btcd/opcode.go
Owain G. Ainsworth bac455cdd2 Fix reversed test bug with the max operations handling
We were counting the number of push ops instead of the number of non
push ops.  Add tests that found this (checking tha the max operations
check fires).
2013-06-20 00:30:34 +01:00

1604 lines
44 KiB
Go

// Copyright (c) 2013 Conformal Systems LLC.
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package btcscript
import (
"bytes"
"code.google.com/p/go.crypto/ripemd160"
"crypto/ecdsa"
"crypto/sha1"
"crypto/sha256"
"fmt"
"github.com/conformal/btcec"
"github.com/conformal/btcwire"
"github.com/davecgh/go-spew/spew"
"hash"
"math/big"
)
// An opcode defines the information related to a btcscript opcode.
// opfunc if present is the function to call to perform the opcode on
// the script. The current script is passed in as a slice with the firs
// member being the opcode itself.
type opcode struct {
value byte
name string
length int
opfunc func(*parsedOpcode, *Script) error
parsefunc func(*opcode, *Script, []byte) error
}
// These constants are the values of the official opcode used on the btc wiki,
// in bitcoind and in most if not all other references and software related to
// handling BTC scripts.
const (
OP_FALSE byte = 0 // AKA OP_0
OP_0 = 0
OP_DATA_1 = 1
OP_DATA_2 = 2
OP_DATA_3 = 3
OP_DATA_4 = 4
OP_DATA_5 = 5
OP_DATA_6 = 6
OP_DATA_7 = 7
OP_DATA_8 = 8
OP_DATA_9 = 9
OP_DATA_10 = 10
OP_DATA_11 = 11
OP_DATA_12 = 12
OP_DATA_13 = 13
OP_DATA_14 = 14
OP_DATA_15 = 15
OP_DATA_16 = 16
OP_DATA_17 = 17
OP_DATA_18 = 18
OP_DATA_19 = 19
OP_DATA_20 = 20
OP_DATA_21 = 21
OP_DATA_22 = 22
OP_DATA_23 = 23
OP_DATA_24 = 24
OP_DATA_25 = 25
OP_DATA_26 = 26
OP_DATA_27 = 27
OP_DATA_28 = 28
OP_DATA_29 = 29
OP_DATA_30 = 30
OP_DATA_31 = 31
OP_DATA_32 = 32
OP_DATA_33 = 33
OP_DATA_34 = 34
OP_DATA_35 = 35
OP_DATA_36 = 36
OP_DATA_37 = 37
OP_DATA_38 = 38
OP_DATA_39 = 39
OP_DATA_40 = 40
OP_DATA_41 = 41
OP_DATA_42 = 42
OP_DATA_43 = 43
OP_DATA_44 = 44
OP_DATA_45 = 45
OP_DATA_46 = 46
OP_DATA_47 = 47
OP_DATA_48 = 48
OP_DATA_49 = 49
OP_DATA_50 = 50
OP_DATA_51 = 51
OP_DATA_52 = 52
OP_DATA_53 = 53
OP_DATA_54 = 54
OP_DATA_55 = 55
OP_DATA_56 = 56
OP_DATA_57 = 57
OP_DATA_58 = 58
OP_DATA_59 = 59
OP_DATA_60 = 60
OP_DATA_61 = 61
OP_DATA_62 = 62
OP_DATA_63 = 63
OP_DATA_64 = 64
OP_DATA_65 = 65
OP_DATA_66 = 66
OP_DATA_67 = 67
OP_DATA_68 = 68
OP_DATA_69 = 69
OP_DATA_70 = 70
OP_DATA_71 = 71
OP_DATA_72 = 72
OP_DATA_73 = 73
OP_DATA_74 = 74
OP_DATA_75 = 75
OP_PUSHDATA1 = 76
OP_PUSHDATA2 = 77
OP_PUSHDATA4 = 78
OP_1NEGATE = 79
OP_RESERVED = 80
OP_1 = 81 // AKA OP_TRUE
OP_TRUE = 81
OP_2 = 82
OP_3 = 83
OP_4 = 84
OP_5 = 85
OP_6 = 86
OP_7 = 87
OP_8 = 88
OP_9 = 89
OP_10 = 90
OP_11 = 91
OP_12 = 92
OP_13 = 93
OP_14 = 94
OP_15 = 95
OP_16 = 96
OP_NOP = 97
OP_VER = 98
OP_IF = 99
OP_NOTIF = 100
OP_VERIF = 101
OP_VERNOTIF = 102
OP_ELSE = 103
OP_ENDIF = 104
OP_VERIFY = 105
OP_RETURN = 106
OP_TOALTSTACK = 107
OP_FROMALTSTACK = 108
OP_2DROP = 109
OP_2DUP = 110
OP_3DUP = 111
OP_2OVER = 112
OP_2ROT = 113
OP_2SWAP = 114
OP_IFDUP = 115
OP_DEPTH = 116
OP_DROP = 117
OP_DUP = 118
OP_NIP = 119
OP_OVER = 120
OP_PICK = 121
OP_ROLL = 122
OP_ROT = 123
OP_SWAP = 124
OP_TUCK = 125
OP_CAT = 126
OP_SUBSTR = 127
OP_LEFT = 128
OP_RIGHT = 129
OP_SIZE = 130
OP_INVERT = 131
OP_AND = 132
OP_OR = 133
OP_XOR = 134
OP_EQUAL = 135
OP_EQUALVERIFY = 136
OP_RESERVED1 = 137
OP_RESERVED2 = 138
OP_1ADD = 139
OP_1SUB = 140
OP_2MUL = 141
OP_2DIV = 142
OP_NEGATE = 143
OP_ABS = 144
OP_NOT = 145
OP_0NOTEQUAL = 146
OP_ADD = 147
OP_SUB = 148
OP_MUL = 149
OP_DIV = 150
OP_MOD = 151
OP_LSHIFT = 152
OP_RSHIFT = 153
OP_BOOLAND = 154
OP_BOOLOR = 155
OP_NUMEQUAL = 156
OP_NUMEQUALVERIFY = 157
OP_NUMNOTEQUAL = 158
OP_LESSTHAN = 159
OP_GREATERTHAN = 160
OP_LESSTHANOREQUAL = 161
OP_GREATERTHANOREQUAL = 162
OP_MIN = 163
OP_MAX = 164
OP_WITHIN = 165
OP_RIPEMD160 = 166
OP_SHA1 = 167
OP_SHA256 = 168
OP_HASH160 = 169
OP_HASH256 = 170
OP_CODESEPARATOR = 171
OP_CHECKSIG = 172
OP_CHECKSIGVERIFY = 173
OP_CHECK_MULTISIG = 174
OP_CHECKMULTISIGVERIFY = 175
OP_NOP1 = 176
OP_NOP2 = 177
OP_NOP3 = 178
OP_NOP4 = 179
OP_NOP5 = 180
OP_NOP6 = 181
OP_NOP7 = 182
OP_NOP8 = 183
OP_NOP9 = 184
OP_NOP10 = 185
OP_PUBKEYHASH = 253 // bitcoind internal, for completeness
OP_PUBKEY = 254 // bitcoind internal, for completeness
OP_INVALIDOPCODE = 255 // bitcoind internal, for completeness
)
// conditional execution constants
const (
OpCondFalse = 0
OpCondTrue = 1
OpCondSkip = 2
)
// Some of the functions in opcodemap call things that themselves then will
// reference the opcodemap to make decisions (things like op_checksig which
// needs to parse scripts to remove opcodes, for example).
