ce720bab52
* Update list of commands in eclair-cli help (#1091) * Add missing API endpoints to eclair-cli help * Documentation update (#1092) * Typed amounts (#1088) * Route computation: fix fee check (#1101) Fee check during route computation is: - fee is below maximum value - OR fee is below amout * maximum percentage The second check was buggy and route computation would failed when fees we above maximum value but below maximum percentage of amount being paid. * Publish transactions during transitions (#1089) Follow up to #1082. The goal is to be able to publish transactions only after we have persisted the state. Otherwise we may run into corner cases like [1] where a refund tx has been published, but we haven't kept track of it and generate a different one (with different fees) the next time. As a side effect, we can now remove the special case that we were doing when publishing the funding tx, and remove the `store` function. NB: the new `calling` transition method isn't restricted to publishing transactions but that is the only use case for now. [1] https://github.com/ACINQ/eclair-mobile/issues/206 * Typed cltv expiry (#1104) Untyped cltv expiry was confusing: delta and absolute expiries really need to be handled differently. Even variable names were sometimes misleading. Now the compiler will help us catch errors early. * Extended queries optional (#899) This is the implementation of https://github.com/lightningnetwork/lightning-rfc/pull/557. * Correctly handle multiple channel_range_replies The scheme we use to keep tracks of channel queries with each peer would forget about missing data when several channel_range_replies are sent back for a single channel_range_queries. * RoutingSync: remove peer entry properly * Remove peer entry on our sync map only when we've received a `reply_short_channel_ids_end` message. * Make routing sync test more explicit * Do not send channel queries if we don't want to sync * Router: clean our sync state when we (re)connect to a peer We must clean up leftovers for the previous session and start the sync process again. * Router: reset sync state on reconnection When we're reconnected to a peer we will start a new sync process and should reset our sync state with that peer. * Extended Queries: use TLV format for optional data Optional query extensions now use TLV instead of a custom format. Flags are encoded as varint instead of bytes as originally proposed. With the current proposal they will all fit on a single byte, but will be much easier to extends this way. * TLV Stream: Implement a generic "get" method for TLV fields If a have a TLV stream of type MyTLV which is a subtype of TLV, and MyTLV1 and MYTLV2 are both subtypes of MyTLV then we can use stream.get[MyTLV1] to get the TLV record of type MYTLV1 (if any) in our TLV stream. * Channel range queries: send back node announcements if requested (#1108) This PR adds support for sending back node announcements when replying to channel range queries: - when explicitly requested (bit is set in the optional query flag) - when query flags are not used and a channel announcement is sent (as per the BOLTs) A new configuration option `request-node-announcements` has been added in the `router` section. If set to true, we will request node announcements when we receive a channel id (through channel range queries) that we don't know of. This is a setting that we will probably turn off on mobile devices. * Rework router data structures (#902) Instead of using two separate maps (for channels and channel_updates), we now use a single map, which groups channel+channel_updates. This is also true for data storage, resulting in the removal of the channel_updates table. * Add more numeric utilities to MilliSatoshi (#1103) Add comparisons and postfix operators. Update most of the codebase to leverage those. * Use unsigned comparison for 'maxHtlcValueInFlightMsat' (#1105) * Add a sync whitelist (#954) We will only sync with whilelisted peer. If the whitelist is empty then we sync with everyone. * Move http APIs to subproject eclair-node (#1102) * Fix regression in `Commitments.availableForSend` (#1107) We must consider `nextRemoteCommit` when applicable. This is a regression caused in #784. The core bug only exists when we have a pending unacked `commit_sig`, but since we only send the `AvailableBalanceChanged` event when sending a signature (not when receiving a revocation), actors relying on this event to know the current available balance (e.g. the `Relayer`) will have a wrong value in-between two outgoing sigs. * Bolt4: remove final_expiry_too_soon