswap uint64
Freeswap uint64
Procs uint16
Pad uint16
Pad_cgo_0 [4]byte
Totalhigh uint64
Freehigh uint64
Unit uint32
X_f [0]uint8
Pad_cgo_1 [4]byte
}
type Utsname struct {
Sysname [65]uint8
Nodename [65]uint8
Release [65]uint8
Version [65]uint8
Machine [65]uint8
Domainname [65]uint8
}
type Ustat_t struct {
Tfree int32
Pad_cgo_0 [4]byte
Tinode uint64
Fname [6]uint8
Fpack [6]uint8
Pad_cgo_1 [4]byte
}
type EpollEvent struct {
Events uint32
X_padFd int32
Fd int32
Pad int32
}
const (
_AT_FDCWD = -0x64
_AT_REMOVEDIR = 0x200
_AT_SYMLINK_NOFOLLOW = 0x100
_AT_EACCESS = 0x200
)
type pollFd struct {
Fd int32
Events int16
Revents int16
}
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Line uint8
Cc [32]uint8
Pad_cgo_0 [3]byte
Ispeed uint32
Ospeed uint32
}
const (
IUCLC = 0x1000
OLCUC = 0x4
TCGETS = 0x402c7413
TCSETS = 0x802c7414
XCASE = 0x4000
)

627
c/syscall/ztypes_linux_riscv64.go Normal file
View File

@@ -0,0 +1,627 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_linux.go
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
PathMax = 0x1000
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int64
}
type Timex struct {
Modes uint32
Offset int64
Freq int64
Maxerror int64
Esterror int64
Status int32
Constant int64
Precision int64
Tolerance int64
Time Timeval
Tick int64
Ppsfreq int64
Jitter int64
Shift int32
Stabil int64
Jitcnt int64
Calcnt int64
Errcnt int64
Stbcnt int64
Tai int32
_ [44]byte
}
type Time_t int64
type Tms struct {
Utime int64
Stime int64
Cutime int64
Cstime int64
}
type Utimbuf struct {
Actime int64
Modtime int64
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
type Stat_t struct {
Dev uint64
Ino uint64
Mode uint32
Nlink uint32
Uid uint32
Gid uint32
Rdev uint64
X__pad1 uint64
Size int64
Blksize int32
X__pad2 int32
Blocks int64
Atim Timespec
Mtim Timespec
Ctim Timespec
X__glibc_reserved [2]int32
}
type Statfs_t struct {
Type int64
Bsize int64
Blocks uint64
Bfree uint64
Bavail uint64
Files uint64
Ffree uint64
Fsid Fsid
Namelen int64
Frsize int64
Flags int64
Spare [4]int64
}
type Dirent struct {
Ino uint64
Off int64
Reclen uint16
Type uint8
Name [256]uint8
_ [5]byte
}
type Fsid struct {
X__val [2]int32
}
type Flock_t struct {
Type int16
Whence int16
Start int64
Len int64
Pid int32
_ [4]byte
}
type RawSockaddrInet4 struct {
Family uint16
Port uint16
Addr [4]byte /* in_addr */
Zero [8]uint8
}
type RawSockaddrInet6 struct {
Family uint16
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Family uint16
Path [108]int8
}
type RawSockaddrLinklayer struct {
Family uint16
Protocol uint16
Ifindex int32
Hatype uint16
Pkttype uint8
Halen uint8
Addr [8]uint8
}
type RawSockaddrNetlink struct {
Family uint16
Pad uint16
Pid uint32
Groups uint32
}
type RawSockaddr struct {
Family uint16
Data [14]uint8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [96]uint8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPMreqn struct {
Multiaddr [4]byte /* in_addr */
Address [4]byte /* in_addr */
Ifindex int32
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Iov *Iovec
Iovlen uint64
Control *byte
Controllen uint64
Flags int32
_ [4]byte
}
type Cmsghdr struct {
Len uint64
Level int32
Type int32
}
type Inet4Pktinfo struct {
Ifindex int32
Spec_dst [4]byte /* in_addr */
Addr [4]byte /* in_addr */
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Data [8]uint32
}
type Ucred struct {
Pid int32
Uid uint32
Gid uint32
}
type TCPInfo struct {
State uint8
Ca_state uint8
Retransmits uint8
Probes uint8
Backoff uint8
Options uint8
Rto uint32
Ato uint32
Snd_mss uint32
Rcv_mss uint32
Unacked uint32
Sacked uint32
Lost uint32
Retrans uint32
Fackets uint32
Last_data_sent uint32
Last_ack_sent uint32
Last_data_recv uint32
Last_ack_recv uint32
Pmtu uint32
Rcv_ssthresh uint32
Rtt uint32
Rttvar uint32
Snd_ssthresh uint32
Snd_cwnd uint32
Advmss uint32
Reordering uint32
Rcv_rtt uint32
Rcv_space uint32
Total_retrans uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x70
SizeofSockaddrUnix = 0x6e
SizeofSockaddrLinklayer = 0x14
SizeofSockaddrNetlink = 0xc
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPMreqn = 0xc
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x38
SizeofCmsghdr = 0x10
SizeofInet4Pktinfo = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
SizeofUcred = 0xc
SizeofTCPInfo = 0x68
)
const (
IFA_UNSPEC = 0x0
IFA_ADDRESS = 0x1
IFA_LOCAL = 0x2
IFA_LABEL = 0x3
IFA_BROADCAST = 0x4
IFA_ANYCAST = 0x5
IFA_CACHEINFO = 0x6
IFA_MULTICAST = 0x7
IFLA_UNSPEC = 0x0
IFLA_ADDRESS = 0x1
IFLA_BROADCAST = 0x2
IFLA_IFNAME = 0x3
IFLA_MTU = 0x4
IFLA_LINK = 0x5
IFLA_QDISC = 0x6
IFLA_STATS = 0x7
IFLA_COST = 0x8
IFLA_PRIORITY = 0x9
IFLA_MASTER = 0xa
IFLA_WIRELESS = 0xb
IFLA_PROTINFO = 0xc
IFLA_TXQLEN = 0xd
IFLA_MAP = 0xe
IFLA_WEIGHT = 0xf
IFLA_OPERSTATE = 0x10
IFLA_LINKMODE = 0x11
IFLA_LINKINFO = 0x12
IFLA_NET_NS_PID = 0x13
IFLA_IFALIAS = 0x14
IFLA_MAX = 0x26
RT_SCOPE_UNIVERSE = 0x0
RT_SCOPE_SITE = 0xc8
RT_SCOPE_LINK = 0xfd
RT_SCOPE_HOST = 0xfe
RT_SCOPE_NOWHERE = 0xff
RT_TABLE_UNSPEC = 0x0
RT_TABLE_COMPAT = 0xfc
RT_TABLE_DEFAULT = 0xfd
RT_TABLE_MAIN = 0xfe
RT_TABLE_LOCAL = 0xff
RT_TABLE_MAX = 0xffffffff
RTA_UNSPEC = 0x0
RTA_DST = 0x1
RTA_SRC = 0x2
RTA_IIF = 0x3
RTA_OIF = 0x4
RTA_GATEWAY = 0x5
RTA_PRIORITY = 0x6
RTA_PREFSRC = 0x7
RTA_METRICS = 0x8
RTA_MULTIPATH = 0x9
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
RTN_BROADCAST = 0x3
RTN_ANYCAST = 0x4
RTN_MULTICAST = 0x5
RTN_BLACKHOLE = 0x6
RTN_UNREACHABLE = 0x7
RTN_PROHIBIT = 0x8
RTN_THROW = 0x9
RTN_NAT = 0xa
RTN_XRESOLVE = 0xb
RTNLGRP_NONE = 0x0
RTNLGRP_LINK = 0x1
RTNLGRP_NOTIFY = 0x2
RTNLGRP_NEIGH = 0x3
RTNLGRP_TC = 0x4
RTNLGRP_IPV4_IFADDR = 0x5
RTNLGRP_IPV4_MROUTE = 0x6
RTNLGRP_IPV4_ROUTE = 0x7
RTNLGRP_IPV4_RULE = 0x8
RTNLGRP_IPV6_IFADDR = 0x9
RTNLGRP_IPV6_MROUTE = 0xa
RTNLGRP_IPV6_ROUTE = 0xb
RTNLGRP_IPV6_IFINFO = 0xc
RTNLGRP_IPV6_PREFIX = 0x12
RTNLGRP_IPV6_RULE = 0x13
RTNLGRP_ND_USEROPT = 0x14
SizeofNlMsghdr = 0x10
SizeofNlMsgerr = 0x14
SizeofRtGenmsg = 0x1
SizeofNlAttr = 0x4
SizeofRtAttr = 0x4
SizeofIfInfomsg = 0x10
SizeofIfAddrmsg = 0x8
SizeofRtMsg = 0xc
SizeofRtNexthop = 0x8
)
type NlMsghdr struct {
Len uint32
Type uint16
Flags uint16
Seq uint32
Pid uint32
}
type NlMsgerr struct {
Error int32
Msg NlMsghdr
}
type RtGenmsg struct {
Family uint8
}
type NlAttr struct {
Len uint16
Type uint16
}
type RtAttr struct {
Len uint16
Type uint16
}
type IfInfomsg struct {
Family uint8
X__ifi_pad uint8
Type uint16
Index int32
Flags uint32
Change uint32
}
type IfAddrmsg struct {
Family uint8
Prefixlen uint8
Flags uint8
Scope uint8
Index uint32
}
type RtMsg struct {
Family uint8
Dst_len uint8
Src_len uint8
Tos uint8
Table uint8
Protocol uint8
Scope uint8
Type uint8
Flags uint32
}
type RtNexthop struct {
Len uint16
Flags uint8
Hops uint8
Ifindex int32
}
const (
SizeofSockFilter = 0x8
SizeofSockFprog = 0x10
)
type SockFilter struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type SockFprog struct {
Len uint16
Filter *SockFilter
}
type InotifyEvent struct {
Wd int32
Mask uint32
Cookie uint32
Len uint32
}
const SizeofInotifyEvent = 0x10
type PtraceRegs struct {
Pc uint64
Ra uint64
Sp uint64
Gp uint64
Tp uint64
T0 uint64
T1 uint64
T2 uint64
S0 uint64
S1 uint64
A0 uint64
A1 uint64
A2 uint64
A3 uint64
A4 uint64
A5 uint64
A6 uint64
A7 uint64
S2 uint64
S3 uint64
S4 uint64
S5 uint64
S6 uint64
S7 uint64
S8 uint64
S9 uint64
S10 uint64
S11 uint64
T3 uint64
T4 uint64
T5 uint64
T6 uint64
}
type ptracePsw struct {
}
type ptraceFpregs struct {
}
type ptracePer struct {
}
type FdSet struct {
Bits [16]int64
}
type Sysinfo_t struct {
Uptime int64
Loads [3]uint64
Totalram uint64
Freeram uint64
Sharedram uint64
Bufferram uint64
Totalswap uint64
Freeswap uint64
Procs uint16
Pad uint16
Totalhigh uint64
Freehigh uint64
Unit uint32
X_f [0]uint8
_ [4]byte
}
type Utsname struct {
Sysname [65]uint8
Nodename [65]uint8
Release [65]uint8
Version [65]uint8
Machine [65]uint8
Domainname [65]uint8
}
type Ustat_t struct {
Tfree int32
Tinode uint64
Fname [6]uint8
Fpack [6]uint8
_ [4]byte
}
type EpollEvent struct {
Events uint32
_ int32
Fd int32
Pad int32
}
const (
_AT_FDCWD = -0x64
_AT_REMOVEDIR = 0x200
_AT_SYMLINK_NOFOLLOW = 0x100
_AT_EACCESS = 0x200
)
type pollFd struct {
Fd int32
Events int16
Revents int16
}
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Line uint8
Cc [19]uint8
Ispeed uint32
Ospeed uint32
}
const (
IUCLC = 0x200
OLCUC = 0x2
TCGETS = 0x5401
TCSETS = 0x5402
XCASE = 0x4
)

627
c/syscall/ztypes_linux_s390x.go Normal file
View File

@@ -0,0 +1,627 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_linux.go | go run mkpost.go
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
PathMax = 0x1000
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int64
}
type Timex struct {
Modes uint32
_ [4]byte
Offset int64
Freq int64
Maxerror int64
Esterror int64
Status int32
_ [4]byte
Constant int64
Precision int64
Tolerance int64
Time Timeval
Tick int64
Ppsfreq int64
Jitter int64
Shift int32
_ [4]byte
Stabil int64
Jitcnt int64
Calcnt int64
Errcnt int64
Stbcnt int64
Tai int32
_ [44]byte
}
type Time_t int64
type Tms struct {
Utime int64
Stime int64
Cutime int64
Cstime int64
}
type Utimbuf struct {
Actime int64
Modtime int64
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
type Stat_t struct {
Dev uint64
Ino uint64
Nlink uint64
Mode uint32
Uid uint32
Gid uint32
_ int32
Rdev uint64
Size int64
Atim Timespec
Mtim Timespec
Ctim Timespec
Blksize int64
Blocks int64
_ [3]int64
}
type Statfs_t struct {
Type uint32
Bsize uint32
Blocks uint64
Bfree uint64
Bavail uint64
Files uint64
Ffree uint64
Fsid Fsid
Namelen uint32
Frsize uint32
Flags uint32
Spare [4]uint32
_ [4]byte
}
type Dirent struct {
Ino uint64
Off int64
Reclen uint16
Type uint8
Name [256]uint8
_ [5]byte
}
type Fsid struct {
X__val [2]int32
}
type Flock_t struct {
Type int16
Whence int16
_ [4]byte
Start int64
Len int64
Pid int32
_ [4]byte
}
type RawSockaddrInet4 struct {
Family uint16
Port uint16
Addr [4]byte /* in_addr */
Zero [8]uint8
}
type RawSockaddrInet6 struct {
Family uint16
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Family uint16
Path [108]int8
}
type RawSockaddrLinklayer struct {
Family uint16
Protocol uint16
Ifindex int32
Hatype uint16
Pkttype uint8
Halen uint8
Addr [8]uint8
}
type RawSockaddrNetlink struct {
Family uint16
Pad uint16
Pid uint32
Groups uint32
}
type RawSockaddr struct {
Family uint16
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [96]uint8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPMreqn struct {
Multiaddr [4]byte /* in_addr */
Address [4]byte /* in_addr */
Ifindex int32
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
_ [4]byte
Iov *Iovec
Iovlen uint64
Control *byte
Controllen uint64
Flags int32
_ [4]byte
}
type Cmsghdr struct {
Len uint64
Level int32
Type int32
}
type Inet4Pktinfo struct {
Ifindex int32
Spec_dst [4]byte /* in_addr */
Addr [4]byte /* in_addr */
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Data [8]uint32
}
type Ucred struct {
Pid int32
Uid uint32
Gid uint32
}
type TCPInfo struct {
State uint8
Ca_state uint8
Retransmits uint8
Probes uint8
Backoff uint8
Options uint8
_ [2]byte
Rto uint32
Ato uint32
Snd_mss uint32
Rcv_mss uint32
Unacked uint32
Sacked uint32
Lost uint32
Retrans uint32
Fackets uint32
Last_data_sent uint32
Last_ack_sent uint32
Last_data_recv uint32
Last_ack_recv uint32
Pmtu uint32
Rcv_ssthresh uint32
Rtt uint32
Rttvar uint32
Snd_ssthresh uint32
Snd_cwnd uint32
Advmss uint32
Reordering uint32
Rcv_rtt uint32
Rcv_space uint32
Total_retrans uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x70
SizeofSockaddrUnix = 0x6e
SizeofSockaddrLinklayer = 0x14
SizeofSockaddrNetlink = 0xc
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPMreqn = 0xc
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x38
SizeofCmsghdr = 0x10
SizeofInet4Pktinfo = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
SizeofUcred = 0xc
SizeofTCPInfo = 0x68
)
const (
IFA_UNSPEC = 0x0
IFA_ADDRESS = 0x1
IFA_LOCAL = 0x2
IFA_LABEL = 0x3
IFA_BROADCAST = 0x4
IFA_ANYCAST = 0x5
IFA_CACHEINFO = 0x6
IFA_MULTICAST = 0x7
IFLA_UNSPEC = 0x0
IFLA_ADDRESS = 0x1
IFLA_BROADCAST = 0x2
IFLA_IFNAME = 0x3
IFLA_MTU = 0x4
IFLA_LINK = 0x5
IFLA_QDISC = 0x6
IFLA_STATS = 0x7
IFLA_COST = 0x8
IFLA_PRIORITY = 0x9
IFLA_MASTER = 0xa
IFLA_WIRELESS = 0xb
IFLA_PROTINFO = 0xc
IFLA_TXQLEN = 0xd
IFLA_MAP = 0xe
IFLA_WEIGHT = 0xf
IFLA_OPERSTATE = 0x10
IFLA_LINKMODE = 0x11
IFLA_LINKINFO = 0x12
IFLA_NET_NS_PID = 0x13
IFLA_IFALIAS = 0x14
IFLA_MAX = 0x27
RT_SCOPE_UNIVERSE = 0x0
RT_SCOPE_SITE = 0xc8
RT_SCOPE_LINK = 0xfd
RT_SCOPE_HOST = 0xfe
RT_SCOPE_NOWHERE = 0xff
RT_TABLE_UNSPEC = 0x0
RT_TABLE_COMPAT = 0xfc
RT_TABLE_DEFAULT = 0xfd
RT_TABLE_MAIN = 0xfe
RT_TABLE_LOCAL = 0xff
RT_TABLE_MAX = 0xffffffff
RTA_UNSPEC = 0x0
RTA_DST = 0x1
RTA_SRC = 0x2
RTA_IIF = 0x3
RTA_OIF = 0x4
RTA_GATEWAY = 0x5
RTA_PRIORITY = 0x6
RTA_PREFSRC = 0x7
RTA_METRICS = 0x8
RTA_MULTIPATH = 0x9
RTA_FLOW = 0xb
RTA_CACHEINFO = 0xc
RTA_TABLE = 0xf
RTN_UNSPEC = 0x0
RTN_UNICAST = 0x1
RTN_LOCAL = 0x2
RTN_BROADCAST = 0x3
RTN_ANYCAST = 0x4
RTN_MULTICAST = 0x5
RTN_BLACKHOLE = 0x6
RTN_UNREACHABLE = 0x7
RTN_PROHIBIT = 0x8
RTN_THROW = 0x9
RTN_NAT = 0xa
RTN_XRESOLVE = 0xb
RTNLGRP_NONE = 0x0
RTNLGRP_LINK = 0x1
RTNLGRP_NOTIFY = 0x2
RTNLGRP_NEIGH = 0x3
RTNLGRP_TC = 0x4
RTNLGRP_IPV4_IFADDR = 0x5
RTNLGRP_IPV4_MROUTE = 0x6
RTNLGRP_IPV4_ROUTE = 0x7
RTNLGRP_IPV4_RULE = 0x8
RTNLGRP_IPV6_IFADDR = 0x9
RTNLGRP_IPV6_MROUTE = 0xa
RTNLGRP_IPV6_ROUTE = 0xb
RTNLGRP_IPV6_IFINFO = 0xc
RTNLGRP_IPV6_PREFIX = 0x12
RTNLGRP_IPV6_RULE = 0x13
RTNLGRP_ND_USEROPT = 0x14
SizeofNlMsghdr = 0x10
SizeofNlMsgerr = 0x14
SizeofRtGenmsg = 0x1
SizeofNlAttr = 0x4
SizeofRtAttr = 0x4
SizeofIfInfomsg = 0x10
SizeofIfAddrmsg = 0x8
SizeofRtMsg = 0xc
SizeofRtNexthop = 0x8
)
type NlMsghdr struct {
Len uint32
Type uint16
Flags uint16
Seq uint32
Pid uint32
}
type NlMsgerr struct {
Error int32
Msg NlMsghdr
}
type RtGenmsg struct {
Family uint8
}
type NlAttr struct {
Len uint16
Type uint16
}
type RtAttr struct {
Len uint16
Type uint16
}
type IfInfomsg struct {
Family uint8
X__ifi_pad uint8
Type uint16
Index int32
Flags uint32
Change uint32
}
type IfAddrmsg struct {
Family uint8
Prefixlen uint8
Flags uint8
Scope uint8
Index uint32
}
type RtMsg struct {
Family uint8
Dst_len uint8
Src_len uint8
Tos uint8
Table uint8
Protocol uint8
Scope uint8
Type uint8
Flags uint32
}
type RtNexthop struct {
Len uint16
Flags uint8
Hops uint8
Ifindex int32
}
const (
SizeofSockFilter = 0x8
SizeofSockFprog = 0x10
)
type SockFilter struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type SockFprog struct {
Len uint16
_ [6]byte
Filter *SockFilter
}
type InotifyEvent struct {
Wd int32
Mask uint32
Cookie uint32
Len uint32
}
const SizeofInotifyEvent = 0x10
type PtraceRegs struct {
Psw PtracePsw
Gprs [16]uint64
Acrs [16]uint32
Orig_gpr2 uint64
Fp_regs PtraceFpregs
Per_info PtracePer
Ieee_instruction_pointer uint64
}
type PtracePsw struct {
Mask uint64
Addr uint64
}
type PtraceFpregs struct {
Fpc uint32
_ [4]byte
Fprs [16]float64
}
type PtracePer struct {
Control_regs [0]uint64
_ [24]byte
_ [8]byte
Starting_addr uint64
Ending_addr uint64
Perc_atmid uint16
_ [6]byte
Address uint64
Access_id uint8
_ [7]byte
}
type FdSet struct {
Bits [16]int64
}
type Sysinfo_t struct {
Uptime int64
Loads [3]uint64
Totalram uint64
Freeram uint64
Sharedram uint64
Bufferram uint64
Totalswap uint64
Freeswap uint64
Procs uint16
Pad uint16
_ [4]byte
Totalhigh uint64
Freehigh uint64
Unit uint32
X_f [0]uint8
_ [4]byte
}
type Utsname struct {
Sysname [65]uint8
Nodename [65]uint8
Release [65]uint8
Version [65]uint8
Machine [65]uint8
Domainname [65]uint8
}
type Ustat_t struct {
Tfree int32
_ [4]byte
Tinode uint64
Fname [6]uint8
Fpack [6]uint8
_ [4]byte
}
type EpollEvent struct {
Events uint32
_ int32
Fd int32
Pad int32
}
const (
_AT_FDCWD = -0x64
_AT_REMOVEDIR = 0x200
_AT_SYMLINK_NOFOLLOW = 0x100
_AT_EACCESS = 0x200
)
type pollFd struct {
Fd int32
Events int16
Revents int16
}
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Line uint8
Cc [32]uint8
_ [3]byte
Ispeed uint32
Ospeed uint32
}
const (
IUCLC = 0x200
OLCUC = 0x2
TCGETS = 0x5401
TCSETS = 0x5402
XCASE = 0x4
)

408
c/syscall/ztypes_netbsd_386.go Normal file
View File

@@ -0,0 +1,408 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_netbsd.go
//go:build 386 && netbsd
package syscall
const (
sizeofPtr = 0x4
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x4
sizeofLongLong = 0x8
)
type (
_C_short int16
_C_int int32
_C_long int32
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int32
}
type Timeval struct {
Sec int64
Usec int32
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int32
Ixrss int32
Idrss int32
Isrss int32
Minflt int32
Majflt int32
Nswap int32
Inblock int32
Oublock int32
Msgsnd int32
Msgrcv int32
Nsignals int32
Nvcsw int32
Nivcsw int32
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
type Stat_t struct {
Dev uint64
Mode uint32
Ino uint64
Nlink uint32
Uid uint32
Gid uint32
Rdev uint64
Atimespec Timespec
Mtimespec Timespec
Ctimespec Timespec
Birthtimespec Timespec
Size int64
Blocks int64
Blksize uint32
Flags uint32
Gen uint32
Spare [2]uint32
}
type Statfs_t [0]byte
type Flock_t struct {
Start int64
Len int64
Pid int32
Type int16
Whence int16
}
type Dirent struct {
Fileno uint64
Reclen uint16
Namlen uint16
Type uint8
Name [512]int8
Pad_cgo_0 [3]byte
}
type Fsid struct {
X__fsid_val [2]int32
}
const (
pathMax = 0x400
)
type RawSockaddrInet4 struct {
Len uint8
Family uint8
Port uint16
Addr [4]byte /* in_addr */
Zero [8]int8
}
type RawSockaddrInet6 struct {
Len uint8
Family uint8
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Len uint8
Family uint8
Path [104]int8
}
type RawSockaddrDatalink struct {
Len uint8
Family uint8
Index uint16
Type uint8
Nlen uint8
Alen uint8
Slen uint8
Data [12]int8
}
type RawSockaddr struct {
Len uint8
Family uint8
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [92]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint32
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Iov *Iovec
Iovlen int32
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Filt [8]uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x6c
SizeofSockaddrUnix = 0x6a
SizeofSockaddrDatalink = 0x14
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x1c
SizeofCmsghdr = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
)
const (
PTRACE_TRACEME = 0x0
PTRACE_CONT = 0x7
PTRACE_KILL = 0x8
)
type Kevent_t struct {
Ident uint32
Filter uint32
Flags uint32
Fflags uint32
Data int64
Udata int32
}
type FdSet struct {
Bits [8]uint32
}
const (
SizeofIfMsghdr = 0x98
SizeofIfData = 0x84
SizeofIfaMsghdr = 0x18
SizeofIfAnnounceMsghdr = 0x18
SizeofRtMsghdr = 0x78
SizeofRtMetrics = 0x50
)
type IfMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Data IfData
Pad_cgo_1 [4]byte
}
type IfData struct {
Type uint8
Addrlen uint8
Hdrlen uint8
Pad_cgo_0 [1]byte
Link_state int32
Mtu uint64
Metric uint64
Baudrate uint64
Ipackets uint64
Ierrors uint64
Opackets uint64
Oerrors uint64
Collisions uint64
Ibytes uint64
Obytes uint64
Imcasts uint64
Omcasts uint64
Iqdrops uint64
Noproto uint64
Lastchange Timespec
}
type IfaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Metric int32
Index uint16
Pad_cgo_0 [6]byte
}
type IfAnnounceMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Name [16]int8
What uint16
}
type RtMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Pad_cgo_0 [2]byte
Flags int32
Addrs int32
Pid int32
Seq int32
Errno int32
Use int32
Inits int32
Pad_cgo_1 [4]byte
Rmx RtMetrics
}
type RtMetrics struct {
Locks uint64
Mtu uint64
Hopcount uint64
Recvpipe uint64
Sendpipe uint64
Ssthresh uint64
Rtt uint64
Rttvar uint64
Expire int64
Pksent int64
}
type Mclpool [0]byte
const (
SizeofBpfVersion = 0x4
SizeofBpfStat = 0x80
SizeofBpfProgram = 0x8
SizeofBpfInsn = 0x8
SizeofBpfHdr = 0x14
)
type BpfVersion struct {
Major uint16
Minor uint16
}
type BpfStat struct {
Recv uint64
Drop uint64
Capt uint64
Padding [13]uint64
}
type BpfProgram struct {
Len uint32
Insns *BpfInsn
}
type BpfInsn struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type BpfHdr struct {
Tstamp BpfTimeval
Caplen uint32
Datalen uint32
Hdrlen uint16
Pad_cgo_0 [2]byte
}
type BpfTimeval struct {
Sec int32
Usec int32
}
const (
_AT_FDCWD = -0x64
)
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Cc [20]uint8
Ispeed int32
Ospeed int32
}
type Sysctlnode struct {
Flags uint32
Num int32
Name [32]int8
Ver uint32
X__rsvd uint32
Un [16]byte
X_sysctl_size [8]byte
X_sysctl_func [8]byte
X_sysctl_parent [8]byte
X_sysctl_desc [8]byte
}
type sigset struct {
X__bits [4]uint32
}

