* fix(imessage): only warn about empty group allowlist when messages actually drop With groupPolicy="allowlist", a non-empty effective groupAllowFrom admits group messages even when channels.imessage.groups is empty (senderFilterBypass in src/config/group-policy.ts), so the startup warning "Every inbound group message will be dropped" fired as a false positive for that configuration. The warning now mirrors the runtime gate's effective sender allowlist (same allowFrom fallback + legacy chat-target merge) and fires only when both the groups registry and the effective group sender allowlist are empty - the only startup-provable drop-all config. The message now names groupAllowFrom as the fix, since adding groups entries alone leaves the sender gate blocking. Docs: describe the two group gates' warnings separately with per-warning remedies instead of implying both fire for the same config. * docs(imessage): format migration guide * fix(imessage): warn on empty group sender allowlist * docs: move iMessage fix to unreleased
46 KiB
summary, read_when, title
| summary | read_when | title | ||
|---|---|---|---|---|
| Native iMessage support via imsg (JSON-RPC over stdio), with private API actions for replies, tapbacks, effects, polls, attachments, and group management. Preferred for new OpenClaw iMessage setups when host requirements fit. |
|
iMessage |
Inbound recovery is automatic. After a bridge or gateway restart, iMessage replays the messages missed while it was down and suppresses the stale "backlog bomb" Apple can flush after a Push recovery, deduping so nothing is dispatched twice. There is no config to enable — see Inbound recovery after a bridge or gateway restart.
BlueBubbles support was removed. Migrate `channels.bluebubbles` configs to `channels.imessage`; OpenClaw supports iMessage through `imsg` only. Start with [BlueBubbles removal and the imsg iMessage path](/announcements/bluebubbles-imessage) for the short announcement, or [Coming from BlueBubbles](/channels/imessage-from-bluebubbles) for the full migration table.Status: native external CLI integration. The Gateway spawns imsg rpc and speaks JSON-RPC over stdio — no separate daemon or port. Advanced actions require imsg launch and a successful private API probe.
Quick setup
brew install steipete/tap/imsg
imsg rpc --help
imsg launch
openclaw channels status --probe
</Step>
<Step title="Configure OpenClaw">
{
channels: {
imessage: {
enabled: true,
cliPath: "/usr/local/bin/imsg",
dbPath: "/Users/user/Library/Messages/chat.db",
},
},
}
</Step>
<Step title="Start gateway">
openclaw gateway
</Step>
<Step title="Approve first DM pairing (default dmPolicy)">
openclaw pairing list imessage
openclaw pairing approve imessage <CODE>
Pairing requests expire after 1 hour.
</Step>
</Steps>
OpenClaw only requires a stdio-compatible `cliPath`, so you can point `cliPath` at a wrapper script that SSHes to a remote Mac and runs `imsg`.
#!/usr/bin/env bash
exec ssh -T gateway-host imsg "$@"
Recommended config when attachments are enabled:
{
channels: {
imessage: {
enabled: true,
cliPath: "~/.openclaw/scripts/imsg-ssh",
remoteHost: "user@gateway-host", // used for SCP attachment fetches
includeAttachments: true,
// Optional: extra allowed attachment roots (merged with the default
// /Users/*/Library/Messages/Attachments).
attachmentRoots: ["/Users/*/Library/Messages/Attachments"],
remoteAttachmentRoots: ["/Users/*/Library/Messages/Attachments"],
},
},
}
If `remoteHost` is not set, OpenClaw attempts to auto-detect it by parsing the SSH wrapper script.
`remoteHost` must be `host` or `user@host` (no spaces or SSH options); unsafe values are ignored.
OpenClaw uses strict host-key checking for SCP, so the relay host key must already exist in `~/.ssh/known_hosts`.
Attachment paths are validated against allowed roots (`attachmentRoots` / `remoteAttachmentRoots`).
Any `cliPath` wrapper or SSH proxy you put in front of `imsg` MUST behave like a transparent stdio pipe for long-lived JSON-RPC. OpenClaw exchanges small newline-framed JSON-RPC messages over the wrapper's stdin/stdout for the lifetime of the channel:
- Forward each stdin chunk/line as soon as bytes are available — don't wait for EOF.
- Forward each stdout chunk/line promptly in the reverse direction.
- Preserve newlines.
- Avoid fixed-size blocking reads (
read(4096),cat | buffer, default shellread) that can starve small frames. - Keep stderr separate from the JSON-RPC stdout stream.
