When the capabilities of the generic contractWatcher
are not sufficient, custom transformers tailored to a specific
purpose can be leveraged.
Individual custom transformers can be composed together from any number of external repositories and executed as a
single process using the compose
and execute
commands or the composeAndExecute
command. This is accomplished by
generating a Go plugin which allows the vulcanizedb
binary to link to the external transformers, so long as they
abide by one of the standard interfaces.
For help with writing different types of custom transformers please see below:
Storage Transformers: transform data derived from contract storage tries
Event Transformers: transform data derived from Ethereum log events
Contract Transformers: transform data derived from Ethereum log events and use it to poll public contract methods
To plug in an external transformer we need to:
- Create a package that exports a variable
TransformerInitializer
,StorageTransformerInitializer
, orContractTransformerInitializer
that are of type TransformerInitializer or StorageTransformerInitializer, or ContractTransformerInitializer, respectively - Design the transformers to work in the context of their event, storage, or contract watcher execution modes
- Create db migrations to run against vulcanizeDB so that we can store the transformer output
- Do not
goose fix
the transformer migrations, this is to ensure they are always ran after the core vulcanizedb migrations which are kept in their fixed form - Specify migration locations for each transformer in the config with the
exporter.transformer.migrations
fields - If the base vDB migrations occupy this path as well, they need to be in their
goose fix
ed form as they are here
- Do not
To update a plugin repository with changes to the core vulcanizedb repository, use your dependency manager to install the desired version of vDB.
-
The
compose
,execute
,composeAndExecute
commands require Go 1.11+ and use [Go plugins](https://golang .org/pkg/plugin/) which only work on Unix-based systems. -
There is an ongoing conflict between Go plugins and the use of vendored dependencies which imposes certain limitations on how the plugins are built.
-
Separate
compose
andexecute
commands allow pre-building and linking to the pre-built .so file. So, if these are run independently, instead of usingcomposeAndExecute
, a couple of things need to be considered:- It is necessary that the .so file was built with the same exact dependencies that are present in the execution
environment, i.e. we need to
compose
andexecute
the plugin .so file with the same exact version of vulcanizeDB. - The plugin migrations are run during the plugin's composition. As such, if
execute
is used to run a prebuilt .so in a different environment than the one it was composed in, then the database structure will need to be loaded into the environment's Postgres database. This can either be done by manually loading the plugin's schema into Postgres, or by manually running the plugin's migrations.
- It is necessary that the .so file was built with the same exact dependencies that are present in the execution
environment, i.e. we need to
-
The
compose
andcomposeAndExecute
commands assume you are in the vulcanizdb directory located at your system's$GOPATH
, and that the plugin dependencies are present at their$GOPATH
directories. -
The
execute
command does not require the plugin transformer dependencies be located in their$GOPATH
directories, instead it expects a .so file (of the name specified in the config file) to be in$GOPATH/src/github.com/vulcanize/vulcanizedb/plugins/
and, as noted above, also expects the plugin db migrations to have already been ran against the database. -
Usage:
-
compose:
./vulcanizedb compose --config=environments/config_name.toml
-
execute:
./vulcanizedb execute --config=environments/config_name.toml
-
composeAndExecute:
./vulcanizedb composeAndExecute --config=environments/config_name.toml
-
The execute
and composeAndExecute
commands can be passed optional flags to specify the operation of the watchers:
-
--recheck-headers
/-r
- specifies whether to re-check headers for events after the header has already been queried for watched logs. Can be useful for redundancy if you suspect that your node is not always returning all desired logs on every query. Argument is expected to be a boolean: e.g.-r=true
. Defaults tofalse
. -
query-recheck-interval
/-q
- specifies interval for re-checking storage diffs that haven been queued for later processing (by default, the storage watched queues storage diffs if transformer execution fails, on the assumption that subsequent data derived from the event transformers may enable us to decode storage keys that we don't recognize right now). Argument is expected to be a duration (integer measured in nanoseconds): e.g.-q=10m30s
(for 10 minute, 30 second intervals). Defaults to5m
(5 minutes).
