mirror of
https://github.com/golang/go
synced 2024-11-20 03:44:40 -07:00
5af2be8604
This reverts commit 7db77271e4
.
Change-Id: I6d8855eb05ca331025dc49a5533c6da4d1fa4e84
Reviewed-on: https://go-review.googlesource.com/17030
Reviewed-by: Russ Cox <rsc@golang.org>
677 lines
22 KiB
Go
677 lines
22 KiB
Go
// Copyright 2009 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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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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/*
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* defined constants
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*/
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const (
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// G status
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//
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// If you add to this list, add to the list
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// of "okay during garbage collection" status
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// in mgcmark.go too.
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_Gidle = iota // 0
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_Grunnable // 1 runnable and on a run queue
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_Grunning // 2
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_Gsyscall // 3
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_Gwaiting // 4
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_Gmoribund_unused // 5 currently unused, but hardcoded in gdb scripts
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_Gdead // 6
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_Genqueue // 7 Only the Gscanenqueue is used.
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_Gcopystack // 8 in this state when newstack is moving the stack
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// the following encode that the GC is scanning the stack and what to do when it is done
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_Gscan = 0x1000 // atomicstatus&~Gscan = the non-scan state,
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// _Gscanidle = _Gscan + _Gidle, // Not used. Gidle only used with newly malloced gs
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_Gscanrunnable = _Gscan + _Grunnable // 0x1001 When scanning completes make Grunnable (it is already on run queue)
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_Gscanrunning = _Gscan + _Grunning // 0x1002 Used to tell preemption newstack routine to scan preempted stack.
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_Gscansyscall = _Gscan + _Gsyscall // 0x1003 When scanning completes make it Gsyscall
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_Gscanwaiting = _Gscan + _Gwaiting // 0x1004 When scanning completes make it Gwaiting
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// _Gscanmoribund_unused, // not possible
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// _Gscandead, // not possible
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_Gscanenqueue = _Gscan + _Genqueue // When scanning completes make it Grunnable and put on runqueue
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)
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const (
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// P status
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_Pidle = iota
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_Prunning // Only this P is allowed to change from _Prunning.
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_Psyscall
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_Pgcstop
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_Pdead
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)
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type mutex struct {
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// Futex-based impl treats it as uint32 key,
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// while sema-based impl as M* waitm.
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// Used to be a union, but unions break precise GC.
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key uintptr
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}
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type note struct {
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// Futex-based impl treats it as uint32 key,
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// while sema-based impl as M* waitm.
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// Used to be a union, but unions break precise GC.
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key uintptr
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}
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type funcval struct {
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fn uintptr
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// variable-size, fn-specific data here
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}
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type iface struct {
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tab *itab
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data unsafe.Pointer
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}
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type eface struct {
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_type *_type
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data unsafe.Pointer
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}
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func efaceOf(ep *interface{}) *eface {
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return (*eface)(unsafe.Pointer(ep))
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}
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// The guintptr, muintptr, and puintptr are all used to bypass write barriers.
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// It is particularly important to avoid write barriers when the current P has
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// been released, because the GC thinks the world is stopped, and an
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// unexpected write barrier would not be synchronized with the GC,
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// which can lead to a half-executed write barrier that has marked the object
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// but not queued it. If the GC skips the object and completes before the
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// queuing can occur, it will incorrectly free the object.
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//
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// We tried using special assignment functions invoked only when not
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// holding a running P, but then some updates to a particular memory
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// word went through write barriers and some did not. This breaks the
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// write barrier shadow checking mode, and it is also scary: better to have
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// a word that is completely ignored by the GC than to have one for which
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// only a few updates are ignored.
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//
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// Gs, Ms, and Ps are always reachable via true pointers in the
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// allgs, allm, and allp lists or (during allocation before they reach those lists)
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// from stack variables.
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// A guintptr holds a goroutine pointer, but typed as a uintptr
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// to bypass write barriers. It is used in the Gobuf goroutine state
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// and in scheduling lists that are manipulated without a P.
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//
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// The Gobuf.g goroutine pointer is almost always updated by assembly code.
