mirror of
https://github.com/NousResearch/hermes-agent.git
synced 2026-05-21 03:39:54 +00:00
365da2d2dfd92bd16f1993c8fefea05508282db8
510 Commits
| Author | SHA1 | Message | Date | |
|---|---|---|---|---|
 xxxigm
|
cafbc9a734 |
feat(cli): wire --manual-paste into `hermes auth add and hermes model`
Register the new ``--manual-paste`` flag on both entry points and thread it through to the xAI loopback login: * ``hermes auth add xai-oauth --manual-paste`` — pool-add path, forwarded inside ``auth_commands.handle_auth_add``. * ``hermes model --manual-paste`` — model-picker path, forwarded by ``_model_flow_xai_oauth`` into the synthetic ``argparse.Namespace`` it passes to ``_login_xai_oauth``. The picker also now forwards ``--no-browser`` and ``--timeout`` for consistency (previously hardcoded to defaults regardless of CLI flags). Help text on both flags points at #26923 and names the browser-only remote consoles (Cloud Shell, Codespaces, EC2 Instance Connect) so users searching ``hermes --help`` can find the workaround. |
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yannsunn
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1d6f3753de | feat(proxy): add xai upstream adapter for Grok via OAuth | ||
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hehehe0803
|
87ace43f1e | fix(aux): remove stale session_search model menu entry | ||
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zccyman
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4e9df52d60 |
fix: elevate plugin discovery failures from debug to warning
Plugin discovery exceptions in gateway startup (gateway/run.py) and CLI startup (hermes_cli/main.py) are caught and logged at DEBUG level, making them invisible at the default INFO log level. If any plugin import fails — syntax error, missing dependency, import cycle — operators get zero indication unless they bump the log level to DEBUG. This makes broken plugins appear enabled but silently non-functional. Change both locations to logger.warning() so failures are visible at production log levels. Closes #28137 |
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Austin Pickett
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2ef501e1f5 |
feat(cli): add /update slash command to CLI and TUI (#23854)
* feat: add /update slash command to CLI and TUI * test(cli): add Python tests for /update slash command Co-authored-by: Cursor <cursoragent@cursor.com> * fix(cli): address Copilot review for /update slash command Route classic CLI /update through prompt_toolkit modal confirmation and defer relaunch to the main-thread cleanup path after app.exit(). Tighten Y/n semantics, add Python wrapper and catalog coverage tests, and assert /update stays visible in the TUI command catalog. Co-authored-by: Cursor <cursoragent@cursor.com> * fix(cli): address review feedback on /update command - Replace raw input() with _prompt_text_input_modal in _handle_update_command to avoid EOF/hang/keystroke-leak races with prompt_toolkit's stdin ownership - Fix confirmation logic: only proceed on recognized affirmative aliases (y/yes/1/ok); cancel on everything else including empty string, typos, and unrecognized input — matches all other [Y/n] prompts in the codebase - Route relaunch through main-thread shutdown path: set _pending_relaunch and return False from process_command so process_loop triggers app.exit(); run() then calls relaunch() after prompt_toolkit has restored terminal modes and after cleanup — safe on both POSIX (execvp) and Windows (subprocess+exit) - Fix misleading docstring in test_update_command.py: the Vitest only covers the TypeScript slash handler that emits code 42, not the Python wrapper branch that acts on it - Rewrite tests to use SimpleNamespace pattern (like test_destructive_slash_confirm) so _prompt_text_input_modal can be stubbed directly - Add Python test for _launch_tui exit-code-42 → relaunch branch in main.py Agent-Logs-Url: https://github.com/NousResearch/hermes-agent/sessions/f6da68cf-e7b1-4b7a-aed6-3d4b0f523bdb Co-authored-by: austinpickett <260188+austinpickett@users.noreply.github.com> * fix(cli): polish test fixtures for /update command - Remove unused _prompt_text_input from SimpleNamespace stub - Use pytest.fail sentinel in managed-install guard test to catch unexpected modal invocations Agent-Logs-Url: https://github.com/NousResearch/hermes-agent/sessions/f6da68cf-e7b1-4b7a-aed6-3d4b0f523bdb Co-authored-by: austinpickett <260188+austinpickett@users.noreply.github.com> * chore: re-trigger CI after Copilot review fixes Co-authored-by: Cursor <cursoragent@cursor.com> --------- Co-authored-by: Cursor <cursoragent@cursor.com> Co-authored-by: copilot-swe-agent[bot] <198982749+Copilot@users.noreply.github.com> Co-authored-by: austinpickett <260188+austinpickett@users.noreply.github.com> |
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Gianfranco Piana
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bb9ecb2178 | feat: add cron job profile support | ||
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glennc
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9df9816dab |
feat(azure-foundry): add Microsoft Entra ID auth
Use azure-identity DefaultAzureCredential for keyless Foundry auth. Preserve refreshable callable credentials through OpenAI and Anthropic client paths. Add setup, doctor, auth status, docs, and tests for Entra auth. Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com> |
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Siddharth Balyan
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6f5ec929a1 |
feat(config): add install-method stamping + Docker detection (#27843)
* feat(config): add install-method stamping + Docker detection Dockerfile stamps "docker", install.sh stamps "git", and cmd_postinstall stamps "pip" into ~/.hermes/.install_method. detect_install_method() reads the stamp first, then falls back to managed-system / container / .git heuristics. Adds Docker upgrade guidance. Tracking: #27826 * fix(stamp): move Docker stamp to entrypoint, install.sh stamp after print_success The Dockerfile stamp was overwritten by the VOLUME overlay at container start. Moving it to entrypoint.sh ensures it persists. The install.sh stamp now writes after print_success so it only lands on full success. |
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Teknium
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1345dda0cf |
feat(kanban): orchestrator-driven auto-decomposition on triage (#27572)
* feat(kanban): orchestrator-driven auto-decomposition on triage
Closes the core gap in the kanban system: dropping a one-liner into Triage
now decomposes it into a graph of child tasks routed to specialist
profiles by description, matching teknium's original vision ("main
orchestrator splits/creates actual tasks, doles them out to each agent").
The build
---------
- hermes_cli/profiles.py: new `description` + `description_auto` fields
on ProfileInfo, persisted in <profile_dir>/profile.yaml. Helpers
read_profile_meta / write_profile_meta. `create_profile` accepts
optional description.
- hermes_cli/profile_describer.py: new module — auto-generate a 1-2
sentence description from a profile's skills + model + name via the
auxiliary LLM (`auxiliary.profile_describer`).
- hermes_cli/main.py: new `hermes profile create --description ...`
flag; new `hermes profile describe [name] [--text ... | --auto |
--all --auto]` subcommand.
- hermes_cli/kanban_db.py: new `decompose_triage_task` atomic helper —
creates N child tasks, links the root as a child of every leaf
(root waits for the whole graph), flips root `triage -> todo` with
orchestrator assignee, records an audit comment + `decomposed` event
in a single write_txn.
- hermes_cli/kanban_decompose.py: new module — calls the auxiliary LLM
(`auxiliary.kanban_decomposer`) with the profile roster + descriptions
to produce a JSON task graph, then invokes the DB helper. Rewrites
unknown assignees to the configured `kanban.default_assignee` (or
the active default profile) so a task NEVER lands with assignee=None.
Falls back to specify-style single-task promotion when the LLM
returns `fanout: false`.
- hermes_cli/kanban.py: new `hermes kanban decompose [task_id | --all]`
CLI verb.
- hermes_cli/config.py: new DEFAULT_CONFIG keys —
kanban.orchestrator_profile, kanban.default_assignee,
kanban.auto_decompose (default True), kanban.auto_decompose_per_tick
(default 3), auxiliary.kanban_decomposer, auxiliary.profile_describer.
- gateway/run.py: kanban dispatcher watcher now runs auto-decompose
before each `_tick_once`, capped by `auto_decompose_per_tick` so a
bulk-load of triage tasks doesn't burst-spend the aux LLM.
- plugins/kanban/dashboard/plugin_api.py: new endpoints —
GET /profiles (list roster + descriptions),
PATCH /profiles/<name> (set description, user-authored),
POST /profiles/<name>/describe-auto (LLM-generate),
POST /tasks/<id>/decompose (run decomposer),
GET/PUT /orchestration (orchestrator/default-assignee/auto-decompose
pickers, with resolved fallbacks echoed back).
- plugins/kanban/dashboard/dist/index.js: new OrchestrationPanel
collapsible — dropdowns for orchestrator profile and default
assignee, auto-decompose toggle, per-profile description editor with
Save and Auto-generate buttons. New ⚗ Decompose button next to
✨ Specify on triage-column task drawers.
Behavior
--------
- A task in Triage gets fanned out into a small DAG of child tasks.
Children with no internal parents flip to `ready` immediately
(parallel dispatch). Children with sibling parents wait. The root
stays alive as a parent of every child — when the whole graph
finishes, it promotes to `ready` and the orchestrator profile wakes
back up to judge completion (the "adds more tasks until done" part
of the original vision).
- `kanban.orchestrator_profile` unset -> falls back to the default
profile (whichever `hermes` launches with no -p flag).
- `kanban.default_assignee` unset -> same fallback. Tasks NEVER end
up unassigned.
- `kanban.auto_decompose=true` (default) runs the decomposer
automatically on dispatcher ticks; manual `hermes kanban decompose`
is always available.
Tests
-----
- tests/hermes_cli/test_kanban_decompose_db.py — 7 tests for the
atomic DB helper (status transitions, dep graph, audit trail,
validation errors).
