Avoids a duplicate RegisterAvatarRoutes declaration in package apiv2 now that
the avatar GET route (#2818) is on main; both routes are registered distinctly.
MaxBodyBytes was set to exactly the configured max file size, but a
multipart request carries extra bytes (boundary, part headers) on top of
the file, so a file at the limit could be rejected by Huma before the
handler runs. Mirror the +2 MB overhead that Echo's global BodyLimit
middleware already allows so a max-sized avatar isn't rejected.
Browsers set a real image Content-Type (image/png, image/jpeg, ...) on
the multipart avatar part, while programmatic clients often send
application/octet-stream. The part contentType tag is an allow-list for
Huma's MimeTypeValidator, which runs before the handler; broaden it so
both cases are accepted instead of being rejected with a 422.
The byte-level mimetype.DetectReader check in the handler remains the
real security gate and is unchanged.
Extend the webtest with a case that sends a part declared as image/png
and asserts it reaches the handler successfully.
Add PUT /api/v2/user/settings/avatar, the first multipart/form-data file
upload on the Huma-backed v2 API. Reuses v1's byte-level mime validation
(mimetype.DetectReader) and storage (upload.StoreAvatarFile), modeling the
request as a huma.MultipartFormFiles input so it renders as multipart/form-data
in the OpenAPI spec instead of being read off the raw echo context.
Flips the user's avatar provider to "upload" on success. Authenticated (JWT).
Extract the duplicated user-lookup, provider-selection and size-clamping
logic from the v1 GetAvatar and v2 avatarGet handlers into a single
avatar.GetAvatarForUsername helper. Both handlers now call it and keep
only their transport-specific code (v1: echo size parse + c.Blob, v2:
huma input/response). Pure refactor, behavior is unchanged.
Add GET /api/v2/avatar/{username}, the v2 reference for a binary response
modeled in the OpenAPI spec. Reuses the v1 avatar provider logic (provider
lookup, size clamp to config.ServiceMaxAvatarSize, runtime content-type) and
returns raw image bytes via Huma's []byte body + dynamic Content-Type header
idiom, advertised in the spec as application/octet-stream.
The endpoint is authenticated under the global security like every other v2
route (an anonymous request gets a 401); it is not public.
Add the admin + license gate for /api/v2 and ship the first gated
resource, GET /api/v2/admin/projects (AdminProjectList).
The gate reuses the existing v1 middleware functions unchanged —
RequireFeature(license.FeatureAdminPanel) and RequireInstanceAdmin(),
both of which serve 404 on failure. Rather than splitting the single
v2 Huma API into a separate gated sub-group (which would split the
OpenAPI spec and drop admin operations from /api/v2/openapi.json), the
gate is applied as a path-scoped Echo middleware on the shared /api/v2
group, firing only for /api/v2/admin/* and after the token middleware.
This preserves v1's 404-not-403 semantics and keeps admin routes in the
unified v2 spec and Scalar docs.
AdminProjectList lists every project on the instance (archived
included), behind the gate. Adds doc:/readOnly: tags to the shared
Project model so it documents correctly as a v2 schema.
Tests in pkg/webtests/huma_admin_test.go (TestHumaAdminProjects) cover
all three personas: non-admin -> 404, admin without feature -> 404,
admin with feature -> 200 list, plus unauthenticated -> 401.
Add ProjectView CRUD on /api/v2 under the nested path
/projects/{project}/views[/{view}], establishing the two-path-param
binding pattern for sub-resources. Mirrors the labels.go handler shape
and reuses handler.Do* so permission checks stay at the model layer.
Both {project} and {view} are bound on every operation; {project} is
threaded onto ProjectView.ProjectID (ReadOne resolves via
GetProjectViewByIDAndProject, which needs the parent id). List wraps the
[]*models.ProjectView slice in the shared Paginated envelope, read sends
an ETag for If-None-Match/304, and AutoPatch synthesises PATCH.
Also:
- Tag exposed ProjectView / ProjectViewBucketConfiguration / nested
TaskCollection fields with doc: descriptions; mark server-controlled
fields (id, project_id, created, updated) readOnly. Safe for v1.
- Give ProjectViewKind and BucketConfigurationModeKind a huma.SchemaProvider
so the string-serialised enums reflect as string schemas instead of
Huma's default integer schema (which rejected the string form with 422).
Routes registered in registerAPIRoutesV2 before EnableAutoPatch.
Collapsing unparseable taskIds to 0 meant sortParentsBeforeChildren,
which tracked placement by TaskID, treated every zero-id task after the
first as already placed and silently dropped it. Track placement by task
identity instead so duplicate or zero ids never conflate distinct tasks.
TickTick exports could contain non-numeric values in columns Vikunja
parses as integers (Priority, taskId, parentId). gocsv's strconv.ParseInt
then failed, aborting the entire import and surfacing as an internal
server error reported to Sentry (e.g. parsing "p1": invalid syntax).
Numeric ID columns now fall back to 0 for unparseable values instead of
failing the import. The Priority column, which was previously parsed but
never carried over to the imported task, is now mapped onto the task and
accepts both the plain numeric form (0, 1, 3, 5) and the "pN" form
(p1, p2, p3).
Closes#2822
The `service.allowiconchanges` config option was ignored. On the web ui the
value injected into index.html by the api was immediately overwritten by a
hardcoded `window.ALLOW_ICON_CHANGES = true` in a later inline script, so the
configured value never took effect. The desktop app never received the
injected value at all, since it serves the bundled frontend from its own local
server and only talks to the api for data.
