* fix(installer): align macOS HERMES_HOME with the rest of the stack
paths.rs computed the macOS Hermes home as ~/Library/Application Support/
hermes, but nothing else does: hermes_constants.get_hermes_home() (Python),
scripts/install.sh, and the Electron desktop's resolveHermesHome() all use
~/.hermes on macOS. The drift meant the Tauri installer wrote the install to
one directory and the desktop looked for it in another, so a fresh GUI
install never found its backend (the file's own comment warned this exact
drift would break things). Use ~/.hermes on macOS to match.
* fix(install.sh): always emit a stage result frame on failure
Stage helpers (clone_repo, install_deps, check_python, …) were written for
the monolithic flow and call `exit 1` on failure. Under `--stage`, that
terminated the process before the JSON result frame was printed, so the
installer's parse_stage_result saw "no frame" instead of a clean
{ok:false,...} contract response. Run the stage body in a subshell so an
`exit` only unwinds the subshell and the parent still emits the frame.
* feat(install.sh): auto-provision git on macOS/Linux (parity with install.ps1)
install.ps1 downloads PortableGit on Windows, but install.sh just printed a
"please install git" hint and exited — so a fresh Mac with no developer tools
(no Xcode CLT → no git) couldn't get past the clone step. check_git now tries
to install git before bailing:
- macOS: Homebrew if present (headless), else `xcode-select --install`
(the CLT prompt also provides the compiler some wheels need), polling for
git to appear.
- Linux: apt/dnf/pacman via sudo when available.
Falls back to the manual instructions only if auto-provision fails.
* feat(desktop): in-app GUI+backend self-update on macOS/Linux
On Windows the staged Hermes-Setup binary drives updates (quit → hermes
update → hermes desktop --build-only → relaunch). The mac drag-install has no
such binary, so "Update now" previously just printed `hermes update`.
Since there's no venv-shim file lock on POSIX, the desktop can drive the whole
update itself. applyUpdates now, when no staged updater exists on mac/linux:
1. runs `hermes update --yes [--branch <current>]` (backend git pull + deps),
2. runs `hermes desktop --build-only` (OS-aware GUI rebuild) with the
Hermes-managed Node + venv on PATH,
3. spawns a detached swapper that waits for this process to exit, dittos the
freshly built Hermes.app over the running bundle, clears quarantine, and
relaunches.
Degrades to "backend updated — restart to load the new GUI" if the rebuild
fails or there's no .app bundle to swap (dev run, Linux AppImage).
* chore: uptick
The installer's ensure_fts5() handled a no-FTS5 Python by running
'uv python install --reinstall', but WHICH Python builds a uv can
install is baked into the uv binary's download manifest. A stale uv
(e.g. 'pip install uv==0.7.20', which predates python-build-standalone
#694) only knows about pre-FTS5 builds, so --reinstall just pulls the
same FTS5-less interpreter — a no-op for FTS5. Result: 'Could not obtain
an FTS5-capable Python' and a broken session search even on the
supported installer path.
ensure_fts5() now escalates uv itself: reinstall with current uv ->
'uv self update' + reinstall (stale standalone uv) -> install a fresh
standalone uv into a temp dir and reinstall with that (externally-managed
uv that can't self-update, the reported case). Pythons live in uv's
shared store, so the fresh uv's --reinstall overwrites the stale
interpreter in place and the installer's later 'uv python find' resolves
to the FTS5-capable build.
Verified against the reporter's exact repro (ubuntu:24.04 +
pip install uv==0.7.20): Python 3.11.13 (no FTS5) -> 3.11.15 (FTS5).
Brings install.sh to parity with install.ps1's bootstrap surface so the
shared Rust/Tauri bootstrapper (apps/bootstrap-installer) can drive a
macOS/Linux install the same way it drives Windows.
- Accept the PowerShell-style aliases the bootstrapper emits to both
installers: -Commit / -Branch (alongside existing -Manifest / -Stage /
-Json / -NonInteractive).
- Add --include-desktop / -IncludeDesktop. When set, the manifest gains a
'desktop' stage (immediately before 'complete'), and a new install_desktop
runs a root workspace `npm install` + `npm run pack` (electron-builder
--dir, signing auto-discovery disabled) to produce release/mac*/Hermes.app
-- mirroring install.ps1's Install-Desktop / Stage-Desktop.
- The flag is opt-in, exactly like Windows: the signed bootstrap installer
passes it; the Electron app's own first-launch bootstrap and the CLI
one-liner omit it (building the desktop from inside the running app would
clobber it).
