Per-session /model overrides (_session_model_overrides) were in-memory only,
so a gateway restart silently reverted every session to the global default
model. Persist the non-secret parts (model/provider/base_url ONLY — never
api_key) into the session entry in sessions.json and lazily rehydrate them
on first use after a restart, re-resolving credentials through the normal
runtime provider resolution.
- gateway/session.py: SessionEntry.model_override field with
sanitize_model_override() (allowlist: model/provider/base_url) applied on
both serialization and deserialization; SessionStore.set_model_override /
get_model_override accessors. reset_session() already creates a fresh entry,
so /new keeps its clear-on-reset semantics — a restart cannot resurrect an
override the user reset away.
- gateway/slash_commands.py: write-through at both /model set sites (text
command + picker) after storing the in-memory override.
- gateway/run.py: _rehydrate_session_model_override() called from
_resolve_session_agent_runtime(); in-memory state always wins, credentials
are re-resolved per provider (credential-less fallback on failure). Session
expiry finalization also drops the persisted override.
- tests/gateway/test_session_model_override_persistence.py: restart
round-trip, /new clearing, api_key-never-serialized (including tampered
sessions.json), rehydration + live-state precedence + credential-failure
degradation.
Salvaged from #3659 by @Git-on-my-level, narrowed to the restart-persistence
gap confirmed in triage.
Salvaged from PR #3243 by @Mibayy, reimplemented against current main
(the original diff targeted a removed gateway/run.py handler).
- /compact is now a first-class alias of /compress (CLI, gateway,
Telegram/Slack/Discord command lists, autocomplete) — also fixes the
dangling '/compact' references in gateway error messages
(gateway/run.py context-exhausted banners).
- --preview / --dry-run: report what WOULD be compressed (message
counts, token estimate, 'here [N]' boundary) without touching the
transcript. Flags coexist with the existing 'here [N]' / focus-topic
args on both the CLI and gateway surfaces via shared pure helpers in
hermes_cli/partial_compress.py.
- --aggressive (LLM-free hard truncation) is intentionally NOT
implemented: it would need its own transcript-persistence branch
outside the guarded _compress_context rotation machinery (#44794
data-loss class). The flag is recognized and returns an explanatory
message pointing at '/compress here [N]' and /undo instead of being
mis-parsed as a focus topic.
- locales: gateway.compress.aggressive_unsupported added to all 16
catalogs (parity test enforced).
- release.py: AUTHOR_MAP entry for contributor credit.
Salvage of #3459 by @keslerm, reimplemented against the restructured
progress-callback block in gateway/run.py (resolve_display_setting,
needs_progress_queue, thinking-relay). Duplicate PR #3458 by @dlkakbs was
submitted 4 minutes earlier with the same feature — both credited.
Co-authored-by: Dilee <uzmpsk.dilekakbas@gmail.com>
tool_progress: log keeps the chat silent and appends timestamped tool-call
lines to ~/.hermes/logs/tool_calls.log via a dedicated queue drained by an
async writer (RotatingFileHandler 5MB x 3, RedactingFormatter so secrets
never land on disk). Gateway-only by design; thinking_progress relaying and
the webhook gate are unaffected. /verbose now cycles
off -> new -> all -> verbose -> log.
Manual /compress built a temporary AIAgent without the originating
platform / stable gateway session key, so an external context engine
ingested the retained transcript tail as source=cli during /compress
and again as the real platform on resume (duplicate cli,telegram rows).
Pass platform=_platform_config_key(source.platform) + the in-scope
gateway_session_key, mirroring the normal gateway turn. Assigned into
runtime_kwargs (single-valued, authoritative) so they neither collide
into a duplicate-kwarg TypeError nor lose to a stale resolver value.
Fixes#50422.
The persisted (DB-fallback) branch of _resume_target_allowed() compared only
sessions.user_id against source.user_id, but build_session_key() keys the
participant on `user_id_alt or user_id` (Signal/Feishu carry the canonical
participant in user_id_alt). The sessions table has no user_id_alt column, so a
per-user row a caller shares the user_id of — but not the user_id_alt — maps to a
DIFFERENT live session key, yet the row's user_id matched both participants:
a co-member could resume/enumerate another member's persisted per-user group or
no-chat_id DM session (IDOR, CWE-639).
The live-origin guard (_same_origin_chat) already compares user_id_alt; the
persisted fallback couldn't. Fail closed on both identity-bearing per-user
branches (non-DM per-user group, no-chat_id DM) whenever the caller carries a
user_id_alt. Shared group/thread sessions (no participant scoping) and DMs keyed
on a present chat_id are unaffected; callers keyed on user_id (e.g. Telegram)
still resume their own rows; admin --all override still applies.
Regression: tests/gateway/test_resume_command.py::
test_resume_persisted_fallback_fails_closed_on_user_id_alt.
