Add the foundation for deploying and managing MCP servers on the VPS
broker, with per-peer credential vaults and visibility scopes.
Architecture:
- One Docker container per mesh with a Node supervisor
- Each MCP server runs as a child process with its own stdio pipe
- claudemesh launch installs native MCP entries in ~/.claude.json
- Mid-session deploys fall back to svc__* dynamic tools + list_changed
New components:
- DB: mesh.service + mesh.vault_entry tables, mesh.skill extensions
- Broker: 19 wire protocol types, 11 message handlers, service catalog
in hello_ack with scope filtering, service-manager.ts (775 lines)
- CLI: 13 tool definitions, 12 WS client methods, tool call handlers,
startServiceProxy() for native MCP proxy mode
- Launch: catalog fetch, native MCP entry install, stale sweep, cleanup,
MCP_TIMEOUT=30s, MAX_MCP_OUTPUT_TOKENS=50k
Security: path sanitization on service names, column whitelist on
upsertService, returning()-based delete checks, vault E2E encryption.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Save groups, profile, visibility, summary, display name, and cumulative
stats to a new mesh.peer_state table on disconnect. On reconnect (same
meshId + memberId), restore them automatically — hello groups take
precedence over stored groups if provided. Broadcast peer_returned
system event with last-seen time and summary to other peers.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
Add tamper-evident audit logging where each entry includes a SHA-256
hash of the previous entry, forming a verifiable chain per mesh.
Events tracked: peer_joined, peer_left, state_set, message_sent
(never logs message content). New WS handlers: audit_query for
paginated retrieval, audit_verify for chain integrity verification.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
Replace in-memory-only setTimeout scheduling with a DB-backed system
that survives broker restarts. Adds:
- `scheduled_message` table in mesh schema (Drizzle + raw CREATE TABLE
for zero-downtime deploys)
- Minimal 5-field cron parser (no dependencies) with next-fire-time
calculation for recurring entries
- On broker boot, all non-cancelled entries are loaded from PostgreSQL
and timers re-armed automatically
- CLI `schedule_reminder` MCP tool accepts optional `cron` expression
- CLI `remind` command accepts `--cron` flag
- One-shot reminders remain backward compatible — no cron field = same
behavior as before
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
- shareContext: adds optional memberId param; when provided, upserts on
(meshId, memberId) instead of (meshId, presenceId) — prevents stale
context rows accumulating on every reconnect. Falls back to presenceId
for legacy/anonymous connections. Also refreshes presenceId on update
so it stays current.
- schema: adds member_id column + unique index context_mesh_member_idx
on mesh.context table; new migration 0013_context-stable-member-key.sql.
- index.ts call site updated to pass conn.memberId as the stable key.
- createStream: replaces SELECT-then-INSERT TOCTOU race with atomic
INSERT ... ON CONFLICT DO NOTHING RETURNING, followed by SELECT on miss.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
Files: MinIO-backed file sharing built into the broker.
share_file for persistent mesh files, send_message(file:) for
ephemeral attachments. Presigned URLs for download, access
tracking per peer.
Broker infra: MinIO in docker-compose, internal network.
HTTP POST /upload endpoint. WS handlers for get_file,
list_files, file_status, delete_file.
Multi-target: send_message(to:) accepts string or array.
Targets deduplicated before delivery.
Targeted views: MCP instructions teach Claude to send
tailored messages per audience instead of generic broadcasts.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Phase B + C + message delivery status.
State: shared key-value store per mesh. set_state pushes changes
to all peers. get_state/list_state for reads. Peers coordinate
through shared facts instead of messages.
Memory: persistent knowledge with full-text search (tsvector).
remember/recall/forget. New peers recall context from past sessions.
message_status: check delivery status with per-recipient detail
(delivered/held/disconnected).
Multicast fix: broadcast and @group messages now push directly to
all connected peers instead of racing through queue drain.
MCP instructions: dynamic identity injection (name, groups, role),
comprehensive tool reference, group coordination guide.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Phase A of the claudemesh spec. Peers can now join named groups
with roles, and messages route to @group targets.
Broker:
- @group routing in fan-out (matches peer group membership)
- @all alias for broadcast
- join_group/leave_group WS messages + DB persistence
- list_peers returns group metadata
- drainForMember matches @group targetSpecs in SQL
CLI:
- join_group/leave_group MCP tools
- send_message supports @group targets
- list_peers shows group membership
- PeerInfo includes groups array
- Peer name cache for push notifications
Launch:
- --role flag (optional peer role)
- --groups flag (comma-separated, e.g. "frontend:lead,reviewers")
- Interactive wizard for role + groups when flags omitted
- Groups written to session config for broker hello
Spec: SPEC.md added with full v0.2 vision (groups, state, memory)
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Store sender's sessionPubkey on message_queue at send time.
drainForMember returns COALESCE(sender_session_pubkey, peer_pubkey)
so the recipient gets the correct sender key for decryption.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Each WS connection generates its own ed25519 keypair (sessionPubkey)
sent in the hello handshake. The broker stores it on the presence
row and uses it for message routing + list_peers. This gives every
`claudemesh launch` a unique crypto identity without burning invite
uses — member auth stays permanent, session identity is ephemeral.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Remove ALL Payload imports, withPayload wrapper, and (payload)
routes. Blog index + changelog are now static data arrays.
