diff options
Diffstat (limited to '')
-rw-r--r-- | src/runtime/race.go | 644 |
1 files changed, 644 insertions, 0 deletions
diff --git a/src/runtime/race.go b/src/runtime/race.go new file mode 100644 index 0000000..79fd217 --- /dev/null +++ b/src/runtime/race.go @@ -0,0 +1,644 @@ +// Copyright 2012 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. + +// +build race + +package runtime + +import ( + "unsafe" +) + +// Public race detection API, present iff build with -race. + +func RaceRead(addr unsafe.Pointer) +func RaceWrite(addr unsafe.Pointer) +func RaceReadRange(addr unsafe.Pointer, len int) +func RaceWriteRange(addr unsafe.Pointer, len int) + +func RaceErrors() int { + var n uint64 + racecall(&__tsan_report_count, uintptr(unsafe.Pointer(&n)), 0, 0, 0) + return int(n) +} + +//go:nosplit + +// RaceAcquire/RaceRelease/RaceReleaseMerge establish happens-before relations +// between goroutines. These inform the race detector about actual synchronization +// that it can't see for some reason (e.g. synchronization within RaceDisable/RaceEnable +// sections of code). +// RaceAcquire establishes a happens-before relation with the preceding +// RaceReleaseMerge on addr up to and including the last RaceRelease on addr. +// In terms of the C memory model (C11 §5.1.2.4, §7.17.3), +// RaceAcquire is equivalent to atomic_load(memory_order_acquire). +func RaceAcquire(addr unsafe.Pointer) { + raceacquire(addr) +} + +//go:nosplit + +// RaceRelease performs a release operation on addr that +// can synchronize with a later RaceAcquire on addr. +// +// In terms of the C memory model, RaceRelease is equivalent to +// atomic_store(memory_order_release). +func RaceRelease(addr unsafe.Pointer) { + racerelease(addr) +} + +//go:nosplit + +// RaceReleaseMerge is like RaceRelease, but also establishes a happens-before +// relation with the preceding RaceRelease or RaceReleaseMerge on addr. +// +// In terms of the C memory model, RaceReleaseMerge is equivalent to +// atomic_exchange(memory_order_release). +func RaceReleaseMerge(addr unsafe.Pointer) { + racereleasemerge(addr) +} + +//go:nosplit + +// RaceDisable disables handling of race synchronization events in the current goroutine. +// Handling is re-enabled with RaceEnable. RaceDisable/RaceEnable can be nested. +// Non-synchronization events (memory accesses, function entry/exit) still affect +// the race detector. +func RaceDisable() { + _g_ := getg() + if _g_.raceignore == 0 { + racecall(&__tsan_go_ignore_sync_begin, _g_.racectx, 0, 0, 0) + } + _g_.raceignore++ +} + +//go:nosplit + +// RaceEnable re-enables handling of race events in the current goroutine. +func RaceEnable() { + _g_ := getg() + _g_.raceignore-- + if _g_.raceignore == 0 { + racecall(&__tsan_go_ignore_sync_end, _g_.racectx, 0, 0, 0) + } +} + +// Private interface for the runtime. + +const raceenabled = true + +// For all functions accepting callerpc and pc, +// callerpc is a return PC of the function that calls this function, +// pc is start PC of the function that calls this function. +func raceReadObjectPC(t *_type, addr unsafe.Pointer, callerpc, pc uintptr) { + kind := t.kind & kindMask + if kind == kindArray || kind == kindStruct { + // for composite objects we have to read every address + // because a write