Wallet descriptor export format (WDEF) is a proposal for a standard file format to export and import descriptor-based Bitcoin wallets.
To run the example:
cargo run --example main
The purpose of a standarized file format is to decrease the chance of loss of funds in the case of wallet recovery or inheritance. BIP32 seed phrases are not sufficient information to recover funds if multiple signers are used, a non-standard derivation path is used, or if the recoverer does not know what to do with such seed phrase. Moreover, seed phrases must be entered into a device to recover wallet public keys. Output descriptors alleviate these issues, however the process of storing, exporting, and sharing descriptors is currently determined by users. A unified file format allows for "one-click" backups and recoveries for descriptor-based bitcoin wallets, transferring the responsibilities of handling descriptors from users to software.
Output descriptors are often exported, shared, and stored in .txt
files, but other formats such as JSON are also used. This discrepancy causes developer burden, and varying formats cause uncertainty of support for parsing such data in future wallet software. If descriptor parsing from a txt
or json
file fails, it is up to the heir or recoverer to resolve the problem. A unifed file format for importing and exporting descriptors not only decreases developer burden, but allows for a higher degree of certainty that an heir will not have to manually "copy and paste" descriptors into future software. Files are portable, duplicable, and easily parsed by most devices. Files may also be encrypted and safely shared with attorneys, business partners, or other semi-trusted entities.
Futher still, metadata about the descriptors, such as the name of the wallet, a description of its uses, where to start scanning for ouputs, and additional information to recover signers are either encoded as a comment in the .txt
, introducing difficulty for software to parse reliably, or fields in a JSON, introducing forward-compatiblity concerns for future wallet software. These fields are easily encoded and decoded with a standard format.
descriptor, shorthand for "output descriptor."
||
denotes the concatenation of two elements.
[]bytes
represents a variable array of bytes.
[N]bytes
represents an array of N
bytes.
Record
is an entry in an import.
Import
an entry in the file that describes metadata and associated descriptors.
Information is stored in a WDEF file in the form of Record
s. A Record
is a tuple of a Type
, Length
, and Value
, followed by a 4 byte checksum. Every WDEF file is prefixed with a single byte representing the number of records in the file. A record type is represented as a byte, with possible types listed below:
Record Type (Type ) |
Value (u8 ) |
Description |
---|---|---|
Name | 0x00 | The name of the wallet in the file |
Description | 0x01 | Summary of this wallet's use(s) |
Info | 0x02 | Any additional information to recover funds |
RecoveryHeight | 0x03 | Height in the blockchain this wallet began to receive and send payments |
ExternalDescriptor | 0x04 | A descriptor that is used to receive bitcoins. Encodes public keys and cannot spend bitcoins |
InternalDescriptor | 0x05 | A descriptor that is used to generate change outputs when spending bitcoins. Encodes public keys and cannot spend bitcoins |
MultipathDescriptor | 0x06 | A descriptor that encodes multiple paths to unique descriptors. |
A Length
is a 16-bit number represented as bytes in little endian. The length represents the number of bytes in the value encoding that follows.
Name
, Description
, Info
, ExternalDescriptor
, InternalDescriptor
, and MultipathDescriptor
are all represented as strings and encoded as the UTF-8 byte array
for such a string representation. RecoveryHeight
s are represented as a 4 byte little endian array representation.
The checksum for a Record
is calculated by SHA256( Type || Value )
and taking the first four bytes of the resulting hash.
A Record
is completely defined as:
Type
:[1]bytes
IDLength
:[2]bytes
little endian value representing the length of the next fieldValue
:[]bytes
variable length contents representing the record type, often a UTF-8 encoded stringChecksum
:[4]bytes
a commitment to the record type and record value
An Import
is simply a structured list of Record
s. An import contains a single byte that represents the count of Record
s in the file, followed by the Record
s. All Import
s must adhere to these requirements, or the file is invalid:
- A single
Name
is required. - Any
Description
must be unique, but is not required. - Any number of
Info
may be included. - A
RecoveryHeight
may be provided, but is not required. TheRecoveryHeight
must be unique. - Any number of
ExternalDescriptor
,InternalDescriptor
, orMultipathDescriptor
may be provided. - At least one
ExternalDescriptor
orMultipathDescriptor
must exist.
An Import
is encoded as:
Length
:[1]bytes
little endian integer representing theRecord
countRecord
s:[]bytes
the entries of the file.
Every WDEF file is prefixed with seven bytes of data that identifies the file: 0x00, 0x00, 0x00, 0x57, 0x44, 0x45, 0x46
. This data is followed by the protocol version, which is set to 0x00
for version one.
- File identifier:
0x00, 0x00, 0x00, 0x57, 0x44, 0x45, 0x46
Version
:[1]bytes
Length
:[1]bytes
Record
s:[]bytes
First, the seven bytes of the file identifier and single verison byte are written to the file.
Next, the number of records to be recorded in the file should be determined, and the byte representing the length is added to the serialization buffer. If the number of records cannot fit into an 8-bit unsigned integer, encoding fails.
Next, each record is composed as Type || Length || Value || Checksum
, and each array of bytes are concatinated together. Encoding fails if the Length
cannot be represented as a 16-bit unsigned integer.
If any of the Import
requirements are violated, encoding fails.
Read the first seven bytes of the file, failing the decoding if the file identifier does not match. Read the next byte and interpret it as the version. For versions greater than those supported by the software, decoding fails. All WDEF decoders must implement 0x00
.
The next byte is read from the file and interpreted as the number of records. For each record in the record count:
-
Read and interpret the first byte as the
Type
. Decoding fails for unrecognizedType
values. -
Read the next two bytes and interpret them as an 16-bit unsigned integer, denoted
L
-
Read the next
L
bytes and parse into the desired representation. Decoding fails if the bytes cannot be parsed. -
Calculate the checksum using the
Value
andType
-
Read the next 4 bytes and fail if the calculated and presented checksum do not match.
-
For descriptors, parse the computed string and attempt to cast it to a descriptor that encodes public keys. Decoding fails for if the provided string cannot be cast to a public key descriptor.
After all the Record
s have been collected, evalutate if the collection follows the rules for an Import
. Decoding fails if a rule is violated.
Files adhering to this standard should be postfixed with the .wdef
extension.
Descriptor Value
s are represented strings for the following reasons:
-
Bitcoin Core supports parsing strings as descriptors within
bitcoin-cli
. -
UTF-8 encodings are an open standard with forwards compatability for new
Type
s. -
Most encoding logic may be shared for each
Type
.
The checksum is added to ensure that invalid Record
encodings are discovered during decoding and file integrity is guaranteed when successfully parsing a WDEF file.