Skip to content

Compile and deploy Vyper smart contracts to Truffle Develop or a private Geth Node using Web3.py, then mine the transaction and view the transaction receipt before call its functions

License

Notifications You must be signed in to change notification settings

ltfschoen/vyper-test

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

25 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

README

Travic CI Build Status: Build Status


Vyper smart contract language

This is a very simplified implementation of https://github.com/ethereum/vyper by Vitalik Buterin under MIT licence. I have focused on including setup instructions for both macOS and using Docker including troubleshooting tips. I have created Vyper smart contracts and associated Unit Tests. I have summarised Vyper benefits and usage.

TODO

Table of Contents

Chapter 0 - Setup WITHOUT Docker

  • Install PyEnv

  • Clone the Vyper repo and install Vyper

    pyenv global 3.6.2
    mkdir -p ~/code/clones && cd ~/code/clones
    git clone https://github.com/ethereum/vyper.git;
    cd vyper; 
    make; make test;
  • Clone this repo

    cd ~/code/clones;
    git clone https://github.com/ltfschoen/vyper-test;
  • Install dependencies. Fix any incompatibilities

    pip3 install -r requirements.txt
  • Compile a Vyper contract

    vyper contracts/auctions/simple_open_auction.v.py
  • Option 1: Run Deployment Script to Deploy the Vyper Smart Contract to Truffle's built-in blockchain

    • Install Node Version Manager and switch to the latest version of Node.js (i.e. v9.8.0)

      nvm use v9.8.0
      
    • Install Truffle

      npm install -g truffle
      
    • Create new terminal tab in root of the project directory and run

      truffle develop --log
    • Modify scripts/main.py by changing web3 = Web3(provider_ipc) (used for a Geth Node) to web3 = Web3(provider_http) (used for Truffle) instead

    • Run the script

      python3 scripts/main.py
    • Output after deploying the contract shown in the Truffle logs

      $ truffle develop --log
      Truffle Develop started at http://localhost:9545/
      
      Accounts:
      (0) ...
      (1) ...
      
      Private Keys:
      (0) ...
      (1) ...
      
      Mnemonic: ...
      
      develop:testrpc personal_listAccounts +0ms
      develop:testrpc eth_accounts +8ms
      develop:testrpc eth_accounts +7ms
      develop:testrpc personal_listAccounts +6ms
      develop:testrpc eth_gasPrice +5ms
      develop:testrpc eth_estimateGas +12ms
      develop:testrpc net_version +48ms
      develop:testrpc net_version +6ms
      develop:testrpc eth_sendTransaction +7ms
      develop:testrpc  +52ms
      develop:testrpc   Transaction: 0x3d29ae2796e9b94f59d7830062f081fff4f9811c0869e659e2faa4efe7370ccf +0ms
      develop:testrpc   Contract created: 0x8cdaf0cd259887258bc13a92c0a6da92698644c0 +0ms
      develop:testrpc   Gas usage: 273163 +0ms
      develop:testrpc   Block Number: 1 +0ms
      develop:testrpc   Block Time: Fri Apr 20 2018 13:01:53 GMT+1000 (AEST) +0ms
      develop:testrpc  +0ms
      develop:testrpc eth_getTransactionReceipt +5ms
      develop:testrpc eth_getTransactionReceipt +11ms
      develop:testrpc eth_getBlockByNumber +29ms
      develop:testrpc eth_call +13ms
      develop:testrpc eth_getBlockByNumber +30ms
      develop:testrpc eth_call +13ms
  • Option 2: Run Deployment Script to Deploy the Vyper Smart Contract to Geth Private Network