A wrapper that buffers stdin until a large block fills will produce symptoms that look like an iMessage outage — imsg rpc timeout (chats.list) or repeated channel restarts — even though imsg rpc itself is healthy. ssh -T host imsg "$@" (above) is safe because it forwards OpenClaw's cliPath arguments such as rpc and --db. Pipelines like ssh host imsg | grep -v '^DEBUG' are NOT — line-buffered tools can still hold frames; use stdbuf -oL -eL on every stage if you must filter.
Requirements and permissions (macOS)
- Messages must be signed in on the Mac running
imsg. - Full Disk Access is required for the process context running OpenClaw/
imsg(Messages DB access). - Automation permission is required to send messages through Messages.app.
- For advanced actions (react / edit / unsend / threaded reply / effects / polls / group ops), System Integrity Protection must be disabled — see Enabling the imsg private API. Basic text and media send/receive work without it.
imsg chats --limit 1
# or
imsg send <handle> "test"
Not authorized to send Apple events to Messages. (-1743)
Check the signed-in Mac user's TCC database or System Settings > Privacy & Security > Automation. If the Automation entry is recorded for /usr/libexec/sshd-keygen-wrapper instead of the imsg or local shell process, macOS may not expose a usable Messages toggle for that SSH server-side client:
kTCCServiceAppleEvents | /usr/libexec/sshd-keygen-wrapper | auth_value=0 | com.apple.MobileSMS
In that state, repeating tccutil reset AppleEvents or rerunning imsg send through the same SSH wrapper may keep failing because the process context that needs Messages Automation is the SSH wrapper, not an app the UI can grant.
Use one of the supported imsg process contexts instead:
- Run the Gateway, or at least the
imsgbridge, in the logged-in Messages user's local session. - Start the Gateway with a LaunchAgent for that user after granting Full Disk Access and Automation from the same session.
- If you keep the two-user SSH topology, verify that a real outbound
imsg sendsucceeds through the exact wrapper before enabling the channel. If it cannot be granted Automation, reconfigure to a single-userimsgsetup instead of relying on the SSH wrapper for sends.
Enabling the imsg private API
imsg ships in two operational modes:
- Basic mode (default, no SIP changes needed): outbound text and media via
send, inbound watch/history, chat list. This is what you get out of the box from a freshbrew install steipete/tap/imsgplus the standard macOS permissions above. - Private API mode:
imsginjects a helper dylib intoMessages.appto call internalIMCorefunctions. This unlocksreact,edit,unsend,reply(threaded),sendWithEffect,pollandpoll-vote(native Messages polls),renameGroup,setGroupIcon,addParticipant,removeParticipant,leaveGroup, plus typing indicators and read receipts.
The advanced action surface on this page requires Private API mode. The imsg README is explicit about the requirement:
Advanced features such as
read,typing,launch, bridge-backed rich send, message mutation, and chat management are opt-in. They require SIP to be disabled and a helper dylib to be injected intoMessages.app.imsg launchrefuses to inject when SIP is enabled.
The helper-injection technique uses imsg's own dylib to reach Messages private APIs. There is no third-party server or BlueBubbles runtime in the OpenClaw iMessage path.
Treat this as a deliberate operational choice, not a default. If your threat model cannot tolerate SIP being off, bundled iMessage is limited to basic mode — text and media send/receive only, no reactions / edit / unsend / effects / group ops.
Setup
-
Install (or upgrade)
imsgon the Mac that runs Messages.app:brew install steipete/tap/imsg imsg --version imsg status --jsonThe
imsg status --jsonoutput reportsbridge_version,rpc_methods, and per-methodselectorsso you can see what the current build supports before you start. -
Disable System Integrity Protection, and (on modern macOS) Library Validation. Injecting a non-Apple helper dylib into the Apple-signed
Messages.appneeds SIP off and library validation relaxed. The Recovery-mode SIP step is macOS-version-specific:- macOS 10.13-10.15 (Sierra-Catalina): disable Library Validation via Terminal, reboot to Recovery Mode, run
csrutil disable, restart. - macOS 11+ (Big Sur and later), Intel: Recovery Mode (or Internet Recovery),
csrutil disable, restart. - macOS 11+, Apple Silicon: power-button startup sequence to enter Recovery; on recent macOS versions hold the Left Shift key when you click Continue, then
csrutil disable. Virtual-machine setups follow a separate flow, so take a VM snapshot first.
