neo-go/pkg/compiler/debug.go

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package compiler
import (
"encoding/json"
"errors"
"fmt"
"go/ast"
"go/types"
"sort"
"strconv"
"strings"
"unicode"
"unicode/utf8"
"github.com/nspcc-dev/neo-go/pkg/crypto/hash"
"github.com/nspcc-dev/neo-go/pkg/smartcontract"
"github.com/nspcc-dev/neo-go/pkg/smartcontract/binding"
"github.com/nspcc-dev/neo-go/pkg/smartcontract/manifest"
"github.com/nspcc-dev/neo-go/pkg/util"
"github.com/nspcc-dev/neo-go/pkg/vm/stackitem"
)
// DebugInfo represents smart-contract debug information.
type DebugInfo struct {
MainPkg string `json:"-"`
Hash util.Uint160 `json:"hash"`
Documents []string `json:"documents"`
Methods []MethodDebugInfo `json:"methods"`
// NamedTypes are exported structured types that have some name (even
// if the original structure doesn't) and a number of internal fields.
NamedTypes map[string]binding.ExtendedType `json:"-"`
// Events are the events that contract is allowed to emit and that have to
// be presented in the resulting contract manifest and debug info file.
Events []EventDebugInfo `json:"events"`
// EmittedEvents contains events occurring in code, i.e. events emitted
// via runtime.Notify(...) call in the contract code if they have constant
// names and doesn't have ellipsis arguments. EmittedEvents are not related
// to the debug info and are aimed to serve bindings generation.
EmittedEvents map[string][]EmittedEventInfo `json:"-"`
// InvokedContracts contains foreign contract invocations.
InvokedContracts map[util.Uint160][]string `json:"-"`
// StaticVariables contains a list of static variable names and types.
StaticVariables []string `json:"static-variables"`
}
// MethodDebugInfo represents smart-contract's method debug information.
type MethodDebugInfo struct {
// ID is the actual name of the method.
ID string `json:"id"`
// Name is the name of the method with the first letter in a lowercase
// together with the namespace it belongs to. We need to keep the first letter
// lowercased to match manifest standards.
Name DebugMethodName `json:"name"`
// IsExported defines whether the method is exported.
IsExported bool `json:"-"`
// IsFunction defines whether the method has no receiver.
IsFunction bool `json:"-"`
// Range is the range of smart-contract's opcodes corresponding to the method.
Range DebugRange `json:"range"`
// Parameters is a list of the method's parameters.
Parameters []DebugParam `json:"params"`
// ReturnType is the method's return type.
ReturnType string `json:"return"`
// ReturnTypeReal is the method's return type as specified in Go code.
ReturnTypeReal binding.Override `json:"-"`
// ReturnTypeExtended is the method's return type with additional data.
ReturnTypeExtended *binding.ExtendedType `json:"-"`
// ReturnTypeSC is a return type to use in manifest.
ReturnTypeSC smartcontract.ParamType `json:"-"`
Variables []string `json:"variables"`
// SeqPoints is a map between source lines and byte-code instruction offsets.
SeqPoints []DebugSeqPoint `json:"sequence-points"`
}
// DebugMethodName is a combination of a namespace and name.
type DebugMethodName struct {
Namespace string
Name string
}
// EventDebugInfo represents smart-contract's event debug information.
type EventDebugInfo struct {
ID string `json:"id"`
// Name is a human-readable event name in a format "{namespace},{name}".
Name string `json:"name"`
Parameters []DebugParam `json:"params"`
}
// DebugSeqPoint represents break-point for debugger.
type DebugSeqPoint struct {
// Opcode is an opcode's address.
Opcode int
// Document is an index of file where sequence point occurs.
Document int
// StartLine is the first line of the break-pointed statement.
StartLine int
// StartCol is the first column of the break-pointed statement.
StartCol int
// EndLine is the last line of the break-pointed statement.
EndLine int
// EndCol is the last column of the break-pointed statement.