415
c/syscall/ztypes_netbsd_amd64.go Normal file
View File

@@ -0,0 +1,415 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_netbsd.go
//go:build amd64 && netbsd
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int32
Pad_cgo_0 [4]byte
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
type Stat_t struct {
Dev uint64
Mode uint32
Pad_cgo_0 [4]byte
Ino uint64
Nlink uint32
Uid uint32
Gid uint32
Pad_cgo_1 [4]byte
Rdev uint64
Atimespec Timespec
Mtimespec Timespec
Ctimespec Timespec
Birthtimespec Timespec
Size int64
Blocks int64
Blksize uint32
Flags uint32
Gen uint32
Spare [2]uint32
Pad_cgo_2 [4]byte
}
type Statfs_t [0]byte
type Flock_t struct {
Start int64
Len int64
Pid int32
Type int16
Whence int16
}
type Dirent struct {
Fileno uint64
Reclen uint16
Namlen uint16
Type uint8
Name [512]int8
Pad_cgo_0 [3]byte
}
type Fsid struct {
X__fsid_val [2]int32
}
const (
pathMax = 0x400
)
type RawSockaddrInet4 struct {
Len uint8
Family uint8
Port uint16
Addr [4]byte /* in_addr */
Zero [8]int8
}
type RawSockaddrInet6 struct {
Len uint8
Family uint8
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Len uint8
Family uint8
Path [104]int8
}
type RawSockaddrDatalink struct {
Len uint8
Family uint8
Index uint16
Type uint8
Nlen uint8
Alen uint8
Slen uint8
Data [12]int8
}
type RawSockaddr struct {
Len uint8
Family uint8
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [92]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Pad_cgo_0 [4]byte
Iov *Iovec
Iovlen int32
Pad_cgo_1 [4]byte
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Filt [8]uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x6c
SizeofSockaddrUnix = 0x6a
SizeofSockaddrDatalink = 0x14
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x30
SizeofCmsghdr = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
)
const (
PTRACE_TRACEME = 0x0
PTRACE_CONT = 0x7
PTRACE_KILL = 0x8
)
type Kevent_t struct {
Ident uint64
Filter uint32
Flags uint32
Fflags uint32
Pad_cgo_0 [4]byte
Data int64
Udata int64
}
type FdSet struct {
Bits [8]uint32
}
const (
SizeofIfMsghdr = 0x98
SizeofIfData = 0x88
SizeofIfaMsghdr = 0x18
SizeofIfAnnounceMsghdr = 0x18
SizeofRtMsghdr = 0x78
SizeofRtMetrics = 0x50
)
type IfMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Data IfData
}
type IfData struct {
Type uint8
Addrlen uint8
Hdrlen uint8
Pad_cgo_0 [1]byte
Link_state int32
Mtu uint64
Metric uint64
Baudrate uint64
Ipackets uint64
Ierrors uint64
Opackets uint64
Oerrors uint64
Collisions uint64
Ibytes uint64
Obytes uint64
Imcasts uint64
Omcasts uint64
Iqdrops uint64
Noproto uint64
Lastchange Timespec
}
type IfaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Metric int32
Index uint16
Pad_cgo_0 [6]byte
}
type IfAnnounceMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Name [16]int8
What uint16
}
type RtMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Pad_cgo_0 [2]byte
Flags int32
Addrs int32
Pid int32
Seq int32
Errno int32
Use int32
Inits int32
Pad_cgo_1 [4]byte
Rmx RtMetrics
}
type RtMetrics struct {
Locks uint64
Mtu uint64
Hopcount uint64
Recvpipe uint64
Sendpipe uint64
Ssthresh uint64
Rtt uint64
Rttvar uint64
Expire int64
Pksent int64
}
type Mclpool [0]byte
const (
SizeofBpfVersion = 0x4
SizeofBpfStat = 0x80
SizeofBpfProgram = 0x10
SizeofBpfInsn = 0x8
SizeofBpfHdr = 0x20
)
type BpfVersion struct {
Major uint16
Minor uint16
}
type BpfStat struct {
Recv uint64
Drop uint64
Capt uint64
Padding [13]uint64
}
type BpfProgram struct {
Len uint32
Pad_cgo_0 [4]byte
Insns *BpfInsn
}
type BpfInsn struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type BpfHdr struct {
Tstamp BpfTimeval
Caplen uint32
Datalen uint32
Hdrlen uint16
Pad_cgo_0 [6]byte
}
type BpfTimeval struct {
Sec int64
Usec int64
}
const (
_AT_FDCWD = -0x64
)
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Cc [20]uint8
Ispeed int32
Ospeed int32
}
type Sysctlnode struct {
Flags uint32
Num int32
Name [32]int8
Ver uint32
X__rsvd uint32
Un [16]byte
X_sysctl_size [8]byte
X_sysctl_func [8]byte
X_sysctl_parent [8]byte
X_sysctl_desc [8]byte
}
type sigset struct {
X__bits [4]uint32
}

413
c/syscall/ztypes_netbsd_arm.go Normal file
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@@ -0,0 +1,413 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_netbsd.go
//go:build arm && netbsd
package syscall
const (
sizeofPtr = 0x4
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x4
sizeofLongLong = 0x8
)
type (
_C_short int16
_C_int int32
_C_long int32
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int32
Pad_cgo_0 [4]byte
}
type Timeval struct {
Sec int64
Usec int32
Pad_cgo_0 [4]byte
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int32
Ixrss int32
Idrss int32
Isrss int32
Minflt int32
Majflt int32
Nswap int32
Inblock int32
Oublock int32
Msgsnd int32
Msgrcv int32
Nsignals int32
Nvcsw int32
Nivcsw int32
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
type Stat_t struct {
Dev uint64
Mode uint32
Pad_cgo_0 [4]byte
Ino uint64
Nlink uint32
Uid uint32
Gid uint32
Pad_cgo_1 [4]byte
Rdev uint64
Atimespec Timespec
Mtimespec Timespec
Ctimespec Timespec
Birthtimespec Timespec
Size int64
Blocks int64
Blksize uint32
Flags uint32
Gen uint32
Spare [2]uint32
Pad_cgo_2 [4]byte
}
type Statfs_t [0]byte
type Flock_t struct {
Start int64
Len int64
Pid int32
Type int16
Whence int16
}
type Dirent struct {
Fileno uint64
Reclen uint16
Namlen uint16
Type uint8
Name [512]int8
Pad_cgo_0 [3]byte
}
type Fsid struct {
X__fsid_val [2]int32
}
const (
pathMax = 0x400
)
type RawSockaddrInet4 struct {
Len uint8
Family uint8
Port uint16
Addr [4]byte /* in_addr */
Zero [8]int8
}
type RawSockaddrInet6 struct {
Len uint8
Family uint8
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Len uint8
Family uint8
Path [104]int8
}
type RawSockaddrDatalink struct {
Len uint8
Family uint8
Index uint16
Type uint8
Nlen uint8
Alen uint8
Slen uint8
Data [12]int8
}
type RawSockaddr struct {
Len uint8
Family uint8
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [92]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint32
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Iov *Iovec
Iovlen int32
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Filt [8]uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x6c
SizeofSockaddrUnix = 0x6a
SizeofSockaddrDatalink = 0x14
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x1c
SizeofCmsghdr = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
)
const (
PTRACE_TRACEME = 0x0
PTRACE_CONT = 0x7
PTRACE_KILL = 0x8
)
type Kevent_t struct {
Ident uint32
Filter uint32
Flags uint32
Fflags uint32
Data int64
Udata int32
Pad_cgo_0 [4]byte
}
type FdSet struct {
Bits [8]uint32
}
const (
SizeofIfMsghdr = 0x98
SizeofIfData = 0x88
SizeofIfaMsghdr = 0x18
SizeofIfAnnounceMsghdr = 0x18
SizeofRtMsghdr = 0x78
SizeofRtMetrics = 0x50
)
type IfMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Data IfData
}
type IfData struct {
Type uint8
Addrlen uint8
Hdrlen uint8
Pad_cgo_0 [1]byte
Link_state int32
Mtu uint64
Metric uint64
Baudrate uint64
Ipackets uint64
Ierrors uint64
Opackets uint64
Oerrors uint64
Collisions uint64
Ibytes uint64
Obytes uint64
Imcasts uint64
Omcasts uint64
Iqdrops uint64
Noproto uint64
Lastchange Timespec
}
type IfaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Metric int32
Index uint16
Pad_cgo_0 [6]byte
}
type IfAnnounceMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Name [16]int8
What uint16
}
type RtMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Pad_cgo_0 [2]byte
Flags int32
Addrs int32
Pid int32
Seq int32
Errno int32
Use int32
Inits int32
Pad_cgo_1 [4]byte
Rmx RtMetrics
}
type RtMetrics struct {
Locks uint64
Mtu uint64
Hopcount uint64
Recvpipe uint64
Sendpipe uint64
Ssthresh uint64
Rtt uint64
Rttvar uint64
Expire int64
Pksent int64
}
type Mclpool [0]byte
const (
SizeofBpfVersion = 0x4
SizeofBpfStat = 0x80
SizeofBpfProgram = 0x8
SizeofBpfInsn = 0x8
SizeofBpfHdr = 0x14
)
type BpfVersion struct {
Major uint16
Minor uint16
}
type BpfStat struct {
Recv uint64
Drop uint64
Capt uint64
Padding [13]uint64
}
type BpfProgram struct {
Len uint32
Insns *BpfInsn
}
type BpfInsn struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type BpfHdr struct {
Tstamp BpfTimeval
Caplen uint32
Datalen uint32
Hdrlen uint16
Pad_cgo_0 [2]byte
}
type BpfTimeval struct {
Sec int32
Usec int32
}
const (
_AT_FDCWD = -0x64
)
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Cc [20]uint8
Ispeed int32
Ospeed int32
}
type Sysctlnode struct {
Flags uint32
Num int32
Name [32]int8
Ver uint32
X__rsvd uint32
Un [16]byte
X_sysctl_size [8]byte
X_sysctl_func [8]byte
X_sysctl_parent [8]byte
X_sysctl_desc [8]byte
}
type sigset struct {
X__bits [4]uint32
}

415
c/syscall/ztypes_netbsd_arm64.go Normal file
View File

@@ -0,0 +1,415 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_netbsd.go
//go:build arm64 && netbsd
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int32
Pad_cgo_0 [4]byte
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
type Stat_t struct {
Dev uint64
Mode uint32
Pad_cgo_0 [4]byte
Ino uint64
Nlink uint32
Uid uint32
Gid uint32
Pad_cgo_1 [4]byte
Rdev uint64
Atimespec Timespec
Mtimespec Timespec
Ctimespec Timespec
Birthtimespec Timespec
Size int64
Blocks int64
Blksize uint32
Flags uint32
Gen uint32
Spare [2]uint32
Pad_cgo_2 [4]byte
}
type Statfs_t [0]byte
type Flock_t struct {
Start int64
Len int64
Pid int32
Type int16
Whence int16
}
type Dirent struct {
Fileno uint64
Reclen uint16
Namlen uint16
Type uint8
Name [512]int8
Pad_cgo_0 [3]byte
}
type Fsid struct {
X__fsid_val [2]int32
}
const (
pathMax = 0x400
)
type RawSockaddrInet4 struct {
Len uint8
Family uint8
Port uint16
Addr [4]byte /* in_addr */
Zero [8]int8
}
type RawSockaddrInet6 struct {
Len uint8
Family uint8
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Len uint8
Family uint8
Path [104]int8
}
type RawSockaddrDatalink struct {
Len uint8
Family uint8
Index uint16
Type uint8
Nlen uint8
Alen uint8
Slen uint8
Data [12]int8
}
type RawSockaddr struct {
Len uint8
Family uint8
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [92]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Pad_cgo_0 [4]byte
Iov *Iovec
Iovlen int32
Pad_cgo_1 [4]byte
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Filt [8]uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x6c
SizeofSockaddrUnix = 0x6a
SizeofSockaddrDatalink = 0x14
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x30
SizeofCmsghdr = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
)
const (
PTRACE_TRACEME = 0x0
PTRACE_CONT = 0x7
PTRACE_KILL = 0x8
)
type Kevent_t struct {
Ident uint64
Filter uint32
Flags uint32
Fflags uint32
Pad_cgo_0 [4]byte
Data int64
Udata int64
}
type FdSet struct {
Bits [8]uint32
}
const (
SizeofIfMsghdr = 0x98
SizeofIfData = 0x88
SizeofIfaMsghdr = 0x18
SizeofIfAnnounceMsghdr = 0x18
SizeofRtMsghdr = 0x78
SizeofRtMetrics = 0x50
)
type IfMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Data IfData
}
type IfData struct {
Type uint8
Addrlen uint8
Hdrlen uint8
Pad_cgo_0 [1]byte
Link_state int32
Mtu uint64
Metric uint64
Baudrate uint64
Ipackets uint64
Ierrors uint64
Opackets uint64
Oerrors uint64
Collisions uint64
Ibytes uint64
Obytes uint64
Imcasts uint64
Omcasts uint64
Iqdrops uint64
Noproto uint64
Lastchange Timespec
}
type IfaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Metric int32
Index uint16
Pad_cgo_0 [6]byte
}
type IfAnnounceMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Name [16]int8
What uint16
}
type RtMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Pad_cgo_0 [2]byte
Flags int32
Addrs int32
Pid int32
Seq int32
Errno int32
Use int32
Inits int32
Pad_cgo_1 [4]byte
Rmx RtMetrics
}
type RtMetrics struct {
Locks uint64
Mtu uint64
Hopcount uint64
Recvpipe uint64
Sendpipe uint64
Ssthresh uint64
Rtt uint64
Rttvar uint64
Expire int64
Pksent int64
}
type Mclpool [0]byte
const (
SizeofBpfVersion = 0x4
SizeofBpfStat = 0x80
SizeofBpfProgram = 0x10
SizeofBpfInsn = 0x8
SizeofBpfHdr = 0x20
)
type BpfVersion struct {
Major uint16
Minor uint16
}
type BpfStat struct {
Recv uint64
Drop uint64
Capt uint64
Padding [13]uint64
}
type BpfProgram struct {
Len uint32
Pad_cgo_0 [4]byte
Insns *BpfInsn
}
type BpfInsn struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type BpfHdr struct {
Tstamp BpfTimeval
Caplen uint32
Datalen uint32
Hdrlen uint16
Pad_cgo_0 [6]byte
}
type BpfTimeval struct {
Sec int64
Usec int64
}
const (
_AT_FDCWD = -0x64
)
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Cc [20]uint8
Ispeed int32
Ospeed int32
}
type Sysctlnode struct {
Flags uint32
Num int32
Name [32]int8
Ver uint32
X__rsvd uint32
Un [16]byte
X_sysctl_size [8]byte
X_sysctl_func [8]byte
X_sysctl_parent [8]byte
X_sysctl_desc [8]byte
}
type sigset struct {
X__bits [4]uint32
}

451
c/syscall/ztypes_openbsd_386.go Normal file
View File

@@ -0,0 +1,451 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_openbsd.go
//go:build 386 && openbsd
package syscall
const (
sizeofPtr = 0x4
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x4
sizeofLongLong = 0x8
)
type (
_C_short int16
_C_int int32
_C_long int32
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int32
}
type Timeval struct {
Sec int64
Usec int32
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int32
Ixrss int32
Idrss int32
Isrss int32
Minflt int32
Majflt int32
Nswap int32
Inblock int32
Oublock int32
Msgsnd int32
Msgrcv int32
Nsignals int32
Nvcsw int32
Nivcsw int32
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
const (
S_IFMT = 0xf000
S_IFIFO = 0x1000
S_IFCHR = 0x2000
S_IFDIR = 0x4000
S_IFBLK = 0x6000
S_IFREG = 0x8000
S_IFLNK = 0xa000
S_IFSOCK = 0xc000
S_ISUID = 0x800
S_ISGID = 0x400
S_ISVTX = 0x200
S_IRUSR = 0x100
S_IWUSR = 0x80
S_IXUSR = 0x40
S_IRWXG = 0x38
S_IRWXO = 0x7
)
type Stat_t struct {
Mode uint32
Dev int32
Ino uint64
Nlink uint32
Uid uint32
Gid uint32
Rdev int32
Atim Timespec
Mtim Timespec
Ctim Timespec
Size int64
Blocks int64
Blksize uint32
Flags uint32
Gen uint32
X__st_birthtim Timespec
}
type Statfs_t struct {
F_flags uint32
F_bsize uint32
F_iosize uint32
F_blocks uint64
F_bfree uint64
F_bavail int64
F_files uint64
F_ffree uint64
F_favail int64
F_syncwrites uint64
F_syncreads uint64
F_asyncwrites uint64
F_asyncreads uint64
F_fsid Fsid
F_namemax uint32
F_owner uint32
F_ctime uint64
F_fstypename [16]int8
F_mntonname [90]int8
F_mntfromname [90]int8
F_mntfromspec [90]int8
Pad_cgo_0 [2]byte
Mount_info [160]byte
}
type Flock_t struct {
Start int64
Len int64
Pid int32
Type int16
Whence int16
}
type Dirent struct {
Fileno uint64
Off int64
Reclen uint16
Type uint8
Namlen uint8
X__d_padding [4]uint8
Name [256]int8
}
type Fsid struct {
Val [2]int32
}
const (
pathMax = 0x400
)
type RawSockaddrInet4 struct {
Len uint8
Family uint8
Port uint16
Addr [4]byte /* in_addr */
Zero [8]int8
}
type RawSockaddrInet6 struct {
Len uint8
Family uint8
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Len uint8
Family uint8
Path [104]int8
}
type RawSockaddrDatalink struct {
Len uint8
Family uint8
Index uint16
Type uint8
Nlen uint8
Alen uint8
Slen uint8
Data [24]int8
}
type RawSockaddr struct {
Len uint8
Family uint8
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [92]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint32
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Iov *Iovec
Iovlen uint32
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Filt [8]uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x6c
SizeofSockaddrUnix = 0x6a
SizeofSockaddrDatalink = 0x20
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x1c
SizeofCmsghdr = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
)
const (
PTRACE_TRACEME = 0x0
PTRACE_CONT = 0x7
PTRACE_KILL = 0x8
)
type Kevent_t struct {
Ident uint32
Filter int16
Flags uint16
Fflags uint32
Data int64
Udata *byte
}
type FdSet struct {
Bits [32]uint32
}
const (
SizeofIfMsghdr = 0xec
SizeofIfData = 0xd4
SizeofIfaMsghdr = 0x18
SizeofIfAnnounceMsghdr = 0x1a
SizeofRtMsghdr = 0x60
SizeofRtMetrics = 0x38
)
type IfMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
Tableid uint16
Pad1 uint8
Pad2 uint8
Addrs int32
Flags int32
Xflags int32
Data IfData
}
type IfData struct {
Type uint8
Addrlen uint8
Hdrlen uint8
Link_state uint8
Mtu uint32
Metric uint32
Pad uint32
Baudrate uint64
Ipackets uint64
Ierrors uint64
Opackets uint64
Oerrors uint64
Collisions uint64
Ibytes uint64
Obytes uint64
Imcasts uint64
Omcasts uint64
Iqdrops uint64
Noproto uint64
Capabilities uint32
Lastchange Timeval
Mclpool [7]Mclpool
}
type IfaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
Tableid uint16
Pad1 uint8
Pad2 uint8
Addrs int32
Flags int32
Metric int32
}
type IfAnnounceMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
What uint16
Name [16]int8
}
type RtMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
Tableid uint16
Priority uint8
Mpls uint8
Addrs int32
Flags int32
Fmask int32
Pid int32
Seq int32
Errno int32
Inits uint32
Rmx RtMetrics
}
type RtMetrics struct {
Pksent uint64
Expire int64
Locks uint32
Mtu uint32
Refcnt uint32
Hopcount uint32
Recvpipe uint32
Sendpipe uint32
Ssthresh uint32
Rtt uint32
Rttvar uint32
Pad uint32
}
type Mclpool struct {
Grown int32
Alive uint16
Hwm uint16
Cwm uint16
Lwm uint16
}
const (
SizeofBpfVersion = 0x4
SizeofBpfStat = 0x8
SizeofBpfProgram = 0x8
SizeofBpfInsn = 0x8
SizeofBpfHdr = 0x14
)
type BpfVersion struct {
Major uint16
Minor uint16
}
type BpfStat struct {
Recv uint32
Drop uint32
}
type BpfProgram struct {
Len uint32
Insns *BpfInsn
}
type BpfInsn struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type BpfHdr struct {
Tstamp BpfTimeval
Caplen uint32
Datalen uint32
Hdrlen uint16
Pad_cgo_0 [2]byte
}
type BpfTimeval struct {
Sec uint32
Usec uint32
}
const (
_AT_FDCWD = -0x64
)
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Cc [20]uint8
Ispeed int32
Ospeed int32
}

458
c/syscall/ztypes_openbsd_amd64.go Normal file
View File

@@ -0,0 +1,458 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_openbsd.go
//go:build amd64 && openbsd
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int64
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
const (
S_IFMT = 0xf000
S_IFIFO = 0x1000
S_IFCHR = 0x2000
S_IFDIR = 0x4000
S_IFBLK = 0x6000
S_IFREG = 0x8000
S_IFLNK = 0xa000
S_IFSOCK = 0xc000
S_ISUID = 0x800
S_ISGID = 0x400
S_ISVTX = 0x200
S_IRUSR = 0x100
S_IWUSR = 0x80
S_IXUSR = 0x40
S_IRWXG = 0x38
S_IRWXO = 0x7
)
type Stat_t struct {
Mode uint32
Dev int32
Ino uint64
Nlink uint32
Uid uint32
Gid uint32
Rdev int32
Atim Timespec
Mtim Timespec
Ctim Timespec
Size int64
Blocks int64
Blksize uint32
Flags uint32
Gen uint32
Pad_cgo_0 [4]byte
X__st_birthtim Timespec
}
type Statfs_t struct {
F_flags uint32
F_bsize uint32
F_iosize uint32
Pad_cgo_0 [4]byte
F_blocks uint64
F_bfree uint64
F_bavail int64
F_files uint64
F_ffree uint64
F_favail int64
F_syncwrites uint64
F_syncreads uint64
F_asyncwrites uint64
F_asyncreads uint64
F_fsid Fsid
F_namemax uint32
F_owner uint32
F_ctime uint64
F_fstypename [16]int8
F_mntonname [90]int8
F_mntfromname [90]int8
F_mntfromspec [90]int8
Pad_cgo_1 [2]byte
Mount_info [160]byte
}
type Flock_t struct {
Start int64
Len int64
Pid int32
Type int16
Whence int16
}
type Dirent struct {
Fileno uint64
Off int64
Reclen uint16
Type uint8
Namlen uint8
X__d_padding [4]uint8
Name [256]int8
}
type Fsid struct {
Val [2]int32
}
const (
pathMax = 0x400
)
type RawSockaddrInet4 struct {
Len uint8
Family uint8
Port uint16
Addr [4]byte /* in_addr */
Zero [8]int8
}
type RawSockaddrInet6 struct {
Len uint8
Family uint8
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Len uint8
Family uint8
Path [104]int8
}
type RawSockaddrDatalink struct {
Len uint8
Family uint8
Index uint16
Type uint8
Nlen uint8
Alen uint8
Slen uint8
Data [24]int8
}
type RawSockaddr struct {
Len uint8
Family uint8
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [92]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Pad_cgo_0 [4]byte
Iov *Iovec
Iovlen uint32
Pad_cgo_1 [4]byte
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Filt [8]uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x6c
SizeofSockaddrUnix = 0x6a
SizeofSockaddrDatalink = 0x20
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x30
SizeofCmsghdr = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
)
const (
PTRACE_TRACEME = 0x0
PTRACE_CONT = 0x7
PTRACE_KILL = 0x8
)
type Kevent_t struct {
Ident uint64
Filter int16
Flags uint16
Fflags uint32
Data int64
Udata *byte
}
type FdSet struct {
Bits [32]uint32
}
const (
SizeofIfMsghdr = 0xf8
SizeofIfData = 0xe0
SizeofIfaMsghdr = 0x18
SizeofIfAnnounceMsghdr = 0x1a
SizeofRtMsghdr = 0x60
SizeofRtMetrics = 0x38
)
type IfMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
Tableid uint16
Pad1 uint8
Pad2 uint8
Addrs int32
Flags int32
Xflags int32
Data IfData
}
type IfData struct {
Type uint8
Addrlen uint8
Hdrlen uint8
Link_state uint8
Mtu uint32
Metric uint32
Pad uint32
Baudrate uint64
Ipackets uint64
Ierrors uint64
Opackets uint64
Oerrors uint64
Collisions uint64
Ibytes uint64
Obytes uint64
Imcasts uint64
Omcasts uint64
Iqdrops uint64
Noproto uint64
Capabilities uint32
Pad_cgo_0 [4]byte
Lastchange Timeval
Mclpool [7]Mclpool
Pad_cgo_1 [4]byte
}
type IfaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
Tableid uint16
Pad1 uint8
Pad2 uint8
Addrs int32
Flags int32
Metric int32
}
type IfAnnounceMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
What uint16
Name [16]int8
}
type RtMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
Tableid uint16
Priority uint8
Mpls uint8
Addrs int32
Flags int32
Fmask int32
Pid int32
Seq int32
Errno int32
Inits uint32
Rmx RtMetrics
}
type RtMetrics struct {
Pksent uint64
Expire int64
Locks uint32
Mtu uint32
Refcnt uint32
Hopcount uint32
Recvpipe uint32
Sendpipe uint32
Ssthresh uint32
Rtt uint32
Rttvar uint32
Pad uint32
}
type Mclpool struct {
Grown int32
Alive uint16
Hwm uint16
Cwm uint16
Lwm uint16
}
const (
SizeofBpfVersion = 0x4
SizeofBpfStat = 0x8
SizeofBpfProgram = 0x10
SizeofBpfInsn = 0x8
SizeofBpfHdr = 0x14
)
type BpfVersion struct {
Major uint16
Minor uint16
}
type BpfStat struct {
Recv uint32
Drop uint32
}
type BpfProgram struct {
Len uint32
Pad_cgo_0 [4]byte
Insns *BpfInsn
}
type BpfInsn struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type BpfHdr struct {
Tstamp BpfTimeval
Caplen uint32
Datalen uint32
Hdrlen uint16
Pad_cgo_0 [2]byte
}
type BpfTimeval struct {
Sec uint32
Usec uint32
}
const (
_AT_FDCWD = -0x64
)
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Cc [20]uint8
Ispeed int32
Ospeed int32
}

