Bitcoin Core
31.1.0
P2P Digital Currency
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src
headerssync.cpp
Go to the documentation of this file.
1
// Copyright (c) 2022-present The Bitcoin Core developers
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// Distributed under the MIT software license, see the accompanying
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// file COPYING or http://www.opensource.org/licenses/mit-license.php.
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#include <
headerssync.h
>
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#include <
logging.h
>
8
#include <
pow.h
>
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#include <
util/check.h
>
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#include <
util/time.h
>
11
#include <
util/vector.h
>
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13
// Our memory analysis in headerssync-params.py assumes this many bytes for a
14
// CompressedHeader (we should re-calculate parameters if we compress further).
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static_assert
(
sizeof
(
CompressedHeader
) == 48);
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17
HeadersSyncState::HeadersSyncState
(
NodeId
id
,
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const
Consensus::Params
& consensus_params,
19
const
HeadersSyncParams
& params,
20
const
CBlockIndex
& chain_start,
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const
arith_uint256
& minimum_required_work)
22
:
m_commit_offset
((
assert
(params.commitment_period > 0),
// HeadersSyncParams field must be initialized to non-zero.
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FastRandomContext
().randrange(params.commitment_period))),
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m_id
(id),
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m_consensus_params
(consensus_params),
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m_params
(params),
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m_chain_start
(chain_start),
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m_minimum_required_work
(minimum_required_work),
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m_current_chain_work
(chain_start.nChainWork),
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m_last_header_received
(
m_chain_start
.GetBlockHeader()),
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m_current_height
(chain_start.
nHeight
)
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{
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// Estimate the number of blocks that could possibly exist on the peer's
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// chain *right now* using 6 blocks/second (fastest blockrate given the MTP
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// rule) times the number of seconds from the last allowed block until
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// today. This serves as a memory bound on how many commitments we might
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// store from this peer, and we can safely give up syncing if the peer
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// exceeds this bound, because it's not possible for a consensus-valid
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// chain to be longer than this (at the current time -- in the future we
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// could try again, if necessary, to sync a longer chain).
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const
auto
max_seconds_since_start{(
Ticks<std::chrono::seconds>
(
NodeClock::now
() -
NodeSeconds
{std::chrono::seconds{chain_start.
GetMedianTimePast
()}}))
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+
MAX_FUTURE_BLOCK_TIME
};
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m_max_commitments
= 6 * max_seconds_since_start /
m_params
.commitment_period;
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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());
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}
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void
HeadersSyncState::Finalize
()
52
{
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Assume
(
m_download_state
!= State::FINAL);
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ClearShrink
(
m_header_commitments
);
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m_last_header_received
.SetNull();
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ClearShrink
(
m_redownloaded_headers
);
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m_redownload_buffer_last_hash
.SetNull();
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m_redownload_buffer_first_prev_hash
.SetNull();
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m_process_all_remaining_headers
=
false
;
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m_current_height
= 0;
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m_download_state
= State::FINAL;
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}
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HeadersSyncState::ProcessingResult
HeadersSyncState::ProcessNextHeaders
(
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std::span<const CBlockHeader> received_headers,
const
bool
full_headers_message)
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{
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ProcessingResult
ret
;
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Assume
(!received_headers.empty());
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if
(received_headers.empty())
return
ret
;
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Assume
(
m_download_state
!= State::FINAL);
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if
(
m_download_state
== State::FINAL)
return
ret
;
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if
(
m_download_state
== State::PRESYNC) {
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// During PRESYNC, we minimally validate block headers and
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// occasionally add commitments to them, until we reach our work
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// threshold (at which point m_download_state is updated to REDOWNLOAD).
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ret
.success =
ValidateAndStoreHeadersCommitments
(received_headers);
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if
(
ret
.success) {
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if
(full_headers_message ||
m_download_state
== State::REDOWNLOAD) {
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// A full headers message means the peer may have more to give us;
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// also if we just switched to REDOWNLOAD then we need to re-request
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// headers from the beginning.
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ret
.request_more =
true
;
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}
else
{
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Assume
(
m_download_state
== State::PRESYNC);
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// If we're in PRESYNC and we get a non-full headers
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// message, then the peer's chain has ended and definitely doesn't
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// have enough work, so we can stop our sync.
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LogDebug
(
BCLog::NET
,
"Initial headers sync aborted with peer=%d: incomplete headers message at height=%i (presync phase)\n"
,
m_id
,
m_current_height
);
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}
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}
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}
else
if
(
m_download_state
== State::REDOWNLOAD) {
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// During REDOWNLOAD, we compare our stored commitments to what we
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// receive, and add headers to our redownload buffer. When the buffer
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// gets big enough (meaning that we've checked enough commitments),
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// we'll return a batch of headers to the caller for processing.
