mirror of
https://github.com/golang/go
synced 2024-11-19 14:54:43 -07:00
424 lines
9.7 KiB
Go
424 lines
9.7 KiB
Go
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// Copyright 2009 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package runtime
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import "unsafe"
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//extern SigTabTT runtime·sigtab[];
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var sigset_none = uint32(0)
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var sigset_all = ^uint32(0)
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func unimplemented(name string) {
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println(name, "not implemented")
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*(*int)(unsafe.Pointer(uintptr(1231))) = 1231
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}
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//go:nosplit
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func semawakeup(mp *m) {
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mach_semrelease(uint32(mp.waitsema))
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}
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//go:nosplit
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func semacreate() uintptr {
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var x uintptr
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onM(func() {
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x = uintptr(mach_semcreate())
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})
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return x
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}
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// BSD interface for threading.
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func osinit() {
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// bsdthread_register delayed until end of goenvs so that we
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// can look at the environment first.
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// Use sysctl to fetch hw.ncpu.
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mib := [2]uint32{6, 3}
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out := uint32(0)
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nout := unsafe.Sizeof(out)
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ret := sysctl(&mib[0], 2, (*byte)(unsafe.Pointer(&out)), &nout, nil, 0)
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if ret >= 0 {
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ncpu = int32(out)
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}
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}
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var urandom_data [_HashRandomBytes]byte
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var urandom_dev = []byte("/dev/random\x00")
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//go:nosplit
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func get_random_data(rnd *unsafe.Pointer, rnd_len *int32) {
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fd := open(&urandom_dev[0], 0 /* O_RDONLY */, 0)
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if read(fd, unsafe.Pointer(&urandom_data), _HashRandomBytes) == _HashRandomBytes {
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*rnd = unsafe.Pointer(&urandom_data[0])
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*rnd_len = _HashRandomBytes
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} else {
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*rnd = nil
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*rnd_len = 0
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}
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close(fd)
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}
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func goenvs() {
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goenvs_unix()
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// Register our thread-creation callback (see sys_darwin_{amd64,386}.s)
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// but only if we're not using cgo. If we are using cgo we need
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// to let the C pthread library install its own thread-creation callback.
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if !iscgo {
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if bsdthread_register() != 0 {
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if gogetenv("DYLD_INSERT_LIBRARIES") != "" {
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gothrow("runtime: bsdthread_register error (unset DYLD_INSERT_LIBRARIES)")
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}
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gothrow("runtime: bsdthread_register error")
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}
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}
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}
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func newosproc(mp *m, stk unsafe.Pointer) {
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mp.tls[0] = uintptr(mp.id) // so 386 asm can find it
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if false {
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print("newosproc stk=", stk, " m=", mp, " g=", mp.g0, " id=", mp.id, "/", int(mp.tls[0]), " ostk=", &mp, "\n")
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}
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var oset uint32
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sigprocmask(_SIG_SETMASK, &sigset_all, &oset)
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errno := bsdthread_create(stk, mp, mp.g0, funcPC(mstart))
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sigprocmask(_SIG_SETMASK, &oset, nil)
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if errno < 0 {
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print("runtime: failed to create new OS thread (have ", mcount(), " already; errno=", -errno, ")\n")
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gothrow("runtime.newosproc")
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}
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}
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// Called to initialize a new m (including the bootstrap m).
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// Called on the parent thread (main thread in case of bootstrap), can allocate memory.
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func mpreinit(mp *m) {
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mp.gsignal = malg(32 * 1024) // OS X wants >= 8K
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mp.gsignal.m = mp
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}
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// Called to initialize a new m (including the bootstrap m).
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// Called on the new thread, can not allocate memory.
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func minit() {
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// Initialize signal handling.
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_g_ := getg()
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signalstack((*byte)(unsafe.Pointer(_g_.m.gsignal.stack.lo)), 32*1024)
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sigprocmask(_SIG_SETMASK, &sigset_none, nil)
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}
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// Called from dropm to undo the effect of an minit.
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func unminit() {
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signalstack(nil, 0)
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}
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// Mach IPC, to get at semaphores
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// Definitions are in /usr/include/mach on a Mac.
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func macherror(r int32, fn string) {
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print("mach error ", fn, ": ", r, "\n")
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gothrow("mach error")
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}
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const _DebugMach = false
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var zerondr machndr
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func mach_msgh_bits(a, b uint32) uint32 {
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return a | b<<8
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}
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func mach_msg(h *machheader, op int32, send_size, rcv_size, rcv_name, timeout, notify uint32) int32 {
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// TODO: Loop on interrupt.