EndCol int
}
// DebugRange represents the method's section in bytecode.
type DebugRange struct {
Start uint16
End uint16
}
// DebugParam represents the variable's name and type.
type DebugParam struct {
Name string `json:"name"`
Type string `json:"type"`
RealType binding.Override `json:"-"`
ExtendedType *binding.ExtendedType `json:"-"`
TypeSC smartcontract.ParamType `json:"-"`
}
// EmittedEventInfo describes information about single emitted event got from
// the contract code. It has the map of extended types used as the parameters to
// runtime.Notify(...) call (if any) and the parameters info itself.
type EmittedEventInfo struct {
ExtTypes map[string]binding.ExtendedType
Params []DebugParam
}
func (c *codegen) saveSequencePoint(n ast.Node) {
name := "init"
if c.scope != nil {
name = c.scope.name
}
fset := c.buildInfo.config.Fset
start := fset.Position(n.Pos())
end := fset.Position(n.End())
c.sequencePoints[name] = append(c.sequencePoints[name], DebugSeqPoint{
Opcode: c.prog.Len(),
Document: c.docIndex[start.Filename],
StartLine: start.Line,
StartCol: start.Offset,
EndLine: end.Line,
EndCol: end.Offset,
})
}
func (c *codegen) emitDebugInfo(contract []byte) *DebugInfo {
d := &DebugInfo{
Hash: hash.Hash160(contract),
MainPkg: c.mainPkg.Name,
Events: []EventDebugInfo{},
Documents: c.documents,
StaticVariables: c.staticVariables,
}
if c.initEndOffset > 0 {
d.Methods = append(d.Methods, MethodDebugInfo{
ID: manifest.MethodInit,
Name: DebugMethodName{
Name: manifest.MethodInit,
Namespace: c.mainPkg.Name,
},
IsExported: true,
IsFunction: true,
Range: DebugRange{
Start: 0,
End: uint16(c.initEndOffset),
},
ReturnType: "Void",
ReturnTypeSC: smartcontract.VoidType,
SeqPoints: c.sequencePoints["init"],
Variables: c.initVariables,
})
}
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if c.deployEndOffset >= 0 {
d.Methods = append(d.Methods, MethodDebugInfo{
ID: manifest.MethodDeploy,
Name: DebugMethodName{
Name: manifest.MethodDeploy,
Namespace: c.mainPkg.Name,
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},
IsExported: true,
IsFunction: true,
Range: DebugRange{
Start: uint16(c.initEndOffset + 1),
End: uint16(c.deployEndOffset),
},
Parameters: []DebugParam{
{
Name: "data",
Type: "Any",
TypeSC: smartcontract.AnyType,
},
{
Name: "isUpdate",
Type: "Boolean",
TypeSC: smartcontract.BoolType,
},
},
ReturnType: "Void",
ReturnTypeSC: smartcontract.VoidType,
SeqPoints: c.sequencePoints[manifest.MethodDeploy],
Variables: c.deployVariables,
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})
}
start := len(d.Methods)
d.NamedTypes = make(map[string]binding.ExtendedType)
for name, scope := range c.funcs {
m := c.methodInfoFromScope(name, scope, d.NamedTypes)
if m.Range.Start == m.Range.End {
continue
}
d.Methods = append(d.Methods, *m)
}
sort.Slice(d.Methods[start:], func(i, j int) bool {
return d.Methods[start+i].Name.Name < d.Methods[start+j].Name.Name
})
d.EmittedEvents = c.emittedEvents
d.InvokedContracts = c.invokedContracts
return d
}
func (c *codegen) registerDebugVariable(name string, expr ast.Expr) {
_, vt, _, _ := c.scAndVMTypeFromExpr(expr, nil)
if c.scope == nil {
c.staticVariables = append(c.staticVariables, name+","+vt.String())
return
}
c.scope.variables = append(c.scope.variables, name+","+vt.String())
}
func (c *codegen) methodInfoFromScope(name string, scope *funcScope, exts map[string]binding.ExtendedType) *MethodDebugInfo {
ps := scope.decl.Type.Params
params := make([]DebugParam, 0, ps.NumFields())
for i := range ps.List {
for j := range ps.List[i].Names {
st, vt, rt, et := c.scAndVMTypeFromExpr(ps.List[i].Type, exts)
params = append(params, DebugParam{
Name: ps.List[i].Names[j].Name,
Type: vt.String(),
ExtendedType: et,
RealType: rt,
TypeSC: st,
})
}
}
ss := strings.Split(name, ".")
