// Copyright 2013 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 interp // Emulated functions that we cannot interpret because they are // external or because they use "unsafe" or "reflect" operations. import ( "go/types" "math" "os" "runtime" "strings" "sync/atomic" "time" "unsafe" "golang.org/x/tools/go/ssa" ) type externalFn func(fr *frame, args []value) value // TODO(adonovan): fix: reflect.Value abstracts an lvalue or an // rvalue; Set() causes mutations that can be observed via aliases. // We have not captured that correctly here. // Key strings are from Function.String(). var externals = make(map[string]externalFn) func init() { // That little dot ۰ is an Arabic zero numeral (U+06F0), categories [Nd]. for k, v := range map[string]externalFn{ "(*sync.Pool).Get": ext۰sync۰Pool۰Get, "(*sync.Pool).Put": ext۰nop, "(reflect.Value).Bool": ext۰reflect۰Value۰Bool, "(reflect.Value).CanAddr": ext۰reflect۰Value۰CanAddr, "(reflect.Value).CanInterface": ext۰reflect۰Value۰CanInterface, "(reflect.Value).Elem": ext۰reflect۰Value۰Elem, "(reflect.Value).Field": ext۰reflect۰Value۰Field, "(reflect.Value).Float": ext۰reflect۰Value۰Float, "(reflect.Value).Index": ext۰reflect۰Value۰Index, "(reflect.Value).Int": ext۰reflect۰Value۰Int, "(reflect.Value).Interface": ext۰reflect۰Value۰Interface, "(reflect.Value).IsNil": ext۰reflect۰Value۰IsNil, "(reflect.Value).IsValid": ext۰reflect۰Value۰IsValid, "(reflect.Value).Kind": ext۰reflect۰Value۰Kind, "(reflect.Value).Len": ext۰reflect۰Value۰Len, "(reflect.Value).MapIndex": ext۰reflect۰Value۰MapIndex, "(reflect.Value).MapKeys": ext۰reflect۰Value۰MapKeys, "(reflect.Value).NumField": ext۰reflect۰Value۰NumField, "(reflect.Value).NumMethod": ext۰reflect۰Value۰NumMethod, "(reflect.Value).Pointer": ext۰reflect۰Value۰Pointer, "(reflect.Value).Set": ext۰reflect۰Value۰Set, "(reflect.Value).String": ext۰reflect۰Value۰String, "(reflect.Value).Type": ext۰reflect۰Value۰Type, "(reflect.Value).Uint": ext۰reflect۰Value۰Uint, "(reflect.error).Error": ext۰reflect۰error۰Error, "(reflect.rtype).Bits": ext۰reflect۰rtype۰Bits, "(reflect.rtype).Elem": ext۰reflect۰rtype۰Elem, "(reflect.rtype).Field": ext۰reflect۰rtype۰Field, "(reflect.rtype).In": ext۰reflect۰rtype۰In, "(reflect.rtype).Kind": ext۰reflect۰rtype۰Kind, "(reflect.rtype).NumField": ext۰reflect۰rtype۰NumField, "(reflect.rtype).NumIn": ext۰reflect۰rtype۰NumIn, "(reflect.rtype).NumMethod": ext۰reflect۰rtype۰NumMethod, "(reflect.rtype).NumOut": ext۰reflect۰rtype۰NumOut, "(reflect.rtype).Out": ext۰reflect۰rtype۰Out, "(reflect.rtype).Size": ext۰reflect۰rtype۰Size, "(reflect.rtype).String": ext۰reflect۰rtype۰String, "bytes.init": ext۰nop, // avoid asm dependency "bytes.Equal": ext۰bytes۰Equal, "bytes.IndexByte": ext۰bytes۰IndexByte, "hash/crc32.haveSSE42": ext۰crc32۰haveSSE42, "internal/cpu.cpuid": ext۰cpu۰cpuid, "internal/syscall/unix.syscall_fcntl": ext۰syscall۰unix۰syscall_fcntl, "math.Abs": ext۰math۰Abs, "math.Exp": ext۰math۰Exp, "math.Float32bits": ext۰math۰Float32bits, "math.Float32frombits": ext۰math۰Float32frombits, "math.Float64bits": ext۰math۰Float64bits, "math.Float64frombits": ext۰math۰Float64frombits, "math.Ldexp": ext۰math۰Ldexp, "math.Log": ext۰math۰Log, "math.Min": ext۰math۰Min, "math.hasSSE4": ext۰math۰hasSSE4, "math.hasVectorFacility": ext۰math۰hasVectorFacility, "os.runtime_args": ext۰os۰runtime_args, "os.runtime_beforeExit": ext۰nop, "os/signal.init": ext۰nop, "reflect.New": ext۰reflect۰New, "reflect.SliceOf": ext۰reflect۰SliceOf, "reflect.TypeOf": ext۰reflect۰TypeOf, "reflect.ValueOf": ext۰reflect۰ValueOf, "reflect.Zero": ext۰reflect۰Zero, "reflect.init": ext۰reflect۰Init, "reflect.valueInterface": ext۰reflect۰valueInterface, "runtime.Breakpoint": ext۰runtime۰Breakpoint, "runtime.Caller": ext۰runtime۰Caller, "runtime.Callers": ext۰runtime۰Callers, "runtime.FuncForPC": ext۰runtime۰FuncForPC, "runtime.GC": ext۰runtime۰GC, "runtime.GOMAXPROCS": ext۰runtime۰GOMAXPROCS, "runtime.Goexit": ext۰runtime۰Goexit, "runtime.Gosched": ext۰runtime۰Gosched, "runtime.init": ext۰nop, "runtime.KeepAlive": ext۰nop, "runtime.NumCPU": ext۰runtime۰NumCPU, "runtime.NumGoroutine": ext۰runtime۰NumGoroutine, "runtime.ReadMemStats": ext۰runtime۰ReadMemStats, "runtime.SetFinalizer": ext۰nop, // ignore "(*runtime.Func).Entry": ext۰runtime۰Func۰Entry, "(*runtime.Func).FileLine": ext۰runtime۰Func۰FileLine, "(*runtime.Func).Name": ext۰runtime۰Func۰Name, "runtime.environ": ext۰runtime۰environ, "runtime.getgoroot": ext۰runtime۰getgoroot, "strings.init": ext۰nop, // avoid asm dependency "strings.Count": ext۰strings۰Count, "strings.Index": ext۰strings۰Index, "strings.IndexByte": ext۰strings۰IndexByte, "sync.runtime_Semacquire": ext۰nop, // unimplementable "sync.runtime_Semrelease": ext۰nop, // unimplementable "sync.runtime_Syncsemcheck": ext۰nop, // unimplementable "sync.runtime_notifyListCheck": ext۰nop, "sync.runtime_registerPoolCleanup": ext۰nop, "sync/atomic.AddInt32": ext۰atomic۰AddInt32, "sync/atomic.AddUint32": ext۰atomic۰AddUint32, "sync/atomic.CompareAndSwapInt32": ext۰atomic۰CompareAndSwapInt32, "sync/atomic.CompareAndSwapUint32": ext۰atomic۰CompareAndSwapUint32, "sync/atomic.LoadInt32": ext۰atomic۰LoadInt32, "sync/atomic.LoadUint32": ext۰atomic۰LoadUint32, "sync/atomic.StoreInt32": ext۰atomic۰StoreInt32, "sync/atomic.StoreUint32": ext۰atomic۰StoreUint32, "sync/atomic.AddInt64": ext۰atomic۰AddInt64, "sync/atomic.AddUint64": ext۰atomic۰AddUint64, "sync/atomic.CompareAndSwapInt64": ext۰atomic۰CompareAndSwapInt64, "sync/atomic.CompareAndSwapUint64": ext۰atomic۰CompareAndSwapUint64, "sync/atomic.LoadInt64": ext۰atomic۰LoadInt64, "sync/atomic.LoadUint64": ext۰atomic۰LoadUint64, "sync/atomic.StoreInt64": ext۰atomic۰StoreInt64, "sync/atomic.StoreUint64": ext۰atomic۰StoreUint64, "(*sync/atomic.Value).Load": ext۰atomic۰ValueLoad, "(*sync/atomic.Value).Store": ext۰atomic۰ValueStore, "testing.MainStart": ext۰testing۰MainStart, "time.Sleep": ext۰time۰Sleep, "time.now": ext۰time۰now, } { externals[k] = v } } // wrapError returns an interpreted 'error' interface value for err. func wrapError(err error) value { if err == nil { return iface{} } return iface{t: errorType, v: err.Error()} } func ext۰nop(fr *frame, args []value) value { return nil } func ext۰sync۰Pool۰Get(fr *frame, args []value) value { Pool := fr.i.prog.ImportedPackage("sync").Type("Pool").Object() _, newIndex, _ := types.LookupFieldOrMethod(Pool.Type(), false, Pool.Pkg(), "New") if New := (*args[0].