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// Copyright (c) 2022 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#include <headerssync.h>
#include <logging.h>
#include <pow.h>
#include <util/check.h>
#include <util/time.h>
#include <util/vector.h>
// The two constants below are computed using the simulation script in
// contrib/devtools/headerssync-params.py.
//! Store one header commitment per HEADER_COMMITMENT_PERIOD blocks.
constexpr size_t HEADER_COMMITMENT_PERIOD{615};
//! Only feed headers to validation once this many headers on top have been
//! received and validated against commitments.
constexpr size_t REDOWNLOAD_BUFFER_SIZE{14621}; // 14621/615 = ~23.8 commitments
// Our memory analysis assumes 48 bytes for a CompressedHeader (so we should
// re-calculate parameters if we compress further)
static_assert(sizeof(CompressedHeader) == 48);
HeadersSyncState::HeadersSyncState(NodeId id, const Consensus::Params& consensus_params,
const CBlockIndex* chain_start, const arith_uint256& minimum_required_work) :
m_commit_offset(FastRandomContext().randrange<unsigned>(HEADER_COMMITMENT_PERIOD)),
m_id(id), m_consensus_params(consensus_params),
m_chain_start(chain_start),
m_minimum_required_work(minimum_required_work),
m_current_chain_work(chain_start->nChainWork),
m_last_header_received(m_chain_start->GetBlockHeader()),
m_current_height(chain_start->nHeight)
{
// Estimate the number of blocks that could possibly exist on the peer's
// chain *right now* using 6 blocks/second (fastest blockrate given the MTP
// rule) times the number of seconds from the last allowed block until
// today. This serves as a memory bound on how many commitments we might
// store from this peer, and we can safely give up syncing if the peer
// exceeds this bound, because it's not possible for a consensus-valid
// chain to be longer than this (at the current time -- in the future we
// could try again, if necessary, to sync a longer chain).
m_max_commitments = 6*(Ticks<std::chrono::seconds>(NodeClock::now() - NodeSeconds{std::chrono::seconds{chain_start->GetMedianTimePast()}}) + MAX_FUTURE_BLOCK_TIME) / HEADER_COMMITMENT_PERIOD;
LogDebug(BCLog::NET, "Initial headers sync started with peer=%d: height=%i, max_commitments=%i, min_work=%s\n", m_id, m_current_height, m_max_commitments, m_minimum_required_work.ToString());
}
/** Free any memory in use, and mark this object as no longer usable. This is
* required to guarantee that we won't reuse this object with the same
* SaltedTxidHasher for another sync. */
void HeadersSyncState::Finalize()
{
Assume(m_download_state != State::FINAL);
ClearShrink(m_header_commitments);
m_last_header_received.SetNull();
ClearShrink(m_redownloaded_headers);
m_redownload_buffer_last_hash.SetNull();
m_redownload_buffer_first_prev_hash.SetNull();
m_process_all_remaining_headers = false;
m_current_height = 0;
m_download_state = State::FINAL;
}
/** Process the next batch of headers received from our peer.
* Validate and store commitments, and compare total chainwork to our target to
* see if we can switch to REDOWNLOAD mode. */
HeadersSyncState::ProcessingResult HeadersSyncState::ProcessNextHeaders(const
std::vector<CBlockHeader>& received_headers, const bool full_headers_message)
{
ProcessingResult ret;
Assume(!received_headers.empty());
if (received_headers.empty()) return ret;
Assume(m_download_state != State::FINAL);
if (m_download_state == State::FINAL) return ret;
if (m_download_state == State::PRESYNC) {
// During PRESYNC, we minimally validate block headers and
// occasionally add commitments to them, until we reach our work
// threshold (at which point m_download_state is updated to REDOWNLOAD).
ret.success = ValidateAndStoreHeadersCommitments(received_headers);
if (ret.success) {
if (full_headers_message || m_download_state == State::REDOWNLOAD) {
// A full headers message means the peer may have more to give us;
// also if we just switched to REDOWNLOAD then we need to re-request
// headers from the beginning.
ret.request_more = true;
} else {
Assume(m_download_state == State::PRESYNC);
// If we're in PRESYNC and we get a non-full headers
// message, then the peer's chain has ended and definitely doesn't
// have enough work, so we can stop our sync.
