Three UI cleanups against the admin/browse chrome.
Red admin-mode frame (shared/elevation.css)
Was: body { outline: 3px ... ; outline-offset: -3px } — an outline
doesn't reflow content, so in tools that butt their content to the
viewport edge (browse split-pane, archive grid) the frame painted
on top of the first 3px of content.
Now: body.is-elevated::after { position:fixed; inset:0; border:3px;
pointer-events:none; z-index:9200 }. The frame lives in its own
fixed layer above all content, so it never overlaps or steals
clicks; content layout is unchanged.
Project-stage strip (Archive · Working · Staging · Reviewing)
Low-value chrome. Removed entirely:
- delete shared/nav.js + shared/nav.css
- drop the include from every tool's build.sh
(browse, transmittal, form, archive, landing, tables, classifier)
- delete tests/nav.spec.js
- rebuild tables.html (the //go:embed'd baked-in copy)
Project navigation already happens through the directory tree in
browse and the URL bar; the strip duplicated breadcrumb information
without adding capability.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Four targeted test suites that pin the invariants exercised by the
preceding audit refactor. Closes the coverage gaps identified after the
admin-decider consolidation and the .zddc write-path fix.
internal/policy/principal_test.go (NEW)
TestAllowActionFromChainP_TruthTable — 11 cases × 5 actions = 55
assertions covering every (elevated × admin-at-level × action)
combination. Pins the IsActiveAdmin short-circuit: bypass requires
BOTH (in admins) AND Elevated; elevation alone confers nothing;
empty email never matches.
TestAllowActionFromChainP_AdminScopeDepth — root admin reaches every
path; subtree admin matches in their own subtree; subtree admin
does NOT match in a sibling subtree (the chain doesn't carry
sibling admins lists).
TestAllowActionFromChainP_BypassWinsOverWorm — elevated admin
escape hatch in WORM zones, plus the negative control that an
un-elevated admin does NOT bypass WORM.
internal/handler/auth_invariants_test.go (appended)
TestInvariant_ZddcPutMatrix — 16 sub-cases across (root / project /
subtree .zddc) × (root admin / subtree admin / non-admin /
anonymous) × (elevated / un-elevated). Locks down which principal
can PUT which .zddc.
TestInvariant_ZddcDeleteMatrix — 5 DELETE cases.
TestInvariant_UnelevatedAdminNoSilentBypass — 14 anti-bypass probes:
every (admin-flavour × probe-path) tuple where an un-elevated
admin must 403. Single bypass leak → loud test failure.
cmd/zddc-server/main_test.go (appended)
TestDispatchZddcWriteRouting — full dispatcher path coverage:
GET/HEAD route to ServeZddcFile (YAML or virtual placeholder);
PUT/DELETE route through the .zddc-leaf carve-out into
ServeFileAPI; intermediate .zddc.d/ segments still 404 at the
guard.
internal/handler/middleware_test.go (appended)
TestAccessLog_ChainAdminLevelAttribution — 7 cases pinning the
forensic record: root admin → chain_admin_level=0, subtree admin
in scope → chain_admin_level=N, subtree admin out of scope → -1,
un-elevated admin → -1, non-admin → -1, anonymous → -1.
Cross-checks active_admin == (chain_admin_level >= 0) so a future
refactor can't desync them.
92 new sub-cases total. Coverage delta on the policy package:
76.1% → 87.2%; AllowActionFromChainP 0% → 100%;
activeAdminForRequest 7% → 68%.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Single audit pass that removes pre-release back-compat, consolidates the
admin-policy decider, and fixes the .zddc write path.
Field removal — acl.allow / acl.deny:
- Drop ACLRules.Allow / Deny struct fields and mergeLegacyACL().
- Remove walker / lookups / validate / decider branches that read them.
- Migrate every test fixture (YAML strings and ACLRules struct literals)
to acl.permissions: { principal → verb-set }.
- Rewrite both bundled Rego policies (access.rego, access_federal.rego)
to traverse level.acl.permissions; rewrite parity-test helpers.
- Update create-project form (profile page) to collect permissions
instead of allow/deny lists.
Admin decider consolidation:
- Delete zddc.CanEditZddc — strict-ancestor rule retired. Subtree admins
own their own .zddc; the policy decider's IsActiveAdmin short-circuit
is the single bypass site.
- Migrate tablehandler.ServeTable to AllowActionFromChainP — closes the
same Forbidden bug already fixed for /browse.html.
- Drop AccessView.EditableParentChoices and treeEntry.CanEdit (always
true after the retirement). Profile page renders AdminSubtrees
directly for both lists.
- Drop the excludeLeaf parameter from AdminLevelInChain /
IsAdminForChain — no production caller passed true.
Dead code removed:
- policy.AllowWriteFromChain (zero production callers, zero tests).
- zddc.AllowedWithChain (zero production callers; tests deleted).
ModeStrict retirement — federal posture is OPA-only:
- Delete cascade_mode.go / cascade_mode_test.go and the ModeStrict
branches in cascade.go and acl.go.
- Drop --cascade-mode flag, CascadeMode config field, and the
InternalDecider.Mode field.
- Drop the mode parameter from every cascade helper:
GrantedVerbsAtLevel, AllowedAction, EffectiveVerbs,
EffectiveVerbsRange, RoleMembers, MatchesPrincipal,
MatchingPrincipals, WormZoneGrant, PolicyChain.VisibleStart.
- Strip cascade_mode from /.profile/config and
/.profile/effective-policy responses.
- Refresh README / ARCHITECTURE.md to describe federal posture as
"deploy OPA with access_federal.rego" (NIST AC-6); the bundled Rego
is the parent-deny-is-absolute variant. The in-process Go evaluator
implements only the commercial cascade.
Legacy redirects + .admin.css fallback:
- Drop /<dir>/.zddc.html → ?file=.zddc redirect and its test.
- Drop ?zip=1 retired comment + legacy test (handled by the
.zip virtual-URL path; covered by TestServeSubtreeZip).
- Drop .admin.css fallback in profile_assets.go — only .profile.css now.
- Refresh stale "retired" / "back-compat" / "legacy" comment markers.
.zddc write path fix:
- Dispatcher: route only GET/HEAD on .zddc URLs to ServeZddcFile; carve
.zddc out of the dot-prefix guard so PUT/DELETE/POST reach
ServeFileAPI. Before this, .zddc writes 405'd at ServeZddcFile and
the YAML editor's save flow had no live path.
- ServeFileAPI.resolveTargetPath: same .zddc-leaf carve-out so the file
API accepts the path; intermediate dot dirs (.zddc.d/) stay reserved.
- Listing: compute Writable per-file with ActionAdmin for .zddc
(matches the file API's gate) instead of ActionWrite for everything.
- Virtual .zddc placeholder: compute Writable via the same
parentActiveAdmin || ActionAdmin path. Was always false before.
- browse YAML editor canSave: exempt virtual .zddc — the synthetic
body is designed to materialize on PUT.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
The audit log now records WHICH chain level conferred admin
authority on each request — 0 for root super-admin, N for a
subtree admin at depth N, -1 for no admin authority. Forensics can
now distinguish:
elevated=true active_admin=true chain_admin_level=0
→ root super-admin acting
elevated=true active_admin=true chain_admin_level=3
→ subtree admin at /<project>/<sub>/<dir>/.zddc acting
elevated=true active_admin=false chain_admin_level=-1
→ opted into admin but no grant on this path (out of scope)
New helper zddc.AdminLevelInChain returns the level index (or -1);
IsAdminForChain becomes a thin wrapper. Middleware's
activeAdminForRequest is rewired to return the level so the audit
emission gets the attribution without double-walking the cascade.
