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=== Reserved opcodes ===
=== Reserved opcodes ===
Any opcode not assigned (currently each > 176) is also reserved. Using an unassigned opcode makes the transaction invalid.
Each opcode not assigned (currently every > 185) is also reserved. Using an unassigned opcode makes the transaction invalid.


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Revision as of 18:12, 2 January 2013

opcodes

opcode overview

For each opcode is given: its nemonic without the leading OP_, its hexadecimal byte value, the number of stack items needed (poped) during execution, the number of stack items pushed (after execution). A * after the needed stack items indicates that further bytes from the script following the current opcode are needed. A # indicates that items on the alternative stack are poped/pushed. A @ indicates that further (global) data from transcations is needed.
Different colors indicate different semantic execution groups of opcodes.

_FALSE
0x00
0 ; 1(0)
-
0x01
0 *; 1(1)
-
0x02
0 *; 1(2)
-
0x03
0 *; 1(3)
-
0x04
0 *; 1(4)
-
0x04
0 *; 1(5)
-
0x06
0 *; 1(6)
-
0x07
0 *; 1(7)
-
0x08
0 *; 1(8)
-
0x09
0 *; 1(9)
-
0x0a
0 *; 1(10)
-
0x0b
0 *; 1(11)
-
0x0c
0 *; 1(12)
-
0x0d
0 *; 1(13)
-
0x0e
0 *; 1(14)
-
0x0f
0 *; 1(15)
-
0x10
0 *; 1(16)
-
0x11
0 *; 1(17)
-
0x12
0 *; 1(18)
-
0x13
0 *; 1(19)
-
0x14
0 *; 1(20)
-
0x15
0 *; 1(21)
-
0x16
0 *; 1(22)
-
0x17
0 *; 1(23)
-
0x18
0 *; 1(24)
-
0x19
0 *; 1(25)
-
0x1a
0 *; 1(26)
-
0x1b
0 *; 1(27)
-
0x1c
0 *; 1(28)
-
0x1d
0 *; 1(29)
-
0x1e
0 *; 1(30)
-
0x1f
0 *; 1(31)
-
0x20
0 *; 1(32)
-
0x21
0 *; 1(33)
-
0x22
0 *; 1(34)
-
0x23
0 *; 1(35)
-
0x24
0 *; 1(36)
-
0x25
0 *; 1(37)
-
0x26
0 *; 1(38)
-
0x27
0 *; 1(39)
-
0x28
0 *; 1(40)
-
0x29
0 *; 1(41)
-
0x2a
0 *; 1(42)
-
0x2b
0 *; 1(43)
-
0x2c
0 *; 1(44)
-
0x2d
0 *; 1(45)
-
0x2e
0 *; 1(46)
-
0x2f
0 *; 1(47)
-
0x30
0 *; 1(48)
-
0x31
0 *; 1(49)
-
0x32
0 *; 1(50)
-
0x33
0 *; 1(51)
-
0x34
0 *; 1(52)
-
0x35
0 *; 1(53)
-
0x36
0 *; 1(54)
-
0x37
0 *; 1(55)
-
0x38
0 *; 1(56)
-
0x39
0 *; 1(57)
-
0x3a
0 *; 1(58)
-
0x3b
0 *; 1(59)
-
0x3c
0 *; 1(60)
-
0x3d
0 *; 1(61)
-
0x3e
0 *; 1(62)
-
0x3f
0 *; 1(63)
-
0x40
0 *; 1(64)
-
0x41
0 *; 1(65)
-
0x42
0 *; 1(66)
-
0x43
0 *; 1(67)
-
0x44
0 *; 1(68)
-
0x45
0 *; 1(69)
-
0x46
0 *; 1(70)
-
0x47
0 *; 1(71)
-
0x48
0 *; 1(72)
-
0x49
0 *; 1(73)
-
0x4a
0 *; 1(74)
-
0x4b
0 *; 1(75)
_PUSHDATA1
0x4c
0 *; 1(0 - 255)
_PUSHDATA2
0x4d
0 *; 1(0 - 2^16-1)
_PUSHDATA4
0x4e
0 *; 1(0 - 2^32-1)
_1NEGATE
0x4f
0 ; 1(1)
_RESERVED
0x50