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ret
.success =
true
;
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for
(
const
auto
& hdr : received_headers) {
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if
(!
ValidateAndStoreRedownloadedHeader
(hdr)) {
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// Something went wrong -- the peer gave us an unexpected chain.
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// We could consider looking at the reason for failure and
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// punishing the peer, but for now just give up on sync.
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ret
.success =
false
;
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break
;
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}
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}
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114
if
(
ret
.success) {
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// Return any headers that are ready for acceptance.
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ret
.pow_validated_headers =
PopHeadersReadyForAcceptance
();
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// If we hit our target blockhash, then all remaining headers will be
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// returned and we can clear any leftover internal state.
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if
(
m_redownloaded_headers
.empty() &&
m_process_all_remaining_headers
) {
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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
);
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}
else
if
(full_headers_message) {
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// If the headers message is full, we need to request more.
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ret
.request_more =
true
;
125
}
else
{
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// For some reason our peer gave us a high-work chain, but is now
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// declining to serve us that full chain again. Give up.
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// Note that there's no more processing to be done with these
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// headers, so we can still return success.
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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
);
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}
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}
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}
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if
(!(
ret
.success &&
ret
.request_more))
Finalize
();
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return
ret
;
137
}
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bool
HeadersSyncState::ValidateAndStoreHeadersCommitments
(std::span<const CBlockHeader> headers)
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{
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// The caller should not give us an empty set of headers.
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Assume
(headers.size() > 0);
143
if
(headers.size() == 0)
return
true
;
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145
Assume
(
m_download_state
== State::PRESYNC);
146
if
(
m_download_state
!= State::PRESYNC)
return
false
;
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148
if
(headers[0].hashPrevBlock !=
m_last_header_received
.GetHash()) {
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// Somehow our peer gave us a header that doesn't connect.
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// This might be benign -- perhaps our peer reorged away from the chain
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// they were on. Give up on this sync for now (likely we will start a
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// new sync with a new starting point).
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LogDebug
(
BCLog::NET
,
"Initial headers sync aborted with peer=%d: non-continuous headers at height=%i (presync phase)\n"
,
m_id
,
m_current_height
);
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return
false
;
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}
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// If it does connect, (minimally) validate and occasionally store
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// commitments.
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for
(
const
auto
& hdr : headers) {
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if
(!
ValidateAndProcessSingleHeader
(hdr)) {
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return
false
;
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}
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}
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if
(
m_current_chain_work
>=
m_minimum_required_work
) {
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m_redownloaded_headers
.clear();
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m_redownload_buffer_last_height
=
m_chain_start
.nHeight;
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m_redownload_buffer_first_prev_hash
=
m_chain_start
.GetBlockHash();
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m_redownload_buffer_last_hash
=
m_chain_start
.GetBlockHash();
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m_redownload_chain_work
=
m_chain_start
.nChainWork;
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m_download_state
= State::REDOWNLOAD;
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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
);
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}
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return
true
;
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}
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bool
HeadersSyncState::ValidateAndProcessSingleHeader
(
const
CBlockHeader
& current)
178
{
179
Assume
(
m_download_state
== State::PRESYNC);
180
if
(
m_download_state
!= State::PRESYNC)
return
false
;
181
182
int
next_height =
m_current_height
+ 1;
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184
// Verify that the difficulty isn't growing too fast; an adversary with
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// limited hashing capability has a greater chance of producing a high
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// work chain if they compress the work into as few blocks as possible,
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// so don't let anyone give a chain that would violate the difficulty
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// adjustment maximum.
189
if
(!
PermittedDifficultyTransition
(
m_consensus_params
, next_height,
190
m_last_header_received
.nBits, current.
nBits
)) {
191
LogDebug
(
BCLog::NET
,
"Initial headers sync aborted with peer=%d: invalid difficulty transition at height=%i (presync phase)\n"
,
m_id
, next_height);
192
return
false
;
193
}
194
195
if
(next_height %
m_params
.commitment_period ==
m_commit_offset
) {
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// Add a commitment.
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m_header_commitments
.push_back(
m_hasher
(current.
GetHash
()) & 1);
198
if
(
m_header_commitments
.size() >
m_max_commitments
) {
199
// The peer's chain is too long; give up.
200
// It's possible the chain grew since we started the sync; so
201
// potentially we could succeed in syncing the peer's chain if we
202
// try again later.