Addresses egilewski follow-up on PR #52355: the persisted-row fallback required
row_uid == caller_uid for every identity-bearing caller, which wrongly blocked a
legitimately SHARED non-DM group session. With group_sessions_per_user=False,
build_session_key resolves every participant of a chat to one session key, so a
co-member (different user_id) in the same chat shares Bob's session — but the
guard returned "/resume blocked".
Mirror is_shared_multi_user_session() in the fallback, exactly as the live-origin
branch (_same_origin_chat) already does: for a non-DM caller, first require the
same platform + chat + thread provenance (unchanged — blank/mismatching chat
still fails closed), then allow without user-id equality when the session is
shared, and keep requiring the same owner for per-user group/thread sessions.
DM scoping is unchanged (always per-user).
Adds a regression: shared group → co-member allowed; per-user group → blocked;
different chat → blocked even when shared.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Addresses egilewski/CodeRabbit follow-up on PR #52355: the identity-bearing
persisted fallback compared row_chat == caller_chat, which SUCCEEDS when both
normalize to "" — so a legacy row with no stored chat provenance could still be
resumed by a caller that also has no chat_id (probe: a group caller with
chat_id=None resuming a NULL-chat telegram row on matching user_id).
A non-DM session (group/channel/forum/thread) is keyed by chat_id in
build_session_key, so a blank chat on either side is NOT proof of same-chat.
Require both row and caller chat_id to be non-blank and equal for non-DM
callers; a legacy NULL-chat row (or a caller missing its chat_id) now fails
closed. DMs are unchanged: they are keyed on user_id, so a no-chat_id DM row
stays resumable by the same user (and a mismatching chat_id, when present, is
still rejected).
Adds the blank-caller-chat group probe and a DM no-chat_id same-user/other-user
regression.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Addresses the egilewski/CodeRabbit and teknium1 reviews on PR #52355.
1) Persisted-row chat scope (egilewski/CodeRabbit). The sessions table stored
only source + user_id, so an identity-bearing caller could resume/list an
INACTIVE persisted row that matched source+user_id but belonged to a
DIFFERENT chat (probe: same user moves `same_user_chat_b` into chat-a).
Persist the messaging origin and compare it:
- schema: sessions gains origin_chat_id / origin_thread_id (declarative
auto-migration via the existing column reconciler).
- SessionDB._insert_session_row accepts + writes the two columns.
- the gateway records them at every origin-bearing creation: both
SessionStore create paths (get_or_create_session + reset/switch) and the
/title path that materializes a store-only session into the DB.
- _resume_target_allowed's identity branch now also requires
origin_chat_id AND origin_thread_id to match the caller. Legacy rows with
NULL origin (created before this change) cannot prove chat origin and
fail closed — resume them via a live session or an admin --all override.
The /sessions listing inherits the fix (non-Matrix rows route through the
same helper).
2) DM key-contract mirror (teknium1). _same_origin_chat's DM branch only
compared user_id and allowed when either side was missing, diverging from
build_session_key (no-chat_id DM keys are built from user_id_alt or
user_id). It now: treats an equal non-blank chat_id as sufficient (the DM
key IS the chat_id when present), and otherwise compares the effective
participant id (user_id_alt or user_id), failing closed on a
missing/different participant so two no-chat_id DM origins are never
conflated.
Tests: add same-user/different-chat (e2e + unit) and chat-scope unit cases;
add DM no-chat_id / user_id_alt / no-identity / same-chat_id cases; update
existing fixtures to record origin_chat_id like the gateway does; make the
cross-room `/resume --all` listing test run as admin (cross-room listing is
admin-gated) and give the boundary-state resume runner a live same-origin so
its post-resume clearing assertions exercise an authorized resume.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Addresses egilewski (Codex/CodeRabbit) follow-up on PR #52355: the no-identity
branch of _resume_target_allowed() returned True after only checking that the
row's source didn't mismatch the caller platform. The sessions table has no
chat_id, so same-platform alone is not ownership proof — a Telegram group
caller in chat-a with user_id=None could resume (and /sessions could list) a
persisted row owned by another chat/user (e.g. victim_chat_b_uid,
source=telegram, user_id=victim).
Fail closed: an identity-less caller can no longer bind to or enumerate a
persisted session by id/title. A legitimate same-chat resume of an ACTIVE
session still works via the live-origin branch (which compares chat_id), and an
operator can use the admin --all override. The listing path inherits the fix
because _resume_row_visible() routes non-Matrix rows through the same helper.
Adds an end-to-end no-identity probe (resume blocked) and a unit-level
persisted-fallback assertion.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Addresses egilewski (Codex) CR on PR #52355: the Matrix direct /resume <id>
guard (and the Matrix listing guard) used _same_matrix_room(), which compared
only platform + chat_id. But build_session_key() appends thread_id for every
chat type when present, and Matrix scopes the model's turn to the current
room/thread — so a live session in another thread of the SAME room is a
DIFFERENT session. A caller in thread A could resume a target whose live origin
was in thread B (switch_session fired on the victim session).
