xcottos / convector-example-supplychain-master

This is a simple supply chain blockchain based, running on Hyperledger fabric, implemented with the Convector framework
Apache License 2.0
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convector-example-supplychain-master

Introduction

This project is an end to end example of a generic supply chain process blockchain based, using the Convector Framework (https://worldsibu.github.io/convector/)

As stated on the site:

"Convector is a JavaScript-based Development Framework for Enterprise Smart Contract Systems. Its goal is to make it easier for developers to create, test and deploy enterprise-grade DApps by abstracting complexities that make it hard to get started, plus a collection of tools that speed up your go-to-market."

The goal of this project is to explain the process for creating a working end to end and to be a baseline for discussion about the best practices of usage of this promising framework.

Use Case

The use case is a simple representation of a generic supply chain process where the lifecycle of a Product is tracked from the extraction of the raw material to make it, until its selling by the Retailers .

The entities that participate in this project are:

The high level sequence is described below: Supply Chain

Implementation

This example starts from the installation of the following pre-requisites (there are also the exact versions I'm actually using):

The following paragraphs describe the procedure to generate this project from the end to end.

Project Init

First, the convector-cli package must be installed globally:

Attention!: There just was an update of @worldsibu/convector to the 1.3 version and the @worldsibu/convector-cli to the 1.1.2 version. This document won't work with earlier versions.

npm i -g @worldsibu/convector-cli

Second, hurley package must be installed globally, it will provide an easy way to setup an Hyperledger Fabric 1.4 network:

npm i -g @worldsibu/hurley

Then we can start creating the project skeleton using the conv command that is invoked with 3 parameters:

conv new supplychain -c supplychainchaincode

With the execution of this script a directory called supplychain has been created.

Login into that folder

cd supplychain

Into this folder there are some configuration files and the folder packages.

Now in the file called package.json you have to add a line that will be the definition of the command cc:invoke that will be used later to interact with the application

the line to add is the following:

"cc:invoke": "f() { chaincode-manager --config ./$2.$1.config.json --user $3 invoke $1 ${@:4}; }; f"

so at the end your file should look like

{
  "name": "supplychain",
  "version": "0.2.0",
  "description": "Bootstrap project for Chaincodes testNew",
  "files": [
    "dist/*"
  ],
  "scripts": {
    "install": "npm-run-all -s lerna:install",
    "build": "node ./update-paths.js",
    "env:restart": "hurl new -p $PWD/fabric-hurl",
    "test": "npm-run-all -s lerna:test",
    "env:clean": "hurl clean -p $PWD/fabric-hurl",
    "cc:start": "f() { npm run cc:package -- $1 org1; npm run cc:install $1; }; f",
    "cc:upgrade": "f() { npm run cc:package -- $1 org1; hurl upgrade $1 node $2  -P ./chaincode-$1 -p $PWD/fabric-hurl; }; f",
    "===================INTERNALS===================": "===================NO NEED TO CALL THEM DIRECTLY===================",
    "lerna:install": "lerna bootstrap",
    "lerna:build": "lerna run build",
    "cc:package": "f() { npm run lerna:build; chaincode-manager --config ./$2.$1.config.json --output ./chaincode-$1 package; }; f",
    "cc:install": "f() { hurl install $1 node -P ./chaincode-$1 -p $PWD/fabric-hurl; }; f",
    "cc:invoke": "f() { chaincode-manager --config ./$2.$1.config.json --user $3 invoke $1 ${@:4}; }; f",
    "lerna:test": "lerna exec npm run test"
  },
  "devDependencies": {
    "lerna": "^3.13.0",
    "@worldsibu/convector-adapter-mock": "~1.3.0",
    "@worldsibu/convector-platform-fabric": "~1.3.0",
    "@worldsibu/hurley": "~1.0.0",
    "fabric-ca-client": "~1.4.0",
    "fabric-client": "~1.4.0",
    "npm-run-all": "^4.1.5"
  }
}

You can notice that differently by the autogenerated package.json here all the hurl commands have the parameter -p $PWD/fabric-hurl. This is because I personally prefer to have the Hyperledger Fabric environment in the same folder of the project. If you don't put that parameter all the containers and confs will be put in ~/hyperledger-fabric-network

now install all the packages executing the npm i command

At the end of the installation you should receive a message like (the numbers may be different):

added 904 packages from 567 contributors and audited 42833 packages in 65.967s
found 30 vulnerabilities (10 low, 10 moderate, 10 high)
  run `npm audit fix` to fix them, or `npm audit` for details

Do not run npm audit fix because it will probably break the installation.

However this is something I will go in deep in the future.

The chaincode will be deployed on a Hyperledger Fabric 1.4 network defined and ran by hurley whose specific folder is called fabric-hurl and is located in the home directory of this project; the hurl command is executed by the scripts defined in the package.json file. Anyway since the fabric-client and fabric-ca-client are peer dependencies the code can be ran on existing instances without problems. (I will update this project with that part in the future)

Then to check if the skeleton is working:

npm run env:restart

The first execution of this command will take some time since it will download the docker images that will be used.

