lbcd/txscript/opcode_test.go
Dave Collins 54036e8bab
txscript: Convert to use non-parsed opcode disasm.
This converts the engine's current program counter disasembly to make
use of the standalone disassembly function to remove the dependency on
the parsed opcode struct.

It also updates the tests accordingly.
2021-11-16 18:49:05 -08:00

207 lines
6.9 KiB
Go

// Copyright (c) 2013-2017 The btcsuite developers
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package txscript
import (
"bytes"
"fmt"
"strconv"
"strings"
"testing"
)
// TestOpcodeDisabled tests the opcodeDisabled function manually because all
// disabled opcodes result in a script execution failure when executed normally,
// so the function is not called under normal circumstances.
func TestOpcodeDisabled(t *testing.T) {
t.Parallel()
tests := []byte{OP_CAT, OP_SUBSTR, OP_LEFT, OP_RIGHT, OP_INVERT,
OP_AND, OP_OR, OP_2MUL, OP_2DIV, OP_MUL, OP_DIV, OP_MOD,
OP_LSHIFT, OP_RSHIFT,
}
for _, opcodeVal := range tests {
pop := parsedOpcode{opcode: &opcodeArray[opcodeVal], data: nil}
err := opcodeDisabled(&pop, nil)
if !IsErrorCode(err, ErrDisabledOpcode) {
t.Errorf("opcodeDisabled: unexpected error - got %v, "+
"want %v", err, ErrDisabledOpcode)
continue
}
}
}
// TestOpcodeDisasm tests the print function for all opcodes in both the oneline
// and full modes to ensure it provides the expected disassembly.
func TestOpcodeDisasm(t *testing.T) {
t.Parallel()
// First, test the oneline disassembly.
// The expected strings for the data push opcodes are replaced in the
// test loops below since they involve repeating bytes. Also, the
// OP_NOP# and OP_UNKNOWN# are replaced below too, since it's easier
// than manually listing them here.
oneBytes := []byte{0x01}
oneStr := "01"
expectedStrings := [256]string{0x00: "0", 0x4f: "-1",
0x50: "OP_RESERVED", 0x61: "OP_NOP", 0x62: "OP_VER",
0x63: "OP_IF", 0x64: "OP_NOTIF", 0x65: "OP_VERIF",
0x66: "OP_VERNOTIF", 0x67: "OP_ELSE", 0x68: "OP_ENDIF",
0x69: "OP_VERIFY", 0x6a: "OP_RETURN", 0x6b: "OP_TOALTSTACK",
0x6c: "OP_FROMALTSTACK", 0x6d: "OP_2DROP", 0x6e: "OP_2DUP",
0x6f: "OP_3DUP", 0x70: "OP_2OVER", 0x71: "OP_2ROT",
0x72: "OP_2SWAP", 0x73: "OP_IFDUP", 0x74: "OP_DEPTH",
0x75: "OP_DROP", 0x76: "OP_DUP", 0x77: "OP_NIP",
0x78: "OP_OVER", 0x79: "OP_PICK", 0x7a: "OP_ROLL",
0x7b: "OP_ROT", 0x7c: "OP_SWAP", 0x7d: "OP_TUCK",
0x7e: "OP_CAT", 0x7f: "OP_SUBSTR", 0x80: "OP_LEFT",
0x81: "OP_RIGHT", 0x82: "OP_SIZE", 0x83: "OP_INVERT",
0x84: "OP_AND", 0x85: "OP_OR", 0x86: "OP_XOR",
0x87: "OP_EQUAL", 0x88: "OP_EQUALVERIFY", 0x89: "OP_RESERVED1",
0x8a: "OP_RESERVED2", 0x8b: "OP_1ADD", 0x8c: "OP_1SUB",
0x8d: "OP_2MUL", 0x8e: "OP_2DIV", 0x8f: "OP_NEGATE",
0x90: "OP_ABS", 0x91: "OP_NOT", 0x92: "OP_0NOTEQUAL",
0x93: "OP_ADD", 0x94: "OP_SUB", 0x95: "OP_MUL", 0x96: "OP_DIV",
0x97: "OP_MOD", 0x98: "OP_LSHIFT", 0x99: "OP_RSHIFT",
0x9a: "OP_BOOLAND", 0x9b: "OP_BOOLOR", 0x9c: "OP_NUMEQUAL",
0x9d: "OP_NUMEQUALVERIFY", 0x9e: "OP_NUMNOTEQUAL",
0x9f: "OP_LESSTHAN", 0xa0: "OP_GREATERTHAN",
0xa1: "OP_LESSTHANOREQUAL", 0xa2: "OP_GREATERTHANOREQUAL",
0xa3: "OP_MIN", 0xa4: "OP_MAX", 0xa5: "OP_WITHIN",
0xa6: "OP_RIPEMD160", 0xa7: "OP_SHA1", 0xa8: "OP_SHA256",
0xa9: "OP_HASH160", 0xaa: "OP_HASH256", 0xab: "OP_CODESEPARATOR",
0xac: "OP_CHECKSIG", 0xad: "OP_CHECKSIGVERIFY",
0xae: "OP_CHECKMULTISIG", 0xaf: "OP_CHECKMULTISIGVERIFY",
0xfa: "OP_SMALLINTEGER", 0xfb: "OP_PUBKEYS",
0xfd: "OP_PUBKEYHASH", 0xfe: "OP_PUBKEY",
0xff: "OP_INVALIDOPCODE",
}