Add a thread_id equality check to _same_matrix_room so room scoping also
enforces the thread boundary. Non-threaded rooms have empty thread_id on both
sides ("" == ""), so existing room-level sharing is preserved unchanged; only
cross-thread access is newly blocked. This mirrors the thread handling already
in _same_origin_chat for the non-Matrix adapters.
Adds regressions replaying the reviewer's thread-a -> thread-b probe (direct
guard + listing path), plus same-thread-shared and thread-vs-no-thread cases.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Addresses egilewski (Codex) CR on PR #52355: the persisted-row fallback in
_resume_target_allowed() skipped the platform/source check when sessions.source
was blank (the row_src guard only rejects a *mismatching* non-blank source),
then accepted the row on user_id equality alone. A legacy/malformed row with a
blank source but a matching user_id was therefore resumable — an identified
caller could bind to a transcript whose origin it can't prove.
Now an identity-bearing caller is allowed only when the row proves BOTH the
same owner (non-blank user_id match) AND the same platform/origin (non-blank
source match). A blank/legacy source fails closed, exactly like a missing
user_id. No-identity (single-user) callers are unaffected.
Adds a regression replaying the reviewer's blank-source same-uid probe.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
/resume resolved a persisted session id/title with no ownership check on any
adapter except Matrix, so an authorized caller could bind their gateway session
to another user's/room's transcript and read it. The titled-session listing and
numeric index were also globally enumerable on non-Matrix platforms, exposing
the ids and previews needed to target the IDOR.
Generalize the Matrix-only room guard to an adapter-agnostic ownership check
(live origin when active; DB row source + user_id for persisted-only sessions,
the only fields available), applied to the direct-id/title path and the
listing/numeric paths on every platform. An explicit admin --all override is
honored. The Matrix path is preserved unchanged.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
When /compress rotates the session, the handler repointed the live
session entry onto the new (empty) continuation session_id and _save()d
that BEFORE writing the compressed transcript — and rewrite_transcript
swallowed DB write failures at DEBUG. A transient write failure (SQLite
lock under concurrent writes, ENOSPC, disk/IO error) left the session
pointing at an empty id while the handler still reported a cheerful
'Compressed: N → M' success. The active conversation vanished from view.
- gateway/session.py: rewrite_transcript now returns bool (True on write
success or no-DB, False on canonical write failure). /retry, /undo, and
yuanbao recall ignore the result, so their behavior is unchanged.
- gateway/slash_commands.py: _handle_compress_command persists the
compressed transcript FIRST and treats a write failure as fatal (raises
into the outer handler's 'compress failed' banner). Only repoints +
_save()s the session on a successful write. Widened beyond the original
rotation case to also cover in-place compaction (#38763): a failed
in-place write would otherwise leave the DB untouched while still
reporting success.
- tests: regression tests for both the rotation and in-place write-failure
paths — assert a failure banner, unchanged session_id, and no _save().
Co-authored-by: Hermes Agent <agent@nousresearch.com>
Whole-bug-class follow-up to the tui_gateway fix: the same -1
last_prompt_tokens sentinel (parked by conversation_compression after a
compression) leaked into other status readers, producing a raw -1 or a
NEGATIVE usage_percent on the transitional turn:
- agent/context_engine.py get_status() (the ABC default every external
context engine inherits) — highest blast radius
- gateway/slash_commands.py /usage context line
- cli.py session usage printout
All clamped to >=0, mirroring cli.py _get_status_bar_snapshot and the
tui_gateway fix. Adds an ABC get_status sentinel-clamp regression test.
Channel users get the same context split the desktop popover shows
(PR #54907) — system prompt, tools, rules, skills, MCP, subagents,
memory, conversation — under the existing Context line in /usage.
Reuses agent.context_breakdown.compute_session_context_breakdown, so
there is no new tool and no new engine. The slices are estimates
(chars/4) and the block is labelled _(estimated)_; the headline
Context line keeps using the provider-measured last_prompt_tokens.
Rendering is fail-open: any engine error returns no breakdown and the
rest of /usage is unaffected.
- gateway/slash_commands.py: _context_breakdown_lines() helper + wire
into _handle_usage_command
- locales/*.yaml: breakdown_header, breakdown_line, and 8 category
labels across all 16 locales (parity gate)
- tests/gateway/test_usage_command.py: render + fail-open coverage
The topic-mode helpers (_telegram_topic_mode_enabled,
_recover_telegram_topic_thread_id, _record/_sync_telegram_topic_binding,
_is_telegram_topic_lane/_root_lobby, _normalize_source_for_session_key,
_telegram_topic_new_header, _schedule_telegram_topic_title_rename, and the
base.py _apply_topic_recovery hook) each run a synchronous SessionDB read or
write. They reach the event loop through async handlers, so a contended
state.db froze the loop the same way the handoff watcher did.
