Also, in the cli commands `wipesql` and `discard`, always rebuild the current
checkpoint of the stateDBs to make sure it's in a consistent non-corrupted
state and do a reset afterwards. These commands will allow reverting the
StateDB to a valid and consistent state in case a crash leaves the StateDB in a
corrupted state.
Updated:
batchbuilder
common
coordinator
db/statedb
eth
log
node
priceupdater
prover
synchronizer
test/*
txprocessor
txselector
Pending (once
https://github.com/hermeznetwork/hermez-node/tree/feature/serveapicli is
merged to master):
Update golangci-lint version to v1.37.1
api
apitypes
cli
config
db/historydb
db/l2db
In the metrics query, the estimatedTimeToForgeL1 was probably not being read
from the SQL query because it contained upper case letters, and in PostgreSQL
when identifiers are not double quoted they are case insensitive:
https://stackoverflow.com/a/20880247
Previously the code was only querying the unforged L1UserTxs of a particular
queue, but this was incorrect because there are always two non-forged queues:
the frozen one and the open one.
Replace it by a query to all the unforged L1UserTxs via a new HistoryDB method.
Incrementing the gas price unconditionally avoids sending the exact same
transaction, which geth will reject because that transaction already exists in
the pool
Compatible with `hermeznetwork/contracts` commit: `67726208723a40f2251953aaabf4d2b6221f8b13`
Compatible with `hermeznetwork/commonjs` commit: `dee266fb036a64bebc65756ebd5f0361929c110d`
Add new config setting `Debug.GinDebugMode`. When set to true, gin will run in
debug mode. If not set, gin will run in release mode. Before this change, gin
always ran in debug mode, so to keep the same behaviour as before, set this
parameter to true
Add the following config parameters at
`Coordinator.EthClient.ForgeBatchGasCost`:
- `Fixed`
- `L1UserTx`
- `L1CoordTx`
- `L2Tx`
Which are the costs associated to a ForgeBatch transaction, split
into different parts to be used in the formula to compute the gasLimit.
Also, replace usage of time.Duration by time.NewTimer, because the later allows
replacing timers by stopping them before so that we never leak resources.
Currently the circuit does not use an Exit Leaf at the Exit MerkleTree
when the Amount=0 & EffectiveAmount=0, but it does use an Exit Leaf when
the Amount>0 but EffectiveAmount=0 (for example when tx.Amount >
sender.Balance). This is a particularity of the approach of the circuit,
the idea will be in the future to update the circuit and when Amount>0
but EffectiveAmount=0, to not add the Exit in the Exits MerkleTree, but
for the moment the Go code is adapted to the circuit and when an Exit
with Amount>0 & EffectiveAmount=0, it will be added to the Leaf of the
Exit MerkleTree.
- In test, doing the `net.Listen` outside of the goroutine guarantees that we
are listening, so we avoid a possible datarace consisting of doing an http
request before listening.
- In packages that run an http server: doing the listen first allows
- Checking for errors when opening the address for listening before
starting the goroutine, so that if there's an error on listen we can
terminate grafecully
- Logging that we are listening when we are really listening, and not
before.