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// 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.
// This file contains main runtime AIX syscalls.
// Pollset syscalls are in netpoll_aix.go.
// The implementation is based on Solaris and Windows.
// Each syscall is made by calling its libc symbol using asmcgocall and asmsyscall6
// assembly functions.
package runtime
import (
"unsafe"
)
// Symbols imported for __start function.
//go:cgo_import_dynamic libc___n_pthreads __n_pthreads "libpthread.a/shr_xpg5_64.o"
//go:cgo_import_dynamic libc___mod_init __mod_init "libc.a/shr_64.o"
//go:linkname libc___n_pthreads libc___n_pthread
//go:linkname libc___mod_init libc___mod_init
var (
libc___n_pthread,
libc___mod_init libFunc
)
// Syscalls
//go:cgo_import_dynamic libc__Errno _Errno "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_clock_gettime clock_gettime "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_close close "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_exit exit "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_getpid getpid "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_getsystemcfg getsystemcfg "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_kill kill "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_madvise madvise "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_malloc malloc "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_mmap mmap "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_munmap munmap "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_open open "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_pipe pipe "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_raise raise "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_read read "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_sched_yield sched_yield "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_sem_init sem_init "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_sem_post sem_post "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_sem_timedwait sem_timedwait "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_sem_wait sem_wait "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_setitimer setitimer "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_sigaction sigaction "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_sigaltstack sigaltstack "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_sysconf sysconf "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_usleep usleep "libc.a/shr_64.o"
//go:cgo_import_dynamic libc_write write "libc.a/shr_64.o"
//go:cgo_import_dynamic libpthread___pth_init __pth_init "libpthread.a/shr_xpg5_64.o"
//go:cgo_import_dynamic libpthread_attr_destroy pthread_attr_destroy "libpthread.a/shr_xpg5_64.o"
//go:cgo_import_dynamic libpthread_attr_init pthread_attr_init "libpthread.a/shr_xpg5_64.o"
//go:cgo_import_dynamic libpthread_attr_getstacksize pthread_attr_getstacksize "libpthread.a/shr_xpg5_64.o"
//go:cgo_import_dynamic libpthread_attr_setstacksize pthread_attr_setstacksize "libpthread.a/shr_xpg5_64.o"
//go:cgo_import_dynamic libpthread_attr_setdetachstate pthread_attr_setdetachstate "libpthread.a/shr_xpg5_64.o"
//go:cgo_import_dynamic libpthread_attr_setstackaddr pthread_attr_setstackaddr "libpthread.a/shr_xpg5_64.o"
//go:cgo_import_dynamic libpthread_create pthread_create "libpthread.a/shr_xpg5_64.o"
//go:cgo_import_dynamic libpthread_sigthreadmask sigthreadmask "libpthread.a/shr_xpg5_64.o"
//go:linkname libc__Errno libc__Errno
//go:linkname libc_clock_gettime libc_clock_gettime
//go:linkname libc_close libc_close
//go:linkname libc_exit libc_exit