// The go compiler is very conservative in this matter and will think there
// is an initialisation loop. In order to work around this we have the fake
// ``prevariable'' opcodemapPreinit and then set the real variable to the
// preinit in init()
var opcodemap map[byte]*opcode
func init() {
opcodemap = opcodemapPreinit
}
var opcodemapPreinit = map[byte]*opcode{
OP_FALSE: {value: OP_FALSE, name: "OP_0", length: 1,
opfunc: opcodeFalse},
OP_DATA_1: {value: OP_DATA_1, name: "OP_DATA_1", length: 2,
opfunc: opcodePushData},
OP_DATA_2: {value: OP_DATA_2, name: "OP_DATA_2", length: 3,
opfunc: opcodePushData},
OP_DATA_3: {value: OP_DATA_3, name: "OP_DATA_3", length: 4,
opfunc: opcodePushData},
OP_DATA_4: {value: OP_DATA_4, name: "OP_DATA_4", length: 5,
opfunc: opcodePushData},
OP_DATA_5: {value: OP_DATA_5, name: "OP_DATA_5", length: 6,
opfunc: opcodePushData},
OP_DATA_6: {value: OP_DATA_6, name: "OP_DATA_6", length: 7,
opfunc: opcodePushData},
OP_DATA_7: {value: OP_DATA_7, name: "OP_DATA_7", length: 8,
opfunc: opcodePushData},
OP_DATA_8: {value: OP_DATA_8, name: "OP_DATA_8", length: 9,
opfunc: opcodePushData},
OP_DATA_9: {value: OP_DATA_9, name: "OP_DATA_9", length: 10,
opfunc: opcodePushData},
OP_DATA_10: {value: OP_DATA_10, name: "OP_DATA_10", length: 11,
opfunc: opcodePushData},
OP_DATA_11: {value: OP_DATA_11, name: "OP_DATA_11", length: 12,
opfunc: opcodePushData},
OP_DATA_12: {value: OP_DATA_12, name: "OP_DATA_12", length: 13,
opfunc: opcodePushData},
OP_DATA_13: {value: OP_DATA_13, name: "OP_DATA_13", length: 14,
opfunc: opcodePushData},
OP_DATA_14: {value: OP_DATA_14, name: "OP_DATA_14", length: 15,
opfunc: opcodePushData},
OP_DATA_15: {value: OP_DATA_15, name: "OP_DATA_15", length: 16,
opfunc: opcodePushData},
OP_DATA_16: {value: OP_DATA_16, name: "OP_DATA_16", length: 17,
opfunc: opcodePushData},
OP_DATA_17: {value: OP_DATA_17, name: "OP_DATA_17", length: 18,
opfunc: opcodePushData},
OP_DATA_18: {value: OP_DATA_18, name: "OP_DATA_18", length: 19,
opfunc: opcodePushData},
OP_DATA_19: {value: OP_DATA_19, name: "OP_DATA_19", length: 20,
opfunc: opcodePushData},
OP_DATA_20: {value: OP_DATA_20, name: "OP_DATA_20", length: 21,
opfunc: opcodePushData},
OP_DATA_21: {value: OP_DATA_21, name: "OP_DATA_21", length: 22,
opfunc: opcodePushData},
OP_DATA_22: {value: OP_DATA_22, name: "OP_DATA_22", length: 23,
opfunc: opcodePushData},
OP_DATA_23: {value: OP_DATA_23, name: "OP_DATA_23", length: 24,
opfunc: opcodePushData},
OP_DATA_24: {value: OP_DATA_24, name: "OP_DATA_24", length: 25,
opfunc: opcodePushData},
OP_DATA_25: {value: OP_DATA_25, name: "OP_DATA_25", length: 26,
opfunc: opcodePushData},
OP_DATA_26: {value: OP_DATA_26, name: "OP_DATA_26", length: 27,
opfunc: opcodePushData},
OP_DATA_27: {value: OP_DATA_27, name: "OP_DATA_27", length: 28,
opfunc: opcodePushData},
OP_DATA_28: {value: OP_DATA_28, name: "OP_DATA_28", length: 29,
opfunc: opcodePushData},
OP_DATA_29: {value: OP_DATA_29, name: "OP_DATA_29", length: 30,
opfunc: opcodePushData},
OP_DATA_30: {value: OP_DATA_30, name: "OP_DATA_30", length: 31,
opfunc: opcodePushData},
OP_DATA_31: {value: OP_DATA_31, name: "OP_DATA_31", length: 32,
opfunc: opcodePushData},
OP_DATA_32: {value: OP_DATA_32, name: "OP_DATA_32", length: 33,
opfunc: opcodePushData},
OP_DATA_33: {value: OP_DATA_33, name: "OP_DATA_33", length: 34,
opfunc: opcodePushData},
OP_DATA_34: {value: OP_DATA_34, name: "OP_DATA_34", length: 35,
opfunc: opcodePushData},
OP_DATA_35: {value: OP_DATA_35, name: "OP_DATA_35", length: 36,
opfunc: opcodePushData},
OP_DATA_36: {value: OP_DATA_36, name: "OP_DATA_36", length: 37,
opfunc: opcodePushData},
OP_DATA_37: {value: OP_DATA_37, name: "OP_DATA_37", length: 38,
opfunc: opcodePushData},
OP_DATA_38: {value: OP_DATA_38, name: "OP_DATA_38", length: 39,
opfunc: opcodePushData},
OP_DATA_39: {value: OP_DATA_39, name: "OP_DATA_39", length: 40,
opfunc: opcodePushData},
OP_DATA_40: {value: OP_DATA_40, name: "OP_DATA_40", length: 41,
opfunc: opcodePushData},
OP_DATA_41: {value: OP_DATA_41, name: "OP_DATA_41", length: 42,
opfunc: opcodePushData},
OP_DATA_42: {value: OP_DATA_42, name: "OP_DATA_42", length: 43,
opfunc: opcodePushData},
OP_DATA_43: {value: OP_DATA_43, name: "OP_DATA_43", length: 44,
opfunc: opcodePushData},
OP_DATA_44: {value: OP_DATA_44, name: "OP_DATA_44", length: 45,
opfunc: opcodePushData},
OP_DATA_45: {value: OP_DATA_45, name: "OP_DATA_45", length: 46,
opfunc: opcodePushData},
OP_DATA_46: {value: OP_DATA_46, name: "OP_DATA_46", length: 47,
opfunc: opcodePushData},
OP_DATA_47: {value: OP_DATA_47, name: "OP_DATA_47", length: 48,
