This introduces _experimental_ block execution run by embedded Silkworm
API library:
- new command-line option `silkworm.path` to enable the feature by
specifying the path to the Silkworm library
- the Silkworm API shared library is dynamically loaded on-demand
- currently requires to build Silkworm library on the target machine
- available only on Linux at the moment: macOS has issue with [stack
size](https://github.com/golang/go/issues/28024) and Windows would
require [TDM-GCC-64](https://jmeubank.github.io/tdm-gcc/), both need
dedicated effort for an assessment
Fixes for label discrepancies in collector for summaries etc which have
a template which includes a quantile.
Initial native Prometheus client implementation of metrics - which is
currently turned off except for local testing and interface exports.
This is the second part of the bor milestone release it contains the
following changes:
* Initialize services
* This is a change from the initial pull request I have moved all of the
initialization to the bor engine. To facilitate this I have just passed
in the heimdall client interface, rather than the whole engine
* Stage processing
* This is also a change from the original PR - the code is contained in
the bor heimdall stage rather than in headers - the effect should be the
same, but this needs testing
---------
Co-authored-by: Mark Holt <mark@disributed.vision>
Co-authored-by: Anshal Shukla <shukla.anshal85@gmail.com>
This is a non functional change which consolidates the various packages
under metrics into the top level package now that the dead code is
removed.
It is a precursor to the removal of Victoria metrics after which all
erigon metrics code will be contained in this single package.
This is an update of:
https://github.com/ledgerwatch/erigon/pull/7846
which uses a local fork of victoria metrics to include the changes that
https://github.com/anshalshukla added to the original for we where
using.
It also includes code to address the duplicate metrics issue identified
here:
https://github.com/ledgerwatch/erigon/issues/8053
It has one more associated fix which is to correctly add a metadata
label to counters, these where previously labelled as gauges.
e.g.
```
# TYPE p2p_peers counter
p2p_peers 0
```
rather than
```
# TYPE p2p_peers gauge
p2p_peers 0
```
---------
Co-authored-by: Anshal Shukla <53994948+anshalshukla@users.noreply.github.com>
Co-authored-by: Anshal Shukla <shukla.anshal85@gmail.com>
I have added:
```go
{
ID: stages.BorHeimdall,
Description: "Download Bor-specific data from Heimdall",
Forward: func(firstCycle bool, badBlockUnwind bool, s *StageState, u Unwinder, tx kv.RwTx, logger log.Logger) error {
if badBlockUnwind {
return nil
}
return BorHeimdallForward(s, u, ctx, tx, borHeimdallCfg, true, logger)
},
Unwind: func(firstCycle bool, u *UnwindState, s *StageState, tx kv.RwTx, logger log.Logger) error {
return BorHeimdallUnwind(u, ctx, s, tx, borHeimdallCfg)
},
Prune: func(firstCycle bool, p *PruneState, tx kv.RwTx, logger log.Logger) error {
return BorHeimdallPrune(p, ctx, tx, borHeimdallCfg)
},
},
```
To MiningStages as well as Default as otherwise bor events are not added
when the block producer creates new blocks.
There are a couple of questions I have around this implementation:
* Is this the right place to add this
* As the state is also executed when the default stage is processed ther
is some duplicate processing for the block producing node.
* There is a duplicated call to heimdall which could be removed if the
stages share state - but its not clear if we want to do this.
* I don't think the mining stage needs to prune as this will be
replicated in the default iteration
This can be tested using the devnet with the following arguments:
```
--chain bor-devnet --bor.localheimdall --scenarios state-sync
```
This will generate sync events via an ethereum devnet which are
transmitted to bor chain and will be executed at the end of the snapshot
delay, which results in events generated from the bor chain. This tests
the whole sync, block generation, event lifecycle. As it needs to wait
for sprints to end after a sufficient delay it is quite slow to run.
The current logic is flawed, because it drops all peers that are less
synced.
It is valid to return empty responses by the eth spec.
A proper logic should penalize from the context of the sync process,
where enough "reputation" data is collected about a peer.
In order to be able to connect to erigon 2.48 peers that have
--sentry.drop-useless-peers enabled,
this adds a check to not reply with an empty headers list.
If we reply with an empty list, we're going to be considered useless and
kicked.
Once enough of erigon nodes are updated in the network past this commit,
this check should be removed,
because it is totally acceptable to return an empty list by the eth
spec.
