Closes the last Python-on-Windows UTF-8 exposure by making every
text-mode open() call explicit about its encoding.
Before: on Windows, bare open(path, 'r') defaults to the system
locale encoding (cp1252 on US-locale installs). That means reading
any config/yaml/markdown/json file with non-ASCII content either
crashes with UnicodeDecodeError or silently mis-decodes bytes.
After: all 89 affected call sites in production code now pass
encoding='utf-8' explicitly. Works identically on every platform
and every locale, no surprise behavior.
Mechanical sweep via:
ruff check --preview --extend-select PLW1514 --unsafe-fixes --fix --exclude 'tests,venv,.venv,node_modules,website,optional-skills, skills,tinker-atropos,plugins' .
All 89 fixes have the same shape: open(x) or open(x, mode) became
open(x, encoding='utf-8') or open(x, mode, encoding='utf-8'). Nothing
else changed. Every modified file still parses and the Windows/sandbox
test suite is still green (85 passed, 14 skipped, 0 failed across
tests/tools/test_code_execution_windows_env.py +
tests/tools/test_code_execution_modes.py + tests/tools/test_env_passthrough.py +
tests/test_hermes_bootstrap.py).
Scope notes:
- tests/ excluded: test fixtures can use locale encoding intentionally
(exercising edge cases). If we want to tighten tests later that's
a separate PR.
- plugins/ excluded: plugin-specific conventions may differ; plugin
authors own their code.
- optional-skills/ and skills/ excluded: skill scripts are user-authored
and we don't want to mass-edit them.
- website/ and tinker-atropos/ excluded: vendored / generated content.
46 files touched, 89 +/- lines (symmetric replacement). No behavior
change on POSIX or on Windows when the file is ASCII; bug fix on
Windows when the file contains non-ASCII.
Codebase-wide fix for Python-on-Windows UTF-8 footguns, complementing
the earlier execute_code sandbox fixes (which remain load-bearing for
when the sandbox explicitly scrubs child env).
Problem: Python on Windows has two long-standing text-encoding pitfalls:
1. sys.stdout/stderr are bound to the console code page (cp1252 on
US-locale installs) — print('café') crashes with UnicodeEncodeError.
2. Subprocess children don't know to use UTF-8 unless PYTHONUTF8 and/or
PYTHONIOENCODING are set in their env — so any Python we spawn
(linters, sandbox children, delegation workers) hits the same bug.
Solution: A tiny bootstrap module (hermes_bootstrap.py) imported as the
first statement of every Hermes entry point:
- hermes_cli/main.py (hermes / hermes-agent console_script)
- run_agent.py (hermes-agent direct)
- acp_adapter/entry.py (hermes-acp)
- gateway/run.py (messaging gateway)
- batch_runner.py (parallel batch mode)
- cli.py (legacy direct-launch CLI)
On Windows, the bootstrap:
- os.environ.setdefault('PYTHONUTF8', '1') (PEP 540 UTF-8 mode)
- os.environ.setdefault('PYTHONIOENCODING', 'utf-8')
- sys.stdout/stderr/stdin.reconfigure(encoding='utf-8', errors='replace')
Children inherit the env vars → they run in UTF-8 mode.
Current process's stdio is reconfigured → print('café') works now.
On POSIX (Linux/macOS), the bootstrap is a complete no-op. We don't
touch LANG, LC_*, or anything else — users who have intentionally
configured a non-UTF-8 locale aren't affected. POSIX systems are
already UTF-8 by default in 99% of modern setups, so there's nothing
to fix.
setdefault() (not overwrite) means users who explicitly set PYTHONUTF8=0
or PYTHONIOENCODING=cp1252 in their environment are respected.
What this does NOT fix: bare open(path, 'w') calls in the *parent*
process still default to locale encoding because PYTHONUTF8 is only
read at interpreter init. A ruff PLW1514 sweep (separate follow-up)
will add explicit encoding='utf-8' at those ~219 call sites for
belt-and-suspenders.
Tests (17): 16 passed, 1 skipped on Windows.
- Windows: env vars set, stdio reconfigured, child inherits UTF-8 mode
- POSIX: complete no-op (verified on fake POSIX + skipped on real
POSIX since we don't have a Linux box in this session)
- Idempotence: multiple calls safe
- Graceful degradation: non-reconfigurable streams don't crash
- User opt-out: explicit PYTHONUTF8=0 is respected
- Load order: every entry point's FIRST top-level import is
hermes_bootstrap, enforced by an AST-level parametrized test
pyproject.toml: added hermes_bootstrap to py-modules so it ships with
pip installs.
Two fixes from teknium1's next install run:
1. **npm install: "npm.ps1 cannot be loaded because running scripts is
disabled on this system."** Get-Command's default PATHEXT ordering
picked up ``npm.ps1`` (the PowerShell shim) ahead of ``npm.cmd`` (the
batch shim). Most Windows users have PowerShell's execution policy
set to Restricted or RemoteSigned, which blocks unsigned ``.ps1``
files. ``npm.cmd`` has no such restriction and works universally.
Install-NodeDeps now detects when Get-Command returned npm.ps1, looks
for a sibling npm.cmd in the same directory, and prefers it. Prints
an info line so the user sees why. Emits a warning + hint if only
npm.ps1 is available.
2. **"Launch hermes chat now? Y" crashes with "%1 is not a valid Win32
application" on Windows installs.** The setup wizard calls
``relaunch(["chat"])``; ``resolve_hermes_bin()`` returned
``sys.argv[0]`` which was ``...\\hermes_cli\\main.py`` (because hermes
was launched via ``python -m hermes_cli.main`` during setup).
On Windows, ``os.access(script.py, os.X_OK)`` returns True because
PATHEXT lists ``.py`` when the Python launcher is registered — but
``subprocess.run([script.py, ...])`` can't actually execute a ``.py``
directly. CreateProcessW needs a real PE file.
Fixed ``resolve_hermes_bin`` to reject ``.py``/``.pyc`` argv0 values
on Windows specifically. Falls through to ``shutil.which("hermes")``
(hermes.exe in the venv Scripts dir) or, as a final fallback, lets
build_relaunch_argv build ``[sys.executable, "-m", "hermes_cli.main"]``
which is bulletproof. POSIX behaviour unchanged — ``.py`` argv0 with
a shebang + chmod+x is still a valid exec target there.
3 new tests cover the Windows paths: .py argv0 + hermes.exe on PATH →
returns hermes.exe; .py argv0 + no PATH → returns None (caller uses
python -m); POSIX + executable .py → still accepted.
26 relaunch tests pass, no POSIX regressions.
Three interrelated bugs from teknium1's first interactive chat on Windows:
1. **Snapshot/cwd file paths unquoted in bash command strings.** The session
bootstrap and per-command wrapper interpolated
``self._snapshot_path`` / ``self._cwd_file`` unquoted into bash commands
like ``export -p > C:/Users/ryanc/.../hermes-snap-xxx.sh``. Git Bash's
MSYS2 layer handles ``C:/...`` paths correctly ONLY when quoted; unquoted,
the colon and forward-slash get glob-parsed and the redirect targets a
bogus path. Symptom: every terminal command emitted two
``C:/Users/.../hermes-snap-*.sh (No such file or directory)`` lines that
bled into stdout (``stderr=STDOUT`` on the local backend) and corrupted
file contents when the agent wrote to scratch paths via the terminal
tool. Fix: ``shlex.quote()`` every interpolation of ``_snapshot_path``
and ``_cwd_file`` in base.py — no-op on POSIX (the paths contain no
shell-metachars), critical on Windows.
2. **Stale PATH on first hermes launch after install.** ``install.ps1``
adds the PortableGit ``cmd`` / ``bin`` / ``usr\bin`` directories to the
Windows **User** PATH via ``SetEnvironmentVariable(..., "User")``. That
write propagates to newly *spawned* processes only — already-running
shells (including the one the user types ``hermes`` into immediately
after install) retain their old PATH. So hermes starts with a PATH that
doesn't include bash, rg, grep, ssh — and ``search_files`` reports
"rg/find not available" when the user clearly just installed them.
Fix: new ``_augment_path_with_known_tools()`` helper called from
``configure_windows_stdio()`` on startup. Prepends the Hermes-managed
Git directories + the WinGet Links directory (where ripgrep lands) to
``os.environ['PATH']`` if they exist on disk but aren't already in
PATH. Subsequent subprocess calls (including bash spawns via
``_find_bash()``) inherit the augmented PATH and find everything.
No-op on POSIX and when the directories don't exist.
3. **Root cause of "file content corruption".** #1 was the proximate cause.
Errors like ``C:/Users/.../hermes-snap-xxx.sh: No such file or directory``
were emitted on stderr by the failed redirect, captured into stdout via
``stderr=subprocess.STDOUT``, and if the agent used terminal commands
like ``cat > file`` the leaked error bytes became part of the file.
Fixing #1 eliminates this entirely.
## Tests
All 77 Windows-compat tests still pass on Linux (POSIX path is
shlex.quote('/tmp/foo.sh') → '/tmp/foo.sh' — unchanged).
## Not addressed here (would need a bigger design)
- Python file tools (``write_file``, ``read_file``) and the bash-backed
terminal tool see DIFFERENT views of ``/tmp`` on Windows. Python treats
``/tmp`` as ``C:\tmp`` (drive-relative), Git Bash's MSYS2 treats it as
a virtual mount to the PortableGit install's ``tmp\``. Would need a
translation shim in the Python tools to resolve bash-virtual paths to
their native-Windows equivalents. Workaround for users today: use
absolute native paths (``C:\Users\you\...``) instead of ``/tmp/...``
when crossing between terminal and Python file tools.
Three real bugs from teknium1's first Windows install run:
1. **MinGit has no bash.exe.** MinGit is the minimal-automation Git for Windows
distribution — it ships git.exe but deliberately strips bash and the POSIX
coreutils. Installer logged "Could not locate bash.exe" and Hermes would
fail to run any shell command. Switched to PortableGit — the full Git for
Windows minus the installer UI. PortableGit ships bash.exe at
<root>\bin\bash.exe plus sh, awk, sed, grep, curl, ssh in usr\bin\. ARM64
variant is detected separately (PortableGit-*-arm64.7z.exe). 32-bit falls
back to MinGit-32-bit with a warning (PortableGit is 64-bit only).
PortableGit ships as a 7z self-extractor (56MB vs MinGit's 38MB). We
invoke it with `-o<target> -y` to extract silently — no 7z install needed,
it's self-contained.
Updated tools/environments/local.py::_find_bash candidate order to prefer
the PortableGit layout (<root>\bin\bash.exe) with the MinGit layout
(<root>\usr\bin\bash.exe) as a fallback so existing installs keep working.
2. **os.execvp "Exec format error" on Windows.** Setup wizard's "Launch
hermes chat now? Y" called `os.execvp(["hermes", "chat"])` which on
Windows can only swap to real Win32 .exe files — chokes with OSError(8)
on .cmd batch shims and Python console-script wrappers. Added a
win32 branch in hermes_cli/relaunch.py::relaunch() that uses
subprocess.run + sys.exit — functionally identical (user sees "hermes
exited, then new hermes started") with one extra PID in play. POSIX
path is UNCHANGED — still uses os.execvp for in-place replacement.
Catches OSError in the Windows branch and surfaces a "open a new
terminal so PATH picks up, then re-run hermes" hint instead of a
cryptic traceback.
3. **npm install failures silent on Windows.** The install.ps1 was invoking
`npm install --silent 2>&1 | Out-Null` inside a try/catch. PowerShell's
try/catch does NOT trigger on non-zero process exit codes — only on
unhandled .NET exceptions — so npm failing printed a generic "npm
install failed" with zero information about WHY. The silent pipe ate
the stderr.
Rewrote Install-NodeDeps to:
- Resolve npm.cmd via Get-Command (respects PATHEXT) instead of
relying on bare `npm` name resolution.
- Use Start-Process with -PassThru to capture the actual exit code.
- Redirect stderr to a temp log and surface the first ~800 chars of
the real npm error when install fails, plus the log path for the
full text.
- Fail loudly with the right exit code instead of a misleading success.
- Bail cleanly with a helpful message when npm isn't on PATH at all.
4. **"True" printing to console after Node check.** `Test-Node` returns $true;
installer called it as a bare statement (no assignment, no cast). PowerShell
prints bare return values. Wrapped the call in `[void](Test-Node)`.
## Tests
- Added 3 new tests in tests/hermes_cli/test_relaunch.py covering the
Windows branch: subprocess is called (not execvp), child exit code
propagates, OSError surfaces a helpful message. All 23 tests pass
(20 existing + 3 new).
- 77 Windows-compat tests still pass, POSIX behaviour unchanged.
Second pass on native Windows support, driven by a systematic audit across
five areas: POSIX-only primitives (signal.SIGKILL/SIGHUP/SIGPIPE, os.WNOHANG,
os.setsid), path translation bugs (/c/Users → C:\Users), subprocess patterns
(npm.cmd batch shims, start_new_session no-op on Windows), subsystem health
(cron, gateway daemon, update flow), and module-level import guards.
Every change is platform-gated — POSIX (Linux/macOS) behaviour is preserved
bit-identical. Explicit "do no harm" test: test_posix_path_preserved_on_linux,
test_posix_noop, test_windows_detach_popen_kwargs_is_posix_equivalent_on_posix.
## New module
- hermes_cli/_subprocess_compat.py — shared helpers (resolve_node_command,
windows_detach_flags, windows_hide_flags, windows_detach_popen_kwargs).
All no-ops on non-Windows.
## CRITICAL fixes (would crash or silently break on Windows)
- tui_gateway/entry.py: SIGPIPE/SIGHUP referenced at module top level would
AttributeError on import on Windows, breaking `hermes --tui` entirely (it
spawns this module as a subprocess). Guard each signal.signal() call with
hasattr() and add SIGBREAK as Windows' SIGHUP equivalent.
- hermes_cli/kanban_db.py: os.waitpid(-1, os.WNOHANG) in dispatcher tick was
unguarded. os.WNOHANG doesn't exist on Windows. Gate the whole reap loop
behind `os.name != "nt"` — Windows has no zombies anyway.
- tools/code_execution_tool.py: AF_UNIX socket for execute_code RPC fails on
most Windows builds. Fall back to loopback TCP (AF_INET on 127.0.0.1:0
ephemeral port) when _IS_WINDOWS. HERMES_RPC_SOCKET env var now accepts
either a filesystem path (POSIX) or `tcp://127.0.0.1:<port>` (Windows).
Generated sandbox client parses both.
- cron/scheduler.py: `argv = ["/bin/bash", str(path)]` hardcoded. Use
shutil.which("bash") so Windows (Git Bash via MinGit) works, with a
readable error when bash is genuinely absent.
- 6 bare npm/npx spawn sites: tools_config.py x2, doctor.py, whatsapp.py
(npm install + node version probe), browser_tool.py x2. On Windows npm
is npm.cmd / npx is npx.cmd (batch shims); subprocess.Popen(["npm", ...])
fails with WinError 193. shutil.which(...) returns the absolute .cmd
path which CreateProcessW accepts because the extension routes through
cmd.exe /c. POSIX behaviour unchanged (shutil.which still returns the
same path subprocess would resolve itself).
## HIGH fixes (silent misbehaviour on Windows)
- tools/environments/local.py get_temp_dir: hardcoded /tmp returned on
Windows meant `_cwd_file = "/tmp/hermes-cwd-*.txt"`, which bash wrote
via MSYS2's virtual /tmp but native Python couldn't open. Result: cwd
tracking silently broken — `cd` in terminal tool did nothing. Windows
branch now returns `%HERMES_HOME%/cache/terminal` with forward slashes
(works in both bash and Python, guaranteed no spaces).
- tools/environments/local.py _make_run_env PATH injection: `/usr/bin not
in split(":")` heuristic mangles Windows PATH (";" separator). Gate
the injection behind `not _IS_WINDOWS`.
- hermes_cli/gateway.py launch_detached_profile_gateway_restart: outer
Popen + watcher-script Popen both used start_new_session=True, which
Windows silently ignores. Watcher stayed attached to CLI's console,
died when user closed terminal after `hermes update`, left gateway
stale. Now branches through windows_detach_popen_kwargs() helper
(CREATE_NEW_PROCESS_GROUP | DETACHED_PROCESS | CREATE_NO_WINDOW on
Windows, start_new_session=True on POSIX — identical to main).
