External Plugin

This is a third-party plugin. Please report issues in its Github Repository

buidler

buidler-deploy

A Buidler Plugin For Replicable Deployments And Tests

Buidler Deployment And Test Plugin.

# What is it for ?

This buidler plugin adds a mechanism to deploy contracts to any network, keeping track of them and replicating the same environment for testing.

It also adds a mechanism to associate names to addresses so test and deployment scripts can be reconfigured by simply changing the address a name points to, allowing different configurations per network. This also results in much clearer tests and deployment scripts (no more accounts[2] in your code).

This plugin contains a lot more features too, all geared toward a better developer experience :

  • chain configuration export, listing deployed contract, their abi and address, usefull for webapps.
  • library linking at time of deployment
  • deterministic deployment across networks
  • ability to submit contract source to etherscan for verification. Because buidler-deploy will save all necessary info, it can be executed at any time.
  • deployment dependency system (allowing you to only deploy what is needed).
  • deployment as migration so once a deployment is done, it can be set to never be executed again.
  • deployment retrying (by saving pending tx): so you can feel confident when making a deployment that you can always recover.
  • deployments as test fixture using evm_snapshot to speed up testing.
  • ability to create your own test fixture that automatically benefit from evm_snapshot to speed up tests using it.
  • combined with buidler-ethers-v5 it has the ability to get ethers contract instance by name (like await ethers.getContract("ContractName")).
  • importing previously compiled contract (possibly in different solidity compiler version).
  • importing artifact from external sources (like npm packages), including truffle support
  • importing deployments from external sources (like npm packages), including truffle support
  • ability to log information in deploy mode only (while in test the console remains clean).
  • contains helpers to read and execute transaction on deployed contract referring to them by name.
  • These helpers contains options to auto mine on dev environment like ganache (to speed up deployments).
  • save metadata of deployed contract so they can always be fully verified, via sourcify or etherscan.
  • proxy deployment with ability to upgrade them transparently, only if code changes.
  • diamond deployment with facets, allowing you to focus on what the new version will be. It will generate the diamondCut necessary to reach the new state.
  • watch and deploy: buidler-deploy can watch both your deploy script and contract code and redeploy on changes.
  • HCR (Hot Contract Replacement): the watch feature combined with proxy or diamond, gives you an experience akin to frontend Hot Module Replacement: Once your contract change, the deployment is executed and your contract retain the same address and same state.

# Installation

# npm install buidler-deploy

npm install buidler-deploy

And add the following statement to your buidler.config.js:

usePlugin("buidler-deploy");

# TypeScript support

You need to add this to your tsconfig.json's files array: "node_modules/buidler-deploy/src/type-extensions.d.ts"

you also need to set up the include field in tsconfig.json to set the folder in which your ts files are located.

for example: include": ["./scripts", "./deploy", "./test"]

see doc here : https://www.typescriptlang.org/docs/handbook/tsconfig-json.html#details

for deploy script (see below) you can write them this way to benefit from typing :

import {
  BuidlerRuntimeEnvironment,
  DeployFunction,
} from "@nomiclabs/buidler/types";

const func: DeployFunction = async function (bre: BuidlerRuntimeEnvironment) {
  // code here
};
export default func;

See a full example of typescript usage here : https://github.com/wighawag/buidler-deploy-ts-test

# Migrating existing deployment to buidler-deploy

You might want to switch your current deployment process to use buidler-deploy. In that case you probably have some deployments saved elsewhere.

In order to port them to buidler-deploy, you'll need to create one .json file per contract in the deployments/<network> folder (configurable via paths config).

The network folder is simply the buidler network name (as configured in buidler.config.js) (accessible at runtime via bre.network.name). Such folder need to have a file named .chainId containing the chainId as decimal.

For example for network named "rinkeby" (for the corresponding network) the file deployments/rinkeby/.chainId would be

4

Note, prior to buidler 0.6 the chainId was appended to the folder name (expect for some known network name). This has changed and upgrading to 0.6 will require you to change the folder name and add the '.chainId' file.

Each contract file must follow this type (as defined in src/type-extensions.d.ts) :

export interface Deployment {
  abi: any[];
  address: string;
  receipt?: Receipt;
  transactionHash?: string;
  contractFilepath?: string;
  contractName?: string;
  history?: Deployment[];
  args?: any[];
  linkedData?: any;
  metadata?: string;
  bytecode?: string;
  deployedBytecode?: string;
  userdoc?: any;
  devdoc?: any;
  methodIdentifiers?: any;
  diamondCut?: { address: string; sigs: string[] }[];
  facets?: { address: string; sigs: string[] }[];
  storageLayout?: any;
}

As you can see, only abi and address are mandatory. But having the other fields allow more feature. For example, metadata and args allow you to benefit from contract code verification.

