package api import ( "bytes" "debug/gosym" "go/constant" "go/printer" "go/token" "reflect" "strconv" "github.com/derekparker/delve/proc" "golang.org/x/debug/dwarf" ) // ConvertBreakpoint converts from a proc.Breakpoint to // an api.Breakpoint. func ConvertBreakpoint(bp *proc.Breakpoint) *Breakpoint { b := &Breakpoint{ Name: bp.Name, ID: bp.ID, FunctionName: bp.FunctionName, File: bp.File, Line: bp.Line, Addr: bp.Addr, Tracepoint: bp.Tracepoint, Stacktrace: bp.Stacktrace, Goroutine: bp.Goroutine, Variables: bp.Variables, LoadArgs: LoadConfigFromProc(bp.LoadArgs), LoadLocals: LoadConfigFromProc(bp.LoadLocals), TotalHitCount: bp.TotalHitCount, } b.HitCount = map[string]uint64{} for idx := range bp.HitCount { b.HitCount[strconv.Itoa(idx)] = bp.HitCount[idx] } var buf bytes.Buffer printer.Fprint(&buf, token.NewFileSet(), bp.Cond) b.Cond = buf.String() return b } // ConvertThread converts a proc.Thread into an // api thread. func ConvertThread(th *proc.Thread) *Thread { var ( function *Function file string line int pc uint64 gid int ) loc, err := th.Location() if err == nil { pc = loc.PC file = loc.File line = loc.Line function = ConvertFunction(loc.Fn) } var bp *Breakpoint if th.CurrentBreakpoint != nil && th.BreakpointConditionMet { bp = ConvertBreakpoint(th.CurrentBreakpoint) } if g, _ := th.GetG(); g != nil { gid = g.ID } return &Thread{ ID: th.ID, PC: pc, File: file, Line: line, Function: function, GoroutineID: gid, Breakpoint: bp, } } func prettyTypeName(typ dwarf.Type) string { if typ == nil { return "" } if typ.Common().Name != "" { return typ.Common().Name } r := typ.String() if r == "*void" { return "unsafe.Pointer" } return r } // ConvertVar converts from proc.Variable to api.Variable. func ConvertVar(v *proc.Variable) *Variable { r := Variable{ Addr: v.Addr, OnlyAddr: v.OnlyAddr, Name: v.Name, Kind: v.Kind, Len: v.Len, Cap: v.Cap, } r.Type = prettyTypeName(v.DwarfType) r.RealType = prettyTypeName(v.RealType) if v.Unreadable != nil { r.Unreadable = v.Unreadable.Error() } if v.Value != nil { switch v.Kind { case reflect.Float32: f, _ := constant.Float64Val(v.Value) r.Value = strconv.FormatFloat(f, 'f', -1, 32) case reflect.Float64: f, _ := constant.Float64Val(v.Value) r.Value = strconv.FormatFloat(f, 'f', -1, 64) case reflect.String, reflect.Func: r.Value = constant.StringVal(v.Value) default: r.Value = v.Value.String() } } switch v.Kind { case reflect.Complex64: r.Children = make([]Variable, 2) r.Len = 2 real, _ := constant.Float64Val(constant.Real(v.Value)) imag, _ := constant.Float64Val(constant.Imag(v.Value)) r.Children[0].Name = "real" r.Children[0].Kind = reflect.Float32 r.Children[0].Value = strconv.FormatFloat(real, 'f', -1, 32) r.Children[1].Name = "imaginary" r.Children[1].Kind = reflect.Float32 r.Children[1].Value = strconv.FormatFloat(imag, 'f', -1, 32) case reflect.Complex128: r.Children = make([]Variable, 2) r.Len = 2 real, _ := constant.Float64Val(constant.Real(v.Value)) imag, _ := constant.Float64Val(constant.Imag(v.Value)) r.Children[0].Name = "real" r.Children[0].Kind = reflect.Float64 r.Children[0].Value = strconv.FormatFloat(real, 'f', -1, 64) r.Children[1].Name = "imaginary" r.Children[1].Kind = reflect.Float64 r.Children[1].Value = strconv.FormatFloat(imag, 'f', -1, 64) default: r.Children = make([]Variable, len(v.Children)) for i := range v.Children { r.Children[i] = *ConvertVar(&v.Children[i]) } } return &r } // ConvertFunction converts from gosym.Func to // api.Function. func ConvertFunction(fn *gosym.Func) *Function { if fn == nil { return nil } return &Function{ Name: fn.Name, Type: fn.Type, Value: fn.Value, GoType: fn.GoType, } } // ConvertGoroutine converts from proc.G to api.Goroutine. func ConvertGoroutine(g *proc.G) *Goroutine { th := g.Thread() tid := 0 if th != nil { tid = th.ID } return &Goroutine{ ID: g.ID, CurrentLoc: ConvertLocation(g.CurrentLoc), UserCurrentLoc: ConvertLocation(g.UserCurrent()), GoStatementLoc: ConvertLocation(g.Go()), ThreadID: tid, } } // ConvertLocation converts from proc.Location to api.Location. func ConvertLocation(loc proc.Location) Location { return Location{ PC: loc.PC, File: loc.File, Line: loc.Line, Function: ConvertFunction(loc.Fn), } } func ConvertAsmInstruction(inst proc.AsmInstruction, text string) AsmInstruction { var destloc *Location if inst.DestLoc != nil { r := ConvertLocation(*inst.DestLoc) destloc = &r } return AsmInstruction{ Loc: ConvertLocation(inst.Loc), DestLoc: destloc, Text: text, Bytes: inst.Bytes, Breakpoint: inst.Breakpoint, AtPC: inst.AtPC, } } func LoadConfigToProc(cfg *LoadConfig) *proc.LoadConfig { if cfg == nil { return nil } return &proc.LoadConfig{ cfg.FollowPointers, cfg.MaxVariableRecurse, cfg.MaxStringLen, cfg.MaxArrayValues, cfg.MaxStructFields, } } func LoadConfigFromProc(cfg *proc.LoadConfig) *LoadConfig { if cfg == nil { return nil } return &LoadConfig{ cfg.FollowPointers, cfg.MaxVariableRecurse, cfg.MaxStringLen, cfg.MaxArrayValues, cfg.MaxStructFields, } } func ConvertRegisters(in []proc.Register) (out []Register) { out = make([]Register, len(in)) for i := range in { out[i] = Register{in[i].Name, in[i].Value} } return }