2018-08-01 07:49:06 -06:00
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# Blockbook Contributor Guide
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Blockbook is back-end service for Trezor wallet. Although it is open source, design and development of core packages
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is done by Trezor developers in order to keep Blockbook compatible with Trezor. If you feel you could use Blockbook
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for another purposes, we recommend you to make a fork.
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However you can still help us find bugs or add support for new coins.
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## Development environment
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Instructions to set up your development environment and build Blockbook are described in separated
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[document](/docs/build.md).
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## How can I contribute?
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### Reporting bugs
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### Adding coin support
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Trezor harware wallet supports over 500 coins, see https://trezor.io/coins/. You are free to add support for any of
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them to Blockbook. Actually implemented coins are listed [here](/docs/ports.md).
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You should follow few steps bellow to get smooth merge of your PR.
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> Altough we are happy for support of new coins we have not enough capacity to run them all on our infrastructure.
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> Actually we can run Blockbook instances only for coins supported by Trezor wallet. If you want to have Blockbook
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> instance for your coin, you will have to deploy your own server.
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#### Add coin definition
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Coin definitions are stored in JSON files in *configs/coins* directory. They are single source of Blockbook
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configuration, Blockbook and back-end package definition and build metadata. Since Blockbook supports only single
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coin index per running instance, every coin (including testnet) must have single definition file.
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All options of coin definition are described in [config.md](/docs/config.md).
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Because most of coins are fork of Bitcoin and they have similar way to install and configure their daemon, we use
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templates to generate package definition and configuration files during build process. It is similar to build Blockbook
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package too. Templates are filled with data from coin definition. Although build process generate packages
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automatically, there is sometimes necessary see intermediate step. You can generate all files by calling
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`go run build/templates/generate.go coin` where *coin* is name of definition file without .json extension. Files are
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generated to *build/pkg-defs* directory.
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Good examples of coin configuration are
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[*configs/coins/bitcoin.json*](configs/coins/bitcoin.json) and
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[*configs/coins/ethereum.json*](configs/coins/ethereum.json) for Bitcoin-like coins and different coins, respectively.
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Usually you have to update only few options that differ from Bitcoin definition. At first there are base information
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about coin in section *coin* – name, alias etc. Then update port information in *port* section. We keep port series as
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listed in [port registry](/docs/ports.md). Select next port numbers in series. Port numbers must be unique across all
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port definitions.
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In section *backend* update information how to build and configure backend service. When back-end package is built,
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build process downloads installation archive, verify and extract it. How it is done is described in
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[build guide](/docs/build.md#on-back-end-building). Naming conventions and versioning are described
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also in [build guide](/docs/build.md#on-naming-conventions-and-versioning). You have to update *package_name*,
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*package_revision*, *system_user*, *version*, *binary_url*, *verification_type*, *verification_source*, *extract_command* and
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*exclude_files*. Also update information whether service runs mainnet or testnet network in *mainnet* option.
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In section *blockbook* update information how to build and configure Blockbook service. Usually they are only
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*package_name*, *system_user* and *explorer_url* options. Naming conventions are are described
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[here](/docs/build.md#on-naming-conventions-and-versioning).
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Update *package_maintainer* and *package_maintainer_email* options in section *meta*.
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2018-08-10 02:46:32 -06:00
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Execute script *contrib/scripts/check-ports.go* that will check mandatory ports and uniquity of registered ports.
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2018-08-01 07:49:06 -06:00
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Execute script *contrib/scripts/generate-port-registry.go* that will update *docs/ports.md*.
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Now you can try generate package definitions as described above in order to check outputs.
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#### Add coin implementation
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2018-08-16 08:53:27 -06:00
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Coin implementation is stored in *bchain/coins* directory. Each coin must implement interfaces *BlockChain* and
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*BlockChainParser* (both defined in [bchain/types.go][/bchain/types.go]) and has registered factory function by
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*init()* function of package *blockbook/bchain/coins* ([bchain/coins/blockchain.go](/bchain/coins/blockchain.go)).
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There are several approaches how to implement coin support in Blockbook, please see examples below.
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Bitcoin package *blockbook/bchain/coins/btc* is reference implementation for Bitcoin-like coins. Most of functinality is
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same so particular coin should embed it and override just different parts.
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Bitcoin uses binary WIRE protocol thus decoding is very fast but require complex parser. Parser translate whole
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pubkey-script to databse ID and therefore it is usually possible store transactions without change.
