- 12 Sep, 2014 16 commits
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Josh Bleecher Snyder authored
The behavior was fixed in CL 141270043. Add a test. Fixes #8410. LGTM=khr R=khr, remyoudompheng CC=golang-codereviews https://golang.org/cl/137560044
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Dmitriy Vyukov authored
Instrument dst argument of writebarrier calls. LGTM=rsc R=rsc CC=golang-codereviews https://golang.org/cl/139560045
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Russ Cox authored
LGTM=iant, khr, rlh R=khr, iant, bradfitz, rlh CC=dvyukov, golang-codereviews https://golang.org/cl/142030044
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Robert Griesemer authored
No impact on formatting on our repos. Fixes #8021. LGTM=adonovan R=adonovan, dvyukov CC=golang-codereviews https://golang.org/cl/142020043
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Ian Lance Taylor authored
LGTM=bradfitz R=golang-codereviews, bradfitz CC=golang-codereviews https://golang.org/cl/140590043
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Russ Cox authored
The argsize PCDATA was specifying the number of bytes passed to a function call, so that if the function did not specify its argument count, the garbage collector could use the call site information to scan those bytes conservatively. We don't do that anymore, so stop generating the information. LGTM=khr R=khr CC=golang-codereviews https://golang.org/cl/139530043
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Russ Cox authored
The goal here is to commit fully to having precise information about stack frames. If we need information we don't have, crash instead of assuming we should scan conservatively. Since the stack copying assumes fully precise information, any crashes during garbage collection that are introduced by this CL are crashes that could have happened during stack copying instead. Those are harder to find because stacks are copied much less often than the garbage collector is invoked. In service of that goal, remove ARGSIZE macros from asm_*.s, change switchtoM to have no arguments (it doesn't have any live arguments), and add args and locals information to some frames that can call back into Go. LGTM=khr R=khr, rlh CC=golang-codereviews https://golang.org/cl/137540043
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Russ Cox authored
Dmitriy changed all the execution to interpret the BitVector as an array of bytes. Update the declaration and generation of the bitmaps to match, to avoid problems on big-endian machines. LGTM=khr R=khr CC=dvyukov, golang-codereviews https://golang.org/cl/140570044
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Russ Cox authored
makeFuncStub and methodValueStub are used by reflect as generic function implementations. Each call might have different arguments. Extract those arguments from the closure data instead of assuming it is the same each time. Because the argument map is now being extracted from the function itself, we don't need the special cases in reflect.Call anymore, so delete those. Fixes an occasional crash seen when stack copying does not update makeFuncStub's arguments correctly. Will also help make it safe to require stack maps in the garbage collector. Derived from CL 142000044 by khr. LGTM=khr R=khr CC=golang-codereviews https://golang.org/cl/143890044
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Anthony Martin authored
The pid field in the Tos structure is a 32-bit value. Loading a 64-bit word also brings in the next field which is used for the profiling clock. LGTM=0intro, aram R=rsc, 0intro, aram CC=golang-codereviews, mischief https://golang.org/cl/139560044
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Russ Cox authored
That's what defines GO_ARGS. TBR=khr CC=golang-codereviews https://golang.org/cl/141460043
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Russ Cox authored
Before, Syscall and friends were having their arguments treated conservatively. Now they will use the Go prototype, which will mean the arguments are not considered pointers at all. This is safe because of CL 139360044. The fact that all these non-Solaris systems were using conservative scanning of the Syscall arguments is why the failure that prompted CL 139360044 was only observed on Solaris, which does something completely different. If we'd done this earlier, we'd have seen the Solaris failure in more places. LGTM=khr R=khr CC=golang-codereviews https://golang.org/cl/144730043
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Russ Cox authored