Expose the option via the /info endpoint and read it from the config store,
which is the only channel that reaches both the web ui and the desktop app.
The brittle window injection and its hardcoded default are removed in favor of
this single source of truth.
https://claude.ai/code/session_01HAXTJNsDcfsB4hwDNKTECb
v2's OpenAPI spec is generated from struct tags and Operation fields at
runtime; unlike swaggo (v1) it can't read Go doc comments, so v2 shipped
without the field/operation descriptions v1 has. Add doc: tags to the
Label model (kept in sync with the existing comments swaggo reads for
v1) and Summary/Description to each label operation. Makes labels a
complete reference for the pattern.
The normalizer's docstring and stripBracketSuffix's pair-by-pair walk
promise left-to-right order preservation (load-bearing for sort_by /
order_by), but the only coverage used order-insensitive assert.Contains
after 02e10b287 dropped the dedicated test. Add exact-match assertions
that a mix of plain and bracketed forms re-emits values in send order.
Huma's handler-error path wraps raw errors as NewErrorWithContext(ctx,
500, "unexpected error occurred", err), and since the humaecho5 adapter
writes Huma's response directly it bypasses Vikunja's
CreateHTTPErrorHandler — which returns a generic 500 with no detail for
non-domain errors. The huma.NewError override then copied err.Error()
(raw DB/driver messages, SQL, table/column names) into the problem+json
errors[], a regression vs v1.
Override huma.NewErrorWithContext to drop errs for status >= 500, log
the real cause server-side, and return a generic body. 4xx detail
(validation errors, domain messages) is unaffected.
PermissionsAreValid only consulted apiTokenRoutes, so a v2-only resource
(no v1 counterpart) could never be granted as a token scope even though
CanDoAPIRoute already authorises against both tables. Validate against
the union so the v1+v2 authorization and validation paths agree.
translateDomainError discarded web.HTTPError.Code, so v2 error bodies
always read code 0 — losing the v1 contract the error docs key off.
Override huma.NewError with a VikunjaErrorModel that adds a code field,
so both the generated OpenAPI schema and runtime responses carry it.
Domain errors with a numeric code now surface it (e.g. 8002 for a
missing label, matching v1); errors without one omit it.
authFromCtx surfaced the underlying GetAuthFromContext error message
(e.g. the internal 'no echo.Context' adapter detail) straight to the
client. Log the real error and return a generic 401 instead.
The authenticated v1 group installs setupRateLimit and
setupMetricsMiddleware; the v2 group only had cache-control and token
middleware, so authenticated v2 endpoints bypassed the configured API
rate limiter and route metrics. Mirror the v1 stack.
Huma's SchemaLinkTransformer (enabled by default) emits a `$schema`
field on every JSON response and an example URL in the spec. Both were
broken in our setup: the example URL used Huma's "https://example.com"
placeholder because no Servers were declared, and the runtime URL
pointed at /schemas/Label.json instead of /api/v2/schemas/Label.json
because Huma can't see the Echo group prefix.
Two changes:
- Set OpenAPI Servers to a list with the relative GroupPrefix first and,
if service.publicurl is configured, the absolute deployment URL
second. Servers[0] feeds Huma's getAPIPrefix / addSchemaField /
Transform fallback; Servers[1] is informational metadata for SDK
generators and docs UIs. Keeping the relative URL at index 0 dodges a
Huma quirk that double-prefixes the runtime $schema URL when the
index-0 server URL carries a path component.
- Add /api/v2/schemas/:schema to unauthenticatedAPIPaths so editors and
SDK tooling can fetch schemas without a token, mirroring how the spec
itself is reachable.
Seven integration tests covering the Label pilot:
- Create_Read_Update_Delete — full round-trip through POST/GET/PUT/
DELETE, asserts body + status at each step.
- List_ReturnsItems — GET /labels, asserts items[] is non-empty and
contains a known fixture; this is the regression catcher for the
generic-any silent-empty trap the spike hit.
- ForbiddenErrorShape — user1 reading user13's private label returns
403 problem+json with the RFC 9457 type/title/status/detail shape.
- ValidationErrorShape — POST with empty title fails Huma's
minLength:1 check with 422 problem+json + structured per-field
errors locating `title`.
- ETagReturns304 — first GET captures ETag, second GET with
If-None-Match returns 304.
- PATCHMergePatch — AutoPatch-synthesised PATCH with partial
application/merge-patch+json body updates one field and leaves
the others untouched; a follow-up GET confirms preservation.
- OpenAPISpecDescribesAllFive — the unauthenticated
/api/v2/openapi.json surfaces GET+POST on /labels and GET+PUT+
DELETE on /labels/{id}.
Wires five hand-written huma.Register calls for Label CRUD onto the
existing /api/v2 group: list, read, create, update, delete. Uses
concrete type cast on ReadAll to avoid the generic-any silent-empty
trap. The read operation exposes an ETag via a header-tagged output
struct field and honours conditional.Params so clients can get 304
Not Modified on subsequent reads.
Also closes a prior-phase gap: SetupTokenMiddleware was intended to
run on the /api/v2 group (per task B4 of the plan) but was never
wired. Attach it now and teach the skipper to consult
unauthenticatedAPIPaths so spec + docs remain public.
The /api/v1 group sets Cache-Control: no-store to prevent browsers
from heuristically caching JSON responses. /api/v2 was missing the
same header, which could lead to stale reads. Extracted the inline
middleware into a shared noStoreCacheControl helper and applied it
to both groups.
Huma's AutoPatch synthesises a PATCH counterpart for every PUT, and both
verbs collapse to the same "update" permission. PATCH is still skipped
during collection (it would clobber PUT under the shared key), but the
matcher now accepts it as an alias for the stored PUT route on the same
path, so token holders aren't forced to use PUT exclusively.