//go:linkname libc_getpid libc_getpid
//go:linkname libc_getsystemcfg libc_getsystemcfg
//go:linkname libc_kill libc_kill
//go:linkname libc_madvise libc_madvise
//go:linkname libc_malloc libc_malloc
//go:linkname libc_mmap libc_mmap
//go:linkname libc_munmap libc_munmap
//go:linkname libc_open libc_open
//go:linkname libc_pipe libc_pipe
//go:linkname libc_raise libc_raise
//go:linkname libc_read libc_read
//go:linkname libc_sched_yield libc_sched_yield
//go:linkname libc_sem_init libc_sem_init
//go:linkname libc_sem_post libc_sem_post
//go:linkname libc_sem_timedwait libc_sem_timedwait
//go:linkname libc_sem_wait libc_sem_wait
//go:linkname libc_setitimer libc_setitimer
//go:linkname libc_sigaction libc_sigaction
//go:linkname libc_sigaltstack libc_sigaltstack
//go:linkname libc_sysconf libc_sysconf
//go:linkname libc_usleep libc_usleep
//go:linkname libc_write libc_write
//go:linkname libpthread___pth_init libpthread___pth_init
//go:linkname libpthread_attr_destroy libpthread_attr_destroy
//go:linkname libpthread_attr_init libpthread_attr_init
//go:linkname libpthread_attr_getstacksize libpthread_attr_getstacksize
//go:linkname libpthread_attr_setstacksize libpthread_attr_setstacksize
//go:linkname libpthread_attr_setdetachstate libpthread_attr_setdetachstate
//go:linkname libpthread_attr_setstackaddr libpthread_attr_setstackaddr
//go:linkname libpthread_create libpthread_create
//go:linkname libpthread_sigthreadmask libpthread_sigthreadmask
var (
//libc
libc__Errno,
libc_clock_gettime,
libc_close,
libc_exit,
libc_getpid,
libc_getsystemcfg,
libc_kill,
libc_madvise,
libc_malloc,
libc_mmap,
libc_munmap,
libc_open,
libc_pipe,
libc_raise,
libc_read,
libc_sched_yield,
libc_sem_init,
libc_sem_post,
libc_sem_timedwait,
libc_sem_wait,
libc_setitimer,
libc_sigaction,
libc_sigaltstack,
libc_sysconf,
libc_usleep,
libc_write,
//libpthread
libpthread___pth_init,
libpthread_attr_destroy,
libpthread_attr_init,
libpthread_attr_getstacksize,
libpthread_attr_setstacksize,
libpthread_attr_setdetachstate,
libpthread_attr_setstackaddr,
libpthread_create,
libpthread_sigthreadmask libFunc
)
type libFunc uintptr
// asmsyscall6 calls the libc symbol using a C convention.
// It's defined in sys_aix_ppc64.go.
var asmsyscall6 libFunc
// syscallX functions must always be called with g != nil and m != nil,
// as it relies on g.m.libcall to pass arguments to asmcgocall.
// The few cases where syscalls haven't a g or a m must call their equivalent
// function in sys_aix_ppc64.s to handle them.
//go:nowritebarrier
//go:nosplit
func syscall0(fn *libFunc) (r, err uintptr) {
gp := getg()
mp := gp.m
resetLibcall := true
if mp.libcallsp == 0 {
mp.libcallg.set(gp)
mp.libcallpc = getcallerpc()
// sp must be the last, because once async cpu profiler finds
// all three values to be non-zero, it will use them
mp.libcallsp = getcallersp()
} else {
resetLibcall = false // See comment in sys_darwin.go:libcCall
}
c := libcall{
fn: uintptr(unsafe.Pointer(fn)),
n: 0,
args: uintptr(unsafe.Pointer(&fn)), // it's unused but must be non-nil, otherwise crashes
}
asmcgocall(unsafe.Pointer(&asmsyscall6), unsafe.Pointer(&c))
if resetLibcall {
mp.libcallsp = 0
}
return c.r1, c.err
}
//go:nowritebarrier
//go:nosplit
func syscall1(fn *libFunc, a0 uintptr) (r, err uintptr) {
gp := getg()
mp := gp.m
resetLibcall := true
if mp.libcallsp == 0 {
mp.libcallg.set(gp)
mp.libcallpc = getcallerpc()
// sp must be the last, because once async cpu profiler finds
// all three values to be non-zero, it will use them
mp.libcallsp = getcallersp()
} else {
resetLibcall = false // See comment in sys_darwin.go:libcCall
}
c := libcall{
fn: uintptr(unsafe.Pointer(fn)),