Layer an exception guard on top of the empty-response fix so a crash
inside the agent (e.g. OSError from prompt_toolkit/Vt100 when stdout is a
non-TTY pipe, per #30623) is surfaced on the real stderr with rc=1 instead
of crashing past the redirect_stderr block. KeyboardInterrupt/SystemExit
are re-raised so Ctrl-C and explicit exits still propagate.
Also map briancl2 in scripts/release.py AUTHOR_MAP for the cherry-picked
empty-response commit.
Adapts the exception-guard approach from sweetcornna's PR #33818.
Co-authored-by: sweetcornna <96944678+ymylive@users.noreply.github.com>
A handoff persisted under an older SUMMARY_PREFIX can be inherited into a
resumed lineage. _strip_summary_prefix only matched the current/legacy
literal, so on re-compaction the old 'resume exactly from Active Task'
directive stayed embedded in the body and kept hijacking replies to new,
unrelated user messages.
- Add _HISTORICAL_SUMMARY_PREFIXES (pre-#35344 prefix) and strip/recognize
them in _strip_summary_prefix + _is_context_summary_content so resumed
stale handoffs are re-normalized to the current latest-message-wins prefix.
- Reconcile the overlapping Active Task template edits from the salvaged
#26290 (reverse-signal cancellation) and #32787 (capture open questions /
decisions, don't write None too eagerly) — both intents kept.
- Regression coverage in tests/agent/test_resume_stale_active_task.py.
- AUTHOR_MAP entries for both salvaged contributors.
The plugin apply_yaml_config_fn dispatch loop only ran when a top-level
platform block (e.g. `discord:`) existed. Configs that defined a platform
only under `platforms.<name>` or `gateway.platforms.<name>` skipped the
hook, so `platforms.discord.extra.allow_from` never reached
DISCORD_ALLOWED_USERS. Fall back to those nested blocks when the top-level
one is absent.
Also map byquenox@gmail.com -> Que0x for the salvaged commits.
Follow-up to LengR's #35181 salvage:
- gateway text-path uses getattr(self, '_session_db', None) to match the
picker callback path (defensive for object.__new__() gateway test pattern).
- add SessionDB.update_session_model test asserting it overwrites the
COALESCE-pinned model and survives subsequent token updates (#34850).
Previously a packaged macOS/Linux app with no Hermes install hit a
dead-end ("first-launch install is not yet automated -- run install.sh
manually") because install.sh lacked the staged protocol install.ps1
exposes. Now both platforms bootstrap on first launch with the same
structured, per-step progress UI as Windows.
- install.sh: add --manifest / --stage / --json / --non-interactive plus
a stage dispatcher (prerequisites, repository, venv, python-deps,
node-deps, path, config, setup, gateway, complete). User-input stages
(setup, gateway) are skipped under --non-interactive; the in-app
onboarding overlay owns API keys/model, matching the Windows flow.
Each stage runs inside the install dir (its own process) and a new
--commit flag pins the checkout to the build-stamp SHA.
- bootstrap-runner.cjs: drive the staged manifest/stage/JSON protocol for
both install.ps1 (PowerShell) and install.sh (bash), selected by
installer kind; removed the single-blob POSIX shim.
- main.cjs: drop the macOS/Linux unsupported-platform dead-end so the
bootstrap-needed path runs the installer on every platform.
Two related first-launch bugs on machines with a legacy ~/.hermes:
- install.ps1 hardcoded $HermesHome/$InstallDir to %LOCALAPPDATA%\hermes
and ignored the HERMES_HOME the desktop passes through. The desktop
freezes HERMES_HOME at module load and prefers a legacy ~/.hermes when
%LOCALAPPDATA%\hermes is absent, so the installer wrote to a different
home than the shell read -> "Could not connect to Hermes gateway". Honor
$env:HERMES_HOME in the param defaults.
- isBootstrapComplete() trusted the marker + checkout without verifying a
runnable venv, so an interrupted/split install spawned a dead backend
instead of re-bootstrapping. Also require the venv python to exist.
uv's python-build-standalone distributions only gained FTS5 in mid-2025
(#694). A stale interpreter already in uv's store — which `uv python find`
reuses without checking — can lack it, leaving the supported install with
a SQLite that can't create the FTS5 virtual tables hermes_state.py needs
for full-text session search ("no such module: fts5").
check_python now probes the resolved interpreter for FTS5 and, if missing,
reinstalls the latest patch for $PYTHON_VERSION (which has FTS5) and
re-resolves. If an FTS5-capable Python still can't be obtained (offline,
pinned env), it warns and continues — Hermes degrades gracefully and only
disables session search. No bundled second SQLite, no user action.