At the end you should receive something like:

[hurley] - Ran network restart script
[hurley] - ************ Success!
[hurley] - Complete network deployed at /Users/luca/Projects/GitHubProjects/cloned/convector-example-supplychain-master/fabric-hurl
[hurley] - Setup:
        - Organizations: 2
            * org1
            * org2
        - Users per organization: user1
            * admin
            * user1
        - Channels deployed: 1
            * ch1

[hurley] - You can find the network topology (ports, names) here: /Users/luca/Projects/GitHubProjects/cloned/convector-example-supplychain-master/fabric-hurl/docker-compose.yaml

What happened during the execution of the command is that the Hyperledger Fabric 1.4.0 infrastructure has been started

running the docker ps -a command:

CONTAINER ID        IMAGE                                                                                                                 COMMAND                  CREATED             STATUS              PORTS                                                                    NAMES
9689cb760462        hyperledger/fabric-peer:1.4.0                                                                                         "peer node start --p…"   About an hour ago   Up About an hour    0.0.0.0:7051-7053->7051-7053/tcp                                         peer0.org1.hurley.lab
7333bb820374        hyperledger/fabric-peer:1.4.0                                                                                         "peer node start --p…"   About an hour ago   Up About an hour    0.0.0.0:7151->7051/tcp, 0.0.0.0:7152->7052/tcp, 0.0.0.0:7153->7053/tcp   peer0.org2.hurley.lab
6c07fed50b69        hyperledger/fabric-ca:1.4.0                                                                                           "fabric-ca-server st…"   About an hour ago   Up About an hour    0.0.0.0:7154->7054/tcp                                                   ca.org2.hurley.lab
382b08596a70        hyperledger/fabric-ca:1.4.0                                                                                           "fabric-ca-server st…"   About an hour ago   Up About an hour    0.0.0.0:7054->7054/tcp                                                   ca.org1.hurley.lab
2f721919bd7e        hyperledger/fabric-couchdb:0.4.14                                                                                     "tini -- /docker-ent…"   About an hour ago   Up About an hour    4369/tcp, 9100/tcp, 0.0.0.0:5184->5984/tcp                               couchdb.peer0.org2.hurley.lab
abe4eadac764        hyperledger/fabric-couchdb:0.4.14                                                                                     "tini -- /docker-ent…"   About an hour ago   Up About an hour    4369/tcp, 9100/tcp, 0.0.0.0:5084->5984/tcp                               couchdb.peer0.org1.hurley.lab
2bb40eec25e7        hyperledger/fabric-orderer:1.4.0                                                                                      "orderer"                About an hour ago   Up About an hour    0.0.0.0:7050->7050/tcp                                                   orderer.hurley.lab

We can see there is:

Now some users in the organizations (org1 and org2) have been registered via the certificate authorities we'll use them for interacting with the system; if there are no errors on screen it should be all ok.

Model/Controller pattern

The Convector framework approach follows the Model/Controller pattern that is well explained on the site:

"Convector is designed to help you write reusable pieces of code that describe the nature of what a developer can do in a blockchain. A blockchain, in the developer’s eyes, is no more than a data layer protected by a logic layer defining the rules of what the outside world can do in with the inner data. Thus, a really comfortable way of writing chaincode logic (smart contracts) is by having Models describing the shape of the data and Controllers describing the actions and rules that apply to the models."

so we re going to define the Models and the Controllers

First cd packages/supplychainchaincode-cc/src where the chaincode supplychainchaincode code is located.

You will see that 2 files have been created:

Models

with the conv generate command we now generate the stubs of our Models.

Now cd back to the root directory and run:

conv generate model Supplier -c supplychainchaincode
conv generate model Manufacturer -c supplychainchaincode
conv generate model Distributor -c supplychainchaincode
conv generate model Retailer -c supplychainchaincode
conv generate model Customer -c supplychainchaincode

You will see that now in the directory cd packages/supplychainchaincode-cc/src a file for each Model has been created:

Customer.model.ts
Distributor.model.ts
Manufacturer.model.ts
Retailer.model.ts
Supplier.model.ts

NOTE: The @worldsibu/convector-cli now changes the case of the model name to Camel case, so the files could be named like customer.model.ts. What's important is to remember to update the index.ts accordingly if changing the generated names.

These files are written using Typescript language (https://www.typescriptlang.org) that is expressive and generic enough for being used as a base of code generation (in this case the javascript code)

NOTE: In the github project you can notice I moved the models into a models folder. This is up to you, just remember to update the index.ts accordingly.

Opening each of them (i.e. Supplier.model.ts), you will see that there are also the properties created and modified. I decided to comment them out and to deal with them in the future.

Same thing has to be done to all the Models.

