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https://github.com/golang/go
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runtime: more malloc statistics
expvar: default publishings for cmdline, memstats godoc: import expvar R=r CC=golang-dev https://golang.org/cl/815041
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@ -29,8 +29,9 @@ import (
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"bytes"
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"flag"
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"fmt"
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_ "expvar" // to serve /debug/vars
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"http"
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_ "http/pprof"
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_ "http/pprof" // to serve /debug/pprof/*
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"io"
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"log"
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"os"
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@ -5,13 +5,28 @@
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// The expvar package provides a standardized interface to public variables,
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// such as operation counters in servers. It exposes these variables via
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// HTTP at /debug/vars in JSON format.
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//
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// In addition to adding the HTTP handler, this package registers the
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// following variables:
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//
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// cmdline os.Args
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// memstats runtime.Memstats
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//
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// The package is sometimes only imported for the side effect of
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// registering its HTTP handler and the above variables. To use it
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// this way, simply link this package into your program:
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// import _ "expvar"
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//
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package expvar
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import (
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"bytes"
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"fmt"
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"http"
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"json"
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"log"
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"os"
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"runtime"
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"strconv"
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"sync"
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)
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@ -128,6 +143,12 @@ type IntFunc func() int64
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func (v IntFunc) String() string { return strconv.Itoa64(v()) }
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// StringFunc wraps a func() string to create value that satisfies the Var interface.
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// The function will be called each time the Var is evaluated.
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type StringFunc func() string
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func (f StringFunc) String() string { return f() }
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// All published variables.
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var vars map[string]Var = make(map[string]Var)
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@ -204,9 +225,26 @@ func expvarHandler(c *http.Conn, req *http.Request) {
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fmt.Fprintf(c, ",\n")
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}
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first = false
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fmt.Fprintf(c, " %q: %s", name, value)
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fmt.Fprintf(c, "%q: %s", name, value)
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}
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fmt.Fprintf(c, "\n}\n")
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}
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func init() { http.Handle("/debug/vars", http.HandlerFunc(expvarHandler)) }
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func memstats() string {
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var buf bytes.Buffer
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json.MarshalIndent(&buf, &runtime.MemStats, " ")
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s := buf.String()
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return s[0 : len(s)-1] // chop final \n
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}
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func cmdline() string {
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var buf bytes.Buffer
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json.Marshal(&buf, os.Args)
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return buf.String()
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}
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func init() {
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http.Handle("/debug/vars", http.HandlerFunc(expvarHandler))
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Publish("cmdline", StringFunc(cmdline))
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Publish("memstats", StringFunc(memstats))
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}
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@ -134,20 +134,40 @@ func Signame(sig int32) string
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func Siginit()
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type MemStatsType struct {
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Alloc uint64
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TotalAlloc uint64
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Sys uint64
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Stacks uint64
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InusePages uint64
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NextGC uint64
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HeapAlloc uint64
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Lookups uint64
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Mallocs uint64
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PauseNs uint64
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NumGC uint32
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EnableGC bool
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DebugGC bool
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BySize [67]struct {
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// General statistics.
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// Not locked during update; approximate.
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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 (should be 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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// 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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// 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 // bootstrap stacks
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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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// Garbage collector statistics.
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NextGC uint64
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PauseNs uint64
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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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// Not locked during update; approximate.
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BySize [67]struct {
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Size uint32
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Mallocs uint64
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Frees uint64
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@ -234,7 +234,12 @@ mlookup(void *v, byte **base, uintptr *size, MSpan **sp, uint32 **ref)
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MCache*
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allocmcache(void)
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{
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return FixAlloc_Alloc(&mheap.cachealloc);
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MCache *c;
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c = FixAlloc_Alloc(&mheap.cachealloc);
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mstats.mcache_inuse = mheap.cachealloc.inuse;
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mstats.mcache_sys = mheap.cachealloc.sys;
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return c;
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}
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void
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@ -289,6 +294,8 @@ stackalloc(uint32 n)
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throw("stackalloc");
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}
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v = FixAlloc_Alloc(&stacks);
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mstats.stacks_inuse = stacks.inuse;
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mstats.stacks_sys = stacks.sys;
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unlock(&stacks);
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return v;
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}
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@ -305,6 +312,8 @@ stackfree(void *v)
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if(m->mallocing || m->gcing) {
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lock(&stacks);
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FixAlloc_Free(&stacks, v);
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mstats.stacks_inuse = stacks.inuse;
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mstats.stacks_sys = stacks.sys;
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unlock(&stacks);
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return;
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}
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@ -157,6 +157,8 @@ struct FixAlloc
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MLink *list;
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byte *chunk;
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uint32 nchunk;
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uintptr inuse; // in-use bytes now
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uintptr sys; // bytes obtained from system
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};
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void FixAlloc_Init(FixAlloc *f, uintptr size, void *(*alloc)(uintptr), void (*first)(void*, byte*), void *arg);
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@ -168,19 +170,39 @@ void FixAlloc_Free(FixAlloc *f, void *p);
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// Shared with Go: if you edit this structure, also edit extern.go.
