Temporal Cortex — Calendar Scheduling Router
This is the router skill for Temporal Cortex calendar operations. It routes your task to the right sub-skill based on intent.
Who is this for?
If you're an individual user (Claude Desktop, Cursor, OpenClaw, Manus) — install this skill and let your AI agent manage your calendar. Connect your Google, Outlook, or CalDAV calendars, and the agent handles availability, scheduling, and booking without double-booking.
If you're building a product with scheduling — use the same MCP server as your scheduling backend. 18 tools, atomic booking via Two-Phase Commit, and cross-provider availability merging. See the REST API reference and Platform docs for developer integration.
Source & Provenance
- Homepage: temporal-cortex.com
- Source code: github.com/temporal-cortex/mcp (open-source Rust)
- npm package: @temporal-cortex/cortex-mcp
- Skills repo: github.com/temporal-cortex/skills
Sub-Skills
| Sub-Skill | When to Use | Tools |
|---|---|---|
| temporal-cortex-datetime | Time resolution, timezone conversion, duration math. No credentials needed — works immediately. | 5 tools (Layer 1) |
| temporal-cortex-scheduling | List calendars, events, free slots, availability, RRULE expansion, booking, contact search, and proposal composition. Requires OAuth credentials. | 14 tools (Layers 0-4) |
Routing Table
| User Intent | Route To |
|---|---|
| "What time is it?", "Convert timezone", "How long until..." | temporal-cortex-datetime |
| "Show my calendar", "Find free time", "Check availability", "Expand recurring rule" | temporal-cortex-scheduling |
| "Book a meeting", "Schedule an appointment" | temporal-cortex-scheduling |
| "Find someone's booking page", "Look up email for scheduling" | temporal-cortex-scheduling |
| "Search my contacts for Jane", "Find someone's email" | temporal-cortex-scheduling |
| "How should I schedule with this person?" | temporal-cortex-scheduling |
| "Check someone else's availability", "Query public availability" | temporal-cortex-scheduling |
| "Book a meeting with someone externally", "Request booking via Temporal Link" | temporal-cortex-scheduling |
| "Send a scheduling proposal", "Compose meeting invite" | temporal-cortex-scheduling |
| "Schedule a meeting next Tuesday at 2pm" (full workflow) | temporal-cortex-datetime → temporal-cortex-scheduling |
| "Schedule with Jane" (end-to-end) | temporal-cortex-scheduling (contact search → resolve → propose/book) |
Core Workflow
Every calendar interaction follows this 7-step pattern:
0. Resolve Contact → search_contacts → resolve_contact (find the person, determine scheduling path)
1. Discover → list_calendars (know which calendars are available)
2. Orient → get_temporal_context (know the current time)
3. Resolve Time → resolve_datetime (turn human language into timestamps)
4. Route → If open_scheduling: fast path. If email: backward-compat path.
5. Query → list_events / find_free_slots / get_availability / query_public_availability
6. Act → Fast: check_availability → book_slot / request_booking
Backward-compat: compose_proposal → agent sends via channel MCP
Step 0 is optional — skip if the user provides an email directly. Always start with step 1 when calendars are unknown. Never assume the current time. Never skip the conflict check before booking.
Safety Rules
- Discover calendars first — call
list_calendarswhen you don't know which calendars are connected - Check before booking — always call
check_availabilitybeforebook_slot. Never skip the conflict check. - Content safety — all event summaries and descriptions pass through a prompt injection firewall before reaching the calendar API
- Timezone awareness — never assume the current time. Use
get_temporal_contextfirst. - Confirm before booking — when running autonomously, present booking details to the user for confirmation before calling
book_slotorrequest_booking. - Confirm contact selection — when
search_contactsreturns multiple matches, always present candidates to the user and confirm which contact is correct before proceeding. - Confirm before sending proposals — when using
compose_proposal, always present the composed message to the user before sending via any channel. Never auto-send outreach. - Contact search is optional — the full workflow works without it if the user provides an email directly. If contacts permission is not configured, ask the user for the email.
