@ -4,42 +4,32 @@
@@ -4,42 +4,32 @@
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
""" Test processing of unrequested blocks.
Since behavior differs when receiving unrequested blocks from whitelisted peers
versus non - whitelisted peers , this tests the behavior of both ( effectively two
separate tests running in parallel ) .
Setup : two nodes , node0 + node1 , not connected to each other . Node1 will have
nMinimumChainWork set to 0x10 , so it won ' t process low-work unrequested blocks.
Setup : three nodes , node0 + node1 + node2 , not connected to each other . Node0 does not
whitelist localhost , but node1 does . They will each be on their own chain for
this test . Node2 will have nMinimumChainWork set to 0x10 , so it won ' t process
low - work unrequested blocks .
We have one NodeConn connection to each , test_node , white_node , and min_work_node ,
respectively .
We have one NodeConn connection to node0 called test_node , and one to node1
called min_work_node .
The test :
1. Generate one block on each node , to leave IBD .
2. Mine a new block on each tip , and deliver to each node from node ' s peer.
The tip should advance for node0 and node1 , but node2 should skip processing
due to nMinimumChainWork .
The tip should advance for node0 , but node1 should skip processing due to
nMinimumChainWork .
Node2 is unused in tests 3 - 7 :
Node1 is unused in tests 3 - 7 :
3. Mine a block that forks the previous block , and deliver to each node from
corresponding peer .
Node0 should not process this block ( just accept the header ) , because it is
unrequested and doesn ' t have more work than the tip.
Node1 should process because this is coming from a whitelisted peer .
3. Mine a block that forks from the genesis block , and deliver to test_node .
Node0 should not process this block ( just accept the header ) , because it
is unrequested and doesn ' t have more or equal work to the tip.
4. Send another block that builds on the forking block .
Node0 should process this block but be stuck on the shorter chain , because
it ' s missing an intermediate block.
Node1 should reorg to this longer chain .
4 a , b . Send another two blocks that build on the forking block .
Node0 should process the second block but be stuck on the shorter chain ,
because it ' s missing an intermediate block.
4 b . Send 288 more blocks on the longer chain .
4 c . Send 288 more blocks on the longer chain ( the number of blocks ahead
we currently store ) .
Node0 should process all but the last block ( too far ahead in height ) .
Send all headers to Node1 , and then send the last block in that chain .
Node1 should accept the block because it ' s coming from a whitelisted peer.
5. Send a duplicate of the block in #3 to Node0.
Node0 should not process the block because it is unrequested , and stay on
@ -52,7 +42,7 @@ Node2 is unused in tests 3-7:
@@ -52,7 +42,7 @@ Node2 is unused in tests 3-7:
7. Send Node0 the missing block again .
Node0 should process and the tip should advance .
8. Test Node2 is able to sync when connected to node0 ( which should have sufficient
8. Test Node1 is able to sync when connected to node0 ( which should have sufficient
work on its chain ) .
"""
@ -71,8 +61,8 @@ class AcceptBlockTest(BitcoinTestFramework):
@@ -71,8 +61,8 @@ class AcceptBlockTest(BitcoinTestFramework):
def set_test_params ( self ) :
self . setup_clean_chain = True
self . num_nodes = 3
self . extra_args = [ [ ] , [ " -whitelist=127.0.0.1 " ] , [ " - minimumchainwork=0x10 " ] ]
self . num_nodes = 2
self . extra_args = [ [ ] , [ " -minimumchainwork=0x10 " ] ]
def setup_network ( self ) :
# Node0 will be used to test behavior of processing unrequested blocks
@ -84,132 +74,149 @@ class AcceptBlockTest(BitcoinTestFramework):
@@ -84,132 +74,149 @@ class AcceptBlockTest(BitcoinTestFramework):
def run_test ( self ) :
