509 lines
13 KiB
Bash
509 lines
13 KiB
Bash
#!/bin/bash
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# Some useful functions for cc testing
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# Detecting whether can import the header file to render colorful cli output
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if [ -f ./header.sh ]; then
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source ./header.sh
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elif [ -f scripts/header.sh ]; then
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source scripts/header.sh
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else
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echo_r() {
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echo "$@"
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}
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echo_g() {
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echo "$@"
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}
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echo_b() {
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echo "$@"
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}
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fi
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# Define those global variables
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if [ -f ./variables.sh ]; then
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source ./variables.sh
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elif [ -f scripts/variables.sh ]; then
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source scripts/variables.sh
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else
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echo "Cannot find the variables.sh files, pls check"
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exit 1
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fi
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# Verify $1 is not 0, then output error msg $2 and exit
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verifyResult () {
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if [ $1 -ne 0 ] ; then
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echo_b "$2"
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echo_r "=== ERROR !!! FAILED to execute End-2-End Scenario ==="
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exit 1
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fi
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}
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setOrdererEnvs () {
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CORE_PEER_LOCALMSPID="OrdererMSP"
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CORE_PEER_MSPCONFIGPATH=${ORDERER_ADMIN_MSP}
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CORE_PEER_TLS_ROOTCERT_FILE=${ORDERER_TLS_ROOTCERT}
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#t="\${ORG${org}_PEER${peer}_URL}" && CORE_PEER_ADDRESS=`eval echo $t`
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}
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# Set global env variables for fabric usage
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# Usage: setEnvs org peer
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setEnvs () {
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local org=$1 # 1 or 2
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local peer=$2 # 0 or 1
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local t=""
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CORE_PEER_LOCALMSPID="Org${org}MSP"
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#CORE_PEER_MSPCONFIGPATH=\$${ORG${org}_ADMIN_MSP}
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t="\${ORG${org}_ADMIN_MSP}" && CORE_PEER_MSPCONFIGPATH=`eval echo $t`
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t="\${ORG${org}_PEER${peer}_TLS_ROOTCERT}" && CORE_PEER_TLS_ROOTCERT_FILE=`eval echo $t`
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t="\${ORG${org}_PEER${peer}_URL}" && CORE_PEER_ADDRESS=`eval echo $t`
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# env |grep CORE
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}
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checkOSNAvailability() {
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#Use orderer's MSP for fetching system channel config block
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CORE_PEER_LOCALMSPID="OrdererMSP"
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CORE_PEER_TLS_ROOTCERT_FILE=${ORDERER_TLS_CA}
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CORE_PEER_MSPCONFIGPATH=${ORDERER_MSP}
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local rc=1
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local starttime=$(date +%s)
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# continue to poll
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# we either get a successful response, or reach TIMEOUT
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while test "$(($(date +%s)-starttime))" -lt "$TIMEOUT" -a $rc -ne 0
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do
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sleep 3
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echo "Attempting to fetch system channel ...$(($(date +%s)-starttime)) secs"
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if [ -z "$CORE_PEER_TLS_ENABLED" -o "$CORE_PEER_TLS_ENABLED" = "false" ]; then
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peer channel fetch 0 -o ${ORDERER_URL} -c "testchainid" >&log.txt
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else
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peer channel fetch 0 -o ${ORDERER_URL} -c "testchainid" --tls $CORE_PEER_TLS_ENABLED --cafile ${ORDERER_TLS_CA} >&log.txt
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fi
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test $? -eq 0 && VALUE=$(cat log.txt | awk '/Received block/ {print $NF}')
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test "$VALUE" = "0" && let rc=0
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done
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cat log.txt
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verifyResult $rc "Ordering Service is not available, Please try again ..."
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echo "=== Ordering Service is up and running === "
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echo
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}
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# Internal func called by channelCreate
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channelCreateAction(){
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local channel=$1
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local channel_tx=$2
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if [ -z "$CORE_PEER_TLS_ENABLED" ] || [ "$CORE_PEER_TLS_ENABLED" = "false" ]; then
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peer channel create \
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-o ${ORDERER_URL} \
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-c ${channel} \
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-f ${CHANNEL_ARTIFACTS}/${channel_tx} \
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--timeout $TIMEOUT \
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>&log.txt
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else
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peer channel create \
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-o ${ORDERER_URL} \
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-c ${channel} \
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-f ${CHANNEL_ARTIFACTS}/${channel_tx} \
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--timeout $TIMEOUT \
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--tls $CORE_PEER_TLS_ENABLED \
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--cafile ${ORDERER_TLS_CA} \
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>&log.txt
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fi
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return $?
