8b69ec03af
* feat(mcp): Nous-approved MCP catalog with interactive picker
Adds an optional-mcps/ directory mirroring optional-skills/: curated,
Nous-approved MCP servers shipped with the repo but disabled by default.
Presence in optional-mcps/ = approval. No community tier, no trust signals.
Entries are added by merging a PR.
New surface:
hermes mcp Interactive catalog picker (default)
hermes mcp catalog Plain-text list, scriptable
hermes mcp install <name> Install a catalog entry
Picker behavior:
not installed -> install (clone/bootstrap if needed, prompt for creds)
installed/off -> enable
installed/on -> menu (disable / uninstall / reinstall)
Manifest schema (manifest_version: 1) supports:
- transport: stdio (command/args, ${INSTALL_DIR} substitution) or http (url)
- install: optional git clone + bootstrap commands (for repos that need
local venv setup, like the n8n bridge); omit for npx/uvx servers
- auth: api_key (prompts -> ~/.hermes/.env), oauth (provider-mediated
or native MCP), or none
Catalog entries are never auto-updated. Users re-run `hermes mcp install`
to refresh. Credentials always go to ~/.hermes/.env (the .env-is-for-secrets
rule), never to per-server env blocks.
Ships n8n as the reference manifest (https://github.com/CyberSamuraiX/hermes-n8n-mcp).
Tests: 19 catalog tests + E2E install/uninstall round-trip via the shipped
manifest.
* feat(mcp): tool-selection checklist + Linear catalog entry
Adds install-time tool selection so users only enable the MCP tools they
actually want, and ships Linear as a second reference catalog entry to
demonstrate the http+oauth path alongside n8n's stdio+api_key+git-bootstrap.
Tool selection flow:
install (clone/auth/credentials) ->
probe server for available tools ->
curses checklist with pre-checked rows ->
write mcp_servers.<name>.tools.include
Pre-check priority:
1. user's prior tools.include (reinstall preserves selection)
2. manifest's tools.default_enabled (curated subset)
3. all probed tools (default)
Probe-failure fallback (server unreachable, OAuth not yet complete,
backing service offline):
- manifest declared default_enabled -> applied directly
- no default declared -> no filter written (all-on when reachable)
- both cases point user at hermes mcp configure <name>
Manifest schema additions:
tools:
default_enabled: [list, of, tool, names] # optional
Updates:
- optional-mcps/linear/manifest.yaml -- new reference entry (http+oauth)
- optional-mcps/n8n/manifest.yaml -- tools.default_enabled set to the
8 read-mostly tools; mutating tools (activate/deactivate, container_logs)
pruned by default
- docs: new 'Tool selection at install time' section in features/mcp.md
Tests: 7 new tests in TestToolSelection covering probe-success / probe-fail
matrix, manifest-default filtering, reinstall-preserves-selection, and
invalid-default-enabled rejection. 26 catalog tests + 32 existing
mcp_config tests passing.
* feat(mcp): polish — picker unification, include-mode convergence, hardening
Addresses review findings on PR #30870. Lands all improvements that
belong in this PR before merge; defers separate cleanup (consolidating
two probe implementations, change-detector tests) to follow-ups.
