service-fills: add to README
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README.md
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README.md
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Overview
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========
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# Overview
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This project is about streaming Solana account updates for a specific program
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into other databases or event queues.
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@ -7,25 +6,26 @@ into other databases or event queues.
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Having an up to date version of all account data data in a database is
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particularly useful for queries that need access to all accounts. For example,
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retrieving the addresses of Mango Markets accounts with the largest unrealized
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PnL goes from "getProgramAccounts from a Solana node for 50MB of data and compute
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locally (3-10s total)" to "run a SQL query (150ms total)".
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PnL goes from "getProgramAccounts from a Solana node for 50MB of data and
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compute locally (3-10s total)" to "run a SQL query (150ms total)".
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The database could also be used as a backend for serving `getMultipleAccounts`
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and `getProgramAccounts` queries generally. That would reduce load on Solana RPCt
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nodes while decreasing response times.
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and `getProgramAccounts` queries generally. That would reduce load on Solana
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RPCt nodes while decreasing response times.
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Supported Solana sources:
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- Geyser plugin (preferred) plus JSONRPC HTTP API (for initial snapshots)
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Unfinished Solana sources:
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- JSONRPC websocket subscriptions plus JSONRPC HTTP API (for initial snapshots)
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Supported targets:
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- PostgreSQL
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Components
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==========
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# Components
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- [`geyser-plugin-grpc/`](geyser-plugin-grpc/)
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@ -49,15 +49,18 @@ Components
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A connector binary built on lib/ that decodes Mango account types before
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storing them in PostgeSQL.
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- [`service-mango-fills/`](service-mango-fills/)
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Setup Tutorial
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==============
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A service providing lowest-latency, bandwidth conserving access to fill events
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as they are processed by the rpc node.
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# Setup Tutorial
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1. Compile the project.
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Make sure that you are using _exactly_ the same Rust version for compiling the
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Geyser plugin that was used for compiling your `solana-validator`! Otherwise
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the plugin will crash the validator during startup!
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Make sure that you are using _exactly_ the same Rust version for compiling
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the Geyser plugin that was used for compiling your `solana-validator`!
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Otherwise the plugin will crash the validator during startup!
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2. Prepare the plugin configuration file.
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- `connection_string` for your `grpc_sources` must point to the gRPC server
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address configured for the plugin.
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- `rpc_http_url` must point to the JSON-RPC URL.
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- `connection_string` for your `posgres_target` uses [the tokio-postgres syntax](https://docs.rs/tokio-postgres/0.7.5/tokio_postgres/config/struct.Config.html)
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- `connection_string` for your `posgres_target` uses
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[the tokio-postgres syntax](https://docs.rs/tokio-postgres/0.7.5/tokio_postgres/config/struct.Config.html)
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- `program_id` must match what is configured for the gRPC plugin
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5. Prepare the PostgreSQL schema.
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@ -87,21 +91,19 @@ Setup Tutorial
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6. Start the connector service binary.
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Pass the path to the config file as the first argument. It logs to stdout.
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It should be restarted on exit. (it intentionally terminates when postgres is
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Pass the path to the config file as the first argument. It logs to stdout. It
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should be restarted on exit. (it intentionally terminates when postgres is
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unreachable for too long, for example)
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7. Monitor the logs
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`WARN` messages can be recovered from. `ERROR` messages need attention.
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Check the metrics for `account_write_queue` and `slot_update_queue`: They should
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be around 0. If they keep growing the service can't keep up and you'll need
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to figure out what's up.
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Check the metrics for `account_write_queue` and `slot_update_queue`: They
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should be around 0. If they keep growing the service can't keep up and you'll
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need to figure out what's up.
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Design and Reliability
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======================
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# Design and Reliability
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```
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Solana ---------------> Connector -----------> PostgreSQL
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@ -117,19 +119,17 @@ PostgeSQL target database.
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The Connector service is stateless (except for some caches). Restarting it is
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always safe.
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If the Solana node is down, the Connector service attempts to reconnect and
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then requests a new data snapshot if necessary.
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If the Solana node is down, the Connector service attempts to reconnect and then
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requests a new data snapshot if necessary.
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If PostgeSQL is down temporarily, the Connector service caches updates and
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applies them when the database is back up.
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If PostgreSQL is down for a longer time, the Connector service exits with
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an error. On restart, it pauses until PostgreSQL is back up, and then starts
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If PostgreSQL is down for a longer time, the Connector service exits with an
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error. On restart, it pauses until PostgreSQL is back up, and then starts
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pulling data from the Solana nodes again.
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PostgreSQL data layout
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======================
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# PostgreSQL data layout
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See `scripts/` for SQL that creates the target schema.
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@ -143,6 +143,7 @@ When new slots arrive, the `uncle` column is updated for "processed" and
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the chain.
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Example for querying confirmed data:
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```
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SELECT DISTINCT ON(pubkey_id)
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pubkey, account_write.*
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@ -156,3 +157,28 @@ ORDER BY pubkey_id, slot DESC, write_version DESC;
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For each pubkey, this gets the latest (most recent slot, most recent
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write_version) account data; limited to slots that are either rooted or
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(confirmed and not an uncle).
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# Fill Service Setup
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1. Prepare the connector configuration file.
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[Here is an example](service-mango-fills/example-config.toml).
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- `bind_ws_addr` is the listen port for the websocket clients
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- `rpc_ws_url` is unused and can stay empty.
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- `connection_string` for your `grpc_sources` must point to the gRPC server
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address configured for the plugin.
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- `rpc_http_url` must point to the JSON-RPC URL.
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- `program_id` must match what is configured for the gRPC plugin
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- `markets` need to contain all observed perp markets
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2. Start the service binary.
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Pass the path to the config file as the first argument. It logs to stdout. It
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should be restarted on exit.
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3. Monitor the logs
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`WARN` messages can be recovered from. `ERROR` messages need attention. The
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logs are very spammy changing the default log level is recommended when you
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dont want to analyze performance of the service.
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