error message (#1106) It allowed probing attacks and the spec deprecated it in favor of IncorrectOrUnknownPaymentDetails. Also add better support for unknown failure messages. * Fix maven mirror (#1120) * Use Long to back the UInt64 type (#1109) * Define comparison operators between UInt64 and MilliSatoshi * Implement Bolt 11 invoice feature bits (#1121) lightningnetwork/lightning-rfc#656 introduced invoice feature bits as a pre-requisite for AMP and other advanced payment use-cases. * Update docker build (#1123) * Update docker base image to jdk11, update maven to 3.6.2 [ci skip] * Reject expired invoices before payment flow starts (#1117) * Made sync params configurable (#1124) This allows us to choose smaller parameters for tests and reduce cpu requirement during testing. NB: The default value of 3500 for `reply_channel_range` was wrong. Theoretical max is ~2700. * Activate support for variable-length onion (#1087) This is now enabled by default. We forward variable-length onions if we receive some. We accept variable-length payments. However for maximum compatibility with the network, we send payments using legacy payloads. * Add Semaphore CI (#1125) * Router computes network stats (#1116) * Add comments and fix warnings in graph processing * Add small feature to set the htlcMaximumMsat for routing hints (otherwise the graph processing algorithm used a minimum value which slightly reduced the benefits of those routing hints) * Add the computation of network statistics to the router: this will be useful for multi-part payments to decide what thresholds should be used to split a payment * Add monitoring with Kamon (disabled by default) (#1126) For now: - we only track some tasks (especially in the router, but not even `node_announcement` and `channel_update` - all db calls are monitored - kamon is disabled by default * Check funds in millisatoshi when sending/receiving an HTLC (#1128) Instead of satoshi, which could introduce rounding errors. Also, we check first the balance before the max-inflight amount, because it makes more sense in terms of error management. Co-Authored-By: Bastien Teinturier <31281497+t-bast@users.noreply.github.com> * Don't hardcode the channel version (#1129) Instead of hardcoding the channel version when we instantiate the `Commitments` object, we rather define it when the channel is instantiated. This is saner and prepares future usage. * Removed Globals class (#1127) This is a prerequisite to parallelization of tests. * Make tests run in parallel (#1112) There are two level of parallelization: - between test suites (a suite = a test file) - within a suite (depends on tests suites, some rely on sequential execution of tests, some don't) * Add codecov integration to semaphore CI (#1134) * Remove codecov integration from travis CI * Drop support for Java 8 (#1135) We already have Java 7 (for Android) and Java 11. Supporting Java 8 would require crossbuilding, which we are not doing (two recent PRs broke the build on Java 8). * Sphinx: accept invalid downstream errors (#1137) When a downstream node sends us an onion error with an invalid length, we must forward the failure. The recipient won't be able to extract the error but at least it knows the payment failed. * Update string to match on bitcoind while it's indexing (#1138) * Check for bitcoind's getrawtransaction availablilty during startup * Peer: disable kamon * Payment lifecycle refactoring (#1130) * Unify payment events (no more duplication between payment types and events) * Factorize DB and eventStream interactions: this paves the way for sub-payments that shouldn't be stored in the DB nor emit events. * Add more fields to the payments DB: * bolt 11 invoice for sent payment * external id (for app developers) * parent id (AMP) * target node id * fees * route (if success) * failures (if failed) * Re-work the PaymentsDb interface * Clarify use of seconds / milliseconds in DB interfaces -> milliseconds everywhere * Run SQL migrations inside transactions * Improve error handling when we couldn't find all the channels for a supplied route in /sendtoroute API (#1142) * Improve error handling when we couldn't find all the channels for a supplied route in /sendtoroute * Handle fees increases when channel is OFFLINE (#1080) * Add 'close-on-offline-feerate-mismatch' configuration to avoid closing offline channel when the feerate mismatch if over the threshold. * Derive channel keys from the channel funding pubkey (#1097) We now generate a random funding key for each new channel, and use its public key to deterministically derive all channel keys