The desktop scheduler can overwrite cron/jobs.json with its own small
set of internally-tracked crons after an update/restart, causing
partial loss of tool-created cron jobs. The previous guard only
checked for total loss (live_count == 0), missing the case where
live_count > 0 but less than the pre-update snapshot count.
Compare live_count against snap_count instead of checking for zero,
so both total loss (0 vs N) and partial loss (1 vs 19) trigger
restoration.
Salvaged from #52161 by @liuhao1024.
Closes#52144
The pre-update HERMES_HOME zip shipped on by default (DEFAULT_CONFIG +
runtime fallback both True), so every `hermes update` zipped the entire
~/.hermes — sessions DB, caches, skills — adding minutes to each update.
The shipped cli-config.yaml.example, the --backup help, and the example
config all already said "off by default," so the live default
contradicted its own documentation.
Flip the default to off everywhere: DEFAULT_CONFIG, the runtime
`.get(..., False)` fallback in _run_pre_update_backup, and the stale
--backup help string. Users who want the #48200 safety net opt in via
updates.pre_update_backup: true or --backup for a single run.
Updated test_default_enabled_creates_backup -> test_default_disabled_is_silent
to assert the new default (silent no-op, no zip).
* feat(moa): expose MoA presets as selectable virtual models
Reconstructed onto current main (PR #46081's base had diverged with no common
ancestor, marking the PR dirty so CI never dispatched). MoA is now a virtual
provider: each named preset is a selectable model under provider 'moa', and the
preset's aggregator is the acting model that answers and calls tools.
Reference models fan out in parallel via a bounded ThreadPoolExecutor (the same
batch pattern delegate_task uses) — all references dispatched at once, collected
when every one finishes, then handed to the aggregator. Output order is
preserved, failures and the MoA-recursion guard stay isolated per reference.
- Removed the old mixture_of_agents model tool and moa toolset.
- Added moa as a virtual provider in the provider/model inventory.
- /moa is shortcut behavior over model selection (default preset / named preset
/ one-shot prompt).
- Dashboard + Desktop manage named presets; presets appear in model pickers.
- Parallel reference fan-out in agent/moa_loop.py with regression test.
* fix(moa): thread moa_config through _run_agent to _run_agent_inner
The reconstructed gateway MoA wiring declared moa_config on _run_agent (the
profile-scoping wrapper) and used it inside _run_agent_inner, but the wrapper
never forwarded it — _run_agent_inner had no such parameter, so the runtime hit
NameError: name 'moa_config' is not defined on the compression-failure session
sync path. Add moa_config to _run_agent_inner's signature and forward it from
both wrapper call sites (multiplex and non-multiplex). Caught by
tests/gateway/test_compression_failure_session_sync.py on CI shard test(4).
* fix(moa): classify moa as a virtual provider in the catalog
The moa virtual provider has no PROVIDER_REGISTRY/ProviderProfile entry, so
provider_catalog() fell through to the default auth_type="api_key" with no
env vars — tripping two catalog invariants:
- test_provider_catalog: api_key providers must expose a credential env var
- test_provider_parity: every hermes-model provider must be desktop-configurable
moa already declares auth_type="virtual" in HERMES_OVERLAYS; consult that
overlay as an auth_type fallback so the catalog reports moa as virtual (no real
credential, no network endpoint). Exempt virtual providers from the desktop
parity union check the same way 'custom' is exempt — derived from the catalog,
not a hardcoded slug, so future virtual providers are covered too.
The desktop self-updater rebuilds and re-signs the .app on each user's own
machine (`hermes desktop --build-only` -> electron-builder `--dir`). With
CSC_IDENTITY_AUTO_DISCOVERY on (its default), electron-builder signs the
type=distribution, hardened-runtime bundle with whatever identity is in that
user's keychain -- typically a personal "Apple Development" cert -- which
stalls/fails the sign step (no Developer ID, no provisioning profile) or
clobbers the original notarized signature with an unusable one, tripping
Gatekeeper on every post-update launch.
Force ad-hoc signing for the local packaged rebuild instead: deterministic,
and exactly what _desktop_macos_relaunchable_fixup already finishes off.
No-op for source runs, off-macOS, when a real identity is configured
(CSC_LINK / APPLE_SIGNING_IDENTITY), or when the caller already pinned the flag.
On macOS, the desktop updater's stage 1 (hermes update --gateway) ends by
restarting running gateways. launchd_restart() SIGTERMs the gateway and
silently waits up to agent.restart_drain_timeout (default 180s) for the
drain; the manual profile-gateway loop waits its drain budget per gateway
the same way. Neither path prints anything before the wait, so the desktop
updater's live output goes dead for minutes right after '✓ Update
complete!' — users read it as a hung update and force-kill their gateway
processes to make it move (#44515). The systemd branch already announces
its drain ('draining (up to Ns)...'); launchd and the manual loop did not.