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}
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# Use peer0/org1 to create a channel
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# channelCreate APP_CHANNEL APP_CHANNEL.tx org peer
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channelCreate() {
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local channel=$1
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local channel_tx=$2
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local org=$3
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local peer=$4
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echo_b "=== Create Channel ${channel} by org $org peer $peer === "
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local counter=0
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setEnvs $org $peer
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channelCreateAction "${channel}" "${channel_tx}"
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local res=$?
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while [ ${counter} -lt ${MAX_RETRY} -a ${res} -ne 0 ]; do
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echo_b "Failed to create channel $channel, retry after 3s"
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sleep 3
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channelCreateAction "${channel}" "${channel_tx}"
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res=$?
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let counter=${counter}+1
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#COUNTER=` expr $COUNTER + 1`
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done
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cat log.txt
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verifyResult ${res} "Channel ${channel} creation failed"
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echo_g "=== Channel ${channel} is created. === "
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}
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# called by channelJoinWithRetry
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channelJoinAction () {
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local channel=$1
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peer channel join \
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-b ${channel}.block \
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>&log.txt
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}
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## Sometimes Join takes time hence RETRY atleast for 5 times
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channelJoinWithRetry () {
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local channel=$1
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local peer=$2
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local counter=0
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channelJoinAction ${channel}
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local res=$?
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while [ ${counter} -lt ${MAX_RETRY} -a ${res} -ne 0 ]; do
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echo_b "peer${peer} failed to join channel ${channel}, retry after 2s"
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sleep 2
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channelJoinAction ${channel}
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res=$?
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let counter=${counter}+1
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done
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cat log.txt
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verifyResult ${res} "After $MAX_RETRY attempts, peer${peer} failed to Join the Channel"
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}
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# Join given (by default all) peers into the channel
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# channelJoin channel org peer
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channelJoin () {
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local channel=$1
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local org=$2
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local peer=$3
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echo_b "=== Join org$org/peer$peer into channel ${channel} === "
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setEnvs $org $peer
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channelJoinWithRetry ${channel} $peer
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echo_g "=== org$org/peer$peer joined into channel ${channel} === "
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}
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# Fetch some block from a given channel: channel, peer, blockNum
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channelFetch () {
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local channel=$1
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local org=$2
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local peer=$3
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local num=$4
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echo_b "=== Fetch block $num of channel $channel === "
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#setEnvs $org $peer
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setOrdererEnvs
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# while 'peer chaincode' command can get the orderer endpoint from the peer (if join was successful),
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# lets supply it directly as we know it using the "-o" option
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if [ -z "${CORE_PEER_TLS_ENABLED}" ] || [ "${CORE_PEER_TLS_ENABLED}" = "false" ]; then
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peer channel fetch $num ${CHANNEL_ARTIFACTS}/${channel}_${num}.block \
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-o ${ORDERER_URL} \
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-c ${channel} \
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>&log.txt
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else
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peer channel fetch $num ${CHANNEL_ARTIFACTS}/${channel}_${num}.block \
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-o ${ORDERER_URL} \
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-c ${channel} \
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--tls \
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--cafile ${ORDERER_TLS_CA} \
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>&log.txt
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fi
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res=$?
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cat log.txt
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if [ $res -ne 0 ]; then
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echo_r "Fetch block $num of channel $channel failed"
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else
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echo_g "=== Fetch block $num of channel $channel is successful === "
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fi
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}
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# Sign a channel config tx
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# Usage: channelSignConfigTx channel org peer transaction
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channelSignConfigTx () {
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local channel=$1
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local org=$2
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local peer=$3
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local txFile=$4
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echo_b "=== Sign channel config tx for channel $channel by org $org peer $peer === "
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setEnvs $org $peer
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peer channel signconfigtx -f ${txFile} >&log.txt
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res=$?
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cat log.txt
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if [ $res -ne 0 ]; then
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echo_r "Sign channel config tx for channel $channel by org $org peer $peer failed"
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else
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echo_g "=== Sign channel config tx channel $channel by org $org peer $peer is successful === "
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fi
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}
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# Update the anchor peer at given channel
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# updateAnchorPeers channel peer
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updateAnchorPeers() {
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local channel=$1
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local org=$2
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local peer=$3
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setEnvs $org $peer
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echo_b "=== Update Anchor peers for org \"$CORE_PEER_LOCALMSPID\" on ${channel} === "
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if [ -z "$CORE_PEER_TLS_ENABLED" -o "$CORE_PEER_TLS_ENABLED" = "false" ]; then
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peer channel update \
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-o ${ORDERER_URL} \
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-c ${channel} \
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-f ${CHANNEL_ARTIFACTS}/${CORE_PEER_LOCALMSPID}anchors.tx \
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>&log.txt
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else
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peer channel update \
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-o ${ORDERER_URL} \
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-c ${channel} \
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-f ${CHANNEL_ARTIFACTS}/${CORE_PEER_LOCALMSPID}anchors.tx \
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--tls $CORE_PEER_TLS_ENABLED \
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--cafile ${ORDERER_TLS_CA} \
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>&log.txt
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fi
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res=$?