Now we need to add the variables that are specific for every Model:

So the Supplier.model.ts shoud now look like:

import * as yup from 'yup';
import {
  ConvectorModel,
  Default,
  ReadOnly,
  Required,
  Validate
} from '@worldsibu/convector-core-model';

export class Supplier extends ConvectorModel<Supplier> {
  @ReadOnly()
  @Required()
  public readonly type = 'io.worldsibu.Supplier';

  @Required()
  @Validate(yup.string())
  public name: string;

  // @ReadOnly()
  // @Required()
  // @Validate(yup.number())
  // public created: number;
  //
  // @Required()
  // @Validate(yup.number())
  // public modified: number;

  @Required()
  @Validate(yup.number())
  public rawMaterialAvailable: number;

}

The Manufacturer.model.ts shoud now look like:

import * as yup from 'yup';
import {
  ConvectorModel,
  Default,
  ReadOnly,
  Required,
  Validate
} from '@worldsibu/convector-core-model';

export class Manufacturer extends ConvectorModel<Manufacturer> {
  @ReadOnly()
  @Required()
  public readonly type = 'io.worldsibu.Manufacturer';

  @Required()
  @Validate(yup.string())
  public name: string;

  // @ReadOnly()
  // @Required()
  // @Validate(yup.number())
  // public created: number;
  //
  // @Required()
  // @Validate(yup.number())
  // public modified: number;

  @Required()
  @Validate(yup.number())
  public productsAvailable: number;

  @Required()
  @Validate(yup.number())
  public rawMaterialAvailable: number;

}

The Distributor.model.ts shoud now look like:

import * as yup from 'yup';
import {
  ConvectorModel,
  Default,
  ReadOnly,
  Required,
  Validate
} from '@worldsibu/convector-core-model';

export class Distributor extends ConvectorModel<Distributor> {
  @ReadOnly()
  @Required()
  public readonly type = 'io.worldsibu.Distributor';

  @Required()
  @Validate(yup.string())
  public name: string;

  // @ReadOnly()
  // @Required()
  // @Validate(yup.number())
  // public created: number;
  //
  // @Required()
  // @Validate(yup.number())
  // public modified: number;

  @Required()
  @Validate(yup.number())
  public productsToBeShipped: number;

  @Required()
  @Validate(yup.number())
  public productsShipped: number;

  @Required()
  @Validate(yup.number())
  public productsReceived: number;
}

The Retailer.model.ts shoud now look like:

import * as yup from 'yup';
import {
  ConvectorModel,
  Default,
  ReadOnly,
  Required,
  Validate
} from '@worldsibu/convector-core-model';

export class Retailer extends ConvectorModel<Retailer> {
  @ReadOnly()
  @Required()
  public readonly type = 'io.worldsibu.Retailer';

  @Required()
  @Validate(yup.string())
  public name: string;

  // @ReadOnly()
  // @Required()
  // @Validate(yup.number())
  // public created: number;
  //
  // @Required()
  // @Validate(yup.number())
  // public modified: number;

  @Required()
  @Validate(yup.number())
  public productsOrdered: number;

  @Required()
  @Validate(yup.number())
  public productsAvailable: number;

  @Required()
  @Validate(yup.number())
  public productsSold: number;
}

The Customer.model.ts shoud now look like:

import * as yup from 'yup';
import {
  ConvectorModel,
  Default,
  ReadOnly,
  Required,
  Validate
} from '@worldsibu/convector-core-model';

export class Customer extends ConvectorModel<Customer> {
  @ReadOnly()
  @Required()
  public readonly type = 'io.worldsibu.Customer';

  @Required()
  @Validate(yup.string())
  public name: string;

  // @ReadOnly()
  // @Required()
  // @Validate(yup.number())
  // public created: number;
  //
  // @Required()
  // @Validate(yup.number())
  // public modified: number;

  @Required()
  @Validate(yup.number())
  public productsBought: number;
}

You can notice that there are no validations but the type ones. I will take care of refining it in the future.

Now that the Models have been created it's time to implement the logic.

Controller

For the Controller I will modify directly on the file called supplychainchaincode.controller.ts to keep the standard naming of the Controller in this folder

The Controller will contain all the logic for implementing the actions described in the Use Case section; specifically will contain the implementation of all the following functions that implement the logic:

fetchRawMaterial: Fetch Raw Material

getRawMaterialFromSupplier: Get Raw Material

createProducts: Create Products

sendProductsToDistribution: Send Products to Distribution

orderProductsFromDistributor: Order Products

receiveProductsFromDistributor: Receive Products

buyProductsFromRetailer: Buy Products

Together with these functions I created also others that are used as helpers:

The implementation of the Controller is quite straight forward once there are few concepts clear:

Since in the Controller we manage Models the first step is understanding more in deep what a Model is as class: every Model extends a class called ConvectorModel<T> and you can read its definition in the file https://github.com/hyperledger-labs/convector/blob/develop/%40worldsibu/convector-core-model/src/convector-model.ts

/** @module convector-core-model */

import * as yup from 'yup';
import { InvalidIdError } from '@worldsibu/convector-core-errors';
import { BaseStorage } from '@worldsibu/convector-core-storage';

import { Validate } from '../src/validate.decorator';
import { getDefaults } from '../src/default.decorator';
import { Required, ensureRequired } from '../src/required.decorator';
import {
  getPropertiesValidation,
  getValidatedProperties
} from '../src/validate.decorator';

export type RequiredKeys<T> = { [K in keyof T]-?:
  string extends K ? never : number extends K ? never : {} extends Pick<T, K> ? never : K
} extends { [_ in keyof T]-?: infer U } ? U extends keyof T ? U : never : never;