Picker UX (mcp_picker.py)
- Unifies catalog + custom (user-added) MCPs in one view with distinct
status badges (available / enabled / installed (disabled) /
custom — enabled / custom — disabled)
- Adds 'Configure tools (probe server + re-pick)' action to both the
catalog-installed and custom-row submenus — the existing
hermes mcp configure flow was previously unreachable from the picker
- Loops until ESC/q so the user can manage several entries in one
session instead of having to re-launch
- Uninstall message now mentions .env credentials are preserved with a
pointer to clean them up manually if no longer needed
- Surfaces a 'requires a newer Hermes' warning per future-manifest
entry instead of silently hiding it
Catalog (mcp_catalog.py)
- catalog_diagnostics() exposes which manifests were skipped and why
(future_manifest vs invalid) so UIs can give actionable feedback
- _do_git_install detects SHA-shaped refs (regex /[0-9a-f]{7,40}/)
and skips the doomed 'git clone --branch <sha>' attempt — clone --branch
only accepts branches/tags, so SHAs always failed noisily before
falling back to the full-clone path
- Probe-success all-tools-enabled message now mentions that new tools
the server adds later will be auto-enabled (no-filter mode)
Convergence (tools_config.py)
- _configure_mcp_tools_interactive now writes tools.include (whitelist)
instead of tools.exclude (blacklist), matching the catalog flow and
hermes mcp configure. The on-disk config shape no longer depends on
which UI the user touched last
- Two existing tests updated to assert the new include-mode contract
Discoverability
- Setup wizard final step now prints 'Browse curated MCPs: hermes mcp'
- Three tip-corpus entries pointing at the new catalog
- Docs updated with: trust model (manifests run code locally, gated by
PR review, but read before installing), runtime ${ENV_VAR} substitution
semantics, and the manifest_version forward-compat behavior
Tests
- 7 new tests covering future-manifest diagnostics, custom MCP picker
rows, SHA-ref git-install path, branch-ref git-install path, and the
tools_config include-mode write contract
- 80 MCP-related tests passing across test_mcp_catalog.py,
test_mcp_config.py, test_mcp_tools_config.py
* fix(mcp): drop setup-wizard catalog hint to satisfy supply-chain scanner
The wizard line 'Browse curated MCPs: hermes mcp' triggered the
CI supply-chain scanner because it pattern-matches on edits to any
file named hermes_cli/setup.py — that filename matches the Python
'install-hook file' heuristic even though this setup.py is the
user-facing 'hermes setup' wizard, not a packaging install hook.
The catalog is already surfaced via three tip-corpus entries in
hermes_cli/tips.py (which the scanner doesn't flag), so dropping the
wizard mention loses no discoverability. Worth revisiting after a
scanner allowlist for this specific file lands.
24 KiB
| sidebar_position | title | description |
|---|---|---|
| 4 | MCP (Model Context Protocol) | Connect Hermes Agent to external tool servers via MCP — and control exactly which MCP tools Hermes loads |
MCP (Model Context Protocol)
MCP lets Hermes Agent connect to external tool servers so the agent can use tools that live outside Hermes itself — GitHub, databases, file systems, browser stacks, internal APIs, and more.
If you have ever wanted Hermes to use a tool that already exists somewhere else, MCP is usually the cleanest way to do it.
What MCP gives you
- Access to external tool ecosystems without writing a native Hermes tool first
- Local stdio servers and remote HTTP MCP servers in the same config
- Automatic tool discovery and registration at startup
- Utility wrappers for MCP resources and prompts when supported by the server
- Per-server filtering so you can expose only the MCP tools you actually want Hermes to see
Quick start
- Install MCP support (already included if you used the standard install script):
cd ~/.hermes/hermes-agent
uv pip install -e ".[mcp]"
- Add an MCP server to
~/.hermes/config.yaml:
mcp_servers:
filesystem:
command: "npx"
args: ["-y", "@modelcontextprotocol/server-filesystem", "/home/user/projects"]
- Start Hermes:
hermes chat
- Ask Hermes to use the MCP-backed capability.
For example:
List the files in /home/user/projects and summarize the repo structure.
Hermes will discover the MCP server's tools and use them like any other tool.
Catalog: one-click install for Nous-approved MCPs
Hermes ships a curated catalog of MCP servers that Nous staff has reviewed and merged. They're disabled by default — install only what you actually want.
hermes mcp # interactive picker (default)
hermes mcp catalog # plain-text list, scriptable
hermes mcp install n8n # install a catalog entry by name
The picker shows each entry with its current status:
n8n available Manage and inspect n8n workflows from Hermes
linear enabled Linear issue/project management (remote OAuth)
github installed (disabled) GitHub repo + PR tools
Hit Enter on a row to install (and walk through any required credentials),
enable, disable, or uninstall. Catalog entries are stored under
optional-mcps/ in the hermes-agent repo — presence in that directory means
Nous approval. There is no community submission tier; entries are added by
merging a PR.
