One-admin, one-password model — all of /apps, /api/*, /, and
/settings/ now require a signed-in session. Passwords are werkzeug
PBKDF2-hashed in /var/lib/furtka/users.json (mode 0600, atomic write
via the same .tmp+chmod+rename dance installer.write_env uses).
Sessions are secrets.token_urlsafe(32) tokens held in a module-level
SessionStore dict (thread-safe lock included for when we swap to
ThreadingHTTPServer). Cookies are HttpOnly, SameSite=Strict, and
Path=/, with Secure set when X-Forwarded-Proto from Caddy says HTTPS.
Two bootstrap paths:
* Fresh install — webinstaller step-1 collects Linux user + password,
the chroot post-install step hashes the password and writes
users.json on the target partition. First browser visit lands on
/login with the account already present.
* Upgrade from 26.10-alpha — no users.json yet, so /login detects
setup_needed() and renders a first-run setup form. POST creates
the admin and immediately logs in.
POST /logout revokes the server session and clears the cookie.
Unauthenticated HTML requests 302 to /login; unauthenticated API
requests 401 JSON so fetch() callers see a clean error. A sleep(0.5)
on failed logins is the brute-force speed bump on top of werkzeug's
~600k-iter PBKDF2.
Caddyfile gains /login* and /logout* handle blocks in the shared
furtka_routes snippet so both :80 and the HTTPS hostname block
forward the auth endpoints to localhost:7000. Without this Caddy
would 404 from the static file server.
Test surface:
* tests/test_auth.py (new, 19 cases): hash roundtrip, users.json
I/O, session create/lookup/expire/revoke.
* tests/test_api.py: new admin_session fixture; existing HTTP
tests updated to send the cookie; new tests cover login setup,
login success, wrong-password 401, logout revocation, and the
guard's 302/401 split.
* tests/test_webinstaller_assets.py: new case that unpacks the
users.json _write_file_cmd body and verifies the werkzeug hash
round-trips against the step-1 password.
Bumped version to 26.11-alpha and rolled CHANGELOG. Also folded in
the ruff-format fix that was pending from 26.10-alpha's lint red.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Format-only diff from `ruff format`. The 26.5-alpha push's CI run failed
on `ruff format --check`; these three files had two-line constructs that
fit on one line at ruff's default line length. No behaviour change.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Closes#10. Two linked bugs in 26.4-alpha's Phase 1 HTTPS made the
force-HTTPS toggle fatal: every SNI handshake on :443 died with
SSL_ERROR_INTERNAL_ERROR_ALERT, so the toggle redirected users from
working HTTP to broken HTTPS.
Root cause 1: bare `:443 { tls internal }` gives Caddy no hostname to
issue a leaf cert for, so /var/lib/caddy/certificates/ stayed empty and
Caddy sent TLS `internal_error` on every handshake. Fix: the :443 block
is now `__FURTKA_HOSTNAME__.local, __FURTKA_HOSTNAME__ { tls internal }`,
with the marker substituted by webinstaller/app.py at install time and
by furtka.updater._refresh_caddyfile on self-update (reads /etc/hostname,
falls back to "furtka"). `auto_https disable_redirects` keeps Caddy's
built-in redirect out of the way of the /settings toggle.
Root cause 2: furtka/https.py and the /rootCA.crt handler both referenced
/var/lib/caddy/.local/share/caddy/pki/authorities/local/ — a path that
doesn't exist. caddy.service sets XDG_DATA_HOME=/var/lib, so Caddy's
storage is /var/lib/caddy/ directly. Fix: both paths corrected.
Verified on the 192.168.178.110 smoke VM by swapping the Caddyfile in,
reloading, handshaking, restoring: TLS 1.3 handshake succeeds, leaf cert
issued under /var/lib/caddy/certificates/local/, /rootCA.crt returns 200.
Tests: new cases assert the Caddyfile ships the hostname placeholder,
the webinstaller substitutes it, _refresh_caddyfile re-substitutes from
/etc/hostname on update, and the asset sets auto_https disable_redirects.
Unit tests still stub the Caddy reload — the real handshake regression
needs a smoke-VM integration test (follow-up, separate from this fix).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Caddy now serves both :80 (plain HTTP, unchanged default) and :443 with
tls internal — it generates its own per-box root CA on first start,
stored under /var/lib/caddy/.local/share/caddy/pki/authorities/local/.
Users can download rootCA.crt at /rootCA.crt (served on both listeners)
and install it per-OS via the new /https-install/ guide.
Settings page grows a Local HTTPS card with CA fingerprint, download
button, reachability probe, and an opt-in "force HTTPS" toggle. The
toggle only unhides itself once the current browser already trusts the
cert, so enabling it can't lock the user out of the settings page.