opfunc: opcodePushData},
OP_DATA_48: {value: OP_DATA_48, name: "OP_DATA_48", length: 49,
opfunc: opcodePushData},
OP_DATA_49: {value: OP_DATA_49, name: "OP_DATA_49", length: 50,
opfunc: opcodePushData},
OP_DATA_50: {value: OP_DATA_50, name: "OP_DATA_50", length: 51,
opfunc: opcodePushData},
OP_DATA_51: {value: OP_DATA_51, name: "OP_DATA_51", length: 52,
opfunc: opcodePushData},
OP_DATA_52: {value: OP_DATA_52, name: "OP_DATA_52", length: 53,
opfunc: opcodePushData},
OP_DATA_53: {value: OP_DATA_53, name: "OP_DATA_53", length: 54,
opfunc: opcodePushData},
OP_DATA_54: {value: OP_DATA_54, name: "OP_DATA_54", length: 55,
opfunc: opcodePushData},
OP_DATA_55: {value: OP_DATA_55, name: "OP_DATA_55", length: 56,
opfunc: opcodePushData},
OP_DATA_56: {value: OP_DATA_56, name: "OP_DATA_56", length: 57,
opfunc: opcodePushData},
OP_DATA_57: {value: OP_DATA_57, name: "OP_DATA_57", length: 58,
opfunc: opcodePushData},
OP_DATA_58: {value: OP_DATA_58, name: "OP_DATA_58", length: 59,
opfunc: opcodePushData},
OP_DATA_59: {value: OP_DATA_59, name: "OP_DATA_59", length: 60,
opfunc: opcodePushData},
OP_DATA_60: {value: OP_DATA_60, name: "OP_DATA_60", length: 61,
opfunc: opcodePushData},
OP_DATA_61: {value: OP_DATA_61, name: "OP_DATA_61", length: 62,
opfunc: opcodePushData},
OP_DATA_62: {value: OP_DATA_62, name: "OP_DATA_62", length: 63,
opfunc: opcodePushData},
OP_DATA_63: {value: OP_DATA_63, name: "OP_DATA_63", length: 64,
opfunc: opcodePushData},
OP_DATA_64: {value: OP_DATA_64, name: "OP_DATA_64", length: 65,
opfunc: opcodePushData},
OP_DATA_65: {value: OP_DATA_65, name: "OP_DATA_65", length: 66,
opfunc: opcodePushData},
OP_DATA_66: {value: OP_DATA_66, name: "OP_DATA_66", length: 67,
opfunc: opcodePushData},
OP_DATA_67: {value: OP_DATA_67, name: "OP_DATA_67", length: 68,
opfunc: opcodePushData},
OP_DATA_68: {value: OP_DATA_68, name: "OP_DATA_68", length: 69,
opfunc: opcodePushData},
OP_DATA_69: {value: OP_DATA_69, name: "OP_DATA_69", length: 70,
opfunc: opcodePushData},
OP_DATA_70: {value: OP_DATA_70, name: "OP_DATA_70", length: 71,
opfunc: opcodePushData},
OP_DATA_71: {value: OP_DATA_71, name: "OP_DATA_71", length: 72,
opfunc: opcodePushData},
OP_DATA_72: {value: OP_DATA_72, name: "OP_DATA_72", length: 73,
opfunc: opcodePushData},
OP_DATA_73: {value: OP_DATA_73, name: "OP_DATA_73", length: 74,
opfunc: opcodePushData},
OP_DATA_74: {value: OP_DATA_74, name: "OP_DATA_74", length: 75,
opfunc: opcodePushData},
OP_DATA_75: {value: OP_DATA_75, name: "OP_DATA_75", length: 76,
opfunc: opcodePushData},
OP_PUSHDATA1: {value: OP_PUSHDATA1, name: "OP_PUSHDATA1", length: -1,
opfunc: opcodePushData},
OP_PUSHDATA2: {value: OP_PUSHDATA2, name: "OP_PUSHDATA2", length: -2,
opfunc: opcodePushData},
OP_PUSHDATA4: {value: OP_PUSHDATA4, name: "OP_PUSHDATA4", length: -4,
opfunc: opcodePushData},
OP_1NEGATE: {value: OP_1NEGATE, name: "OP_1NEGATE", length: 1,
opfunc: opcode1Negate},
OP_RESERVED: {value: OP_RESERVED, name: "OP_RESERVED", length: 1,
opfunc: opcodeReserved},
OP_TRUE: {value: OP_TRUE, name: "OP_1", length: 1,
opfunc: opcodeN},
OP_2: {value: OP_2, name: "OP_2", length: 1,
opfunc: opcodeN},
OP_3: {value: OP_3, name: "OP_3", length: 1,
opfunc: opcodeN},
OP_4: {value: OP_4, name: "OP_4", length: 1,
opfunc: opcodeN},
OP_5: {value: OP_5, name: "OP_5", length: 1,
opfunc: opcodeN},
OP_6: {value: OP_6, name: "OP_6", length: 1,
opfunc: opcodeN},
OP_7: {value: OP_7, name: "OP_7", length: 1,
opfunc: opcodeN},
OP_8: {value: OP_8, name: "OP_8", length: 1,
opfunc: opcodeN},
OP_9: {value: OP_9, name: "OP_9", length: 1,
opfunc: opcodeN},
OP_10: {value: OP_10, name: "OP_10", length: 1,
opfunc: opcodeN},
OP_11: {value: OP_11, name: "OP_11", length: 1,
opfunc: opcodeN},
OP_12: {value: OP_12, name: "OP_12", length: 1,
opfunc: opcodeN},
OP_13: {value: OP_13, name: "OP_13", length: 1,
opfunc: opcodeN},
OP_14: {value: OP_14, name: "OP_14", length: 1,
opfunc: opcodeN},
OP_15: {value: OP_15, name: "OP_15", length: 1,
opfunc: opcodeN},
OP_16: {value: OP_16, name: "OP_16", length: 1,
opfunc: opcodeN},
OP_NOP: {value: OP_NOP, name: "OP_NOP", length: 1,
opfunc: opcodeNop},
OP_VER: {value: OP_VER, name: "OP_VER", length: 1,
opfunc: opcodeReserved},
OP_IF: {value: OP_IF, name: "OP_IF", length: 1,
opfunc: opcodeIf},
OP_NOTIF: {value: OP_NOTIF, name: "OP_NOTIF", length: 1,
opfunc: opcodeNotIf},
OP_VERIF: {value: OP_VERIF, name: "OP_VERIF", length: 1,
opfunc: opcodeReserved},
OP_VERNOTIF: {value: OP_VERNOTIF, name: "OP_VERNOTIF", length: 1,
opfunc: opcodeReserved},
OP_ELSE: {value: OP_ELSE, name: "OP_ELSE", length: 1,
