package rpc import ( "encoding/json" "fmt" "math/big" "github.com/ethereum/go-ethereum/common" ) const ( defaultLogLimit = 100 defaultLogOffset = 0 ) func blockHeightFromJson(msg json.RawMessage, number *int64) error { var raw interface{} if err := json.Unmarshal(msg, &raw); err != nil { return NewDecodeParamError(err.Error()) } return blockHeight(raw, number) } func blockHeight(raw interface{}, number *int64) error { // Parse as integer num, ok := raw.(float64) if ok { *number = int64(num) return nil } // Parse as string/hexstring str, ok := raw.(string) if !ok { return NewInvalidTypeError("", "not a number or string") } switch str { case "earliest": *number = 0 case "latest": *number = -1 case "pending": *number = -2 default: if common.HasHexPrefix(str) { *number = common.String2Big(str).Int64() } else { return NewInvalidTypeError("blockNumber", "is not a valid string") } } return nil } func numString(raw interface{}) (*big.Int, error) { var number *big.Int // Parse as integer num, ok := raw.(float64) if ok { number = big.NewInt(int64(num)) return number, nil } // Parse as string/hexstring str, ok := raw.(string) if ok { number = common.String2Big(str) return number, nil } return nil, NewInvalidTypeError("", "not a number or string") } // func toNumber(v interface{}) (int64, error) { // var str string // if v != nil { // var ok bool // str, ok = v.(string) // if !ok { // return 0, errors.New("is not a string or undefined") // } // } else { // str = "latest" // } // switch str { // case "latest": // return -1, nil // default: // return int64(common.Big(v.(string)).Int64()), nil // } // } // func hashString(raw interface{}, hash *string) error { // argstr, ok := raw.(string) // if !ok { // return NewInvalidTypeError("", "not a string") // } // v := common.IsHex(argstr) // hash = &argstr // return nil // } type GetBlockByHashArgs struct { BlockHash string IncludeTxs bool } func (args *GetBlockByHashArgs) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 2 { return NewInsufficientParamsError(len(obj), 2) } argstr, ok := obj[0].(string) if !ok { return NewInvalidTypeError("blockHash", "not a string") } args.BlockHash = argstr args.IncludeTxs = obj[1].(bool) return nil } type GetBlockByNumberArgs struct { BlockNumber int64 IncludeTxs bool } func (args *GetBlockByNumberArgs) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 2 { return NewInsufficientParamsError(len(obj), 2) } if err := blockHeight(obj[0], &args.BlockNumber); err != nil { return err } args.IncludeTxs = obj[1].(bool) return nil } type NewTxArgs struct { From string To string Nonce *big.Int Value *big.Int Gas *big.Int GasPrice *big.Int Data string BlockNumber int64 } type NewSigArgs struct { From string Data string } func (args *NewSigArgs) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } // Check for sufficient params if len(obj) < 1 { return NewInsufficientParamsError(len(obj), 1) } from, ok := obj[0].(string) if !ok { return NewInvalidTypeError("from", "not a string") } args.From = from if len(args.From) == 0 { return NewValidationError("from", "is required") } data, ok := obj[1].(string) if !ok { return NewInvalidTypeError("data", "not a string") } args.Data = data if len(args.Data) == 0 { return NewValidationError("data", "is required") } return nil } func (args *NewTxArgs) UnmarshalJSON(b []byte) (err error) { var obj []json.RawMessage var ext struct { From string To string Nonce interface{} Value interface{} Gas interface{} GasPrice interface{} Data string } // Decode byte slice to array of RawMessages if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } // Check for sufficient params if len(obj) < 1 { return NewInsufficientParamsError(len(obj), 1) } // Decode 0th RawMessage to temporary struct if err := json.Unmarshal(obj[0], &ext); err != nil { return NewDecodeParamError(err.Error()) } if len(ext.From) == 0 { return NewValidationError("from", "is required") } args.From = ext.From args.To = ext.To args.Data = ext.Data