203
LogDebug
(
BCLog::NET
,
"Initial headers sync aborted with peer=%d: exceeded max commitments at height=%i (presync phase)\n"
,
m_id
, next_height);
204
return
false
;
205
}
206
}
207
208
m_current_chain_work
+=
GetBlockProof
(current);
209
m_last_header_received
= current;
210
m_current_height
= next_height;
211
212
return
true
;
213
}
214
215
bool
HeadersSyncState::ValidateAndStoreRedownloadedHeader
(
const
CBlockHeader
& header)
216
{
217
Assume
(
m_download_state
== State::REDOWNLOAD);
218
if
(
m_download_state
!= State::REDOWNLOAD)
return
false
;
219
220
int64_t next_height =
m_redownload_buffer_last_height
+ 1;
221
222
// Ensure that we're working on a header that connects to the chain we're
223
// downloading.
224
if
(header.
hashPrevBlock
!=
m_redownload_buffer_last_hash
) {
225
LogDebug
(
BCLog::NET
,
"Initial headers sync aborted with peer=%d: non-continuous headers at height=%i (redownload phase)\n"
,
m_id
, next_height);
226
return
false
;
227
}
228
229
// Check that the difficulty adjustments are within our tolerance:
230
uint32_t previous_nBits{0};
231
if
(!
m_redownloaded_headers
.empty()) {
232
previous_nBits =
m_redownloaded_headers
.back().nBits;
233
}
else
{
234
previous_nBits =
m_chain_start
.nBits;
235
}
236
237
if
(!
PermittedDifficultyTransition
(
m_consensus_params
, next_height,
238
previous_nBits, header.
nBits
)) {
239
LogDebug
(
BCLog::NET
,
"Initial headers sync aborted with peer=%d: invalid difficulty transition at height=%i (redownload phase)\n"
,
m_id
, next_height);
240
return
false
;
241
}
242
243
// Track work on the redownloaded chain
244
m_redownload_chain_work
+=
GetBlockProof
(header);
245
246
if
(
m_redownload_chain_work
>=
m_minimum_required_work
) {
247
m_process_all_remaining_headers
=
true
;
248
}
249
250
// If we're at a header for which we previously stored a commitment, verify
251
// it is correct. Failure will result in aborting download.
252
// Also, don't check commitments once we've gotten to our target blockhash;
253
// it's possible our peer has extended its chain between our first sync and
254
// our second, and we don't want to return failure after we've seen our
255
// target blockhash just because we ran out of commitments.
256
if
(!
m_process_all_remaining_headers
&& next_height %
m_params
.commitment_period ==
m_commit_offset
) {
257
if
(
m_header_commitments
.size() == 0) {
258
LogDebug
(
BCLog::NET
,
"Initial headers sync aborted with peer=%d: commitment overrun at height=%i (redownload phase)\n"
,
m_id
, next_height);
259
// Somehow our peer managed to feed us a different chain and
260
// we've run out of commitments.
261
return
false
;
262
}
263
bool
commitment =
m_hasher
(header.
GetHash
()) & 1;
264
bool
expected_commitment =
m_header_commitments
.front();
265
m_header_commitments
.pop_front();
266
if
(commitment != expected_commitment) {
267
LogDebug
(
BCLog::NET
,
"Initial headers sync aborted with peer=%d: commitment mismatch at height=%i (redownload phase)\n"
,
m_id
, next_height);
268
return
false
;
269
}
270
}
271
272
// Store this header for later processing.
273
m_redownloaded_headers
.emplace_back(header);
274
m_redownload_buffer_last_height
= next_height;
275
m_redownload_buffer_last_hash
= header.
GetHash
();
276
277
return
true
;
278
}
279
280
std::vector<CBlockHeader>
HeadersSyncState::PopHeadersReadyForAcceptance
()
281
{
282
std::vector<CBlockHeader>
ret
;
283
284
Assume
(
m_download_state
== State::REDOWNLOAD);
285
if
(
m_download_state
!= State::REDOWNLOAD)
return
ret
;
286
287
while
(
m_redownloaded_headers
.size() >
m_params
.redownload_buffer_size ||
288
(
m_redownloaded_headers
.size() > 0 &&
m_process_all_remaining_headers
)) {
289
ret
.emplace_back(
m_redownloaded_headers
.front().GetFullHeader(
m_redownload_buffer_first_prev_hash
));
290
m_redownloaded_headers
.pop_front();
291
m_redownload_buffer_first_prev_hash
=
ret
.back().GetHash();
292
}
293
return
ret
;
294
}
295
296
CBlockLocator
HeadersSyncState::NextHeadersRequestLocator
()
const
297
{
298
Assume
(
m_download_state
!= State::FINAL);
299
if
(
m_download_state
== State::FINAL)
return
{};
300
301
auto
chain_start_locator =
LocatorEntries
(&
m_chain_start
);
302
std::vector<uint256> locator;
303
304
if
(
m_download_state
== State::PRESYNC) {
305
// During pre-synchronization, we continue from the last header received.