For Receipt, the following type is expected:

export type Receipt = {
  from: string;
  transactionHash: string;
  blockHash: string;
  blockNumber: number;
  transactionIndex: number;
  cumulativeGasUsed: string | number;
  gasUsed: string | number;
  contractAddress?: string;
  to?: string;
  logs?: Log[];
  events?: any[];
  logsBloom?: string;
  byzantium?: boolean;
  status?: number;
  confirmations?: number;
};

Here is an example:

Let sey you have:

  • 2 Contract named Greeter and Registry deployed on rinkeby
  • 1 contract named Greeter on mainnet
  • 2 Contract named Greeter and Registry deployed on a network named rinkeby2

You would get the following folder structure:

deployments/
  mainnet/
    .chainId
    Greeter.json
  rinkeby/
    .chainId
    Greeter.json
    Registry.json
  rinkeby2/
    .chainId
    Greeter.json
    Registry.json

The reason why buidler-deploy save chainId in the .chainId file is both for

  • safety: so that if you were to change the network to point to a different chain, it would not attempt to read the wrong folder and assume that a contract has been deployed while it has not.
  • ability to know the chainId without requring to be connected to a node (and so not dependent on buidler.config.js settings). Useful for export task.

# Buidler Tasks Availabled/Updated

# buidler deploy

This plugin adds the deploy task to Buidler.

This task will execute the scripts in the deploy folder and save the contract deployments to disk. These deployments are supposed to be saved for example in a git repository. This way they can be accessed later.

With the deployment saved, it allows you to deploy a contract only if changed were made.

Deploy scripts (also called Deploy functions) can also perform aribtrary logic.

For further details on how to use it and write deploy script, see section below.

# Options

--export <filepath>: export one file that contains all contracts (address, abi + extra data) for the network being invoked. The file contains the minimal information so to not bloat your frontend.

--export-all <filepath>: export one file that contains all contracts across all saved deployment, regardless of the network being invoked.

--tags <tags>: only excute deploy scripts with the given tags and their dependencies (see more info here about tags and dependencies)

--gasprice <gasprice>: specify the gasprice to use by default for transactions executed via buidler-deploy helpers in deploy scripts

--write <boolean>: default to true (except for buidlerevm network). If true, write deployments to disk (in deployments path, see path config).

# Flags

--reset: This flag reset the deployments from scratch. Previously deployed contract are not considered and deleted from disk.

--silent: This flag remove buidler-deploy log output (see log function and log options for bre.deployments)

--watch: This flag make the task never ending, watching for file changes in the deploy scripts folder and the contract source folder. If any changes happen the contracts are recompiled and the deploy script are re-run. Combined with a proxy deployment (Proxies or Diamond) this allow to have HCR (Hot Contract Replacement).

# buidler node

This plugin modify the node task so that it also execute the deployment script before exposing the server http RPC interface

It also add the same options as the deploy task with the same functionality. It adds an extra flag:

--no-deploy that discard all other options to revert to normal buidler node behavior without any deployment being performed.

Note that the deployments are saved as if the network name is localhost. This is because buidler node is expected to be used as localhost: You can for example execute buidler --network localhost console after node is running. Doing builder --network buidlerevm console would indeed not do anythong useful. It still take the configuration from buidlerevm in the buidler.config.js file though.

# buidler test

This plugin add the test task an flag argument --deploy that run the deployments before the test and snapshot it.

# buidler etherscan-verify

This plugin adds the etherscan-verify task to Buidler.

This task will submit the contract source and other info of all deployed contracts to allow etherscan to verify and record the sources.

Instead of using the full solc input, this task will first attempt to send the minimal sources from the metadata. But Etherscan sometime fails due to a bug in solidity compiler (https://github.com/ethereum/solidity/issues/9573). As such this task can fallback on full solc input (see option --solc-input). Note that if your contract was deployed with a previous version of buidler-deploy, it might not contains the full information.

This task will also attempt to automatically find the SPDX license in the source.