Catalog entries can require:
- API key — Hermes prompts at install time and writes the value to
~/.hermes/.env. Non-secret values (base URLs) go to the same file. - OAuth (remote MCP) — written as
auth: oauthin your config; the MCP client opens a browser on first connection. - OAuth (third-party provider like Google/GitHub) — Hermes points you at
hermes auth <provider>if you haven't authenticated already.
Tool selection at install time
After credentials are configured, Hermes probes the MCP server to list every tool it exposes and presents a checklist:
Select tools for 'linear' (SPACE toggle, ENTER confirm)
[x] find_issues Find issues matching a query
[x] get_issue Get a single issue
[x] create_issue Create a new issue
[ ] delete_workspace Delete a Linear workspace
...
The pre-checked rows come from:
- Your prior selection if you've installed this entry before (reinstalls preserve what you had — the manifest's defaults don't override it)
- The manifest's
tools.default_enabledif the entry declares one (some catalog entries pre-prune mutating or rarely-useful tools) - Everything if neither applies
Submit the checklist with ENTER. Only the checked tools end up in
mcp_servers.<name>.tools.include. If you select everything, no filter is
written (cleanest config shape, identical behavior).
If the probe fails (server unreachable, OAuth not yet completed,
backing service not running), the install still succeeds: the manifest's
tools.default_enabled is applied directly (if declared), or no filter is
written (if not). Re-run hermes mcp configure <name> once the server is
reachable to refine.
Trust model
Installing a catalog entry runs whatever the manifest specifies — git clone,
the entry's bootstrap commands (pip install, npm install, etc.), and
ultimately the MCP server's own code. Manifests are gated by PR review into
the hermes-agent repo, so Nous has reviewed each entry before it shipped —
but you should still read the manifest before installing, especially the
source: field's repository, the install.bootstrap: commands, and any
transport.command: invocation.
Manifests live at
optional-mcps/<name>/manifest.yaml
on GitHub. The picker also prints the manifest's source: URL at install
time so you can quickly verify the upstream repo.
Manifest version compatibility
Manifests pin a manifest_version. The catalog is forward-compatible: if a
PR adds an entry with a newer manifest_version than your installed Hermes
understands, the picker will surface a warning (⚠ '<name>' requires a newer Hermes) for that entry instead of silently hiding it. Run hermes update
to install the latest Hermes when you see that.
Runtime ${ENV_VAR} substitution
Inside an entry's transport.command, transport.args, transport.url,
and headers, ${VAR} placeholders are resolved at server-connect time
from environment variables (which include everything in ~/.hermes/.env).
This is useful when a catalog entry wants to reference a value the user
configured elsewhere — e.g. ${HOME}/foo or ${MY_PROVIDER_TOKEN}.
Note this is distinct from ${INSTALL_DIR} in catalog manifests, which is
substituted at install-time with the path the catalog cloned the entry's
repo into.
Updating tool selection later
hermes mcp configure linear
Reopens the same checklist with your current selection pre-checked. Use this when you want more tools enabled, or when the server has added new tools that you want to opt into.
Updating the catalog manifest
MCPs are never auto-updated. Re-run hermes mcp install <name> to refresh
after a Hermes update if a manifest version changed.
To add an MCP to the catalog, open a PR against
optional-mcps/.
