Welcome, friend! These Basis of Lightning Technology (BOLT) documents describe a layer-2 protocol for off-chain bitcoin transfer by mutual cooperation, relying on on-chain transactions for enforcement if necessary.
Some requirements are subtle; we have tried to highlight motivations and reasoning behind the results you see here. I'm sure we've fallen short; if you find any part confusing or wrong, please contact us and help us improve.
This is version 0.
- BOLT #1: Base Protocol
- BOLT #2: Peer Protocol for Channel Management
- BOLT #3: Bitcoin Transaction and Script Formats
- BOLT #4: Onion Routing Protocol
- BOLT #5: Recommendations for On-chain Transaction Handling
- BOLT #7: P2P Node and Channel Discovery
- BOLT #8: Encrypted and Authenticated Transport
- BOLT #9: Assigned Feature Flags
- BOLT #10: DNS Bootstrap and Assisted Node Location
- BOLT #11: Invoice Protocol for Lightning Payments
Lightning is a protocol for making fast payments with Bitcoin using a network of channels.
Lightning works by establishing channels: two participants create a Lightning payment channel that contains some amount of bitcoin (e.g., 0.1 bitcoin) that they've locked up on the Bitcoin network. It is spendable only with both their signatures.
Initially they each hold a bitcoin transaction that sends all the bitcoin (e.g. 0.1 bitcoin) back to one party. They can later sign a new bitcoin transaction that splits these funds differently, e.g. 0.09 bitcoin to one party, 0.01 bitcoin to the other, and invalidate the previous bitcoin transaction so it won't be spent.
See BOLT #2: Channel Establishment for more on channel establishment and BOLT #3: Funding Transaction Output for the format of the bitcoin transaction that creates the channel. See BOLT #5: Recommendations for On-chain Transaction Handling for the requirements when participants disagree or fail, and the cross-signed bitcoin transaction must be spent.
A Lightning channel only allows payment between two participants, but channels can be connected together to form a network that allows payments between all members of the network. This requires the technology of a conditional payment, which can be added to a channel, e.g. "you get 0.01 bitcoin if you reveal the secret within 6 hours". Once the recipient presents the secret, that bitcoin transaction is replaced with one lacking the conditional payment and adding the funds to that recipient's output.
See BOLT #2: Adding an HTLC for the commands a participant uses to add a conditional payment, and BOLT #3: Commitment Transaction for the complete format of the bitcoin transaction.
Such a conditional payment can be safely forwarded to another participant with a lower time limit, e.g. "you get 0.01 bitcoin if you reveal the secret within 5 hours". This allows channels to be chained into a network without trusting the intermediaries.
See BOLT #2: Forwarding HTLCs for details on forwarding payments, BOLT #4: Packet Structure for how payment instructions are transported.
To make a payment, a participant needs to know what channels it can send through. Participants tell each other about channel and node creation, and updates.
See BOLT #7: P2P Node and Channel Discovery for details on the communication protocol, and BOLT #10: DNS Bootstrap and Assisted Node Location for initial network bootstrap.
A participant receives invoices that tell them what payments to make.
See BOLT #11: Invoice Protocol for Lightning Payments for the protocol describing the destination and purpose of a payment such that the payer can later prove successful payment.
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The uniquely identifying hash of the target blockchain (usually the genesis hash). This allows nodes to create and reference channels on several blockchains. Nodes are to ignore any messages that reference a
chain_hash
that are unknown to them. Unlikebitcoin-cli
, the hash is not reversed but is used directly.For the main chain Bitcoin blockchain, the
chain_hash
value MUST be (encoded in hex):6fe28c0ab6f1b372c1a6a246ae63f74f931e8365e15a089c68d6190000000000
.
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- A fast, off-chain method of mutual exchange between two peers. To transact funds, peers exchange signatures to create an updated commitment transaction.
- See closure methods: mutual close, revoked transaction close, unilateral close
- See related: route
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- A transaction generated as part of a mutual close. A closing transaction is similar to a commitment transaction, but with no pending payments.
- See related: commitment transaction, funding transaction, penalty transaction
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- A 48-bit incrementing counter for each commitment transaction; counters are independent for each peer in the channel and start at 0.
- See container: commitment transaction
- See related: closing transaction, funding transaction, penalty transaction
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- Every commitment transaction has a unique commitment revocation private-key value that allows the other peer to spend all outputs immediately: revealing this key is how old commitment transactions are revoked. To support revocation, each output of the commitment transaction refers to the commitment revocation public key.
- See container: commitment transaction
- See originator: per-commitment secret
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- A transaction that spends the funding transaction. Each peer holds the other peer's signature for this transaction, so that each always has a commitment transaction that it can spend. After a new commitment transaction is negotiated, the old one is revoked.
- See parts: commitment number, commitment revocation private key, HTLC, per-commitment secret, outpoint
- See related: closing transaction, funding transaction, penalty transaction
- See types: revoked commitment transaction
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- This is a forced close of the channel. Very early on (before opening), this may not require any action but forgetting the existence of the channel. Usually it requires signing and broadcasting the latest commitment transaction, although during mutual close it can also be performed by signing and broadcasting a mutual close transaction. See BOLT #5.
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- This means closing communication with the peer (such as closing the TCP socket). It does not imply closing any channels with the peer, but does cause the discarding of uncommitted state for connections with channels: see BOLT #2.
