Many packages in the monorepo did not specify all of their dependencies; they
were effectively relying on resolution in the monorepo's root
`node_modules`. In a production release of `embark` and `embark[js]-*` packages
this can lead to broken packages.
To fix the problem currently and to help prevent it from happening again, make
use of the `eslint-plugin-import` package's `import/no-extraneous-dependencies`
and `import/no-unresolved` rules. In the root `tslint.json` set
`"no-implicit-dependencies": true`, wich is the tslint equivalent of
`import/no-extraneous-dependencies`; there is no tslint equivalent for
`import/no-unresolved`, but we will eventually replace tslint with an eslint
configuration that checks both `.js` and `.ts` files.
For `import/no-unresolved` to work in our monorepo setup, in most packages add
an `index.js` that has:
```js
module.exports = require('./dist'); // or './dist/lib' in some cases
```
And point `"main"` in `package.json` to `"./index.js"`. Despite what's
indicated in npm's documentation for `package.json`, it's also necessary to add
`"index.js"` to the `"files"` array.
Make sure that all `.js` files that can and should be linted are in fact
linted. For example, files in `packages/embark/src/cmd/` weren't being linted
and many test suites weren't being linted.
Bump all relevant packages to `eslint@6.8.0`.
Fix all linter errors that arose after these changes.
Implement a `check-yarn-lock` script that's run as part of `"ci:full"` and
`"qa:full"`, and can manually be invoked via `yarn cylock` in the root of the
monorepo. The script exits with error if any specifiers are found in
`yarn.lock` for `embark[js][-*]` and/or `@embarklabs/*` (with a few exceptions,
cf. `scripts/check-yarn-lock.js`).
`.deploy()` is an alias to `.new()` and in other tools also no longer used
as API to deploy instances. In addition, we don't want it to shadow the
original web3 `deploy()` API which actually caused a breeaking change.
fix(@embark/proxy): up max listener for proxy request manager
In the tests, we had warnings about max listeners reached, because
the default limit is 10. So I upped the limit for the request
manager and the WS connection.
stoopid CI
Using tests with a custom --node didn't work, because Ganache always
used it's own provider. Now, it actually checks before if there is
not another node started before using its own provider (+1 squashed commits)
Set Ganache as a blockchain client that doesn't need to be started.
Set it as the default client, at least for development.
Move all blockchain related stuff in the blockchain component
Includes a fix by @emmizle to fix the WS connection in the proxy
Requested here https://github.com/embarklabs/embark/issues/1689
Adds proxyFor to contracts that merges the ABI of the parent
contract to the child (proxy) contract so that the proxy can use
the methods of the parent but is deployed as itself
Update `embark-pipeline` dependencies.
Add unit tests for `embark-pipeline`.
Update Embark testing framework to include assertion testsing for API calls and event actions.
feat(@embark/utils): add method to verify if a plugin is installed & configured
feature(@embark/utils): add method to verify if a plugin is installed & configured
feature: warn about packages that will be independent plugins and are not configured
chore: update templates to specify plugins
refactor: add to plugin api params so that blockchain plugins no longer need to be passed options
address changes in code review
remove unneded space
Update packages/core/utils/src/index.ts
Co-Authored-By: Jonathan Rainville <rainville.jonathan@gmail.com>
Update packages/core/utils/src/index.ts
Co-Authored-By: Michael Bradley <michaelsbradleyjr@gmail.com>
fix linting issue
add missing import
update dependency
fix plugins object
add missing whitespace
Turns out that 17cec1b787 has never worked as intended.
Custom provided `abiDefinition` values have been simply ignored. Embark always used the
`abiDefnition` that resulted from the Smart Contract compilation.
This commit introduces a new feature that enables users to run (migration) scripts.
Similar to deployment hooks, scripts are functions that may perform operations on newly
deployed Smart Contracts.
Therefore a script needs to export a function that has access to some dependencies:
```
// scripts/001-some-script.js
module.exports = async ({contracts, web3, logger}) => {
...
};
```
Where `contracts` is a map of newly deployed Smart Contract instances, `web3` a blockchain connector
instance and `logger` Embark's logger instance. Script functions can but don't have to be `async`.
To execute such a script users use the newly introduced `exec` command:
```
$ embark exec development scripts/001-some-script.js
```
In the example above, `development` defines the environment in which Smart Contracts are being
deployed to as well as where tracking data is stored.
Alternativey, users can also provide a directory in which case Embark will try to execute every
script living inside of it:
```
$ embark exec development scripts
```
Scripts can fail and therefore emit an error accordingly. When this happens, Embark will
abort the script execution (in case multiple are scheduled to run) and informs the user
about the original error:
```
.. 001_foo.js running....
Script '001_foo.js' failed to execute. Original error: Error: Some error
```
It's recommended for scripts to emit proper instances of `Error`.
(Migration) scripts can be tracked as well but there are a couple of rules to be aware of:
- Generally, tracking all scripts that have been executed by default is not a good thing because
some scripts might be one-off operations.
- OTOH, there might be scripts that should always be tracked by default
- Therefore, we introduce a dedicated `migrations` directory in which scripts live that should be
tracked by default
- Any other scripts that does not live in the specified `migrations` directory will not be tracked **unless**
- The new `--track` option was provided
For more information see: https://notes.status.im/h8XwB7xkR7GKnfNh6OnPMQ
This commit adds a convenience API `artifacts.require(name)` that aims to make
requiring artifacts a little bit more straight forward.
Usage:
```
const SimpleStorage = artifacts.require('SimpleStorage');
const EmbarkJS = artifacts.require('EmbarkJS');
```
Adds back the watch on contract events and writes them to a file
with the same method as contract logs from transaction-logger, so
I extracted those methods to utils/file so that both could use the
same functions.
This was an issue experienced with ENS contracts not being deployed
because the configs used `strategy: explicit` and ENS configs are
not in configs.
To fix, I changed the way we check for deploy. If `deploy` is set as
`true` it should always deploy even if not in configs. It just means
they were added from a plugin (like ENS)
Also, I needed to set to `false` the `deploy` property of contracts
compiled that were not in config, because otherwise, they tried to
deploy, which goes against the strategy. This is because those
contracts get initiated as `deploy: true`.
Before, we added the gas for all receipts that came in because they
had a `gasUsed`, instead of adding the gas for receipts that came
with a transaction
Was caused by the contract being added in case another contract uses
it as a dependency, but it automatically tried to deploy with it, so
instead, set it as `deploy: false` until we see if we need to
register it
For all instances where a `Contract` instance is serialized using `JSON.stringify`, the `logger` property was being stringified and written to logs and contract artifact files.
Add Serializer class that allows ignoring of class properties during serialization when using `JSON.stringify`.
NOTE: The `Serializer` relies on TypeScript’s decorators which are still listed as experimental (requiring the necessary compiler flag) despite being around for several years. Decorators are a stage 2 proposal for JavaScript.
Enable putting `$accounts[i]` in subdomain registrations, where `i`
is the index of the `getAccounts` array.
This is the same behaviour we have for contract deployement
`Engine`s internal `coreComponents()` API sets up a bunch of things like
a `ProcessManager` and the `ServiceMonitor`. The `ServiceMonitor` activates
itself on `embark:engine:started` and practically monitors registered services
until the process has been explicitly stopped.
There are some commands that don't actually need service monitoring like `build` and
a future `exec` command that's in the making. For those cases it's useful to have them
disable the service monitor when `coreComponents()` is used.
This commit moves the `ServiceMonitor` instantiation out of `coreComponents()` and introduces
a new module group instead. This then lets commands that need service monitoring instantiate it
explicitly.