- tests/hermes_cli/test_kanban_decompose.py — 6 tests for the
decomposer module (fanout, no-fanout fallback, unknown-assignee
rewrite, malformed-JSON resilience, no-aux-client path).
- tests/hermes_cli/test_profile_describer.py — 10 tests for
profile.yaml r/w + the LLM auto-describer (yaml corrupt tolerance,
user-vs-auto description protection, --overwrite, fallback parsing).
E2E
---
- CLI end-to-end: created profiles with descriptions, dropped a triage
task, mocked the aux LLM with a 3-task graph -> verified all three
children were created with the right assignees, the dependency
edges matched the LLM's graph, root flipped to todo gated by every
child, audit comment + `decomposed` event recorded.
- Dashboard end-to-end: started the dashboard against an isolated
HERMES_HOME, verified all four new endpoints via curl (profile
listing, PATCH for description, PUT for orchestration settings,
POST for decompose). Opened the UI in the browser, confirmed the
OrchestrationPanel renders with all three pickers + the per-profile
description editor, typed a description, clicked Save, verified
~/.hermes/profile.yaml was written. Clicked Decompose on the triage
card and confirmed the inline error message surfaced as designed
("no auxiliary client configured").
* feat(kanban): surface decompose mode (Auto/Manual) as a one-click pill
The auto/manual toggle already existed as kanban.auto_decompose (default
true), but it was buried inside the collapsed Orchestration settings
panel — users couldn't tell at a glance which mode they were in. This
hoists it to a pill at the top of the kanban page so the state is always
visible and one click flips it.
UX
- New "⚗ Decompose: AUTO|MANUAL" pill in the kanban header. Emerald
styling when Auto is on (the default), muted/gray when Manual.
- Pill is visible both in the collapsed AND expanded Orchestration
settings views so context is preserved when the user opens the panel.
- Tooltip explains both states + what clicking does.
- Renamed the in-panel "Auto-decompose on triage / Enabled" checkbox
to "Decompose mode / Auto (default) | Manual" for language parity
with the pill.
Behavior preserved
- Default remains Auto (kanban.auto_decompose=true).
- Manual mode restores pre-PR behavior: triage tasks stay in triage
until the user clicks ⚗ Decompose on each card (or runs
`hermes kanban decompose <id>`).
Implementation
- plugins/kanban/dashboard/dist/index.js: load /orchestration on mount
(not just on expand) so the collapsed pill reflects real state.
Render mode pill in both collapsed and expanded headers. Reuses the
existing PUT /api/plugins/kanban/orchestration endpoint — no new
backend, no new tests required.
E2E verified
- Pill renders as "⚗ Decompose: AUTO" on page load (default).
- One click flips to "⚗ Decompose: MANUAL" with muted styling.
- config.yaml on disk shows auto_decompose: false after the flip.
- Second click round-trips back to Auto; config.yaml flips to true.
* feat(kanban): rename mode pill to "Orchestration: Auto/Manual"
Per Teknium feedback — "Decompose" was too implementation-specific.
"Orchestration" is the user-facing concept (the whole pitch is the
orchestrator profile routing work), and the pill is the front door to it.
- Pill text: "Orchestration: Auto" / "Orchestration: Manual" (title case,
no ⚗ prefix, no SHOUTY-CAPS for the mode value)
- In-panel checkbox label: "Orchestration mode" (was "Decompose mode")
- Tooltips updated to match
- No behavior change
* docs(kanban): document decompose, profile descriptions, orchestration mode
Brings the docs site up to parity with the PR. English build verified
locally (npx docusaurus build --locale en) — clean, no new broken links
or anchors. Pre-existing broken-link warnings (rl-training, llms.txt,
step-by-step-checklist, fallback-model) untouched.
- website/docs/reference/cli-commands.md
+ `hermes kanban decompose` action row in the action table, with
pointer to the Auto vs Manual orchestration section.
- website/docs/reference/profile-commands.md
+ `--description "<text>"` flag on `hermes profile create`.
+ Full `hermes profile describe` section: read, --text, --auto,
--overwrite, --all flags with examples.
- website/docs/user-guide/features/kanban.md (the big one)
+ Triage column intro rewritten around the Auto-decompose default
behavior, with pointer to the new Auto vs Manual section.
+ Status action row updated to mention both ⚗ Decompose and
✨ Specify on triage cards.
+ New "Auto vs Manual orchestration" section explaining the two
modes, how to flip them (pill, config), how routing-by-description
works, the no-None-assignee guarantee, plus a config knob table
(auto_decompose, auto_decompose_per_tick, orchestrator_profile,
default_assignee) and the two new auxiliary slots
(kanban_decomposer, profile_describer).
+ REST surface table gains 6 new endpoint rows: /tasks/:id/decompose,
/profiles (GET), /profiles/:name (PATCH), /profiles/:name/describe-auto,
/orchestration (GET + PUT).
- website/docs/user-guide/features/kanban-tutorial.md
+ Triage column blurb updated for Auto by default + Manual via the
pill, with cross-link to the Auto vs Manual orchestration section.
- website/docs/user-guide/profiles.md
+ Blank-profile flow now mentions --description and points to the
kanban routing model for context.
- website/docs/user-guide/configuration.md
+ `kanban_decomposer` and `profile_describer` added to the
`hermes model -> Configure auxiliary models` menu listing.
|
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teknium1
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f27416dc80 | fix(cli): include send in _BUILTIN_SUBCOMMANDS for plugin discovery gating | ||
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Brooklyn Nicholson
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290bf93104 |
fix(tui): harden Terminal.app render behavior
Avoid Terminal.app paint corruption by disabling fast-echo in that terminal, sanitizing non-SGR control sequences before ANSI rendering, and defaulting Apple Terminal back to the safer 256-color path unless truecolor is explicitly requested. |
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Teknium
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29b1bd0e20 |
feat(cli): add hermes send to pipe script output to any messaging platform (#27188)
Introduces a thin CLI wrapper around the existing send_message_tool so
shell scripts, cron scripts, CI hooks, and monitoring daemons can reuse
the gateway's already-configured platform credentials without
reimplementing each platform's REST client.
hermes send --to telegram "deploy finished"
echo "RAM 92%" | hermes send --to telegram:-1001234567890
hermes send --to discord:#ops --file report.md
hermes send --to slack:#eng --subject "[CI]" --file build.log
hermes send --list # all targets
hermes send --list telegram # filter by platform
Supports all platforms the send_message tool already does (Telegram,
Discord, Slack, Signal, SMS, WhatsApp, Matrix, Feishu, DingTalk, WeCom,
Weixin, Email, etc.), including threaded targets and #channel-name
resolution via the channel directory.
hermes_cli/send_cmd.py delegates to tools.send_message_tool.send_message_tool,
which means there is zero new platform-specific code. The subcommand just:
1. Bridges ~/.hermes/.env and top-level ~/.hermes/config.yaml scalars into
os.environ (same bootstrap the gateway does at startup) — required so
TELEGRAM_HOME_CHANNEL and friends are visible to load_gateway_config().
2. Resolves the message body from positional arg, --file, or piped stdin.
3. Calls the shared tool and translates its JSON result to exit codes:
0 success, 1 delivery failure, 2 usage error.
No running gateway is required for bot-token platforms (Telegram, Discord,
Slack, Signal, SMS, WhatsApp) — the tool hits each platform's REST API
directly. Plugin platforms that rely on a live adapter connection still
need the gateway running; the error message is forwarded verbatim.
- New guide: website/docs/guides/pipe-script-output.md covering real-world
patterns (memory watchdogs, CI hooks, cron pipes, long-running task
completion pings) and the security/gateway notes.
- Cross-links added from automate-with-cron.md ("no LLM? use hermes send")
and developer-guide/gateway-internals.md (delivery-path section).
tests/hermes_cli/test_send_cmd.py (20 tests, all green):
- Happy paths: positional message, stdin, --file, --file -, --subject,
--json, --quiet.
- Error paths: missing --to, missing body, file not found, tool returns
error payload (exit 1), tool skipped-send result (exit 0).
- --list: human output, --json output, platform filter, unknown platform.
- Env loader: bridges config.yaml scalars into env, does not override
existing env vars, gracefully handles missing files.
- Registrar contract: register_send_subparser() returns a working parser.
Smoke-tested end-to-end against a live Telegram bot before commit.