    • Start a Geth Node and View its Logs

    • Run the script

      python3 scripts/main.py
    • Example Terminal Output

      $ python3 scripts/main.py
      
      OS Platform: darwin
      Web3 provider: <web3.main.Web3 object at 0x10ebb6160>
      Initializing chain from provided state
      ABI: %s [{'name': '__init__', 'outputs': [], 'inputs': [{'type': 'address', 'name': '_beneficiary'}, {'type': 'int128', 'name': '_bidding_time'}], 'constant': False, 'payable': False, 'type': 'constructor'}, {'name': 'bid', 'outputs': [], 'inputs': [], 'constant': False, 'payable': True, 'type': 'function', 'gas': 76241}, {'name': 'end_auction', 'outputs': [], 'inputs': [], 'constant': False, 'payable': False, 'type': 'function', 'gas': 56101}, {'name': 'beneficiary', 'outputs': [{'type': 'address', 'name': 'out'}], 'inputs': [], 'constant': True, 'payable': False, 'type': 'function', 'gas': 543}, {'name': 'auction_start', 'outputs': [{'type': 'int128', 'name': 'out'}], 'inputs': [], 'constant': True, 'payable': False, 'type': 'function', 'gas': 573}, {'name': 'auction_end', 'outputs': [{'type': 'int128', 'name': 'out'}], 'inputs': [], 'constant': True, 'payable': False, 'type': 'function', 'gas': 603}, {'name': 'highest_bidder', 'outputs': [{'type': 'address', 'name': 'out'}], 'inputs': [], 'constant': True, 'payable': False, 'type': 'function', 'gas': 633}, {'name': 'highest_bid', 'outputs': [{'type': 'int128', 'name': 'out'}], 'inputs': [], 'constant': True, 'payable': False, 'type': 'function', 'gas': 663}, {'name': 'ended', 'outputs': [{'type': 'bool', 'name': 'out'}], 'inputs': [], 'constant': True, 'payable': False, 'type': 'function', 'gas': 693}]
      Address: %s b'\xd6\xf0\x84\xee\x15\xe3\x8cO~\t\x1f\x8d\xd0\xfeo\xe4\xa0\xe2\x03\xef'
      Contract Instance: %s <ethereum.tools.tester.ABIContract object at 0x1105aa5c0>
      Contract Instance with Web3: %s <ethereum.tools.tester.ABIContract object at 0x1105aa5c0>
      Accounts: %s 0x487F2778Ec7D0747d6E26AF80148Ec471a08b339
      Default Account: %s 0x487F2778Ec7D0747d6E26AF80148Ec471a08b339
      Unlocked Default Account: %s True
      Deployed Contract Tx Hash: %d b'\tk\xfb.k\xe5\x94\x1f\x152\xb3\x14d\x1dN6T\xf5\x97v(d\xa4\xd6DW\x93\xf2r\xe1\xe7\xfc'
      Mined Transaction Receipt: %s AttributeDict({'blockHash': HexBytes('0x74c26c73f9021c8aae1a6df1e283c13a2045f3c3a2b9aab1689307b1bc40c12b'), 'blockNumber': 3755, 'contractAddress': '0xc071ef1FE2f3d9b8D59C4106391b7fe417593cfa', 'cumulativeGasUsed': 273163, 'from': '0x487f2778ec7d0747d6e26af80148ec471a08b339', 'gasUsed': 273163, 'logs': [], 'logsBloom': HexBytes('0x00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000'), 'root': '0xb5b377e641e9850d2f10d631251b5431a4f34a7745aafddca52b7654fb7bb60f', 'to': None, 'transactionHash': HexBytes('0x096bfb2e6be5941f1532b314641d4e3654f597762864a4d6445793f272e1e7fc'), 'transactionIndex': 0})
      Transaction Receipt: %s AttributeDict({'blockHash': HexBytes('0x74c26c73f9021c8aae1a6df1e283c13a2045f3c3a2b9aab1689307b1bc40c12b'), 'blockNumber': 3755, 'contractAddress': '0xc071ef1FE2f3d9b8D59C4106391b7fe417593cfa', 'cumulativeGasUsed': 273163, 'from': '0x487f2778ec7d0747d6e26af80148ec471a08b339', 'gasUsed': 273163, 'logs': [], 'logsBloom': HexBytes('0x00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000'), 'root': '0xb5b377e641e9850d2f10d631251b5431a4f34a7745aafddca52b7654fb7bb60f', 'to': None, 'transactionHash': HexBytes('0x096bfb2e6be5941f1532b314641d4e3654f597762864a4d6445793f272e1e7fc'), 'transactionIndex': 0})
      Contract Instance: %s <web3.utils.datatypes.Contract object at 0x10f151a20>
      Called Getter method of beneficiary from Deployed Contract Instance: %s 0x487F2778Ec7D0747d6E26AF80148Ec471a08b339
      Called Getter method of auction_end from Deployed Contract Instance: %s 1524192662
      
  • Option 3: INCOMPLETE (DOES NOT WORK YET) - Deploy Vyper contract to Ganache CLI / TestRPC

    • Create separate terminal tab and start virtual EVM and start Ganache CLI

      ganache-cli \
          --account="0x0000000000000000000000000000000000000000000000000000000000000001, 2471238800000000000" \
          --account="0x0000000000000000000000000000000000000000000000000000000000000002, 4471238800000000000" \
          --unlock "0x0000000000000000000000000000000000000000000000000000000000000001" \
          --unlock "0x0000000000000000000000000000000000000000000000000000000000000002" \
          --blocktime 0 \
          --deterministic true \
          --port 9545 \
          --hostname localhost \
          --seed 'blah' \
          --debug true \
          --mem true \
          --mnemonic 'something' \
          --db './db/chain_database' \
          --verbose \
          --networkId=1000 \
          --gasLimit=7984452 \
          --gasPrice=20000000000;
    • Run the script

      python3 scripts/main.py
  • Run Unit tests

    • Troubleshooting
      • Recursively deleting the pycache folder created in both the tests/ subdirectory and the tests/auctions/ subdirectory, and the .pytest_cache folder in the project root directory, and then running find . -name '*.pyc' -delete just to be sure all the cache files had been removed from all subdirectories. Add export PYTHONDONTWRITEBYTECODE=1 into ~/.bash_profile so Python cache files would no longer be generated.
    python3 -m pytest -v
  • Troubleshooting