opfunc: opcodeElse},
OP_ENDIF: {value: OP_ENDIF, name: "OP_ENDIF", length: 1,
opfunc: opcodeEndif},
OP_VERIFY: {value: OP_VERIFY, name: "OP_VERIFY", length: 1,
opfunc: opcodeVerify},
OP_RETURN: {value: OP_RETURN, name: "OP_RETURN", length: 1,
opfunc: opcodeReturn},
OP_TOALTSTACK: {value: OP_TOALTSTACK, name: "OP_TOALTSTACK", length: 1,
opfunc: opcodeToAltStack},
OP_FROMALTSTACK: {value: OP_FROMALTSTACK, name: "OP_FROMALTSTACK", length: 1,
opfunc: opcodeFromAltStack},
OP_2DROP: {value: OP_2DROP, name: "OP_2DROP", length: 1,
opfunc: opcode2Drop},
OP_2DUP: {value: OP_2DUP, name: "OP_2DUP", length: 1,
opfunc: opcode2Dup},
OP_3DUP: {value: OP_3DUP, name: "OP_3DUP", length: 1,
opfunc: opcode3Dup},
OP_2OVER: {value: OP_2OVER, name: "OP_2OVER", length: 1,
opfunc: opcode2Over},
OP_2ROT: {value: OP_2ROT, name: "OP_2ROT", length: 1,
opfunc: opcode2Rot},
OP_2SWAP: {value: OP_2SWAP, name: "OP_2SWAP", length: 1,
opfunc: opcode2Swap},
OP_IFDUP: {value: OP_IFDUP, name: "OP_IFDUP", length: 1,
opfunc: opcodeIfDup},
OP_DEPTH: {value: OP_DEPTH, name: "OP_DEPTH", length: 1,
opfunc: opcodeDepth},
OP_DROP: {value: OP_DROP, name: "OP_DROP", length: 1,
opfunc: opcodeDrop},
OP_DUP: {value: OP_DUP, name: "OP_DUP", length: 1,
opfunc: opcodeDup},
OP_NIP: {value: OP_NIP, name: "OP_NIP", length: 1,
opfunc: opcodeNip},
OP_OVER: {value: OP_OVER, name: "OP_OVER", length: 1,
opfunc: opcodeOver},
OP_PICK: {value: OP_PICK, name: "OP_PICK", length: 1,
opfunc: opcodePick},
OP_ROLL: {value: OP_ROLL, name: "OP_ROLL", length: 1,
opfunc: opcodeRoll},
OP_ROT: {value: OP_ROT, name: "OP_ROT", length: 1,
opfunc: opcodeRot},
OP_SWAP: {value: OP_SWAP, name: "OP_SWAP", length: 1,
opfunc: opcodeSwap},
OP_TUCK: {value: OP_TUCK, name: "OP_TUCK", length: 1,
opfunc: opcodeTuck},
OP_CAT: {value: OP_CAT, name: "OP_CAT", length: 1,
opfunc: opcodeDisabled},
OP_SUBSTR: {value: OP_SUBSTR, name: "OP_SUBSTR", length: 1,
opfunc: opcodeDisabled},
OP_LEFT: {value: OP_LEFT, name: "OP_LEFT", length: 1,
opfunc: opcodeDisabled},
OP_RIGHT: {value: OP_RIGHT, name: "OP_RIGHT", length: 1,
opfunc: opcodeDisabled},
OP_SIZE: {value: OP_SIZE, name: "OP_SIZE", length: 1,
opfunc: opcodeSize},
OP_INVERT: {value: OP_INVERT, name: "OP_INVERT", length: 1,
opfunc: opcodeDisabled},
OP_AND: {value: OP_AND, name: "OP_AND", length: 1,
opfunc: opcodeDisabled},
OP_OR: {value: OP_OR, name: "OP_OR", length: 1,
opfunc: opcodeDisabled},
OP_XOR: {value: OP_XOR, name: "OP_XOR", length: 1,
opfunc: opcodeDisabled},
OP_EQUAL: {value: OP_EQUAL, name: "OP_EQUAL", length: 1,
opfunc: opcodeEqual},
OP_EQUALVERIFY: {value: OP_EQUALVERIFY, name: "OP_EQUALVERIFY", length: 1,
opfunc: opcodeEqualVerify},
OP_RESERVED1: {value: OP_RESERVED1, name: "OP_RESERVED1", length: 1,
opfunc: opcodeReserved},
OP_RESERVED2: {value: OP_RESERVED2, name: "OP_RESERVED2", length: 1,
opfunc: opcodeReserved},
OP_1ADD: {value: OP_1ADD, name: "OP_1ADD", length: 1,
opfunc: opcode1Add},
OP_1SUB: {value: OP_1SUB, name: "OP_1SUB", length: 1,
opfunc: opcode1Sub},
OP_2MUL: {value: OP_2MUL, name: "OP_2MUL", length: 1,
opfunc: opcodeDisabled},
OP_2DIV: {value: OP_2DIV, name: "OP_2DIV", length: 1,
opfunc: opcodeDisabled},
OP_NEGATE: {value: OP_NEGATE, name: "OP_NEGATE", length: 1,
opfunc: opcodeNegate},
OP_ABS: {value: OP_ABS, name: "OP_ABS", length: 1,
opfunc: opcodeAbs},
OP_NOT: {value: OP_NOT, name: "OP_NOT", length: 1,
opfunc: opcodeNot},
OP_0NOTEQUAL: {value: OP_0NOTEQUAL, name: "OP_0NOTEQUAL", length: 1,
opfunc: opcode0NotEqual},
OP_ADD: {value: OP_ADD, name: "OP_ADD", length: 1,
opfunc: opcodeAdd},
OP_SUB: {value: OP_SUB, name: "OP_SUB", length: 1,
opfunc: opcodeSub},
OP_MUL: {value: OP_MUL, name: "OP_MUL", length: 1,
opfunc: opcodeDisabled},
OP_DIV: {value: OP_DIV, name: "OP_DIV", length: 1,
opfunc: opcodeDisabled},
OP_MOD: {value: OP_MOD, name: "OP_MOD", length: 1,
opfunc: opcodeDisabled},
OP_LSHIFT: {value: OP_LSHIFT, name: "OP_LSHIFT", length: 1,
opfunc: opcodeDisabled},
OP_RSHIFT: {value: OP_RSHIFT, name: "OP_RSHIFT", length: 1,
opfunc: opcodeDisabled},
OP_BOOLAND: {value: OP_BOOLAND, name: "OP_BOOLAND", length: 1,
opfunc: opcodeBoolAnd},
OP_BOOLOR: {value: OP_BOOLOR, name: "OP_BOOLOR", length: 1,
opfunc: opcodeBoolOr},
OP_NUMEQUAL: {value: OP_NUMEQUAL, name: "OP_NUMEQUAL", length: 1,
opfunc: opcodeNumEqual},
OP_NUMEQUALVERIFY: {value: OP_NUMEQUALVERIFY, name: "OP_NUMEQUALVERIFY", length: 1,
opfunc: opcodeNumEqualVerify},
OP_NUMNOTEQUAL: {value: OP_NUMNOTEQUAL, name: "OP_NUMNOTEQUAL", length: 1,
opfunc: opcodeNumNotEqual},
OP_LESSTHAN: {value: OP_LESSTHAN, name: "OP_LESSTHAN", length: 1,