Pre-existing TestServeProfileProjectsCreate's "no .zddc unless body
supplies fields" expectation flipped — the project-create flow now
always seeds admins: [creator] so the test asserts the new
contract.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
The rule said: an admin granted in /<dir>/.zddc can edit deeper
.zddc files but NOT the one that grants their own authority.
Intended to prevent self-elevation, peer-addition, and delegator-
removal.
Three problems:
- "Add peers" isn't an attack — it's the common collaboration case.
Project creator can't grant a teammate access without bothering a
super-admin every time.
- "Remove the delegator" doesn't work. Root admin authority lives
in the ROOT .zddc and cascades down regardless of what's in
/<dir>/.zddc; subtree admins can't touch it.
- "Self-elevation" within a subtree is meaningless. They already
have rwcda there.
Replacement model: admins in /<dir>/.zddc OWN /<dir>/ and everything
beneath, including the .zddc itself. They can add collaborators,
modify ACLs, even remove themselves. Self-removal is a recoverable
footgun — root super-admins always retain authority via the root
cascade and can restore.
What stays:
- The admins: field as a load-bearing key (drives IsActiveAdmin
+ sudo-style elevation + WORM bypass).
- Bootstrap via root .zddc hand-editing.
- IsAdminForChain(chain, email, excludeLeaf bool) signature —
ModeStrict / NIST AC-6 deployments can still opt into the strict-
ancestor walk if they need it.
Tests flipped to match the new contract; ProjectCreate flow now
gives the creator real control over their project root.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
The /.profile/projects endpoint previously refused anyone without
hasAnyAdminScope. Now it runs the standard decider with ActionCreate
on the parent directory — super-admins still pass via the
IsActiveAdmin bypass branch, and anyone the root .zddc grants `c`
to (e.g. `*@example.com: c`) can self-service a project without
needing an existing admin grant.
Other changes in this commit:
- The new project's .zddc is seeded with the creator's email in
admins: when the request body doesn't supply one — they become
subtree admin of their own project at birth. .zddc edits in
deeper subfolders flow through their authority; strict-ancestor
rule still prevents them from editing /<project>/.zddc itself.
- AccessView gains can_create_project, computed by the same decider
call the endpoint uses — UI and server agree on visibility with
no daylight.
- Profile page splits the subtree-admin template from the create-
project template so the latter mounts on can_create_project,
independent of has_any_admin_scope. Non-admin grantees see the
form; admins keep seeing both.
- Lock-in tests cover the five interesting cases: cascade-granted
user succeeds and becomes subtree admin; stranger gets 404;
elevated super-admin auto-defaults admins; explicit admins list
wins over the default; duplicate-name 409.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Reads (apps resolution, directory listing, file GET, archive index,
profile pages, subtree zip, form render) used policy.AllowFromChain
with email — no admin-bypass branch fired even for elevated admins,
because IsActiveAdmin only landed in AllowActionFromChainP.
Symptom: elevated admin navigating to /browse.html got 403 because
the root cascade has no explicit read grants in my refactored root
.zddc (role memberships + admins only; no acl.permissions). The
app-resolution path's AllowFromChain didn't see admin status.
Fix: new policy.AllowFromChainP that forwards to
AllowActionFromChainP(action=read). Migrate every read-path caller
to the principal-aware variant. The decider's single bypass branch
now fires uniformly across read and write decisions.
Migrated:
cmd/zddc-server/main.go (9 sites)
handler/directory.go (1)
handler/archivehandler.go (2)
handler/zddcfile.go (1)
handler/formhandler.go (3)
handler/projectshandler.go (1; EnumerateProjects sig takes Principal)
handler/subtreezip.go (1)
fs/tree.go (1; uses already-built principal)
profilehandler.go:400 stays on AllowFromChain — it probes ACL for a
DIFFERENT email (the enumeration target, not the request principal),
so admin bypass on the request's principal doesn't apply.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Listing JSON gains a writable bool per file row, computed by running
the policy decider with ActionWrite against the parent-dir chain
(with the same admin-bypass branch the file API uses). Cost: one
extra decider call per file in the listing, sharing the parent
chain so the cascade walk is amortized.
Browse loader stores writable on every tree node. The markdown and
YAML editors read it and gate their canSave + initial mount:
- !writable markdown → Toast UI Viewer (rendered, no edit toolbar,
no caret). Banner above explains why save is disabled.
- !writable YAML → CodeMirror readOnly:'nocursor' (selection for
copy, no caret). Banner above explains why save is disabled.
Both editors gain autofocus:false so keyboard nav in the browse
tree doesn't divert into the editor — arrow keys keep moving through
files and folders without the caret jumping. User clicks (or tabs)
into the editor when they actually want to type.
.zddc files already route through preview-yaml's isZddcFile path;
bare .zddc (no ext) matches because that function checks the
literal name.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Five identical 'if !zddc.IsAdmin { 404 }' guards on /whoami /config
/logs /effective-policy /reindex collapse to a single adminOnly
closure inside ServeProfile. Behavior unchanged — same 404-leakage
property, same elevation-gated authority — just one site to audit
instead of five.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
The access log now reports whether the elevated user actually held
admin authority on the request's target path — i.e., whether the
single bypass branch in policy.InternalDecider.Allow would have
fired here. Three states fall out:
elevated=false, active_admin=false: normal user
elevated=true, active_admin=false: opted into admin but no admin
grant on this path (subtree-
admin out of scope)
elevated=true, active_admin=true: admin authority active for
this path — WORM/ACL bypass
Implementation: AccessLogMiddleware gains a cfg parameter and calls
activeAdminForRequest at log emission, walking the closest existing
ancestor (same logic the file API uses to build its ACL chain).
The cascade is mtime-cached upstream so the per-request cost is one
map lookup in the common case.
Audit value: a reviewer can spot at a glance whether a destructive
write was authorized by ACL or by admin bypass. Plus "elevated=true
active_admin=false" rows surface users who tried to elevate outside
their actual scope.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
authorizeAction (file API) and executePlanReview both used to make
their own IsAdmin / IsSubtreeAdmin / CanEditZddc calls before falling
through to the decider. After this commit every admin/elevation
branch is in policy.InternalDecider.Allow — the handlers just call
AllowActionFromChainP with the principal and let the decider decide.
fileapi.go authorizeAction:
- ~60 lines → ~20 lines.
- Three early-outs (IsAdmin / IsSubtreeAdmin / CanEditZddc) removed.
- .zddc strict-ancestor rule preserved: AllowActionFromChainP detects
action == ActionAdmin (serveFilePut tags .zddc writes that way) and
applies excludeLeaf=true to IsAdminForChain.
planreview.go executePlanReview:
- Two preflight checks now flow through AllowActionFromChainP.
- The "is admin OR is subtree admin? else fall through to decider"
braid collapses to one decider call per target.
- Behavior preserved: subtree-admin authority required for the
reviewing/staging workflow roots (strict-ancestor via ActionAdmin),
WORM-cr authority required for received/<tracking>/ creation.
Plan Review and Accept Transmittal tests still pass, lock-in
invariants still hold (un-elevated admin denied, elevated admin
bypasses, subtree scope, strict-ancestor, etc.).
