The goal of this project is to write a simple wallet over two weeks and use it to interact with a custom signet network provided by the administrator.
To reduce the scope of this project the wallet will be very limited:
- No separate change addresses: one descriptor is used for all internal and external addressees.
- No VarInt: all vectors will be under 255 bytes in length and always require one single byte to indicate length.
- All sending and receiving addresses will be
p2wpkh
- Except one
p2wsh
multisig which is the goal of the week 2 assignment
- Except one
- Fees can be hard-coded by value, no estimation is necessary.
- Transactions you create will always have exactly 1 input and 2 outputs.
- Don't worry about invalid keys (probabilty is less than 1 in 2127)
- Other constants:
- All transactions will be version 2 (little-endian encoded as
\x02\x00\x00\x00
) - All input sequences will be
0xffffffff
- All transaction locktimes will be
0x00000000
- All input scriptSigs will be
0x00
(because we are only concerned with segregated witness inputs) - All sighash flags will be
SIGHASH_ALL
which is0x01
in signatures and little-endian encoded as\x01\x00\x00\x00
in transaction commitments
- All transactions will be version 2 (little-endian encoded as
We will pre-fabricate a signet blockchain and host a mining node that everyone
can connect to, download the chain (around 20 MB), and broadcast their completed transactions.
We will have already generated private key descriptors for each student and used
them to generate hundreds of transactions sending and receiving in the chain.
Each student will be provided with a single wpkh
descriptor with an extended
private key like this example:
wallet_000: wpkh(tprv8ZgxMBicQKsPekvUvQEdWuFnTazwP6QwU15RJCTAEUaUn9ti3NEtywCywj1PF4G2MzvTad4F3MSSZvT2nZuxHBJ9HaZad5r1dYJtzYsR9iW/84h/1h/0h/0/*)#3ajpxxju
The important elements here are the extended private key (tprv...
) and the
derivation path (84h/1h/0h/0/*
).
Note: If you have already connected to the "default" (or any other) signet network with your node, you may need to rename / move your existing data directory. See #27494
A bitcoin.conf
file will be provided to students in config/bitcoin.conf
which will set the address of the mining node as well as provide the signet
challenge. Copy this file to your system's
default datadir location
and start Bitcoin Core:
bitcoind -signet
You should also then be able to execute RPCs with (for example):
bitcoin-cli -signet getblockcount
See Recover Balance coding challenge
See Send Multisig coding challenge
Students do not need to read this section
Setup the Signet server
The included script signet-setup.py needs to be run by the administrator on a publicly reachable server to start the game.
The script requires a local installation of Bitcoin Core since it consumes the test framework as a library.
Usage: python signet-setup.py <path/to/bitcoin> <path/to/student/files> <path/for/bitcoin/datadir>
<path/to/bitcoin>
: (required) Path to local installation of Bitcoin Core repository
<path/to/student/files>
: (optional, default ./config
) Destination for student bitcoin.conf and wallet descriptors
<path/for/bitcoin/datadir>
: (optional, default is os.tmpdir()
) Data directory for the signet full node
The script runs the signet full node, creates all the wallets and continues mining blocks forever.
It should never be killed, but the node can always be restarted by using -datadir=<path/for/bitcoin/datadir>