Adds a compact right-edge prompt timeline for long desktop chat sessions, with hover previews, click-to-jump, active/hover row states, and pane hover-reveal suppression so the rail can live at the hard edge without opening side panels.
The subprocess-stdin guard (TUI gateway fd-inheritance protection) flagged
the `permissions grant` call. None of the cua-driver probes/grant read
stdin, so DEVNULL is correct; apply it to the shared `_run` helper and the
grant call.
The card was macOS-only. cua-driver also runs on Windows and Linux, so
fold `cua-driver doctor` (cross-platform binary/health probes) into a
single OS-aware `ready` signal:
- macOS: ready == both TCC grants; keeps the permission rows + grant flow.
- Windows/Linux: no TCC toggles, so ready == driver health, with a
per-OS note (SmartScreen/UIAccess on Windows; X11/XWayland on Linux).
`computer_use_status()` replaces the macOS-only `permissions_status()` and
surfaces `platform`, `ready`, `can_grant`, and the doctor `checks` (non-ok
ones render as warnings). CLI `permissions status`, the REST endpoint, and
the desktop card all key off the one payload. Grant stays macOS-only (400
elsewhere — nothing to grant).
Vision mode called a `screenshot` MCP tool that cua-driver dropped in
0.5.x (full-window PNG capture was folded into `get_window_state`). The
driver replied "Unknown tool: screenshot", so `images` came back empty,
`png_b64` stayed None, and capture returned a 0x0 result with no image
on every call. `som`/`ax` were unaffected because they already use
`get_window_state`, which masked the regression.
Route vision by capability:
- driver advertises `screenshot` (older builds) -> use it (no AX walk)
- otherwise -> call `get_window_state` but discard the AX tree/elements,
returning only the PNG so vision stays free of element noise
- capabilities not yet discovered -> try `screenshot`, fall back to
`get_window_state` on an empty image, so the path self-heals
Add `_image_from_tool_result` to pull the PNG from either an MCP image
content-part or `structuredContent.screenshot_png_b64`, and use it on
the som path too so the image won't silently drop on driver builds that
deliver it via structuredContent instead of a content part.
Verified live (vision: 1568x954, 0 elements; som: image + 527 elements)
and with unit coverage of all four routing cases.
Computer Use already worked through the desktop backend (the cua-driver
toolset enables + installs via Settings -> Skills & Tools), but there was
no in-app way to see or grant the two macOS permissions it needs, so "give
a model my Mac" was tribal knowledge.
The grants attach to cua-driver's OWN TCC identity (com.trycua.driver /
the installed CuaDriver.app), not Hermes -- so no app entitlement is
involved. cua-driver 0.5+ exposes `permissions status/grant`, which we wrap:
- tools/computer_use/permissions.py: thin client over the two subcommands
- hermes computer-use permissions {status,grant}: CLI parity
- GET /api/tools/computer-use/status, POST .../permissions/grant: desktop REST
- ComputerUsePanel: live Accessibility + Screen Recording state with a
Grant button (dialog attributed to CuaDriver), shown in the expanded
Computer Use toolset row. Binary install stays in the existing provider
post-setup runner.
Follow-ups: i18n the card copy; a "Stop driver" control (cua-driver stop)
for the runaway-`serve` case.
Adds auxiliary.background_review.{provider,model} (default auto = main chat
model — unchanged). Set it to a different, cheaper model and the post-turn
self-improvement review runs there for ~3-5x lower cost.
Cache-aware by design: the main chat is warm in the prompt cache, so the
default full-history replay on the main model is cheap cache reads — left
exactly as-is. A different model can't reuse that cache (different key), so
when (and only when) routed to a different model the fork replays a compact
digest instead of the full transcript, minimising what it cold-writes on the
aux model. Same model -> full replay; different model -> digest.
Quality holds in benchmarks: memory capture identical, skill near-identical.
Nothing changes unless you opt in by naming a different model.
Co-authored-by: Hermes Agent <noreply@nousresearch.com>
The #32091 fix moved every profile's cron jobs into one shared root store,
but never wired the execution-scoping half it recommended: a job still ran
under whichever profile's ticker picked it up, not its owning profile. So a
job created under `hermes -p donna` could execute with the root profile's
.env / config.yaml / credentials.