Currently PropagateNewBlockHashes and BroadcastNewBlock
selects a subset of all sentries by taking a `Sqrt(len(sentries))`,
and then for each sentry SendMessageToRandomPeers
selects a subset of its peers by taking `Sqrt(len(peerInfos))`.
This behaviour limits the broadcast scope with a lot of peers, e.g. 100
becomes 10,
but is not great with very few peers, or if the message is very
important
to broadcast to everyone, which is the case of bor validator/proposer
nodes.
* send to all sentries in both BroadcastNewBlock and PropagateNewBlockHashes
* remove peerCountConstrained sqrt logic in SendMessageToRandomPeers
* add maxPeers provider func as a parameter to MultiClient
* default it to 10 for eth and 0 (unlimited) for bor validators
---------
Co-authored-by: Mark Holt <mark@distributed.vision>
Adds `clear_bad_blocks` command to integration tool. This command allows
to re-process blocks that were erroneously marked as bad.
Command just clears `BadHeaderNumber` table. It can be safer in some
cases than
```
./integration state_stages —unwind=<some_number>
./integration stage_headers —unwind=<some_number>
```
and can be used in the cases like this one
https://github.com/ledgerwatch/erigon/issues/7892%20
Command syntax:
```
./integration clear_bad_blocks --datadir=<datadir>
```
This request implements the insertion of Bor ephemeral transactions into
snapshot indexes.
I does this by taking the block hash from the header index and passing
it to the transaction indexer to add an additional index entry per block
into the transaction hash -> block index.
The passed entries are currently contained in an in memory array which
is (32 * number of blocks / sprint size) bytes.
In addition to the functional code there is also an update to the
`dump_test.go` so that it runs `DumpBlocks` to exercise the indexing
code. To facilitate this the `InsertChain` method in `mock_sentry` has
been modified so that it can process >128 blocks.
The code in this request also includes additional bor/consensus code
with the following functions:
`CalculateSprint`
`CalculateSprintCount`
The first function is a modification of the code in erigon-lib so that
the sprints are numerically rather than lexically ordered. This code
should be migrated to erigon-lib and should have its sprint set
calculated once from its underlying map rather than this process being
repeated every calculation.
---------
Co-authored-by: Alex Sharp <alexsharp@Alexs-MacBook-Pro-2.local>
Co-authored-by: ledgerwatch <akhounov@gmail.com>
Co-authored-by: Enrique Jose Avila Asapche <eavilaasapche@gmail.com>
Co-authored-by: Giulio <giulio.rebuffo@gmail.com>
Fixes https://github.com/ledgerwatch/erigon/issues/7814, it can be
really confusing when `erigon` and `integration` process `~` in path in
different ways.
I can't fix it for `integration` the same way it is done for `erigon`,
because in main app it is done with `urfave/cli` package that is not
used in `integration`, so I've used other simplest way to do it.
The fixes here fix a couple of issues related to devnet start-up
1. macos threading and syscall error return where causing multi node
start to both not wait and fail
2. On windows creating DB's with the default 2 TB mapsize causes the os
to reserve about 4GB of committed memory per DB. This may not be used -
but is reserved by the OS - so a default bor node reserves around 10GB
of storage. Starting many nodes causes the OS page file to become
exhausted.
To fix this the consensus DB's now use the node's OpenDatabase function
rather than their own, which means that the consensus DB's take notice
of the config.MdbxDBSizeLimit.
This fix leaves one 4GB committed memory allocation in the TX pool which
needs its own MapSize setting.
---------
Co-authored-by: Alex Sharp <akhounov@gmail.com>
- breaks dependency from staged_sync to package with block_reader
implementation
- breaks dependency from snap_sync to package with block_reader
implementation
- breaks dependency from mining to txpool implementation
- stage_senders: don't re-calc existing senders
- stage_tx_lookup: prune less blocks per iteration - because
random-deletes are expensive. pruning must not slow-down sync.
- prune data even if --snap.stop is set
- "prune as-much-as-possible at startup" is not very good idea: at
initialCycle machine can be cold and prune will cause big downtime, no
reason to produce much freelist in 1 tx. People may also restart erigon
- because of some bug - and it will cause unexpected downtime (usually
Erigon startup very fast). So, I just remove all `initialSync`-related
logic in pruning.
- fix lost metrics about disk write byte/sec
