2d07988994
* generate erc20 golang interface * write interchain test that deploys ERC20 * enable deployed erc20 as a conversion pair * convert erc20 to sdk coin! * refactor: move RandomMnemonic() to util * erc20 -> cosmos coin -> ibc e2e test * add NewEvmSignerFromMnemonic to util * ci: update ibc-test cache dependency list * fix ci dependencies |
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.. | ||
contracts | ||
kvtool@79bb25f47d | ||
runner | ||
scripts | ||
testutil | ||
.env | ||
.env.live-network-example | ||
e2e_community_update_params_test.go | ||
e2e_convert_cosmos_coins_test.go | ||
e2e_evm_contracts_test.go | ||
e2e_grpc_client_query_test.go | ||
e2e_grpc_client_util_test.go | ||
e2e_min_fees_test.go | ||
e2e_test.go | ||
e2e_upgrade_handler_test.go | ||
readme.md |
end-2-end tests for kava
These tests use kvtool
to spin up a kava node configuration
and then runs tests against the running network. It is a git sub-repository in this directory. If not
present, you must initialize the subrepo: git submodule update --init
.
Steps to run
- Ensure latest
kvtool
is installed:make update-kvtool
- Run the test suite:
make test-e2e
This will build a docker image taggedkava/kava:local
that will be run by kvtool.
Note: The suite will use your locally installed kvtool
if present. If not present, it will be
installed. If the kvtool
repo is updated, you must manually update your existing local binary: make update-kvtool
Configuration
The test suite uses env variables that can be set in .env
. See that file for a complete list
of options. The variables are parsed and imported into a SuiteConfig
in testutil/config.go
.
The variables in .env
will not override variables that are already present in the environment.
ie. Running E2E_INCLUDE_IBC_TESTS=false make test-e2e
will disable the ibc tests regardless of how
the variable is set in .env
.
Running on Live Network
The end-to-end tests support being run on a live network. The primary toggle for setting up the suite to use a live network is the E2E_RUN_KVTOOL_NETWORKS
flag. When set exactly to false
, the configuration requires the following three environment variables:
E2E_KAVA_RPC_URL
E2E_KAVA_GRPC_URL
E2E_KAVA_EVM_RPC_URL
E2E_KAVA_UPGRADE_HEIGHT
- the height at which an existing upgrade was run
See an example environment configuration with full description of all supported configurations in .env.live-network-example
. This example expects a local kvtool network to be running: kvtool testnet bootstrap
.
When run against a live network, the suite will automatically return all the sdk funds sent to SigningAccount
s on the chain, and will return any ERC20 balance from those accounts if the ERC20 is registered via Chain.RegisterERC20
. The pre-deployed ERC20 that is required for the tests is registered on setup.
At this time, live-network tests do not support E2E_INCLUDE_IBC_TESTS=true
.
E2E_KAVA_UPGRADE_HEIGHT
is supported for an existing upgrade height, and can
be used to verify before / after upgrade state. This doesn't run automatically
any upgrades.
Chain
s
A testutil.Chain
is the abstraction around details, query clients, & signing accounts for interacting with a
network. After networks are running, a Chain
is initialized & attached to the main test suite testutil.E2eTestSuite
.
The primary Kava network is accessible via suite.Kava
.
Details about the chains can be found here.
SigningAccount
s
Each Chain
wraps a map of signing clients for that network. The SigningAccount
contains clients
for both the Kava EVM and Cosmos-Sdk co-chains.
The methods SignAndBroadcastKavaTx
and SignAndBroadcastEvmTx
are used to submit transactions to
the sdk and evm chains, respectively.
Creating a new account
// create an account on the Kava network, initially funded with 10 KAVA
acc := suite.Kava.NewFundedAccount("account-name", sdk.NewCoins(sdk.NewCoin("ukava", 10e6)))
// you can also access accounts by the name with which they were registered to the suite
acc := suite.Kava.GetAccount("account-name")
Funds for new accounts are distributed from the account with the mnemonic from the E2E_KAVA_FUNDED_ACCOUNT_MNEMONIC
env variable. The account will be generated with HD coin type 60 & the ethsecp256k1
private key signing algorithm.
The initial funding account is registered with the name "whale"
.
IBC tests
When IBC tests are enabled, an additional network is spun up with a different chain id & an IBC channel is opened between it and the primary Kava network.
The IBC network runs kava with a different chain id and staking denom (see runner/chain.go).
The IBC chain queriers & accounts are accessible via suite.Ibc
.
IBC tests can be disabled by setting E2E_INCLUDE_IBC_TESTS
to false
.
Chain Upgrades
When a named upgrade handler is included in the current working repo of Kava, the e2e test suite can be configured to run all the tests on the upgraded chain. This includes the ability to add additional tests to verify and do acceptance on the post-upgrade chain.
This configuration is controlled by the following env variables:
E2E_INCLUDE_AUTOMATED_UPGRADE
- toggles on the upgrade functionality. Must be set totrue
.E2E_KAVA_UPGRADE_NAME
- the named upgrade, likely defined inapp/upgrades.go
E2E_KAVA_UPGRADE_HEIGHT
- the height at which to run the upgradeE2E_KAVA_UPGRADE_BASE_IMAGE_TAG
- the kava docker image tag to base the upgrade on
When all these are set, the chain is started with the binary contained in the docker image tagged
E2E_KAVA_UPGRADE_BASE_IMAGE_TAG
. Then an upgrade proposal is submitted with the desired name and
height. The chain runs until that height and then is shutdown due to needing the upgrade. The chain
is restarted with the local repo's Kava code and the upgrade is run. Once completed, the whole test
suite is run.
For a full example of how this looks, see this commit on the example/e2e-test-upgrade-handler branch.