export type OptionalKeys<T> = { [K in keyof T]-?:
  string extends K ? never : number extends K ? never : {} extends Pick<T, K> ? K : never
} extends { [_ in keyof T]-?: infer U } ? U extends keyof T ? U : never : never;

export declare type FlatConvectorModel<T> =
  {[L in Exclude<OptionalKeys<T>, keyof ConvectorModel<any>>]?: T[L]} &
  {[L in Exclude<RequiredKeys<T>, keyof ConvectorModel<any>>]: T[L]};

export interface History<T> {
  value: T;
  txId: string;
  timestamp: number;
}

/**
 * This class is intended to be inherited by all the models of the application.
 *
 * It provides the underlying communication with the [[BaseStorage]].
 */
export abstract class ConvectorModel<T extends ConvectorModel<any>> {
  private static type = 'io.convector.model';

  public static schema<T extends ConvectorModel<any>>(
    this: Function&{prototype: T}
  ): yup.ObjectSchema<FlatConvectorModel<T>&{id:string,type:string}> {
    return yup.object<FlatConvectorModel<T>&{id:string,type:string}>().shape({
      id: yup.string().required(),
      type: yup.string(),
      ...getPropertiesValidation(this.prototype)
    } as any);
  }

  /**
   * Fetch one model by its id and instantiate the result
   *
   * @param this The extender type
   * @param id The ID used to fetch the model
   * @param type The type to use for instantiation, if not provided, the extender type is used
   */
  public static async getOne<T extends ConvectorModel<any>>(
    this: new (content: any) => T,
    id: string,
    type?: new (content: any) => T,
    storageOptions?: any
  ): Promise<T> {
    type = type || this;
    const content = await BaseStorage.current.get(id, storageOptions);

    const model = new type(content);

    if ((content && model) && content.type !== model.type) {
      throw new Error(`Possible ID collision, element ${id} of type ${content.type} is not ${model.type}`);
    }

    return model;
  }

  /**
   * Runs a query on the storage layer
   *
   * @param this The extender type
   * @param type The type to use for instantiation, if not provided, the extender type is used
   * @param args The query params, this is passed directly to the current storage being used
   */
  public static async query<T>(type: new (content: any) => T, ...args: any[]): Promise<T | T[]>;
  public static async query<T>(this: new (content: any) => T, ...args: any[]): Promise<T | T[]> {
    let type = this;

    // Stupid horrible hack to find the current implementation's parent type
    if (args[0] && 'type' in args[0] && args[0].type === ConvectorModel.type) {
      type = args.shift();
    }

    const content = await BaseStorage.current.query(...args);
    return Array.isArray(content) ? content.map(c => new type(c)) : new type(content);
  }

  /**
   * Return all the models with the given [[ConvectorModel.type]]
   *
   * @param this The extender type
   * @param type The type field to lookup and group the results
   */
  public static async getAll<T extends ConvectorModel<any>>(
    this: new (content: any) => T,
    type?: string
  ): Promise<T[]> {
    type = type || new this('').type;
    return await ConvectorModel.query(this, { selector: { type } }) as T[];
  }

  /**
   * This field is [[Required]] and [[Validate]]d using a string schema
   *
   * Represents the key used to store the model in the blockchain
   */
  @Required()
  @Validate(yup.string())
  public id: string;

  /**
   * This field must be provided by the extender class.
   *
   * It should be [[Required]] and [[ReadOnly]]
   *
   * We normally use a domain name patter for type names, i.e.: `io.worldsibu.example.user`
   */
  public abstract readonly type: string;

  /**
   * The constructor can be called in multiple ways.
   *
   * - As an empty box where you instantiate one and start adding data
   * - As a data fetcher, providing the ID and using [[ConvectorModel.fetch]]
   * - As a formatter, you just pass an object of any shape into the constructor
   *    and it will trim the remaining content and leave what's important
   */
  constructor();
  constructor(id: string);
  constructor(content: { [key in keyof T]?: T[key] });
  constructor(content?: string | { [key in keyof T]?: T[key] }) {
    if (!content) {
      return;
    }

    if (typeof content === 'string') {
      this.id = content;
      return;
    }

    this.assign(content);
  }

  /**
   * Given one model loaded into the instance,
   * update its content with the object passed in the param.
   *
   * Store the result after the update occurs.
   */
  public async update(content: { [key in keyof T]?: T[key] }) {
    this.assign(content);
    await this.save();
  }

  /**
   * Invokes the [[BaseStorage.get]] method to retrieve the model from storage.
   */
  public async fetch(storageOptions?: any) {
    const content = await BaseStorage.current.get(this.id, storageOptions) as ConvectorModel<T>;

    if (content.type !== this.type) {
      throw new Error(`Possible ID collision, element ${this.id} of type ${content.type} is not ${this.type}`);
    }

    this.assign(content as T);
  }

  public async history(): Promise<History<T>[]> {
    const history = await BaseStorage.current.history(this.id);

    return history.map(item => ({
      txId: item.tx_id,
      value: new (this.constructor as new (content: any) => T)(item.value),
      timestamp: item.timestamp
    }));
  }