Print the stop/drain (with PID and budget) before the wait in both paths,
mirroring the systemd branch, and assert the message in the existing
launchd drain test.
Fixes#44515
_ensure_uv_for_termux only checked resolve_uv() (the managed
$HERMES_HOME/bin/uv) before falling back to pip, so a uv installed via
`pkg install uv` lives on PATH but is invisible to the helper. Combined
with the cherry-picked wheel-only fallback, a Termux user with no managed
uv still hit `pip install uv`, which has no Android wheel and tried to
source-build the Rust crate, OOM-killing low-memory devices.
Probe shutil.which("uv") right after the Termux guard and reuse it before
pip. Add a regression test that keeps resolve_uv() returning None while a
uv exists on PATH and asserts pip is never invoked.
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).
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.
* 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.
Make the computer_use toolset platform-agnostic by driving cua-driver on
macOS, Windows, and Linux. Consumes the 8 cua-driver decoupling surfaces
(capability discovery, structuredContent AX tree, opaque element_token,
click button enum, explicit mimeType, machine-readable manifest,
structured list_windows, structured health_report), each degrading
gracefully on older drivers.
Adds `hermes computer-use doctor` (drives cua-driver health_report with a
per-OS check matrix and an exit 0/1/2 ok/degraded/blocked contract), full
typed wrappers for the previously-uncovered cua-driver tools plus a generic
call_tool escape hatch, per-session agent-cursor lifecycle, platform-aware
system-prompt guidance (host-deterministic, cache-safe), and honors
HERMES_CUA_DRIVER_CMD end-to-end.
Replaces the macOS-only skills/apple/macos-computer-use skill with a
cross-platform skills/computer-use skill, and refreshes the EN + zh-Hans
docs.
Supersedes #44221 (Windows-enablement salvage of #30660).
Co-authored-by: Teknium <127238744+teknium1@users.noreply.github.com>
The post-update gateway resume path (`_resume_windows_gateways_after_update`)
only relaunched gateways that were *running* when the update began — it
enumerates live PIDs in `_pause_windows_gateways_for_update` and respawns
exactly those. A gateway that had already died between updates (e.g. it was
launched attached to a terminal/TUI that later closed, taking the child with
it) was never brought back: the Startup-folder / Scheduled-Task autostart
entry only fires on the next login, not after an in-place update.
So a Desktop-GUI update (which runs `hermes update --yes --gateway`) on a box
whose gateway had quietly died would complete with no gateway running, and the
user had no indication anything should have come up.
Fix: when no gateway is running at pause time but an autostart entry is
installed (`gateway_windows.is_installed()` — an explicit "I want a gateway"
signal), return a `cold_start_if_installed` token. The resume step then does a
fresh detached spawn via `gateway_windows._spawn_detached()` — the same
windowless `pythonw` + `CREATE_BREAKAWAY_FROM_JOB` path `hermes gateway start`
uses. It re-checks liveness immediately before spawning so a concurrent start
(autostart entry firing) can't produce a duplicate.
Gateway-less users (no autostart entry) get nothing forced on them — the
pause step still returns None for them. POSIX is unaffected: enabled systemd
units already restart via `Restart=always`.
Windows-only; best-effort throughout (logs at debug and no-ops on any error).
Tests: pause returns the cold-start token only when installed, returns None
when not installed, resume cold-starts on the token, and resume skips the
cold-start when a gateway is already running.
* chore: re-trigger CI (workflows did not dispatch on prior head)
* fix(update): don't count across shallow-clone boundary (bogus '12492 commits behind')
Installer checkouts are shallow (git clone --depth 1). The CLI banner and
hermes update --check both did a plain git fetch (silently unshallowing the
repo) then git rev-list --count HEAD..origin/main, which counts across the
shallow boundary and prints a huge nonsense number like '12492 commits behind'.
Detect shallow up front, fetch with --depth 1 to preserve the boundary, and
compare tip SHAs instead of counting:
- banner _check_via_local_git: returns UPDATE_AVAILABLE_NO_COUNT when behind
(renders as 'update available') instead of the bogus count.
- _cmd_update_check: reports presence-only on shallow clones.
Full clones keep the exact count path unchanged. Mirrors the desktop fix in
apps/desktop/electron/main.cjs (commit 2950c6fa2).
When `hermes dashboard --host 0.0.0.0` is run interactively with the auth
gate engaged but no DashboardAuthProvider configured, prompt to set up the
bundled username/password provider on the spot (or point at `hermes dashboard
register` for OAuth) instead of only emitting the fail-closed error.
- main.py: `_maybe_setup_dashboard_auth_interactively()` runs before
start_server. No-ops on loopback binds, when a provider is already
registered, or when stdin/stdout isn't a TTY (Docker/s6, CI, piped runs) so
the fail-closed SystemExit stays the backstop for unattended deploys. On the
password path it writes dashboard.basic_auth.{username,password_hash,secret}
to config.yaml (scrypt hash, never plaintext), then force-rediscovers
plugins so the basic provider registers before the gate check.