MEDIA:<path> tags for .md/.json/.yaml/.xml/.html and other document
extensions were silently dropped. extract_media() carried a narrow
extension allowlist that omitted them, while extract_local_files()
had a broad one. The dispatch sites then ran an unconditional
re.sub(r'MEDIA:\\s*\\S+', '') that stripped the tag from the body even
when extract_media had not matched it — so extract_local_files (broad
list) ran on text where the path was already gone, and the file was
delivered by neither path.
- Add MEDIA_DELIVERY_EXTS in gateway/platforms/base.py as the single
source of truth; extract_media and extract_local_files both derive
their extension set from it (no more drift).
- Replace the loose MEDIA cleanup at the non-streaming dispatch site
(base.py) and the streaming consumer (stream_consumer.py) with the
shared, extension-anchored MEDIA_TAG_CLEANUP_RE. A MEDIA: tag with an
unknown extension is left in the body so the bare-path detector can
still pick it up instead of being black-holed.
- Chain cleaned text through extract_media -> extract_images ->
extract_local_files in run.py's post-stream media delivery (it was
dropping the cleaned text and rescanning raw text with MEDIA: tags).
- Regression tests covering both halves: previously-dropped extensions
now extract, and unknown-ext paths survive the cleanup.
Consolidates the MEDIA extension-allowlist PR cluster.
Co-authored-by: Bartok9 <259807879+Bartok9@users.noreply.github.com>
Co-authored-by: banditburai <123342691+banditburai@users.noreply.github.com>
Co-authored-by: Kyzcreig <9063726+Kyzcreig@users.noreply.github.com>
Adds tests for the echo-loop fix (outgoing X-Tags header, inbound skip
on tagged events, genuine tags pass through) and extends the tag to the
out-of-process _standalone_send() path so cron / send_message deliveries
to a self-subscribed topic are also skipped. Maps both contributors in
release.py AUTHOR_MAP.
Co-authored-by: liuhao1024 <sunsky.lau@gmail.com>
Config-driven platform policies (dm_policy / group_policy / allow_from /
group_allow_from) for WeCom, Weixin, Yuanbao, and QQBot now work without
also setting a PLATFORM_ALLOWED_USERS env var.
These adapters enforce their access policy at intake — a message is dropped
inside the adapter and never dispatched unless it already passed the policy.
The gateway's env-based check (_is_user_authorized) ran afterward and, with
no env allowlist set, fell through to an env-only default-deny — silently
rejecting `dm_policy: open` and config-only allowlists the adapter had
already authorized.
Rather than re-implement each adapter's policy a second time in run.py
(which would drift), adapters that own their gate now declare it via a new
BasePlatformAdapter.enforces_own_access_policy property (default False). The
gateway trusts that flag and skips the env-only default-deny for those
platforms. Env allowlists still take precedence when set.
Also resolves unauthorized DM behavior from config dm_policy so allowlist /
disabled policies drop unauthorized DMs silently instead of leaking pairing
codes, while an explicit pairing policy opts back in.
Co-authored-by: Frowtek <frowte3k@gmail.com>
The live harness runs against a real OpenRouter key; record['error'] is a
full traceback that, on an auth failure, could echo a request header or URL
containing the key. _redact_secrets() now masks the live OPENROUTER_API_KEY,
any sk-/sk-or- bearer token, and Authorization/Bearer headers before
final_response and error enter the transcript or the console print. Addresses
the CodeQL clear-text-storage/logging findings at the source.
Brings in the tool_search live-test harness from the original PR but leaves
out the 11 checked-in scripts/out/*.json transcript files — those are
non-deterministic model output that goes stale the moment the model changes
and were the bulk of the diff. scripts/out/ is now gitignored so a harness
run never re-commits them.
Fixes on top:
- API-key loading goes through hermes_cli.env_loader.load_hermes_dotenv
instead of hand-parsing ~/.hermes/.env and assigning the value to a local.
The canonical loader never materializes the secret in a local variable in
this module, which clears the four CodeQL high alerts
(py/clear-text-storage / py/clear-text-logging-sensitive-data at the
transcript write/print sites — they were tracing the key from the
hand-rolled parser into the records) and removes a hand-rolled parser.
- encoding='utf-8' on every write_text/read_text in both harness scripts
(Windows-footgun hygiene).
