656297e1fe
Reviewed-on: https://go-review.googlesource.com/c/gofrontend/+/194698 From-SVN: r275691
180 lines
5.4 KiB
Go
180 lines
5.4 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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"unsafe"
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)
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// Per-thread (in Go, per-P) cache for small objects.
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// No locking needed because it is per-thread (per-P).
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//
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// mcaches are allocated from non-GC'd memory, so any heap pointers
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// must be specially handled.
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//
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//go:notinheap
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type mcache struct {
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// The following members are accessed on every malloc,
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// so they are grouped here for better caching.
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next_sample uintptr // trigger heap sample after allocating this many bytes
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local_scan uintptr // bytes of scannable heap allocated
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// Allocator cache for tiny objects w/o pointers.
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// See "Tiny allocator" comment in malloc.go.
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// tiny points to the beginning of the current tiny block, or
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// nil if there is no current tiny block.
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//
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// tiny is a heap pointer. Since mcache is in non-GC'd memory,
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// we handle it by clearing it in releaseAll during mark
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// termination.
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tiny uintptr
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tinyoffset uintptr
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local_tinyallocs uintptr // number of tiny allocs not counted in other stats
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// The rest is not accessed on every malloc.
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alloc [numSpanClasses]*mspan // spans to allocate from, indexed by spanClass
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// Local allocator stats, flushed during GC.
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local_largefree uintptr // bytes freed for large objects (>maxsmallsize)
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local_nlargefree uintptr // number of frees for large objects (>maxsmallsize)
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local_nsmallfree [_NumSizeClasses]uintptr // number of frees for small objects (<=maxsmallsize)
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// flushGen indicates the sweepgen during which this mcache
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// was last flushed. If flushGen != mheap_.sweepgen, the spans
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// in this mcache are stale and need to the flushed so they
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// can be swept. This is done in acquirep.
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flushGen uint32
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}
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// A gclink is a node in a linked list of blocks, like mlink,
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// but it is opaque to the garbage collector.
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// The GC does not trace the pointers during collection,
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// and the compiler does not emit write barriers for assignments
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// of gclinkptr values. Code should store references to gclinks
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// as gclinkptr, not as *gclink.
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type gclink struct {
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next gclinkptr
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}
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// A gclinkptr is a pointer to a gclink, but it is opaque
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// to the garbage collector.
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type gclinkptr uintptr
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// ptr returns the *gclink form of p.
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// The result should be used for accessing fields, not stored
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// in other data structures.
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func (p gclinkptr) ptr() *gclink {
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return (*gclink)(unsafe.Pointer(p))
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}
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// dummy mspan that contains no free objects.
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var emptymspan mspan
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func allocmcache() *mcache {
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var c *mcache
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systemstack(func() {
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lock(&mheap_.lock)
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c = (*mcache)(mheap_.cachealloc.alloc())
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c.flushGen = mheap_.sweepgen
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unlock(&mheap_.lock)
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})
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for i := range c.alloc {
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c.alloc[i] = &emptymspan
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}
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c.next_sample = nextSample()
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return c
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}
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func freemcache(c *mcache) {
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systemstack(func() {
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c.releaseAll()
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// NOTE(rsc,rlh): If gcworkbuffree comes back, we need to coordinate
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// with the stealing of gcworkbufs during garbage collection to avoid
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// a race where the workbuf is double-freed.
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// gcworkbuffree(c.gcworkbuf)
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lock(&mheap_.lock)
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purgecachedstats(c)
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mheap_.cachealloc.free(unsafe.Pointer(c))
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unlock(&mheap_.lock)
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})
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}
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// refill acquires a new span of span class spc for c. This span will
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// have at least one free object. The current span in c must be full.
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//
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// Must run in a non-preemptible context since otherwise the owner of
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// c could change.
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func (c *mcache) refill(spc spanClass) {
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// Return the current cached span to the central lists.
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s := c.alloc[spc]
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if uintptr(s.allocCount) != s.nelems {
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throw("refill of span with free space remaining")
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}
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if s != &emptymspan {
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// Mark this span as no longer cached.
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if s.sweepgen != mheap_.sweepgen+3 {
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throw("bad sweepgen in refill")
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}
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atomic.Store(&s.sweepgen, mheap_.sweepgen)
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}
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// Get a new cached span from the central lists.
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s = mheap_.central[spc].mcentral.cacheSpan()
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if s == nil {
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throw("out of memory")
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}
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if uintptr(s.allocCount) == s.nelems {
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throw("span has no free space")
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}
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// Indicate that this span is cached and prevent asynchronous
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// sweeping in the next sweep phase.
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s.sweepgen = mheap_.sweepgen + 3
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c.alloc[spc] = s
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}
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func (c *mcache) releaseAll() {
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for i := range c.alloc {
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s := c.alloc[i]
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if s != &emptymspan {
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mheap_.central[i].mcentral.uncacheSpan(s)
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c.alloc[i] = &emptymspan
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}
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}
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// Clear tinyalloc pool.
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c.tiny = 0
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c.tinyoffset = 0
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}
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// prepareForSweep flushes c if the system has entered a new sweep phase
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// since c was populated. This must happen between the sweep phase
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// starting and the first allocation from c.
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func (c *mcache) prepareForSweep() {
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// Alternatively, instead of making sure we do this on every P
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// between starting the world and allocating on that P, we
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// could leave allocate-black on, allow allocation to continue
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// as usual, use a ragged barrier at the beginning of sweep to
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// ensure all cached spans are swept, and then disable
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// allocate-black. However, with this approach it's difficult
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// to avoid spilling mark bits into the *next* GC cycle.
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sg := mheap_.sweepgen
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if c.flushGen == sg {
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return
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} else if c.flushGen != sg-2 {
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println("bad flushGen", c.flushGen, "in prepareForSweep; sweepgen", sg)
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throw("bad flushGen")
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}
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c.releaseAll()
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atomic.Store(&c.flushGen, mheap_.sweepgen) // Synchronizes with gcStart
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}
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