  /**
   * Invokes the [[BaseStorage.set]] method to write into chaincode.
   *
   * @param storageOptions Extra options to pass to the storage layer. The type depends on the storage
   */
  public async save(storageOptions?: any) {
    this.assign(getDefaults(this), true);
    if (!ensureRequired(this)) {
      if (!this.id) {
        throw new Error(`Model ${this.type} is missing the 'id' property \n${JSON.stringify(this)}`);
      } else {
        throw new Error(`Model ${this.type} is not complete\n${JSON.stringify(this)}.
        Check your model definition for more details.`);
      }
    }

    InvalidIdError.test(this.id);
    await BaseStorage.current.set(this.id, this, storageOptions);
  }

  /**
   * Make a copy of this model
   */
  public clone(): T {
    return new (this.constructor as new (content: any) => T)(Object.assign({}, this));
  }

  /**
   * Serealize this model so it can be transferred in the network
   *
   * @param skipEmpty Skip the empty properties
   */
  public toJSON(skipEmpty = false): { [key in keyof T]?: T[key] } {
    let protos = [];
    let children = this;

    // Search through the parents until reach ConvectorModel
    do {
      children = Object.getPrototypeOf(children);
      protos.push(children);
    } while (children['__proto__'].constructor.name !== ConvectorModel.name);

    // Get all the descriptors for this model
    const descriptors = protos.reduce((result, proto) => [
      ...result,
      ...Object.keys(proto)
        // Map the keys to their [key,propDescriptior]
        .map(key => [key, Object.getOwnPropertyDescriptor(proto, key)])
    ], []);

    // debugger;
    const base = Object.keys(this).concat('id')
      .filter(k => !k.startsWith('_'))
      .filter(k => !skipEmpty || !(this[k] === undefined || this[k] === null))
      .reduce((result, key) => ({ ...result, [key]: this[key] }), {});

    return descriptors
      .reduce((result, [key, desc]) => {
        const hasGetter = desc && typeof desc.get === 'function';

        if (hasGetter) {
          // Apply the descriptors to the children class
          result[key] = desc.get.call(this);
        }

        if (skipEmpty && (result[key] === undefined || result[key] === null)) {
          delete result[key];
        }

        if (result[key] instanceof ConvectorModel) {
          result[key] = result[key].toJSON(true);
        }

        return result;
      }, base);
  }

  /**
   * Delete a model and persist the changes into the blockchain.
   *
   * Notice that there's no such a concept as **delete** in the blockchain,
   * so what this does is to remove all the reachable references to the model.
   */
  public async delete(storageOptions?: any) {
    await BaseStorage.current.delete(this.id, storageOptions);
  }

  /**
   * Extend the current model definition with some more data
   *
   * @hidden
   *
   * @param defaults Should the [[Default]]s be applied
   */
  private assign(content: { [key in keyof T]?: T[key] }, defaults = false) {
    const validated = ['id', 'type', ...getValidatedProperties(this)];
    const filteredContent = Object.keys(content)
      .map(key => key.replace(/^_/, ''))
      .filter(key => validated.indexOf(key) >= 0)
      .reduce((result, key) => ({
        ...result,
        [key]: content[key] !== undefined ? content[key] : content['_' + key]
      }), {});

    const afterDefaults = defaults ? this.toJSON(true) : {};
    Object.assign(this, filteredContent, afterDefaults);
  }
}

Here you can see that every Model, extending this class, inherited various methods:

And the field id that must be set when an instance of a Model is created.

If we now we analyze one of the methods in the Controller for creating a Model we can see already the usage of some of them:

createSupplier

@Invokable()
public async createSupplier(
    @Param(Supplier)
    supplier: Supplier
) {
    await supplier.save();
}

The method is really straight forward because:

All these methods follow the async/await pattern to be synchronous.

Another example to be explained is a function that retrieves all the instances of a specific Model, like the getAllSuppliers :

@Invokable()
public async getAllSuppliers()
{
    const storedSuppliers = await Supplier.getAll<Supplier>();
    return storedSuppliers;
}

This method uses the getAll method that needs to define the generic after its name to tell the adapter which Model type we want to retrieve all the instances. In this case the generic is Supplier since we want to retrieve all the Suppliers in the ledger.

Another example to be explained is a function that impacts on Models that have been already stored in the ledger, like the getRawMaterialFromSupplier that is used to transfer raw material from the Supplier to the Manufacturer:

@Invokable()
public async getRawMaterialFromSupplier(
    @Param(yup.string())
    manufacturerId: string,
    @Param(yup.string())
    supplierId: string,
    @Param(yup.number())
    rawMaterialSupply: number
) {
    const supplier = await Supplier.getOne(supplierId);
    supplier.rawMaterialAvailable = supplier.rawMaterialAvailable - rawMaterialSupply;
    const manufacturer = await Manufacturer.getOne(manufacturerId);
    manufacturer.rawMaterialAvailable = rawMaterialSupply + manufacturer.rawMaterialAvailable;

    await supplier.save();
    await manufacturer.save();
}

This function:

All the functions are using these methods.

