148 lines
3.4 KiB
Bash
Executable file
148 lines
3.4 KiB
Bash
Executable file
#!/usr/bin/env bash
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# Copyright (c) 2014 The Bitcoin Core developers
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# Copyright (c) 2014 The Dogecoin Core developers
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# Distributed under the MIT/X11 software license, see the accompanying
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# file COPYING or http://www.opensource.org/licenses/mit-license.php.
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# Test marking of spent outputs
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# Create a transaction graph with four transactions,
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# A/B/C/D
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# C spends A
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# D spends B and C
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# Then simulate C being mutated, to create C'
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# that is mined.
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# A is still (correctly) considered spent.
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# B should be treated as unspent
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if [ $# -lt 1 ]; then
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echo "Usage: $0 path_to_binaries"
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echo "e.g. $0 ../../src"
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exit 1
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fi
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set -f
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BITCOIND=${1}/dogecoind
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CLI=${1}/dogecoin-cli
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DIR="${BASH_SOURCE%/*}"
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SENDANDWAIT="${DIR}/send.sh"
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if [[ ! -d "$DIR" ]]; then DIR="$PWD"; fi
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. "$DIR/util.sh"
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D=$(mktemp -d test.XXXXX)
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# Two nodes; one will play the part of merchant, the
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# other an evil transaction-mutating miner.
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D1=${D}/node1
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CreateDataDir $D1 port=11000 rpcport=11001
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B1ARGS="-datadir=$D1 -debug=mempool"
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$BITCOIND $B1ARGS &
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B1PID=$!
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D2=${D}/node2
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CreateDataDir $D2 port=11010 rpcport=11011
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B2ARGS="-datadir=$D2 -debug=mempool"
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$BITCOIND $B2ARGS &
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B2PID=$!
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# Wait until all four nodes are at the same block number
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function WaitBlocks {
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while :
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do
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sleep 1
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declare -i BLOCKS1=$( GetBlocks $B1ARGS )
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declare -i BLOCKS2=$( GetBlocks $B2ARGS )
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if (( BLOCKS1 == BLOCKS2 ))
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then
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break
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fi
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done
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}
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# Wait until node has $N peers
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function WaitPeers {
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while :
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do
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declare -i PEERS=$( $CLI $1 getconnectioncount )
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if (( PEERS == "$2" ))
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then
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break
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fi
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sleep 1
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done
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}
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echo "Generating test blockchain..."
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# Start with B2 connected to B1:
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$CLI $B2ARGS addnode 127.0.0.1:11000 onetry
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WaitPeers "$B1ARGS" 1
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# 2 block, 500000 XDG each == 1000000 XDG
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# These will be transactions "A" and "B"
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$CLI $B1ARGS setgenerate true 2
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WaitBlocks
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# 49 blocks, 0 mature == 0 XDG
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$CLI $B2ARGS setgenerate true 49
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WaitBlocks
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CheckBalance "$B1ARGS" 1000000
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CheckBalance "$B2ARGS" 0
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# restart B2 with no connection
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$CLI $B2ARGS stop > /dev/null 2>&1
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wait $B2PID
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$BITCOIND $B2ARGS &
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B2PID=$!
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B1ADDRESS=$( $CLI $B1ARGS getnewaddress )
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B2ADDRESS=$( $CLI $B2ARGS getnewaddress )
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# Transaction C: send-to-self, spend A
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TXID_C=$( $CLI $B1ARGS sendtoaddress $B1ADDRESS 500000.0)
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# Transaction D: spends B and C
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TXID_D=$( $CLI $B1ARGS sendtoaddress $B2ADDRESS 999998.0)
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CheckBalance "$B1ARGS" 0
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# Mutate TXID_C and add it to B2's memory pool:
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RAWTX_C=$( $CLI $B1ARGS getrawtransaction $TXID_C )
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# ... mutate C to create C'
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L=${RAWTX_C:82:2}
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NEWLEN=$( printf "%x" $(( 16#$L + 1 )) )
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MUTATEDTX_C=${RAWTX_C:0:82}${NEWLEN}4c${RAWTX_C:84}
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# ... give mutated tx1 to B2:
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MUTATEDTXID=$( $CLI $B2ARGS sendrawtransaction $MUTATEDTX_C )
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echo "TXID_C: " $TXID_C
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echo "Mutated: " $MUTATEDTXID
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# Re-connect nodes, and have both nodes mine some blocks:
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$CLI $B2ARGS addnode 127.0.0.1:11000 onetry
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WaitPeers "$B1ARGS" 1
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# Having B2 mine the next block puts the mutated
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# transaction C in the chain:
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$CLI $B2ARGS setgenerate true 1
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WaitBlocks
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# B1 should still be able to spend 1000000 (-1 DOGE fee for the successful transaction), because D is conflicted
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# so does not count as a spend of B
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CheckBalance "$B1ARGS" "1000000-1"
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$CLI $B2ARGS stop > /dev/null 2>&1
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wait $B2PID
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$CLI $B1ARGS stop > /dev/null 2>&1
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wait $B1PID
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echo "Tests successful, cleaning up"
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rm -rf $D
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exit 0
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