- web_server.py: fix the fail-closed hint — it told operators to set
`dashboard_auth.basic.username` but the provider reads `dashboard.basic_auth`.
- docs: note the interactive setup under Fail-closed semantics.
No new env vars; reuses the existing dashboard.basic_auth config surface.
* feat(providers): remove google-gemini-cli + google-antigravity OAuth providers
Google now actively bans accounts for third-party tools that piggyback on
Gemini CLI / Antigravity / Code Assist OAuth, and because abuse prevention
sits at a backend layer the ban can extend to the entire Google account
(Gmail/Drive), with a second violation being permanent.
Ref: https://github.com/google-gemini/gemini-cli/discussions/20632
Removes both OAuth inference providers entirely (modules, provider profiles,
auth/runtime/config/models wiring, the /gquota Code Assist quota command,
the antigravity-cli optional skill, desktop + docs surface in en + zh-Hans).
The API-key 'gemini' provider (GOOGLE_API_KEY/GEMINI_API_KEY against
generativelanguage.googleapis.com) is unaffected and stays fully supported.
* fix(skills): keep the antigravity-cli skill — only the OAuth provider is removed
The antigravity-cli optional skill orchestrates the external `agy` binary as
a coding-agent tool via the terminal tool — it does NOT wrap Hermes inference
through the banned google-antigravity OAuth provider, so it carries none of
the account-ban risk that motivated removing that provider. Restore the skill,
its docs page, the sidebar entry, and the optional-skills catalog row. The
google-antigravity / google-gemini-cli inference providers stay fully removed.
CI on the salvage caught two issues the stale PR base masked:
1. The model-setup flows were extracted from main.py into
hermes_cli/model_setup_flows.py after @pmos69 forked. The cherry-pick
re-introduced a stale _model_flow_custom into main.py (duplicating the
one main.py now imports) and put _model_flow_google_antigravity there too.
Move the antigravity flow into model_setup_flows.py alongside its siblings
and drop the stale _model_flow_custom dup. Fixes the getpass/stdin OSError
in tests/cli/test_cli_provider_resolution.py.
2. google-antigravity re-exposes Claude/Gemini/GPT-OSS models, so its catalog
was hijacking bare short aliases (`sonnet` -> google-antigravity instead of
anthropic) in detect_static_provider_for_model via dict insertion order.
Add _BORROWED_MODEL_PROVIDERS and defer those providers to a last-resort
pass so a model's native vendor always wins alias/direct-catalog detection.
Fixes tests/hermes_cli/test_models.py::test_short_alias_resolves_to_static_model.
On Windows, _pause_windows_gateways_for_update() force-kills every running
gateway before mutating the venv. Gateways mapped to a profile (via
profile.path/gateway.pid) were respawned afterward, but gateways with NO
profile mapping — e.g. a Windows Scheduled Task running
"pythonw.exe -m hermes_cli.main gateway run" — were force-killed and only
told to restart manually. After an auto-update/bootstrap the Telegram bot
stayed dead until manual intervention.
Now we snapshot each unmapped gateway's argv (psutil, guarded by
looks_like_gateway_command_line) before the kill and replay it through the
same detached watcher used for profile gateways, so unmapped gateways come
back automatically too.
Co-authored-by: Hermes Agent <agent@nousresearch.com>
Root cause of #49145: the Windows ZIP-update path did rmtree(dst) then
copytree(src, dst). If the copy failed partway — common on that path,
which only runs because file I/O is already flaky on the machine — the
directory was left deleted with nothing copied back. ui-tui/ vanishing
is what broke 'hermes --tui' (WinError 267), but the bug hit every
top-level directory.
_atomic_replace_dir stages the new copy into a sibling temp dir and only
swaps it in on full success, restoring the original on failure. A failed
update now leaves the live tree untouched instead of half-deleted.
The Windows update path can leave tracked ui-tui/ files deleted in the
working tree (HEAD intact). The guard now self-heals: when ui-tui/ is
missing in a git checkout, run `git restore -- ui-tui` and continue,
falling back to the printed manual-recovery steps only when git can't
recover it (no checkout / restore failed).
Builds on konsisumer's missing-workspace guard.
In Docker the install tree (/opt/hermes) is read-only, so npm install for
the WhatsApp bridge fails with EACCES. Add resolve_whatsapp_bridge_dir() in
whatsapp_common.py: when the install dir is read-only, mirror the bridge
source into a writable HERMES_HOME location and use that. Both the
adapter and the 'hermes whatsapp' CLI resolve through the shared helper so
the install and runtime paths agree.
Fixes#49561
Render the reactive pet pane in the classic CLI (steady redraw,
right-aligned) and wire the /pet command to list and switch pets, plus an
enable/disable toggle. Backed by hermes_cli/pets.py and the CLI commands
mixin, registered in the central command registry. Covered by the CLI pet
pane and toggle tests.