and secrets. This will let us easily recover funds using DLP even if we've lost everything but our seed: we just need to connect to the node we had a channel with, ask them to publish their commit tx, and once we see it on the blockchain we can extract our funding pubkey, recompute channel keys and spend our output. * Add a "funding pubkey path" option to the channel version field This option is checked when we need to compute channel keys. For old channels it won't be set, and we always set it for new ones. * ChannelVersion: make sure that all bits are set to 0 for legacy channels * ChannelVersion: USE_PUBKEY_KEYPATH is set by default * Check if remote funder can handle an updated commit fee when sending HTLC (#1084) If the sender of an htlc isn't the funder, then both sides will have to afford the payment: - the sender needs to be able to afford the htlc amount - the funder needs to be able to afford the greater commit tx fee incurred by the additional htlc output. Fixes #1081. Co-Authored-By: Pierre-Marie Padiou <pm47@users.noreply.github.com> * Fix and expand channel keypath (#1147) * Fix funding pubkey to channel key path computation Channel key path is generated from 8 bytes computed from our funding pubkey, but we extracted 4 uint32 values instead of 2 (last 2 were always 0). We now use 128 bits to derive channel key paths. * Add a channel key path compatibility test This test will fail if we change the way we compute channel key paths, which would break existing channels. * Use the same chain hash reference in all channel updates To save memory, once we check that a channel_update's chain hash matches what we expect we just replace it with a reference to our own chain hash. * Commitments: take HTLC fee into account (#1152) Our balance computation was slightly incorrect. If you want to know how much you can send (or receive), you need to take into account the fact that you'll add a new HTLC which adds weight to the commit tx (and thus adds fees). * Android: add a spray-based API to eclair-node This is a copy of the spray-based API developped by @araspitzu (akka-http does not work for akka 2.3 which we use on the android branch) * HTTP API: add type hints for payment status (#1150) Cleans up the JSON payment status (easier to interpret for callers). * Use "mock" Kamon library Kamon does not work on Android and does not make much sense, so we replace it with a basic Mock implementation that does nothing. * Electrum: improve coin selection (fixes #1146) (#1149) Our previous coin selection would sometimes fail when there was one wallet utxo and and low feerate, because our first pass used a fee estimate that was too high and could sometimes not be met. * Extend funding key path to 256 bits (#1154) Our random funding key path is now 8 * 32 bits plus a 1' (funder) or 0' (fundee). Channel key paths are computed from the sha256 of the funding public key (we take all 256 bits). * Use bitcoin 0.18.1 in the test (#1148) * Upgrade new unit tests to bitcoin 0.18.1 API (#1157) We had 2 open PRs, one that added new tests using the 0.API, one that switched to 0.18.1, when they were merged the new tests failed since they had not been upgraded.... * Update netty dependency to 4.1.32 (#1160) Also: * explicitely set endpoint identification algorithm in strict mode * force TLS protocols 1.2/1.3 in strict mode Co-Authored-By: Bastien Teinturier <31281497+t-bast@users.noreply.github.com> * Add execution time limit (#1161) * Android: wipe channels table during db migration We already wipe the updates table, and this make upgrading much simpler since we had different structures on android vs mater. * Activate extended channel range queries (#1165) By default we now set the `gossip_queries_ex` feature bit. We also change how we compare feature bits, and will use channel queries (or extended queries) only if the corresponding feature bit is set in both local and remote init messages. * Use guava to compute CRC32C checksums (#1166) CRC32C is not available in JDK 7 which we target on Android. |
||
|---|---|---|
| .github | ||
| .readme | ||
| .semaphore | ||
| contrib | ||
| eclair-core | ||
| eclair-node | ||
| .codecov.yml | ||
| .dockerignore | ||
| .gitignore | ||
| .travis.yml | ||
| BUILD.md | ||
| Dockerfile | ||
| LICENSE | ||
| pom.xml | ||
| README.md | ||
| TOR.md | ||
Eclair (French for Lightning) is a Scala implementation of the Lightning Network. It can run with or without a GUI, and a JSON API is also available.
This software follows the Lightning Network Specifications (BOLTs). Other implementations include c-lightning and lnd.