To execute that task, you need to specifiy the network to run against :

buidler --network mainnet etherscan-verify --api-key <apikey>

# Options

--api-key <API_KEY>: Etherscan API key. Optional as such api key can also be set by setting the environment variable : ETHERSCAN_API_KEY

--license <SPDX>: specifiy the license to use (using SPDX id) or can be "UNLICENSED". Note that etherscan have limited support for licenses, see : https://etherscan.io/contract-license-types

# Flags

--solcInput: allow the use of full solc-input as fallback. Note that the whole source folder will be included in the result of the verification on etherscan.

--force-license: This flag force the use of the license specified by --license (useful if your inline SPDX are not compatible with etherscan list)

# buidler export

This plugin adds the export task to Buidler.

This task will export the contract deployed (saved in deployments folder) to a simple format containing only contract addresses and abi, useful for web apps.

One of the following options need to be set for this task to have any effects :

# Options

--export <filepath>: export one file that contains all contracts (address, abi + extra data) for the network being invoked. The file contains the minimal information so to not bloat your frontend.

--export-all <filepath>: export one file that contains all contracts across all saved deployment, regardless of the network being invoked. This last option has some limitations, when combined with the use of external deployments (see Configuration). If such external deployments were using older version of buidler-deploy or truffle, the chainId might be missing. In order for these to be exported, the buidler network config need to explicity state the chainId in the networks config of buidler.config.js.

# Buidler Environment Extensions

This plugin extends the Buidler Runtime Environment by adding 4 fields:

  • getNamedAccounts: () => Promise<{ [name: string]: string }>: a function returning an object whose keys are names and values are addresses. It is parsed from the namedAccounts configuration (see Configuration).

  • getUnamedAccounts: () => Promise<string[]}>: accounts which has no names, useful for test where you want to be sure that the account is not one of the predefined one

  • deployments: contains functions to access past deployments or to save new ones, as well as helpers functions.

  • getChainId(): Promise<string>: offer an easy way to fetch the current chainId.

# Configuration

# namedAccounts (ability to name addresses)

This plugin extends the BuidlerConfig's object with an optional namedAccounts field.

namedAccounts allows you to associate names to addresses and have them configured per chain. This allows you to have meaningful names in your tests while the addresses match to multi sig in real network for example.

{
    namedAccounts: {
        deployer: {
            default: 0, // here this will by default take the first account as deployer
            1: 0, // similarly on mainnet it will take the first account as deployer. Note though that depending on how buidler network are configured, the account 0 on one network can be different than on another
            4: '0xA296a3d5F026953e17F472B497eC29a5631FB51B', // but for rinkeby it will be a specific address
            "goerli": '0x84b9514E013710b9dD0811c9Fe46b837a4A0d8E0', //it can also specify a specific netwotk name (specified in buidler.config.js)
        },
        feeCollector:{
            default: 1, // here this will by default take the second account as feeCollector (so in the test this will be a different account than the deployer)
            1: '0xa5610E1f289DbDe94F3428A9df22E8B518f65751', // on the mainnet the feeCollector could be a multi sig
            4: '0xa250ac77360d4e837a13628bC828a2aDf7BabfB3', // on rinkeby it could be another account
        }
    }
}

# extra network's config

buidler-deploy add 2 new fields to networks configuration

live : this is not used internally but is useful to perform action on a network whether it is a live network (rinkeby, mainnet, etc) or a temporary one (localhost, buidlerevm). The default is true (except for localhost and buidlerevm where the default is false).

saveDeployment: this tell whether buidler-deploy should save the deployments to disk or not. Default to true.

tags: network can have tags to represent them. The config is an array and at runtime the bre.network.tags is an object whose fields (the tags) are set to true.

This is useful to conidtionaly operate on network based on their use case.

Example:

{
  networks: {
    localhost: {
      live: false,
      saveDeployment: true,
      tags: ["local"]
    },
    buidlerevm: {
      live: false,
      saveDeployment: true,
      tags: ["test", "local"]
    },
    rinkeby: {
      live: true,
      saveDeployment: true,
      tags: ["staging"]
    }
  }
}

# extra paths config

It also adds fields to BuidlerConfig's ProjectPaths object.

Here is an example showing the default values :

{
    paths: {
        deploy: 'deploy',
        deployments: 'deployments',
        imports: `imports`
    }
}

The deploy folder is expected to contains the deploy script that are executed upon invocation of buidler deploy or buidler node

The deployment folder will contains the resulting deployments (contract addresses along their abi, bytecode, metadata...). One folder per network and one file per contract.

