2016-03-01 15:57:46 -07:00
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// Copyright 2010 The Go Authors. All rights reserved.
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2014-11-21 11:39:01 -07:00
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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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2015-11-11 10:39:30 -07:00
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import (
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"runtime/internal/sys"
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"unsafe"
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)
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2014-11-21 11:39:01 -07:00
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2015-03-24 09:51:24 -06:00
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// May run during STW, so write barriers are not allowed.
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2015-11-17 15:20:38 -07:00
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//
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//go:nowritebarrierrec
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2014-11-21 11:39:01 -07:00
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func sighandler(_ureg *ureg, note *byte, gp *g) int {
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_g_ := getg()
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var t sigTabT
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var docrash bool
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var sig int
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var flags int
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2015-10-30 09:03:02 -06:00
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var level int32
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2014-11-21 11:39:01 -07:00
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2014-12-18 06:05:44 -07:00
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c := &sigctxt{_ureg}
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2015-02-12 20:09:12 -07:00
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notestr := gostringnocopy(note)
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2014-12-18 06:05:44 -07:00
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2014-11-21 11:39:01 -07:00
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// The kernel will never pass us a nil note or ureg so we probably
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// made a mistake somewhere in sigtramp.
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if _ureg == nil || note == nil {
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print("sighandler: ureg ", _ureg, " note ", note, "\n")
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goto Throw
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}
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// Check that the note is no more than ERRMAX bytes (including
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// the trailing NUL). We should never receive a longer note.
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2015-02-12 20:09:12 -07:00
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if len(notestr) > _ERRMAX-1 {
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2014-11-21 11:39:01 -07:00
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print("sighandler: note is longer than ERRMAX\n")
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goto Throw
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}
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// See if the note matches one of the patterns in sigtab.
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// Notes that do not match any pattern can be handled at a higher
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// level by the program but will otherwise be ignored.
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flags = _SigNotify
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for sig, t = range sigtable {
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2015-02-12 20:09:12 -07:00
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if hasprefix(notestr, t.name) {
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2014-11-21 11:39:01 -07:00
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flags = t.flags
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break
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}
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}
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if flags&_SigGoExit != 0 {
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exits((*byte)(add(unsafe.Pointer(note), 9))) // Strip "go: exit " prefix.
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}
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if flags&_SigPanic != 0 {
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// Copy the error string from sigtramp's stack into m->notesig so
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// we can reliably access it from the panic routines.
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2015-02-12 20:09:12 -07:00
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memmove(unsafe.Pointer(_g_.m.notesig), unsafe.Pointer(note), uintptr(len(notestr)+1))
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2014-11-21 11:39:01 -07:00
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gp.sig = uint32(sig)
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2014-12-18 06:05:44 -07:00
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gp.sigpc = c.pc()
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2015-07-28 12:48:10 -06:00
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2016-02-29 16:01:00 -07:00
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pc := c.pc()
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sp := c.sp()
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2015-07-28 12:48:10 -06:00
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// If we don't recognize the PC as code
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// but we do recognize the top pointer on the stack as code,
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// then assume this was a call to non-code and treat like
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// pc == 0, to make unwinding show the context.
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2017-02-20 20:37:07 -07:00
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if pc != 0 && !findfunc(pc).valid() && findfunc(*(*uintptr)(unsafe.Pointer(sp))).valid() {
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2015-07-28 12:48:10 -06:00
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pc = 0
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}
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2016-01-27 11:43:36 -07:00
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// IF LR exists, sigpanictramp must save it to the stack
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// before entry to sigpanic so that panics in leaf
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// functions are correctly handled. This will smash
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// the stack frame but we're not going back there
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// anyway.
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if usesLR {
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c.savelr(c.lr())
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}
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2014-11-21 11:39:01 -07:00
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// If PC == 0, probably panicked because of a call to a nil func.
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2016-01-27 11:43:36 -07:00
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// Not faking that as the return address will make the trace look like a call
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2014-11-21 11:39:01 -07:00
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// to sigpanic instead. (Otherwise the trace will end at
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// sigpanic and we won't get to see who faulted).