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briandevans
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c844d15c3d |
fix(update): stream npm install output so postinstall progress is visible (#18840)
`hermes update` ran the repo-root and ui-tui npm installs with both `--silent` and `subprocess.run(..., capture_output=True)`, which hides all output from optional postinstall scripts. The largest of those — `@askjo/camofox-browser`'s `npx camoufox-js fetch` — downloads a Firefox-fork browser binary that can take many minutes on slow connections. Because nothing was printed during that wait, the updater appeared to hang at "Updating Node.js dependencies..." and users Ctrl-C'd, sometimes leaving `node_modules` partially installed. Drop `--silent` and pass `capture_output=False` for the repo-root and ui-tui paths so npm streams its `info run …` postinstall lines straight to the terminal. Output is still mirrored to `~/.hermes/logs/update.log` by the existing `_UpdateOutputStream` wrapper, so SSH-disconnect safety is preserved. The `web/` install path is untouched — its build step is fast and does not run binary-fetching postinstalls. Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com> |
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alt-glitch
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47c0efe1c0 |
refactor: DRY cleanup from code review
- dep_ensure.py: use get_hermes_home() instead of hand-rolled env var - dep_ensure.py: add "chrome" to browser name list (was inconsistent with browser_tool.py) - main.py _cmd_update_check: use detect_install_method() directly instead of redundant .git check - main.py _cmd_update_pip: build command list directly instead of fragile split() on display string - banner.py: rename _check_via_pypi → check_via_pypi (cross-module public API) |
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alt-glitch
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99b81cd54b |
feat: add hermes postinstall command for pip users
One-shot bootstrap that installs non-Python deps (node, browser, ripgrep, ffmpeg) via ensure_dependency(), then runs setup if no provider is configured. Closes the gap between `pip install` and the full user-facing experience. Also fixes 3 pre-existing test regressions caused by earlier commits: - test_recommended_update_command: mock detect_install_method for git env - test_check_for_updates_no_git_dir: now falls back to PyPI, not None - test_plist_path_includes_node_modules_bin: skip when dir absent |
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alt-glitch
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c57709a3d6 |
feat: wire ensure_dependency into TUI and browser tool call sites
Before: missing node → hard exit; missing browser → FileNotFoundError. After: both try ensure_dependency() first, which prompts interactively and delegates installation to install.sh --ensure. ripgrep and ffmpeg already degrade gracefully (grep fallback, skip conversion) so they don't need wiring. Also documents the design rationale in dep_ensure.py: detection and prompting live in Python (portable, instant, UX-integrated); only the actual installation delegates to install.sh (1900 lines of battle-tested OS/package-manager logic). |
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alt-glitch
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55a7c45d37 |
fix(update): handle --check for pip installs (missed code path)
_cmd_update_check() had its own `.git` gate separate from _cmd_update_impl. For pip installs, fork to _check_via_pypi() and display the result with the correct recommended_update_command(). |
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alt-glitch
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96917fb74a |
refactor: fix review findings — remove duplicate imports and deduplicate update command
- banner.py: remove redundant `import json as _json` (json already at module level) - main.py: _cmd_update_pip now delegates to recommended_update_command_for_method instead of duplicating the uv-vs-pip detection logic - main.py: remove redundant `import subprocess as _sp` (subprocess already at module level) |
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alt-glitch
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79afa50703 |
feat(update): support pip install --upgrade for PyPI installs
When .git is absent and detect_install_method returns "pip", fork hermes update to run `uv pip install --upgrade hermes-agent` (or `python -m pip install --upgrade hermes-agent` as fallback) instead of hard-exiting with "Not a git repository". |
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alt-glitch
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b2bf658442 |
feat(tui): find bundled entry.js from wheel before falling back to npm build
Add _find_bundled_tui() that checks for hermes_cli/tui_dist/entry.js (present in wheel installs) and wire it into _make_tui_argv() between the HERMES_TUI_DIR prebuilt path and the npm install fallback. |
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Teknium
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518f39557b |
fix(gateway): keep running when platforms fail; add per-platform circuit breaker + /platform (#26600)
Stop the gateway from exiting (or systemd-restart-looping) when a single
messaging adapter fails at startup or runtime. A misconfigured WhatsApp
(npm install timeout, unpaired bridge, missing creds.json) used to take
the entire gateway down, killing cron jobs and any other connected
platforms with it.
Changes:
• Startup (gateway/run.py): when connected_count==0 but the only
errors are retryable, log a degraded-state warning and keep the
gateway alive instead of returning False. Reconnect watcher then
recovers platforms as their underlying problem clears.
• Runtime (gateway/run.py _handle_adapter_fatal_error): when the last
adapter goes down with a retryable error and is queued for
reconnection, stay alive instead of exit-with-failure. Previously
this triggered systemd Restart=on-failure, which created infinite
restart loops on persistent retryable failures (proxy outage,
repeated bridge crashes).
• Reconnect watcher (gateway/run.py _platform_reconnect_watcher):
replace the 20-attempt hard drop with a circuit-breaker pause.
After _PAUSE_AFTER_FAILURES (10) consecutive retryable failures, the
platform stays in _failed_platforms with paused=True so the watcher
skips it but the operator can still see and resume it. Non-retryable
errors still drop out of the queue immediately. Resolves #17063
(gateway giving up on Telegram after 20 attempts).
• WhatsApp preflight (gateway/platforms/whatsapp.py): refuse to start
the Node bridge when creds.json is missing. Sets a non-retryable
whatsapp_not_paired fatal error so the watcher drops it cleanly
with a single 'run hermes whatsapp' log line instead of paying the
30s bridge bootstrap timeout on every gateway start.
• WhatsApp setup ordering (hermes_cli/main.py cmd_whatsapp): only set
WHATSAPP_ENABLED=true once pairing actually succeeds. Previously
the wizard wrote the env var at step 2 (before npm install and QR
pairing), so any Ctrl+C left .env claiming WhatsApp was ready when
the bridge had no creds.json. Also propagate the env var when the
user keeps an existing pairing on a re-run.
• /platform slash command (hermes_cli/commands.py + gateway/run.py):
new gateway-only command for manual circuit-breaker control.
/platform list — show connected + failed/paused platforms
/platform pause <name> — silence a known-broken platform
/platform resume <name> — re-queue a paused platform
Tests:
• New: pause/resume helpers, /platform list|pause|resume command,
WhatsApp creds.json preflight, WhatsApp setup ordering.
• Updated: stale assertions that codified the old 'exit and let
systemd restart' behavior in test_runner_fatal_adapter.py,
test_runner_startup_failures.py, and test_platform_reconnect.py
(the 20-attempt give-up test became a circuit-breaker pause test).
5488 tests pass in tests/gateway/.
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Jaaneek
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7d7cdd48e0 |
test(xai-oauth): use grok-4.3 instead of retiring grok-code-fast-1
Per @mark-xai's review on PR #26457 and the xAI model retirement on 2026-05-15: grok-code-fast-1 is being retired today and aliases redirect to grok-4.3 (already pinned to the top of the xAI model list by this PR). Update the two xAI Responses-API test fixtures Mark flagged plus the picker fallback default in hermes_cli/main.py that uses the same literal. |
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Jaaneek
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b62c997973 |
feat(xai-oauth): add xAI Grok OAuth (SuperGrok Subscription) provider
Adds a new authentication provider that lets SuperGrok subscribers sign in to Hermes with their xAI account via the standard OAuth 2.0 PKCE loopback flow, instead of pasting a raw API key from console.x.ai. Highlights ---------- * OAuth 2.0 PKCE loopback login against accounts.x.ai with discovery, state/nonce, and a strict CORS-origin allowlist on the callback. * Authorize URL carries `plan=generic` (required for non-allowlisted loopback clients) and `referrer=hermes-agent` for best-effort attribution in xAI's OAuth server logs. * Token storage in `auth.json` with file-locked atomic writes; JWT `exp`-based expiry detection with skew; refresh-token rotation synced both ways between the singleton store and the credential pool so multi-process / multi-profile setups don't tear each other's refresh tokens. * Reactive 401 retry: on a 401 from the xAI Responses API, the agent refreshes the token, swaps it back into `self.api_key`, and retries the call once. Guarded against silent account swaps when the active key was sourced from a different (manual) pool entry. * Auxiliary tasks (curator, vision, embeddings, etc.) route through a dedicated xAI Responses-mode auxiliary client instead of falling back to OpenRouter billing. * Direct HTTP tools (`tools/xai_http.py`, transcription, TTS, image-gen plugin) resolve credentials through a unified runtime → singleton → env-var fallback chain so xai-oauth users get them for free. * `hermes auth add xai-oauth` and `hermes auth remove xai-oauth N` are wired through the standard auth-commands surface; remove cleans up the singleton loopback_pkce entry so it doesn't silently reinstate. * `hermes model` provider picker shows "xAI Grok OAuth (SuperGrok Subscription)" and the model-flow falls back to pool credentials when the singleton is missing. Hardening --------- * Discovery and refresh responses validate the returned `token_endpoint` host against the same `*.x.ai` allowlist as the authorization endpoint, blocking MITM persistence of a hostile endpoint. * Discovery / refresh / token-exchange `response.json()` calls are wrapped to raise typed `AuthError` on malformed bodies (captive portals, proxy error pages) instead of leaking JSONDecodeError tracebacks. * `prompt_cache_key` is routed through `extra_body` on the codex transport (sending it as a top-level kwarg trips xAI's SDK with a TypeError). * Credential-pool sync-back preserves `active_provider` so refreshing an OAuth entry doesn't silently flip the active provider out from under the running agent. Testing ------- * New `tests/hermes_cli/test_auth_xai_oauth_provider.py` (~63 tests) covers JWT expiry, OAuth URL params (plan + referrer), CORS origins, redirect URI validation, singleton↔pool sync, concurrency races, refresh error paths, runtime resolution, and malformed-JSON guards. * Extended `test_credential_pool.py`, `test_codex_transport.py`, and `test_run_agent_codex_responses.py` cover the pool sync-back, `extra_body` routing, and 401 reactive refresh paths. * 165 tests passing on this branch via `scripts/run_tests.sh`. |
||
|
teknium1
|
85782a4ed7 |
feat(acp): hermes acp --setup-browser bootstraps browser tools for registry installs
The Zed ACP Registry path (uvx --from 'hermes-agent[acp]==X' hermes-acp)
gets a Python-only install. Browser tools depend on the agent-browser npm
package + Chromium, neither of which are in the wheel. Without an
explicit bootstrap, registry users have no path to working browser tools.
