This action allows you to run the Slither static analyzer against your project, from within a GitHub Actions workflow.
To learn more about Slither itself, visit its GitHub repository and wiki pages.
Create .github/workflows/slither.yml
:
name: Slither Analysis
on: [push]
jobs:
analyze:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v3
- uses: crytic/slither-action@v0.2.0
Key | Description |
---|---|
ignore-compile |
If set to true, the Slither action will not attempt to compile the project. False by default. See Advanced compilation. |
fail-on |
Cause the action to fail if Slither finds any issue of this severity or higher. See action fail behavior. |
node-version |
The version of node to use. If this field is not set, the latest version will be used. |
sarif |
If provided, the path of the SARIF file to produce, relative to the repo root (see Github Code Scanning integration). |
slither-args |
Extra arguments to pass to Slither. |
slither-config |
The path to the Slither configuration file. By default, ./slither.config.json is used if present. See Configuration file. |
slither-version |
The version of slither-analyzer to use. By default, the latest release in PyPI is used. |
solc-version |
The version of solc to use. If this field is not set, the version will be guessed from project metadata. This only has an effect if you are not using a compilation framework for your project -- i.e., if target is a standalone .sol file. |
target |
The path to the root of the project to be analyzed by Slither. It can be a directory or a file, and it defaults to the repo root. |
If the project requires advanced compilation settings or steps, set
ignore-compile
to true and follow the compilation steps before running
Slither. You can find an example workflow that uses this option in the
examples section.
The Slither action supports a fail-on
option, based on the --fail-*
flags
added in Slither 0.8.4. To maintain the current action behavior, this option
defaults to all
. The following table summarizes the action behavior across
different Slither versions. You may adjust this option as needed for your
workflows. If you are setting these options on your config file, set fail-on: config
to prevent the action from overriding your settings.
fail-on |
Slither <= 0.8.3 | Slither > 0.8.3 |
---|---|---|
all / pedantic |
Fail on any finding | Fail on any finding |
low |
Fail on any finding | Fail on any finding >= low |
medium |
Fail on any finding | Fail on any finding >= medium |
high |
Fail on any finding | Fail on any finding >= high |
none |
Do not fail on findings † | Do not fail on findings |
config |
Determined by config file | Determined by config file |
† Note that if you use fail-on: none
with Slither 0.8.3 or earlier, certain
functionality may not work as expected. In particular, Slither will not produce
a SARIF file in this case. If you require fail-on: none
behavior with the
SARIF integration, consider adding continue-on-error: true
instead to the action step.
If the latest Slither release has a bug that does not let you analyze your
project, you may want to use a different Slither version. The action lets you
use an older version (or, if a fix is available, an unreleased Slither version)
to analyze your code. You can use the slither-version
option to specify a
custom Slither release. This option can take different values:
- a
slither-analyzer
PyPI release version number (e.g."0.8.3"
). Slither will be installed from PyPI in this case. - a Git ref from crytic/slither such as a
branch, tag, or full commit hash (e.g.
"dev"
,"refs/heads/dev"
,"refs/tags/0.8.3"
or"f962d6c4eefcd4d5038a781875b826948f222b31"
). Slither will be installed from source in this case.
Add // slither-disable-next-line DETECTOR_NAME
before the finding, or use the
Github Code Scanning integration.
We suggest enabling Dependabot version updates for
actions
to get notified of new action releases. You can do so by creating
.github/dependabot.yml
in your repository with the following content:
version: 2
updates:
- package-ecosystem: "github-actions"
directory: "/"
schedule:
interval: "daily"
The action supports the Github Code Scanning integration, which will push Slither's alerts to the Security tab of the Github project (see About code scanning). This integration eases the triaging of findings and improves the continuous integration.