## MEDIUM fixes
- gateway/run.py /restart and /update handlers: hardcoded bash/setsid
chain crashes on Windows when user triggers /update in-gateway. Now
has sys.platform=="win32" branch using sys.executable + a tiny
Python watcher with proper detach flags. POSIX path is unchanged.
- cli.py _git_repo_root: Git on Windows sometimes returns /c/Users/...
style paths that break subprocess.Popen(cwd=...) and Path().resolve().
Added _normalize_git_bash_path() helper that translates /c/Users,
/cygdrive/c, /mnt/c variants to native C:\Users form. POSIX no-op.
_git_repo_root() now routes every result through it.
- cli.py worktree .worktreeinclude: os.symlink on directories failed
hard on Windows (requires admin or Developer Mode). Falls back to
shutil.copytree with a warning log.
## Tests
- 29 new tests in tests/tools/test_windows_native_support.py covering:
subprocess_compat helpers, TUI entry signal guards, kanban waitpid
guard, code_execution TCP fallback source-level invariants, cron bash
resolution, npm/npx bare-spawn lint per-file, local env Windows temp
dir, PATH injection gating, git bash path normalization, symlink
fallback, gateway detached watcher flags.
- One existing test assertion adjusted in test_browser_homebrew_paths:
it compared captured Popen argv to the BARE `"npx"` literal; after the
shutil.which() change argv[0] is the absolute path. New assertion
checks the shape (two items, second is `agent-browser`) rather than
the exact first-item string. Behaviour unchanged; test was too strict.
All 56 tests pass on Linux (30 from previous commits + 26 new).
267 tests from the affected files/dirs (browser, code_exec, local_env,
process_registry, kanban_db, windows_compat) all pass — zero regressions.
tests/hermes_cli/ (3909 pass) and tests/gateway/ (5021 pass) unchanged;
all pre-existing test failures confirmed unrelated via `git stash` re-run.
## What's still deferred (LOW priority)
- Visible cmd-window flashes on short-lived console apps (~14 sites) —
cosmetic, needs a follow-up pass once we have user reports.
- agent/file_safety.py POSIX-only security deny patterns — separate
hardening task.
- tools/process_registry.py returning "/tmp" as fallback — theoretical;
reachable only when all env-var candidates fail.
Pre-existing Windows bug surfaced while reviewing the portable-MinGit
install: prompt_toolkit's Buffer.open_in_editor() falls back to POSIX
absolute paths (/usr/bin/nano, /usr/bin/vi, /usr/bin/emacs) that don't
exist on native Windows. When neither $EDITOR nor $VISUAL is set,
Ctrl+X Ctrl+E ("open prompt in editor") and /edit both silently do
nothing on Windows — the user hits the key, nothing happens, no error.
This wasn't caused by MinGit (full Git for Windows doesn't fix it either,
because the Windows Python subprocess call resolves `/usr/bin/nano` as
`C:\usr\bin\nano`, which doesn't exist even with nano installed).
Fixes:
- hermes_cli/stdio.py::configure_windows_stdio now sets EDITOR=notepad
on Windows if neither EDITOR nor VISUAL is set. notepad.exe is in
every Windows install, works as a blocking editor (subprocess.call
waits for the window to close), and writes back to the file.
- hermes_cli/config.py (hermes config edit): reorder fallback list so
Windows tries notepad first — previously nano led the list, which
required Git Bash / WSL to be in PATH.
- Users who want VSCode / Neovim / Notepad++ can still override via
$env:EDITOR — that's checked before our default kicks in. Docstring
spells out the common overrides.
The Ink TUI (`hermes --tui`) already handled Windows correctly via
ui-tui/src/lib/editor.ts falling back to notepad.exe on win32 — this
commit brings the classic prompt_toolkit CLI into parity.
3 new tests in test_windows_native_support.py verify:
- EDITOR=notepad gets set when unset on Windows
- Explicit $EDITOR is respected
- $VISUAL is respected (not overwritten by our default)
Native Windows (with Git for Windows installed) can now run the Hermes CLI
and gateway end-to-end without crashing. install.ps1 already existed and
the Git Bash terminal backend was already wired up — this PR fills the
remaining gaps discovered by auditing every Windows-unsafe primitive
(`signal.SIGKILL`, `os.kill(pid, 0)` probes, bare `fcntl`/`termios`
imports) and by comparing hermes against how Claude Code, OpenCode, Codex,
and Cline handle native Windows.
## What changed
### UTF-8 stdio (new module)
- `hermes_cli/stdio.py` — single `configure_windows_stdio()` entry point.
Flips the console code page to CP_UTF8 (65001), reconfigures
`sys.stdout`/`stderr`/`stdin` to UTF-8, sets `PYTHONIOENCODING` + `PYTHONUTF8`
for subprocesses. No-op on non-Windows. Opt out via `HERMES_DISABLE_WINDOWS_UTF8=1`.
- Called early in `cli.py::main`, `hermes_cli/main.py::main`, and
`gateway/run.py::main` so Unicode banners (box-drawing, geometric
symbols, non-Latin chat text) don't `UnicodeEncodeError` on cp1252
consoles.
### Crash sites fixed
- `hermes_cli/main.py:7970` (hermes update → stuck gateway sweep): raw
`os.kill(pid, _signal.SIGKILL)` → `gateway.status.terminate_pid(pid, force=True)`
which routes through `taskkill /T /F` on Windows.
- `hermes_cli/profiles.py::_stop_gateway_process`: same fix — also
converted SIGTERM path to `terminate_pid()` and widened OSError catch
on the intermediate `os.kill(pid, 0)` probe.
- `hermes_cli/kanban_db.py:2914, 3041`: raw `signal.SIGKILL` →
`getattr(signal, "SIGKILL", signal.SIGTERM)` fallback (matches the
pattern already used in `gateway/status.py`).
### OSError widening on `os.kill(pid, 0)` probes
Windows raises `OSError` (WinError 87) for a gone PID instead of
`ProcessLookupError`. Widened the catch at:
- `gateway/run.py:15101` (`--replace` wait-for-exit loop — without this,
the loop busy-spins the full 10s every Windows gateway start)
- `hermes_cli/gateway.py:228, 460, 940`
- `hermes_cli/profiles.py:777`
- `tools/process_registry.py::_is_host_pid_alive`
- `tools/browser_tool.py:1170, 1206`
### Dashboard PTY graceful degradation
`hermes_cli/pty_bridge.py` depends on `fcntl`/`termios`/`ptyprocess`,
none of which exist on native Windows. Previously a Windows dashboard
would crash on `import hermes_cli.web_server` because of a top-level
import. Now:
- `hermes_cli/web_server.py` wraps the pty_bridge import in
`try/except ImportError` and sets `_PTY_BRIDGE_AVAILABLE=False`.
- The `/api/pty` WebSocket handler returns a friendly "use WSL2 for
this tab" message instead of exploding.
- Every other dashboard feature (sessions, jobs, metrics, config
editor) runs natively on Windows.
### Dependency
- `pyproject.toml`: add `tzdata>=2023.3; sys_platform == 'win32'` so
Python's `zoneinfo` works on Windows (which has no IANA tzdata
shipped with the OS). Credits @sprmn24 (PR #13182).
### Docs
- README.md: removed "Native Windows is not supported"; added
PowerShell one-liner and Git-for-Windows prerequisite note.
- `website/docs/getting-started/installation.md`: new Windows section
with capability matrix (everything native except the dashboard
`/chat` PTY tab, which is WSL2-only).
- `website/docs/user-guide/windows-wsl-quickstart.md`: reframed as
"WSL2 as an alternative to native" rather than "the only way".
- `website/docs/developer-guide/contributing.md`: updated
cross-platform guidance with the `signal.SIGKILL` / `OSError`
rules we enforce now.
- `website/docs/user-guide/features/web-dashboard.md`: acknowledged
native Windows works for everything except the embedded PTY pane.
## Why this shape
Pulled from a survey of how other agent codebases handle native
Windows (Claude Code, OpenCode, Codex, Cline):
- All four treat Git Bash as the canonical shell on Windows, same as
hermes already does in `tools/environments/local.py::_find_bash()`.
- None of them force `SetConsoleOutputCP` — but they don't have to,
Node/Rust write UTF-16 to the Win32 console API. Python does not get
that for free, so we flip CP_UTF8 via ctypes.
- None of them ship PowerShell-as-primary-shell (Claude Code exposes
PS as a secondary tool; scope creep for this PR).
- All of them use `taskkill /T /F` for force-kill on Windows, which
is exactly what `gateway.status.terminate_pid(force=True)` does.
## Non-goals (deliberate scope limits)
- No PowerShell-as-a-second-shell tool — worth designing separately.
- No terminal routing rewrite (#12317, #15461, #19800 cluster) — that's
the hardest design call and needs a separate doc.
- No wholesale `open()` → `open(..., encoding="utf-8")` sweep (Tianworld
cluster) — will do as follow-up if users hit actual breakage; most
modern code already specifies it.
## Validation
- 28 new tests in `tests/tools/test_windows_native_support.py` — all
platform-mocked, pass on Linux CI. Cover:
- `configure_windows_stdio` idempotency, opt-out, env-preservation
- `terminate_pid` taskkill routing, failure → OSError, FileNotFoundError fallback
- `getattr(signal, "SIGKILL", …)` fallback shape
- `_is_host_pid_alive` OSError widening (Windows-gone-PID behavior)
- Source-level checks that all entry points call `configure_windows_stdio`
- pty_bridge import-guard present in `web_server.py`
- README no longer says "not supported"
- 12 pre-existing tests in `tests/tools/test_windows_compat.py` still pass.
- `tests/hermes_cli/` ran fully (3909 passed, 9 failures — all confirmed
pre-existing on main by stash-test).
- `tests/gateway/` ran fully (5021 passed, 1 pre-existing failure).
- `tests/tools/test_process_registry.py` + `test_browser_*` pass.
- Manual smoke: `import hermes_cli.stdio; import gateway.run;
import hermes_cli.web_server` — all clean, `_PTY_BRIDGE_AVAILABLE=True`
on Linux (as expected).
## Files
- New: `hermes_cli/stdio.py`, `tests/tools/test_windows_native_support.py`
- Modified: `cli.py`, `gateway/run.py`, `hermes_cli/main.py`,
`hermes_cli/profiles.py`, `hermes_cli/gateway.py`,
`hermes_cli/kanban_db.py`, `hermes_cli/pty_bridge.py`,
`hermes_cli/web_server.py`, `tools/browser_tool.py`,
`tools/process_registry.py`, `pyproject.toml`, `README.md`, and 4
docs pages.
Credits to everyone whose prior PR work informed these fixes — see
the co-author trailers. All of the PRs listed in
`~/.hermes/plans/windows-support-prs.md` fixing `os.kill` / `signal.SIGKILL`
/ UTF-8 stdio / tzdata / README patterns found the same issues; this PR
consolidates them.
Co-authored-by: Philip D'Souza <9472774+PhilipAD@users.noreply.github.com>
Co-authored-by: Arecanon <42595053+ArecaNon@users.noreply.github.com>
Co-authored-by: XiaoXiao0221 <263113677+XiaoXiao0221@users.noreply.github.com>
Co-authored-by: Lars Hagen <1360677+lars-hagen@users.noreply.github.com>
Co-authored-by: Luan Dias <65574834+luandiasrj@users.noreply.github.com>
Co-authored-by: Ruzzgar <ruzzgarcn@gmail.com>
Co-authored-by: sprmn24 <oncuevtv@gmail.com>
Co-authored-by: adybag14-cyber <252811164+adybag14-cyber@users.noreply.github.com>
Co-authored-by: Prasanna28Devadiga <54196612+Prasanna28Devadiga@users.noreply.github.com>
_distribution_metadata() reads the profile's distribution.yaml without
an explicit encoding, which defaults to the platform's locale encoding
— UTF-8 on POSIX, cp1252/mbcs on Windows. Files round-tripped between
hosts get mojibake on the Windows side.
Single-line fix: add encoding='utf-8' to the open() call. Matches the
sibling _read_config_model() site at line 398, which already does this.
Surfaces once PR #21561 lands the blocking ruff-check CI job
(PLW1514 — unspecified-encoding), but the underlying bug is
pre-existing on main.
Third slice of the Microsoft Teams meeting pipeline stack, salvaged
onto current main. Adds the standalone teams_pipeline plugin that
consumes Graph change notifications from the webhook listener,
resolves meeting artifacts (transcript first, recording + STT fallback
later), persists job state in a durable store, and exposes an operator
CLI for inspection, replay, subscription management, and validation.
Design choices follow maintainer review feedback on PR #19815:
- Standalone plugin rather than bolted-on core surface
(plugins/teams_pipeline/, kind: standalone in plugin.yaml).
- Zero new model tools. The agent drives the pipeline by invoking
the operator CLI via the terminal tool, guided by the skill that
ships with a follow-up PR.
- Reuses the existing msgraph_webhook gateway platform for Graph
ingress. Pipeline runtime is wired in via bind_gateway_runtime and
gated on plugins.enabled so gateways that don't run the plugin
boot cleanly.
Additions:
- plugins/teams_pipeline/: runtime (gateway wiring + config builder),
pipeline core, durable SQLite store, subscription maintenance
helpers, Graph artifact resolution, operator CLI (list, show,
run/replay, fetch dry-run, subscriptions list, subscribe,
renew-subscription, delete-subscription, maintain-subscriptions,
token-health, validate).
- hermes_cli/main.py: second-pass plugin CLI discovery so any
standalone plugin registered via ctx.register_cli_command()
outside the memory-plugin convention path gets its subcommand
wired into argparse without touching core.
- gateway/run.py: _teams_pipeline_plugin_enabled() config gate,
_wire_teams_pipeline_runtime() binding after adapter setup, and
the two runner attributes used by the runtime.
Credit to @dlkakbs for the entire plugin implementation.
Background macOS desktop control via cua-driver MCP — does NOT steal the
user's cursor or keyboard focus, works with any tool-capable model.
Replaces the Anthropic-native `computer_20251124` approach from the
abandoned #4562 with a generic OpenAI function-calling schema plus SOM
(set-of-mark) captures so Claude, GPT, Gemini, and open models can all
drive the desktop via numbered element indices.
- `tools/computer_use/` package — swappable ComputerUseBackend ABC +
CuaDriverBackend (stdio MCP client to trycua/cua's cua-driver binary).
- Universal `computer_use` tool with one schema for all providers.
Actions: capture (som/vision/ax), click, double_click, right_click,
middle_click, drag, scroll, type, key, wait, list_apps, focus_app.
- Multimodal tool-result envelope (`_multimodal=True`, OpenAI-style
`content: [text, image_url]` parts) that flows through
handle_function_call into the tool message. Anthropic adapter converts
into native `tool_result` image blocks; OpenAI-compatible providers
get the parts list directly.
- Image eviction in convert_messages_to_anthropic: only the 3 most
recent screenshots carry real image data; older ones become text
placeholders to cap per-turn token cost.
- Context compressor image pruning: old multimodal tool results have
their image parts stripped instead of being skipped.
- Image-aware token estimation: each image counts as a flat 1500 tokens
instead of its base64 char length (~1MB would have registered as
~250K tokens before).
- COMPUTER_USE_GUIDANCE system-prompt block — injected when the toolset
is active.
- Session DB persistence strips base64 from multimodal tool messages.
- Trajectory saver normalises multimodal messages to text-only.
- `hermes tools` post-setup installs cua-driver via the upstream script
and prints permission-grant instructions.
- CLI approval callback wired so destructive computer_use actions go
through the same prompt_toolkit approval dialog as terminal commands.
- Hard safety guards at the tool level: blocked type patterns
(curl|bash, sudo rm -rf, fork bomb), blocked key combos (empty trash,
force delete, lock screen, log out).
- Skill `apple/macos-computer-use/SKILL.md` — universal (model-agnostic)
workflow guide.
- Docs: `user-guide/features/computer-use.md` plus reference catalog
entries.
44 new tests in tests/tools/test_computer_use.py covering schema
shape (universal, not Anthropic-native), dispatch routing, safety
guards, multimodal envelope, Anthropic adapter conversion, screenshot
eviction, context compressor pruning, image-aware token estimation,
run_agent helpers, and universality guarantees.
469/469 pass across tests/tools/test_computer_use.py + the affected
agent/ test suites.
- `model_tools.py` provider-gating: the tool is available to every
provider. Providers without multi-part tool message support will see
text-only tool results (graceful degradation via `text_summary`).