Co-authored-by: teknium1 <127238744+teknium1@users.noreply.github.com>
Reporter diagnosed three independent gaps that together allowed infinite
'unblock → re-stuck' loops with no surfacing or escalation:
GAP 1: `_rule_stuck_in_blocked` resets timer on any `commented`/`unblocked`
event, so a task that cycles every few minutes is invisible to it
regardless of how many times it cycles.
Fix: new `_rule_block_unblock_cycling` rule (`hermes_cli/kanban_diagnostics.py`)
that counts block→unblock cycles in a sliding window. Default threshold
3 cycles within 24h, configurable via `block_cycle_threshold` /
`block_cycle_window_seconds`. Walks events in arrival order (event id)
since multiple events can share the same `created_at` second. Fires as a
warning with a CLI hint to inspect the block reasons.
GAP 2: Iteration-budget-exhausted runs in kanban workers map to
`kanban_block` (status=blocked, but a clean exit from the kernel's
perspective). `_rule_repeated_failures` reads `consecutive_failures`,
which `_record_task_failure` increments only for crashed/timed_out/
spawn_failed — `blocked` outcome bypasses the failure counter, so the
`kanban.failure_limit` circuit breaker never trips on budget-exhaustion
loops.
Fix: `agent/conversation_loop.py` budget-exhaustion path now calls
`_record_task_failure(outcome="timed_out")` instead of `kanban_block`.
Budget exhaustion is genuinely a timeout-shaped failure (the task ran out
of allowed iterations), so this is more honest semantics; it also routes
through the unified failure counter, so repeated budget exhaustions trip
the circuit breaker and the task auto-blocks with `gave_up` after
`failure_limit` retries.
GAP 3: `release_stale_claims` uses `_pid_alive(worker_pid)` only and
ignores `last_heartbeat_at`. Reporter observed a 91-min run that held
its claim with frozen heartbeat because the worker entered a logic loop
with no tool calls — `_pid_alive` kept returning True so the claim was
extended every 15 minutes indefinitely.
Fix: heartbeat-stale backstop. If `last_heartbeat_at` is set AND older
than `DEFAULT_CLAIM_HEARTBEAT_MAX_STALE_SECONDS` (default 1h), reclaim
even if the PID is alive. NULL `last_heartbeat_at` preserves backward
compatibility (no heartbeat yet = extend, as before). The reclaim event
payload now includes a `heartbeat_stale` boolean so operators see why a
live-PID worker was reclaimed.
This works cleanly in concert with PR #34418 (#31752 runtime → heartbeat
bridge): once `_touch_activity` keeps `last_heartbeat_at` fresh as a
side effect of normal API traffic, the backstop only fires for genuinely
wedged workers (no chunks, no tool results, no progress at all).
Co-authored-by: baofuen <45189813+baofuen@users.noreply.github.com>
The dispatcher watchdog (release_stale_claims) reads tasks.last_heartbeat_at
to decide whether to reclaim a running task. The agent maintains its own
in-process `_last_activity_ts` for every chunk/tool result, but those
liveness ticks never reach the board unless the model explicitly calls
the `kanban_heartbeat` tool — so a worker actively executing a long run
without tool-level heartbeats can be reclaimed mid-flight as 'stale',
returning the task to ready and orphaning the in-flight worker's progress.
Fix: in `_touch_activity` (the canonical 'we just did work' hook in
run_agent.py), call a new `heartbeat_current_worker_from_env` helper
in `tools/kanban_tools.py` that:
- No-ops outside dispatcher-spawned worker context (no HERMES_KANBAN_TASK).
- Rate-limited to one DB write per 60s (runtime activity ticks too often
to faithfully mirror; we just need the watchdog to see liveness).
- Best-effort: never raises. heartbeat_claim + heartbeat_worker calls are
individually try/except'd; any DB error logs at debug and returns.
- Uses worker env identity: HERMES_KANBAN_TASK + HERMES_KANBAN_RUN_ID +
HERMES_KANBAN_CLAIM_LOCK (all pinned by the dispatcher at spawn time).
- No durable note on auto-heartbeats — that's reserved for the explicit
`kanban_heartbeat` tool which carries a model-supplied note.
The explicit `kanban_heartbeat` tool stays available unchanged for
workers that want to attach a note or pre-emptively extend a claim
across a known-long single tool call.
Co-authored-by: faisfamilytravel <223516181+faisfamilytravel@users.noreply.github.com>
Kanban workers run headless — no live user is on the other side of `clarify`,
so the call times out (~120s default) and the task sits silently in `running`
with no signal to the operator that input is needed. Reporter observed a real
incident where a worker asked 'promote to production, or check staging first?'
via clarify, the call timed out, the agent hallucinated a fallback, and the
task sat 'running' for hours.
