mirror of
https://github.com/golang/go
synced 2024-11-19 13:14:42 -07:00
031f71efdf
Borrowed from cmd/compile, TestSizeof ensures that the size of important types doesn't change unexpectedly. It also helps reviewers see the impact of intended changes. Change-Id: If57955f0c3e66054de3f40c6bba585b88694c7be Reviewed-on: https://go-review.googlesource.com/99837 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
449 lines
9.3 KiB
Go
449 lines
9.3 KiB
Go
// Copyright 2010 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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// Export guts for testing.
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package runtime
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import (
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"runtime/internal/atomic"
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"runtime/internal/sys"
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"unsafe"
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)
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var Fadd64 = fadd64
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var Fsub64 = fsub64
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var Fmul64 = fmul64
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var Fdiv64 = fdiv64
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var F64to32 = f64to32
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var F32to64 = f32to64
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var Fcmp64 = fcmp64
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var Fintto64 = fintto64
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var F64toint = f64toint
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var Sqrt = sqrt
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var Entersyscall = entersyscall
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var Exitsyscall = exitsyscall
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var LockedOSThread = lockedOSThread
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var Xadduintptr = atomic.Xadduintptr
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var FuncPC = funcPC
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var Fastlog2 = fastlog2
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var Atoi = atoi
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var Atoi32 = atoi32
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type LFNode struct {
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Next uint64
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Pushcnt uintptr
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}
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func LFStackPush(head *uint64, node *LFNode) {
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(*lfstack)(head).push((*lfnode)(unsafe.Pointer(node)))
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}
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func LFStackPop(head *uint64) *LFNode {
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return (*LFNode)(unsafe.Pointer((*lfstack)(head).pop()))
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}
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func GCMask(x interface{}) (ret []byte) {
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systemstack(func() {
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ret = getgcmask(x)
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})
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return
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}
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func RunSchedLocalQueueTest() {
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_p_ := new(p)
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gs := make([]g, len(_p_.runq))
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for i := 0; i < len(_p_.runq); i++ {
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if g, _ := runqget(_p_); g != nil {
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throw("runq is not empty initially")
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}
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for j := 0; j < i; j++ {
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runqput(_p_, &gs[i], false)
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}
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for j := 0; j < i; j++ {
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if g, _ := runqget(_p_); g != &gs[i] {
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print("bad element at iter ", i, "/", j, "\n")
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throw("bad element")
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}
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}
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if g, _ := runqget(_p_); g != nil {
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throw("runq is not empty afterwards")
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}
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}
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}
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func RunSchedLocalQueueStealTest() {
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p1 := new(p)
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p2 := new(p)
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gs := make([]g, len(p1.runq))
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for i := 0; i < len(p1.runq); i++ {
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for j := 0; j < i; j++ {
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gs[j].sig = 0
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runqput(p1, &gs[j], false)
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}
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gp := runqsteal(p2, p1, true)
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s := 0
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if gp != nil {
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s++
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gp.sig++
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}
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for {
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gp, _ = runqget(p2)
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if gp == nil {
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break
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}
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s++
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gp.sig++
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}
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for {
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gp, _ = runqget(p1)
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if gp == nil {
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break
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}
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gp.sig++
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}
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for j := 0; j < i; j++ {
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if gs[j].sig != 1 {
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print("bad element ", j, "(", gs[j].sig, ") at iter ", i, "\n")
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throw("bad element")
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}
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}
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if s != i/2 && s != i/2+1 {
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print("bad steal ", s, ", want ", i/2, " or ", i/2+1, ", iter ", i, "\n")
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throw("bad steal")
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}
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}
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}
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func RunSchedLocalQueueEmptyTest(iters int) {
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// Test that runq is not spuriously reported as empty.
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// Runq emptiness affects scheduling decisions and spurious emptiness
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// can lead to underutilization (both runnable Gs and idle Ps coexist
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// for arbitrary long time).