(*value)).(structure)[newIndex[0]]; New != nil { return call(fr.i, fr, 0, New, nil) } return nil } func ext۰bytes۰Equal(fr *frame, args []value) value { // func Equal(a, b []byte) bool a := args[0].([]value) b := args[1].([]value) if len(a) != len(b) { return false } for i := range a { if a[i] != b[i] { return false } } return true } func ext۰bytes۰IndexByte(fr *frame, args []value) value { // func IndexByte(s []byte, c byte) int s := args[0].([]value) c := args[1].(byte) for i, b := range s { if b.(byte) == c { return i } } return -1 } func ext۰crc32۰haveSSE42(fr *frame, args []value) value { return false } func ext۰math۰Float64frombits(fr *frame, args []value) value { return math.Float64frombits(args[0].(uint64)) } func ext۰math۰Float64bits(fr *frame, args []value) value { return math.Float64bits(args[0].(float64)) } func ext۰math۰Float32frombits(fr *frame, args []value) value { return math.Float32frombits(args[0].(uint32)) } func ext۰math۰Abs(fr *frame, args []value) value { return math.Abs(args[0].(float64)) } func ext۰math۰Exp(fr *frame, args []value) value { return math.Exp(args[0].(float64)) } func ext۰math۰Float32bits(fr *frame, args []value) value { return math.Float32bits(args[0].(float32)) } func ext۰math۰Min(fr *frame, args []value) value { return math.Min(args[0].(float64), args[1].(float64)) } func ext۰math۰hasSSE4(fr *frame, args []value) value { return false } func ext۰math۰hasVectorFacility(fr *frame, args []value) value { return false } func ext۰math۰Ldexp(fr *frame, args []value) value { return math.Ldexp(args[0].(float64), args[1].(int)) } func ext۰math۰Log(fr *frame, args []value) value { return math.Log(args[0].(float64)) } func ext۰os۰runtime_args(fr *frame, args []value) value { return fr.i.osArgs } func ext۰runtime۰Breakpoint(fr *frame, args []value) value { runtime.Breakpoint() return nil } func ext۰runtime۰Caller(fr *frame, args []value) value { // func Caller(skip int) (pc uintptr, file string, line int, ok bool) skip := 1 + args[0].(int) for i := 0; i < skip; i++ { if fr != nil { fr = fr.caller } } var pc uintptr var file string var line int var ok bool if fr != nil { fn := fr.fn // TODO(adonovan): use pc/posn of current instruction, not start of fn. // (Required to interpret the log package's tests.) pc = uintptr(unsafe.Pointer(fn)) posn := fn.Prog.Fset.Position(fn.Pos()) file = posn.Filename line = posn.Line ok = true } return tuple{pc, file, line, ok} } func ext۰runtime۰Callers(fr *frame, args []value) value { // Callers(skip int, pc []uintptr) int skip := args[0].(int) pc := args[1].([]value) for i := 0; i < skip; i++ { if fr != nil { fr = fr.caller } } i := 0 for fr != nil && i < len(pc) { pc[i] = uintptr(unsafe.Pointer(fr.fn)) i++ fr = fr.caller } return i } func ext۰runtime۰FuncForPC(fr *frame, args []value) value { // FuncForPC(pc uintptr) *Func pc := args[0].