On macOS 11 and later,
csrutil disablealone is usually not enough. Apple still enforces library validation againstMessages.appas a platform binary, so an adhoc-signed helper is rejected (Library Validation failed: ... platform binary, but mapped file is not) even with SIP off. After disabling SIP, also disable library validation and reboot:sudo defaults write /Library/Preferences/com.apple.security.libraryvalidation.plist DisableLibraryValidation -bool truemacOS 26 (Tahoe), verified on 26.5.1: SIP off plus the
DisableLibraryValidationcommand above is sufficient to inject the helper across 26.0 through 26.5.x. No boot-args are required. The plist is the decisive factor and the most common missing step when injection fails on Tahoe:- With the plist:
imsg launchinjects andimsg statusreportsadvanced_features: true. - Without the plist (even with SIP off):
imsg launchfails withFailed to launch: Timeout waiting for Messages.app to initialize. AMFI rejects the adhoc helper at load, so the bridge never becomes ready and the launch times out. That timeout is the symptom most people hit on Tahoe; the fix is the plist above, not anything more drastic.
If
imsg launchinjection or specificselectorsstart returning false after a macOS upgrade, this gate is the usual cause. Check your SIP and library-validation state before assuming the SIP step itself failed. If those settings are correct and the bridge still cannot inject, collectimsg status --jsonplus theimsg launchoutput and report it to theimsgproject instead of weakening additional system-wide security controls. - macOS 10.13-10.15 (Sierra-Catalina): disable Library Validation via Terminal, reboot to Recovery Mode, run
-
Inject the helper. With SIP disabled and Messages.app signed in:
imsg launchimsg launchrefuses to inject when SIP is still enabled, so this also doubles as a confirmation that step 2 took. -
Verify the bridge from OpenClaw:
openclaw channels status --probeThe iMessage entry should report
works, andimsg status --json | jq '{rpc_methods, selectors}'should show the capabilities exposed by your macOS build. Poll creation requiresselectors.pollPayloadMessage; voting requires bothselectors.pollVoteMessageand thepoll.voteRPC method. The OpenClaw plugin advertises only actions supported by the cached probe, while an empty cache stays optimistic and probes on first dispatch.
If openclaw channels status --probe reports the channel as works but specific actions throw "iMessage <action> requires the imsg private API bridge" at dispatch time, run imsg launch again — the helper can fall out (Messages.app restart, OS update, etc.) and the cached available: true status will keep advertising actions until the next probe refreshes.
When SIP stays enabled
If disabling SIP is not acceptable for your threat model:
imsgfalls back to basic mode — text + media + receive only.- The OpenClaw plugin still advertises text/media send and inbound monitoring; it hides
react,edit,unsend,reply,sendWithEffect, and group ops from the action surface (per the per-method capability gate). - You can run a separate non-Apple-Silicon Mac (or a dedicated bot Mac) with SIP off for the iMessage workload, while keeping SIP enabled on your primary devices. See Dedicated bot macOS user (separate iMessage identity) below.
Access control and routing
`channels.imessage.dmPolicy` controls direct messages:- `pairing` (default)
- `allowlist` (requires at least one `allowFrom` entry)
- `open` (requires `allowFrom` to include `"*"`)
- `disabled`
Allowlist field: `channels.imessage.allowFrom`.
Allowlist entries must identify senders: handles or static sender access groups (`accessGroup:<name>`). Use `channels.imessage.groupAllowFrom` for chat targets such as `chat_id:*`, `chat_guid:*`, or `chat_identifier:*`; use `channels.imessage.groups` for numeric `chat_id` registry keys.
`channels.imessage.groupPolicy` controls group handling:
- `allowlist` (default)
- `open`
- `disabled`
Group sender allowlist: `channels.imessage.groupAllowFrom`.
`groupAllowFrom` entries can also reference static sender access groups (`accessGroup:<name>`).
Runtime fallback: if `groupAllowFrom` is unset, iMessage group sender checks use `allowFrom`; set `groupAllowFrom` when DM and group admission should differ. An explicitly empty `groupAllowFrom: []` does not fall back — it blocks all group senders under `allowlist`.
Runtime note: if `channels.imessage` is completely missing, runtime falls back to `groupPolicy="allowlist"` and logs a warning (even if `channels.defaults.groupPolicy` is set).
<Warning>
Group routing under `groupPolicy: "allowlist"` runs **two** gates back-to-back:
1. **Sender allowlist** (`channels.imessage.groupAllowFrom`) — handle, `accessGroup:<name>`, `chat_guid`, `chat_identifier`, or `chat_id`. An empty effective list (no `groupAllowFrom` and no `allowFrom` fallback) blocks every group sender.
