mirror of
https://github.com/golang/go
synced 2024-11-19 13:14:42 -07:00
484f801ff4
Move code from malloc1.go, malloc2.go, mem.go, mgc0.go into appropriate locations. Factor mgc.go into mgc.go, mgcmark.go, mgcsweep.go, mstats.go. A lot of this code was in certain files because the right place was in a C file but it was written in Go, or vice versa. This is one step toward making things actually well-organized again. Change-Id: I6741deb88a7cfb1c17ffe0bcca3989e10207968f Reviewed-on: https://go-review.googlesource.com/5300 Reviewed-by: Austin Clements <austin@google.com> Reviewed-by: Rick Hudson <rlh@golang.org>
341 lines
10 KiB
Go
341 lines
10 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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// Memory statistics
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package runtime
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import "unsafe"
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// Statistics.
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// Shared with Go: if you edit this structure, also edit type MemStats in mem.go.
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type mstats struct {
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// General statistics.
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alloc uint64 // bytes allocated and still in use
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total_alloc uint64 // bytes allocated (even if freed)
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sys uint64 // bytes obtained from system (should be sum of xxx_sys below, no locking, approximate)
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nlookup uint64 // number of pointer lookups
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nmalloc uint64 // number of mallocs
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nfree uint64 // number of frees
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// Statistics about malloc heap.
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// protected by mheap.lock
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heap_alloc uint64 // bytes allocated and still in use
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heap_sys uint64 // bytes obtained from system
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heap_idle uint64 // bytes in idle spans
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heap_inuse uint64 // bytes in non-idle spans
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heap_released uint64 // bytes released to the os
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heap_objects uint64 // total number of allocated objects
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// Statistics about allocation of low-level fixed-size structures.
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// Protected by FixAlloc locks.
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stacks_inuse uint64 // this number is included in heap_inuse above
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stacks_sys uint64 // always 0 in mstats
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mspan_inuse uint64 // mspan structures
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mspan_sys uint64
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mcache_inuse uint64 // mcache structures
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mcache_sys uint64
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buckhash_sys uint64 // profiling bucket hash table
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gc_sys uint64
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other_sys uint64
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// Statistics about garbage collector.
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// Protected by mheap or stopping the world during GC.
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next_gc uint64 // next gc (in heap_alloc time)
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last_gc uint64 // last gc (in absolute time)
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pause_total_ns uint64
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pause_ns [256]uint64 // circular buffer of recent gc pause lengths
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pause_end [256]uint64 // circular buffer of recent gc end times (nanoseconds since 1970)
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numgc uint32
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enablegc bool
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debuggc bool
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// Statistics about allocation size classes.
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by_size [_NumSizeClasses]struct {
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size uint32
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nmalloc uint64
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nfree uint64
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}
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tinyallocs uint64 // number of tiny allocations that didn't cause actual allocation; not exported to go directly
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}
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var memstats mstats
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// Note: the MemStats struct should be kept in sync with
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// struct MStats in malloc.h
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// A MemStats records statistics about the memory allocator.
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type MemStats struct {
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// General statistics.
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Alloc uint64 // bytes allocated and still in use
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TotalAlloc uint64 // bytes allocated (even if freed)
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Sys uint64 // bytes obtained from system (sum of XxxSys below)
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Lookups uint64 // number of pointer lookups
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Mallocs uint64 // number of mallocs
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Frees uint64 // number of frees
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// Main allocation heap statistics.
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HeapAlloc uint64 // bytes allocated and still in use
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HeapSys uint64 // bytes obtained from system
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HeapIdle uint64 // bytes in idle spans
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HeapInuse uint64 // bytes in non-idle span
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HeapReleased uint64 // bytes released to the OS
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HeapObjects uint64 // total number of allocated objects
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// Low-level fixed-size structure allocator statistics.
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// Inuse is bytes used now.
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// Sys is bytes obtained from system.
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StackInuse uint64 // bytes used by stack allocator
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StackSys uint64
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MSpanInuse uint64 // mspan structures
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MSpanSys uint64
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MCacheInuse uint64 // mcache structures
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MCacheSys uint64
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BuckHashSys uint64 // profiling bucket hash table
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GCSys uint64 // GC metadata
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OtherSys uint64 // other system allocations
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// Garbage collector statistics.