_1
0x51
0 ; 1(1)
_2
0x52
0 ; 1(1)
_3
0x53
0 ; 1(1)
_4
0x54
0 ; 1(1)
_5
0x55
0 ; 1(1)
_6
0x56
0 ; 1(1)
_7
0x57
0 ; 1(1)
_8
0x58
0 ; 1(1)
_9
0x59
0 ; 1(1)
_10
0x5a
0 ; 1(1)
_11
0x5b
0 ; 1(1)
_12
0x5c
0 ; 1(1)
_13
0x5d
0 ; 1(1)
_14
0x5e
0 ; 1(1)
_15
0x5f
0 ; 1(1)
_16
0x60
0 ; 1(1)
_NOP
0x61
0 ; 0
_VER
0x62
_IF
0x63
1 ; 0
_NOTIF
0x64
1 ; 0
_VERIF
0x65
_VERNOTIF
0x66
_ELSE
0x67
0 ; 0
_ENDIF
0x68
0 ; 0
_VERIFY
0x69
1 ; 0/1
_RETURN
0x6a
0 ; 0
_TOALTSTACK
0x6b
1 ; 0
_FROMALTSTACK
0x6c
0 #; 1
_2DROP
0x6d
2 ; 0
_2DUP
0x6e
2 ; 4
_3DUP
0x6f
3 ; 6
_2OVER
0x70
4 ; 6
_2ROT
0x71
6 ; 6
_2SWAP
0x72
4 ; 4
_IFDUP
0x73
1 ; 1/2
_DEPTH
0x74
0 ; 1
_DROP
0x75
1 ; 0
_DUP
0x76
1 ; 2
_NIP
0x77
2 ; 1
_OVER
0x78
2 ; 3
_PICK
0x79
1+n+1 ; n+2
_ROLL
0x7a
1+n+1 ; n+1
_ROT
0x7b
3 ; 3
_SWAP
0x7c
2 ; 2
_TUCK
0x7d
2 ; 3
_CAT
0x7e
2 ; 1
_SUBSTR
0x7f
3 ; 1
_LEFT
0x80
2 ; 1
_RIGHT
0x81
2 ; 1
_SIZE
0x82
1 ; 2
_INVERT
0x83
1 ; 1
_AND
0x84
2 ; 1
_OR
0x85
2 ; 1
_XOR
0x86
2 ; 1
_EQUAL
0x87
2 ; 1
_EQUALVERIFY
0x88
2 ; 0/1
_RESERVED1
0x89
_RESERVED2
0x8a
_1ADD
0x8b
1 ; 1
_1SUB
0x8c
1 ; 1
_2MUL
0x8d
1 ; 1
_2DIV
0x8e
1 ; 1
_NEGATE
0x8f
1 ; 1
_ABS
0x90
1 ; 1
_NOT
0x91
1 ; 1
_0NOTEQUAL
0x92
1 ; 1
_ADD
0x93
2 ; 1
_SUB
0x94
2 ; 1
_MUL
0x95
2 ; 1
_DIV
0x96
2 ; 1
_MOD
0x97
2 ; 1
_LSHIFT
0x98
2 ; 1
_RSHIFT
0x99
2 ; 1
_BOOLAND
0x9a
2 ; 1
_BOOLOR
0x9b
2 ; 1
_NUMEQUAL
0x9c
2 ; 1
_NUMEQUALVERIFY
0x9d
2 ; 0/1
_NUMNOTEQUAL
0x9e
2 ; 1
_LESSTHAN
0x9f
2 ; 1
_GREATERTHAN
0xa0
2 ; 1
_LESSTHANOREQUAL
0xa1
2 ; 1
_GREATERTHANOREQUAL
0xa2
2 ; 1
_MIN
0xa3
2 ; 1
_MAX
0xa4
2 ; 1
_WITHIN
0xa5
3 ; 1
_RIPEMD160
0xa6
1 ; 1
_SHA1
0xa7
1 ; 1
_SHA256
0xa8
1 ; 1
_HASH160
0xa9
1 ; 1
_HASH256
0xaa
1 ; 1
_CODESEPARATOR
0xab
0 ; 0
_CHECKSIG
0xac
2 @; 1
_CHECKSIGVERIFY
0xad
2 @; 0/1
_CHECKMULTISIG
0xae
2n+2 @; 1
_CHECKMULTISIGVERIFY
0xaf
2n+2 @; 0/1
_NOP1
0xb0
0 ; 0
_NOP2
0xb1
0 ; 0
_NOP3
0xb2
0 ; 0
_NOP4
0xb3
0 ; 0
_NOP5
0xb4
0 ; 0
_NOP6
0xb5
0 ; 0
_NOP7
0xb6
0 ; 0
_NOP8
0xb7
0 ; 0
_NOP9
0xb8
0 ; 0
_NOP10
0xb9
0 ; 0
-
0xba
-
0xbb
-
0xbc
-
0xbd
-
0xbe
-
0xbf
-
0xc0
-
0xc1
-
0xc2
-
0xc3
-
0xc4
-
0xc5
-
0xc6
-
0xc7
-
0xc8
-
0xc9
-
0xca
-
0xcb
-
0xcc
-
0xcd
-
0xce
-
0xcf
-
0xd0
-
0xd1
-
0xd2
-
0xd3
-
0xd4
-
0xd5
-
0xd6
-
0xd7
-
0xd8
-
0xd9
-
0xda
-
0xdb
-
0xdc
-
0xdd
-
0xde
-
0xdf
-
0xe0
-
0xe1
-
0xe2
-
0xe3
-
0xe4
-
0xe5
-
0xe6
-
0xe7
-
0xe8
-
0xe9
-
0xea
-
0xeb
-
0xec
-
0xed
-
0xee
-
0xef
-
0xf0
-
0xf1
-
0xf2
-
0xf3
-
0xf4
-
0xf5
-
0xf6
-
0xf7
-
0xf8
-
0xf9
-
0xfa
_SMALLINTEGER
0xfb
_PUBKEYS
0xfc
_PUBKEYHASH
0xfd
_PUBKEY
0xfe
_INVALIDOPCODE
0xff