n: 1,
args: uintptr(unsafe.Pointer(&a0)),
}
asmcgocall(unsafe.Pointer(&asmsyscall6), unsafe.Pointer(&c))
if resetLibcall {
mp.libcallsp = 0
}
return c.r1, c.err
}
//go:nowritebarrier
//go:nosplit
//go:cgo_unsafe_args
func syscall2(fn *libFunc, a0, a1 uintptr) (r, err uintptr) {
gp := getg()
mp := gp.m
resetLibcall := true
if mp.libcallsp == 0 {
mp.libcallg.set(gp)
mp.libcallpc = getcallerpc()
// sp must be the last, because once async cpu profiler finds
// all three values to be non-zero, it will use them
mp.libcallsp = getcallersp()
} else {
resetLibcall = false // See comment in sys_darwin.go:libcCall
}
c := libcall{
fn: uintptr(unsafe.Pointer(fn)),
n: 2,
args: uintptr(unsafe.Pointer(&a0)),
}
asmcgocall(unsafe.Pointer(&asmsyscall6), unsafe.Pointer(&c))
if resetLibcall {
mp.libcallsp = 0
}
return c.r1, c.err
}
//go:nowritebarrier
//go:nosplit
//go:cgo_unsafe_args
func syscall3(fn *libFunc, a0, a1, a2 uintptr) (r, err uintptr) {
gp := getg()
mp := gp.m
resetLibcall := true
if mp.libcallsp == 0 {
mp.libcallg.set(gp)
mp.libcallpc = getcallerpc()
// sp must be the last, because once async cpu profiler finds
// all three values to be non-zero, it will use them
mp.libcallsp = getcallersp()
} else {
resetLibcall = false // See comment in sys_darwin.go:libcCall
}
c := libcall{
fn: uintptr(unsafe.Pointer(fn)),
n: 3,
args: uintptr(unsafe.Pointer(&a0)),
}
asmcgocall(unsafe.Pointer(&asmsyscall6), unsafe.Pointer(&c))
if resetLibcall {
mp.libcallsp = 0
}
return c.r1, c.err
}
//go:nowritebarrier
//go:nosplit
//go:cgo_unsafe_args
func syscall4(fn *libFunc, a0, a1, a2, a3 uintptr) (r, err uintptr) {
gp := getg()
mp := gp.m
resetLibcall := true
if mp.libcallsp == 0 {
mp.libcallg.set(gp)
mp.libcallpc = getcallerpc()
// sp must be the last, because once async cpu profiler finds
// all three values to be non-zero, it will use them
mp.libcallsp = getcallersp()
} else {
resetLibcall = false // See comment in sys_darwin.go:libcCall
}
c := libcall{
fn: uintptr(unsafe.Pointer(fn)),
n: 4,
args: uintptr(unsafe.Pointer(&a0)),
}
asmcgocall(unsafe.Pointer(&asmsyscall6), unsafe.Pointer(&c))
if resetLibcall {
mp.libcallsp = 0
}
return c.r1, c.err
}
//go:nowritebarrier
//go:nosplit
//go:cgo_unsafe_args
func syscall5(fn *libFunc, a0, a1, a2, a3, a4 uintptr) (r, err uintptr) {
gp := getg()
mp := gp.m
resetLibcall := true
if mp.libcallsp == 0 {
mp.libcallg.set(gp)
mp.libcallpc = getcallerpc()
// sp must be the last, because once async cpu profiler finds
// all three values to be non-zero, it will use them
mp.libcallsp = getcallersp()
} else {
resetLibcall = false // See comment in sys_darwin.go:libcCall
}
c := libcall{
fn: uintptr(unsafe.Pointer(fn)),
n: 5,
args: uintptr(unsafe.Pointer(&a0)),
}
asmcgocall(unsafe.Pointer(&asmsyscall6), unsafe.Pointer(&c))
if resetLibcall {
mp.libcallsp = 0
}
return c.r1, c.err
}
//go:nowritebarrier
//go:nosplit
//go:cgo_unsafe_args
func syscall6(fn *libFunc, a0, a1, a2, a3, a4, a5 uintptr) (r, err uintptr) {
gp := getg()
mp := gp.m
resetLibcall := true
if mp.libcallsp == 0 {
mp.libcallg.set(gp)
mp.libcallpc = getcallerpc()
// sp must be the last, because once async cpu profiler finds
// all three values to be non-zero, it will use them
mp.libcallsp = getcallersp()
} else {
resetLibcall = false // See comment in sys_darwin.go:libcCall
}
c := libcall{
fn: uintptr(unsafe.Pointer(fn)),
n: 6,
args: uintptr(unsafe.Pointer(&a0)),
}
asmcgocall(unsafe.Pointer(&asmsyscall6), unsafe.Pointer(&c))
if resetLibcall {
mp.libcallsp = 0
}
return c.r1, c.err
}
func exit1(code int32)
//go:nosplit
func exit(code int32) {
_g_ := getg()
// Check the validity of g because without a g during
// newosproc0.