The goal here is to allow assembly functions to appear in the middle of a Go stack (having called other code) and still record enough information about their pointers so that stack copying and garbage collection can handle them precisely. Today, these frames are handled only conservatively. If you write func myfunc(x *float64) (y *int) (with no body, an 'extern' declaration), then the Go compiler now emits a liveness bitmap for use from the assembly definition of myfunc. The bitmap symbol is myfunc.args_stackmap and it contains two bitmaps. The first bitmap, in effect at function entry, marks all inputs as live. The second bitmap, not in effect at function entry, marks the outputs live as well. In funcdata.h, define new assembly macros: GO_ARGS opts in to using the Go compiler-generated liveness bitmap for the current function. GO_RESULTS_INITIALIZED indicates that the results have been initialized and need to be kept live for the remainder of the function; it causes a switch to the second generated bitmap for the assembly code that follows. NO_LOCAL_POINTERS indicates that there are no pointers in the local variables being stored in the function's stack frame. LGTM=khr R=khr CC=golang-codereviews https://golang.org/cl/137520043
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Keith Randall authored
Tests will come in a separate CL after the funcdata stuff is resolved. Update #8696 LGTM=iant, rsc R=rsc, iant CC=golang-codereviews https://golang.org/cl/138330045
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Michael MacInnis authored
Making the child's process group the foreground process group and placing the child in a specific process group involves co-ordination between the parent and child that must be done post-fork but pre-exec. LGTM=iant R=golang-codereviews, gobot, iant, mikioh.mikioh CC=golang-codereviews https://golang.org/cl/131750044
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Ian Lance Taylor authored
Generated by a+c. R=gobot CC=golang-codereviews https://golang.org/cl/140570043
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- 11 Sep, 2014 11 commits
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Keith Randall authored
Fixes #8706 LGTM=josharian R=josharian CC=golang-codereviews https://golang.org/cl/143880043
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https://golang.org/dl/Matthew Dempsky authored
Fixes #8705. LGTM=adg R=golang-codereviews, bradfitz, adg CC=golang-codereviews https://golang.org/cl/142890044
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Keith Randall authored
Just go ahead and do it, if something is wrong we'll throw. Also rip out cc-generated arg ptr maps, they are useless now. LGTM=rsc R=rsc CC=golang-codereviews https://golang.org/cl/133690045
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Russ Cox authored
Replacing gosched with Gosched broke some builds because some of the call sites are at times when the stack cannot be grown. TBR=khr CC=golang-codereviews https://golang.org/cl/142000043
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Russ Cox authored
LGTM=khr R=khr CC=golang-codereviews https://golang.org/cl/134520044
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Robert Griesemer authored
Details: Until now, when we saw a key:value pair that fit onto a single line, we assumed that it should be formatted with a vtab after the ':' for alignment of its value. This leads to odd behavior if there are more than one such pair on a line. This CL changes the behavior such that alignment is only used for the first pair on a line. This preserves existing behavior (in the std lib we have composite literals where the last line contains multiple entries and the first entry's value is aligned with the values on previous lines), and resolves this issue. No impact on formatting of std lib, go.tools, go.exp, go.net. Fixes #8685. LGTM=adonovan R=adonovan CC=golang-codereviews https://golang.org/cl/139430043
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Josh Bleecher Snyder authored
Fixes #8184. LGTM=bradfitz R=bradfitz CC=golang-codereviews https://golang.org/cl/137510043
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Russ Cox authored
