nimbus-eth1/nimbus/db/aristo/aristo_fetch.nim

# nimbus-eth1
# Copyright (c) 2021 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.

## Aristo DB -- Obects Retrival Via Traversal Path
## ===============================================
##
{.push raises: [].}

import
  eth/[common, trie/nibbles],
  results,
  "."/[aristo_desc, aristo_hike]

# ------------------------------------------------------------------------------
# Private functions
# ------------------------------------------------------------------------------

proc fetchPayloadImpl(
    rc: Result[Hike,(Hike,AristoError)];
      ): Result[PayloadRef,(VertexID,AristoError)] =
  if rc.isErr:
    let vid =
      if rc.error[0].legs.len == 0: VertexID(0)
      else: rc.error[0].legs[^1].wp.vid
    return err((vid, rc.error[1]))
  ok rc.value.legs[^1].wp.vtx.lData

# ------------------------------------------------------------------------------
# Public functions
# ------------------------------------------------------------------------------

proc fetchPayload*(
    db: AristoDbRef;
    key: LeafTie;
      ): Result[PayloadRef,(VertexID,AristoError)] =
  ## Cascaded attempt to traverse the `Aristo Trie` and fetch the value of a
  ## leaf vertex. This function is complementary to `merge()`.
  ##
  key.hikeUp(db).fetchPayloadImpl

proc fetchPayload*(
    db: AristoDbRef;
    root: VertexID;
    path: openArray[byte];
      ): Result[PayloadRef,(VertexID,AristoError)] =
  ## Variant of `fetchPayload()`
  ##
  path.initNibbleRange.hikeUp(root, db).fetchPayloadImpl

# ------------------------------------------------------------------------------
# End
# ------------------------------------------------------------------------------
Aristo db refactor tx paradim (#1674) * Better error handling why: Bail out on some error as early as possible before any changes. * Implement `fetch()` as opposite of `merge()` rationale: In the `Aristo` realm, the action named `fetch()` and `merge()` indicate leaf value related actions on the MPT, while actions `get()` and `put()` handle vertex or hash key related operations that constitute the MPT. * Re-factor `merge()` prototypes why: The most used variant of `merge()` should have the simplest prototype. * Persistent DB constructor needs to import `aristo/aristo_init/persistent` why: Most applications use memory DB anyway. This avoids linking `-lrocksdb` or any other back end libraries by default. * Re-factor transaction module why: Got the paradigm wrong. The transaction descriptor did replace the database one but should be handled separately. 2023-08-07 17:45:23 +00:00			`# nimbus-eth1`
			`# Copyright (c) 2021 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.`

			`## Aristo DB -- Obects Retrival Via Traversal Path`
			`## ===============================================`
			`##`
			`{.push raises: [].}`

			`import`
Aristo db api extensions for use as core db backend (#1754) * Update docu * Update Aristo/Kvt constructor prototype why: Previous version used an `enum` value to indicate what backend is to be used. This was replaced by using the backend object type. * Rewrite `hikeUp()` return code into `Result[Hike,(Hike,AristoError)]` why: Better code maintenance. Previously, the `Hike` object was returned. It had an internal error field so partial success was also available on a failure. This error field has been removed. * Use `openArray[byte]` rather than `Blob` in functions prototypes * Provide synchronised multi instance transactions why: The `CoreDB` object was geared towards the legacy DB which used a single transaction for the key-value backend DB. Different state roots are provided by the backend database, so all instances work directly on the same backend. Aristo db instances have different in-memory mappings (aka different state roots) and the transactions are on top of there mappings. So each instance might run different transactions. Multi instance transactions are a compromise to converge towards the legacy behaviour. The synchronised transactions span over all instances available at the time when base transaction was opened. Instances created later are unaffected. * Provide key-value pair database iterator why: Needed in `CoreDB` for `replicate()` emulation also: Some update of internal code * Extend API (i.e. prototype variants) why: Needed for `CoreDB` geared towards the legacy backend which has a more basic API than Aristo. 2023-09-15 15:23:53 +00:00			`eth/[common, trie/nibbles],`
Aristo db refactor tx paradim (#1674) * Better error handling why: Bail out on some error as early as possible before any changes. * Implement `fetch()` as opposite of `merge()` rationale: In the `Aristo` realm, the action named `fetch()` and `merge()` indicate leaf value related actions on the MPT, while actions `get()` and `put()` handle vertex or hash key related operations that constitute the MPT. * Re-factor `merge()` prototypes why: The most used variant of `merge()` should have the simplest prototype. * Persistent DB constructor needs to import `aristo/aristo_init/persistent` why: Most applications use memory DB anyway. This avoids linking `-lrocksdb` or any other back end libraries by default. * Re-factor transaction module why: Got the paradigm wrong. The transaction descriptor did replace the database one but should be handled separately. 2023-08-07 17:45:23 +00:00			`results,`
			`"."/[aristo_desc, aristo_hike]`