for opcodeVal, expectedStr := range expectedStrings {
var data []byte
switch {
// OP_DATA_1 through OP_DATA_65 display the pushed data.
case opcodeVal >= 0x01 && opcodeVal < 0x4c:
data = bytes.Repeat(oneBytes, opcodeVal)
expectedStr = strings.Repeat(oneStr, opcodeVal)
// OP_PUSHDATA1.
case opcodeVal == 0x4c:
data = bytes.Repeat(oneBytes, 1)
expectedStr = strings.Repeat(oneStr, 1)
// OP_PUSHDATA2.
case opcodeVal == 0x4d:
data = bytes.Repeat(oneBytes, 2)
expectedStr = strings.Repeat(oneStr, 2)
// OP_PUSHDATA4.
case opcodeVal == 0x4e:
data = bytes.Repeat(oneBytes, 3)
expectedStr = strings.Repeat(oneStr, 3)
// OP_1 through OP_16 display the numbers themselves.
case opcodeVal >= 0x51 && opcodeVal <= 0x60:
val := byte(opcodeVal - (0x51 - 1))
data = []byte{val}
expectedStr = strconv.Itoa(int(val))
// OP_NOP1 through OP_NOP10.
case opcodeVal >= 0xb0 && opcodeVal <= 0xb9:
switch opcodeVal {
case 0xb1:
// OP_NOP2 is an alias of OP_CHECKLOCKTIMEVERIFY
expectedStr = "OP_CHECKLOCKTIMEVERIFY"
case 0xb2:
// OP_NOP3 is an alias of OP_CHECKSEQUENCEVERIFY
expectedStr = "OP_CHECKSEQUENCEVERIFY"
default:
val := byte(opcodeVal - (0xb0 - 1))
expectedStr = "OP_NOP" + strconv.Itoa(int(val))
}
// OP_UNKNOWN#.
case opcodeVal >= 0xba && opcodeVal <= 0xf9 || opcodeVal == 0xfc:
expectedStr = "OP_UNKNOWN" + strconv.Itoa(opcodeVal)
}
var buf strings.Builder
disasmOpcode(&buf, &opcodeArray[opcodeVal], data, true)
gotStr := buf.String()
if gotStr != expectedStr {
t.Errorf("pop.print (opcode %x): Unexpected disasm "+
"string - got %v, want %v", opcodeVal, gotStr,
expectedStr)
continue
}
}
// Now, replace the relevant fields and test the full disassembly.
expectedStrings[0x00] = "OP_0"
expectedStrings[0x4f] = "OP_1NEGATE"
for opcodeVal, expectedStr := range expectedStrings {
var data []byte
switch {
// OP_DATA_1 through OP_DATA_65 display the opcode followed by
// the pushed data.
case opcodeVal >= 0x01 && opcodeVal < 0x4c:
data = bytes.Repeat(oneBytes, opcodeVal)
expectedStr = fmt.Sprintf("OP_DATA_%d 0x%s", opcodeVal,
strings.Repeat(oneStr, opcodeVal))
// OP_PUSHDATA1.
case opcodeVal == 0x4c:
data = bytes.Repeat(oneBytes, 1)
expectedStr = fmt.Sprintf("OP_PUSHDATA1 0x%02x 0x%s",
len(data), strings.Repeat(oneStr, 1))
// OP_PUSHDATA2.
case opcodeVal == 0x4d:
data = bytes.Repeat(oneBytes, 2)
expectedStr = fmt.Sprintf("OP_PUSHDATA2 0x%04x 0x%s",
len(data), strings.Repeat(oneStr, 2))
// OP_PUSHDATA4.
case opcodeVal == 0x4e:
data = bytes.Repeat(oneBytes, 3)
expectedStr = fmt.Sprintf("OP_PUSHDATA4 0x%08x 0x%s",
len(data), strings.Repeat(oneStr, 3))
// OP_1 through OP_16.
case opcodeVal >= 0x51 && opcodeVal <= 0x60:
val := byte(opcodeVal - (0x51 - 1))
data = []byte{val}
expectedStr = "OP_" + strconv.Itoa(int(val))
// OP_NOP1 through OP_NOP10.
case opcodeVal >= 0xb0 && opcodeVal <= 0xb9:
switch opcodeVal {
case 0xb1:
// OP_NOP2 is an alias of OP_CHECKLOCKTIMEVERIFY
expectedStr = "OP_CHECKLOCKTIMEVERIFY"
case 0xb2:
// OP_NOP3 is an alias of OP_CHECKSEQUENCEVERIFY
expectedStr = "OP_CHECKSEQUENCEVERIFY"
default:
val := byte(opcodeVal - (0xb0 - 1))
expectedStr = "OP_NOP" + strconv.Itoa(int(val))
}
// OP_UNKNOWN#.
case opcodeVal >= 0xba && opcodeVal <= 0xf9 || opcodeVal == 0xfc:
expectedStr = "OP_UNKNOWN" + strconv.Itoa(opcodeVal)
}
var buf strings.Builder
disasmOpcode(&buf, &opcodeArray[opcodeVal], data, false)
gotStr := buf.String()
if gotStr != expectedStr {
t.Errorf("pop.print (opcode %x): Unexpected disasm "+
"string - got %v, want %v", opcodeVal, gotStr,
expectedStr)
continue
}
}
}