These helpers already run off-loop in the run_sync thread-pool closure, so
they are proven thread-safe there. Rather than colour them async, loop-side
callers now invoke them via asyncio.to_thread(...); the executor callers are
unchanged. Inside the helpers the SessionDB handle is unwrapped to the sync
door (getattr(db, '_db', db)) since they always run on a worker thread, and
AIAgent construction + query_session_listing are handed the sync SessionDB
directly. base.py wraps its single _apply_topic_recovery call in to_thread.
The guard is now alias-aware (catches db = getattr(self, '_session_db', None);
db.method(...)) and enforces the offload contract: the offloaded sync helpers
may never be called bare on the loop. Sibling test fixtures wrap their injected
SessionDB in AsyncSessionDB to match how the gateway holds it.
The migration's call-site sweep keyed on the literal self._session_db.
spelling and missed calls bound to a local first
(db = getattr(self, '_session_db', None); db.method(...)). Convert the
three in async contexts: get_telegram_topic_binding in the topic-rename
coroutine, and the two update_session_model sites on the model-switch path.
/resume is a conversation boundary, but unlike /new it did not clear the
chat-keyed _session_model_overrides / _pending_model_notes. A /model switch
made in the previous session under the same chat session_key leaked into the
resumed conversation, running it on the wrong model.
Clear both maps for the session_key after the switch (mirroring /new), scoped
to that key so other chats' overrides are untouched. The cached-agent eviction
this leak also implied already landed via #6672.
Closes#10702.
The Telegram/Discord /model command's actual switch calls switch_model()
directly on the asyncio event loop. switch_model() can fall through to a
synchronous models.dev HTTP fetch (requests.get, 15s timeout) on a cold or
expired cache, freezing the gateway for up to 15s and dropping the Telegram
connection while a user switches models.
The picker provider-list and fallback text-list sites were already offloaded
(#41289), but the two _switch_model() calls — the picker callback and the
direct /model <name> path — were not. Wrap both in asyncio.to_thread.
Closes#20525.
Salvage of #50098 by @srojk34, cherry-picked onto current main.
The hygiene auto-compress guard and the /compress slash command both read
compression_in_place (config flag — is in-place mode enabled?) instead of
_last_compaction_in_place (result flag — did in-place compaction actually
succeed?). Both agents are built without a session_db, so archive_and_compact
always fails silently and _last_compaction_in_place stays False. Reading the
config flag makes the guard think in-place succeeded, triggering
rewrite_transcript() which replaces the original messages with only the
compressed summary — permanent data loss.
Co-authored-by: srojk34 <srojk34@users.noreply.github.com>
- Replace getattr(self.session_store, '_db', None) with self._session_db
(the GatewayRunner's own SessionDB, consistent with existing usage in
slash_commands.py L240/L499).
- Remove verbose comment referencing a branch name as an issue number.
- Update stale comment in run.py that said 'today it has no session_db'.
- Add regression test verifying session_db is passed and rotated session
is persisted (adapted from #51624 by @LeonSGP43).
- Add _session_db=None to _make_runner fixtures in test_compress_command,
test_compress_focus, and test_compress_plugin_engine.
Manual /compress and session hygiene auto-compress both create temporary
AIAgent instances to run compression. These agents were created without
a session_db, so compress_context computed the compressed messages in
memory, rotated the session ID, and reported success — but never wrote
to the database. The next user message reloaded the original full
transcript, making compression appear to do nothing.
Fix: pass session_db=self.session_store._db to both temp agents so the
session rotation is properly persisted. Also set _end_session_on_close
on the /compress temp agent (already done in hygiene path) to prevent
cleanup from ending the newly rotated session.
The /new (and /reset) confirmation-button callback runs the slash-confirm
handler on the asyncio event loop (see _request_slash_confirm). That handler
calls _handle_reset_command, which invoked the SYNCHRONOUS, potentially
long-blocking _cleanup_agent_resources inline: agent.close() tears down
terminal sandboxes, browser daemons and background processes (subprocess
waits), and shutdown_memory_provider() can make a network call. A slow
teardown wedged the entire event loop, so the bot went silent and stopped
processing all messages until a manual restart.
Offload _cleanup_agent_resources via the existing contextvar-preserving
_run_in_executor_with_context helper, bounded by asyncio.wait_for with a
named _RESET_CLEANUP_TIMEOUT_S (30s). The loop is never blocked; on timeout
the reset proceeds and the worker thread is left to finish on its own (it
cannot be cancelled). The text /new path is unaffected (already off-loop).
Tests (tests/gateway/test_35994_reset_button_deadlock.py): the loop keeps
ticking while close() blocks in its worker thread; a cleanup that raises is
swallowed (warning logged) and the reset still rotates the session; a
cleanup that times out degrades gracefully. All three are mutation-verified
to fail without their respective production branch.
