81e75622cf
The state and account MPT:s currenty share key space in the database based on that vertex id:s are assigned essentially randomly, which means that when two adjacent slot values from the same contract are accessed, they might reside at large distance from each other. Here, we prefix each vertex id by its root causing them to be sorted together thus bringing all data belonging to a particular contract closer together - the same effect also happens for the main state MPT whose nodes now end up clustered together more tightly. In the future, the prefix given to the storage keys can also be used to perform range operations such as reading all the storage at once and/or deleting an account with a batch operation. Notably, parts of the API already supported this rooting concept while parts didn't - this PR makes the API consistent by always working with a root+vid. |
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.. | ||
aristo | ||
core_db | ||
era1_db | ||
kvt | ||
ledger | ||
.gitignore | ||
README.md | ||
access_list.nim | ||
aristo.nim | ||
core_db.nim | ||
era1_db.nim | ||
kvstore_rocksdb.nim | ||
kvt.nim | ||
ledger.nim | ||
opts.nim | ||
storage_types.nim | ||
transient_storage.nim |
README.md
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.
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(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.
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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.
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-
-
Sources:
./nimbus/db/aristo* -
Synopsis:
Revamped implementation of a hexary Merkle Patricia Tree.
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-
-
Sources:
./nimbus/common* -
Synopsis:
Collected information for running block chain execution layer applications.
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-
-
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.
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-
-
Sources:
./nimbus/core/executor/* ./nimbus/evm/* -
Synopsis:
An implementation of the Ethereum Virtual Machine.
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-
-
Sources:
./vendor/nim-eth/eth/trie/hexary.nim -
Synopsis:
Implementation of an MPT, see compact Merkle Patricia Tree.
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-
-
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.)
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-
-
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.
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-
-
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.
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-
-
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.
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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).
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-
-
Sources:
./vendor/nim-rocksdb/* -
Synopsis:
Persistent storage engine.
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-
-
Sources:
./nimbus/evm/state.nim
./nimbus/evm/types.nim -
Synopsis:
Integrated collection of modules and methods relevant for the EVM.
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