450
c/syscall/ztypes_openbsd_arm.go Normal file
View File

@@ -0,0 +1,450 @@
// Code generated by cmd/cgo -godefs; DO NOT EDIT.
// cgo -godefs -- -fsigned-char types_openbsd.go
package syscall
const (
sizeofPtr = 0x4
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x4
sizeofLongLong = 0x8
)
type (
_C_short int16
_C_int int32
_C_long int32
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int32
Pad_cgo_0 [4]byte
}
type Timeval struct {
Sec int64
Usec int32
Pad_cgo_0 [4]byte
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int32
Ixrss int32
Idrss int32
Isrss int32
Minflt int32
Majflt int32
Nswap int32
Inblock int32
Oublock int32
Msgsnd int32
Msgrcv int32
Nsignals int32
Nvcsw int32
Nivcsw int32
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
const (
S_IFMT = 0xf000
S_IFIFO = 0x1000
S_IFCHR = 0x2000
S_IFDIR = 0x4000
S_IFBLK = 0x6000
S_IFREG = 0x8000
S_IFLNK = 0xa000
S_IFSOCK = 0xc000
S_ISUID = 0x800
S_ISGID = 0x400
S_ISVTX = 0x200
S_IRUSR = 0x100
S_IWUSR = 0x80
S_IXUSR = 0x40
S_IRWXG = 0x38
S_IRWXO = 0x7
)
type Stat_t struct {
Mode uint32
Dev int32
Ino uint64
Nlink uint32
Uid uint32
Gid uint32
Rdev int32
Atim Timespec
Mtim Timespec
Ctim Timespec
Size int64
Blocks int64
Blksize int32
Flags uint32
Gen uint32
Pad_cgo_0 [4]byte
X__st_birthtim Timespec
}
type Statfs_t struct {
F_flags uint32
F_bsize uint32
F_iosize uint32
Pad_cgo_0 [4]byte
F_blocks uint64
F_bfree uint64
F_bavail int64
F_files uint64
F_ffree uint64
F_favail int64
F_syncwrites uint64
F_syncreads uint64
F_asyncwrites uint64
F_asyncreads uint64
F_fsid Fsid
F_namemax uint32
F_owner uint32
F_ctime uint64
F_fstypename [16]int8
F_mntonname [90]int8
F_mntfromname [90]int8
F_mntfromspec [90]int8
Pad_cgo_1 [2]byte
Mount_info [160]byte
}
type Flock_t struct {
Start int64
Len int64
Pid int32
Type int16
Whence int16
}
type Dirent struct {
Fileno uint64
Off int64
Reclen uint16
Type uint8
Namlen uint8
X__d_padding [4]uint8
Name [256]int8
}
type Fsid struct {
Val [2]int32
}
const (
pathMax = 0x400
)
type RawSockaddrInet4 struct {
Len uint8
Family uint8
Port uint16
Addr [4]byte /* in_addr */
Zero [8]int8
}
type RawSockaddrInet6 struct {
Len uint8
Family uint8
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Len uint8
Family uint8
Path [104]int8
}
type RawSockaddrDatalink struct {
Len uint8
Family uint8
Index uint16
Type uint8
Nlen uint8
Alen uint8
Slen uint8
Data [24]int8
}
type RawSockaddr struct {
Len uint8
Family uint8
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [92]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint32
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Iov *Iovec
Iovlen uint32
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Filt [8]uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x6c
SizeofSockaddrUnix = 0x6a
SizeofSockaddrDatalink = 0x20
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x1c
SizeofCmsghdr = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
)
const (
PTRACE_TRACEME = 0x0
PTRACE_CONT = 0x7
PTRACE_KILL = 0x8
)
type Kevent_t struct {
Ident uint32
Filter int16
Flags uint16
Fflags uint32
Pad_cgo_0 [4]byte
Data int64
Udata *byte
Pad_cgo_1 [4]byte
}
type FdSet struct {
Bits [32]uint32
}
const (
SizeofIfMsghdr = 0xa8
SizeofIfData = 0x90
SizeofIfaMsghdr = 0x18
SizeofIfAnnounceMsghdr = 0x1a
SizeofRtMsghdr = 0x60
SizeofRtMetrics = 0x38
)
type IfMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
Tableid uint16
Pad1 uint8
Pad2 uint8
Addrs int32
Flags int32
Xflags int32
Data IfData
}
type IfData struct {
Type uint8
Addrlen uint8
Hdrlen uint8
Link_state uint8
Mtu uint32
Metric uint32
Rdomain uint32
Baudrate uint64
Ipackets uint64
Ierrors uint64
Opackets uint64
Oerrors uint64
Collisions uint64
Ibytes uint64
Obytes uint64
Imcasts uint64
Omcasts uint64
Iqdrops uint64
Oqdrops uint64
Noproto uint64
Capabilities uint32
Pad_cgo_0 [4]byte
Lastchange Timeval
}
type IfaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
Tableid uint16
Pad1 uint8
Pad2 uint8
Addrs int32
Flags int32
Metric int32
}
type IfAnnounceMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
What uint16
Name [16]int8
}
type RtMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
Tableid uint16
Priority uint8
Mpls uint8
Addrs int32
Flags int32
Fmask int32
Pid int32
Seq int32
Errno int32
Inits uint32
Rmx RtMetrics
}
type RtMetrics struct {
Pksent uint64
Expire int64
Locks uint32
Mtu uint32
Refcnt uint32
Hopcount uint32
Recvpipe uint32
Sendpipe uint32
Ssthresh uint32
Rtt uint32
Rttvar uint32
Pad uint32
}
type Mclpool struct{}
const (
SizeofBpfVersion = 0x4
SizeofBpfStat = 0x8
SizeofBpfProgram = 0x8
SizeofBpfInsn = 0x8
SizeofBpfHdr = 0x14
)
type BpfVersion struct {
Major uint16
Minor uint16
}
type BpfStat struct {
Recv uint32
Drop uint32
}
type BpfProgram struct {
Len uint32
Insns *BpfInsn
}
type BpfInsn struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type BpfHdr struct {
Tstamp BpfTimeval
Caplen uint32
Datalen uint32
Hdrlen uint16
Pad_cgo_0 [2]byte
}
type BpfTimeval struct {
Sec uint32
Usec uint32
}
const (
_AT_FDCWD = -0x64
)
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Cc [20]uint8
Ispeed int32
Ospeed int32
}

443
c/syscall/ztypes_openbsd_arm64.go Normal file
View File

@@ -0,0 +1,443 @@
// Code generated by cmd/cgo -godefs; DO NOT EDIT.
// cgo -godefs -- -fsigned-char types_openbsd.go
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int64
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
const (
S_IFMT = 0xf000
S_IFIFO = 0x1000
S_IFCHR = 0x2000
S_IFDIR = 0x4000
S_IFBLK = 0x6000
S_IFREG = 0x8000
S_IFLNK = 0xa000
S_IFSOCK = 0xc000
S_ISUID = 0x800
S_ISGID = 0x400
S_ISVTX = 0x200
S_IRUSR = 0x100
S_IWUSR = 0x80
S_IXUSR = 0x40
S_IRWXG = 0x38
S_IRWXO = 0x7
)
type Stat_t struct {
Mode uint32
Dev int32
Ino uint64
Nlink uint32
Uid uint32
Gid uint32
Rdev int32
Atim Timespec
Mtim Timespec
Ctim Timespec
Size int64
Blocks int64
Blksize int32
Flags uint32
Gen uint32
X__st_birthtim Timespec
}
type Statfs_t struct {
F_flags uint32
F_bsize uint32
F_iosize uint32
F_blocks uint64
F_bfree uint64
F_bavail int64
F_files uint64
F_ffree uint64
F_favail int64
F_syncwrites uint64
F_syncreads uint64
F_asyncwrites uint64
F_asyncreads uint64
F_fsid Fsid
F_namemax uint32
F_owner uint32
F_ctime uint64
F_fstypename [16]int8
F_mntonname [90]int8
F_mntfromname [90]int8
F_mntfromspec [90]int8
Pad_cgo_0 [2]byte
Mount_info [160]byte
}
type Flock_t struct {
Start int64
Len int64
Pid int32
Type int16
Whence int16
}
type Dirent struct {
Fileno uint64
Off int64
Reclen uint16
Type uint8
Namlen uint8
X__d_padding [4]uint8
Name [256]int8
}
type Fsid struct {
Val [2]int32
}
const (
pathMax = 0x400
)
type RawSockaddrInet4 struct {
Len uint8
Family uint8
Port uint16
Addr [4]byte /* in_addr */
Zero [8]int8
}
type RawSockaddrInet6 struct {
Len uint8
Family uint8
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Len uint8
Family uint8
Path [104]int8
}
type RawSockaddrDatalink struct {
Len uint8
Family uint8
Index uint16
Type uint8
Nlen uint8
Alen uint8
Slen uint8
Data [24]int8
}
type RawSockaddr struct {
Len uint8
Family uint8
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [92]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Iov *Iovec
Iovlen uint32
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Filt [8]uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x6c
SizeofSockaddrUnix = 0x6a
SizeofSockaddrDatalink = 0x20
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x30
SizeofCmsghdr = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
)
const (
PTRACE_TRACEME = 0x0
PTRACE_CONT = 0x7
PTRACE_KILL = 0x8
)
type Kevent_t struct {
Ident uint64
Filter int16
Flags uint16
Fflags uint32
Data int64
Udata *byte
}
type FdSet struct {
Bits [32]uint32
}
const (
SizeofIfMsghdr = 0xa8
SizeofIfData = 0x90
SizeofIfaMsghdr = 0x18
SizeofIfAnnounceMsghdr = 0x1a
SizeofRtMsghdr = 0x60
SizeofRtMetrics = 0x38
)
type IfMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
Tableid uint16
Pad1 uint8
Pad2 uint8
Addrs int32
Flags int32
Xflags int32
Data IfData
}
type IfData struct {
Type uint8
Addrlen uint8
Hdrlen uint8
Link_state uint8
Mtu uint32
Metric uint32
Rdomain uint32
Baudrate uint64
Ipackets uint64
Ierrors uint64
Opackets uint64
Oerrors uint64
Collisions uint64
Ibytes uint64
Obytes uint64
Imcasts uint64
Omcasts uint64
Iqdrops uint64
Oqdrops uint64
Noproto uint64
Capabilities uint32
Lastchange Timeval
}
type IfaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
Tableid uint16
Pad1 uint8
Pad2 uint8
Addrs int32
Flags int32
Metric int32
}
type IfAnnounceMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
What uint16
Name [16]int8
}
type RtMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
Tableid uint16
Priority uint8
Mpls uint8
Addrs int32
Flags int32
Fmask int32
Pid int32
Seq int32
Errno int32
Inits uint32
Rmx RtMetrics
}
type RtMetrics struct {
Pksent uint64
Expire int64
Locks uint32
Mtu uint32
Refcnt uint32
Hopcount uint32
Recvpipe uint32
Sendpipe uint32
Ssthresh uint32
Rtt uint32
Rttvar uint32
Pad uint32
}
type Mclpool struct{}
const (
SizeofBpfVersion = 0x4
SizeofBpfStat = 0x8
SizeofBpfProgram = 0x10
SizeofBpfInsn = 0x8
SizeofBpfHdr = 0x14
)
type BpfVersion struct {
Major uint16
Minor uint16
}
type BpfStat struct {
Recv uint32
Drop uint32
}
type BpfProgram struct {
Len uint32
Insns *BpfInsn
}
type BpfInsn struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type BpfHdr struct {
Tstamp BpfTimeval
Caplen uint32
Datalen uint32
Hdrlen uint16
Pad_cgo_0 [2]byte
}
type BpfTimeval struct {
Sec uint32
Usec uint32
}
const (
_AT_FDCWD = -0x64
)
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Cc [20]uint8
Ispeed int32
Ospeed int32
}

443
c/syscall/ztypes_openbsd_mips64.go Normal file
View File

@@ -0,0 +1,443 @@
// Code generated by cmd/cgo -godefs; DO NOT EDIT.
// cgo -godefs -- -fsigned-char types_openbsd.go
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int64
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Gid_t uint32
const (
S_IFMT = 0xf000
S_IFIFO = 0x1000
S_IFCHR = 0x2000
S_IFDIR = 0x4000
S_IFBLK = 0x6000
S_IFREG = 0x8000
S_IFLNK = 0xa000
S_IFSOCK = 0xc000
S_ISUID = 0x800
S_ISGID = 0x400
S_ISVTX = 0x200
S_IRUSR = 0x100
S_IWUSR = 0x80
S_IXUSR = 0x40
S_IRWXG = 0x38
S_IRWXO = 0x7
)
type Stat_t struct {
Mode uint32
Dev int32
Ino uint64
Nlink uint32
Uid uint32
Gid uint32
Rdev int32
Atim Timespec
Mtim Timespec
Ctim Timespec
Size int64
Blocks int64
Blksize int32
Flags uint32
Gen uint32
X__st_birthtim Timespec
}
type Statfs_t struct {
F_flags uint32
F_bsize uint32
F_iosize uint32
F_blocks uint64
F_bfree uint64
F_bavail int64
F_files uint64
F_ffree uint64
F_favail int64
F_syncwrites uint64
F_syncreads uint64
F_asyncwrites uint64
F_asyncreads uint64
F_fsid Fsid
F_namemax uint32
F_owner uint32
F_ctime uint64
F_fstypename [16]int8
F_mntonname [90]int8
F_mntfromname [90]int8
F_mntfromspec [90]int8
Pad_cgo_0 [2]byte
Mount_info [160]byte
}
type Flock_t struct {
Start int64
Len int64
Pid int32
Type int16
Whence int16
}
type Dirent struct {
Fileno uint64
Off int64
Reclen uint16
Type uint8
Namlen uint8
X__d_padding [4]uint8
Name [256]int8
}
type Fsid struct {
Val [2]int32
}
const (
pathMax = 0x400
)
type RawSockaddrInet4 struct {
Len uint8
Family uint8
Port uint16
Addr [4]byte /* in_addr */
Zero [8]int8
}
type RawSockaddrInet6 struct {
Len uint8
Family uint8
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
}
type RawSockaddrUnix struct {
Len uint8
Family uint8
Path [104]int8
}
type RawSockaddrDatalink struct {
Len uint8
Family uint8
Index uint16
Type uint8
Nlen uint8
Alen uint8
Slen uint8
Data [24]int8
}
type RawSockaddr struct {
Len uint8
Family uint8
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [92]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *byte
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Iov *Iovec
Iovlen uint32
Control *byte
Controllen uint32
Flags int32
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
Filt [8]uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x1c
SizeofSockaddrAny = 0x6c
SizeofSockaddrUnix = 0x6a
SizeofSockaddrDatalink = 0x20
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x30
SizeofCmsghdr = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x20
SizeofICMPv6Filter = 0x20
)
const (
PTRACE_TRACEME = 0x0
PTRACE_CONT = 0x7
PTRACE_KILL = 0x8
)
type Kevent_t struct {
Ident uint64
Filter int16
Flags uint16
Fflags uint32
Data int64
Udata *byte
}
type FdSet struct {
Bits [32]uint32
}
const (
SizeofIfMsghdr = 0xa8
SizeofIfData = 0x90
SizeofIfaMsghdr = 0x18
SizeofIfAnnounceMsghdr = 0x1a
SizeofRtMsghdr = 0x60
SizeofRtMetrics = 0x38
)
type IfMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
Tableid uint16
Pad1 uint8
Pad2 uint8
Addrs int32
Flags int32
Xflags int32
Data IfData
}
type IfData struct {
Type uint8
Addrlen uint8
Hdrlen uint8
Link_state uint8
Mtu uint32
Metric uint32
Rdomain uint32
Baudrate uint64
Ipackets uint64
Ierrors uint64
Opackets uint64
Oerrors uint64
Collisions uint64
Ibytes uint64
Obytes uint64
Imcasts uint64
Omcasts uint64
Iqdrops uint64
Oqdrops uint64
Noproto uint64
Capabilities uint32
Lastchange Timeval
}
type IfaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
Tableid uint16
Pad1 uint8
Pad2 uint8
Addrs int32
Flags int32
Metric int32
}
type IfAnnounceMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
What uint16
Name [16]int8
}
type RtMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Hdrlen uint16
Index uint16
Tableid uint16
Priority uint8
Mpls uint8
Addrs int32
Flags int32
Fmask int32
Pid int32
Seq int32
Errno int32
Inits uint32
Rmx RtMetrics
}
type RtMetrics struct {
Pksent uint64
Expire int64
Locks uint32
Mtu uint32
Refcnt uint32
Hopcount uint32
Recvpipe uint32
Sendpipe uint32
Ssthresh uint32
Rtt uint32
Rttvar uint32
Pad uint32
}
type Mclpool struct{}
const (
SizeofBpfVersion = 0x4
SizeofBpfStat = 0x8
SizeofBpfProgram = 0x10
SizeofBpfInsn = 0x8
SizeofBpfHdr = 0x14
)
type BpfVersion struct {
Major uint16
Minor uint16
}
type BpfStat struct {
Recv uint32
Drop uint32
}
type BpfProgram struct {
Len uint32
Insns *BpfInsn
}
type BpfInsn struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type BpfHdr struct {
Tstamp BpfTimeval
Caplen uint32
Datalen uint32
Hdrlen uint16
Pad_cgo_0 [2]byte
}
type BpfTimeval struct {
Sec uint32
Usec uint32
}
const (
_AT_FDCWD = -0x64
)
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Cc [20]uint8
Ispeed int32
Ospeed int32
}

376
c/syscall/ztypes_solaris_amd64.go Normal file
View File

@@ -0,0 +1,376 @@
// Created by cgo -godefs - DO NOT EDIT
// cgo -godefs types_solaris.go
//go:build amd64 && solaris
package syscall
const (
sizeofPtr = 0x8
sizeofShort = 0x2
sizeofInt = 0x4
sizeofLong = 0x8
sizeofLongLong = 0x8
PathMax = 0x400
)
type (
_C_short int16
_C_int int32
_C_long int64
_C_long_long int64
)
type Timespec struct {
Sec int64
Nsec int64
}
type Timeval struct {
Sec int64
Usec int64
}
type Timeval32 struct {
Sec int32
Usec int32
}
type Rusage struct {
Utime Timeval
Stime Timeval
Maxrss int64
Ixrss int64
Idrss int64
Isrss int64
Minflt int64
Majflt int64
Nswap int64
Inblock int64
Oublock int64
Msgsnd int64
Msgrcv int64
Nsignals int64
Nvcsw int64
Nivcsw int64
}
type Rlimit struct {
Cur uint64
Max uint64
}
type _Pid_t int32
type _Gid_t uint32
const (
S_IFMT = 0xf000
S_IFIFO = 0x1000
S_IFCHR = 0x2000
S_IFDIR = 0x4000
S_IFBLK = 0x6000
S_IFREG = 0x8000
S_IFLNK = 0xa000
S_IFSOCK = 0xc000
S_ISUID = 0x800
S_ISGID = 0x400
S_ISVTX = 0x200
S_IRUSR = 0x100
S_IWUSR = 0x80
S_IXUSR = 0x40
S_IRWXG = 0x38
S_IRWXO = 0x7
)
type Stat_t struct {
Dev uint64
Ino uint64
Mode uint32
Nlink uint32
Uid uint32
Gid uint32
Rdev uint64
Size int64
Atim Timespec
Mtim Timespec
Ctim Timespec
Blksize int32
Pad_cgo_0 [4]byte
Blocks int64
Fstype [16]int8
}
type Flock_t struct {
Type int16
Whence int16
Pad_cgo_0 [4]byte
Start int64
Len int64
Sysid int32
Pid int32
Pad [4]int64
}
type Dirent struct {
Ino uint64
Off int64
Reclen uint16
Name [1]int8
Pad_cgo_0 [5]byte
}
type RawSockaddrInet4 struct {
Family uint16
Port uint16
Addr [4]byte /* in_addr */
Zero [8]int8
}
type RawSockaddrInet6 struct {
Family uint16
Port uint16
Flowinfo uint32
Addr [16]byte /* in6_addr */
Scope_id uint32
X__sin6_src_id uint32
}
type RawSockaddrUnix struct {
Family uint16
Path [108]int8
}
type RawSockaddrDatalink struct {
Family uint16
Index uint16
Type uint8
Nlen uint8
Alen uint8
Slen uint8
Data [244]int8
}
type RawSockaddr struct {
Family uint16
Data [14]int8
}
type RawSockaddrAny struct {
Addr RawSockaddr
Pad [236]int8
}
type _Socklen uint32
type Linger struct {
Onoff int32
Linger int32
}
type Iovec struct {
Base *int8
Len uint64
}
type IPMreq struct {
Multiaddr [4]byte /* in_addr */
Interface [4]byte /* in_addr */
}
type IPv6Mreq struct {
Multiaddr [16]byte /* in6_addr */
Interface uint32
}
type Msghdr struct {
Name *byte
Namelen uint32
Pad_cgo_0 [4]byte
Iov *Iovec
Iovlen int32
Pad_cgo_1 [4]byte
Accrights *int8
Accrightslen int32
Pad_cgo_2 [4]byte
}
type Cmsghdr struct {
Len uint32
Level int32
Type int32
}
type Inet6Pktinfo struct {
Addr [16]byte /* in6_addr */
Ifindex uint32
}
type IPv6MTUInfo struct {
Addr RawSockaddrInet6
Mtu uint32
}
type ICMPv6Filter struct {
X__icmp6_filt [8]uint32
}
const (
SizeofSockaddrInet4 = 0x10
SizeofSockaddrInet6 = 0x20
SizeofSockaddrAny = 0xfc
SizeofSockaddrUnix = 0x6e
SizeofSockaddrDatalink = 0xfc
SizeofLinger = 0x8
SizeofIPMreq = 0x8
SizeofIPv6Mreq = 0x14
SizeofMsghdr = 0x30
SizeofCmsghdr = 0xc
SizeofInet6Pktinfo = 0x14
SizeofIPv6MTUInfo = 0x24
SizeofICMPv6Filter = 0x20
)
type FdSet struct {
Bits [1024]int64
}
const (
SizeofIfMsghdr = 0x54
SizeofIfData = 0x44
SizeofIfaMsghdr = 0x14
SizeofRtMsghdr = 0x4c
SizeofRtMetrics = 0x28
)
type IfMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Data IfData
}
type IfData struct {
Type uint8
Addrlen uint8
Hdrlen uint8
Pad_cgo_0 [1]byte
Mtu uint32
Metric uint32
Baudrate uint32
Ipackets uint32
Ierrors uint32
Opackets uint32
Oerrors uint32
Collisions uint32
Ibytes uint32
Obytes uint32
Imcasts uint32
Omcasts uint32
Iqdrops uint32
Noproto uint32
Lastchange Timeval32
}
type IfaMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Addrs int32
Flags int32
Index uint16
Pad_cgo_0 [2]byte
Metric int32
}
type RtMsghdr struct {
Msglen uint16
Version uint8
Type uint8
Index uint16
Pad_cgo_0 [2]byte
Flags int32
Addrs int32
Pid int32
Seq int32
Errno int32
Use int32
Inits uint32
Rmx RtMetrics
}
type RtMetrics struct {
Locks uint32
Mtu uint32
Hopcount uint32
Expire uint32
Recvpipe uint32
Sendpipe uint32
Ssthresh uint32
Rtt uint32
Rttvar uint32
Pksent uint32
}
const (
SizeofBpfVersion = 0x4
SizeofBpfStat = 0x80
SizeofBpfProgram = 0x10
SizeofBpfInsn = 0x8
SizeofBpfHdr = 0x14
)
type BpfVersion struct {
Major uint16
Minor uint16
}
type BpfStat struct {
Recv uint64
Drop uint64
Capt uint64
Padding [13]uint64
}
type BpfProgram struct {
Len uint32
Pad_cgo_0 [4]byte
Insns *BpfInsn
}
type BpfInsn struct {
Code uint16
Jt uint8
Jf uint8
K uint32
}
type BpfTimeval struct {
Sec int32
Usec int32
}
type BpfHdr struct {
Tstamp BpfTimeval
Caplen uint32
Datalen uint32
Hdrlen uint16
Pad_cgo_0 [2]byte
}
const (
_AT_FDCWD = 0xffd19553
)
type Termios struct {
Iflag uint32
Oflag uint32
Cflag uint32
Lflag uint32
Cc [19]uint8
Pad_cgo_0 [1]byte
}

3
cl/import.go
View File

@@ -531,7 +531,8 @@ func ignoreName(name string) bool {
func supportedInternal(name string) bool {
return strings.HasPrefix(name, "abi.") || strings.HasPrefix(name, "bytealg.") ||
strings.HasPrefix(name, "reflectlite.")
strings.HasPrefix(name, "oserror.") || strings.HasPrefix(name, "reflectlite.") ||
strings.HasPrefix(name, "syscall/execenv.")
}
// -----------------------------------------------------------------------------

6
internal/build/build.go
View File

@@ -673,13 +673,12 @@ func canSkipToBuild(pkgPath string) bool {
type none struct{}
var hasAltPkg = map[string]none{
"errors": {},
"fmt": {},
"internal/abi": {},
"internal/bytealg": {},
"internal/oserror": {},
"internal/reflectlite": {},
"io": {},
"io/fs": {},
"internal/syscall/execenv": {},
"math": {},
"math/cmplx": {},
"reflect": {},
@@ -688,6 +687,7 @@ var hasAltPkg = map[string]none{
"syscall": {},
"time": {},
"os": {},
"os/exec": {},
"runtime": {},
}

0
internal/lib/io/fs/fs.go → internal/lib/_io/fs/fs.go
View File

0
internal/lib/io/io.go → internal/lib/_io/io.go
View File

68
internal/lib/errors/errors.go
View File

@@ -1,68 +0,0 @@
/*
* Copyright (c) 2024 The GoPlus Authors (goplus.org). All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package errors
// llgo:skipall
import (
_ "unsafe"
)
// Unwrap returns the result of calling the Unwrap method on err, if err's
// type contains an Unwrap method returning error.
// Otherwise, Unwrap returns nil.
//
// Unwrap only calls a method of the form "Unwrap() error".
// In particular Unwrap does not unwrap errors returned by [Join].
func Unwrap(err error) error {
u, ok := err.(interface {
Unwrap() error
})
if !ok {
return nil
}
return u.Unwrap()
}
// New returns an error that formats as the given text.
// Each call to New returns a distinct error value even if the text is identical.
func New(text string) error {
return &errorString{text}
}
// errorString is a trivial implementation of error.
type errorString struct {
s string
}
func (e *errorString) Error() string {
return e.s
}
// ErrUnsupported indicates that a requested operation cannot be performed,
// because it is unsupported. For example, a call to [os.Link] when using a
// file system that does not support hard links.
//
// Functions and methods should not return this error but should instead
// return an error including appropriate context that satisfies
//
// errors.Is(err, errors.ErrUnsupported)
//
// either by directly wrapping ErrUnsupported or by implementing an Is method.
//
// Functions and methods should document the cases in which an error
// wrapping this will be returned.
var ErrUnsupported = New("unsupported operation")

7
internal/lib/syscall/errors.go → internal/lib/internal/oserror/errors.go
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@@ -2,11 +2,14 @@
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package syscall
// Package oserror defines errors values used in the os package.
//
// These types are defined here to permit the syscall package to reference them.
package oserror
// llgo:skipall
import "errors"
// from internal/oserror
var (
ErrInvalid = errors.New("invalid argument")
ErrPermission = errors.New("permission denied")

20
internal/lib/internal/syscall/execenv/execenv_default.go Normal file
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@@ -0,0 +1,20 @@
// Copyright 2020 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.
//go:build !windows
package execenv
// llgo:skipall
import "syscall"
// Default will return the default environment
// variables based on the process attributes
// provided.
//
// Defaults to syscall.Environ() on all platforms
// other than Windows.
func Default(sys *syscall.SysProcAttr) ([]string, error) {
return syscall.Environ(), nil
}