The opcode value 0x00 with nemonic OP_FALSE is also named OP_0 and the opcode value 0x51 with nemonic OP_1 as also named OP_TRUE.


Constants

Nemonic Decimal Hex Input Output Description
OP_FALSE, OP_0 0 0x00 Nothing (empty string) A byte vector of length 0 is pushed onto the stack. (Thus, it is not a no-op!)
(no official nemonics) 1 - 75 0x01 - 0x4b (operands) data The next opcode-many bytes is data to be pushed onto the stack.
OP_PUSHDATA1 76 0x4c (operands) data The next byte contains the number of bytes to be pushed onto the stack which follow this byte.
OP_PUSHDATA2 77 0x4d (operands) data The next two bytes contain the number of bytes to be pushed onto the stack which follow theses 2 bytes.
OP_PUSHDATA4 78 0x4e (operands) data The next four bytes contain the number of bytes to be pushed onto the stack which follow theses 4 bytes.
OP_1NEGATE 79 0x4f Nothing -1 The number -1 is pushed onto the stack.
OP_1, OP_TRUE 81 0x51 Nothing 1 The number 1 is pushed onto the stack.
OP_2 - OP_16 82 - 96 0x52 - 0x60 Nothing 2-16 The value <opcode>-80 (thus, one of 2 - 16) is pushed onto the stack.

Flow control

Nemonic Decimal Hex Input Output Description
OP_NOP 97 0x61 Nothing Nothing Does nothing.
OP_IF 99 0x63 Boolean Nothing If the top stack value is not 0, the statements are executed. The top stack value is removed. Lead in a logcial <value> then [statements] [else [statements]] endif expression
OP_NOTIF 100 0x64 Boolean Nothing If the top stack value is 0, the statements are executed. The top stack value is removed. Lead in a logcial <value> then [statements] [else [statements]] endif expression
OP_ELSE 103 0x67 Nothing Nothing If the preceding OP_IF or OP_NOTIF or OP_ELSE was not executed then these statements are and if the preceding OP_IF or OP_NOTIF or OP_ELSE was executed then these statements are not.
OP_ENDIF 104 0x68 Nothing Nothing Ends a logcial If <value> then [statements] [else [statements]] expression
OP_VERIFY 105 0x69 Boolean Nothing / False If top stack value is not true then marks transaction as invalid . A value true is removed, but false is not.
OP_RETURN 106 0x6a Nothing Nothing Marks transaction as invalid.