2. **Group registry** (`channels.imessage.groups`) — enforced once the map has entries: the chat must match an explicit per-`chat_id` entry or a `groups: { "*": { ... } }` wildcard. When `groups` is empty or missing, the sender allowlist alone decides admission.
If no effective group sender allowlist is configured, every group message is dropped before the registry gate. Each gate has its own `warn`-level signal at the default log level, and each names a different fix:
- one-time per account at startup, when the effective group sender allowlist is empty: `imessage: groupPolicy="allowlist" for account "<id>" but no group sender allowlist is configured ...` — fix by setting `channels.imessage.groupAllowFrom` (or `allowFrom`); adding `groups` entries alone leaves gate 1 blocking every sender.
- one-time per `chat_id` at runtime, when a sender passed gate 1 but the chat is missing from a populated `groups` registry: `imessage: dropping group message from chat_id=<id> ...` — fix by adding that `chat_id` (or `"*"`) under `channels.imessage.groups`.
DMs are unaffected — they take a different code path.
Recommended config for group flow under `groupPolicy: "allowlist"`:
```json5
{
channels: {
imessage: {
groupPolicy: "allowlist",
groupAllowFrom: ["+15555550123"],
groups: { "*": { "requireMention": true } },
},
},
}
```
`groupAllowFrom` alone admits those senders in any group; add the `groups` block to scope which chats are allowed (and to set per-chat options like `requireMention`).
</Warning>
Mention gating for groups:
- iMessage has no native mention metadata
- mention detection uses regex patterns (`agents.list[].groupChat.mentionPatterns`, fallback `messages.groupChat.mentionPatterns`)
- with no configured patterns, mention gating cannot be enforced
- control commands from authorized senders bypass mention gating
Per-group `systemPrompt`:
Each entry under `channels.imessage.groups.*` accepts an optional `systemPrompt` string, injected into the agent's system prompt on every turn that handles a message in that group. Resolution mirrors `channels.whatsapp.groups`:
1. **Group-specific system prompt** (`groups["<chat_id>"].systemPrompt`): used when the specific group entry exists in the map **and** its `systemPrompt` key is defined. If `systemPrompt` is an empty string (`""`) the wildcard is suppressed and no system prompt is applied to that group.
2. **Group wildcard system prompt** (`groups["*"].systemPrompt`): used when the specific group entry is absent from the map entirely, or when it exists but defines no `systemPrompt` key.
```json5
{
channels: {
imessage: {
groupPolicy: "allowlist",
groupAllowFrom: ["+15555550123"],
groups: {
"*": { systemPrompt: "Use British spelling." },
"8421": {
requireMention: true,
systemPrompt: "This is the on-call rotation chat. Keep replies under 3 sentences.",
},
"9907": {
// explicit suppression: the wildcard "Use British spelling." does not apply here
systemPrompt: "",
},
},
},
},
}
```
Per-group prompts only apply to group messages — direct messages are unaffected.
- DMs use direct routing; groups use group routing.
- With default `session.dmScope=main`, iMessage DMs collapse into the agent main session.
- Group sessions are isolated (`agent::imessage:group:`).
- Replies route back to iMessage using originating channel/target metadata.
Group-ish thread behavior:
Some multi-participant iMessage threads can arrive with `is_group=false`.
If that `chat_id` is explicitly configured under `channels.imessage.groups`, OpenClaw treats it as group traffic (group gating + group session isolation).
ACP conversation bindings
iMessage chats can be bound to ACP sessions.
Fast operator flow:
- Run
/acp spawn codex --bind hereinside the DM or allowed group chat. - Future messages in that same iMessage conversation route to the spawned ACP session.
/newand/resetreset the same bound ACP session in place./acp closecloses the ACP session and removes the binding.
Configured persistent bindings use top-level bindings[] entries with type: "acp" and match.channel: "imessage".
match.peer.id can use:
- normalized DM handle such as
+15555550123oruser@example.com chat_id:<id>(recommended for stable group bindings)chat_guid:<guid>chat_identifier:<identifier>
Example:
{
agents: {
list: [
{
id: "codex",
runtime: {
type: "acp",
acp: { agent: "codex", backend: "acpx", mode: "persistent" },
},
},
],
},
bindings: [
{
type: "acp",
agentId: "codex",
match: {
channel: "imessage",
accountId: "default",
peer: { kind: "group", id: "chat_id:123" },
},
acp: { label: "codex-group" },
},
],
}
See ACP Agents for shared ACP binding behavior.
