| // Copyright 2016 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" |
| "runtime/internal/sys" |
| "unsafe" |
| ) |
| |
| // A gcSweepBuf is a set of *mspans. |
| // |
| // gcSweepBuf is safe for concurrent push operations *or* concurrent |
| // pop operations, but not both simultaneously. |
| type gcSweepBuf struct { |
| // A gcSweepBuf is a two-level data structure consisting of a |
| // growable spine that points to fixed-sized blocks. The spine |
| // can be accessed without locks, but adding a block or |
| // growing it requires taking the spine lock. |
| // |
| // Because each mspan covers at least 8K of heap and takes at |
| // most 8 bytes in the gcSweepBuf, the growth of the spine is |
| // quite limited. |
| // |
| // The spine and all blocks are allocated off-heap, which |
| // allows this to be used in the memory manager and avoids the |
| // need for write barriers on all of these. We never release |
| // this memory because there could be concurrent lock-free |
| // access and we're likely to reuse it anyway. (In principle, |
| // we could do this during STW.) |
| |
| spineLock mutex |
| spine unsafe.Pointer // *[N]*gcSweepBlock, accessed atomically |
| spineLen uintptr // Spine array length, accessed atomically |
| spineCap uintptr // Spine array cap, accessed under lock |
| |
| // index is the first unused slot in the logical concatenation |
| // of all blocks. It is accessed atomically. |
| index uint32 |
| } |
| |
| const ( |
| gcSweepBlockEntries = 512 // 4KB on 64-bit |
| gcSweepBufInitSpineCap = 256 // Enough for 1GB heap on 64-bit |
| ) |
| |
| type gcSweepBlock struct { |
| spans [gcSweepBlockEntries]*mspan |
| } |
| |
| // push adds span s to buffer b. push is safe to call concurrently |
| // with other push operations, but NOT to call concurrently with pop. |
| func (b *gcSweepBuf) push(s *mspan) { |
| // Obtain our slot. |
| cursor := uintptr(atomic.Xadd(&b.index, +1) - 1) |
| top, bottom := cursor/gcSweepBlockEntries, cursor%gcSweepBlockEntries |
| |
| // Do we need to add a block? |
| spineLen := atomic.Loaduintptr(&b.spineLen) |
| var block *gcSweepBlock |
| retry: |
| if top < spineLen { |
| spine := atomic.Loadp(unsafe.Pointer(&b.spine)) |
| blockp := add(spine, sys.PtrSize*top) |
| block = (*gcSweepBlock)(atomic.Loadp(blockp)) |
| } else { |
| // Add a new block to the spine, potentially growing |
| // the spine. |
| lock(&b.spineLock) |
| // spineLen cannot change until we release the lock, |
| // but may have changed while we were waiting. |
| spineLen = atomic.Loaduintptr(&b.spineLen) |
| if top < spineLen { |
| unlock(&b.spineLock) |
| goto retry |
| } |
| |
| if spineLen == b.spineCap { |
| // Grow the spine. |
| newCap := b.spineCap * 2 |
| if newCap == 0 { |
| newCap = gcSweepBufInitSpineCap |
| } |
| newSpine := persistentalloc(newCap*sys.PtrSize, sys.CacheLineSize, &memstats.gc_sys) |
| if b.spineCap != 0 { |
| // Blocks are allocated off-heap, so |
| // no write barriers. |
| memmove(newSpine, b.spine, b.spineCap*sys.PtrSize) |
| } |
| // Spine is allocated off-heap, so no write barrier. |
| atomic.StorepNoWB(unsafe.Pointer(&b.spine), newSpine) |
| b.spineCap = newCap |
| // We can't immediately free the old spine |
| // since a concurrent push with a lower index |
| // could still be reading from it. We let it |
| // leak because even a 1TB heap would waste |
| // less than 2MB of memory on old spines. If |
| // this is a problem, we could free old spines |
| // during STW. |
| } |
| |
| // Allocate a new block and add it to the spine. |
| block = (*gcSweepBlock)(persistentalloc(unsafe.Sizeof(gcSweepBlock{}), sys.CacheLineSize, &memstats.gc_sys)) |
| blockp := add(b.spine, sys.PtrSize*top) |
| // Blocks are allocated off-heap, so no write barrier. |
| atomic.StorepNoWB(blockp, unsafe.Pointer(block)) |
| atomic.Storeuintptr(&b.spineLen, spineLen+1) |
| unlock(&b.spineLock) |
| } |
| |
| // We have a block. Insert the span. |
| block.spans[bottom] = s |
| } |
| |
| // pop removes and returns a span from buffer b, or nil if b is empty. |
| // pop is safe to call concurrently with other pop operations, but NOT |
| // to call concurrently with push. |
| func (b *gcSweepBuf) pop() *mspan { |
| cursor := atomic.Xadd(&b.index, -1) |
| if int32(cursor) < 0 { |
| atomic.Xadd(&b.index, +1) |
| return nil |
| } |
| |
| // There are no concurrent spine or block modifications during |
| // pop, so we can omit the atomics. |
| top, bottom := cursor/gcSweepBlockEntries, cursor%gcSweepBlockEntries |
| blockp := (**gcSweepBlock)(add(b.spine, sys.PtrSize*uintptr(top))) |
| block := *blockp |
| s := block.spans[bottom] |
| // Clear the pointer for block(i). |
| block.spans[bottom] = nil |
| return s |
| } |
| |
| // numBlocks returns the number of blocks in buffer b. numBlocks is |
| // safe to call concurrently with any other operation. Spans that have |
| // been pushed prior to the call to numBlocks are guaranteed to appear |
| // in some block in the range [0, numBlocks()), assuming there are no |
| // intervening pops. Spans that are pushed after the call may also |
| // appear in these blocks. |
| func (b *gcSweepBuf) numBlocks() int { |
| return int((atomic.Load(&b.index) + gcSweepBlockEntries - 1) / gcSweepBlockEntries) |
| } |
| |
| // block returns the spans in the i'th block of buffer b. block is |
| // safe to call concurrently with push. |
| func (b *gcSweepBuf) block(i int) []*mspan { |
| // Perform bounds check before loading spine address since |
| // push ensures the allocated length is at least spineLen. |
| if i < 0 || uintptr(i) >= atomic.Loaduintptr(&b.spineLen) { |
| throw("block index out of range") |
| } |
| |
| // Get block i. |
| spine := atomic.Loadp(unsafe.Pointer(&b.spine)) |
| blockp := add(spine, sys.PtrSize*uintptr(i)) |
| block := (*gcSweepBlock)(atomic.Loadp(blockp)) |
| |
| // Slice the block if necessary. |
| cursor := uintptr(atomic.Load(&b.index)) |
| top, bottom := cursor/gcSweepBlockEntries, cursor%gcSweepBlockEntries |
| var spans []*mspan |
| if uintptr(i) < top { |
| spans = block.spans[:] |
| } else { |
| spans = block.spans[:bottom] |
| } |
| |
| // push may have reserved a slot but not filled it yet, so |
| // trim away unused entries. |
| for len(spans) > 0 && spans[len(spans)-1] == nil { |
| spans = spans[:len(spans)-1] |
| } |
| return spans |
| } |