Next: remove the now-dead IsAdmin / IsSubtreeAdmin / CanEditZddc
helpers (still referenced by profilehandler and authcheck), or keep
them — they're not on a hot path and the migration there is its own
commit.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Lays the rails for the consolidation refactor — the decider gains a
single admin-bypass branch at the top of InternalDecider.Allow, and a
new principal-aware entry point computes IsActiveAdmin from chain +
Principal.Elevated. No caller uses the new path yet, so behavior is
unchanged; lock-in tests stay green.
AllowInput.User.IsActiveAdmin bool // caller-computed bypass flag
AllowActionFromChainP(ctx, d, chain, p, path, action) (bool, error)
The decider's branch:
if input.User.IsActiveAdmin { return true, nil }
is the ONLY admin escape hatch in the package. Strict-ancestor rule
for .zddc edits is preserved inside AllowActionFromChainP via
IsAdminForChain(chain, email, excludeLeaf=true) when action==ActionAdmin.
Email-only entry points (AllowFromChain, AllowActionFromChain) leave
IsActiveAdmin=false implicitly — they're for read-path callers that
don't need admin bypass (directory listing, archive index, profile
read endpoints).
Next commits: migrate authorizeAction and plan-review's pre-flight
to AllowActionFromChainP, then delete the scattered IsAdmin/
IsSubtreeAdmin/CanEditZddc early-outs.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Pure cascade-walk admin check that replaces IsAdmin (root only) +
IsSubtreeAdmin (cascading) + CanEditZddc (strict-ancestor) under one
signature once callers migrate.
IsAdminForChain(chain, email, excludeLeaf bool) bool
- chain is built for the request path, so subtree-admin scope falls
out naturally (a chain rooted at /foo/ will only surface admins:
entries at root and any level up to /foo/).
- email "" never matches (anonymous refusal).
- excludeLeaf=true drops the deepest level — implements the strict-
ancestor rule for .zddc edits. At chain length 1 (root) the
exclusion degenerates, preserving the bootstrap super-admin path.
- Elevation-INDEPENDENT — the caller wires Principal.Elevated around
the result. Keeps this function a pure cascade query, testable
without context plumbing.
Property tests pin: super-admin matches at depth; subtree admin
matches inside scope, blocked outside; excludeLeaf hides leaf admins
(self-elevation prevention); excludeLeaf at root falls back to root;
empty email refused; role references in admins resolve through the
chain; role defined at leaf is invisible above under excludeLeaf.
Old IsAdmin / IsSubtreeAdmin / CanEditZddc stay in place during the
migration — next commits move callers across, last commit removes
them.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Baseline test battery that pins the current auth-decision behavior so
the upcoming consolidation refactor (single bypass site in
InternalDecider.Allow) is validated against a green baseline.
Each test names one invariant; failure messages identify exactly
which property regressed. Coverage:
- Un-elevated admin cannot bypass WORM (PUT to issued/ → 403).
- Un-elevated admin cannot edit .zddc (Principal.gate() blocks).
- Elevated admin bypasses WORM (positive control).
- Elevated subtree admin writes within scope, blocked outside it.
- Strict-ancestor rule: subtree admin cannot edit own subtree's
.zddc, can edit deeper .zddc.
- Empty email never matches.
- WORM cr survives for un-elevated document_controller (create OK,
overwrite still stripped).
- project_team has read-only outside their auto-own home.
- Forward-auth /.auth/admin gates strictly on ROOT admins:.
wormbypass_test.go retained as the original repro of the live bitnest
observation (un-elevated user write succeeded under --no-auth=1).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
The header toggle alone is easy to miss — admin elevation bypasses
WORM zones and ACL silently, so an admin who forgot they were
elevated could write into received/ or issued/ thinking they were
operating under their normal grants.
Two reinforcing affordances when the zddc-elevate cookie is set:
- body.is-elevated paints a 3px red outline around the entire page,
visible from any scroll position and inside any tool surface.
- A sticky red banner sits across the top with a pulsing dot, an
explicit warning ("write access bypasses WORM and ACL safeguards"),
and a one-click "Drop admin" button that clears the cookie + reloads
so the user can disarm without hunting for the corner toggle.
Both render on every page load via shared/elevation.js — applies to
every tool that includes the elevation slot, plus any tool that loads
the shared bundle even without a toggle host (the iframed classifier
inside browse's grid mode, etc.). Wired before the access fetch so
the banner appears immediately instead of waiting on /.profile/access.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Two layers shipped together since the second builds on the first.
LAYER 1 — reviewing/ + Plan Review scaffolding
- reviewing/ is now a real folder under each project, populated by the
Plan Review composite endpoint. The old reviewing/ virtual aggregator
handler is retired.
- POST /<project>/archive/<party>/received/<tracking>/ with X-ZDDC-Op:
plan-review scaffolds physical workflow folders under reviewing_root
and staging_root, each carrying .zddc.received_path pointing back at
the canonical submittal. Idempotent re-runs match by received_path
and re-converge the ACL.
- Virtual received window: when listing or writing under
<workflow>/received/, the server resolves through the canonical
archive/<party>/received/<tracking>/ via the workflow's
.zddc.received_path. Writes get rewritten to
<workflow>/<base>+C<n><suffix> so review comments land in the
workflow folder and never touch the WORM archive.
- Cascade defaults declare on_plan_review per project so the
reviewing_root and staging_root are configurable.
LAYER 2 — browse context-menu workflows
- Accept Transmittal: right-click a transmittal folder in
archive/<party>/incoming/ → validates ZDDC folder + filename
conformance, atomic-renames the folder to
archive/<party>/received/<tracking>/ (WORM zone), and optionally
chains into Plan Review in the same composite request. Re-acceptance
with a different revision merges file-by-file; WORM forbids
overwrite of an existing filename.
- Stage / Unstage: right-click files in working/<…>/ → "Stage to…"
with picker of existing staging transmittal folders + inline
"New transmittal folder…" create; right-click files in
staging/<…>/ → "Unstage to working/" defaulting to the user's
working/<email>/ home. Reuses the file-API move primitive.
- Create Transmittal folder: right-click the staging/ pane → prompts
for a ZDDC-conforming folder name with live validation; mkdir,
then navigate to the new folder URL where the transmittal tool
serves the editor.
- Supporting infrastructure: new CanonicalFolderAt cascade lookup +
X-ZDDC-Canonical-Folder response header so the browse SPA can
scope-gate menu items without re-implementing the cascade
client-side.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
The cell-editor was already complete (drafts, row-blur saves, etag
concurrency, validation). This commit adds the missing row-level ops:
- "+ Add row" appends a draft row inline; first cell focused. Row-blur
POSTs to <dir>/form.html (the existing form-create endpoint); 201
swaps the synthetic id for the server-returned URL/ETag. Empty rows
the user walks away from are silently discarded.
- Right-click a row → "Delete row" (or "Delete N rows" when a cell
range spans multiple rows). DELETE the row YAML with If-Match; 412
surfaces a conflict warning.
- Multi-row clipboard paste creates new rows for grid content that
extends past the last existing row, instead of dropping cells past
the end. Each new row saves via its own row-blur.
- Empty rows now have a 2.4em minimum height so a freshly-added row
is visible. Without the floor it collapses to cell-padding (~8px)
and looks like a divider line.
Server-side: no new endpoints. Form-create (POST <dir>/form.html →
201 + Location) and file-API DELETE carry the new client capabilities.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Replace `?zip=1` / `?convert=docx|html|pdf` query forms with path-suffix
URLs that look like ordinary files. `<dir>.zip` and `<file>.docx` /
`.html` / `.pdf` are virtual files served by the dispatcher when stat
fails at the requested path AND the corresponding base resource exists:
GET /Project-1/archive.zip ← if archive/ is a real directory
GET /Project-1/notes.docx ← if notes.md exists
Real on-disk files always win — a genuine archive.zip in the tree
serves its bytes normally. The virtual forms only fire when nothing
real is there.