- jobs.py: create_job auto-captures the active profile (explicit profile=
override available) and stores it on the job; resolve_profile_home() maps a
profile name to its HERMES_HOME; legacy jobs backfill to 'default'.
- scheduler.py: run_job applies the job's profile via a scoped HERMES_HOME
override (env var + in-process ContextVar) before any .env/config/script
load, restored in finally. tick() routes profile-mismatched jobs to the
single-worker sequential pool so the env mutation can't race.
- cronjob tool threads profile through (NOT exposed in the model schema, to
avoid cross-profile privilege escalation); hermes cron add gains --profile.
E2E verified against a temp HERMES_HOME with a real profile dir: a root-profile
ticker runs a profile='donna' job with HERMES_HOME=donna during execution and
restores the ticker env afterward.
File tools (read_file, write_file, patch, list_directory, etc.) used
os.path.expanduser() which reads the gateway process HOME env var.
In Docker/systemd/s6 deployments where the gateway HOME differs from
interactive sessions, tilde expanded to the wrong directory.
Add _expand_tilde() helper that delegates to get_subprocess_home() when
available, falling back to os.path.expanduser(). Replace all 9
expanduser() call sites in file_tools.py with _expand_tilde().
Follow-up to #50767, which redacted the chat-platform (_approval_notify_sync)
and SSE/API (_approval_notify) approval transports. The TUI JSON-RPC transport
is the third egress and was missed: three register_gateway_notify callbacks in
tui_gateway/server.py emitted the raw approval_data — including the unredacted
command Tirith flagged — straight to the TUI client via _emit.
Route all three registrations through a new module-level _emit_approval_request()
helper that redacts payload['command'] via the shared
gateway.run._redact_approval_command seam before emitting, matching the pattern
used for the other two transports. Completes the whole-bug-class fix for #48456.
Tests: assert the helper emits a redacted command (real credential pattern),
handles missing/None command, and a wiring guard that no registration emits the
raw payload directly (only the helper may). Both mutation-checked.
The #48456 fix series originated from @liuhao1024's #48462 — credit to them for
the original report and chat-platform fix; this completes the remaining transport.
Co-authored-by: liuhao1024 <sunsky.lau@gmail.com>
Follow-up to the /memory approve fresh-store fix. Both the CLI fallback and
the messaging-gateway handler built a bare MemoryStore() with the hardcoded
default char limits (2200/1375), ignoring the user's configured
memory.memory_char_limit / user_char_limit. A live agent honors those
overrides (agent/agent_init.py), so an approval applied without a live agent
could accept a write the user's lower cap would reject, or vice versa.
Extract a shared tools.memory_tool.load_on_disk_store() factory that reads
the configured limits (falling back to defaults if config can't load) and
wire both the CLI and gateway handlers to it, closing the gap on both
surfaces and de-duplicating the construction block.
The CLI /memory slash handler (cli_commands_mixin._handle_memory_command)
passed self.agent._memory_store straight through, which is None when the
command runs without a live agent — e.g. /memory approve from the Desktop
GUI. The shared write-approval handler then returns "memory store
unavailable" and applies nothing, even with built-in memory enabled and
pending writes present.
Fall back to a freshly loaded on-disk MemoryStore when no live store is
available, mirroring the gateway path (gateway/slash_commands.py). It
persists to the same MEMORY/USER.md and creates MEMORY.md on the first
approved write.
Fixes#46783
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The media-delivery denylist in gateway/platforms/base.py enumerated only
.env/auth.json/credentials/config.yaml under HERMES_HOME, so other
credential stores that live at the root fell through and could be
auto-attached to chat replies. The reported case: the Google Workspace
skill's google_token.json refreshes every turn, bumping its mtime to
'now', which kept passing the strict-mode recency window and re-sent the
OAuth token on every reply.