When `/model X` is the FIRST message after an idle/daily/suspended auto-reset,
the slash-command path stores a session model override but leaves
`session_entry.was_auto_reset = True` (it never passes through
`_handle_message_with_agent`, which is where the flag was consumed). On the
NEXT regular message, the auto-reset cleanup block pops the freshly-stored
model/reasoning override BEFORE the flag is consumed — so the switch is
silently lost and resolution falls back to the config default, while the
session DB still shows the switched model (a two-sources-of-truth divergence).
Consume the flag at both sites:
1. gateway/run.py — capture `was_auto_reset` into a local and set the
attribute False immediately at the top of the cleanup block, so the
cleanup can't re-fire on a later message and wipe an override stored
between turns. Downstream reads use the captured local.
2. gateway/slash_commands.py — the model path consumes the flag before
storing the override, so a /model-first-after-auto-reset isn't wiped by
the next message's cleanup.
Salvaged from #48062 by x7peeps (authorship preserved).
Tests: tests/gateway/test_48031_model_switch_after_auto_reset.py — AST
invariants pinning both consume sites (load-bearing; verified they fail when
either consume is removed). Mirrors the AST-pin approach in
test_35809_auto_reset_clean_context.py. Gateway session/reset suite: 16 passed.
Fixes#48031
The Discord/Telegram /model slash command listed providers synchronously
on the gateway's async event loop. list_picker_providers /
list_authenticated_providers are blocking and can fall through to a
synchronous urllib HTTP fetch when the on-disk provider cache is stale,
freezing the loop for 120-150s -> "application did not respond" and
delayed agent starts.
Port #41304's asyncio.to_thread offload to the current handler location.
The handler moved from gateway/run.py to gateway/slash_commands.py
(_handle_model_command); wrap BOTH blocking call sites so the whole bug
class is covered:
- picker path -> list_picker_providers
- text-fallback path -> list_authenticated_providers
asyncio.to_thread is already idiomatic in this module (and asyncio is
imported), so the loop now stays responsive while the (possibly
network-bound) listing runs on a worker thread.
Adds tests/gateway/test_model_command_async_offload.py asserting the
offload contract at the real handler seam for both paths (mutation-
survivable: reverting either to_thread wrap fails the matching test).
Co-authored-by: kshitijk4poor <82637225+kshitijk4poor@users.noreply.github.com>
On a launchd-managed gateway (macOS), /restart stopped the gateway but
never relaunched it: the handler's service detection checks only
INVOCATION_ID (systemd) and container markers, so under launchd it takes
the detached path and exits 0 — which KeepAlive.SuccessfulExit=false
treats as a deliberate stop. The gateway stays silently dead until a
manual launchctl kickstart.
Detect launchd via XPC_SERVICE_NAME, which launchd sets to the job label
for processes it spawns. The probe deliberately excludes the literal
"0": interactive macOS shells inherit XPC_SERVICE_NAME=0 (a truthy
string), and routing an unsupervised interactive gateway to the service
path would make it exit non-zero with nothing to revive it.
Routing through via_service=True (rather than forcing a non-zero exit
on the detached path) matters: the detached path also spawns a helper
that relaunches the gateway, so exiting non-zero there would have BOTH
the helper and launchd respawn it — two gateways racing for the same
bot tokens. The service path spawns no helper; launchd is the single
respawner.
Fixes#43475. Supersedes the run.py-era probes in #19940/#33393 (the
handler has since moved to gateway/slash_commands.py) and avoids the
double-spawn risk in the exit-code-site approaches (#43498, #43596).
Follow-up to the /memory approve fresh-store fix. Both the CLI fallback and
the messaging-gateway handler built a bare MemoryStore() with the hardcoded
default char limits (2200/1375), ignoring the user's configured
memory.memory_char_limit / user_char_limit. A live agent honors those
overrides (agent/agent_init.py), so an approval applied without a live agent
could accept a write the user's lower cap would reject, or vice versa.
Extract a shared tools.memory_tool.load_on_disk_store() factory that reads
the configured limits (falling back to defaults if config can't load) and
wire both the CLI and gateway handlers to it, closing the gap on both
surfaces and de-duplicating the construction block.
Adds an optional structured completion contract to the standing-goal loop,
adapted from OpenAI Codex's /goal guidance (a durable objective works best
when it names what done means, how to prove it, what not to break, what's in
scope, and when to stop).
A contract has five optional fields — outcome, verification, constraints,
boundaries, stop_when. When set, the continuation prompt tells the agent to
target the verification surface and respect constraints, and the judge marks
the goal done only when the verification criterion is met with concrete
evidence (command result, file excerpt, test output) instead of a loose
"looks done" claim. This tightens the most common /goal failure mode:
premature completion / endless over-continuation on an underspecified goal.
Two ways to set a contract, both backward compatible (bare /goal <text>
behaves exactly as before):
- /goal draft <objective> — expands plain text into a full contract via the
goal_judge aux model (cache-safe side call), falls back to a free-form goal
if the model is unavailable.