Why: the URL form lets clients emit plain <a href> without query-
string handling; `curl -O` writes a sensible filename; mirror tools
pick up the path through normal recursion; the protocol surface
becomes "every URL is a file". Bash + filesystem mental model.
Server:
- New helpers handler.RecognizeVirtualSubtreeZip /
RecognizeVirtualConvert (in subtreezip.go and converthandler.go).
- Dispatcher's stat-fails branch checks them between IsDefaultMdlSpec
and MatchAppHTML. ACL is enforced on the base resource (the source
directory for zip, the .md source for convert).
- Three legacy query-form branches removed from main.go.
Client:
- browse/js/download.js: `dir + '.zip'` instead of `dir + '/?zip=1'`.
- browse/js/preview-markdown.js: convert anchor hrefs become
`<mdUrl-minus-.md>.<fmt>` instead of `<mdUrl>?convert=<fmt>`.
- shared/zddc-source.js downloadConverted: same transform.
Tests: subtreezip_test.go test URLs cosmetically updated to the new
shape (the handler is exercised directly, so the URL is metadata only,
but the test reads better).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Polish pass after the big refactor in 2d114fc.
== Header elevation slot propagated ==
shared/elevation.{js,css} surface a header checkbox for admins.
30-minute sudo-style cookie window (Max-Age=1800, SameSite=Lax).
Only renders when /.profile/access reports can_elevate=true; quiet
for non-admins. Slot added to all 7 tool templates and concat'd
into all 7 build.sh files; admin in any tool now sees the toggle.
Three text-rename ride-alongs in archive/classifier/transmittal
templates: "Add Local Directory" → "Use Local Directory" (the same
rename that landed in browse earlier in this branch).
== Docs ==
- CLAUDE.md gets an "Admin elevation is sudo-style" paragraph in
the "Things that bite if you forget" section.
- AGENTS.md gets a dedicated "Admin elevation (sudo-style)" section
alongside "Bearer tokens" — same depth as the existing auth docs.
== Helper file splits ==
The retired form editor's shared helpers got bundled into a single
zddc_admin.go in the cleanup; that name is now misleading. Split by
concern:
- admin_helpers.go: hasAnyAdminScope (the only admin-specific helper)
- paths.go: resolvePath, urlPathOf, chainDirs (URL ↔ filesystem path
math — used by several profile / zddc-file handlers)
- profile_assets.go (renamed from zddc_admin_assets.go): custom CSS
pipeline. URL renamed from /.profile/zddc/assets/ → /.profile/assets/
since /.profile/zddc/ no longer hosts an editor.
- treeEntry moves to profilehandler.go (alongside AccessView, its
only consumer).
- writeError moves to profileprojects.go (its only consumer).
== Smell cleanup ==
- zddc.HasAnyAdminGrant(fsRoot, email) — new elevation-independent
primitive that walks the cascade and reports whether email is named
in any admin: list anywhere. Replaces the synthetic-elevated probe
hack in enumerateAccess (`Principal{Email, Elevated: true}` was
"lying" to the elevation gate to ask what it would say). The handler's
hasAnyAdminScope collapses to a 4-line wrapper that gates on
p.Elevated and delegates.
- Access-log middleware records `elevated` per request, so forensics
can distinguish "admin acting as user" from "admin exercising power."
- browse/js/app.js's ?file= deep link walks multi-segment paths. Each
intermediate segment is matched + expanded; the leaf gets
selected/previewed. Auto-shows hidden when any segment starts with
. or _. Silently no-ops on unresolved segments.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Three coordinated changes that share the same files. Common theme:
convention beats exception. Where the codebase had a bespoke wire shape
or a special-case route, replace it with the generic shape every other
client already speaks.
== Listing protocol ==
GET / Accept: application/json used to dispatch to a bespoke
ServeProjectList handler returning {name, url, title} per project — a
shape that diverged from every other directory's listing.FileInfo
response. Now:
- listing.FileInfo gains an optional `title` field (read from each
directory's own .zddc title:). Generic clients (landing, browse)
read the same shape from every URL.
- appfs.ListDirectory emits a virtual `.zddc` entry (is_dir:false,
virtual:true) when no on-disk file exists at that path and the
caller asked for ?hidden=1. Opens an editable view of the cascade
defaults; PUT-saving its bytes materialises a real file.
- The bespoke GET / JSON branch in cmd/zddc-server/main.go is gone.
The bare-root landing serve is Accept-gated: HTML requests get the
landing tool (project picker), JSON requests fall through to
ServeDirectory and get the generic listing.
- landing's fetchProjects filters the new generic shape (is_dir,
strip trailing slash) — same pattern fetchParties already used at
/<project>/archive/.
== Form editor retirement ==
`<dir>/.zddc.html` was a server-rendered form for editing per-directory
.zddc files (~900 LOC across zddceditor.go, zddchandler.go, zddc_assets.go).
Browse's YAML/CodeMirror editor (with .zddc-schema lint) already edits
the same files via the generic file-API. Two ways to edit the same data
is exception, not convention.
- Delete zddceditor.go, zddchandler.go, zddc_assets.go and tests.
- `/<dir>/.zddc.html` → 302 redirect to `/<dir>/?file=.zddc` (browse
opens the .zddc in its editor pane).
- /.profile/zddc/* namespace deleted (REST API + assets sub-route).
- Profile page's "Editable .zddc files" list links to browse.
- ServeZddcFile's 405 message + virtual-body comment point at the
browse URL instead of the dead form.
== Admin elevation (Principal model) ==
Sudo-style: admins are treated as normal users by default; opting into
admin powers is per-request and gated by a `zddc-elevate=1` cookie.
- zddc.Principal{Email, Elevated} replaces bare-email arguments on
IsAdmin / IsSubtreeAdmin / CanEditZddc. The signature change makes
the elevation gate compiler-enforced at every admin call site —
audit-fragility is gone. The empty-email short-circuit is no longer
load-bearing for elevation; Principal.gate() is the explicit check.
- handler.ACLMiddleware derives Elevated per request: bearer tokens
are implicitly elevated (CLI clients can't toggle a cookie); browser
sessions elevate only when zddc-elevate=1 is set. PrincipalFromContext(r)
is the one-call-per-site bundling helper.
- Every admin-check call site updated to pass a Principal.
- /.auth/admin (forward_auth target for the dev-shell IDE) explicitly
bypasses elevation with a synthetic-elevated Principal — different
cookie scope than zddc-server origin, documented inline.
- AccessView gains CanElevate (elevation-independent "does this email
have admin authority anywhere?") so the header toggle can render
itself for an un-elevated admin who hasn't opted in yet.
- ServeProjectList is removed; ProjectInfo + EnumerateProjects stay
for the profile page's server-rendered project list.
- MatchAppHTML stays — still used by main.go to route <dir>/<tool>.html
URLs to the apps subsystem when no real file exists.
- Test helpers carry Elevated=true by default (matches the
pre-elevation default; tests for the un-elevated gate use the
explicit form).
Go tests pass across all 14 internal packages. Browse + every other
tool rebuilds clean.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Adds a UI checkbox next to the existing Sort dropdown that surfaces
hidden entries when ACL would otherwise allow read. Default off
(matches today's filtered behavior). On toggle, browse re-fetches
the current directory with ?hidden=1 and re-renders.