The file supplychainchaincode.controller.ts should look like this:

import * as yup from 'yup';
import {
  Controller,
  ConvectorController,
  Invokable,
  Param
} from '@worldsibu/convector-core-controller';

import { Supplier } from './Supplier.model';
import { Manufacturer } from './Manufacturer.model';
import { Distributor } from './Distributor.model';
import { Retailer } from './Retailer.model';
import { Customer } from './Customer.model';

@Controller('supplychainchaincode')
export class SupplychainchaincodeController extends ConvectorController {

  @Invokable()
  public async createSupplier(
    @Param(Supplier)
    supplier: Supplier
  ) {
    await supplier.save();
  }

  @Invokable()
  public async createManufacturer(
    @Param(Manufacturer)
    manufacturer: Manufacturer
  ) {
    await manufacturer.save();
  }

  @Invokable()
  public async createDistributor(
    @Param(Distributor)
    distributor: Distributor
  ) {
    await distributor.save();
  }

  @Invokable()
  public async createRetailer(
    @Param(Retailer)
    retailer: Retailer
  ) {
    await retailer.save();
  }

  @Invokable()
  public async createCustomer(
    @Param(Customer)
    customer: Customer
  ) {
    await customer.save();
  }

  @Invokable()
  public async getAllSuppliers()
  {
    const storedSuppliers = await Supplier.getAll<Supplier>();
    return storedSuppliers;
  }

  @Invokable()
  public async getSupplierById(
    @Param(yup.string())
    supplierId: string
  )
  {
    const supplier = await Supplier.getOne(supplierId);
    return supplier;
  }

  @Invokable()
  public async getAllManufacturers()
  {
    const storedManufacturers = await Manufacturer.getAll<Manufacturer>();
        return storedManufacturers;
  }

  @Invokable()
  public async getManufacturerById(
    @Param(yup.string())
    manufacturerId: string
  )
  {
    const manufacturer = await Manufacturer.getOne(manufacturerId);
    return manufacturer;
  }

  @Invokable()
  public async getAllDistributors()
  {
    const storedDistributors = await Distributor.getAll<Distributor>();
    return storedDistributors
  }

  @Invokable()
  public async getDistributorById(
    @Param(yup.string())
    distributorId: string
  )
  {
    const distributor = await Distributor.getOne(distributorId);
    return distributor;
  }

  @Invokable()
  public async getAllRetailers()
  {
    const storedRetailers = await Retailer.getAll<Retailer>();
    return storedRetailers;
  }

  @Invokable()
  public async getRetailerById(
    @Param(yup.string())
    retailerId: string
  )
  {
    const retailer = await Retailer.getOne(retailerId);
    return retailer;
  }

  @Invokable()
  public async getAllCustomers()
  {
    const storedCustomers = await Customer.getAll<Customer>();
    return storedCustomers;
  }

  @Invokable()
  public async getCustomerById(
    @Param(yup.string())
    customerId: string
  )
  {
    const customer = await Customer.getOne(customerId);
    return customer;
  }

  @Invokable()
  public async getAllModels()
  {
    const storedCustomers = await Customer.getAll<Customer>();
    console.log(storedCustomers);

    const storedRetailers = await Retailer.getAll<Retailer>();
    console.log(storedRetailers);

    const storedDistributors = await Distributor.getAll<Distributor>();
    console.log(storedDistributors);

    const storedManufacturers = await Manufacturer.getAll<Manufacturer>();
    console.log(storedManufacturers);

    const storedSuppliers = await Supplier.getAll<Supplier>();
    console.log(storedSuppliers);
  }

  @Invokable()
  public async fetchRawMaterial(
    @Param(yup.string())
    supplierId: string,
    @Param(yup.number())
    rawMaterialSupply: number
  ) {
    const supplier = await Supplier.getOne(supplierId);
    supplier.rawMaterialAvailable = supplier.rawMaterialAvailable + rawMaterialSupply;
    await supplier.save();
  }

  @Invokable()
  public async getRawMaterialFromSupplier(
    @Param(yup.string())
    manufacturerId: string,
    @Param(yup.string())
    supplierId: string,
    @Param(yup.number())
    rawMaterialSupply: number
  ) {
    const supplier = await Supplier.getOne(supplierId);
    supplier.rawMaterialAvailable = supplier.rawMaterialAvailable - rawMaterialSupply;
    const manufacturer = await Manufacturer.getOne(manufacturerId);
    manufacturer.rawMaterialAvailable = rawMaterialSupply + manufacturer.rawMaterialAvailable;

    await supplier.save();
    await manufacturer.save();
  }

  @Invokable()
  public async createProducts(
    @Param(yup.string())
    manufacturerId: string,
    @Param(yup.number())
    rawMaterialConsumed: number,
    @Param(yup.number())
    productsCreated: number
  ) {
    const manufacturer = await Manufacturer.getOne(manufacturerId);
    manufacturer.rawMaterialAvailable = manufacturer.rawMaterialAvailable - rawMaterialConsumed;
    manufacturer.productsAvailable = manufacturer.productsAvailable + productsCreated;
    await manufacturer.save();
  }