Ship a bundled, idempotent bootstrap script (Linux/macOS bash + Windows
PowerShell) inside acp_adapter/bootstrap/ as wheel package-data. New
entry points:
hermes acp --setup-browser # interactive; prompts before Chromium download
hermes acp --setup-browser --yes # non-interactive
hermes-acp --setup-browser
The terminal-auth flow (hermes acp --setup) also offers the browser
bootstrap as a follow-up after model selection, so first-run registry
users get the option without knowing the flag exists.
Key design choices:
- npm install -g --prefix $NODE_PREFIX so we never need sudo. System Node
on PATH is respected; only the install target is redirected to the
user-writable Hermes-managed Node prefix.
- tools/browser_tool.py::_browser_candidate_path_dirs() already walks
$HERMES_HOME/node/bin, so installed binaries are discovered with no
agent-side code change.
- System Chrome/Chromium detection short-circuits the ~400 MB Playwright
download when a suitable browser already exists.
- Bash + PowerShell live as ONE copy each under acp_adapter/bootstrap/.
Not duplicated under scripts/. install.sh and install.ps1 keep their
inline browser blocks for the source-checkout path.
E2E validated end-to-end:
bash bootstrap_browser_tools.sh --skip-chromium
→ installs agent-browser into ~/.hermes/node/bin/
tools.browser_tool._find_agent_browser()
→ returns the installed path
check_browser_requirements()
→ returns True (browser tools register)
Tests:
- tests/acp/test_entry.py: 11 tests covering --setup-browser dispatch
(linux + windows + --yes forwarding + failure propagation), the
terminal-auth follow-up prompt path, and a package-data wheel-shipping
assertion that catches any future pyproject.toml regression.
Docs: website/docs/user-guide/features/acp.md gains a 'Browser tools
(optional)' subsection with the two-line install + what-it-does.
|
||
|
mr-r0b0t
|
4c94396206 | feat: add ACP registry metadata for Zed | ||
|
ioannis
|
38ea2a57a5 |
fix(web): handle non-UTF8 Windows console encodings in _build_web_ui
Codex review pointed out that even with the sync-assets fix applied,
_build_web_ui still crashes on a stock Windows console before reaching
npm: Python stdout defaults to cp1252 (or similar) and raises
UnicodeEncodeError when print() hits the arrow/check glyphs used for
status messages (→, ✗, ⚠, ✓). Reproduced locally in PowerShell:
$ PYTHONIOENCODING=cp1252 python -c "from hermes_cli.main import _build_web_ui; _build_web_ui(Path('web'), fatal=True)"
UnicodeEncodeError: 'charmap' codec can't encode character '\u2192' ...
The previous PR body claimed "end-to-end verified on Windows 11", but
that was under the venv's default (utf-8) stdout. A plain `py` or
PowerShell invocation would still fail before sync-assets ever ran.
Fix: inner _say() helper that falls back to
text.encode(sys.stdout.encoding, errors="replace")
when print() raises UnicodeEncodeError. Glyphs degrade to '?' on
ASCII / cp1252 consoles; utf-8 consoles are unaffected. Verified the
full build pipeline runs to completion with PYTHONIOENCODING=cp1252.
Scoped tightly to _build_web_ui (the function this PR already touches);
other call sites in the codebase with the same risk are out of scope.
|
||
|
ioannis
|
0854640537 |
fix(web): cross-platform sync-assets + surface build errors on failure
Three Windows-only bugs in the web-dashboard build path. Each is small, scoped, and verified end-to-end on Windows 11 — including under a stock cmd.exe / PowerShell console with its default cp1252 encoding. 1. `sync-assets` shells out to Unix-only commands web/package.json hard-codes `rm -rf … && cp -r …`. Neither exists on Windows cmd.exe. `hermes_cli/main.py::_build_web_ui` runs npm via subprocess (which on Windows defaults to cmd.exe), so the prebuild hook crashed before Vite ever ran and the dashboard never built. Fix: web/scripts/sync-assets.mjs — ~20 lines of Node using fs.rmSync + fs.cpSync (stdlib, Node >= 16.7). No new deps, identical behavior on POSIX and Windows. 2. Build failures were silent _build_web_ui ran both subprocess calls with capture_output=True and never relayed the captured buffers on failure. Users saw 'Web UI build failed' and nothing else — no stdout, no stderr, no hint that the real problem was 'rm is not recognized'. Fix: inner _relay() helper that decodes and prints stdout + stderr (utf-8, errors='replace') whenever a step returns non-zero. Replaces the existing stderr_tail-only relay on the build path; success path is unchanged. (stderr_tail is preserved for the stale-dist fallback branch added by #23817.) Salvaged from #13368 by @johnisag onto current main. Conflict resolution preserves main's improvements: - _run_npm_install_deterministic() (replaces bare subprocess.run for npm install) - npm-build retry-after-sleep for Windows boot-time races (#23817) - stale-dist fallback for non-interactive callers (#23817) Closes #25073, #13368. |
||
|
Teknium
|
ccb5aae0d2 |
feat(proxy): local OpenAI-compatible proxy for OAuth providers (#25969)
Adds 'hermes proxy start' — a local HTTP server that lets external apps (OpenViking, Karakeep, Open WebUI, ...) use a Hermes-managed provider subscription as their LLM endpoint. The proxy attaches the user's real OAuth-resolved credentials to each forwarded request, refreshing them automatically; the client can send any bearer (it gets stripped). Ships with one adapter — Nous Portal. The UpstreamAdapter ABC and registry in hermes_cli/proxy/adapters/ are designed for additional OAuth providers to plug in by name without server changes. Commands: hermes proxy start [--provider nous] [--host 127.0.0.1] [--port 8645] hermes proxy status hermes proxy providers Allowed Portal paths: /v1/chat/completions, /v1/completions, /v1/embeddings, /v1/models. Anything else returns 404 with a clear error pointing at the allowed list. aiohttp is gated like gateway/platforms/api_server.py (try-import, clean runtime error if missing). No new core dependency. Tests: 24 unit tests + 1 separate E2E that spawns the real subprocess and verifies the upstream receives the right bearer with the client's header stripped. |
||
|
Teknium
|
72b5dd8658 |
fix(update): refresh lazy-installed backends on hermes update (#25766)
Pyproject's [all] extra was slimmed down in May 2026 — ~20 optional
backends moved to tools/lazy_deps.py and only install on first use.
hermes update runs uv pip install -e .[all] which doesn't touch any of
them, so pin bumps in LAZY_DEPS (CVE response, transitive fixes) were
silently ignored on already-activated backends.
Two changes:
1. _is_satisfied() now parses the spec and checks the installed version
against the constraint via packaging.specifiers. Previously it
returned True the moment the package name was importable, which made
ensure() a name-presence gate rather than a version-pin gate.
2. New active_features() / refresh_active_features() pair: lists every
feature with at least one of its packages currently installed, then
re-runs ensure() on each. Refresh is invoked at the end of
_cmd_update_impl, right after the [all] install completes. Cold
backends (never activated) stay quiet — no churn for them.
Output during update is one summary block:
→ Refreshing 4 active lazy backend(s)...
↑ 1 refreshed: provider.anthropic
✓ 3 already current
or
⚠ memory.honcho failed to refresh: <pip stderr>
Failures never raise out of update — backends keep their previously-
installed version and we tell the user to rerun once upstream is fixed.
security.allow_lazy_installs=false is honored: features get marked
"skipped" with the reason shown.
Tests: 18 new unit tests covering version-aware satisfaction (exact pin,
range, extras blocks, missing package, malformed spec), active feature
discovery, and refresh status reporting. All 61 lazy_deps tests pass.
|
||
|
Teknium
|
17e0e9d174 |
fix(cli): allow rotating broken OpenRouter / AI Gateway key in hermes model flow (#25750)
Before: when `OPENROUTER_API_KEY` (or `AI_GATEWAY_API_KEY`) was already set in ~/.hermes/.env, `hermes model openrouter` / `hermes model ai-gateway` skipped the API-key prompt entirely and jumped straight to the model picker. Users with a broken / expired / wrong key had no way to replace it without editing ~/.hermes/.env by hand or re-running `hermes setup` from scratch. Both flows now route through the existing `_prompt_api_key()` helper, which surfaces [K]eep / [R]eplace / [C]lear when a key is already configured — the same UX the generic API-key providers (z.ai, MiniMax, Gemini, etc.) and the Daytona setup already use. |
||
|
Alex-wuhu
|
c76e879574 |
feat: add NovitaAI as LLM provider
Add NovitaAI as a first-class provider with dedicated model selection flow, live pricing, and authoritative context length resolution. - Register provider in PROVIDER_REGISTRY, HERMES_OVERLAYS, and all alias/label maps (ID: novita, aliases: novita-ai, novitaai) - Add dedicated _model_flow_novita() with 3-tier model list fallback: Novita API → models.dev → static curated list - Fetch live pricing from /v1/models with correct unit conversion (input_token_price_per_m is 0.0001 USD per Mtok) - Add Novita-specific context length resolution (step 4b) in get_model_context_length(), prioritized over models.dev/OpenRouter - Register api.novita.ai in _URL_TO_PROVIDER to prevent early return from the custom-endpoint code path - Add models.dev mapping (novita → novita-ai) - Add default auxiliary model (deepseek/deepseek-v3-0324) - Add NOVITA_API_KEY to test isolation (conftest.py) - Update docs: providers page, env vars reference, CLI reference, .env.example, README, and landing page |
||
|
littlewwwhite
|
6f2d1c88b7 |
feat(custom): prompt and persist explicit api_mode for custom providers
Adds an explicit API compatibility mode prompt to the `hermes model -> custom`
flow so Codex-compatible third-party endpoints (and any other non-default
backend whose URL doesn't match the existing heuristics in
`_detect_api_mode_for_url`) can be selected explicitly instead of silently
falling back to chat_completions.