Behavior-preserving cleanups on the managed-node resolver:
- Hoist _candidate_node_command_names() out of the inner dir loop in
find_hermes_node_executable (computed once, not per directory).
- Drop redundant os.environ.copy() at the two with_hermes_node_path(
os.environ.copy()) sites \u2014 the helper already copies os.environ when
called with no argument (verified env-equivalent).
- Add reciprocal keep-in-sync comments between iter_hermes_node_dirs()
(hermes_constants.py) and hermesManagedNodePathEntries() (electron
main.cjs), which mirror the same platform-ordering rule across the
Python/Node boundary.
The `hermes update` desktop-rebuild gate still used a bare
`shutil.which("npm")` presence check. On a Windows box where the only
working npm is the Hermes-managed npm.cmd (not on PATH), the gate would
skip the desktop rebuild even though _build_web_ui / cmd_gui can now find
it via find_node_executable. Route the gate through the same resolver for
full bug-class coverage.
Surfaced during review of #49239.
Manual verification surfaced a second bypass class beyond the standalone
config loaders: several code paths bridge config.yaml values into os.environ
(HERMES_TIMEZONE, HERMES_REDACT_SECRETS, HERMES_MAX_ITERATIONS, TERMINAL_*,
network.force_ipv4, ...) by reading the raw user YAML, so the env the whole
process reads carried the USER's value even when an administrator pinned it —
e.g. a managed timezone was overridden because gateway/run.py wrote the user's
timezone into HERMES_TIMEZONE, and _resolve_timezone_name() checks the env var
first.
Wired the shared apply_managed_overlay() into every config→env bridge:
- gateway/run.py module-level startup bridge (timezone, redact_secrets,
max_turns, terminal, display, gateway.strict, ...)
- gateway/run.py _reload_runtime_env_preserving_config_authority (the per-turn
re-bridge that keeps config authoritative over reloaded .env — must keep
MANAGED authoritative on every turn, not just startup)
- hermes_cli/main.py early security.redact_secrets / network.force_ipv4 bridge
(runs before load_config is usable, at import time)
- hermes_cli/send_cmd.py top-level scalar config→env bridge
Verified end-to-end against a writable managed dir (12/12 checks incl. timezone,
logging, model, skin, gateway settings, write-guard) and in a clean process the
gateway per-turn bridge writes HERMES_TIMEZONE=<managed>. Adds an
order-independent regression test for the bridge overlay.
Defense-in-depth fix for the silent wipe of ~/.hermes/ documented in
#48200. A `hermes update --yes` run silently destroyed a user's
.env, MEMORY.md, kanban.db, custom skills, and scripts. Two changes:
1. `_rmtree_writable` in tools/skills_sync.py now refuses to rmtree
anything outside SKILLS_DIR (the HERMES_HOME/skills/ root).
All five call sites pass paths under SKILLS_DIR, so the guard is
a no-op for current code and a loud, recoverable failure for
any future regression (bad path join, malicious bundled
manifest, stale path in scope after an exception).
2. The default `updates.pre_update_backup` flips from false to
true in hermes_cli/config.py. A few minutes of zip per update
is negligible compared to silent total data loss. Still
overridable; --no-backup still works for one-off opt-out.
Five new tests in TestRmtreeWritableScopeGuard (root path,
hermes home, sibling dir, skills root itself, subdir) plus a
flipped `test_default_enabled_creates_backup` in test_backup.py.
178/178 tests pass in the two affected files. Public method
signatures unchanged, no test-stub blast radius.
Closes#48200
Salvage follow-up to the cherry-picked feat/test commits:
- W1: the unpack/install update path in main.py printed the
'~ N user-modified (kept)' notice without the new
'hermes skills list-modified' hint that the git-pull path got.
Mirror the hint to both sites so the count is actionable
regardless of which update path runs.
- W2: 'hermes skills diff <name>' (bundled-vs-stock) now shares the
verb with the gateway write-approval 'diff <id>'. The gateway
handler's docstring + truncation message pointed users to
'/skills diff <id>' on the CLI, which now resolves a bundled skill
by that name instead. Point at the pending JSON file and note the
two diff commands are distinct.
- Add an invariant test asserting every 'user-modified (kept)' notice
in main.py carries the discovery hint (guards sibling drift).
`hermes update` keeps (won't overwrite) bundled skills the user edited
locally, but only printed a count — "~ N user-modified (kept)" — with no way
to learn which skills, or see what changed. Reverting already existed
(`hermes skills reset <name> [--restore]`); discovery and inspection did not.
Add two CLI commands (zero model-tool footprint), reusing the manifest
origin-hash that sync already maintains:
- `hermes skills list-modified [--json]` — list the bundled skills whose
on-disk copy diverges from the last-synced origin hash (the exact test the
sync loop uses to decide what to skip).