- /goal <text> with inline 'field: value' lines (verify:, constraints:,
boundaries:, stop when:, ...). Plain goals with an incidental colon are not
mangled — only known field prefixes are pulled out.
- /goal show prints the active contract.
Contracts persist in SessionDB.state_meta alongside the goal (survive /resume),
compose with /subgoal criteria, and old goal rows load unchanged. CLI + every
gateway platform via the shared GoalManager engine; zero new model tools.
Tests: +18 in tests/hermes_cli/test_goals.py (parse/serialize/judge-prompt/
draft/fallback), 73/73 green; 42/42 across the broader goal test surface;
live E2E roundtrip (set -> persist -> reload -> contract-aware prompts) green.
* feat(goals): add /goal wait <pid> barrier to park the loop on a background process
The /goal loop re-pokes the agent every turn via the post-turn judge. When a
goal is gated on a long-running background process (CI poller, build, test
matrix, deploy) that produces nothing to judge yet, this spins the agent into
'is it done?' busy-work and burns the turn budget.
/goal wait <pid> [reason] parks the loop: while the PID is alive, the judge is
skipped, no turn is consumed, no continuation fires, and /goal status shows a
parked indicator. The barrier auto-clears the moment the process exits (the
agent's notify_on_complete watcher is the natural wake signal), then the next
turn resumes normal judging. /goal unwait clears it manually; pause/resume/clear
drop it; a dead/stale PID can never wedge the loop.
Wired across CLI, gateway, and the mid-run command guard for parity. Barrier
persists in SessionDB.state_meta (survives /resume); GoalState gains
backward-compatible waiting_on_pid/waiting_reason/waiting_since fields. 12 new
tests; docs updated.
* fix(goals): use gateway.status._pid_exists for liveness, not os.kill(pid,0)
The Windows-footguns CI guard flagged os.kill(pid, 0) in _pid_alive — on
Windows that's not a no-op, it routes to CTRL_C_EVENT and hard-kills the
target's console process group (bpo-14484). Delegate to the canonical
footgun-safe gateway.status._pid_exists (psutil + ctypes/POSIX fallback)
instead, with a direct-psutil last resort.
* feat(goals): judge-driven auto-wait — the loop parks itself, no manual /goal wait
Makes the wait barrier automatic. Every turn the judge is shown the agent's
live background processes (pid, command, uptime, output tail from the
process_registry) alongside the goal + response, and can return a new 'wait'
verdict instead of continue:
{"verdict":"wait","wait_on_pid":N} → park until that process exits
{"verdict":"wait","wait_for_seconds":N} → park until the deadline passes
evaluate_after_turn acts on the directive (sets the barrier, parks the loop)
so the agent isn't re-poked into busy-work while CI/builds/deploys run. Adds a
time-based waiting_until barrier alongside the pid barrier; both auto-clear and
can never wedge the loop. Drivers (CLI, gateway, tui_gateway) feed the live
registry in via gather_background_processes(). Manual /goal wait stays as an
override. Judge verdict contract widened to (verdict, reason, parse_failed,
wait_directive); legacy {"done":bool} shape still accepted.
* test(goals): update kanban _fake_judge to the 4-tuple judge contract
CI test(3) caught it: test_kanban_goal_mode's _fake_judge still returned the
3-tuple (verdict, reason, parse_failed), but the kanban loop now unpacks the
4-tuple (+ wait_directive). Update the fake to return None for the directive
and accept the background_processes kwarg.
* feat(goals): trigger-based wait — park on a process's own signal, not just exit
Addresses two gaps in the judge-driven wait: (1) the judge could only express
'wait until PID exits' or 'wait N seconds', so a long-lived watcher/server that
fires a trigger MID-RUN (and may never exit) couldn't be waited on; (2) the
process's own watch_patterns/notify_on_complete trigger was invisible to the judge.
Adds a session-based barrier (waiting_on_session) that releases on the process's
OWN trigger via process_registry.is_session_waiting(): the session exits, OR (if
started with watch_patterns) its pattern matches — even while the process keeps
running. list_sessions() now surfaces session_id + watch_patterns/watch_hit/
notify_on_complete so the judge sees the trigger and is told to prefer
wait_on_session for trigger processes. Judge verdict gains a {wait_on_session}
directive (preferred over pid). Backward-compatible GoalState field; pid + time
barriers unchanged.
Tests: TestSessionTriggerBarrier (release on mid-run pattern match while alive,
release on exit, unknown-session, full park→trigger→resume, parse, validation,
backcompat load). 105 goal-surface + 85 process_registry tests green.
