Always prefetch the account trie while starting the prefetcher.
Co-authored-by: steven <steven@stevendeMacBook-Pro.local>
Co-authored-by: rjl493456442 <garyrong0905@gmail.com>
Introduces the first built-in live tracer. The supply tracer tracks ETH supply changes across blocks
and writes the output to disk. This will need to be enabled through CLI using the `--vmtrace supply` flag.
Co-authored-by: Sina Mahmoodi <itz.s1na@gmail.com>
It's a bit confusing to add msg.value into the balanceCheck within the conditional.
No impact on block validation since GasFeeCap is always set when processing transactions.
* core/state: trie prefetcher change: calling trie() doesn't stop the associated subfetcher
Co-authored-by: Martin HS <martin@swende.se>
Co-authored-by: Péter Szilágyi <peterke@gmail.com>
* core/state: improve prefetcher
* core/state: restore async prefetcher stask scheduling
* core/state: finish prefetching async and process storage updates async
* core/state: don't use the prefetcher for missing snapshot items
* core/state: remove update concurrency for Verkle tries
* core/state: add some termination checks to prefetcher async shutdowns
* core/state: differentiate db tries and prefetched tries
* core/state: teh teh teh
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Co-authored-by: Jared Wasinger <j-wasinger@hotmail.com>
Co-authored-by: Martin HS <martin@swende.se>
Co-authored-by: Gary Rong <garyrong0905@gmail.com>
Added a start/end system where tracer can be notified that processing of some Ethereum system calls is starting processing and also notifies it when the processing has completed.
Doing a start/end for system call will enable tracers to "route" incoming next tracing events to go to a separate bucket than other EVM calls. Those not interested by this fact can simply avoid registering the hooks.
The EVM call is going to be traced normally afterward between the signals provided by those 2 new hooks but outside of a transaction context OnTxStart/End. That something implementors of live tracers will need to be aware of (since only "trx tracers" are not concerned by ProcessBeaconRoot).
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Co-authored-by: Sina Mahmoodi <itz.s1na@gmail.com>
* core/state, internal/workerpool: parallelize parts of state commit
* core, internal: move workerpool into syncx
* core/state: use errgroups, commit accounts concurrently
* core: resurrect detailed commit timers to almost-accuracy
* all: refactor so NewBlock(..) and WithBody(..) take a types.Body
* core: fixup comments, remove txs != receipts panic
* core/types: add empty withdrawls to body if len == 0
This PR fixes some flaws with the existing tests.
The randomized testing (TestSnapshotRandom) executes a series of steps which modify the state and create journal-events. Later on, we compare the forward-going-states against the backwards-unrolling-journal-states, and check that they are identical.
The "identical" check is performed using various accessors. It turned out that we failed to check some things:
- the accesslist contents
- the transient storage contents
- the 'newContract' flag
- the dirty storage map
This change adds these new checks
Currently our state journal tracks each storage update to a contract, having the ability to revert those changes to the previously set value.
For the very first modification however, it behaves a bit wonky. Reverting the update doesn't actually remove the dirty-ness of the slot, rather leaves it as "change this slot to it's original value". This can cause issues down the line with for example write witnesses needing to gather an unneeded proof.
This PR modifies the storageChange journal entry to not only track the previous value of a slot, but also whether there was any previous value at all set in the current execution context. In essence, the PR changes the semantic of storageChange so it does not simply track storage changes, rather it tracks dirty storage changes, an important distinction for being able to cleanly revert the journal item.