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authorRuss Cox <rsc@golang.org>2014-11-12 14:54:31 -0500
committerRuss Cox <rsc@golang.org>2014-11-12 14:54:31 -0500
commitde0da7ce7456abd9fb2ff73df0f3dccdfb6cf202 (patch)
treed6286c2595823a8fdb0015268fa893b50fbce2cb /src/runtime/panic1.go
parent7f4162b3d9492e6ae6438c78b77fdc5814d44e26 (diff)
downloadgo-de0da7ce7456abd9fb2ff73df0f3dccdfb6cf202.tar.gz
[dev.cc] runtime: delete scalararg, ptrarg; rename onM to systemstack
Scalararg and ptrarg are not "signal safe". Go code filling them out can be interrupted by a signal, and then the signal handler runs, and if it also ends up in Go code that uses scalararg or ptrarg, now the old values have been smashed. For the pieces of code that do need to run in a signal handler, we introduced onM_signalok, which is really just onM except that the _signalok is meant to convey that the caller asserts that scalarg and ptrarg will be restored to their old values after the call (instead of the usual behavior, zeroing them). Scalararg and ptrarg are also untyped and therefore error-prone. Go code can always pass a closure instead of using scalararg and ptrarg; they were only really necessary for C code. And there's no more C code. For all these reasons, delete scalararg and ptrarg, converting the few remaining references to use closures. Once those are gone, there is no need for a distinction between onM and onM_signalok, so replace both with a single function equivalent to the current onM_signalok (that is, it can be called on any of the curg, g0, and gsignal stacks). The name onM and the phrase 'm stack' are misnomers, because on most system an M has two system stacks: the main thread stack and the signal handling stack. Correct the misnomer by naming the replacement function systemstack. Fix a few references to "M stack" in code. The main motivation for this change is to eliminate scalararg/ptrarg. Rick and I have already seen them cause problems because the calling sequence m.ptrarg[0] = p is a heap pointer assignment, so it gets a write barrier. The write barrier also uses onM, so it has all the same problems as if it were being invoked by a signal handler. We worked around this by saving and restoring the old values and by calling onM_signalok, but there's no point in keeping this nice home for bugs around any longer. This CL also changes funcline to return the file name as a result instead of filling in a passed-in *string. (The *string signature is left over from when the code was written in and called from C.) That's arguably an unrelated change, except that once I had done the ptrarg/scalararg/onM cleanup I started getting false positives about the *string argument escaping (not allowed in package runtime). The compiler is wrong, but the easiest fix is to write the code like Go code instead of like C code. I am a bit worried that the compiler is wrong because of some use of uninitialized memory in the escape analysis. If that's the reason, it will go away when we convert the compiler to Go. (And if not, we'll debug it the next time.) LGTM=khr R=r, khr CC=austin, golang-codereviews, iant, rlh https://codereview.appspot.com/174950043
Diffstat (limited to 'src/runtime/panic1.go')
-rw-r--r--src/runtime/panic1.go11
1 files changed, 2 insertions, 9 deletions
diff --git a/src/runtime/panic1.go b/src/runtime/panic1.go
index 4c387485f..17eadb413 100644
--- a/src/runtime/panic1.go
+++ b/src/runtime/panic1.go
@@ -94,20 +94,13 @@ func startpanic_m() {
var didothers bool
var deadlock mutex
-func dopanic_m() {
- _g_ := getg()
-
- gp := (*g)(_g_.m.ptrarg[0])
- _g_.m.ptrarg[0] = nil
- pc := uintptr(_g_.m.scalararg[0])
- sp := uintptr(_g_.m.scalararg[1])
- _g_.m.scalararg[1] = 0
-
+func dopanic_m(gp *g, pc, sp uintptr) {
if gp.sig != 0 {
print("[signal ", hex(gp.sig), " code=", hex(gp.sigcode0), " addr=", hex(gp.sigcode1), " pc=", hex(gp.sigpc), "]\n")
}
var docrash bool
+ _g_ := getg()
if t := gotraceback(&docrash); t > 0 {
if gp != gp.m.g0 {
print("\n")