306
locator.push_back(
m_last_header_received
.GetHash());
307
}
308
309
if
(
m_download_state
== State::REDOWNLOAD) {
310
// During redownload, we will download from the last received header that we stored.
311
locator.push_back(
m_redownload_buffer_last_hash
);
312
}
313
314
locator.insert(locator.end(), chain_start_locator.begin(), chain_start_locator.end());
315
316
return
CBlockLocator
{std::move(locator)};
317
}
ret
int ret
Definition
bitcoin-cli.cpp:1350
LocatorEntries
std::vector< uint256 > LocatorEntries(const CBlockIndex *index)
Construct a list of hash entries to put in a locator.
Definition
chain.cpp:26
GetBlockProof
arith_uint256 GetBlockProof(const CBlockIndex &block)
Compute how much work a block index entry corresponds to.
Definition
chain.h:305
MAX_FUTURE_BLOCK_TIME
static constexpr int64_t MAX_FUTURE_BLOCK_TIME
Maximum amount of time that a block timestamp is allowed to exceed the current time before the block ...
Definition
chain.h:29
check.h
Assume
#define Assume(val)
Assume is the identity function.
Definition
check.h:125
CBlockHeader
Nodes collect new transactions into a block, hash them into a hash tree, and scan through nonce value...
Definition
block.h:27
CBlockHeader::nBits
uint32_t nBits
Definition
block.h:34
CBlockHeader::hashPrevBlock
uint256 hashPrevBlock
Definition
block.h:31
CBlockHeader::GetHash
uint256 GetHash() const
Definition
block.cpp:15
CBlockIndex
The block chain is a tree shaped structure starting with the genesis block at the root,...
Definition
chain.h:94
CBlockIndex::GetMedianTimePast
int64_t GetMedianTimePast() const
Definition
chain.h:233
FastRandomContext
Fast randomness source.
Definition
random.h:386
HeadersSyncState::m_max_commitments
uint64_t m_max_commitments
m_max_commitments is a bound we calculate on how long an honest peer's chain could be,...
Definition
headerssync.h:242
HeadersSyncState::m_redownload_chain_work
arith_uint256 m_redownload_chain_work
The accumulated work on the redownloaded chain.
Definition
headerssync.h:271
HeadersSyncState::ValidateAndStoreHeadersCommitments
bool ValidateAndStoreHeadersCommitments(std::span< const CBlockHeader > headers)
Only called in PRESYNC.
Definition
headerssync.cpp:139
HeadersSyncState::m_last_header_received
CBlockHeader m_last_header_received
Store the latest header received while in PRESYNC (initialized to m_chain_start).
Definition
headerssync.h:245
HeadersSyncState::m_current_chain_work
arith_uint256 m_current_chain_work
Work that we've seen so far on the peer's chain.
Definition
headerssync.h:229
HeadersSyncState::m_current_height
int64_t m_current_height
Height of m_last_header_received.
Definition
headerssync.h:248
HeadersSyncState::HeadersSyncState
HeadersSyncState(NodeId id, const Consensus::Params &consensus_params, const HeadersSyncParams ¶ms, const CBlockIndex &chain_start, const arith_uint256 &minimum_required_work)
Construct a HeadersSyncState object representing a headers sync via this download-twice mechanism).
Definition
headerssync.cpp:17
HeadersSyncState::m_minimum_required_work
const arith_uint256 m_minimum_required_work
Minimum work that we're looking for on this chain.
Definition
headerssync.h:226
HeadersSyncState::PopHeadersReadyForAcceptance
std::vector< CBlockHeader > PopHeadersReadyForAcceptance()
Return a set of headers that satisfy our proof-of-work threshold.
Definition
headerssync.cpp:280
HeadersSyncState::m_consensus_params
const Consensus::Params & m_consensus_params
We use the consensus params in our anti-DoS calculations.
Definition
headerssync.h:217
HeadersSyncState::ValidateAndProcessSingleHeader
bool ValidateAndProcessSingleHeader(const CBlockHeader ¤t)
In PRESYNC, process and update state for a single header.
Definition
headerssync.cpp:177
HeadersSyncState::m_download_state
State m_download_state
Current state of our headers sync.
Definition
headerssync.h:280
HeadersSyncState::ValidateAndStoreRedownloadedHeader
bool ValidateAndStoreRedownloadedHeader(const CBlockHeader &header)
In REDOWNLOAD, check a header's commitment (if applicable) and add to buffer for later processing.