LogDebug(BCLog::NET, "Initial headers sync aborted with peer=%d: incomplete headers message at height=%i (presync phase)\n", m_id, m_current_height);
}
}
} else if (m_download_state == State::REDOWNLOAD) {
// During REDOWNLOAD, we compare our stored commitments to what we
// receive, and add headers to our redownload buffer. When the buffer
// gets big enough (meaning that we've checked enough commitments),
// we'll return a batch of headers to the caller for processing.
ret.success = true;
for (const auto& hdr : received_headers) {
if (!ValidateAndStoreRedownloadedHeader(hdr)) {
// Something went wrong -- the peer gave us an unexpected chain.
// We could consider looking at the reason for failure and
// punishing the peer, but for now just give up on sync.
ret.success = false;
break;
}
}
if (ret.success) {
// Return any headers that are ready for acceptance.
ret.pow_validated_headers = PopHeadersReadyForAcceptance();
// If we hit our target blockhash, then all remaining headers will be
// returned and we can clear any leftover internal state.
if (m_redownloaded_headers.empty() && m_process_all_remaining_headers) {
LogDebug(BCLog::NET, "Initial headers sync complete with peer=%d: releasing all at height=%i (redownload phase)\n", m_id, m_redownload_buffer_last_height);
} else if (full_headers_message) {
// If the headers message is full, we need to request more.
ret.request_more = true;
} else {
// For some reason our peer gave us a high-work chain, but is now
// declining to serve us that full chain again. Give up.
// Note that there's no more processing to be done with these
// headers, so we can still return success.
LogDebug(BCLog::NET, "Initial headers sync aborted with peer=%d: incomplete headers message at height=%i (redownload phase)\n", m_id, m_redownload_buffer_last_height);
}
}
}
if (!(ret.success && ret.request_more)) Finalize();
return ret;
}
bool HeadersSyncState::ValidateAndStoreHeadersCommitments(const std::vector<CBlockHeader>& headers)
{
// The caller should not give us an empty set of headers.
Assume(headers.size() > 0);
if (headers.size() == 0) return true;
Assume(m_download_state == State::PRESYNC);
if (m_download_state != State::PRESYNC) return false;
if (headers[0].hashPrevBlock != m_last_header_received.GetHash()) {
// Somehow our peer gave us a header that doesn't connect.
// This might be benign -- perhaps our peer reorged away from the chain
// they were on. Give up on this sync for now (likely we will start a
// new sync with a new starting point).
LogDebug(BCLog::NET, "Initial headers sync aborted with peer=%d: non-continuous headers at height=%i (presync phase)\n", m_id, m_current_height);
return false;
}
// If it does connect, (minimally) validate and occasionally store
// commitments.
for (const auto& hdr : headers) {
if (!ValidateAndProcessSingleHeader(hdr)) {
return false;
}
}
if (m_current_chain_work >= m_minimum_required_work) {
m_redownloaded_headers.clear();
m_redownload_buffer_last_height = m_chain_start->nHeight;
m_redownload_buffer_first_prev_hash = m_chain_start->GetBlockHash();
m_redownload_buffer_last_hash = m_chain_start->GetBlockHash();
m_redownload_chain_work = m_chain_start->nChainWork;
m_download_state = State::REDOWNLOAD;
LogDebug(BCLog::NET, "Initial headers sync transition with peer=%d: reached sufficient work at height=%i, redownloading from height=%i\n", m_id, m_current_height, m_redownload_buffer_last_height);
}
return true;
}
bool HeadersSyncState::ValidateAndProcessSingleHeader(const CBlockHeader& current)
{
Assume(m_download_state == State::PRESYNC);
if (m_download_state != State::PRESYNC) return false;
int next_height = m_current_height + 1;
// Verify that the difficulty isn't growing too fast; an adversary with
// limited hashing capability has a greater chance of producing a high
// work chain if they compress the work into as few blocks as possible,
// so don't let anyone give a chain that would violate the difficulty
// adjustment maximum.
if (!PermittedDifficultyTransition(m_consensus_params, next_height,
m_last_header_received.nBits, current.nBits)) {
LogDebug(BCLog::NET, "Initial headers sync aborted with peer=%d: invalid difficulty transition at height=%i (presync phase)\n", m_id, next_height);
return false;
}
if (next_height % HEADER_COMMITMENT_PERIOD == m_commit_offset) {
// Add a commitment.
m_header_commitments.push_back(m_hasher(current.GetHash()) & 1);
if (m_header_commitments.size() > m_max_commitments) {
// The peer's chain is too long; give up.
// It's possible the chain grew since we started the sync; so
// potentially we could succeed in syncing the peer's chain if we
// try again later.
