Files
apf_portal/.gitea/workflows/ci.yml
T
julien 219b7a2143
CI / commits (push) Has been skipped
CI / check (push) Failing after 1m41s
CI / perf (push) Failing after 10s
CI / a11y (push) Failing after 1m33s
CI / scan (push) Failing after 1m52s
Docs site / build (push) Failing after 2m5s
fix(ci): pass NODE_OPTIONS=--use-system-ca to clear grpc-tools tls install (#199)
## Summary

The CI runner fails `pnpm install --frozen-lockfile` since the AI-relay chantier added `grpc-tools` to the dep tree. The package's postinstall downloads a precompiled `protoc` archive from `node-precompiled-binaries.grpc.io`, and Node 24's bundled CA set cannot verify the TLS chain on the runner network path.

The fix follows the Node team's own remediation, surfaced verbatim in the error message:

> unable to verify the first certificate; if the root CA is installed locally, try running Node.js with `--use-system-ca`

Setting `NODE_OPTIONS=--use-system-ca` at the workflow `env:` block makes Node consult the OS CA store in addition to its bundled set. The runner image (`catthehacker/ubuntu:act-22.04` per [ADR-0015](docs/decisions/0015-cicd-gitea-actions.md)) carries the standard Ubuntu `ca-certificates` bundle, which validates the chain.

## What lands

`.gitea/workflows/ci.yml`:

```yaml
env:
  NODE_OPTIONS: --use-system-ca
```

`.gitea/workflows/docs-site.yml`: same one-line block.

Both placed at workflow scope so every Node process (pnpm itself + every postinstall it spawns) inherits the option without per-step duplication.

No package.json change. No code change. No runner-image change.

## Notes for the reviewer

- **Why not skip the grpc-tools postinstall in CI instead.** The protoc binary downloaded here is never invoked in CI — the generated TypeScript stubs in `apps/portal-bff/src/grpc/gen/` are committed (per ADR-0024 §"Sub-decision 3 — vendored protos"), so CI only needs to type-check them. Removing `grpc-tools` from `pnpm.onlyBuiltDependencies` would also clear the failure and is arguably more minimal in CI. The trade-off: developers who update protos would have to opt back into the postinstall (`pnpm approve-builds grpc-tools && pnpm rebuild grpc-tools`) before running `pnpm grpc:codegen`. `--use-system-ca` keeps the developer workflow identical and fixes the underlying TLS-chain issue for any future native dep that hits the same wall (a real risk as the dep tree grows). The cost is a single workflow env var.
- **Why workflow-scope `env:` rather than per-step `env:`.** Five separate `pnpm install` steps run across `ci.yml`; setting it five times would invite drift. The `env:` block at workflow scope applies to every step in every job — clean, single source of truth.
- **Node 24 compatibility.** `--use-system-ca` is documented since Node 22; Node 24 (the workspace LTS per `.nvmrc`) carries it. No `.nvmrc` change required.
- **Local-dev impact.** None. Local developers' Node already validates the chain (the issue is specific to the runner's network path); the env var is a no-op locally.
- **Forward compatibility.** If a future native dep fetches binaries from a different CDN with a similar chain issue, this fix covers it without further changes.

## Test plan

This PR cannot be locally validated in a way that reproduces the failure — the CI runner's network path is the only environment where `node-precompiled-binaries.grpc.io` cannot be reached with Node's bundled CA. The validation is the next CI run.

- [ ] **CI green** on this PR's first run — `pnpm install --frozen-lockfile` completes; `pnpm ci:check` runs to completion.
- [ ] If CI still fails: the runner's Ubuntu CA bundle does not contain the missing intermediate either. Fallback path: drop `grpc-tools` from `pnpm.onlyBuiltDependencies` so the postinstall is skipped entirely in CI (and document the dev-side `pnpm approve-builds` step). Trivial follow-up if needed.

## What's next

If `--use-system-ca` fixes the CI install and no other Node TLS issues surface, no further action is required. The env var stays as a forward-looking guard.

