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# assumeutxo
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Assumeutxo is a feature that allows fast bootstrapping of a validating bitcoind
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instance with a very similar security model to assumevalid.
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The RPC commands `dumptxoutset` and `loadtxoutset` are used to
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respectively generate and load UTXO snapshots. The utility script
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`./contrib/devtools/utxo_snapshot.sh` may be of use.
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## General background
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- [assumeutxo proposal](https://github.com/jamesob/assumeutxo-docs/tree/2019-04-proposal/proposal)
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- [Github issue](https://github.com/bitcoin/bitcoin/issues/15605)
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- [draft PR](https://github.com/bitcoin/bitcoin/pull/15606)
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## Design notes
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- A new block index `nStatus` flag is introduced, `BLOCK_ASSUMED_VALID`, to mark block
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index entries that are required to be assumed-valid by a chainstate created
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from a UTXO snapshot. This flag is used as a way to modify certain
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CheckBlockIndex() logic to account for index entries that are pending validation by a
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chainstate running asynchronously in the background.
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- The concept of UTXO snapshots is treated as an implementation detail that lives
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behind the ChainstateManager interface. The external presentation of the changes
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required to facilitate the use of UTXO snapshots is the understanding that there are
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now certain regions of the chain that can be temporarily assumed to be valid (using
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the nStatus flag mentioned above). In certain cases, e.g. wallet rescanning, this is
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very similar to dealing with a pruned chain.
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Logic outside ChainstateManager should try not to know about snapshots, instead
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preferring to work in terms of more general states like assumed-valid.
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## Chainstate phases
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Chainstate within the system goes through a number of phases when UTXO snapshots are
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used, as managed by `ChainstateManager`. At various points there can be multiple
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`Chainstate` objects in existence to facilitate both maintaining the network tip and
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performing historical validation of the assumed-valid chain.
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It is worth noting that though there are multiple separate chainstates, those
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chainstates share use of a common block index (i.e. they hold the same `BlockManager`
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reference).
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The subheadings below outline the phases and the corresponding changes to chainstate
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data.
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### "Normal" operation via initial block download
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`ChainstateManager` manages a single Chainstate object, for which
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`m_snapshot_blockhash` is null. This chainstate is (maybe obviously)
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considered active. This is the "traditional" mode of operation for bitcoind.
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| | |
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| ---------- | ----------- |
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| number of chainstates | 1 |
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| active chainstate | ibd |
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### User loads a UTXO snapshot via `loadtxoutset` RPC
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`ChainstateManager` initializes a new chainstate (see `ActivateSnapshot()`) to load the
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snapshot contents into. During snapshot load and validation (see
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`PopulateAndValidateSnapshot()`), the new chainstate is not considered active and the
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original chainstate remains in use as active.
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| | |
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| ---------- | ----------- |
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| number of chainstates | 2 |
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| active chainstate | ibd |
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Once the snapshot chainstate is loaded and validated, it is promoted to active
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chainstate and a sync to tip begins. A new chainstate directory is created in the
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datadir for the snapshot chainstate called `chainstate_snapshot`.
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When this directory is present in the datadir, the snapshot chainstate will be detected
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and loaded as active on node startup (via `DetectSnapshotChainstate()`).
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A special file is created within that directory, `base_blockhash`, which contains the
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serialized `uint256` of the base block of the snapshot. This is used to reinitialize
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the snapshot chainstate on subsequent inits. Otherwise, the directory is a normal
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leveldb database.
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| | |
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| ---------- | ----------- |
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| number of chainstates | 2 |
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| active chainstate | snapshot |
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The snapshot begins to sync to tip from its base block, technically in parallel with
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the original chainstate, but it is given priority during block download and is
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allocated most of the cache (see `MaybeRebalanceCaches()` and usages) as our chief
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goal is getting to network tip.
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**Failure consideration:** if shutdown happens at any point during this phase, both
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chainstates will be detected during the next init and the process will resume.
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### Snapshot chainstate hits network tip
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Once the snapshot chainstate leaves IBD, caches are rebalanced
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(via `MaybeRebalanceCaches()` in `ActivateBestChain()`) and more cache is given
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to the background chainstate, which is responsible for doing full validation of the
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assumed-valid parts of the chain.
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**Note:** at this point, ValidationInterface callbacks will be coming in from both
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chainstates. Considerations here must be made for indexing, which may no longer be happening
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sequentially.
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### Background chainstate hits snapshot base block
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Once the tip of the background chainstate hits the base block of the snapshot
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chainstate, we stop use of the background chainstate by setting `m_disabled`, in
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`CompleteSnapshotValidation()`, which is checked in `ActivateBestChain()`). We hash the
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background chainstate's UTXO set contents and ensure it matches the compiled value in
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`CMainParams::m_assumeutxo_data`.
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| ---------- | ----------- |
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| number of chainstates | 2 (ibd has `m_disabled=true`) |
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| active chainstate | snapshot |
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The background chainstate data lingers on disk until the program is restarted.
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### Bitcoind restarts sometime after snapshot validation has completed
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After a shutdown and subsequent restart, `LoadChainstate()` cleans up the background
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chainstate with `ValidatedSnapshotCleanup()`, which renames the `chainstate_snapshot`
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datadir as `chainstate` and removes the now unnecessary background chainstate data.
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| ---------- | ----------- |
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| number of chainstates | 1 |
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| active chainstate | ibd (was snapshot, but is now fully validated) |
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What began as the snapshot chainstate is now indistinguishable from a chainstate that
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has been built from the traditional IBD process, and will be initialized as such.
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A file will be left in `chainstate/base_blockhash`, which indicates that the
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chainstate, even though now fully validated, was originally started from a snapshot
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with the corresponding base blockhash.
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