Two kinds of MCP servers
Stdio servers
Stdio servers run as local subprocesses and talk over stdin/stdout.
mcp_servers:
github:
command: "npx"
args: ["-y", "@modelcontextprotocol/server-github"]
env:
GITHUB_PERSONAL_ACCESS_TOKEN: "***"
Use stdio servers when:
- the server is installed locally
- you want low-latency access to local resources
- you are following MCP server docs that show
command,args, andenv
HTTP servers
HTTP MCP servers are remote endpoints Hermes connects to directly.
mcp_servers:
remote_api:
url: "https://mcp.example.com/mcp"
headers:
Authorization: "Bearer ***"
Use HTTP servers when:
- the MCP server is hosted elsewhere
- your organization exposes internal MCP endpoints
- you do not want Hermes spawning a local subprocess for that integration
OAuth-authenticated HTTP servers
Most hosted MCP servers (Linear, Sentry, Atlassian, Asana, Figma, Stripe, …) require OAuth 2.1 instead of a static bearer token. Set auth: oauth and Hermes handles discovery, dynamic client registration, PKCE, token exchange, refresh, and step-up auth via the MCP Python SDK.
mcp_servers:
linear:
url: "https://mcp.linear.app/mcp"
auth: oauth
On first connect, Hermes prints an authorize URL, opens your browser when possible, and waits for the OAuth callback on a local loopback port. Tokens are cached at ~/.hermes/mcp-tokens/<server>.json with 0o600 perms; subsequent runs reuse them silently until refresh fails.
Remote / headless hosts. When Hermes runs on a different machine than your browser, the loopback callback can't reach your laptop. Two ways to complete the flow:
- Paste-back (no setup): on an interactive terminal Hermes prints "Or paste the redirect URL here…" alongside the authorize URL. Open the URL in your browser, approve, copy the full URL the browser ends up on (the redirect will show a connection error — that's expected), paste it at the prompt. Bare
?code=…&state=…query strings work too. - SSH port forward:
ssh -N -L <port>:127.0.0.1:<port> user@hostin a separate terminal, then let the redirect flow normally.
See OAuth over SSH / Remote Hosts for the full walkthrough, including DCR-less servers (e.g. Slack), pre-registered client_id/client_secret, scope customization, and re-auth via hermes mcp login <server>.
Pitfall — config auto-reload race. When you edit ~/.hermes/config.yaml from inside a running Hermes session, the CLI auto-reloads MCP connections with a 30s timeout. That's not enough for an interactive OAuth flow. Add the entry, then run hermes mcp login <server> from a fresh terminal — it waits the full 5 minutes for you to complete auth.
Basic configuration reference
Hermes reads MCP config from ~/.hermes/config.yaml under mcp_servers.
Common keys
| Key | Type | Meaning |
|---|---|---|
command |
string | Executable for a stdio MCP server |
args |
list | Arguments for the stdio server |
env |
mapping | Environment variables passed to the stdio server |
url |
string | HTTP MCP endpoint |
headers |
mapping | HTTP headers for remote servers |
timeout |
number | Tool call timeout |
connect_timeout |
number | Initial connection timeout |
enabled |
bool | If false, Hermes skips the server entirely |
supports_parallel_tool_calls |
bool | If true, tools from this server may run concurrently |
tools |
mapping | Per-server tool filtering and utility policy |
Minimal stdio example
mcp_servers:
filesystem:
command: "npx"
args: ["-y", "@modelcontextprotocol/server-filesystem", "/tmp"]
Minimal HTTP example
mcp_servers:
company_api:
url: "https://mcp.internal.example.com"
headers:
Authorization: "Bearer ***"
Built-in presets
For well-known MCP servers, hermes mcp add accepts a --preset flag that fills in the transport details so you don't have to look up the command and args. The preset only supplies defaults — anything else (env vars, headers, filtering) you pass on the same command line still wins.
| Preset | What it wires up |
|---|---|
codex |
The Codex CLI's MCP server (codex mcp-server over stdio). Requires the codex CLI on PATH. |
# Add Codex CLI as an MCP server in one line
hermes mcp add codex --preset codex
That writes the equivalent of:
mcp_servers:
codex:
command: "codex"
args: ["mcp-server"]
You can pick any local name (hermes mcp add my-codex --preset codex is fine); the preset only provides the command/args defaults.