name = ss[len(ss)-1]
r, n := utf8.DecodeRuneInString(name)
st, vt, rt, et := c.scAndVMReturnTypeFromScope(scope, exts)
return &MethodDebugInfo{
ID: name,
Name: DebugMethodName{
Name: string(unicode.ToLower(r)) + name[n:],
Namespace: scope.pkg.Name(),
},
IsExported: scope.decl.Name.IsExported(),
IsFunction: scope.decl.Recv == nil,
Range: scope.rng,
Parameters: params,
ReturnType: vt,
ReturnTypeExtended: et,
ReturnTypeReal: rt,
ReturnTypeSC: st,
SeqPoints: c.sequencePoints[name],
Variables: scope.variables,
}
}
func (c *codegen) scAndVMReturnTypeFromScope(scope *funcScope, exts map[string]binding.ExtendedType) (smartcontract.ParamType, string, binding.Override, *binding.ExtendedType) {
results := scope.decl.Type.Results
switch results.NumFields() {
case 0:
return smartcontract.VoidType, "Void", binding.Override{}, nil
case 1:
st, vt, s, et := c.scAndVMTypeFromExpr(results.List[0].Type, exts)
return st, vt.String(), s, et
default:
// multiple return values are not supported in debugger
return smartcontract.AnyType, "Any", binding.Override{}, nil
}
}
func scAndVMInteropTypeFromExpr(named *types.Named, isPointer bool) (smartcontract.ParamType, stackitem.Type, binding.Override, *binding.ExtendedType) {
name := named.Obj().Name()
pkg := named.Obj().Pkg().Name()
switch pkg {
case "ledger", "management":
switch name {
case "ParameterType", "SignerScope", "WitnessAction", "WitnessConditionType", "VMState":
return smartcontract.IntegerType, stackitem.IntegerT, binding.Override{TypeName: "int"}, nil
}
// Block, Transaction, Contract.
typeName := pkg + "." + name
et := &binding.ExtendedType{Base: smartcontract.ArrayType, Name: typeName}
if isPointer {
typeName = "*" + typeName
}
return smartcontract.ArrayType, stackitem.ArrayT, binding.Override{
Package: named.Obj().Pkg().Path(),
TypeName: typeName,
}, et
case "interop":
if name != "Interface" {
over := binding.Override{
Package: interopPrefix,
TypeName: "interop." + name,
}
switch name {
case "Hash160":
return smartcontract.Hash160Type, stackitem.ByteArrayT, over, nil
case "Hash256":
return smartcontract.Hash256Type, stackitem.ByteArrayT, over, nil
case "PublicKey":
return smartcontract.PublicKeyType, stackitem.ByteArrayT, over, nil
case "Signature":
return smartcontract.SignatureType, stackitem.ByteArrayT, over, nil
}
}
}
return smartcontract.InteropInterfaceType,
stackitem.InteropT,
binding.Override{TypeName: "any"},
&binding.ExtendedType{Base: smartcontract.InteropInterfaceType, Interface: "iterator"} // Temporarily all interops are iterators.
}
func (c *codegen) scAndVMTypeFromExpr(typ ast.Expr, exts map[string]binding.ExtendedType) (smartcontract.ParamType, stackitem.Type, binding.Override, *binding.ExtendedType) {
return c.scAndVMTypeFromType(c.typeOf(typ), exts)
}
func (c *codegen) scAndVMTypeFromType(t types.Type, exts map[string]binding.ExtendedType) (smartcontract.ParamType, stackitem.Type, binding.Override, *binding.ExtendedType) {
if t == nil {
return smartcontract.AnyType, stackitem.AnyT, binding.Override{TypeName: "any"}, nil
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}
var isPtr bool
named, isNamed := t.(*types.Named)
if !isNamed {
var ptr *types.Pointer
if ptr, isPtr = t.(*types.Pointer); isPtr {
named, isNamed = ptr.Elem().(*types.Named)
}
}
if isNamed {
if isInteropPath(named.String()) {
st, vt, over, et := scAndVMInteropTypeFromExpr(named, isPtr)
if et != nil && et.Base == smartcontract.ArrayType && exts != nil && exts[et.Name].Name != et.Name {
_ = c.genStructExtended(named.Underlying().(*types.Struct), et.Name, exts)
}
return st, vt, over, et
}
}
if ptr, isPtr := t.(*types.Pointer); isPtr {
t = ptr.Elem()
}
var over binding.Override
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switch t := t.Underlying().(type) {
case *types.Basic:
info := t.Info()
