Implements non-negotiable #1: the AI assistant never writes autonomously. Every assistant/contributor "write" emits a ChangeProposal — a structured diff a human approves, edits, or rejects. Design: docs/design/change-proposal.md. Structural guarantee: a proposal's operations reach the DB ONLY via change_proposal_service.apply(), which requires the actor be an editor and dispatches each op through the normal editing services (person/name/event/ relationship/source/citation create/update/delete) — so every change passes the privacy engine and is audited as the approving human. propose() only inserts a pending row; it performs no domain mutation. Model providers stay read-only, so no model response can mutate tree data. - ChangeProposal model + migration (status pending|applied|rejected, origin assistant|contributor, JSONB operations, reviewer + apply_error). - Service: propose / list / get / apply (with optional edited ops) / reject / delete; a dispatcher mapping ops → editing services. v1 applies ops in order, not cross-op transactional (single-op is atomic; documented). - API /trees/{id}/proposals + a frontend review page (approve/reject; editor- gated) and sidebar entry. Tests: proposal doesn't apply until approved; reject doesn't apply; non-editor member can see but not apply; multi-op; approve-with-edits; apply-error keeps it pending. Full suite 87 passed; single alembic head. Closes #214 Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> Signed-off-by: Justin Paul <justin@jpaul.me>
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Design note: ChangeProposal (propose-then-confirm)
Status: in progress. Implements non-negotiable #1 (CLAUDE.md): the AI assistant never writes autonomously. Every assistant "write" emits a ChangeProposal — a structured diff a human approves, edits, or rejects.
The invariant, structurally
There must be no code path where a model response mutates tree data. We get this by construction, not convention:
- Model providers (
app/integrations/models/*) are read-only text/vector producers — they never import a repository or session-mutating service. - The assistant's tools, when they land, will call
change_proposal_service.propose(...), which only inserts a pending ChangeProposal. It performs no domain mutation. - A ChangeProposal's operations are executed only by
change_proposal_service.apply(...), which:- requires the actor be an editor/owner of the tree (
privacy.can_edit_tree), - dispatches each operation through the normal editing services
(
person_service,event_service, …) — so every change passes the privacy engine and writes anAuditEntrywith the human asactor, - flips the proposal to
applied.
- requires the actor be an editor/owner of the tree (
So an assistant can suggest anything, but a change reaches the database only when a human with edit rights approves it, and only via the same services a human edit uses.
Data model
ChangeProposal (TenantScoped tree_id, Timestamps, SoftDelete):
| field | notes |
|---|---|
tree_id |
tenant boundary |
status |
pending | applied | rejected |
origin |
assistant | contributor — who proposed it (the contributor case also moderates untrusted human edits) |
created_by_user_id |
the user on whose behalf the assistant acted, or the contributor |
summary |
one-line human description ("Add birth 1850 to John Smith") |
rationale |
the assistant's reasoning / sources (text) |
operations |
JSONB list of ops (the structured diff) |
reviewed_by_user_id, reviewed_at, review_note |
set on approve/reject |
apply_error |
populated if application failed (proposal stays pending) |
An operation is {op, entity_type, entity_id?, payload}:
op∈create|update|deleteentity_type∈person|name|event|relationship|source|citationentity_id— null forcreate; the target id forupdate/deletepayload— proposed field values (create/update); ignored fordelete
A proposal may carry several operations (e.g. "add a person and link them as a
child" = create person + create relationship), applied in order. The editing
services each commit, so v1 application is not transactional across ops — if
op N fails, ops 1..N-1 are already applied and the proposal stays pending with
apply_error set so the reviewer can fix and re-apply the remainder. Single-op
proposals (the common near-term case) are effectively atomic. Cross-op atomicity
is a follow-up (it needs the services to accept a no-commit mode).
Service surface
propose(session, *, tree, origin, created_by, summary, rationale, operations) -> ChangeProposal— inserts apendingproposal. The only thing the assistant can call.list_proposals/get_proposal— visible to tree members.apply(session, *, actor, tree, proposal_id, edited_operations=None) -> ChangeProposal— editor-only. Optionaledited_operationslets the reviewer tweak the diff before applying ("edit" in approve/edit/reject). Dispatches each op through the editing services; on any failure, rolls back and recordsapply_error.reject(session, *, actor, tree, proposal_id, note=None)— editor-only.
API
/trees/{id}/proposals: GET (list, ?status=), POST (create — used by tests
and the future contributor flow), GET /{pid}, POST /{pid}/apply,
POST /{pid}/reject, DELETE /{pid}.
Out of scope (follow-ups)
- The assistant itself (it will be the primary producer; #-future).
- A rich diff/edit UI — v1 ships a review list with approve/reject; "edit before apply" is supported in the API and can get UI later.
- Dispatch for media/place/tree-settings ops (added when a producer needs them).