How Hermes registers MCP tools
Hermes prefixes MCP tools so they do not collide with built-in names:
mcp_<server_name>_<tool_name>
Examples:
| Server | MCP tool | Registered name |
|---|---|---|
filesystem |
read_file |
mcp_filesystem_read_file |
github |
create-issue |
mcp_github_create_issue |
my-api |
query.data |
mcp_my_api_query_data |
In practice, you usually do not need to call the prefixed name manually — Hermes sees the tool and chooses it during normal reasoning.
MCP utility tools
When supported, Hermes also registers utility tools around MCP resources and prompts:
list_resourcesread_resourcelist_promptsget_prompt
These are registered per server with the same prefix pattern, for example:
mcp_github_list_resourcesmcp_github_get_prompt
Important
These utility tools are now capability-aware:
- Hermes only registers resource utilities if the MCP session actually supports resource operations
- Hermes only registers prompt utilities if the MCP session actually supports prompt operations
So a server that exposes callable tools but no resources/prompts will not get those extra wrappers.
Per-server filtering
You can control which tools each MCP server contributes to Hermes, allowing fine-grained management of your tool namespace.
Disable a server entirely
mcp_servers:
legacy:
url: "https://mcp.legacy.internal"
enabled: false
If enabled: false, Hermes skips the server completely and does not even attempt a connection.
Whitelist server tools
mcp_servers:
github:
command: "npx"
args: ["-y", "@modelcontextprotocol/server-github"]
env:
GITHUB_PERSONAL_ACCESS_TOKEN: "***"
tools:
include: [create_issue, list_issues]
Only those MCP server tools are registered.
Blacklist server tools
mcp_servers:
stripe:
url: "https://mcp.stripe.com"
tools:
exclude: [delete_customer]
All server tools are registered except the excluded ones.
Precedence rule
If both are present:
tools:
include: [create_issue]
exclude: [create_issue, delete_issue]
include wins.
Filter utility tools too
You can also separately disable Hermes-added utility wrappers:
mcp_servers:
docs:
url: "https://mcp.docs.example.com"
tools:
prompts: false
resources: false
That means:
tools.resources: falsedisableslist_resourcesandread_resourcetools.prompts: falsedisableslist_promptsandget_prompt
Full example
mcp_servers:
github:
command: "npx"
args: ["-y", "@modelcontextprotocol/server-github"]
env:
GITHUB_PERSONAL_ACCESS_TOKEN: "***"
tools:
include: [create_issue, list_issues, search_code]
prompts: false
stripe:
url: "https://mcp.stripe.com"
headers:
Authorization: "Bearer ***"
tools:
exclude: [delete_customer]
resources: false
legacy:
url: "https://mcp.legacy.internal"
enabled: false
What happens if everything is filtered out?
If your config filters out all callable tools and disables or omits all supported utilities, Hermes does not create an empty runtime MCP toolset for that server.
That keeps the tool list clean.
Runtime behavior
Discovery time
Hermes discovers MCP servers at startup and registers their tools into the normal tool registry.
Dynamic Tool Discovery
MCP servers can notify Hermes when their available tools change at runtime by sending a notifications/tools/list_changed notification. When Hermes receives this notification, it automatically re-fetches the server's tool list and updates the registry — no manual /reload-mcp required.
This is useful for MCP servers whose capabilities change dynamically (e.g. a server that adds tools when a new database schema is loaded, or removes tools when a service goes offline).
The refresh is lock-protected so rapid-fire notifications from the same server don't cause overlapping refreshes. Prompt and resource change notifications (prompts/list_changed, resources/list_changed) are received but not yet acted on.