┌─ browse toolbar ─────────────────────────────────────────────┐
│ Sort: [Name (A→Z) ▾] ☐ Show hidden │
└──────────────────────────────────────────────────────────────┘
Server-side surface:
- internal/fs/tree.go ListDirectory gains an `includeHidden bool`
parameter. The .-prefix filter (previously hard-coded) now also
drops _-prefix entries (matches dispatch's reserved-prefix guard)
and honors the new flag.
- internal/handler/directory.go reads `?hidden=1` from the request
and threads it through.
- cmd/zddc-server/main.go dispatcher relaxes its dot-prefix and
_-prefix guards for GET/HEAD when `?hidden=1` is set, so clicking
a hidden entry's link works. `_app/` (apps cache) stays
unconditionally reserved — those bytes must go through the apps
resolver. Writes to hidden paths stay blocked (the file API has
its own segment check that the flag does NOT relax).
- internal/listing/listing.go: signature parity (the lower-level
helper that's used by tests + non-cascade listing paths).
Security model unchanged: the ACL chain on the parent dir is the only
real gate. Whoever can read the dir can see its contents — toggling
"Show hidden" just stops the client-side filter from masking
.-prefixed and _-prefixed entries. Hidden paths today:
• <dir>/.zddc ACL YAML — already exposed via /.profile/zddc
• <dir>/.converted/<base> cached MD→DOCX/HTML/PDF, same sensitivity as source
• <root>/.zddc.d/tokens/ per-token metadata; filename = sha256(token)
so not bearer-usable. Default root ACL
restricts to admins; matches /.tokens UI.
• <root>/.zddc.d/logs/ access logs; same admins-only audience
• <root>/_app/ cached upstream tool HTML (public)
• <root>/_template/ install.zip scaffolding (public)
None of these contain bearer credentials or secret material that the
existing ACL doesn't already gate. The walls are still the cascade.
The HTML→PDF path produced PDFs where content extended past the
right margin of each letter page. Two contributing causes in
viewer-template.html's @media print rules:
1. .content-wrapper carries max-width: min(900px, 100%) from the
screen layout. The print override set width: 100% but didn't reset
max-width. Chromium's --print-to-pdf renders at the full page
width (816px for letter at 96dpi) and only clips at print time,
so without max-width: none the element actually extends past the
~624px printable area.
2. Tables, preformatted blocks, and long URLs had no print
containment. A wide <pre> or a <table> with many columns would
blow out the right edge even when the parent constraints held.
Fixes applied to @media print:
- html, body, .app-container: explicit width: 100% + max-width: 100%
to be sure the print viewport flows top-down with no horizontal
creep at the layout root.
- .content-wrapper: max-width: none + width: 100% (was just width).
- .content-page: width: 100% added (was just max-width: none).
- .document-content: max-width: 100% + box-sizing: border-box so
the existing 0.5in horizontal padding stays inside the page.
- pre/code/table/blockquote/img/video: max-width: 100% +
overflow-wrap: break-word; <pre> additionally white-space:
pre-wrap + word-break: break-word so unbreakable token runs
(URLs, paths, command lines) wrap instead of overflowing.
- table: table-layout: fixed so columns shrink to fit rather than
forcing horizontal scroll/overflow.
Both source files (pandoc/viewer-template.html and the embed copy at
zddc/internal/convert/viewer-template.html) updated and verified
identical with diff -q.
The HTML→PDF stage failed with:
Creating shared memory in /dev/shm/.org.chromium.Chromium.XXXXXX
failed: Read-only file system (30)
Unable to access(W_OK|X_OK) /dev/shm: Read-only file system (30)
Chromium tries to put its IPC shared-memory segments under /dev/shm
by default. Our container runs --read-only with /dev/shm inherited
from the image (which makes it read-only too). The well-known fix is
the --disable-dev-shm-usage chromium flag, which routes those
allocations to /tmp instead.
/tmp is a writable tmpfs we already set up. Bump its size from
128 MiB to 256 MiB so chromium has room for both its user-data-dir
and the redirected shared-memory segments. A small PDF flow used
~64 MiB free of 128 MiB available; doubling gives headroom without
materially changing the pod's memory footprint (tmpfs only consumes
RAM for bytes actually written).
The discardable_shared_memory_manager warning ("Less than 64MB of
free space in temporary directory") in the prior chromium log was a
symptom of this same /tmp-too-small condition; the bump quiets it
too.
Other warnings in the log (dbus connect failures) are not load-
bearing — chromium falls back gracefully when dbus is absent. No fix
needed there.
zddc-server can now invoke podman as a CLIENT against a remote socket
instead of creating containers in its own process. The sidecar pattern
in tnd-zddc-chart will use this so zddc-server's own pod stays
unprivileged (only the podman-system-service sidecar runs privileged).
New surface:
--convert-podman-socket / ZDDC_CONVERT_PODMAN_SOCKET
e.g. unix:///var/run/podman/podman.sock
Empty (default) → local mode (podman creates containers in
zddc-server's own filesystem namespace).
Non-empty → remote mode: `podman --remote --url=<this> run …`
dispatches each container request to whatever process owns the
socket. Typically a `podman system service` sidecar in the same
Kubernetes pod.
--convert-scratch-dir / ZDDC_CONVERT_SCRATCH_DIR
Host-side directory for per-conversion intermediates (template,
HTML, PDF). In remote mode this MUST be a path the sidecar sees
at the same mountpoint — typically a shared emptyDir at /work
in both containers. Empty = $TMPDIR (local-mode default).
Runner behaviour:
local mode → unchanged. `podman run --userns=host --rm --pull=missing
--network=none --read-only …`. `--userns=host` stays so nested-podman
on a privileged host (the previous chart shape) keeps working for
anyone still using it.
remote mode → `podman --remote --url=<sock> run --rm --pull=missing
--network=none --read-only …`. `--userns=host` is dropped because
the sidecar is rootful inside its own privileged container and
doesn't need userns juggling.
Health probe gains a Mode field ("local" | "remote") and, in remote
mode, runs `podman --remote --url=<sock> version` to confirm the
sidecar's socket is reachable. Unreachable-socket → 503 with a clear
reason (sidecar may still be starting up); reachable → ready.
Capabilities log now includes engine_version + mode + remote_url for
easier debugging of "which podman is actually doing the work".
No tests removed — the existing fake-runner table covers both modes
since the runner's args are uniform (remote prefix is the only thing
that differs).
When zddc-server runs inside a Kubernetes pod and shells out to
`podman run`, the inner podman tries to set up its own user namespace
via /usr/bin/newuidmap. The mapping fails inside the pod's namespace
even with privileged: true:
newuidmap: write to uid_map failed: Invalid argument
Error: cannot set up namespace using "/usr/bin/newuidmap": exit status 1
Adding --userns=host to the inner `podman run` tells it to reuse the
caller's user namespace instead of creating a new one — newuidmap
isn't invoked. The chart already runs the pod privileged so reusing
its userns adds no new privilege; --cap-drop=ALL + --network=none +
--read-only + --tmpfs continue to isolate the inner container.
On a bare-metal host invocation, --userns=host means "no userns
remapping at all", which is the default for rootful podman and works
identically to the prior behavior — the bitnest test setup and any
laptop dev runs are unaffected.
Smoke-tested locally with the exact flag set: pandoc/latex:latest in
a --userns=host --read-only container produces valid HTML from
`# Hello world` on stdin.
mdedit/ is gone. Its functionality moved into browse's preview plugin
(browse/js/preview-markdown.js) — YAML front matter editing, outline,
and on-demand DOCX/HTML/PDF download all happen there. Browse is the
default_tool for working/ + reviewing/ as of the previous commit, so
existing URLs of the form /<project>/working land on browse without
operator action.