opfunc: opcodeLessThan},
OP_GREATERTHAN: {value: OP_GREATERTHAN, name: "OP_GREATERTHAN", length: 1,
opfunc: opcodeGreaterThan},
OP_LESSTHANOREQUAL: {value: OP_LESSTHANOREQUAL, name: "OP_LESSTHANOREQUAL", length: 1,
opfunc: opcodeLessThanOrEqual},
OP_GREATERTHANOREQUAL: {value: OP_GREATERTHANOREQUAL, name: "OP_GREATERTHANOREQUAL", length: 1,
opfunc: opcodeGreaterThanOrEqual},
OP_MIN: {value: OP_MIN, name: "OP_MIN", length: 1,
opfunc: opcodeMin},
OP_MAX: {value: OP_MAX, name: "OP_MAX", length: 1,
opfunc: opcodeMax},
OP_WITHIN: {value: OP_WITHIN, name: "OP_WITHIN", length: 1,
opfunc: opcodeWithin},
OP_RIPEMD160: {value: OP_RIPEMD160, name: "OP_RIPEMD160", length: 1,
opfunc: opcodeRipemd160},
OP_SHA1: {value: OP_SHA1, name: "OP_SHA1", length: 1,
opfunc: opcodeSha1},
OP_SHA256: {value: OP_SHA256, name: "OP_SHA256", length: 1,
opfunc: opcodeSha256},
OP_HASH160: {value: OP_HASH160, name: "OP_HASH160", length: 1,
opfunc: opcodeHash160},
OP_HASH256: {value: OP_HASH256, name: "OP_HASH256", length: 1,
opfunc: opcodeHash256},
OP_CODESEPARATOR: {value: OP_CODESEPARATOR, name: "OP_CODESEPARATOR", length: 1,
opfunc: opcodeCodeSeparator},
OP_CHECKSIG: {value: OP_CHECKSIG, name: "OP_CHECKSIG", length: 1,
opfunc: opcodeCheckSig},
OP_CHECKSIGVERIFY: {value: OP_CHECKSIGVERIFY, name: "OP_CHECKSIGVERIFY", length: 1,
opfunc: opcodeCheckSigVerify},
OP_CHECK_MULTISIG: {value: OP_CHECK_MULTISIG, name: "OP_CHECK_MULTISIG", length: 1,
opfunc: opcodeCheckMultiSig},
OP_CHECKMULTISIGVERIFY: {value: OP_CHECKMULTISIGVERIFY, name: "OP_CHECKMULTISIGVERIFY", length: 1,
opfunc: opcodeCheckMultiSigVerify},
OP_NOP1: {value: OP_NOP1, name: "OP_NOP1", length: 1,
opfunc: opcodeNop},
OP_NOP2: {value: OP_NOP2, name: "OP_NOP2", length: 1,
opfunc: opcodeNop},
OP_NOP3: {value: OP_NOP3, name: "OP_NOP3", length: 1,
opfunc: opcodeNop},
OP_NOP4: {value: OP_NOP4, name: "OP_NOP4", length: 1,
opfunc: opcodeNop},
OP_NOP5: {value: OP_NOP5, name: "OP_NOP5", length: 1,
opfunc: opcodeNop},
OP_NOP6: {value: OP_NOP6, name: "OP_NOP6", length: 1,
opfunc: opcodeNop},
OP_NOP7: {value: OP_NOP7, name: "OP_NOP7", length: 1,
opfunc: opcodeNop},
OP_NOP8: {value: OP_NOP8, name: "OP_NOP8", length: 1,
opfunc: opcodeNop},
OP_NOP9: {value: OP_NOP9, name: "OP_NOP9", length: 1,
opfunc: opcodeNop},
OP_NOP10: {value: OP_NOP10, name: "OP_NOP10", length: 1,
opfunc: opcodeNop},
OP_PUBKEYHASH: {value: OP_PUBKEYHASH, name: "OP_PUBKEYHASH", length: 1,
opfunc: opcodeInvalid},
OP_PUBKEY: {value: OP_PUBKEY, name: "OP_PUBKEY", length: 1,
opfunc: opcodeInvalid},
OP_INVALIDOPCODE: {value: OP_INVALIDOPCODE, name: "OP_INVALIDOPCODE", length: 1,
opfunc: opcodeInvalid},
}
type parsedOpcode struct {
opcode *opcode
data []byte
opfunc func(op parsedOpcode, s Script) error
}
func (pop *parsedOpcode) conditional() bool {
switch pop.opcode.value {
case OP_IF:
return true
case OP_NOTIF:
return true
case OP_ELSE:
return true
case OP_ENDIF:
return true
default:
return false
}
}
func (pop *parsedOpcode) exec(s *Script) error {
// *sigh* bitcoind pretty much mandates that we violate layering here.
// Any opcode that isn't just adding data to the stack counts here
// as an operation.
if pop.opcode.value > OP_16 {
s.numOps++
if s.numOps > MaxOpsPerScript {
return StackErrTooManyOperations
}
}
return pop.opcode.opfunc(pop, s)
}
func (pop *parsedOpcode) print(oneline bool) string {
retString := pop.opcode.name
if pop.opcode.length == 1 {
return retString
}
if oneline {
retString = ""
}
if !oneline && pop.opcode.length < 0 {
//add length to the end of retString
retString += fmt.Sprintf(" 0x%0*x", 2*-pop.opcode.length,
len(pop.data))
}
for _, val := range pop.data {
if !oneline {
retString += " "
}
retString += fmt.Sprintf("%02x", val)
}
return retString
}
func (pop *parsedOpcode) bytes() []byte {
retbytes := []byte{pop.opcode.value}
if pop.opcode.length == 1 {
return retbytes
}
if pop.opcode.length < 0 {
l := len(pop.data)
// tempting just to hardcode to avoid the complexity here.
switch pop.opcode.length {
case -1:
retbytes = append(retbytes, byte(l))
case -2:
retbytes = append(retbytes, byte(l&0xff),
byte(l>>8&0xff))
case -4:
retbytes = append(retbytes, byte(l&0xff),
byte((l>>8)&0xff), byte((l>>16)&0xff),
byte((l>>24)&0xff))
}
}
for i := range pop.data {
retbytes = append(retbytes, pop.data[i])
}
return retbytes
}
// opcode implementation functions from here
func opcodeDisabled(op *parsedOpcode, s *Script) error {
return StackErrOpDisabled
}
func opcodeReserved(op *parsedOpcode, s *Script) error {
return StackErrReservedOpcode
}
// Recognised opcode, but for bitcoind internal use only.
