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