Backend: GET /api/furtka/https/status and POST /api/furtka/https/force
in furtka.https. The force toggle drops a Caddy import snippet into
/etc/caddy/furtka.d/redirect.caddyfile and reloads Caddy; reload
failure rolls the snippet state back so a bad config can't wedge the
next service start.
updater._refresh_caddyfile() ensures /etc/caddy/furtka.d exists before
every reload so 26.3-alpha → 26.4-alpha self-updates don't trip on the
new glob import directive.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Two install-path bugs surfaced by SSHing into the hot-fixed test VM:
1. mktemp creates the staging dir with mode 700 by default; the rename
to /opt/furtka/versions/<ver>/ preserved it, and Caddy (running as
the unprivileged `caddy` user) got 403 Forbidden because it couldn't
traverse the version dir. Now the install + self-update both
`chmod 755` after the rename.
2. _furtka_json_cmd was a silent no-op on the 43a39a4 VM — the
base64-encoded body + sed substitution approach layered two sets of
quotes through archinstall's custom_commands eval, and the sed
step either never ran or didn't match. Replaced with a plain
heredoc that interpolates $(date -Iseconds) and $(cat VERSION) at
chroot runtime. Result lands /var/lib/furtka/furtka.json reliably,
which is what the landing page's hostname chip and the settings
page's install-date field depend on.
Both issues confirmed fixed by applying them manually on the VM
(chmod 755 /opt/furtka/versions/26.0-alpha + writing furtka.json by
hand): landing page, /apps, /settings, /furtka.json all now 200 with
correct content.
Tests updated (the chmod 755 gets asserted; the old base64+sed test
gets replaced with a heredoc-shape check; the updater test asserts
0o755 mode on the finished version dir).
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Root cause of today's 403 on a fresh install: assets/ lived inside the
Python package at furtka/assets/, so the resource-manager tarball
extracted to /opt/furtka/versions/<ver>/furtka/assets/. But Caddyfile
has `root * /opt/furtka/current/assets/www`, systemd units point at
/opt/furtka/current/assets/bin/furtka-status, and the install-time
`systemctl link /opt/furtka/current/assets/systemd/*.service` expected
the top-level layout. All three found nothing:
- Caddy → 403 Forbidden (empty/missing document root)
- systemctl link → silent no-op, nothing ever linked into
/etc/systemd/system/
- furtka-api.service + furtka-reconcile.service → "inactive" because
they were never registered
Nothing in the Python package ever imported furtka.assets — these are
shell scripts, HTML/CSS, systemd units, and a Caddyfile, which is
config data, not package data. Promoting assets/ to the repo root
matches how it's referenced everywhere downstream and eliminates the
path mismatch.
Changes:
- git mv furtka/assets assets
- iso/build.sh: tarball-staging step now also `cp -a "$REPO_ROOT/assets"`
so the tarball ships ./assets at its root, and the live-ISO copy
reads from $REPO_ROOT/assets instead of $REPO_ROOT/furtka/assets.
- scripts/build-release-tarball.sh: same for release tarballs.
- webinstaller/app.py: _resolve_assets_dir's dev fallback walks one
level up to REPO_ROOT/assets/.
- tests/test_webinstaller_assets.py: ASSETS constant updated.
Tests still green (150/150) because both paths were fs-level — no
code imports changed. Next ISO build will land assets at the path
everything downstream expects.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Five issues surfaced by the Phase-2 audit before the next ISO rebuild:
P1 (real blockers for a fresh install / self-update):
1. chmod +x furtka/assets/bin/furtka-status, furtka-welcome. They were
mode 644 in git, so the tarball shipped them non-executable and every
ExecStart referencing /opt/furtka/current/assets/bin/furtka-* would
have failed on first boot with Permission denied.
2. apply_update now refreshes /etc/caddy/Caddyfile from the new version
when the content differs, then reloads caddy. Without this, a release
that changes Caddy routes silently stays on the old config.
3. apply_update now systemctl-links any new unit files shipped by the
update, not just the five linked at install time. A future release
that adds furtka-foo.service would otherwise never appear in
/etc/systemd/system/.
P2 (hardening, not blockers today):
4. _resource_manager_commands now aborts the install if the tarball's
VERSION file is empty — otherwise `mv "$staging" /opt/furtka/versions/`
would move the staging dir in as a subdirectory and the symlink
target would be invalid.
5. _extract_tarball passes filter='data' to tarfile.extractall on
Python 3.12+ to catch symlink-escape / setuid / device-node tricks
that the regex path-check can't see. Falls back silently on older
interpreters.
Plus the CHANGELOG [Unreleased] section got filled in with the whole
Phase-1 + Phase-2 + UI-uplevel body so a 26.1-alpha tag cut off main
has meaningful release notes.
Test additions / updates:
- test_refresh_caddyfile_{copies_when_different,noops_if_source_missing}
- test_link_new_units_only_links_missing
- test_extract_tarball_uses_data_filter_when_available
- test_apply_update_happy_path now verifies the Caddyfile gets copied.
- test_resource_manager_extracts_to_versioned_slot verifies the
empty-VERSION guard is present in the install command.