func opcodeInvalid(op *parsedOpcode, s *Script) error {
return StackErrInvalidOpcode
}
func opcodeFalse(op *parsedOpcode, s *Script) error {
s.dstack.PushByteArray([]byte(""))
return nil
}
func opcodePushData(op *parsedOpcode, s *Script) error {
s.dstack.PushByteArray(op.data)
return nil
}
func opcode1Negate(op *parsedOpcode, s *Script) error {
s.dstack.PushInt(big.NewInt(-1))
return nil
}
func opcodeN(op *parsedOpcode, s *Script) error {
// 16 consecutive opcodes add increasing numbers to the stack.
s.dstack.PushInt(big.NewInt(int64(op.opcode.value - (OP_1 - 1))))
return nil
}
func opcodeNop(op *parsedOpcode, s *Script) error {
// This page left intentionally blank
return nil
}
// opcodeIf computes true/false based on the value on the stack and pushes
// the condition on the condStack (conditional execution stack)
func opcodeIf(op *parsedOpcode, s *Script) error {
// opcodeIf will be executed even if it is on the non-execute side
// of the conditional, this is so proper nesting is maintained
var condval int
if s.condStack[0] == OpCondTrue {
ok, err := s.dstack.PopBool()
if err != nil {
return err
}
if ok {
condval = OpCondTrue
}
} else {
condval = OpCondSkip
}
cond := []int{condval}
// push condition to the 'head' of the slice
s.condStack = append(cond, s.condStack...)
// TODO(drahn) check if a maximum condtitional stack limit exists
return nil
}
// opcodeNotIf computes true/false based on the value on the stack and pushes
// the (inverted) condition on the condStack (conditional execution stack)
func opcodeNotIf(op *parsedOpcode, s *Script) error {
// opcodeIf will be executed even if it is on the non-execute side
// of the conditional, this is so proper nesting is maintained
var condval int
if s.condStack[0] == OpCondTrue {
ok, err := s.dstack.PopBool()
if err != nil {
return err
}
if !ok {
condval = OpCondTrue
}
} else {
condval = OpCondSkip
}
cond := []int{condval}
// push condition to the 'head' of the slice
s.condStack = append(cond, s.condStack...)
// TODO(drahn) check if a maximum condtitional stack limit exists
return nil
}
// opcodeElse inverts conditional execution for other half of if/else/endif
func opcodeElse(op *parsedOpcode, s *Script) error {
if len(s.condStack) < 2 {
// intial true cannot be toggled, only pushed conditionals
return StackErrNoIf
}
switch s.condStack[0] {
case OpCondTrue:
s.condStack[0] = OpCondFalse
case OpCondFalse:
s.condStack[0] = OpCondTrue
case OpCondSkip:
// value doesn't change in skip
}
return nil
}
// opcodeEndif terminates a conditional block, removing the value from the
// conditional execution stack.
func opcodeEndif(op *parsedOpcode, s *Script) error {
if len(s.condStack) < 2 {
// intial true cannot be popped, only pushed conditionals
return StackErrNoIf
}
s.condStack = s.condStack[1:]
return nil
}
func opcodeVerify(op *parsedOpcode, s *Script) error {
verified, err := s.dstack.PopBool()
if err != nil {
return err
}
if verified != true {
return StackErrVerifyFailed
}
return nil
}
func opcodeReturn(op *parsedOpcode, s *Script) error {
return StackErrEarlyReturn
}
func opcodeToAltStack(op *parsedOpcode, s *Script) error {
so, err := s.dstack.PopByteArray()
if err != nil {
return err
}
s.astack.PushByteArray(so)
return nil
}
func opcodeFromAltStack(op *parsedOpcode, s *Script) error {
so, err := s.astack.PopByteArray()
if err != nil {
return err
}
s.dstack.PushByteArray(so)
return nil
}
func opcode2Drop(op *parsedOpcode, s *Script) error {
return s.dstack.DropN(2)
}
func opcode2Dup(op *parsedOpcode, s *Script) error {
return s.dstack.DupN(2)
}
func opcode3Dup(op *parsedOpcode, s *Script) error {
return s.dstack.DupN(3)
}
func opcode2Over(op *parsedOpcode, s *Script) error {
return s.dstack.OverN(2)
}
func opcode2Rot(op *parsedOpcode, s *Script) error {
return s.dstack.RotN(2)
}
func opcode2Swap(op *parsedOpcode, s *Script) error {
return s.dstack.SwapN(2)
}
func opcodeIfDup(op *parsedOpcode, s *Script) error {
val, err := s.dstack.PeekInt(0)
if err != nil {
return err
}
// Push copy of data iff it isn't zero
if val.Sign() != 0 {
s.dstack.PushInt(val)
}
return nil
}
func opcodeDepth(op *parsedOpcode, s *Script) error {
s.dstack.PushInt(big.NewInt(int64(s.dstack.Depth())))
return nil
}
func opcodeDrop(op *parsedOpcode, s *Script) error {
return s.dstack.DropN(1)
}
func opcodeDup(op *parsedOpcode, s *Script) error {
return s.dstack.DupN(1)
}
func opcodeNip(op *parsedOpcode, s *Script) error {
return s.dstack.NipN(1)
}
func opcodeOver(op *parsedOpcode, s *Script) error {
return s.dstack.OverN(1)
}
// Copy object N items back in the stack to the top. Where N is the value in
// the top of the stack.
func opcodePick(op *parsedOpcode, s *Script) error {
pidx, err := s.dstack.PopInt()
if err != nil {
return err
}
if pidx.BitLen() > 32 {
return StackErrNumberTooBig
}
val := int(pidx.Int64())
return s.dstack.PickN(val)
}
// Move object N items back in the stack to the top. Where N is the value in
// the top of the stack.
func opcodeRoll(op *parsedOpcode, s *Script) error {
ridx, err := s.dstack.PopInt()
if err != nil {
return err
}
if ridx.BitLen() > 32 {
return StackErrNumberTooBig
}
val := int(ridx.Int64())
return s.dstack.RollN(val)
}
// Rotate top three items on the stack to the left.
// e.g. 1,2,3 -> 2,3,1
func opcodeRot(op *parsedOpcode, s *Script) error {
return s.dstack.RotN(1)
}
// Swap the top two items on the stack: 1,2 -> 2,1
func opcodeSwap(op *parsedOpcode, s *Script) error {
return s.dstack.SwapN(1)
}
// The item at the top of the stack is copied and inserted before the
// second-to-top item. e.g.: 2,1, -> 2,1,2
func opcodeTuck(op *parsedOpcode, s *Script) error {
return s.dstack.Tuck()
}
// Push the size of the item on top of the stack onto the stack.