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// In one of the few places it is updated by Go code - func save - it must be
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// treated as a uintptr to avoid a write barrier being emitted at a bad time.
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// Instead of figuring out how to emit the write barriers missing in the
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// assembly manipulation, we change the type of the field to uintptr,
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// so that it does not require write barriers at all.
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//
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// Goroutine structs are published in the allg list and never freed.
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// That will keep the goroutine structs from being collected.
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// There is never a time that Gobuf.g's contain the only references
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// to a goroutine: the publishing of the goroutine in allg comes first.
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// Goroutine pointers are also kept in non-GC-visible places like TLS,
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// so I can't see them ever moving. If we did want to start moving data
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// in the GC, we'd need to allocate the goroutine structs from an
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// alternate arena. Using guintptr doesn't make that problem any worse.
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type guintptr uintptr
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func (gp guintptr) ptr() *g { return (*g)(unsafe.Pointer(gp)) }
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func (gp *guintptr) set(g *g) { *gp = guintptr(unsafe.Pointer(g)) }
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func (gp *guintptr) cas(old, new guintptr) bool {
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return atomic.Casuintptr((*uintptr)(unsafe.Pointer(gp)), uintptr(old), uintptr(new))
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}
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type puintptr uintptr
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func (pp puintptr) ptr() *p { return (*p)(unsafe.Pointer(pp)) }
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func (pp *puintptr) set(p *p) { *pp = puintptr(unsafe.Pointer(p)) }
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type muintptr uintptr
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func (mp muintptr) ptr() *m { return (*m)(unsafe.Pointer(mp)) }
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func (mp *muintptr) set(m *m) { *mp = muintptr(unsafe.Pointer(m)) }
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type gobuf struct {
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// The offsets of sp, pc, and g are known to (hard-coded in) libmach.
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sp uintptr
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pc uintptr
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g guintptr
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ctxt unsafe.Pointer // this has to be a pointer so that gc scans it
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ret sys.Uintreg
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lr uintptr
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bp uintptr // for GOEXPERIMENT=framepointer
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}
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// Known to compiler.
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// Changes here must also be made in src/cmd/internal/gc/select.go's selecttype.
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type sudog struct {
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g *g
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selectdone *uint32
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next *sudog
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prev *sudog
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elem unsafe.Pointer // data element
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releasetime int64
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nrelease int32 // -1 for acquire
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waitlink *sudog // g.waiting list
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}
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type gcstats struct {
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// the struct must consist of only uint64's,
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// because it is casted to uint64[].
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nhandoff uint64
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nhandoffcnt uint64
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nprocyield uint64
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nosyield uint64
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nsleep uint64
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}
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type libcall struct {
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fn uintptr
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n uintptr // number of parameters
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args uintptr // parameters
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r1 uintptr // return values
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r2 uintptr
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err uintptr // error number
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}
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// describes how to handle callback
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type wincallbackcontext struct {
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gobody unsafe.Pointer // go function to call
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argsize uintptr // callback arguments size (in bytes)
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restorestack uintptr // adjust stack on return by (in bytes) (386 only)
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cleanstack bool
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}
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// Stack describes a Go execution stack.
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// The bounds of the stack are exactly [lo, hi),
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// with no implicit data structures on either side.
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type stack struct {
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lo uintptr
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hi uintptr
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}
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// stkbar records the state of a G's stack barrier.
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type stkbar struct {
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savedLRPtr uintptr // location overwritten by stack barrier PC
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savedLRVal uintptr // value overwritten at savedLRPtr
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}
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type g struct {
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// Stack parameters.
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// stack describes the actual stack memory: [stack.lo, stack.hi).
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// stackguard0 is the stack pointer compared in the Go stack growth prologue.
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// It is stack.lo+StackGuard normally, but can be StackPreempt to trigger a preemption.
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// stackguard1 is the stack pointer compared in the C stack growth prologue.
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// It is stack.lo+StackGuard on g0 and gsignal stacks.
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// It is ~0 on other goroutine stacks, to trigger a call to morestackc (and crash).