48
internal/lib/internal/syscall/execenv/execenv_windows.go Normal file
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@@ -0,0 +1,48 @@
// Copyright 2020 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.
//go:build windows
package execenv
// llgo:skipall
import (
"internal/syscall/windows"
"syscall"
"unsafe"
)
// Default will return the default environment
// variables based on the process attributes
// provided.
//
// If the process attributes contain a token, then
// the environment variables will be sourced from
// the defaults for that user token, otherwise they
// will be sourced from syscall.Environ().
func Default(sys *syscall.SysProcAttr) (env []string, err error) {
if sys == nil || sys.Token == 0 {
return syscall.Environ(), nil
}
var blockp *uint16
err = windows.CreateEnvironmentBlock(&blockp, sys.Token, false)
if err != nil {
return nil, err
}
defer windows.DestroyEnvironmentBlock(blockp)
const size = unsafe.Sizeof(*blockp)
for *blockp != 0 { // environment block ends with empty string
// find NUL terminator
end := unsafe.Add(unsafe.Pointer(blockp), size)
for *(*uint16)(end) != 0 {
end = unsafe.Add(end, size)
}
entry := unsafe.Slice(blockp, (uintptr(end)-uintptr(unsafe.Pointer(blockp)))/2)
env = append(env, syscall.UTF16ToString(entry))
blockp = (*uint16)(unsafe.Add(end, size))
}
return
}

172
internal/lib/os/exec.go Normal file
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@@ -0,0 +1,172 @@
// 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 (
"errors"
"runtime"
"sync"
"sync/atomic"
"syscall"
"time"
)
// ErrProcessDone indicates a Process has finished.
var ErrProcessDone = errors.New("os: process already finished")
// Process stores the information about a process created by StartProcess.
type Process struct {
Pid int
handle uintptr // handle is accessed atomically on Windows
isdone atomic.Bool // process has been successfully waited on
sigMu sync.RWMutex // avoid race between wait and signal
}
func newProcess(pid int, handle uintptr) *Process {
p := &Process{Pid: pid, handle: handle}
runtime.SetFinalizer(p, (*Process).Release)
return p
}
func (p *Process) setDone() {
p.isdone.Store(true)
}
func (p *Process) done() bool {
return p.isdone.Load()
}
// ProcAttr holds the attributes that will be applied to a new process
// started by StartProcess.
type ProcAttr struct {
// If Dir is non-empty, the child changes into the directory before
// creating the process.
Dir string
// If Env is non-nil, it gives the environment variables for the
// new process in the form returned by Environ.
// If it is nil, the result of Environ will be used.
Env []string
// Files specifies the open files inherited by the new process. The
// first three entries correspond to standard input, standard output, and
// standard error. An implementation may support additional entries,
// depending on the underlying operating system. A nil entry corresponds
// to that file being closed when the process starts.
// On Unix systems, StartProcess will change these File values
// to blocking mode, which means that SetDeadline will stop working
// and calling Close will not interrupt a Read or Write.
Files []*File
// Operating system-specific process creation attributes.
// Note that setting this field means that your program
// may not execute properly or even compile on some
// operating systems.
Sys *syscall.SysProcAttr
}
// A Signal represents an operating system signal.
// The usual underlying implementation is operating system-dependent:
// on Unix it is syscall.Signal.
type Signal interface {
String() string
Signal() // to distinguish from other Stringers
}
// 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.
//
// On Unix systems, FindProcess always succeeds and returns a Process
// for the given pid, regardless of whether the process exists. To test whether
// the process actually exists, see whether p.Signal(syscall.Signal(0)) reports
// an error.
func FindProcess(pid int) (*Process, error) {
return findProcess(pid)
}
// StartProcess starts a new process with the program, arguments and attributes
// specified by name, argv and attr. The argv slice will become os.Args in the
// new process, so it normally starts with the program name.
//
// If the calling goroutine has locked the operating system thread
// with runtime.LockOSThread and modified any inheritable OS-level
// thread state (for example, Linux or Plan 9 name spaces), the new
// process will inherit the caller's thread state.
//
// StartProcess is a low-level interface. The os/exec package provides
// higher-level interfaces.
//
// If there is an error, it will be of type *PathError.
func StartProcess(name string, argv []string, attr *ProcAttr) (*Process, error) {
return startProcess(name, argv, attr)
}
// Release releases any resources associated with the Process p,
// rendering it unusable in the future.
// Release only needs to be called if Wait is not.
func (p *Process) Release() error {
return p.release()
}
// Kill causes the Process to exit immediately. Kill does not wait until
// the Process has actually exited. This only kills the Process itself,
// not any other processes it may have started.
func (p *Process) Kill() error {
return p.kill()
}
// Wait waits for the Process to exit, and then returns a
// ProcessState describing its status and an error, if any.
// Wait releases any resources associated with the Process.
// On most operating systems, the Process must be a child
// of the current process or an error will be returned.
func (p *Process) Wait() (*ProcessState, error) {
return p.wait()
}
// Signal sends a signal to the Process.
// Sending Interrupt on Windows is not implemented.
func (p *Process) Signal(sig Signal) error {
return p.signal(sig)
}
// UserTime returns the user CPU time of the exited process and its children.
func (p *ProcessState) UserTime() time.Duration {
return p.userTime()
}
// SystemTime returns the system CPU time of the exited process and its children.
func (p *ProcessState) SystemTime() time.Duration {
return p.systemTime()
}
// Exited reports whether the program has exited.
// On Unix systems this reports true if the program exited due to calling exit,
// but false if the program terminated due to a signal.
func (p *ProcessState) Exited() bool {
return p.exited()
}
// Success reports whether the program exited successfully,
// such as with exit status 0 on Unix.
func (p *ProcessState) Success() bool {
return p.success()
}
// Sys returns system-dependent exit information about
// the process. Convert it to the appropriate underlying
// type, such as syscall.WaitStatus on Unix, to access its contents.
func (p *ProcessState) Sys() any {
return p.sys()
}
// SysUsage returns system-dependent resource usage information about
// the exited process. Convert it to the appropriate underlying
// type, such as *syscall.Rusage on Unix, to access its contents.
// (On Unix, *syscall.Rusage matches struct rusage as defined in the
// getrusage(2) manual page.)
func (p *ProcessState) SysUsage() any {
return p.sysUsage()
}

1238
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66
internal/lib/os/exec/lp_plan9.go Normal file
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@@ -0,0 +1,66 @@
// 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 exec
import (
"errors"
"io/fs"
"os"
"path/filepath"
"strings"
)
// ErrNotFound is the error resulting if a path search failed to find an executable file.
var ErrNotFound = errors.New("executable file not found in $path")
func findExecutable(file string) error {
d, err := os.Stat(file)
if err != nil {
return err
}
if m := d.Mode(); !m.IsDir() && m&0111 != 0 {
return nil
}
return fs.ErrPermission
}
// LookPath searches for an executable named file in the
// directories named by the path environment variable.
// If file begins with "/", "#", "./", or "../", it is tried
// directly and the path is not consulted.
// On success, the result is an absolute path.
//
// In older versions of Go, LookPath could return a path relative to the current directory.
// As of Go 1.19, LookPath will instead return that path along with an error satisfying
// errors.Is(err, ErrDot). See the package documentation for more details.
func LookPath(file string) (string, error) {
// skip the path lookup for these prefixes
skip := []string{"/", "#", "./", "../"}
for _, p := range skip {
if strings.HasPrefix(file, p) {
err := findExecutable(file)
if err == nil {
return file, nil
}
return "", &Error{file, err}
}
}
path := os.Getenv("path")
for _, dir := range filepath.SplitList(path) {
path := filepath.Join(dir, file)
if err := findExecutable(path); err == nil {
if !filepath.IsAbs(path) {
if execerrdot.Value() != "0" {
return path, &Error{file, ErrDot}
}
execerrdot.IncNonDefault()
}
return path, nil
}
}
return "", &Error{file, ErrNotFound}
}

84
internal/lib/os/exec/lp_unix.go Normal file
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@@ -0,0 +1,84 @@
// Copyright 2010 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.
//go:build unix
package exec
import (
"errors"
"io/fs"
"os"
"path/filepath"
"strings"
"syscall"
)
// ErrNotFound is the error resulting if a path search failed to find an executable file.
var ErrNotFound = errors.New("executable file not found in $PATH")
func findExecutable(file string) error {
d, err := os.Stat(file)
if err != nil {
return err
}
m := d.Mode()
if m.IsDir() {
return syscall.EISDIR
}
err = unixEaccess(file, unix_X_OK)
// ENOSYS means Eaccess is not available or not implemented.
// EPERM can be returned by Linux containers employing seccomp.
// In both cases, fall back to checking the permission bits.
if err == nil || (err != syscall.ENOSYS && err != syscall.EPERM) {
return err
}
if m&0111 != 0 {
return nil
}
return fs.ErrPermission
}
// LookPath searches for an executable named file in the
// directories named by the PATH environment variable.
// If file contains a slash, it is tried directly and the PATH is not consulted.
// Otherwise, on success, the result is an absolute path.
//
// In older versions of Go, LookPath could return a path relative to the current directory.
// As of Go 1.19, LookPath will instead return that path along with an error satisfying
// errors.Is(err, ErrDot). See the package documentation for more details.
func LookPath(file string) (string, error) {
// NOTE(rsc): I wish we could use the Plan 9 behavior here
// (only bypass the path if file begins with / or ./ or ../)
// but that would not match all the Unix shells.
if strings.Contains(file, "/") {
err := findExecutable(file)
if err == nil {
return file, nil
}
return "", &Error{file, err}
}
path := os.Getenv("PATH")
for _, dir := range filepath.SplitList(path) {
if dir == "" {
// Unix shell semantics: path element "" means "."
dir = "."
}
path := filepath.Join(dir, file)
if err := findExecutable(path); err == nil {
if !filepath.IsAbs(path) {
/* TODO(xsw):
if execerrdot.Value() != "0" {
return path, &Error{file, ErrDot}
}
execerrdot.IncNonDefault()
*/
panic("todo: exec.LookPath: !filepath.IsAbs(path)")
}
return path, nil
}
}
return "", &Error{file, ErrNotFound}
}

23
internal/lib/os/exec/lp_wasm.go Normal file
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@@ -0,0 +1,23 @@
// Copyright 2018 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.
//go:build wasm
package exec
import (
"errors"
)
// ErrNotFound is the error resulting if a path search failed to find an executable file.
var ErrNotFound = errors.New("executable file not found in $PATH")
// LookPath searches for an executable named file in the
// directories named by the PATH environment variable.
// If file contains a slash, it is tried directly and the PATH is not consulted.
// The result may be an absolute path or a path relative to the current directory.
func LookPath(file string) (string, error) {
// Wasm can not execute processes, so act as if there are no executables at all.
return "", &Error{file, ErrNotFound}
}

145
internal/lib/os/exec/lp_windows.go Normal file
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@@ -0,0 +1,145 @@
// Copyright 2010 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 exec
import (
"errors"
"io/fs"
"os"
"path/filepath"
"strings"
"syscall"
)
// ErrNotFound is the error resulting if a path search failed to find an executable file.
var ErrNotFound = errors.New("executable file not found in %PATH%")
func chkStat(file string) error {
d, err := os.Stat(file)
if err != nil {
return err
}
if d.IsDir() {
return fs.ErrPermission
}
return nil
}
func hasExt(file string) bool {
i := strings.LastIndex(file, ".")
if i < 0 {
return false
}
return strings.LastIndexAny(file, `:\/`) < i
}
func findExecutable(file string, exts []string) (string, error) {
if len(exts) == 0 {
return file, chkStat(file)
}
if hasExt(file) {
if chkStat(file) == nil {
return file, nil
}
}
for _, e := range exts {
if f := file + e; chkStat(f) == nil {
return f, nil
}
}
return "", fs.ErrNotExist
}
// LookPath searches for an executable named file in the
// directories named by the PATH environment variable.
// LookPath also uses PATHEXT environment variable to match
// a suitable candidate.
// If file contains a slash, it is tried directly and the PATH is not consulted.
// Otherwise, on success, the result is an absolute path.
//
// In older versions of Go, LookPath could return a path relative to the current directory.
// As of Go 1.19, LookPath will instead return that path along with an error satisfying
// errors.Is(err, ErrDot). See the package documentation for more details.
func LookPath(file string) (string, error) {
var exts []string
x := os.Getenv(`PATHEXT`)
if x != "" {
for _, e := range strings.Split(strings.ToLower(x), `;`) {
if e == "" {
continue
}
if e[0] != '.' {
e = "." + e
}
exts = append(exts, e)
}
} else {
exts = []string{".com", ".exe", ".bat", ".cmd"}
}
if strings.ContainsAny(file, `:\/`) {
f, err := findExecutable(file, exts)
if err == nil {
return f, nil
}
return "", &Error{file, err}
}
// On Windows, creating the NoDefaultCurrentDirectoryInExePath
// environment variable (with any value or no value!) signals that
// path lookups should skip the current directory.
// In theory we are supposed to call NeedCurrentDirectoryForExePathW
// "as the registry location of this environment variable can change"
// but that seems exceedingly unlikely: it would break all users who
// have configured their environment this way!
// https://docs.microsoft.com/en-us/windows/win32/api/processenv/nf-processenv-needcurrentdirectoryforexepathw
// See also go.dev/issue/43947.
var (
dotf string
dotErr error
)
if _, found := syscall.Getenv("NoDefaultCurrentDirectoryInExePath"); !found {
if f, err := findExecutable(filepath.Join(".", file), exts); err == nil {
if execerrdot.Value() == "0" {
execerrdot.IncNonDefault()
return f, nil
}
dotf, dotErr = f, &Error{file, ErrDot}
}
}
path := os.Getenv("path")
for _, dir := range filepath.SplitList(path) {
if f, err := findExecutable(filepath.Join(dir, file), exts); err == nil {
if dotErr != nil {
// https://go.dev/issue/53536: if we resolved a relative path implicitly,
// and it is the same executable that would be resolved from the explicit %PATH%,
// prefer the explicit name for the executable (and, likely, no error) instead
// of the equivalent implicit name with ErrDot.
//
// Otherwise, return the ErrDot for the implicit path as soon as we find
// out that the explicit one doesn't match.
dotfi, dotfiErr := os.Lstat(dotf)
fi, fiErr := os.Lstat(f)
if dotfiErr != nil || fiErr != nil || !os.SameFile(dotfi, fi) {
return dotf, dotErr
}
}
if !filepath.IsAbs(f) {
if execerrdot.Value() != "0" {
return f, &Error{file, ErrDot}
}
execerrdot.IncNonDefault()
}
return f, nil
}
}
if dotErr != nil {
return dotf, dotErr
}
return "", &Error{file, ErrNotFound}
}

13
internal/lib/os/exec/unix_constants.go Normal file
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@@ -0,0 +1,13 @@
// Copyright 2022 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.
//go:build unix
package exec
const (
unix_R_OK = 0x4
unix_W_OK = 0x2
unix_X_OK = 0x1
)

15
internal/lib/os/exec/unix_eaccess_linux.go Normal file
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@@ -0,0 +1,15 @@
// Copyright 2022 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 exec
import (
"syscall"
"github.com/goplus/llgo/c/syscall/unix"
)
func unixEaccess(path string, mode uint32) error {
return syscall.Faccessat(unix.AT_FDCWD, path, mode, unix.AT_EACCESS)
}

13
internal/lib/os/exec/unix_eaccess_other.go Normal file
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@@ -0,0 +1,13 @@
// Copyright 2022 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.
//go:build unix && !linux
package exec
import "syscall"
func unixEaccess(path string, mode uint32) error {
return syscall.ENOSYS
}

149
internal/lib/os/exec_plan9.go Normal file
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@@ -0,0 +1,149 @@
// 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 (
"internal/itoa"
"runtime"
"syscall"
"time"
)
// The only signal values guaranteed to be present in the os package
// on all systems are Interrupt (send the process an interrupt) and
// Kill (force the process to exit). Interrupt is not implemented on
// Windows; using it with os.Process.Signal will return an error.
var (
Interrupt Signal = syscall.Note("interrupt")
Kill Signal = syscall.Note("kill")
)
func startProcess(name string, argv []string, attr *ProcAttr) (p *Process, err error) {
sysattr := &syscall.ProcAttr{
Dir: attr.Dir,
Env: attr.Env,
Sys: attr.Sys,
}
sysattr.Files = make([]uintptr, 0, len(attr.Files))
for _, f := range attr.Files {
sysattr.Files = append(sysattr.Files, f.Fd())
}
pid, h, e := syscall.StartProcess(name, argv, sysattr)
if e != nil {
return nil, &PathError{Op: "fork/exec", Path: name, Err: e}
}
return newProcess(pid, h), nil
}
func (p *Process) writeProcFile(file string, data string) error {
f, e := OpenFile("/proc/"+itoa.Itoa(p.Pid)+"/"+file, O_WRONLY, 0)
if e != nil {
return e
}
defer f.Close()
_, e = f.Write([]byte(data))
return e
}
func (p *Process) signal(sig Signal) error {
if p.done() {
return ErrProcessDone
}
if e := p.writeProcFile("note", sig.String()); e != nil {
return NewSyscallError("signal", e)
}
return nil
}
func (p *Process) kill() error {
return p.signal(Kill)
}
func (p *Process) wait() (ps *ProcessState, err error) {
var waitmsg syscall.Waitmsg
if p.Pid == -1 {
return nil, ErrInvalid
}
err = syscall.WaitProcess(p.Pid, &waitmsg)
if err != nil {
return nil, NewSyscallError("wait", err)
}
p.setDone()
ps = &ProcessState{
pid: waitmsg.Pid,
status: &waitmsg,
}
return ps, nil
}
func (p *Process) release() error {
// NOOP for Plan 9.
p.Pid = -1
// no need for a finalizer anymore
runtime.SetFinalizer(p, nil)
return nil
}
func findProcess(pid int) (p *Process, err error) {
// NOOP for Plan 9.
return newProcess(pid, 0), nil
}
// ProcessState stores information about a process, as reported by Wait.
type ProcessState struct {
pid int // The process's id.
status *syscall.Waitmsg // System-dependent status info.
}
// Pid returns the process id of the exited process.
func (p *ProcessState) Pid() int {
return p.pid
}
func (p *ProcessState) exited() bool {
return p.status.Exited()
}
func (p *ProcessState) success() bool {
return p.status.ExitStatus() == 0
}
func (p *ProcessState) sys() any {
return p.status
}
func (p *ProcessState) sysUsage() any {
return p.status
}
func (p *ProcessState) userTime() time.Duration {
return time.Duration(p.status.Time[0]) * time.Millisecond
}
func (p *ProcessState) systemTime() time.Duration {
return time.Duration(p.status.Time[1]) * time.Millisecond
}
func (p *ProcessState) String() string {
if p == nil {
return "<nil>"
}
return "exit status: " + p.status.Msg
}
// ExitCode returns the exit code of the exited process, or -1
// if the process hasn't exited or was terminated by a signal.
func (p *ProcessState) ExitCode() int {
// return -1 if the process hasn't started.
if p == nil {
return -1
}
return p.status.ExitStatus()
}

139
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// 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.
//go:build unix || (js && wasm) || wasip1 || windows
package os
import (
"syscall"
"github.com/goplus/llgo/internal/lib/internal/syscall/execenv"
)
// The only signal values guaranteed to be present in the os package on all
// systems are os.Interrupt (send the process an interrupt) and os.Kill (force
// the process to exit). On Windows, sending os.Interrupt to a process with
// os.Process.Signal is not implemented; it will return an error instead of
// sending a signal.
var (
Interrupt Signal = syscall.SIGINT
Kill Signal = syscall.SIGKILL
)
func startProcess(name string, argv []string, attr *ProcAttr) (p *Process, err error) {
// If there is no SysProcAttr (ie. no Chroot or changed
// UID/GID), double-check existence of the directory we want
// to chdir into. We can make the error clearer this way.
if attr != nil && attr.Sys == nil && attr.Dir != "" {
if _, err := Stat(attr.Dir); err != nil {
pe := err.(*PathError)
pe.Op = "chdir"
return nil, pe
}
}
sysattr := &syscall.ProcAttr{
Dir: attr.Dir,
Env: attr.Env,
Sys: attr.Sys,
}
if sysattr.Env == nil {
sysattr.Env, err = execenv.Default(sysattr.Sys)
if err != nil {
return nil, err
}
}
sysattr.Files = make([]uintptr, 0, len(attr.Files))
for _, f := range attr.Files {
sysattr.Files = append(sysattr.Files, f.Fd())
}
pid, h, e := syscall.StartProcess(name, argv, sysattr)
// TODO(xsw):
// Make sure we don't run the finalizers of attr.Files.
// runtime.KeepAlive(attr)
if e != nil {
return nil, &PathError{Op: "fork/exec", Path: name, Err: e}
}
return newProcess(pid, h), nil
}
func (p *Process) kill() error {
return p.Signal(Kill)
}
// ProcessState stores information about a process, as reported by Wait.
type ProcessState struct {
pid int // The process's id.
status syscall.WaitStatus // System-dependent status info.
rusage *syscall.Rusage
}
// Pid returns the process id of the exited process.
func (p *ProcessState) Pid() int {
return p.pid
}
func (p *ProcessState) exited() bool {
return p.status.Exited()
}
func (p *ProcessState) success() bool {
return p.status.ExitStatus() == 0
}
func (p *ProcessState) sys() any {
return p.status
}
func (p *ProcessState) sysUsage() any {
return p.rusage
}
func (p *ProcessState) String() string {
/* TODO(xsw):
if p == nil {
return "<nil>"
}
status := p.Sys().(syscall.WaitStatus)
res := ""
switch {
case status.Exited():
code := status.ExitStatus()
if runtime.GOOS == "windows" && uint(code) >= 1<<16 { // windows uses large hex numbers
res = "exit status " + uitox(uint(code))
} else { // unix systems use small decimal integers
res = "exit status " + itoa.Itoa(code) // unix
}
case status.Signaled():
res = "signal: " + status.Signal().String()
case status.Stopped():
res = "stop signal: " + status.StopSignal().String()
if status.StopSignal() == syscall.SIGTRAP && status.TrapCause() != 0 {
res += " (trap " + itoa.Itoa(status.TrapCause()) + ")"
}
case status.Continued():
res = "continued"
}
if status.CoreDump() {
res += " (core dumped)"
}
return res
*/
panic("todo: os.ProcessState.String")
}
// ExitCode returns the exit code of the exited process, or -1
// if the process hasn't exited or was terminated by a signal.
func (p *ProcessState) ExitCode() int {
// return -1 if the process hasn't started.
if p == nil {
return -1
}
return p.status.ExitStatus()
}

109
internal/lib/os/exec_unix.go Normal file
View File

@@ -0,0 +1,109 @@
// 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.
//go:build unix || (js && wasm) || wasip1
package os
import (
"errors"
"runtime"
"syscall"
"time"
)
func (p *Process) wait() (ps *ProcessState, err error) {
/* TODO(xsw):
if p.Pid == -1 {
return nil, syscall.EINVAL
}
// If we can block until Wait4 will succeed immediately, do so.
ready, err := p.blockUntilWaitable()
if err != nil {
return nil, err
}
if ready {
// Mark the process done now, before the call to Wait4,
// so that Process.signal will not send a signal.
p.setDone()
// Acquire a write lock on sigMu to wait for any
// active call to the signal method to complete.
p.sigMu.Lock()
p.sigMu.Unlock()
}
var (
status syscall.WaitStatus
rusage syscall.Rusage
pid1 int
e error
)
for {
pid1, e = syscall.Wait4(p.Pid, &status, 0, &rusage)
if e != syscall.EINTR {
break
}
}
if e != nil {
return nil, NewSyscallError("wait", e)
}
if pid1 != 0 {
p.setDone()
}
ps = &ProcessState{
pid: pid1,
status: status,
rusage: &rusage,
}
return ps, nil
*/
panic("todo: os.Process.wait")
}
func (p *Process) signal(sig Signal) error {
if p.Pid == -1 {
return errors.New("os: process already released")
}
if p.Pid == 0 {
return errors.New("os: process not initialized")
}
p.sigMu.RLock()
defer p.sigMu.RUnlock()
if p.done() {
return ErrProcessDone
}
s, ok := sig.(syscall.Signal)
if !ok {
return errors.New("os: unsupported signal type")
}
if e := syscall.Kill(p.Pid, s); e != nil {
if e == syscall.ESRCH {
return ErrProcessDone
}
return e
}
return nil
}
func (p *Process) release() error {
// NOOP for unix.
p.Pid = -1
// no need for a finalizer anymore
runtime.SetFinalizer(p, nil)
return nil
}
func findProcess(pid int) (p *Process, err error) {
// NOOP for unix.
return newProcess(pid, 0), nil
}
func (p *ProcessState) userTime() time.Duration {
return time.Duration(p.rusage.Utime.Nano()) * time.Nanosecond
}
func (p *ProcessState) systemTime() time.Duration {
return time.Duration(p.rusage.Stime.Nano()) * time.Nanosecond
}

183
internal/lib/os/exec_windows.go Normal file
View File

@@ -0,0 +1,183 @@
// 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 (
"internal/syscall/windows"
"runtime"
"sync/atomic"
"syscall"
"time"
)
func (p *Process) wait() (ps *ProcessState, err error) {
/* TODO(xsw):
handle := atomic.LoadUintptr(&p.handle)
s, e := syscall.WaitForSingleObject(syscall.Handle(handle), syscall.INFINITE)
switch s {
case syscall.WAIT_OBJECT_0:
break
case syscall.WAIT_FAILED:
return nil, NewSyscallError("WaitForSingleObject", e)
default:
return nil, errors.New("os: unexpected result from WaitForSingleObject")
}
var ec uint32
e = syscall.GetExitCodeProcess(syscall.Handle(handle), &ec)
if e != nil {
return nil, NewSyscallError("GetExitCodeProcess", e)
}
var u syscall.Rusage
e = syscall.GetProcessTimes(syscall.Handle(handle), &u.CreationTime, &u.ExitTime, &u.KernelTime, &u.UserTime)
if e != nil {
return nil, NewSyscallError("GetProcessTimes", e)
}
p.setDone()
// NOTE(brainman): It seems that sometimes process is not dead
// when WaitForSingleObject returns. But we do not know any
// other way to wait for it. Sleeping for a while seems to do
// the trick sometimes.
// See https://golang.org/issue/25965 for details.
defer time.Sleep(5 * time.Millisecond)
defer p.Release()
return &ProcessState{p.Pid, syscall.WaitStatus{ExitCode: ec}, &u}, nil
*/
panic("todo: os.Process.wait")
}
func (p *Process) signal(sig Signal) error {
handle := atomic.LoadUintptr(&p.handle)
if handle == uintptr(syscall.InvalidHandle) {
return syscall.EINVAL
}
if p.done() {
return ErrProcessDone
}
if sig == Kill {
var terminationHandle syscall.Handle
e := syscall.DuplicateHandle(^syscall.Handle(0), syscall.Handle(handle), ^syscall.Handle(0), &terminationHandle, syscall.PROCESS_TERMINATE, false, 0)
if e != nil {
return NewSyscallError("DuplicateHandle", e)
}
runtime.KeepAlive(p)
defer syscall.CloseHandle(terminationHandle)
e = syscall.TerminateProcess(syscall.Handle(terminationHandle), 1)
return NewSyscallError("TerminateProcess", e)
}
// TODO(rsc): Handle Interrupt too?
return syscall.Errno(syscall.EWINDOWS)
}
func (p *Process) release() error {
handle := atomic.SwapUintptr(&p.handle, uintptr(syscall.InvalidHandle))
if handle == uintptr(syscall.InvalidHandle) {
return syscall.EINVAL
}
e := syscall.CloseHandle(syscall.Handle(handle))
if e != nil {
return NewSyscallError("CloseHandle", e)
}
// no need for a finalizer anymore
runtime.SetFinalizer(p, nil)
return nil
}
func findProcess(pid int) (p *Process, err error) {
const da = syscall.STANDARD_RIGHTS_READ |
syscall.PROCESS_QUERY_INFORMATION | syscall.SYNCHRONIZE
h, e := syscall.OpenProcess(da, false, uint32(pid))
if e != nil {
return nil, NewSyscallError("OpenProcess", e)
}
return newProcess(pid, uintptr(h)), nil
}
func init() {
cmd := windows.UTF16PtrToString(syscall.GetCommandLine())
if len(cmd) == 0 {
arg0, _ := Executable()
Args = []string{arg0}
} else {
Args = commandLineToArgv(cmd)
}
}
// appendBSBytes appends n '\\' bytes to b and returns the resulting slice.
func appendBSBytes(b []byte, n int) []byte {
for ; n > 0; n-- {
b = append(b, '\\')
}
return b
}
// readNextArg splits command line string cmd into next
// argument and command line remainder.
func readNextArg(cmd string) (arg []byte, rest string) {
var b []byte
var inquote bool
var nslash int
for ; len(cmd) > 0; cmd = cmd[1:] {
c := cmd[0]
switch c {
case ' ', '\t':
if !inquote {
return appendBSBytes(b, nslash), cmd[1:]
}
case '"':
b = appendBSBytes(b, nslash/2)
if nslash%2 == 0 {
// use "Prior to 2008" rule from
// http://daviddeley.com/autohotkey/parameters/parameters.htm
// section 5.2 to deal with double double quotes
if inquote && len(cmd) > 1 && cmd[1] == '"' {
b = append(b, c)
cmd = cmd[1:]
}
inquote = !inquote
} else {
b = append(b, c)
}
nslash = 0
continue
case '\\':
nslash++
continue
}
b = appendBSBytes(b, nslash)
nslash = 0
b = append(b, c)
}
return appendBSBytes(b, nslash), ""
}
// commandLineToArgv splits a command line into individual argument
// strings, following the Windows conventions documented
// at http://daviddeley.com/autohotkey/parameters/parameters.htm#WINARGV
func commandLineToArgv(cmd string) []string {
var args []string
for len(cmd) > 0 {
if cmd[0] == ' ' || cmd[0] == '\t' {
cmd = cmd[1:]
continue
}
var arg []byte
arg, cmd = readNextArg(cmd)
args = append(args, string(arg))
}
return args
}
func ftToDuration(ft *syscall.Filetime) time.Duration {
n := int64(ft.HighDateTime)<<32 + int64(ft.LowDateTime) // in 100-nanosecond intervals
return time.Duration(n*100) * time.Nanosecond
}
func (p *ProcessState) userTime() time.Duration {
return ftToDuration(&p.rusage.UserTime)
}
func (p *ProcessState) systemTime() time.Duration {
return ftToDuration(&p.rusage.KernelTime)
}