if _g_ != nil {
syscall1(&libc_exit, uintptr(code))
return
}
exit1(code)
}
func write2(fd, p uintptr, n int32) int32
//go:nosplit
func write1(fd uintptr, p unsafe.Pointer, n int32) int32 {
_g_ := getg()
// Check the validity of g because without a g during
// newosproc0.
if _g_ != nil {
r, _ := syscall3(&libc_write, uintptr(fd), uintptr(p), uintptr(n))
return int32(r)
}
return write2(fd, uintptr(p), n)
}
//go:nosplit
func read(fd int32, p unsafe.Pointer, n int32) int32 {
r, _ := syscall3(&libc_read, uintptr(fd), uintptr(p), uintptr(n))
return int32(r)
}
//go:nosplit
func open(name *byte, mode, perm int32) int32 {
r, _ := syscall3(&libc_open, uintptr(unsafe.Pointer(name)), uintptr(mode), uintptr(perm))
return int32(r)
}
//go:nosplit
func closefd(fd int32) int32 {
r, _ := syscall1(&libc_close, uintptr(fd))
return int32(r)
}
//go:nosplit
func pipe(fd *int32) int32 {
r, _ := syscall1(&libc_pipe, uintptr(unsafe.Pointer(fd)))
return int32(r)
}
// mmap calls the mmap system call.
// We only pass the lower 32 bits of file offset to the
// assembly routine; the higher bits (if required), should be provided
// by the assembly routine as 0.
// The err result is an OS error code such as ENOMEM.
//go:nosplit
func mmap(addr unsafe.Pointer, n uintptr, prot, flags, fd int32, off uint32) (unsafe.Pointer, int) {
r, err0 := syscall6(&libc_mmap, uintptr(addr), uintptr(n), uintptr(prot), uintptr(flags), uintptr(fd), uintptr(off))
if r == ^uintptr(0) {
return nil, int(err0)
}
return unsafe.Pointer(r), int(err0)
}
//go:nosplit
func munmap(addr unsafe.Pointer, n uintptr) {
r, err := syscall2(&libc_munmap, uintptr(addr), uintptr(n))
if int32(r) == -1 {
println("syscall munmap failed: ", hex(err))
throw("syscall munmap")
}
}
//go:nosplit
func madvise(addr unsafe.Pointer, n uintptr, flags int32) {
r, err := syscall3(&libc_madvise, uintptr(addr), uintptr(n), uintptr(flags))
if int32(r) == -1 {
println("syscall madvise failed: ", hex(err))
throw("syscall madvise")
}
}
func sigaction1(sig, new, old uintptr)
//go:nosplit
func sigaction(sig uintptr, new, old *sigactiont) {
_g_ := getg()
// Check the validity of g because without a g during
// runtime.libpreinit.