# Setup the p2p connections and start up the network thread.
test_node = NodeConnCB ( ) # connects to node0 (not whitelisted)
white_node = NodeConnCB ( ) # connects to node1 (whitelisted)
min_work_node = NodeConnCB ( ) # connects to node2 (not whitelisted)
test_node = NodeConnCB ( ) # connects to node0
min_work_node = NodeConnCB ( ) # connects to node1
connections = [ ]
connections . append ( NodeConn ( ' 127.0.0.1 ' , p2p_port ( 0 ) , self . nodes [ 0 ] , test_node ) )
connections . append ( NodeConn ( ' 127.0.0.1 ' , p2p_port ( 1 ) , self . nodes [ 1 ] , white_node ) )
connections . append ( NodeConn ( ' 127.0.0.1 ' , p2p_port ( 2 ) , self . nodes [ 2 ] , min_work_node ) )
connections . append ( NodeConn ( ' 127.0.0.1 ' , p2p_port ( 1 ) , self . nodes [ 1 ] , min_work_node ) )
test_node . add_connection ( connections [ 0 ] )
white_node . add_connection ( connections [ 1 ] )
min_work_node . add_connection ( connections [ 2 ] )
min_work_node . add_connection ( connections [ 1 ] )
NetworkThread ( ) . start ( ) # Start up network handling in another thread
# Test logic begins here
test_node . wait_for_verack ( )
white_node . wait_for_verack ( )
min_work_node . wait_for_verack ( )
# 1. Have nodes mine a block (nodes1/2 leave IBD)
# 1. Have nodes mine a block (leave IBD)
[ n . generate ( 1 ) for n in self . nodes ]
tips = [ int ( " 0x " + n . getbestblockhash ( ) , 0 ) for n in self . nodes ]
# 2. Send one block that builds on each tip.
# This should be accepted by nodes 1/2
# This should be accepted by node0
blocks_h2 = [ ] # the height 2 blocks on each node's chain
block_time = int ( time . time ( ) ) + 1
for i in range ( 3 ) :
for i in range ( 2 ) :
blocks_h2 . append ( create_block ( tips [ i ] , create_coinbase ( 2 ) , block_time ) )
blocks_h2 [ i ] . solve ( )
block_time + = 1
test_node . send_message ( msg_block ( blocks_h2 [ 0 ] ) )
white_node . send_message ( msg_block ( blocks_h2 [ 1 ] ) )
min_work_node . send_message ( msg_block ( blocks_h2 [ 2 ] ) )
min_work_node . send_message ( msg_block ( blocks_h2 [ 1 ] ) )
for x in [ test_node , white_node , min_work_node ] :
for x in [ test_node , min_work_node ] :
x . sync_with_ping ( )
assert_equal ( self . nodes [ 0 ] . getblockcount ( ) , 2 )
assert_equal ( self . nodes [ 1 ] . getblockcount ( ) , 2 )
assert_equal ( self . nodes [ 2 ] . getblockcount ( ) , 1 )
self . log . info ( " First height 2 block accepted by node0/node1; correctly rejected by node2 " )
assert_equal ( self . nodes [ 1 ] . getblockcount ( ) , 1 )
self . log . info ( " First height 2 block accepted by node0; correctly rejected by node1 " )
# 3. Send another block that builds on the original tip.
blocks_h2f = [ ] # Blocks at height 2 that fork off the main chain
for i in range ( 2 ) :
blocks_h2f . append ( create_block ( tips [ i ] , create_coinbase ( 2 ) , blocks_h2 [ i ] . nTime + 1 ) )
blocks_h2f [ i ] . solve ( )
test_node . send_message ( msg_block ( blocks_h2f [ 0 ] ) )
white_node . send_message ( msg_block ( blocks_h2f [ 1 ] ) )
# 3. Send another block that builds on genesis.
block_h1f = create_block ( int ( " 0x " + self . nodes [ 0 ] . getblockhash ( 0 ) , 0 ) , create_coinbase ( 1 ) , block_time )
block_time + = 1
block_h1f . solve ( )
test_node . send_message ( msg_block ( block_h1f ) )
for x in [ test_node , white_node ] :
x . sync_with_ping ( )
test_node . sync_with_ping ( )
tip_entry_found = False
for x in self . nodes [ 0 ] . getchaintips ( ) :
if x [ ' hash ' ] == blocks_h2f [ 0 ] . hash :
if x [ ' hash ' ] == block_h1f . hash :
assert_equal ( x [ ' status ' ] , " headers-only " )
tip_entry_found = True
assert ( tip_entry_found )
assert_raises_rpc_error ( - 1 , " Block not found on disk " , self . nodes [ 0 ] . getblock , block_h1f . hash )
# 4. Send another two block that build on the fork.
block_h2f = create_block ( block_h1f . sha256 , create_coinbase ( 2 ) , block_time )
block_time + = 1
block_h2f . solve ( )
test_node . send_message ( msg_block ( block_h2f ) )
for x in self . nodes [ 1 ] . getchaintips ( ) :
if x [ ' hash ' ] == blocks_h2f [ 1 ] . hash :
assert_equal ( x [ ' status ' ] , " valid-headers " )
test_node . sync_with_ping ( )
# Since the earlier block was not processed by node, the new block
# can't be fully validated.
tip_entry_found = False
for x in self . nodes [ 0 ] . getchaintips ( ) :
if x [ ' hash ' ] == block_h2f . hash :
assert_equal ( x [ ' status ' ] , " headers-only " )
tip_entry_found = True
assert ( tip_entry_found )
self . log . info ( " Second height 2 block accepted only from whitelisted peer " )