Choices: Auto-detect / chat_completions / codex_responses / anthropic_messages.
Persists `api_mode` to:
- `model.api_mode` (active session config)
- the matching `custom_providers[*]` entry (so re-activating the named
provider next time replays the same transport)
Salvaged from PR #6125 onto current main: kept the new prompt and the
`_save_custom_provider(api_mode=...)` plumbing; the named-custom flow
already extracts and applies `api_mode` from the saved entry on current
main so those changes are preserved as-is. Test fixtures updated for the
new prompt and the existing display-name prompt.
Co-authored-by: littlewwwhite <1095245867@qq.com>
|
||
|
briandevans
|
71c6dd0dcf |
fix(cli): add 'lsp' to _BUILTIN_SUBCOMMANDS so plugin discovery is skipped
`lsp` is registered as a top-level subparser in `main()` (lines 9539-9545) via `agent.lsp.cli.register_subparser`, so it shows up in `hermes --help` output alongside the other built-ins. The `_BUILTIN_SUBCOMMANDS` set used by `_plugin_cli_discovery_needed` to short-circuit the ~500-650ms plugin import pass did not list it, so every `hermes lsp ...` invocation paid the full discovery cost despite being a fully-built-in command. This is also caught by the parity guard added in #22120: `tests/hermes_cli/test_startup_plugin_gating.py::test_builtin_set_covers_every_registered_subcommand` has been failing on clean origin/main with: AssertionError: _BUILTIN_SUBCOMMANDS is missing these live subcommands: ['lsp']. Add them to hermes_cli/main.py::_BUILTIN_SUBCOMMANDS so plugin discovery can be skipped when the user targets them. Fix: add `"lsp"` to the frozenset (alphabetical position between `logs` and `mcp`). The accompanying `test_builtin_set_has_no_phantom_entries` guard still passes because `lsp` is genuinely live — registered via the guarded `try/except Exception` in main() since #24168. Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com> |
||
|
wuwuzhijing
|
a694a26330 |
docs(gateway): mention Weixin in gateway help and docstrings
Salvage of #21063 — adds 'Weixin, and more' to module-level docstrings in gateway/__init__.py, gateway/config.py, gateway/platforms/base.py and the 'hermes gateway' subparser description. Co-authored-by: wuwuzhijing <chuang.guo@hopechart.com> |
||
|
Teknium
|
83b93898c2 |
feat(lsp): semantic diagnostics from real language servers in write_file/patch (#24168)
* feat(lsp): semantic diagnostics from real language servers in write_file/patch
Wire ~26 language servers (pyright, gopls, rust-analyzer, typescript-language-server,
clangd, bash-language-server, ...) into the post-write lint check used by write_file
and patch. The model now sees type errors, undefined names, missing imports, and
project-wide semantic issues introduced by its edits, not just syntax errors.
LSP is gated on git workspace detection: when the agent's cwd or the file being
edited is inside a git worktree, LSP runs against that workspace; otherwise the
existing in-process syntax checks are the only tier. This keeps users on
user-home cwds (Telegram/Discord gateway chats) from spawning daemons.
The post-write check is layered: in-process syntax check first (microseconds),
then LSP semantic diagnostics second when syntax is clean. Diagnostics are
delta-filtered against a baseline captured at write start, so the agent only
sees errors its edit introduced. A flaky/missing language server can never
break a write -- every LSP failure path falls back silently to the syntax-only
result.
New module agent/lsp/ split into:
- protocol.py: Content-Length JSON-RPC framer + envelope helpers
- client.py: async LSPClient (spawn, initialize, didOpen/didChange,
ContentModified retry, push/pull diagnostic stores)
- workspace.py: git worktree walk-up + per-server NearestRoot resolver
- servers.py: registry of 26 language servers (extension match,
root resolver, spawn builder per language)
- install.py: auto-install dispatch (npm install --prefix, go install
with GOBIN, pip install --target) into HERMES_HOME/lsp/bin/
- manager.py: LSPService (per-(server_id, root) client registry, lazy
spawn, broken-set, in-flight dedupe, sync facade for tools layer)
- reporter.py: <diagnostics> block formatter (severity-1-only, 20-per-file)
- cli.py: hermes lsp {status,list,install,install-all,restart,which}
Wired into tools/file_operations.py:
- write_file/patch_replace now call _snapshot_lsp_baseline before write
- _check_lint_delta gains a third tier: LSP semantic diagnostics when
syntax is clean
- All LSP code paths swallow exceptions; write_file's contract unchanged
Config: 'lsp' section in DEFAULT_CONFIG with enabled (default true),
wait_mode, wait_timeout, install_strategy (default 'auto'), and per-server
overrides (disabled, command, env, initialization_options).
Tests: tests/agent/lsp/ -- 49 tests covering protocol framing (encode and
read_message round-trip, EOF/truncation/missing Content-Length), workspace
gate (git walk-up, exclude markers, fallback to file location), reporter
(severity filter, max-per-file cap, truncation), service-level delta filter,
and an in-process mock LSP server that exercises the full client lifecycle
including didChange version bumps, dedup, crash recovery, and idempotent
teardown.
Live E2E verified end-to-end through ShellFileOperations: pyright
auto-installed via npm into HERMES_HOME, baseline captured, type error
introduced, single delta diagnostic surfaced with correct line/column/code/
source, then patch fix removes the diagnostic from the output.
Docs: new website/docs/user-guide/features/lsp.md page covering supported
languages, configuration knobs, performance characteristics, and
troubleshooting; cli-commands.md updated with the 'hermes lsp' reference;
sidebar updated.
* feat(lsp): structured logging, backend gate, defensive walk caps
Cherry-picks the substantive ideas from #24155 (different scope, same
problem space) onto our PR.
agent/lsp/eventlog.py (new): dedicated structured logger
``hermes.lint.lsp`` with steady-state silence. Module-level dedup sets
keep a 1000-write session at exactly ONE INFO line ("active for
<root>") at the default INFO threshold; clean writes log at DEBUG so
they never reach agent.log under normal config. State transitions
(server starts, no project root for a file, server unavailable) fire
at INFO/WARNING once per (server_id, key); novel events (timeouts,
unexpected errors) fire WARNING per call. Grep recipe: ``rg 'lsp\\['``.
agent/lsp/manager.py: wire the eventlog into _get_or_spawn and
get_diagnostics_sync so users can answer "did LSP fire on this edit?"
with a single grep, plus surface "binary not on PATH" warnings once
instead of silently retrying every write.
tools/file_operations.py: backend-type gate. ``_lsp_local_only()``
returns False for non-local backends (Docker / Modal / SSH /
Daytona); ``_snapshot_lsp_baseline`` and ``_maybe_lsp_diagnostics``
now skip entirely on remote envs. The host-side language server
can't see files inside a sandbox, so this prevents pretending to
lint a file the host process can't open.
agent/lsp/protocol.py: 8 KiB cap on the header block in
``read_message``. A pathological server that streams headers
without ever emitting CRLF-CRLF would have looped forever consuming
bytes; now raises ``LSPProtocolError`` instead.
agent/lsp/workspace.py: 64-step cap on ``find_git_worktree`` and
``nearest_root`` upward walks, plus try/except containment around
``Path(...).resolve()`` and child ``.exists()`` calls. Defensive
against pathological inputs (symlink loops, encoding errors,
permission failures mid-walk) — the lint hook is hot-path code and
must never raise.
Tests:
- tests/agent/lsp/test_eventlog.py: 18 tests covering steady-state
silence (clean writes stay DEBUG), state-transition INFO-once
semantics (active for, no project root), action-required
WARNING-once (server unavailable), per-call WARNING (timeouts,
spawn failures), and the "1000 clean writes => 1 INFO" contract.
- tests/agent/lsp/test_backend_gate.py: 5 tests verifying
_lsp_local_only / snapshot_baseline / maybe_lsp_diagnostics skip
the LSP layer for non-local backends and route correctly for
LocalEnvironment.
- tests/agent/lsp/test_protocol.py: new test_read_message_rejects_runaway_header
exercising the 8 KiB cap.
Validation:
- 73/73 LSP tests pass (49 original + 18 eventlog + 5 backend-gate + 1 framer cap)
- 198/198 pass when run alongside existing file_operations tests
- Live E2E re-run with pyright still surfaces "ERROR [2:12] Type
... reportReturnType (Pyright)" through the full path, then patch
fix removes it on the next call.
* feat(lsp): atexit cleanup + separate lsp_diagnostics JSON field
Two improvements salvaged from #24414's plugin-form alternative,
keeping our core-integrated design:
1. atexit cleanup of spawned language servers
----------------------------------------------------------------
``agent/lsp/__init__.get_service`` now registers an ``atexit``
handler on first creation that tears down the LSPService on
Python exit. Without this, every ``hermes chat`` exit was
leaking pyright/gopls/etc. processes for a few seconds while
their stdout buffers drained -- they got reaped by the kernel
eventually but a watchful ``ps aux`` would catch them.
The handler runs once per process (gated by
``_atexit_registered``); idempotent ``shutdown_service``
ensures double-fire is a no-op. Errors during shutdown are
swallowed at debug level since by the time atexit fires the
user has already seen the agent's final response.