A .toml config file is specified when executing the commands. The config provides information for composing a set of transformers from external repositories:
[database]
name = "vulcanize_public"
hostname = "localhost"
user = "vulcanize"
password = "vulcanize"
port = 5432
[client]
ipcPath = "/Users/user/Library/Ethereum/geth.ipc"
<<<<<<< HEAD
wsPath = "ws://127.0.0.1:8546"
=======
wsPath = "http://127.0.0.1:"
>>>>>>> review fixes
[exporter]
home = "github.com/vulcanize/vulcanizedb"
name = "exampleTransformerExporter"
save = false
transformerNames = [
"transformer1",
"transformer2",
"transformer3",
"transformer4",
]
[exporter.transformer1]
path = "path/to/transformer1"
type = "eth_event"
repository = "github.com/account/repo"
migrations = "db/migrations"
rank = "0"
[exporter.transformer2]
path = "path/to/transformer2"
type = "eth_contract"
repository = "github.com/account/repo"
migrations = "db/migrations"
rank = "0"
[exporter.transformer3]
path = "path/to/transformer3"
type = "eth_event"
repository = "github.com/account/repo"
migrations = "db/migrations"
rank = "0"
[exporter.transformer4]
path = "path/to/transformer4"
type = "eth_storage"
repository = "github.com/account2/repo2"
migrations = "to/db/migrations"
rank = "1"
home
is the name of the package you are building the plugin for, in most cases this is github.com/vulcanize/vulcanizedbname
is the name used for the plugin files (.so and .go)save
indicates whether or not the user wants to save the .go file instead of removing it after .so compilation. Sometimes useful for debugging/trouble-shooting purposes.transformerNames
is the list of the names of the transformers we are composing together, so we know how to access their submaps in the exporter mapexporter.<transformerName>
s are the sub-mappings containing config info for the transformersrepository
is the path for the repository which contains the transformer and itsTransformerInitializer
path
is the relative path fromrepository
to the transformer'sTransformerInitializer
directory (initializer package).- Transformer repositories need to be cloned into the user's $GOPATH (
go get
)
- Transformer repositories need to be cloned into the user's $GOPATH (
type
is the type of the transformer; indicating which type of watcher it works with (for now, there are only two options:eth_event
andeth_storage
)eth_storage
indicates the transformer works with the storage watcher that fetches state and storage diffs from an ETH node (instead of, for example, from IPFS)eth_event
indicates the transformer works with the event watcher that fetches event logs from an ETH nodeeth_contract
indicates the transformer works with the contract watcher that is made to work with contract_watcher pkg based transformers which work with either a header or full sync vDB to watch events and poll public methods (example1, example2)
migrations
is the relative path fromrepository
to the db migrations directory for the transformerrank
determines the order that migrations are ran, with lower ranked migrations running first- this is to help isolate any potential conflicts between transformer migrations
- start at "0"
- use strings
- don't leave gaps
- transformers with identical migrations/migration paths should share the same rank
- Note: If any of the imported transformers need additional config variables those need to be included as well
- Note: If the storage transformers are processing storage diffs from geth, we need to configure the websocket endpoint
client.wsPath
for them
This information is used to write and build a Go plugin which exports the configured transformers. These transformers are loaded onto their specified watchers and executed.
Transformers of different types can be run together in the same command using a single config file or in separate instances using different config files
The general structure of a plugin .go file, and what we would see built with the above config is shown below
package main
import (
interface1 "github.com/vulcanize/vulcanizedb/libraries/shared/transformer"
transformer1 "github.com/account/repo/path/to/transformer1"
transformer2 "github.com/account/repo/path/to/transformer2"
transformer3 "github.com/account/repo/path/to/transformer3"
transformer4 "github.com/account2/repo2/path/to/transformer4"
)
type exporter string
var Exporter exporter
func (e exporter) Export() []interface1.EventTransformerInitializer, []interface1.StorageTransformerInitializer, []interface1.ContractTransformerInitializer {
return []interface1.TransformerInitializer{
transformer1.TransformerInitializer,
transformer3.TransformerInitializer,
}, []interface1.StorageTransformerInitializer{
transformer4.StorageTransformerInitializer,
}, []interface1.ContractTransformerInitializer{
transformer2.TransformerInitializer,
}
}
Storage transformers stream data from a geth subscription or parity csv file where the storage diffs are produced and emitted as the full sync progresses. If the transformers have missed consuming a range of diffs due to lag in the startup of the processes or due to misalignment of the sync, we can configure our storage transformers to backfill missing diffs from a modified archival geth client.
To do so, add the following field to the config file.
[storageBackFill]
on = false
on
is set totrue
to turn the backfill process on
This process uses the regular client.ipcPath
rpc path, it assumes that it is either an http or ipc path that supports the StateDiffAt
endpoint.