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struct MStats
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{
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uint64 alloc; // unprotected (approximate)
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uint64 total_alloc; // unprotected (approximate)
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uint64 sys;
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uint64 stacks;
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uint64 inuse_pages; // protected by mheap.Lock
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uint64 next_gc; // protected by mheap.Lock
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uint64 heap_alloc; // protected by mheap.Lock
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uint64 nlookup; // unprotected (approximate)
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uint64 nmalloc; // unprotected (approximate)
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// General statistics. No locking; approximate.
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uint64 alloc; // bytes allocated and still in use
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uint64 total_alloc; // bytes allocated (even if freed)
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uint64 sys; // bytes obtained from system (should be sum of xxx_sys below)
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uint64 nlookup; // number of pointer lookups
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uint64 nmalloc; // number of mallocs
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// Statistics about malloc heap.
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// protected by mheap.Lock
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uint64 heap_alloc; // bytes allocated and still in use
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uint64 heap_sys; // bytes obtained from system
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uint64 heap_idle; // bytes in idle spans
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uint64 heap_inuse; // bytes in non-idle spans
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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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uint64 stacks_inuse; // bootstrap stacks
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uint64 stacks_sys;
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uint64 mspan_inuse; // MSpan structures
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uint64 mspan_sys;
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uint64 mcache_inuse; // MCache structures
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uint64 mcache_sys;
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// Statistics about garbage collector.
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// Protected by stopping the world during GC.
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uint64 next_gc; // next GC (in heap_alloc time)
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uint64 pause_ns;
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uint32 numgc;
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bool enablegc;
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bool debuggc;
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// Statistics about allocation size classes.
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// No locking; approximate.
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struct {
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uint32 size;
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uint64 nmalloc;
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@ -21,6 +21,8 @@ FixAlloc_Init(FixAlloc *f, uintptr size, void *(*alloc)(uintptr), void (*first)(
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f->list = nil;
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f->chunk = nil;
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f->nchunk = 0;
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f->inuse = 0;
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f->sys = 0;
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}
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void*
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@ -31,9 +33,11 @@ FixAlloc_Alloc(FixAlloc *f)
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if(f->list) {
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v = f->list;
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f->list = *(void**)f->list;
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f->inuse += f->size;
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return v;
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}
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if(f->nchunk < f->size) {
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f->sys += FixAllocChunk;
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f->chunk = f->alloc(FixAllocChunk);
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if(f->chunk == nil)
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throw("out of memory (FixAlloc)");
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@ -44,12 +48,14 @@ FixAlloc_Alloc(FixAlloc *f)
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f->first(f->arg, v);
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f->chunk += f->size;
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f->nchunk -= f->size;
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f->inuse += f->size;
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return v;
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}
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void
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FixAlloc_Free(FixAlloc *f, void *p)
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{
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f->inuse -= f->size;
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*(void**)p = f->list;
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f->list = p;
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}
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m->mcache->local_alloc = 0;
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s = MHeap_AllocLocked(h, npage, sizeclass);
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if(s != nil) {
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mstats.inuse_pages += npage;
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mstats.heap_inuse += npage<<PageShift;
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if(acct)
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mstats.heap_alloc += npage<<PageShift;
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}
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@ -104,6 +104,8 @@ HaveSpan:
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if(s->npages > npage) {
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// Trim extra and put it back in the heap.