- `hermes skills diff <name>` — unified diff between the user's copy and the
current bundled (stock) version, so the user can confirm what changed
before reverting.
Both are mirrored as `/skills list-modified` and `/skills diff`. The
`hermes update` notice now points at `hermes skills list-modified`. Core
helpers `list_user_modified_bundled_skills()` and `diff_bundled_skill()` live
in tools/skills_sync.py alongside the existing reset logic.
* feat(relay): authenticate the connector⇄gateway WS channel
The relay gateway may be customer-managed and internet-exposed, so the
connector⇄gateway channel is itself authenticated (distinct from the
platform crypto the relay path sheds). Add gateway/relay/auth.py — a
Python port of the connector's HMAC token + delivery-signature schemes
(relayAuthToken.ts / deliverySigning.ts), verified byte-for-byte against
the connector's compiled TypeScript via cross-language test vectors.
Present an Authorization bearer on the /relay WS upgrade keyed by the
per-gateway secret (resolved from GATEWAY_RELAY_ID / GATEWAY_RELAY_SECRET
in env or config). The connector rejects an unauthenticated/invalid/
revoked upgrade with close 4401.
* feat(relay): signed-HTTP inbound delivery receiver
The connector delivers normalized inbound events to a tenant's gateway
over a signed HTTP POST, not the outbound /relay WS: the connector
instance owning a platform socket is generally not the instance a given
gateway dialed out to, so inbound targets a tenant endpoint that may
load-balance across gateway instances.
Add gateway/relay/inbound_receiver.py — verifies x-relay-signature /
x-relay-timestamp over the EXACT raw request bytes (re-serializing would
break the HMAC: JS JSON.stringify is compact, Python json.dumps spaces)
against the per-tenant delivery key verify list within a 300s replay
window, then dispatches messages to handle_message and interrupts to the
interrupt handler. Wire it into the adapter lifecycle (start in connect()
when a delivery key + bind port are configured, tear down in disconnect();
a purely-outbound dev gateway runs without it).
Refine test_relay_sheds_crypto to distinguish PLATFORM crypto (Discord
ed25519, Twilio/WeCom HMAC — still shed) from the connector⇄gateway
CHANNEL auth (intended): auth.py / inbound_receiver.py are exempt from
the platform-symbol scan but still banned from importing platform-crypto
modules, plus a positive guard that auth.py uses only stdlib hmac/hashlib.
* feat(relay): hermes gateway enroll CLI
Add the gateway half of zero-touch enrollment. `hermes gateway enroll`
resolves a fresh Nous Portal access token (the tenant-proving identity),
POSTs {enrollmentToken, gatewayId} to the connector's /relay/enroll, and
persists GATEWAY_RELAY_ID / GATEWAY_RELAY_SECRET / GATEWAY_RELAY_DELIVERY_KEY
to ~/.hermes/.env. The per-gateway secret authenticates the WS upgrade;
the per-tenant delivery key verifies signed inbound deliveries.
Refuses under is_managed() (hosted installs get the secret stamped in by
the orchestrator). Added as an 'enroll' subcommand on the existing
gateway subparser — not a new top-level command.
* docs(relay): inbound is signed HTTP, not WS; document channel auth
Fix the stale contract: §3/§5 said inbound rode the WS socket (single-
instance only, predates the multi-instance socket-ownership + channel-auth
model). Inbound + connector→gateway interrupt are signed HTTP POSTs to the
tenant endpoint. Add §6.1 documenting the two channel-auth schemes (per-
gateway WS-upgrade secret, per-tenant inbound delivery key) and how they
differ from the platform crypto the relay path sheds.
* test(relay): update build_gateway_parser callers for cmd_gateway_enroll
The enroll subcommand added cmd_gateway_enroll as a required keyword-only
arg to build_gateway_parser, but two existing parser-extraction tests still
called it with only cmd_gateway/cmd_proxy — failing CI with TypeError.
Thread the new handler through both call sites and add a test asserting
`gateway enroll` dispatches to cmd_gateway_enroll with its flags parsed.
* fix(desktop): resolve electronDist dynamically + self-heal blocked installs
Supersedes the static-path approach (#48081) and the install-step self-heal
(#48082) with a fix that removes the whole failure class instead of chasing each
symptom. Three distinct faults converged into the June desktop-build outage; this
closes all three.
Root cause (the part #48081 left open — "Gap B"):
build.electronDist was a static relative path in apps/desktop/package.json, but
npm workspace hoisting is NOT deterministic — depending on the npm version and
what else is installed, npm nests the workspace-only electron devDep under
apps/desktop/node_modules/electron OR hoists it to the repo root. A static path
matches only one layout, so a clean install intermittently fails with "The
specified electronDist does not exist". #48081 re-pointed the path at the
nested layout (correct today) but electron-builder reads electronDist
STATICALLY, so any future hoist change silently breaks it again — only caught
by a CI invariant, never self-corrected.