A write *p = x that needs a write barrier (not all do) now turns into runtime.writebarrierptr(p, x) or one of the other variants. The write barrier implementations are trivial. The goal here is to emit the calls in the correct places and to incur the cost of those function calls in the Go 1.4 cycle. Performance on the Go 1 benchmark suite below. Remember, the goal is to slow things down (and be correct). We will look into optimizations in separate CLs, as part of the process of comparing Go 1.3 against tip in order to make sure Go 1.4 runs at least as fast as Go 1.3. benchmark old ns/op new ns/op delta BenchmarkBinaryTree17 3118336716 3452876110 +10.73% BenchmarkFannkuch11 3184497677 3211552284 +0.85% BenchmarkFmtFprintfEmpty 89.9 107 +19.02% BenchmarkFmtFprintfString 236 287 +21.61% BenchmarkFmtFprintfInt 246 278 +13.01% BenchmarkFmtFprintfIntInt 395 458 +15.95% BenchmarkFmtFprintfPrefixedInt 343 378 +10.20% BenchmarkFmtFprintfFloat 477 525 +10.06% BenchmarkFmtManyArgs 1446 1707 +18.05% BenchmarkGobDecode 14398047 14685958 +2.00% BenchmarkGobEncode 12557718 12947104 +3.10% BenchmarkGzip 453462345 472413285 +4.18% BenchmarkGunzip 114226016 115127398 +0.79% BenchmarkHTTPClientServer 114689 112122 -2.24% BenchmarkJSONEncode 24914536 26135942 +4.90% BenchmarkJSONDecode 86832877 103620289 +19.33% BenchmarkMandelbrot200 4833452 4898780 +1.35% BenchmarkGoParse 4317976 4835474 +11.98% BenchmarkRegexpMatchEasy0_32 150 166 +10.67% BenchmarkRegexpMatchEasy0_1K 393 402 +2.29% BenchmarkRegexpMatchEasy1_32 125 142 +13.60% BenchmarkRegexpMatchEasy1_1K 1010 1236 +22.38% BenchmarkRegexpMatchMedium_32 232 301 +29.74% BenchmarkRegexpMatchMedium_1K 76963 102721 +33.47% BenchmarkRegexpMatchHard_32 3833 5463 +42.53% BenchmarkRegexpMatchHard_1K 119668 161614 +35.05% BenchmarkRevcomp 763449047 706768534 -7.42% BenchmarkTemplate 124954724 134834549 +7.91% BenchmarkTimeParse 517 511 -1.16% BenchmarkTimeFormat 501 514 +2.59% benchmark old MB/s new MB/s speedup BenchmarkGobDecode 53.31 52.26 0.98x BenchmarkGobEncode 61.12 59.28 0.97x BenchmarkGzip 42.79 41.08 0.96x BenchmarkGunzip 169.88 168.55 0.99x BenchmarkJSONEncode 77.89 74.25 0.95x BenchmarkJSONDecode 22.35 18.73 0.84x BenchmarkGoParse 13.41 11.98 0.89x BenchmarkRegexpMatchEasy0_32 213.30 191.72 0.90x BenchmarkRegexpMatchEasy0_1K 2603.92 2542.74 0.98x BenchmarkRegexpMatchEasy1_32 254.00 224.93 0.89x BenchmarkRegexpMatchEasy1_1K 1013.53 827.98 0.82x BenchmarkRegexpMatchMedium_32 4.30 3.31 0.77x BenchmarkRegexpMatchMedium_1K 13.30 9.97 0.75x BenchmarkRegexpMatchHard_32 8.35 5.86 0.70x BenchmarkRegexpMatchHard_1K 8.56 6.34 0.74x BenchmarkRevcomp 332.92 359.62 1.08x BenchmarkTemplate 15.53 14.39 0.93x LGTM=rlh R=rlh CC=dvyukov, golang-codereviews, iant, khr, r https://golang.org/cl/136380043
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Russ Cox authored
The uses of onM in dopanic/startpanic are okay even from the signal stack. Fixes #8666. LGTM=khr R=khr CC=golang-codereviews https://golang.org/cl/134710043
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Mikio Hara authored
The previous implementation used per-socket TCP keepalive options wrong. For example, it used another level socket option to control TCP and it didn't use TCP_KEEPINTVL option when possible. Fixes #8683. Fixes #8701. Update #8679 LGTM=iant R=golang-codereviews, iant CC=golang-codereviews https://golang.org/cl/136480043
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Keith Randall authored
LGTM=bradfitz, iant R=iant, bradfitz CC=golang-codereviews https://golang.org/cl/140510043
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- 10 Sep, 2014 4 commits
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Keith Randall authored
They will both need write barriers at some point. But until then, no reason why we shouldn't share. LGTM=rsc R=golang-codereviews, rsc CC=golang-codereviews https://golang.org/cl/141330043
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Anthony Martin authored
LGTM=iant R=rsc, 0intro, alex.brainman, iant CC=golang-codereviews https://golang.org/cl/140460044
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Matthew Dempsky authored
The previous implementation had several subtle issues. It's not clear if any of these could actually be causing the flakiness problems on openbsd/386, but fixing them should only help. 1. thrsleep() is implemented internally as unlock, then test *abort (if abort != nil), then tsleep(). Under the current code, that makes it theoretically possible that semasleep()/thrsleep() could release waitsemalock, then a racing semawakeup() could acquire the lock, increment waitsemacount, and call thrwakeup()/wakeup() before thrsleep() reaches tsleep(). (In practice, OpenBSD's big kernel lock seems unlikely to let this actually happen.) The proper way to avoid this is to pass &waitsemacount as the abort pointer to thrsleep so thrsleep knows to re-check it before going to sleep, and to wakeup if it's non-zero. Then we avoid any races. (I actually suspect openbsd's sema{sleep,wakeup}() could be further simplified using cas/xadd instead of locks, but I don't want to be more intrusive than necessary so late in the 1.4 release cycle.) 