Commit Graph

5 Commits

Author SHA1 Message Date
Péter Szilágyi 81bd998353
core, eth/downloader: handle spurious junk bodies from racey rollbacks (#25578)
* eth/downloader: handle junkbodies/receipts in the beacon sync

* core: check for header presence when checking for blocks
2022-08-23 14:02:51 +03:00
Marius van der Wijden c6dcd018d2
core: eth: rpc: implement safe rpc block (#25165)
* core: eth: rpc: implement safe rpc block

* core: fix setHead, panics
2022-07-25 18:42:05 +03:00
Marius van der Wijden e6fa102eb0
core, eth, internal, rpc: implement final block (#24282)
* eth: core: implement finalized block

* eth/catalyst: fix final block

* eth/catalyst: update finalized head gauge

* internal/jsre/deps: updated web3.js to allow for finalized block

* eth/catalyst: make sure only one thread can call fcu

* eth/catalyst: nitpicks

* eth/catalyst: use plain mutex

* eth: nitpicks
2022-05-18 17:30:42 +03:00
Martin Holst Swende db03faa10d
core, eth: improve delivery speed on header requests (#23105)
This PR reduces the amount of work we do when answering header queries, e.g. when a peer
is syncing from us.

For some items, e.g block bodies, when we read the rlp-data from database, we plug it
directly into the response package. We didn't do that for headers, but instead read
headers-rlp, decode to types.Header, and re-encode to rlp. This PR changes that to keep it
in RLP-form as much as possible. When a node is syncing from us, it typically requests 192
contiguous headers. On master it has the following effect:

- For headers not in ancient: 2 db lookups. One for translating hash->number (even though
  the request is by number), and another for reading by hash (this latter one is sometimes
  cached).
  
- For headers in ancient: 1 file lookup/syscall for translating hash->number (even though
  the request is by number), and another for reading the header itself. After this, it
  also performes a hashing of the header, to ensure that the hash is what it expected. In
  this PR, I instead move the logic for "give me a sequence of blocks" into the lower
  layers, where the database can determine how and what to read from leveldb and/or
  ancients.

There are basically four types of requests; three of them are improved this way. The
fourth, by hash going backwards, is more tricky to optimize. However, since we know that
the gap is 0, we can look up by the parentHash, and stlil shave off all the number->hash
lookups.

The gapped collection can be optimized similarly, as a follow-up, at least in three out of
four cases.

Co-authored-by: Felix Lange <fjl@twurst.com>
2021-12-07 17:50:58 +01:00
Marius van der Wijden c641cff51a
core: refactored blockchain.go (#23735) 2021-10-18 10:45:59 +03:00