The imports folder is expected to contains artifacts that were pre-compiled. Useful if you want to upgrade to a new solidity version but want to keep using previously compiled contracts. The artifact is the same format as normal buidler artifact, so you can easily copy them over, before switching to a new compiler version.

# Importing deployment from other projects (truffle support too)

It also add the external field to BuidlerConfig

Such fiels allows to specify paths for external artifacts or deployments. The use of the paths field is not possible because buidler expects all paths field to be string. It does not accept arrays or objects, see https://github.com/nomiclabs/buidler/issues/776.

The external object has 2 fields:

{
    external: {
        artifacts: ["node_modules/@cartesi/arbitration/build/contracts"],
        deployments: {
          rinkeby: ["node_modules/@cartesi/arbitration/build/contracts"],
        }
    }
}

The artifacts fields specify an array of path to look for artifact. it support both buidler and truffle artifacts.

The deployments fields specify an object whose field name are the buidler network and the value is an array of path to look for deployments. It supports both buidler-deploy and truffle formats.

# Access to Artifacts (non-deployed contract code and abi)

you can access contract artifact via getArtifact function :

const { deployments } = require("@nomiclabs/buidler");
const artifact = await deployments.getArtifact(artifactName);

With the buidler-ethers-v5 plugin you can get your ethers contract via :

const { deployments, ethers } = require("@nomiclabs/buidler");
const factory = await ethers.getContractFactory(artifactName);

Note that the artifact file need to be either in artifacts folder that buidler generate on compilation or in the imports folder where you can store contracts compiled elsewhere. They can also be present in the folder specified in external.artifacts see Importing deployment from other projects

# How to Deploy Contracts

# The deploy Task

buidler --network <networkName> deploy [options and flags]

This is a new task that the plugin adds. As the name suggests it deploys contracts. To be exact it will look for files in the folder deploy or whatever was configured in paths.deploy, see paths config

It will scan for files in alphabetical order and execute them in turn.

  • it will require each of these files and execute the exported function with the BRE as argument

Note that running buidler deploy without specifying a network will use the default network. If the default network is an internal ganache or buidlerevm then nothing will happen as a result but this can be used to ensure the deployment is without issues.

To specified the network, you can use the builtin buidler argument --network <network name> or set the env variable BUIDLER_NETWORK

# Deploy Scripts

The deploy scripts need to be of the following type :

export interface DeployFunction {
  (env: BuidlerRuntimeEnvironment): Promise<void | boolean>;
  skip?: (env: BuidlerRuntimeEnvironment) => Promise<boolean>;
  tags?: string[];
  dependencies?: string[];
  runAtTheEnd?: boolean;
  id?: string;
}

The skip function can be used to skip executing the script under whatever condition. It simply need to resolve a promise to true.

The tags is a list of string that when the deploy task is executed with, the script will be executed (unless it skips). In other word if the deploy task is executed with a tag that does not belong to that script, that script will not be executed unless it is a dependency of a script that does get executed.

The dependencies is a list of tag that will be executed if that script is executed. So if the script is executed, every script whose tag match any of the dependency will be executed first.

The runAtTheEnd is a boolean that if set to true, will queue that script to be executed after all other scripts are executed.

These set of fields allow more flexibility to organize the script. You are not limited to alphabetical order.

Finally the function can return true if it wishes to never be executed again. This can be usfeul to emulate migration scripts that are meant to be executed only once. Once such script return true (async), the id field is used so to track execution and if that field is not present when the script return true, it will fails.

In any case, as a general advice every deploy function should be idempotent. This is so they can always recover from failure or pending transaction.

This is why the bre.deployments.deploy function will by default only deploy if the contract code has changed, making it easier to write idempotent script.

An example of a deploy script :

module.exports = async ({
  getNamedAccounts,
  deployments,
  getChainId,
  getUnamedAccounts
}) => {
  const { deploy } = deployments;
  const { deployer } = await getNamedAccounts();

  // the following will only deploy "GenericMetaTxProcessor" if the contract was never deployed or if the code changed since last deployment
  await deploy("GenericMetaTxProcessor", {
    from: deployer,
    gas: 4000000,
    args: []
  });
};

As you can see the BRE passed in has 4 new fields :

  • getNamedAccounts is a function that returns a promise to an object whose keys are names and values are addresses. It is parsed from the namedAccounts configuration (see namedAccounts).