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stack stack // offset known to runtime/cgo
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stackguard0 uintptr // offset known to liblink
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stackguard1 uintptr // offset known to liblink
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_panic *_panic // innermost panic - offset known to liblink
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_defer *_defer // innermost defer
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m *m // current m; offset known to arm liblink
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stackAlloc uintptr // stack allocation is [stack.lo,stack.lo+stackAlloc)
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sched gobuf
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syscallsp uintptr // if status==Gsyscall, syscallsp = sched.sp to use during gc
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syscallpc uintptr // if status==Gsyscall, syscallpc = sched.pc to use during gc
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stkbar []stkbar // stack barriers, from low to high
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stkbarPos uintptr // index of lowest stack barrier not hit
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stktopsp uintptr // expected sp at top of stack, to check in traceback
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param unsafe.Pointer // passed parameter on wakeup
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atomicstatus uint32
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stackLock uint32 // sigprof/scang lock; TODO: fold in to atomicstatus
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goid int64
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waitsince int64 // approx time when the g become blocked
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waitreason string // if status==Gwaiting
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schedlink guintptr
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preempt bool // preemption signal, duplicates stackguard0 = stackpreempt
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paniconfault bool // panic (instead of crash) on unexpected fault address
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preemptscan bool // preempted g does scan for gc
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gcscandone bool // g has scanned stack; protected by _Gscan bit in status
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gcscanvalid bool // false at start of gc cycle, true if G has not run since last scan
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throwsplit bool // must not split stack
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raceignore int8 // ignore race detection events
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sysblocktraced bool // StartTrace has emitted EvGoInSyscall about this goroutine
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sysexitticks int64 // cputicks when syscall has returned (for tracing)
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sysexitseq uint64 // trace seq when syscall has returned (for tracing)
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lockedm *m
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sig uint32
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writebuf []byte
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sigcode0 uintptr
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sigcode1 uintptr
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sigpc uintptr
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gopc uintptr // pc of go statement that created this goroutine
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startpc uintptr // pc of goroutine function
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racectx uintptr
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waiting *sudog // sudog structures this g is waiting on (that have a valid elem ptr)
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// Per-G gcController state
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// gcAssistBytes is this G's GC assist credit in terms of
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// bytes allocated. If this is positive, then the G has credit
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// to allocate gcAssistBytes bytes without assisting. If this
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// is negative, then the G must correct this by performing
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// scan work. We track this in bytes to make it fast to update
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// and check for debt in the malloc hot path. The assist ratio
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// determines how this corresponds to scan work debt.
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gcAssistBytes int64
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}
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type m struct {
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g0 *g // goroutine with scheduling stack
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morebuf gobuf // gobuf arg to morestack
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divmod uint32 // div/mod denominator for arm - known to liblink
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// Fields not known to debuggers.
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procid uint64 // for debuggers, but offset not hard-coded
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gsignal *g // signal-handling g
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sigmask [4]uintptr // storage for saved signal mask
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tls [6]uintptr // thread-local storage (for x86 extern register)
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mstartfn func()
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curg *g // current running goroutine
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caughtsig guintptr // goroutine running during fatal signal
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p puintptr // attached p for executing go code (nil if not executing go code)
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nextp puintptr
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id int32
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mallocing int32
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throwing int32
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preemptoff string // if != "", keep curg running on this m
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locks int32
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softfloat int32
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dying int32
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profilehz int32
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helpgc int32
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spinning bool // m is out of work and is actively looking for work
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blocked bool // m is blocked on a note
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inwb bool // m is executing a write barrier
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printlock int8
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fastrand uint32
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ncgocall uint64 // number of cgo calls in total
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ncgo int32 // number of cgo calls currently in progress
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park note
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alllink *m // on allm
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schedlink muintptr
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machport uint32 // return address for mach ipc (os x)
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mcache *mcache
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lockedg *g
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createstack [32]uintptr // stack that created this thread.
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freglo [16]uint32 // d[i] lsb and f[i]
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freghi [16]uint32 // d[i] msb and f[i+16]
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fflag uint32 // floating point compare flags
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locked uint32 // tracking for lockosthread
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nextwaitm uintptr // next m waiting for lock
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gcstats gcstats
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needextram bool
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traceback uint8
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waitunlockf unsafe.Pointer // todo go func(*g, unsafe.pointer) bool
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waitlock unsafe.Pointer
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waittraceev byte
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waittraceskip int
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startingtrace bool
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syscalltick uint32
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//#ifdef GOOS_windows
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thread uintptr // thread handle
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// these are here because they are too large to be on the stack
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// of low-level NOSPLIT functions.