3
internal/lib/os/file.go
View File

@@ -217,6 +217,7 @@ func setStickyBit(name string) error {
}
return Chmod(name, fi.Mode()|ModeSticky)
}
*/
// Open opens the named file for reading. If successful, methods on
// the returned file can be used for reading; the associated file
@@ -242,7 +243,6 @@ func Create(name string) (*File, error) {
// methods on the returned File can be used for I/O.
// If there is an error, it will be of type *PathError.
func OpenFile(name string, flag int, perm FileMode) (*File, error) {
testlog.Open(name)
f, err := openFileNolog(name, flag, perm)
if err != nil {
return nil, err
@@ -252,6 +252,7 @@ func OpenFile(name string, flag int, perm FileMode) (*File, error) {
return f, nil
}
/*
// lstat is overridden in tests.
var lstat = Lstat

201
internal/lib/os/file_unix.go Normal file
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@@ -0,0 +1,201 @@
// 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.
//go:build unix || (js && wasm) || wasip1
package os
import (
"runtime"
)
// Fd returns the integer Unix file descriptor referencing the open file.
// If f is closed, the file descriptor becomes invalid.
// If f is garbage collected, a finalizer may close the file descriptor,
// making it invalid; see runtime.SetFinalizer for more information on when
// a finalizer might be run. On Unix systems this will cause the SetDeadline
// methods to stop working.
// Because file descriptors can be reused, the returned file descriptor may
// only be closed through the Close method of f, or by its finalizer during
// garbage collection. Otherwise, during garbage collection the finalizer
// may close an unrelated file descriptor with the same (reused) number.
//
// As an alternative, see the f.SyscallConn method.
func (f *File) Fd() uintptr {
if f == nil {
return ^(uintptr(0))
}
return f.fd
}
// NewFile returns a new File with the given file descriptor and
// name. The returned value will be nil if fd is not a valid file
// descriptor. On Unix systems, if the file descriptor is in
// non-blocking mode, NewFile will attempt to return a pollable File
// (one for which the SetDeadline methods work).
//
// After passing it to NewFile, fd may become invalid under the same
// conditions described in the comments of the Fd method, and the same
// constraints apply.
func NewFile(fd uintptr, name string) *File {
return &File{fd: fd, name: name}
}
/* TODO(xsw):
// NewFile returns a new File with the given file descriptor and
// name. The returned value will be nil if fd is not a valid file
// descriptor. On Unix systems, if the file descriptor is in
// non-blocking mode, NewFile will attempt to return a pollable File
// (one for which the SetDeadline methods work).
//
// After passing it to NewFile, fd may become invalid under the same
// conditions described in the comments of the Fd method, and the same
// constraints apply.
func NewFile(fd uintptr, name string) *File {
fdi := int(fd)
if fdi < 0 {
return nil
}
kind := kindNewFile
appendMode := false
if flags, err := unix.Fcntl(fdi, syscall.F_GETFL, 0); err == nil {
if unix.HasNonblockFlag(flags) {
kind = kindNonBlock
}
appendMode = flags&syscall.O_APPEND != 0
}
f := newFile(fdi, name, kind)
f.appendMode = appendMode
return f
}
// net_newUnixFile is a hidden entry point called by net.conn.File.
// This is used so that a nonblocking network connection will become
// blocking if code calls the Fd method. We don't want that for direct
// calls to NewFile: passing a nonblocking descriptor to NewFile should
// remain nonblocking if you get it back using Fd. But for net.conn.File
// the call to NewFile is hidden from the user. Historically in that case
// the Fd method has returned a blocking descriptor, and we want to
// retain that behavior because existing code expects it and depends on it.
//
//-go:linkname net_newUnixFile net.newUnixFile
func net_newUnixFile(fd int, name string) *File {
if fd < 0 {
panic("invalid FD")
}
f := newFile(fd, name, kindNonBlock)
f.nonblock = true // tell Fd to return blocking descriptor
return f
}
*/
// newFileKind describes the kind of file to newFile.
type newFileKind int
const (
// kindNewFile means that the descriptor was passed to us via NewFile.
kindNewFile newFileKind = iota
// kindOpenFile means that the descriptor was opened using
// Open, Create, or OpenFile (without O_NONBLOCK).
kindOpenFile
// kindPipe means that the descriptor was opened using Pipe.
kindPipe
// kindNonBlock means that the descriptor is already in
// non-blocking mode.
kindNonBlock
// kindNoPoll means that we should not put the descriptor into
// non-blocking mode, because we know it is not a pipe or FIFO.
// Used by openFdAt for directories.
kindNoPoll
)
// TODO(xsw):
// func sigpipe() // implemented in package runtime
// epipecheck raises SIGPIPE if we get an EPIPE error on standard
// output or standard error. See the SIGPIPE docs in os/signal, and
// issue 11845.
func epipecheck(file *File, e error) {
/* TODO(xsw):
if e == syscall.EPIPE && file.stdoutOrErr {
sigpipe()
}
*/
panic("todo: os.epipecheck")
}
// 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"
// openFileNolog is the Unix implementation of OpenFile.
// Changes here should be reflected in openFdAt, if relevant.
func openFileNolog(name string, flag int, perm FileMode) (*File, error) {
panic("todo: os.openFileNolog")
}
func tempDir() string {
dir := Getenv("TMPDIR")
if dir == "" {
if runtime.GOOS == "android" {
dir = "/data/local/tmp"
} else {
dir = "/tmp"
}
}
return dir
}
type unixDirent struct {
parent string
name string
typ FileMode
info FileInfo
}
func (d *unixDirent) Name() string { return d.name }
func (d *unixDirent) IsDir() bool { return d.typ.IsDir() }
func (d *unixDirent) Type() FileMode { return d.typ }
func (d *unixDirent) Info() (FileInfo, error) {
/* TODO(xsw):
if d.info != nil {
return d.info, nil
}
return lstat(d.parent + "/" + d.name)
*/
panic("todo: os.unixDirent.Info")
}
func (d *unixDirent) String() string {
/* TODO(xsw):
return fs.FormatDirEntry(d)
*/
panic("todo: os.unixDirent.String")
}
/* TODO(xsw):
func newUnixDirent(parent, name string, typ FileMode) (DirEntry, error) {
ude := &unixDirent{
parent: parent,
name: name,
typ: typ,
}
if typ != ^FileMode(0) && !testingForceReadDirLstat {
return ude, nil
}
info, err := lstat(parent + "/" + name)
if err != nil {
return nil, err
}
ude.typ = info.Mode().Type()
ude.info = info
return ude, nil
}
*/

12
internal/lib/os/os.go
View File

@@ -147,7 +147,11 @@ func Clearenv()
// TODO(xsw):
// func DirFS(dir string) fs.FS
// func Environ() []string
func Environ() []string {
panic("todo: os.Environ")
}
// func Executable() (string, error)
func Exit(code int) {
@@ -202,7 +206,6 @@ func Getwd() (dir string, err error) {
// func Hostname() (name string, err error)
// func IsExist(err error) bool
// func IsNotExist(err error) bool
// func IsPathSeparator(c uint8) bool
// func IsPermission(err error) bool
// func IsTimeout(err error) bool
@@ -283,7 +286,10 @@ func Mkdir(name string, perm FileMode) error {
// func MkdirAll(path string, perm FileMode) error
// func MkdirTemp(dir, pattern string) (string, error)
// func NewSyscallError(syscall string, err error) error
// func Pipe() (r *File, w *File, err error)
func Pipe() (r *File, w *File, err error) {
panic("todo: os.Pipe")
}
// func ReadFile(name string) ([]byte, error)
func Readlink(name string) (string, error) {

19
internal/lib/os/path_plan9.go Normal file
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@@ -0,0 +1,19 @@
// 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
const (
PathSeparator = '/' // OS-specific path separator
PathListSeparator = '\000' // OS-specific path list separator
)
// IsPathSeparator reports whether c is a directory separator character.
func IsPathSeparator(c uint8) bool {
return PathSeparator == c
}
func fixRootDirectory(p string) string {
return p
}

75
internal/lib/os/path_unix.go Normal file
View File

@@ -0,0 +1,75 @@
// 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.
//go:build unix || (js && wasm) || wasip1
package os
const (
PathSeparator = '/' // OS-specific path separator
PathListSeparator = ':' // OS-specific path list separator
)
// IsPathSeparator reports whether c is a directory separator character.
func IsPathSeparator(c uint8) bool {
return PathSeparator == c
}
// basename removes trailing slashes and the leading directory name from path name.
func basename(name string) string {
i := len(name) - 1
// Remove trailing slashes
for ; i > 0 && name[i] == '/'; i-- {
name = name[:i]
}
// Remove leading directory name
for i--; i >= 0; i-- {
if name[i] == '/' {
name = name[i+1:]
break
}
}
return name
}
// splitPath returns the base name and parent directory.
func splitPath(path string) (string, string) {
// if no better parent is found, the path is relative from "here"
dirname := "."
// Remove all but one leading slash.
for len(path) > 1 && path[0] == '/' && path[1] == '/' {
path = path[1:]
}
i := len(path) - 1
// Remove trailing slashes.
for ; i > 0 && path[i] == '/'; i-- {
path = path[:i]
}
// if no slashes in path, base is path
basename := path
// Remove leading directory path
for i--; i >= 0; i-- {
if path[i] == '/' {
if i == 0 {
dirname = path[:1]
} else {
dirname = path[:i]
}
basename = path[i+1:]
break
}
}
return dirname, basename
}
func fixRootDirectory(p string) string {
return p
}

227
internal/lib/os/path_windows.go Normal file
View File

@@ -0,0 +1,227 @@
// 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
const (
PathSeparator = '\\' // OS-specific path separator
PathListSeparator = ';' // OS-specific path list separator
)
// IsPathSeparator reports whether c is a directory separator character.
func IsPathSeparator(c uint8) bool {
// NOTE: Windows accepts / as path separator.
return c == '\\' || c == '/'
}
// basename removes trailing slashes and the leading
// directory name and drive letter from path name.
func basename(name string) string {
// Remove drive letter
if len(name) == 2 && name[1] == ':' {
name = "."
} else if len(name) > 2 && name[1] == ':' {
name = name[2:]
}
i := len(name) - 1
// Remove trailing slashes
for ; i > 0 && (name[i] == '/' || name[i] == '\\'); i-- {
name = name[:i]
}
// Remove leading directory name
for i--; i >= 0; i-- {
if name[i] == '/' || name[i] == '\\' {
name = name[i+1:]
break
}
}
return name
}
func isAbs(path string) (b bool) {
v := volumeName(path)
if v == "" {
return false
}
path = path[len(v):]
if path == "" {
return false
}
return IsPathSeparator(path[0])
}
func volumeName(path string) (v string) {
if len(path) < 2 {
return ""
}
// with drive letter
c := path[0]
if path[1] == ':' &&
('0' <= c && c <= '9' || 'a' <= c && c <= 'z' ||
'A' <= c && c <= 'Z') {
return path[:2]
}
// is it UNC
if l := len(path); l >= 5 && IsPathSeparator(path[0]) && IsPathSeparator(path[1]) &&
!IsPathSeparator(path[2]) && path[2] != '.' {
// first, leading `\\` and next shouldn't be `\`. its server name.
for n := 3; n < l-1; n++ {
// second, next '\' shouldn't be repeated.
if IsPathSeparator(path[n]) {
n++
// third, following something characters. its share name.
if !IsPathSeparator(path[n]) {
if path[n] == '.' {
break
}
for ; n < l; n++ {
if IsPathSeparator(path[n]) {
break
}
}
return path[:n]
}
break
}
}
}
return ""
}
func fromSlash(path string) string {
// Replace each '/' with '\\' if present
var pathbuf []byte
var lastSlash int
for i, b := range path {
if b == '/' {
if pathbuf == nil {
pathbuf = make([]byte, len(path))
}
copy(pathbuf[lastSlash:], path[lastSlash:i])
pathbuf[i] = '\\'
lastSlash = i + 1
}
}
if pathbuf == nil {
return path
}
copy(pathbuf[lastSlash:], path[lastSlash:])
return string(pathbuf)
}
func dirname(path string) string {
vol := volumeName(path)
i := len(path) - 1
for i >= len(vol) && !IsPathSeparator(path[i]) {
i--
}
dir := path[len(vol) : i+1]
last := len(dir) - 1
if last > 0 && IsPathSeparator(dir[last]) {
dir = dir[:last]
}
if dir == "" {
dir = "."
}
return vol + dir
}
// This is set via go:linkname on runtime.canUseLongPaths, and is true when the OS
// supports opting into proper long path handling without the need for fixups.
var canUseLongPaths bool
// fixLongPath returns the extended-length (\\?\-prefixed) form of
// path when needed, in order to avoid the default 260 character file
// path limit imposed by Windows. If path is not easily converted to
// the extended-length form (for example, if path is a relative path
// or contains .. elements), or is short enough, fixLongPath returns
// path unmodified.
//
// See https://msdn.microsoft.com/en-us/library/windows/desktop/aa365247(v=vs.85).aspx#maxpath
func fixLongPath(path string) string {
if canUseLongPaths {
return path
}
// Do nothing (and don't allocate) if the path is "short".
// Empirically (at least on the Windows Server 2013 builder),
// the kernel is arbitrarily okay with < 248 bytes. That
// matches what the docs above say:
// "When using an API to create a directory, the specified
// path cannot be so long that you cannot append an 8.3 file
// name (that is, the directory name cannot exceed MAX_PATH
// minus 12)." Since MAX_PATH is 260, 260 - 12 = 248.
//
// The MSDN docs appear to say that a normal path that is 248 bytes long
// will work; empirically the path must be less then 248 bytes long.
if len(path) < 248 {
// Don't fix. (This is how Go 1.7 and earlier worked,
// not automatically generating the \\?\ form)
return path
}
// The extended form begins with \\?\, as in
// \\?\c:\windows\foo.txt or \\?\UNC\server\share\foo.txt.
// The extended form disables evaluation of . and .. path
// elements and disables the interpretation of / as equivalent
// to \. The conversion here rewrites / to \ and elides
// . elements as well as trailing or duplicate separators. For
// simplicity it avoids the conversion entirely for relative
// paths or paths containing .. elements. For now,
// \\server\share paths are not converted to
// \\?\UNC\server\share paths because the rules for doing so
// are less well-specified.
if len(path) >= 2 && path[:2] == `\\` {
// Don't canonicalize UNC paths.
return path
}
if !isAbs(path) {
// Relative path
return path
}
const prefix = `\\?`
pathbuf := make([]byte, len(prefix)+len(path)+len(`\`))
copy(pathbuf, prefix)
n := len(path)
r, w := 0, len(prefix)
for r < n {
switch {
case IsPathSeparator(path[r]):
// empty block
r++
case path[r] == '.' && (r+1 == n || IsPathSeparator(path[r+1])):
// /./
r++
case r+1 < n && path[r] == '.' && path[r+1] == '.' && (r+2 == n || IsPathSeparator(path[r+2])):
// /../ is currently unhandled
return path
default:
pathbuf[w] = '\\'
w++
for ; r < n && !IsPathSeparator(path[r]); r++ {
pathbuf[w] = path[r]
w++
}
}
}
// A drive's root directory needs a trailing \
if w == len(`\\?\c:`) {
pathbuf[w] = '\\'
w++
}
return string(pathbuf[:w])
}
// fixRootDirectory fixes a reference to a drive's root directory to
// have the required trailing slash.
func fixRootDirectory(p string) string {
if len(p) == len(`\\?\c:`) {
if IsPathSeparator(p[0]) && IsPathSeparator(p[1]) && p[2] == '?' && IsPathSeparator(p[3]) && p[5] == ':' {
return p + `\`
}
}
return p
}

19
internal/lib/os/stat.go Normal file
View File

@@ -0,0 +1,19 @@
// Copyright 2017 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
// Stat returns a FileInfo describing the named file.
// If there is an error, it will be of type *PathError.
func Stat(name string) (FileInfo, error) {
return statNolog(name)
}
// Lstat returns a FileInfo describing the named file.
// If the file is a symbolic link, the returned FileInfo
// describes the symbolic link. Lstat makes no attempt to follow the link.
// If there is an error, it will be of type *PathError.
func Lstat(name string) (FileInfo, error) {
return lstatNolog(name)
}

42
internal/lib/os/stat_darwin.go Normal file
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@@ -0,0 +1,42 @@
// 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"
"time"
)
func fillFileStatFromSys(fs *fileStat, name string) {
fs.name = basename(name)
fs.size = fs.sys.Size
fs.modTime = time.Unix(fs.sys.Mtimespec.Unix())
fs.mode = FileMode(fs.sys.Mode & 0777)
switch fs.sys.Mode & syscall.S_IFMT {
case syscall.S_IFBLK, syscall.S_IFWHT:
fs.mode |= ModeDevice
case syscall.S_IFCHR:
fs.mode |= ModeDevice | ModeCharDevice
case syscall.S_IFDIR:
fs.mode |= ModeDir
case syscall.S_IFIFO:
fs.mode |= ModeNamedPipe
case syscall.S_IFLNK:
fs.mode |= ModeSymlink
case syscall.S_IFREG:
// nothing to do
case syscall.S_IFSOCK:
fs.mode |= ModeSocket
}
if fs.sys.Mode&syscall.S_ISGID != 0 {
fs.mode |= ModeSetgid
}
if fs.sys.Mode&syscall.S_ISUID != 0 {
fs.mode |= ModeSetuid
}
if fs.sys.Mode&syscall.S_ISVTX != 0 {
fs.mode |= ModeSticky
}
}

42
internal/lib/os/stat_linux.go Normal file
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@@ -0,0 +1,42 @@
// 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"
"time"
)
func fillFileStatFromSys(fs *fileStat, name string) {
fs.name = basename(name)
fs.size = fs.sys.Size
fs.modTime = time.Unix(fs.sys.Mtim.Unix())
fs.mode = FileMode(fs.sys.Mode & 0777)
switch fs.sys.Mode & syscall.S_IFMT {
case syscall.S_IFBLK:
fs.mode |= ModeDevice
case syscall.S_IFCHR:
fs.mode |= ModeDevice | ModeCharDevice
case syscall.S_IFDIR:
fs.mode |= ModeDir
case syscall.S_IFIFO:
fs.mode |= ModeNamedPipe
case syscall.S_IFLNK:
fs.mode |= ModeSymlink
case syscall.S_IFREG:
// nothing to do
case syscall.S_IFSOCK:
fs.mode |= ModeSocket
}
if fs.sys.Mode&syscall.S_ISGID != 0 {
fs.mode |= ModeSetgid
}
if fs.sys.Mode&syscall.S_ISUID != 0 {
fs.mode |= ModeSetuid
}
if fs.sys.Mode&syscall.S_ISVTX != 0 {
fs.mode |= ModeSticky
}
}

53
internal/lib/os/stat_unix.go Normal file
View File

@@ -0,0 +1,53 @@
// Copyright 2016 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.
//go:build unix || (js && wasm) || wasip1
package os
import "syscall"
// Stat returns the FileInfo structure describing file.
// If there is an error, it will be of type *PathError.
func (f *File) Stat() (FileInfo, error) {
/* TODO(xsw):
if f == nil {
return nil, ErrInvalid
}
var fs fileStat
err := os.Fstat(c.Int(f.fd), &fs.sys)
if err != 0 {
return nil, &PathError{Op: "stat", Path: f.name, Err: syscall.Errno(err)}
}
fillFileStatFromSys(&fs, f.name)
return &fs, nil
*/
panic("todo: os.File.Stat")
}
// statNolog stats a file with no test logging.
func statNolog(name string) (FileInfo, error) {
var fs fileStat
err := ignoringEINTR(func() error {
return syscall.Stat(name, &fs.sys)
})
if err != nil {
return nil, &PathError{Op: "stat", Path: name, Err: err}
}
fillFileStatFromSys(&fs, name)
return &fs, nil
}
// lstatNolog lstats a file with no test logging.
func lstatNolog(name string) (FileInfo, error) {
var fs fileStat
err := ignoringEINTR(func() error {
return syscall.Lstat(name, &fs.sys)
})
if err != nil {
return nil, &PathError{Op: "lstat", Path: name, Err: err}
}
fillFileStatFromSys(&fs, name)
return &fs, nil
}

19
internal/lib/os/types.go
View File

@@ -22,19 +22,7 @@ type File struct {
fd uintptr
name string
appendMode bool
}
// NewFile returns a new File with the given file descriptor and
// name. The returned value will be nil if fd is not a valid file
// descriptor. On Unix systems, if the file descriptor is in
// non-blocking mode, NewFile will attempt to return a pollable File
// (one for which the SetDeadline methods work).
//
// After passing it to NewFile, fd may become invalid under the same
// conditions described in the comments of the Fd method, and the same
// constraints apply.
func NewFile(fd uintptr, name string) *File {
return &File{fd: fd, name: name}
nonblock bool
}
// write writes len(b) bytes to the File.
@@ -118,10 +106,8 @@ const (
ModePerm = fs.ModePerm // Unix permission bits, 0o777
)
/* TODO(xsw):
func (fs *fileStat) Name() string { return fs.name }
func (fs *fileStat) IsDir() bool { return fs.Mode().IsDir() }
*/
// SameFile reports whether fi1 and fi2 describe the same file.
// For example, on Unix this means that the device and inode fields
@@ -130,13 +116,10 @@ func (fs *fileStat) IsDir() bool { return fs.Mode().IsDir() }
// SameFile only applies to results returned by this package's Stat.
// It returns false in other cases.
func SameFile(fi1, fi2 FileInfo) bool {
/*
fs1, ok1 := fi1.(*fileStat)
fs2, ok2 := fi2.(*fileStat)
if !ok1 || !ok2 {
return false
}
return sameFile(fs1, fs2)
*/
panic("todo")
}

30
internal/lib/os/types_plan9.go Normal file
View File

@@ -0,0 +1,30 @@
// 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"
"time"
)
// A fileStat is the implementation of FileInfo returned by Stat and Lstat.
type fileStat struct {
name string
size int64
mode FileMode
modTime time.Time
sys any
}
func (fs *fileStat) Size() int64 { return fs.size }
func (fs *fileStat) Mode() FileMode { return fs.mode }
func (fs *fileStat) ModTime() time.Time { return fs.modTime }
func (fs *fileStat) Sys() any { return fs.sys }
func sameFile(fs1, fs2 *fileStat) bool {
a := fs1.sys.(*syscall.Dir)
b := fs2.sys.(*syscall.Dir)
return a.Qid.Path == b.Qid.Path && a.Type == b.Type && a.Dev == b.Dev
}

30
internal/lib/os/types_unix.go Normal file
View File

@@ -0,0 +1,30 @@
// 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.
//go:build !windows && !plan9
package os
import (
"syscall"
"time"
)
// A fileStat is the implementation of FileInfo returned by Stat and Lstat.
type fileStat struct {
name string
size int64
mode FileMode
modTime time.Time
sys syscall.Stat_t
}
func (fs *fileStat) Size() int64 { return fs.size }
func (fs *fileStat) Mode() FileMode { return fs.mode }
func (fs *fileStat) ModTime() time.Time { return fs.modTime }
func (fs *fileStat) Sys() any { return &fs.sys }
func sameFile(fs1, fs2 *fileStat) bool {
return fs1.sys.Dev == fs2.sys.Dev && fs1.sys.Ino == fs2.sys.Ino
}