Extend the explicit per-file denylist to mirror the canonical credential
set already enforced by the read/write guards in agent/file_safety.py:
google_token.json, google_oauth_pending.json, auth/google_oauth.json,
.anthropic_oauth.json, webhook_subscriptions.json, cache/bws_cache.json,
auth.lock, and the pairing/ token directory.
Targeted per-file additions (not a blanket ~/.hermes deny, which was
declined in #32090/#34425 because it would block skills/, logs/, and
ad-hoc agent-written deliverables). mcp-tokens/ (#37222) and
state.db/kanban.db (#41071) are left to their sibling targeted PRs.
Reported-by: xxxigm (#50912)
Discord enforces a hard 100-command limit per app and rejects an upsert that would push the live total over 100 (error 30032), which silently breaks ALL slash commands. The sync deleted obsolete commands AFTER creating new ones, so an app already at the cap momentarily exceeded it and the whole sync failed.
Reorder: delete no-longer-desired commands up front, then create/update. Removes the now-redundant trailing delete loop. Adapts @infinitycrew39 PR #50890 to current main (the original adapter diff no longer applied after the platform refactor); test commit cherry-picked with authorship preserved.
Add a test to verify that _safe_sync_slash_commands deletes obsolete
commands before creating new ones. This ensures we never temporarily
exceed Discord's 100-command limit during sync, which would trigger
error 30032 and break all slash commands.
This test guards against the regression where sync could fail even though
the registration cap was properly enforced.
f-trycua's #50855 test file predated the cross-platform PR (#50552) and
reintroduced two stale tests asserting Linux is unsupported
(test_*_non_macos_*, patching platform.system="Linux" and expecting a
no-op/warn). Linux + Windows are supported now, so install proceeds on
those platforms. Restore main's cross-platform-correct versions:
test_*_on_unsupported_platform_* using FreeBSD as the genuinely
unsupported case.
`hermes computer-use install` refused to install on Linux, Windows, and
macOS x86_64 because the pre-install asset probe was hitting the wrong
GitHub endpoint AND duplicating tag-resolution logic the upstream
installer already does correctly.
`_check_cua_driver_asset_for_arch()` queried
`https://api.github.com/repos/trycua/cua/releases/latest`. On trycua/cua:
- cua-driver-rs releases (the binary the installer fetches) are marked
**prerelease** on every cut. GitHub's `/releases/latest` explicitly
skips prereleases.
- The Python package releases (`cua-agent`, `cua-computer`, `cua-train`)
are non-prerelease and end up as the "latest" instead.
Live API check today:
$ curl -sf https://api.github.com/repos/trycua/cua/releases/latest \
| jq '{tag:.tag_name, asset_count: (.assets|length)}'
{ "tag": "agent-v0.8.3", "asset_count": 0 }
The probe sees zero assets, prints "Latest CUA release has no Linux
x86_64 asset", and skips install on every Linux / Windows / macOS-x86_64
host — even though the cua-driver-rs-v0.6.0 release ships 19 binary
assets covering all those platforms.
Filtering `/releases?per_page=N` for the `cua-driver-rs-v*` prefix
fixes the bug, but it duplicates tag-resolution logic the upstream
`_install-rust.sh` already does correctly via `CUA_DRIVER_RS_BAKED_VERSION`
(auto-baked by CD on every release, with a `/releases?per_page=N` API
fallback for dev checkouts). The right answer is to trust that
contract instead of mirroring it in Python where it can drift.
Two paths get the same outcome without the probe:
1. **Fresh install**: run `install.sh` directly. It has the baked
release tag, fetches the right asset, and errors with a clear
message on missing-arch downloads. No preflight needed.
2. **Upgrade path**: `cua_driver_update_check()` (separately added)
shells `cua-driver check-update --json` against the installed
binary, which returns the canonical update answer from the same
source the installer uses.
- `hermes_cli/tools_config.py`: delete `_check_cua_driver_asset_for_arch`
and its two call sites in `install_cua_driver`. Replace with an
inline comment near the top of the module explaining the rationale.
- `tests/hermes_cli/test_install_cua_driver.py`: drop the
`TestCheckCuaDriverAssetForArch` block. Add `TestArchProbeRemoval`
with three regressions:
- `test_probe_function_is_gone` — asserts the deleted helpers stay
deleted.