- Anthropic server-side `clear_tool_uses_20250919` — deferred;
client-side eviction + compressor pruning cover the same cost ceiling
without a beta header.
- macOS only. cua-driver uses private SkyLight SPIs
(SLEventPostToPid, SLPSPostEventRecordTo,
_AXObserverAddNotificationAndCheckRemote) that can break on any macOS
update. Pin with HERMES_CUA_DRIVER_VERSION.
- Requires Accessibility + Screen Recording permissions — the post-setup
prints the Settings path.
Supersedes PR #4562 (pyautogui/Quartz foreground backend, Anthropic-
native schema). Credit @0xbyt4 for the original #3816 groundwork whose
context/eviction/token design is preserved here in generic form.
* feat(profile): shareable profile distributions (pack/install/update/info)
Closes#20456.
Turns a profile into a portable, versioned artifact. Packs SOUL.md, config,
skills, cron, and an env-var manifest into a tar.gz that others can install
from a local path, URL, or git repo. Updates re-pull the distribution while
preserving user data (memories, sessions, auth.json, .env) and the user's
config.yaml overrides.
New subcommands (under hermes profile, no parallel tree):
hermes profile pack <name> [-o FILE]
hermes profile install <source> [--name N] [--alias] [--force] [-y]
hermes profile update <name> [--force-config] [-y]
hermes profile info <name>
Manifest (distribution.yaml at the profile root): name, version,
hermes_requires, author, env_requires, distribution_owned.
Security:
- Installer shows manifest + env-var requirements before mutating disk;
confirmation required unless -y.
- auth.json and .env are never packed (same exclude set as profile export).
- Cron jobs are packed but NOT auto-scheduled — user is pointed at
'hermes -p <name> cron list' to review.
- Archive extraction rejects path traversal (../ members).
- Alias creation is opt-in via --alias.
Update semantics:
- Distribution-owned paths (SOUL.md, skills/, cron/, mcp.json, manifest):
replaced from the new archive.
- config.yaml: preserved by default; --force-config to overwrite.
- User-owned paths (memories/, sessions/, auth.json, .env, state.db*,
logs/, workspace/, plans/, home/, *_cache/, local/): never touched.
Version pin:
hermes_requires accepts >=, <=, ==, !=, >, < or a bare version (treated
as >=). Install fails with a clear error when the running Hermes version
doesn't satisfy the spec.
Sources supported by 'install':
- Local .tar.gz / .tgz archive
- Local directory
- HTTP(S) URL pointing to a .tar.gz (uses httpx, already a dep)
- Git URL (github.com/user/repo, https://..., git@..., ssh://, git://)
Tests: 43 new unit tests (manifest parsing, version checks, env template,
pack/install/update round-trip, config-preservation, security).
E2E validated via real CLI invocations against an isolated HERMES_HOME
covering pack, install with confirmation, update preservation, update
--force-config, decline-preview, duplicate-install rejection, and
version-requirement rejection.
* refactor(profile-dist): git-only — drop tar.gz/HTTP transports and pack
Scope-cut on top of the original distribution PR: a profile distribution
is now exclusively a git repository (or a local directory during
development). The tar.gz / HTTP archive transports and the matching
`hermes profile pack` subcommand have been removed.
Why:
* GitHub tags, branches, and commits are already the right versioning
primitive. Tag pushes do for us what 'pack + upload' did.
* `hermes profile export` / `import` already cover local backup and
restore; they are not a distribution format and stay untouched.
* One transport means one install/update code path, one doc page,
and one mental model. The extra source types doubled the surface
for no real user win — GitHub auto-attaches release tarballs, and
`git bundle` / `git clone --mirror` cover the airgap case.
Changes:
* hermes_cli/profile_distribution.py — removed pack_profile,
_fetch_tar_archive (_http_fetch), _safe_extract, _archive_roots,
_safe_parts, _find_dist_root, tarfile/io/urlparse imports. The
new _stage_source has two arms: git URL → clone, local directory
→ use in place.
* hermes_cli/main.py — removed the 'pack' subparser and action
handler. Install help text updated to match the reduced source list.
* tests/hermes_cli/test_profile_distribution.py — rewritten around a
local-directory staging fixture. The install/update/describe suites
now build a distribution tree on disk directly and install from it,
which is what a real git clone produces after .git is stripped.
Dropped TestPack, TestFindDistRoot, and the tar-specific security
test. New tests cover _looks_like_git_url, env_example emission,
hermes_requires enforcement, and 'installer does not import
credentials if an author mistakenly leaks them in the staging tree'.
* website/docs/reference/profile-commands.md — 'Distribution commands'
section rewritten around git. Added a 'Publishing a distribution'
section. export/import stay documented as local backup/restore.
* website/docs/reference/cli-commands.md — dropped 'pack' from the
profile subcommand table.
* website/package.json — 'lint:diagrams' now passes
--exclude-code-blocks to ascii-guard. Without it, markdown tables
and box-drawing diagrams inside fenced code blocks were being
misidentified as malformed ASCII boxes, blocking the PR's
docs-site-checks CI with 8 false-positive errors.
Validation:
* Targeted suite: tests/hermes_cli/test_profile_distribution.py —
56/56 pass (down from 43 — reorganized to cover the new
local-dir paths).
* Regression: test_profiles.py + test_profile_export_credentials.py
102/102 still pass. export/import behaviour unchanged.
* Docs lint: ascii-guard lint --exclude-code-blocks docs returns
0 errors (was 8 on the PR before the flag bump).
* E2E: ran the real `hermes profile install`/`info` against a
local staging dir under an isolated HERMES_HOME — install writes
SOUL.md + skills to the target profile, info reads the manifest
back, a bogus source produces a clear error, and `hermes profile
pack` is now rejected by argparse as expected.
* feat(profile-dist): distribution-aware list/show/delete + installed_at + env preview
Polish pass on top of the git-only scope cut. Five additions, all small,
wiring into existing commands rather than adding new surface.
1. `installed_at` timestamp on the manifest
* Stamped automatically inside plan_install() on both fresh install
and update — ISO-8601 UTC, seconds resolution.
* Surfaced in `hermes profile info` as `Installed: <ts>`.
* Lets users tell "installed 6 months ago, needs update" from
"installed yesterday" without guessing from file mtimes.
2. `hermes profile list` grows a `Distribution` column
* Plain profiles: "—"
* Distribution profiles: "<name>@<version>" (e.g. `telemetry@1.2.3`)
* ProfileInfo gains three optional fields — distribution_name,
distribution_version, distribution_source — populated by a new
_read_distribution_meta() helper that swallows manifest read errors
so a broken distribution.yaml in one profile can't break `list`
for the others.
3. `hermes profile show` and `hermes profile delete` surface
distribution provenance
* show: `Distribution: name@version` + `Installed from: <source>`
plus a pointer to `hermes profile info <name>` for the full
manifest.
* delete: same lines in the pre-confirmation preview, so a user
deleting "telemetry" can see it came from
`github.com/kyle/telemetry-distribution` before they type
`telemetry` to confirm. No change to the confirmation gate itself —
deletion semantics are identical to plain profiles.
4. Install preview checks env vars against the current environment
* Replaces the "Env vars you'll need to set:" header with a simpler
"Env vars:" block.
* Each required var is labeled:
- `✓ set` — already in `os.environ` OR present as a key in the
target profile's existing .env (update case).
- `needs setting` — required but not found in either place.
- `—` — optional.
* Mirrors pip's "Requirement already satisfied" UX: no unnecessary
nagging about keys the user already has configured.
5. Docs: private distributions
* New "Private distributions" section in
website/docs/reference/profile-commands.md explaining that we
shell out to the user's `git` binary, so SSH keys / credential
helpers / GitHub CLI stored creds all work transparently. One
paragraph, two examples.
* `hermes profile info` section updated to mention `Installed:`.
Module-level hoist:
* `from datetime import datetime, timezone` was previously lazy-imported
inside plan_install(). Hoisted to module scope so tests can monkeypatch
`hermes_cli.profile_distribution.datetime` to freeze time.
Tests (+7):
* TestInstalledAtStamp.test_install_stamps_installed_at — format check
(4-digit year, 'T', +00:00 suffix).
* TestInstalledAtStamp.test_update_refreshes_installed_at — freezes
datetime.now() to 2099-01-01 and confirms update writes a new stamp.
* TestProfileInfoDistribution.test_installed_distribution_shows_in_list
— ProfileInfo.distribution_{name,version,source} populated after install.
* TestProfileInfoDistribution.test_plain_profile_has_no_distribution_fields
— plain profiles have None.
* TestProfileInfoDistribution.test_malformed_manifest_does_not_break_list
— broken distribution.yaml in one profile doesn't break list_profiles().
Validation:
* 163/163 tests pass (56 distribution + 102 profile regression +
5 new from this commit — up from 158).
* docs-lint: 0 errors.
* E2E verified: install preview shows ✓/needs-setting per env var,
`profile list` shows Distribution column, `profile show` + `delete`
preview mentions source URL, `info` shows Installed: timestamp.
* fix(profile-dist): clean errors + warn when overwriting plain profiles
Two small polish fixes found during collision sweeps of the PR:
1. ValueError from validate_profile_name now caught cleanly
* A distribution.yaml whose 'name' field can't be used as a profile
identifier (spaces, path traversal, etc.) raises ValueError from
hermes_cli.profiles.validate_profile_name, which was escaping as a
raw Python traceback from 'hermes profile install/update/info'.
* Broadened the except clause in all three handlers to catch
(DistributionError, ValueError) — users now see:
Error: Invalid profile name '../../etc/passwd'. Must match
[a-z0-9][a-z0-9_-]{0,63}
instead of a stack trace.
2. Install preview distinguishes plain profile overwrite from
distribution re-install
* When plan.target_dir exists and IS a distribution (has
distribution.yaml), preview still shows the mild
(profile exists — will overwrite distribution-owned files only)
* When plan.target_dir exists but is a HAND-BUILT plain profile (no
distribution.yaml), preview now shows a loud warning:
⚠ Profile exists but is NOT a distribution. Installing here will
overwrite its SOUL.md, skills/, cron/, and mcp.json.
Your memories, sessions, auth.json, and .env will be preserved,
but any hand-edits to distribution-owned files will be lost.
* Users who type 'hermes profile install foo --force' against a
profile they hand-built now see what they're signing up for. User
data is still safe (memories, sessions, auth, .env are in
USER_OWNED_EXCLUDE), but custom SOUL/skills get stomped.
Tests (+2):
* TestErrorSurfaces.test_bad_profile_name_raises_valueerror_not_traceback
* TestErrorSurfaces.test_path_traversal_name_rejected
Validation:
* 165/165 tests pass (was 163).
* E2E: bad manifest names produce 'Error: Invalid profile name ...'
with no traceback; installing over a plain profile shows the warning;
re-installing over an existing distribution shows the normal
overwrite message.
* Bad HTTPS URLs still produce 'Error: git clone failed: ...' — git
itself generates a clean enough message that no wrapper is needed.
* 'install .' works correctly from any cwd.
* fix(profiles): reject reserved names at validate time
Before: `hermes profile create hermes` / `profile install` / `profile rename`
all silently accepted reserved names like `hermes`, `test`, `tmp`, `root`,
`sudo`. The profile directory was created; only alias creation failed (via
check_alias_collision), leaving a confusingly-named profile on disk — e.g.
`~/.hermes/profiles/hermes/` sitting next to `~/.hermes/` itself.
The reserved set already exists (_RESERVED_NAMES, introduced alongside alias
collision detection). This commit moves the check up one layer to
validate_profile_name so every entry point — create, install, import,
rename, dashboard web API — shares the same gate.
The error message points the user at the cause without being cryptic:
Error: Profile name 'hermes' is reserved — it collides with either the
Hermes installation itself or a common system binary. Pick a different
name.
`default` continues to pass through (it's a special alias for ~/.hermes).
_HERMES_SUBCOMMANDS (`chat`, `model`, `gateway`, etc.) stays at
alias-collision time only — those are fine as bare profile names with
`--no-alias`.
Tests (+5): test_reserved_names_rejected parametrized over the full
_RESERVED_NAMES set, matching the existing pattern in TestValidateProfileName.
No existing test uses a reserved name as a profile identifier (greppped
create_profile("hermes|test|tmp|root|sudo") — zero hits).
Validation:
* 170/170 tests pass in the profile suites.
* E2E: `profile create hermes`, `profile install` with manifest
name=hermes, and `profile install ... --name hermes` all produce the
same clean `Error: Profile name 'hermes' is reserved ...` with rc=1
and no traceback. Normal names (`mybot`) still work.
The quick setup flow (recommended for first-time users) silently defaulted
terminal.backend to 'local' without ever presenting the choice. This meant
new users who wanted Docker, SSH, Modal, Daytona, or any other backend had
to know about 'hermes setup terminal' — which most wouldn't discover until
later.
Now the quick setup flow is:
1. Provider selection
2. API key
3. Terminal backend (local/Docker/Modal/SSH/Daytona/Vercel/Singularity)
4. Messaging platform
5. Done
The terminal backend is a foundational decision (where ALL commands run)
and belongs in the onboarding path alongside provider selection.
Weak judge models (e.g. deepseek-v4-flash) return empty strings or prose
when asked for the strict {done, reason} JSON verdict. The old code
failed-open to continue on every such turn, burning the entire turn
budget with log lines like
judge returned empty response
judge reply was not JSON: "Let me analyze whether the goal..."
and /goal clear could not stop it mid-loop without /stop.
After N=3 consecutive *parse* failures (transport/API errors don't
count — those are transient), the loop auto-pauses and prints:
⏸ Goal paused — the judge model (3 turns) isn't returning the
required JSON verdict. Route the judge to a stricter model in
~/.hermes/config.yaml:
auxiliary:
goal_judge:
provider: openrouter
model: google/gemini-3-flash-preview
Then /goal resume to continue.
The counter resets on any usable reply (both "done"/"continue" and
API errors) and persists across GoalManager reloads so cross-session
resumes carry the correct state.
Also fixes test_goal_verdict_send.py sharing a hardcoded session_id
across tests — the shared id only worked because the previous
_post_turn_goal_continuation was a never-awaited coroutine. Now that
PR #19160 made it properly awaited, the xdist test-leakage bug
surfaced. Each test gets a unique session_id via uuid suffix.
* feat(kanban): add `specify` — auxiliary LLM fleshes out triage tasks
The Triage column shipped with a placeholder 'a specifier will flesh
out the spec', but the specifier itself was never built. This wires
it up as a dedicated CLI verb.
`hermes kanban specify <id>` calls the auxiliary LLM (configured under
`auxiliary.triage_specifier`) to expand a rough one-liner into a
concrete spec — tightened title plus a body with Goal / Approach /
Acceptance criteria / Out-of-scope sections — then atomically flips
`status: triage -> todo` and recomputes ready so parent-free tasks
go straight to the dispatcher on the same tick.
Surface:
hermes kanban specify <task_id> # single task
hermes kanban specify --all [--tenant T] # sweep triage column
hermes kanban specify ... --author NAME # audit-comment author
hermes kanban specify ... --json # one JSON line per task
Design choices:
- Parent gating is preserved. specify_triage_task flips to 'todo',
then recompute_ready promotes to 'ready' only when parents are
done — same rule as a normal parent-gated todo.
- No daemon, no background watcher. Every invocation is explicit —
keeps cost predictable and doesn't fight the dispatcher loop.
- Response parse is lenient: strict JSON preferred, markdown-fence
tolerated, raw-body fallback on malformed JSON so the LLM can't
strand a task in triage.
- All failure modes (no aux client, API error, task moved out of
triage mid-call) return SpecifyOutcome(ok=False, reason=...) so
--all continues past individual failures.
Changes:
hermes_cli/kanban_db.py + specify_triage_task()
hermes_cli/kanban_specify.py NEW (~220 LOC — prompt, parse, call)
hermes_cli/kanban.py + specify subcommand + _cmd_specify
hermes_cli/config.py + auxiliary.triage_specifier task slot
website/docs/user-guide/features/kanban.md specify + config notes
website/docs/reference/cli-commands.md CLI reference entry
tests/hermes_cli/test_kanban_specify_db.py NEW (10 tests)
tests/hermes_cli/test_kanban_specify.py NEW (20 tests)
Validation: 30/30 targeted tests pass. E2E: triage task -> specify ->
ends in 'ready' with events [created, specified, promoted] and the
audit comment recorded under the configured author.