Fix: explicit 'do not call clarify' bullet in two surfaces every kanban worker
sees —
- `agent/prompt_builder.py` KANBAN_GUIDANCE `## Do NOT` section (auto-injected
into every dispatcher-spawned worker run).
- `skills/devops/kanban-worker/SKILL.md` `## Do NOT` section (the bundled
worker skill).
Both point at the right pattern: `kanban_comment` (context) + `kanban_block`
(decision needed) — the task surfaces on the board as blocked, the operator
sees it, unblocks with their answer in a comment, and the worker respawns
with the thread.
Co-authored-by: kweiner <17778+kweiner@users.noreply.github.com>
`hermes kanban unblock <id> review-required: ...` parsed every trailing word
as another task_id (since `task_ids` is `nargs='+'`), then quietly failed on
each non-existent id with "cannot unblock review-required: (not blocked/scheduled?)".
Reporter saw this as asymmetric with `block <id> <reason...>` which accepts
positional reason words.
Fix: add a `--reason "..."` flag that, when provided, is appended as a
`UNBLOCK: <reason>` comment before the unblock transition. Bulk syntax
(`unblock t_a t_b t_c`) is preserved unchanged.
Co-authored-by: julio-cloudvisor <211828103+julio-cloudvisor@users.noreply.github.com>
The xAI tool-schema sanitizers (strip_slash_enum, strip_pattern_and_format)
mutate their input in place — that's their documented contract. The two
call sites (chat_completion_helpers.build_api_kwargs and the auxiliary
client) were passing agent.tools straight through, so the first xAI
request would permanently strip slash-containing enum constraints and
pattern/format keywords from the per-agent tool registry.
Effect: any subsequent non-xAI call from the same agent (auxiliary task
routed to Anthropic, OpenRouter fallback, mid-session model switch) saw
the already-stripped schema with no way for the user to notice from
their config.
Fix: deepcopy tools_for_api before sanitizing at both call sites.
The slash-enum bug itself (xAI 400ing on enums with '/') was fixed
earlier by #32443 (Nami4D) — that PR landed the strip but used the
sanitizers directly without copying. This salvages #27907's correctness
contribution (the deepcopy) while skipping its redundant parallel
sanitizer (strip_xai_incompatible_enum_values is functionally
equivalent to the existing strip_slash_enum) and its preflight-
neutrality argument (we chose model-gated preflight in #32443).
3 new tests in tests/run_agent/test_run_agent_codex_responses.py:
- strips_slash_enum_from_outgoing_request — outgoing kwargs has no
slash-containing enum values (functional contract preserved).
- does_not_mutate_agent_tools — headline #27907 regression. Snapshot
agent.tools before build_api_kwargs, assert it survives intact
after. Pre-fix this assertion would have caught the mutation.
- is_idempotent_across_repeated_calls — three xAI requests in a row
each strip cleanly AND don't progressively erode the source schema.
344/344 across tests/agent/test_auxiliary_client.py,
tests/agent/transports/test_codex_transport.py,
tests/run_agent/test_run_agent_codex_responses.py, and
tests/tools/test_schema_sanitizer.py.
Co-authored-by: Gabor Barany <barany.gabor@gmail.com>
Remove unused imports (F401) and duplicate/shadowed import
redefinitions (F811) across the codebase using ruff's safe
autofixes. No behavioral changes -- imports only.
- ~1400 safe autofixes applied across 644 files (net -1072 lines)
- __init__.py re-exports preserved (excluded from F401 removal so
public re-export surfaces stay intact)
- Re-exports that are imported or monkeypatched by tests but look
unused in their defining module are kept with explicit # noqa:
F401 (gateway/run.py load_dotenv; run_agent re-exports from
agent.message_sanitization, agent.context_compressor,
agent.retry_utils, agent.prompt_builder, agent.process_bootstrap,
agent.codex_responses_adapter)
- Unsafe F841 (unused-variable) fixes deliberately skipped -- those
can change behavior when the RHS has side effects
- ruff lints remain disabled in pyproject.toml (only PLW1514 is
selected); this is a one-time cleanup, not a config change
Verification:
- python -m compileall: clean
- pytest --collect-only: all 27161 tests collect (zero import errors)
- core entry points import clean (run_agent, model_tools, cli,
toolsets, hermes_state, batch_runner, gateway)
- static scan: every name any test imports directly from an edited
module still resolves
The unpacked Hermes.exe showed the stock Electron icon + name in the
taskbar because build.win.signAndEditExecutable=false disables BOTH
electron-builder's signing AND its rcedit metadata/icon stamping. That
flag is load-bearing: enabling it re-triggers signtool -> winCodeSign,
whose macOS symlinks crash 7-Zip on non-admin Windows (unfixable dead end).