241
internal/lib/os/types_windows.go Normal file
View File

@@ -0,0 +1,241 @@
// 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 (
"internal/syscall/windows"
"sync"
"syscall"
"time"
"unsafe"
)
// A fileStat is the implementation of FileInfo returned by Stat and Lstat.
type fileStat struct {
name string
// from ByHandleFileInformation, Win32FileAttributeData and Win32finddata
FileAttributes uint32
CreationTime syscall.Filetime
LastAccessTime syscall.Filetime
LastWriteTime syscall.Filetime
FileSizeHigh uint32
FileSizeLow uint32
// from Win32finddata
ReparseTag uint32
// what syscall.GetFileType returns
filetype uint32
// used to implement SameFile
sync.Mutex
path string
vol uint32
idxhi uint32
idxlo uint32
appendNameToPath bool
}
// newFileStatFromGetFileInformationByHandle calls GetFileInformationByHandle
// to gather all required information about the file handle h.
func newFileStatFromGetFileInformationByHandle(path string, h syscall.Handle) (fs *fileStat, err error) {
var d syscall.ByHandleFileInformation
err = syscall.GetFileInformationByHandle(h, &d)
if err != nil {
return nil, &PathError{Op: "GetFileInformationByHandle", Path: path, Err: err}
}
var ti windows.FILE_ATTRIBUTE_TAG_INFO
err = windows.GetFileInformationByHandleEx(h, windows.FileAttributeTagInfo, (*byte)(unsafe.Pointer(&ti)), uint32(unsafe.Sizeof(ti)))
if err != nil {
if errno, ok := err.(syscall.Errno); ok && errno == windows.ERROR_INVALID_PARAMETER {
// It appears calling GetFileInformationByHandleEx with
// FILE_ATTRIBUTE_TAG_INFO fails on FAT file system with
// ERROR_INVALID_PARAMETER. Clear ti.ReparseTag in that
// instance to indicate no symlinks are possible.
ti.ReparseTag = 0
} else {
return nil, &PathError{Op: "GetFileInformationByHandleEx", Path: path, Err: err}
}
}
return &fileStat{
name: basename(path),
FileAttributes: d.FileAttributes,
CreationTime: d.CreationTime,
LastAccessTime: d.LastAccessTime,
LastWriteTime: d.LastWriteTime,
FileSizeHigh: d.FileSizeHigh,
FileSizeLow: d.FileSizeLow,
vol: d.VolumeSerialNumber,
idxhi: d.FileIndexHigh,
idxlo: d.FileIndexLow,
ReparseTag: ti.ReparseTag,
// fileStat.path is used by os.SameFile to decide if it needs
// to fetch vol, idxhi and idxlo. But these are already set,
// so set fileStat.path to "" to prevent os.SameFile doing it again.
}, nil
}
// newFileStatFromWin32finddata copies all required information
// from syscall.Win32finddata d into the newly created fileStat.
func newFileStatFromWin32finddata(d *syscall.Win32finddata) *fileStat {
fs := &fileStat{
FileAttributes: d.FileAttributes,
CreationTime: d.CreationTime,
LastAccessTime: d.LastAccessTime,
LastWriteTime: d.LastWriteTime,
FileSizeHigh: d.FileSizeHigh,
FileSizeLow: d.FileSizeLow,
}
if d.FileAttributes&syscall.FILE_ATTRIBUTE_REPARSE_POINT != 0 {
// Per https://learn.microsoft.com/en-us/windows/win32/api/minwinbase/ns-minwinbase-win32_find_dataw:
// “If the dwFileAttributes member includes the FILE_ATTRIBUTE_REPARSE_POINT
// attribute, this member specifies the reparse point tag. Otherwise, this
// value is undefined and should not be used.”
fs.ReparseTag = d.Reserved0
}
return fs
}
func (fs *fileStat) isSymlink() bool {
// As of https://go.dev/cl/86556, we treat MOUNT_POINT reparse points as
// symlinks because otherwise certain directory junction tests in the
// path/filepath package would fail.
//
// However,
// https://learn.microsoft.com/en-us/windows/win32/fileio/hard-links-and-junctions
// seems to suggest that directory junctions should be treated like hard
// links, not symlinks.
//
// TODO(bcmills): Get more input from Microsoft on what the behavior ought to
// be for MOUNT_POINT reparse points.
return fs.ReparseTag == syscall.IO_REPARSE_TAG_SYMLINK ||
fs.ReparseTag == windows.IO_REPARSE_TAG_MOUNT_POINT
}
func (fs *fileStat) Size() int64 {
return int64(fs.FileSizeHigh)<<32 + int64(fs.FileSizeLow)
}
func (fs *fileStat) Mode() (m FileMode) {
if fs.FileAttributes&syscall.FILE_ATTRIBUTE_READONLY != 0 {
m |= 0444
} else {
m |= 0666
}
if fs.isSymlink() {
return m | ModeSymlink
}
if fs.FileAttributes&syscall.FILE_ATTRIBUTE_DIRECTORY != 0 {
m |= ModeDir | 0111
}
switch fs.filetype {
case syscall.FILE_TYPE_PIPE:
m |= ModeNamedPipe
case syscall.FILE_TYPE_CHAR:
m |= ModeDevice | ModeCharDevice
}
if fs.FileAttributes&syscall.FILE_ATTRIBUTE_REPARSE_POINT != 0 && m&ModeType == 0 {
m |= ModeIrregular
}
return m
}
func (fs *fileStat) ModTime() time.Time {
return time.Unix(0, fs.LastWriteTime.Nanoseconds())
}
// Sys returns syscall.Win32FileAttributeData for file fs.
func (fs *fileStat) Sys() any {
return &syscall.Win32FileAttributeData{
FileAttributes: fs.FileAttributes,
CreationTime: fs.CreationTime,
LastAccessTime: fs.LastAccessTime,
LastWriteTime: fs.LastWriteTime,
FileSizeHigh: fs.FileSizeHigh,
FileSizeLow: fs.FileSizeLow,
}
}
func (fs *fileStat) loadFileId() error {
fs.Lock()
defer fs.Unlock()
if fs.path == "" {
// already done
return nil
}
var path string
if fs.appendNameToPath {
path = fs.path + `\` + fs.name
} else {
path = fs.path
}
pathp, err := syscall.UTF16PtrFromString(path)
if err != nil {
return err
}
// Per https://learn.microsoft.com/en-us/windows/win32/fileio/reparse-points-and-file-operations,
// “Applications that use the CreateFile function should specify the
// FILE_FLAG_OPEN_REPARSE_POINT flag when opening the file if it is a reparse
// point.”
//
// And per https://learn.microsoft.com/en-us/windows/win32/api/fileapi/nf-fileapi-createfilew,
// “If the file is not a reparse point, then this flag is ignored.”
//
// So we set FILE_FLAG_OPEN_REPARSE_POINT unconditionally, since we want
// information about the reparse point itself.
//
// If the file is a symlink, the symlink target should have already been
// resolved when the fileStat was created, so we don't need to worry about
// resolving symlink reparse points again here.
attrs := uint32(syscall.FILE_FLAG_BACKUP_SEMANTICS | syscall.FILE_FLAG_OPEN_REPARSE_POINT)
h, err := syscall.CreateFile(pathp, 0, 0, nil, syscall.OPEN_EXISTING, attrs, 0)
if err != nil {
return err
}
defer syscall.CloseHandle(h)
var i syscall.ByHandleFileInformation
err = syscall.GetFileInformationByHandle(h, &i)
if err != nil {
return err
}
fs.path = ""
fs.vol = i.VolumeSerialNumber
fs.idxhi = i.FileIndexHigh
fs.idxlo = i.FileIndexLow
return nil
}
// saveInfoFromPath saves full path of the file to be used by os.SameFile later,
// and set name from path.
func (fs *fileStat) saveInfoFromPath(path string) error {
fs.path = path
if !isAbs(fs.path) {
var err error
fs.path, err = syscall.FullPath(fs.path)
if err != nil {
return &PathError{Op: "FullPath", Path: path, Err: err}
}
}
fs.name = basename(path)
return nil
}
func sameFile(fs1, fs2 *fileStat) bool {
e := fs1.loadFileId()
if e != nil {
return false
}
e = fs2.loadFileId()
if e != nil {
return false
}
return fs1.vol == fs2.vol && fs1.idxhi == fs2.idxhi && fs1.idxlo == fs2.idxlo
}

11
internal/lib/runtime/mfinal.go Normal file
View File

@@ -0,0 +1,11 @@
// 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.
// Garbage collector: finalizers and block profiling.
package runtime
func SetFinalizer(obj any, finalizer any) {
panic("todo: runtime.SetFinalizer")
}

319
internal/lib/syscall/exec_libc.go Normal file
View File

@@ -0,0 +1,319 @@
// 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.
//go:build aix || solaris
// This file handles forkAndExecInChild function for OS using libc syscall like AIX or Solaris.
package syscall
import (
"runtime"
"unsafe"
)
type SysProcAttr struct {
Chroot string // Chroot.
Credential *Credential // Credential.
Setsid bool // Create session.
// Setpgid sets the process group ID of the child to Pgid,
// or, if Pgid == 0, to the new child's process ID.
Setpgid bool
// Setctty sets the controlling terminal of the child to
// file descriptor Ctty. Ctty must be a descriptor number
// in the child process: an index into ProcAttr.Files.
// This is only meaningful if Setsid is true.
Setctty bool
Noctty bool // Detach fd 0 from controlling terminal
Ctty int // Controlling TTY fd
// Foreground places the child process group in the foreground.
// This implies Setpgid. The Ctty field must be set to
// the descriptor of the controlling TTY.
// Unlike Setctty, in this case Ctty must be a descriptor
// number in the parent process.
Foreground bool
Pgid int // Child's process group ID if Setpgid.
}
// Implemented in runtime package.
func runtime_BeforeFork()
func runtime_AfterFork()
func runtime_AfterForkInChild()
func chdir(path uintptr) (err Errno)
func chroot1(path uintptr) (err Errno)
func closeFD(fd uintptr) (err Errno)
func dup2child(old uintptr, new uintptr) (val uintptr, err Errno)
func execve(path uintptr, argv uintptr, envp uintptr) (err Errno)
func exit(code uintptr)
func fcntl1(fd uintptr, cmd uintptr, arg uintptr) (val uintptr, err Errno)
func forkx(flags uintptr) (pid uintptr, err Errno)
func getpid() (pid uintptr, err Errno)
func ioctl(fd uintptr, req uintptr, arg uintptr) (err Errno)
func setgid(gid uintptr) (err Errno)
func setgroups1(ngid uintptr, gid uintptr) (err Errno)
func setrlimit1(which uintptr, lim unsafe.Pointer) (err Errno)
func setsid() (pid uintptr, err Errno)
func setuid(uid uintptr) (err Errno)
func setpgid(pid uintptr, pgid uintptr) (err Errno)
func write1(fd uintptr, buf uintptr, nbyte uintptr) (n uintptr, err Errno)
// syscall defines this global on our behalf to avoid a build dependency on other platforms
func init() {
execveLibc = execve
}
// Fork, dup fd onto 0..len(fd), and exec(argv0, argvv, envv) in child.
// If a dup or exec fails, write the errno error to pipe.
// (Pipe is close-on-exec so if exec succeeds, it will be closed.)
// In the child, this function must not acquire any locks, because
// they might have been locked at the time of the fork. This means
// no rescheduling, no malloc calls, and no new stack segments.
//
// We call hand-crafted syscalls, implemented in
// ../runtime/syscall_solaris.go, rather than generated libc wrappers
// because we need to avoid lazy-loading the functions (might malloc,
// split the stack, or acquire mutexes). We can't call RawSyscall
// because it's not safe even for BSD-subsystem calls.
//
//go:norace
func forkAndExecInChild(argv0 *byte, argv, envv []*byte, chroot, dir *byte, attr *ProcAttr, sys *SysProcAttr, pipe int) (pid int, err Errno) {
// Declare all variables at top in case any
// declarations require heap allocation (e.g., err1).
var (
r1 uintptr
err1 Errno
nextfd int
i int
pgrp _Pid_t
cred *Credential
ngroups, groups uintptr
)
rlim, rlimOK := origRlimitNofile.Load().(Rlimit)
// guard against side effects of shuffling fds below.
// Make sure that nextfd is beyond any currently open files so
// that we can't run the risk of overwriting any of them.
fd := make([]int, len(attr.Files))
nextfd = len(attr.Files)
for i, ufd := range attr.Files {
if nextfd < int(ufd) {
nextfd = int(ufd)
}
fd[i] = int(ufd)
}
nextfd++
// About to call fork.
// No more allocation or calls of non-assembly functions.
runtime_BeforeFork()
r1, err1 = forkx(0x1) // FORK_NOSIGCHLD
if err1 != 0 {
runtime_AfterFork()
return 0, err1
}
if r1 != 0 {
// parent; return PID
runtime_AfterFork()
return int(r1), 0
}
// Fork succeeded, now in child.
// Session ID
if sys.Setsid {
_, err1 = setsid()
if err1 != 0 {
goto childerror
}
}
// Set process group
if sys.Setpgid || sys.Foreground {
// Place child in process group.
err1 = setpgid(0, uintptr(sys.Pgid))
if err1 != 0 {
goto childerror
}
}
if sys.Foreground {
pgrp = _Pid_t(sys.Pgid)
if pgrp == 0 {
r1, err1 = getpid()
if err1 != 0 {
goto childerror
}
pgrp = _Pid_t(r1)
}
// Place process group in foreground.
err1 = ioctl(uintptr(sys.Ctty), uintptr(TIOCSPGRP), uintptr(unsafe.Pointer(&pgrp)))
if err1 != 0 {
goto childerror
}
}
// Restore the signal mask. We do this after TIOCSPGRP to avoid
// having the kernel send a SIGTTOU signal to the process group.
runtime_AfterForkInChild()
// Chroot
if chroot != nil {
err1 = chroot1(uintptr(unsafe.Pointer(chroot)))
if err1 != 0 {
goto childerror
}
}
// User and groups
if cred = sys.Credential; cred != nil {
ngroups = uintptr(len(cred.Groups))
groups = uintptr(0)
if ngroups > 0 {
groups = uintptr(unsafe.Pointer(&cred.Groups[0]))
}
if !cred.NoSetGroups {
err1 = setgroups1(ngroups, groups)
if err1 != 0 {
goto childerror
}
}
err1 = setgid(uintptr(cred.Gid))
if err1 != 0 {
goto childerror
}
err1 = setuid(uintptr(cred.Uid))
if err1 != 0 {
goto childerror
}
}
// Chdir
if dir != nil {
err1 = chdir(uintptr(unsafe.Pointer(dir)))
if err1 != 0 {
goto childerror
}
}
// Pass 1: look for fd[i] < i and move those up above len(fd)
// so that pass 2 won't stomp on an fd it needs later.
if pipe < nextfd {
switch runtime.GOOS {
case "illumos", "solaris":
_, err1 = fcntl1(uintptr(pipe), _F_DUP2FD_CLOEXEC, uintptr(nextfd))
default:
_, err1 = dup2child(uintptr(pipe), uintptr(nextfd))
if err1 != 0 {
goto childerror
}
_, err1 = fcntl1(uintptr(nextfd), F_SETFD, FD_CLOEXEC)
}
if err1 != 0 {
goto childerror
}
pipe = nextfd
nextfd++
}
for i = 0; i < len(fd); i++ {
if fd[i] >= 0 && fd[i] < i {
if nextfd == pipe { // don't stomp on pipe
nextfd++
}
switch runtime.GOOS {
case "illumos", "solaris":
_, err1 = fcntl1(uintptr(fd[i]), _F_DUP2FD_CLOEXEC, uintptr(nextfd))
default:
_, err1 = dup2child(uintptr(fd[i]), uintptr(nextfd))
if err1 != 0 {
goto childerror
}
_, err1 = fcntl1(uintptr(nextfd), F_SETFD, FD_CLOEXEC)
}
if err1 != 0 {
goto childerror
}
fd[i] = nextfd
nextfd++
}
}
// Pass 2: dup fd[i] down onto i.
for i = 0; i < len(fd); i++ {
if fd[i] == -1 {
closeFD(uintptr(i))
continue
}
if fd[i] == i {
// dup2(i, i) won't clear close-on-exec flag on Linux,
// probably not elsewhere either.
_, err1 = fcntl1(uintptr(fd[i]), F_SETFD, 0)
if err1 != 0 {
goto childerror
}
continue
}
// The new fd is created NOT close-on-exec,
// which is exactly what we want.
_, err1 = dup2child(uintptr(fd[i]), uintptr(i))
if err1 != 0 {
goto childerror
}
}
// By convention, we don't close-on-exec the fds we are
// started with, so if len(fd) < 3, close 0, 1, 2 as needed.
// Programs that know they inherit fds >= 3 will need
// to set them close-on-exec.
for i = len(fd); i < 3; i++ {
closeFD(uintptr(i))
}
// Detach fd 0 from tty
if sys.Noctty {
err1 = ioctl(0, uintptr(TIOCNOTTY), 0)
if err1 != 0 {
goto childerror
}
}
// Set the controlling TTY to Ctty
if sys.Setctty {
// On AIX, TIOCSCTTY is undefined
if TIOCSCTTY == 0 {
err1 = ENOSYS
goto childerror
}
err1 = ioctl(uintptr(sys.Ctty), uintptr(TIOCSCTTY), 0)
if err1 != 0 {
goto childerror
}
}
// Restore original rlimit.
if rlimOK && rlim.Cur != 0 {
setrlimit1(RLIMIT_NOFILE, unsafe.Pointer(&rlim))
}
// Time to exec.
err1 = execve(
uintptr(unsafe.Pointer(argv0)),
uintptr(unsafe.Pointer(&argv[0])),
uintptr(unsafe.Pointer(&envv[0])))
childerror:
// send error code on pipe
write1(uintptr(pipe), uintptr(unsafe.Pointer(&err1)), unsafe.Sizeof(err1))
for {
exit(253)
}
}
func ioctlPtr(fd, req uintptr, arg unsafe.Pointer) (err Errno) {
return ioctl(fd, req, uintptr(arg))
}

290
internal/lib/syscall/exec_libc2.go Normal file
View File

@@ -0,0 +1,290 @@
// 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.
//go:build darwin || (openbsd && !mips64)
package syscall
type SysProcAttr struct {
Chroot string // Chroot.
Credential *Credential // Credential.
Ptrace bool // Enable tracing.
Setsid bool // Create session.
// Setpgid sets the process group ID of the child to Pgid,
// or, if Pgid == 0, to the new child's process ID.
Setpgid bool
// Setctty sets the controlling terminal of the child to
// file descriptor Ctty. Ctty must be a descriptor number
// in the child process: an index into ProcAttr.Files.
// This is only meaningful if Setsid is true.
Setctty bool
Noctty bool // Detach fd 0 from controlling terminal
Ctty int // Controlling TTY fd
// Foreground places the child process group in the foreground.
// This implies Setpgid. The Ctty field must be set to
// the descriptor of the controlling TTY.
// Unlike Setctty, in this case Ctty must be a descriptor
// number in the parent process.
Foreground bool
Pgid int // Child's process group ID if Setpgid.
}
/* TODO(xsw):
// Implemented in runtime package.
func runtime_BeforeFork()
func runtime_AfterFork()
func runtime_AfterForkInChild()
*/
// Fork, dup fd onto 0..len(fd), and exec(argv0, argvv, envv) in child.
// If a dup or exec fails, write the errno error to pipe.
// (Pipe is close-on-exec so if exec succeeds, it will be closed.)
// In the child, this function must not acquire any locks, because
// they might have been locked at the time of the fork. This means
// no rescheduling, no malloc calls, and no new stack segments.
// For the same reason compiler does not race instrument it.
// The calls to rawSyscall are okay because they are assembly
// functions that do not grow the stack.
//
//go:norace
func forkAndExecInChild(argv0 *byte, argv, envv []*byte, chroot, dir *byte, attr *ProcAttr, sys *SysProcAttr, pipe int) (pid int, err1 Errno) {
/* TODO(xsw):
// Declare all variables at top in case any
// declarations require heap allocation (e.g., err1).
var (
r1 uintptr
nextfd int
i int
err error
pgrp _C_int
cred *Credential
ngroups, groups uintptr
)
rlim, rlimOK := origRlimitNofile.Load().(Rlimit)
// guard against side effects of shuffling fds below.
// Make sure that nextfd is beyond any currently open files so
// that we can't run the risk of overwriting any of them.
fd := make([]int, len(attr.Files))
nextfd = len(attr.Files)
for i, ufd := range attr.Files {
if nextfd < int(ufd) {
nextfd = int(ufd)
}
fd[i] = int(ufd)
}
nextfd++
// About to call fork.
// No more allocation or calls of non-assembly functions.
runtime_BeforeFork()
r1, _, err1 = rawSyscall(abi.FuncPCABI0(libc_fork_trampoline), 0, 0, 0)
if err1 != 0 {
runtime_AfterFork()
return 0, err1
}
if r1 != 0 {
// parent; return PID
runtime_AfterFork()
return int(r1), 0
}
// Fork succeeded, now in child.
// Enable tracing if requested.
if sys.Ptrace {
if err = ptrace(PTRACE_TRACEME, 0, 0, 0); err != nil {
err1 = err.(Errno)
goto childerror
}
}
// Session ID
if sys.Setsid {
_, _, err1 = rawSyscall(abi.FuncPCABI0(libc_setsid_trampoline), 0, 0, 0)
if err1 != 0 {
goto childerror
}
}
// Set process group
if sys.Setpgid || sys.Foreground {
// Place child in process group.
_, _, err1 = rawSyscall(abi.FuncPCABI0(libc_setpgid_trampoline), 0, uintptr(sys.Pgid), 0)
if err1 != 0 {
goto childerror
}
}
if sys.Foreground {
// This should really be pid_t, however _C_int (aka int32) is
// generally equivalent.
pgrp = _C_int(sys.Pgid)
if pgrp == 0 {
r1, _, err1 = rawSyscall(abi.FuncPCABI0(libc_getpid_trampoline), 0, 0, 0)
if err1 != 0 {
goto childerror
}
pgrp = _C_int(r1)
}
// Place process group in foreground.
_, _, err1 = rawSyscall(abi.FuncPCABI0(libc_ioctl_trampoline), uintptr(sys.Ctty), uintptr(TIOCSPGRP), uintptr(unsafe.Pointer(&pgrp)))
if err1 != 0 {
goto childerror
}
}
// Restore the signal mask. We do this after TIOCSPGRP to avoid
// having the kernel send a SIGTTOU signal to the process group.
runtime_AfterForkInChild()
// Chroot
if chroot != nil {
_, _, err1 = rawSyscall(abi.FuncPCABI0(libc_chroot_trampoline), uintptr(unsafe.Pointer(chroot)), 0, 0)
if err1 != 0 {
goto childerror
}
}
// User and groups
if cred = sys.Credential; cred != nil {
ngroups = uintptr(len(cred.Groups))
groups = uintptr(0)
if ngroups > 0 {
groups = uintptr(unsafe.Pointer(&cred.Groups[0]))
}
if !cred.NoSetGroups {
_, _, err1 = rawSyscall(abi.FuncPCABI0(libc_setgroups_trampoline), ngroups, groups, 0)
if err1 != 0 {
goto childerror
}
}
_, _, err1 = rawSyscall(abi.FuncPCABI0(libc_setgid_trampoline), uintptr(cred.Gid), 0, 0)
if err1 != 0 {
goto childerror
}
_, _, err1 = rawSyscall(abi.FuncPCABI0(libc_setuid_trampoline), uintptr(cred.Uid), 0, 0)
if err1 != 0 {
goto childerror
}
}
// Chdir
if dir != nil {
_, _, err1 = rawSyscall(abi.FuncPCABI0(libc_chdir_trampoline), uintptr(unsafe.Pointer(dir)), 0, 0)
if err1 != 0 {
goto childerror
}
}
// Pass 1: look for fd[i] < i and move those up above len(fd)
// so that pass 2 won't stomp on an fd it needs later.
if pipe < nextfd {
if runtime.GOOS == "openbsd" {
_, _, err1 = rawSyscall(dupTrampoline, uintptr(pipe), uintptr(nextfd), O_CLOEXEC)
} else {
_, _, err1 = rawSyscall(dupTrampoline, uintptr(pipe), uintptr(nextfd), 0)
if err1 != 0 {
goto childerror
}
_, _, err1 = rawSyscall(abi.FuncPCABI0(libc_fcntl_trampoline), uintptr(nextfd), F_SETFD, FD_CLOEXEC)
}
if err1 != 0 {
goto childerror
}
pipe = nextfd
nextfd++
}
for i = 0; i < len(fd); i++ {
if fd[i] >= 0 && fd[i] < i {
if nextfd == pipe { // don't stomp on pipe
nextfd++
}
if runtime.GOOS == "openbsd" {
_, _, err1 = rawSyscall(dupTrampoline, uintptr(fd[i]), uintptr(nextfd), O_CLOEXEC)
} else {
_, _, err1 = rawSyscall(dupTrampoline, uintptr(fd[i]), uintptr(nextfd), 0)
if err1 != 0 {
goto childerror
}
_, _, err1 = rawSyscall(abi.FuncPCABI0(libc_fcntl_trampoline), uintptr(nextfd), F_SETFD, FD_CLOEXEC)
}
if err1 != 0 {
goto childerror
}
fd[i] = nextfd
nextfd++
}
}
// Pass 2: dup fd[i] down onto i.
for i = 0; i < len(fd); i++ {
if fd[i] == -1 {
rawSyscall(abi.FuncPCABI0(libc_close_trampoline), uintptr(i), 0, 0)
continue
}
if fd[i] == i {
// dup2(i, i) won't clear close-on-exec flag on Linux,
// probably not elsewhere either.
_, _, err1 = rawSyscall(abi.FuncPCABI0(libc_fcntl_trampoline), uintptr(fd[i]), F_SETFD, 0)
if err1 != 0 {
goto childerror
}
continue
}
// The new fd is created NOT close-on-exec,
// which is exactly what we want.
_, _, err1 = rawSyscall(abi.FuncPCABI0(libc_dup2_trampoline), uintptr(fd[i]), uintptr(i), 0)
if err1 != 0 {
goto childerror
}
}
// By convention, we don't close-on-exec the fds we are
// started with, so if len(fd) < 3, close 0, 1, 2 as needed.
// Programs that know they inherit fds >= 3 will need
// to set them close-on-exec.
for i = len(fd); i < 3; i++ {
rawSyscall(abi.FuncPCABI0(libc_close_trampoline), uintptr(i), 0, 0)
}
// Detach fd 0 from tty
if sys.Noctty {
_, _, err1 = rawSyscall(abi.FuncPCABI0(libc_ioctl_trampoline), 0, uintptr(TIOCNOTTY), 0)
if err1 != 0 {
goto childerror
}
}
// Set the controlling TTY to Ctty
if sys.Setctty {
_, _, err1 = rawSyscall(abi.FuncPCABI0(libc_ioctl_trampoline), uintptr(sys.Ctty), uintptr(TIOCSCTTY), 0)
if err1 != 0 {
goto childerror
}
}
// Restore original rlimit.
if rlimOK && rlim.Cur != 0 {
rawSyscall(abi.FuncPCABI0(libc_setrlimit_trampoline), uintptr(RLIMIT_NOFILE), uintptr(unsafe.Pointer(&rlim)), 0)
}
// Time to exec.
_, _, err1 = rawSyscall(abi.FuncPCABI0(libc_execve_trampoline),
uintptr(unsafe.Pointer(argv0)),
uintptr(unsafe.Pointer(&argv[0])),
uintptr(unsafe.Pointer(&envv[0])))
childerror:
// send error code on pipe
rawSyscall(abi.FuncPCABI0(libc_write_trampoline), uintptr(pipe), uintptr(unsafe.Pointer(&err1)), unsafe.Sizeof(err1))
for {
rawSyscall(abi.FuncPCABI0(libc_exit_trampoline), 253, 0, 0)
}
*/
panic("todo: syscall.forkAndExecInChild")
}

