Unfortunately, bridge will still reuse nonce very often.
Specifically when trying to send more than one transaction at
a time, clearly a faulty behaviour.
Solution: chain retrieving a nonce with subsequent sending
of the transaction.
However, chaining these is not enough as it'll still fail.
This is happening because bridge module is polling all its components
(deposit_relay, withdraw_confirm, withdraw_relay) sequentially,
and some of them maybe waiting on their transactions to go through.
However, those transactions are also done as composed futures of nonce
retrieval and transaction sending. This means that it is very often
that first, these futures will go through the nonce acquisition process,
get the same values, and then submit transactions with the same nonce.
This patch makes NonceCheck future check if the transaction failed
with this specific issue of nonce reuse and effectively restarts from
the beginning in that case, repeating nonce acquisition process... until
it succeeeds.
If a node configured as Foreign for the bridge and it has no validator
account unlocked the bridge crashes and produces the following message:
```
INFO:bridge::bridge::withdraw_confirm: got 1 new withdraws to sign
INFO:bridge::bridge::withdraw_confirm: withdraw is ready for signature
submission. tx hash 0x6493…4fa8
INFO:bridge::bridge::withdraw_confirm: signing
WARN:bridge: Bridge crashed with Error(Transport("Unexpected response
status code: 405 Method Not Allowed"), State { next_error: None,
backtrace: None })
Error(Transport("Unexpected response status code: 405 Method Not
Allowed"), State { next_error: None, backtrace: None })
```
Solution: sign messages locally
Closes#49
On my computer, this takes approximately 0.3 seconds, which is clearly
a deal-breaker. In retrospect, this is an obvious problem because
of key derivation function use.
Solution: unlock accounts permanently.
This cut down time to sign one transaction is 0.0001 or so.
This means that the node has to sign the transaction itself.
It might be acceptable in a localized setup, but can't be used
with untrusted setups. For example, once HTTP RPC is supported,
we can't really use infrastructure like INFURA to send transactions.
Solution: switch to signing transactions in bridge
This absolutely requires separating the accounts used by validators
and administrative tasks as this will otherwise interfere with
management of nonces.
As a part of the original feature request, there was a need
for the bridge to be able to sign its own transactions. However,
this didn't fully materialize in the original patch, and only
configuration parameters were implemented.
Solution: remove these last conflated bits
and make this a pure transport change patch.
Using IPC means bridge has to run alognside the node
on the same machine. This, at times, presents problems
in terms of efficiency or coupling of deployment.
Solution: switch to RPC
Upon startup, bridge produces the following warning:
```
WARN:bridge::bridge::deposit_relay: foreign contract balance is unknown
```
This happens because the RPC response from the node might
not come/get processed immediately.
By itself this warning means that the deposit_relay won't
perform any operations.
Solution: don't commence operations until balances are retrieved
Also, indicate when balances are retrieved:
```
INFO:bridge::bridge: Retrieved home contract balance
INFO:bridge::bridge: Retrieved foreign contract balance
```
This shows us that the balances are successfully retrieved and
bridge can commence its operations.
Currently there are two possible situations related to low balance on
the account which is used for bridge operations:
1. The account which is used to sign transactions to be addressed by
ForeignBridge contract has low balance. So, the bridge is not able to do
deposit_relay and withdraw_confirm.
2. The account which is used to sign transactions to be addressed by
HomeBridge contract has low balance. So, the bridge is not able to do
withdraw_relay.
In both cases bridges hangs silently at the moment of sending
transactions and does not proceed with further actions even the
operation is intended to be performed in opposite direction (e.g. the
bridge hangs at the moment to perform withdraw_relay, so deposit_relay
cannot be performed either).
Solution: make bridge track its balance and hande insufficient
Bridge will crash with ERR_INSUFFICIENT_FUNDS (code 4) so that
supervisor can decide what should happen next. It will also log the
condition.
P.S.Make sure to run the tests with `--test-threads=1` to avoid
other test conflicting with this one. A better solution to this
issue must be devised later, however.
It is impossible to tell whether the bridge
is being shut down intentionally or because of
an error. This is particularly important
for supervising the process, both in development
and production.
Solution: handle SIGINT and SIGTERM as a special case
and designate a separate status code (3) for intentional
shutdowns.
Also, include an example supervisor for development
mode (examples/suprevisor). Simply prepend it before
the invocation of bridge to supervise it.
Steps to reproduce:
Run two Parity-based nodes responsible for Home and Foreign chains.
Run bridge: RUST_LOG=info bridge --config ... --database ....
Kill parity process responsible for Foreign chain.
Expected results:
The bridge handles gracefully death of Parity node: warns about the
connection lose, shutdowns all operations (deposit_relay,
withdraw_confirm and withdraw_relay) for a while, waits when the
connection appears and runs all operations after that.
Actual results:
After killing Parity process the following appear in the terminal where
the bridge is running:
WARN:<unknown>: Unexpected IO error: Error { repr: Os { code: 32,
message: "Broken pipe" } }
No messages appear from withdraw_confirm and withdraw_relay.
Then after some time (few seconds or few minutes) the following appear
on the terminal and the bridge dies:
Request eth_blockNumber timed out
Solution: once "Broken pipe" error is caught, attempt to
reconnect repeatedly with a pause of 1 second between attempts.
When other errors are caught, simply restart the bridge,
as there is no indication that the connection has been severed.
Fixes#22
- they test against raw hex strings
- hard to modify
- if we me it easier to modify by using ethabi to assemble data
the tests essentially become useless
- logic should already be covered by both integration test and RPC tests