Aristo db api extensions for use as core db backend (#1754) * Update docu * Update Aristo/Kvt constructor prototype why: Previous version used an `enum` value to indicate what backend is to be used. This was replaced by using the backend object type. * Rewrite `hikeUp()` return code into `Result[Hike,(Hike,AristoError)]` why: Better code maintenance. Previously, the `Hike` object was returned. It had an internal error field so partial success was also available on a failure. This error field has been removed. * Use `openArray[byte]` rather than `Blob` in functions prototypes * Provide synchronised multi instance transactions why: The `CoreDB` object was geared towards the legacy DB which used a single transaction for the key-value backend DB. Different state roots are provided by the backend database, so all instances work directly on the same backend. Aristo db instances have different in-memory mappings (aka different state roots) and the transactions are on top of there mappings. So each instance might run different transactions. Multi instance transactions are a compromise to converge towards the legacy behaviour. The synchronised transactions span over all instances available at the time when base transaction was opened. Instances created later are unaffected. * Provide key-value pair database iterator why: Needed in `CoreDB` for `replicate()` emulation also: Some update of internal code * Extend API (i.e. prototype variants) why: Needed for `CoreDB` geared towards the legacy backend which has a more basic API than Aristo. 2023-09-15 15:23:53 +00:00			`# ------------------------------------------------------------------------------`
			`# Private functions`
			`# ------------------------------------------------------------------------------`

			`proc fetchPayloadImpl(`
			`rc: Result[Hike,(Hike,AristoError)];`
			`): Result[PayloadRef,(VertexID,AristoError)] =`
			`if rc.isErr:`
			`let vid =`
			`if rc.error[0].legs.len == 0: VertexID(0)`
			`else: rc.error[0].legs[^1].wp.vid`
			`return err((vid, rc.error[1]))`
			`ok rc.value.legs[^1].wp.vtx.lData`

Aristo db refactor tx paradim (#1674) * Better error handling why: Bail out on some error as early as possible before any changes. * Implement `fetch()` as opposite of `merge()` rationale: In the `Aristo` realm, the action named `fetch()` and `merge()` indicate leaf value related actions on the MPT, while actions `get()` and `put()` handle vertex or hash key related operations that constitute the MPT. * Re-factor `merge()` prototypes why: The most used variant of `merge()` should have the simplest prototype. * Persistent DB constructor needs to import `aristo/aristo_init/persistent` why: Most applications use memory DB anyway. This avoids linking `-lrocksdb` or any other back end libraries by default. * Re-factor transaction module why: Got the paradigm wrong. The transaction descriptor did replace the database one but should be handled separately. 2023-08-07 17:45:23 +00:00			`# ------------------------------------------------------------------------------`
			`# Public functions`
			`# ------------------------------------------------------------------------------`

			`proc fetchPayload*(`
			`db: AristoDbRef;`
			`key: LeafTie;`
			`): Result[PayloadRef,(VertexID,AristoError)] =`
			## Cascaded attempt to traverse the `Aristo Trie` and fetch the value of a
			## leaf vertex. This function is complementary to `merge()`.
			`##`
Aristo db api extensions for use as core db backend (#1754) * Update docu * Update Aristo/Kvt constructor prototype why: Previous version used an `enum` value to indicate what backend is to be used. This was replaced by using the backend object type. * Rewrite `hikeUp()` return code into `Result[Hike,(Hike,AristoError)]` why: Better code maintenance. Previously, the `Hike` object was returned. It had an internal error field so partial success was also available on a failure. This error field has been removed. * Use `openArray[byte]` rather than `Blob` in functions prototypes * Provide synchronised multi instance transactions why: The `CoreDB` object was geared towards the legacy DB which used a single transaction for the key-value backend DB. Different state roots are provided by the backend database, so all instances work directly on the same backend. Aristo db instances have different in-memory mappings (aka different state roots) and the transactions are on top of there mappings. So each instance might run different transactions. Multi instance transactions are a compromise to converge towards the legacy behaviour. The synchronised transactions span over all instances available at the time when base transaction was opened. Instances created later are unaffected. * Provide key-value pair database iterator why: Needed in `CoreDB` for `replicate()` emulation also: Some update of internal code * Extend API (i.e. prototype variants) why: Needed for `CoreDB` geared towards the legacy backend which has a more basic API than Aristo. 2023-09-15 15:23:53 +00:00			`key.hikeUp(db).fetchPayloadImpl`