Stack

Nemonic Decimal Hex Input Output Description
OP_TOALTSTACK 107 0x6b x1 (alt) (alt x1) Puts the input onto the top of the alt stack. Removes it from the (main) stack.
OP_FROMALTSTACK 108 0x6c (alt x1) x1 (alt) Puts the input onto the top of the (main) stack. Removes it from the alt stack.
OP_IFDUP 115 0x73 x x / x x If the top stack value is not 0, duplicate it.
OP_DEPTH 116 0x74 Nothing <Stack size> Puts the number of stack items onto the stack as one hexadecimal coded little-endian byte-vector
OP_DROP 117 0x75 x Nothing Removes the top stack item.
OP_DUP 118 0x76 x x x Duplicates the top stack item.
OP_NIP 119 0x77 x1 x2 x2 Removes the second-to-top stack item.
OP_OVER 120 0x78 x1 x2 x1 x2 x1 Copies the second-to-top stack item to the top.
OP_PICK 121 0x79 xn ... x2 x1 x0 <n> xn ... x2 x1 x0 xn The item n back in the stack is copied to the top.
OP_ROLL 122 0x7a xn ... x2 x1 x0 <n> ... x2 x1 x0 xn The item n back in the stack is moved to the top.
OP_ROT 123 0x7b x1 x2 x3 x2 x3 x1 The top three items on the stack are rotated to the left.
OP_SWAP 124 0x7c x1 x2 x2 x1 The top two items on the stack are swapped.
OP_TUCK 125 0x7d x1 x2 x2 x1 x2 The item at the top of the stack is copied and inserted before the second-to-top item.
OP_2DROP 109 0x6d x1 x2 Nothing Removes the top two stack items.
OP_2DUP 110 0x6e x1 x2 x1 x2 x1 x2 Duplicates the top two stack items.
OP_3DUP 111 0x6f x1 x2 x3 x1 x2 x3 x1 x2 x3 Duplicates the top three stack items.
OP_2OVER 112 0x70 x1 x2 x3 x4 x1 x2 x3 x4 x1 x2 Copies the pair of items two spaces back in the stack to the front.
OP_2ROT 113 0x71 x1 x2 x3 x4 x5 x6 x3 x4 x5 x6 x1 x2 The fifth and sixth items back are moved to the top of the stack.
OP_2SWAP 114 0x72 x1 x2 x3 x4 x3 x4 x1 x2 Swaps the top two pairs of items.

Splice

Nemonic Decimal Hex Input Output Description
OP_CAT 126 0x7e x1 x2 out Concatenates two strings resp. byte vectors. Currently disabled.
OP_SUBSTR 127 0x7f x index size out Returns the section started at position <index> and of length <size> of a string resp. byte vector. Currently disabled.
OP_LEFT 128 0x80 x index out Keeps only characters left of the specified point in a string. Currently disabled.
OP_RIGHT 129 0x81 x index out Keeps only characters right of the specified point in a string. Currently disabled.
OP_SIZE 130 0x82 x x size Returns the length of the input string resp. byte vector resp. stack item.

Bitwise logic

Nemonic Decimal Hex Input Output Description
OP_INVERT 131 0x83 in out Flips all of the bits in the input. Currently disabled.
OP_AND 132 0x84 x1 x2 out Boolean and between each bit in the inputs. Currently disabled.
OP_OR 133 0x85 x1 x2 out Boolean or between each bit in the inputs. Currently disabled.
OP_XOR 134 0x86 x1 x2 out Boolean exclusive or between each bit in the inputs. Currently disabled.
OP_EQUAL 135 0x87 x1 x2 Boolean Returns 1 if the inputs are byte-wise equal, 0 otherwise.
OP_EQUALVERIFY 136 0x88 x1 x2 Nothing / false Same as OP_EQUAL, but runs OP_VERIFY afterward.

