[bitcoin-dev] BIP Number Request: Open Asset
Nicolas Dorier
nicolas.dorier at gmail.com
Thu May 26 02:50:26 UTC 2016
Open Asset is a simple and well known colored coin protocol made by Flavien
Charlon, which has been around for more than two years ago.
Open Asset is OP_RETURN to store coin's color. Since then, the only
modification to the protocol has been for allowing OA data to be into any
push into an OP_RETURN.
The protocol is here:
https://github.com/OpenAssets/open-assets-protocol/blob/master/specification.mediawiki
I asked to Flavien Charlon if he was OK if I submit the protocol to the
mailing list before posting.
Additional BIP number might be required to cover for example the "colored
address" format:
https://github.com/OpenAssets/open-assets-protocol/blob/master/address-format.mediawiki
But I will do it in a separate request.
Here is the core of the Open Asset specification:
<pre>
Title: Open Assets Protocol (OAP/1.0)
Author: Flavien Charlon <flavien at charlon.net>
Created: 2013-12-12
</pre>
==Abstract==
This document describes a protocol used for storing and transferring
custom, non-native assets on the Blockchain. Assets are represented by
tokens called colored coins.
An issuer would first issue colored coins and associate them with a
formal or informal promise that he will redeem the coins according to
terms he has defined. Colored coins can then be transferred using
transactions that preserve the quantity of every asset.
==Motivation==
In the current Bitcoin implementation, outputs represent a quantity of
Bitcoin, secured by an output script. With the Open Assets Protocol,
outputs can encapsulate a quantity of a user-defined asset on top of
that Bitcoin amount.
There are many applications:
* A company could issue colored coins representing shares. The shares
could then be traded frictionlessly through the Bitcoin
infrastructure.
* A bank could issue colored coins backed by a cash reserve. People
could withdraw and deposit money in colored coins, and trade those, or
use them to pay for goods and services. The Blockchain becomes a
system allowing to transact not only in Bitcoin, but in any currency.
* Locks on cars or houses could be associated with a particular type
of colored coins. The door would only open when presented with a
wallet containing that specific coin.
==Protocol Overview==
Outputs using the Open Assets Protocol to store an asset have two new
characteristics:
* The '''asset ID''' is a 160 bits hash, used to uniquely identify the
asset stored on the output.
* The '''asset quantity''' is an unsigned integer representing how
many units of that asset are stored on the output.
This document describes how the asset ID and asset quantity of an
output are calculated.
Each output in the Blockchain can be either colored or uncolored:
* Uncolored outputs have no asset ID and no asset quantity (they are
both undefined).
* Colored outputs have a strictly positive asset quantity, and a
non-null asset ID.
The ID of an asset is the RIPEMD-160 hash of the SHA-256 hash of the
output script referenced by the first input of the transaction that
initially issued that asset (<code>script_hash =
RIPEMD160(SHA256(script))</code>). An issuer can reissue more of an
already existing asset as long as they retain the private key for that
asset ID. Assets on two different outputs can only be mixed together
if they have the same asset ID.
Like addresses, asset IDs can be represented in base 58. They must use
version byte 23 (115 in TestNet3) when represented in base 58. The
base 58 representation of an asset ID therefore starts with the
character 'A' in MainNet.
The process to generate an asset ID and the matching private key is
described in the following example:
# The issuer first generates a private key:
<code>18E14A7B6A307F426A94F8114701E7C8E774E7F9A47E2C2035DB29A206321725</code>.
# He calculates the corresponding address:
<code>16UwLL9Risc3QfPqBUvKofHmBQ7wMtjvM</code>.
# Next, he builds the Pay-to-PubKey-Hash script associated to that
address: <code>OP_DUP OP_HASH160
010966776006953D5567439E5E39F86A0D273BEE OP_EQUALVERIFY
OP_CHECKSIG</code>.