* feat(kanban): wire specifier into dashboard and gateway slash
Follow-ups to the initial PR #21435 — closes the two gaps I'd left as
post-merge: dashboard button and first-class gateway surface.
Dashboard (plugins/kanban/dashboard/)
- POST /tasks/:id/specify NEW endpoint. Thin wrapper around
kanban_specify.specify_task(). Returns the CLI outcome shape
({ok, task_id, reason, new_title}); ok=false with a human reason
is a 200, not a 4xx, so the UI can render it inline without
treating 'no aux client configured' as a crash.
- Runs sync in FastAPI's threadpool because the LLM call can take
tens of seconds on reasoning models.
- Pins HERMES_KANBAN_BOARD around the specify call so the module's
argless kb.connect() lands on the right board.
- dist/index.js: doSpecify callback threaded through the drawer →
TaskDetail → StatusActions prop chain. ✨ Specify button appears
ONLY when task.status === 'triage' (elsewhere the backend would
reject anyway — hide the button to keep the action row clean).
Busy state (Specifying…) + inline success/error banner under the
button using the response.reason text.
- dist/style.css: tiny hermes-kanban-msg-ok / -err classes using
existing --color vars so themes reskin cleanly.
Gateway slash (/kanban specify)
- Already works via the existing run_slash → build_parser →
kanban_command pipeline. No code change needed — slash commands
inherit the argparse tree automatically. Added coverage:
test_run_slash_specify_end_to_end (create --triage, specify, verify
promotion + retitle) and test_run_slash_specify_help_is_reachable.
Tests
- tests/plugins/test_kanban_dashboard_plugin.py: 3 new tests for the
REST endpoint — happy path, non-triage rejection as ok=false 200,
missing aux client as ok=false 200.
- tests/hermes_cli/test_kanban_cli.py: 2 new slash-surface tests.
Docs
- website/docs/user-guide/features/kanban.md: dashboard action row
description mentions ✨ Specify + all three surfaces. REST table
gains /tasks/:id/specify. Slash examples include /kanban specify.
Validation: 340/340 targeted tests pass. E2E via TestClient: create a
triage task over REST → POST /specify with mocked aux client → task
moves to 'ready' column on /board with new title and body applied.
Both implement WebSearchProvider via tools/web_providers/ — matching the
existing SearXNG pattern (PR #5c906d702). Search-only; pair with any
extract provider via web.extract_backend.
- tools/web_providers/brave_free.py — Brave Search API (free tier, 2k
queries/mo). Uses BRAVE_SEARCH_API_KEY as X-Subscription-Token.
- tools/web_providers/ddgs.py — DuckDuckGo via the ddgs Python package.
No API key; gated on package importability.
- tools/web_tools.py: both backends added to _get_backend() config list
and auto-detect chain (trails paid providers), _is_backend_available,
web_search_tool dispatch, web_extract_tool + web_crawl_tool search-only
refusals, check_web_api_key, and the __main__ diagnostic. Introduces
_ddgs_package_importable() helper so tests can monkeypatch a single
symbol for the ddgs availability check.
- hermes_cli/tools_config.py: picker entries for both providers; ddgs
gets a post_setup handler that runs `pip install ddgs`.
- hermes_cli/config.py: BRAVE_SEARCH_API_KEY in OPTIONAL_ENV_VARS.
- scripts/release.py: AUTHOR_MAP entry for @Abd0r.
- tests: 14 new tests (brave-free) + 15 new tests (ddgs) covering
provider unit behavior, backend wiring, and search-only refusals.
Salvages the brave-free + ddgs portion of PR #19796. Not included: the
in-line helpers in web_tools.py (replaced with provider modules to match
the shipped architecture), the lynx-based extract path (these backends
should refuse extract with a clear error — users pair with a real
extract provider), and scripts/start-llama-server.sh (unrelated).
Co-authored-by: Abd0r <223003280+Abd0r@users.noreply.github.com>
cmd_update's auto-restart path could leave the gateway dead after a
transient failure in systemd's own auto-restart window. Reproduced
on Ubuntu 25.10 + systemd 257: after update, gateway drains and exits 75,
systemd's first respawn 60s later fails (status=200/CHDIR with
"No such file or directory" on a WorkingDirectory that demonstrably
exists), the unit ends up in RestartMaxDelaySec=300 backoff, and
cmd_update's fallback 'systemctl restart' never recovers it — leaving
users with a permanently silent gateway until they manually run
'systemctl reset-failed'.
The fix mirrors the recovery pattern 'hermes gateway restart'
(systemd_restart) got in PR #20949: always reset-failed before
restart, on both the initial fallback and the retry. Also rewrites
the final failure message to tell the user to reset-failed +
restart (not just restart, which is the step that already failed
twice).
Adds a per-task override for the consecutive-failure circuit breaker,
so individual tasks can opt out of the global ``kanban.failure_limit``
without dragging everyone else with them.
Resolution order (now three tiers):
1. per-task ``max_retries`` (new, this commit)
2. caller-supplied ``failure_limit`` — the gateway threads
``kanban.failure_limit`` from config here
3. ``DEFAULT_FAILURE_LIMIT`` (2)
Changes:
- ``tasks.max_retries INTEGER`` column + migration for existing DBs
(NULL = no override, matches pre-column behavior).
- ``Task.max_retries`` field + ``from_row`` plumbing.
- ``create_task(..., max_retries=N)`` kwarg.
- ``_record_task_failure`` reads the per-task value first and records
``limit_source`` + ``effective_limit`` on the ``gave_up`` event so
operators can see which tier won.
- CLI: ``hermes kanban create --max-retries N`` (rejects ``< 1``).
- CLI: ``hermes kanban show`` surfaces the effective threshold +
source (``(task)``, ``(config kanban.failure_limit)``, ``(default)``).
- CLI: ``_task_to_dict`` includes ``max_retries`` in ``--json`` output.
Key design choice vs. the earlier #20972 attempt:
- No new config key. The existing ``kanban.failure_limit`` (landed in
#21183) is the dispatcher-tier source — no silent break for users
who already tuned it.
- No ``!=`` sentinel for "is config set" (which would misfire when
config equals the default). The tier-winner is determined purely
by "is per-task override set" — the dispatcher always wins when
per-task is NULL, regardless of whether the caller passed the
default or a configured value.
E2E verified across four scenarios: default-only (trips at 2),
config-only (trips at caller's value), per-task-only beats default
(trips at task value), per-task beats larger config (trips at task
value). ``gave_up`` event metadata correctly records ``limit_source``
and ``effective_limit`` in all cases.
Tests:
- ``test_per_task_max_retries_overrides_dispatcher_limit`` — task=1
beats caller=10.
- ``test_per_task_max_retries_allows_more_than_default`` — task=5
does not trip at caller=default of 2.
- ``test_max_retries_none_falls_through_to_dispatcher_limit`` — None
honors caller's config value (4), records ``limit_source=dispatcher``.
Full kanban trio (db + core + cli + tools + dashboard-plugin): 342
passed, no regressions.
Supersedes: #20972 (@jelrod27) — credit in PR close comment.
Ref: #20263 (tangentially — the reporter asked about adapter API
drift, not retry caps, but the CLI discussion there is what
surfaced the original ask).
PairingStore.approve_code() didn't consult _is_locked_out(), so after
MAX_FAILED_ATTEMPTS bad approvals the lockout flag was set but a valid
code still got accepted — any pending code (legitimately issued or
attacker-obtained) could be approved during the 1-hour lockout window,
nullifying the brute-force protection.
- gateway/pairing.py: lockout check runs in approve_code() right after
_cleanup_expired, before the pending lookup. Returns None on lockout.
- tests/gateway/test_pairing.py: test_lockout_blocks_code_approval pins
the regression — reporter's exact reproducer (generate valid code,
exhaust attempts with WRONGCODE, try to approve valid code) must
return None and leave is_approved == False. Also pins recovery: once
lockout expires, the still-pending code approves normally.
- hermes_cli/pairing.py: _cmd_approve distinguishes the two None cases.
On lockout, prints 'Platform locked out... clears in N minutes. To
reset sooner, delete the _lockout:<platform> entry from
_rate_limits.json' instead of the misleading 'Code not found or
expired' message. 29/29 pairing tests pass; E2E-verified with
reporter's exact Python reproducer.
Widen the platform-plugin surface so plugins can self-configure from env
vars and opt into cron home-channel delivery without editing core files.
Closes the scope gap that forced every new platform (Google Chat, Teams,
IRC, future) to either touch gateway/config.py, cron/scheduler.py, and
hermes_cli/config.py or live without env-only setup.
Changes:
- gateway/platform_registry.py: two new optional PlatformEntry fields.
- env_enablement_fn: () -> Optional[dict]. Called during
_apply_env_overrides BEFORE the adapter is constructed. Returned
dict fields are merged into PlatformConfig.extra; the special
'home_channel' key (if present) becomes a proper HomeChannel
dataclass on the PlatformConfig.
- cron_deliver_env_var: name of the *_HOME_CHANNEL env var. When set,
the plugin platform is a valid cron deliver= target and cron reads
the env var to resolve the default chat/room ID.
- gateway/config.py: the existing plugin-platform enable pass at the
bottom of _apply_env_overrides now calls env_enablement_fn and seeds
extras/home_channel. No effect on plugins that don't set the new
field.
- cron/scheduler.py: _is_known_delivery_platform and
_resolve_home_env_var fall through to the registry when the platform
isn't in the hardcoded built-in sets. New _iter_home_target_platforms
helper iterates built-ins + plugin platforms for the deliver=origin
fallback.
- gateway/run.py: _home_target_env_var now consults the new resolver so
plugin-defined home channels work for non-cron call sites too.
- hermes_cli/config.py: new _inject_platform_plugin_env_vars() sibling
of _inject_profile_env_vars(). Scans plugins/platforms/*/plugin.yaml
at import time and contributes entries to OPTIONAL_ENV_VARS so
'hermes config' UI discovers them. Supports bare-string and rich-dict
requires_env entries plus a new optional_env list for non-required
vars (home channels, allowlists).
All additions are strictly opt-in. Existing plugins (IRC, Teams,
image_gen, memory) see zero behavior change until they adopt the new
fields.
Mirrors the Slack `allowed_channels` feature (PR #7401) and Discord's
`allowed_channels` (PR #7044) across the remaining group-capable platforms.
All five platforms (Slack + Discord + the four added here) now follow the
same pattern: primary config via config.yaml, env-var fallback as an escape
hatch — matching the project policy that .env is for secrets only and
behavioral settings belong in config.yaml.
Also fixes a duplicate `slack` key in DEFAULT_CONFIG introduced by PR
#7401 (the later entry silently overwrote `allowed_channels`, `require_mention`,
and `free_response_channels` at dict-literal evaluation time).
Platforms added:
- Telegram: `telegram.allowed_chats` (env alias: `TELEGRAM_ALLOWED_CHATS`)
- Mattermost: `mattermost.allowed_channels` (env alias: `MATTERMOST_ALLOWED_CHANNELS`)
- Matrix: `matrix.allowed_rooms` (env alias: `MATRIX_ALLOWED_ROOMS`)
- DingTalk: `dingtalk.allowed_chats` (env alias: `DINGTALK_ALLOWED_CHATS`)
Mattermost and Matrix previously had NO config.yaml bridging for any of
their gating settings; this PR adds `load_gateway_config` bridges for them
(Mattermost gets require_mention + free_response_channels + allowed_channels;
Matrix gets allowed_rooms on top of its existing bridges for require_mention
and free_response_rooms).
Semantics identical everywhere:
- Empty = no restriction (fully backward compatible).
- Non-empty = hard whitelist: non-listed chats are silently ignored,
even when the bot is @mentioned.
- DMs bypass the check entirely.
DEFAULT_CONFIG merges the duplicate `slack` block and adds new `mattermost`
and `matrix` blocks so all gating settings surface in defaults.
Not included: Feishu (has its own per-chat `chat_rules` system that covers
this use case differently), WhatsApp (already has `group_allow_from` via
`group_policy: allowlist`), pure-DM platforms (Signal, SMS, BlueBubbles,
Yuanbao — no group concept).
The Hermes dashboard previously assumed it was served at the root of its
host (e.g. https://kanban.tilos.com/). When mounted behind a path-prefix
reverse proxy (e.g. https://mission-control.tilos.com/hermes/), the SPA
404'd because:
- index.html shipped absolute /assets/index-*.js URLs
- React Router had no basename
- The plugin loader hit /dashboard-plugins/<name>/... at the root host
- CSS in the bundle had absolute url(/fonts/...) references
This patch makes the dashboard prefix-aware at runtime, no rebuild
required. The proxy injects 'X-Forwarded-Prefix: /hermes' on every
request and the Python server:
- Rewrites href/src in served index.html to '${prefix}/assets/...'
- Injects 'window.__HERMES_BASE_PATH__="${prefix}"' for the SPA to read
- Rewrites url() refs in CSS at serve time
The SPA reads window.__HERMES_BASE_PATH__ once at boot and:
- Prefixes all /api/... fetches via api.ts
- Prefixes all /dashboard-plugins/... script/css URLs in usePlugins
- Sets <BrowserRouter basename={...}> so client-side routing works
When no X-Forwarded-Prefix header is present, behavior is unchanged
(empty prefix => serves at root, kanban.tilos.com keeps working).
Refs: MC-AUTO-13
Add tencent/hy3-preview (without :free suffix) as a paid model route
alongside the existing free variant. This allows seamless transition
when the model moves from free to paid on OpenRouter — both routes
coexist so neither side's timing causes breakage.
Changes:
- models.py: add ("tencent/hy3-preview", "") to OPENROUTER_MODELS
- model-catalog.json: add paid variant entry
- tests: add assertions for paid route presence
The :free entry can be removed in a follow-up PR once OpenRouter
confirms the free route is deprecated.
Co-authored-by: simonweng <simonweng@tencent.com>
The alibaba-coding-plan provider (DashScope coding-intl endpoint) was
defined in providers.py but missing from _PROVIDER_MODELS in models.py.
This caused /model to show "0 models" for this provider even though
credentials were configured and the provider was functional.
Add the curated model list so the provider picker displays available
models correctly.
- Add hermes dashboard examples to the CLI help epilogue so users can
discover the web UI command from 'hermes --help' output
- Add an independent 'Test dashboard subcommand' CI step that verifies
'hermes dashboard --help' works in the Docker image, with its own
mkdir/chown setup to remain independent of the prior smoke test step
- Prevents regressions like #9153 where the dashboard subcommand was
present in source but missing from the published Docker image
Closes#9153
Per repo policy, ~/.hermes/.env is for secrets only. Guild IDs are
behavioral configuration, not secrets. Replacing the
DISCORD_DM_ROLE_AUTH_GUILD env var from the original fix with
discord.dm_role_auth_guild in config.yaml.
- New module-level _read_dm_role_auth_guild() helper reads
hermes_cli.config.read_raw_config()['discord']['dm_role_auth_guild'].
Fails closed on any parse error (safe default = DM role-auth off).
- DEFAULT_CONFIG['discord'] gains dm_role_auth_guild: '' with a comment
documenting the opt-in.
- Tests patch hermes_cli.config.read_raw_config directly (via the
_set_dm_role_auth_guild helper) instead of setenv/delenv. 12 tests
in test_discord_roles_dm_scope pass; no env var involvement.
- Docstring + module docstring + comments updated to reference
discord.dm_role_auth_guild.
- E2E verified with real imports across 6 scenarios: unset, int,
string, garbage, zero, and (crucially) env-var-only-no-config all
return None except the valid int/string cases. Env var has zero
effect — policy compliance confirmed.
Lists the skills sitting in ~/.hermes/skills/.archive/ so users have
something to pass to `hermes curator restore`. `curator status` already
shows counts; this fills the name-discovery gap.
Archive layout is flat (`archive_skill` writes to `.archive/<skill>/`),
so the directory name IS the skill name — no frontmatter parsing
needed. Timestamped collision directories (`<skill>-<ts>`) are listed
literally; user can still pass them to `restore`.
Reshape of @EvilDrag0n's #20651, simplified: drop the frontmatter
rglob + preamble/trailer output + duplicate subcommand registration.
Co-authored-by: EvilDrag0n <lxl694522264@gmail.com>
Enables plugins to transform LLM output text after generation,
useful for vocabulary/personality transformation without burning
inference tokens.
