| // Copyright 2009 The Go Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style |
| // license that can be found in the LICENSE file. |
| |
| package runtime |
| |
| import ( |
| "runtime/internal/atomic" |
| "unsafe" |
| ) |
| |
| // Per-thread (in Go, per-P) cache for small objects. |
| // No locking needed because it is per-thread (per-P). |
| // |
| // mcaches are allocated from non-GC'd memory, so any heap pointers |
| // must be specially handled. |
| // |
| //go:notinheap |
| type mcache struct { |
| // The following members are accessed on every malloc, |
| // so they are grouped here for better caching. |
| next_sample int32 // trigger heap sample after allocating this many bytes |
| local_scan uintptr // bytes of scannable heap allocated |
| |
| // Allocator cache for tiny objects w/o pointers. |
| // See "Tiny allocator" comment in malloc.go. |
| |
| // tiny points to the beginning of the current tiny block, or |
| // nil if there is no current tiny block. |
| // |
| // tiny is a heap pointer. Since mcache is in non-GC'd memory, |
| // we handle it by clearing it in releaseAll during mark |
| // termination. |
| tiny uintptr |
| tinyoffset uintptr |
| local_tinyallocs uintptr // number of tiny allocs not counted in other stats |
| |
| // The rest is not accessed on every malloc. |
| |
| alloc [numSpanClasses]*mspan // spans to allocate from, indexed by spanClass |
| |
| stackcache [_NumStackOrders]stackfreelist |
| |
| // Local allocator stats, flushed during GC. |
| local_largefree uintptr // bytes freed for large objects (>maxsmallsize) |
| local_nlargefree uintptr // number of frees for large objects (>maxsmallsize) |
| local_nsmallfree [_NumSizeClasses]uintptr // number of frees for small objects (<=maxsmallsize) |
| |
| // flushGen indicates the sweepgen during which this mcache |
| // was last flushed. If flushGen != mheap_.sweepgen, the spans |
| // in this mcache are stale and need to the flushed so they |
| // can be swept. This is done in acquirep. |
| flushGen uint32 |
| } |
| |
| // A gclink is a node in a linked list of blocks, like mlink, |
| // but it is opaque to the garbage collector. |
| // The GC does not trace the pointers during collection, |
| // and the compiler does not emit write barriers for assignments |
| // of gclinkptr values. Code should store references to gclinks |
| // as gclinkptr, not as *gclink. |
| type gclink struct { |
| next gclinkptr |
| } |
| |
| // A gclinkptr is a pointer to a gclink, but it is opaque |
| // to the garbage collector. |
| type gclinkptr uintptr |
| |
| // ptr returns the *gclink form of p. |
| // The result should be used for accessing fields, not stored |
| // in other data structures. |
| func (p gclinkptr) ptr() *gclink { |
| return (*gclink)(unsafe.Pointer(p)) |
| } |
| |
| type stackfreelist struct { |
| list gclinkptr // linked list of free stacks |
| size uintptr // total size of stacks in list |
| } |
| |
| // dummy mspan that contains no free objects. |
| var emptymspan mspan |
| |
| func allocmcache() *mcache { |
| lock(&mheap_.lock) |
| c := (*mcache)(mheap_.cachealloc.alloc()) |
| c.flushGen = mheap_.sweepgen |
| unlock(&mheap_.lock) |
| for i := range c.alloc { |
| c.alloc[i] = &emptymspan |
| } |
| c.next_sample = nextSample() |
| return c |
| } |
| |
| func freemcache(c *mcache) { |
| systemstack(func() { |
| c.releaseAll() |
| stackcache_clear(c) |
| |
| // NOTE(rsc,rlh): If gcworkbuffree comes back, we need to coordinate |
| // with the stealing of gcworkbufs during garbage collection to avoid |
| // a race where the workbuf is double-freed. |
| // gcworkbuffree(c.gcworkbuf) |
| |
| lock(&mheap_.lock) |
| purgecachedstats(c) |
| mheap_.cachealloc.free(unsafe.Pointer(c)) |
| unlock(&mheap_.lock) |
| }) |
| } |
| |
| // refill acquires a new span of span class spc for c. This span will |
| // have at least one free object. The current span in c must be full. |
| // |
| // Must run in a non-preemptible context since otherwise the owner of |
| // c could change. |
| func (c *mcache) refill(spc spanClass) { |
| // Return the current cached span to the central lists. |
| s := c.alloc[spc] |
| |
| if uintptr(s.allocCount) != s.nelems { |
| throw("refill of span with free space remaining") |
| } |
| if s != &emptymspan { |
| // Mark this span as no longer cached. |
| if s.sweepgen != mheap_.sweepgen+3 { |
| throw("bad sweepgen in refill") |
| } |
| atomic.Store(&s.sweepgen, mheap_.sweepgen) |
| } |
| |
| // Get a new cached span from the central lists. |
| s = mheap_.central[spc].mcentral.cacheSpan() |
| if s == nil { |
| throw("out of memory") |
| } |
| |
| if uintptr(s.allocCount) == s.nelems { |
| throw("span has no free space") |
| } |
| |
| // Indicate that this span is cached and prevent asynchronous |
| // sweeping in the next sweep phase. |
| s.sweepgen = mheap_.sweepgen + 3 |
| |
| c.alloc[spc] = s |
| } |
| |
| func (c *mcache) releaseAll() { |
| for i := range c.alloc { |
| s := c.alloc[i] |
| if s != &emptymspan { |
| mheap_.central[i].mcentral.uncacheSpan(s) |
| c.alloc[i] = &emptymspan |
| } |
| } |
| // Clear tinyalloc pool. |
| c.tiny = 0 |
| c.tinyoffset = 0 |
| } |
| |
| // prepareForSweep flushes c if the system has entered a new sweep phase |
| // since c was populated. This must happen between the sweep phase |
| // starting and the first allocation from c. |
| func (c *mcache) prepareForSweep() { |
| // Alternatively, instead of making sure we do this on every P |
| // between starting the world and allocating on that P, we |
| // could leave allocate-black on, allow allocation to continue |
| // as usual, use a ragged barrier at the beginning of sweep to |
| // ensure all cached spans are swept, and then disable |
| // allocate-black. However, with this approach it's difficult |
| // to avoid spilling mark bits into the *next* GC cycle. |
| sg := mheap_.sweepgen |
| if c.flushGen == sg { |
| return |
| } else if c.flushGen != sg-2 { |
| println("bad flushGen", c.flushGen, "in prepareForSweep; sweepgen", sg) |
| throw("bad flushGen") |
| } |
| c.releaseAll() |
| stackcache_clear(c) |
| atomic.Store(&c.flushGen, mheap_.sweepgen) // Synchronizes with gcStart |
| } |