c801a11190
* Fix name after API change
why:
Slipped through (debugging mode)
* Fine tuning error counters
why:
Previous operating mode was quite blunt and considered some unnecessary
condition. Error handling was invoked and the peer zombified where one
could have continued working with that peer.
* Provide `kvt` table API bypassing `FC`
details:
Not a full bypass yet
why:
As discussed on Discord:
Ideally, those would pass through fc as well, as thin wrappers around
the db calls, for now - later, we probably see some policy involved
here and at that point, fc will be responsible for arbitrage between
sources (ie if a rpc source sends the block the syncer is syncing
while the syncer is working, fc is there to referee

* Apply `kvt` API from `FC` to beacon sync
* No need to use extra table for persistent header cache state record
why:
Slot zero can do. This allows deleting that table wholesale when needed
once thatfeature is available.
* Logger updates
details:
+ Lifting main header/block op logs from `trace` to `debug`
+ Set metrics update before nano-sleep (for task switch)
Nimbus-eth1 -- Ethereum execution layer database architecture
Last update: 2024-03-08
The following diagram gives a simplified view how components relate with regards to the data storage management.
An arrow between components a and b (as in a->b) is meant to be read as a relies directly on b, or a is served by b. For classifying the functional type of a component in the below diagram, the abstraction type is enclosed in brackets after the name of a component.
-
(application)
This is a group of software modules at the top level of the hierarchy. In the diagram below, the EVM is used as an example. Another application might be the RPC service. -
(API)
The API classification is used for a thin software layer hiding a set of different drivers where only one driver is active for the same API instance. It servers as sort of a logical switch. -
(concentrator)
The concentrator merges several sub-module instances and provides their collected services as a single unified instance. There is not much additional logic implemented besides what the sub-modules provide. -
(driver)
The driver instances are sort of the lower layer workhorses. The implement logic for solving a particular problem, providing a typically well defined service, etc. -
(engine)
This is a bottom level driver in the below diagram.+-------------------+ | EVM (application) | +-------------------+ | | v | +-----------------------------+ | | State DB (concentrator) | | +-----------------------------+ | | | | v | | +------------------------+ | | | Ledger (API) | | | +------------------------+ | | | | | | v | | | +--------------+ | | | | ledger cache | | | | | (driver) | | | | +--------------+ | | | | v | | | +----------------+ | | | | Common | | | | | (concentrator) | | | | +----------------+ | | | | | | v v v v +---------------------------------------+ | Core DB (API) | +---------------------------------------+ | v +---------------------------------------+ | Aristo DB (driver,concentrator) | +---------------------------------------+ | | v v +--------------+ +---------------------+ | Kvt (driver) | | Aristo MPT (driver) | +--------------+ +---------------------+ | | v v +---------------------------------------+ | Rocks DB (engine) | +---------------------------------------+
Here is a list of path references for the components with some explanation. The sources for the components are not always complete but indicate the main locations where to start looking at.
-
-
Sources:
./nimbus/db/core_db/backend/aristo_* -
Synopsis:
Combines both, the Kvt and the Aristo driver sub-modules providing an interface similar to the legacy DB (concentrator) module.
-
-
-
Sources:
./nimbus/db/aristo* -
Synopsis:
Revamped implementation of a hexary Merkle Patricia Tree.
-
-
-
Sources:
./nimbus/common* -
Synopsis:
Collected information for running block chain execution layer applications.
-
-
-
Sources:
./nimbus/db/core_db* -
Synopsis:
Database abstraction layer. Unless for legacy applications, there should be no need to reach out to the layers below.
-
-
-
Sources:
./nimbus/core/executor/* ./nimbus/evm/* -
Synopsis:
An implementation of the Ethereum Virtual Machine.
-
-
-
Sources:
./vendor/nim-eth/eth/trie/hexary.nim -
Synopsis:
Implementation of an MPT, see compact Merkle Patricia Tree.
-
-
-
Sources:
./vendor/nim-eth/eth/trie/db.nim -
Synopsis:
Key value table interface to be used directly for key-value storage or by the Hexary DB (driver) module for storage. Some magic is applied in order to treat hexary data accordingly (based on key length.)
-
-
-
Sources:
./nimbus/db/kvt* -
Synopsis:
Key value table interface for the Aristo DB (driver) module. Contrary to the Key-value table (driver), it is not used for MPT data.
-
-
-
Sources:
./nimbus/db/ledger* -
Synopsis:
Abstraction layer for either the legacy cache (driver) accounts cache (which works with the legacy DB (driver) backend only) or the ledger cache (driver) re-write which is supposed to work with all Core DB (API) backends.
-
-
-
Sources:
./nimbus/db/ledger/accounts_ledger.nim
./nimbus/db/ledger/backend/accounts_ledger*
./nimbus/db/ledger/distinct_ledgers.nim -
Synopsis:
Management of accounts and storage data. This is a re-write of the legacy DB (driver) which is supposed to work with all Core DB (API) backends.
-
-
-
Sources:
./nimbus/db/core_db/backend/legacy_* -
Synopsis:
Legacy database abstraction. It mostly forwards requests directly to the to the Key-value table (driver) and/or the hexary DB (driver).
-
-
-
Sources:
./vendor/nim-rocksdb/* -
Synopsis:
Persistent storage engine.
-
-
-
Sources:
./nimbus/evm/state.nim
./nimbus/evm/types.nim -
Synopsis:
Integrated collection of modules and methods relevant for the EVM.
-