733
internal/lib/syscall/exec_linux.go Normal file
View File

@@ -0,0 +1,733 @@
// 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.
//go:build linux
package syscall
// Linux unshare/clone/clone2/clone3 flags, architecture-independent,
// copied from linux/sched.h.
const (
CLONE_VM = 0x00000100 // set if VM shared between processes
CLONE_FS = 0x00000200 // set if fs info shared between processes
CLONE_FILES = 0x00000400 // set if open files shared between processes
CLONE_SIGHAND = 0x00000800 // set if signal handlers and blocked signals shared
CLONE_PIDFD = 0x00001000 // set if a pidfd should be placed in parent
CLONE_PTRACE = 0x00002000 // set if we want to let tracing continue on the child too
CLONE_VFORK = 0x00004000 // set if the parent wants the child to wake it up on mm_release
CLONE_PARENT = 0x00008000 // set if we want to have the same parent as the cloner
CLONE_THREAD = 0x00010000 // Same thread group?
CLONE_NEWNS = 0x00020000 // New mount namespace group
CLONE_SYSVSEM = 0x00040000 // share system V SEM_UNDO semantics
CLONE_SETTLS = 0x00080000 // create a new TLS for the child
CLONE_PARENT_SETTID = 0x00100000 // set the TID in the parent
CLONE_CHILD_CLEARTID = 0x00200000 // clear the TID in the child
CLONE_DETACHED = 0x00400000 // Unused, ignored
CLONE_UNTRACED = 0x00800000 // set if the tracing process can't force CLONE_PTRACE on this clone
CLONE_CHILD_SETTID = 0x01000000 // set the TID in the child
CLONE_NEWCGROUP = 0x02000000 // New cgroup namespace
CLONE_NEWUTS = 0x04000000 // New utsname namespace
CLONE_NEWIPC = 0x08000000 // New ipc namespace
CLONE_NEWUSER = 0x10000000 // New user namespace
CLONE_NEWPID = 0x20000000 // New pid namespace
CLONE_NEWNET = 0x40000000 // New network namespace
CLONE_IO = 0x80000000 // Clone io context
// Flags for the clone3() syscall.
CLONE_CLEAR_SIGHAND = 0x100000000 // Clear any signal handler and reset to SIG_DFL.
CLONE_INTO_CGROUP = 0x200000000 // Clone into a specific cgroup given the right permissions.
// Cloning flags intersect with CSIGNAL so can be used with unshare and clone3
// syscalls only:
CLONE_NEWTIME = 0x00000080 // New time namespace
)
// SysProcIDMap holds Container ID to Host ID mappings used for User Namespaces in Linux.
// See user_namespaces(7).
type SysProcIDMap struct {
ContainerID int // Container ID.
HostID int // Host ID.
Size int // Size.
}
type SysProcAttr struct {
Chroot string // Chroot.
Credential *Credential // Credential.
// Ptrace tells the child to call ptrace(PTRACE_TRACEME).
// Call runtime.LockOSThread before starting a process with this set,
// and don't call UnlockOSThread until done with PtraceSyscall calls.
Ptrace bool
Setsid bool // Create session.
// Setpgid sets the process group ID of the child to Pgid,
// or, if Pgid == 0, to the new child's process ID.
Setpgid bool
// Setctty sets the controlling terminal of the child to
// file descriptor Ctty. Ctty must be a descriptor number
// in the child process: an index into ProcAttr.Files.
// This is only meaningful if Setsid is true.
Setctty bool
Noctty bool // Detach fd 0 from controlling terminal
Ctty int // Controlling TTY fd
// Foreground places the child process group in the foreground.
// This implies Setpgid. The Ctty field must be set to
// the descriptor of the controlling TTY.
// Unlike Setctty, in this case Ctty must be a descriptor
// number in the parent process.
Foreground bool
Pgid int // Child's process group ID if Setpgid.
// Pdeathsig, if non-zero, is a signal that the kernel will send to
// the child process when the creating thread dies. Note that the signal
// is sent on thread termination, which may happen before process termination.
// There are more details at https://go.dev/issue/27505.
Pdeathsig Signal
Cloneflags uintptr // Flags for clone calls (Linux only)
Unshareflags uintptr // Flags for unshare calls (Linux only)
UidMappings []SysProcIDMap // User ID mappings for user namespaces.
GidMappings []SysProcIDMap // Group ID mappings for user namespaces.
// GidMappingsEnableSetgroups enabling setgroups syscall.
// If false, then setgroups syscall will be disabled for the child process.
// This parameter is no-op if GidMappings == nil. Otherwise for unprivileged
// users this should be set to false for mappings work.
GidMappingsEnableSetgroups bool
AmbientCaps []uintptr // Ambient capabilities (Linux only)
UseCgroupFD bool // Whether to make use of the CgroupFD field.
CgroupFD int // File descriptor of a cgroup to put the new process into.
}
var (
none = [...]byte{'n', 'o', 'n', 'e', 0}
slash = [...]byte{'/', 0}
)
/* TODO(xsw):
// Implemented in runtime package.
func runtime_BeforeFork()
func runtime_AfterFork()
func runtime_AfterForkInChild()
*/
// Fork, dup fd onto 0..len(fd), and exec(argv0, argvv, envv) in child.
// If a dup or exec fails, write the errno error to pipe.
// (Pipe is close-on-exec so if exec succeeds, it will be closed.)
// In the child, this function must not acquire any locks, because
// they might have been locked at the time of the fork. This means
// no rescheduling, no malloc calls, and no new stack segments.
// For the same reason compiler does not race instrument it.
// The calls to RawSyscall are okay because they are assembly
// functions that do not grow the stack.
//
//go:norace
func forkAndExecInChild(argv0 *byte, argv, envv []*byte, chroot, dir *byte, attr *ProcAttr, sys *SysProcAttr, pipe int) (pid int, err Errno) {
/* TODO(xsw):
// Set up and fork. This returns immediately in the parent or
// if there's an error.
upid, err, mapPipe, locked := forkAndExecInChild1(argv0, argv, envv, chroot, dir, attr, sys, pipe)
if locked {
runtime_AfterFork()
}
if err != 0 {
return 0, err
}
// parent; return PID
pid = int(upid)
if sys.UidMappings != nil || sys.GidMappings != nil {
Close(mapPipe[0])
var err2 Errno
// uid/gid mappings will be written after fork and unshare(2) for user
// namespaces.
if sys.Unshareflags&CLONE_NEWUSER == 0 {
if err := writeUidGidMappings(pid, sys); err != nil {
err2 = err.(Errno)
}
}
RawSyscall(SYS_WRITE, uintptr(mapPipe[1]), uintptr(unsafe.Pointer(&err2)), unsafe.Sizeof(err2))
Close(mapPipe[1])
}
return pid, 0
*/
panic("todo: syscall.forkAndExecInChild")
}
const _LINUX_CAPABILITY_VERSION_3 = 0x20080522
type capHeader struct {
version uint32
pid int32
}
type capData struct {
effective uint32
permitted uint32
inheritable uint32
}
type caps struct {
hdr capHeader
data [2]capData
}
// See CAP_TO_INDEX in linux/capability.h:
func capToIndex(cap uintptr) uintptr { return cap >> 5 }
// See CAP_TO_MASK in linux/capability.h:
func capToMask(cap uintptr) uint32 { return 1 << uint(cap&31) }
// cloneArgs holds arguments for clone3 Linux syscall.
type cloneArgs struct {
flags uint64 // Flags bit mask
pidFD uint64 // Where to store PID file descriptor (int *)
childTID uint64 // Where to store child TID, in child's memory (pid_t *)
parentTID uint64 // Where to store child TID, in parent's memory (pid_t *)
exitSignal uint64 // Signal to deliver to parent on child termination
stack uint64 // Pointer to lowest byte of stack
stackSize uint64 // Size of stack
tls uint64 // Location of new TLS
setTID uint64 // Pointer to a pid_t array (since Linux 5.5)
setTIDSize uint64 // Number of elements in set_tid (since Linux 5.5)
cgroup uint64 // File descriptor for target cgroup of child (since Linux 5.7)
}
// forkAndExecInChild1 implements the body of forkAndExecInChild up to
// the parent's post-fork path. This is a separate function so we can
// separate the child's and parent's stack frames if we're using
// vfork.
//
// This is go:noinline because the point is to keep the stack frames
// of this and forkAndExecInChild separate.
//
//go:noinline
//go:norace
//go:nocheckptr
func forkAndExecInChild1(argv0 *byte, argv, envv []*byte, chroot, dir *byte, attr *ProcAttr, sys *SysProcAttr, pipe int) (pid uintptr, err1 Errno, mapPipe [2]int, locked bool) {
/* TODO(xsw):
// Defined in linux/prctl.h starting with Linux 4.3.
const (
PR_CAP_AMBIENT = 0x2f
PR_CAP_AMBIENT_RAISE = 0x2
)
// vfork requires that the child not touch any of the parent's
// active stack frames. Hence, the child does all post-fork
// processing in this stack frame and never returns, while the
// parent returns immediately from this frame and does all
// post-fork processing in the outer frame.
//
// Declare all variables at top in case any
// declarations require heap allocation (e.g., err2).
// ":=" should not be used to declare any variable after
// the call to runtime_BeforeFork.
//
// NOTE(bcmills): The allocation behavior described in the above comment
// seems to lack a corresponding test, and it may be rendered invalid
// by an otherwise-correct change in the compiler.
var (
err2 Errno
nextfd int
i int
caps caps
fd1, flags uintptr
puid, psetgroups, pgid []byte
uidmap, setgroups, gidmap []byte
clone3 *cloneArgs
pgrp int32
dirfd int
cred *Credential
ngroups, groups uintptr
c uintptr
)
rlim, rlimOK := origRlimitNofile.Load().(Rlimit)
if sys.UidMappings != nil {
puid = []byte("/proc/self/uid_map\000")
uidmap = formatIDMappings(sys.UidMappings)
}
if sys.GidMappings != nil {
psetgroups = []byte("/proc/self/setgroups\000")
pgid = []byte("/proc/self/gid_map\000")
if sys.GidMappingsEnableSetgroups {
setgroups = []byte("allow\000")
} else {
setgroups = []byte("deny\000")
}
gidmap = formatIDMappings(sys.GidMappings)
}
// Record parent PID so child can test if it has died.
ppid, _ := rawSyscallNoError(SYS_GETPID, 0, 0, 0)
// Guard against side effects of shuffling fds below.
// Make sure that nextfd is beyond any currently open files so
// that we can't run the risk of overwriting any of them.
fd := make([]int, len(attr.Files))
nextfd = len(attr.Files)
for i, ufd := range attr.Files {
if nextfd < int(ufd) {
nextfd = int(ufd)
}
fd[i] = int(ufd)
}
nextfd++
// Allocate another pipe for parent to child communication for
// synchronizing writing of User ID/Group ID mappings.
if sys.UidMappings != nil || sys.GidMappings != nil {
if err := forkExecPipe(mapPipe[:]); err != nil {
err1 = err.(Errno)
return
}
}
flags = sys.Cloneflags
if sys.Cloneflags&CLONE_NEWUSER == 0 && sys.Unshareflags&CLONE_NEWUSER == 0 {
flags |= CLONE_VFORK | CLONE_VM
}
// Whether to use clone3.
if sys.UseCgroupFD {
clone3 = &cloneArgs{
flags: uint64(flags) | CLONE_INTO_CGROUP,
exitSignal: uint64(SIGCHLD),
cgroup: uint64(sys.CgroupFD),
}
} else if flags&CLONE_NEWTIME != 0 {
clone3 = &cloneArgs{
flags: uint64(flags),
exitSignal: uint64(SIGCHLD),
}
}
// About to call fork.
// No more allocation or calls of non-assembly functions.
runtime_BeforeFork()
locked = true
if clone3 != nil {
pid, err1 = rawVforkSyscall(_SYS_clone3, uintptr(unsafe.Pointer(clone3)), unsafe.Sizeof(*clone3))
} else {
flags |= uintptr(SIGCHLD)
if runtime.GOARCH == "s390x" {
// On Linux/s390, the first two arguments of clone(2) are swapped.
pid, err1 = rawVforkSyscall(SYS_CLONE, 0, flags)
} else {
pid, err1 = rawVforkSyscall(SYS_CLONE, flags, 0)
}
}
if err1 != 0 || pid != 0 {
// If we're in the parent, we must return immediately
// so we're not in the same stack frame as the child.
// This can at most use the return PC, which the child
// will not modify, and the results of
// rawVforkSyscall, which must have been written after
// the child was replaced.
return
}
// Fork succeeded, now in child.
// Enable the "keep capabilities" flag to set ambient capabilities later.
if len(sys.AmbientCaps) > 0 {
_, _, err1 = RawSyscall6(SYS_PRCTL, PR_SET_KEEPCAPS, 1, 0, 0, 0, 0)
if err1 != 0 {
goto childerror
}
}
// Wait for User ID/Group ID mappings to be written.
if sys.UidMappings != nil || sys.GidMappings != nil {
if _, _, err1 = RawSyscall(SYS_CLOSE, uintptr(mapPipe[1]), 0, 0); err1 != 0 {
goto childerror
}
pid, _, err1 = RawSyscall(SYS_READ, uintptr(mapPipe[0]), uintptr(unsafe.Pointer(&err2)), unsafe.Sizeof(err2))
if err1 != 0 {
goto childerror
}
if pid != unsafe.Sizeof(err2) {
err1 = EINVAL
goto childerror
}
if err2 != 0 {
err1 = err2
goto childerror
}
}
// Session ID
if sys.Setsid {
_, _, err1 = RawSyscall(SYS_SETSID, 0, 0, 0)
if err1 != 0 {
goto childerror
}
}
// Set process group
if sys.Setpgid || sys.Foreground {
// Place child in process group.
_, _, err1 = RawSyscall(SYS_SETPGID, 0, uintptr(sys.Pgid), 0)
if err1 != 0 {
goto childerror
}
}
if sys.Foreground {
pgrp = int32(sys.Pgid)
if pgrp == 0 {
pid, _ = rawSyscallNoError(SYS_GETPID, 0, 0, 0)
pgrp = int32(pid)
}
// Place process group in foreground.
_, _, err1 = RawSyscall(SYS_IOCTL, uintptr(sys.Ctty), uintptr(TIOCSPGRP), uintptr(unsafe.Pointer(&pgrp)))
if err1 != 0 {
goto childerror
}
}
// Restore the signal mask. We do this after TIOCSPGRP to avoid
// having the kernel send a SIGTTOU signal to the process group.
runtime_AfterForkInChild()
// Unshare
if sys.Unshareflags != 0 {
_, _, err1 = RawSyscall(SYS_UNSHARE, sys.Unshareflags, 0, 0)
if err1 != 0 {
goto childerror
}
if sys.Unshareflags&CLONE_NEWUSER != 0 && sys.GidMappings != nil {
dirfd = int(_AT_FDCWD)
if fd1, _, err1 = RawSyscall6(SYS_OPENAT, uintptr(dirfd), uintptr(unsafe.Pointer(&psetgroups[0])), uintptr(O_WRONLY), 0, 0, 0); err1 != 0 {
goto childerror
}
pid, _, err1 = RawSyscall(SYS_WRITE, uintptr(fd1), uintptr(unsafe.Pointer(&setgroups[0])), uintptr(len(setgroups)))
if err1 != 0 {
goto childerror
}
if _, _, err1 = RawSyscall(SYS_CLOSE, uintptr(fd1), 0, 0); err1 != 0 {
goto childerror
}
if fd1, _, err1 = RawSyscall6(SYS_OPENAT, uintptr(dirfd), uintptr(unsafe.Pointer(&pgid[0])), uintptr(O_WRONLY), 0, 0, 0); err1 != 0 {
goto childerror
}
pid, _, err1 = RawSyscall(SYS_WRITE, uintptr(fd1), uintptr(unsafe.Pointer(&gidmap[0])), uintptr(len(gidmap)))
if err1 != 0 {
goto childerror
}
if _, _, err1 = RawSyscall(SYS_CLOSE, uintptr(fd1), 0, 0); err1 != 0 {
goto childerror
}
}
if sys.Unshareflags&CLONE_NEWUSER != 0 && sys.UidMappings != nil {
dirfd = int(_AT_FDCWD)
if fd1, _, err1 = RawSyscall6(SYS_OPENAT, uintptr(dirfd), uintptr(unsafe.Pointer(&puid[0])), uintptr(O_WRONLY), 0, 0, 0); err1 != 0 {
goto childerror
}
pid, _, err1 = RawSyscall(SYS_WRITE, uintptr(fd1), uintptr(unsafe.Pointer(&uidmap[0])), uintptr(len(uidmap)))
if err1 != 0 {
goto childerror
}
if _, _, err1 = RawSyscall(SYS_CLOSE, uintptr(fd1), 0, 0); err1 != 0 {
goto childerror
}
}
// The unshare system call in Linux doesn't unshare mount points
// mounted with --shared. Systemd mounts / with --shared. For a
// long discussion of the pros and cons of this see debian bug 739593.
// The Go model of unsharing is more like Plan 9, where you ask
// to unshare and the namespaces are unconditionally unshared.
// To make this model work we must further mark / as MS_PRIVATE.
// This is what the standard unshare command does.
if sys.Unshareflags&CLONE_NEWNS == CLONE_NEWNS {
_, _, err1 = RawSyscall6(SYS_MOUNT, uintptr(unsafe.Pointer(&none[0])), uintptr(unsafe.Pointer(&slash[0])), 0, MS_REC|MS_PRIVATE, 0, 0)
if err1 != 0 {
goto childerror
}
}
}
// Chroot
if chroot != nil {
_, _, err1 = RawSyscall(SYS_CHROOT, uintptr(unsafe.Pointer(chroot)), 0, 0)
if err1 != 0 {
goto childerror
}
}
// User and groups
if cred = sys.Credential; cred != nil {
ngroups = uintptr(len(cred.Groups))
groups = uintptr(0)
if ngroups > 0 {
groups = uintptr(unsafe.Pointer(&cred.Groups[0]))
}
if !(sys.GidMappings != nil && !sys.GidMappingsEnableSetgroups && ngroups == 0) && !cred.NoSetGroups {
_, _, err1 = RawSyscall(_SYS_setgroups, ngroups, groups, 0)
if err1 != 0 {
goto childerror
}
}
_, _, err1 = RawSyscall(sys_SETGID, uintptr(cred.Gid), 0, 0)
if err1 != 0 {
goto childerror
}
_, _, err1 = RawSyscall(sys_SETUID, uintptr(cred.Uid), 0, 0)
if err1 != 0 {
goto childerror
}
}
if len(sys.AmbientCaps) != 0 {
// Ambient capabilities were added in the 4.3 kernel,
// so it is safe to always use _LINUX_CAPABILITY_VERSION_3.
caps.hdr.version = _LINUX_CAPABILITY_VERSION_3
if _, _, err1 = RawSyscall(SYS_CAPGET, uintptr(unsafe.Pointer(&caps.hdr)), uintptr(unsafe.Pointer(&caps.data[0])), 0); err1 != 0 {
goto childerror
}
for _, c = range sys.AmbientCaps {
// Add the c capability to the permitted and inheritable capability mask,
// otherwise we will not be able to add it to the ambient capability mask.
caps.data[capToIndex(c)].permitted |= capToMask(c)
caps.data[capToIndex(c)].inheritable |= capToMask(c)
}
if _, _, err1 = RawSyscall(SYS_CAPSET, uintptr(unsafe.Pointer(&caps.hdr)), uintptr(unsafe.Pointer(&caps.data[0])), 0); err1 != 0 {
goto childerror
}
for _, c = range sys.AmbientCaps {
_, _, err1 = RawSyscall6(SYS_PRCTL, PR_CAP_AMBIENT, uintptr(PR_CAP_AMBIENT_RAISE), c, 0, 0, 0)
if err1 != 0 {
goto childerror
}
}
}
// Chdir
if dir != nil {
_, _, err1 = RawSyscall(SYS_CHDIR, uintptr(unsafe.Pointer(dir)), 0, 0)
if err1 != 0 {
goto childerror
}
}
// Parent death signal
if sys.Pdeathsig != 0 {
_, _, err1 = RawSyscall6(SYS_PRCTL, PR_SET_PDEATHSIG, uintptr(sys.Pdeathsig), 0, 0, 0, 0)
if err1 != 0 {
goto childerror
}
// Signal self if parent is already dead. This might cause a
// duplicate signal in rare cases, but it won't matter when
// using SIGKILL.
pid, _ = rawSyscallNoError(SYS_GETPPID, 0, 0, 0)
if pid != ppid {
pid, _ = rawSyscallNoError(SYS_GETPID, 0, 0, 0)
_, _, err1 = RawSyscall(SYS_KILL, pid, uintptr(sys.Pdeathsig), 0)
if err1 != 0 {
goto childerror
}
}
}
// Pass 1: look for fd[i] < i and move those up above len(fd)
// so that pass 2 won't stomp on an fd it needs later.
if pipe < nextfd {
_, _, err1 = RawSyscall(SYS_DUP3, uintptr(pipe), uintptr(nextfd), O_CLOEXEC)
if err1 != 0 {
goto childerror
}
pipe = nextfd
nextfd++
}
for i = 0; i < len(fd); i++ {
if fd[i] >= 0 && fd[i] < i {
if nextfd == pipe { // don't stomp on pipe
nextfd++
}
_, _, err1 = RawSyscall(SYS_DUP3, uintptr(fd[i]), uintptr(nextfd), O_CLOEXEC)
if err1 != 0 {
goto childerror
}
fd[i] = nextfd
nextfd++
}
}
// Pass 2: dup fd[i] down onto i.
for i = 0; i < len(fd); i++ {
if fd[i] == -1 {
RawSyscall(SYS_CLOSE, uintptr(i), 0, 0)
continue
}
if fd[i] == i {
// dup2(i, i) won't clear close-on-exec flag on Linux,
// probably not elsewhere either.
_, _, err1 = RawSyscall(fcntl64Syscall, uintptr(fd[i]), F_SETFD, 0)
if err1 != 0 {
goto childerror
}
continue
}
// The new fd is created NOT close-on-exec,
// which is exactly what we want.
_, _, err1 = RawSyscall(SYS_DUP3, uintptr(fd[i]), uintptr(i), 0)
if err1 != 0 {
goto childerror
}
}
// By convention, we don't close-on-exec the fds we are
// started with, so if len(fd) < 3, close 0, 1, 2 as needed.
// Programs that know they inherit fds >= 3 will need
// to set them close-on-exec.
for i = len(fd); i < 3; i++ {
RawSyscall(SYS_CLOSE, uintptr(i), 0, 0)
}
// Detach fd 0 from tty
if sys.Noctty {
_, _, err1 = RawSyscall(SYS_IOCTL, 0, uintptr(TIOCNOTTY), 0)
if err1 != 0 {
goto childerror
}
}
// Set the controlling TTY to Ctty
if sys.Setctty {
_, _, err1 = RawSyscall(SYS_IOCTL, uintptr(sys.Ctty), uintptr(TIOCSCTTY), 1)
if err1 != 0 {
goto childerror
}
}
// Restore original rlimit.
if rlimOK && rlim.Cur != 0 {
rawSetrlimit(RLIMIT_NOFILE, &rlim)
}
// Enable tracing if requested.
// Do this right before exec so that we don't unnecessarily trace the runtime
// setting up after the fork. See issue #21428.
if sys.Ptrace {
_, _, err1 = RawSyscall(SYS_PTRACE, uintptr(PTRACE_TRACEME), 0, 0)
if err1 != 0 {
goto childerror
}
}
// Time to exec.
_, _, err1 = RawSyscall(SYS_EXECVE,
uintptr(unsafe.Pointer(argv0)),
uintptr(unsafe.Pointer(&argv[0])),
uintptr(unsafe.Pointer(&envv[0])))
childerror:
// send error code on pipe
RawSyscall(SYS_WRITE, uintptr(pipe), uintptr(unsafe.Pointer(&err1)), unsafe.Sizeof(err1))
for {
RawSyscall(SYS_EXIT, 253, 0, 0)
}
*/
panic("todo: syscall.forkAndExecInChild1")
}
func formatIDMappings(idMap []SysProcIDMap) []byte {
/* TODO(xsw):
var data []byte
for _, im := range idMap {
data = append(data, itoa.Itoa(im.ContainerID)+" "+itoa.Itoa(im.HostID)+" "+itoa.Itoa(im.Size)+"\n"...)
}
return data
*/
panic("todo: syscall.formatIDMappings")
}
// writeIDMappings writes the user namespace User ID or Group ID mappings to the specified path.
func writeIDMappings(path string, idMap []SysProcIDMap) error {
/* TODO(xsw):
fd, err := Open(path, O_RDWR, 0)
if err != nil {
return err
}
if _, err := Write(fd, formatIDMappings(idMap)); err != nil {
Close(fd)
return err
}
if err := Close(fd); err != nil {
return err
}
return nil
*/
panic("todo: syscall.writeIDMappings")
}
// writeSetgroups writes to /proc/PID/setgroups "deny" if enable is false
// and "allow" if enable is true.
// This is needed since kernel 3.19, because you can't write gid_map without
// disabling setgroups() system call.
func writeSetgroups(pid int, enable bool) error {
/* TODO(xsw):
sgf := "/proc/" + itoa.Itoa(pid) + "/setgroups"
fd, err := Open(sgf, O_RDWR, 0)
if err != nil {
return err
}
var data []byte
if enable {
data = []byte("allow")
} else {
data = []byte("deny")
}
if _, err := Write(fd, data); err != nil {
Close(fd)
return err
}
return Close(fd)
*/
panic("todo: syscall.writeSetgroups")
}
// writeUidGidMappings writes User ID and Group ID mappings for user namespaces
// for a process and it is called from the parent process.
func writeUidGidMappings(pid int, sys *SysProcAttr) error {
/* TODO(xsw):
if sys.UidMappings != nil {
uidf := "/proc/" + itoa.Itoa(pid) + "/uid_map"
if err := writeIDMappings(uidf, sys.UidMappings); err != nil {
return err
}
}
if sys.GidMappings != nil {
// If the kernel is too old to support /proc/PID/setgroups, writeSetGroups will return ENOENT; this is OK.
if err := writeSetgroups(pid, sys.GidMappingsEnableSetgroups); err != nil && err != ENOENT {
return err
}
gidf := "/proc/" + itoa.Itoa(pid) + "/gid_map"
if err := writeIDMappings(gidf, sys.GidMappings); err != nil {
return err
}
}
return nil
*/
panic("todo: syscall.writeUidGidMappings")
}