Deployment patterns
Use a dedicated Apple ID and macOS user so bot traffic is isolated from your personal Messages profile.Typical flow:
1. Create/sign in a dedicated macOS user.
2. Sign into Messages with the bot Apple ID in that user.
3. Install `imsg` in that user.
4. Create an SSH wrapper so OpenClaw can run `imsg` in that user context.
5. Point `channels.imessage.accounts.<id>.cliPath` and `.dbPath` to that user profile.
First run may require GUI approvals (Automation + Full Disk Access) in that bot user session.
Common topology:
- gateway runs on Linux/VM
- iMessage + `imsg` runs on a Mac in your tailnet
- `cliPath` wrapper uses SSH to run `imsg`
- `remoteHost` enables SCP attachment fetches
Example:
```json5
{
channels: {
imessage: {
enabled: true,
cliPath: "~/.openclaw/scripts/imsg-ssh",
remoteHost: "bot@mac-mini.tailnet-1234.ts.net",
includeAttachments: true,
dbPath: "/Users/bot/Library/Messages/chat.db",
},
},
}
```
```bash
#!/usr/bin/env bash
exec ssh -T bot@mac-mini.tailnet-1234.ts.net imsg "$@"
```
Use SSH keys so both SSH and SCP are non-interactive.
Ensure the host key is trusted first (for example `ssh bot@mac-mini.tailnet-1234.ts.net`) so `known_hosts` is populated.
iMessage supports per-account config under `channels.imessage.accounts`.
Each account can override fields such as `cliPath`, `dbPath`, `allowFrom`, `groupPolicy`, `mediaMaxMb`, history settings, and attachment root allowlists.
Set `channels.imessage.dmHistoryLimit` to seed new direct-message sessions with recent decoded `imsg` history for that conversation. Use `channels.imessage.dms[""].historyLimit` for per-sender overrides, including `0` to disable history for a sender.
iMessage DM history is fetched on demand from `imsg`. Leaving `dmHistoryLimit` unset disables global DM history seeding, but a positive per-sender `channels.imessage.dms["<sender>"].historyLimit` still enables seeding for that sender.
Media, chunking, and delivery targets
- inbound attachment ingestion is **off by default** — set `channels.imessage.includeAttachments: true` to forward photos, voice memos, video, and other attachments to the agent. With it disabled, attachment-only iMessages are dropped before reaching the agent and may produce no `Inbound message` log line at all. - remote attachment paths can be fetched via SCP when `remoteHost` is set - attachment paths must match allowed roots: - `channels.imessage.attachmentRoots` (local) - `channels.imessage.remoteAttachmentRoots` (remote SCP mode) - configured roots extend the default root pattern `/Users/*/Library/Messages/Attachments` (merged, not replaced) - SCP uses strict host-key checking (`StrictHostKeyChecking=yes`) - outbound media size uses `channels.imessage.mediaMaxMb` (default 16 MB) - text chunk limit: `channels.imessage.textChunkLimit` (default 4000) - chunk mode: `channels.imessage.chunkMode` - `length` (default) - `newline` (paragraph-first splitting) - outbound markdown bold/italic/underline/strikethrough is converted to native styled text (macOS 15+ recipients render the styling; older recipients see plain text without the markers); markdown tables are converted per the channel markdown table mode - `channels.imessage.sendTransport` (`auto` default, `bridge`, `applescript`) selects how `imsg` delivers sends Preferred explicit targets:- `chat_id:123` (recommended for stable routing)
- `chat_guid:...`
- `chat_identifier:...`
Handle targets are also supported:
- `imessage:+1555...`
- `sms:+1555...`
- `user@example.com`
```bash
imsg chats --limit 20
```
Private API actions
When imsg launch is running and openclaw channels status --probe reports privateApi.available: true, the message tool can use iMessage-native actions in addition to normal text sends.
All actions are enabled by default; use channels.imessage.actions to turn individual actions off:
{
channels: {
imessage: {
actions: {
reactions: true,
edit: true,
unsend: true,
reply: true,
sendWithEffect: true,
sendAttachment: true,
renameGroup: true,
setGroupIcon: true,
addParticipant: true,
removeParticipant: true,
leaveGroup: true,
polls: true,
},
},
},
}
Accepted inbound polls are rendered for the agent with the question, numbered option labels, vote counts, and the poll message ID needed by `poll-vote`.
Inbound iMessage context includes both short `MessageSid` values and full message GUIDs (`MessageSidFull`) when available. Short IDs are scoped to the recent SQLite-backed reply cache and are checked against the current chat before use. If a short ID has expired or belongs to another chat, retry with the full `MessageSidFull`.