2. Separate ``lsp_diagnostics`` field on WriteResult / PatchResult
----------------------------------------------------------------
Previously the LSP layer folded its diagnostic block into the
``lint.output`` string, conflating the syntax-check tier with
the semantic tier. The agent (and any downstream parsers) now
read syntax errors and semantic errors as independent signals:
{
"bytes_written": 42,
"lint": {"status": "ok", "output": ""},
"lsp_diagnostics": "<diagnostics file=...>\nERROR [2:12] ..."
}
``_check_lint_delta`` returns to its original two-tier shape
(syntax check + delta filter); ``write_file`` and
``patch_replace`` independently fetch LSP diagnostics via
``_maybe_lsp_diagnostics`` and pass them into the new field.
``patch_replace`` propagates the inner write_file's
``lsp_diagnostics`` so the outer PatchResult carries the patch's
delta correctly.
Tests: 19 new
- tests/agent/lsp/test_lifecycle.py (8 tests): atexit registration
fires once and only once across N get_service calls; the
registered callable is our internal shutdown wrapper;
shutdown_service is idempotent and safe when never started;
exceptions during shutdown are swallowed; inactive service is
cached so we don't rebuild on every check.
- tests/agent/lsp/test_diagnostics_field.py (11 tests): WriteResult
/ PatchResult dataclass shape, to_dict include/omit semantics,
channel separation (lint and lsp_diagnostics carry independent
signals), write_file populates the field via
_maybe_lsp_diagnostics only when the syntax tier is clean,
patch_replace propagates the field forward from its internal
write_file.
Validation:
- 92/92 LSP tests pass (73 prior + 8 lifecycle + 11 diagnostics field)
- 217/217 pass with file_operations + LSP combined
- Live E2E reverified: clean writes -> both fields empty/none; type
error introduced -> lint clean (parses), lsp_diagnostics carries
the pyright reportReturnType block; patch fix -> both fields
clean again.
* fix(lsp): broken-set short-circuit so a wedged server isn't paid every write
Discovered while auditing failure paths: a language server binary that
hangs (sleep forever, no LSP traffic on stdin/stdout) caused EVERY
subsequent write to re-pay the 8s snapshot_baseline timeout. Five
writes = ~64s of dead time.
The bug: ``_get_or_spawn`` adds the (server_id, root) pair to
``_broken`` inside its inner exception handler, but when the OUTER
``_loop.run`` timeout fires, it cancels the inner task before that
handler runs. The pair never makes it to broken-set, so the next
write re-enters the spawn path and re-pays the timeout.
Fix:
- New ``_mark_broken_for_file`` helper at the service layer marks
the (server_id, workspace_root) pair broken from the OUTSIDE when
the outer timeout fires. Called from the except branches in
``snapshot_baseline``, ``get_diagnostics_sync`` (asyncio.TimeoutError
+ generic Exception). Also kills any orphan client process that
survived the cancelled future, fire-and-forget with a 1s ceiling.
- ``enabled_for`` now consults the broken-set BEFORE returning True.
Files in already-broken (server_id, root) pairs short-circuit to
False, so the file_operations layer skips the LSP path entirely
with no spawn cost. Until the service is restarted (``hermes lsp
restart``) or the process exits.
- A single eventlog WARNING is emitted on first mark-broken so the
user knows which server gave up. Subsequent edits in the same
project stay silent.
Tests: 7 new in tests/agent/lsp/test_broken_set.py — covers the
key shape (server_id, per_server_root), enabled_for short-circuit,
sibling-file skip in same project, project isolation (broken in
A doesn't affect B), graceful no-op for missing-server / no-workspace,
and an end-to-end test that snapshots after a failure and verifies
the next ``enabled_for`` returns False.
Validation:
- Live retest of the wedged-binary scenario: 5 sequential writes,
first 8.88s (the one snapshot timeout), subsequent four ~0.84s
(no LSP cost). Down from 5x12.85s = 64s before this fix.
- 99/99 LSP tests pass (92 prior + 7 broken-set)
- 224/224 pass with file_operations + LSP combined
- Happy path E2E reverified — clean write, type error introduced,
patch fix all behave correctly with the new broken-set logic.
Note: the FIRST write to a wedged binary still pays 8s (the
snapshot_baseline timeout). We could shorten that, but pyright/
tsserver normally take 2-3s and slow CI rust-analyzer can need
5+ seconds, so 8s is the conservative ceiling. Subsequent writes
are instant.
|
||
|
rob-maron
|
c23a87bc16 | union paid recs from nous portal with static list (#24509) | ||
|
Teknium
|
c1eb2dcda7 |
feat(security): supply-chain advisory checker + lazy-install framework + tiered install fallback (#24220)
* feat(security): supply-chain advisory checker + lazy-install framework + tiered install fallback
Three coordinated mitigations for the Mini Shai-Hulud worm hitting
mistralai 2.4.6 on PyPI (2026-05-12) and for the next single-package
compromise that follows.
# What this PR makes true
1. Users with the poisoned mistralai 2.4.6 in their venv get a loud
detection banner with copy-pasteable remediation steps the moment
they run hermes (and on every gateway startup).
2. One quarantined / yanked PyPI package can no longer silently demote
a fresh install to 'core only' — the installer keeps every other
extra and tells the user which tier landed.
3. Future opt-in backends (Mistral, ElevenLabs, Honcho, etc.) can
lazy-install on first use under a strict allowlist, instead of
eagerly pulling everything at install time.
# Detection: hermes_cli/security_advisories.py
- ADVISORIES catalog (one entry currently: shai-hulud-2026-05 for
mistralai==2.4.6). Adding the next one is a single dataclass.
- detect_compromised() uses importlib.metadata.version() — no pip
dependency, works in uv venvs that lack pip.
- Banner cache (~/.hermes/cache/advisory_banner_seen) rate-limits
the startup banner to once per 24h per advisory.
- Acks persisted to security.acked_advisories in config.yaml; never
re-banner after ack.
- Wired into:
* hermes doctor — runs first, prints full remediation block
* hermes doctor --ack <id> — dismisses an advisory
* cli.py interactive run() and single-query branches — short
stderr banner pointing at hermes doctor
* gateway/run.py startup — operator-visible warning in gateway.log
# Lazy-install framework: tools/lazy_deps.py
- LAZY_DEPS allowlist maps namespaced feature keys (tts.elevenlabs,
memory.honcho, provider.bedrock, etc.) to pip specs.
- ensure(feature) installs missing deps in the active venv via the
uv → pip → ensurepip ladder (matches tools_config._pip_install).
- Strict spec safety regex rejects URLs, file paths, shell metas,
pip flag injection, control chars — only PyPI-by-name accepted.
- Gated on security.allow_lazy_installs (default true) plus the
HERMES_DISABLE_LAZY_INSTALLS env var for restricted/audited envs.
- Migrated three backends as proof of pattern:
* tools/tts_tool.py — _import_elevenlabs() calls ensure first
* plugins/memory/honcho/client.py — get_honcho_client lazy-installs
* tts.mistral / stt.mistral entries pre-registered for when PyPI
restores mistralai
# Installer fallback tiers
scripts/install.sh, scripts/install.ps1, setup-hermes.sh:
- Centralised _BROKEN_EXTRAS list (currently: mistral). Edit one
array when a transitive breaks; users keep every other extra.
- New 'all minus known-broken' tier between [all] and the existing
PyPI-only-extras tier. Only kicks in when [all] fails resolve.
- All three tiers explicit: every fallback announces which tier
landed and prints a re-run hint when not on Tier 1.
- install.ps1 and install.sh both regenerate their tier specs from
the same _BROKEN_EXTRAS array so updates stay in sync.
Side effect: install.ps1 Tier 2 spec previously hardcoded 'mistral'
in its extra list — bug fixed by the refactor (mistral is filtered
out).
# Config
hermes_cli/config.py — DEFAULT_CONFIG.security gains:
- acked_advisories: [] (advisory IDs the user has dismissed)
- allow_lazy_installs: True (security gate for ensure())
No config version bump needed — both keys nest under existing
security: block, and load_config's deep-merge picks up DEFAULT_CONFIG
defaults for users with older configs.
# Tests
tests/hermes_cli/test_security_advisories.py — 23 tests covering:
- detect_compromised matches/non-matches, wildcard frozenset
- ack persistence, idempotence, blank rejection, config-failure path
- banner cache rate limiting + 24h re-banner + ack-stops-banner
- short_banner_lines / full_remediation_text / render_doctor_section /
gateway_log_message
- shipped catalog well-formedness invariant
tests/tools/test_lazy_deps.py — 40 tests covering:
- spec safety: 11 safe parametrized + 18 unsafe parametrized
- allowlist: unknown-feature rejection, namespace.name shape,
every shipped spec passes the safety regex
- security gating: config flag, env var, default, fail-open
- ensure() happy/sad paths: already-satisfied, install success,
pip stderr surfaced on failure, install-succeeds-but-still-missing
- is_available, feature_install_command
Combined: 63 new tests, all passing under scripts/run_tests.sh.