Reloading
If you change MCP config, use:
/reload-mcp
This reloads MCP servers from config and refreshes the available tool list. For runtime tool changes pushed by the server itself, see Dynamic Tool Discovery above.
Toolsets
Each configured MCP server also creates a runtime toolset when it contributes at least one registered tool:
mcp-<server>
That makes MCP servers easier to reason about at the toolset level.
Security model
Stdio env filtering
For stdio servers, Hermes does not blindly pass your full shell environment.
Only explicitly configured env plus a safe baseline are passed through. This reduces accidental secret leakage.
Config-level exposure control
The new filtering support is also a security control:
- disable dangerous tools you do not want the model to see
- expose only a minimal whitelist for a sensitive server
- disable resource/prompt wrappers when you do not want that surface exposed
Example use cases
GitHub server with a minimal issue-management surface
mcp_servers:
github:
command: "npx"
args: ["-y", "@modelcontextprotocol/server-github"]
env:
GITHUB_PERSONAL_ACCESS_TOKEN: "***"
tools:
include: [list_issues, create_issue, update_issue]
prompts: false
resources: false
Use it like:
Show me open issues labeled bug, then draft a new issue for the flaky MCP reconnection behavior.
Stripe server with dangerous actions removed
mcp_servers:
stripe:
url: "https://mcp.stripe.com"
headers:
Authorization: "Bearer ***"
tools:
exclude: [delete_customer, refund_payment]
Use it like:
Look up the last 10 failed payments and summarize common failure reasons.
Filesystem server for a single project root
mcp_servers:
project_fs:
command: "npx"
args: ["-y", "@modelcontextprotocol/server-filesystem", "/home/user/my-project"]
Use it like:
Inspect the project root and explain the directory layout.
Troubleshooting
MCP server not connecting
Check:
# Verify MCP deps are installed (already included in standard install)
cd ~/.hermes/hermes-agent && uv pip install -e ".[mcp]"
node --version
npx --version
Then verify your config and restart Hermes.
Tools not appearing
Possible causes:
- the server failed to connect
- discovery failed
- your filter config excluded the tools
- the utility capability does not exist on that server
- the server is disabled with
enabled: false
If you are intentionally filtering, this is expected.
Why didn't resource or prompt utilities appear?
Because Hermes now only registers those wrappers when both are true:
- your config allows them
- the server session actually supports the capability
This is intentional and keeps the tool list honest.
Parallel Tool Calls
By default, MCP tools run sequentially — one at a time. If your MCP server exposes tools that are safe to run concurrently (e.g. read-only queries, independent API calls), you can opt-in to parallel execution:
mcp_servers:
docs:
command: "docs-server"
supports_parallel_tool_calls: true
When supports_parallel_tool_calls is true, Hermes may execute multiple tools from that server at the same time within a single tool-call batch, just like it does for built-in read-only tools (web_search, read_file, etc.).
:::caution Only enable parallel calls for MCP servers whose tools are safe to run at the same time. If tools read and write shared state, files, databases, or external resources, review the read/write race conditions before enabling this setting. :::
MCP Sampling Support
MCP servers can request LLM inference from Hermes via the sampling/createMessage protocol. This allows an MCP server to ask Hermes to generate text on its behalf — useful for servers that need LLM capabilities but don't have their own model access.
Sampling is enabled by default for all MCP servers (when the MCP SDK supports it). Configure it per-server under the sampling key:
mcp_servers:
my_server:
command: "my-mcp-server"
sampling:
enabled: true # Enable sampling (default: true)
model: "openai/gpt-4o" # Override model for sampling requests (optional)
max_tokens_cap: 4096 # Max tokens per sampling response (default: 4096)
timeout: 30 # Timeout in seconds per request (default: 30)
max_rpm: 10 # Rate limit: max requests per minute (default: 10)
max_tool_rounds: 5 # Max tool-use rounds in sampling loops (default: 5)
allowed_models: [] # Allowlist of model names the server may request (empty = any)
log_level: "info" # Audit log level: debug, info, or warning (default: info)
The sampling handler includes a sliding-window rate limiter, per-request timeouts, and tool-loop depth limits to prevent runaway usage. Metrics (request count, errors, tokens used) are tracked per server instance.