🚧 Both the BOLTs and Eclair itself are still a work in progress. Expect things to break/change!
🚨 If you run Eclair on mainnet (which is the default setting):
- Keep in mind that it is beta-quality software and don't put too much money in it
- Eclair's JSON API should NOT be accessible from the outside world (similarly to Bitcoin Core API)
Lightning Network Specification Compliance
Please see the latest release note for detailed information on BOLT compliance.
Overview
JSON API
Eclair offers a feature rich HTTP API that enables application developers to easily integrate.
For more information please visit the API documentation website.
Documentation
Please visit our wiki to find detailed instructions on how to configure your node, connect to other nodes, open channels, send and receive payments and more advanced scenario.
You will find detailed guides and frequently asked questions there.
Installation
Configuring Bitcoin Core
⚠️ Eclair requires Bitcoin Core 0.17.1 or higher. If you are upgrading an existing wallet, you need to create a new address and send all your funds to that address.
Eclair needs a synchronized, segwit-ready, zeromq-enabled, wallet-enabled, non-pruning, tx-indexing Bitcoin Core node.
Eclair will use any BTC it finds in the Bitcoin Core wallet to fund any channels you choose to open. Eclair will return BTC from closed channels to this wallet.
You can configure your Bitcoin Node to use either p2sh-segwit addresses or bech32 addresses, Eclair is compatible with both modes.
Run bitcoind with the following minimal bitcoin.conf:
server=1
rpcuser=foo
rpcpassword=bar
txindex=1
zmqpubrawblock=tcp://127.0.0.1:29000
zmqpubrawtx=tcp://127.0.0.1:29000
Installing Eclair
Eclair is developed in Scala, a powerful functional language that runs on the JVM, and is packaged as a JAR (Java Archive) file. We provide 2 different packages, which internally use the same core libraries:
- eclair-node, which is a headless application that you can run on servers and desktops, and control from the command line
- eclair-node-gui, which also includes a JavaFX GUI
To run Eclair, you first need to install Java, we recommend that you use OpenJDK 11. Other runtimes also work but we don't recommend using them.
Then download our latest release and depending on whether or not you want a GUI run the following command:
- with GUI:
java -jar eclair-node-gui-<version>-<commit_id>.jar
- without GUI:
java -jar eclair-node-<version>-<commit_id>.jar
Configuring Eclair
Configuration file
Eclair reads its configuration file, and write its logs, to ~/.eclair by default.
To change your node's configuration, create a file named eclair.conf in ~/.eclair. Here's an example configuration file:
eclair.node-alias=eclair
eclair.node-color=49daaa
Here are some of the most common options:
| name | description | default value |
|---|---|---|
| eclair.chain | Which blockchain to use: regtest, testnet or mainnet | mainnet |
| eclair.server.port | Lightning TCP port | 9735 |
| eclair.api.enabled | Enable/disable the API | false. By default the API is disabled. If you want to enable it, you must set a password. |
| eclair.api.port | API HTTP port | 8080 |
| eclair.api.password | API password (BASIC) | "" (must be set if the API is enabled) |
| eclair.bitcoind.rpcuser | Bitcoin Core RPC user | foo |
| eclair.bitcoind.rpcpassword | Bitcoin Core RPC password | bar |
| eclair.bitcoind.zmqblock | Bitcoin Core ZMQ block address | "tcp://127.0.0.1:29000" |
| eclair.bitcoind.zmqtx | Bitcoin Core ZMQ tx address | "tcp://127.0.0.1:29000" |
| eclair.gui.unit | Unit in which amounts are displayed (possible values: msat, sat, bits, mbtc, btc) | btc |
Quotes are not required unless the value contains special characters. Full syntax guide here.
→ see reference.conf for full reference. There are many more options!
Java Environment Variables
Some advanced parameters can be changed with java environment variables. Most users won't need this and can skip this section.