Decouple identity-stamping from signing entirely: after npm run pack,
run rcedit ourselves on the produced exe.
- Add rcedit as a direct devDependency of apps/desktop (the transitive
electron-winstaller copy is fragile).
- apps/desktop/scripts/set-exe-identity.cjs: Node helper that calls
rcedit's named export to set icon + ProductName/FileDescription/
CompanyName. Node builds argv natively — avoids the PowerShell->exe
->JSON double-escaping that broke the app-builder rcedit path.
- install.ps1 Set-DesktopExeIdentity invokes the script after the build,
before shortcuts. Best-effort: failure keeps the stock icon, never
fails the install. rcedit is a pure PE editor — no signtool, no
winCodeSign, no symlinks.
Verified locally: stamping a copy of the built Hermes.exe embeds the
32x32 icon and sets ProductName=Hermes.
Also fix update-path success-screen flash: in update mode the installer
hands off + exits in ~600ms, so don't route to the 'launch Hermes'
success view (it flashed before the window closed).
Converge update on the same principle as bootstrap: one driver owns all
repo mutation. The desktop becomes a pure consumer that hands off to
Hermes-Setup.exe --update instead of re-implementing git/pip in Electron.
- hermes desktop --build-only: build without launching, so the installer
owns the post-update launch (CLI keeps build logic single-sourced).
- Installer AppMode {Install,Update} from argv; get_mode exposed to the UI.
- Installer self-copies to HERMES_HOME/hermes-setup.exe on install success
(no-op guard during --update re-invocation to avoid the locked-exe copy).
- Installer --update flow (update.rs): wait for the desktop to release the
venv shim, run 'hermes update --yes --gateway' (branch on exit 0/2/other),
then 'hermes desktop --build-only', then launch the rebuilt desktop. Reuses
the bootstrap event channel + progress UI via a synthetic two-stage manifest.
- Desktop applyUpdates() gutted (~105 lines of git/stash/pull/pyproject/pip
removed) -> thin handoff: spawn updater, app.quit() to free the shim.
Detection (checkUpdates, commit changelog, behind-count) kept intact.
- install.ps1 creates Start Menu + Desktop shortcuts to the packed Hermes.exe
(never bare 'hermes desktop', which would rebuild every launch).
The skills.sh source was returning ~858 unique skills from a hardcoded
list of 28 popular keyword searches (each capped at 50 results). The
real catalog is ~20k — exposed via sitemap-skills-{1,2}.xml linked from
the site's sitemap index.
Switch the empty-query path in SkillsShSource.search() to walk the
sitemap instead of scraping the homepage's curated featured strip.
Falls back to the homepage scrape if the sitemap is unreachable.
build_skills_index.crawl_skills_sh() now just calls search("", limit=0)
instead of running 28 keyword searches — same result in one HTTP round
instead of 28.
Also handle a httpx + brotlicffi interaction: the per-skill sitemaps
are ~900 KB brotli-compressed and the cffi backend's streaming decode
chokes on them. Forcing Accept-Encoding to gzip dodges the bug without
requiring a brotli library upgrade.
E2E against live skills.sh: 19,932 unique skills walked in 0.7s.
Tests: 137 pass (+1 new regression test exercising the sitemap path).
Floor for skills.sh raised 100 → 10,000 in EXPECTED_FLOORS so a future
regression hard-fails the build.
The desktop app's main.cjs resolver ladder has a 'bootstrap-needed' rung
that fires when .hermes-bootstrap-complete is missing from
ACTIVE_HERMES_ROOT. Pre-Hermes-Setup, this marker was written by the
packaged-desktop's own bootstrap-runner.cjs at the end of its install
flow. Now that Hermes-Setup.exe runs install.ps1 directly, install.ps1
needs to own the marker — otherwise the desktop sees no marker on first
launch and triggers its legacy first-launch bootstrap (re-running
install.ps1 from inside Electron, the exact recursion Hermes-Setup.exe
was supposed to obviate).