if _g_ != nil {
r, err := syscall3(&libc_sigaction, sig, uintptr(unsafe.Pointer(new)), uintptr(unsafe.Pointer(old)))
if int32(r) == -1 {
println("Sigaction failed for sig: ", sig, " with error:", hex(err))
throw("syscall sigaction")
}
return
}
sigaction1(sig, uintptr(unsafe.Pointer(new)), uintptr(unsafe.Pointer(old)))
}
//go:nosplit
func sigaltstack(new, old *stackt) {
r, err := syscall2(&libc_sigaltstack, uintptr(unsafe.Pointer(new)), uintptr(unsafe.Pointer(old)))
if int32(r) == -1 {
println("syscall sigaltstack failed: ", hex(err))
throw("syscall sigaltstack")
}
}
//go:nosplit
func getsystemcfg(label uint) uintptr {
r, _ := syscall1(&libc_getsystemcfg, uintptr(label))
return r
}
func usleep1(us uint32)
//go:nosplit
func usleep(us uint32) {
_g_ := getg()
// Check the validity of m because we might be called in cgo callback
// path early enough where there isn't a g or a m available yet.
if _g_ != nil && _g_.m != nil {
r, err := syscall1(&libc_usleep, uintptr(us))
if int32(r) == -1 {
println("syscall usleep failed: ", hex(err))
throw("syscall usleep")
}
return
}
usleep1(us)
}
//go:nosplit
func clock_gettime(clockid int32, tp *timespec) int32 {
r, _ := syscall2(&libc_clock_gettime, uintptr(clockid), uintptr(unsafe.Pointer(tp)))
return int32(r)
}
//go:nosplit
func setitimer(mode int32, new, old *itimerval) {
r, err := syscall3(&libc_setitimer, uintptr(mode), uintptr(unsafe.Pointer(new)), uintptr(unsafe.Pointer(old)))
if int32(r) == -1 {
println("syscall setitimer failed: ", hex(err))
throw("syscall setitimer")
}
}
//go:nosplit
func malloc(size uintptr) unsafe.Pointer {
r, _ := syscall1(&libc_malloc, size)
return unsafe.Pointer(r)
}
//go:nosplit
func sem_init(sem *semt, pshared int32, value uint32) int32 {
r, _ := syscall3(&libc_sem_init, uintptr(unsafe.Pointer(sem)), uintptr(pshared), uintptr(value))
return int32(r)
}
//go:nosplit
func sem_wait(sem *semt) (int32, int32) {
r, err := syscall1(&libc_sem_wait, uintptr(unsafe.Pointer(sem)))
return int32(r), int32(err)
}
//go:nosplit
func sem_post(sem *semt) int32 {
r, _ := syscall1(&libc_sem_post, uintptr(unsafe.Pointer(sem)))
return int32(r)
}
//go:nosplit
func sem_timedwait(sem *semt, timeout *timespec) (int32, int32) {
r, err := syscall2(&libc_sem_timedwait, uintptr(unsafe.Pointer(sem)), uintptr(unsafe.Pointer(timeout)))
return int32(r), int32(err)
}
//go:nosplit
func raise(sig uint32) {
r, err := syscall1(&libc_raise, uintptr(sig))
if int32(r) == -1 {
println("syscall raise failed: ", hex(err))
throw("syscall raise")
}
}
//go:nosplit
func raiseproc(sig uint32) {
pid, err := syscall0(&libc_getpid)
if int32(pid) == -1 {
println("syscall getpid failed: ", hex(err))
throw("syscall raiseproc")
}
syscall2(&libc_kill, pid, uintptr(sig))
}
func osyield1()
//go:nosplit
func osyield() {
_g_ := getg()
// Check the validity of m because it might be called during a cgo
// callback early enough where m isn't available yet.
if _g_ != nil && _g_.m != nil {
r, err := syscall0(&libc_sched_yield)
if int32(r) == -1 {
println("syscall osyield failed: ", hex(err))
throw("syscall osyield")
}
return
}
osyield1()
}
//go:nosplit
func sysconf(name int32) uintptr {
r, _ := syscall1(&libc_sysconf, uintptr(name))
if int32(r) == -1 {
throw("syscall sysconf")
}
return r
}
// pthread functions returns its error code in the main return value
// Therefore, err returns by syscall means nothing and must not be used
//go:nosplit
func pthread_attr_destroy(attr *pthread_attr) int32 {
r, _ := syscall1(&libpthread_attr_destroy, uintptr(unsafe.Pointer(attr)))
return int32(r)
}
func pthread_attr_init1(attr uintptr) int32
//go:nosplit
func pthread_attr_init(attr *pthread_attr) int32 {
_g_ := getg()
// Check the validity of g because without a g during
// newosproc0.