⚠️ Using separate datadir is mandatory if you want to run several instances of eclair on the same machine. You will also have to change ports in eclair.conf (see above).
| name | description | default value |
|---|---|---|
| eclair.datadir | Path to the data directory | ~/.eclair |
| eclair.headless | Run eclair without a GUI | |
| eclair.printToConsole | Log to stdout (in addition to eclair.log) |
For example, to specify a different data directory you would run the following command:
java -Declair.datadir=/tmp/node1 -jar eclair-node-gui-<version>-<commit_id>.jar
Logging
Eclair uses logback for logging. To use a different configuration, and override the internal logback.xml, run:
java -Dlogback.configurationFile=/path/to/logback-custom.xml -jar eclair-node-gui-<version>-<commit_id>.jar
Backup
The files that you need to backup are located in your data directory. You must backup:
- your seed (
seed.dat) - your channel database (
eclair.sqlite.bakunder directorymainnet,testnetorregtestdepending on which chain you're running on)
Your seed never changes once it has been created, but your channels will change whenever you receive or send payments. Eclair will
create and maintain a snapshot of its database, named eclair.sqlite.bak, in your data directory, and update it when needed. This file is
always consistent and safe to use even when Eclair is running, and this is what you should backup regularly.
For example you could configure a cron task for your backup job. Or you could configure an optional notification script to be called by eclair once a new database snapshot has been created, using the following option:
eclair.backup-notify-script = "/absolute/path/to/script.sh"
Make sure that your script is executable and uses an absolute path name for eclair.sqlite.bak.
Note that depending on your filesystem, in your backup process we recommend first moving eclair.sqlite.bak to some temporary file
before copying that file to your final backup location.
Docker
A Dockerfile image is built on each commit on docker hub for running a dockerized eclair-node.
You can use the JAVA_OPTS environment variable to set arguments to eclair-node.
docker run -ti --rm -e "JAVA_OPTS=-Xmx512m -Declair.api.binding-ip=0.0.0.0 -Declair.node-alias=node-pm -Declair.printToConsole" acinq/eclair
If you want to persist the data directory, you can make the volume to your host with the -v argument, as the following example:
docker run -ti --rm -v "/path_on_host:/data" -e "JAVA_OPTS=-Declair.printToConsole" acinq/eclair
If you enabled the API you can check the status of eclair using the command line tool:
docker exec <container_name> eclair-cli -p foobar getinfo
Plugins
For advanced usage, Eclair supports plugins written in Scala, Java, or any JVM-compatible language.
A valid plugin is a jar that contains an implementation of the Plugin interface.
Here is how to run Eclair with plugins:
java -jar eclair-node-<version>-<commit_id>.jar <plugin1.jar> <plugin2.jar> <...>
Testnet usage
Eclair is configured to run on mainnet by default, but you can still run it on testnet (or regtest): start your Bitcoin Node in
testnet mode (add testnet=1 in bitcoin.conf or start with -testnet), and change Eclair's chain parameter and Bitcoin RPC port:
eclair.chain=testnet
eclair.bitcoind.rpcport=18332
You may also want to take advantage of the new configuration sections in bitcoin.conf to manage parameters that are network specific,
so you can easily run your bitcoin node on both mainnet and testnet. For example you could use:
server=1
txindex=1
[main]
rpcuser=<your-mainnet-rpc-user-here>
rpcpassword=<your-mainnet-rpc-password-here>
zmqpubrawblock=tcp://127.0.0.1:29000
zmqpubrawtx=tcp://127.0.0.1:29000
[test]
rpcuser=<your-testnet-rpc-user-here>
rpcpassword=<your-testnet-rpc-password-here>
zmqpubrawblock=tcp://127.0.0.1:29001
zmqpubrawtx=tcp://127.0.0.1:29001
Resources
- [1] The Bitcoin Lightning Network: Scalable Off-Chain Instant Payments by Joseph Poon and Thaddeus Dryja
- [2] Reaching The Ground With Lightning by Rusty Russell
- [3] Lightning Network Explorer - Explore testnet LN nodes you can connect to