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cat log.txt
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verifyResult $res "Anchor peer update failed"
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echo_g "=== Anchor peers for org \"$CORE_PEER_LOCALMSPID\" on ${channel} is updated. === "
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sleep 2
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}
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# Install chaincode on specified peer node
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# chaincodeInstall peer cc_name version path
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chaincodeInstall () {
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local org=$1
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local peer=$2
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local name=$3
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local version=$4
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local path=$5
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echo_b "=== Install Chaincode $name:$version ($path) on org${org} peer$peer === "
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setEnvs $org $peer
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peer chaincode install \
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-n ${name} \
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-v $version \
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-p ${path} \
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>&log.txt
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res=$?
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cat log.txt
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verifyResult $res "Chaincode installation on remote peer$peer has Failed"
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echo_g "=== Chaincode is installed on remote peer$peer === "
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}
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# Instantiate chaincode on specifized peer node
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# chaincodeInstantiate channel org peer name version args
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chaincodeInstantiate () {
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local channel=$1
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local org=$2
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local peer=$3
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local name=$4
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local version=$5
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local args=$6
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setEnvs $org $peer
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echo_b "=== chaincodeInstantiate for channel ${channel} on org $org peer $peer ===="
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# while 'peer chaincode' command can get the orderer endpoint from the peer (if join was successful),
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# lets supply it directly as we know it using the "-o" option
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if [ -z "$CORE_PEER_TLS_ENABLED" -o "$CORE_PEER_TLS_ENABLED" = "false" ]; then
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peer chaincode instantiate \
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-o ${ORDERER_URL} \
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-C ${channel} \
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-n ${name} \
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-v ${version} \
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-c ${args} \
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-P "OR ('Org1MSP.member','Org2MSP.member')" \
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>&log.txt
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else
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peer chaincode instantiate \
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-o ${ORDERER_URL} \
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-C ${channel} \
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-n ${name} \
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-v ${version} \
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-c ${args} \
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-P "OR ('Org1MSP.member','Org2MSP.member')" \
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--tls $CORE_PEER_TLS_ENABLED \
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--cafile ${ORDERER_TLS_CA} \
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>&log.txt
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fi
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res=$?
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cat log.txt
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verifyResult $res "ChaincodeInstantiation on peer$peer in channel ${channel} failed"
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echo_g "=== Chaincode Instantiated in channel ${channel} by peer$peer ==="
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}
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# Usage: chaincodeInvoke channel org peer name args
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chaincodeInvoke () {
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local channel=$1
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local org=$2
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local peer=$3
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local name=$4
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local args=$5
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echo_g "=== Invoke transaction on peer$peer in channel ${channel} === "
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setEnvs $org $peer
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# while 'peer chaincode' command can get the orderer endpoint from the peer (if join was successful),
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# lets supply it directly as we know it using the "-o" option
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if [ -z "$CORE_PEER_TLS_ENABLED" -o "$CORE_PEER_TLS_ENABLED" = "false" ]; then
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peer chaincode invoke \
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-o ${ORDERER_URL} \
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-C ${channel} \
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-n ${name} \
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-c ${args} \
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>&log.txt
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else
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peer chaincode invoke \
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-o ${ORDERER_URL} \
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-C ${channel} \
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-n ${name} \
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-c ${args} \
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--tls $CORE_PEER_TLS_ENABLED \
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--cafile ${ORDERER_TLS_CA} \
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>&log.txt
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fi
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res=$?