To enable the integration, use the sarif
option, and upload the Sarif file to codeql-action
:
name: Slither Analysis
on: [push]
jobs:
analyze:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v3
- name: Run Slither
uses: crytic/slither-action@v0.2.0
id: slither
with:
sarif: results.sarif
fail-on: none
- name: Upload SARIF file
uses: github/codeql-action/upload-sarif@v2
with:
sarif_file: ${{ steps.slither.outputs.sarif }}
Here:
fail-on: none
is required to let the SARIF upload step run if Slither finds issuesid: slither
is the name used to reference the step later on (e.g., insteps.slither.outputs.sarif
)
The following is a complete GitHub Actions workflow example. It will trigger on
pushes to the repository, and leverage the Node.js integration in the Slither
action to install the latest node
version, install dependencies, and build the
project that lives in src/
. Once that is complete, Slither will run its
analysis. The workflow will fail if findings are found.
name: Slither Analysis
on: [push]
jobs:
analyze:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v3
- uses: crytic/slither-action@v0.2.0
with:
target: 'src/'
The following is a complete GitHub Actions workflow example. It will trigger
with commits on main
as well as any pull request opened against the main
branch. It leverages the NodeJS integration in the Slither action to set up
NodeJS 16.x and install project dependencies before running Slither on the
project. Slither will output findings in SARIF format, and those will get
uploaded to GitHub.
We include fail-on: none
on the Slither action to avoid failing the run if
findings are found.
name: Slither Analysis
on:
push:
branches: [ main ]
pull_request:
branches: [ main ]
jobs:
analyze:
runs-on: ubuntu-latest
permissions:
contents: read
security-events: write
steps:
- name: Checkout repository
uses: actions/checkout@v3
- name: Run Slither
uses: crytic/slither-action@v0.2.0
id: slither
with:
node-version: 16
sarif: results.sarif
fail-on: none
- name: Upload SARIF file
uses: github/codeql-action/upload-sarif@v2
with:
sarif_file: ${{ steps.slither.outputs.sarif }}
The following is a complete GitHub Actions workflow example. It will trigger
with commits on main
as well as any pull request opened against the main
branch. It leverages the Python integration in the Slither action to set up a
virtual environment and install project dependencies before running Slither on
the project. Slither will output findings in SARIF format, and those will get
uploaded to GitHub.
We also include fail-on: none
on the Slither action to avoid failing the run
if findings are found.
name: Slither Analysis
on:
push:
branches: [ main ]
pull_request:
branches: [ main ]
jobs:
analyze:
runs-on: ubuntu-latest
permissions:
contents: read
security-events: write
steps:
- name: Checkout repository
uses: actions/checkout@v3
- name: Run Slither
uses: crytic/slither-action@v0.2.0
id: slither
with:
sarif: results.sarif
fail-on: none
- name: Upload SARIF file
uses: github/codeql-action/upload-sarif@v2
with:
sarif_file: ${{ steps.slither.outputs.sarif }}
The following is a complete GitHub Actions workflow example meant to illustrate
the usage of the Slither action when the compilation framework is not based on
Node or Python. It will trigger with commits on main
as well as any pull
request opened against the main
branch. To be able to build the project, it
will configure Node and Nix on the runner and install project dependencies. Once
the environment is ready, it will build the project (using make build
via
nix-shell
) and finally run Slither on the project using the GitHub action.
In this example, we leverage ignore-compile
to avoid building the project as
part of the Slither action execution. Slither will expect the project to be
pre-built when this option is set. This allows us to use compilation frameworks
that are not Node or Python-based, such as Dapp, together with the Slither
action.
name: Slither Analysis
on:
push:
branches: [ main ]
pull_request:
branches: [ main ]
jobs:
analyze:
runs-on: ubuntu-latest
steps:
- name: Checkout repository
uses: actions/checkout@v3
with:
submodules: recursive
- name: Set up Node
uses: actions/setup-node@v2
- name: Install Yarn
run: npm install --global yarn
- name: Install Nix
uses: cachix/install-nix-action@v16
- name: Configure Cachix
uses: cachix/cachix-action@v10
with:
name: dapp
- name: Install dependencies
run: nix-shell --run 'make'
- name: Build the contracts
run: nix-shell --run 'make build'
- name: Run Slither
uses: crytic/slither-action@v0.2.0
with:
ignore-compile: true