(uintptr) var fn *ssa.Function if pc != 0 { fn = (*ssa.Function)(unsafe.Pointer(pc)) // indeed unsafe! } var Func value Func = structure{fn} // a runtime.Func return &Func } func ext۰runtime۰environ(fr *frame, args []value) value { // This function also implements syscall.runtime_envs. return environ } func ext۰runtime۰getgoroot(fr *frame, args []value) value { return os.Getenv("GOROOT") } func ext۰strings۰Count(fr *frame, args []value) value { // Call compiled version to avoid asm dependency. return strings.Count(args[0].(string), args[1].(string)) } func ext۰strings۰IndexByte(fr *frame, args []value) value { // Call compiled version to avoid asm dependency. return strings.IndexByte(args[0].(string), args[1].(byte)) } func ext۰strings۰Index(fr *frame, args []value) value { // Call compiled version to avoid asm dependency. return strings.Index(args[0].(string), args[1].(string)) } func ext۰runtime۰GOMAXPROCS(fr *frame, args []value) value { // Ignore args[0]; don't let the interpreted program // set the interpreter's GOMAXPROCS! return runtime.GOMAXPROCS(0) } func ext۰runtime۰Goexit(fr *frame, args []value) value { // TODO(adonovan): don't kill the interpreter's main goroutine. runtime.Goexit() return nil } func ext۰runtime۰GC(fr *frame, args []value) value { runtime.GC() return nil } func ext۰runtime۰Gosched(fr *frame, args []value) value { runtime.Gosched() return nil } func ext۰runtime۰NumCPU(fr *frame, args []value) value { return runtime.NumCPU() } func ext۰runtime۰NumGoroutine(fr *frame, args []value) value { return int(atomic.LoadInt32(&fr.i.goroutines)) } func ext۰runtime۰ReadMemStats(fr *frame, args []value) value { // TODO(adonovan): populate args[0].(Struct) return nil } func ext۰atomic۰LoadUint32(fr *frame, args []value) value { // TODO(adonovan): fix: not atomic! return (*args[0].(*value)).(uint32) } func ext۰atomic۰StoreUint32(fr *frame, args []value) value { // TODO(adonovan): fix: not atomic! *args[0].(*value) = args[1].(uint32) return nil } func ext۰atomic۰LoadInt32(fr *frame, args []value) value { // TODO(adonovan): fix: not atomic! return (*args[0].(*value)).(int32) } func ext۰atomic۰StoreInt32(fr *frame, args []value) value { // TODO(adonovan): fix: not atomic! *args[0].(*value) = args[1].(int32) return nil } func ext۰atomic۰CompareAndSwapInt32(fr *frame, args []value) value { // TODO(adonovan): fix: not atomic! p := args[0].(*value) if (*p).(int32) == args[1].(int32) { *p = args[2].(int32) return true } return false } func ext۰atomic۰CompareAndSwapUint32(fr *frame, args []value) value { // TODO(adonovan): fix: not atomic! p := args[0].(*value) if (*p).(uint32) == args[1].(uint32) { *p = args[2].(uint32) return true } return false } func ext۰atomic۰AddInt32(fr *frame, args []value) value { // TODO(adonovan): fix: not atomic! p := args[0].(*value) newv := (*p).(int32) + args[1].(int32) *p = newv return newv } func ext۰atomic۰AddUint32(fr *frame, args []value) value { // TODO(adonovan): fix: not atomic! p := args[0].(*value) newv := (*p).(uint32) + args[1].(uint32) *p = newv return newv } func ext۰atomic۰LoadUint64(fr *frame, args []value) value { // TODO(adonovan): fix: not atomic! return (*args[0].(*value)).(uint64) } func ext۰atomic۰StoreUint64(fr *frame, args []value) value { // TODO(adonovan): fix: not atomic! *args[0].(*value) = args[1].