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libcall libcall
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libcallpc uintptr // for cpu profiler
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libcallsp uintptr
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libcallg guintptr
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syscall libcall // stores syscall parameters on windows
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//#endif
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mOS
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}
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type p struct {
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lock mutex
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id int32
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status uint32 // one of pidle/prunning/...
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link puintptr
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schedtick uint32 // incremented on every scheduler call
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syscalltick uint32 // incremented on every system call
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m muintptr // back-link to associated m (nil if idle)
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mcache *mcache
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deferpool [5][]*_defer // pool of available defer structs of different sizes (see panic.go)
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deferpoolbuf [5][32]*_defer
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// Cache of goroutine ids, amortizes accesses to runtime·sched.goidgen.
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goidcache uint64
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goidcacheend uint64
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// Queue of runnable goroutines. Accessed without lock.
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runqhead uint32
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runqtail uint32
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runq [256]guintptr
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// runnext, if non-nil, is a runnable G that was ready'd by
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// the current G and should be run next instead of what's in
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// runq if there's time remaining in the running G's time
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// slice. It will inherit the time left in the current time
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// slice. If a set of goroutines is locked in a
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// communicate-and-wait pattern, this schedules that set as a
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// unit and eliminates the (potentially large) scheduling
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// latency that otherwise arises from adding the ready'd
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// goroutines to the end of the run queue.
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runnext guintptr
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// Available G's (status == Gdead)
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gfree *g
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gfreecnt int32
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sudogcache []*sudog
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sudogbuf [128]*sudog
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tracebuf traceBufPtr
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palloc persistentAlloc // per-P to avoid mutex
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// Per-P GC state
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gcAssistTime int64 // Nanoseconds in assistAlloc
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gcBgMarkWorker *g
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gcMarkWorkerMode gcMarkWorkerMode
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// gcw is this P's GC work buffer cache. The work buffer is
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// filled by write barriers, drained by mutator assists, and
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// disposed on certain GC state transitions.
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gcw gcWork
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runSafePointFn uint32 // if 1, run sched.safePointFn at next safe point
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pad [64]byte
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}
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const (
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// The max value of GOMAXPROCS.
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// There are no fundamental restrictions on the value.
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_MaxGomaxprocs = 1 << 8
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)
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type schedt struct {
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lock mutex
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goidgen uint64
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midle muintptr // idle m's waiting for work
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nmidle int32 // number of idle m's waiting for work
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nmidlelocked int32 // number of locked m's waiting for work
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mcount int32 // number of m's that have been created
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maxmcount int32 // maximum number of m's allowed (or die)
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pidle puintptr // idle p's
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npidle uint32
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nmspinning uint32 // limited to [0, 2^31-1]
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// Global runnable queue.
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runqhead guintptr
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runqtail guintptr
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runqsize int32
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// Global cache of dead G's.
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gflock mutex
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gfree *g
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ngfree int32
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// Central cache of sudog structs.
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sudoglock mutex
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sudogcache *sudog
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// Central pool of available defer structs of different sizes.
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deferlock mutex
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deferpool [5]*_defer
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gcwaiting uint32 // gc is waiting to run
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stopwait int32
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stopnote note
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sysmonwait uint32
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sysmonnote note
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lastpoll uint64
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// safepointFn should be called on each P at the next GC
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// safepoint if p.runSafePointFn is set.
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safePointFn func(*p)
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safePointWait int32
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safePointNote note
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profilehz int32 // cpu profiling rate
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procresizetime int64 // nanotime() of last change to gomaxprocs
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totaltime int64 // ∫gomaxprocs dt up to procresizetime
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}
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// The m->locked word holds two pieces of state counting active calls to LockOSThread/lockOSThread.
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// The low bit (LockExternal) is a boolean reporting whether any LockOSThread call is active.