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2015-07-28 12:48:10 -06:00
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if pc != 0 {
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2016-01-27 11:43:36 -07:00
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if usesLR {
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c.setlr(pc)
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} else {
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if sys.RegSize > sys.PtrSize {
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sp -= sys.PtrSize
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*(*uintptr)(unsafe.Pointer(sp)) = 0
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}
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2015-11-11 10:39:30 -07:00
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sp -= sys.PtrSize
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2016-01-27 11:43:36 -07:00
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*(*uintptr)(unsafe.Pointer(sp)) = pc
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c.setsp(sp)
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2014-11-21 11:39:01 -07:00
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}
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}
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2016-01-27 11:43:36 -07:00
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if usesLR {
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c.setpc(funcPC(sigpanictramp))
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} else {
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c.setpc(funcPC(sigpanic))
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}
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2014-11-21 11:39:01 -07:00
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return _NCONT
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}
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if flags&_SigNotify != 0 {
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2016-11-11 12:49:11 -07:00
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if ignoredNote(note) {
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return _NCONT
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}
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2015-01-22 15:38:29 -07:00
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if sendNote(note) {
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return _NCONT
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}
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2014-11-21 11:39:01 -07:00
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}
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if flags&_SigKill != 0 {
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goto Exit
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}
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if flags&_SigThrow == 0 {
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return _NCONT
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}
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Throw:
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_g_.m.throwing = 1
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2015-04-16 22:21:30 -06:00
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_g_.m.caughtsig.set(gp)
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2014-11-21 11:39:01 -07:00
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startpanic()
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2015-02-12 20:09:12 -07:00
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print(notestr, "\n")
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2014-12-18 06:05:44 -07:00
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print("PC=", hex(c.pc()), "\n")
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2014-11-21 11:39:01 -07:00
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print("\n")
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2015-10-30 09:03:02 -06:00
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level, _, docrash = gotraceback()
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if level > 0 {
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2014-11-21 11:39:01 -07:00
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goroutineheader(gp)
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2016-01-27 11:43:36 -07:00
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tracebacktrap(c.pc(), c.sp(), c.lr(), gp)
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2014-11-21 11:39:01 -07:00
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tracebackothers(gp)
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print("\n")
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dumpregs(_ureg)
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}
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if docrash {
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crash()
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}
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Exit:
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goexitsall(note)
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exits(note)
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return _NDFLT // not reached
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}
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func sigenable(sig uint32) {
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}
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func sigdisable(sig uint32) {
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}
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2015-01-29 20:37:41 -07:00
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func sigignore(sig uint32) {
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}
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2016-12-06 21:54:41 -07:00
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func setProcessCPUProfiler(hz int32) {
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}
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func setThreadCPUProfiler(hz int32) {
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2014-11-21 11:39:01 -07:00
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// TODO: Enable profiling interrupts.
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getg().m.profilehz = hz
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}
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runtime: restore the Go-allocated signal stack in unminit
Currently, when we minit on a thread that already has an alternate
signal stack (e.g., because the M was an extram being used for a cgo
callback, or to handle a signal on a C thread, or because the
platform's libc always allocates a signal stack like on Android), we
simply drop the Go-allocated gsignal stack on the floor.
This is a problem for Ms on the extram list because those Ms may later
be reused for a different thread that may not have its own alternate
signal stack. On tip, this manifests as a crash in sigaltstack because
we clear the gsignal stack bounds in unminit and later try to use
those cleared bounds when we re-minit that M. On 1.9 and earlier, we
didn't clear the bounds, so this manifests as running more than one
signal handler on the same signal stack, which could lead to arbitrary
memory corruption.
This CL fixes this problem by saving the Go-allocated gsignal stack in
a new field in the m struct when overwriting it with a system-provided
signal stack, and then restoring the original gsignal stack in
unminit.
This CL is designed to be easy to back-port to 1.9. It won't quite
cherry-pick cleanly, but it should be sufficient to simply ignore the
change in mexit (which didn't exist in 1.9).
Now that we always have a place to stash the original signal stack in
the m struct, there are some simplifications we can make to the signal
stack handling. We'll do those in a later CL.
Fixes #22930.
Change-Id: I55c5a6dd9d97532f131146afdef0b216e1433054
Reviewed-on: https://go-review.googlesource.com/81476
Run-TryBot: Austin Clements <austin@google.com>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: Ian Lance Taylor <iant@golang.org>
2017-11-30 20:09:35 -07:00
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// gsignalStack is unused on Plan 9.
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type gsignalStack struct{}
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