Exemplo n.º 1
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 def __init__(self, chain: AsyncChainAPI, db: BaseAsyncChainDB,
              peer_pool: ETHPeerPool) -> None:
     self._chain = chain
     self._db = db
     self._peer_pool = peer_pool
     self._pauser = Pauser()
     self._body_syncer: FastChainBodySyncer = None
Exemplo n.º 2
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 def __init__(self, chain: AsyncChainAPI, db: BaseAsyncChainDB,
              peer_pool: ETHPeerPool) -> None:
     self._chain = chain
     self._db = db
     self._peer_pool = peer_pool
     self._pauser = Pauser()
     self._body_syncer: FastChainBodySyncer = None
     self._max_backfill_block_bodies_at_once = MAX_BACKFILL_BLOCK_BODIES_AT_ONCE
Exemplo n.º 3
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    def __init__(self, chain: AsyncChainAPI, db: BaseAsyncChainDB,
                 peer_pool: ETHPeerPool) -> None:

        self.logger = get_logger(
            'trinity.sync.header.chain.SequentialHeaderChainGapSyncer')
        self._chain = chain
        self._db = db
        self._peer_pool = peer_pool
        self._pauser = Pauser()
        self._max_backfill_header_at_once = MAX_BACKFILL_HEADERS_AT_ONCE
Exemplo n.º 4
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class SequentialHeaderChainGapSyncer(Service):
    def __init__(self, chain: AsyncChainAPI, db: BaseAsyncChainDB,
                 peer_pool: ETHPeerPool) -> None:

        self.logger = get_logger(
            'trinity.sync.header.chain.SequentialHeaderChainGapSyncer')
        self._chain = chain
        self._db = db
        self._peer_pool = peer_pool
        self._pauser = Pauser()
        self._max_backfill_header_at_once = MAX_BACKFILL_HEADERS_AT_ONCE

    def pause(self) -> None:
        """
        Pause the sync after the current operation has finished.
        """
        # We just switch the toggle but let the sync finish the current segment. It will wait for
        # the resume call before it starts a new segment.
        self._pauser.pause()
        self.logger.debug2(
            "Pausing SequentialHeaderChainGapSyncer after current operation finishs"
        )

    def resume(self) -> None:
        """
        Resume the sync.
        """
        self._pauser.resume()
        self.logger.debug2("SequentialHeaderChainGapSyncer resumed")

    async def run(self) -> None:
        while self.manager.is_running:
            if self._pauser.is_paused:
                await self._pauser.await_resume()

            gaps, _ = self._db.get_header_chain_gaps()
            if len(gaps) < 1:
                self.logger.info("No more gaps to fill. Exiting")
                self.manager.cancel()
                return
            else:
                self.logger.debug(f"Starting gap sync at {gaps[0]}")
                syncer = HeaderChainGapSyncer(
                    self._chain,
                    self._db,
                    self._peer_pool,
                    max_headers=self._max_backfill_header_at_once,
                )
            async with background_asyncio_service(syncer) as manager:
                await manager.wait_finished()
Exemplo n.º 5
0
class BodyChainGapSyncer(Service):
    """
    A service to sync historical blocks without executing them. This service is meant to be run
    in tandem with other operations that sync the state.
    """

    _idle_time = BLOCK_BACKFILL_IDLE_TIME
    _starting_tip: BlockHeaderAPI = None

    logger = get_logger('trinity.sync.beam.chain.BodyChainGapSyncer')

    def __init__(self,
                 chain: AsyncChainAPI,
                 db: BaseAsyncChainDB,
                 peer_pool: ETHPeerPool) -> None:
        self._chain = chain
        self._db = db
        self._peer_pool = peer_pool
        self._pauser = Pauser()
        self._body_syncer: FastChainBodySyncer = None
        self._max_backfill_block_bodies_at_once = MAX_BACKFILL_BLOCK_BODIES_AT_ONCE

    async def _setup_for_next_gap(self) -> None:
        gap_start, gap_end = self._get_next_gap()
        fill_start = BlockNumber(max(
            gap_start,
            gap_end - self._max_backfill_block_bodies_at_once,
        ))
        start_num = BlockNumber(fill_start - 1)
        _starting_tip = await self._db.coro_get_canonical_block_header_by_number(start_num)