Implementation:
* New Stage-BootstrapMarker (worker) → Write-BootstrapMarker (helper)
* Slotted in the manifest right after platform-sdks, before the
interactive configure/gateway stages, so it runs unconditionally
when the install reaches the finalize phase
* Schema mirrors apps/desktop/electron/main.cjs writeBootstrapMarker /
isBootstrapComplete EXACTLY: {schemaVersion: 1, pinnedCommit,
pinnedBranch, completedAt}. Schema version stays at 1 so old
desktops that read marker files written by future install.ps1s
can still parse them.
* pinnedCommit comes from -Commit flag (Hermes-Setup.exe passes it)
or falls back to 'git rev-parse HEAD' in InstallDir
* pinnedBranch from -Branch flag, defaults to 'main' matching
install.ps1's own param default
Two PS-5.1 gotchas baked into comments:
* The ?. null-conditional operator doesn't exist pre-PS7; use
explicit if-checks on Get-Command results
* Set-Content -Encoding UTF8 emits a BOM in 5.1 and Node's plain
JSON.parse rejects BOM — write via .NET's UTF8Encoding(false)
to produce BOM-less JSON the desktop's readJson() can parse
VM run 5 diagnosis: the pre-extract from 3b29e65c1 ran (extracted 83
files, 24MB) but produced ZERO files at the expected sentinel path
'/winCodeSign-2.6.0/windows-10/x64/signtool.exe'.
Cause: the .7z archive's root entries are 'windows-10/', 'darwin/',
'linux/', etc. — not 'winCodeSign-2.6.0/<arch>'. Extracting with
'-o$cacheRoot' put files at $cacheRoot/windows-10/..., NOT at
$cacheRoot/winCodeSign-2.6.0/windows-10/.... I had the directory
nesting wrong from the start.
And then we observed: electron-builder downloads winCodeSign-2.6.0.7z
under a random numeric filename ('384387955.7z') regardless of what's
already extracted in the parent dir. The cache key isn't the dirname;
it's content-addressed. So the pre-extract approach was doomed even
if the path nesting had been right.
Actual fix: signtoolOptions.sign=null in apps/desktop/package.json's
win build config. electron-builder honors this and skips the bundled-
prebuild signing entirely — no signtool invocation, no winCodeSign
fetch, no symlink-privilege crash. The previous failures all stemmed
from electron-builder pre-signing node-pty's bundled .exes
(winpty-agent.exe, OpenConsole.exe) which are already author-signed
upstream; re-signing with our nonexistent cert was overwriting good
sigs with nothing useful anyway.
Cost: when we DO get a real cert later, we'll add it back with the
sign function pointing at the cert chain. Until then, all-null is
the correct config and unblocks every non-admin Windows user.
Removed Initialize-ElectronBuilderCache (the dead pre-extract).
Removed the call site. Kept the CSC_IDENTITY_AUTO_DISCOVERY env
vars as belt-and-suspenders against a future electron-builder
change that might revive cert auto-discovery.
VM run 4 diagnosis: even with CSC_IDENTITY_AUTO_DISCOVERY=false set,
electron-builder still fetches winCodeSign and signs bundled binaries.
The log shows the signing happens BEFORE the cache extraction:
• signing with signtool.exe ...\winpty-agent.exe
• signing with signtool.exe ...\OpenConsole.exe
• downloading winCodeSign-2.6.0.7z
• <symlink privilege error>
Cause: node-pty's bundled prebuilds are listed in apps/desktop's
asarUnpack ['**/*.node', '**/prebuilds/**']. electron-builder
re-signs anything unpacked from asar, regardless of whether OUR
binary gets signed. The signtool invocation needs winCodeSign on
disk, which needs the .7z extracted, which hits the macOS-symlink
crash on non-admin Windows.
The CSC env vars I added in d5fe46727 only kill IDENTITY DISCOVERY
(so OUR Hermes.exe stays unsigned, which is fine — we have no cert).
They don't prevent the toolchain fetch for the bundled-prebuild
re-sign. I removed the pre-extract in d5fe46727 thinking the env
vars subsumed it; that was wrong. Both are needed.
Restoring Initialize-ElectronBuilderCache verbatim from c7e46f9f3
and keeping the CSC env vars. Wrote a clearer doc-comment at the
call site explaining the two-knob interaction so future maintainers
don't drop one half again.
VM run 3 diagnosis: node-deps stage skipped on the VM (logged
'Skipping Node.js dependencies (Node not installed)') and then
desktop's npm install failed with exit 1 and zero diagnostic detail.