var num *big.Int if ext.Nonce != nil { num, err = numString(ext.Nonce) if err != nil { return err } } args.Nonce = num if ext.Value == nil { num = big.NewInt(0) } else { num, err = numString(ext.Value) if err != nil { return err } } args.Value = num num = nil if ext.Gas != nil { if num, err = numString(ext.Gas); err != nil { return err } } else { num = nil } args.Gas = num num = nil if ext.GasPrice != nil { if num, err = numString(ext.GasPrice); err != nil { return err } } else { num = nil } args.GasPrice = num // Check for optional BlockNumber param if len(obj) > 1 { if err := blockHeightFromJson(obj[1], &args.BlockNumber); err != nil { return err } } else { args.BlockNumber = -1 } return nil } type CallArgs struct { From string To string Value *big.Int Gas *big.Int GasPrice *big.Int Data string BlockNumber int64 } func (args *CallArgs) UnmarshalJSON(b []byte) (err error) { var obj []json.RawMessage var ext struct { From string To string Value interface{} Gas interface{} GasPrice interface{} Data string } // Decode byte slice to array of RawMessages if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } // Check for sufficient params if len(obj) < 1 { return NewInsufficientParamsError(len(obj), 1) } // Decode 0th RawMessage to temporary struct if err := json.Unmarshal(obj[0], &ext); err != nil { return NewDecodeParamError(err.Error()) } args.From = ext.From if len(ext.To) == 0 { return NewValidationError("to", "is required") } args.To = ext.To var num *big.Int if ext.Value == nil { num = big.NewInt(0) } else { if num, err = numString(ext.Value); err != nil { return err } } args.Value = num if ext.Gas != nil { if num, err = numString(ext.Gas); err != nil { return err } } else { num = nil } args.Gas = num if ext.GasPrice != nil { if num, err = numString(ext.GasPrice); err != nil { return err } } else { num = nil } args.GasPrice = num args.Data = ext.Data // Check for optional BlockNumber param if len(obj) > 1 { if err := blockHeightFromJson(obj[1], &args.BlockNumber); err != nil { return err } } else { args.BlockNumber = -1 } return nil } type GetStorageArgs struct { Address string BlockNumber int64 } func (args *GetStorageArgs) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 1 { return NewInsufficientParamsError(len(obj), 1) } addstr, ok := obj[0].(string) if !ok { return NewInvalidTypeError("address", "not a string") } args.Address = addstr if len(obj) > 1 { if err := blockHeight(obj[1], &args.BlockNumber); err != nil { return err } } else { args.BlockNumber = -1 } return nil } type GetStorageAtArgs struct { Address string Key string BlockNumber int64 } func (args *GetStorageAtArgs) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 2 { return NewInsufficientParamsError(len(obj), 2) } addstr, ok := obj[0].(string) if !ok { return NewInvalidTypeError("address", "not a string") } args.Address = addstr keystr, ok := obj[1].(string) if !ok { return NewInvalidTypeError("key", "not a string") } args.Key = keystr if len(obj) > 2 { if err := blockHeight(obj[2], &args.BlockNumber); err != nil { return err } } else { args.BlockNumber = -1 } return nil } type GetTxCountArgs struct { Address string BlockNumber int64 } func (args *GetTxCountArgs) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 1 { return NewInsufficientParamsError(len(obj), 1) } addstr, ok := obj[0].(string) if !ok { return NewInvalidTypeError("address", "not a string") } args.Address = addstr if len(obj) > 1 { if err := blockHeight(obj[1], &args.BlockNumber); err != nil { return err } } else { args.BlockNumber = -1 } return nil } type GetBalanceArgs struct { Address string BlockNumber int64 } func (args *GetBalanceArgs) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 1 { return NewInsufficientParamsError(len(obj), 1) } addstr, ok := obj[0].