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See hyperledger-labs#127 Signed-off-by: James Taylor <[email protected]>
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# Developing and debuging chaincode | ||
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Publishing a chaincode Docker image and using the image digest to deploy the chaincode works well with the [Fabric chaincode lifecycle](https://hyperledger-fabric.readthedocs.io/en/latest/chaincode_lifecycle.html), however it is not as convenient while developing and debugging chaincode. | ||
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This tutorial describes how to debug chaincode using the chaincode-as-a-service (CCAAS) builder before you are ready to deploy it in a production environment with the k8s builder. | ||
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With CCAAS you still have to go through the chaincode lifecycle once to tell Fabric where the chaincode is running but after that you can stop, restart, update, and debug the chaincode all without needing to repeat the chaincode lifecycle steps as you would do normally. | ||
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Like the k8s builder, CCAAS packages do not contain any chaincode source code. | ||
Unlike the k8s builder, CCAAS packages do not uniquely identify any specific chaincode: they only contain details a Fabric peer needs to connect to a chaincode instance running in server mode. | ||
This is unlikely to be acceptable in a production environment but it is ideal in a development environment. | ||
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First create a directory to download all the required files and run the demo. | ||
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```shell | ||
mkdir hlf-debug-demo | ||
cd hlf-debug-demo | ||
``` | ||
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Now follow the steps below to deploy your first smart contract using the k8s builder! | ||
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## Setup the nano test network | ||
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In this tutorial, we'll use the [fabric-samples](https://github.com/hyperledger/fabric-samples/) nano test network because it's ideally suited to a light weight development environment. | ||
There is also a [fabric-samples CCAAS tutorial](https://github.com/hyperledger/fabric-samples/blob/main/test-network/CHAINCODE_AS_A_SERVICE_TUTORIAL.md) if you would prefer to use the Docker based test network. | ||
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Start by downloading the sample nano test network (fabric-samples isn't tagged so we'll use a known good commit). | ||
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```shell | ||
export FABRIC_SAMPLES_COMMIT=0db64487e5e89a81d68e6871af3f0907c67e7d75 | ||
curl -sSL "https://github.com/hyperledger/fabric-samples/archive/${FABRIC_SAMPLES_COMMIT}.tar.gz" | tar -xzf - --strip-components=1 fabric-samples-${FABRIC_SAMPLES_COMMIT}/test-network-nano-bash | ||
``` | ||
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You will also need to install the Fabric binaries, which include the CCAAS builder and default configuration files. | ||
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```shell | ||
curl -sSLO https://raw.githubusercontent.com/hyperledger/fabric/main/scripts/install-fabric.sh && chmod +x install-fabric.sh | ||
./install-fabric.sh binary | ||
``` | ||
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The default `core.yaml` file provided with the Fabric binaries needs to be updated with the correct CCAAS builder location since it assumes that the peer is running in a docker container. Either edit the `path` for the `ccaas_builder` in `externalBuilders`, or use the following [yq](https://github.com/mikefarah/yq) command to update the path. | ||
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```shell | ||
yq -i '( .chaincode.externalBuilders[] | select(.name == "ccaas_builder") | .path ) = strenv(PWD) + "/builders/ccaas"' config/core.yaml | ||
``` | ||
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Now start the nano test network! | ||
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```shell | ||
cd test-network-nano-bash | ||
./network.sh start | ||
``` | ||
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## Deploy a CCAAS chaincode package | ||
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Open a new shell, change to the `test-network-nano-bash` directory, and check that the nano test network is running. | ||
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```shell | ||
. ./peer1admin.sh | ||
peer channel list | ||
``` | ||
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Sourcing the `peer1admin.sh` script sets up the environment for running `peer` commands. | ||
You'll need to repeat this step in any new shell you want to run `peer` commands in, for example to deploy chaincode or run transactions. | ||
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Before deploying a CCAAS chaincode package, we need to create a suitable chaincode package. | ||
Start by creating a `connection.json` file. | ||
You'll need to use the same `address` when starting the chaincode later. | ||
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```shell | ||
cat << CONNECTIONJSON_EOF > connection.json | ||
{ | ||
"address": "127.0.0.1:9999", | ||
"dial_timeout": "10s", | ||
"tls_required": false | ||
} | ||
CONNECTIONJSON_EOF | ||
``` | ||
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Next, create a `metadata.json` file for the chaincode package. | ||
The CCAAS builder provided with Fabric will detect the type of `ccaas`. | ||