- `test_fresh_install_does_not_call_github_api` — asserts the
install path doesn't hit GitHub directly from Python anymore.
- `test_upgrade_with_binary_does_not_call_github_api_directly` —
same for the upgrade path.
All 9 `test_install_cua_driver` tests pass.
Reported by @teknium1 while testing on a headed Ubuntu host.
* chore: re-trigger CI (workflows did not dispatch on prior head)
* fix(image/video gen): make schema delivery instruction platform-neutral
The image_generate and video_generate tool schema descriptions hardcoded
a gateway-only delivery instruction ('display it with markdown
 and the gateway will deliver it'). That schema
is sent on every platform, so on CLI it directly contradicted the CLI
platform hint ('Do NOT emit MEDIA:/path tags ... state its absolute path
in plain text'), and on messaging platforms it was also wrong about the
mechanism (local file paths are delivered via MEDIA: tags, not markdown
image syntax — markdown ![]() only works for URLs).
The per-platform file-delivery convention is already owned correctly by
the platform hints in prompt_builder.py. The tool schema now just
describes the result shape (URL or absolute path in the image/video field)
and defers 'how to deliver' to the active platform's guidance.
Provider/model injection already works via _build_dynamic_image_schema()
(the 'Active backend: <provider> · model: <model>' line); no change there.
Salvages #50469 by @libre-7.
_dashboard_local_update_managed_externally() previously blocked every containerized dashboard from the local update API, even when the running install was a bind-mounted git checkout that can be updated with hermes update.
Allow the dashboard updater only for git installs inside containers, while keeping hosted /opt/data, docker, and pip installs managed externally. Pip remains blocked because its apply path mutates the running container filesystem and is not the self-managed checkout case.
Adds regression coverage for docker, git, and pip install-method handling inside containers, and maps the contributor email for release attribution.
Co-authored-by: libre-7 <libre-7@users.noreply.github.com>
Follow-up to #31501. When the send-fallback prune removes a chat's
final telegram_dm_topic_bindings row, also flip
telegram_dm_topic_mode.enabled to 0 in the same transaction.
Without this, a user who turns topics off in the Telegram client
(rather than via /topic off) leaves enabled=1 with zero lanes:
_recover_telegram_topic_thread_id keeps treating the chat as
topic-enabled and lobby messages keep hunting for bindings that no
longer exist. Clearing the flag makes recovery fully stand down once
the dead topics are gone.
Adds 3 regression tests covering the last-binding clear, the
multi-binding no-op, and the unmatched-prune no-op.
Thirteen tests across four layers:
* ``SessionDB.delete_telegram_topic_binding`` — pin the new
helper's contract: removes only the (chat_id, thread_id) row
it was asked about, leaves siblings alone, returns 0 silently
when the row never existed, and is a no-op on a pristine
database whose topic-mode tables haven't been migrated yet.
* ``TelegramAdapter._prune_stale_dm_topic_binding`` — the glue
must drop the binding when ``self._session_store._db``
exposes the helper, swallow exceptions so a failed cleanup
never breaks the user-facing send, and refuse to issue a
DELETE for ``chat_id=None`` / ``thread_id=None`` so a
bookkeeping miss can't accidentally null-match every row.
* Source-level guards on ``TelegramAdapter.send`` and
``_send_message_with_thread_fallback`` — the prune call must
sit beside the two existing "Thread X not found, retrying
without message_thread_id" warnings, before the retry runs,
so a future refactor can't silently drop the cleanup wire.
* End-to-end semantic — once a topic is pruned, the
``GatewayRunner._recover_telegram_topic_thread_id`` walk
steers future inbound messages to the surviving binding
instead of the dead one. This is the exact behaviour change
the bug report's reproduction asks for: no more landings in
the wrong topic until the operator hand-edits ``state.db``.
Refs #31501
Both fallback sites that currently log "Thread X not found,
retrying without message_thread_id" now also drop the
``telegram_dm_topic_bindings`` row keyed on
``(chat_id, thread_id)``:
* The streaming send loop (``send`` body) — fires on the
second failure, after the same-thread one-shot retry confirms
the thread really is gone (the first attempt is left alone
because Bot API has been observed to return a transient
"Thread not found" that recovers on immediate retry).