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done := make(chan bool, 1)
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p := new(p)
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gs := make([]g, 2)
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ready := new(uint32)
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for i := 0; i < iters; i++ {
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*ready = 0
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next0 := (i & 1) == 0
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next1 := (i & 2) == 0
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runqput(p, &gs[0], next0)
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go func() {
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for atomic.Xadd(ready, 1); atomic.Load(ready) != 2; {
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}
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if runqempty(p) {
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println("next:", next0, next1)
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throw("queue is empty")
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}
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done <- true
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}()
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for atomic.Xadd(ready, 1); atomic.Load(ready) != 2; {
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}
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runqput(p, &gs[1], next1)
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runqget(p)
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<-done
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runqget(p)
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}
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}
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var (
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StringHash = stringHash
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BytesHash = bytesHash
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Int32Hash = int32Hash
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Int64Hash = int64Hash
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MemHash = memhash
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MemHash32 = memhash32
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MemHash64 = memhash64
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EfaceHash = efaceHash
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IfaceHash = ifaceHash
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)
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var UseAeshash = &useAeshash
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func MemclrBytes(b []byte) {
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s := (*slice)(unsafe.Pointer(&b))
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memclrNoHeapPointers(s.array, uintptr(s.len))
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}
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var HashLoad = &hashLoad
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// entry point for testing
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func GostringW(w []uint16) (s string) {
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systemstack(func() {
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s = gostringw(&w[0])
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})
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return
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}
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type Uintreg sys.Uintreg
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var Open = open
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var Close = closefd
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var Read = read
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var Write = write
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func Envs() []string { return envs }
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func SetEnvs(e []string) { envs = e }
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var BigEndian = sys.BigEndian
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// For benchmarking.
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func BenchSetType(n int, x interface{}) {
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e := *efaceOf(&x)
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t := e._type
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var size uintptr
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var p unsafe.Pointer
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switch t.kind & kindMask {
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case kindPtr:
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t = (*ptrtype)(unsafe.Pointer(t)).elem
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size = t.size
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p = e.data
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case kindSlice:
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slice := *(*struct {
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ptr unsafe.Pointer
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len, cap uintptr
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})(e.data)
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t = (*slicetype)(unsafe.Pointer(t)).elem
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size = t.size * slice.len
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p = slice.ptr
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}
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allocSize := roundupsize(size)
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systemstack(func() {
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for i := 0; i < n; i++ {
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heapBitsSetType(uintptr(p), allocSize, size, t)
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}
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})
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}
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const PtrSize = sys.PtrSize
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var ForceGCPeriod = &forcegcperiod
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// SetTracebackEnv is like runtime/debug.SetTraceback, but it raises
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// the "environment" traceback level, so later calls to
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// debug.SetTraceback (e.g., from testing timeouts) can't lower it.
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func SetTracebackEnv(level string) {
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setTraceback(level)
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traceback_env = traceback_cache
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}
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var ReadUnaligned32 = readUnaligned32
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var ReadUnaligned64 = readUnaligned64
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func CountPagesInUse() (pagesInUse, counted uintptr) {
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stopTheWorld("CountPagesInUse")
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pagesInUse = uintptr(mheap_.pagesInUse)
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for _, s := range mheap_.allspans {
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if s.state == mSpanInUse {
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counted += s.npages
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}
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}
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startTheWorld()
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return
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}
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func Fastrand() uint32 { return fastrand() }
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func Fastrandn(n uint32) uint32 { return fastrandn(n) }
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type ProfBuf profBuf
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func NewProfBuf(hdrsize, bufwords, tags int) *ProfBuf {
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return (*ProfBuf)(newProfBuf(hdrsize, bufwords, tags))
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}
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func (p *ProfBuf) Write(tag *unsafe.Pointer, now int64, hdr []uint64, stk []uintptr) {
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(*profBuf)(p).write(tag, now, hdr, stk)
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}
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const (
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ProfBufBlocking = profBufBlocking
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ProfBufNonBlocking = profBufNonBlocking
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)
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func (p *ProfBuf) Read(mode profBufReadMode) ([]uint64, []unsafe.Pointer, bool) {
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return (*profBuf)(p).read(profBufReadMode(mode))
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}
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func (p *ProfBuf) Close() {
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(*profBuf)(p).close()
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}
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// ReadMemStatsSlow returns both the runtime-computed MemStats and
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// MemStats accumulated by scanning the heap.
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func ReadMemStatsSlow() (base, slow MemStats) {
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stopTheWorld("ReadMemStatsSlow")
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// Run on the system stack to avoid stack growth allocation.
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systemstack(func() {
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// Make sure stats don't change.
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getg().m.mallocing++
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readmemstats_m(&base)
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// Initialize slow from base and zero the fields we're
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// recomputing.
