GIF Core Contracts
This repository holds the GIF core contracts and tools to develop, test and deploy GIF instances.
Clone Repository
git clone https://github.com/etherisc/gif-contracts.git
cd gif-contractsFully configure IDE
To use our fully configured IDE see the instructions at https://github.com/etherisc/gif-sandbox/blob/master/docs/development_environment.md. In this case you can skip the next two steps as the devcontainer is based on the (updated) brownie image.
Create Brownie Docker Image
Brownie is used for development of the contracts in this repository.
Alternatively to installing a python development environment and the brownie framework, wokring with Brownie is also possible via Docker.
For building the brownie docker image used in the samples below, follow the instructions in gif-brownie.
Run Brownie Container
docker run -it --rm -v $PWD:/projects brownieCompile the GIF Core Contracts
Inside the Brownie container compile the contracts/interfaces
brownie compile --allRun GIF Unit Tests
Run the unit tests
brownie testor to execute the tests in parallel
brownie test -n auto
Note: Should the tests fail when running them in parallel, the test execution probably creates too much load on the system.
In this case replace the auto keyword in the command with the number of executors (use at most the number of CPU cores available on your system).
Deployment to Live Networks
Deployments to live networks can be done with brownie console as well.
Example for the deployment to Polygon test
brownie console --network polygon-test
# in console
owner = accounts.add()
# will generate a new account and prints the mnemonic here
owner.address
# will print the owner address that you will need to fund firstUse Polygon test faucet to fund the owner address
from scripts.instance import GifInstance
# publishes source code to the network
instance = GifInstance(owner, publishSource=True)
# after the deploy print the registry address
instance.getRegistry().addressAfter a successful deploy check the registry contract in the Polygon testnet explorer.
To check all contract addresses you may use the instance python script inside the brownie container as follows.
# 0x2852593b21796b549555d09873155B25257F6C38 is the registry contract address
brownie run scripts/instance.py dump_sources 0x2852593b21796b549555d09873155B25257F6C38 --network polygon-testFull Deployment with Example Product
Before attempting to deploy the setup on a life chain ensure that the
instanceOperator has sufficient funds to cover the setup.
For testnets faucet funds may be used
Using the ganache scenario shown below ensures that all addresses used are sufficiently funded.
from scripts.deploy_ayii import (
stakeholders_accounts_ganache,
check_funds,
amend_funds,
deploy,
deploy_setup_including_token,
from_registry,
from_component,
)
from scripts.instance import (
GifInstance,
dump_sources
)
from scripts.util import (
s2b,
b2s,
contract_from_address,
)
# for ganche the command below may be used
# for other chains, use accounts.add() and record the mnemonics
a = stakeholders_accounts_ganache()
# check_funds checks which stakeholder accounts need funding for the deploy
# also, it checks if the instanceOperator has a balance that allows to provided
# the missing funds for the other accounts
check_funds(a)
# amend_funds transfers missing funds to stakeholder addresses using the
# avaulable balance of the instanceOperator
amend_funds(a)
d = deploy_setup_including_token(a)
(
componentOwnerService,customer1,customer2,erc20Token,instance,instanceOperator,instanceOperatorService,instanceService,
instanceWallet,insurer,investor,oracle,oracleProvider,processId1,processId2,product,productOwner,riskId1,riskId2,
riskpool,riskpoolKeeper,riskpoolWallet
)=(
d['componentOwnerService'],d['customer1'],d['customer2'],d['erc20Token'],d['instance'],d['instanceOperator'],d['instanceOperatorService'],d['instanceService'],
d['instanceWallet'],d['insurer'],d['investor'],d['oracle'],d['oracleProvider'],d['processId1'],d['processId2'],d['product'],d['productOwner'],d['riskId1'],d['riskId2'],
d['riskpool'],d['riskpoolKeeper'],d['riskpoolWallet']
)
# the deployed setup can now be used
# example usage
instanceOperator
instance.getRegistry()
instanceService.getChainName()
instanceService.getInstanceId()
product.getId()
b2s(product.getName())
customer1
instanceService.getMetadata(processId1)
instanceService.getApplication(processId1)
instanceService.getPolicy(processId1)
tx = product.triggerOracle(processId1, {'from': insurer})For a first time setup on a live chain the setup below can be used.
IMPORTANT: Make sure to write down the generated mnemonics for the
stakeholder accounts. To reuse the same accounts replace accounts.add
with accounts.from_mnemonic using the recorded mnemonics.
instanceOperator=accounts.add()
instanceWallet=accounts.add()
oracleProvider=accounts.add()
chainlinkNodeOperator=accounts.add()
riskpoolKeeper=accounts.add()
riskpoolWallet=accounts.add()
investor=accounts.add()
productOwner=accounts.add()
insurer=accounts.add()
customer1=accounts.add()
customer2=accounts.add()
a = {
'instanceOperator': instanceOperator,
'instanceWallet': instanceWallet,
'oracleProvider': oracleProvider,
'chainlinkNodeOperator': chainlinkNodeOperator,
'riskpoolKeeper': riskpoolKeeper,
'riskpoolWallet': riskpoolWallet,
'investor': investor,
'productOwner': productOwner,
'insurer': insurer,
'customer1': customer1,
'customer2': customer2,
}To interact with an existing setup use the following helper methods as shown below.
from scripts.deploy_ayii import (
from_registry,
from_component,
)
from scripts.instance import (
GifInstance,
)
from scripts.util import (
s2b,
b2s,
contract_from_address,
)
# for the case of a known registry address,
# eg '0xE7eD6747FaC5360f88a2EFC03E00d25789F69291'
(instance, product, oracle, riskpool) = from_registry('0xE7eD6747FaC5360f88a2EFC03E00d25789F69291')
# or for a known address of a component, eg
# eg product address '0xF039D8acecbB47763c67937D66A254DB48c87757'
(instance, product, oracle, riskpool) = from_component('0xF039D8acecbB47763c67937D66A254DB48c87757')Run linter
Linter findings are shown automatically in vscode. To execute it manually, run the following command:
solhint contracts/**/*.soland including prettier formatting
solhint --config .solhint.prettier.json contracts/**/*.solPublish release to NPMJS
npm ci
npm version patch/minor/major --no-git-tag-version
npm publish
git commit -m 'bump version'