func opcodeSize(op *parsedOpcode, s *Script) error {
i, err := s.dstack.PeekByteArray(0)
if err != nil {
return err
}
s.dstack.PushInt(big.NewInt(int64(len(i))))
return nil
}
func opcodeEqual(op *parsedOpcode, s *Script) error {
a, err := s.dstack.PopByteArray()
if err != nil {
return err
}
b, err := s.dstack.PopByteArray()
if err != nil {
return err
}
s.dstack.PushBool(bytes.Equal(a, b))
return nil
}
func opcodeEqualVerify(op *parsedOpcode, s *Script) error {
err := opcodeEqual(op, s)
if err == nil {
err = opcodeVerify(op, s)
}
return err
}
func opcode1Add(op *parsedOpcode, s *Script) error {
m, err := s.dstack.PopInt()
if err != nil {
return err
}
s.dstack.PushInt(new(big.Int).Add(m, big.NewInt(1)))
return nil
}
func opcode1Sub(op *parsedOpcode, s *Script) error {
m, err := s.dstack.PopInt()
if err != nil {
return err
}
s.dstack.PushInt(new(big.Int).Sub(m, big.NewInt(1)))
return nil
}
func opcodeNegate(op *parsedOpcode, s *Script) error {
// XXX when we remove types just flip the 0x80 bit of msb
m, err := s.dstack.PopInt()
if err != nil {
return err
}
s.dstack.PushInt(new(big.Int).Neg(m))
return nil
}
func opcodeAbs(op *parsedOpcode, s *Script) error {
// XXX when we remove types just &= ~0x80 on msb
m, err := s.dstack.PopInt()
if err != nil {
return err
}
s.dstack.PushInt(new(big.Int).Abs(m))
return nil
}
// If then input is 0 or 1, it is flipped. Otherwise the output will be 0.
// (n.b. official client just has 1 is 0, else 0)
func opcodeNot(op *parsedOpcode, s *Script) error {
m, err := s.dstack.PopInt()
if err != nil {
return err
}
if m.Sign() == 0 {
s.dstack.PushInt(big.NewInt(1))
} else {
s.dstack.PushInt(big.NewInt(0))
}
return nil
}
// opcode returns 0 if the input is 0, 1 otherwise.
func opcode0NotEqual(op *parsedOpcode, s *Script) error {
m, err := s.dstack.PopInt()
if err != nil {
return err
}
if m.Sign() != 0 {
m.SetInt64(1)
}
s.dstack.PushInt(m)
return nil
}
// Push result of adding top two entries on stack
func opcodeAdd(op *parsedOpcode, s *Script) error {
v0, err := s.dstack.PopInt()
if err != nil {
return err
}
v1, err := s.dstack.PopInt()
if err != nil {
return err
}
s.dstack.PushInt(new(big.Int).Add(v0, v1))
return nil
}
// Push result of subtracting 2nd entry on stack from first.
func opcodeSub(op *parsedOpcode, s *Script) error {
v0, err := s.dstack.PopInt()
if err != nil {
return err
}
v1, err := s.dstack.PopInt()
if err != nil {
return err
}
s.dstack.PushInt(new(big.Int).Sub(v1, v0))
return nil
}
// If both of the top two entries on the stack are not zero output is 1.
// Otherwise, 0.
func opcodeBoolAnd(op *parsedOpcode, s *Script) error {
v0, err := s.dstack.PopInt()
if err != nil {
return err
}
v1, err := s.dstack.PopInt()
if err != nil {
return err
}
if v0.Sign() != 0 && v1.Sign() != 0 {
s.dstack.PushInt(big.NewInt(1))
} else {
s.dstack.PushInt(big.NewInt(0))
}
return nil
}
// If either of the top two entries on the stack are not zero output is 1.
// Otherwise, 0.
func opcodeBoolOr(op *parsedOpcode, s *Script) error {
v0, err := s.dstack.PopInt()
if err != nil {
return err
}
v1, err := s.dstack.PopInt()
if err != nil {
return err
}
if v0.Sign() != 0 || v1.Sign() != 0 {
s.dstack.PushInt(big.NewInt(1))
} else {
s.dstack.PushInt(big.NewInt(0))
}
return nil
}
func opcodeNumEqual(op *parsedOpcode, s *Script) error {
v0, err := s.dstack.PopInt()
if err != nil {
return err
}
v1, err := s.dstack.PopInt()
if err != nil {
return err
}
if v0.Cmp(v1) == 0 {
s.dstack.PushInt(big.NewInt(1))
} else {
s.dstack.PushInt(big.NewInt(0))
}
return nil
}
func opcodeNumEqualVerify(op *parsedOpcode, s *Script) error {
err := opcodeNumEqual(op, s)
if err == nil {
err = opcodeVerify(op, s)
}
return err
}
func opcodeNumNotEqual(op *parsedOpcode, s *Script) error {
v0, err := s.dstack.PopInt()
if err != nil {
return err
}
v1, err := s.dstack.PopInt()
if err != nil {
return err
}
if v0.Cmp(v1) != 0 {
s.dstack.PushInt(big.NewInt(1))
} else {
s.dstack.PushInt(big.NewInt(0))
}
return nil
}
func opcodeLessThan(op *parsedOpcode, s *Script) error {
v0, err := s.dstack.PopInt()
if err != nil {
return err
}
v1, err := s.dstack.PopInt()
if err != nil {
return err
}
if v1.Cmp(v0) == -1 {
s.dstack.PushInt(big.NewInt(1))
} else {
s.dstack.PushInt(big.NewInt(0))
}
return nil
}
func opcodeGreaterThan(op *parsedOpcode, s *Script) error {
v0, err := s.dstack.PopInt()
if err != nil {
return err
}
v1, err := s.dstack.PopInt()
if err != nil {
return err
}
if v1.Cmp(v0) == 1 {
s.dstack.PushInt(big.NewInt(1))
} else {
s.dstack.PushInt(big.NewInt(0))
}
return nil
}
func opcodeLessThanOrEqual(op *parsedOpcode, s *Script) error {
v0, err := s.dstack.PopInt()
if err != nil {
return err
}
v1, err := s.dstack.PopInt()
if err != nil {
return err
}
if v1.Cmp(v0) <= 0 {
s.dstack.PushInt(big.NewInt(1))
} else {
s.dstack.PushInt(big.NewInt(0))
}
return nil
}
func opcodeGreaterThanOrEqual(op *parsedOpcode, s *Script) error {
v0, err := s.dstack.PopInt()
if err != nil {
return err
}
v1, err := s.dstack.PopInt()
if err != nil {
return err
}
if v1.Cmp(v0) >= 0 {
s.dstack.PushInt(big.NewInt(1))
} else {
s.dstack.PushInt(big.NewInt(0))
}
return nil
}
func opcodeMin(op *parsedOpcode, s *Script) error {
v0, err := s.dstack.PopInt()
if err != nil {
return err
}
v1, err := s.dstack.PopInt()
if err != nil {
return err
}
if v1.Cmp(v0) == -1 {
s.dstack.PushInt(new(big.Int).Set(v1))
} else {
s.dstack.PushInt(new(big.Int).Set(v0))
}
return nil
}
func opcodeMax(op *parsedOpcode, s *Script) error {
v0, err := s.dstack.PopInt()
if err != nil {
return err
}
v1, err := s.dstack.PopInt()
if err != nil {
return err
}
if v1.Cmp(v0) == 1 {
s.dstack.PushInt(new(big.Int).Set(v1))
} else {
s.dstack.PushInt(new(big.Int).Set(v0))
}
return nil
}
// stack input: x, min, max. Returns 1 if x is within specified range
// (left inclusive), 0 otherwise
func opcodeWithin(op *parsedOpcode, s *Script) error {
maxVal, err := s.dstack.PopInt()
if err != nil {
return err
}
minVal, err := s.dstack.PopInt()
if err != nil {
return err
}
x, err := s.dstack.PopInt()
if err != nil {
return err
}
if x.Cmp(minVal) >= 0 && x.Cmp(maxVal) == -1 {
s.dstack.PushInt(big.NewInt(1))
} else {
s.dstack.PushInt(big.NewInt(0))
}
return nil
}
// Calculate the hash of hasher over buf.