To disable sampling for a specific server:
mcp_servers:
untrusted_server:
url: "https://mcp.example.com"
sampling:
enabled: false
Running Hermes as an MCP server
In addition to connecting to MCP servers, Hermes can also be an MCP server. This lets other MCP-capable agents (Claude Code, Cursor, Codex, or any MCP client) use Hermes's messaging capabilities — list conversations, read message history, and send messages across all your connected platforms.
When to use this
- You want Claude Code, Cursor, or another coding agent to send and read Telegram/Discord/Slack messages through Hermes
- You want a single MCP server that bridges to all of Hermes's connected messaging platforms at once
- You already have a running Hermes gateway with connected platforms
Quick start
hermes mcp serve
This starts a stdio MCP server. The MCP client (not you) manages the process lifecycle.
MCP client configuration
Add Hermes to your MCP client config. For example, in Claude Code's ~/.claude/claude_desktop_config.json:
{
"mcpServers": {
"hermes": {
"command": "hermes",
"args": ["mcp", "serve"]
}
}
}
Or if you installed Hermes in a specific location:
{
"mcpServers": {
"hermes": {
"command": "/home/user/.hermes/hermes-agent/venv/bin/hermes",
"args": ["mcp", "serve"]
}
}
}
Available tools
The MCP server exposes 10 tools, matching OpenClaw's channel bridge surface plus a Hermes-specific channel browser:
| Tool | Description |
|---|---|
conversations_list |
List active messaging conversations. Filter by platform or search by name. |
conversation_get |
Get detailed info about one conversation by session key. |
messages_read |
Read recent message history for a conversation. |
attachments_fetch |
Extract non-text attachments (images, media) from a specific message. |
events_poll |
Poll for new conversation events since a cursor position. |
events_wait |
Long-poll / block until the next event arrives (near-real-time). |
messages_send |
Send a message through a platform (e.g. telegram:123456, discord:#general). |
channels_list |
List available messaging targets across all platforms. |
permissions_list_open |
List pending approval requests observed during this bridge session. |
permissions_respond |
Allow or deny a pending approval request. |
Event system
The MCP server includes a live event bridge that polls Hermes's session database for new messages. This gives MCP clients near-real-time awareness of incoming conversations:
# Poll for new events (non-blocking)
events_poll(after_cursor=0)
# Wait for next event (blocks up to timeout)
events_wait(after_cursor=42, timeout_ms=30000)
Event types: message, approval_requested, approval_resolved
The event queue is in-memory and starts when the bridge connects. Older messages are available through messages_read.
Options
hermes mcp serve # Normal mode
hermes mcp serve --verbose # Debug logging on stderr
How it works
The MCP server reads conversation data directly from Hermes's session store (~/.hermes/sessions/sessions.json and the SQLite database). A background thread polls the database for new messages and maintains an in-memory event queue. For sending messages, it uses the same send_message infrastructure as the Hermes agent itself.
The gateway does NOT need to be running for read operations (listing conversations, reading history, polling events). It DOES need to be running for send operations, since the platform adapters need active connections.
Current limits
- The embedded
hermes mcp serveexposes a stdio-only MCP server today. If you need an HTTP MCP server, run a separate adapter — or, much more commonly, use the MCP client side of Hermes, which already speaks both stdio and HTTP (url+headersinmcp_servers.yaml/config.yaml; see HTTP servers above). - Event polling at ~200ms intervals via mtime-optimized DB polling (skips work when files are unchanged)
- No
claude/channelpush notification protocol yet - Text-only sends (no media/attachment sending through
messages_send)