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return mach_msg_trap(unsafe.Pointer(h), op, send_size, rcv_size, rcv_name, timeout, notify)
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}
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// Mach RPC (MIG)
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const (
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_MinMachMsg = 48
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_MachReply = 100
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)
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type codemsg struct {
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h machheader
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ndr machndr
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code int32
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}
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func machcall(h *machheader, maxsize int32, rxsize int32) int32 {
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_g_ := getg()
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port := _g_.m.machport
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if port == 0 {
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port = mach_reply_port()
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_g_.m.machport = port
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}
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h.msgh_bits |= mach_msgh_bits(_MACH_MSG_TYPE_COPY_SEND, _MACH_MSG_TYPE_MAKE_SEND_ONCE)
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h.msgh_local_port = port
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h.msgh_reserved = 0
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id := h.msgh_id
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if _DebugMach {
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p := (*[10000]unsafe.Pointer)(unsafe.Pointer(h))
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print("send:\t")
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var i uint32
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for i = 0; i < h.msgh_size/uint32(unsafe.Sizeof(p[0])); i++ {
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print(" ", p[i])
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if i%8 == 7 {
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print("\n\t")
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}
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}
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if i%8 != 0 {
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print("\n")
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}
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}
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ret := mach_msg(h, _MACH_SEND_MSG|_MACH_RCV_MSG, h.msgh_size, uint32(maxsize), port, 0, 0)
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if ret != 0 {
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if _DebugMach {
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print("mach_msg error ", ret, "\n")
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}
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return ret
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}
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if _DebugMach {
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p := (*[10000]unsafe.Pointer)(unsafe.Pointer(h))
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var i uint32
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for i = 0; i < h.msgh_size/uint32(unsafe.Sizeof(p[0])); i++ {
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print(" ", p[i])
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if i%8 == 7 {
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print("\n\t")
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}
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}
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if i%8 != 0 {
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print("\n")
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}
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}
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if h.msgh_id != id+_MachReply {
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if _DebugMach {
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print("mach_msg _MachReply id mismatch ", h.msgh_id, " != ", id+_MachReply, "\n")
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}
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return -303 // MIG_REPLY_MISMATCH
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}
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// Look for a response giving the return value.
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// Any call can send this back with an error,
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// and some calls only have return values so they
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// send it back on success too. I don't quite see how
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// you know it's one of these and not the full response
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// format, so just look if the message is right.
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c := (*codemsg)(unsafe.Pointer(h))
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if uintptr(h.msgh_size) == unsafe.Sizeof(*c) && h.msgh_bits&_MACH_MSGH_BITS_COMPLEX == 0 {
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if _DebugMach {
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print("mig result ", c.code, "\n")
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}
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return c.code
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}
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if h.msgh_size != uint32(rxsize) {
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if _DebugMach {
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print("mach_msg _MachReply size mismatch ", h.msgh_size, " != ", rxsize, "\n")
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}
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return -307 // MIG_ARRAY_TOO_LARGE
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}
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return 0
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}
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// Semaphores!
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const (
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tmach_semcreate = 3418
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rmach_semcreate = tmach_semcreate + _MachReply
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tmach_semdestroy = 3419
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rmach_semdestroy = tmach_semdestroy + _MachReply
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_KERN_ABORTED = 14
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_KERN_OPERATION_TIMED_OUT = 49
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)
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type tmach_semcreatemsg struct {
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h machheader
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ndr machndr
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policy int32
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value int32
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}
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type rmach_semcreatemsg struct {
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h machheader
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body machbody
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semaphore machport
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}
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type tmach_semdestroymsg struct {
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h machheader
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body machbody
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semaphore machport
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}
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func mach_semcreate() uint32 {
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var m [256]uint8
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tx := (*tmach_semcreatemsg)(unsafe.Pointer(&m))
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rx := (*rmach_semcreatemsg)(unsafe.Pointer(&m))
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tx.h.msgh_bits = 0
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tx.h.msgh_size = uint32(unsafe.Sizeof(*tx))
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tx.h.msgh_remote_port = mach_task_self()
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tx.h.msgh_id = tmach_semcreate
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tx.ndr = zerondr
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tx.policy = 0 // 0 = SYNC_POLICY_FIFO
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tx.value = 0
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for {
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r := machcall(&tx.h, int32(unsafe.Sizeof(m)), int32(unsafe.Sizeof(*rx)))
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if r == 0 {
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break
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}
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if r == _KERN_ABORTED { // interrupted
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continue
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}