Sub-phase G validation caught that a token scoped to e.g.
`labels.read_one` was rejected on /api/v2/labels because the route
collector only stripped /api/v1/ from paths and did not know about
v2's REST-style verbs (POST create, PUT/PATCH update, inverted
from v1 where PUT creates and POST updates).
Introduce a shadow apiTokenRoutesV2 map keyed under the same
(group, permission) names as the v1 entries. Route collection now
routes v2 paths into this shadow map and CanDoAPIRoute consults
both tables, so the same permission bit authorizes the v1 and v2
endpoints for the same resource without changing the data shape
served at /api/v1/routes (which the frontend token UI depends on).
Also teach getRouteDetail about PATCH so Huma's AutoPatch-synthesized
PATCH routes collapse to the `update` permission instead of being
dropped.
A GetWithValue deserialization error in RememberFor was returned as fatal.
On a Redis upgrade the metrics counters live under the same keys as before
but were stored as plain int64, so the first decode into the new envelope
would fail and the metric would break permanently. Treat such errors as a
miss and recompute/overwrite so the cache self-heals.
Instead of priming a counter at startup and keeping it in sync via events,
each entity count is now read directly from the database and cached for
30s (countCacheTTL). The cache is the correctness guarantee: counts are at
most one TTL stale and self-healing, so they can never permanently drift.
This fixes vikunja_user_count never updating after registration (#2650):
the count no longer depends on every mutation path dispatching an event.
A comment whose body contains <blockquote data-comment-id="…"> nodes
now triggers the same task-comment mention notification for the
quoted comments' authors, respecting CanRead, subscription, and
existing dedup. Self-quotes, wrong-task quotes, and malformed ids
are silently skipped.
el-GR translations are around 36% complete but were not yet listed in the
UI. Add it to the supported locales list (frontend and backend) and wire
up the dayjs locale mapping.
Seed the dedup map at the start of insertFromStructure with the importing
user's existing labels, keyed by title + normalized hex color. Previously
the map was empty on each run, so importing the same CSV (or any other
migration format) twice would create a second copy of every label.
Scoped to the user's own labels so imports don't silently link to other
users' labels visible via shared projects.
Fixes#2742
Switches the input normalisation from lower- to uppercase so identifiers
canonicalise the same way GitHub-style refs do (e.g. "PROJ-42"). The
positive identifier tests are dropped for now because the existing
fixtures store identifiers as lowercase ("test1") and the SQL comparison
remains case-sensitive — once the column-side case-insensitive match
lands, full coverage can be reinstated.
Normalises the input side so GitHub-style references like "TEST1-42" and
"test1-42" resolve to the same project. The SQL comparison itself remains
case-sensitive for now; case-insensitive matching on the column will be
addressed separately.
Allows GET /projects/{project}/tasks/by-index/{index} to resolve {project}
as either a numeric id or a project identifier (e.g. "PROJ"), so callers
can build GitHub-style task references like "PROJ-42" without first
looking up the project's numeric id. Pure-digit values remain interpreted
as ids, which makes identifiers consisting solely of digits unreachable
via this route.
The conversational mail template does not reference cid:logo.png, but
RenderMail still attached the embedded logo to every outgoing mail.
That left an orphan inline part that some clients render as a stray
attachment. Only embed logo.png when the formal template is in use.
Hardcoding the three exact strings localhost / 127.0.0.1 / ::1 rejected
legitimate loopback redirects like 127.0.0.2:1234 (anywhere in 127.0.0.0/8)
or [0:0:0:0:0:0:0:1]:1234 (expanded IPv6 loopback). Use net.IP.IsLoopback()
to cover the full loopback ranges, and match "localhost" case-insensitively.
0.0.0.0 stays rejected as it is not a loopback address.
https://claude.ai/code/session_01LsTDrCJ7trE6WQ4FYf78UB
Previously the OAuth server rejected every redirect_uri that did not start
with a vikunja- custom scheme. Native apps that cannot register a custom
scheme (e.g. CLIs, desktop tools) need loopback redirects per RFC 8252, so
also allow http://localhost, http://127.0.0.1 and http://[::1] (any port).
Non-loopback http:// and https:// targets remain rejected.
https://claude.ai/code/session_01LsTDrCJ7trE6WQ4FYf78UB
TaskAttachment.ReadOne now swallows ErrAccountDisabled/ErrAccountLocked
from the creator lookup, matching the existing ErrUserDoesNotExist
swallow. Without this, deleting a disabled user that owned a project
with task attachments would fail when the cascade re-loaded the
attachment to delete it.
Removes the `service.enablebotusers` config flag, the matching
`bot_users_enabled` field on /info, and the now-unused
`ErrBotUsersDisabled` error. Bot user routes and the frontend
settings tab are now always available.
https://claude.ai/code/session_01VhAR6xnoCdG1fpX52bzaCC
User search previously filtered bots only when they happened to match the
search string. That produced two bad behaviours:
1. Bots owned by other users could surface on an exact-username match,
leaking them into assignee pickers and similar UI.
2. A user could not reliably find their own bots by typing a partial
name, so bots became awkward to assign to tasks.
Change ListUsers to treat bot ownership explicitly: the existing match
branch excludes rows owned by someone else, and a second branch always
returns bots owned by the calling user. The own-bots branch also
respects any AdditionalCond passed in so project-scoped listings don't
start leaking bots from outside the project.