Paths now overridable via FURTKA_CADDYFILE_PATH + FURTKA_SYSTEMD_DIR so
tests can pin a tmpdir for these new fs operations.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Slice 2 of the self-update story. Tagging a release on main now
produces a downloadable self-update payload on the Forgejo releases
page, and a running box can pull it down, verify it, atomically swap
to the new version, and health-check the result.
New pieces:
- scripts/build-release-tarball.sh <version> — packages the furtka/
package + bundled apps/ + a root-level VERSION file as
dist/furtka-<version>.tar.gz, plus a .sha256 sidecar and a
release.json metadata blob.
- scripts/publish-release.sh <version> — uses the Forgejo v1 API to
create a release (body pulled from the CHANGELOG section for this
tag, pre-release auto-flagged on -alpha/-beta/-rc) and upload the
three assets sequentially. Needs \$FORGEJO_TOKEN.
- .forgejo/workflows/release.yml — tag-triggered, runs both scripts
with the new \$FORGEJO_RELEASE_TOKEN repo secret.
- furtka/updater.py — check_update, prepare_update, apply_update,
run_update, rollback. Atomic symlink swap, sha256 verify (TOCTOU-
safe: re-hashes on-disk file), health-check post-restart with
auto-rollback on failure, stage-by-stage progress persisted to
/var/lib/furtka/update-state.json so the UI can poll independent
of the (restarting) API process. Path overrides via FURTKA_ROOT /
FURTKA_STATE_DIR / FURTKA_LOCK_PATH so tests pin a tmpdir.
- furtka/cli.py — \`furtka update [--check] [--json]\` and
\`furtka rollback\`.
- tests/test_updater.py — 15 tests: version compare, sha256 verify,
tarball extract (including traversal refusal), lockfile, apply
happy + rollback paths, rollback CLI, check_update with stubbed
Forgejo.
- iso/build.sh — writes VERSION at the tarball root so the install
path matches the self-update path (previously assumed only the
release script did this).
RELEASING.md now points at the automated flow — no more manually
clicking "Create release" on the Forgejo UI.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Slice 1b of the self-update story. The installer now sets up a versioned
layout — install extracts the resource-manager tarball to a staging dir,
reads the VERSION it contains, moves the dir to /opt/furtka/versions/<ver>/,
and creates /opt/furtka/current as a symlink pointing at it. All runtime
references (Caddy, wrapper, systemd ExecStart) go through /current, so
Phase 2's self-update just flips the symlink atomically.
Systemd units move from hand-written files in /etc/systemd/system/ to
`systemctl link /opt/furtka/current/assets/systemd/*` — one link per
unit, stable across upgrades because the link target is /current. The
furtka-status + furtka-welcome units now ExecStart the shipped scripts
directly from /opt/furtka/current/assets/bin/, which means we no longer
copy those scripts to /usr/local/bin/ at install time.
Runtime JSON (status.json, furtka.json, update-state.json) moves to
/var/lib/furtka/ so self-updates never clobber it. Caddy serves those
three paths from there; everything else from /opt/furtka/current/assets/www/.
The __HOSTNAME__ sed-template hack is gone. At install time we write
/var/lib/furtka/furtka.json with {hostname, install_date, version}, and
the landing page's JS reads it on load to populate the hostname chip
and to build the SMB deep-link for the fileshare tile. First paint gets
a "—" placeholder and hydrates once fetch completes.
Test updates:
- test_webinstaller_assets enforces the new command shape (extract-to-
staging, ln -sfn /opt/furtka/current, systemctl link per unit,
no writes to /srv/furtka/www/).
- test_app's legacy "payload present" / "payload absent" tests match
the new layout too.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Slice 1a of the self-update story. Every HTML/CSS/shell-script/systemd-
unit payload that used to live as a triple-quoted string constant inside
webinstaller/app.py now lives as a real file under furtka/assets/:
furtka/assets/Caddyfile
furtka/assets/VERSION (new — matches pyproject.toml)
furtka/assets/www/{index.html, settings/index.html, style.css, status.json}
furtka/assets/bin/{furtka-status, furtka-welcome}
furtka/assets/systemd/furtka-{api,reconcile,status,welcome}.service
furtka/assets/systemd/furtka-status.timer
The installer now pulls each file from disk via _read_asset(). Byte-for-
byte identical output at install time — a fresh-ISO install should land
the same files in the same places with the same contents, verified by
tests/test_webinstaller_assets.py which reconstructs each base64 blob
and asserts equality against the on-disk asset.
iso/build.sh also copies furtka/assets/ next to the webinstaller source
at /opt/furtka/assets on the live ISO so _resolve_assets_dir() finds
them with a "next to me" lookup. In dev the same function walks two
levels up to the repo copy, so pytest works without any env vars.
furtka-status.sh drops the /etc/furtka/version TODO — it now reads
/opt/furtka/VERSION directly, which Slice 1b will upgrade to
/opt/furtka/current/VERSION once the symlink layout lands.
_FURTKA_WRAPPER_SH (the 5-line /usr/local/bin/furtka shim) stays inline;
it's tiny and not asset-shaped.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