# Validation
- scripts/run_tests.sh tests/hermes_cli/test_security_advisories.py
tests/tools/test_lazy_deps.py → 63/63 passing
- scripts/run_tests.sh tests/hermes_cli/test_doctor.py
tests/hermes_cli/test_doctor_command_install.py
tests/tools/test_tts_mistral.py tests/tools/test_transcription_tools.py
tests/tools/test_transcription_dotenv_fallback.py → 165/165 passing
- scripts/run_tests.sh tests/hermes_cli/ tests/tools/ →
9191 passed, 8 pre-existing failures (verified on origin/main
before this change)
- bash -n on install.sh and setup-hermes.sh → OK
- py_compile on all modified .py files → OK
- End-to-end smoke test of detect_compromised + render_doctor_section
+ gateway_log_message with mocked installed version → produces
copy-pasteable remediation output
# Community
Full advisory + remediation steps:
website/docs/community/security-advisories/shai-hulud-mistralai-2026-05.md
Short-form post drafts (Discord, GitHub pinned issue, README banner):
scripts/community-announcement-shai-hulud.md
Refs: PR #24205 (mistral disabled), Socket Security advisory
<https://socket.dev/blog/mini-shai-hulud-worm-pypi>
* build(deps): pin every direct dep to ==X.Y.Z (no ranges)
Companion to the supply-chain advisory work: replace every >=/</~= range
in pyproject.toml's [project.dependencies] and [project.optional-dependencies]
with an exact ==X.Y.Z pin sourced from uv.lock.
Why: ranges allow PyPI to ship a fresh version of any direct dep at any
time without a code review on our side. With ranges, the malicious
mistralai 2.4.6 release would have been pulled by every fresh
'pip install -e .[all]' for the hours between upload and PyPI's
quarantine — exactly the install window we got hit on. Exact pins close
that window: the only way a new package version reaches a user is via
an intentional update on our end.
What the user-facing change is: nothing, behavior-wise. Every package
resolves to the same version it was already resolving to via uv.lock —
the pins just remove the resolver's freedom to pick a different one.
Cost: any user installing Hermes alongside another package that requires
a newer pin gets a resolver conflict. Acceptable for our isolated-venv
install path; documented in the new comment block.
Build-system requires line (setuptools>=61.0) is intentionally left
as a range — pinning the build backend would block fresh pip from
bootstrapping the build on architectures where that exact wheel isn't
available.
mistral extra (mistralai==2.3.0) is pinned but stays out of [all]
(per PR #24205). 'uv lock' regeneration will fail until PyPI restores
mistralai; lockfile regeneration is gated behind that, NOT on every PR.
LAZY_DEPS in tools/lazy_deps.py also moved to exact pins so the lazy-
install pathway can never resolve a different version than the one
declared in pyproject.toml.
Validation:
- Cross-checked all 77 pinned direct deps in pyproject.toml against
uv.lock — every pin matches the resolved version exactly.
- Cross-checked all LAZY_DEPS specs against uv.lock — same.
- 'uv pip install -e .[all] --dry-run' resolves 205 packages cleanly.
- tests/tools/test_lazy_deps.py + tests/hermes_cli/test_security_advisories.py
→ 63/63 passing (every shipped spec passes the safety regex).
- Doctor + TTS + transcription targeted suite → 146/146 passing.
* build(deps): hash-verify transitives via uv.lock; remove unresolvable [mistral] extra
You asked: 'what about the dependencies the dependencies rely on?' —
correctly noting that exact-pinning direct deps in pyproject.toml does
NOT cover the transitive graph. `pip install` and `uv pip install` both
re-resolve transitives fresh from PyPI at install time, so a compromised
transitive (e.g. `httpcore` if it got worm-poisoned tomorrow) would
still hit our users even with every direct dep exact-pinned.
# What this commit fixes
1. **Both real installer scripts now prefer `uv sync --locked` as Tier 0.**
uv.lock records SHA256 hashes for every transitive — a compromised
package with a different hash gets REJECTED. Falls through to the
existing `uv pip install` cascade if the lockfile is missing or
stale, with a loud warning that the fallback path does NOT
hash-verify transitives. Previously only `setup-hermes.sh` (the dev
path) used the lockfile; `scripts/install.sh` and `scripts/install.ps1`
(the paths fresh users actually run) skipped it.
2. **Removed the `[mistral]` extra entirely.** The `mistralai` PyPI
project is fully quarantined right now — every version returns 404,
so any pin we wrote was unresolvable, which broke `uv lock --check`
in CI. Restoration is documented in pyproject.toml as a 5-step
checklist (verify, re-add extra, re-enable in 4 modules, regenerate
lock, optionally re-add to [all]).
3. **Regenerated uv.lock.** 262 packages, mistralai/eval-type-backport/
jsonpath-python pruned. `uv lock --check` now passes.
# Defense-in-depth view
| Layer | Where | Protects against |
|----------------------------|-------------------|-------------------------------------------|
| Exact pins in pyproject | direct deps | new mistralai 2.4.6-style direct compromise |
| uv.lock + `--locked` install | transitive graph | transitive worm injection |
| Tier-0 hash-verified path | install.sh / .ps1 | actually USE the lockfile in fresh installs |
| `uv lock --check` CI gate | every PR | drift between pyproject and lockfile |
| `hermes_cli/security_advisories.py` | runtime | cleanup for users who already got hit |
The exact pinning + hash verification together close the supply-chain
gap. Without the lockfile path, exact pins alone are theater.
# Validation
- `uv lock --check` → passes (262 packages resolved, no drift).
- `bash -n` on install.sh + setup-hermes.sh → OK.
- 209/209 tests passing across new + adjacent test files
(test_lazy_deps.py, test_security_advisories.py, test_doctor.py,
test_tts_mistral.py, test_transcription_tools.py).
- TOML parse OK.
* chore: remove community announcement drafts (PR body covers it)
* build(deps): lazy-install every opt-in backend (anthropic, search, terminal, platforms, dashboard)
Extends the lazy-install framework to cover everything that's not used by
every hermes session. Base install drops from ~60 packages to 45.
Moved out of core dependencies = []:
- anthropic (only when provider=anthropic native, not via aggregators)
- exa-py, firecrawl-py, parallel-web (search backends; only when picked)
- fal-client (image gen; only when picked)
- edge-tts (default TTS but still optional)
New extras in pyproject.toml: [anthropic] [exa] [firecrawl] [parallel-web]
[fal] [edge-tts]. All added to [all].
New LAZY_DEPS entries: provider.anthropic, search.{exa,firecrawl,parallel},
tts.edge, image.fal, memory.hindsight, platform.{telegram,discord,matrix},
terminal.{modal,daytona,vercel}, tool.dashboard.
Each import site now calls ensure() before importing the SDK. Where the
module had a top-level try/except (telegram, discord, fastapi), the
graceful-fallback pattern was extended to lazy-install on first
check_*_requirements() call and re-bind module globals.
Updated test_windows_native_support.py tzdata check from snapshot
(>=2023.3 literal) to invariant (any version + win32 marker).
Validation:
- Base install: 45 packages (was ~60); 6 newly-extracted packages absent
- uv lock --check: passes (262 packages, no drift)
- 209/209 lazy_deps + advisory + doctor + tts/transcription tests passing
- py_compile clean on all 12 modified modules
|
||
|
Teknium
|
e85592591e |
fix(nous): surface Portal-flagged free models in picker even when curated list is stale (#24082)
Free-tier users were seeing 'No free models currently available.' in the
`hermes model` and post-login pickers even though qwen/qwen3.6-plus is
free on the Portal right now. Three independent breakages compounded:
1. The docs-hosted catalog manifest at website/static/api/model-catalog.json
was not regenerated when _PROVIDER_MODELS['nous'] was updated, so users
fetching the manifest got a list that didn't include qwen/qwen3.6-plus.
2. _resolve_nous_pricing_credentials() returned ('', '') on any auth blip,
collapsing get_pricing_for_provider('nous') to {} and making every
curated model fall through the free-tier filter as 'paid'.
3. Even with healthy pricing, the picker only ever showed models from the
in-repo curated list intersected with live pricing — a Portal-flagged
free model not yet in the curated list could never appear.
Changes:
- hermes_cli/models.py: new union_with_portal_free_recommendations() that
augments the curated list with Portal freeRecommendedModels entries
(with synthetic free pricing so partition keeps them). The Portal's
/api/nous/recommended-models endpoint is now the source of truth for
free-tier surfacing — old Hermes builds will see new free models
without a CLI release.
- hermes_cli/models.py: _resolve_nous_pricing_credentials() falls back to
the public inference base URL when runtime cred resolution fails.
The /v1/models endpoint exposes pricing without auth, so silently
returning {} just because a refresh token expired was wrong.
- hermes_cli/auth.py + hermes_cli/main.py: both free-tier picker call
sites call union_with_portal_free_recommendations() before partition.
- tests/hermes_cli/test_models.py: 7 tests covering union behaviour
(prepend, dedup, end-to-end with stale pricing, empty/missing/error
payloads, invalid entries).
- tests/hermes_cli/test_model_catalog.py: drift guard
TestManifestMatchesInRepoLists fails CI when _PROVIDER_MODELS['nous']
or OPENROUTER_MODELS is edited without re-running
scripts/build_model_catalog.py. Verified empirically that removing a
manifest entry triggers an assertion with an actionable error message.
Validation:
- 133/133 targeted tests pass (test_models, test_model_catalog,
test_auth_nous_provider).
- Live E2E against the real Portal:
- Stale curated list ['claude-opus','claude-sonnet','gpt-5.4'] (no
qwen) → after union: ['qwen/qwen3.6-plus', ...] →
partition(free_tier=True): selectable=['qwen/qwen3.6-plus'].
- Simulated expired refresh token → anon fetch returns 403 pricing
entries including qwen/qwen3.6-plus -> {prompt:0, completion:0}.