Follows same pattern as transform_tool_result and transform_terminal_output:
- First non-empty string result wins
- Fail-open: exceptions logged as warnings, agent continues
- Signature: (response_text, session_id, model, platform)
Add a new `hermes gateway list` subcommand that shows the running
status of gateways across all profiles in a single view:
Gateways:
✓ default (current) — PID 155469
✓ wx1 — PID 166893
✗ dev — not running
Also includes `_print_other_profiles_gateway_status()` which appends
an "Other profiles" section to `hermes gateway status` output when
other profile gateways are running.
Both use existing `list_profiles()` and `find_profile_gateway_processes()`
— no new dependencies.
Closes#19127
Related: #19113, #4402, #4587
When multiple custom_providers share the same base_url but have different API keys,
get_custom_provider_pool_key() always returned the first match, causing wrong-key
unauthorized errors. Add provider_name parameter to prefer exact name matches
over base_url-only matching, with fallback for backward compatibility.
Fixes#19083
When a kanban worker subprocess exits rc=0 but its task is still in
status='running', the agent almost certainly answered the task
conversationally without calling kanban_complete or kanban_block. The
dispatcher used to classify this as a generic crash and respawn, which
loops forever on small local models (gemma4-e2b q4 etc.) that keep
returning clean but unproductive output.
Dispatcher changes:
- The waitpid reap loop at the top of dispatch_once now records each
reaped child's raw exit status in a bounded module registry
(_recent_worker_exits, TTL 600s, size cap 4096).
- _classify_worker_exit distinguishes clean_exit / nonzero_exit /
signaled / unknown using os.WIFEXITED / WIFSIGNALED.
- detect_crashed_workers consults the classification when a worker
is found dead. clean_exit → protocol_violation event + immediate
circuit-breaker trip (failure_limit=1). Everything else keeps the
existing crashed-event + counter behavior.
- DispatchResult.auto_blocked now includes protocol-violation trips.
Gateway fix (Bug A in #20894):
- gateway.run._notify_active_sessions_of_shutdown snapshots
self.adapters with list(...) before iterating. adapter.send() can
hit a fatal-error path that pops the adapter from the dict, which
was raising 'RuntimeError: dictionary changed size during iteration'
during shutdown.
Regression tests:
- test_detect_crashed_workers_protocol_violation_auto_blocks verifies
rc=0 + still-running → status=blocked on first occurrence with
protocol_violation + gave_up events and NO crashed event.
- test_detect_crashed_workers_nonzero_exit_uses_default_limit verifies
non-zero exits keep the existing 2-strike behavior.
Closes#20894.
custom_providers entries (section 4 of list_authenticated_providers) only
read the static models: dict from config.yaml, ignoring the live /v1/models
endpoint. This means gateways like Bifrost that expose hundreds of models
only show the handful explicitly listed in config.
Add live discovery via fetch_api_models() for custom_providers entries
that have api_key + base_url, matching the existing behavior for user
providers: entries (section 3). When the endpoint is reachable and
returns models, the live list replaces the static subset.
Fixes: /model picker showing only 9 models from a Bifrost gateway that
actually exposes 581.
The --command flag of `hermes mcp add` shared its argparse dest with the
top-level subparser (`dest="command"` in `hermes_cli/_parser.py`). When
the flag was omitted, argparse still wrote `args.command = None`,
clobbering the top-level value of `"mcp"`. The dispatcher then saw
`args.command is None` and fell through to interactive chat, so
`hermes mcp add ...` silently launched chat instead of registering the
server. `cmd_mcp_add` was never reached.
Use `dest="mcp_command"` on the flag and read it from `cmd_mcp_add`.
The user-facing CLI flag `--command` is unchanged; only the in-memory
namespace attribute moves. Also updates the `_make_args` helper in
`tests/hermes_cli/test_mcp_config.py` to populate the new dest, and
adds `tests/hermes_cli/test_mcp_add_command_dest.py` with a parser-
level regression test.
Closes#19785.
Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
`_save_auth_store`, `_save_qwen_cli_tokens`, and `_write_shared_nous_state`
all created the temp file via `Path.open('w')` / `Path.write_text` and only
tightened permissions to 0o600 afterward. Between create and chmod the file
existed at the process umask (commonly 0o644 = world-readable on multi-user
hosts), briefly exposing OAuth access/refresh tokens for Nous, Codex,
Copilot, Claude, Qwen, Gemini, and every other native OAuth provider that
flows through auth.json.
Switch all three to `os.open(O_WRONLY|O_CREAT|O_EXCL, 0o600)` + `os.fdopen`
+ `fsync` so the file is atomic at 0o600 on creation. Tighten each parent
directory (`~/.hermes/`, Qwen auth dir, Nous shared auth dir) to 0o700 so
siblings can't traverse to the creds. `_save_auth_store` also gains a
per-process random temp suffix to match `agent/google_oauth.py` (#19673)
and `tools/mcp_oauth.py` (#21148).
Adds `tests/hermes_cli/test_auth_toctou_file_modes.py` asserting final
file mode 0o600 and parent dir mode 0o700 across all three writers, plus
an explicit `os.open(flags, mode)` check on the main auth.json writer
that would fail if anyone reintroduces the `Path.open('w')` pattern.
POSIX-only (mode bits skipped on Windows).
Flip the default for HERMES_REDACT_SECRETS from off to on so the redactor
already wired into send_message_tool, logs, and tool output actually runs
on a fresh install.
- agent/redact.py: env-var default "" → "true"
- hermes_cli/config.py: DEFAULT_CONFIG security.redact_secrets True;
two config-template comments rewritten
- gateway/run.py + cli.py: startup log / banner warning when the user
has explicitly opted out, so the downgrade is visible in agent.log
and at CLI banner time
- docs/reference/environment-variables.md: description reconciled
- tests: flipped the default-pin, restructured the force=True
regression test to explicit-false instead of unset
Users who need raw credential values (redactor development) can still
opt out via security.redact_secrets: false in config.yaml or
HERMES_REDACT_SECRETS=false in .env.
Closes#17691.
Addresses #20785 (short-term output-pipeline recommendation).
Widen PR #20314's fix to the other timeout-polling sites in the codebase
that share the same wall-clock-jump bug class. All of these measure elapsed
timeout duration, not civil time, so they belong on time.monotonic().
- hermes_cli/auth.py: auth-store file-lock timeout, Spotify OAuth callback
wait, Nous portal device-auth token poll.
- hermes_cli/copilot_auth.py: Copilot OAuth device-flow token poll.
- hermes_cli/gateway.py: gateway systemd restart wait.
- hermes_cli/web_server.py: dashboard Codex device-auth user_code wait,
dashboard Nous device-auth token poll. (sess["expires_at"] stays on
time.time() — it's a persisted absolute timestamp, not a local
deadline-polling variable.)
- agent/copilot_acp_client.py: Copilot ACP JSON-RPC request timeout.
Extract the shared flock/msvcrt boilerplate from _auth_store_lock and
_nous_shared_store_lock into a single _file_lock(lock_path, holder,
timeout, message) helper. Each caller keeps its own threading.local
holder so reentrancy state stays per-lock.
Also document the lock-ordering invariant on both wrappers:
_auth_store_lock is OUTER, _nous_shared_store_lock is INNER for all
runtime refresh paths. The one exception is _try_import_shared_nous_state,
which holds the shared lock alone across the full HTTP refresh+mint
cycle to prevent concurrent sibling imports from racing on the single-
use shared refresh token; that helper must not be called with the auth
lock already held.
The gateway-embedded dispatcher (default since `kanban.dispatch_in_gateway
= true`) is the parent of every spawned kanban worker. `_default_spawn`
calls `subprocess.Popen(..., start_new_session=True)` and returns the
pid — `start_new_session` detaches the controlling tty but does not
reparent to init, so the gateway keeps each worker as a child until it
`wait()`s for them.
Nothing in the dispatch loop ever calls `waitpid`. Result: every
completed worker becomes a `<defunct>` zombie that lingers until the
gateway exits. We hit ~430 zombies on a single hermes-agent container
after ~40 days of steady kanban traffic, approaching process-table
exhaustion on the host.
Fix: add a non-blocking reap loop at the top of `dispatch_once`, so
every dispatcher tick (default 60s) drains zombies that accumulated
since the last tick. WNOHANG keeps the call non-blocking; ChildProcessError
means no children to reap.
Why here, not a SIGCHLD handler:
- signal.signal requires the main thread; gateway threading model makes
that placement non-trivial.
- Bounded staleness: at default interval=60s the maximum live zombie
count is one tick's worth of worker completions.
- No interaction with detect_crashed_workers: that function only inspects
rows where status='running', and rows reach 'done' (and stop being
inspected) before their workers exit.
Adds `hermes profile create <name> --no-skills` to create a profile with
zero bundled skills. Writes a `.no-bundled-skills` marker file in the
profile root so `hermes update`'s all-profile skill sync loop also skips
the profile — without the marker, every update would re-seed skills and
the user would have to delete them again.
Use case (from @hiut1u): orchestrator profiles and narrow-task profiles
don't need 100+ bundled skills polluting their system prompt.
- create_profile() gains a `no_skills` param, mutually exclusive with
`--clone` / `--clone-all` (cloning explicitly copies skills).
- seed_profile_skills() no-ops on opted-out profiles and returns
`{skipped_opt_out: True}` so callers can report cleanly.
- Web API (POST /api/profiles) accepts `no_skills: bool`.
- Delete `.no-bundled-skills` to opt back in — next `hermes update`
re-seeds normally.
6 new tests in TestNoSkillsOptOut cover marker write, mutual exclusion
with clone, seed_profile_skills opt-out, fresh profile unaffected, and
delete-marker-re-enables-seeding.
The setup wizard dropped non-root users at a bare shell prompt when
trying to start a system-scope gateway service. Previously
_require_root_for_system_service called sys.exit(1), which the
wizard's `except Exception` guards cannot catch (SystemExit is a
BaseException). Users with a pre-existing /etc/systemd/system unit
(e.g. from an earlier `sudo hermes setup` run) hit this whenever
they re-ran `hermes setup` as a regular user.
- Convert _require_root_for_system_service to raise a typed
SystemScopeRequiresRootError (RuntimeError subclass) instead of
sys.exit(1). The direct CLI path (`hermes gateway install|start|stop|
restart|uninstall` without sudo) still exits 1 cleanly via a new
catch at the top of gateway_command, matching the existing
UserSystemdUnavailableError pattern.
- Add _system_scope_wizard_would_need_root() pre-check and
_print_system_scope_remediation() helper. Both setup wizards
(hermes_cli/setup.py and hermes_cli/gateway.py::gateway_setup) now
detect the dead-end before prompting and print actionable guidance:
either `sudo systemctl start <service>` this time, or uninstall the
system unit and install a per-user one.
- Defense-in-depth: all 5 wizard prompt sites also catch
SystemScopeRequiresRootError and fall back to the remediation
helper if the pre-check is bypassed (race, etc.).
Tests: 12 new tests in TestSystemScopeRequiresRootError,
TestSystemScopeWizardPreCheck, TestSystemScopeRemediationOutput, and
TestGatewayCommandCatchesSystemScopeError covering the exception
contract, pre-check matrix (root vs non-root, system-only vs
user-present vs none vs explicit system=True), remediation output
for each action, and the direct-CLI exit-1 path.
* fix(tui): restore classic CLI voice push-to-talk parity
(cherry picked from commit 93b9ae301bb89f5b5e01b4b9f8ac91ffa74fbd9d)
* fix(tui): harden voice push-to-talk stop flow
Address review feedback from PR #16189 by stopping the active recorder before background transcription, documenting single-shot voice capture, and covering the TUI gateway flags with regression tests.
* fix(tui): preserve silent voice strike tracking
Keep single-shot voice recording's no-speech counter alive across starts so the TUI can still emit the three-strikes auto-disable event, and bind the auto-restart state at module scope for type checking.
* fix(tui): clean up voice stop failure path
Address follow-up review by naming the TUI flow as single-shot push-to-talk and cancelling the recorder when forced stop cannot produce a WAV.
* fix(tui): report busy voice capture starts
Return explicit start state from the voice wrapper so the TUI gateway does not report recording while forced-stop transcription is still cleaning up.
* fix(tui): handle busy voice record responses
Apply the gateway busy status immediately in the TUI and route forced-stop voice events to the session that sent the stop request.
* fix(tui): clear voice recording on null response
Treat a null voice.record RPC result as a failed optimistic start so the REC badge cannot stick after gateway-side errors.
* fix(tui): count silent manual voice stops
Preserve single-shot voice no-speech strikes through forced stop transcription so empty push-to-talk captures still trigger the three-strikes guard.
---------
Co-authored-by: Montbra <montbra@gmail.com>
Profile processes (kanban workers, cron subprocesses, delegated subagents)
read the profile's auth.json only. If a provider was authenticated at the
global root but not inside the profile, the profile's credential_pool
comes back empty and the process fails with 'No LLM provider configured'
— even though the credentials are sitting in ~/.hermes/auth.json. #18594
propagated HERMES_HOME correctly, which is what surfaced this: workers
now land in the right profile, and the profile turns out to shadow global
with no fallback.
Semantics (read-only, per-provider shadowing):
* Profile has any entries for provider X → use profile only (global ignored).
* Profile has zero entries for provider X → fall back to global.
* Writes (write_credential_pool, _save_auth_store) still target the profile.
* Classic mode (HERMES_HOME == global root) skips the fallback entirely —
_global_auth_file_path() returns None.
Also mirrors the fallback in get_provider_auth_state so OAuth singletons
(nous, minimax-oauth, openai-codex, spotify) inherit cleanly — the Nous
shared-token store (PR #19712) remains the authoritative path for Nous
OAuth rotation, this just makes the read side consistent with it.
Seat belt: _load_global_auth_store() refuses to read the real user's
~/.hermes/auth.json under PYTEST_CURRENT_TEST even when HERMES_HOME points
to a profile-shaped path. Guard uses $HOME (stable across fixtures) rather
than Path.home() (which fixtures often monkeypatch to a tmp root).
Reported by @SeedsForbidden on Twitter as the credential_pool shadowing
follow-up to the #18594 fix.
- Expand migration comment to name the primary failure mode (missing
column OperationalError from #20842) ahead of the secondary SQLite
schema-reparse concern; also document the stale-cols-snapshot invariant
- Add clarifying comments on from_row() legacy fallback branches noting
they are belt-and-suspenders dead code post-migration
- Add task_events comment in existing test explaining why the table is
required by the migrator
- Add test_legacy_migration_no_legacy_columns_at_all: Scenario A —
explicitly asserts the exact #20842 crash no longer occurs and that
consecutive_failures defaults to 0 on a DB that never had spawn_failures
- Add test_legacy_migration_both_columns_already_present: Scenario D —
asserts the migration is a no-op when both columns already exist,
preserving the existing counter value
Adds SearXNG as a free, self-hosted web search provider. SearXNG is a
privacy-respecting metasearch engine that requires no API key — just a
running instance and SEARXNG_URL pointing at it.
## What this adds
- `tools/web_providers/searxng.py` — `SearXNGSearchProvider` implementing
`WebSearchProvider` (search only; no extract capability)
- `_is_backend_available("searxng")` — gates on SEARXNG_URL
- `_get_backend()` — accepts "searxng" as a configured value; adds it to
auto-detect candidates (lower priority than paid services)
- `web_search_tool` — dispatches to SearXNG when it is the active backend
- `check_web_api_key()` — includes SearXNG in availability check
- `OPTIONAL_ENV_VARS["SEARXNG_URL"]` — registered with tools=["web_search"]
- `tools_config.py` — SearXNG appears in the `hermes tools` provider picker
- `nous_subscription.py` — `direct_searxng` detection, web_active / web_available
- `setup.py` — SEARXNG_URL listed in the missing-credential hint
- 23 tests covering: is_configured, happy-path search, score sorting, limit,
HTTP/request errors, _is_backend_available, _get_backend, check_web_api_key
## Config
```yaml
# Use SearXNG for search, any paid provider for extract
web:
search_backend: "searxng"
extract_backend: "firecrawl"
# Or: SearXNG as the sole backend (web_extract will use the next available)
web:
backend: "searxng"
```
SearXNG is search-only — it does not implement WebExtractProvider. Users
who only configure SEARXNG_URL get web_search available; web_extract falls
back to the next available extract provider (or is unavailable if none).