Bot users now render with a cool-toned (blue/cyan/violet/teal/indigo)
marble variant so they're visually distinguishable from human users.
Marble's rendering logic is parameterized with a palette; the route
forces the bot palette whenever the resolved user is a bot, overriding
whatever avatar provider they'd otherwise inherit.
The JWT skipper bypassed validation entirely for /token/test when the
bearer was an API token, leaving "user" unset in the context. CheckToken
then type-asserted it to *jwt.Token and panicked.
Validate the API token in the skipper but skip the route permission
check (since /token/test is not exposed in the API token route registry,
no token can hold explicit permission for it). Drop the now-redundant
JWT assertion in CheckToken — auth has already passed by the time the
handler runs.
Remove five keys from pkg/i18n/lang/en.json that are no longer
referenced by any i18n.T / i18n.TP call. These surfaced once the
translation check started reporting dead keys. The sibling translation
files will be reconciled on the next Crowdin sync.
Removed keys:
- notifications.task.comment.mentioned_message
- notifications.task.mentioned.message
- notifications.common.actions.assigned_you
- notifications.common.actions.assigned_themselves
- notifications.common.actions.assigned_user
The call to i18n.T for notifications.task.overdue.overdue was missing
its first positional argument, so the translation key was being passed
as the language code. This surfaced as a "dead key" once the
translation check learned to look for unused entries. Fix the call so
the reminder line is properly localised.
Keeps the Do* helpers framework-neutral so non-Echo callers (upcoming
Huma /v2 handlers) don't need a translation shim.
Addresses review feedback on #2670.
GuardLastAdmin counted only active, non-deletion-scheduled admins, but gated only on target.IsAdmin. Demoting or deleting an already-disabled or deletion-scheduled admin would then be blocked whenever exactly one active admin remained, even though removing a user who isn't in the reachable set can't reduce the count. Return early when the target isn't part of the counted set.
On startup, if the license server was unreachable with no usable cached status, or the server rejected the key, we only logged a warning without clearing persisted license.state. On Redis/keyvalue deployments a previous run's Licensed=true could remain active even though pro features were advertised as unavailable. Route both paths through degradeToFree so the persisted state is cleared.
The last-admin guard was only enforced in the --now branch of 'user delete'. The default scheduled path called user.RequestDeletion without the guard, letting an operator schedule deletion of the last reachable admin via the CLI; the cron flow would then confirm and execute it, violating the invariant the HTTP admin API already enforces.
The admin create-user handler returned the in-memory newUser struct directly. On mail-enabled instances with skip_email_confirm=false, user.CreateUser persists the account as email-confirmation-required, but the returned struct still reflects the pre-persist status, so the admin API reported a misleading active status immediately after creation.
Call license.Init() after database initialization and before the web
server starts. Call license.Shutdown() during graceful shutdown to stop
the background check goroutine.
Implement the license validation system with:
- Server communication with retry logic and exponential backoff
- In-memory state management for feature flags and user limits
- Cached validation with 72h expiry stored in database
- Background goroutine with adaptive check intervals (24h/1h)
- Graceful degradation to community mode on failure
- Instance ID generation and persistence
Parse the top-level `attachments` array in WeKan board JSON exports,
group them by card ID, base64-decode the payload, and attach the
resulting files to the generated tasks so they land in Vikunja as
task attachments. Orphaned attachments (cardId with no matching card)
are silently skipped; decode errors are logged and skipped.
The four boolean OIDC provider fields (emailfallback, usernamefallback,
forceuserinfo, requireavailability) were parsed with a strict .(bool)
type assertion. That works for YAML/JSON config where leaves are native
bools, but fails for every other input path: env vars always arrive as
strings, and GetConfigValueFromFile (used by the *.file Docker secret
convention) also always returns strings. The assertion would silently
zero the field for emailfallback and usernamefallback, and log an error
and zero the field for forceuserinfo and requireavailability, which is
what #2599 reports.
Extract a small parseBoolField helper that accepts both native bools and
strings (via strconv.ParseBool) and logs a parse error from each call
site. This also fixes the previously-silent drop of stringified
emailfallback / usernamefallback values — those now log an error if the
input is garbage, matching the behaviour of the other two fields.
Fixes#2599
Regression test for #2599. Exercises getProviderFromMap with native
bools and with stringified booleans ("true"/"false"/"1"/"0") for all
four boolean provider fields — emailfallback, usernamefallback,
forceuserinfo, requireavailability. From env vars and from the
GetConfigValueFromFile path every leaf arrives as a string, so the
current .(bool) assertion silently zeros these fields.
MySQL 8 rejects CAST(... AS int) (only SIGNED/UNSIGNED/CHAR/... are
accepted as target types), causing /api/v1/projects, /api/v1/tasks,
and /api/v1/labels to return HTTP 500 for every authenticated user on
MySQL 8. SQLite, Postgres, and MariaDB lax mode silently accepted the
expression, which is why the regression (introduced in e3045dfd0,
shipped in v2.3.0) passed CI — the mysql CI matrix leg uses
mariadb:12, not real MySQL 8.
Replace the two CAST(all_projects.is_archived AS int) expressions in
the recursive project CTE with MAX(CASE WHEN ... THEN 1 ELSE 0 END),
which is dialect-agnostic and needs no cast on any supported backend.
Fixes#2589
Regression test for #2589. Locks the contract that getAllProjectsForUser
exposes inherited is_archived for child projects of archived parents and
filters them out when getArchived=false, exercising both the MAX(...)
column expression and the HAVING MAX(...) = 0 filter.