			`proc fetchPayload*(`
			`db: AristoDbRef;`
			`root: VertexID;`
Core db aristo and kvt updates preparing for integration (#1760) * Kvt: Implemented multi-descriptor access on the same backend why: This behaviour mirrors the one of Aristo and can be used for simultaneous transactions on Aristo + Kvt * Kvt: Update database iterators why: Forgot to run on the top layer first * Kvt: Misc fixes * Aristo, use `openArray[byte]` rather than `Blob` in prototype * Aristo, by default hashify right after cloning descriptor why: Typically, a completed descriptor is expected after cloning. Hashing can be suppressed by argument flag. * Aristo provides `replicate()` iterator, similar to legacy `replicate()` * Aristo API fixes and updates * CoreDB: Rename `legacy_persistent` => `legacy_rocksdb` why: More systematic, will be in line with Aristo DB which might have more than one persistent backends * CoreDB: Prettify API sources why: Better to read and maintain details: Annotating with custom pragmas which cleans up the prototypes * CoreDB: Update MPT/put() prototype allowing `CatchableError` why: Will be needed for Aristo API (legacy is OK with `RlpError`) 2023-09-18 20:20:28 +00:00			`path: openArray[byte];`
Aristo db api extensions for use as core db backend (#1754) * Update docu * Update Aristo/Kvt constructor prototype why: Previous version used an `enum` value to indicate what backend is to be used. This was replaced by using the backend object type. * Rewrite `hikeUp()` return code into `Result[Hike,(Hike,AristoError)]` why: Better code maintenance. Previously, the `Hike` object was returned. It had an internal error field so partial success was also available on a failure. This error field has been removed. * Use `openArray[byte]` rather than `Blob` in functions prototypes * Provide synchronised multi instance transactions why: The `CoreDB` object was geared towards the legacy DB which used a single transaction for the key-value backend DB. Different state roots are provided by the backend database, so all instances work directly on the same backend. Aristo db instances have different in-memory mappings (aka different state roots) and the transactions are on top of there mappings. So each instance might run different transactions. Multi instance transactions are a compromise to converge towards the legacy behaviour. The synchronised transactions span over all instances available at the time when base transaction was opened. Instances created later are unaffected. * Provide key-value pair database iterator why: Needed in `CoreDB` for `replicate()` emulation also: Some update of internal code * Extend API (i.e. prototype variants) why: Needed for `CoreDB` geared towards the legacy backend which has a more basic API than Aristo. 2023-09-15 15:23:53 +00:00			`): Result[PayloadRef,(VertexID,AristoError)] =`
			## Variant of `fetchPayload()`
			`##`
			`path.initNibbleRange.hikeUp(root, db).fetchPayloadImpl`
Aristo db refactor tx paradim (#1674) * Better error handling why: Bail out on some error as early as possible before any changes. * Implement `fetch()` as opposite of `merge()` rationale: In the `Aristo` realm, the action named `fetch()` and `merge()` indicate leaf value related actions on the MPT, while actions `get()` and `put()` handle vertex or hash key related operations that constitute the MPT. * Re-factor `merge()` prototypes why: The most used variant of `merge()` should have the simplest prototype. * Persistent DB constructor needs to import `aristo/aristo_init/persistent` why: Most applications use memory DB anyway. This avoids linking `-lrocksdb` or any other back end libraries by default. * Re-factor transaction module why: Got the paradigm wrong. The transaction descriptor did replace the database one but should be handled separately. 2023-08-07 17:45:23 +00:00
			`# ------------------------------------------------------------------------------`
			`# End`
			`# ------------------------------------------------------------------------------`