(string) if !ok { return NewInvalidTypeError("address", "not a string") } args.Address = addstr if len(obj) > 1 { if err := blockHeight(obj[1], &args.BlockNumber); err != nil { return err } } else { args.BlockNumber = -1 } return nil } type GetDataArgs struct { Address string BlockNumber int64 } func (args *GetDataArgs) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 1 { return NewInsufficientParamsError(len(obj), 1) } addstr, ok := obj[0].(string) if !ok { return NewInvalidTypeError("address", "not a string") } args.Address = addstr if len(obj) > 1 { if err := blockHeight(obj[1], &args.BlockNumber); err != nil { return err } } else { args.BlockNumber = -1 } return nil } type BlockNumArg struct { BlockNumber int64 } func (args *BlockNumArg) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 1 { return NewInsufficientParamsError(len(obj), 1) } if err := blockHeight(obj[0], &args.BlockNumber); err != nil { return err } return nil } type BlockNumIndexArgs struct { BlockNumber int64 Index int64 } func (args *BlockNumIndexArgs) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 2 { return NewInsufficientParamsError(len(obj), 2) } if err := blockHeight(obj[0], &args.BlockNumber); err != nil { return err } var arg1 *big.Int if arg1, err = numString(obj[1]); err != nil { return err } args.Index = arg1.Int64() return nil } type HashArgs struct { Hash string } func (args *HashArgs) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 1 { return NewInsufficientParamsError(len(obj), 1) } arg0, ok := obj[0].(string) if !ok { return NewInvalidTypeError("hash", "not a string") } args.Hash = arg0 return nil } type HashIndexArgs struct { Hash string Index int64 } func (args *HashIndexArgs) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 2 { return NewInsufficientParamsError(len(obj), 2) } arg0, ok := obj[0].(string) if !ok { return NewInvalidTypeError("hash", "not a string") } args.Hash = arg0 arg1, ok := obj[1].(string) if !ok { return NewInvalidTypeError("index", "not a string") } args.Index = common.Big(arg1).Int64() return nil } type Sha3Args struct { Data string } func (args *Sha3Args) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 1 { return NewInsufficientParamsError(len(obj), 1) } argstr, ok := obj[0].(string) if !ok { return NewInvalidTypeError("data", "is not a string") } args.Data = argstr return nil } type BlockFilterArgs struct { Earliest int64 Latest int64 Address []string Topics [][]string Skip int Max int } func (args *BlockFilterArgs) UnmarshalJSON(b []byte) (err error) { var obj []struct { FromBlock interface{} `json:"fromBlock"` ToBlock interface{} `json:"toBlock"` Limit interface{} `json:"limit"` Offset interface{} `json:"offset"` Address interface{} `json:"address"` Topics interface{} `json:"topics"` } if err = json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 1 { return NewInsufficientParamsError(len(obj), 1) } // args.Earliest, err = toNumber(obj[0].ToBlock) // if err != nil { // return NewDecodeParamError(fmt.Sprintf("FromBlock %v", err)) // } // args.Latest, err = toNumber(obj[0].FromBlock) // if err != nil { // return NewDecodeParamError(fmt.Sprintf("ToBlock %v", err)) var num int64 var numBig *big.Int // if blank then latest if obj[0].FromBlock == nil { num = -1 } else { if err := blockHeight(obj[0].FromBlock, &num); err != nil { return err } } // if -2 or other "silly" number, use latest if num < 0 { args.Earliest = -1 //latest block } else { args.Earliest = num } // if blank than latest if obj[0].ToBlock == nil { num = -1 } else { if err := blockHeight(obj[0].ToBlock, &num); err != nil { return err } } args.Latest = num if obj[0].Limit == nil { numBig = big.NewInt(defaultLogLimit) } else { if numBig, err = numString(obj[0].Limit); err != nil { return err } } args.Max = int(numBig.Int64()) if obj[0].Offset == nil { numBig = big.NewInt(defaultLogOffset) } else { if numBig, err = numString(obj[0].Offset); err != nil { return err } } args.Skip = int(numBig.Int64()) if obj[0].Address != nil { marg, ok := obj[0].Address.([]interface{}) if ok { v := make([]string, len(marg)) for i, arg := range marg { argstr, ok := arg.