Closes#19198 (Phase 2 Task 4 — SearXNG provider)
Ref: #11562 (original SearXNG PR)
Introduce the foundation for independently selecting web search and
extract backends — enabling future combinations like SearXNG for
search + Firecrawl for extract.
Architecture:
- tools/web_providers/base.py: WebSearchProvider and WebExtractProvider
ABCs with normalized result contracts (mirrors CloudBrowserProvider)
- tools/web_tools.py: _get_search_backend() and _get_extract_backend()
read per-capability config keys, fall through to shared web.backend
- hermes_cli/config.py: web.search_backend and web.extract_backend in
DEFAULT_CONFIG (empty = inherit from web.backend)
Behavioral change:
- web_search_tool() now dispatches via _get_search_backend()
- web_extract_tool() now dispatches via _get_extract_backend()
- When per-capability keys are empty (default), behavior is identical
to before — _get_search_backend() falls through to _get_backend()
This is purely structural — no new backends are added. SearXNG and
other search-only/extract-only providers can now be added as simple
drop-in modules in follow-up PRs.
12 new tests, 49 existing tests pass with zero regressions.
Ref: #19198
Same Hermes Teal palette as the default theme, but with baseSize 18px,
lineHeight 1.65, and spacious density so the whole dashboard scales up.
Gives users a one-click bigger-text preset and a copyable reference for
authoring custom YAML themes with their own typography settings.
OpenCode Go and OpenCode Zen are flat-namespace model resellers — their
/v1/models returns bare IDs (deepseek-v4-flash, minimax-m2.7), and the
inference API rejects vendor-prefixed names with HTTP 401 'Model not
supported'. Two bugs fixed:
1. `switch_model` in hermes_cli/model_switch.py was silently switching the
user off opencode-go to native deepseek when they typed
`/model deepseek-v4-flash`. Step d found the model in opencode-go's live
catalog, but step e (detect_provider_for_model) still ran and matched
the bare name against deepseek's static catalog. Fix: track whether
the live catalog resolved it; skip step e when it did.
2. `normalize_model_for_provider` in hermes_cli/model_normalize.py only
stripped the exact `opencode-zen/` prefix, leaving arbitrary vendor
prefixes like `minimax/minimax-m2.7` (commonly copied from aggregator
slugs into fallback_model configs) intact — causing HTTP 401s when
the fallback chain activated. Fix: opencode-go/opencode-zen strip ANY
leading vendor prefix because their APIs are flat-namespace.
Tests: 11 new cases in tests/hermes_cli/test_opencode_go_flat_namespace.py
covering both normalization (prefix stripping, regression guards for
opencode-zen Claude hyphenation and openrouter vendor-prepending) and
switch_model (bare-name resolution on opencode-go's live catalog must
not trigger cross-provider hijack).
Reported by @Ufonik via Discord; Kimi K2.6 always worked because moonshotai
has no overlapping entry in a native provider's static catalog. Deepseek
and minimax failed because their v4/v2.7 names existed in the native
deepseek/minimax catalogs.
* feat(skills/linear): add Documents support + Python helper script
The bundled Linear skill (PR #1230) covered issues, projects, teams, and
workflow states via curl. It had no coverage for Linear's Documents API,
so fetching an RFC/doc from a linear.app URL required hand-writing
GraphQL against an underdocumented schema.
Adds:
- Documents section in SKILL.md explaining slugId extraction from URLs,
the contentState (markdown) vs contentState (ProseMirror) split, and
four canonical curl examples (fetch by slugId, fetch by UUID, list
recent, title-search).
- scripts/linear_api.py — stdlib-only Python CLI wrapping the most
common operations (whoami, list-teams, list/get/search/create/update
issues, add-comment, update-status, list/get/search documents, raw
GraphQL passthrough). Zero deps, reads LINEAR_API_KEY from env.
Auth header quirk (personal key takes bare $LINEAR_API_KEY, no Bearer
prefix) is already documented in the skill.
Found during RFC review: the existing skill's lack of document support
forced falling back to the browser (which hit Linear's login wall).
Also fixes a schema gotcha — the Document field is `contentState`, not
`contentData` (which returns 400).
Tested end-to-end against the production API:
python3 linear_api.py whoami
python3 linear_api.py get-document 38359beef67c
Both return expected payloads.
* fix(skills/linear): point LINEAR_API_KEY setup to the correct page
The org-level Settings > API page (/settings/api) only shows OAuth apps
and workspace-member keys. Personal API keys live under Account,
Security, access (/settings/account/security). Update both the setup
link in config.py (shown during hermes setup) and the setup step in
SKILL.md so users land on the page that can create a personal key.
* docs(providers): add model-provider-plugin authoring guide + fix stale refs
New docs:
- website/docs/developer-guide/model-provider-plugin.md — full authoring
guide (directory layout, minimal example, ProviderProfile fields,
overridable hooks, user overrides, api_mode selection, auth types,
testing, pip distribution)
- Wired into website/sidebars.ts under 'Extending'
- Cross-references added in:
- guides/build-a-hermes-plugin.md (tip block)
- developer-guide/adding-providers.md
- developer-guide/provider-runtime.md
User guide:
- user-guide/features/plugins.md: Plugin types table grows from 3 to 4
with 'Model providers' row
Stale comment cleanup (providers/*.py → plugins/model-providers/<name>/):
- hermes_cli/main.py:_is_profile_api_key_provider docstring
- hermes_cli/doctor.py:_build_apikey_providers_list docstring
- hermes_cli/auth.py: PROVIDER_REGISTRY + alias auto-extension comments
- hermes_cli/models.py: CANONICAL_PROVIDERS auto-extension comment
AGENTS.md:
- Project-structure tree: added plugins/model-providers/ row
- New section: 'Model-provider plugins' explaining discovery, override
semantics, PluginManager integration, kind auto-coerce heuristic
Verified: docusaurus build succeeds, new page renders, all 3 cross-links
resolve. 347/347 targeted tests pass (tests/providers/,
tests/hermes_cli/test_plugins.py, tests/hermes_cli/test_runtime_provider_resolution.py,
tests/run_agent/test_provider_parity.py).
* docs(plugins): add 'pluggable interfaces at a glance' maps to plugins.md + build-a-hermes-plugin
Devs landing on either the user-guide plugin page or the build-a-plugin
guide now get an upfront table of every distinct pluggable surface with
a link to the right authoring doc. Previously they'd have to read the
full general-plugin guide to discover that model providers / platforms
/ memory / context engines are separate systems.
user-guide/features/plugins.md:
- New 'Pluggable interfaces — where to go for each' section below the
existing 4-kinds table
- 10 rows covering every register_* surface (tool, hook, slash command,
CLI subcommand, skill, model provider, platform, memory, context
engine, image-gen)
- Explicit note: TTS/STT are NOT plugin-extensible yet — documented
with a pointer to the current config.yaml 'command providers' pattern
and a note that register_tts_provider()/register_stt_provider() may
come later
guides/build-a-hermes-plugin.md:
- New :::info 'Not sure which guide you need?' map at the top so devs
see all pluggable interfaces before investing in this 737-line
general-plugin walkthrough
- Existing bottom :::tip expanded to include platform adapters alongside
model/memory/context plugins
Verified:
- All 8 cross-doc links in the new plugins.md table resolve in a
docusaurus build (SUCCESS, no new broken links)
- TTS link corrected (features/voice → features/tts; latter exists)
- Pre-existing broken links/anchors (cron-script-only, llms.txt,
adding-platform-adapters#step-by-step-checklist) are unchanged
* docs(plugins): correct TTS/STT pluggability \u2014 they ARE plugins (command-providers)
Previous commit incorrectly said TTS/STT 'aren't plugin-extensible'. They
are, via the config-driven command-provider pattern \u2014 any CLI that reads
text and writes audio (or vice versa for STT) is automatically a plugin
with zero Python. The tts.md docs cover this extensively and I missed it.
plugins.md:
- TTS row: 'Config-driven (not a Python plugin)', points at
tts.md#custom-command-providers
- STT row: points at tts.md#voice-message-transcription-stt (STT docs
live in tts.md despite the filename)
- Expanded note: TTS/STT use config-driven shell-command templates as
their plugin surface (full tts.providers.<name> registry for TTS;
HERMES_LOCAL_STT_COMMAND escape hatch for STT)
- Any CLI that reads/writes files is automatically a plugin \u2014 no Python
register_* API needed
- Future register_tts_provider()/register_stt_provider() hooks mentioned
as nice-to-have for SDK/streaming cases, not as the primary story
build-a-hermes-plugin.md:
- Same map update: TTS/STT rows explicit, footer note corrected
Verified:
- tts.md anchors (custom-command-providers, voice-message-transcription-stt)
exist and resolve in docusaurus build (SUCCESS, no new broken links)
* docs(plugins): expand pluggable interfaces table with MCP / event hooks / shell hooks / skill taps
Broadened the scope beyond Python register_* hooks. Hermes has MULTIPLE
plugin-style extension surfaces; they're now all in one table instead of
being scattered across feature docs.
Added rows for:
- **MCP servers** — config.yaml mcp_servers.<name> auto-registers external
tools from any MCP server. Huge extensibility surface, previously not
linked from the plugin map.
- **Gateway event hooks** — drop HOOK.yaml + handler.py into
~/.hermes/hooks/<name>/ to fire on gateway:startup, session:*, agent:*,
command:* events. Separate from Python plugin hooks.
- **Shell hooks** — hooks: block in config.yaml runs shell commands on
events (notifications, auditing, etc.).
- **Skill sources (taps)** — hermes skills tap add <repo> to pull in new
skill registries beyond the built-in sources.
Both docs updated:
- user-guide/features/plugins.md: table column renamed to 'How' (mixes
Python API + config-driven + drop-in-dir surfaces accurately)
- guides/build-a-hermes-plugin.md: :::info map at top mirrors the new
surfaces with a forward-link to the consolidated table
Note block rewritten: instead of singling out TTS/STT as the 'different
style' exception, now honestly describes that Hermes deliberately
supports three plugin styles — Python APIs, config-driven commands, and
drop-in manifest directories — and devs should pick the one that fits
their integration.
Not included (considered and rejected):
- Transport layer (register_transport) — internal, not user-facing
- Tool-call parsers — internal, VLLM phase-2 thing
- Cloud browser providers — hardcoded registry, not drop-in yet
- Terminal backends — hardcoded if/elif, not drop-in yet
- Skill sources (the ABC) — hardcoded list, only taps are user-extensible
Verified:
- All 5 new anchors resolve (gateway-event-hooks, shell-hooks, skills-hub,
custom-command-providers, voice-message-transcription-stt)
- Docusaurus build SUCCESS, zero new broken links
- Same 3 pre-existing broken links on main (cron-script-only, llms.txt,
adding-platform-adapters#step-by-step-checklist)
* docs(plugins): cover every pluggable surface in both the overview and how-to
Both plugins.md and build-a-hermes-plugin.md now cover every extension
surface end-to-end \u2014 general plugin APIs, specialized plugin types,
config-driven surfaces \u2014 with concrete authoring patterns for each.
plugins.md:
- 'What plugins can do' table grows from 9 rows (general ctx.register_*
only) to 14 rows covering register_platform, register_image_gen_provider,
register_context_engine, MemoryProvider subclass, register_provider
(model). Each row links to its full authoring guide.
- New 'Plugin sub-categories' section under Plugin Discovery explains
how plugins/platforms/, plugins/image_gen/, plugins/memory/,
plugins/context_engine/, plugins/model-providers/ are routed to
different loaders \u2014 PluginManager vs the per-category own-loader
systems.
- Explicit mention of user-override semantics at
~/.hermes/plugins/model-providers/ and ~/.hermes/plugins/memory/.
build-a-hermes-plugin.md:
- New '## Specialized plugin types' section (5 sub-sections):
- Model provider plugins \u2014 ProviderProfile + plugin.yaml example,
auto-wiring summary, link to full guide
- Platform plugins \u2014 BasePlatformAdapter + register_platform() skeleton
- Memory provider plugins \u2014 MemoryProvider subclass example
- Context engine plugins \u2014 ContextEngine subclass example
- Image-generation backends \u2014 ImageGenProvider + kind: backend example
- New '## Non-Python extension surfaces' section (5 sub-sections):
- MCP servers \u2014 config.yaml mcp_servers.<name> example
- Gateway event hooks \u2014 HOOK.yaml + handler.py example
- Shell hooks \u2014 hooks: block in config.yaml example
- Skill sources (taps) \u2014 hermes skills tap add example
- TTS / STT command templates \u2014 tts.providers.<name> with type: command
- Distribute via pip / NixOS promoted from ### to ## (they were orphaned
after the reorganization)
Each specialized / non-Python section has a concrete, copy-pasteable
example plus a 'Full guide:' link to the authoritative doc. Devs arriving
at the build-a-hermes-plugin guide now see every extension surface at
their disposal, not just the general tool/hook/slash-command surface.
Verified:
- Docusaurus build SUCCESS, zero new broken links
- All new cross-links (developer-guide/model-provider-plugin,
adding-platform-adapters, memory-provider-plugin, context-engine-plugin,
user-guide/features/mcp, skills#skills-hub, hooks#gateway-event-hooks,
hooks#shell-hooks, tts#custom-command-providers,
tts#voice-message-transcription-stt) resolve
- Same 3 pre-existing broken links on main (cron-script-only, llms.txt,
adding-platform-adapters#step-by-step-checklist)
* docs(plugins): fix opt-in inconsistency — not every plugin is gated
The 'Every plugin is disabled by default' statement was wrong. Several
plugin categories intentionally bypass plugins.enabled:
- Bundled platform plugins (IRC, Teams) auto-load so shipped gateway
channels are available out of the box. Activation per channel is via
gateway.platforms.<name>.enabled.
- Bundled backends (plugins/image_gen/*) auto-load so the default
backend 'just works'. Selection via <category>.provider config.
- Memory providers are all discovered; one is active via memory.provider.
- Context engines are all discovered; one is active via context.engine.
- Model providers: all 33 discovered at first get_provider_profile();
user picks via --provider / config.
The plugins.enabled allow-list specifically gates:
- Standalone plugins (general tools/hooks/slash commands)
- User-installed backends
- User-installed platforms (third-party gateway adapters)
- Pip entry-point backends
Which matches the actual code in hermes_cli/plugins.py:737 where the
bundled+backend/platform check bypasses the allow-list.
Rewrote '## Plugins are opt-in' to:
- Retitle to 'Plugins are opt-in (with a few exceptions)'
- Narrow opening claim to 'General plugins and user-installed backends
are disabled by default'
- Added 'What the allow-list does NOT gate' subsection with a full
table of which bypass the gate and how they're activated instead
- Fixed migration section wording (bundled platform/backend plugins
never needed grandfathering)
Verified: docusaurus build SUCCESS, zero new broken links.
Replaces the per-directory shadow-repo design with a single shared shadow
git store at ~/.hermes/checkpoints/store/. Object DB is now deduplicated
across every working directory the agent has ever touched; a dozen
worktrees of the same project cost near-zero in additional disk.
Why
---
Pre-v2 design had three compounding problems that let ~/.hermes/checkpoints/
grow to multi-GB on active machines:
1. Each working directory got its own full shadow git repo — no object
dedup across projects or across worktrees of the same project.
2. _prune() was a documented no-op: max_snapshots only limited the
/rollback listing. Loose objects accumulated forever.
3. Defaults: enabled=True, auto_prune=False — users paid the disk cost
without ever asking for /rollback.
Field report on a single workstation: 847 MB across 47 shadow repos,
mostly redundant clones of the hermes-agent source tree.
Changes
-------
- tools/checkpoint_manager.py: full rewrite. Single bare store, per-project
refs (refs/hermes/<hash>), per-project indexes (store/indexes/<hash>),
per-project metadata (store/projects/<hash>.json with workdir +
created_at + last_touch). On first v2 init, any pre-v2 per-directory
shadow repos are auto-migrated into legacy-<timestamp>/ so the new
store starts clean. _prune() now actually rewrites the per-project ref
to the last max_snapshots commits and runs git gc --prune=now. New
_enforce_size_cap() drops oldest commits round-robin across projects
when the store exceeds max_total_size_mb. _drop_oversize_from_index()
filters any single file larger than max_file_size_mb out of the snapshot.
- hermes_cli/checkpoints.py: new 'hermes checkpoints' CLI
(status / list / prune / clear / clear-legacy) for managing the store
outside a session.