When a /model switch resolves a valid model but the in-place agent swap
fails mid-conversation (expired key, unreachable base_url), the agent
rolls itself back to the old working model+client and re-raises. The
callers caught that re-raise, logged a warning, then committed the broken
switch anyway: wrote the failed model to the session DB, set
_session_model_overrides to the broken model/provider/key, and (gateway
direct path) evicted the working cached agent. The next message then
rebuilt a dead agent from the broken override -> permanently unusable
conversation (#50163).
Fix the whole caller class so a failed swap aborts the commit entirely:
- gateway/slash_commands.py (picker + direct /model paths): on swap
failure, early-return an error message; skip DB persist, session
override, cache eviction, and config write.
- cli.py (both /model handlers): snapshot CLI-level credential/runtime
fields before mutating, restore them on swap failure, and abort the
note + success print.
- tui_gateway/server.py: wrap the previously-unguarded swap; on failure
raise a clean error and skip worker restart, runtime persist, switch
marker, session model_override, and config persist.
The no-cached-agent path (apply-on-next-session) is unaffected.
Adds a gateway regression test that fails on the pre-fix behavior.
Follow-up to the salvaged preflight-compression warning:
- Replace silent `except Exception: pass` at all 5 guard call sites
(cli.py x2, gateway/slash_commands.py x2, tui_gateway/server.py) with
`logger.debug(...)` so signature drift in the guard helper isn't hidden.
- tui_gateway/server.py: set the confirm dict's `warning` field to the
merged message (was bare expensive-model text) so it matches
`confirm_message` for any future consumer reading `warning`.
- Add trailing newlines to the two new files.
Adds hermes_cli/context_switch_guard.py mirroring the model_cost_guard
pattern. When a user switches models mid-session (Herm TUI picker, CLI,
or /model on Telegram/Discord), the warning surfaces on the existing
ModelSwitchResult.warning_message path used by the expensive-model
guard if the new model's compression threshold is below the current
session size.
Partial fix for #23767 — addresses only the 'user-facing guardrail
when switching from a high-context provider to a substantially
lower-context provider' slice. The other proposed fixes from that
issue (hard preflight token guard, metadata cache invalidation on
switch, compression safety invariant, oversized tool-output handling)
are out of scope for this PR.
Review (Codex + 3-agent parallel) found the first cut of in-place mode was
incomplete: it only updated the system prompt, so the persisted transcript
stayed 'full history + summary' and the next turn/resume reloaded the full
history and immediately re-compacted (a loop), and every downstream layer
that keyed off session-id rotation silently no-op'd. The session_id was
doing double duty as the 'compaction happened' signal. This wires the whole
path so removing rotation is actually complete:
Agent (agent/conversation_compression.py):
- In-place now DURABLY replaces the transcript: replace_messages(session_id,
compressed) on the same row (the canonical store the gateway reloads from),
not just update_system_prompt. Resume reloads the compacted set; no loop.
- Reset flush identity/cursor (_last_flushed_db_idx=0, _flushed_db_message_ids
cleared) so next-turn appends diff against the compacted transcript.
- Expose a rotation-independent signal: agent._last_compaction_in_place, and
in_place=True on the session:compress event.
- Fire the compaction-boundary hooks (context-engine on_session_start, memory
manager on_session_switch, reason='compression') in BOTH modes — in-place
passes the same id as parent so DAG/buffer state still checkpoints. Without
this, memory/context plugins miss every in-place compaction.
Gateway auto-compress (gateway/run.py):
- Read agent._last_compaction_in_place; set history_offset=0 on rotation OR
in-place (both return the compacted set, so slicing past the pre-compaction
length would drop everything). Carry compacted_in_place in the result dict.
- No extra rewrite needed: the agent shares the gateway's SessionDB, so its
replace_messages already updated the canonical store load_transcript reads.
Manual /compress (gateway/slash_commands.py):
- The throwaway /compress agent has no _session_db, so rewrite_transcript is
the durable write. Previously gated behind 'if rotated:' which treated
'id unchanged' as the #44794 data-loss failure case and SKIPPED the rewrite
— making /compress a silent no-op in in-place mode. Now rewrites on rotated
OR in_place; the data-loss guard still fires only for the genuine
no-rotation-AND-not-in-place failure.
Hygiene auto-compress already writes _compressed to the same id
unconditionally (its agent has no _session_db, can't rotate) — correct for
in-place, no change.
Tests (tests/run_agent/test_in_place_compaction.py):
- Assert the DURABLE transcript IS the compacted set after reload
(get_messages_as_conversation == compacted), message_count==2, flush
identity reset, and the rotation-independent signal set on in-place /
unset on rotation. Rotation regression guard unchanged.
Verified: 64 tests green across in-place + rotation/persistence/boundary/
concurrent/failure-sync/command/cli suites; E2E both modes (durable replace,
gateway offset=0, rotation preserves old transcript); ruff clean. Still
default-off.
#49066 made /model text and the CLI picker persist to config.yaml by
default, but the gateway (Telegram/Discord/Matrix) inline-keyboard picker
callback stayed session-only. Mirror the text path's persist block so a
tapped model survives across launches like a typed one.