(string) if !ok { return NewInvalidTypeError(fmt.Sprintf("address[%d]", i), "is not a string") } v[i] = argstr } args.Address = v } else { argstr, ok := obj[0].Address.(string) if ok { v := make([]string, 1) v[0] = argstr args.Address = v } else { return NewInvalidTypeError("address", "is not a string or array") } } } if obj[0].Topics != nil { other, ok := obj[0].Topics.([]interface{}) if ok { topicdbl := make([][]string, len(other)) for i, iv := range other { if argstr, ok := iv.(string); ok { // Found a string, push into first element of array topicsgl := make([]string, 1) topicsgl[0] = argstr topicdbl[i] = topicsgl } else if argarray, ok := iv.([]interface{}); ok { // Found an array of other topicdbl[i] = make([]string, len(argarray)) for j, jv := range argarray { if v, ok := jv.(string); ok { topicdbl[i][j] = v } else if jv == nil { topicdbl[i][j] = "" } else { return NewInvalidTypeError(fmt.Sprintf("topic[%d][%d]", i, j), "is not a string") } } } else if iv == nil { topicdbl[i] = []string{""} } else { return NewInvalidTypeError(fmt.Sprintf("topic[%d]", i), "not a string or array") } } args.Topics = topicdbl return nil } else { return NewInvalidTypeError("topic", "is not a string or array") } } return nil } type DbArgs struct { Database string Key string Value []byte } func (args *DbArgs) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 2 { return NewInsufficientParamsError(len(obj), 2) } var objstr string var ok bool if objstr, ok = obj[0].(string); !ok { return NewInvalidTypeError("database", "not a string") } args.Database = objstr if objstr, ok = obj[1].(string); !ok { return NewInvalidTypeError("key", "not a string") } args.Key = objstr if len(obj) > 2 { objstr, ok = obj[2].(string) if !ok { return NewInvalidTypeError("value", "not a string") } args.Value = []byte(objstr) } return nil } func (a *DbArgs) requirements() error { if len(a.Database) == 0 { return NewValidationError("Database", "cannot be blank") } if len(a.Key) == 0 { return NewValidationError("Key", "cannot be blank") } return nil } type DbHexArgs struct { Database string Key string Value []byte } func (args *DbHexArgs) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 2 { return NewInsufficientParamsError(len(obj), 2) } var objstr string var ok bool if objstr, ok = obj[0].(string); !ok { return NewInvalidTypeError("database", "not a string") } args.Database = objstr if objstr, ok = obj[1].(string); !ok { return NewInvalidTypeError("key", "not a string") } args.Key = objstr if len(obj) > 2 { objstr, ok = obj[2].(string) if !ok { return NewInvalidTypeError("value", "not a string") } args.Value = common.FromHex(objstr) } return nil } func (a *DbHexArgs) requirements() error { if len(a.Database) == 0 { return NewValidationError("Database", "cannot be blank") } if len(a.Key) == 0 { return NewValidationError("Key", "cannot be blank") } return nil } type WhisperMessageArgs struct { Payload string To string From string Topics []string Priority uint32 Ttl uint32 } func (args *WhisperMessageArgs) UnmarshalJSON(b []byte) (err error) { var obj []struct { Payload string To string From string Topics []string Priority interface{} Ttl interface{} } if err = json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 1 { return NewInsufficientParamsError(len(obj), 1) } args.Payload = obj[0].Payload args.To = obj[0].To args.From = obj[0].From args.Topics = obj[0].Topics var num *big.Int if num, err = numString(obj[0].Priority); err != nil { return err } args.Priority = uint32(num.Int64()) if num, err = numString(obj[0].Ttl); err != nil { return err } args.Ttl = uint32(num.Int64()) return nil } type CompileArgs struct { Source string } func (args *CompileArgs) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 1 { return NewInsufficientParamsError(len(obj), 1) } argstr, ok := obj[0].(string) if !ok { return NewInvalidTypeError("arg0", "is not a string") } args.Source = argstr return nil } type FilterStringArgs struct { Word string } func (args *FilterStringArgs) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 1 { return NewInsufficientParamsError(len(obj), 1) } var argstr string argstr, ok := obj[0].