Fix:
- scripts/run-electron-builder.cjs: resolve electron the way Node's runtime does
— require.resolve("electron/package.json") walks node_modules from the desktop
project upward and finds electron wherever npm actually put it. The path can
never drift out of sync with the install layout again, on any OS/npm version.
* dist present -> pass -c.electronDist=<abs>/dist so electron-builder reuses
the unpacked runtime (keeps the #38673 fast path that dodges the 26.8.x
missing-binary re-unpack bug).
* dist absent -> omit electronDist; electron-builder fetches Electron itself
via @electron/get honoring electronVersion + ELECTRON_MIRROR.
package.json: builder script now runs the wrapper; the static build.electronDist
is removed (the resolver owns it).
- main.py / install.sh / install.ps1: on a dependency-install failure where the
electron package staged but its dist is missing (electron's install.js
process.exit(1) on a blocked/throttled binary download — #47266/#47917/#48021),
repopulate the dist via electron's downloader (canonical, then npmmirror.com)
and CONTINUE to the build instead of aborting. npm runs postinstall LAST, so
the only casualty is electron/dist; bailing here is what made the pack-time
mirror self-heal unreachable on a blocked network. Hard-fail only when electron
never staged at all (a genuine dependency error).
- The pack-time mirror fallback now retries the build even when the pre-fetch
can't populate the dist: the wrapper lets electron-builder download Electron
itself via the mirror, so the retry is no longer a no-op (it was, when
electronDist was a static path).
The exact 40.10.2 pin (already on main) keeps the third mode — the native
@electron-internal/extract-zip win32 binding that 40.10.3/40.10.4 ship without a
published prebuild — from recurring.
Tests:
- test_desktop_electron_pin.py: replace the static-path-matches-lockfile
invariant with contracts that there is no hardcoded electronDist to drift, the
builder script routes through the resolver, and the resolver uses Node module
resolution + injects -c.electronDist.
- test_gui_command.py: install-failure self-heal continues to build; genuine
(electron-never-staged) install failure still hard-fails; pack retries under
the mirror even when the pre-fetch is blocked.
Salvages/supersedes the overlapping community work in #48003 (sitkarev),
#48012 (omegazheng), #48033 (james47kjv), and #48082.
Co-authored-by: sitkarev <59806492+sitkarev@users.noreply.github.com>
Co-authored-by: omegazheng <zheng@omegasys.eu>
Co-authored-by: james47kjv <220877172+james47kjv@users.noreply.github.com>
* fix(desktop): narrow Electron self-heal to real missing-dist failures
Follow-up on #48091 to remove the remaining misdiagnosis risk from the
installer/build fallback path (#46785 concern): only take the Electron
repair/retry path when Electron's package files are staged and dist is actually
missing/corrupt.
- main.py: add _electron_pkg_staged_missing_dist() and use it to gate install
failure recovery; fail fast for unrelated npm install errors.
- main.py/install.sh/install.ps1: run cache purge + retry only when dist is
missing; do not retry unrelated tsc/vite/build failures under an
Electron-specific narrative.
- install.sh/install.ps1: tighten install-stage self-heal guard to require both
package.json + install.js and missing dist.
- tests: add coverage that install failure hard-fails when Electron dist already
exists, and update retry test to reflect the tightened recovery condition.
Validation:
- Python tests: 64 passed
- install.sh-related tests included in the run
- Real mac build on this machine:
- npm ci at repo root: success
- cd apps/desktop && npm run pack: success
- electron-builder packaged darwin arm64 and used custom unpacked Electron dist
* refactor(desktop): trim electron self-heal helpers and comments
Deduplicate mirror-retry into _try_redownload_electron_dist / shell
counterparts; shorten wrapper and install-script commentary without
changing recovery semantics.
---------
Co-authored-by: sitkarev <59806492+sitkarev@users.noreply.github.com>
Co-authored-by: omegazheng <zheng@omegasys.eu>
Co-authored-by: james47kjv <220877172+james47kjv@users.noreply.github.com>
After the June lockfile regeneration (#46652) floated electron and reshuffled
npm workspace hoisting, the desktop pack fails with "The specified electronDist
does not exist". apps/desktop/package.json pointed electronDist at the repo
root (../../node_modules/electron/dist) while npm now installs electron nested
under apps/desktop/node_modules/electron. The two contradict, so a clean
install can never package the app (Windows + macOS).
- electronDist -> node_modules/electron/dist (resolved relative to apps/desktop,
i.e. the workspace-local install npm actually produces).
- hermes_cli/main.py, scripts/install.sh, scripts/install.ps1: add a runtime
electron-dir resolver that prefers apps/desktop/node_modules/electron and
falls back to the root hoist, so dist checks + the mirror re-download work
under either npm layout.