switch {
case info&types.IsInteger != 0:
over.TypeName = "int"
return smartcontract.IntegerType, stackitem.IntegerT, over, nil
case info&types.IsBoolean != 0:
over.TypeName = "bool"
return smartcontract.BoolType, stackitem.BooleanT, over, nil
case info&types.IsString != 0:
over.TypeName = "string"
return smartcontract.StringType, stackitem.ByteArrayT, over, nil
default:
over.TypeName = "any"
return smartcontract.AnyType, stackitem.AnyT, over, nil
}
case *types.Map:
et := &binding.ExtendedType{
Base: smartcontract.MapType,
}
et.Key, _, _, _ = c.scAndVMTypeFromType(t.Key(), exts)
vt, _, over, vet := c.scAndVMTypeFromType(t.Elem(), exts)
et.Value = vet
if et.Value == nil {
et.Value = &binding.ExtendedType{Base: vt}
}
over.TypeName = "map[" + t.Key().String() + "]" + over.TypeName
return smartcontract.MapType, stackitem.MapT, over, et
case *types.Struct:
if isNamed {
over.Package = named.Obj().Pkg().Path()
over.TypeName = named.Obj().Pkg().Name() + "." + named.Obj().Name()
_ = c.genStructExtended(t, over.TypeName, exts)
} else {
name := "unnamed"
if exts != nil {
for exts[name].Name == name {
name = name + "X"
}
_ = c.genStructExtended(t, name, exts)
}
}
return smartcontract.ArrayType, stackitem.StructT, over,
&binding.ExtendedType{ // Value-less, refer to exts.
Base: smartcontract.ArrayType,
Name: over.TypeName,
}
case *types.Slice:
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if isByte(t.Elem()) {
over.TypeName = "[]byte"
return smartcontract.ByteArrayType, stackitem.ByteArrayT, over, nil
}
et := &binding.ExtendedType{
Base: smartcontract.ArrayType,
}
vt, _, over, vet := c.scAndVMTypeFromType(t.Elem(), exts)
et.Value = vet
if et.Value == nil {
et.Value = &binding.ExtendedType{
Base: vt,
}
}
if over.TypeName != "" {
over.TypeName = "[]" + over.TypeName
}
return smartcontract.ArrayType, stackitem.ArrayT, over, et
default:
over.TypeName = "any"
return smartcontract.AnyType, stackitem.AnyT, over, nil
}
}
func (c *codegen) genStructExtended(t *types.Struct, name string, exts map[string]binding.ExtendedType) *binding.ExtendedType {
var et *binding.ExtendedType
if exts != nil {
if exts[name].Name != name {
et = &binding.ExtendedType{
Base: smartcontract.ArrayType,
Name: name,
Fields: make([]binding.FieldExtendedType, t.NumFields()),
}
exts[name] = *et // Prefill to solve recursive structures.
for i := range et.Fields {
field := t.Field(i)
ft, _, _, fet := c.scAndVMTypeFromType(field.Type(), exts)
if fet == nil {
et.Fields[i].ExtendedType.Base = ft
} else {
et.Fields[i].ExtendedType = *fet
}
et.Fields[i].Field = field.Name()
}
exts[name] = *et // Set real structure data.
} else {
et = new(binding.ExtendedType)
*et = exts[name]
}
}
return et
}
// MarshalJSON implements the json.Marshaler interface.
func (d *DebugRange) MarshalJSON() ([]byte, error) {
return []byte(`"` + strconv.FormatUint(uint64(d.Start), 10) + `-` +
strconv.FormatUint(uint64(d.End), 10) + `"`), nil
}
// UnmarshalJSON implements the json.Unmarshaler interface.
func (d *DebugRange) UnmarshalJSON(data []byte) error {
startS, endS, err := parsePairJSON(data, "-")
if err != nil {
return err
}
start, err := strconv.ParseUint(startS, 10, 16)
if err != nil {
return err
}
end, err := strconv.ParseUint(endS, 10, 16)
if err != nil {
return err
}
d.Start = uint16(start)
d.End = uint16(end)
return nil
}
// MarshalJSON implements the json.Marshaler interface.
func (d *DebugParam) MarshalJSON() ([]byte, error) {
return []byte(`"` + d.Name + `,` + d.Type + `"`), nil
}
// UnmarshalJSON implements the json.Unmarshaler interface.
func (d *DebugParam) UnmarshalJSON(data []byte) error {
startS, endS, err := parsePairJSON(data, ",")
if err != nil {
return err
}
d.Name = startS
d.Type = endS
return nil
}
// ToManifestParameter converts DebugParam to manifest.Parameter.