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macherror(r, "semaphore_create")
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}
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if rx.body.msgh_descriptor_count != 1 {
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unimplemented("mach_semcreate desc count")
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}
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return rx.semaphore.name
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}
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func mach_semdestroy(sem uint32) {
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var m [256]uint8
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tx := (*tmach_semdestroymsg)(unsafe.Pointer(&m))
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tx.h.msgh_bits = _MACH_MSGH_BITS_COMPLEX
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tx.h.msgh_size = uint32(unsafe.Sizeof(*tx))
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tx.h.msgh_remote_port = mach_task_self()
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tx.h.msgh_id = tmach_semdestroy
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tx.body.msgh_descriptor_count = 1
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tx.semaphore.name = sem
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tx.semaphore.disposition = _MACH_MSG_TYPE_MOVE_SEND
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tx.semaphore._type = 0
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for {
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r := machcall(&tx.h, int32(unsafe.Sizeof(m)), 0)
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if r == 0 {
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break
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}
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if r == _KERN_ABORTED { // interrupted
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continue
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}
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macherror(r, "semaphore_destroy")
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}
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}
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// The other calls have simple system call traps in sys_darwin_{amd64,386}.s
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func mach_semaphore_wait(sema uint32) int32
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func mach_semaphore_timedwait(sema, sec, nsec uint32) int32
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func mach_semaphore_signal(sema uint32) int32
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func mach_semaphore_signal_all(sema uint32) int32
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func semasleep1(ns int64) int32 {
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_g_ := getg()
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if ns >= 0 {
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var nsecs int32
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secs := timediv(ns, 1000000000, &nsecs)
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r := mach_semaphore_timedwait(uint32(_g_.m.waitsema), uint32(secs), uint32(nsecs))
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if r == _KERN_ABORTED || r == _KERN_OPERATION_TIMED_OUT {
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return -1
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}
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if r != 0 {
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macherror(r, "semaphore_wait")
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}
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return 0
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}
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for {
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r := mach_semaphore_wait(uint32(_g_.m.waitsema))
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if r == 0 {
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break
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}
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if r == _KERN_ABORTED { // interrupted
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continue
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}
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macherror(r, "semaphore_wait")
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}
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return 0
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}
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//go:nosplit
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func semasleep(ns int64) int32 {
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var r int32
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onM(func() {
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r = semasleep1(ns)
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})
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return r
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}
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//go:nosplit
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func mach_semrelease(sem uint32) {
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for {
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r := mach_semaphore_signal(sem)
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if r == 0 {
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break
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}
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if r == _KERN_ABORTED { // interrupted
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continue
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}
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// mach_semrelease must be completely nosplit,
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// because it is called from Go code.
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// If we're going to die, start that process on the m stack
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// to avoid a Go stack split.
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onM_signalok(func() { macherror(r, "semaphore_signal") })
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}
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}
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//go:nosplit
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func osyield() {
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usleep(1)
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}
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func memlimit() uintptr {
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// NOTE(rsc): Could use getrlimit here,
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// like on FreeBSD or Linux, but Darwin doesn't enforce
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// ulimit -v, so it's unclear why we'd try to stay within
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// the limit.
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return 0
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}
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func setsig(i int32, fn uintptr, restart bool) {
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var sa sigactiont
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memclr(unsafe.Pointer(&sa), unsafe.Sizeof(sa))
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sa.sa_flags = _SA_SIGINFO | _SA_ONSTACK
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if restart {
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sa.sa_flags |= _SA_RESTART
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}
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sa.sa_mask = ^uint32(0)
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sa.sa_tramp = unsafe.Pointer(funcPC(sigtramp)) // runtime·sigtramp's job is to call into real handler
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*(*uintptr)(unsafe.Pointer(&sa.__sigaction_u)) = fn
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sigaction(uint32(i), &sa, nil)
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}
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func getsig(i int32) uintptr {
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var sa sigactiont
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memclr(unsafe.Pointer(&sa), unsafe.Sizeof(sa))
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sigaction(uint32(i), nil, &sa)
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return *(*uintptr)(unsafe.Pointer(&sa.__sigaction_u))
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}
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func signalstack(p *byte, n int32) {
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var st stackt
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st.ss_sp = p
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st.ss_size = uintptr(n)
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st.ss_flags = 0
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if p == nil {
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st.ss_flags = _SS_DISABLE
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}
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sigaltstack(&st, nil)
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}
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func unblocksignals() {
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|
sigprocmask(_SIG_SETMASK, &sigset_none, nil)
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}
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