- patch-electron-builder-mac-binary.cjs: try the workspace-local Electron.app
before the root hoist in the macOS binary-restore fallback (sibling site no
PR touched).
- test: assert build.electronDist resolves to where the lockfile installs
electron, so a future hoist change (root <-> nested) can't silently break it.
Salvages the overlapping work in #48003 (sitkarev), #48012 (omegazheng), and
#48033 (james47kjv).
Co-authored-by: sitkarev <59806492+sitkarev@users.noreply.github.com>
Co-authored-by: omegazheng <zheng@omegasys.eu>
Co-authored-by: james47kjv <220877172+james47kjv@users.noreply.github.com>
* fix(desktop): re-download Electron binary via mirror when pack fails (#47266)
Since #38673 pinned build.electronDist to node_modules/electron/dist,
electron-builder reads the Electron binary straight from there and never
downloads it during `npm run pack`. That dist tree is only produced by the
electron package's postinstall (install.js) during `npm ci`. When that
download is blocked or throttled (GitHub's release host is unreachable in
some regions), the dist is missing and the build dies with:
The specified electronDist does not exist: .../node_modules/electron/dist
The existing ELECTRON_MIRROR fallback in all three desktop-build paths
(scripts/install.ps1, scripts/install.sh, and `hermes desktop` in
hermes_cli/main.py) re-ran `npm run pack` with ELECTRON_MIRROR set — but
pack never downloads Electron anymore, so the mirror was never used and the
retry re-read the same missing dist. The fallback was effectively dead.
Drive the mirror through electron's own downloader instead:
- Add a dist-presence check + a downloader helper (Test-ElectronDist /
Restore-ElectronDist, _electron_dist_ok / _restore_electron_dist,
_electron_dist_ok / _redownload_electron_dist) that wipes a partial dist
+ the path.txt version marker (electron's install.js short-circuits on it)
and re-runs `node install.js`, optionally via a mirror.
- On the first retry, repopulate a missing dist from the canonical source;
on the mirror retry, re-fetch through npmmirror.com, then pack.
- Gate the re-download on the dist check so an unrelated build failure
(tsc/vite) doesn't trigger a pointless ~200 MB refetch, and skip the final
pack when the binary still can't be fetched instead of failing the same way.
* test(desktop): cover Electron dist re-download mirror fallback (#47266)
Add behavior coverage for the electronDist re-download fix:
- _electron_dist_ok across linux/win32/darwin, including the partial-dist
case (dir present but binary missing) that makes the pinned electronDist
fail.
- _redownload_electron_dist: no-op when the binary is present, bail when
install.js is absent, wipe a stale dist + path.txt marker and run
electron's downloader with ELECTRON_MIRROR injected, and report failure
when the download still produces no binary.
- `hermes desktop`: the mirror fallback now drives electron's own downloader
before re-running pack, and skips the final pack entirely when the binary
can't be fetched.
Replaces the old mirror test that asserted the (now-fixed) dead behavior of
re-running `npm run pack` with ELECTRON_MIRROR set — pack never downloads
Electron under the pinned electronDist, so that retry could never help.
Upgrade the Vite/esbuild surfaces that kept web, ui-tui, and the bootstrap installer on vulnerable esbuild versions, regenerate the root lockfile, and preserve intentional package+lock dependency edits during update lockfile cleanup.
The supervised `gateway-default` s6 slot runs bare `hermes gateway run`
(no -p) to mean "the root HERMES_HOME profile". But `_apply_profile_override`
falls through its #22502 HERMES_HOME guard for the container root
(/opt/data, whose parent is not `profiles`) and reads the sticky
`active_profile` file. If the user set another profile active (e.g. via
the dashboard), the reserved default gateway gets redirected into that
profile — producing a duplicate gateway for the active profile and no
real default gateway. The profile page and `gateway status` then
correctly report default as "not running" because there genuinely isn't
one.
Guard step 2 (the sticky active_profile fallback) with the existing
HERMES_S6_SUPERVISED_CHILD sentinel that the container run-script already
exports. Supervised named-profile slots pass -p explicitly (step 1, never
reaches step 2); only the bare default slot was affected. Inert outside
the s6 container — the sentinel is never set elsewhere.
Reported in the 'Docker & Profiles & Dashboard' support thread.
The unified machine-dashboard reroute (cmd_dashboard) re-execs a named-profile
dashboard launch as the machine dashboard and dropped HERMES_HOME from the
child env with the comment "so the child binds the machine root". That holds
for a standard install (root == ~/.hermes) but breaks the Docker layout: the
published image sets `ENV HERMES_HOME=/opt/data`, so once HERMES_HOME is unset
the child falls back to $HOME/.hermes = /opt/data/.hermes — an empty,
auto-seeded home.
Two user-visible symptoms, one root cause (reported via support):
1. Dashboard Profiles page shows only an empty `default` — the real
default/oracle/saga profiles live under /opt/data/profiles, but the
rerouted child resolves _get_profiles_root() to /opt/data/.hermes/profiles.