# But this block should be accepted by node since it has equal work.
# TODO: We currently drop this block but likely shouldn't
#self.nodes[0].getblock(block_h2f.hash)
self . log . info ( " Second height 2 block accepted, but not reorg ' ed to " )
# 4. Now send another block that builds on the forking chain.
blocks_h3 = [ ]
for i in range ( 2 ) :
blocks_h3 . append ( create_block ( blocks_h2f [ i ] . sha256 , create_coinbase ( 3 ) , blocks_h2f [ i ] . nTime + 1 ) )
blocks_h3 [ i ] . solve ( )
test_node . send_message ( msg_block ( blocks_h3 [ 0 ] ) )
white_node . send_message ( msg_block ( blocks_h3 [ 1 ] ) )
# 4b. Now send another block that builds on the forking chain.
block_h3 = create_block ( block_h2f . sha256 , create_coinbase ( 3 ) , block_h2f . nTime + 1 )
block_h3 . solve ( )
test_node . send_message ( msg_block ( block_h3 ) )
for x in [ test_node , white_node ] :
x . sync_with_ping ( )
# Since the earlier block was not processed by node0, the new block
test_node . sync_with_ping ( )
# Since the earlier block was not processed by node, the new block
# can't be fully validated.
tip_entry_found = False
for x in self . nodes [ 0 ] . getchaintips ( ) :
if x [ ' hash ' ] == blocks _h3 [ 0 ] . hash :
if x [ ' hash ' ] == block_h3 . hash :
assert_equal ( x [ ' status ' ] , " headers-only " )
tip_entry_found = True
assert ( tip_entry_found )
self . nodes [ 0 ] . getblock ( block_h3 . hash )
# But this block should be accepted by node since it has more work.
self . nodes [ 0 ] . getblock ( block_h3 . hash )
self . log . info ( " Unrequested more-work block accepted " )
# 4c. Now mine 288 more blocks and deliver; all should be processed but
# the last (height-too-high) on node (as long as its not missing any headers)
tip = block_h3
all_blocks = [ ]
for i in range ( 288 ) :
next_block = create_block ( tip . sha256 , create_coinbase ( i + 4 ) , tip . nTime + 1 )
next_block . solve ( )
all_blocks . append ( next_block )
tip = next_block
# Now send the block at height 5 and check that it wasn't accepted (missing header)
test_node . send_message ( msg_block ( all_blocks [ 1 ] ) )
test_node . sync_with_ping ( )
assert_raises_rpc_error ( - 5 , " Block not found " , self . nodes [ 0 ] . getblock , all_blocks [ 1 ] . hash )
assert_raises_rpc_error ( - 5 , " Block not found " , self . nodes [ 0 ] . getblockheader , all_blocks [ 1 ] . hash )
# But this block should be accepted by node0 since it has more work.
self . nodes [ 0 ] . getblock ( blocks_h3 [ 0 ] . hash )
self . log . info ( " Unrequested more-work block accepted from non-whitelisted peer " )
# The block at height 5 should be accepted if we provide the missing header, though
headers_message = msg_headers ( )
headers_message . headers . append ( CBlockHeader ( all_blocks [ 0 ] ) )
test_node . send_message ( headers_message )
test_node . send_message ( msg_block ( all_blocks [ 1 ] ) )
test_node . sync_with_ping ( )
self . nodes [ 0 ] . getblock ( all_blocks [ 1 ] . hash )
# Node1 should have accepted and reorged.
assert_equal ( self . nodes [ 1 ] . getblockcount ( ) , 3 )
self . log . info ( " Successfully reorged to length 3 chain from whitelisted peer " )
# Now send the blocks in all_blocks
for i in range ( 288 ) :
test_node . send_message ( msg_block ( all_blocks [ i ] ) )
test_node . sync_with_ping ( )
