* stop committing to the state in the ChainVerifier
* commit to the state in the BlockVerifier
* commit to the state in the CheckpointVerifier
Co-authored-by: Jane Lusby <jlusby42@gmail.com>
* increase the EWMA default and decay
* increase the block download retries
* increase the request and block download timeouts
* increase the sync timeout
This commit makes several related changes to the network code:
- adds a `TransactionsByHash(HashSet<transaction::Hash>)` request and
`Transactions(Vec<Arc<Transaction>>)` response pair that allows
fetching transactions from a remote peer;
- adds a `PushTransaction(Arc<Transaction>)` request that pushes an
unsolicited transaction to a remote peer;
- adds an `AdvertiseTransactions(HashSet<transaction::Hash>)` request
that advertises transactions by hash to a remote peer;
- adds an `AdvertiseBlock(block::Hash)` request that advertises a block
by hash to a remote peer;
Then, it modifies the connection state machine so that outbound
requests to remote peers are handled properly:
- `TransactionsByHash` generates a `getdata` message and collects the
results, like the existing `BlocksByHash` request.
- `PushTransaction` generates a `tx` message, and returns `Nil` immediately.
- `AdvertiseTransactions` and `AdvertiseBlock` generate an `inv`
message, and return `Nil` immediately.
Next, it modifies the connection state machine so that messages
from remote peers generate requests to the inbound service:
- `getdata` messages generate `BlocksByHash` or `TransactionsByHash`
requests, depending on the content of the message;
- `tx` messages generate `PushTransaction` requests;
- `inv` messages generate `AdvertiseBlock` or `AdvertiseTransactions`
requests.
Finally, it refactors the request routing logic for the peer set to
handle advertisement messages, providing three routing methods:
- `route_p2c`, which uses p2c as normal (default);
- `route_inv`, which uses the inventory registry and falls back to p2c
(used for `BlocksByHash` or `TransactionsByHash`);
- `route_all`, which broadcasts a request to all ready peers (used for
`AdvertiseBlock` and `AdvertiseTransactions`).
* network: fix bug in inventory advertisement handling
The RFC https://zebra.zfnd.org/dev/rfcs/0003-inventory-tracking.html described
the use of a `broadcast` channel in place of an `mpsc` channel to get
ring-buffer behavior, keeping a bound on the size of the channel but dropping
old entries when the channel is full.
However, it didn't explicitly describe how this works (the `broadcast` channel
returns a `RecvError::Lagged(u64)` to inform receivers that they lost
messages), so the lag-handling wasn't implemented and I didn't notice in
review.
Instead, the ? operator bubbled the lag error all the way up from
`InventoryRegistry::poll_inventory` through `<PeerSet as Service>::poll_ready`
through various Tower wrappers to users of the peer set. The error propagation
is bad enough, because it caused client errors that shouldn't have happened,
but there's a worse interaction.
The `Service` contract distinguishes between request errors (from
`Service::call`, scoped to the request) and service errors (from
`Service::poll_ready`, scoped to the service). The `Service` contract
specifies that once a service returns an error from `poll_ready`, the service
can be assumed to be failed permanently.
I believe (but haven't tested or carefully worked through the details) that
this caused various tower middleware to report the entire peer set service as
permanently failed due to a transient inventory "error" (more of an indicator),
and I suspect that this is the cause of #1003, where all of the sync
component's requests end up failing because the peer set reported that it
failed permanently. I am able to reproduce #1003 locally before this change
and unable to reproduce it locally after this change, though I have not tested
exhaustively.
* network: add metric for dropped inventory advertisements
Co-authored-by: teor <teor@riseup.net>
Co-authored-by: teor <teor@riseup.net>
* add metrics and tracking endpoint tests
* test endpoints more
* add change filter test for tracing
* add await to post
* separate metrics and tracing tests
* Apply suggestions from code review
Co-authored-by: teor <teor@riseup.net>
Co-authored-by: teor <teor@riseup.net>
* Implement sighash
* move sighash logic to a separate module
* start filling in more of the alg
* start setting up a test case
* make the test useful
* Iter transaction inputs
* better error message for expect
* add support for zip243 sighash
* ohey first testvector is passing, yayyy
* pass the second testvector
* add last testvector
* move a use statement
* use common deserialization code for amount everywhere
* cleanup attributes
* bring in fixed preimage
* fix discrepancy with spec
* always deserialize as a signed value
* Update zebra-chain/src/transaction/sighash.rs
* update unreachable statements
* add serialization impls for nonnegative amounts
* Apply suggestions from code review
* document sighash fn
* tweek docs
* fix mistake in translation for zip243
* consistent error messages
* reorder because i like it more that way
* document more panics
* Update zebra-chain/src/amount.rs
* Add comment regarding the serialization of spend descriptions in sighash
Co-authored-by: teor <teor@riseup.net>
Co-authored-by: Deirdre Connolly <deirdre@zfnd.org>
* Ignore sync errors when the block is already verified
If we get an error for a block that is already in our state, we don't
need to restart the sync. It was probably a duplicate download.
Also:
Process any ready tasks before reset, so the logs and metrics are
up to date. (But ignore the errors, because we're about to reset.)
Improve sync logging and metrics during the download and verify task.
* Remove duplicate hashes in logs
Co-authored-by: Jane Lusby <jlusby42@gmail.com>
* Log the sync hash span at warn level
Co-authored-by: Jane Lusby <jlusby42@gmail.com>
These filters use zcash-cli to annotate hashes with the corresponding
block info.
They are useful when the local zebrad instance hasn't downloaded or
parsed the blocks in its logs, or when the zebrad logs just provide a
hash. The filter provides the height, time, previous, and next blocks.