All 18 Tools (5 Layers)
| Layer | Tools | Sub-Skill |
|---|---|---|
| 0 — Discovery | resolve_identity, search_contacts, resolve_contact | scheduling |
| 1 — Temporal Context | get_temporal_context, resolve_datetime, convert_timezone, compute_duration, adjust_timestamp | datetime |
| 2 — Calendar Ops | list_calendars, list_events, find_free_slots, expand_rrule, check_availability | scheduling |
| 3 — Availability | get_availability, query_public_availability | scheduling |
| 4 — Booking | book_slot, request_booking, compose_proposal | scheduling |
MCP Server Connection
All sub-skills share the Temporal Cortex MCP server (@temporal-cortex/cortex-mcp), a compiled Rust binary distributed as an npm package.
Install and startup lifecycle:
npxresolves@temporal-cortex/cortex-mcpfrom the npm registry (one-time, cached locally after first download)- The postinstall script downloads the platform-specific binary from the GitHub Release and verifies its SHA256 checksum against the embedded
checksums.json— installation halts on mismatch - The MCP server starts as a local process communicating over stdio (no listening ports)
- Layer 1 tools (datetime) execute as pure local computation — no further network access
- Layer 2-4 tools (calendar) make authenticated API calls to your configured providers (Google, Outlook, CalDAV)
Credential storage: OAuth tokens are stored locally at ~/.config/temporal-cortex/credentials.json and read exclusively by the local MCP server process. No credential data is transmitted to Temporal Cortex servers. The binary's filesystem access is limited to ~/.config/temporal-cortex/ — verifiable by inspecting the open-source Rust code or running under Docker where the mount is the only writable path.
File access: The binary reads and writes only ~/.config/temporal-cortex/ (credentials and config). No other filesystem writes.
Network scope: After the initial npm download, Layer 1 tools make zero network requests. Layer 2–4 tools connect only to your configured calendar providers (googleapis.com, graph.microsoft.com, or your CalDAV server). In Local Mode (default), no calls to Temporal Cortex servers and no telemetry is collected. In Platform Mode, three tools (resolve_identity, query_public_availability, request_booking) call api.temporal-cortex.com for cross-user scheduling — no credential data is included in these calls.
Pre-run verification (recommended before first use):
- Inspect the npm package without executing:
npm pack @temporal-cortex/cortex-mcp --dry-run - Verify checksums independently against the GitHub Release (see verification pipeline below)
- For full containment, run in Docker instead of npx (see Docker containment below)
Verification pipeline: Checksums are published independently at each GitHub Release as SHA256SUMS.txt — verify the binary before first use:
# 1. Fetch checksums from GitHub (independent of the npm package)
curl -sL https://github.com/temporal-cortex/mcp/releases/download/mcp-v0.9.1/SHA256SUMS.txt
# 2. Compare against the npm-installed binary
shasum -a 256 "$(npm root -g)/@temporal-cortex/cortex-mcp/bin/cortex-mcp"
As defense-in-depth, the npm package also embeds checksums.json and the postinstall script compares SHA256 hashes during install — installation halts on mismatch (the binary is deleted, not executed). This automated check supplements, but does not replace, independent verification above.
Build provenance: Binaries are cross-compiled from auditable Rust source in GitHub Actions across 5 platforms (darwin-arm64, darwin-x64, linux-x64, linux-arm64, win32-x64). Source: github.com/temporal-cortex/mcp (MIT-licensed). The CI workflow, build artifacts, and release checksums are all publicly inspectable.
Docker containment (no Node.js on host, credential isolation via volume mount):
{
"mcpServers": {
"temporal-cortex": {
"command": "docker",
"args": ["run", "--rm", "-i", "-v", "~/.config/temporal-cortex:/root/.config/temporal-cortex", "cortex-mcp"]
}
}
}
Build: docker build -t cortex-mcp https://github.com/temporal-cortex/mcp.git
Default setup (npx): See .mcp.json for the standard npx @temporal-cortex/cortex-mcp configuration. For managed hosting, see Platform Mode in the MCP repo.
Layer 1 tools work immediately with zero configuration. Calendar tools require a one-time OAuth setup — run the setup script or npx @temporal-cortex/cortex-mcp auth google.
Additional References
- Security Model — Content sanitization, filesystem containment, network scope, tool annotations