OpenClaw hides private API actions only when the cached probe status says the bridge is unavailable. If the status is unknown, actions remain visible and dispatch probes lazily so the first action can succeed after `imsg launch` without a separate manual status refresh.
When the private API bridge is up, accepted inbound chats are marked read and direct chats show a typing bubble as soon as the turn is accepted, while the agent prepares context and generates. Disable read-marking with:
```json5
{
channels: {
imessage: {
sendReadReceipts: false,
},
},
}
```
Older `imsg` builds that pre-date the per-method capability list gate off typing/read silently; OpenClaw logs a one-time warning per restart so the missing receipt is attributable.
OpenClaw subscribes to iMessage tapbacks and routes accepted reactions as system events instead of normal message text, so a user tapback does not trigger an ordinary reply loop.
Notification mode is controlled by `channels.imessage.reactionNotifications`:
- `"own"` (default): notify only when users react to bot-authored messages.
- `"all"`: notify for all inbound tapbacks from authorized senders.
- `"off"`: ignore inbound tapbacks.
Per-account overrides use `channels.imessage.accounts.<id>.reactionNotifications`.
When `approvals.exec.enabled` or `approvals.plugin.enabled` is true and the request routes to iMessage, the gateway delivers an approval prompt natively and accepts a tapback to resolve it:
- `👍` (Like tapback) → `allow-once`
- `👎` (Dislike tapback) → `deny`
- `allow-always` remains a manual fallback: send `/approve <id> allow-always` as a regular reply.
Reaction handling requires the reacting user's handle to be an explicit approver. The approver list is read from `channels.imessage.allowFrom` (or `channels.imessage.accounts.<id>.allowFrom`); add the user's phone number in E.164 form or their Apple ID email (chat targets such as `chat_id:*` are not valid approver entries). The wildcard entry `"*"` is honored but allows any sender to approve; an empty approver list disables the reaction shortcut entirely. The reaction shortcut intentionally bypasses `reactionNotifications`, `dmPolicy`, and `groupAllowFrom` because the explicit-approver allowlist is the only gate that matters for approval resolution.
`/approve` text command authorization follows the same list: when `channels.imessage.allowFrom` is non-empty, `/approve <id> <decision>` is authorized against that approver list (not the broader DM allowlist), and senders permitted on the DM allowlist but not in `allowFrom` receive an explicit denial. When `allowFrom` is empty, the same-chat fallback stays in effect and `/approve` authorizes anyone the DM allowlist permits. Add every operator who should approve — via `/approve` or via reactions — to `allowFrom`.
Operator notes:
- The reaction binding is stored both in memory and in the gateway's persistent keyed store (TTL matched to the approval expiry), and the gateway also polls pending prompts for tapbacks, so a tapback that lands shortly after a gateway restart still resolves the approval.
- The operator's own `is_from_me=true` tapback (for example from a paired Apple device) resolves the approval when that handle is an explicit approver.
- Approval prompts route into a group conversation only when explicit approvers are configured; otherwise any group member could approve.
- Legacy text-style tapbacks (`Liked "…"` plain text from very old Apple clients) cannot resolve approvals because they carry no message GUID; reaction resolution requires the structured tapback metadata that current macOS / iOS clients emit.
Config writes
iMessage allows channel-initiated config writes by default (for /config set|unset when commands.config: true).
Disable:
{
channels: {
imessage: {
configWrites: false,
},
},
}
Coalescing split-send DMs (command + URL in one composition)
When a user types a command and a URL together — e.g. Dump https://example.com/article — Apple's Messages app splits the send into two separate chat.db rows:
- A text message (
"Dump"). - A URL-preview balloon (
"https://...") with OG-preview images as attachments.
The two rows arrive at OpenClaw ~0.8-2.0 s apart on most setups. Without coalescing, the agent gets the command alone on turn 1 (and often replies "send me the URL") before the URL arrives on turn 2. This is Apple's send pipeline, not anything OpenClaw or imsg introduces.
channels.imessage.coalesceSameSenderDms opts a DM into buffering consecutive same-sender rows. When imsg exposes the structural URL-preview marker balloon_bundle_id: "com.apple.messages.URLBalloonProvider" on one of the source rows, OpenClaw merges only that real split-send and keeps any other buffered rows as separate turns. On older imsg builds that emit no balloon metadata at all, OpenClaw cannot tell a split-send from separate sends, so it falls back to merging the bucket. That preserves the pre-metadata behavior rather than regressing Dump <url> split-sends into two turns. Group chats continue to dispatch per-message so multi-user turn structure is preserved.