Blog post at /blog/peer-messaging-claude-code is static TSX.
Payload CMS stays as a dev dependency for future local admin
but has zero presence in the production build.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Use pnpm deploy to flatten each package's runtime subset into /deploy,
then copy ONLY that into the runtime stage. Catalog + workspace:*
specifiers previously forced full-workspace resolution into every
image's node_modules — unnecessary for either runtime.
Results (arm64, same smoke tests pass):
- broker: 3.26GB → 341MB (-90%, drops all devDeps incl. drizzle-kit)
- migrate: 3.27GB → 653MB (-80%, keeps drizzle-kit which IS runtime)
Broker /health confirms GIT_SHA build-arg still propagates (gitSha:
"30bc24f" in smoke test). Migrate still reads drizzle.config.ts and
attempts the connection correctly.
--legacy flag needed because pnpm 10 defaults to inject-workspace-
packages mode which the monorepo doesn't opt into; legacy is safe here.
--ignore-scripts on deploy skips the root postinstall (sherif lint:ws)
which has nothing to do with runtime.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
One-shot migrate container runs drizzle-kit migrate against DATABASE_URL
and exits 0 before web boots. web service depends_on with condition
service_completed_successfully, so failed migrations block web startup
instead of serving 500s against a stale schema. Broker deliberately does
NOT depend on migrate - it tolerates DB-down gracefully per DEPLOY_SPEC
and should keep serving WS peers even during migration failures.
Also excludes apps/cli from docker build context (CLI ships to npm, not
containers) to sidestep zod spec drift in its package.json vs lockfile.
Known followup: migrate image is 3.27GB due to pnpm catalog: specifiers
forcing full-workspace resolution. pnpm deploy bundle trim is a P2.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Completes the server-side invite-signing story. The web UI's
create-invite flow needs the mesh owner's ed25519 SECRET key to sign
each invite payload; these columns let the backend hold + use them
per mesh.
- mesh.mesh.owner_secret_key (text, nullable): ed25519 secret key
(hex, 64 bytes) paired with owner_pubkey. Stored PLAINTEXT AT REST
for v0.1.0. Acceptable trade-off for a managed-broker SaaS launch —
the operator controls the key anyway. v0.2.0 will either encrypt
with a column-level KEK or migrate to client-held keys.
- mesh.mesh.root_key (text, nullable): 32-byte shared key
(base64url, no padding) used by channel/broadcast encryption in
later steps. Embedded in every invite so joiners receive it at
join time.
migrations/0002_vengeful_enchantress.sql — two ALTER TABLE ADD
COLUMN. Nullable so existing rows don't need backfill to migrate;
the backfill script populates them idempotently.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
chat/image/mesh modules all exported a generic `const schema`
binding. When packages/db/src/schema/index.ts did `export * from
"./chat"` + `export * from "./image"` + `export * from "./mesh"`,
TypeScript's ambiguous-re-export rule silently dropped the colliding
bindings — drizzle-kit's introspection could not find the pgSchema
instances, so CREATE SCHEMA statements were never emitted. The
migration worked on the prior dev DB only because chat/image already
existed from an earlier turbostarter run; a fresh clone would fail.
pdf.ts already used `pdfSchema` (unique name). Applied the same
pattern everywhere:
- chat.ts: `export const chatSchema = pgSchema("chat")`
- image.ts: `export const imageSchema = pgSchema("image")`
- mesh.ts: `export const meshSchema = pgSchema("mesh")`
Also added `CREATE EXTENSION IF NOT EXISTS vector` at the top of the
migration (pgvector is used by pdf.embedding — the generated
migration assumed it was pre-enabled).
Verified end-to-end against a fresh pgvector/pgvector:pg17 container:
`pnpm drizzle-kit migrate` applies cleanly from scratch, all 7 mesh.*
tables + chat/image/pdf/mesh schemas created correctly.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
The schema/index.ts barrel does `export * from "./mesh"` + `export *
from "./auth"`. Both modules exported a symbol named `member`, which
caused TypeScript to silently exclude the ambiguous re-export and
drizzle-kit's introspection couldn't see mesh.member — its generated
migration was missing that table entirely.
Fix: rename the TypeScript binding only. The DB table name stays
"member" inside pgSchema "mesh" (still mesh.member in SQL):
- `export const member = schema.table("member", ...)` →
`export const meshMember = schema.table("member", ...)`
- Internal references in mesh.ts updated (FK lambdas, relations,
Zod schemas, inferred TS types)
- apps/broker/src/broker.ts import updated to meshMember as memberTable
- migrations/0000_sloppy_stryfe.sql regenerated — now includes all 7
mesh.* tables (audit_log, invite, member, mesh, message_queue,
pending_status, presence)
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
- pgSchema "mesh" with 4 tables isolating the peer mesh domain
- Enums: visibility, transport, tier, role
- audit_log is metadata-only (E2E encryption enforced at broker/client)
- Cascade on mesh delete, soft-delete via archivedAt/revokedAt
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