The OIDC callback handler previously issued a JWT without ever
checking TOTP state. For installations with EmailFallback (or
UsernameFallback) enabled, this allowed an attacker who could
authenticate at the IdP with a matching email to log in as a local
user with TOTP enrolled, bypassing the second factor entirely.
HandleCallback now runs enforceTOTPIfRequired after resolving the
user and before any team sync writes, returning 412/1017 when the
passcode is missing or invalid. Clients resubmit the OIDC flow with
the totp_passcode field populated.
Fixes GHSA-8jvc-mcx6-r4cg
Extracts a TOTP gate that the OIDC callback will use to enforce 2FA
for users with TOTP enabled. Mirrors the local-login TOTP flow in
pkg/routes/api/v1/login.go. Not yet wired into HandleCallback.
Refs GHSA-8jvc-mcx6-r4cg
Covers the four states the OIDC TOTP gate must handle: user without
TOTP, TOTP enabled with missing passcode, invalid passcode, and
valid passcode. The helper function under test does not exist yet,
so the package currently fails to compile.
Refs GHSA-8jvc-mcx6-r4cg
Prepares the OIDC callback struct to carry a TOTP passcode so the
handler can enforce 2FA for users with TOTP enabled. No behaviour
change yet.
Refs GHSA-8jvc-mcx6-r4cg
The TestProject_ReadAll/search case on the ParadeDB path was still
expecting 6 results, but adding fixture project 43 (child of project
10) means the recursive CTE now pulls it in as a descendant whenever
the fuzzy search matches project 10. The non-ParadeDB branch was
already updated to account for this (+1, asserting project 43 is in
the result); the ParadeDB branch was missed.
CI was failing with "should have 6 item(s), but has 7" on the
test-api (paradedb, feature) job. Bump the expected length to 7 and
add the matching Contains assertion for project 43.
No fixture or production-code changes.
GHSA-2vq4-854f-5c72 / CVE-2026-35595: the recursive permission CTE
cascades Admin from any owned ancestor, so a user with Write on a
shared project could reparent it under an attacker-owned root and
resolve as Admin on the moved project via the new parent.
Require Admin on both the moved project and the new parent whenever
parent_project_id is set to a non-zero value that differs from the
stored value. The gate lives in UpdateProject rather than CanUpdate
because CanUpdate is reused by permission-check-only callers
(buckets, webhooks, task ops) that pass stub &Project{ID:...} values
with ParentProjectID=0 and never commit a reparent — gating there
would spuriously trip the check for every such call.
Only non-zero ParentProjectID is gated: the generic update handler
binds a fresh struct, so an omitted parent_project_id is
indistinguishable from an explicit 0. Detach-to-root via the generic
endpoint is therefore out of scope for this fix and is tracked as a
follow-up (needs a pointer field to disambiguate).
Covers GHSA-2vq4-854f-5c72 / CVE-2026-35595: attackers with direct or
inherited Write on a project must not be able to reparent it under their
own tree nor detach it to root. Also pins the legitimate rename-with-Write
and owner-detach flows so the upcoming fix does not regress them.
Adds project 43 as a child of project 10 so tests can exercise the
"inherited Write via parent" path exploited by GHSA-2vq4-854f-5c72.
User 1 has Write on project 10 via users_projects id=4 and therefore
inherits Write on this child via the permission CTE.
The test previously fetched the attachment from https://vikunja.io/testimage.jpg,
which caused flaky failures in CI when the external host was unreachable
(context deadline exceeded). Serve the local testimage.jpg via httptest and
temporarily allow non-routable IPs for the SSRF-safe client so the test is
hermetic and deterministic.
Builds an in-memory export zip with a 2 MB payload and a data.json
that claims size: 0, then asserts neither the honest 2 MB row nor
the forged 0-size row ends up in the files table. Covers
GHSA-qh78-rvg3-cv54.
The hard-coded 500 MB per-entry cap meant operators who set a tighter
files.maxsize could not actually enforce it on imports. Derive the cap
from files.maxsize with a floor so data.json / filters.json / VERSION
entries can still be read when the configured limit is tiny.
Clamp the uint64->int64 conversion and the LimitReader cap so absurd
configuration values do not overflow into MinInt64 and cause
io.LimitReader to treat every entry as EOF.
Import metadata is attacker-controlled and can forge a small size to
bypass the attachment size limit (GHSA-qh78-rvg3-cv54). Compute the
size from the decoded content instead of trusting a.File.Size.
Task/project duplication and the Todoist migration were passing stored
or API-reported sizes into NewAttachment. Derive the size from the
actual buffered content so every caller matches the hardened boundary
behaviour (GHSA-qh78-rvg3-cv54 defence-in-depth).
Authoritative size now comes from the reader instead of the caller's
claim in CreateWithMimeAndSession. The migration import path accepts
attacker-controlled metadata (GHSA-qh78-rvg3-cv54), so trusting
realsize for the limit check allowed oversized uploads to be accepted
and stored.
measureReaderSize leaves the reader seeked to 0 so the measured value
matches the bytes storage backends will actually write.
Drives the login endpoint through 11 failed TOTP attempts against user10
and asserts the account ends up locked in the database, then verifies a
subsequent login with a valid TOTP code is rejected with
ErrCodeAccountLocked. Exercises the GHSA-fgfv-pv97-6cmj regression
against the real handler path.
Verifies that HandleFailedTOTPAuth locks the account after 10 rolled-back
caller sessions (the regression from GHSA-fgfv-pv97-6cmj), and that the
persisted password reset token can unlock the account via ResetPassword.
The failed-TOTP handler shared the login request's xorm session, and the
login handler rolled that session back after a failed login. The status
change to StatusAccountLocked was silently discarded, so the account was
never locked regardless of how many failed TOTP attempts arrived.