# The script is hashed: <code>36e0ea8e93eaa0285d641305f4c81e563aa570a2</code>
# Finally, the hash is converted to a base 58 string with checksum
using version byte 23:
<code>ALn3aK1fSuG27N96UGYB1kUYUpGKRhBuBC</code>.
The private key from the first step is required to issue assets
identified by the asset ID
<code>ALn3aK1fSuG27N96UGYB1kUYUpGKRhBuBC</code>. This acts as a
digital signature, and gives the guarantee that nobody else but the
original issuer is able to issue assets identified by this specific
asset ID.
==Open Assets Transactions==
Transactions relevant to the Open Assets Protocol must have a special
output called the marker output. This allows clients to recognize such
transactions. Open Assets transactions can be used to issue new
assets, or transfer ownership of assets.
Transactions that are not recognized as an Open Assets transaction are
considered as having all their outputs uncolored.
===Marker output===
The marker output can have a zero or non-zero value. The marker output
starts with the OP_RETURN opcode, and can be followed by any sequence
of opcodes, but it must contain a PUSHDATA opcode containing a
parsable Open Assets marker payload. If multiple parsable PUSHDATA
opcodes exist in the same output, the first one is used, and the other
ones are ignored.
If multiple valid marker outputs exist in the same transaction, the
first one is used and the other ones are considered as regular
outputs. If no valid marker output exists in the transaction, all
outputs are considered uncolored.
The payload as defined by the Open Assets protocol has the following format:
{|
! Field !! Description !! Size
|-
! OAP Marker || A tag indicating that this transaction is an
Open Assets transaction. It is always 0x4f41. || 2 bytes
|-
! Version number || The major revision number of the Open Assets
Protocol. For this version, it is 1 (0x0100). || 2 bytes
|-
! Asset quantity count || A
[https://en.bitcoin.it/wiki/Protocol_specification#Variable_length_integer
var-integer] representing the number of items in the <code>asset
quantity list</code> field. || 1-9 bytes
|-
! Asset quantity list || A list of zero or more
[http://en.wikipedia.org/wiki/LEB128 LEB128-encoded] unsigned integers
representing the asset quantity of every output in order (excluding
the marker output). || Variable
|-
! Metadata length || The
[https://en.bitcoin.it/wiki/Protocol_specification#Variable_length_integer
var-integer] encoded length of the <code>metadata</code> field. || 1-9
bytes
|-
! Metadata || Arbitrary metadata to be associated with
this transaction. This can be empty. || Variable
|}
Possible formats for the <code>metadata</code> field are outside of
scope of this protocol, and may be described in separate protocol
specifications building on top of this one.
The <code>asset quantity list</code> field is used to determine the
asset quantity of each output. Each integer is encoded using variable
length [http://en.wikipedia.org/wiki/LEB128 LEB128] encoding (also
used in [https://developers.google.com/protocol-buffers/docs/encoding#varints
Google Protocol Buffers]). If the LEB128-encoded asset quantity of any
output exceeds 9 bytes, the marker output is deemed invalid. The
maximum valid asset quantity for an output is 2<sup>63</sup> - 1
units.
If the marker output is malformed, it is considered non-parsable.
Coinbase transactions and transactions with zero inputs cannot have a
valid marker output, even if it would be otherwise considered valid.
If there are less items in the <code>asset quantity list</code> than
the number of colorable outputs (all the outputs except the marker
output), the outputs in excess receive an asset quantity of zero. If
there are more items in the <code>asset quantity list</code> than the
number of colorable outputs, the marker output is deemed invalid. The
marker output is always uncolored.
After the <code>asset quantity list</code> has been used to assign an
asset quantity to every output, asset IDs are assigned to outputs.
Outputs before the marker output are used for asset issuance, and
outputs after the marker output are used for asset transfer.
====Example====
This example illustrates how a marker output is decoded. Assuming the
marker output is output 1:
Data in the marker output Description
-----------------------------
-------------------------------------------------------------------
0x6a The OP_RETURN opcode.