Chapter 1 - Setup WITH Docker

  • Install and Run Docker

  • Fork my repo https://github.com/ltfschoen/vyper

  • Terminal #1 - Clone the fork

    cd ~;
    git clone https://github.com/ltfschoen/vyper;
    cd vyper;
  • Terminal #1 - Build the custom DockerfileMac. This allows file changes in the Docker container to be synchronised with your host machine and vice versa.

    docker build -t vyper:1 . -f DockerfileMac
  • Terminal #2 - Create another Bash terminal window/tab in the same folder

  • Terminal #2 - Open the directory in a Text Editor or IDE

  • Terminal #1 - Start a shell session in the Docker container that you just created.

    docker run -it -v $(pwd):/code vyper:1 /bin/bash
  • Terminal #1 (within Docker Container shell session) - Compile a Vyper contract

    vyper examples/crowdfund.v.py
  • Make changes to examples/crowdfund.v.py in the Text Editor. The changes will also be reflected in the Docker Container.

  • Terminal #1 - Repeat the previous command to try and re-compile the Vyper contract

  • Follow steps in Chapter 0 to clone my repo and make the files accessible in the container

Chapter 2 - Docker Containers and Images (Show/Delete)

  • List all Docker containers

    docker ps -a
  • Stop all running containers.

    docker stop $(docker ps -aq)
  • Remove a specific Docker container

    docker rm <CONTAINER_ID>
  • Remove a docker container

    docker rm $(docker ps -aq)
  • Remove all Docker images

    docker rmi $(docker images -q)

Chapter 3 - About Vyper

  • Vyper Online Compilter (to bytecode or LLL) https://vyper.online/

  • Vyper Features (vs Solidity)

    • Asserts instead of Modifiers
      • Pros
        • No arbitrary pre-conditions, no post-conditions
        • No arbitrary state changes
        • Less execution jumps for easier auditability
    • No Class Inheritance
    • No Function or Operator Overloading
      • Pros
        • Safer since mitigates funds being stolen
    • No Recursive Calling or Infinite-length Loops
      • Pros
        • Avoids gas limit attacks since gas limit upper bound may be set
    • .v.py File Extension so Python syntax highlighting may be used
    • All Vyper syntax is valid Python 3 syntax, but not all Python 3 functionality is available in Vyper
    • Reference
  • Vyper Syntax where Files .v.py are a Smart Contract

    • Class-like with:
      • Contract State Variables

        • Usage: Permanently stored in contract Storage
        • Example
          storedData: int128
        • Access
          self.storedData
      • Validations

        • assert
          • Failure to pass results in the method to throw an error and the transaction is reverted
      • Objects

        • block - Object available within Vyper contract providing info about block at time of calling
        • msg
          • Object built-in that provides information about the message caller whenever a method in the contract is called
          • msg.sender to access public address of the caller of a method
            • WARNING: If calling contract from outside it works correctly, but for subsequent internal function calls it will reference the contract itself instead of the sender of the transaction
          • msg.value to access amount of ether a user sends
      • Types, Visibility, Getters

        • address
        • bool
        • timedelta seconds
        • timestamp time
          • block.timestamp - Current Time
        • wei_value lowest denominator
      • Functions

        • Usage:
          • Executable units in contract

          • Internally or Externally

          • Visibility-and-getters differ toward other contracts

          • Decorated with @public or @private

            • Default is @private which is only accessible to methods in same contract
            • @public callable by external contracts
            • @public function creates a Getter function accessible with call self.get_beneficiary(some_address)
          • Security Structure functions that interact with other contracts (i.e. they call functions or send Ether) into three phases:

              1. Check Conditions
              1. Performing Actions (potentially changing conditions)
              1. Interacting with other Contracts
            • WARNING: If these phases are mixed up, the other contract could call back into the current contract and modify the state or cause effects (Ether payout) to be performed multiple times. If functions called internally include interaction with external contracts, they also have to be considered interaction with external contracts.
        • Example
          @public
          @payable
          def bid(): // Function
          // ...
      • Events

        • Usage
          • Searchable by Clients and Light Clients since Events are logged in specially indexed data structures
          • Declared before global declarations and Function definitions
        • Example
          Payment: event({amount: int128, arg2: indexed(address)})
          
          total_paid: int128
          
          @public
          def pay():
              self.total_paid += msg.value
              log.Payment(msg.value, msg.sender)
      • Structs

        • TODO

Chapter 4 - Unit Tests

pip3 install ethereum==2.3.1 pytest pytest-cov pytest-runner
python setup.py test
pytest -v --full-trace --setup-show