forked from TrueCloudLab/neoneo-go
bf3415e2bc
Which allows to create verification scripts without keys.PublicKey which is convenient in some cases where we already have serialized key and don't want to waste time decompressing it.
232 lines
5.5 KiB
Go
232 lines
5.5 KiB
Go
package emit
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import (
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"encoding/binary"
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"errors"
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"fmt"
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"math/big"
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"math/bits"
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"github.com/nspcc-dev/neo-go/pkg/core/interop/interopnames"
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"github.com/nspcc-dev/neo-go/pkg/encoding/bigint"
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"github.com/nspcc-dev/neo-go/pkg/io"
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"github.com/nspcc-dev/neo-go/pkg/smartcontract/callflag"
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"github.com/nspcc-dev/neo-go/pkg/util"
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"github.com/nspcc-dev/neo-go/pkg/vm/opcode"
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"github.com/nspcc-dev/neo-go/pkg/vm/stackitem"
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)
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// Instruction emits a VM Instruction with data to the given buffer.
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func Instruction(w *io.BinWriter, op opcode.Opcode, b []byte) {
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w.WriteB(byte(op))
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w.WriteBytes(b)
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}
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// Opcodes emits a single VM Instruction without arguments to the given buffer.
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func Opcodes(w *io.BinWriter, ops ...opcode.Opcode) {
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for _, op := range ops {
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w.WriteB(byte(op))
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}
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}
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// Bool emits a bool type the given buffer.
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func Bool(w *io.BinWriter, ok bool) {
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if ok {
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Opcodes(w, opcode.PUSHT)
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} else {
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Opcodes(w, opcode.PUSHF)
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}
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Instruction(w, opcode.CONVERT, []byte{byte(stackitem.BooleanT)})
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}
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func padRight(s int, buf []byte) []byte {
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l := len(buf)
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buf = buf[:s]
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if buf[l-1]&0x80 != 0 {
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for i := l; i < s; i++ {
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buf[i] = 0xFF
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}
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}
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return buf
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}
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// Int emits a int type to the given buffer.
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func Int(w *io.BinWriter, i int64) {
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if smallInt(w, i) {
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return
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}
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bigInt(w, big.NewInt(i), false)
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}
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// BigInt emits big-integer to the given buffer.
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func BigInt(w *io.BinWriter, n *big.Int) {
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bigInt(w, n, true)
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}
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func smallInt(w *io.BinWriter, i int64) bool {
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switch {
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case i == -1:
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Opcodes(w, opcode.PUSHM1)
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case i >= 0 && i < 16:
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val := opcode.Opcode(int(opcode.PUSH0) + int(i))
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Opcodes(w, val)
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default:
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return false
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}
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return true
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}
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func bigInt(w *io.BinWriter, n *big.Int, trySmall bool) {
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if w.Err != nil {
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return
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}
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if trySmall && n.IsInt64() && smallInt(w, n.Int64()) {
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return
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}
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if err := stackitem.CheckIntegerSize(n); err != nil {
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w.Err = err
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return
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}
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buf := bigint.ToPreallocatedBytes(n, make([]byte, 0, 32))
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if len(buf) == 0 {
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Opcodes(w, opcode.PUSH0)
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return
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}
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padSize := byte(8 - bits.LeadingZeros8(byte(len(buf)-1)))
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Opcodes(w, opcode.PUSHINT8+opcode.Opcode(padSize))
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w.WriteBytes(padRight(1<<padSize, buf))
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}
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// Array emits array of elements to the given buffer.
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func Array(w *io.BinWriter, es ...interface{}) {
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if len(es) == 0 {
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Opcodes(w, opcode.NEWARRAY0)
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return
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}
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for i := len(es) - 1; i >= 0; i-- {
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switch e := es[i].(type) {
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case []interface{}:
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Array(w, e...)
