136 lines
7.9 KiB
Markdown
136 lines
7.9 KiB
Markdown
# ipfs-blockchain-watcher architecture
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1. [Processes](#processes)
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1. [Command](#command)
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1. [Configuration](#config)
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1. [Database](#database)
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1. [APIs](#apis)
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1. [Resync](#resync)
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1. [IPFS Considerations](#ipfs-considerations)
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## Processes
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ipfs-blockchain-watcher is a [service](../pkg/watch/service.go#L61) comprised of the following interfaces:
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* [Payload Fetcher](../pkg/shared/interfaces.go#L29): Fetches raw chain data from a half-duplex endpoint (HTTP/IPC), used for historical data fetching. ([BTC](../pkg/btc/payload_fetcher.go), [ETH](../pkg/eth/payload_fetcher.go)).
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* [Payload Streamer](../pkg/shared/interfaces.go#L24): Streams raw chain data from a full-duplex endpoint (WebSocket/IPC), used for syncing data at the head of the chain in real-time. ([BTC](../pkg/btc/http_streamer.go), [ETH](../pkg/eth/streamer.go)).
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* [Payload Converter](../pkg/shared/interfaces.go#L34): Converters raw chain data to an intermediary form prepared for IPFS publishing. ([BTC](../pkg/btc/converter.go), [ETH](../pkg/eth/converter.go)).
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* [IPLD Publisher](../pkg/shared/interfaces.go#L39): Publishes the converted data to IPFS, returning their CIDs and associated metadata for indexing. ([BTC](../pkg/btc/publisher.go), [ETH](../pkg/eth/publisher.go)).
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* [CID Indexer](../pkg/shared/interfaces.go#L44): Indexes CIDs in Postgres with their associated metadata. This metadata is chain specific and selected based on utility. ([BTC](../pkg/btc/indexer.go), [ETH](../pkg/eth/indexer.go)).
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* [CID Retriever](../pkg/shared/interfaces.go#L54): Retrieves CIDs from Postgres by searching against their associated metadata, is used to lookup data to serve API requests/subscriptions. ([BTC](../pkg/btc/retriever.go), [ETH](../pkg/eth/retriever.go)).
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* [IPLD Fetcher](../pkg/shared/interfaces.go#L62): Fetches the IPLDs needed to service API requests/subscriptions from IPFS using retrieved CIDS; can route through a IPFS block-exchange to search for objects that are not directly available. ([BTC](../pkg/btc/ipld_fetcher.go), [ETH](../pkg/eth/ipld_fetcher.go))
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* [Response Filterer](../pkg/shared/interfaces.go#L49): Filters converted data payloads served to API subscriptions; filters according to the subscriber provided parameters. ([BTC](../pkg/btc/filterer.go), [ETH](../pkg/eth/filterer.go)).
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* [API](https://github.com/ethereum/go-ethereum/blob/master/rpc/types.go#L31): Expose RPC methods for clients to interface with the data. Chain-specific APIs should aim to recapitulate as much of the native API as possible. ([VDB](../pkg/api.go), [ETH](../pkg/eth/api.go)).
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Appropriating the service for a new chain is done by creating underlying types to satisfy these interfaces for
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the specifics of that chain.
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The service uses these interfaces to operate in any combination of three modes: `sync`, `serve`, and `backfill`.
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* Sync: Streams raw chain data at the head, converts and publishes it to IPFS, and indexes the resulting set of CIDs in Postgres with useful metadata.
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* BackFill: Automatically searches for and detects gaps in the DB; fetches, converts, publishes, and indexes the data to fill these gaps.
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* Serve: Opens up IPC, HTTP, and WebSocket servers on top of the ipfs-blockchain-watcher DB and any concurrent sync and/or backfill processes.
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These three modes are all operated through a single vulcanizeDB command: `watch`
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## Command
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Usage: `./ipfs-blockchain-watcher watch --config={config.toml}`
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Configuration can also be done through CLI options and/or environmental variables.
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CLI options can be found using `./ipfs-blockchain-watcher watch --help`.
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## Config
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Below is the set of universal config parameters for the ipfs-blockchain-watcher command, in .toml form, with the respective environmental variables commented to the side.
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This set of parameters needs to be set no matter the chain type.