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cat log.txt
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verifyResult $res "Invoke execution on peer$peer failed "
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echo_g "=== Invoke transaction on peer$peer in channel ${channel} is successful === "
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}
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# query channel peer name args expected_result
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chaincodeQuery () {
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local channel=$1
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local org=$2
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local peer=$3
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local name=$4
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local args=$5
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[ $# -gt 5 ] && local expected_result=$6
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echo_b "=== Querying on org$org peer$peer in channel ${channel}... === "
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local rc=1
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local starttime=$(date +%s)
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setEnvs $org $peer
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# we either get a successful response, or reach TIMEOUT
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while [ "$(($(date +%s)-starttime))" -lt "$TIMEOUT" -a $rc -ne 0 ]; do
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echo_b "Attempting to Query peer$peer ...$(($(date +%s)-starttime)) secs"
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peer chaincode query \
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-C "${channel}" \
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-n "${name}" \
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-c "${args}" \
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>&log.txt
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rc=$?
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if [ $# -gt 5 ]; then # need to check the result
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test $? -eq 0 && VALUE=$(cat log.txt | awk '/Query Result/ {print $NF}')
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test "$VALUE" = "${expected_result}" && let rc=0
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fi
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cat log.txt
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if [ $rc -ne 0 ]; then
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sleep 2
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fi
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done
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if [ $rc -eq 0 ]; then
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echo_g "=== Query on peer$peer in channel ${channel} is successful === "
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else
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echo_r "=== Query result on peer$peer is INVALID, run `make stop clean` to clean ==="
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exit 1
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fi
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}
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# Start chaincode with dev mode
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chaincodeStartDev () {
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local peer=$1
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local version=$2
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#setEnvs $peer
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#setEnvs 1 0
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setEnvs 1 0
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CORE_CHAINCODE_LOGLEVEL=debug \
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CORE_PEER_ADDRESS=peer${peer}.org1.example.com:7052 \
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CORE_CHAINCODE_ID_NAME=mycc:${version} \
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nohup ./scripts/chaincode_example02 > chaincode_dev.log &
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res=$?
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cat log.txt
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verifyResult $res "Chaincode start in dev mode has Failed"
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echo_g "=== Chaincode started in dev mode === "
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echo
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}
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# chaincodeUpgrade channel peer name version args
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chaincodeUpgrade () {
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local channel=$1
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local org=$2
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local peer=$3
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local name=$4
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local version=$5
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local args=$6
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echo_b "=== Upgrade chaincode to version $version on peer$peer in channel ${channel} === "
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setEnvs $org $peer
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# while 'peer chaincode' command can get the orderer endpoint from the peer (if join was successful),
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# lets supply it directly as we know it using the "-o" option
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if [ -z "$CORE_PEER_TLS_ENABLED" -o "$CORE_PEER_TLS_ENABLED" = "false" ]; then
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peer chaincode upgrade \
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-o ${ORDERER_URL} \
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-C ${channel} \
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-n ${name} \
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-v ${version} \
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-c ${args} \
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>&log.txt
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else
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peer chaincode upgrade \
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-o ${ORDERER_URL} \
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-C ${channel} \
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-n ${name} \
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-v ${version} \
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-c ${args} \
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--tls $CORE_PEER_TLS_ENABLED \
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--cafile ${ORDERER_TLS_CA} \
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>&log.txt
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fi
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res=$?
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cat log.txt
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verifyResult $res "Upgrade execution on peer$peer failed "
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echo_g "=== Upgrade transaction on peer$peer in channel ${channel} is successful === "
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echo
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}
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# configtxlator encode json to pb
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# Usage: configtxlatorEncode msgType input output
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configtxlatorEncode() {
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local msgType=$1
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local input=$2
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local output=$3
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echo_b "Encode $input --> $output using type $msgType"
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curl -sX POST \
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--data-binary @${input} \
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${CTL_ENCODE_URL}/${msgType} \
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>${output}
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}
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# configtxlator decode pb to json
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# Usage: configtxlatorEncode msgType input output
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configtxlatorDecode() {
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local msgType=$1
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local input=$2
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local output=$3
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echo_b "Config Decode $input --> $output using type $msgType"
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curl -sX POST \
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--data-binary @"${input}" \
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"${CTL_DECODE_URL}/${msgType}" \
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> "${output}"
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}
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# compute diff between two pb
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# Usage: configtxlatorCompare channel origin updated output
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configtxlatorCompare() {
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local channel=$1
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local origin=$2
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local updated=$3
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local output=$3
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echo_b "Config Compare $origin vs $updated > ${output} in channel $channel"
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curl -sX POST \
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-F channel="${channel}" \
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-F "original=@${origin}" \
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-F "updated=@${updated}" \
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"${CTL_COMPARE_URL}" \
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> "${output}"
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[ $? -eq 0 ] || echo_r "Failed to compute config update"
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}
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# Run cmd inside the config generator container
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gen_con_exec() {
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docker exec -it $GEN_CONTAINER "$@"
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}
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