might happen to any subobject. + racereadrangepc(addr, t.size, callerpc, pc) + } else { + // for non-composite objects we can read just the start + // address, as any write must write the first byte. + racereadpc(addr, callerpc, pc) + } +} + +func raceWriteObjectPC(t *_type, addr unsafe.Pointer, callerpc, pc uintptr) { + kind := t.kind & kindMask + if kind == kindArray || kind == kindStruct { + // for composite objects we have to write every address + // because a write might happen to any subobject. + racewriterangepc(addr, t.size, callerpc, pc) + } else { + // for non-composite objects we can write just the start + // address, as any write must write the first byte. + racewritepc(addr, callerpc, pc) + } +} + +//go:noescape +func racereadpc(addr unsafe.Pointer, callpc, pc uintptr) + +//go:noescape +func racewritepc(addr unsafe.Pointer, callpc, pc uintptr) + +type symbolizeCodeContext struct { + pc uintptr + fn *byte + file *byte + line uintptr + off uintptr + res uintptr +} + +var qq = [...]byte{'?', '?', 0} +var dash = [...]byte{'-', 0} + +const ( + raceGetProcCmd = iota + raceSymbolizeCodeCmd + raceSymbolizeDataCmd +) + +// Callback from C into Go, runs on g0. +func racecallback(cmd uintptr, ctx unsafe.Pointer) { + switch cmd { + case raceGetProcCmd: + throw("should have been handled by racecallbackthunk") + case raceSymbolizeCodeCmd: + raceSymbolizeCode((*symbolizeCodeContext)(ctx)) + case raceSymbolizeDataCmd: + raceSymbolizeData((*symbolizeDataContext)(ctx)) + default: + throw("unknown command") + } +} + +// raceSymbolizeCode reads ctx.pc and populates the rest of *ctx with +// information about the code at that pc. +// +// The race detector has already subtracted 1 from pcs, so they point to the last +// byte of call instructions (including calls to runtime.racewrite and friends). +// +// If the incoming pc is part of an inlined function, *ctx is populated +// with information about the inlined function, and on return ctx.pc is set +// to a pc in the logically containing function. (The race detector should call this +// function again with that pc.) +// +// If the incoming pc is not part of an inlined function, the return pc is unchanged. +func raceSymbolizeCode(ctx *symbolizeCodeContext) { + pc := ctx.pc + fi := findfunc(pc) + f := fi._Func() + if f != nil { + file, line := f.FileLine(pc) + if line != 0 { + if inldata := funcdata(fi, _FUNCDATA_InlTree); inldata != nil { + inltree := (*[1 << 20]inlinedCall)(inldata) + for { + ix := pcdatavalue(fi, _PCDATA_InlTreeIndex, pc, nil) + if ix >= 0 { + if inltree[ix].funcID == funcID_wrapper { + // ignore wrappers + // Back up to an instruction in the "caller". + pc = f.Entry() + uintptr(inltree[ix].parentPc) + continue + } + ctx.pc = f.Entry() + uintptr(inltree[ix].parentPc) // "caller" pc + ctx.fn = cfuncnameFromNameoff(fi, inltree[ix].func_) + ctx.line = uintptr(line) + ctx.file = &bytes(file)[0] // assume NUL-terminated + ctx.off = pc - f.Entry() + ctx.res = 1 + return + } + break + } + } + ctx.fn = cfuncname(fi) + ctx.line = uintptr(line) + ctx.file = &bytes(file)[0] // assume NUL-terminated + ctx.off = pc - f.Entry() + ctx.res = 1 + return + } + } + ctx.fn = &qq[0] + ctx.file = &dash[0] + ctx.line = 0 + ctx.off = ctx.pc + ctx.res = 1 +} + +type symbolizeDataContext