Removed:
• mdedit/ source tree (Toast UI app, CSS, JS, template, build.sh)
• zddc/internal/apps/embedded/mdedit.html (//go:embed blob)
• tests/mdedit.spec.js + the "mdedit" project in playwright.config.js
• mdedit entries in zddc/internal/apps/embed.go (//go:embed, var,
switch case in EmbeddedBytes)
• "mdedit" in zddc/internal/zddc/validate.go AppNames + the matching
error-message app list
• "mdedit.html" branch in zddc/internal/apps/handler.go MatchAppHTML
• mdedit case in tests (handler_test.go, validate_test.go,
zddchandler_test.go) — test fixtures now use browse/classifier
• mdedit from build (per-tool build.sh loop, tool-list literals,
composer cards) and shared/build-lib.sh ZDDC_RELEASE_TOOLS
• mdedit from freshen-channel's tool list and usage banner
• mdedit-specific paragraphs in AGENTS.md and ARCHITECTURE.md;
Markdown Editor section in ARCHITECTURE.md rewritten to point at
browse/js/preview-markdown.js
• mdedit from CLAUDE.md, README.md, zddc/README.md tool lists
Historical mdedit_v*.html / mdedit_v*.html.sig files in
/srv/zddc/releases/ on the deploy host are immutable history — they
stay where they are. The next ./build release cut will simply not
produce new mdedit_v* artifacts.
Flip default_tool from `mdedit` to `browse` (which now ships a Toast UI
markdown editor plugin in its preview pane) at:
• paths."*".paths.working
• paths."*".paths.working.paths."*" (per-user homes)
• paths."*".paths.reviewing
available_tools at those levels drops `mdedit` and adds `browse` next
to `classifier`. Operator overrides per .zddc cascade still work; only
the embedded baseline changes.
Test fixtures updated:
• lookups_test.go — DefaultToolAt assertions for working/+reviewing/
• availability_test.go — AppAvailableAt + DefaultAppAt for working/+
reviewing/+per-user home
• main_test.go — dispatch route asserts "ZDDC Browse" (was "ZDDC
Markdown"); Apps cascade fixture swaps mdedit
for browse so the live route fetches the right
embedded HTML
New endpoint GET /<path>/foo.md?convert=docx|html|pdf renders a markdown
source on demand. Surfaced as the Download buttons in browse's markdown
editor (separate commit).
Execution model — two upstream container images, lazy-pulled:
• docker.io/pandoc/latex:latest — MD→DOCX, MD→HTML (entrypoint pandoc)
• docker.io/zenika/alpine-chrome — HTML→PDF (entrypoint chromium-browser)
No custom image build. The runner passes --pull=missing on every podman/
docker invocation so the operator only needs the runtime installed —
first request pulls the image, subsequent requests use the local cache.
Overrides: --convert-pandoc-image / --convert-chromium-image (and the
matching ZDDC_CONVERT_* env vars). Engine: --convert-engine (podman
preferred, docker fallback). Resource caps: --convert-mem-mib (512),
--convert-cpus (2), --convert-pids (100), --convert-timeout (30s).
PDF flow is two-stage: pandoc renders the markdown through the embedded
viewer-template.html to standalone HTML, then chromium prints that HTML
via --print-to-pdf. Preserves the print-media CSS already authored in
viewer-template.html rather than going through pandoc's LaTeX template.
Each conversion runs in a throw-away container with --rm --network=none
--read-only --tmpfs=/tmp --cap-drop=ALL --security-opt=no-new-privileges
--env=HOME=/tmp plus a bind-mounted scratch dir for I/O. Pandoc reads
markdown from stdin / writes to stdout; the viewer template lives at
/tpl (ro). Chromium reads HTML from a read-write bind mount at /pdf
and writes the PDF to the same mount; the host reads it back. No shell
wrappers, no shell quoting — argv flows straight into each image's
entrypoint.
On-disk cache at <dir>/.converted/<base>.<ext> with mtime synced to the
source. Fast path is a stat-and-serve with no exec; slow path
singleflights concurrent requests for the same target. PUT/DELETE/MOVE
on the source .md purges the .converted/ sidecars.
Per-project template variables (client/project/contractor/project_number)
come from a new .zddc `convert:` cascade block, walked leaf→root with
per-key latest-wins. Filename-derived variables (title, tracking_number,
revision, status, is_draft) come from a new zddc.ParseFilename helper.
If neither podman nor docker is on PATH, the endpoint serves 503 with
a clear Retry-After. The rest of the server keeps working.
This is the first os/exec site in the codebase. The hardening in
internal/convert/runner.go — context.CancelFunc → process kill,
cmd.WaitDelay, platform-specific SysProcAttr (Setpgid + Pdeathsig on
Linux), minimal env, stdout cap via limitWriter, stderr ring buffer —
sets the pattern for any future shell-outs.
Public surface:
convert.ToDocx(ctx, source, meta) / .ToHTML / .ToPDF
convert.Probe(ctx, engineOverride) → install Runner if engine present
convert.SetImages(pandoc, chromium)
convert.ConfigureLimits(memMiB, cpus, pids, timeout)
convert.Available()
Container handler at internal/handler/converthandler.go; dispatcher
branch in cmd/zddc-server/main.go inserts the convert lookup after the
existing ACL gate, reusing the source file's read policy verbatim.
The .zddc cascade-config migration retired the hardcoded folder-name
predicates (special.go's IsAutoOwnPath/IsWormPath/…) in favour of a
baked-in defaults.zddc.yaml with a recursive paths: tree, but several
top-level docs still described the old model:
- README.md / CLAUDE.md: "tools auto-served at folder-name-driven
paths (classifier in Incoming/Working/Staging, …)" → now: which tool
a URL serves is the cascade's default_tool/dir_tool/available_tools;
added the .zip-as-directory + GET /dir/?zip=1 + show-defaults notes;
CLAUDE.md's shared/ inventory refreshed (zip-source.js, fonts, …).
- ARCHITECTURE.md: the "Cooperating layers" table's "Special folders"
row (referenced special.go, the retired "WORM split") → rewritten as
"Canonical-folder behaviour" driven by the auto_own/worm/virtual/
drop_target .zddc keys; the "ACL cascade" row now mentions the
defaults.zddc.yaml bottom layer + paths: walker.
- zddc/README.md: role resolution was described as "shadows" → it's a
union with reset:true; WORM was "path-based, not cascade-based" → it's
the worm: cascade key; the "Special folders" section rewritten as
"Canonical-folder behaviour via .zddc keys" (a key table + the .zip
/?zip=1 notes), pointing at show-defaults as the authoritative ref.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
zddc-server can now hand back a whole directory subtree as a single
streamed application/zip download: GET /some/dir/?zip=1 (works on both
/dir and /dir/) → Content-Type: application/zip + Content-Disposition:
attachment; filename="<dir>.zip", containing every readable file under
/some/dir/, recursively.
handler.ServeSubtreeZip walks the tree with filepath.WalkDir, ACL-gates
each file by the .zddc chain of its containing directory (per-dir
decision cache, same shape as serveArchiveListing), skips hidden
entries ("." and "_" prefixes — .zddc, _template, _app), and adds a
.zip *file* it encounters as opaque bytes (it does not recurse into it
— that's the navigable-virtual-surface feature, a different thing).