Arithmetic

Arithmetic is limited to max 4 byte integers

Nemonic Decimal Hex Input Output Description
OP_1ADD 139 0x8b in out 1 is added to the input.
OP_1SUB 140 0x8c in out 1 is subtracted from the input.
OP_2MUL 141 0x8d in out The input is multiplied by 2. Currently disabled.
OP_2DIV 142 0x8e in out The input is divided by 2. Currently disabled.
OP_NEGATE 143 0x8f in out The sign of the input is flipped.
OP_ABS 144 0x90 in out The input is made positive.
OP_NOT 145 0x91 in Boolean If the input is 0 or 1, it is flipped. Otherwise the output will be 0.
OP_0NOTEQUAL 146 0x92 in Boolean Returns 0 if the input is 0. 1 otherwise.
OP_ADD 147 0x93 a b out a is added to b.
OP_SUB 148 0x94 a b out b is subtracted from a.
OP_MUL 149 0x95 a b out a is multiplied by b. Currently disabled.
OP_DIV 150 0x96 a b out a is divided by b (b should be not 0). Currently disabled.
OP_MOD 151 0x97 a b out Returns the remainder after dividing a by b. Currently disabled.
OP_LSHIFT 152 0x98 a b out Shifts a left b bits, preserving sign. Currently disabled.
OP_RSHIFT 153 0x99 a b out Shifts a right b bits, preserving sign. Currently disabled.
OP_BOOLAND 154 0x9a a b Boolean If both a and b are not 0, the output is 1. Otherwise 0.
OP_BOOLOR 155 0x9b a b Boolean If a or b is not 0, the output is 1. Otherwise 0.
OP_NUMEQUAL 156 0x9c a b Boolean Returns 1 if the numbers are equal, 0 otherwise.
OP_NUMEQUALVERIFY 157 0x9d a b Nothing / False Same as OP_NUMEQUAL, but runs OP_VERIFY afterward.
OP_NUMNOTEQUAL 158 0x9e a b Boolean Returns 1 if the numbers are not equal, 0 otherwise.
OP_LESSTHAN 159 0x9f a b Boolean Returns 1 if a is less than b, 0 otherwise.
OP_GREATERTHAN 160 0xa0 a b Boolean Returns 1 if a is greater than b, 0 otherwise.
OP_LESSTHANOREQUAL 161 0xa1 a b Boolean Returns 1 if a is less than or equal to b, 0 otherwise.
OP_GREATERTHANOREQUAL 162 0xa2 a b Boolean Returns 1 if a is greater than or equal to b, 0 otherwise.
OP_MIN 163 0xa3 a b a / b Returns the smaller of a and b.
OP_MAX 164 0xa4 a b a / b Returns the larger of a and b.
OP_WITHIN 165 0xa5 x min max Boolean Returns 1 if x is within the specified range (left-inclusive) , 0 otherwise. min may be greater than max

Crypto

Nemonic Decimal Hex Input Output Description
OP_RIPEMD160 166 0xa6 x hash20 The input is hashed using RIPEMD-160.
OP_SHA1 167 0xa7 x hash20 The input is hashed using SHA-1.
OP_SHA256 168 0xa8 x hash32 The input is hashed using SHA-256.
OP_HASH160 169 0xa9 x hash20 The input is hashed twice: first with SHA-256 and then with RIPEMD-160.
OP_HASH256 170 0xaa x hash32 The input is hashed two times with SHA-256.
OP_CODESEPARATOR 171 0xab Nothing Nothing All of the signature checking opcodes will only match signatures to the data after the most recently-executed OP_CODESEPARATOR.
OP_CHECKSIG 172 0xac sig pubkey Boolean The entire transaction's outputs, inputs, and script (from the most recently-executed OP_CODESEPARATOR to the end) are hashed. The signature used by OP_CHECKSIG must be a valid signature for this hash and public key. If it is, 1 is returned, 0 otherwise.
OP_CHECKSIGVERIFY 173 0xad sig pubkey Nothing / False Same as OP_CHECKSIG, but OP_VERIFY is executed afterward.
OP_CHECKMULTISIG 174 0xae sig1 sig2 ... <number of signatures> pub1 pub2 <number of public keys> Boolean For each signature and public key pair, OP_CHECKSIG is executed. If more public keys than signatures are listed, some key/sig pairs can fail. All signatures need to match a public key. If all signatures are valid, 1 is returned, 0 otherwise. Due to a bug, one extra unused value is removed from the stack.
OP_CHECKMULTISIGVERIFY 175 0xaf sig1 sig2 ... <number of signatures> pub1 pub2 ... <number of public keys> Nothing / False Same as OP_CHECKMULTISIG, but OP_VERIFY is executed afterward.