if _g_ != nil {
r, _ := syscall1(&libpthread_attr_init, uintptr(unsafe.Pointer(attr)))
return int32(r)
}
return pthread_attr_init1(uintptr(unsafe.Pointer(attr)))
}
func pthread_attr_setdetachstate1(attr uintptr, state int32) int32
//go:nosplit
func pthread_attr_setdetachstate(attr *pthread_attr, state int32) int32 {
_g_ := getg()
// Check the validity of g because without a g during
// newosproc0.
if _g_ != nil {
r, _ := syscall2(&libpthread_attr_setdetachstate, uintptr(unsafe.Pointer(attr)), uintptr(state))
return int32(r)
}
return pthread_attr_setdetachstate1(uintptr(unsafe.Pointer(attr)), state)
}
//go:nosplit
func pthread_attr_setstackaddr(attr *pthread_attr, stk unsafe.Pointer) int32 {
r, _ := syscall2(&libpthread_attr_setstackaddr, uintptr(unsafe.Pointer(attr)), uintptr(stk))
return int32(r)
}
//go:nosplit
func pthread_attr_getstacksize(attr *pthread_attr, size *uint64) int32 {
r, _ := syscall2(&libpthread_attr_getstacksize, uintptr(unsafe.Pointer(attr)), uintptr(unsafe.Pointer(size)))
return int32(r)
}
func pthread_attr_setstacksize1(attr uintptr, size uint64) int32
//go:nosplit
func pthread_attr_setstacksize(attr *pthread_attr, size uint64) int32 {
_g_ := getg()
// Check the validity of g because without a g during
// newosproc0.
if _g_ != nil {
r, _ := syscall2(&libpthread_attr_setstacksize, uintptr(unsafe.Pointer(attr)), uintptr(size))
return int32(r)
}
return pthread_attr_setstacksize1(uintptr(unsafe.Pointer(attr)), size)
}
func pthread_create1(tid, attr, fn, arg uintptr) int32
//go:nosplit
func pthread_create(tid *pthread, attr *pthread_attr, fn *funcDescriptor, arg unsafe.Pointer) int32 {
_g_ := getg()
// Check the validity of g because without a g during
// newosproc0.
if _g_ != nil {
r, _ := syscall4(&libpthread_create, uintptr(unsafe.Pointer(tid)), uintptr(unsafe.Pointer(attr)), uintptr(unsafe.Pointer(fn)), uintptr(arg))
return int32(r)
}
return pthread_create1(uintptr(unsafe.Pointer(tid)), uintptr(unsafe.Pointer(attr)), uintptr(unsafe.Pointer(fn)), uintptr(arg))
}
// On multi-thread program, sigprocmask must not be called.
// It's replaced by sigthreadmask.
func sigprocmask1(how, new, old uintptr)
//go:nosplit
func sigprocmask(how int32, new, old *sigset) {
_g_ := getg()
// Check the validity of m because it might be called during a cgo
// callback early enough where m isn't available yet.
if _g_ != nil && _g_.m != nil {
r, err := syscall3(&libpthread_sigthreadmask, uintptr(how), uintptr(unsafe.Pointer(new)), uintptr(unsafe.Pointer(old)))
if int32(r) != 0 {
println("syscall sigthreadmask failed: ", hex(err))
throw("syscall sigthreadmask")
}
return
}
sigprocmask1(uintptr(how), uintptr(unsafe.Pointer(new)), uintptr(unsafe.Pointer(old)))
}
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