  • getUnamedAccounts: function that return a promise to an array of accounts (which were not used in getNamedAccounts), useful for test where you want to be sure that the account is not one of the predefined one

  • deployments, which contains functions to access past deployments or to save new ones, as well as helpers functions.

  • getChainId which return a promise for the chainId

The deploynments field contains the deploy function taht allow you to deploy contract and save them. It contains a lot more functions though :

# The deployments field

The deployments field contains several helpers function to deploy contract but also execute transaction.

deploy(name: string, options: DeployOptions): Promise<DeployResult>; // deploy a contract
diamond: { // deploy diamond based contract (see section below)
  deploy(name: string, options: DiamondOptions): Promise<DeployResult>;
};
deterministic( // return the determinsitic address as well as a function to deploy the contract, can pass the `salt` field in the option to use different salt
      name: string,
      options: Create2DeployOptions
    ): Promise<{
      address: Address;
      deploy(): Promise<DeployResult>;
    }>;
fetchIfDifferent(name: string, options: DeployOptions): Promise<boolean>; // return true if new compiled code is different than deployed contract
save(name: string, deployment: DeploymentSubmission): Promise<void>; // low level save of deployment
get(name: string): Promise<Deployment>; // fetch a deployment by name, throw if not existing
getOrNull(name: string): Promise<Deployment | null>; // fetch deployment by name, return null if not existing
all(): Promise<{ [name: string]: Deployment }>; // return all deployments
getArtifact(name: string): Promise<Artifact>; // return a buidler artifact (compiled contract without deployment)
run( // execute deployment scripts
  tags?: string | string[],
  options?: {
    resetMemory?: boolean;
    deletePreviousDeployments?: boolean;
    writeDeploymentsToFiles?: boolean;
    export?: string;
    exportAll?: string;
  }
): Promise<{ [name: string]: Deployment }>;
fixture(tags?: string | string[]): Promise<{ [name: string]: Deployment }>; // execute deployment as fixture for test // use evm_snapshot to revert back
createFixture(func: FixtureFunc, id?: string): () => Promise<any>; // execute a function as fixture using evm_snaphost to revert back each time
log(...args: any[]): void; // log data only ig log enabled (disabled in test fixture)
execute( // execute function call on contract
  name: string,
  options: TxOptions,
  methodName: string,
  ...args: any[]
): Promise<Receipt>;
rawTx(tx: SimpleTx): Promise<Receipt>; // execute a simple transaction
read( // make a read-only call to a contract
  name: string,
  options: CallOptions,
  methodName: string,
  ...args: any[]
): Promise<any>;
read(name: string, methodName: string, ...args: any[]): Promise<any>;

# deployments.deploy

The deploy function as mentioned allow you to deploy a contract and save it under a specific name.

The deploy function expect 2 parameters: one for the name and one for the options

See below the full list of fields that the option parameter allows and requires:

from: string; // address (or private key) that will perform the transaction. you can use `getNamedAccounts` to retrived the address you want by name.
contract?: // this is an optional field. If not specified it defaults to the contract with the same name as the first parameter
  | string // this field can be either a string for the name of the contract
  | { // or abi and bytecode
      abi: ABI;
      bytecode: string;
      deployedBytecode?: string;
    };
args?: any[]; // the list of argument for the constructor (or the upgrade function in case of proxy)
skipIfAlreadyDeployed?: boolean; // if set it to true, will not attempt to deploy even if the contract deployed under the same name is different
log?: boolean; // if true, it will log the result of the deployment (address and gas used)
linkedData?: any; // This allow to associate any JSON data to the deployment. Useful for merkle tree data for example
libraries?: { [libraryName: string]: Address }; // This let you associate libraries to the deployed contract
proxy?: boolean | string | ProxyOptions; // This options allow to consider yoru contract as a proxy (see below for more details)

// here some common tx options :
gasLimit?: string | number | BigNumber;
gasPrice?: string | BigNumber;
value?: string | BigNumber;
nonce?: string | number | BigNumber;

estimatedGasLimit?: string | number | BigNumber; // to speed up the estimation, it is possible to provide an upper gasLimit
estimateGasExtra?: string | number | BigNumber; // this option allow you to add a gas buffer on top of the estimation

dev_forceMine?: boolean; // this force a evm_mine to be executed. this is useful to speed deployment on test network that allow to specify a block delay (ganache for example). This option basically skip the delay by force mining.
deterministicDeployment? boolean | string; // if true, it will deploy the contract at a deterministic address based on bytecode and constuctor arguments. The address will be the same across all network. It use create2 opcode for that, if it is a string, the string will be used as the salt.