2. The "Update Hermes" button runs `hermes update` inside the container
repeatedly instead of bailing with the docker-update guidance. The Docker
guard keys off detect_install_method(), which reads
$HERMES_HOME/.install_method; the image stamps that at /opt/data, but the
misresolved home has no stamp, no HERMES_MANAGED, and no .git → falls
through to "pip", so the guard never fires.
The reporter's workaround was to bind-mount the host dir at both /opt/data and
/opt/data/.hermes so the two paths converge (at the cost of a self-referential
recursion).
Fix: resolve the machine root explicitly with get_default_hermes_root() and set
it on the child env instead of popping HERMES_HOME. That helper returns the
root for both layouts — ~/.hermes for a standard install, and /opt/data for
Docker (it strips a trailing profiles/<name>). Falls back to the old pop
behaviour only if root resolution raises, so the reroute is never blocked.
Regression tests in test_dashboard_unified_launch.py: the existing standard-
install test now asserts the child carries HERMES_HOME == get_default_hermes_root()
(not absent), and a new test_reexec_pins_docker_machine_root covers the Docker
layout (HERMES_HOME=/opt/data/profiles/oracle → child gets /opt/data). Both
fail against the pre-fix pop behaviour (mutation-verified).
* feat(cli): add --safe-mode troubleshooting flag
Inspired by Claude Code v2.1.169 (June 2026): run Hermes with all
customizations disabled to isolate setup problems from product bugs.
--safe-mode implies --ignore-user-config and --ignore-rules, and
additionally skips plugin discovery (hermes_cli/plugins.py) and MCP
server loading (tools/mcp_tool.py) via the internal HERMES_SAFE_MODE
env bridge.
* fix(desktop): keep composer usable during reconnect
Profiles created before #44792 have no .env. Now that the Channels/Keys
endpoints are profile-scoped (no os.environ fallback), those profiles
would show everything as unconfigured. hermes update now copies the
default install's .env into each named profile that lacks one (0600,
never overwrites, placeholder fallback when the root has no .env), so
existing users keep the credentials they were effectively running with.
--clone-all copied the source profile's state.db, sessions/, backups/,
state-snapshots/, and checkpoints/ into the new profile. These are
per-profile history: a 49GB copy in practice (15GB snapshots + 11GB
backup archives + 16GB state.db + 6.4GB sessions), and restoring a
copied backup inside the clone would resurrect the SOURCE profile's
state. A clone is a fresh workspace; history stays with the source.
New _CLONE_ALL_HISTORY_EXCLUDE_ROOT set, applied at root level for ANY
source profile (named profiles accumulate the same artifacts), unlike
the default-gated infrastructure excludes. Nested same-name dirs still
copy. Docs and the post-create CLI message updated to match; profile
export / hermes backup remain the full-history paths.
When hermes update restarts a hermes-gateway system service as a
non-root user, the systemctl reset-failed/start/restart calls trigger
polkit's org.freedesktop.systemd1.manage-units TTY authentication
agent. That prompt runs inside a captured subprocess with a 10-15s
timeout, so it flashes and dies before the user can answer, and the
resulting TimeoutExpired was swallowed silently by the loop's blanket
except — the restart phase just vanished with no output.
- Resolve a manage-units command prefix up front: plain systemctl as
root, sudo -n systemctl as non-root (with a targeted reset-failed
probe so least-privilege sudoers entries scoped to hermes-gateway*
qualify), or None when no non-interactive privilege path exists.
- Add --no-ask-password to every manage-units call in the update
restart path so polkit can never prompt inside a captured subprocess.
- When unprivileged: after a graceful drain, rely on systemd's own
RestartSec auto-restart (needs no privileges) with a message about
the wait; skip the force-restart fallback with clear manual
instructions instead of racing a doomed polkit prompt.
- Surface TimeoutExpired in the restart loop instead of passing
silently, and add sudo to the system-scope recovery hints.
- Docs: headless-VM note recommending user service + enable-linger,
or sudo updates / a scoped NOPASSWD sudoers entry for system
services.
Desktop spawns its dashboard backend with `--profile <name>` and
`HERMES_DESKTOP=1`. cmd_dashboard's unified-launch routing treats any
named profile as a request for the shared machine dashboard: it re-execs
as the default profile (dropping HERMES_HOME) or, when one is already
listening, prints "Machine dashboard already running ... Managing profile
'<name>'" and exits 0. Either way the desktop-spawned child exits before
the app sees a ready backend, so Desktop retries forever — the Windows
named-profile boot loop in the post-mortem.
Skip the machine-dashboard reroute when HERMES_DESKTOP=1 so desktop pool
backends stay per-profile (which is what the pool expects). Carved out of
#44478.
Co-authored-by: AJ <yspdev@gmail.com>