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NextGC uint64 // next collection will happen when HeapAlloc ≥ this amount
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LastGC uint64 // end time of last collection (nanoseconds since 1970)
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PauseTotalNs uint64
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PauseNs [256]uint64 // circular buffer of recent GC pause durations, most recent at [(NumGC+255)%256]
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PauseEnd [256]uint64 // circular buffer of recent GC pause end times
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NumGC uint32
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EnableGC bool
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DebugGC bool
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// Per-size allocation statistics.
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// 61 is NumSizeClasses in the C code.
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BySize [61]struct {
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Size uint32
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Mallocs uint64
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Frees uint64
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}
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}
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// Size of the trailing by_size array differs between Go and C,
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// and all data after by_size is local to runtime, not exported.
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// NumSizeClasses was changed, but we can not change Go struct because of backward compatibility.
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// sizeof_C_MStats is what C thinks about size of Go struct.
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var sizeof_C_MStats = unsafe.Offsetof(memstats.by_size) + 61*unsafe.Sizeof(memstats.by_size[0])
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func init() {
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var memStats MemStats
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if sizeof_C_MStats != unsafe.Sizeof(memStats) {
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println(sizeof_C_MStats, unsafe.Sizeof(memStats))
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throw("MStats vs MemStatsType size mismatch")
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}
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}
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// ReadMemStats populates m with memory allocator statistics.
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func ReadMemStats(m *MemStats) {
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// Have to acquire worldsema to stop the world,
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// because stoptheworld can only be used by
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// one goroutine at a time, and there might be
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// a pending garbage collection already calling it.
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semacquire(&worldsema, false)
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gp := getg()
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gp.m.preemptoff = "read mem stats"
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systemstack(stoptheworld)
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systemstack(func() {
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readmemstats_m(m)
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})
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gp.m.preemptoff = ""
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gp.m.locks++
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semrelease(&worldsema)
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systemstack(starttheworld)
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gp.m.locks--
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}
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func readmemstats_m(stats *MemStats) {
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updatememstats(nil)
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// Size of the trailing by_size array differs between Go and C,
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// NumSizeClasses was changed, but we can not change Go struct because of backward compatibility.
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memmove(unsafe.Pointer(stats), unsafe.Pointer(&memstats), sizeof_C_MStats)
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// Stack numbers are part of the heap numbers, separate those out for user consumption
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stats.StackSys = stats.StackInuse
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stats.HeapInuse -= stats.StackInuse
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stats.HeapSys -= stats.StackInuse
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}
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//go:linkname readGCStats runtime/debug.readGCStats
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func readGCStats(pauses *[]uint64) {
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systemstack(func() {
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readGCStats_m(pauses)
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})
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}
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func readGCStats_m(pauses *[]uint64) {
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p := *pauses
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// Calling code in runtime/debug should make the slice large enough.
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if cap(p) < len(memstats.pause_ns)+3 {
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throw("short slice passed to readGCStats")
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}
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// Pass back: pauses, pause ends, last gc (absolute time), number of gc, total pause ns.
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lock(&mheap_.lock)
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n := memstats.numgc
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if n > uint32(len(memstats.pause_ns)) {
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n = uint32(len(memstats.pause_ns))
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}
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// The pause buffer is circular. The most recent pause is at
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// pause_ns[(numgc-1)%len(pause_ns)], and then backward
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// from there to go back farther in time. We deliver the times
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// most recent first (in p[0]).
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p = p[:cap(p)]
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for i := uint32(0); i < n; i++ {
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j := (memstats.numgc - 1 - i) % uint32(len(memstats.pause_ns))
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p[i] = memstats.pause_ns[j]
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p[n+i] = memstats.pause_end[j]
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}
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p[n+n] = memstats.last_gc
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p[n+n+1] = uint64(memstats.numgc)
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p[n+n+2] = memstats.pause_total_ns
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unlock(&mheap_.lock)
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*pauses = p[:n+n+3]
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}
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//go:nowritebarrier
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func updatememstats(stats *gcstats) {
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if stats != nil {
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*stats = gcstats{}
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}
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for mp := allm; mp != nil; mp = mp.alllink {
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if stats != nil {
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src := (*[unsafe.Sizeof(gcstats{}) / 8]uint64)(unsafe.Pointer(&mp.gcstats))
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dst := (*[unsafe.Sizeof(gcstats{}) / 8]uint64)(unsafe.Pointer(stats))
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for i, v := range src {
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dst[i] += v
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}
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mp.gcstats = gcstats{}
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}
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}
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memstats.mcache_inuse = uint64(mheap_.cachealloc.inuse)
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memstats.mspan_inuse = uint64(mheap_.spanalloc.inuse)
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memstats.sys = memstats.heap_sys + memstats.stacks_sys + memstats.mspan_sys +
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memstats.mcache_sys + memstats.buckhash_sys + memstats.gc_sys + memstats.other_sys
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// Calculate memory allocator stats.