# Handling contract using libraries

In the deploy function, one of the DeployOptions that can be passed into the function is the libraries field.

First, deploy the library using the deploy function, then when we deploy a contract that needs the the linked library, we can pass the deployed library name and address in as an argument to the libraries object.

const exampleLibrary = await deploy("ExampleLibary", {
    from: <deployer>
    contractName: "ExampleLibrary"
});

ExampleLibrary is now deployed to whatever network is in the context of the environment.

For example, if we are deploying on Rinkeby, this library will get deployed on rinkeby, and the exampleLibrary variable will be an deployment object that contains the abi as well as the deployed address for the contract.

Now that the library is deployed, we can link it in our next deployed contract.

const example = await deploy("Example", {
    from: <deployer>
    contractName: "Example",
    args: ["This is an example string argument in the constructor for the 'Example' contract"],
    libraries: {
        ["ExampleLibrary"]: exampleLibrary.address
    }
});

This libraries object takes the name of the library, and its deployed address on the network. Multiple libraries can be passed into the libraries object.

# Exporting Deployments

Apart from deployments saved in the deployments folder which contains all information available about the contract (compile time data + deployment data), buidler-deploy allows you to export lightweight file.

These can be used for example to power your frontend with contract's address and abi.

This come into 2 flavors.

The first one is exported via the --export <file> option and follow the following format :

export interface Export {
  chainId: string;
  name: string;
  contracts: { [name: string]: ContractExport };
}

where name is the name of the network configuration chosen (see buidler option --network)

The second one is exported via the --export-all <file> option and follow the following format :

export type MultiExport = {
  [chainId: string]: { [name: string]: Export }
};

As you see the second format include the previous. While in most case you'll need the single export where your application will support only one network, there are case where your app would want to support multiple network at nonce. This second format allow for that.

Furthermore as buidler support multiple network configuration for the same network (rinkeby, mainnet...), the export-all format will contains each of them grouped by their chainId.

# Deploying and Upgrading Proxies

As mentioned above, the deploy function can also deploy a contract through a proxy. It can be done without modification of the contract as long as it does not have a constructor (or constructor with zero arguments).

The Proxy is ERC-1967 Compliant, based on the Transparent Proxy concept by open zeppelin.

Code can be found here

To perform such proxy deployment, you just need to invoke the deploy function with the following options : {..., proxy: true}

See example :

module.exports = async ({ getNamedAccounts, deployments, getChainId }) => {
  const { deploy } = deployments;
  const { deployer } = await getNamedAccounts();
  await deploy("Greeter", {
    from: deployer,
    proxy: true
  });
};

You can also set it to proxy: "<upgradeMethodName>" in which case the function <upgradeMethodName> will be executed upon upgrade. the args field will be then used for that function instead of the contructor. It is also possible to then have a constructor with the same arguments and have the proxy be disabled. It can be useful if you want to have your contract as upgradeable in a test network but be non-upgradeable on the mainnet. Further documentation need to written for that.

See example :

module.exports = async ({ getNamedAccounts, deployments, getChainId }) => {
  const { deploy } = deployments;
  const { deployer } = await getNamedAccounts();
  await deploy("Greeter", {
    from: deployer,
    proxy: "postUpgrade",
    args: ["arg1", 2, 3]
  });
};

The proxy option can also be an object which can set the specific owner that the proxy is going to be managed by.

See example:

module.exports = async ({ getNamedAccounts, deployments, getChainId }) => {
  const { deploy } = deployments;
  const { deployer, greeterOwner } = await getNamedAccounts();
  await deploy("Greeter", {
    from: deployer,
    proxy: {
      owner: greeterOwner,
      methodName: "postUpgrade"
    },
    args: ["arg1", 2, 3]
  });
};

Note that for the second invokation, this deployment will fails to upgrade the proxy as the from which is deployer is not the same as the proxy's owner : greeterOwner

To make it work, you have to create a new script that have for from field: greeterOwner. If such value is a a multi sig or an address not registered as part of buidler signers, the tx will not be executed but instead an error will be throw, mentionning the tx data necessary to perform the upgrade.

# Builtin-In Support For Diamonds (EIP2535)

The deployments field also expose the diamond field: bre.deployments.diamond that let you deploy Diamonds in an easy way.