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```toml
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[database]
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name = "vulcanize_public" # $DATABASE_NAME
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hostname = "localhost" # $DATABASE_HOSTNAME
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port = 5432 # $DATABASE_PORT
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user = "vdbm" # $DATABASE_USER
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password = "" # $DATABASE_PASSWORD
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[ipfs]
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path = "~/.ipfs" # $IPFS_PATH
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mode = "direct" # $IPFS_MODE
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[watcher]
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chain = "bitcoin" # $SUPERNODE_CHAIN
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server = true # $SUPERNODE_SERVER
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ipcPath = "~/.vulcanize/vulcanize.ipc" # $SUPERNODE_IPC_PATH
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wsPath = "127.0.0.1:8082" # $SUPERNODE_WS_PATH
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httpPath = "127.0.0.1:8083" # $SUPERNODE_HTTP_PATH
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sync = true # $SUPERNODE_SYNC
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workers = 1 # $SUPERNODE_WORKERS
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backFill = true # $SUPERNODE_BACKFILL
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frequency = 45 # $SUPERNODE_FREQUENCY
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batchSize = 1 # $SUPERNODE_BATCH_SIZE
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batchNumber = 50 # $SUPERNODE_BATCH_NUMBER
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timeout = 300 # $HTTP_TIMEOUT
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validationLevel = 1 # $SUPERNODE_VALIDATION_LEVEL
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```
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Additional parameters need to be set depending on the specific chain.
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For Bitcoin:
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```toml
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[bitcoin]
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wsPath = "127.0.0.1:8332" # $BTC_WS_PATH
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httpPath = "127.0.0.1:8332" # $BTC_HTTP_PATH
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pass = "password" # $BTC_NODE_PASSWORD
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user = "username" # $BTC_NODE_USER
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nodeID = "ocd0" # $BTC_NODE_ID
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clientName = "Omnicore" # $BTC_CLIENT_NAME
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genesisBlock = "000000000019d6689c085ae165831e934ff763ae46a2a6c172b3f1b60a8ce26f" # $BTC_GENESIS_BLOCK
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networkID = "0xD9B4BEF9" # $BTC_NETWORK_ID
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```
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For Ethereum:
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```toml
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[ethereum]
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wsPath = "127.0.0.1:8546" # $ETH_WS_PATH
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httpPath = "127.0.0.1:8545" # $ETH_HTTP_PATH
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nodeID = "arch1" # $ETH_NODE_ID
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clientName = "Geth" # $ETH_CLIENT_NAME
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genesisBlock = "0xd4e56740f876aef8c010b86a40d5f56745a118d0906a34e69aec8c0db1cb8fa3" # $ETH_GENESIS_BLOCK
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networkID = "1" # $ETH_NETWORK_ID
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```
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## Database
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Currently, ipfs-blockchain-watcher persists all data to a single Postgres database. The migrations for this DB can be found [here](../../db/migrations).
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Chain-specific data is populated under a chain-specific schema (e.g. `eth` and `btc`) while shared data- such as the IPFS blocks table- is populated under the `public` schema.
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Subsequent watchers which act on the raw chain data should build and populate their own schemas or separate databases entirely.
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In the future, the database architecture will be moving to a foreign table based architecture wherein a single db is used for shared data while each watcher uses
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its own database and accesses and acts on the shared data through foreign tables. Isolating watchers to their own databases will prevent complications and
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conflicts between watcher db migrations.
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## APIs
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ipfs-blockchain-watcher provides mutliple types of APIs by which to interface with its data.
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More detailed information on the APIs can be found [here](apis.md).
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## Resync
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A separate command `resync` is available for directing the resyncing of data within specified ranges.
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This is useful if there is a need to re-validate a range of data using a new source or clean out bad/deprecated data.
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More detailed information on this command can be found [here](resync.md).
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## IPFS Considerations
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Currently the IPLD Publisher and Fetcher can either use internalized IPFS processes which interface with a local IPFS repository, or can interface
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directly with the backing Postgres database.
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Both these options circumvent the need to run a full IPFS daemon with a [go-ipld-eth](https://github.com/ipfs/go-ipld-eth) or [go-ipld-btc](https://github.com/ipld/go-ipld-btc) plugin.
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The former approach can lead to issues with lock-contention on the IPFS repo if another IPFS process is configured and running at the same $IPFS_PATH, it also necessitates the need for
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a locally configured IPFS repository. The later bypasses the need for a configured IPFS repository/$IPFS_PATH and allows all Postgres write operations at a given block height
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to occur in a single transaction, the only disadvantage is that by avoiding moving through an IPFS node intermediary the direct ability to reach out to the block
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exchange for data not found locally is lost.
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Once go-ipld-eth and go-ipld-btc have been updated to work with a modern version of PG-IPFS, an additional option will be provided to direct
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all publishing and fetching of IPLD objects through a remote IPFS daemon. |