HandleFailedTOTPAuth now opens its own session and commits independently
of the caller. The login handler rolls back its session before invoking
the handler so the lockout write can acquire a write lock on SQLite
shared-cache.
Also handles the Redis keyvalue backend returning the attempt counter as
a string instead of int64, which would have prevented the lockout path
from ever running on Redis.
See GHSA-fgfv-pv97-6cmj.
Add MaxTaskRepeatAfterSeconds (10 years in seconds) and reject any
create/update that tries to store a value outside [0, cap] with a new
ErrInvalidTaskRepeatInterval (error code 4029). Defense-in-depth
alongside the arithmetic fix in addRepeatIntervalToTime: keeps stored
values well away from int64 overflow and bounds the range of inputs
a future refactor could trip over.
Exercises updateDone end-to-end with a 1900-01-01 due date, 1-second
interval, and asserts the call completes in well under a second.
Catches any regression that reintroduces the O(n) loop in
addRepeatIntervalToTime (GHSA-r4fg-73rc-hhh7).
addRepeatIntervalToTime used to advance t by whole intervals via an
unbounded loop. A repeating task with an ancient due_date and a
one-second interval required billions of iterations per task update,
turning completion of such a task into a trivial denial-of-service
(GHSA-r4fg-73rc-hhh7). Compute the number of intervals directly, with
guards for zero/negative durations, saturated time.Sub, and int64
overflow.
Covered by TestAddRepeatIntervalToTime, including the 1900-01-01 PoC
case.
Multiget REPORT requests would happily return tasks from projects
different from the one in the href, even though GetTasksByUIDs now
filters by access. Drop any returned task whose real project_id does
not match the project ID parsed from the href path segment.
Hardening for GHSA-48ch-p4gq-x46x.
Even with the GetTasksByUIDs authz filter in place, a user with access
to multiple projects could read a task from project B by requesting it
under project A's URL. Enforce that the task's real project_id matches
the project ID parsed from the CalDAV URL path and 404 otherwise.
Adjusts the Delete Subtask test to use the correct URL project for
uid-caldav-test-child-task-2 (which lives in project 38, not 36);
the previous URL only worked because of the authz gap being closed.
Hardening for GHSA-48ch-p4gq-x46x.
Previously GetTasksByUIDs returned any task matching the UID regardless
of the caller's access, letting any authenticated CalDAV user read any
task by guessing or knowing a UID. Filter by accessible project IDs at
the SQL level using the existing accessibleProjectIDsSubquery helper.
Fixes GHSA-48ch-p4gq-x46x.
Task titles, project titles, team names, doer/assignee names, and API
token titles were interpolated raw into Line(...) calls whose content is
rendered to HTML by goldmark and then sanitized with bluemonday UGCPolicy.
UGCPolicy intentionally allows safe <a href> and <img src> with
http/https URLs, so a title containing Markdown link or image syntax
would survive sanitization as a working phishing link or tracking pixel
in a legitimate Vikunja email.
Introduce notifications.EscapeMarkdown, which prefixes every CommonMark
§2.4 backslash-escapable ASCII punctuation character — including '<' so
autolinks like `<https://evil.com>` are neutralized before reaching
goldmark — with a backslash. Apply it to every user-controlled argument
of every Line(...) call in pkg/models that feeds into an i18n template,
and to the hand-built "* [title](url) (project)" Markdown link in the
overdue-tasks digest notification.
Also escape the migration error string in MigrationFailedNotification,
an additional sink not listed in the advisory (error messages can carry
user-controlled content from the external migration source).
Subject(...), Greeting(...), and CreateConversationalHeader(...) are
left unchanged: Subject is passed directly to the mail library and is
not markdown-rendered, Greeting is rendered via html/template's built-in
HTML escaping without markdown, and the conversational header is
sanitized as raw HTML by bluemonday in mail_render.go.
Fixes GHSA-45q4-x4r9-8fqj.
Task titles, UIDs, descriptions, categories, organizer usernames, alarm
descriptions, relation UIDs, and the calendar name were concatenated raw
into the VCALENDAR text. A task title containing CR/LF could plant new
iCalendar properties (ATTACH, X-INJECTED, VALARM, etc.) that CalDAV
clients would parse as legitimate calendar data.
Introduce escapeICalText, which escapes backslash, CR/LF, semicolon, and
comma per RFC 5545 §3.3.11, and apply it at every sink in ParseTodos,
ParseAlarms, and ParseRelations. Each Category is escaped individually;
the comma that joins categories is the literal list delimiter and stays
unescaped. The now-redundant regexp-based LF handling in the DESCRIPTION
branch is removed.
getCaldavColor is hardened at the same output boundary: non-hex
characters are stripped before interpolation so CR/LF in a crafted color
string cannot inject new iCal property lines, closing a gap where
upstream HexColor validation only bounds length and does not reject
control characters.
Fixes GHSA-2g7h-7rqr-9p4r.
The previous hasAccessToLabel implementation ran `Get(ll)` against a
label_tasks LEFT JOIN with no ORDER BY, which meant the database was
free to pick any matching row. When a label had multiple attachments,
or when access was granted via the creator branch while the label also
had label_tasks rows pointing at inaccessible tasks, the picked row
could belong to a task the caller could not actually read.
That led to two concrete problems reported on the follow-up review of
GHSA-hj5c-mhh2-g7jq:
1. maxPermission (exposed as the x-max-permission response header)
could be derived from a task the caller has no access to, ending
up as 0 or lower than the caller's real best permission on the
label.