struct { + addr uintptr + heap uintptr + start uintptr + size uintptr + name *byte + file *byte + line uintptr + res uintptr +} + +func raceSymbolizeData(ctx *symbolizeDataContext) { + if base, span, _ := findObject(ctx.addr, 0, 0); base != 0 { + ctx.heap = 1 + ctx.start = base + ctx.size = span.elemsize + ctx.res = 1 + } +} + +// Race runtime functions called via runtime·racecall. +//go:linkname __tsan_init __tsan_init +var __tsan_init byte + +//go:linkname __tsan_fini __tsan_fini +var __tsan_fini byte + +//go:linkname __tsan_proc_create __tsan_proc_create +var __tsan_proc_create byte + +//go:linkname __tsan_proc_destroy __tsan_proc_destroy +var __tsan_proc_destroy byte + +//go:linkname __tsan_map_shadow __tsan_map_shadow +var __tsan_map_shadow byte + +//go:linkname __tsan_finalizer_goroutine __tsan_finalizer_goroutine +var __tsan_finalizer_goroutine byte + +//go:linkname __tsan_go_start __tsan_go_start +var __tsan_go_start byte + +//go:linkname __tsan_go_end __tsan_go_end +var __tsan_go_end byte + +//go:linkname __tsan_malloc __tsan_malloc +var __tsan_malloc byte + +//go:linkname __tsan_free __tsan_free +var __tsan_free byte + +//go:linkname __tsan_acquire __tsan_acquire +var __tsan_acquire byte + +//go:linkname __tsan_release __tsan_release +var __tsan_release byte + +//go:linkname __tsan_release_acquire __tsan_release_acquire +var __tsan_release_acquire byte + +//go:linkname __tsan_release_merge __tsan_release_merge +var __tsan_release_merge byte + +//go:linkname __tsan_go_ignore_sync_begin __tsan_go_ignore_sync_begin +var __tsan_go_ignore_sync_begin byte + +//go:linkname __tsan_go_ignore_sync_end __tsan_go_ignore_sync_end +var __tsan_go_ignore_sync_end byte + +//go:linkname __tsan_report_count __tsan_report_count +var __tsan_report_count byte + +// Mimic what cmd/cgo would do. +//go:cgo_import_static __tsan_init +//go:cgo_import_static __tsan_fini +//go:cgo_import_static __tsan_proc_create +//go:cgo_import_static __tsan_proc_destroy +//go:cgo_import_static __tsan_map_shadow +//go:cgo_import_static __tsan_finalizer_goroutine +//go:cgo_import_static __tsan_go_start +//go:cgo_import_static __tsan_go_end +//go:cgo_import_static __tsan_malloc +//go:cgo_import_static __tsan_free +//go:cgo_import_static __tsan_acquire +//go:cgo_import_static __tsan_release +//go:cgo_import_static __tsan_release_acquire +//go:cgo_import_static __tsan_release_merge +//go:cgo_import_static __tsan_go_ignore_sync_begin +//go:cgo_import_static __tsan_go_ignore_sync_end +//go:cgo_import_static __tsan_report_count + +// These are called from race_amd64.s. +//go:cgo_import_static __tsan_read +//go:cgo_import_static __tsan_read_pc +//go:cgo_import_static __tsan_read_range +//go:cgo_import_static __tsan_write +//go:cgo_import_static __tsan_write_pc +//go:cgo_import_static __tsan_write_range +//go:cgo_import_static __tsan_func_enter +//go:cgo_import_static __tsan_func_exit + +//go:cgo_import_static __tsan_go_atomic32_load +//go:cgo_import_static __tsan_go_atomic64_load +//go:cgo_import_static __tsan_go_atomic32_store +//go:cgo_import_static __tsan_go_atomic64_store +//go:cgo_import_static __tsan_go_atomic32_exchange +//go:cgo_import_static __tsan_go_atomic64_exchange +//go:cgo_import_static __tsan_go_atomic32_fetch_add +//go:cgo_import_static __tsan_go_atomic64_fetch_add +//go:cgo_import_static __tsan_go_atomic32_compare_exchange +//go:cgo_import_static __tsan_go_atomic64_compare_exchange + +// start/end of global data (data+bss). +var racedatastart uintptr +var racedataend uintptr + +// start/end of heap for race_amd64.s +var racearenastart uintptr +var racearenaend uintptr + +func racefuncenter(callpc uintptr) +func racefuncenterfp(fp uintptr) +func racefuncexit() +func raceread(addr uintptr) +func racewrite(addr uintptr) +func racereadrange(addr, size uintptr) +func racewriterange(addr, size uintptr) +func racereadrangepc1(addr, size, pc uintptr) +func racewriterangepc1(addr, size, pc uintptr) +func racecallbackthunk(uintptr) + +// racecall allows calling an arbitrary function f from C race runtime +// with up to 4 uintptr arguments. +func racecall(fn *byte, arg0, arg1, arg2, arg3 uintptr) + +// checks if the address has shadow (i.e. heap or data/bss) +//go:nosplit +func isvalidaddr(addr unsafe.Pointer) bool { + return racearenastart <= uintptr(addr) && uintptr(addr) < racearenaend || + racedatastart <= uintptr(addr) && uintptr(addr) < racedataend +} + +//go:nosplit +func raceinit() (gctx, pctx uintptr) { + // cgo is required to initialize libc, which is used by race runtime + if !iscgo { + throw("raceinit: race build must use cgo") + } + + racecall(&__tsan_init, uintptr(unsafe.Pointer(&gctx)), uintptr(unsafe.Pointer(&pctx)), funcPC(racecallbackthunk), 0) + + // Round data segment to page boundaries, because it's used in mmap(). + start := ^uintptr(0) + end := uintptr(0) + if start > firstmoduledata.noptrdata { + start = firstmoduledata.noptrdata + } + if start > firstmoduledata.data { + start = firstmoduledata.data + } + if start > firstmoduledata.noptrbss { + start = firstmoduledata.noptrbss + } + if start > firstmoduledata.bss { + start = firstmoduledata.bss + } + if end < firstmoduledata.enoptrdata { + end = firstmoduledata.enoptrdata + } + if end < firstmoduledata.edata { + end = firstmoduledata.edata + } + if end < firstmoduledata.enoptrbss { + end = firstmoduledata.enoptrbss + } + if end < firstmoduledata.ebss { + end = firstmoduledata.ebss + } + size := alignUp(end-start, _PageSize) + racecall(&__tsan_map_shadow, start, size, 0, 0) + racedatastart = start + racedataend = start + size + + return +} + +var raceFiniLock mutex + +//go:nosplit +func racefini() { + // racefini() can only be called once to avoid races. + // This eventually (via __tsan_fini) calls C.exit which has + // undefined behavior if called more than once. If the lock is + // already held it's assumed that the first caller exits the program + // so other calls can hang forever without an issue. + lock(&raceFiniLock) + // We're entering external code that may call ExitProcess on + // Windows. + osPreemptExtEnter(getg().m) + racecall(&__tsan_fini, 0, 0, 0, 0) +} + +//go:nosplit +func raceproccreate() uintptr { + var ctx uintptr + racecall(&__tsan_proc_create, uintptr(unsafe.Pointer(&ctx)), 0, 0, 0) + return ctx +} + +//go:nosplit +func raceprocdestroy(ctx uintptr) { + racecall(&__tsan_proc_destroy, ctx, 0, 0, 0) +} + +//go:nosplit +func racemapshadow(addr unsafe.Pointer, size uintptr) { + if racearenastart == 0 { + racearenastart = uintptr(addr) + } + if racearenaend < uintptr(addr)+size { + racearenaend = uintptr(addr) + size + } + racecall(&__tsan_map_shadow, uintptr(addr), size, 0, 0) +} + +//go:nosplit +func racemalloc(p unsafe.Pointer, sz uintptr) { + racecall(&__tsan_malloc, 0, 0, uintptr(p), sz) +} + +//go:nosplit +func racefree(p unsafe.Pointer, sz uintptr) { + racecall(&__tsan_free, uintptr(p), sz, 0, 0) +} + +//go:nosplit +func racegostart(pc uintptr) uintptr { + _g_ := getg() + var spawng *g + if _g_.m.curg != nil { + spawng = _g_.m.curg + } else { + spawng = _g_ + } + + var racectx uintptr + racecall(&__tsan_go_start, spawng.racectx, uintptr(unsafe.Pointer(&racectx)), pc, 0) + return racectx +} + +//go:nosplit +func racegoend() { + racecall(&__tsan_go_end, getg().racectx, 0, 0, 0) +} + +//go:nosplit +func racectxend(racectx uintptr) { + racecall(&__tsan_go_end, racectx, 0, 0, 0) +} + +//go:nosplit +func racewriterangepc(addr unsafe.Pointer, sz, callpc, pc uintptr) { + _g_ := getg() + if _g_ != _g_.m.curg { + // The call is coming from manual instrumentation of Go code running on g0/gsignal. + // Not interesting. + return + } + if callpc != 0 { + racefuncenter(callpc) + } + racewriterangepc1(uintptr(addr), sz, pc) + if callpc != 0 { + racefuncexit() + } +} + +//go:nosplit +func racereadrangepc(addr unsafe.Pointer, sz, callpc, pc uintptr) { + _g_ := getg() + if _g_ != _g_.m.curg { + // The call is coming from manual instrumentation of Go code running on g0/gsignal. + // Not interesting. + return + } + if callpc != 0 { + racefuncenter(callpc) + } + racereadrangepc1(uintptr(addr), sz, pc) + if callpc != 0 { + racefuncexit() + } +} + +//go:nosplit +func raceacquire(addr unsafe.Pointer) { + raceacquireg(getg(), addr) +} + +//go:nosplit +func raceacquireg(gp *g, addr unsafe.Pointer) { + if getg().raceignore != 0 || !isvalidaddr(addr) { + return + } + racecall(&__tsan_acquire, gp.racectx, uintptr(addr), 0, 0) +} + +//go:nosplit +func raceacquirectx(racectx uintptr, addr unsafe.Pointer) { + if !isvalidaddr(addr) { + return + } + racecall(&__tsan_acquire, racectx, uintptr(addr), 0, 0) +} + +//go:nosplit +func racerelease(addr unsafe.Pointer) { + racereleaseg(getg(), addr) +} + +//go:nosplit +func racereleaseg(gp *g, addr unsafe.Pointer) { + if getg().raceignore != 0 || !isvalidaddr(addr) { + return + } + racecall(&__tsan_release, gp.racectx, uintptr(addr), 0, 0) +} + +//go:nosplit +func racereleaseacquire(addr unsafe.Pointer) { + racereleaseacquireg(getg(), addr) +} + +//go:nosplit +func racereleaseacquireg(gp *g, addr unsafe.Pointer) { + if getg().raceignore != 0 || !isvalidaddr(addr) { + return + } + racecall(&__tsan_release_acquire, gp.racectx, uintptr(addr), 0, 0) +} + +//go:nosplit +func racereleasemerge(addr unsafe.Pointer) { + racereleasemergeg(getg(), addr) +} + +//go:nosplit +func racereleasemergeg(gp *g, addr unsafe.Pointer) { + if getg().raceignore != 0 || !isvalidaddr(addr) { + return + } + racecall(&__tsan_release_merge, gp.racectx, uintptr(addr), 0, 0) +} + +//go:nosplit +func racefingo() { + racecall(&__tsan_finalizer_goroutine, getg().racectx, 0, 0, 0) +} + +// The declarations below generate ABI wrappers for functions +// implemented in assembly in this package but declared in another +// package. + +//go:linkname abigen_sync_atomic_LoadInt32 sync/atomic.LoadInt32 +func abigen_sync_atomic_LoadInt32(addr *int32) (val int32) + +//go:linkname abigen_sync_atomic_LoadInt64 sync/atomic.LoadInt64 +func abigen_sync_atomic_LoadInt64(addr *int64) (val int64) + +//go:linkname abigen_sync_atomic_LoadUint32 sync/atomic.LoadUint32 +func abigen_sync_atomic_LoadUint32(addr *uint32) (val uint32) + +//go:linkname abigen_sync_atomic_LoadUint64 sync/atomic.LoadUint64 +func abigen_sync_atomic_LoadUint64(addr *uint64) (val uint64) + +//go:linkname abigen_sync_atomic_LoadUintptr sync/atomic.LoadUintptr +func abigen_sync_atomic_LoadUintptr(addr *uintptr) (val uintptr) + +//go:linkname abigen_sync_atomic_LoadPointer sync/atomic.LoadPointer +func abigen_sync_atomic_LoadPointer(addr *unsafe.Pointer) (val unsafe.Pointer) + +//go:linkname abigen_sync_atomic_StoreInt32 sync/atomic.StoreInt32 +func abigen_sync_atomic_StoreInt32(addr *int32, val int32) + +//go:linkname abigen_sync_atomic_StoreInt64 sync/atomic.StoreInt64 +func abigen_sync_atomic_StoreInt64(addr *int64, val int64) + +//go:linkname abigen_sync_atomic_StoreUint32 sync/atomic.StoreUint32 +func abigen_sync_atomic_StoreUint32(addr *uint32, val uint32) + +//go:linkname abigen_sync_atomic_StoreUint64 sync/atomic.StoreUint64 +func abigen_sync_atomic_StoreUint64(addr *uint64, val uint64) + +//go:linkname abigen_sync_atomic_SwapInt32 sync/atomic.SwapInt32 +func abigen_sync_atomic_SwapInt32(addr *int32, new int32) (old int32) + +//go:linkname abigen_sync_atomic_SwapInt64 sync/atomic.SwapInt64 +func abigen_sync_atomic_SwapInt64(addr *int64, new int64) (old int64) + +//go:linkname abigen_sync_atomic_SwapUint32 sync/atomic.SwapUint32 +func abigen_sync_atomic_SwapUint32(addr *uint32, new uint32) (old uint32) + +//go:linkname abigen_sync_atomic_SwapUint64 sync/atomic.SwapUint64 +func abigen_sync_atomic_SwapUint64(addr *uint64, new uint64) (old uint64) + +//go:linkname abigen_sync_atomic_AddInt32 sync/atomic.AddInt32 +func abigen_sync_atomic_AddInt32(addr *int32, delta int32) (new int32) + +//go:linkname abigen_sync_atomic_AddUint32 sync/atomic.AddUint32 +func abigen_sync_atomic_AddUint32(addr *uint32, delta uint32) (new uint32) + +//go:linkname abigen_sync_atomic_AddInt64 sync/atomic.AddInt64 +func abigen_sync_atomic_AddInt64(addr *int64, delta int64) (new int64) + +//go:linkname abigen_sync_atomic_AddUint64 sync/atomic.AddUint64 +func abigen_sync_atomic_AddUint64(addr *uint64, delta uint64) (new uint64) + +//go:linkname abigen_sync_atomic_AddUintptr sync/atomic.AddUintptr +func abigen_sync_atomic_AddUintptr(addr *uintptr, delta uintptr) (new uintptr) + +//go:linkname abigen_sync_atomic_CompareAndSwapInt32 sync/atomic.CompareAndSwapInt32 +func abigen_sync_atomic_CompareAndSwapInt32(addr *int32, old, new int32) (swapped bool) + +//go:linkname abigen_sync_atomic_CompareAndSwapInt64 sync/atomic.CompareAndSwapInt64 +func abigen_sync_atomic_CompareAndSwapInt64(addr *int64, old, new int64) (swapped bool) + +//go:linkname abigen_sync_atomic_CompareAndSwapUint32 sync/atomic.CompareAndSwapUint32 +func abigen_sync_atomic_CompareAndSwapUint32(addr *uint32, old, new uint32) (swapped bool) + +//go:linkname abigen_sync_atomic_CompareAndSwapUint64 sync/atomic.CompareAndSwapUint64 +func abigen_sync_atomic_CompareAndSwapUint64(addr *uint64, old, new uint64) (swapped bool) |