brick

command
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Published: Jan 18, 2019 License: MIT Imports: 8 Imported by: 0

README

Brick - Toy for Contract Developers

This is an interactive shell program to communicate with an aergo vm for testing. This also provides a batch function to test and help to develop smart contrat.

brick_ex_gif

Features

Aergo VM for Testing
  • provides an way to run smart contracts in same environment with aergo
  • supports state db, sql
  • alias for account and contract address
  • able to debug smart contracts
Interactive Shell

powered by go-prompt

  • auto complete
  • keywords suggestion
  • history
Batch for Integration Tests
  • load and execute bulk of commands from file
  • contract integration test

Install

  1. git clone and build aergo in debug mode (release is ok, but you cannot debug contracts), unix & mac: make debug, windows + mingw64: mingw32-make debug
  2. create a directory, where you want
  3. copy binary brick to the directory, or add aergo's bin folder to system PATH
  4. move to the directory
  5. run brick
  6. (optional) copy log config file cmd/brick/arglog.toml to the directory, and adjust levels to get for more detailed info

Usage

inject

creates an account and deposite aergo. inject inject <account_name> <amount>

0> inject tester 100
  INF inject an account successfully cmd=inject module=brick
getstate

get current balance of an account. getstate getstate <account_name> This will returns in a form of <internal_address>=<remaining_balance>

1> getstate tester
  INF Amh8FdZavYGu9ABhZQF6Y7LnSMi2a714bGvpm6mQuMnRpmoYn11C=100 cmd=getstate module=brick
send

transfer aergo between two addresses. send <sender_name> <receiver_name> <amount>

1> send tester receiver 10
  INF send aergo successfully cmd=send module=brick
deploy

deploy a smart contract. deploy <sender_name> <fee_amount> <contract_name> <definition_file_path> [contructor_json_arg]

2> deploy tester 1 helloContract `../example/hello.lua`
  INF deploy a smart contract successfully cmd=deploy module=brick
call

call to execute a smart contract. call <sender_name> <amount> <contract_name> <func_name> <call_json_str>

3> call tester 1 helloContract set_name `["aergo"]`
  INF call a smart contract successfully cmd=call module=brick
query

query to a smart contract. query <contract_name> <func_name> <query_json_str> [expected_query_result]

4> query helloContract hello `[]`
  INF "hello aergo" cmd=query module=brick

expected_query_result, surrounded by [], is optional. But you can test whether the results are correct using this.

4> query helloContract hello `[]` `"hello aergo"`
INF query compare successfully cmd=query module=brick
4> query helloContract hello `[]` `"hello incorrect example"`
ERR execution fail error="expected: \"hello incorrect example\", but got: \"hello aergo\"" cmd=query module=brick
batch

keeps commands in a text file and use at later. batch <batch_file_path>

5> batch `../cmd/brick/example/hello.brick`
  INF inject an account successfully cmd=inject module=brick
  INF 100 cmd=getstate module=brick
  INF deploy a smart contract successfully cmd=deploy module=brick
  INF query compare successfully cmd=query module=brick
  INF call a smart contract successfully cmd=call module=brick
  INF query compare successfully cmd=query module=brick
  INF batch exec is finished cmd=batch module=brick
undo

cancels the last tx (inject, send, deploy, call). undo

8> undo
  INF Undo, Succesfully cmd=undo module=brick
reset

clear all txs and reset the chain. reset

7> reset
  INF reset a dummy chain successfully cmd=reset module=brick
0>

Number before cursor is a block height. Each block contains one tx. So after reset, number becames 0

batch in command line

In command line, users can run a brick batch file. A running result contains line numbers and original texts for debugging purpose.

$ ./brick ./example/hello.brick
  0 # create an account and deposit coin
  1 inject bj 100
  INF inject an account successfully cmd=inject module=brick
  2
  3 # check balance
  4 getstate bj
  INF AmgiDbXB3x5Zv5cBBcmyzSJiqMbLXG1yZN2xE4gUuXMBaXPfGoun=[100] cmd=getstate module=brick
  5
  6 # delpoy helloworld smart contract
  7 deploy bj 1 helloctr `./example/hello.lua`
  INF deploy a smart contract successfully cmd=deploy module=brick
  8
  9 # query to contract, this will print "hello world"
 10 query helloctr hello `[]` `"hello world"`
  INF query compare successfully cmd=query module=brick
 11
 12 # call and execute contract
 13 call bj 1 helloctr set_name `["aergo"]`
  INF call a smart contract successfully cmd=call module=brick
 14
 15 # query again, this now will print "hello aergo"
 16 query helloctr hello `[]` `"hello aergo"`
  INF query compare successfully cmd=query module=brick
  INF batch exec is finished cmd=batch module=brick

Debugging

If you build in debug mode, you can use os, io, coroutine modules which is not allowed in release mode. There is no limit to which debugger to use, but here we describe the zerobrane studio, which provides ui and is easy to install.

  1. download zerobrane studio (lua ide)
  2. set envoronment var LUA_PATH, LUACPATH following an instruction
  3. Paste require('mobdebug').start() at the beginning of a smart contract, you want to investigate
  4. Open the contract file you want to investigate in the editor
  5. In the editor, run debug server project -> start debugger server
  6. Using brick, deploy and run the contract
  7. When you get to that line, it will automatically be switched to the editor

(CAUTION!) After testing, When distributing to an actual blockchain, you must remove the code used for debugging. It will cause error.

Documentation

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