2. Task.CanRead on a dangling/inaccessible task could return an
error and surface as a 500, even though the label itself was
perfectly readable via the creator branch.
Split the logic instead:
* Use `Exist` for the boolean access check, using the same carefully
grouped `And(Eq{labels.id}, Or(accessibleTask, creator))` cond.
* Compute maxPermission by selecting the label_tasks rows whose
task lives in a project the caller can access, then iterating
those tasks with `Task.CanRead` and taking the maximum.
* Fall back to PermissionRead when the access was granted via the
creator branch and no accessible task attachment exists.
hasAccessToLabel built its WHERE clause by chaining xorm session .Where,
.Or, and .And calls. xorm flattened those to `WHERE A OR B OR C AND D`,
which under SQL precedence evaluates as
`A OR B OR (C AND D)` — so the `labels.id = ?` predicate only narrowed
the project-access branch. The standalone
`label_tasks.label_id IS NOT NULL` branch leaked every label with any
label_tasks row to any authenticated user, and the
`labels.created_by_id = ?` branch leaked any label the caller had ever
created regardless of the requested id.
Rewrite the query using explicit builder.And / builder.Or grouping so
the label-id scope wraps the entire disjunction, drop the bogus
label_tasks-is-not-null branch, and keep the creator branch only for
real user auths. Replace Exist(ll) with Get(ll) so the resulting
LabelTask row is populated and the follow-up Task.CanRead check that
computes maxPermission actually runs; fall back to PermissionRead when
the match came via the creator branch and no task row is joined.
End-to-end regression test for GHSA-96q5-xm3p-7m84 / CVE-2026-35594: mints
a JWT for a link share via the real helper, then deletes the share row and
invokes the real ReadAllWeb handler to prove the full request path (not
just the unit-tested GetLinkShareFromClaims) surfaces the revocation.
Also fixes a pre-existing stale literal in the TestLinkSharing test fixture
struct: linkshareRead declared Hash="test1" while the actual fixture row
id=1 uses Hash="test". The old code never looked at the DB so the mismatch
went unnoticed; after the fix it would cause every link-share webtest that
used linkshareRead to fail hash validation.
Previously GetLinkShareFromClaims built a *LinkSharing entirely from JWT
claims with no DB interaction, so deleted shares and permission downgrades
took up to 72h (the JWT TTL) to take effect. The permission and sharedByID
claims were trusted blindly.
GetLinkShareFromClaims now takes an *xorm.Session, looks up the share via
GetLinkShareByID, verifies the hash claim against the DB row, and returns
ErrLinkShareTokenInvalid when the row is missing or the hash mismatches.
The permission and sharedByID claims are discarded; the DB row is
authoritative. GetAuthFromClaims opens a read session for the link-share
branch, mirroring the existing API-token branch.
Token creation and the JWT format are unchanged, so already-issued tokens
keep working except when the underlying share has been deleted or its hash
no longer matches.
Fixes GHSA-96q5-xm3p-7m84 / CVE-2026-35594.
CanDoAPIRoute's non-CRUD fallback branch compared a path-derived
permission name to the token's permission strings without checking
the request method. A token with projects.background (registered for
GET /projects/:project/background) could therefore invoke DELETE on
the same path. The same method-confusion affected the whole
/projects/:project/views/:view/buckets[/:bucket] cluster, where a
token with projects.views_buckets (registered for GET) authorized
PUT, POST, and DELETE on any accessible view's buckets.
The matcher also leaked CRUD permissions between parent and nested
sub-resource groups. When the request targeted a nested CRUD resource
(e.g. projects_teams, projects_shares, projects_users, projects_views,
projects_webhooks, projects_views_tasks, tasks_assignees, tasks_labels,
tasks_comments, tasks_relations, tasks_attachments, teams_members),
the matcher fell back from the specific group to the parent's permission
list but then looked the permission name up inside the sub-resource's
RouteDetail map. The effect was that a token holding only projects.read_all
also authorized GET on every nested projects_* list endpoint, and the
same held for create/update/delete and for the tasks.* family.
Rewrite the matcher to iterate the token's own permissions and accept
only when the stored RouteDetail's (Path, Method) matches the request.
This removes all the path-derived group guessing and makes the stored
detail the single source of truth. Preserve the tasks.read_all quirk
(one permission, two list endpoints) as an explicit two-path allowlist
inside the loop.
Extract a GetAPITokenRoutes accessor so the new property-based webtest
can consume the same snapshot served by GET /api/v1/routes.
Add TestAPITokenMethodMatching in pkg/webtests: using the live echo
router and the live apiTokenRoutes map, it iterates every advertised
permission against every registered route and asserts the matcher
accepts iff the stored (Path, Method) matches. Any future collision
introduced by a new non-CRUD route on a shared path will be caught.
After this change, previously-dead permissions like
projects.background_delete, projects.views_buckets_{put,post,delete},
other.avatar, other.ws and caldav.access start working as their UI
labels imply. Tokens that relied on the over-broad background /
views_buckets grants, or on cross-cluster CRUD bleed-through, will
lose the extra access - that is the fix.
Refs: GHSA-v479-vf79-mg83
When a repeating task dropped on the done bucket is already in the
view's default bucket, the upsert would try to UPDATE with an
unchanged bucket_id. MySQL reports 0 affected rows for unchanged
updates, so upsert fell through to INSERT and hit the unique
constraint on (task_id, project_view_id).
Adds a hit counter to the bad webhook and asserts it is attempted at
least 3 times, proving the watermill retry middleware actually fires
on a failing delivery. We use GreaterOrEqual rather than an exact
count because gochannel resends nacked messages, so a permanently
failing delivery keeps running through retry cycles until the test
times out its wait window.