Instead of specifying the facets to cut out or cut in, which the diamond contract expects, you specify the facets you want to end up having on the deployed contract.

diamond.deploy expect the facet as names. The name represent the compiled contract name that going to be deployed as facet. In future version you ll be able to specify deployed contract or artifact object as facet.

To deploy a contract with 3 facet you can do as follow :

module.exports = async ({ getNamedAccounts, deployments, getChainId }) => {
  const { diamond } = deployments;
  const { deployer, diamondAdmin } = await getNamedAccounts();
  await diamond.deploy("ADiamondContract", {
    from: deployer,
    owner: diamondAdmin,
    facets: ["Facet1", "Facet2", "Facet3"]
  });
};

if you then later execute the following script:

module.exports = async ({ getNamedAccounts, deployments, getChainId }) => {
  const { diamond } = deployments;
  const { deployer, diamondAdmin } = await getNamedAccounts();
  await diamond.deploy("ADiamondContract", {
    from: diamondAdmin, // this need to be the diamondAdmin for upgrade
    owner: diamondAdmin,
    facets: ["NewFacet", "Facet2", "Facet3"]
  });
};

Then the NewFacet will be deployed automatically if needed and then the diamondCut will cut Facet1 out and add NewFacet.

Note that if the code for Facet2 and Facet3 changes, they will also be redeployed automatically and the diamondCuts will replace the existing facets with these new ones.

Note that The Diamond contract's code is part of buidler-deploy and contains 3 built-in facet that can be removed manually if desired. These facets are used for ownership, diamondCut and diamond loupe.

The implementation is the reference implementation by Nick Mudge

Like normal proxies you can also execute a function at the time of an upgrade.

This is done by specifying the execute field in the diamond deploy options :

diamond.deploy("ADiamondContract", {
  from: deployer,
  owner: diamondAdmin,
  facets: ["NewFacet", "Facet2", "Facet3"],
  execute: {
    methodName: "postUpgrade",
    args: ["one", 2, "0x3"]
  }
});

Since the diamond standard has no builtin mechanism to make the deployment of Diamond with function execution, the Diamond when deployed is actually deployed through a special contract, the Diamantaire (see code here) that act as factory to build Diamond. It uses deterministic deployment for that so, it is transparently managed by buidler-deploy.

The Diamantaire also support the deterministic deployment of Diamond. An extra field can be passed to the Diamond deployment options : deterministicSalt. It has to be a non-zero 32bytes string (in hex format). Note that if you want to deploy 2 diamonds with same owner, you'll need 2 different deterministicSalt for them to be 2 separate contracts.

# Testing Deployed Contracts

You can continue using the usual test task :

buidler test

Tests can then use the bre.deployments.fixture function to run the deployment for the test and snapshot it so that tests don't need to perform all the deployments transaction every time, they simply reuse the snapshot for every test (this leverages evm_snapshot and evm_revert provided by both buidlerevm and ganache). You can for example set them in a beaforeEach.

Here is an example of a test :

const { deployments } = require("@nomiclabs/buidler");

describe("Token", () => {
  beforeEach(async () => {
    await deployments.fixture();
  });
  it("testing 1 2 3", async function() {
    const Token = await deployments.get("Token"); // Token is available because the fixture was executed
    console.log(Token.address);
    const ERC721BidSale = await deployments.get("ERC721BidSale");
    console.log({ ERC721BidSale });
  });
});

If the deployment scripts are complex, the first test could take while (as the fixture need to execute the deployment) but then from the second test onward, the deployments are never re-executed, instead the fixture will do evm_revert and test will run far faster.

Tests can also leverage named accounts for clearer test. Combined with buidler-ethers-v5 plugin, you can write succint test :

const { ethers, getNamedAccounts } = require("@nomiclabs/buidler");

describe("Token", () => {
  beforeEach(async () => {
    await deployments.fixture();
  });
  it("testing 1 2 3", async function() {
    const { tokenOwner } = await getNamedAccounts();
    const TokenContract = await ethers.getContract("Token", tokenOwner);
    await TokenContract.mint(2);
  });
});

Furthermore, tests can easily create efficient fixture using deployments.createFixture

See example :

const setupTest = deployments.createFixture(async ({deployments, getNamedAccounts, ethers}, options) => {
  await deployments.fixture(); // ensure you start from a fresh deployments
  const { tokenOwner } = await getNamedAccounts();
  const TokenContract = await ethers.getContract("Token", tokenOwner);
  await TokenContract.mint(10); //this mint is executed once and then `createFixture` will ensure it is snapshotted
  return {
    tokenOwner: {
      address: tokenOwner,
      TokenContract
    }
  };
};
describe("Token", () => {
  it("testing 1 2 3", async function() {
    const {tokenOwner} = await setupTest()
    await tokenOwner.TokenContract.mint(2);
  });
});

While this example is trivial, some fixture can requires several transaction and the ability to snapshot them automatically speed up the tests greatly.