  @Invokable()
  public async sendProductsToDistribution(
    @Param(yup.string())
    manufacturerId: string,
    @Param(yup.string())
    distributorId: string,
    @Param(yup.number())
    sentProducts: number
  ) {
    const distributor = await Distributor.getOne(distributorId);
    distributor.productsToBeShipped = distributor.productsToBeShipped + sentProducts;
    const manufacturer = await Manufacturer.getOne(manufacturerId);
    manufacturer.productsAvailable = manufacturer.productsAvailable - sentProducts;

    await distributor.save();
    await manufacturer.save();
  }

  @Invokable()
  public async orderProductsFromDistributor(
    @Param(yup.string())
    retailerId: string,
    @Param(yup.string())
    distributorId: string,
    @Param(yup.number())
    orderedProducts: number
  ) {
    const retailer = await Retailer.getOne(retailerId);
    retailer.productsOrdered = retailer.productsOrdered + orderedProducts;
    const distributor = await Distributor.getOne(distributorId);
    distributor.productsToBeShipped = distributor.productsToBeShipped - orderedProducts;
    distributor.productsShipped = distributor.productsShipped + orderedProducts;

    await retailer.save();
    await distributor.save();
  }

  @Invokable()
  public async receiveProductsFromDistributor(
    @Param(yup.string())
    retailerId: string,
    @Param(yup.string())
    distributorId: string,
    @Param(yup.number())
    receivedProducts: number
  ) {
    const retailer = await Retailer.getOne(retailerId);
    retailer.productsAvailable = retailer.productsAvailable + receivedProducts;
    const distributor = await Distributor.getOne(distributorId);
    distributor.productsReceived = distributor.productsReceived + receivedProducts;

    await retailer.save();
    await distributor.save();
  }

  @Invokable()
  public async buyProductsFromRetailer(
    @Param(yup.string())
    retailerId: string,
    @Param(yup.string())
    customerId: string,
    @Param(yup.number())
    boughtProducts: number
  ) {
    const retailer = await Retailer.getOne(retailerId);
    retailer.productsAvailable = retailer.productsAvailable - boughtProducts;
    retailer.productsSold = retailer.productsSold + boughtProducts;
    const customer = await Customer.getOne(customerId);
    customer.productsBought = customer.productsBought + boughtProducts;

    await retailer.save();
    await customer.save();
  }
}

Installation and execution of the code

Once the Models and Controller have been written, you have to go back to the root folder (supplychain) and run the command npm i

If there are no errors you should see the output that tells you the chaincode called supplychainchaincode-cc@0.1.0 has been processed (generating the client, the controller interface etc.)

Now it's time to install and start the chaincode with the command npm run cc:start that is defined in the package.json as:

"cc:start": "f() { npm run cc:package -- $1 org1; npm run cc:install $1; }; f"

So it executes 2 commands passing the chaincode name as first parameter (the $1), and the name org1 as second parameter ($2):

The execution of this command:

npm run cc:start -- supplychainchaincode  1

should end with an output like the following:

Installing Chaincode at org1
2019-02-25 11:52:35.244 CET [chaincodeCmd] checkChaincodeCmdParams -> INFO 001 Using default escc
2019-02-25 11:52:35.244 CET [chaincodeCmd] checkChaincodeCmdParams -> INFO 002 Using default vscc
2019-02-25 11:52:35.338 CET [chaincodeCmd] install -> INFO 003 Installed remotely response:<status:200 payload:"OK" >
Installed Chaincode at org1
Installing Chaincode at org2
2019-02-25 11:52:35.401 CET [chaincodeCmd] checkChaincodeCmdParams -> INFO 001 Using default escc
2019-02-25 11:52:35.401 CET [chaincodeCmd] checkChaincodeCmdParams -> INFO 002 Using default vscc
2019-02-25 11:52:35.487 CET [chaincodeCmd] install -> INFO 003 Installed remotely response:<status:200 payload:"OK" >
Installed Chaincode at org2
Instantiating Chaincode at org1
It may take a few minutes depending on the chaincode dependencies
2019-02-25 11:52:45.572 CET [chaincodeCmd] checkChaincodeCmdParams -> INFO 001 Using default escc
2019-02-25 11:52:45.572 CET [chaincodeCmd] checkChaincodeCmdParams -> INFO 002 Using default vscc
Instantiated Chaincode at org1

Running now the command docker ps -a you should notice that there are 2 new containers:

2a488ae54b4d        dev-peer0.org2.hurley.lab-supplychainchaincode-1.0-982db5386d51b5f5bf00ddc0470aff5e11fa77d9a5409fd6991eb7791002a5c3   "/bin/sh -c 'cd /usr…"   About an hour ago   Up About an hour                                                                             dev-peer0.org2.hurley.lab-supplychainchaincode-1.0
807e9ed0d7c9        dev-peer0.org1.hurley.lab-supplychainchaincode-1.0-5aea7809261e79ace2a874a1d67b3a998cccc93ce6142f80105dfa2abaa958f5   "/bin/sh -c 'cd /usr…"   About an hour ago   Up About an hour                                                                             dev-peer0.org1.hurley.lab-supplychainchaincode-1.0

That are the 2 containers, one per organization, called dev-peer0.org2.hurley.lab-supplychainchaincode-1.0 and dev-peer0.org1.example.com-supplychainchaincode-1.0 that are running the chaincode.