# 4b. Now mine 288 more blocks and deliver; all should be processed but
# the last (height-too-high) on node0. Node1 should process the tip if
# we give it the headers chain leading to the tip.
tips = blocks_h3
headers_message = msg_headers ( )
all_blocks = [ ] # node0's blocks
for j in range ( 2 ) :
for i in range ( 288 ) :
next_block = create_block ( tips [ j ] . sha256 , create_coinbase ( i + 4 ) , tips [ j ] . nTime + 1 )
next_block . solve ( )
if j == 0 :
test_node . send_message ( msg_block ( next_block ) )
all_blocks . append ( next_block )
else :
headers_message . headers . append ( CBlockHeader ( next_block ) )
tips [ j ] = next_block
time . sleep ( 2 )
# Blocks 1-287 should be accepted, block 288 should be ignored because it's too far ahead
for x in all_blocks [ : - 1 ] :
self . nodes [ 0 ] . getblock ( x . hash )
assert_raises_rpc_error ( - 1 , " Block not found on disk " , self . nodes [ 0 ] . getblock , all_blocks [ - 1 ] . hash )
headers_message . headers . pop ( ) # Ensure the last block is unrequested
white_node . send_message ( headers_message ) # Send headers leading to tip
white_node . send_message ( msg_block ( tips [ 1 ] ) ) # Now deliver the tip
white_node . sync_with_ping ( )
self . nodes [ 1 ] . getblock ( tips [ 1 ] . hash )
self . log . info ( " Unrequested block far ahead of tip accepted from whitelisted peer " )
# 5. Test handling of unrequested block on the node that didn't process
# Should still not be processed (even though it has a child that has more
# work).
test_node . send_message ( msg_block ( blocks_h2f [ 0 ] ) )
# Here, if the sleep is too short, the test could falsely succeed (if the
# node hasn't processed the block by the time the sleep returns, and then
# the node processes it and incorrectly advances the tip).
# But this would be caught later on, when we verify that an inv triggers
# a getdata request for this block.
# The node should have requested the blocks at some point, so
# disconnect/reconnect first
connections [ 0 ] . disconnect_node ( )
test_node . wait_for_disconnect ( )
test_node = NodeConnCB ( ) # connects to node (not whitelisted)
connections [ 0 ] = NodeConn ( ' 127.0.0.1 ' , p2p_port ( 0 ) , self . nodes [ 0 ] , test_node )
test_node . add_connection ( connections [ 0 ] )
test_node . wait_for_verack ( )
test_node . send_message ( msg_block ( block_h1f ) )
test_node . send_message ( msg_block ( block_h2f ) ) # This should not be required
test_node . sync_with_ping ( )
assert_equal ( self . nodes [ 0 ] . getblockcount ( ) , 2 )
self . log . info ( " Unrequested block that would complete more-work chain was ignored " )
@ -220,27 +227,28 @@ class AcceptBlockTest(BitcoinTestFramework):
@@ -220,27 +227,28 @@ class AcceptBlockTest(BitcoinTestFramework):
with mininode_lock :
# Clear state so we can check the getdata request
test_node . last_message . pop ( " getdata " , None )
test_node . send_message ( msg_inv ( [ CInv ( 2 , blocks _h3 [ 0 ] . sha256 ) ] ) )
test_node . send_message ( msg_inv ( [ CInv ( 2 , block_h3 . sha256 ) ] ) )
test_node . sync_with_ping ( )
with mininode_lock :
getdata = test_node . last_message [ " getdata " ]
# Check that the getdata includes the right block
assert_equal ( getdata . inv [ 0 ] . hash , blocks_h2f [ 0 ] . sha256 )
assert_equal ( getdata . inv [ 0 ] . hash , block_h1f . sha256 )
self . log . info ( " Inv at tip triggered getdata for unprocessed block " )
# 7. Send the missing block for the third time (now it is requested)
test_node . send_message ( msg_block ( blocks_h2f [ 0 ] ) )
test_node . send_message ( msg_block ( block_h1f ) )
test_node . send_message ( msg_block ( block_h2f ) ) # This should not be required
test_node . sync_with_ping ( )
assert_equal ( self . nodes [ 0 ] . getblockcount ( ) , 290 )
self . log . info ( " Successfully reorged to longer chain from non-whitelisted peer " )
# 8. Connect node2 to node0 and ensure it is able to sync
connect_nodes ( self . nodes [ 0 ] , 2 )
sync_blocks ( [ self . nodes [ 0 ] , self . nodes [ 2 ] ] )
self . log . info ( " Successfully synced nodes 2 and 0 " )
# 8. Connect node1 to node0 and ensure it is able to sync
connect_nodes ( self . nodes [ 0 ] , 1 )
sync_blocks ( [ self . nodes [ 0 ] , self . nodes [ 1 ] ] )
self . log . info ( " Successfully synced nodes 1 and 0 " )
[ c . disconnect_node ( ) for c in connections ]