# nimbus-eth1 # Copyright (c) 2023-2024 Status Research & Development GmbH # Licensed under either of # * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or # http://www.apache.org/licenses/LICENSE-2.0) # * MIT license ([LICENSE-MIT](LICENSE-MIT) or # http://opensource.org/licenses/MIT) # at your option. This file may not be copied, modified, or distributed # except according to those terms. ## Rocksdb backend for Aristo DB ## ============================= ## ## The iterators provided here are currently available only by direct ## backend access ## :: ## import ## aristo/aristo_init, ## aristo/aristo_init/aristo_rocksdb ## ## let rc = AristoDb.init(BackendRocksDB, "/var/tmp") ## if rc.isOk: ## let be = rc.value.to(RdbBackendRef) ## for (n, key, vtx) in be.walkVtx: ## ... ## {.push raises: [].} import eth/common, rocksdb, results, ../aristo_desc, ../aristo_desc/desc_backend, ../aristo_blobify, ./init_common, ./rocks_db/[rdb_desc, rdb_get, rdb_init, rdb_put, rdb_walk], ../../opts const extraTraceMessages = false ## Enabled additional logging noise type RdbBackendRef* = ref object of TypedBackendRef rdb: RdbInst ## Allows low level access to database RdbPutHdlRef = ref object of TypedPutHdlRef when extraTraceMessages: import chronicles logScope: topics = "aristo-backend" # ------------------------------------------------------------------------------ # Private helpers # ------------------------------------------------------------------------------ proc newSession(db: RdbBackendRef): RdbPutHdlRef = new result result.TypedPutHdlRef.beginSession db proc getSession(hdl: PutHdlRef; db: RdbBackendRef): RdbPutHdlRef = hdl.TypedPutHdlRef.verifySession db hdl.RdbPutHdlRef proc endSession(hdl: PutHdlRef; db: RdbBackendRef): RdbPutHdlRef = hdl.TypedPutHdlRef.finishSession db hdl.RdbPutHdlRef # ------------------------------------------------------------------------------ # Private functions: interface # ------------------------------------------------------------------------------ proc getVtxFn(db: RdbBackendRef): GetVtxFn = result = proc(rvid: RootedVertexID): Result[VertexRef,AristoError] = # Fetch serialised data record let vtx = db.rdb.getVtx(rvid).valueOr: when extraTraceMessages: trace logTxt "getVtxFn() failed", vid, error=error[0], info=error[1] return err(error[0]) if vtx.isValid: return ok(vtx) err(GetVtxNotFound) proc getKeyFn(db: RdbBackendRef): GetKeyFn = result = proc(rvid: RootedVertexID): Result[HashKey,AristoError] = # Fetch serialised data record let key = db.rdb.getKey(rvid).valueOr: when extraTraceMessages: trace logTxt "getKeyFn: failed", vid, error=error[0], info=error[1] return err(error[0]) if key.isValid: return ok(key) err(GetKeyNotFound) proc getTuvFn(db: RdbBackendRef): GetTuvFn = result = proc(): Result[VertexID,AristoError]= # Fetch serialised data record. let data = db.rdb.getAdm(AdmTabIdTuv).valueOr: when extraTraceMessages: trace logTxt "getTuvFn: failed", error=error[0], info=error[1] return err(error[0]) # Decode data record if data.len == 0: return ok VertexID(0) # Decode data record result = data.deblobify VertexID proc getLstFn(db: RdbBackendRef): GetLstFn = result = proc(): Result[SavedState,AristoError]= # Fetch serialised data record. let data = db.rdb.getAdm(AdmTabIdLst).valueOr: when extraTraceMessages: trace logTxt "getLstFn: failed", error=error[0], info=error[1] return err(error[0]) # Decode data record data.deblobify SavedState # ------------- proc putBegFn(db: RdbBackendRef): PutBegFn = result = proc(): Result[PutHdlRef,AristoError] = db.rdb.begin() ok db.newSession() proc putVtxFn(db: RdbBackendRef): PutVtxFn = result = proc(hdl: PutHdlRef; rvid: RootedVertexID; vtx: VertexRef) = let hdl = hdl.getSession db if hdl.error.isNil: db.rdb.putVtx(rvid, vtx).isOkOr: hdl.error = TypedPutHdlErrRef( pfx: VtxPfx, vid: error[0], code: error[1], info: error[2]) proc putKeyFn(db: RdbBackendRef): PutKeyFn = result = proc(hdl: PutHdlRef; rvid: RootedVertexID, key: HashKey) = let hdl = hdl.getSession db if hdl.error.isNil: db.rdb.putKey(rvid, key).isOkOr: hdl.error = TypedPutHdlErrRef( pfx: KeyPfx, vid: error[0], code: error[1], info: error[2]) proc putTuvFn(db: RdbBackendRef): PutTuvFn = result = proc(hdl: PutHdlRef; vs: VertexID) = let hdl = hdl.getSession db if hdl.error.isNil: if vs.isValid: db.rdb.putAdm(AdmTabIdTuv, vs.blobify.data()).isOkOr: hdl.error = TypedPutHdlErrRef( pfx: AdmPfx, aid: AdmTabIdTuv, code: error[1], info: error[2]) return proc putLstFn(db: RdbBackendRef): PutLstFn = result = proc(hdl: PutHdlRef; lst: SavedState) = let hdl = hdl.getSession db if hdl.error.isNil: let data = lst.blobify.valueOr: hdl.error = TypedPutHdlErrRef( pfx: AdmPfx, aid: AdmTabIdLst, code: error) return db.rdb.putAdm(AdmTabIdLst, data).isOkOr: hdl.error = TypedPutHdlErrRef( pfx: AdmPfx, aid: AdmTabIdLst, code: error[1], info: error[2]) proc putEndFn(db: RdbBackendRef): PutEndFn = result = proc(hdl: PutHdlRef): Result[void,AristoError] = let hdl = hdl.endSession db if not hdl.error.isNil: when extraTraceMessages: case hdl.error.pfx: of VtxPfx, KeyPfx: trace logTxt "putEndFn: vtx/key failed", pfx=hdl.error.pfx, vid=hdl.error.vid, error=hdl.error.code of FilPfx: trace logTxt "putEndFn: filter failed", pfx=FilPfx, qid=hdl.error.qid, error=hdl.error.code of AdmPfx: trace logTxt "putEndFn: admin failed", pfx=AdmPfx, aid=hdl.error.aid.uint64, error=hdl.error.code of Oops: trace logTxt "putEndFn: oops", pfx=hdl.error.pfx, error=hdl.error.code db.rdb.rollback() return err(hdl.error.code) # Commit session db.rdb.commit().isOkOr: when extraTraceMessages: trace logTxt "putEndFn: failed", error=($error[0]), info=error[1] return err(error[0]) ok() proc closeFn(db: RdbBackendRef): CloseFn = result = proc(eradicate: bool) = db.rdb.destroy(eradicate) # ------------------------------------------------------------------------------ # Private functions: hosting interface changes # ------------------------------------------------------------------------------ proc putBegHostingFn(db: RdbBackendRef): PutBegFn = result = proc(): Result[PutHdlRef,AristoError] = db.rdb.begin() if db.rdb.trgWriteEvent(db.rdb.session): ok db.newSession() else: when extraTraceMessages: trace logTxt "putBegFn: guest trigger aborted session" db.rdb.rollback() err(RdbGuestInstanceAborted) # ------------------------------------------------------------------------------ # Public functions # ------------------------------------------------------------------------------ proc rocksDbBackend*( path: string; dbOpts: DbOptionsRef; cfOpts: ColFamilyOptionsRef; guestCFs: openArray[ColFamilyDescriptor]; ): Result[(BackendRef, seq[ColFamilyReadWrite]),AristoError] = let db = RdbBackendRef( beKind: BackendRocksDB) # Initialise RocksDB let oCfs = block: let rc = db.rdb.init(path, dbOpts, cfOpts, guestCFs) if rc.isErr: when extraTraceMessages: trace logTxt "constructor failed", error=rc.error[0], info=rc.error[1] return err(rc.error[0]) rc.value() db.getVtxFn = getVtxFn db db.getKeyFn = getKeyFn db db.getTuvFn = getTuvFn db db.getLstFn = getLstFn db db.putBegFn = putBegFn db db.putVtxFn = putVtxFn db db.putKeyFn = putKeyFn db db.putTuvFn = putTuvFn db db.putLstFn = putLstFn db db.putEndFn = putEndFn db db.closeFn = closeFn db ok((db, oCfs)) proc rocksDbSetEventTrigger*( be: BackendRef; hdl: RdbWriteEventCb; ): Result[void,AristoError] = ## Store event trigger. This also changes the backend type. if hdl.isNil: err(RdbBeWrTriggerNilFn) else: let db = RdbBackendRef(be) db.rdb.trgWriteEvent = hdl db.beKind = BackendRdbHosting db.putBegFn = putBegHostingFn db ok() proc dup*(db: RdbBackendRef): RdbBackendRef = ## Duplicate descriptor shell as needed for API debugging new result init_common.init(result[], db[]) result.rdb = db.rdb # ------------------------------------------------------------------------------ # Public iterators (needs direct backend access) # ------------------------------------------------------------------------------ iterator walkVtx*( be: RdbBackendRef; ): tuple[evid: RootedVertexID, vtx: VertexRef] = ## Variant of `walk()` iteration over the vertex sub-table. for (rvid, vtx) in be.rdb.walkVtx: yield (rvid, vtx) iterator walkKey*( be: RdbBackendRef; ): tuple[rvid: RootedVertexID, key: HashKey] = ## Variant of `walk()` iteration over the Markle hash sub-table. for (rvid, data) in be.rdb.walkKey: let lid = HashKey.fromBytes(data).valueOr: continue yield (rvid, lid) # ------------------------------------------------------------------------------ # End # ------------------------------------------------------------------------------