- hermes_cli/config.py: flipped defaults — enabled=False, max_snapshots=20,
auto_prune=True. Added max_total_size_mb=500, max_file_size_mb=10.
Tightened DEFAULT_EXCLUDES (added target/, *.so/*.dylib/*.dll,
*.mp4/*.mov, *.zip/*.tar.gz, .worktrees/, .mypy_cache/, etc.).
- run_agent.py / cli.py / gateway/run.py: thread the new kwargs through
AIAgent and the startup auto_prune hooks.
- Tests rewritten to match v2 storage while keeping backwards-compat
coverage for the pre-v2 prune path (per-directory shadow repos under
base/ are still swept correctly for anyone mid-migration).
- Docs updated: user-guide/checkpoints-and-rollback.md explains the
shared store, new defaults, migration, and the new CLI;
reference/cli-commands.md documents 'hermes checkpoints'.
E2E validated
-------------
- Legacy migration: pre-v2 shadow repos auto-archived into legacy-<ts>/.
- Object dedup: two projects with an identical shared.py blob resolve to
7 total objects in the store (v1 would have stored the blob twice).
- max_snapshots=3 actually enforced: after 6 commits, list shows 3.
- Orphan prune: deleting a project's workdir + 'hermes checkpoints prune
--retention-days 0' removes its ref, index, and metadata; GC reclaims
the objects.
- max_file_size_mb=1 excludes a 2 MB weights.bin while keeping the
tracked source code files.
- hermes checkpoints {status,prune,clear,clear-legacy} all work from the
CLI without an agent running.
Breaking / migration
--------------------
No in-place data migration — legacy per-directory shadow repos are moved
into legacy-<timestamp>/ on first run. Old /rollback history is still
accessible by inspecting the archive with git; run
'hermes checkpoints clear-legacy' to reclaim the space when ready. Users
relying on /rollback must now set checkpoints.enabled=true (or pass
--checkpoints) explicitly.
On Termux/Android aarch64 (and other platforms without prebuilt wheels
for some optional extras), 'pip install -e .[all]' compiles C/Rust
extensions from source. This can run for several minutes with zero
network activity and — with --quiet — zero stdout. Users report
'hermes update hangs at Updating Python dependencies', Ctrl+C it, then
re-run and see 'up to date' (because git pull already succeeded and the
pip step was still working when they interrupted).
Pip's default output is proportional to actual work (one line per
Collecting / Building wheel for X / Installing), so removing --quiet
costs nothing on fast hardware and prevents the false-hang interrupt
loop on slow hardware.
Reported via Discord on Termux/Android. Supersedes #20466 which
misdiagnosed the hang as PYTHONPATH shadowing (install.sh doesn't run
during 'hermes update', and terminal() doesn't inherit PYTHONPATH).
Add Lightpanda as an optional browser engine for local mode.
Lightpanda is a headless browser built from scratch in Zig -- faster
navigation than Chrome with significantly less memory.
One config line to enable:
browser:
engine: lightpanda
New functions in browser_tool.py:
- _get_browser_engine() -- config/env reader with validation + caching
- _should_inject_engine() -- only inject in local non-cloud mode
- _needs_lightpanda_fallback() -- detect empty/failed LP results
- _chrome_fallback_screenshot() -- temporary Chrome session for screenshots
- Engine injection in _run_browser_command (--engine flag)
- browser_vision pre-routes screenshots to Chrome when engine=lightpanda
Config:
- browser.engine in DEFAULT_CONFIG (auto/lightpanda/chrome)
- AGENT_BROWSER_ENGINE in OPTIONAL_ENV_VARS
- /browser status shows engine info in local mode
Rebased from PR #7144 onto current main. All existing code preserved --
pure additions only (+520/-2).
25 new tests + 81 total browser tests pass (0 failures).
Endpoint validated over 6 conversational turns with tool calls (9 API
calls, 3 tool calls, 0 failures) and an 8-request burst (8/8 ok,
0 rate limits). Latency ~5-10s/call — slower than grok-4.20 but
expected for a reasoning model.
- hermes_cli/models.py: add to OPENROUTER_MODELS and _PROVIDER_MODELS['nous']
- website/static/api/model-catalog.json: regenerated
Endpoint re-tested over 6 conversational turns (9 API calls, 3 tool calls)
and an 8-request burst — no rate limits, no errors, ~2-3s latency. The
historical rate-limit issues that caused its removal are gone.
- hermes_cli/models.py: add to OPENROUTER_MODELS and _PROVIDER_MODELS['nous']
- website/static/api/model-catalog.json: regenerated via build_model_catalog.py
- hermes_cli/config.py: add tr to supported languages comment
- locales/en.yaml: add tr to locale file list comment
- tests/agent/test_i18n.py: add Turkish alias tests + explicit lang test
- website/docs/user-guide/configuration.md: add tr to supported values
The kanban-worker skill (built into the gateway dispatcher's spawn
prompt) instructs every worker to hand off via
``kanban_complete(summary=..., metadata=...)``. That writes the summary
onto the closing ``task_runs`` row, NOT onto ``tasks.result`` — the
latter is left NULL unless the caller passes ``result=`` explicitly.
Result: a glance at the dashboard or ``hermes kanban show <id>`` shows
a blank "Result:" section even when the worker did real work, which
on 2026-05-05 caused a Mac false-alarm ("Hermes did nothing") on a
task that had a 10-line completion summary on its run.
This patch surfaces the latest non-null run summary as
``latest_summary`` so the worker's actual handoff lands in front of
operators.
* New helpers ``kanban_db.latest_summary(conn, task_id)`` and
``kanban_db.latest_summaries(conn, task_ids)``. The batch variant
uses a single window-function SELECT so the dashboard board endpoint
doesn't pay an N+1 cost on multi-hundred-task boards.
* CLI ``hermes kanban show <id>`` prints a "Latest summary:" block
when ``tasks.result`` is empty but a run has produced a summary
(the existing "Result:" section still wins when populated, so the
back-compat path for hand-edited results is untouched). JSON output
gains a top-level ``latest_summary`` field.
* Dashboard ``/board`` and ``/tasks/{id}`` now include a
``latest_summary`` field on every task. Cards on /board carry a
200-character preview (cheap to render, plenty for "what did this
worker do?" at a glance); the drawer/detail endpoint returns the
full summary.
* Five new tests cover: empty-runs case, post-complete surface,
newest-of-multiple selection, empty-string skip, batch with
missing tasks + empty input.
Smoke-tested locally against the live profile DB on the three
acceptance-criterion targets (t_f08fef91 cron-hygiene-audit,
t_007b7f1c EMA-analysis, t_05746fa4 self-assessment) — all three now
return their populated summaries via both ``latest_summary`` and
``latest_summaries``.
Test plan: 255/255 kanban tests pass + 91/91 dashboard plugin tests
pass. No regression on tasks where ``tasks.result`` is explicitly
populated (the existing "Result:" branch is preserved).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Widens _verify_created_cards to also accept ids that are children of the
completing task in task_links. Previously we only accepted cards where
created_by matched the completing task's assignee, which was too strict
for legitimate orchestrator flows: a specifier creates a card (so
created_by=specifier, not worker), then a worker picks it up and passes
parents=[current_task] to kanban_create. The explicit link proves the
relationship and should be trusted.
Salvaged from #20022 @LeonSGP43 (full PR superseded by #20232 +
this patch; the linked-children relaxation was the portable
improvement).
The dispatcher's circuit breaker only protected against spawn-side
failures (profile missing, workspace mount error, exec failure).
Workers that successfully spawned but then timed out or crashed
re-queued to ``ready`` with no counter increment, so the next tick
re-spawned them — loops forever until someone noticed. Reported
externally on Twitter (Forbidden Seeds) and confirmed by walking the
kernel: ``enforce_max_runtime`` flipped the task back to ready, emitted
a ``timed_out`` event, and never touched ``spawn_failures``; same for
``detect_crashed_workers``.
Fix: unify the counter across all non-success outcomes.
Schema
------
* ``tasks.spawn_failures`` → ``tasks.consecutive_failures``
* ``tasks.last_spawn_error`` → ``tasks.last_failure_error``
* Migration renames the columns in-place on existing DBs (``ALTER
TABLE RENAME COLUMN`` — SQLite >= 3.25) so historical counter
values are preserved. Row mappers fall through to the legacy names
if both column renames and a migration somehow got out of sync.
Counter lifecycle
-----------------
New helper ``_record_task_failure(conn, task_id, error, *, outcome,
release_claim, end_run, event_payload_extra)`` is the single point
every non-success outcome funnels through:
* ``spawn_failed`` → ``_record_spawn_failure`` (kept as alias)
calls it with ``release_claim=True, end_run=True`` — transitions
running→ready, clears claim, closes run.
* ``timed_out`` → ``enforce_max_runtime`` already does the status
transition + run close + event emission, then calls
``_record_task_failure`` with ``release_claim=False, end_run=False``
just to bump the counter (and trip the breaker if needed).
* ``crashed`` → ``detect_crashed_workers`` same pattern, but the
counter increment runs after the main write_txn closes (SQLite
doesn't nest write transactions).
If the counter hits the breaker threshold (``DEFAULT_FAILURE_LIMIT=5``,
same as before), the task transitions to ``blocked`` with a ``gave_up``
event on top of whatever outcome-specific event was already emitted.
Reset semantics changed: the counter now clears only on successful
``complete_task`` (and operator ``reclaim_task`` — an explicit "I've
looked at this, try again with a fresh budget"). Previously
``_clear_spawn_failures`` ran on every successful spawn, which would
have wiped the counter before a timeout could accumulate past threshold
— exactly the loop this fix prevents.
Diagnostics
-----------
* ``_rule_repeated_spawn_failures`` → ``_rule_repeated_failures``. Now
fires regardless of which outcome is at fault. Classifies the most
recent failure (spawn_failed / timed_out / crashed) from the run
history so the title ("Agent timeout x3", "Agent crash x4", "Agent
spawn x5") and suggested action (``doctor`` for spawn, ``log`` for
timeout/crash) stay outcome-specific without N duplicate rules.
* ``_rule_repeated_crashes`` kept as a narrower early-warning at
threshold 2 (vs 3 for the unified rule), but now suppresses itself
when the unified rule would also fire — avoids double-flagging.
* Diagnostic ``data`` payload now carries
``{consecutive_failures, most_recent_outcome, last_error}`` instead
of spawn-specific keys.
CLI
---
* ``Task.consecutive_failures`` / ``Task.last_failure_error`` are the
public fields now. Existing callers that referenced the old names
get migrated (tests updated in this commit).
* Backward-compat: ``DEFAULT_SPAWN_FAILURE_LIMIT``,
``_clear_spawn_failures``, ``_record_spawn_failure`` stay as aliases.
Tests
-----
* 6 new kernel tests: timeout increments counter, 3 consecutive
timeouts trip the breaker (was the reported gap), crash increments
counter, reclaim clears counter, completion clears counter, spawn
success does NOT clear counter.
* Diagnostic tests: updated ``repeated_spawn_failures`` cases to use
the new kind name and add a timeout-loop test.
* Dashboard API test: spawn_failures column update → consecutive_failures.
389/389 kanban-suite tests pass.
Live verification
-----------------
Seeded 4 tasks in an isolated HERMES_HOME: 3 timeouts, 4 crashes,
2-spawn-failed + 2-timed-out, and a task that had prior failures but
completed successfully. Board correctly shows "!! 3 tasks need
attention" (the successful one has no badge because the counter
reset). Drawer for the timeout-loop task renders "Agent timeout x3"
with most_recent_outcome=timed_out and the "Check logs" suggested
action (not the spawn-flavoured "Verify profile"). The successful
task has zero diagnostics.
Closes the Forbidden-Seeds-reported gap.
AGENTS.md is the AI-assistant entry doc, so its counts get used as ground
truth. Several values had drifted, and the same drift had spread to a few
user-facing surfaces. Fixing all of them in one commit so the count claims
agree and clearly distinguish gateway-core from plugin-shipped platforms.
AGENTS.md:
- run_agent.py "~12k LOC" → "~14k LOC as of 2026-05-03" (actual 14,097)
- cli.py "~11k LOC" → "~12k LOC as of 2026-05-03" (actual 12,043)
- tools/environments/ list now lists all 7 user-selectable terminal backends
in canonical order, matching tools/terminal_tool.py:2214-2215
- gateway/platforms/ list adds yuanbao and wecom_callback; the 19 names
match the user-facing list at website/docs/integrations/index.md
- plugins/ tree now mentions plugins/platforms/ (irc, teams)
- tests/ snapshot "~15k tests across ~700 files as of Apr 2026" →
"~19k tests across ~890 files as of 2026-05-03"
User-facing count claims:
- hermes_cli/tips.py:195 — "19 platforms" → "21 messaging platforms" with
IRC and Microsoft Teams added to the named list
- website/docs/index.md:49 — "6 terminal backends" → "7 terminal backends:
..., Vercel Sandbox" (also corrected by PR #19044; same edit content)
- website/docs/index.md:50 — "15+ platforms from one gateway" → "21+ messaging
platforms (19 in the gateway, plus IRC and Microsoft Teams via plugins)"
- website/docs/integrations/index.md:83-85 — "15+ messaging platforms" → "19+",
added yuanbao to the linked list. The surrounding text scopes it to "configured
through the same gateway subsystem", so plugin platforms (IRC, Teams) are
intentionally not in this list
- website/scripts/generate-llms-txt.py:205 — "15+ platforms" → "21+ messaging
platforms — 19 native to the gateway plus IRC and Microsoft Teams via plugins"
LOC and date stamps follow the existing AGENTS.md "as of <date>" convention
(line 56 already used this pattern). Source of truth for the gateway count is
gateway/config.py:130-148 (PlatformID enum); plugin platforms live in
plugins/platforms/.
Out of scope:
- RELEASE_v0.9.0.md historical "16 platforms" claim (immutable history)
- userStories.json verbatim user quotes
- Programmatic count generation from gateway/config.py + plugin manifests
is a worthwhile build-system change but separate from these content fixes
* fix(tui): close slash parity gaps with CLI
Route unsupported /skills subcommands through slash.exec, support /new <name>
titles, and handle /redraw natively so TUI behavior matches classic CLI. Also
filter gateway-only commands out of the TUI catalog while keeping /status
discoverable.
* fix(tui): run remaining CLI parity paths natively
Forward chat launch flags into the TUI runtime and handle live-session status
and skill reloads in the gateway process so TUI state no longer depends on the
slash worker's stale CLI instance.
* fix(tui): block stale snapshot restores
Prevent snapshot restore from running through the isolated slash worker because
it mutates disk state without refreshing the live TUI agent.
* chore: uptick
* fix(tui): guard async session title updates
Handle failures from the fire-and-forget session.title RPC so title-setting errors do not surface as unhandled promise rejections while preserving session-scoped messaging.
Every provider profile is now a self-contained plugin under
plugins/model-providers/<name>/, mirroring the plugins/platforms/
pattern established for IRC and Teams. The ProviderProfile ABC
stays in providers/; the per-provider profile data moves out.
- plugins/model-providers/<name>/__init__.py calls register_provider()
- plugins/model-providers/<name>/plugin.yaml declares kind: model-provider
- providers/__init__.py._discover_providers() lazily scans bundled plugins
then $HERMES_HOME/plugins/model-providers/<name>/ (user override path)
- User plugins with the same name override bundled ones (last-writer-wins
in register_provider)
- Legacy providers/<name>.py layout still supported for back-compat with
out-of-tree editable installs
- Hermes PluginManager: new kind=model-provider; skipped like memory
plugins (providers/ discovery owns them); standalone plugins with
register_provider+ProviderProfile in their __init__.py auto-coerce to
this kind (same heuristic as memory providers)
- skip_names extended to include 'model-providers' so the general
PluginManager doesn't double-scan the category
- 4 new tests in tests/providers/test_plugin_discovery.py covering
bundled discovery, user override, and general-loader isolation
- Docs updated: website/docs/developer-guide/adding-providers.md,
provider-runtime.md, providers/README.md, plugins/model-providers/README.md
No API break: auth.py / config.py / doctor.py / models.py / runtime_provider.py /
model_metadata.py / auxiliary_client.py / chat_completions.py / run_agent.py
all still consume providers via get_provider_profile() / list_providers() —
they just now see plugin-discovered entries instead of pkgutil-iterated ones.
Third parties can now drop a single directory into
~/.hermes/plugins/model-providers/<name>/ to add or override an inference
provider without touching the repo.
