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The garbage collector uses type information to guide the traversal of the heap. If it sees a field that should be a string, it marks the object pointed at by the string data pointer as visited but does not bother to look at the data, because strings contain bytes, not pointers. If you save s[len(s):] somewhere, though, the string data pointer actually points just beyond the string data; if the string data were exactly the size of an allocated block, the string data pointer would actually point at the next block. It is incorrect to mark that next block as visited and not bother to look at the data, because the next block may be some other type entirely. The fix is to ignore strings with zero length during collection: they are empty and can never become non-empty: the base pointer will never be used again. The handling of slices already does this (but using cap instead of len). This was not a bug in Go 1.2, because until January all string allocations included a trailing NUL byte not included in the length, so s[len(s):] still pointed inside the string allocation (at the NUL). This bug was causing the crashes in test/run.go. Specifically, the parsing of a regexp in package regexp/syntax allocated a []syntax.Inst with rounded size 1152 bytes. In fact it allocated many such slices, because during the processing of test/index2.go it creates thousands of regexps that are all approximately the same complexity. That takes a long time, and test/run works on other tests in other goroutines. One such other test is chan/perm.go, which uses an 1152-byte source file. test/run reads that file into a []byte and then calls strings.Split(string(src), "\n"). The string(src) creates an 1152-byte string - and there's a very good chance of it landing next to one of the many many regexp slices already allocated - and then because the file ends in a \n, strings.Split records the tail empty string as the final element in the slice. A garbage collection happens at this point, the collection finds that string before encountering the []syntax.Inst data it now inadvertently points to, and the []syntax.Inst data is not scanned for the pointers that it contains. Each syntax.Inst contains a []rune, those are missed, and the backing rune arrays are freed for reuse. When the regexp is later executed, the runes being searched for are no longer runes at all, and there is no match, even on text that should match. On 64-bit machines the pointer in the []rune inside the syntax.Inst is larger (along with a few other pointers), pushing the []syntax.Inst backing array into a larger size class, avoiding the collision with chan/perm.go's inadvertently sized file. I expect this was more prevalent on OS X than on Linux or Windows because those managed to run faster or slower and didn't overlap index2.go with chan/perm.go as often. On the ARM systems, we only run one errorcheck test at a time, so index2 and chan/perm would never overlap. It is possible that this bug is the root cause of other crashes as well. For now we only know it is the cause of the test/run crash. Many thanks to Dmitriy for help debugging. Fixes #7344. Fixes #7455. LGTM=r, dvyukov, dave, iant R=golang-codereviews, dave, r, dvyukov, delpontej, iant CC=golang-codereviews, khr https://golang.org/cl/74250043
49 lines
873 B
Go
49 lines
873 B
Go
// run
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// Copyright 2014 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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// Test that s[len(s):] - which can point past the end of the allocated block -
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// does not confuse the garbage collector.
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package main
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import (
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"runtime"
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"time"
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)
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type T struct {
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ptr **int
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pad [120]byte
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}
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var things []interface{}
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func main() {
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setup()
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runtime.GC()
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runtime.GC()
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time.Sleep(10*time.Millisecond)
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runtime.GC()
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runtime.GC()
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time.Sleep(10*time.Millisecond)
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}
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func setup() {
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var Ts []interface{}
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buf := make([]byte, 128)
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for i := 0; i < 10000; i++ {
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s := string(buf)
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t := &T{ptr: new(*int)}
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runtime.SetFinalizer(t.ptr, func(**int) { panic("*int freed too early") })
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Ts = append(Ts, t)
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things = append(things, s[len(s):])
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}
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things = append(things, Ts...)
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}
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