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// External locks are not recursive; a second lock is silently ignored.
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// The upper bits of m->locked record the nesting depth of calls to lockOSThread
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// (counting up by LockInternal), popped by unlockOSThread (counting down by LockInternal).
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// Internal locks can be recursive. For instance, a lock for cgo can occur while the main
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// goroutine is holding the lock during the initialization phase.
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const (
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_LockExternal = 1
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_LockInternal = 2
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)
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type sigtabtt struct {
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flags int32
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name *int8
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}
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const (
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_SigNotify = 1 << iota // let signal.Notify have signal, even if from kernel
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_SigKill // if signal.Notify doesn't take it, exit quietly
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_SigThrow // if signal.Notify doesn't take it, exit loudly
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_SigPanic // if the signal is from the kernel, panic
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_SigDefault // if the signal isn't explicitly requested, don't monitor it
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_SigHandling // our signal handler is registered
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_SigIgnored // the signal was ignored before we registered for it
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_SigGoExit // cause all runtime procs to exit (only used on Plan 9).
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_SigSetStack // add SA_ONSTACK to libc handler
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_SigUnblock // unblocked in minit
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)
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// Layout of in-memory per-function information prepared by linker
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// See https://golang.org/s/go12symtab.
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// Keep in sync with linker
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// and with package debug/gosym and with symtab.go in package runtime.
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type _func struct {
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entry uintptr // start pc
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nameoff int32 // function name
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args int32 // in/out args size
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_ int32 // Previously: legacy frame size. TODO: Remove this.
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pcsp int32
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pcfile int32
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pcln int32
|
|
npcdata int32
|
|
nfuncdata int32
|
|
}
|
|
|
|
// layout of Itab known to compilers
|
|
// allocated in non-garbage-collected memory
|
|
type itab struct {
|
|
inter *interfacetype
|
|
_type *_type
|
|
link *itab
|
|
bad int32
|
|
unused int32
|
|
fun [1]uintptr // variable sized
|
|
}
|
|
|
|
// Lock-free stack node.
|
|
// // Also known to export_test.go.
|
|
type lfnode struct {
|
|
next uint64
|
|
pushcnt uintptr
|
|
}
|
|
|
|
type forcegcstate struct {
|
|
lock mutex
|
|
g *g
|
|
idle uint32
|
|
}
|
|
|
|
/*
|
|
* known to compiler
|
|
*/
|
|
const (
|
|
_Structrnd = sys.RegSize
|
|
)
|
|
|
|
// startup_random_data holds random bytes initialized at startup. These come from
|
|
// the ELF AT_RANDOM auxiliary vector (vdso_linux_amd64.go or os_linux_386.go).
|
|
var startupRandomData []byte
|
|
|
|
// extendRandom extends the random numbers in r[:n] to the whole slice r.
|
|
// Treats n<0 as n==0.
|
|
func extendRandom(r []byte, n int) {
|
|
if n < 0 {
|
|
n = 0
|
|
}
|
|
for n < len(r) {
|
|
// Extend random bits using hash function & time seed
|
|
w := n
|
|
if w > 16 {
|
|
w = 16
|
|
}
|
|
h := memhash(unsafe.Pointer(&r[n-w]), uintptr(nanotime()), uintptr(w))
|
|
for i := 0; i < sys.PtrSize && n < len(r); i++ {
|
|
r[n] = byte(h)
|
|
n++
|
|
h >>= 8
|
|
}
|
|
}
|
|
}
|
|
|
|
/*
|
|
* deferred subroutine calls
|
|
*/
|
|
type _defer struct {
|
|
siz int32
|
|
started bool
|
|
sp uintptr // sp at time of defer
|
|
pc uintptr
|
|
fn *funcval
|
|
_panic *_panic // panic that is running defer
|
|
link *_defer
|
|
}
|
|
|
|
/*
|
|
* panics
|
|
*/
|
|
type _panic struct {
|
|
argp unsafe.Pointer // pointer to arguments of deferred call run during panic; cannot move - known to liblink
|
|
arg interface{} // argument to panic
|
|
link *_panic // link to earlier panic
|
|
recovered bool // whether this panic is over
|
|
aborted bool // the panic was aborted
|
|
}
|
|
|
|
/*
|
|
* stack traces
|
|
*/
|
|
|
|
type stkframe struct {
|
|
fn *_func // function being run
|
|
pc uintptr // program counter within fn
|
|
continpc uintptr // program counter where execution can continue, or 0 if not
|
|
lr uintptr // program counter at caller aka link register
|
|
sp uintptr // stack pointer at pc
|
|
fp uintptr // stack pointer at caller aka frame pointer
|
|
varp uintptr // top of local variables
|
|
argp uintptr // pointer to function arguments
|
|
arglen uintptr // number of bytes at argp
|
|
argmap *bitvector // force use of this argmap
|
|
}
|
|
|
|
const (
|
|
_TraceRuntimeFrames = 1 << iota // include frames for internal runtime functions.