func calcHash(buf []byte, hasher hash.Hash) []byte {
hasher.Write(buf)
return hasher.Sum(nil)
}
// calculate hash160 which is ripemd160(sha256(data))
func calcHash160(buf []byte) []byte {
return calcHash(calcHash(buf, sha256.New()), ripemd160.New())
}
func opcodeRipemd160(op *parsedOpcode, s *Script) error {
buf, err := s.dstack.PopByteArray()
if err != nil {
return err
}
s.dstack.PushByteArray(calcHash(buf, ripemd160.New()))
return nil
}
func opcodeSha1(op *parsedOpcode, s *Script) error {
buf, err := s.dstack.PopByteArray()
if err != nil {
return err
}
s.dstack.PushByteArray(calcHash(buf, sha1.New()))
return nil
}
func opcodeSha256(op *parsedOpcode, s *Script) error {
buf, err := s.dstack.PopByteArray()
if err != nil {
return err
}
s.dstack.PushByteArray(calcHash(buf, sha256.New()))
return nil
}
func opcodeHash160(op *parsedOpcode, s *Script) error {
buf, err := s.dstack.PopByteArray()
if err != nil {
return err
}
s.dstack.PushByteArray(calcHash160(buf))
return nil
}
func opcodeHash256(op *parsedOpcode, s *Script) error {
buf, err := s.dstack.PopByteArray()
if err != nil {
return err
}
s.dstack.PushByteArray(btcwire.DoubleSha256(buf))
return nil
}
func opcodeCodeSeparator(op *parsedOpcode, s *Script) error {
s.lastcodesep = s.scriptoff
return nil
}
func opcodeCheckSig(op *parsedOpcode, s *Script) error {
pkStr, err := s.dstack.PopByteArray()
if err != nil {
return err
}
sigStr, err := s.dstack.PopByteArray()
if err != nil {
return err
}
// Trim off hashtype from the signature string.
hashType := sigStr[len(sigStr)-1]
sigStr = sigStr[:len(sigStr)-1]
// Get script from the last OP_CODESEPARATOR and without any subsequent
// OP_CODESEPARATORs
subScript := s.subScript()
// Unlikely to hit any cases here, but remove the signature from
// the script if present.
subScript = removeOpcodeByData(subScript, sigStr)
hash := s.calcScriptHash(subScript, hashType)
pubKey, err := btcec.ParsePubKey(pkStr, btcec.S256())
if err != nil {
log.Warnf("can't parse public key from string: %v", err)
return err
}
signature, err := btcec.ParseSignature(sigStr, btcec.S256())
if err != nil {
log.Warnf("can't parse signature from string: %v", err)
return err
}
log.Tracef("%v", newLogClosure(func() string {
return fmt.Sprintf("op_checksig pubKey %v\npk.x: %v\n "+
"pk.y: %v\n r: %v\n s: %v\ncheckScriptHash %v",
spew.Sdump(pkStr), pubKey.X, pubKey.Y,
signature.R, signature.S, spew.Sdump(hash))
}))
ok := ecdsa.Verify(pubKey, hash, signature.R, signature.S)
if !ok {
log.Warnf("ecdsa.Verify valid: %v", ok)
}
s.dstack.PushBool(ok)
return nil
}
func opcodeCheckSigVerify(op *parsedOpcode, s *Script) error {
err := opcodeCheckSig(op, s)
if err == nil {
err = opcodeVerify(op, s)
}
return err
}
// stack; sigs <numsigs> pubkeys <numpubkeys>
func opcodeCheckMultiSig(op *parsedOpcode, s *Script) error {
numPubkeys, err := s.dstack.PopInt()
if err != nil {
return err
}
// XXX arbitrary limits
// nore more than 20 pubkeyhs, or 201 operations
if numPubkeys.BitLen() > 32 {
return StackErrNumberTooBig
}
npk := int(numPubkeys.Int64())
if npk < 0 || npk > MaxPubKeysPerMultiSig {
return StackErrTooManyPubkeys
}
s.numOps += npk
if s.numOps > MaxOpsPerScript {
return StackErrTooManyOperations
}
pubKeyStrings := make([][]byte, npk)
pubKeys := make([]*ecdsa.PublicKey, npk)
for i := range pubKeys {
pubKeyStrings[i], err = s.dstack.PopByteArray()
if err != nil {
return err
}
}
numSignatures, err := s.dstack.PopInt()
if err != nil {
return err
}
if numSignatures.BitLen() > 32 {
return StackErrNumberTooBig
}
nsig := int(numSignatures.Int64())
sigStrings := make([][]byte, nsig)
signatures := make([]*btcec.Signature, nsig)
for i := range signatures {
sigStrings[i], err = s.dstack.PopByteArray()
if err != nil {
return err
}
// skip off the last byte for hashtype
signatures[i], err =
btcec.ParseSignature(
sigStrings[i][:len(sigStrings[i])-1],
btcec.S256())
if err != nil {
return err
}
}
// bug in bitcoind mean we pop one more stack value than should be used.
_, err = s.dstack.PopByteArray()
if err != nil {
return nil
}
// Trim OP_CODESEPARATORs
script := s.subScript()
// Remove any of the signatures that happen to be in the script.
// can't sign somthing containing the signature you're making, after
// all
for i := range sigStrings {
script = removeOpcodeByData(script, sigStrings[i])
}
curPk := 0
for i := range signatures {
// check signatures.
success := false
// get hashtype from original byte string
hashType := sigStrings[i][len(sigStrings[i])-1]
hash := s.calcScriptHash(script, hashType)
inner:
// Find first pubkey that successfully validates signature.
// we start off the search from the key that was successful
// last time.
for ; curPk < len(pubKeys); curPk++ {
if pubKeys[curPk] == nil {
pubKeys[curPk], err =
btcec.ParsePubKey(pubKeyStrings[curPk],
btcec.S256())
if err != nil {
continue
}
}
success = ecdsa.Verify(pubKeys[curPk], hash,
signatures[i].R, signatures[i].S)
if success {
break inner
}
}
if success == false {
s.dstack.PushBool(false)
return nil
}
}
s.dstack.PushBool(true)
return nil
}
func opcodeCheckMultiSigVerify(op *parsedOpcode, s *Script) error {
err := opcodeCheckMultiSig(op, s)
if err == nil {
err = opcodeVerify(op, s)
}
return err
}