Definition
headerssync.cpp:215
HeadersSyncState::m_header_commitments
bitdeque m_header_commitments
A queue of commitment bits, created during the 1st phase, and verified during the 2nd.
Definition
headerssync.h:235
HeadersSyncState::m_id
const NodeId m_id
NodeId of the peer (used for log messages).
Definition
headerssync.h:214
HeadersSyncState::ProcessNextHeaders
ProcessingResult ProcessNextHeaders(std::span< const CBlockHeader > received_headers, bool full_headers_message)
Process a batch of headers, once a sync via this mechanism has started.
Definition
headerssync.cpp:68
HeadersSyncState::m_redownload_buffer_last_height
int64_t m_redownload_buffer_last_height
Height of last header in m_redownloaded_headers.
Definition
headerssync.h:256
HeadersSyncState::m_redownloaded_headers
std::deque< CompressedHeader > m_redownloaded_headers
During phase 2 (REDOWNLOAD), we buffer redownloaded headers in memory until enough commitments have b...
Definition
headerssync.h:253
HeadersSyncState::m_process_all_remaining_headers
bool m_process_all_remaining_headers
Set this to true once we encounter the target blockheader during phase 2 (REDOWNLOAD).
Definition
headerssync.h:277
HeadersSyncState::m_params
const HeadersSyncParams m_params
Parameters that impact memory usage for a given chain, especially when attacked.
Definition
headerssync.h:220
HeadersSyncState::Finalize
void Finalize()
Clear out all download state that might be in progress (freeing any used memory), and mark this objec...
Definition
headerssync.cpp:51
HeadersSyncState::m_redownload_buffer_last_hash
uint256 m_redownload_buffer_last_hash
Hash of last header in m_redownloaded_headers (initialized to m_chain_start).
Definition
headerssync.h:262
HeadersSyncState::m_redownload_buffer_first_prev_hash
uint256 m_redownload_buffer_first_prev_hash
The hashPrevBlock entry for the first header in m_redownloaded_headers We need this to reconstruct th...
Definition
headerssync.h:268
HeadersSyncState::m_chain_start
const CBlockIndex & m_chain_start
Store the last block in our block index that the peer's chain builds from.
Definition
headerssync.h:223
HeadersSyncState::m_commit_offset
const size_t m_commit_offset
The (secret) offset on the heights for which to create commitments.
Definition
headerssync.h:185
HeadersSyncState::m_hasher
const SaltedUint256Hasher m_hasher
m_hasher is a salted hasher for making our 1-bit commitments to headers we've seen.
Definition
headerssync.h:232
HeadersSyncState::NextHeadersRequestLocator
CBlockLocator NextHeadersRequestLocator() const
Issue the next GETHEADERS message to our peer.
Definition
headerssync.cpp:296
arith_uint256
256-bit unsigned big integer.
Definition
arith_uint256.h:231
headerssync.h
LogDebug
#define LogDebug(category,...)
Definition
log.h:115
logging.h
nHeight
unsigned int nHeight
Definition
mempool_ephemeral_spends.cpp:26
BCLog::NET
@ NET
Definition
categories.h:16
NodeId
int64_t NodeId
Definition
net.h:103
PermittedDifficultyTransition
bool PermittedDifficultyTransition(const Consensus::Params ¶ms, int64_t height, uint32_t old_nbits, uint32_t new_nbits)
Return false if the proof-of-work requirement specified by new_nbits at a given height is not possibl...
Definition
pow.cpp:89
pow.h
CBlockLocator
Describes a place in the block chain to another node such that if the other node doesn't have the sam...
Definition
block.h:117
CompressedHeader
Definition
headerssync.h:21
Consensus::Params
Parameters that influence chain consensus.
Definition
params.h:84
HeadersSyncParams
Configuration for headers sync memory usage.
Definition
chainparams.h:64
HeadersSyncState::ProcessingResult
Result data structure for ProcessNextHeaders.
Definition
headerssync.h:144
NodeClock::now
static time_point now() noexcept
Return current system time or mocked time, if set.
Definition
time.cpp:30
time.h
NodeSeconds
std::chrono::time_point< NodeClock, std::chrono::seconds > NodeSeconds
Definition
time.h:25
Ticks
constexpr auto Ticks(Dur2 d)
Helper to count the seconds of a duration/time_point.
Definition
time.h:73
assert
assert(!tx.IsCoinBase())
vector.h
ClearShrink
void ClearShrink(V &v) noexcept
Clear a vector (or std::deque) and release its allocated memory.
Definition
vector.h:56
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