- ruff: clean.
|
||
|
Teknium
|
ced1990c1c |
feat(computer-use): refresh cua-driver on hermes update + add install --upgrade (#24063)
cua-driver was only installed once on toolset enable: `_run_post_setup` early-returns when the binary is already on PATH, so upstream fixes (e.g. v0.1.6 Safari window-focus fix) never reached existing users without manual reinstall. Two refresh points now: - `hermes update` re-runs the upstream installer at the end of the update if cua-driver is on PATH (macOS-only, no-op otherwise). Ties driver freshness to the user-controlled update cadence — no startup latency, no per-launch GitHub API call. - `hermes computer-use install --upgrade` for manual force-refresh. The upstream `install.sh` always pulls the latest release, so re-running is the canonical upgrade path. No version-comparison logic needed. `hermes computer-use status` now shows the installed version, and points at `--upgrade` for refreshing. |
||
|
ethernet
|
c6ca11618a |
refactor(tui): simplify TUI build logic, remove stale staleness checks
The old mtime-tracking staleness machinery (_tui_build_needed, _hermes_ink_bundle_stale, _find_bundled_tui) tried to avoid rebuilding by comparing source timestamps to dist/entry.js. This was fragile and added ~100 lines of code. Replace with three clear paths: 1. HERMES_TUI_DIR set (prebuilt/nix): just node dist/entry.js, no build 2. --dev mode: tsx src/entry.tsx, no build, hot reload 3. Normal: always npm run build (esbuild is ~1s, correctness > caching) Also error when HERMES_TUI_DIR is set with --dev (footgun: prebuilt bundle has no source code to hot-reload). |
||
|
ethernet
|
3197b4de6d | Merge remote-tracking branch 'origin/main' into fix/bundle-size | ||
|
kshitij
|
2ec8d2b42f |
chore: ruff auto-fix PLR6201 — tuple → set in membership tests (#23937)
Replace with for all literal-tuple membership tests. Set lookup is O(1) vs O(n) for tuple — consistent micro-optimization across the codebase. 608 instances fixed via `ruff --fix --unsafe-fixes`, 0 remaining. 133 files, +626/-626 (net zero). |
||
|
kshitij
|
657874460f |
chore: ruff auto-fixes — collapsible-else-if, if-stmt-min-max, dict.fromkeys (#23926)
PLR5501 (collapsible-else-if): 28 instances — else: if: → elif: PLR1730 (if-stmt-min-max): 15 instances — if x<y: x=y → x=max(x,y) C420 (dict.fromkeys): 2 instances — dictcomp → dict.fromkeys PLR1704 (redefined-argument): 1 instance — reason → err_msg (shadow fix) C414 (unnecessary-list): 1 instance — sorted(list(x)) → sorted(x) 28 files, -44 net lines. All mechanical, zero logic changes. 17,211 tests pass, zero regressions. |
||
|
Teknium1
|
283381b1ce |
fix(dashboard): validate dist exists when --skip-build is set
Follow-up to PR #23824. Adds two correctness fixes on top of the contributor's salvaged commit: 1. Stale-dist fallback no longer gated on `fatal=False`. `cmd_dashboard` passes `fatal=True` and is the primary scenario this fallback is for (issue #23817 — Windows Scheduled Task at logon). The previous gate meant the fallback never fired in the case it was designed for. 2. `--skip-build` now verifies the dist actually exists before starting the server. Without this, a misconfigured pre-build would launch the dashboard pointing at a missing dist and silently serve 404s. We now exit 1 with a clear "pre-build first: cd web && npm run build" message, and on success print which dist directory is being used. Verified end-to-end on Linux: - build fails + stale dist (fatal=True) -> fallback fires - build fails + no dist (fatal=True) -> exit 1 with stderr surfaced - build fails + stale dist (fatal=False) -> fallback fires - --skip-build + missing dist -> exit 1 with clear guidance - --skip-build + valid dist -> 'Skipping web UI build...' |
||
|
ygd58
|
7085f4e238 |
fix(dashboard): fallback to stale dist, retry build, add --skip-build flag
Three improvements for non-interactive contexts (Windows Scheduled Tasks, CI/CD) where the web UI build may fail (issue #23817): 1. Retry build once after 3s — covers boot-time races (antivirus scanning Node.js, npm cache not ready, transient disk I/O) 2. Fall back to existing dist when build fails (non-fatal mode) — a stale UI is far better than no UI at all 3. Add --skip-build flag — lets callers pre-build in their wrapper script and start the dashboard without internal build attempt 4. Surface npm stderr in build failure output for easier debugging Fixes #23817 |
||
|
文森.Z
|
a479ec01ed |
fix: make web UI build output decoding robust on Windows
On Windows systems using a Chinese GBK locale, `hermes update` could misreport the Web UI build as failed even when `npm run build` actually succeeded. The failure was caused by Python decoding captured npm output with the process locale inside a background subprocess reader thread. When npm emitted bytes such as `0x85`, decoding under GBK raised `UnicodeDecodeError`, and Hermes then surfaced a misleading "Web UI build failed" warning. This change makes the npm install/npm ci path and the Web UI build step decode captured output explicitly as UTF-8 with `errors="replace"`. That keeps unexpected bytes from crashing output collection, preserves successful builds, and prevents false negatives during update on Windows. The patch also adds regression tests that verify these subprocess calls always use explicit UTF-8 decoding with replacement semantics. |
||
|
Teknium
|
4d9dcbc47a |
fix(windows): unbreak install + update on Windows (#23394)
Three issues hit during a fresh Windows install + first `hermes update`:
1. `pyproject.toml` re-introduced the invalid `exclude-newer = "7 days"`
under [tool.uv]. uv requires an RFC 3339 / ISO date — relative-duration
strings parse-fail. The line was removed in PR #21221 on May 7 and
accidentally added back in the v0.13.0 release commit (
|
||
|
Teknium
|
4375b82cd9 |
feat(curator): show rename map in user-visible summary (#22910)
* feat(curator): show rename map (where skills went) in user-visible summary
The full data has always been on disk in REPORT.md, but the user-visible
curator summary (gateway 💾 line, CLI session-start panel,
`hermes curator status`) was counts-only — "consolidated 4 into 2
umbrellas" with no names. Users only discovered renames when something
they expected was gone.
New `_build_rename_summary()` formats the rename map and appends it to
`final_summary`:
auto: 1 marked stale; llm: consolidated 2 into 1, pruned 1
archived 3 skill(s):
• docx-extraction → document-tools
• pdf-extraction → document-tools
• old-stale-thing — pruned (stale)
full report: hermes curator status
Empty on no-op ticks (no archives), so most ticks add zero log noise.
Cap of 10 entries keeps agent.log readable when a 50-skill
consolidation lands; the full list is always in REPORT.md.
`hermes curator status` indents continuation lines so the multi-line
summary reads as one logical field.
5 new tests in tests/agent/test_curator_classification.py covering
empty / consolidation / pruning / cap / mixed cases.
* feat(curator): show recent run summary once on `hermes update`
The rename map is now visible from where users actually look — the
update flow they explicitly run, instead of just the live gateway log
or transient CLI session-start panel.
Behavior:
- After `hermes update`, if the most recent curator run produced a
rename map (multi-line summary) that the user hasn't seen yet, print
it once with a 'last run Xh ago' header and a one-time-message
footer.
- Stamp `last_run_summary_shown_at = last_run_at` after printing so
subsequent `hermes update` invocations are silent until a newer
curator run lands.
- Silent on no-op runs (single-line summary like 'auto: no changes;
llm: no change'). Still stamps shown so we don't reconsider on
every update.
- Silent when the curator has never run (the existing first-run
notice handles that case).
Output:
ℹ Skill curator — last run 4h ago
auto: 1 marked stale; llm: consolidated 2 into 1, pruned 1
archived 3 skill(s):
• docx-extraction → document-tools
• pdf-extraction → document-tools
• old-stale-thing — pruned (stale)
full report: hermes curator status
(This message shows once per curator run. View anytime: hermes curator status)
State migration:
- `_default_state()` gains `last_run_summary_shown_at: None`. Existing
state files lack the field; `.get()` returns None; the comparison
treats any prior run as 'not yet shown' and prints once on next
update. Self-healing.
Wiring:
- Both `hermes update` paths in main.py call the new
`_print_curator_recent_run_notice()` right after the existing
first-run notice. Best-effort try/except so a state-load bug
never breaks the update flow.
6 tests in tests/hermes_cli/test_curator_recent_run_notice.py:
no-run / single-line / multi-line / show-once / new-run-resets /
time-formatter buckets.
|
||
|
Teknium
|
c179bdab3c |
fix(install): also patch psutil on Termux fresh-install path
The Termux update path (PR #22814) prebuilds psutil from a marker-patched sdist so 'platform android is not supported' doesn't kill it. The same psutil setup.py error blocks fresh installs via scripts/install.sh — only the update path was wired up. Without this, a brand-new Termux user can't get past the very first 'pip install -e .[termux-all]' call. - New scripts/install_psutil_android.py — standalone version of the same patcher hermes_cli/main.py uses, callable from bash. - scripts/install.sh detects sys.platform == 'android' and runs the patcher before pip install. - TODO note added to both copies pointing at upstream https://github.com/giampaolo/psutil/pull/2762; remove both when that ships. Note: we keep psutil as a base dep on Android (do not adopt the proposed sys_platform != 'android' marker in pyproject). Removing it would crash five unguarded 'import psutil' sites at runtime (tools/code_execution_tool.py, tools/tts_tool.py, tools/process_registry.py (2x), gateway/platforms/whatsapp.py). |
||
|
adybag14-cyber
|
6d5d467d39 | fix(update): use termux-all uv fallback path on Termux |