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slow = base
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slow.Alloc = 0
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slow.TotalAlloc = 0
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slow.Mallocs = 0
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slow.Frees = 0
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var bySize [_NumSizeClasses]struct {
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Mallocs, Frees uint64
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}
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// Add up current allocations in spans.
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for _, s := range mheap_.allspans {
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if s.state != mSpanInUse {
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continue
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}
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if sizeclass := s.spanclass.sizeclass(); sizeclass == 0 {
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slow.Mallocs++
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slow.Alloc += uint64(s.elemsize)
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} else {
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slow.Mallocs += uint64(s.allocCount)
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slow.Alloc += uint64(s.allocCount) * uint64(s.elemsize)
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bySize[sizeclass].Mallocs += uint64(s.allocCount)
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}
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}
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// Add in frees. readmemstats_m flushed the cached stats, so
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// these are up-to-date.
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var smallFree uint64
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slow.Frees = mheap_.nlargefree
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for i := range mheap_.nsmallfree {
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slow.Frees += mheap_.nsmallfree[i]
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bySize[i].Frees = mheap_.nsmallfree[i]
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bySize[i].Mallocs += mheap_.nsmallfree[i]
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smallFree += mheap_.nsmallfree[i] * uint64(class_to_size[i])
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}
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slow.Frees += memstats.tinyallocs
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slow.Mallocs += slow.Frees
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slow.TotalAlloc = slow.Alloc + mheap_.largefree + smallFree
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for i := range slow.BySize {
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slow.BySize[i].Mallocs = bySize[i].Mallocs
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slow.BySize[i].Frees = bySize[i].Frees
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}
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getg().m.mallocing--
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})
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startTheWorld()
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return
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}
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// BlockOnSystemStack switches to the system stack, prints "x\n" to
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// stderr, and blocks in a stack containing
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// "runtime.blockOnSystemStackInternal".
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func BlockOnSystemStack() {
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systemstack(blockOnSystemStackInternal)
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}
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func blockOnSystemStackInternal() {
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print("x\n")
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lock(&deadlock)
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lock(&deadlock)
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}
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type RWMutex struct {
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rw rwmutex
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}
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func (rw *RWMutex) RLock() {
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rw.rw.rlock()
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}
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func (rw *RWMutex) RUnlock() {
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rw.rw.runlock()
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}
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func (rw *RWMutex) Lock() {
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rw.rw.lock()
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}
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func (rw *RWMutex) Unlock() {
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rw.rw.unlock()
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}
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func MapBucketsCount(m map[int]int) int {
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h := *(**hmap)(unsafe.Pointer(&m))
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return 1 << h.B
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}
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func MapBucketsPointerIsNil(m map[int]int) bool {
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h := *(**hmap)(unsafe.Pointer(&m))
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return h.buckets == nil
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}
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func LockOSCounts() (external, internal uint32) {
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g := getg()
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if g.m.lockedExt+g.m.lockedInt == 0 {
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if g.lockedm != 0 {
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panic("lockedm on non-locked goroutine")
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}
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} else {
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if g.lockedm == 0 {
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panic("nil lockedm on locked goroutine")
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}
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}
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return g.m.lockedExt, g.m.lockedInt
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}
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//go:noinline
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func TracebackSystemstack(stk []uintptr, i int) int {
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if i == 0 {
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pc, sp := getcallerpc(), getcallersp(unsafe.Pointer(&stk))
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return gentraceback(pc, sp, 0, getg(), 0, &stk[0], len(stk), nil, nil, _TraceJumpStack)
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}
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n := 0
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systemstack(func() {
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n = TracebackSystemstack(stk, i-1)
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})
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return n
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}
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func KeepNArenaHints(n int) {
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hint := mheap_.arenaHints
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for i := 1; i < n; i++ {
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hint = hint.next
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if hint == nil {
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return
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}
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}
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hint.next = nil
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}
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// MapNextArenaHint reserves a page at the next arena growth hint,
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// preventing the arena from growing there, and returns the range of
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// addresses that are no longer viable.
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func MapNextArenaHint() (start, end uintptr) {
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hint := mheap_.arenaHints
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addr := hint.addr
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if hint.down {
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start, end = addr-heapArenaBytes, addr
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addr -= physPageSize
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} else {
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start, end = addr, addr+heapArenaBytes
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}
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sysReserve(unsafe.Pointer(addr), physPageSize)
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return
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}
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func GetNextArenaHint() uintptr {
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return mheap_.arenaHints.addr
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}
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type G = g
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