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case int64:
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Int(w, e)
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case int32:
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Int(w, int64(e))
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case uint32:
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Int(w, int64(e))
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case int16:
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Int(w, int64(e))
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case uint16:
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Int(w, int64(e))
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case int8:
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Int(w, int64(e))
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case uint8:
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Int(w, int64(e))
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case int:
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Int(w, int64(e))
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case *big.Int:
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BigInt(w, e)
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case string:
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String(w, e)
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case util.Uint160:
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Bytes(w, e.BytesBE())
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case util.Uint256:
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Bytes(w, e.BytesBE())
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case []byte:
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Bytes(w, e)
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case bool:
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Bool(w, e)
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default:
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if es[i] != nil {
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w.Err = fmt.Errorf("unsupported type: %T", e)
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return
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}
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Opcodes(w, opcode.PUSHNULL)
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}
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}
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Int(w, int64(len(es)))
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Opcodes(w, opcode.PACK)
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}
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// String emits a string to the given buffer.
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func String(w *io.BinWriter, s string) {
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Bytes(w, []byte(s))
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}
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// Bytes emits a byte array to the given buffer.
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func Bytes(w *io.BinWriter, b []byte) {
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var n = len(b)
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switch {
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case n < 0x100:
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Instruction(w, opcode.PUSHDATA1, []byte{byte(n)})
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case n < 0x10000:
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buf := make([]byte, 2)
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binary.LittleEndian.PutUint16(buf, uint16(n))
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Instruction(w, opcode.PUSHDATA2, buf)
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default:
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buf := make([]byte, 4)
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binary.LittleEndian.PutUint32(buf, uint32(n))
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Instruction(w, opcode.PUSHDATA4, buf)
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}
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w.WriteBytes(b)
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}
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// Syscall emits the syscall API to the given buffer.
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// Syscall API string cannot be 0.
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func Syscall(w *io.BinWriter, api string) {
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if w.Err != nil {
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return
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} else if len(api) == 0 {
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w.Err = errors.New("syscall api cannot be of length 0")
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return
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}
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buf := make([]byte, 4)
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binary.LittleEndian.PutUint32(buf, interopnames.ToID([]byte(api)))
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Instruction(w, opcode.SYSCALL, buf)
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}
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// Call emits a call Instruction with label to the given buffer.
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func Call(w *io.BinWriter, op opcode.Opcode, label uint16) {
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Jmp(w, op, label)
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}
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// Jmp emits a jump Instruction along with label to the given buffer.
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func Jmp(w *io.BinWriter, op opcode.Opcode, label uint16) {
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if w.Err != nil {
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return
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} else if !isInstructionJmp(op) {
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w.Err = fmt.Errorf("opcode %s is not a jump or call type", op.String())
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return
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}
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buf := make([]byte, 4)
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binary.LittleEndian.PutUint16(buf, label)
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Instruction(w, op, buf)
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}
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// AppCallNoArgs emits call to provided contract.
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func AppCallNoArgs(w *io.BinWriter, scriptHash util.Uint160, operation string, f callflag.CallFlag) {
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Int(w, int64(f))
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String(w, operation)
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Bytes(w, scriptHash.BytesBE())
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Syscall(w, interopnames.SystemContractCall)
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}
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// AppCall emits an APPCALL with the default parameters given operation and arguments.
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func AppCall(w *io.BinWriter, scriptHash util.Uint160, operation string, f callflag.CallFlag, args ...interface{}) {
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Array(w, args...)
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AppCallNoArgs(w, scriptHash, operation, f)
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}
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// CheckSig emits a single-key verification script using given []bytes as a key.
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// It does not check for key correctness, so you can get an invalid script if the
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// data passed is not really a public key.
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func CheckSig(w *io.BinWriter, key []byte) {
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Bytes(w, key)
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Syscall(w, interopnames.SystemCryptoCheckSig)
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}
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func isInstructionJmp(op opcode.Opcode) bool {
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return opcode.JMP <= op && op <= opcode.CALLL || op == opcode.ENDTRYL
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}
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