Pseudo-opcodes

These nemonics are used internally for assisting with transaction matching. They are invalid if used in actual scripts.

Nemonic Decimal Hex Description
OP_PUBKEYHASH 253 0xfd Represents a public key hashed with OP_HASH160.
OP_PUBKEY 254 0xfe Represents a public key compatible with OP_CHECKSIG.
OP_INVALIDOPCODE 255 0xff Matches any opcode that is not yet assigned.

Reserved opcodes

Each opcode not assigned (currently every > 185) is also reserved. Using an unassigned opcode makes the transaction invalid.

Nemonic Decimal Hex When used...
OP_RESERVED 80 0x50 Transaction is invalid unless occuring in an unexecuted OP_IF branch
OP_VER 98 0x62 Transaction is invalid unless occuring in an unexecuted OP_IF branch
OP_VERIF 101 0x65 Transaction is invalid even when occuring in an unexecuted OP_IF branch
OP_VERNOTIF 102 0x66 Transaction is invalid even when occuring in an unexecuted OP_IF branch
OP_RESERVED1 137 0x89 Transaction is invalid unless occuring in an unexecuted OP_IF branch
OP_RESERVED2 138 0x8a Transaction is invalid unless occuring in an unexecuted OP_IF branch

Transparent opcodes

Nemonic Decimal Hex Description
OP_NOP1-OP_NOP10 176-185 0xb0-0xb9 The opcode has no effect.

script validation conditions

A script is considered invalid, if any of these conditions meets:

  • the total size of the script exceeds (currently) 10000 bytes
  • there are more than (currently) 201 opcodes of opcode value > 0x60 in the script
  • each instruction is (currently) limited to maximal 520 bytes. This effects only the opcodes OP_PUSHDATA2 and OP_PUSHDATA4
  • the executed opcode of the script has insufficient input (from stack, from script or from anywhere)
  • the opcode is not defined (for execution) - indicated by white or light gray background color in the table
  • the opcode is disabled (currently 15 opcodes) - indicated by white fontcolor in the above table
  • stack overflow occurs during execution of the opcode (currently the number of items on the stack and on the alternate stack is limited to 1000)
  • the opcodes OP_VERIF and OP_NOTVERIF invalidate a script which contains this opcode (even if this opcode is not executed!)
  • the opcodes OP_ELSE or OP_ENDIF has no matching OP_IF
  • the script execution has been finished but there is (at least) an unmatched OP_IF
  • the opcodes OP_VERIFY, OP_EQUALVERIFY, OP_NUMEQUALVERIFY, OP_CHECKSIGVERIFY and OP_CHECKMULTISIGVERIFY invalidate the script if the stack-top item is false
  • the execution of OP_RETURN
  • the numerical value of the top-stack item is negative or greater than the number of items - 2 on the stack if OP_PICK or OP_ROLL shall be executed
  • (the 2nd argument of OP_WITHIN is numerical greater than the top-stack item)
  • an item used as pubkey or signature for each of the opcodes OP_CHECKSIG, OP_CHECKSIGVERIFY, OP_CHECKMULTISIG or OP_CHECKMULTISIGVERIFY can be neither a pubkey or signature (for the given hash)
  • the number of signature items or the number of public key items on the stack is negative for OP_CHECKMULTISIG or OP_CHECKMULTISIGVERIFY
  • there or more signatures items than public key items on the stack for OP_CHECKMULTISIG or OP_CHECKMULTISIGVERIFY
  • there are (currently) more than 20 public key items on the stack for OP_CHECKMULTISIG or CHECKMULTISIGVERIFY
  • the script execution has been finished and the stack is empty or the top-stack item is false (numerical value 0)

else the script is considered to be valid.[1]

References

http://sourceforge.net/projects/bitcoin/files/Bitcoin/bitcoin-0.7.1/ | bitcoin-clinet version 0.7.1 source-file src/src/script.cpp