0x10 The PUSHDATA opcode for a 16 bytes payload.
0x4f 0x41 The Open Assets Protocol tag.
0x01 0x00 Version 1 of the protocol.
0x03 There are 3 items in the asset quantity list.
0xac 0x02 0x00 0xe5 0x8e 0x26 The asset quantity list:
- '0xac 0x02' means output 0 has an
asset quantity of 300.
- Output 1 is skipped and has an
asset quantity of 0
because it is the marker output.
- '0x00' means output 2 has an
asset quantity of 0.
- '0xe5 0x8e 0x26' means output 3
has an asset quantity of 624,485.
- Outputs after output 3 (if any)
have an asset quantity of 0.
0x04 The metadata is 4 bytes long.
0x12 0x34 0x56 0x78 Some arbitrary metadata.
===Asset issuance outputs===
All the outputs before the marker output are used for asset issuance.
All outputs preceding the marker output and with a non-zero asset
quantity get assigned the asset ID defined as the RIPEMD-160 hash of
the SHA-256 hash of the output script referenced by the first input of
the transaction. Outputs that have an asset quantity of zero are
uncolored.
===Asset transfer outputs===
All the outputs after the marker output are used for asset transfer.
The asset IDs of those outputs are determined using a method called
order-based coloring.
Inputs are seen as a sequence of asset units, each having an asset ID.
Similarly, outputs are seen as a sequence of asset units to be
assigned an asset ID. These two sequences are built by taking each
input or output in order, each of them adding a number of asset units
equal to their asset quantity. The process starts with the first input
of the transaction and the first output after the marker output.
After the sequences have been built, the asset ID of every asset unit
in the input sequence is assigned to the asset unit at the same
position in the output sequence until all the asset units in the
output sequence have received an asset ID. If there are less asset
units in the input sequence than in the output sequence, the marker
output is considered invalid.
Finally, for each transfer output, if the asset units forming that
output all have the same asset ID, the output gets assigned that asset
ID. If any output is mixing units with more than one distinct asset
ID, the marker output is considered invalid. Outputs with an asset
quantity of zero are always considered uncolored.
===Example===
This is an example of an Open Assets transaction.
The coloring process starts by retrieving the asset quantities and
asset IDs of the outputs referenced by each input of the transaction.
Then, the marker output is identified. In this example, it is output
2, and the <code>asset quantity list</code> field contains the
following values:
0, 10, 6, 0, 7, 3
This list is used to assign asset quantities to outputs.
Inputs Outputs - Initial state
Outputs - Final result
============================= =============================
=============================
Input 0 Output 0 (Issuance)
Output 0 (Issuance)
Asset quantity: 3 Asset quantity: 0
Asset quantity: <NULL>
Asset ID: A1 Asset ID:
Asset ID: <NULL>
----------------------------- -----------------------------
-----------------------------
Input 1 Output 1 (Issuance)
Output 1 (Issuance)
Asset quantity: 2 Asset quantity: 10
Asset quantity: 10
Asset ID: A1 Asset ID:
Asset ID: H
----------------------------- -----------------------------
-----------------------------
Input 2 Output 2 (Marker)
Output 2 (Marker)
Asset quantity: <NULL> Asset quantity: <NULL>
Asset quantity: <NULL>
Asset ID: <NULL> Asset ID: <NULL>
Asset ID: <NULL>
----------------------------- -----------------------------
-----------------------------
Input 3 Output 3 (Transfer)
Output 3 (Transfer)
Asset quantity: 5 Asset quantity: 6
Asset quantity: 6
Asset ID: A1 Asset ID:
Asset ID: A1
----------------------------- -----------------------------
-----------------------------
Input 4 Output 4 (Transfer)
Output 4 (Transfer)
Asset quantity: 3 Asset quantity: 0
Asset quantity: <NULL>
Asset ID: A1 Asset ID:
Asset ID: <NULL>
----------------------------- -----------------------------
-----------------------------
Input 5 Output 5 (Transfer)
Output 5 (Transfer)
Asset quantity: 9 Asset quantity: 7
Asset quantity: 7
Asset ID: A2 Asset ID:
Asset ID: A1
============================= -----------------------------
-----------------------------
Output 6 (Transfer)
Output 6 (Transfer)
Asset quantity: 3
Asset quantity: 3
Asset ID:
Asset ID: A2
=============================
=============================
Outputs are colored from the first to the last. Outputs before the
marker output are issuance outputs:
* Output 0 has an asset quantity of zero, so it is considered uncolored.