LogDebug(BCLog::NET, "Initial headers sync aborted with peer=%d: exceeded max commitments at height=%i (presync phase)\n", m_id, next_height);
return false;
}
}
m_current_chain_work += GetBlockProof(CBlockIndex(current));
m_last_header_received = current;
m_current_height = next_height;
return true;
}
bool HeadersSyncState::ValidateAndStoreRedownloadedHeader(const CBlockHeader& header)
{
Assume(m_download_state == State::REDOWNLOAD);
if (m_download_state != State::REDOWNLOAD) return false;
int64_t next_height = m_redownload_buffer_last_height + 1;
// Ensure that we're working on a header that connects to the chain we're
// downloading.
if (header.hashPrevBlock != m_redownload_buffer_last_hash) {
LogDebug(BCLog::NET, "Initial headers sync aborted with peer=%d: non-continuous headers at height=%i (redownload phase)\n", m_id, next_height);
return false;
}
// Check that the difficulty adjustments are within our tolerance:
uint32_t previous_nBits{0};
if (!m_redownloaded_headers.empty()) {
previous_nBits = m_redownloaded_headers.back().nBits;
} else {
previous_nBits = m_chain_start->nBits;
}
if (!PermittedDifficultyTransition(m_consensus_params, next_height,
previous_nBits, header.nBits)) {
LogDebug(BCLog::NET, "Initial headers sync aborted with peer=%d: invalid difficulty transition at height=%i (redownload phase)\n", m_id, next_height);
return false;
}
// Track work on the redownloaded chain
m_redownload_chain_work += GetBlockProof(CBlockIndex(header));
if (m_redownload_chain_work >= m_minimum_required_work) {
m_process_all_remaining_headers = true;
}
// If we're at a header for which we previously stored a commitment, verify
// it is correct. Failure will result in aborting download.
// Also, don't check commitments once we've gotten to our target blockhash;
// it's possible our peer has extended its chain between our first sync and
// our second, and we don't want to return failure after we've seen our
// target blockhash just because we ran out of commitments.
if (!m_process_all_remaining_headers && next_height % HEADER_COMMITMENT_PERIOD == m_commit_offset) {
if (m_header_commitments.size() == 0) {
LogDebug(BCLog::NET, "Initial headers sync aborted with peer=%d: commitment overrun at height=%i (redownload phase)\n", m_id, next_height);
// Somehow our peer managed to feed us a different chain and
// we've run out of commitments.
return false;
}
bool commitment = m_hasher(header.GetHash()) & 1;
bool expected_commitment = m_header_commitments.front();
m_header_commitments.pop_front();
if (commitment != expected_commitment) {
LogDebug(BCLog::NET, "Initial headers sync aborted with peer=%d: commitment mismatch at height=%i (redownload phase)\n", m_id, next_height);
return false;
}
}
// Store this header for later processing.
m_redownloaded_headers.emplace_back(header);
m_redownload_buffer_last_height = next_height;
m_redownload_buffer_last_hash = header.GetHash();
return true;
}
std::vector<CBlockHeader> HeadersSyncState::PopHeadersReadyForAcceptance()
{
std::vector<CBlockHeader> ret;
Assume(m_download_state == State::REDOWNLOAD);
if (m_download_state != State::REDOWNLOAD) return ret;
while (m_redownloaded_headers.size() > REDOWNLOAD_BUFFER_SIZE ||
(m_redownloaded_headers.size() > 0 && m_process_all_remaining_headers)) {
ret.emplace_back(m_redownloaded_headers.front().GetFullHeader(m_redownload_buffer_first_prev_hash));
m_redownloaded_headers.pop_front();
m_redownload_buffer_first_prev_hash = ret.back().GetHash();
}
return ret;
}
CBlockLocator HeadersSyncState::NextHeadersRequestLocator() const
{
Assume(m_download_state != State::FINAL);
if (m_download_state == State::FINAL) return {};
auto chain_start_locator = LocatorEntries(m_chain_start);
std::vector<uint256> locator;
if (m_download_state == State::PRESYNC) {
// During pre-synchronization, we continue from the last header received.
locator.push_back(m_last_header_received.GetHash());
}
if (m_download_state == State::REDOWNLOAD) {
// During redownload, we will download from the last received header that we stored.
locator.push_back(m_redownload_buffer_last_hash);
}
locator.insert(locator.end(), chain_start_locator.begin(), chain_start_locator.end());
return CBlockLocator{std::move(locator)};
}
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