- You ship skills that expect `command + payload` in one message (dump, paste, save, queue, etc.).
- Your users paste URLs alongside commands.
- You can accept the added DM turn latency (see below).
Leave disabled when:
- You need minimum command latency for single-word DM triggers.
- All your flows are one-shot commands without payload follow-ups.
```json5
{
channels: {
imessage: {
coalesceSameSenderDms: true, // opt in (default: false)
},
},
}
```
With the flag on and no explicit `messages.inbound.byChannel.imessage` or global `messages.inbound.debounceMs`, the debounce window widens to **7000 ms** (the legacy default is 0 ms — no debouncing). The wider window is required because Apple's URL-preview split-send cadence can stretch to several seconds while Messages.app emits the preview row.
To tune the window yourself:
```json5
{
messages: {
inbound: {
byChannel: {
// 7000 ms covers observed Messages.app URL-preview delays.
imessage: 7000,
},
},
},
}
```
- **Precise merging needs current `imsg` payload metadata.** With `balloon_bundle_id` present, only the real split-send merges; the metadata-less fallback merge described above is interim back-compat, removed once `imsg` coalesces split-sends upstream.
- **Added latency for DM messages.** With the flag on, every DM (including standalone control commands and single-text follow-ups) waits up to the debounce window before dispatching, in case a URL-preview row is coming. Group-chat messages keep instant dispatch.
- **Merged output is bounded.** Merged text caps at 4000 chars with an explicit `…[truncated]` marker; attachments cap at 20; source entries cap at 10 (first-plus-latest retained beyond that). Every source GUID is tracked in `coalescedMessageGuids` for downstream telemetry.
- **DM-only.** Group chats fall through to per-message dispatch so the bot stays responsive when multiple people are typing.
- **Opt-in, per-channel.** Other channels (Discord, Slack, Telegram, WhatsApp, …) are unaffected. Legacy BlueBubbles configs that set `channels.bluebubbles.coalesceSameSenderDms` should migrate that value to `channels.imessage.coalesceSameSenderDms`.
Scenarios and what the agent sees
The "Flag on" column shows behavior on an imsg build that emits balloon_bundle_id. On older imsg builds that emit no balloon metadata at all, the rows below marked "Two turns" / "N turns" instead fall back to a legacy merge (one turn): OpenClaw cannot structurally tell a split-send from separate sends, so it preserves the pre-metadata merge. Precise separation activates once the build emits balloon metadata.
| User composes | chat.db produces |
Flag off (default) | Flag on + window (imsg emits balloon metadata) |
|---|---|---|---|
Dump https://example.com (one send) |
2 rows ~1 s apart | Two agent turns: "Dump" alone, then URL | One turn: merged text Dump https://example.com |
Save this 📎image.jpg caption (attachment + text) |
2 rows without URL balloon metadata | Two turns | Two turns after metadata is observed; one merged turn on old/pre-latch metadata-less sessions |
/status (standalone command) |
1 row | Instant dispatch | Wait up to window, then dispatch |
| URL pasted alone | 1 row | Instant dispatch | Wait up to window, then dispatch |
| Text + URL sent as two deliberate separate messages, minutes apart | 2 rows outside window | Two turns | Two turns (window expires between them) |
| Rapid flood (>10 small DMs inside window) | N rows without URL balloon metadata | N turns | N turns after metadata is observed; one bounded merged turn on old/pre-latch metadata-less sessions |
| Two people typing in a group chat | N rows from M senders | M+ turns (one per sender bucket) | M+ turns — group chats are not coalesced |
Inbound recovery after a bridge or gateway restart
iMessage recovers messages missed while the gateway was down, and at the same time suppresses the stale "backlog bomb" Apple can flush after a Push recovery. The default behavior is always on, built on the inbound dedupe.
- Replay dedupe. Every dispatched inbound message is recorded by its Apple GUID in persistent plugin state (
imessage.inbound-dedupe), claimed at ingestion and committed after handling (released on a transient failure so it can retry). Anything already handled is dropped instead of dispatched twice. This is what lets recovery replay aggressively without per-message bookkeeping. - Downtime recovery. On startup the monitor remembers the last dispatched
chat.dbrowid (a persisted per-account cursor) and passes it toimsg watch.subscribeassince_rowid, so imsg replays the rows that landed while the gateway was down, then tails live. Replay is bounded to the most recent 500 rows and to messages up to ~2 hours old, and the dedupe drops anything already handled. - Stale-backlog age fence. Rows above the startup boundary are genuinely live; one whose send date is more than ~15 minutes older than its arrival is the Push-flush backlog and is suppressed. Replayed rows (at or below the boundary) use the wider recovery window instead, so a recently-missed message is delivered while ancient history is not.