---------

Co-authored-by: Julien Gautier <julien.gautier@apf.asso.fr>
Reviewed-on: #199
2026-05-20 10:23:38 +02:00

227 lines
9.7 KiB
YAML

# Per ADR-0015 (CI/CD on Gitea Actions).
# Thin YAML — orchestration lives in package.json scripts (ci:check,
# ci:audit, ci:commits, ci:perf) and Nx targets. Any change to gate
# behaviour belongs in those scripts, not in this file.
name: CI
on:
pull_request:
branches: [main]
push:
branches: [main]
# Node 24's bundled CA set does not include every intermediate the
# self-hosted runner's network path serves (the precompiled-binary
# CDN behind grpc-tools is the first surface where this surfaced).
# `--use-system-ca` tells Node to consult the OS CA store in
# addition to its bundled set — supported since Node 22 and the
# documented Node-team fix for exactly this class of TLS-chain
# rejection. The runner image (`catthehacker/ubuntu:act-22.04` per
# ADR-0015) carries the standard Ubuntu `ca-certificates` bundle,
# which validates the impacted chains.
env:
NODE_OPTIONS: --use-system-ca
jobs:
check:
runs-on: [self-hosted, on-prem]
steps:
- uses: actions/checkout@v6
with:
fetch-depth: 0
# Derive NX_BASE / NX_HEAD for `nx affected`. Replaces
# nrwl/nx-set-shas@v4, which is GitHub-only (it queries the GitHub
# API to find the last successful workflow run, returning 404 on
# Gitea). HEAD~1 is a reasonable approximation for push events on
# a squash-merge trunk; pull_request uses the merge-base with the
# target branch.
- name: Derive Nx affected base and head
shell: bash
run: |
# `actions/checkout@v4` with fetch-depth: 0 already pulls every
# branch and tag, so origin/<base_ref> is present locally — no
# extra `git fetch` is needed (and `--depth=0` is invalid: git
# requires a positive integer).
if [ "${{ github.event_name }}" = "pull_request" ]; then
echo "NX_BASE=$(git merge-base HEAD origin/${{ github.base_ref }})" >> "$GITHUB_ENV"
else
echo "NX_BASE=HEAD~1" >> "$GITHUB_ENV"
fi
echo "NX_HEAD=HEAD" >> "$GITHUB_ENV"
- uses: pnpm/action-setup@v6
- uses: actions/setup-node@v6
with:
node-version-file: '.nvmrc'
cache: 'pnpm'
- run: pnpm install --frozen-lockfile
- run: pnpm ci:check
scan:
runs-on: [self-hosted, on-prem]
# Step ordering matters here: Trivy and gitleaks BOTH run before
# `pnpm install`. Reason: gitleaks scans the working tree
# (`--no-git --source .`), and after install, `node_modules/`
# and `.pnpm-store/` are full of upstream packages whose READMEs
# and test fixtures contain demo RSA keys / fake API tokens —
# gitleaks then false-positives on them by the hundreds (caught
# the hard way: 381 hits on the first run). Trivy reads
# `pnpm-lock.yaml` for its vuln scan, not `node_modules`, so it
# also doesn't need install. `pnpm ci:audit` does the same — it
# queries the advisory DB against the lockfile.
steps:
- uses: actions/checkout@v6
- uses: pnpm/action-setup@v6
- uses: actions/setup-node@v6
with:
node-version-file: '.nvmrc'
cache: 'pnpm'
# Dependency vulnerability scan. Trivy is a Go binary, not an npm
# package, so it cannot live in package.json scripts as cleanly
# as audit/lint do.
#
# We deliberately avoid `aquasecurity/trivy-action`. On cache
# miss the action falls back to `git clone github.com/aquasecurity/
# trivy` to fetch its install script, using `actions/checkout`
# which defaults `with.token` to `${{ github.token }}` (Gitea's
# auto-token, useless for github.com). The clone hits the
# anonymous github.com rate limit and fails with "could not
# read Username". Passing GITHUB_TOKEN as an env var doesn't
# help — actions/checkout reads it from `inputs.token`, not env.
#
# Direct curl + tar is simpler, predictable, and gives us an
# explicit version pin instead of `@master`. GITHUBCOM_TOKEN is
# passed to handle the github.com rate limit on the release
# download in the worst case (release artefacts are usually
# unmetered, but auth is free insurance).
- name: Install Trivy
env:
# renovate: datasource=github-releases depName=aquasecurity/trivy
TRIVY_VERSION: '0.70.0'
GITHUB_TOKEN: ${{ secrets.GITHUBCOM_TOKEN }}
run: |
curl -sfL \
-H "Authorization: Bearer ${GITHUB_TOKEN}" \
-o /tmp/trivy.tar.gz \
"https://github.com/aquasecurity/trivy/releases/download/v${TRIVY_VERSION}/trivy_${TRIVY_VERSION}_Linux-64bit.tar.gz"
tar -xzf /tmp/trivy.tar.gz -C /usr/local/bin trivy
trivy --version
- name: Run Trivy
