// Copyright 2024 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.
// Runtime -> tracer API for memory events.
package runtime
import (
"internal/abi"
"internal/runtime/sys"
)
// Batch type values for the alloc/free experiment.
const (
traceAllocFreeTypesBatch = iota // Contains types. [{id, address, size, ptrspan, name length, name string} ...]
traceAllocFreeInfoBatch // Contains info for interpreting events. [min heap addr, page size, min heap align, min stack align]
)
// traceSnapshotMemory takes a snapshot of all runtime memory that there are events for
// (heap spans, heap objects, goroutine stacks, etc.) and writes out events for them.
//
// The world must be stopped and tracing must be enabled when this function is called.
func traceSnapshotMemory(gen uintptr) {
assertWorldStopped()
// Write a batch containing information that'll be necessary to
// interpret the events.
var flushed bool
w := unsafeTraceExpWriter(gen, nil, traceExperimentAllocFree)
w, flushed = w.ensure(1 + 4*traceBytesPerNumber)
if flushed {
// Annotate the batch as containing additional info.
w.byte(byte(traceAllocFreeInfoBatch))
}
// Emit info.
w.varint(uint64(trace.minPageHeapAddr))
w.varint(uint64(pageSize))
w.varint(uint64(minHeapAlign))
w.varint(uint64(fixedStack))
// Finish writing the batch.
w.flush().end()
// Start tracing.
trace := traceAcquire()
if !trace.ok() {
throw("traceSnapshotMemory: tracing is not enabled")
}
// Write out all the heap spans and heap objects.
for _, s := range mheap_.allspans {
if s.state.get() == mSpanDead {
continue
}
// It's some kind of span, so trace that it exists.
trace.SpanExists(s)
// Write out allocated objects if it's a heap span.
if s.state.get() != mSpanInUse {
continue
}
// Find all allocated objects.
abits := s.allocBitsForIndex(0)
for i := uintptr(0); i < uintptr(s.nelems); i++ {
if abits.index < uintptr(s.freeindex) || abits.isMarked() {
x := s.base() + i*s.elemsize
trace.HeapObjectExists(x, s.typePointersOfUnchecked(x).typ)
}
abits.advance()
}
}
// Write out all the goroutine stacks.
forEachGRace(func(gp *g) {
trace.GoroutineStackExists(gp.stack.lo, gp.stack.hi-gp.stack.lo)
})
traceRelease(trace)
}
func traceSpanTypeAndClass(s *mspan) traceArg {
if s.state.get() == mSpanInUse {
return traceArg(s.spanclass) << 1
}
return traceArg(1)
}
// SpanExists records an event indicating that the span exists.
func (tl traceLocker) SpanExists(s *mspan) {
tl.eventWriter(traceGoRunning, traceProcRunning).event(traceEvSpan, traceSpanID(s), traceArg(s.npages), traceSpanTypeAndClass(s))
}
// SpanAlloc records an event indicating that the span has just been allocated.
func (tl traceLocker) SpanAlloc(s *mspan) {
tl.eventWriter(traceGoRunning, traceProcRunning).event(traceEvSpanAlloc, traceSpanID(s), traceArg(s.npages), traceSpanTypeAndClass(s))
}
// SpanFree records an event indicating that the span is about to be freed.
func (tl traceLocker) SpanFree(s *mspan) {
tl.eventWriter(traceGoRunning, traceProcRunning).event(traceEvSpanFree, traceSpanID(s))
}
// traceSpanID creates a trace ID for the span s for the trace.
func traceSpanID(s *mspan) traceArg {
return traceArg(uint64(s.base())-trace.minPageHeapAddr) / pageSize
}
// HeapObjectExists records that an object already exists at addr with the provided type.
// The type is optional, and the size of the slot occupied the object is inferred from the
// span containing it.
func (tl traceLocker) HeapObjectExists(addr uintptr, typ *abi.Type) {
tl.eventWriter(traceGoRunning, traceProcRunning).event(traceEvHeapObject, traceHeapObjectID(addr), tl.rtype(typ))
}
// HeapObjectAlloc records that an object was newly allocated at addr with the provided type.
// The type is optional, and the size of the slot occupied the object is inferred from the
// span containing it.
func (tl traceLocker) HeapObjectAlloc(addr uintptr, typ *abi.Type) {
tl.eventWriter(traceGoRunning, traceProcRunning).event(traceEvHeapObjectAlloc, traceHeapObjectID(addr), tl.rtype(typ))
}
// HeapObjectFree records that an object at addr is about to be freed.
func (tl traceLocker) HeapObjectFree(addr uintptr) {
tl.eventWriter(traceGoRunning, traceProcRunning).event(traceEvHeapObjectFree, traceHeapObjectID(addr))
}
// traceHeapObjectID creates a trace ID for a heap object at address addr.
func traceHeapObjectID(addr uintptr) traceArg {
return traceArg(uint64(addr)-trace.minPageHeapAddr) / minHeapAlign
}
// GoroutineStackExists records that a goroutine stack already exists at address base with the provided size.
func (tl traceLocker) GoroutineStackExists(base, size uintptr) {
order := traceCompressStackSize(size)
tl.eventWriter(traceGoRunning, traceProcRunning).event(traceEvGoroutineStack, traceGoroutineStackID(base), order)
}
// GoroutineStackAlloc records that a goroutine stack was newly allocated at address base with the provided size..
func (tl traceLocker) GoroutineStackAlloc(base, size uintptr) {
order := traceCompressStackSize(size)
tl.eventWriter(traceGoRunning, traceProcRunning).event(traceEvGoroutineStackAlloc, traceGoroutineStackID(base), order)
}
// GoroutineStackFree records that a goroutine stack at address base is about to be freed.
func (tl traceLocker) GoroutineStackFree(base uintptr) {
tl.eventWriter(traceGoRunning, traceProcRunning).event(traceEvGoroutineStackFree, traceGoroutineStackID(base))
}
// traceGoroutineStackID creates a trace ID for the goroutine stack from its base address.
func traceGoroutineStackID(base uintptr) traceArg {
return traceArg(uint64(base)-trace.minPageHeapAddr) / fixedStack
}
// traceCompressStackSize assumes size is a power of 2 and returns log2(size).
func traceCompressStackSize(size uintptr) traceArg {
if size&(size-1) != 0 {
throw("goroutine stack size is not a power of 2")
}
return traceArg(sys.Len64(uint64(size)))
}