#### `Ethdb` package hold's bouquet of objects to access DB Words "KV" and "DB" have special meaning here: - KV - key-value-style API to access data: let developer manage transactions, stateful cursors. - DB - object-oriented-style API to access data: Get/Put/Delete/WalkOverTable/MultiPut, managing transactions internally. So, DB abstraction fits 95% times and leads to more maintainable code - because it looks stateless. About "key-value-style": Modern key-value databases don't provide Get/Put/Delete methods, because it's very hard-drive-unfriendly - it pushes developers do random-disk-access which is [order of magnitude slower than sequential read](https://www.seagate.com/sg/en/tech-insights/lies-damn-lies-and-ssd-benchmark-master-ti/). To enforce sequential-reads - introduced stateful cursors/iterators - they intentionally look as file-api: open_cursor/seek/write_data_from_current_position/move_to_end/step_back/step_forward/delete_key_on_current_position/append. ## Class diagram: ```asciiflow.com // This is not call graph, just show classes from low-level to high-level. // And show which classes satisfy which interfaces. +-----------------------------------+ +-----------------------------------+ | github.com/torquem-ch/mdbx-go | | google.golang.org/grpc.ClientConn | | (app-agnostic MDBX go bindings) | | (app-agnostic RPC and streaming) | +-----------------------------------+ +-----------------------------------+ | | | | v v +-----------------------------------+ +-----------------------------------+ | ethdb/kv_mdbx.go | | ethdb/kv_remote.go | | (tg-specific MDBX implementaion) | | (tg-specific remote DB access) | +-----------------------------------+ +-----------------------------------+ | | | | v v +----------------------------------------------------------------------------------------------+ | ethdb/kv_abstract.go | | (Common KV interface. DB-friendly, disk-friendly, cpu-cache-friendly. | | Same app code can work with local or remote database. | | Allows experiment with another database implementations. | | Supports context.Context for cancelation. Any operation can return error) | +----------------------------------------------------------------------------------------------+ | | | | | | v v v +-----------------------------------+ +-----------------------------------+ +-----------------------------------+ | ethdb/object_db.go | | ethdb/tx_db.go | | ethdb/remote/remotedbserver | | (thread-safe, stateless, | | (non-thread-safe, more performant | | (grpc server, using kv_abstract, | | opens/close short transactions | | than object_db, method Begin | | kv_remote call this server, 1 | | internally when need) | | DOESN'T create new TxDb object) | | transaction maps on 1 grpc stream | +-----------------------------------+ +-----------------------------------+ +-----------------------------------+ | | | | v v +-----------------------------------------------------------------------------------------------+ | ethdb/interface.go | | (Common DB interfaces. ethdb.Database and ethdb.DbWithPendingMutations are widely used) | +-----------------------------------------------------------------------------------------------+ | | v +--------------------------------------------------+ | ethdb/mutation.go | | (also known as "batch", recording all writes and | | them flush to DB in sorted way only when call | | .Commit(), use it to avoid random-writes. | | It use and satisfy ethdb.Database in same time | +--------------------------------------------------+ ``` ## ethdb.AbstractKV design: - InMemory, ReadOnly: `NewMDBX().Flags(mdbx.ReadOnly).InMem().Open()` - MultipleDatabases, Customization: `NewMDBX().Path(path).WithBucketsConfig(config).Open()` - 1 Transaction object can be used only within 1 goroutine. - Only 1 write transaction can be active at a time (other will wait). - Unlimited read transactions can be active concurrently (not blocked by write transaction). - Methods db.Update, db.View - can be used to open and close short transaction. - Methods Begin/Commit/Rollback - for long transaction. - it's safe to call .Rollback() after .Commit(), multiple rollbacks are also safe. Common transaction pattern: ``` tx, err := db.Begin(true, ethdb.RW) if err != nil { return err } defer tx.Rollback() // important to avoid transactions leak at panic or early return // ... code which uses database in transaction err := tx.Commit() if err != nil { return err } ``` - No internal copies/allocations. It means: 1. app must copy keys/values before put to database. 2. Data after read from db - valid only during current transaction - copy it if plan use data after transaction Commit/Rollback. - Methods .Bucket() and .Cursor(), can’t return nil, can't return error. - Bucket and Cursor - are interfaces - means different classes can satisfy it: for example `MdbxCursor` and `MdbxDupSortCursor` classes satisfy it. If your are not familiar with "DupSort" concept, please read [dupsort.md](../docs/programmers_guide/dupsort.md) first. - If Cursor returns err!=nil then key SHOULD be != nil (can be []byte{} for example). Then traversal code look as: ```go for k, v, err := c.First(); k != nil; k, v, err = c.Next() { if err != nil { return err } // logic } ``` - Move cursor: `cursor.Seek(key)` ## ethdb.Database design: - Allows pass multiple implementations - Allows traversal tables by `db.Walk` ## ethdb.TxDb design: - holds inside 1 long-running transaction and 1 cursor per table - method Begin DOESN'T create new TxDb object, it means this object can be passed into other objects by pointer, and high-level app code can start/commit transactions when it needs without re-creating all objects which holds TxDb pointer. - This is the reason why txDb.CommitAndBegin() method works: inside it creating new transaction object, pinter to TxDb stays valid. ## How to dump/load table Install all database tools: `make db-tools` ``` ./build/bin/mdbx_dump -a /erigon/chaindata | lz4 > dump.lz4 lz4 -d < dump.lz4 | ./build/bin/mdbx_load -an /erigon/chaindata ``` ## How to get table checksum ``` ./build/bin/mdbx_dump -s table_name /erigon/chaindata | tail -n +4 | sha256sum # tail here is for excluding header Header example: VERSION=3 geometry=l268435456,c268435456,u25769803776,s268435456,g268435456 mapsize=756375552 maxreaders=120 format=bytevalue database=TBL0001 type=btree db_pagesize=4096 duplicates=1 dupsort=1 HEADER=END ```