Recovery works over both local and remote cliPath setups, because since_rowid replay runs over the same imsg RPC connection. The difference is the window: when the gateway can read chat.db (local), it anchors the startup rowid boundary, caps the replay span, and delivers missed messages up to a couple of hours old. Over a remote SSH cliPath it cannot read the database, so the replay is uncapped and every row uses the live age fence — it still recovers recently-missed messages and still suppresses old backlog, just with the narrower live window. Run the gateway on the Messages Mac for the wider recovery window.
Operator-visible signal
Suppressed backlog is logged at the default level, never silently dropped (the recovery flag shows which window applied):
imessage: suppressed stale inbound backlog account=<id> sent=<iso> recovery=<bool> (<N> suppressed since start)
Migration
channels.imessage.catchup.* is deprecated — downtime recovery is automatic and needs no config for new setups. Existing configs with catchup.enabled: true remain honored as a compatibility profile for the recovery replay window. Disabled catchup blocks (enabled: false or no enabled: true) are retired; openclaw doctor --fix removes those.
Troubleshooting
Validate the binary and RPC support:```bash
imsg rpc --help
imsg status --json
openclaw channels status --probe
```
If the probe reports RPC unsupported, update `imsg`. If private API actions are unavailable, run `imsg launch` in the logged-in macOS user session and probe again. If the Gateway is not running on macOS, use the Remote Mac over SSH setup above instead of the default local `imsg` path.
First prove whether the message reached the local Mac. If `chat.db` does not change, OpenClaw cannot receive the message even when `imsg status --json` reports a healthy bridge.
imsg chats --limit 10 --json
imsg watch --chat-id <chat-id> --json
sqlite3 ~/Library/Messages/chat.db \
"select datetime(max(date)/1000000000 + 978307200, 'unixepoch', 'localtime'), max(ROWID) from message;"
If phone-sent messages create no new rows, repair the macOS Messages and Apple Push layer before changing OpenClaw config. A one-shot service refresh is often enough:
launchctl kickstart -k system/com.apple.apsd
launchctl kickstart -k gui/$(id -u)/com.apple.CommCenter
launchctl kickstart -k gui/$(id -u)/com.apple.identityservicesd
launchctl kickstart -k gui/$(id -u)/com.apple.imagent
imsg launch
openclaw gateway restart
Send a fresh iMessage from the phone and confirm a new `chat.db` row or `imsg watch` event before debugging OpenClaw sessions. Do not run this as a periodic bridge-relaunch loop; repeated `imsg launch` plus gateway restarts during active work can interrupt deliveries and strand in-flight channel runs.
The default `cliPath: "imsg"` must run on the Mac signed into Messages. On Linux or Windows, set `channels.imessage.cliPath` to a wrapper script that SSHes to that Mac and runs `imsg "$@"`.
#!/usr/bin/env bash
exec ssh -T messages-mac imsg "$@"
Then run:
openclaw channels status --probe --channel imessage
- `channels.imessage.dmPolicy`
- `channels.imessage.allowFrom`
- pairing approvals (`openclaw pairing list imessage`)
Check:
- `channels.imessage.groupPolicy`
- `channels.imessage.groupAllowFrom`
- `channels.imessage.groups` allowlist behavior
- mention pattern configuration (`agents.list[].groupChat.mentionPatterns`)
Check:
- `channels.imessage.remoteHost`
- `channels.imessage.remoteAttachmentRoots`
- SSH/SCP key auth from the gateway host
- host key exists in `~/.ssh/known_hosts` on the gateway host
- remote path readability on the Mac running Messages
Re-run in an interactive GUI terminal in the same user/session context and approve prompts:
```bash
imsg chats --limit 1
imsg send <handle> "test"
```
Confirm Full Disk Access + Automation are granted for the process context that runs OpenClaw/`imsg`.
Configuration reference pointers
Related
- Channels Overview — all supported channels
- BlueBubbles removal and the imsg iMessage path — announcement and migration summary
- Coming from BlueBubbles — config translation table and step-by-step cutover
- Pairing — DM authentication and pairing flow
- Groups — group chat behavior and mention gating
- Channel Routing — session routing for messages
- Security — access model and hardening