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t = FixAlloc_Alloc(&h->spanalloc);
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mstats.mspan_inuse = h->spanalloc.inuse;
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mstats.mspan_sys = h->spanalloc.sys;
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MSpan_Init(t, s->start + npage, s->npages - npage);
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s->npages = npage;
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MHeapMap_Set(&h->map, t->start - 1, s);
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@ -191,6 +193,8 @@ MHeap_Grow(MHeap *h, uintptr npage)
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// Create a fake "in use" span and free it, so that the
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// right coalescing happens.
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s = FixAlloc_Alloc(&h->spanalloc);
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mstats.mspan_inuse = h->spanalloc.inuse;
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mstats.mspan_sys = h->spanalloc.sys;
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MSpan_Init(s, (uintptr)v>>PageShift, ask>>PageShift);
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MHeapMap_Set(&h->map, s->start, s);
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MHeapMap_Set(&h->map, s->start + s->npages - 1, s);
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@ -235,7 +239,7 @@ MHeap_Free(MHeap *h, MSpan *s, int32 acct)
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lock(h);
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mstats.heap_alloc += m->mcache->local_alloc;
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m->mcache->local_alloc = 0;
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mstats.inuse_pages -= s->npages;
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mstats.heap_inuse -= s->npages<<PageShift;
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if(acct)
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mstats.heap_alloc -= s->npages<<PageShift;
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MHeap_FreeLocked(h, s);
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@ -262,6 +266,8 @@ MHeap_FreeLocked(MHeap *h, MSpan *s)
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MSpanList_Remove(t);
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t->state = MSpanDead;
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FixAlloc_Free(&h->spanalloc, t);
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mstats.mspan_inuse = h->spanalloc.inuse;
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mstats.mspan_sys = h->spanalloc.sys;
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}
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if((t = MHeapMap_Get(&h->map, s->start + s->npages)) != nil && t->state != MSpanInUse) {
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s->npages += t->npages;
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@ -269,6 +275,8 @@ MHeap_FreeLocked(MHeap *h, MSpan *s)
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MSpanList_Remove(t);
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t->state = MSpanDead;
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FixAlloc_Free(&h->spanalloc, t);
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mstats.mspan_inuse = h->spanalloc.inuse;
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mstats.mspan_sys = h->spanalloc.sys;
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}
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// Insert s into appropriate list.
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@ -77,16 +77,24 @@ func WriteHeapProfile(w io.Writer) os.Error {
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fmt.Fprintf(b, "# Alloc = %d\n", s.Alloc)
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fmt.Fprintf(b, "# TotalAlloc = %d\n", s.TotalAlloc)
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fmt.Fprintf(b, "# Sys = %d\n", s.Sys)
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fmt.Fprintf(b, "# Stacks = %d\n", s.Stacks)
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fmt.Fprintf(b, "# InusePages = %d\n", s.InusePages)
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fmt.Fprintf(b, "# NextGC = %d\n", s.NextGC)
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fmt.Fprintf(b, "# HeapAlloc = %d\n", s.HeapAlloc)
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fmt.Fprintf(b, "# Lookups = %d\n", s.Lookups)
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fmt.Fprintf(b, "# Mallocs = %d\n", s.Mallocs)
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fmt.Fprintf(b, "# HeapAlloc = %d\n", s.HeapAlloc)
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fmt.Fprintf(b, "# HeapSys = %d\n", s.HeapSys)
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fmt.Fprintf(b, "# HeapIdle = %d\n", s.HeapIdle)
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fmt.Fprintf(b, "# HeapInuse = %d\n", s.HeapInuse)
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fmt.Fprintf(b, "# Stack = %d / %d\n", s.StackInuse, s.StackSys)
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fmt.Fprintf(b, "# MSpan = %d / %d\n", s.MSpanInuse, s.MSpanSys)
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fmt.Fprintf(b, "# MCache = %d / %d\n", s.MCacheInuse, s.MCacheSys)
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fmt.Fprintf(b, "# NextGC = %d\n", s.NextGC)
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fmt.Fprintf(b, "# PauseNs = %d\n", s.PauseNs)
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fmt.Fprintf(b, "# NumGC = %d\n", s.NumGC)
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fmt.Fprintf(b, "# EnableGC = %v\n", s.EnableGC)
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fmt.Fprintf(b, "# DebugGC = %v\n", s.DebugGC)
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fmt.Fprintf(b, "# BySize = Size * (Active = Mallocs - Frees)\n")
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for _, t := range s.BySize {
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if t.Mallocs > 0 {
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