# More Information On Buidler Tasks

# node task

as mentioned above, the node task is slighly modified and augmented with various flag and options

buidler node

In particulat It adds an argument --export that allows you to specify a destination file where the info about the contracts deployed is written. Your webapp can then access all contracts information.

# test task

buidler test --deploy

the test task is augmented with one flag argument --deploy that allow to run all deployments in a fixture snapshot before executing the tests. This can speed up tests that use specific tags as the global fixture take precedence (unless specified).

In other word tests can use deployments.fixture(<specific tag>) where specific tag only deploy the minimal contracts under tests, while still benefiting from global deployment snapshot if used.

If a test need the deployments to only include the specific deployment specified by the tag, it can use the following :

deployments.fixture("<specific tag>", { fallbackToGlobal: false });

Due to how snapshot/revert works in buidler, this means that these test will not be able to benefit from the global fixture snapshot and will have to deploy their contract as part of the fixture call.

# run task

buidler --network <networkName> run <script>

The run task act as before but thanks to the bre.deployments field it can access deployed contract :

const bre = require("@nomiclabs/buidler");
const { deployments, getNamedAccounts } = bre;

(async () => {
  console.log(await deployments.all());
  console.log({ namedAccounts: await getNamedAccounts() });
})();

You can also run it directly from the command line as usual.

BUIDLER_NETWORK=rinkeby node <script> is the equivalent except it does not load the buidler environment twice (which the run task does)

# console task

buidler console

The same applies to the console task.

# Deploy Scripts: Tags And Dependencies

It is possible to execute only specific part of the deployments with buidler deploy --tags <tags>

Tags represent what the deploy script acts on. In general it will be a single string value, the name of the contract it deploys or modifies.

Then if another deploy script has such tag as a dependency, then when this latter deploy script has a specific tag and that tag is requested, the dependency will be executed first.

Here is an example of two deploy scripts :

module.exports = async ({ getNamedAccounts, deployments }) => {
  const { deployIfDifferent, log } = deployments;
  const namedAccounts = await getNamedAccounts();
  const { deployer } = namedAccounts;
  const deployResult = await deploy("Token", {
    from: deployer,
    args: ["hello", 100]
  });
  if (deployResult.newlyDeployed) {
    log(
      `contract Token deployed at ${deployResult.contract.address} using ${deployResult.receipt.gasUsed} gas`
    );
  }
};
module.exports.tags = ["Token"];
module.exports = async function({ getNamedAccounts, deployments }) {
  const { deployIfDifferent, log } = deployments;
  const namedAccounts = await getNamedAccounts();
  const { deployer } = namedAccounts;
  const Token = await deployments.get("Token");
  const deployResult = await deploy("Sale", {
    from: deployer,
    contractName: "ERC721BidSale",
    args: [Token.address, 1, 3600]
  });
  if (deployResult.newlyDeployed) {
    log(
      `contract Sale deployed at ${deployResult.contract.address} using ${deployResult.receipt.gasUsed} gas`
    );
  }
};
module.exports.tags = ["Sale"];
module.exports.dependencies = ["Token"]; // this ensure the TOken script above is executed first, so `deployments.get('Token') succeeds

As you can see the second one depends on the first. This is because the second script depends on a tag that the first script registers as using.

With that when buidler deploy --tags Sale is executed

then both scripts will be run, ensuring Sale is ready.

You can also define the script to run after another script is run by setting runAtTheEnd to be true. For example:

module.exports = async function({ getNamedAccounts, deployments }) {
  const { deployIfDifferent, execute, log } = deployments;
  const namedAccounts = await getNamedAccounts();
  const { deployer, admin } = namedAccounts;
  await execute("Sale", { from: deployer }, "setAdmin", admin);
};
module.exports.tags = ["Sale"];
module.exports.runAtTheEnd = true;

Tags can also be used in test with deployments.fixture. This allow you to test a subset of the deploy script.