        if self._pauser.is_paused:
            # If the syncer was paused while we were busy setting it up throw the current setup
            # away. A new setup will be performed as soon as `resume()` was called again.
            raise ValidationError("Syncer was paused by the user")

        async def _get_launch_header() -> BlockHeaderAPI:
            return _starting_tip

        self.logger.debug("Starting to sync missing blocks from #%s to #%s", fill_start, gap_end)

        self._body_syncer = FastChainBodySyncer(
            self._chain,
            self._db,
            self._peer_pool,
            DatabaseBlockRangeHeaderSyncer(self._db, (fill_start, gap_end,)),
            launch_header_fn=_get_launch_header,
            should_skip_header_fn=body_for_header_exists(self._db, self._chain)
        )
        self._body_syncer.logger = self.logger

    def _get_next_gap(self) -> BlockRange:
        gaps, future_tip_block = self._db.get_chain_gaps()
        header_gaps, future_tip_header = self._db.get_header_chain_gaps()
        try:
            actionable_gap = self.get_topmost_actionable_gap(gaps, header_gaps)

        except NoActionableGap:
            # We do not have gaps in the chain of blocks but we may still have a gap from the last
            # block up until the highest consecutive written header.
            if len(header_gaps) > 0:
                # The header chain has gaps, find out the lowest missing header
                lowest_missing_header, _ = header_gaps[0]
            else:
                # It doesn't have gaps, so the future_tip_header is the lowest missing header
                lowest_missing_header = future_tip_header

            highest_consecutive_header = lowest_missing_header - 1
            if highest_consecutive_header >= future_tip_block:
                # The header before the lowest missing header is the highest consecutive header
                # that exists in the db and it is higher than the future tip block. That's a gap
                # we can try to close.
                return future_tip_block, BlockNumber(highest_consecutive_header)
            else:
                raise ValidationError("No gaps in the chain of blocks")
        else:
            return actionable_gap

    def get_topmost_actionable_gap(self,
                                   gaps: Tuple[BlockRange, ...],
                                   header_gaps: Tuple[BlockRange, ...]) -> BlockRange:
        '''
        Returns the most recent gap of blocks of max size = _max_backfill_block_bodies_at_once
        for which the headers exist in DB, along with the header preceding the gap.
        '''
        for gap in gaps[::-1]:
            if gap[1] - gap[0] > self._max_backfill_block_bodies_at_once:
                gap = (BlockNumber(gap[1] - self._max_backfill_block_bodies_at_once), gap[1])
            # We want to be sure the header preceding the block gap is in DB
            gap_with_prev_block = (BlockNumber(gap[0] - 1), gap[1])
            for header_gap in header_gaps[::-1]:
                if not self._have_empty_intersection(gap_with_prev_block, header_gap):
                    break
            else:
                return gap
        else:
            raise NoActionableGap

    def _have_empty_intersection(self, block_gap: BlockRange, header_gap: BlockRange) -> bool:
        return block_gap[0] > header_gap[1] or block_gap[1] < header_gap[0]

    @property
    def is_paused(self) -> bool:
        """
        Return ``True`` if the sync is currently paused, otherwise ``False``.
        """
        return self._pauser.is_paused

    def pause(self) -> None:
        """
        Pause the sync. Pause and resume are wasteful actions and should not happen too frequently.
        """
        self._pauser.pause()
        if self._body_syncer:
            # Pausing the syncer is valid at any point that the service is running but that might
            # hit a point where we are still resolving the gaps and have no body_syncer set up yet.
            self._body_syncer.get_manager().cancel()
        self.logger.debug2("BodyChainGapSyncer paused")

    def resume(self) -> None:
        """
        Resume the sync.
        """
        self._pauser.resume()
        self.logger.debug2("BodyChainGapSyncer resumed")

    async def run(self) -> None:
        """
        Run the sync indefinitely until it is cancelled externally.
        """
        while True:
            if self._pauser.is_paused:
                await self._pauser.await_resume()
            try:
                await self._setup_for_next_gap()
            except ValidationError:
                self.logger.debug(
                    "There are no gaps in the chain of blocks at this time. Sleeping for %ss",
                    self._idle_time
                )
                await asyncio.sleep(self._idle_time)
            else:
                await self.manager.run_service(self._body_syncer)