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// During program execution we only count number of frees and amount of freed memory.
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// Current number of alive object in the heap and amount of alive heap memory
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// are calculated by scanning all spans.
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// Total number of mallocs is calculated as number of frees plus number of alive objects.
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// Similarly, total amount of allocated memory is calculated as amount of freed memory
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// plus amount of alive heap memory.
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memstats.alloc = 0
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memstats.total_alloc = 0
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memstats.nmalloc = 0
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memstats.nfree = 0
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for i := 0; i < len(memstats.by_size); i++ {
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memstats.by_size[i].nmalloc = 0
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memstats.by_size[i].nfree = 0
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}
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// Flush MCache's to MCentral.
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systemstack(flushallmcaches)
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// Aggregate local stats.
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cachestats()
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// Scan all spans and count number of alive objects.
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lock(&mheap_.lock)
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for i := uint32(0); i < mheap_.nspan; i++ {
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s := h_allspans[i]
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if s.state != mSpanInUse {
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continue
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}
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if s.sizeclass == 0 {
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memstats.nmalloc++
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memstats.alloc += uint64(s.elemsize)
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} else {
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memstats.nmalloc += uint64(s.ref)
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memstats.by_size[s.sizeclass].nmalloc += uint64(s.ref)
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memstats.alloc += uint64(s.ref) * uint64(s.elemsize)
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}
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}
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unlock(&mheap_.lock)
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// Aggregate by size class.
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smallfree := uint64(0)
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memstats.nfree = mheap_.nlargefree
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for i := 0; i < len(memstats.by_size); i++ {
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memstats.nfree += mheap_.nsmallfree[i]
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memstats.by_size[i].nfree = mheap_.nsmallfree[i]
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memstats.by_size[i].nmalloc += mheap_.nsmallfree[i]
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smallfree += uint64(mheap_.nsmallfree[i]) * uint64(class_to_size[i])
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}
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memstats.nfree += memstats.tinyallocs
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memstats.nmalloc += memstats.nfree
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// Calculate derived stats.
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memstats.total_alloc = uint64(memstats.alloc) + uint64(mheap_.largefree) + smallfree
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memstats.heap_alloc = memstats.alloc
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memstats.heap_objects = memstats.nmalloc - memstats.nfree
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}
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//go:nowritebarrier
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func cachestats() {
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for i := 0; ; i++ {
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p := allp[i]
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if p == nil {
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break
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}
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c := p.mcache
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if c == nil {
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continue
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}
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purgecachedstats(c)
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}
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}
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//go:nowritebarrier
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func flushallmcaches() {
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for i := 0; ; i++ {
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p := allp[i]
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if p == nil {
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break
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}
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c := p.mcache
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if c == nil {
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continue
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}
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mCache_ReleaseAll(c)
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stackcache_clear(c)
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}
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}
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//go:nosplit
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func purgecachedstats(c *mcache) {
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// Protected by either heap or GC lock.
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h := &mheap_
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memstats.heap_alloc += uint64(c.local_cachealloc)
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c.local_cachealloc = 0
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if trace.enabled {
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traceHeapAlloc()
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}
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memstats.tinyallocs += uint64(c.local_tinyallocs)
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c.local_tinyallocs = 0
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memstats.nlookup += uint64(c.local_nlookup)
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c.local_nlookup = 0
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h.largefree += uint64(c.local_largefree)
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c.local_largefree = 0
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h.nlargefree += uint64(c.local_nlargefree)
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c.local_nlargefree = 0
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for i := 0; i < len(c.local_nsmallfree); i++ {
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h.nsmallfree[i] += uint64(c.local_nsmallfree[i])
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c.local_nsmallfree[i] = 0
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}
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}
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