* Output 1 gets assigned the asset ID defined by <code>H =
RIPEMD160(SHA256((S))</code> where <code>S</code> is the output script
referenced by the first input of the transaction (input 0).
Output 2 is the marker output, separating issuance outputs from
transfer outputs. The marker output is always uncolored.
Transfer outputs are then colored:
* Output 3 receives 3 units from input 0, 2 units from input 1, 0 unit
from input 2 and 1 unit from input 3. All the 6 units have the same
asset ID <code>A1</code>, so the asset ID <code>A1</code> is assigned
to output 3.
* Output 4 has an asset quantity of zero, so it is considered uncolored.
* Output 5 receives the remaining 4 units of input 3, and 3 units from
input 4. All the 7 units have the same asset ID <code>A1</code>, so
the asset ID <code>A1</code> is assigned to output 5.
* Output 6 receives the first 3 units of input 5. Input 5 has the
asset ID <code>A2</code> so the asset ID <code>A2</code> is assigned
to output 6.
==Rationale==
This approach offers a number of desirable characteristics:
# Economical: The cost of issuing or transferring an asset is
completely independent from the quantity issued or transferred.
# Clients have a way to identify colored outputs simply by traversing
the Blockchain, without needing to be fed external data. Transactions
relevant to the Open Assets Protocol are identified by the special
marker output.
# It is possible to determine the asset ID and asset quantity of an
output by traversing only a limited number of transactions.
# Assets are pseudonymous. They are represented by an asset ID, which
is enough to identify each asset uniquely, while still providing an
adequate level of anonymity for both the issuer and users of the
asset.
# This approach uses the recommended way to embed data in the
Blockchain (OP_RETURN), and therefore does not pollute the UTXO.
# The whole cryptographic infrastructure that Bitcoin provides for
securing the spending of outputs is reused for securing the ability to
issue assets. There is a symmetry between ''an address + private key''
as a way to spend Bitcoins, and ''an address + private key'' as a way
to issue assets.
# Generating a new type of asset is as simple as generating an
address, can be done offline, and for free.
# Reissuing more of an existing asset is easy and can be done quickly
and at no cost (except for the transaction fee) as long as the issuer
retains the private key for the asset ID.
# Single-issuance assets can be achieved by destroying the private key
used to issue the asset immediately after issuing it.
# Since issuance is based on standard Bitcoin output scripts, it is
possible to create an asset that requires multiple signatures for
issuance.
==Compatibility==
For backward compatibility reasons, we consider than an older client
is allowed to see a colored output as uncolored.
===Backward compatibility with existing Bitcoin protocol===
The Open Assets Protocol sits on top of the Bitcoin protocol. It does
not require any change to the existing Bitcoin protocol. Existing
clients that don't support the Open Assets Protocol will see all
outputs as uncolored, and will not be able to perform transfer
transactions.
===Compatibility between different versions of OAP===
New versions with the same major version number (e.g. 1.1) should be
backwards compatible. New versions with a different major version
number (e.g. 2.0) can introduce breaking changes, but transactions
created by newer clients will be identifiable by a different version
number in the output 0 of genesis and transfer transactions.
==Copyright==
This document has been placed in the public domain.
Nicolas Dorier,
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