|
|
_TraceTrap // the initial PC, SP are from a trap, not a return PC from a call
|
|
_TraceJumpStack // if traceback is on a systemstack, resume trace at g that called into it
|
|
)
|
|
|
|
const (
|
|
// The maximum number of frames we print for a traceback
|
|
_TracebackMaxFrames = 100
|
|
)
|
|
|
|
var (
|
|
emptystring string
|
|
allglen uintptr
|
|
allm *m
|
|
allp [_MaxGomaxprocs + 1]*p
|
|
gomaxprocs int32
|
|
panicking uint32
|
|
ncpu int32
|
|
forcegc forcegcstate
|
|
sched schedt
|
|
newprocs int32
|
|
|
|
// Information about what cpu features are available.
|
|
// Set on startup in asm_{x86,amd64}.s.
|
|
cpuid_ecx uint32
|
|
cpuid_edx uint32
|
|
lfenceBeforeRdtsc bool
|
|
support_avx bool
|
|
support_avx2 bool
|
|
|
|
goarm uint8 // set by cmd/link on arm systems
|
|
)
|
|
|
|
// Set by the linker so the runtime can determine the buildmode.
|
|
var (
|
|
islibrary bool // -buildmode=c-shared
|
|
isarchive bool // -buildmode=c-archive
|
|
)
|
|
|
|
/*
|
|
* mutual exclusion locks. in the uncontended case,
|
|
* as fast as spin locks (just a few user-level instructions),
|
|
* but on the contention path they sleep in the kernel.
|
|
* a zeroed Mutex is unlocked (no need to initialize each lock).
|
|
*/
|
|
|
|
/*
|
|
* sleep and wakeup on one-time events.
|
|
* before any calls to notesleep or notewakeup,
|
|
* must call noteclear to initialize the Note.
|
|
* then, exactly one thread can call notesleep
|
|
* and exactly one thread can call notewakeup (once).
|
|
* once notewakeup has been called, the notesleep
|
|
* will return. future notesleep will return immediately.
|
|
* subsequent noteclear must be called only after
|
|
* previous notesleep has returned, e.g. it's disallowed
|
|
* to call noteclear straight after notewakeup.
|
|
*
|
|
* notetsleep is like notesleep but wakes up after
|
|
* a given number of nanoseconds even if the event
|
|
* has not yet happened. if a goroutine uses notetsleep to
|
|
* wake up early, it must wait to call noteclear until it
|
|
* can be sure that no other goroutine is calling
|
|
* notewakeup.
|
|
*
|
|
* notesleep/notetsleep are generally called on g0,
|
|
* notetsleepg is similar to notetsleep but is called on user g.
|
|
*/
|
|
// bool runtime·notetsleep(Note*, int64); // false - timeout
|
|
// bool runtime·notetsleepg(Note*, int64); // false - timeout
|
|
|
|
/*
|
|
* Lock-free stack.
|
|
* Initialize uint64 head to 0, compare with 0 to test for emptiness.
|
|
* The stack does not keep pointers to nodes,
|
|
* so they can be garbage collected if there are no other pointers to nodes.
|
|
*/
|
|
|
|
// for mmap, we only pass the lower 32 bits of file offset to the
|
|
// assembly routine; the higher bits (if required), should be provided
|
|
// by the assembly routine as 0.
|