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ZCash package *blockbook/bchain/coins/zec* on the other side uses JSON version of RPCs therefore it dosn't require
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specialized parser. Only responsibility that parser has is to translate address to database ID and vice versa.
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Ethereum package *blockbook/bchain/coins/eth* must have stand alone implementation because Ethereum uses totally
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different concept than Bitcoin.
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##### BlockChain interface
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Type that implements *bchain.BlockChain* interface ensures communication with block chain network. Because
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it calls node RPCs it usually has suffix RPC.
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Initialization of object is separated into two stages. At first there is called factory method (details described
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in next section) and then *bchain.BlockChain.Initialize()* method. Separated initialization method allows you call
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inherited methods during initialization. However it is common practice override fields of embedded structure in factory
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method.
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During initialization, there is usually loaded chain information, registered message queue callback and created mempool
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and parser objects.
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BitcoinRPC uses *btc.RPCMarshaller* ([btc/codec.go](/bchain/coins/btc/codec.go)) in order to distinguish API version of
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Bitcoin RPC. Current API (*btc.JSONMarshalerV2*) uses JSON object with method arguments. Older API (*btc.JSONMarshalerV1*)
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uses JSON array with method arguments and some arguments are defined differently (e.g. bool vs int).
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For example see [zec/zcashrpc.go](/bchain/coins/zec/zcashrpc.go).
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##### BlockChain factory function
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Factory function must be *coins.blockChainFactory* type ([coins/blockchain.go](/bchain/coins/blockchain.go)). It gets
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configuration as JSON object and handler function for PUSH notifications. All factory functions have registered by
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*init()* function of package *blockbook/bchain/coins* ([coins/blockchain.go](/bchain/coins/blockchain.go)). Coin name
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must correspond to *coin.name* in coin definition file (see above).
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Configuration passed to factory method is coin specific. For types that embed *btc.BitcoinRPC,* configuration must
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contain at least fields referred in *btc.Configuration* ([btc/bitcoinrpc.go](/bchain/coins/btc/bitcoinrpc.go)).
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For types that embed base struct it is common practise call factory method of embedded type in order to
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create & initialize it. It is much more robust than simple struct composition.
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For example see [zec/zcashrpc.go](/bchain/coins/zec/zcashrpc.go).
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##### BlockChainParser interface
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Type that implements *bchain.BlockChainParser* interface ensures parsing and conversions of block chain data. It is
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initialized by *bchain.BlockChain* during initialization.
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There are several groups of methods defined in *bchian.BlockChainParser*:
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* *GetAddrIDFromVout* and *GetAddrIDFromAddress* – Convert transaction addresses to *[]byte* ID that is used as database ID.
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Most of coins use pubkey-script as ID.
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* *AddressToOutputScript* and *OutputScriptToAddresses* – Convert address to output script and vice versa. Note that
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*btc.BitcoinParser* uses pointer to function *OutputScriptToAddressesFunc* that is called from *OutputScriptToAddress*
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method in order to rewrite implementation by types embdedding it.
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* *PackTxid* and *UnpackTxid* – Packs txid to store in database and vice versa.
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* *ParseTx* and *ParseTxFromJson* – Parse transaction from binary data or JSON and return *bchain.Tx.
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* PackTx* and *UnpackTx* – Pack transaction to binary data to store in database and vice versa.
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* *ParseBlock* – Parse block from binary data and return *bchain.Block*.
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Base type of parsers is *bchain.BaseParser*. It implements method *ParseTxFromJson* that would be same for all
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Bitcoin-like coins. Also implements *PackTx* and *UnpackTx* that pack and unpack transactions using protobuf. Note
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that Bitcoin store transactions in hex format.
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*bchain.BaseParser* stores pointer to function *bchain.AddressFactoryFunc* that is responsible for making human readable
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address representation. See [*bch.BCashParser*](/bchain/coins/bch/bcashparser.go) for example of implementation that uses
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different approach for address representation than Bitcoin.
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2018-08-01 07:49:06 -06:00
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#### Add tests
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2018-08-18 07:53:33 -06:00
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Add unit tests and integration tests. Tests are described [here](/docs/testing.md).
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2018-08-01 07:49:06 -06:00
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#### Deploy public server
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2018-08-18 07:53:33 -06:00
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Deploy Blockbook server on public IP addres. Blockbook maintainers will check implementation before merging.
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