# `--scanners vuln`: limit Trivy to vulnerability scanning. Its
# secret scanner false-positives on demo RSA keys embedded in
# the README/fixtures of cryptographic npm packages (which
# land under .pnpm-store/), and we already have gitleaks below
# as the dedicated secret-scan gate. Trivy's intent in this
# job, per ADR-0015, was always "dependency vulnerability
# scan" — restoring that scope.
run: |
trivy fs \
--scanners vuln \
--ignore-unfixed \
--skip-dirs node_modules \
--exit-code 1 \
--severity CRITICAL,HIGH \
.
# Secret scan. Same install pattern as Trivy: gitleaks is a Go
# binary, and the official `gitleaks/gitleaks-action@v2` wrapper
# is now paywalled for organisations (a GITLEAKS_LICENSE secret
# from gitleaks.io is required, otherwise the action errors out
# with `🛑 missing gitleaks license`). The binary itself stays
# MIT-licensed and free — installing it directly bypasses the
# wrapper and gives us version pinning for free.
- name: Install gitleaks
env:
# renovate: datasource=github-releases depName=gitleaks/gitleaks
GITLEAKS_VERSION: '8.30.1'
GITHUB_TOKEN: ${{ secrets.GITHUBCOM_TOKEN }}
run: |
curl -sfL \
-H "Authorization: Bearer ${GITHUB_TOKEN}" \
-o /tmp/gitleaks.tar.gz \
"https://github.com/gitleaks/gitleaks/releases/download/v${GITLEAKS_VERSION}/gitleaks_${GITLEAKS_VERSION}_linux_x64.tar.gz"
tar -xzf /tmp/gitleaks.tar.gz -C /usr/local/bin gitleaks
gitleaks version
- name: Run gitleaks
# `--no-git --source .` scans the working tree only. The scan
# job uses a shallow checkout, so a git-history scan would not
# see beyond HEAD anyway; the weekly security-scheduled
# workflow does the deep history scan with a full clone.
# `--redact` masks any matched secret in the log output so we
# do not leak it via the CI logs themselves.
run: |
gitleaks detect \
--no-git \
--source . \
--redact \
--exit-code 1
# npm-advisory check (against pnpm-lock.yaml). Run last so
# `pnpm install` does not pollute the working tree before the
# scanners above.
- run: pnpm install --frozen-lockfile
- run: pnpm ci:audit
commits:
# PRs opened by Renovate (apf-portal-bot) carry commit messages
# generated from a vetted Conventional-Commits template — running
# commitlint on them is tautological. Per ADR-0017 amendment.
if: github.event_name == 'pull_request' && github.event.pull_request.user.login != 'apf-portal-bot'
runs-on: [self-hosted, on-prem]
steps:
- uses: actions/checkout@v6
with:
fetch-depth: 0
- uses: pnpm/action-setup@v6
- uses: actions/setup-node@v6
with:
node-version-file: '.nvmrc'
cache: 'pnpm'
- run: pnpm install --frozen-lockfile
- run: COMMIT_LINT_FROM=origin/main pnpm ci:commits
perf:
# Skip the Lighthouse run on PRs opened by Renovate (apf-portal-bot):
# the per-PR perf signal on a dep bump is essentially zero (no
# routes yet, bundle is the static placeholder), and the Lighthouse
# round-trip burns several minutes per PR. Push events on `main`
# still run perf — we catch regressions immediately post-merge,
# not pre-merge. Per ADR-0017 amendment.
if: github.event_name != 'pull_request' || github.event.pull_request.user.login != 'apf-portal-bot'
runs-on: [self-hosted, on-prem]
# Lighthouse CI drives a real Chrome instance; the default act runner
# image (catthehacker/ubuntu:act-22.04) ships without one. The :full
# variant adds Chrome, Firefox, and the GUI-test toolchain — pinned
# to the same Ubuntu 22.04 base as the default labels for parity.
container:
image: catthehacker/ubuntu:full-22.04
steps:
- uses: actions/checkout@v6
- uses: pnpm/action-setup@v6
- uses: actions/setup-node@v6
with:
node-version-file: '.nvmrc'
cache: 'pnpm'
- run: pnpm install --frozen-lockfile
- run: pnpm ci:perf
- uses: actions/upload-artifact@v7
if: always()
with:
name: lighthouseci-report
path: .lighthouseci/
retention-days: 30
a11y:
runs-on: [self-hosted, on-prem]
steps:
- uses: actions/checkout@v6
- uses: pnpm/action-setup@v6
- uses: actions/setup-node@v6
with:
node-version-file: '.nvmrc'
cache: 'pnpm'
- run: pnpm install --frozen-lockfile
# Placeholder until the e2e a11y suite (axe-core via Playwright,
# per ADR-0016) is wired with the first real screens. The job
# exists so branch protection can require it from day one - it
# currently no-ops with a clear message.
- run: echo "a11y gate placeholder - axe-core via Playwright wires up with the first real screens (ADR-0016)."