283
internal/lib/syscall/exec_unix.go Normal file
View File

@@ -0,0 +1,283 @@
// 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.
//go:build unix
// Fork, exec, wait, etc.
package syscall
import (
"sync"
)
// ForkLock is used to synchronize creation of new file descriptors
// with fork.
//
// We want the child in a fork/exec sequence to inherit only the
// file descriptors we intend. To do that, we mark all file
// descriptors close-on-exec and then, in the child, explicitly
// unmark the ones we want the exec'ed program to keep.
// Unix doesn't make this easy: there is, in general, no way to
// allocate a new file descriptor close-on-exec. Instead you
// have to allocate the descriptor and then mark it close-on-exec.
// If a fork happens between those two events, the child's exec
// will inherit an unwanted file descriptor.
//
// This lock solves that race: the create new fd/mark close-on-exec
// operation is done holding ForkLock for reading, and the fork itself
// is done holding ForkLock for writing. At least, that's the idea.
// There are some complications.
//
// Some system calls that create new file descriptors can block
// for arbitrarily long times: open on a hung NFS server or named
// pipe, accept on a socket, and so on. We can't reasonably grab
// the lock across those operations.
//
// It is worse to inherit some file descriptors than others.
// If a non-malicious child accidentally inherits an open ordinary file,
// that's not a big deal. On the other hand, if a long-lived child
// accidentally inherits the write end of a pipe, then the reader
// of that pipe will not see EOF until that child exits, potentially
// causing the parent program to hang. This is a common problem
// in threaded C programs that use popen.
//
// Luckily, the file descriptors that are most important not to
// inherit are not the ones that can take an arbitrarily long time
// to create: pipe returns instantly, and the net package uses
// non-blocking I/O to accept on a listening socket.
// The rules for which file descriptor-creating operations use the
// ForkLock are as follows:
//
// - Pipe. Use pipe2 if available. Otherwise, does not block,
// so use ForkLock.
// - Socket. Use SOCK_CLOEXEC if available. Otherwise, does not
// block, so use ForkLock.
// - Open. Use O_CLOEXEC if available. Otherwise, may block,
// so live with the race.
// - Dup. Use F_DUPFD_CLOEXEC or dup3 if available. Otherwise,
// does not block, so use ForkLock.
var ForkLock sync.RWMutex
func CloseOnExec(fd int) {
/* TODO(xsw):
fcntl(fd, F_SETFD, FD_CLOEXEC)
*/
panic("todo: syscall.CloseOnExec")
}
func SetNonblock(fd int, nonblocking bool) (err error) {
/* TODO(xsw):
flag, err := fcntl(fd, F_GETFL, 0)
if err != nil {
return err
}
if nonblocking {
flag |= O_NONBLOCK
} else {
flag &^= O_NONBLOCK
}
_, err = fcntl(fd, F_SETFL, flag)
return err
*/
panic("todo: syscall.SetNonblock")
}
// Credential holds user and group identities to be assumed
// by a child process started by StartProcess.
type Credential struct {
Uid uint32 // User ID.
Gid uint32 // Group ID.
Groups []uint32 // Supplementary group IDs.
NoSetGroups bool // If true, don't set supplementary groups
}
// ProcAttr holds attributes that will be applied to a new process started
// by StartProcess.
type ProcAttr struct {
Dir string // Current working directory.
Env []string // Environment.
Files []uintptr // File descriptors.
Sys *SysProcAttr
}
var zeroProcAttr ProcAttr
var zeroSysProcAttr SysProcAttr
func forkExec(argv0 string, argv []string, attr *ProcAttr) (pid int, err error) {
/* TODO(xsw):
var p [2]int
var n int
var err1 Errno
var wstatus WaitStatus
if attr == nil {
attr = &zeroProcAttr
}
sys := attr.Sys
if sys == nil {
sys = &zeroSysProcAttr
}
// Convert args to C form.
argv0p, err := BytePtrFromString(argv0)
if err != nil {
return 0, err
}
argvp, err := SlicePtrFromStrings(argv)
if err != nil {
return 0, err
}
envvp, err := SlicePtrFromStrings(attr.Env)
if err != nil {
return 0, err
}
if (runtime.GOOS == "freebsd" || runtime.GOOS == "dragonfly") && len(argv) > 0 && len(argv[0]) > len(argv0) {
argvp[0] = argv0p
}
var chroot *byte
if sys.Chroot != "" {
chroot, err = BytePtrFromString(sys.Chroot)
if err != nil {
return 0, err
}
}
var dir *byte
if attr.Dir != "" {
dir, err = BytePtrFromString(attr.Dir)
if err != nil {
return 0, err
}
}
// Both Setctty and Foreground use the Ctty field,
// but they give it slightly different meanings.
if sys.Setctty && sys.Foreground {
return 0, errorspkg.New("both Setctty and Foreground set in SysProcAttr")
}
if sys.Setctty && sys.Ctty >= len(attr.Files) {
return 0, errorspkg.New("Setctty set but Ctty not valid in child")
}
acquireForkLock()
// Allocate child status pipe close on exec.
if err = forkExecPipe(p[:]); err != nil {
releaseForkLock()
return 0, err
}
// Kick off child.
pid, err1 = forkAndExecInChild(argv0p, argvp, envvp, chroot, dir, attr, sys, p[1])
if err1 != 0 {
Close(p[0])
Close(p[1])
releaseForkLock()
return 0, Errno(err1)
}
releaseForkLock()
// Read child error status from pipe.
Close(p[1])
for {
n, err = readlen(p[0], (*byte)(unsafe.Pointer(&err1)), int(unsafe.Sizeof(err1)))
if err != EINTR {
break
}
}
Close(p[0])
if err != nil || n != 0 {
if n == int(unsafe.Sizeof(err1)) {
err = Errno(err1)
}
if err == nil {
err = EPIPE
}
// Child failed; wait for it to exit, to make sure
// the zombies don't accumulate.
_, err1 := Wait4(pid, &wstatus, 0, nil)
for err1 == EINTR {
_, err1 = Wait4(pid, &wstatus, 0, nil)
}
return 0, err
}
// Read got EOF, so pipe closed on exec, so exec succeeded.
return pid, nil
*/
panic("todo: syscall.forkExec")
}
// Combination of fork and exec, careful to be thread safe.
func ForkExec(argv0 string, argv []string, attr *ProcAttr) (pid int, err error) {
return forkExec(argv0, argv, attr)
}
// StartProcess wraps ForkExec for package os.
func StartProcess(argv0 string, argv []string, attr *ProcAttr) (pid int, handle uintptr, err error) {
pid, err = forkExec(argv0, argv, attr)
return pid, 0, err
}
/* TODO(xsw):
// Implemented in runtime package.
func runtime_BeforeExec()
func runtime_AfterExec()
// execveLibc is non-nil on OS using libc syscall, set to execve in exec_libc.go; this
// avoids a build dependency for other platforms.
var execveLibc func(path uintptr, argv uintptr, envp uintptr) Errno
var execveDarwin func(path *byte, argv **byte, envp **byte) error
var execveOpenBSD func(path *byte, argv **byte, envp **byte) error
*/
// Exec invokes the execve(2) system call.
func Exec(argv0 string, argv []string, envv []string) (err error) {
/* TODO(xsw):
argv0p, err := BytePtrFromString(argv0)
if err != nil {
return err
}
argvp, err := SlicePtrFromStrings(argv)
if err != nil {
return err
}
envvp, err := SlicePtrFromStrings(envv)
if err != nil {
return err
}
runtime_BeforeExec()
rlim, rlimOK := origRlimitNofile.Load().(Rlimit)
if rlimOK && rlim.Cur != 0 {
Setrlimit(RLIMIT_NOFILE, &rlim)
}
var err1 error
if runtime.GOOS == "solaris" || runtime.GOOS == "illumos" || runtime.GOOS == "aix" {
// RawSyscall should never be used on Solaris, illumos, or AIX.
err1 = execveLibc(
uintptr(unsafe.Pointer(argv0p)),
uintptr(unsafe.Pointer(&argvp[0])),
uintptr(unsafe.Pointer(&envvp[0])))
} else if runtime.GOOS == "darwin" || runtime.GOOS == "ios" {
// Similarly on Darwin.
err1 = execveDarwin(argv0p, &argvp[0], &envvp[0])
} else if runtime.GOOS == "openbsd" && (runtime.GOARCH == "386" || runtime.GOARCH == "amd64" || runtime.GOARCH == "arm" || runtime.GOARCH == "arm64") {
// Similarly on OpenBSD.
err1 = execveOpenBSD(argv0p, &argvp[0], &envvp[0])
} else {
_, _, err1 = RawSyscall(SYS_EXECVE,
uintptr(unsafe.Pointer(argv0p)),
uintptr(unsafe.Pointer(&argvp[0])),
uintptr(unsafe.Pointer(&envvp[0])))
}
runtime_AfterExec()
return err1
*/
panic("todo: syscall.Exec")
}

50
internal/lib/syscall/syscall.go
View File

@@ -22,8 +22,40 @@ import (
"github.com/goplus/llgo/c"
"github.com/goplus/llgo/c/os"
"github.com/goplus/llgo/c/syscall"
)
type Timespec syscall.Timespec
type Timeval syscall.Timeval
// Unix returns the time stored in ts as seconds plus nanoseconds.
func (ts *Timespec) Unix() (sec int64, nsec int64) {
return int64(ts.Sec), int64(ts.Nsec)
}
// Unix returns the time stored in tv as seconds plus nanoseconds.
func (tv *Timeval) Unix() (sec int64, nsec int64) {
return int64(tv.Sec), int64(tv.Usec) * 1000
}
// Nano returns the time stored in ts as nanoseconds.
func (ts *Timespec) Nano() int64 {
return int64(ts.Sec)*1e9 + int64(ts.Nsec)
}
// Nano returns the time stored in tv as nanoseconds.
func (tv *Timeval) Nano() int64 {
return int64(tv.Sec)*1e9 + int64(tv.Usec)*1000
}
func Getpagesize() int {
panic("todo: syscall.Getpagesize")
}
func Exit(code int) {
os.Exit(c.Int(code))
}
func Getcwd(buf []byte) (n int, err error) {
ptr := unsafe.Pointer(unsafe.SliceData(buf))
ret := os.Getcwd(ptr, uintptr(len(buf)))
@@ -92,3 +124,21 @@ func Close(fd int) (err error) {
}
return Errno(os.Errno)
}
type Stat_t = syscall.Stat_t
func Lstat(path string, stat *Stat_t) (err error) {
ret := os.Lstat(c.AllocaCStr(path), stat)
if ret == 0 {
return nil
}
return Errno(os.Errno)
}
func Stat(path string, stat *Stat_t) (err error) {
ret := os.Stat(c.AllocaCStr(path), stat)
if ret == 0 {
return nil
}
return Errno(os.Errno)
}

503
internal/lib/syscall/syscall_bsd.go Normal file
View File

@@ -0,0 +1,503 @@
// 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.
//go:build darwin || dragonfly || freebsd || netbsd || openbsd
// BSD system call wrappers shared by *BSD based systems
// including OS X (Darwin) and FreeBSD. Like the other
// syscall_*.go files it is compiled as Go code but also
// used as input to mksyscall which parses the //sys
// lines and generates system call stubs.
package syscall
func Getgroups() (gids []int, err error) {
/* TODO(xsw):
n, err := getgroups(0, nil)
if err != nil {
return nil, err
}
if n == 0 {
return nil, nil
}
// Sanity check group count. Max is 16 on BSD.
if n < 0 || n > 1000 {
return nil, EINVAL
}
a := make([]_Gid_t, n)
n, err = getgroups(n, &a[0])
if err != nil {
return nil, err
}
gids = make([]int, n)
for i, v := range a[0:n] {
gids[i] = int(v)
}
return
*/
panic("todo: syscall.Getgroups")
}
func Setgroups(gids []int) (err error) {
/* TODO(xsw):
if len(gids) == 0 {
return setgroups(0, nil)
}
a := make([]_Gid_t, len(gids))
for i, v := range gids {
a[i] = _Gid_t(v)
}
return setgroups(len(a), &a[0])
*/
panic("todo: syscall.Setgroups")
}
func ReadDirent(fd int, buf []byte) (n int, err error) {
/* TODO(xsw):
// Final argument is (basep *uintptr) and the syscall doesn't take nil.
// 64 bits should be enough. (32 bits isn't even on 386). Since the
// actual system call is getdirentries64, 64 is a good guess.
// TODO(rsc): Can we use a single global basep for all calls?
var base = (*uintptr)(unsafe.Pointer(new(uint64)))
return Getdirentries(fd, buf, base)
*/
panic("todo: syscall.ReadDirent")
}
// Wait status is 7 bits at bottom, either 0 (exited),
// 0x7F (stopped), or a signal number that caused an exit.
// The 0x80 bit is whether there was a core dump.
// An extra number (exit code, signal causing a stop)
// is in the high bits.
type WaitStatus uint32
const (
mask = 0x7F
core = 0x80
shift = 8
exited = 0
stopped = 0x7F
)
func (w WaitStatus) Exited() bool { return w&mask == exited }
func (w WaitStatus) ExitStatus() int {
if w&mask != exited {
return -1
}
return int(w >> shift)
}
func (w WaitStatus) Signaled() bool { return w&mask != stopped && w&mask != 0 }
func (w WaitStatus) Signal() Signal {
sig := Signal(w & mask)
if sig == stopped || sig == 0 {
return -1
}
return sig
}
func (w WaitStatus) CoreDump() bool { return w.Signaled() && w&core != 0 }
func (w WaitStatus) Stopped() bool { return w&mask == stopped && Signal(w>>shift) != SIGSTOP }
func (w WaitStatus) Continued() bool { return w&mask == stopped && Signal(w>>shift) == SIGSTOP }
func (w WaitStatus) StopSignal() Signal {
if !w.Stopped() {
return -1
}
return Signal(w>>shift) & 0xFF
}
func (w WaitStatus) TrapCause() int { return -1 }
/* TODO(xsw):
func Wait4(pid int, wstatus *WaitStatus, options int, rusage *Rusage) (wpid int, err error) {
var status _C_int
wpid, err = wait4(pid, &status, options, rusage)
if wstatus != nil {
*wstatus = WaitStatus(status)
}
return
}
func (sa *SockaddrInet4) sockaddr() (unsafe.Pointer, _Socklen, error) {
if sa.Port < 0 || sa.Port > 0xFFFF {
return nil, 0, EINVAL
}
sa.raw.Len = SizeofSockaddrInet4
sa.raw.Family = AF_INET
p := (*[2]byte)(unsafe.Pointer(&sa.raw.Port))
p[0] = byte(sa.Port >> 8)
p[1] = byte(sa.Port)
sa.raw.Addr = sa.Addr
return unsafe.Pointer(&sa.raw), _Socklen(sa.raw.Len), nil
}
func (sa *SockaddrInet6) sockaddr() (unsafe.Pointer, _Socklen, error) {
if sa.Port < 0 || sa.Port > 0xFFFF {
return nil, 0, EINVAL
}
sa.raw.Len = SizeofSockaddrInet6
sa.raw.Family = AF_INET6
p := (*[2]byte)(unsafe.Pointer(&sa.raw.Port))
p[0] = byte(sa.Port >> 8)
p[1] = byte(sa.Port)
sa.raw.Scope_id = sa.ZoneId
sa.raw.Addr = sa.Addr
return unsafe.Pointer(&sa.raw), _Socklen(sa.raw.Len), nil
}
func (sa *SockaddrUnix) sockaddr() (unsafe.Pointer, _Socklen, error) {
name := sa.Name
n := len(name)
if n >= len(sa.raw.Path) || n == 0 {
return nil, 0, EINVAL
}
sa.raw.Len = byte(3 + n) // 2 for Family, Len; 1 for NUL
sa.raw.Family = AF_UNIX
for i := 0; i < n; i++ {
sa.raw.Path[i] = int8(name[i])
}
return unsafe.Pointer(&sa.raw), _Socklen(sa.raw.Len), nil
}
func (sa *SockaddrDatalink) sockaddr() (unsafe.Pointer, _Socklen, error) {
if sa.Index == 0 {
return nil, 0, EINVAL
}
sa.raw.Len = sa.Len
sa.raw.Family = AF_LINK
sa.raw.Index = sa.Index
sa.raw.Type = sa.Type
sa.raw.Nlen = sa.Nlen
sa.raw.Alen = sa.Alen
sa.raw.Slen = sa.Slen
sa.raw.Data = sa.Data
return unsafe.Pointer(&sa.raw), SizeofSockaddrDatalink, nil
}
func anyToSockaddr(rsa *RawSockaddrAny) (Sockaddr, error) {
switch rsa.Addr.Family {
case AF_LINK:
pp := (*RawSockaddrDatalink)(unsafe.Pointer(rsa))
sa := new(SockaddrDatalink)
sa.Len = pp.Len
sa.Family = pp.Family
sa.Index = pp.Index
sa.Type = pp.Type
sa.Nlen = pp.Nlen
sa.Alen = pp.Alen
sa.Slen = pp.Slen
sa.Data = pp.Data
return sa, nil
case AF_UNIX:
pp := (*RawSockaddrUnix)(unsafe.Pointer(rsa))
if pp.Len < 2 || pp.Len > SizeofSockaddrUnix {
return nil, EINVAL
}
sa := new(SockaddrUnix)
// Some BSDs include the trailing NUL in the length, whereas
// others do not. Work around this by subtracting the leading
// family and len. The path is then scanned to see if a NUL
// terminator still exists within the length.
n := int(pp.Len) - 2 // subtract leading Family, Len
for i := 0; i < n; i++ {
if pp.Path[i] == 0 {
// found early NUL; assume Len included the NUL
// or was overestimating.
n = i
break
}
}
sa.Name = string(unsafe.Slice((*byte)(unsafe.Pointer(&pp.Path[0])), n))
return sa, nil
case AF_INET:
pp := (*RawSockaddrInet4)(unsafe.Pointer(rsa))
sa := new(SockaddrInet4)
p := (*[2]byte)(unsafe.Pointer(&pp.Port))
sa.Port = int(p[0])<<8 + int(p[1])
sa.Addr = pp.Addr
return sa, nil
case AF_INET6:
pp := (*RawSockaddrInet6)(unsafe.Pointer(rsa))
sa := new(SockaddrInet6)
p := (*[2]byte)(unsafe.Pointer(&pp.Port))
sa.Port = int(p[0])<<8 + int(p[1])
sa.ZoneId = pp.Scope_id
sa.Addr = pp.Addr
return sa, nil
}
return nil, EAFNOSUPPORT
}
func Accept(fd int) (nfd int, sa Sockaddr, err error) {
var rsa RawSockaddrAny
var len _Socklen = SizeofSockaddrAny
nfd, err = accept(fd, &rsa, &len)
if err != nil {
return
}
if (runtime.GOOS == "darwin" || runtime.GOOS == "ios") && len == 0 {
// Accepted socket has no address.
// This is likely due to a bug in xnu kernels,
// where instead of ECONNABORTED error socket
// is accepted, but has no address.
Close(nfd)
return 0, nil, ECONNABORTED
}
sa, err = anyToSockaddr(&rsa)
if err != nil {
Close(nfd)
nfd = 0
}
return
}
func Getsockname(fd int) (sa Sockaddr, err error) {
var rsa RawSockaddrAny
var len _Socklen = SizeofSockaddrAny
if err = getsockname(fd, &rsa, &len); err != nil {
return
}
// TODO(jsing): DragonFly has a "bug" (see issue 3349), which should be
// reported upstream.
if runtime.GOOS == "dragonfly" && rsa.Addr.Family == AF_UNSPEC && rsa.Addr.Len == 0 {
rsa.Addr.Family = AF_UNIX
rsa.Addr.Len = SizeofSockaddrUnix
}
return anyToSockaddr(&rsa)
}
//sysnb socketpair(domain int, typ int, proto int, fd *[2]int32) (err error)
func GetsockoptByte(fd, level, opt int) (value byte, err error) {
var n byte
vallen := _Socklen(1)
err = getsockopt(fd, level, opt, unsafe.Pointer(&n), &vallen)
return n, err
}
func GetsockoptInet4Addr(fd, level, opt int) (value [4]byte, err error) {
vallen := _Socklen(4)
err = getsockopt(fd, level, opt, unsafe.Pointer(&value[0]), &vallen)
return value, err
}
func GetsockoptIPMreq(fd, level, opt int) (*IPMreq, error) {
var value IPMreq
vallen := _Socklen(SizeofIPMreq)
err := getsockopt(fd, level, opt, unsafe.Pointer(&value), &vallen)
return &value, err
}
func GetsockoptIPv6Mreq(fd, level, opt int) (*IPv6Mreq, error) {
var value IPv6Mreq
vallen := _Socklen(SizeofIPv6Mreq)
err := getsockopt(fd, level, opt, unsafe.Pointer(&value), &vallen)
return &value, err
}
func GetsockoptIPv6MTUInfo(fd, level, opt int) (*IPv6MTUInfo, error) {
var value IPv6MTUInfo
vallen := _Socklen(SizeofIPv6MTUInfo)
err := getsockopt(fd, level, opt, unsafe.Pointer(&value), &vallen)
return &value, err
}
func GetsockoptICMPv6Filter(fd, level, opt int) (*ICMPv6Filter, error) {
var value ICMPv6Filter
vallen := _Socklen(SizeofICMPv6Filter)
err := getsockopt(fd, level, opt, unsafe.Pointer(&value), &vallen)
return &value, err
}
//sys recvfrom(fd int, p []byte, flags int, from *RawSockaddrAny, fromlen *_Socklen) (n int, err error)
//sys sendto(s int, buf []byte, flags int, to unsafe.Pointer, addrlen _Socklen) (err error)
//sys recvmsg(s int, msg *Msghdr, flags int) (n int, err error)
func recvmsgRaw(fd int, p, oob []byte, flags int, rsa *RawSockaddrAny) (n, oobn int, recvflags int, err error) {
var msg Msghdr
msg.Name = (*byte)(unsafe.Pointer(rsa))
msg.Namelen = uint32(SizeofSockaddrAny)
var iov Iovec
if len(p) > 0 {
iov.Base = &p[0]
iov.SetLen(len(p))
}
var dummy byte
if len(oob) > 0 {
// receive at least one normal byte
if len(p) == 0 {
iov.Base = &dummy
iov.SetLen(1)
}
msg.Control = &oob[0]
msg.SetControllen(len(oob))
}
msg.Iov = &iov
msg.Iovlen = 1
if n, err = recvmsg(fd, &msg, flags); err != nil {
return
}
oobn = int(msg.Controllen)
recvflags = int(msg.Flags)
return
}
//sys sendmsg(s int, msg *Msghdr, flags int) (n int, err error)
func sendmsgN(fd int, p, oob []byte, ptr unsafe.Pointer, salen _Socklen, flags int) (n int, err error) {
var msg Msghdr
msg.Name = (*byte)(ptr)
msg.Namelen = uint32(salen)
var iov Iovec
if len(p) > 0 {
iov.Base = &p[0]
iov.SetLen(len(p))
}
var dummy byte
if len(oob) > 0 {
// send at least one normal byte
if len(p) == 0 {
iov.Base = &dummy
iov.SetLen(1)
}
msg.Control = &oob[0]
msg.SetControllen(len(oob))
}
msg.Iov = &iov
msg.Iovlen = 1
if n, err = sendmsg(fd, &msg, flags); err != nil {
return 0, err
}
if len(oob) > 0 && len(p) == 0 {
n = 0
}
return n, nil
}
//sys kevent(kq int, change unsafe.Pointer, nchange int, event unsafe.Pointer, nevent int, timeout *Timespec) (n int, err error)
func Kevent(kq int, changes, events []Kevent_t, timeout *Timespec) (n int, err error) {
var change, event unsafe.Pointer
if len(changes) > 0 {
change = unsafe.Pointer(&changes[0])
}
if len(events) > 0 {
event = unsafe.Pointer(&events[0])
}
return kevent(kq, change, len(changes), event, len(events), timeout)
}
func Sysctl(name string) (value string, err error) {
// Translate name to mib number.
mib, err := nametomib(name)
if err != nil {
return "", err
}
// Find size.
n := uintptr(0)
if err = sysctl(mib, nil, &n, nil, 0); err != nil {
return "", err
}
if n == 0 {
return "", nil
}
// Read into buffer of that size.
buf := make([]byte, n)
if err = sysctl(mib, &buf[0], &n, nil, 0); err != nil {
return "", err
}
// Throw away terminating NUL.
if n > 0 && buf[n-1] == '\x00' {
n--
}
return string(buf[0:n]), nil
}
func SysctlUint32(name string) (value uint32, err error) {
// Translate name to mib number.
mib, err := nametomib(name)
if err != nil {
return 0, err
}
// Read into buffer of that size.
n := uintptr(4)
buf := make([]byte, 4)
if err = sysctl(mib, &buf[0], &n, nil, 0); err != nil {
return 0, err
}
if n != 4 {
return 0, EIO
}
return *(*uint32)(unsafe.Pointer(&buf[0])), nil
}
//sys utimes(path string, timeval *[2]Timeval) (err error)
func Utimes(path string, tv []Timeval) (err error) {
if len(tv) != 2 {
return EINVAL
}
return utimes(path, (*[2]Timeval)(unsafe.Pointer(&tv[0])))
}
func UtimesNano(path string, ts []Timespec) error {
if len(ts) != 2 {
return EINVAL
}
err := utimensat(_AT_FDCWD, path, (*[2]Timespec)(unsafe.Pointer(&ts[0])), 0)
if err != ENOSYS {
return err
}
// Not as efficient as it could be because Timespec and
// Timeval have different types in the different OSes
tv := [2]Timeval{
NsecToTimeval(TimespecToNsec(ts[0])),
NsecToTimeval(TimespecToNsec(ts[1])),
}
return utimes(path, (*[2]Timeval)(unsafe.Pointer(&tv[0])))
}
//sys futimes(fd int, timeval *[2]Timeval) (err error)
func Futimes(fd int, tv []Timeval) (err error) {
if len(tv) != 2 {
return EINVAL
}
return futimes(fd, (*[2]Timeval)(unsafe.Pointer(&tv[0])))
}
//sys fcntl(fd int, cmd int, arg int) (val int, err error)
var mapper = &mmapper{
active: make(map[*byte][]byte),
mmap: mmap,
munmap: munmap,
}
func Mmap(fd int, offset int64, length int, prot int, flags int) (data []byte, err error) {
return mapper.Mmap(fd, offset, length, prot, flags)
}
func Munmap(b []byte) (err error) {
return mapper.Munmap(b)
}
*/

16
internal/lib/syscall/syscall_linux.go Normal file
View File

@@ -0,0 +1,16 @@
// 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.
// Linux system calls.
// This file is compiled as ordinary Go code,
// but it is also input to mksyscall,
// which parses the //sys lines and generates system call stubs.
// Note that sometimes we use a lowercase //sys name and
// wrap it in our own nicer implementation.
package syscall
func Faccessat(dirfd int, path string, mode uint32, flags int) (err error) {
panic("todo: syscall.Faccessat")
}

33
internal/lib/syscall/syscall_unix.go
View File

@@ -1,18 +1,8 @@
/*
* Copyright (c) 2024 The GoPlus Authors (goplus.org). All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
// 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.
//go:build unix
package syscall
@@ -20,7 +10,7 @@ import (
"unsafe"
"github.com/goplus/llgo/c"
"github.com/goplus/llgo/internal/lib/errors"
"github.com/goplus/llgo/internal/lib/internal/oserror"
)
var (
@@ -38,14 +28,15 @@ func (e Errno) Error() string {
func (e Errno) Is(target error) bool {
switch target {
case ErrPermission:
case oserror.ErrPermission:
return e == EACCES || e == EPERM
case ErrExist:
case oserror.ErrExist:
return e == EEXIST || e == ENOTEMPTY
case ErrNotExist:
case oserror.ErrNotExist:
return e == ENOENT
case errors.ErrUnsupported:
return e == ENOSYS || e == ENOTSUP || e == EOPNOTSUPP
// TODO(xsw): go1.21
// case errors.ErrUnsupported:
// return e == ENOSYS || e == ENOTSUP || e == EOPNOTSUPP
}
return false
}

30
internal/lib/time/time.go
View File

@@ -1021,6 +1021,36 @@ func unixTime(sec int64, nsec int32) Time {
return Time{uint64(nsec), sec + unixToInternal, Local}
}
// Unix returns the local Time corresponding to the given Unix time,
// sec seconds and nsec nanoseconds since January 1, 1970 UTC.
// It is valid to pass nsec outside the range [0, 999999999].
// Not all sec values have a corresponding time value. One such
// value is 1<<63-1 (the largest int64 value).
func Unix(sec int64, nsec int64) Time {
if nsec < 0 || nsec >= 1e9 {
n := nsec / 1e9
sec += n
nsec -= n * 1e9
if nsec < 0 {
nsec += 1e9
sec--
}
}
return unixTime(sec, int32(nsec))
}
// UnixMilli returns the local Time corresponding to the given Unix time,
// msec milliseconds since January 1, 1970 UTC.
func UnixMilli(msec int64) Time {
return Unix(msec/1e3, (msec%1e3)*1e6)
}
// UnixMicro returns the local Time corresponding to the given Unix time,
// usec microseconds since January 1, 1970 UTC.
func UnixMicro(usec int64) Time {
return Unix(usec/1e6, (usec%1e6)*1e3)
}
func isLeap(year int) bool {
return year%4 == 0 && (year%100 != 0 || year%400 == 0)
}