2. semasleep() takes a relative sleep duration, but thrsleep() needs an absolute sleep deadline. Instead of recomputing the deadline each iteration, compute it once up front and use (*Timespec)(nil) to signify no deadline. Ensures we retry properly if there's a spurious wakeup. 3. Instead of assuming if thrsleep() woke up and waitsemacount wasn't available that we must have hit the deadline, check that the system call returned EWOULDBLOCK. 4. Instead of assuming that 64-bit systems are little-endian, compute timediv() using a temporary int32 nsec and then assign it to tv_nsec. LGTM=iant R=jsing, iant CC=golang-codereviews https://golang.org/cl/137960043
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Anthony Martin authored
A race exists between the parent and child processes after a fork. The child needs to access the new M pointer passed as an argument but the parent may have already returned and clobbered it. Previously, we avoided this by saving the necessary data into registers before the rfork system call but this isn't guaranteed to work because Plan 9 makes no promises about the register state after a system call. Only the 386 kernel seems to save them. For amd64 and arm, this method won't work. We eliminate the race by allocating stack space for the scheduler goroutines (g0) in the per-process copy-on-write stack segment and by only calling rfork on the scheduler stack. LGTM=aram, 0intro, rsc R=aram, 0intro, mischief, rsc CC=golang-codereviews https://golang.org/cl/110680044
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- 09 Sep, 2014 9 commits
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Keith Randall authored
Move timenow thunk into time.s Move declarations for generic c/asm services into stubs.go LGTM=bradfitz R=golang-codereviews, bradfitz CC=golang-codereviews https://golang.org/cl/137360043
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Keith Randall authored
Fixes #8688 LGTM=rsc R=golang-codereviews, bradfitz, rsc, khr CC=golang-codereviews https://golang.org/cl/135660043
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Russ Cox authored
The only thing I can see that is really Plan 9-specific is that the stack pointer used for signal handling used to have more mapped memory above it. Specifically it used to have at most 88 bytes (StackTop), so change the allocation of a 40-byte frame to a 128-byte frame. No idea if this will work, but worth a try. Note that "fix" here means get it back to timing out instead of crashing. TBR=iant CC=golang-codereviews https://golang.org/cl/142840043
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Russ Cox authored
The difference between the old and the new (from earlier) code is that we set stackguard = stack.lo + StackGuard, while the old code set stackguard = stack.lo. That 512 bytes appears to be the difference between the profileloop function running and not running. We don't know how big the system stack is, but it is likely MUCH bigger than 4k. Give Go/C 8k. TBR=iant CC=golang-codereviews https://golang.org/cl/140440044
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Russ Cox authored
Start the stack a few words below the actual top, so that if something tries to read goexit's caller PC from the stack, it won't fault on a bad memory address. Today, heapdump does that. Maybe tomorrow, traceback or something else will do that. Make it not a bug. TBR=khr R=khr CC=golang-codereviews https://golang.org/cl/136450043
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Rob Pike authored
For -mode=atomic, we need to read the counters using an atomic load to avoid a race. Not worth worrying about when -mode=atomic is set during generation of the profile, so we use atomic loads always. Fixes #8630. LGTM=rsc R=dvyukov, rsc CC=golang-codereviews https://golang.org/cl/141800043
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Rob Pike authored
With new interface allocation rules, the old counts were wrong and so was the commentary. LGTM=rsc R=rsc CC=golang-codereviews https://golang.org/cl/142760044
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Rob Pike authored
Space is not a control character. Fixes #8571. LGTM=iant R=golang-codereviews, iant CC=golang-codereviews https://golang.org/cl/137380043
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Russ Cox authored
No promise about correctness, but they do build. TBR=khr CC=golang-codereviews https://golang.org/cl/143720043
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