(string) if !ok { return NewInvalidTypeError("filter", "not a string") } switch argstr { case "latest", "pending": break default: return NewValidationError("Word", "Must be `latest` or `pending`") } args.Word = argstr return nil } type FilterIdArgs struct { Id int } func (args *FilterIdArgs) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 1 { return NewInsufficientParamsError(len(obj), 1) } var num *big.Int if num, err = numString(obj[0]); err != nil { return err } args.Id = int(num.Int64()) return nil } type WhisperIdentityArgs struct { Identity string } func (args *WhisperIdentityArgs) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 1 { return NewInsufficientParamsError(len(obj), 1) } argstr, ok := obj[0].(string) if !ok { return NewInvalidTypeError("arg0", "not a string") } // if !common.IsHex(argstr) { // return NewValidationError("arg0", "not a hexstring") // } args.Identity = argstr return nil } type WhisperFilterArgs struct { To string From string Topics [][]string } // UnmarshalJSON implements the json.Unmarshaler interface, invoked to convert a // JSON message blob into a WhisperFilterArgs structure. func (args *WhisperFilterArgs) UnmarshalJSON(b []byte) (err error) { // Unmarshal the JSON message and sanity check var obj []struct { To interface{} `json:"to"` From interface{} `json:"from"` Topics interface{} `json:"topics"` } if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 1 { return NewInsufficientParamsError(len(obj), 1) } // Retrieve the simple data contents of the filter arguments if obj[0].To == nil { args.To = "" } else { argstr, ok := obj[0].To.(string) if !ok { return NewInvalidTypeError("to", "is not a string") } args.To = argstr } if obj[0].From == nil { args.From = "" } else { argstr, ok := obj[0].From.(string) if !ok { return NewInvalidTypeError("from", "is not a string") } args.From = argstr } // Construct the nested topic array if obj[0].Topics != nil { // Make sure we have an actual topic array list, ok := obj[0].Topics.([]interface{}) if !ok { return NewInvalidTypeError("topics", "is not an array") } // Iterate over each topic and handle nil, string or array topics := make([][]string, len(list)) for idx, field := range list { switch value := field.(type) { case nil: topics[idx] = []string{} case string: topics[idx] = []string{value} case []interface{}: topics[idx] = make([]string, len(value)) for i, nested := range value { switch value := nested.(type) { case nil: topics[idx][i] = "" case string: topics[idx][i] = value default: return NewInvalidTypeError(fmt.Sprintf("topic[%d][%d]", idx, i), "is not a string") } } default: return NewInvalidTypeError(fmt.Sprintf("topic[%d]", idx), "not a string or array") } } args.Topics = topics } return nil } type SubmitWorkArgs struct { Nonce uint64 Header string Digest string } func (args *SubmitWorkArgs) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err = json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 3 { return NewInsufficientParamsError(len(obj), 3) } var objstr string var ok bool if objstr, ok = obj[0].(string); !ok { return NewInvalidTypeError("nonce", "not a string") } args.Nonce = common.String2Big(objstr).Uint64() if objstr, ok = obj[1].(string); !ok { return NewInvalidTypeError("header", "not a string") } args.Header = objstr if objstr, ok = obj[2].(string); !ok { return NewInvalidTypeError("digest", "not a string") } args.Digest = objstr return nil } type SourceArgs struct { Source string } func (args *SourceArgs) UnmarshalJSON(b []byte) (err error) { var obj []interface{} if err := json.Unmarshal(b, &obj); err != nil { return NewDecodeParamError(err.Error()) } if len(obj) < 1 { return NewInsufficientParamsError(len(obj), 1) } arg0, ok := obj[0].(string) if !ok { return NewInvalidTypeError("source code", "not a string") } args.Source = arg0 return nil }