* The control-message helper ``_send_message_with_thread_fallback``
(approval prompts, model picker, update prompts) — single-shot
retry, prune unconditionally on the BadRequest match.
Without this prune, a user who deletes a Telegram DM topic in
the client keeps getting their next inbound message recovered
back to the dead thread by
``_recover_telegram_topic_thread_id`` in ``gateway/run.py``,
which walks the per-user binding list newest-first and treats
the deleted thread as authoritative. The reproduction in the
bug report is exactly this: tool progress, approvals, activity
messages and replies all land in the wrong place until the user
manually runs DELETE on state.db.
Cleanup is best-effort — we log at INFO when it succeeds, swallow
any exception from the SessionDB call, and the user-facing send
proceeds either way.
Refs #31501
Targeted ``(chat_id, thread_id)`` prune for the
``telegram_dm_topic_bindings`` table — the missing piece for
#31501, where the Telegram adapter detects a topic the user
deleted out-of-band but the binding row keeps living in
state.db. The recovery logic in
``gateway.run._recover_telegram_topic_thread_id`` then steers
every future inbound message back to the dead topic, dropping
tool progress, approvals and replies into the wrong place.
Returns the number of rows deleted; silently no-ops when the
topic-mode tables haven't been migrated yet (read-only / pristine
profile) so the helper is safe to call from a send-fallback
hot path before the schema has run.
Adds an optional structured completion contract to the standing-goal loop,
adapted from OpenAI Codex's /goal guidance (a durable objective works best
when it names what done means, how to prove it, what not to break, what's in
scope, and when to stop).
A contract has five optional fields — outcome, verification, constraints,
boundaries, stop_when. When set, the continuation prompt tells the agent to
target the verification surface and respect constraints, and the judge marks
the goal done only when the verification criterion is met with concrete
evidence (command result, file excerpt, test output) instead of a loose
"looks done" claim. This tightens the most common /goal failure mode:
premature completion / endless over-continuation on an underspecified goal.
Two ways to set a contract, both backward compatible (bare /goal <text>
behaves exactly as before):
- /goal draft <objective> — expands plain text into a full contract via the
goal_judge aux model (cache-safe side call), falls back to a free-form goal
if the model is unavailable.
- /goal <text> with inline 'field: value' lines (verify:, constraints:,
boundaries:, stop when:, ...). Plain goals with an incidental colon are not
mangled — only known field prefixes are pulled out.
- /goal show prints the active contract.
Contracts persist in SessionDB.state_meta alongside the goal (survive /resume),
compose with /subgoal criteria, and old goal rows load unchanged. CLI + every
gateway platform via the shared GoalManager engine; zero new model tools.
Tests: +18 in tests/hermes_cli/test_goals.py (parse/serialize/judge-prompt/
draft/fallback), 73/73 green; 42/42 across the broader goal test surface;
live E2E roundtrip (set -> persist -> reload -> contract-aware prompts) green.
* chore: re-trigger CI (workflows did not dispatch on prior head)
* feat(skills): add cloudflare-temporary-deploy optional skill
Optional web-development skill teaching the agent to deploy a Worker to a
live workers.dev URL with no Cloudflare account via 'wrangler deploy
--temporary' (Wrangler 4.102.0+). Cloudflare provisions a throwaway,
claimable account valid for 60 minutes — ideal for an autonomous
write->deploy->verify loop with no OAuth/signup hard stop.
- SKILL.md: when/when-not, prereqs (unauth requirement, version floor),
step-by-step deploy + verify flow, product limits table, pitfalls
(hidden flag, stale global wrangler, auth-present error, rate limits,
workers.dev edge cache), verification.
- scripts/parse_deploy_output.py: stdlib-only parser extracting live URL,
claim URL, account name/state, expiry, deploy status from wrangler output.
- tests/skills/test_cloudflare_temporary_deploy_skill.py: 16 tests incl.
a real-output regression case.