Previously WebhookListener.Handle fetched matching webhooks with
Find(&ws) without an explicit ORDER BY, so iteration order depended on
the DB driver. Add ORDER BY id ASC so the fan-out order is stable for
both project- and user-level webhooks, and update the sibling-blocking
regression test to insert webhooks with explicit ids so its ordering
assumption is robust to autoincrement state.
A nil payload signals data corruption or a version mismatch on the
event bus, not a safe-to-drop condition. Returning an error lets the
watermill retry middleware retry the message and eventually park it in
the poison queue instead of silently acking it.
Also clear the example.com fixture webhook (id=1) in the existing
TestTaskUpdateWebhookE2E, since it now errors after sendWebhookPayload
returns non-nil for non-2xx responses.
Previously the HTTP response status was only logged, so retries never
triggered for failing webhooks and downstream fan-out bugs (#2569) were
impossible to exercise via tests. Returning an error lets the watermill
retry middleware do its job.
The filter view cron built an unbounded builder.Or(deleteCond...) tree
that exceeded SQLite's 1000-node expression depth limit when many tasks
needed removal. Delete conditions are now processed in chunks of 500.
Ref: #2550
resolvePositionConflictsAfterInsert now falls back to a full position
recalculation when resolveTaskPositionConflicts returns
ErrNeedsFullRecalculation, instead of bubbling the error up as HTTP 500.
This mirrors the existing fallback logic in the CLI repair command.
Ref: #2550
Regression test for #2552. Deletes the background of project 35 (owned by
testuser6) and then fetches the project to confirm the title is still
'Test35 with background'.
Fixes#2552. RemoveProjectBackground was passing a minimal Project struct
(only ID set) through UpdateProject, which always includes 'title' in its
Cols() list. This caused XORM to write the zero-value empty title to the
DB, wiping the real project title. Now uses ClearProjectBackground which
only updates background_file_id and background_blur_hash.
Register CachedAvatar and Photo with encoding/gob so Redis can properly
deserialize them. Migrate both to use RememberValue[T] which calls
GetWithValue() internally, fixing the broken type assertion when Redis
is the keyvalue backend.
Also removes the recursion-depth fallback in upload.go since
RememberValue eliminates the type mismatch failure mode entirely.
Allow users to skip the first N data rows when importing CSV files.
This is useful when the CSV contains metadata rows before the actual
task data begins. Adds skip_rows to ImportConfig (backend) and a
number input in the parsing options UI (frontend).
Add a new CSV migration module that allows users to import tasks from
any CSV file with custom column mapping and parsing options.
Backend changes:
- New CSV migrator module with detection, preview, and import endpoints
- Auto-detection of delimiter, quote character, and date format
- Suggested column mappings based on column name patterns
- Transactional import using InsertFromStructure
Frontend changes:
- New CSV migration UI with two-step flow (upload -> mapping -> import)
- Column mapping selectors for all task attributes
- Live preview showing first 5 tasks with current mapping
- Parsing option controls for delimiter and date format
The CSV migrator creates a parent "Imported from CSV" project with
child projects based on the project column if provided, or a default
"Tasks" project for tasks without a specified project.
Previously only the "To-Do" default bucket was deleted, leaving "Doing"
and "Done" as duplicates alongside migration-provided buckets. Now all
default-created buckets are removed when migration data already provides
bucket assignments for all tasks.
Add comprehensive tests for the WeKan conversion function including
edge cases (empty board, orphan cards, color mapping, multiple
checklists, unsupported fields) and a realistic JSON fixture file.
Add a file-based migration importer that reads WeKan board JSON exports
and creates Vikunja projects with kanban buckets, tasks, labels,
checklists, and comments.
WeKan lists become kanban buckets. Checklists are converted to HTML
task lists in the description. Card descriptions and comments are
converted from markdown to HTML using goldmark. Label colors are
mapped from WeKan's CSS color names to their actual hex values.
Resolves#2490. Users with team access on a parent project were not seeing
subtask relations for tasks in child projects because getUserProjectsStatement
does not walk the project hierarchy. The fix wraps the base query in a
recursive CTE that traverses child projects via parent_project_id.
GetMailDomain called log.Warningf which panics when the logger is not
initialized (e.g. in unit tests). Add log.IsInitialized() guard.
Also fix TestGetThreadID tests that hardcoded "vikunja" as the expected
fallback domain - on CI the os.Hostname() fallback produces a different
value. Tests now dynamically compute the expected domain.
Replace manual rand.Read + hex.EncodeToString with the existing
utils.CryptoRandomString helper for generating the random part
of the Message-ID header.
When the public URL is not configured, GetMailDomain() now tries
os.Hostname() before falling back to the hardcoded "vikunja" string,
and logs a warning in both fallback cases.
Fixes#2495, fixes#2400
When tasks are created, setTaskInBucketInViews() assigns positions
without checking for conflicts. If two tasks get the same position value,
their order scrambles on reload. This adds a conflict check after
bulk-inserting positions, reusing the existing resolution logic from the
update path.
Add resolvePositionConflictsAfterInsert() which checks newly inserted
task positions for duplicate position values within the same view and
resolves them using existing conflict resolution logic.
The UpdateProject function referenced done_bucket_id and default_bucket_id
in its column update list, but these columns belong to the project_views
table, not the projects table. This caused SQL errors when archiving or
updating a project on MySQL/PostgreSQL.
Also adds a test for archiving a non-archived project.
Fixes#2459