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```shell | ||
cat << METADATAJSON_EOF > metadata.json | ||
{ | ||
"type": "ccaas", | ||
"label": "dev-contract" | ||
} | ||
METADATAJSON_EOF | ||
``` | ||
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Create the chaincode package archive. | ||
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```shell | ||
tar -czf code.tar.gz connection.json | ||
tar -czf dev-contract.tgz metadata.json code.tar.gz | ||
``` | ||
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Now follow the Fabric chaincode lifecycle to deploy the CCAAS chaincode. | ||
Start by installing the chaincode package you just created. | ||
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```shell | ||
peer lifecycle chaincode install dev-contract.tgz | ||
``` | ||
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Set the CHAINCODE_ID environment variable for use in subsequent commands. | ||
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```shell | ||
export CHAINCODE_ID=$(peer lifecycle chaincode calculatepackageid dev-contract.tgz) && echo $CHAINCODE_ID | ||
``` | ||
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Approve and commit the chaincode. | ||
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```shell | ||
peer lifecycle chaincode approveformyorg -o 127.0.0.1:6050 --channelID mychannel --name dev-contract --version 1 --package-id $CHAINCODE_ID --sequence 1 --tls --cafile "${PWD}"/crypto-config/ordererOrganizations/example.com/orderers/orderer.example.com/tls/ca.crt | ||
peer lifecycle chaincode commit -o 127.0.0.1:6050 --channelID mychannel --name dev-contract --version 1 --sequence 1 --tls --cafile "${PWD}"/crypto-config/ordererOrganizations/example.com/orderers/orderer.example.com/tls/ca.crt | ||
``` | ||
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## Debugging the chaincode | ||
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Normally Fabric peers start chaincode but with CCAAS you are responsible for starting the chaincode in server mode, which is why it is so useful for debugging. | ||
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Importantly chaincode can be started in server mode without any code changes in recent Fabric versions, making it easy to move from CCAAS in a development environment, to using the k8s builder in a production environment. | ||
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Go and Java chaincode will start in CCAAS mode if `CHAINCODE_SERVER_ADDRESS` and `CORE_CHAINCODE_ID_NAME` environment variables are configured. | ||
The `CHAINCODE_SERVER_ADDRESS` must match the `address` field from the `connection.json` file in the chaincode package. | ||
The `CORE_CHAINCODE_ID_NAME` can be found using the `peer lifecycle chaincode calculatepackageid` command. | ||
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Node.js chaincode can be started in server mode using the `server` command with `--chaincode-address` and `--chaincode-id` command line arguments. | ||
The sample Node.js contract includes a `debug` script in `package.json` which uses the same `CHAINCODE_SERVER_ADDRESS` and `CORE_CHAINCODE_ID_NAME` environment variables for these command line arguments as Go and Java chaincode. | ||
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For example, use the following commands to export the required environment variables. | ||
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```shell | ||
export CHAINCODE_SERVER_ADDRESS=127.0.0.1:9999 | ||
export CORE_CHAINCODE_ID_NAME=$(peer lifecycle chaincode calculatepackageid dev-contract.tgz) | ||
``` | ||
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How you debug chaincode will depend on your preferred tools. | ||
For example, [VS Code includes a built-in debugger for Node.js](https://code.visualstudio.com/docs/nodejs/nodejs-debugging). | ||
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The following commands can be used to start each sample in server mode without a debugger attached. | ||
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In the `samples/go-contract` directory: | ||
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```shell | ||
go run main.go | ||
``` | ||
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In the `samples/java-contract` directory: | ||
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```shell | ||
./gradlew jar | ||
java -jar ./build/libs/sample-contract.jar | ||
``` | ||
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In the `samples/node-contract` directory: | ||
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```shell | ||
npm install | ||
npm run debug | ||
``` | ||
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Change to the `test-network-nano-bash` directory in a new shell, and check everything is working using the `GetMetadata` transaction. | ||
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```shell | ||
. ./peer1admin.sh | ||
peer chaincode query -C mychannel -n dev-contract -c '{"Args":["org.hyperledger.fabric:GetMetadata"]}' | ||
``` | ||
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Now it's time to attach a debugger, set breakpoints and start running transactions! | ||
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```shell | ||
peer chaincode invoke -o 127.0.0.1:6050 -C mychannel -n dev-contract -c '{"Args":["PutValue","asset1","green"]}' --waitForEvent --tls --cafile "${PWD}"/crypto-config/ordererOrganizations/example.com/orderers/orderer.example.com/tls/ca.crt | ||
``` | ||
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```shell | ||
peer chaincode query -C mychannel -n dev-contract -c '{"Args":["GetValue","asset1"]}' | ||
``` |
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