(uint64) return nil } func ext۰atomic۰LoadInt64(fr *frame, args []value) value { // TODO(adonovan): fix: not atomic! return (*args[0].(*value)).(int64) } func ext۰atomic۰StoreInt64(fr *frame, args []value) value { // TODO(adonovan): fix: not atomic! *args[0].(*value) = args[1].(int64) return nil } func ext۰atomic۰CompareAndSwapInt64(fr *frame, args []value) value { // TODO(adonovan): fix: not atomic! p := args[0].(*value) if (*p).(int64) == args[1].(int64) { *p = args[2].(int64) return true } return false } func ext۰atomic۰CompareAndSwapUint64(fr *frame, args []value) value { // TODO(adonovan): fix: not atomic! p := args[0].(*value) if (*p).(uint64) == args[1].(uint64) { *p = args[2].(uint64) return true } return false } func ext۰atomic۰AddInt64(fr *frame, args []value) value { // TODO(adonovan): fix: not atomic! p := args[0].(*value) newv := (*p).(int64) + args[1].(int64) *p = newv return newv } func ext۰atomic۰AddUint64(fr *frame, args []value) value { // TODO(adonovan): fix: not atomic! p := args[0].(*value) newv := (*p).(uint64) + args[1].(uint64) *p = newv return newv } func ext۰atomic۰ValueLoad(fr *frame, args []value) value { // TODO(adonovan): fix: not atomic! // Receiver is *struct{v interface{}}. return (*args[0].(*value)).(structure)[0] } func ext۰atomic۰ValueStore(fr *frame, args []value) value { // TODO(adonovan): fix: not atomic! // Receiver is *struct{v interface{}}. (*args[0].(*value)).(structure)[0] = args[1] return nil } func ext۰cpu۰cpuid(fr *frame, args []value) value { return tuple{uint32(0), uint32(0), uint32(0), uint32(0)} } func ext۰syscall۰unix۰syscall_fcntl(fr *frame, args []value) value { return tuple{int(0), wrapError(nil)} } // Pretend: type runtime.Func struct { entry *ssa.Function } func ext۰runtime۰Func۰FileLine(fr *frame, args []value) value { // func (*runtime.Func) FileLine(uintptr) (string, int) f, _ := (*args[0].(*value)).(structure)[0].(*ssa.Function) pc := args[1].(uintptr) _ = pc if f != nil { // TODO(adonovan): use position of current instruction, not fn. posn := f.Prog.Fset.Position(f.Pos()) return tuple{posn.Filename, posn.Line} } return tuple{"", 0} } func ext۰runtime۰Func۰Name(fr *frame, args []value) value { // func (*runtime.Func) Name() string f, _ := (*args[0].(*value)).(structure)[0].(*ssa.Function) if f != nil { return f.String() } return "" } func ext۰runtime۰Func۰Entry(fr *frame, args []value) value { // func (*runtime.Func) Entry() uintptr f, _ := (*args[0].(*value)).(structure)[0].(*ssa.Function) return uintptr(unsafe.Pointer(f)) } func ext۰time۰now(fr *frame, args []value) value { nano := time.Now().UnixNano() return tuple{int64(nano / 1e9), int32(nano % 1e9), int64(0)} } func ext۰time۰Sleep(fr *frame, args []value) value { time.Sleep(time.Duration(args[0].(int64))) return nil } func valueToBytes(v value) []byte { in := v.([]value) b := make([]byte, len(in)) for i := range in { b[i] = in[i].(byte) } return b } func ext۰testing۰MainStart(fr *frame, args []value) value { // We no longer support interpretation of the "testing" package // because it changes too often and uses low-level features that // are a pain to emulate. panic(`interpretation of the "testing" package is no longer supported`) }