The response is streamed (zip.NewWriter straight onto the
ResponseWriter, Store for already-compressed extensions, Deflate
otherwise), so a fully-ACL-denied or empty subtree just yields a valid
empty zip rather than a 403 (a stream can't change status after the
headers go out; empty leaks no more than 403). HEAD sends the headers
and no body. The dispatch's directory ACL gate still runs first, so a
viewer who can't read the directory gets 403 before the handler.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
zddc-server can now browse into a .zip file without the client
downloading the whole archive:
- GET …/Foo.zip/ → JSON listing of the zip's members
(Accept: application/json), or the
browse SPA (HTML) — same content
negotiation as ServeDirectory/.archive
- GET …/Foo.zip/sub/doc.pdf → extracts and streams that one member
(Range / ETag / conditional GET via
http.ServeContent)
- GET …/Foo.zip → unchanged: the raw .zip download
- PUT/DELETE/POST …/Foo.zip/… → 405 (zip access is read-only)
New internal/zipfs package reconstructs directory levels from the zip's
flat central directory (synthesising intermediate dirs with no explicit
"<dir>/" entry, mirroring what browse does client-side with JSZip) and
drops zip-slip-unsafe entries ("..", absolute, backslash). New
handler.ServeZip wraps it. The dispatcher gets splitZipPath + an
intercept placed before the file-API branch (so a write to a path under
a .zip is refused, not silently mkdir'd); ACL is the chain of the
directory CONTAINING the zip — a zip carries no .zddc of its own, same
as the .archive virtual surface. The os.Stat-per-segment walk is gated
by a cheap ".zip/" substring check so ordinary requests are unaffected.
Also fixes two pre-existing dispatch-test failures uncovered along the
way: a non-existent top-level "*.html" URL was 302'ing to its slash
form (because the bare "*" project glob makes every first-level segment
"declared") — the cascade-declared no-slash block now requires a
directory-shaped URL (trailing slash, or no file extension); and the
stale TestDispatchSlashRouting expectation that archive/<party>/mdl/
302s to mdl/table.html was updated to match the intended behaviour
(the default-MDL virtual fallback shows the browse listing there; only
a real on-disk tables: + *.table.yaml triggers the bounce).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
The trailing-slash directory form was hardcoded to serve `browse`. Add a
`dir_tool` .zddc key (cascades leaf→root, floors at `browse`) so an
operator can point a subtree's slash form at another directory-oriented
tool — the symmetric counterpart to `default_tool` (the no-slash
"specialized app"). handler.ServeDirectory now resolves it via
zddc.DirToolAt; JSON listing requests are unaffected (raw listing
always served, so browse can still enumerate).
Also collapse the no-slash dispatch: the on-disk-directory and the
virtual-declared-path branches in main.go each carried their own copy
of "default_tool → tables-carveout-or-apps.Serve → 302", with
inconsistent ACL checks. Extract one chokepoint, serveSpecializedNoSlash,
that enforces ACL uniformly for every default_tool route.
Updates ARCHITECTURE.md and AGENTS.md: the stale "Special folders" /
hardcoded-availability sections now describe the .zddc-cascade model
(defaults.zddc.yaml, the schema-key table, the slash/no-slash
convention, WORM, standard roles).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
The file API's mkdir post-hook still seeded auto-own .zddc files via the
hardcoded IsAutoOwnPath path-segment predicate, while
EnsureCanonicalAncestors had already moved to the cascade's auto_own:
flag. Point the hook at AutoOwnAt / AutoOwnFencedAt so both paths agree
and an operator's .zddc reshaping actually takes effect — fenced when
the new directory's own cascade level declares auto_own_fenced (per-user
working homes), unfenced otherwise.
Retires IsAutoOwnPath and WormMask (the latter already superseded by
WormZoneGrant's & VerbsRC) plus their tests, and the now-unused
path/filepath import in special.go.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Clarify the incoming/ semantics per the workflow: it's the
counterparty's drop zone, not a free-for-all.
- project_team gets read only here (inherited from the project
level — they have no c/w, so they can see what's been dropped
but not touch it). No change in effect; documented explicitly.
- document_controller gets rwcd here (restated at the incoming/
cascade level). The QC + transfer workflow — classifier renames
files in place (w), then they move to received/ (delete here +
worm-create there) — needs the delete bit, which the inherited
project-level `rw` lacked.
- The counterparty's uploader still gets access via a deployment
.zddc (acl: { permissions: { "*@acme.com": cr } } at
archive/Acme/incoming/.zddc) or by mkdir'ing a dated subfolder
under incoming/ and owning it via the existing auto_own — both
flows unchanged.
Test: standardroles_test now asserts the doc controller has rwcd at
incoming/ and a project_team member has only r there.
All Go + Playwright tests green.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Answers "can roles reset as well as add?" — yes, both now.
Role membership UNIONS across the cascade:
- A deeper .zddc that defines an inherited role again with one
extra member ADDS that member (was: deepest definition shadowed
the ancestor's entirely).
- New `reset: true` on a role definition breaks the union — that
level's members are authoritative, ancestor definitions above
are excluded; descendants below still union on top. Use it to
give a project its own team independent of a deployment-wide
default.
- lookupRoleMembers / RoleMembers reworked: walk deep→shallow,
union members, stop at the first reset:true; finally fold in
chain.Embedded.Roles as the baseline so a role declared only in
defaults.zddc.yaml is "defined" (and a deployment's on-disk
redefinition unions on top).
Admin checks are now role-aware:
- IsSubtreeAdmin / CanEditZddc's strict-ancestor scan use
MatchesPrincipal instead of MatchesPattern, so `admins:
[document_controller]` resolves to the role's members. The
strict-ancestor scan resolves roles only up to level i, so a
role defined at the deepest level (= dirPath) never confers
self-edit rights.
Two standard roles ship in defaults.zddc.yaml (empty members — a
fresh deployment grants nothing until they're populated):
document_controller — files into the WORM zones. Gets:
- rw at the project level (read + overwrite-existing; NOT c, so
it can't make arbitrary folders)
- rwc at archive/ (can create party subfolders)
- subtree-admin at working/ and staging/ (full create + manage,
including taking over a fenced per-user home) — scoped HERE,
not at the project root, so the WORM constraint still binds
it in archive/<party>/received|issued
- listed in worm: on received/ and issued/ → write-once-create
survives the WORM mask
project_team — read-only across the project. The per-user
working home's fenced auto-own .zddc (rwcda for the creator)
wins via deepest-match, so "read-only except what I own" falls
out of the cascade with no special rule. Inside received/issued
their r is preserved (worm: doesn't strip read).
archive/<party>/ gains `auto_own: true` (UNFENCED) so whoever
creates a party subtree (normally the doc controller) owns it and
can set up that counterparty's .zddc afterward — without fencing,
project_team:r still cascades through to received/issued.
Tests: roles_test (union + reset), standardroles_test (the
doc-controller scoped-create matrix + project-team read-only-except-
owned), ensure_test updated for the new party-folder auto-own.
fileapi_test's WORM doc-controller test already uses worm: [role].
All Go + 248 Playwright tests green.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Per design feedback: the verb string in a worm: entry was always
effectively "cr" (the key's whole job is to restore write-once-create
inside the locked zone, and you need read to see what you filed), so
spelling it out per-entry was redundant. worm: is now just a list of
principal patterns — email-globs, @role:name, or bare role names —
and every listed principal gets read + write-once-create. An empty
list ([]) still marks the WORM zone with no create-capable
principals.