Two root causes:
1. $HasNode false-skip in Stage-NodeDeps — same cross-process bug
pattern we fixed for Stage-Desktop in c7e46f9f3. Stage-Node ran
in process A and set $script:HasNode = $true, then exited. Stage-
NodeDeps ran in fresh process B (Hermes-Setup.exe -Stage NAME
spawns each stage independently), where that variable doesn't
exist. Re-probe via Get-Command npm instead of trusting the
stale script-scope global. The previous stage already verified
Node so the re-probe succeeds.
2. npm install --silent + Tee to TEMP file hid the real error.
When the workspace install failed on the VM, the actual reason
was buffered in $env:TEMP\hermes-npm-desktop-install-*.log and
the user saw only 'exit 1'. Drop --silent so npm streams its
full output, drop the TEMP-file dance — the Tauri installer's
streaming sink already tees every stdout/stderr line to the
rolling bootstrap-installer.log, so a side log file is dead
weight that hides the very error we need.
After this, the bootstrap log on a failure will contain npm's full
output (deprecation warnings, ETARGET, native-module compile errors,
whatever) tagged with stage=desktop, making the actual cause
diagnosable instead of an opaque exit code.
The previous commit (c7e46f9f3) worked around the winCodeSign-symlinks-
on-Windows extraction crash by pre-extracting the archive ourselves with
-snl + -x!darwin. That fix was correct but addressed the wrong layer.
The deeper question: why was electron-builder fetching winCodeSign at all
when we have no signing cert configured? Answer: electron-builder
unconditionally pre-warms the toolchain assuming any build MIGHT sign.
The cert auto-discovery never finds anything (we never set CSC_LINK
or anything else), so the signing never happens — but the 100MB fetch
of winCodeSign and its broken-on-Windows symlink extraction does.
Set CSC_IDENTITY_AUTO_DISCOVERY=false (with WIN_CSC_LINK and
WIN_CSC_KEY_PASSWORD also explicitly cleared as belt-and-suspenders)
before invoking npm run pack, and electron-builder skips the entire
winCodeSign apparatus. No download, no extraction, no privilege check.
Env vars are saved/restored around the invocation so we don't leak
the override into Stage-PlatformSdks etc.
Net: removes the 100-line Initialize-ElectronBuilderCache helper that
manually downloaded + extracted winCodeSign-2.6.0.7z. Replaced with
3 env-var assignments. The produced Hermes.exe is functionally
identical — just no longer carries a code-signing-machinery dependency
we never used.
* fix(agent): fallback immediately on provider content-policy blocks
Provider safety-filter refusals (e.g. OpenAI Codex 'flagged for possible
cybersecurity risk', OpenAI moderation 'violates our usage policies',
Anthropic safety-system rejections, Azure content_filter) are
deterministic decisions about a specific prompt. Retrying the same
prompt up to api_max_retries times just reproduces the same refusal and
burns paid attempts before surfacing the generic 'API failed after 3
retries — <provider message>' to Telegram / cron with no indication that
the failure came from the model provider rather than Hermes itself.
Classify these as a new FailoverReason.content_policy_blocked
(non-retryable, should_fallback=True) and route them through the
existing is_client_error path so the loop:
- skips the 3x retry backoff
- activates a configured fallback model immediately
- emits a clear provider-safety message to the user (not the generic
'Non-retryable error (HTTP None)') and surfaces actionable guidance
when no fallback is configured (rephrase, narrow context, or set
fallback_model in hermes config)
- returns a final_response that explicitly tells the user this came
from the model provider, so gateway delivery is unambiguous and
cron last_status reflects the safety block rather than a vague
'agent reported failure'
Patterns are intentionally narrow — verbatim refusal phrasings keyed to
specific provider safety pipelines, not generic words like 'policy' or
'violation' that would collide with billing / format / auth errors.
Regression guards in test_18028_content_policy_blocked.py verify
billing 402s, generic 400s, and OpenRouter account-level
provider_policy_blocked remain distinct classifications.
Salvaged from #18164 onto current main (file restructure: loop logic
moved from run_agent.py to agent/conversation_loop.py, _emit_status →
_buffer_status), broadened patterns beyond the original OpenAI Codex
cybersecurity case to cover OpenAI moderation, Anthropic safety system,
and Azure content_filter; added user-actionable guidance and a clear
final_response so cron/gateway surfaces the policy block instead of a
generic non-retryable error, and added a regression-guard test module
mirroring the is_client_error predicate.
Addresses #18028.
Co-authored-by: Kuan-Chieh Huang <kchuang1015@users.noreply.github.com>
* chore: add kchuang1015 to AUTHOR_MAP
---------
Co-authored-by: Kuan-Chieh Huang <kchuang1015@users.noreply.github.com>