Verified live end-to-end: temporary account created with no creds,
deployed to a live URL, curl confirmed body, redeploy reused the account.
Re-clamp once more on the next frame after pop-out so layout (sidebar widths,
fonts) has settled, and treat a degenerate pre-layout bounds rect as "unknown"
(fall back to the window) so we never clamp the box into a collapsed area. Net:
anyone who loads in with a stranded position is pulled back on-screen and the
fix is persisted, even if the first measure was premature.
Now that the popped-out composer is fixed to the viewport, clamping against the
window let it slide under a pinned sidebar. Confine it to the thread region
(data-slot="composer-bounds") instead — its rect already excludes a pinned
sidebar and the header — falling back to the full window before it's measured.
This subsumes the old titlebar top-margin (the thread rect starts below the
header).
Replaces the body-portal approach: render ChatBar as a sibling of the
contain:[layout paint] chat wrapper (inside the same runtime boundary) rather
than portaling the floating instance to <body>. The wrapper is a containing
block for — and clips — position:fixed descendants, which is what stranded the
popped-out composer off-screen. As a sibling it anchors to the outer relative
container: docked stays absolute (identical placement), floating resolves
against the viewport. Both states stay mounted, so dock<->float no longer
remounts the editor (the portal toggle did).
The popped-out composer is position:fixed, but the chat content wrapper sets
`contain: layout paint`, which makes it a containing block for — and clips —
fixed descendants. Inline, the floating composer was positioned/clipped relative
to the chat column (which shifts with the sidebars), not the viewport, so the
viewport-based bounds clamp from #50466 couldn't keep it reachable: users still
lost it off-screen. Portal it to <body> when popped out so fixed positioning and
the clamp finally share the viewport as their reference. Docked stays inline
(it's absolute within the chat column by design).
/simplify-code (LOW, flagged by two reviewers): the source tags 'user' /
'project' / 'bundled' were bare string literals scattered across the discovery
scrub and the two mount-time refuse guards. A typo in any one site (e.g.
'users') would SILENTLY disable a security gate with no error — the exact
failure mode this RCE boundary must not have.
Introduce a shared module-level _NON_BUNDLED_PLUGIN_SOURCES frozenset referenced
by both the discovery scrub and the (now single) mount guard, so the
auto-import policy lives in one place. The two mount guards collapse into one
gate that still emits the distinct per-source operator message via a map (no
loss of guidance). Behavior unchanged: 39 RCE-bypass tests pass, and the
constant is mutation-checked (typo'ing it fails the bypass tests).
Defence-in-depth (discovery scrub + mount refuse) is retained intentionally.
* feat(computer_use): disable cua-driver telemetry by default, add opt-in
cua-driver ships anonymous PostHog usage telemetry ENABLED by default
upstream (fires cua_driver_install / cua_driver_doctor events to
eu.i.posthog.com). Hermes now disables it for our users unless they
explicitly opt in.
- New config key `computer_use.cua_telemetry` (default false) in
DEFAULT_CONFIG.
- `cua_backend.cua_driver_child_env()` injects
`CUA_DRIVER_RS_TELEMETRY_ENABLED=0` into the child env when telemetry is
disabled (the default); leaves the var untouched on opt-in so the driver
uses its own default. Reads config fail-safe — any error defaults to
telemetry off.
- Routed every cua-driver spawn site through the policy: MCP backend
(StdioServerParameters env), `cua_driver_update_check`, doctor's
health_report Popen, the install.sh/install.ps1 runner, and the
`--version` / status probes.
- Docs: new Telemetry subsection in computer-use.md (EN).
- Tests: tests/computer_use/test_cua_telemetry.py — default disables,
explicit-false disables, opt-in leaves var untouched, config-failure
fails safe, inherited-enabled is overridden off.
Verified live on Linux against the real cua-driver-rs 0.6.0 binary: with
the var=0 the driver reports "telemetry: disabled via
CUA_DRIVER_RS_TELEMETRY_ENABLED" and sends no event; with it unset it logs
"sending event: cua_driver_doctor". 213 computer_use + install tests green.