func (d *DebugParam) ToManifestParameter() manifest.Parameter {
return manifest.Parameter{
Name: d.Name,
Type: d.TypeSC,
}
}
// ToManifestMethod converts MethodDebugInfo to manifest.Method.
func (m *MethodDebugInfo) ToManifestMethod() manifest.Method {
var (
result manifest.Method
)
parameters := make([]manifest.Parameter, len(m.Parameters))
for i, p := range m.Parameters {
parameters[i] = p.ToManifestParameter()
}
result.Name = m.Name.Name
result.Offset = int(m.Range.Start)
result.Parameters = parameters
result.ReturnType = m.ReturnTypeSC
return result
}
// MarshalJSON implements the json.Marshaler interface.
func (d *DebugMethodName) MarshalJSON() ([]byte, error) {
return []byte(`"` + d.Namespace + `,` + d.Name + `"`), nil
}
// UnmarshalJSON implements the json.Unmarshaler interface.
func (d *DebugMethodName) UnmarshalJSON(data []byte) error {
startS, endS, err := parsePairJSON(data, ",")
if err != nil {
return err
}
d.Namespace = startS
d.Name = endS
return nil
}
// MarshalJSON implements the json.Marshaler interface.
func (d *DebugSeqPoint) MarshalJSON() ([]byte, error) {
s := fmt.Sprintf("%d[%d]%d:%d-%d:%d", d.Opcode, d.Document,
d.StartLine, d.StartCol, d.EndLine, d.EndCol)
return []byte(`"` + s + `"`), nil
}
// UnmarshalJSON implements the json.Unmarshaler interface.
func (d *DebugSeqPoint) UnmarshalJSON(data []byte) error {
_, err := fmt.Sscanf(string(data), `"%d[%d]%d:%d-%d:%d"`,
&d.Opcode, &d.Document, &d.StartLine, &d.StartCol, &d.EndLine, &d.EndCol)
return err
}
func parsePairJSON(data []byte, sep string) (string, string, error) {
var s string
if err := json.Unmarshal(data, &s); err != nil {
return "", "", err
}
ss := strings.SplitN(s, sep, 2)
if len(ss) != 2 {
return "", "", errors.New("invalid range format")
}
return ss[0], ss[1], nil
}
// ConvertToManifest converts a contract to the manifest.Manifest struct for debugger.
// Note: manifest is taken from the external source, however it can be generated ad-hoc. See #1038.
func (di *DebugInfo) ConvertToManifest(o *Options) (*manifest.Manifest, error) {
methods := make([]manifest.Method, 0)
for _, method := range di.Methods {
if method.IsExported && method.IsFunction && method.Name.Namespace == di.MainPkg {
mMethod := method.ToManifestMethod()
for i := range o.SafeMethods {
if mMethod.Name == o.SafeMethods[i] {
mMethod.Safe = true
break
}
}
methods = append(methods, mMethod)
}
}
result := manifest.NewManifest(o.Name)
if o.ContractSupportedStandards != nil {
result.SupportedStandards = o.ContractSupportedStandards
}
events := make([]manifest.Event, len(o.ContractEvents))
for i, e := range o.ContractEvents {
params := make([]manifest.Parameter, len(e.Parameters))
for j, p := range e.Parameters {
params[j] = p.Parameter
}
events[i] = manifest.Event{
Name: o.ContractEvents[i].Name,
Parameters: params,
}
}
result.ABI = manifest.ABI{
Methods: methods,
Events: events,
}
if result.ABI.Events == nil {
result.ABI.Events = make([]manifest.Event, 0)
}
result.Permissions = o.Permissions
for name, emitName := range o.Overloads {
m := result.ABI.GetMethod(name, -1)
if m == nil {
return nil, fmt.Errorf("overload for method %s was provided but it wasn't found", name)
}
if result.ABI.GetMethod(emitName, -1) == nil {
return nil, fmt.Errorf("overload with target method %s was provided but it wasn't found", emitName)
}
realM := result.ABI.GetMethod(emitName, len(m.Parameters))
if realM != nil {
return nil, fmt.Errorf("conflict overload for %s: "+
"multiple methods with the same number of parameters", name)
}
m.Name = emitName
// Check the resulting name against set of safe methods.
for i := range o.SafeMethods {
if m.Name == o.SafeMethods[i] {
m.Safe = true
break
}
}
}
return result, nil
}