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- The final recipient of a packet that is routing a payment from an origin node through some number of hops. It is also the final receiving peer in a chain.
- See category: node
- See related: origin node, processing node
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- An irreversible on-chain transaction that pays to both peers on a channel. It can only be spent by mutual consent.
- See related: closing transaction, commitment transaction, penalty transaction
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- A node. Generally, an intermediate node lying between an origin node and a final node.
- See category: node
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- A conditional payment between two peers: the recipient can spend the payment by presenting its signature and a payment preimage, otherwise the payer can cancel the contract by spending it after a given time. These are implemented as outputs from the commitment transaction.
- See container: commitment transaction
- See parts: Payment hash, Payment preimage
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including payment type, payment amount, expiry, and other information. This is how payments are made on the Lightning Network, rather than using Bitcoin-style addresses.
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- A rule applied to some numeric fields that indicates either optional or compulsory support for features. Even numbers indicate that both endpoints MUST support the feature in question, while odd numbers indicate that the feature MAY be disregarded by the other endpoint.
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- A millisatoshi, often used as a field name.
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- A cooperative close of a channel, accomplished by broadcasting an unconditional spend of the funding transaction with an output to each peer (unless one output is too small, and thus is not included).
- See related: revoked transaction close, unilateral close
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- A computer or other device that is part of the Lightning network.
- See related: peers
- See types: final node, hop, origin node, processing node, receiving node, sending node
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- The node that originates a packet that will route a payment through some number of hops to a final node. It is also the first sending peer in a chain.
- See category: node
- See related: final node, processing node
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- A transaction hash and output index that uniquely identify an unspent transaction output. Needed to compose a new transaction, as an input.
- See related: funding transaction, commitment transaction
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- The HTLC contains the payment hash, which is the hash of the payment preimage.
- See container: HTLC
- See originator: Payment preimage
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- Proof that payment has been received, held by the final recipient, who is the only person who knows this secret. The final recipient releases the preimage in order to release funds. The payment preimage is hashed as the payment hash in the HTLC.
- See container: HTLC
- See derivation: payment hash
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- A transaction that spends all outputs of a revoked commitment transaction, using the commitment revocation private key. A peer uses this if the other peer tries to "cheat" by broadcasting a revoked commitment transaction.
- See related: closing transaction, commitment transaction, funding transaction
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- Every commitment transaction derives its keys from a per-commitment secret, which is generated such that the series of per-commitment secrets for all previous commitments can be stored compactly.
- See container: commitment transaction
- See derivation: commitment revocation private key
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- A node that is processing a packet that originated with an origin node and that is being sent toward a final node in order to route a payment. It acts as a receiving peer to receive the message, then a sending peer to send on the packet.
- See category: node
- See related: final node, origin node
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- A node that is receiving a message.
- See category: node
- See related: sending node
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- A node that is receiving a message from a directly connected peer.
- See category: peer
- See related: sending peer
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- An old commitment transaction that has been revoked because a new commitment transaction has been negotiated.
- See category: commitment transaction
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- An invalid close of a channel, accomplished by broadcasting a revoked commitment transaction. Since the other peer knows the commitment revocation secret key, it can create a penalty transaction.
- See related: mutual close, unilateral close
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- A path across the Lightning Network that enables a payment from an origin node to a final node across one or more hops.
- See related: channel
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- A node that is sending a message.
- See category: node
- See related: receiving node
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- A node that is sending a message to a directly connected peer.
- See category: peer
- See related: receiving peer.
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- An uncooperative close of a channel, accomplished by broadcasting a commitment transaction. This transaction is larger (i.e. less efficient) than a closing transaction, and the peer whose commitment is broadcast cannot access its own outputs for some previously-negotiated duration.
- See related: mutual close, revoked transaction close
Why this network could be democratic...
Numismatic...
Cryptographic!
Why it could be released Lightning!
(Release Lightning!)
We'll have some timelocked contracts with hashed pubkeys, oh yeah.
(Keep talking, whoa keep talkin')
We'll segregate the witness for trustless starts, oh yeah.
(I'll get the money, I've got to get the money)
With dynamic onion routes, they'll be shakin' in their boots;
You know that's just the truth, we'll be scaling through the roof.
Release Lightning!
(Go, go, go, go; go, go, go, go, go, go)
[Chorus:]
Oh released Lightning, it's better than a debit card..
(Release Lightning, go release Lightning!)
With released Lightning, micropayments just ain't hard...
(Release Lightning, go release Lightning!)
Then kaboom: we'll hit the moon -- release Lightning!
(Go, go, go, go; go, go, go, go, go, go)
We'll have QR codes, and smartphone apps, oh yeah.
(Ooo ooo ooo ooo ooo ooo ooo)
P2P messaging, and passive incomes, oh yeah.
(Ooo ooo ooo ooo ooo ooo ooo)
Outsourced closure watch, gives me feelings in my crotch.
You'll know it's not a brag when the repo gets a tag:
Released Lightning.
[Chorus]
[Instrumental, ~1m10s]
[Chorus]
(Lightning! Lightning! Lightning! Lightning!
Lightning! Lightning! Lightning! Lightning!)
C'mon guys, let's get to work!
-- Anthony Towns [email protected]
[ FIXME: Insert Author List ]
This work is licensed under a Creative Commons Attribution 4.0 International License.