* fix(dashboard): fold computer_use config category into agent tab
The new computer_use.cua_telemetry key created a single-field dashboard
config category, tripping test_no_single_field_categories (web_server's
invariant that categories with <2 fields must be merged to avoid tab
sprawl). Add computer_use -> agent to _CATEGORY_MERGE, matching the
existing onboarding/telegram single-field folds.
The Slack docs document `slack.mention_patterns` as custom wake words that
trigger the bot alongside `@mention`, and the config layer bridges the key into
the Slack adapter's `config.extra` — but the adapter never read it. With
`require_mention` on, a channel message containing a configured wake word (and
no literal `<@BOTUID>`) was silently ignored. Every other adapter that
documents `mention_patterns` (Telegram, DingTalk, Mattermost, WhatsApp,
BlueBubbles, Photon) implements it; Slack was the odd one out.
Add `_slack_mention_patterns()` (compiled, cached; reads `slack.mention_patterns`
as a list/string or `SLACK_MENTION_PATTERNS` as a JSON/CSV/newline list, invalid
regexes warned and skipped) and `_slack_message_matches_mention_patterns()`,
mirroring the existing adapters. Channel mention detection now also triggers on
a wake-word match, so the documented field works as described.
Adds tests for pattern compilation (list/string/env/invalid-regex) and for the
channel-trigger gating with a wake word under require_mention.
* chore: re-trigger CI (workflows did not dispatch on prior head)
* fix(delegation): emit high-concurrency cost warning once per process
_get_max_concurrent_children() runs on every get_definitions() schema
rebuild (via _build_top_level_description / _build_tasks_param_description),
not just on actual delegate_task calls. With max_concurrent_children>10 the
cost advisory fired on every turn / agent spawn across every session, spamming
the log even when delegate_task was never used. Gate it behind a module-level
_HIGH_CONCURRENCY_WARNED flag so it warns at most once per process.
The success/staged gating and op-expansion for mirroring built-in memory
writes to external providers lived in a standalone agent/memory_write_bridge.py
helper called inline from two core call sites (tool_executor.py,
agent_runtime_helpers.py). That left the mirror decision-making in the agent
loop, outside the memory-provider interface.
Fold it into a new MemoryManager.notify_memory_tool_write() entry point: the
loop now hands over the raw tool result + args and a metadata callback, and the
manager decides whether/what to mirror. Both core call sites collapse to a
single call; the orphan module is removed. No MemoryProvider ABC change.
Tests rewritten as behavior tests against the manager method.
Mirror built-in memory writes to external providers only after the native memory tool succeeds and is not staged for approval. Keep OpenViking's built-in memory mirroring add-only, since Hermes native memory entries do not yet have stable OpenViking file URIs for replace/remove.
Add a narrow viking_forget tool for exact user memory file deletion and document the current OpenViking write/delete behavior.
The install pre-flight asset probe queried trycua/cua's `releases/latest`,
which floats across the monorepo's components (agent-*, computer-*, lume-*,
train-*) — most ship zero binary assets. So the probe false-negatived and
hard-blocked `install_cua_driver` (line 770: `if not probe: return False`)
BEFORE the upstream installer ran, on Linux, Windows, and Intel macOS — even
though the installer it gates resolves the right tag and would have succeeded.
Net effect: the normal enable path (`hermes tools` → Computer Use post-setup,
and `hermes computer-use install`) refused to install on every platform this
PR claims to support.
Fix: list `/releases?per_page=100`, pick the newest `cua-driver-rs-v*` tag,
and match its assets on OS-token + arch — mirroring what the upstream
`install.sh` already does. Fail open if no driver release surfaces (installer
remains the source of truth). Adds an OS-token gate so a darwin asset can't
satisfy a Linux probe.
Tests: updated the install-probe fixtures to the list-of-releases shape with
`cua-driver-rs-v*` tags + OS-token asset names; added a regression guard
(`test_releases_latest_tag_ignored_picks_driver_rs_tag`) for the monorepo
floating-latest case. 25/25 install + 192 computer_use tests green.
Verified live: probe returns True for all six platform/arch combos against
the real GitHub releases API.