Interaction with the chaincode

For interacting with the chaincode we'll use the command npm run cc:invoke that is defined in the package.json as:

"cc:invoke": "f() { chaincode-manager --config ./$2.$1.config.json --user $3 invoke $1 ${@:4}; }; f"

It invokes the chaincode-manager command that is defined in node_modules/@worldsibu/convector-tool-chaincode-manager

It takes as inputs 4 parameters:

NOTE FOR LINUX USERS

You have to force the /bin/bash as the default shell for the execution of the npm run scripts since linux uses sh as default shell for npm run scripts. In order to do that you have to run:

npm config set script-shell /bin/bash

NOTE FOR UBUNTU 18.04 USERS

if you already updated npm to the latest version and npm -v still gives you the wrong version (like 3.5.7) it's because of the cache of bash so you have to:

In our case chaincode name and controller name are the same so a sample invocation is:

npm run cc:invoke -- supplychainchaincode org1 user1 supplychainchaincode createSupplier '{"id":"SPL_1","name":"supplier1","rawMaterialAvailable":2000}'

This will invoke the method called createSupplier that we wrote in the Controller and will create a Supplier with id SPL_1 that will be saved into the ledger.

In the folder packages/supplychainchaincode-cc/script/ there's a file called testScript_sh.bash that contains a script that:

where these entities interacts from the end to end: from the fetching of raw material until the selling of the products.

This happens running the script testScript_sh.bash with the command

bash testScript_sh.bash

To read the messages written on the console via the invocations of the console.log function within the Controller, you need to connect to one of the peers that executes the chaincode.

This is done with the command docker logs that accepts as parameter the id of the container that you saw as part of the output of the docker ps -a command.

In our scenario we use 2a488ae54b4d that corresponds to dev-peer0.org2.example.com-supplychainchaincode-1

so the command will be:

docker logs 2a488ae54b4d -f

Running this command you will see all the logs of the container in real time. It will show also all the past logs.

The last command output is the print of all the Models that shows the status of each of them after the execution of the end to end scenario:

debug: [Chaincode] ============= START : supplychainchaincode_getAllModels ===========
debug: [StubHelper] Query: {"selector":{"type":"io.worldsibu.Customer"}}
[ Customer {
    _id: 'CST_1',
    _name: 'luca',
    _productsBought: 2,
    _type: 'io.worldsibu.Customer' },
  Customer {
    _id: 'CST_2',
    _name: 'diestrin',
    _productsBought: 4,
    _type: 'io.worldsibu.Customer' },
  Customer {
    _id: 'CST_3',
    _name: 'waltermontes',
    _productsBought: 0,
    _type: 'io.worldsibu.Customer' } ]
debug: [StubHelper] Query: {"selector":{"type":"io.worldsibu.Retailer"}}
[ Retailer {
    _id: 'RTL_1',
    _name: 'retailer1',
    _productsAvailable: 2,
    _productsOrdered: 6,
    _productsSold: 4,
    _type: 'io.worldsibu.Retailer' },
  Retailer {
    _id: 'RTL_2',
    _name: 'retailer2',
    _productsAvailable: 0,
    _productsOrdered: 2,
    _productsSold: 2,
    _type: 'io.worldsibu.Retailer' } ]
debug: [StubHelper] Query: {"selector":{"type":"io.worldsibu.Distributor"}}
[ Distributor {
    _id: 'DST_1',
    _name: 'distributor1',
    _productsReceived: 5,
    _productsShipped: 5,
    _productsToBeShipped: 6,
    _type: 'io.worldsibu.Distributor' },
  Distributor {
    _id: 'DST_2',
    _name: 'distributor2',
    _productsReceived: 3,
    _productsShipped: 3,
    _productsToBeShipped: 0,
    _type: 'io.worldsibu.Distributor' } ]
debug: [StubHelper] Query: {"selector":{"type":"io.worldsibu.Manufacturer"}}
[ Manufacturer {
    _id: 'MNF_1',
    _name: 'manufacturer1',
    _productsAvailable: 2,
    _rawMaterialAvailable: 525,
    _type: 'io.worldsibu.Manufacturer' },
  Manufacturer {
    _id: 'MNF_2',
    _name: 'manufacturer2',
    _productsAvailable: 44,
    _rawMaterialAvailable: 290,
    _type: 'io.worldsibu.Manufacturer' } ]
debug: [StubHelper] Query: {"selector":{"type":"io.worldsibu.Supplier"}}
[ Supplier {
    _id: 'SPL_1',
    _name: 'supplier1',
    _rawMaterialAvailable: 2300,
    _type: 'io.worldsibu.Supplier' },
  Supplier {
    _id: 'SPL_2',
    _name: 'supplier2',
    _rawMaterialAvailable: 4850,
    _type: 'io.worldsibu.Supplier' } ]
debug: [Chaincode] ============= END : supplychainchaincode_getAllModels ===========

If you don't have a specific docker situation, the first image you display with the docker ps -a command is one that executes the chaincode, in that case a nice command that saves you the time to read the image id and copy/paste every time is:

docker logs $(docker ps -qa | head -n 1) -f

Node JS backend

For the instructions on how to generate a Node JS backend you can check the project https://github.com/worldsibu/convector-rest-api where the procedure for generating the rest API is explained using this project as sample project.