Introduces providers/ package — single source of truth for every
inference provider. Adding a simple api-key provider now requires one
providers/<name>.py file with zero edits anywhere else.
What this PR ships:
- providers/ package (ProviderProfile ABC + 33 profiles across 4 api_modes)
- ProviderProfile declarative fields: name, api_mode, aliases, display_name,
env_vars, base_url, models_url, auth_type, fallback_models, hostname,
default_headers, fixed_temperature, default_max_tokens, default_aux_model
- 4 overridable hooks: prepare_messages, build_extra_body,
build_api_kwargs_extras, fetch_models
- chat_completions.build_kwargs: profile path via _build_kwargs_from_profile,
legacy flag path retained for lmstudio/tencent-tokenhub (which have
session-aware reasoning probing that doesn't map cleanly to hooks yet)
- run_agent.py: profile path for all registered providers; legacy path
variable scoping fixed (all flags defined before branching)
- Auto-wires: auth.PROVIDER_REGISTRY, models.CANONICAL_PROVIDERS,
doctor health checks, config.OPTIONAL_ENV_VARS, model_metadata._URL_TO_PROVIDER
- GeminiProfile: thinking_config translation (native + openai-compat nested)
- New tests/providers/ (79 tests covering profile declarations, transport
parity, hook overrides, e2e kwargs assembly)
Deltas vs original PR (salvaged onto current main):
- Added profiles: alibaba-coding-plan, azure-foundry, minimax-oauth
(were added to main since original PR)
- Skipped profiles: lmstudio, tencent-tokenhub stay on legacy path (their
reasoning_effort probing has no clean hook equivalent yet)
- Removed lmstudio alias from custom profile (it's a separate provider now)
- Skipped openrouter/custom from PROVIDER_REGISTRY auto-extension
(resolve_provider special-cases them; adding breaks runtime resolution)
- runtime_provider: profile.api_mode only as fallback when URL detection
finds nothing (was breaking minimax /v1 override)
- Preserved main's legacy-path improvements: deepseek reasoning_content
preserve, gemini Gemma skip, OpenRouter response caching, Anthropic 1M
beta recovery, etc.
- Kept agent/copilot_acp_client.py in place (rejected PR's relocation —
main has 7 fixes landed since; relocation would revert them)
- _API_KEY_PROVIDER_AUX_MODELS alias kept for backward compat with existing
test imports
Co-authored-by: kshitijk4poor <82637225+kshitijk4poor@users.noreply.github.com>
Closes#14418
* feat(kanban): generic diagnostics engine for task distress signals
Replaces the hallucination-specific ``warnings`` / ``RecoverySection``
surface (shipped in PR #20232) with a reusable diagnostic-rule engine
that covers five distress kinds in v1 and can be extended without
touching UI code. The "something's wrong with this task" signal is
no longer limited to phantom card ids.
Closes the follow-up from #20232 discussion.
New module
----------
``hermes_cli/kanban_diagnostics.py`` — stateless, no-side-effect rule
engine. Each rule is a pure function of
``(task, events, runs, now, config) -> list[Diagnostic]``. Registry
is a simple list; adding a new distress kind is one function + one
import, no UI or API changes required.
v1 rule set
-----------
* ``hallucinated_cards`` (error) — folds the existing
``completion_blocked_hallucination`` event into the new surface.
* ``prose_phantom_refs`` (warning) — folds
``suspected_hallucinated_references``.
* ``repeated_spawn_failures`` (error → critical at 2x threshold) —
fires when ``tasks.spawn_failures >= 3``; suggests
``hermes -p <profile> doctor`` / ``auth``.
* ``repeated_crashes`` (error → critical) — fires after N consecutive
``crashed`` run outcomes with no successful completion between;
suggests ``hermes kanban log <id>``.
* ``stuck_in_blocked`` (warning) — fires after 24h in ``blocked``
state with no comments / unblock attempts; suggests commenting.
Every diagnostic carries structured ``actions`` (reclaim, reassign,
unblock, cli_hint, comment, open_docs) that render consistently in
both CLI and dashboard. Suggested actions are highlighted; generic
recovery actions (reclaim / reassign) are available on every kind as
fallbacks.
Diagnostics auto-clear when the underlying failure resolves — a
clean ``completed``/``edited`` event drops hallucination diagnostics,
a successful run drops crash diagnostics, a comment drops
stuck-blocked diagnostics. Audit events persist; the badge goes away.
API
---
``plugin_api.py``:
* ``/board`` now attaches ``diagnostics`` (full list) and
``warnings`` (compact summary with ``highest_severity``) per task.
* ``/tasks/{id}`` attaches diagnostics so the drawer's Diagnostics
section auto-opens on flagged tasks.
* NEW ``/diagnostics`` endpoint — fleet-wide listing, filterable by
severity, sorted critical-first.
CLI
---
* NEW ``hermes kanban diagnostics [--severity X] [--task id]
[--json]`` — fleet view or single-task view, matches dashboard rule
output so CLI users see the same picture.
* ``hermes kanban show <id>`` now renders a Diagnostics section near
the top with severity markers + suggested actions.
Dashboard
---------
* Card badge is severity-coloured (⚠ amber warning, !! orange error,
!!! red critical) using ``warnings.highest_severity``.
* Attention strip above the toolbar counts EVERY task with active
diagnostics (not just hallucinations), severity-coloured, lists
affected tasks with Open buttons when expanded.
* Drawer's old ``RecoverySection`` replaced with generic
``DiagnosticsSection`` rendering a card per active diagnostic:
title + detail + structured data (task-id chips when payload keys
look like id lists) + action buttons. Reassign profile picker is
inline per-diagnostic. Clipboard fallback uses ``.catch()`` for
environments where writeText rejects.
* Three-rung severity palette; amber for warning, orange for error,
red for critical. Uses CSS variables so theming is straightforward.
Tests
-----
* NEW ``tests/hermes_cli/test_kanban_diagnostics.py`` — 14 unit tests
covering each rule's positive/negative/threshold paths, severity
sorting, broken-rule isolation, and sqlite3.Row integration.
* Dashboard plugin tests extended: ``/diagnostics`` endpoint (empty,
populated, severity-filtered), ``/board`` exposes both diagnostic
list and compact summary with ``highest_severity``.
* Existing hallucination-specific test (``test_board_surfaces_
warnings_field_for_hallucinated_completions``) updated to reflect
the new contract: warning summary keys by diagnostic kind
(``hallucinated_cards``) not event kind.
379 kanban-suite tests pass (+16 net from this PR).
Live verification
-----------------
Seeded all 5 diagnostic kinds + one clean + one plain-running task
(7 total) into an isolated HERMES_HOME, spun up the dashboard, and
verified:
* Attention strip: shows ``!! 5 tasks need attention`` in the
error-severity orange; Show expands to a list of 5 rows ordered
critical > error > warning.
* Card badges: error tasks render ``!!`` orange, warning tasks
render ``⚠`` amber, clean and plain-running tasks render no badge.
* Each of the 5 rules opens a correctly-coloured, correctly-styled
diagnostic card in the drawer with its specific suggested action.
* Live reassign from a diagnostic card flipped
``broken-ml-worker → alice`` and the drawer refreshed with the
new assignee + the same diagnostic still firing (correct:
spawn_failures counter hasn't reset yet).
* CLI ``hermes kanban diagnostics`` prints all 5 in severity order;
``--severity error`` narrows to 3; ``kanban show <id>`` includes
the Diagnostics block at the top with suggested action hint.
Migration note
--------------
The old ``warnings`` shape (``{count, kinds, latest_at}``) is
preserved on the API but ``kinds`` now keys by diagnostic kind
(``hallucinated_cards``) instead of event kind
(``completion_blocked_hallucination``). ``highest_severity`` is a
new required field. The dashboard was the only consumer and has
been updated in the same commit; external API consumers of the
``warnings`` field will need to update their kind-match logic.
* feat(kanban/diagnostics): lead titles with the actual error text
The generic 'Worker crashed N runs in a row' / 'Worker failed to spawn
N times' titles buried the actual cause in the data section. Operators
had to open logs or expand the diagnostic to see WHY the worker is
stuck — rate-limit vs insufficient quota vs bad auth vs context
overflow vs network blip all looked identical at a glance.
New titles:
Agent crashed 3x: openai: 429 Too Many Requests - rate limit reached
Agent crashed 3x: anthropic: 402 insufficient_quota - credit balance
Agent crashed 3x: provider auth error: 401 Unauthorized
Agent spawn failed 4x: insufficient_quota: You exceeded your current
Detail keeps the full error snippet (capped at 500 chars + ellipsis
for tracebacks). Title takes the first line capped at 160 chars.
Fallback title if no error recorded stays honest ('no error recorded').
Tests: 4 new cases covering 429/billing/spawn/truncation. 383 total
pass (+4).
Live-verified on dashboard with 6 seeded scenarios
(rate-limit, billing, auth, context, network, spawn-billing) —
each card title leads with the actionable error text.
The Telegram/Discord /model pickers currently call
list_authenticated_providers(), which returns every provider whose
credentials resolve locally and every model in its curated snapshot.
Two failure modes fall out:
- OpenRouter rows can include IDs the live catalog no longer carries.
- Provider rows can surface with zero callable models (e.g. a slug
whose credential pool entry exists but has nothing behind it).
list_picker_providers() wraps the base function and post-processes the
result so the interactive picker only shows models the user can
actually select:
- OpenRouter's models come from fetch_openrouter_models() (live-catalog
filtered against the curated OPENROUTER_MODELS snapshot).
- Rows with an empty models list are dropped, except custom endpoints
(is_user_defined=True with an api_url) where the user may enter
model ids manually.
- All other fields pass through unchanged.
The gateway /model handler switches to the new helper for the
interactive picker payload only. Typed /model <name> and the text
fallback list stay on list_authenticated_providers() so nothing is
hidden from power users or platforms without a picker.
Covered by nine focused unit tests in
tests/hermes_cli/test_list_picker_providers.py.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Workers completing a kanban task can now claim the ids of cards they
created via an optional ``created_cards`` field on ``kanban_complete``.
The kernel verifies each id exists and was created by the completing
worker's profile; any phantom id blocks the completion with a
``HallucinatedCardsError`` and records a
``completion_blocked_hallucination`` event on the task so the rejected
attempt is auditable. Successful completions also get a non-blocking
prose-scan pass over their ``summary`` + ``result`` that emits a
``suspected_hallucinated_references`` event for any ``t_<hex>``
reference that doesn't resolve.
Closes#20017.
Recovery UX (kernel + CLI + dashboard)
--------------------------------------
A structural gate alone isn't enough — operators also need to see and
act on stuck workers, especially when a profile's model is the root
cause. This PR ships the full loop:
* ``kanban_db.reclaim_task(task_id)`` — operator-driven reclaim that
releases an active worker claim immediately (unlike
``release_stale_claims`` which only acts after claim_expires has
passed). Emits a ``reclaimed`` event with ``manual: True`` payload.
* ``kanban_db.reassign_task(task_id, profile, reclaim_first=...)`` —
switch a task to a different profile, optionally reclaiming a stuck
running worker in the same call.
* ``hermes kanban reclaim <id> [--reason ...]`` and
``hermes kanban reassign <id> <profile> [--reclaim] [--reason ...]``
CLI subcommands wired through to the same helpers.
* ``POST /api/plugins/kanban/tasks/{id}/reclaim`` and
``POST /api/plugins/kanban/tasks/{id}/reassign`` endpoints on the
dashboard plugin.
Dashboard surfacing
-------------------
* ⚠ **warning badge** on cards with active hallucination events.
* **attention strip** at the top of the board listing all flagged
tasks; dismissible per session.
* **events callout** in the task drawer — hallucination events render
with a red left border, amber icon, and phantom ids as styled chips.
* **recovery section** in the task drawer with three actions: Reclaim,
Reassign (with profile picker + reclaim-first checkbox), and a
copy-to-clipboard hint for ``hermes -p <profile> model`` since
profile config lives on disk and can't be edited from the browser.
Auto-opens when the task has warnings, collapsed otherwise.
Keyed by task id so state doesn't leak between drawers.
Active-vs-stale rule: warnings clear when a clean ``completed`` or
``edited`` event supersedes the hallucination, so recovery is never
permanently stigmatising — the audit events persist for debugging but
the badge goes away once the worker succeeds.
Skill updates
-------------
* ``skills/devops/kanban-worker/SKILL.md`` documents the
``created_cards`` contract with good/bad examples.
* ``skills/devops/kanban-orchestrator/SKILL.md`` gains a "Recovering
stuck workers" section with the three actions and when to use each.
Tests
-----
* Kernel gate: verified-cards manifest, phantom rejection + audit
event, cross-worker rejection, prose scan positive + negative.
* Recovery helpers: reclaim on running task, reclaim on non-running
returns False, reassign refuses running without reclaim_first,
reassign with reclaim_first succeeds on running.
* API endpoints: warnings field present on /board and /tasks/:id,
warnings cleared after clean completion, reclaim 200 + 409 paths,
reassign 200 + 409 + reclaim_first paths.
* CLI smoke: reclaim + reassign subcommands.
Live-verified end-to-end on a dashboard with seeded scenarios:
attention strip renders, badges land on the right cards, drawer
callout shows phantom chips, Reclaim on a running task flips status to
ready + emits manual reclaimed event + refreshes the drawer,
Reassign swaps the assignee and triggers board refresh.
359/359 kanban-suite tests pass
(test_kanban_{db,cli,boards,core_functionality} + dashboard + tools).
* revert(gateway): remove stale-code self-check and auto-restart
Removes the _detect_stale_code / _trigger_stale_code_restart mechanism
introduced in #17648 and iterated in #19740. On every incoming message
the gateway compared the boot-time git HEAD SHA to the current SHA on
disk, and if they differed it would reply with
Gateway code was updated in the background --
restarting this gateway so your next message runs
on the new code. Please retry in a moment.
and then kick off a graceful restart. This is unwanted behaviour:
users who run a long-lived gateway and do their own ad-hoc git
operations on the checkout end up with their chat interrupted and
the current message dropped every time HEAD moves, with no way to
opt out.
If an operator really needs the old protection against stale
sys.modules after "hermes update", the SIGKILL-survivor sweep in
hermes update (hermes_cli/main.py, also tagged #17648) already
handles the supervisor-respawn case on its own.
Removed:
gateway/run.py:
- _STALE_CODE_SENTINELS, _GIT_SHA_CACHE_TTL_SECS
- _read_git_head_sha(), _compute_repo_mtime() module helpers
- class-level _boot_wall_time / _boot_repo_mtime / _boot_git_sha /
_stale_code_restart_triggered defaults
- __init__ boot-snapshot block (_boot_*, _cached_current_sha*,
_repo_root_for_staleness, _stale_code_notified)
- _current_git_sha_cached(), _detect_stale_code(),
_trigger_stale_code_restart() methods
- stale-code check + user-facing restart notice at the top of
_handle_message()
tests/gateway/test_stale_code_self_check.py (deleted, 412 lines)
No new logic added. Zero remaining references to any removed
symbol. Gateway test suite passes the same 4589 tests it passed
before; the 3 pre-existing unrelated failures (discord free-channel,
feishu bot admission, teams typing) are unchanged by this commit.
* feat(i18n): add display.language for static message translation (zh/ja/de/es)
Adds a thin-slice i18n layer covering the highest-impact static user-facing
messages: the CLI dangerous-command approval prompt and a handful of gateway
slash-command replies (restart-drain, goal cleared, approval expired, config
read/save errors).
Out of scope (stays English): agent responses, log lines, tool outputs,
slash-command descriptions, error tracebacks.
Infrastructure:
- agent/i18n.py: catalog loader, t() helper, language resolution
(HERMES_LANGUAGE env var > display.language config > en)
- locales/{en,zh,ja,de,es}.yaml: ~19 translated strings per language
- display.language in DEFAULT_CONFIG (hermes_cli/config.py)
Tests:
- tests/agent/test_i18n.py: 21 tests covering catalog parity, placeholder
parity across locales, fallback behavior, env-var override, alias
normalization, missing-key graceful degradation.
Docs:
- website/docs/user-guide/configuration.md: display.language entry plus a
short section explaining scope so users don't expect agent responses to
translate via this knob.
Strip bracketed-paste control sequences from setup prompt input so pasted API keys work on Linux and WSL terminals, and add regression tests for normal/password prompts.
Closes#16491