Changes:
- ZddcFile.Worm: map[string]string → []string
- mergeOverlay: concat-dedupe (a deeper .zddc adds controllers);
mergeStringSlicePreserveEmpty keeps `worm: []` non-nil through
the overlay so it still marks the zone
- WormZoneGrant: walks the list, grants VerbsRC to each matching
principal; result is always ⊆ {r, c}
- ValidateFile: validates each entry as an email-glob (role refs
skipped — validated by the role machinery)
- defaults.zddc.yaml: received/ and issued/ carry `worm: []`
- tests updated to the list form (worm_test.go, fileapi_test.go)
All Go tests green.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
WORM (write-once-read-many) is no longer a special folder type keyed
off the literal names "received"/"issued". It's a cascade key —
`worm:` on any directory's .zddc — with the ACL-shaped semantics the
user described.
Schema:
worm:
"doc-control@example.com": cr # email-glob or @role:name → verbs ⊆ {r, c}
# an empty map ({}) is a WORM zone with no create-capable principals
Effect inside a WORM zone (any cascade level declares worm:), applied
AFTER the normal cascade ACL and BEFORE the admin escape hatch:
- w / d / a stripped for everyone
- c survives only via the worm: map
- r survives via the normal ACL OR the worm: map (so a document
controller who isn't in the project ACL still gets read+create)
- worm: grants UNION across the cascade — deeper .zddc can name
more controllers
- admins (root / subtree) bypass entirely — handler does the
IsAdmin check before the policy evaluator
defaults.zddc.yaml: archive/<party>/received and archive/<party>/issued
carry `worm: {}` (WORM zone, no controllers — the deployment names
its document controller by adding a deeper .zddc with
`worm: {<principal>: cr}`). The canonical convention is unchanged;
the difference is an operator can now mark any directory WORM, or
rename received/issued, without a code change.
Removed (hardcoded path predicates, superseded by the cascade walk):
zddc.IsWormPath
zddc.WormFolderLevelIndex
zddc.splitPathSegments (only IsWormPath used it)
Kept: zddc.WormMask (generic verb-set primitive), zddc.VerbsRC.
New:
zddc.WormZoneGrant(chain, email, mode) → (verbs, inWormZone)
Walks the chain for worm: declarations; unions the principal's
grants masked to {r, c}.
policy.InternalDecider.Allow: WORM block rewritten to consult
WormZoneGrant instead of IsWormPath/WormFolderLevelIndex.
ValidateFile: worm: keys validated as email-glob (or @role:name);
values validated as verb strings ⊆ {r, c}.
Tests:
- new worm_test.go covers the embedded convention, operator-granted
controller, w/d masking, cross-cascade union.
- special_test.go's TestIsWormPath / TestWormFolderLevelIndex
retired; TestWormMaskStripsWDA kept.
- fileapi_test.go's WORM tests updated: the doc-controller grant is
now `worm: { _doc_controller: cr }` at issued/.zddc, not
`acl.permissions: { _doc_controller: cr }`.
- federal-parity and admin-bypass tests unchanged — the WORM mask
still strips w/d/a and admins still bypass.
All Go tests green.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
The shared/nav.js stage strip previously hardcoded four stages
(archive/working/staging/reviewing) with their labels and target
URLs baked into the file. Operators couldn't add a fifth stage or
rename "Working" to "In-Progress" without forking shared code.
Now cascade-driven end-to-end:
Server-side:
listing.FileInfo gains a Declared bool field. fs.ListDirectory
stamps Declared=true on every entry whose name matches the
cascade's ChildrenDeclaredAt(parent) — both real on-disk dirs
and virtual canonical injections. Bugfix in the same patch:
virtualCanonicalFolders was passing the relative dirPath to
ChildrenDeclaredAt (which expects absolute); now passes absDir.
Client-side:
shared/nav.js fetches the project root's JSON listing on
DOMContentLoaded, filters to declared+is_dir entries, sorts by
canonical workflow order (archive → working → staging →
reviewing, then any extras alphabetically), and renders the
strip. Labels read e.display_name → falls back to titleCase(name).
Hardcoded FALLBACK_STAGES kicks in only on fetch failure
(offline / file:// / non-zddc-server backend). Rendered
immediately so the strip appears without flicker, then the
cascade-fetched list replaces it once available.
Effect:
Project-3 (which has display: { archive: "Records",
working: "In-Progress", ... } in its .zddc) now shows
"Records · In-Progress · Outbox · Pending Responses" in every
tool's strip. Project-1 still shows "Archive · Working ·
Staging · Reviewing". No code change to render either; the
cascade decides.
Tests:
- tests/nav.spec.js relies on the mock server returning HTML at
every URL, so the fetch fails over to fallback stages — the
test renders the same Archive/Working/Staging/Reviewing labels
it always did, with no test changes needed.
- All 248 Playwright + all Go tests green.
Remaining client-side hardcode: archive/js/source.js +
archive/js/app.js's mode detection. Phase 4d.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
The /incoming/ path regex in browse/js/grid.js was the second-most
visible client-side hardcode of the canonical convention. Migrating
it to the cascade:
Header surface:
X-ZDDC-Default-Tool: <name> The cascade-resolved default tool
for the listing's directory. Empty
header = no default declared.
Client wiring:
loader.fetchServerChildren reads the header into
state.scopeDefaultTool on every listing fetch (initial mount,
rescope on dblclick, popstate). grid.classifierAvailableHere
now returns scopeDefaultTool === 'classifier' instead of
regex-matching the URL.
Effect:
Grid mode auto-activates wherever the cascade picks classifier
as the default — currently archive/<party>/incoming per
defaults.zddc.yaml. An operator who sets default_tool: classifier
on a custom directory gets grid mode there too, no code change.
An operator who removes the default at incoming sees grid mode
stop auto-activating there.
Bootstrap timing fix:
The initial events.init() runs applyResolvedViewMode before the
detection fetch completes, so state.scopeDefaultTool is empty
at that point and grid never auto-activates on first paint.
app.js bootstrap now re-applies the resolved view mode after
autoDetectServerMode returns, so a fresh /incoming URL lands
on grid mode immediately.
The /incoming/ regex is gone. Two client hardcodes remaining
(archive source heuristics, shared/nav stage strip) — Phase 4c/d.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
The last hardcoded client-side knowledge of the canonical convention
was the upload-zone regex in browse:
var UPLOAD_SCOPES = /\/(working|staging|incoming)(\/|$)/i;
Now declared in the cascade:
Schema:
drop_target: true|false leaf-only; describes THIS dir
(not propagated to descendants)
Lookup:
zddc.DropTargetAt(root, dir) bool
Surfaced to clients:
Directory listings carry an X-ZDDC-Drop-Target: true response
header when the cascade declares this leaf as an upload zone.
No header = no drop target.
Defaults populated:
working / working/* / staging / archive/<party>/incoming
all carry drop_target: true. Operators can extend (e.g. drop
files on archive/<party>/received via override) or disable
(e.g. drop_target: false at a specific staging subtree) without
touching code.
Browse migration:
loader.fetchServerChildren reads the response header and stamps
state.scopeDropTarget on every listing fetch. upload.js's
currentScopeAllows now reads that flag instead of regex-
matching the URL. Initial value is false in init.js so a
listing failure (offline / server doesn't emit the header)
safely defaults to "no drop zone".
Phase 4a closes the most visible asymmetry between server-side and
client-side cascade knowledge. The remaining client hardcodes
(browse grid-mode regex, archive source heuristics, shared/nav
stage strip) follow the same pattern when needed — Phase 4b/c/d.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