Auto-generated session titles already rename the Telegram forum topic via
the title_callback path, but the /title command only wrote the session
title to the database. On a Telegram topic lane the visible topic kept its
auto-assigned name, so a user who ran /title to override it saw no change.
Propagate the user-chosen title to the topic by calling the existing
_schedule_telegram_topic_title_rename helper on a successful /title set. It
already no-ops off Telegram topic lanes and when auto-rename is disabled.
A plain /model <name> switch only lasted for the current session — every
new session reverted to the previously-configured model, so users had to
re-switch every time (e.g. glm-5.1 -> glm-5.2 on every launch).
Persist-by-default is now the behavior across all three /model surfaces
(CLI, gateway, TUI/dashboard), gated by a new config key
model.persist_switch_by_default (default true):
/model <name> switch model (persists to config.yaml)
/model <name> --session switch for this session only
/model <name> --global switch and persist (explicit, unchanged)
The effective persistence is resolved once via resolve_persist_behavior()
in hermes_cli/model_switch.py so --session opts out, --global opts in,
and the config-gated default applies otherwise. --global remains a valid
explicit no-op alias for the new default.
The manual /compress handler called rewrite_transcript() unconditionally on
the session id returned by _compress_context(). When rotation does not occur
(e.g. _session_db unavailable, or the DB split raised), session_id is unchanged
and rewrite_transcript() DELETEs the original messages and replaces them with
only the compressed summary — permanent data loss (#44794, #39704).
Guard the rewrite on actual rotation: only overwrite when _compress_context
produced a new session id. Otherwise leave the original transcript intact and
log a warning.
Salvage follow-up to the cherry-picked feat/test commits:
- W1: the unpack/install update path in main.py printed the
'~ N user-modified (kept)' notice without the new
'hermes skills list-modified' hint that the git-pull path got.
Mirror the hint to both sites so the count is actionable
regardless of which update path runs.
- W2: 'hermes skills diff <name>' (bundled-vs-stock) now shares the
verb with the gateway write-approval 'diff <id>'. The gateway
handler's docstring + truncation message pointed users to
'/skills diff <id>' on the CLI, which now resolves a bundled skill
by that name instead. Point at the pending JSON file and note the
two diff commands are distinct.
- Add an invariant test asserting every 'user-modified (kept)' notice
in main.py carries the discovery hint (guards sibling drift).
PROBLEM: The old public /status PR drifted out of the current Amy patch stack, leaving /status without the model/provider, context window, or explicit cumulative token label that Wolfram uses to monitor context pressure from chat.
SOLUTION: Re-port the feature onto the current gateway status handler. Prefer live/cached agent runtime metadata, fall back to SessionDB + SessionStore state between turns, add localized status model/context lines, and keep token totals explicitly labeled cumulative.
Verification: tests/gateway/test_status_command.py, tests/hermes_cli/test_commands.py
* feat(billing): /usage → portal top-up browser handoff
Add the terminal side of the billing slice (phase 2a): start a top-up by
throwing the user to the portal billing page with the top-up modal open. The
terminal does not confirm, poll, or track payment — checkout completes in the
browser and the next /usage shows the new balance.
- nous_account.py: parse organisation.slug/name from /api/oauth/account into
NousPortalAccountInfo; add nous_portal_topup_url() building the org-pinned
{base}/orgs/{slug}/billing?topup=open with a null-slug fallback to the legacy
{base}/billing?topup=open (never /orgs/None/...).
- portal_cli.py: 'hermes portal topup' — fresh account fetch, identity line
(Topping up as <email> / org <name>), browser open with printed-URL fallback,
no-wait closing copy. No polling/confirmation (deferred to 2b).
- account_usage.py: the shared /usage credits block now links the org-pinned
top-up URL (auto-opens the modal) + points to the command.
Depends on NAS #409 (organisation.slug/name + ?topup=open). Do not merge until
that is live on the target env; until then /api/oauth/account returns
organisation: { id } only and the URL falls back to legacy.
* feat(billing): /credits command for balance + top-up handoff
Replace the standalone `hermes portal topup` subcommand with an in-session
/credits slash command — a focused money surface (balance in, top-up out) that
works in the CLI, TUI, and every messaging platform from one registry entry.
- commands.py: register /credits (Info category). Slack is at its 50-slash cap,
so /credits is routed via /hermes credits on Slack only (new
_SLACK_VIA_HERMES_ONLY set) to avoid clamping a canonical command off the
native list and breaking Telegram parity; native everywhere else.
- account_usage.py: build_credits_view() — one portal fetch → balance lines +
identity line + org-pinned top-up URL + depleted flag, consumed by all
surfaces. Reuses the same snapshot/URL builder as /usage so numbers match.
- cli.py: _show_credits() — balance block + identity line + 3-button panel
(Open top-up / Copy link / Cancel) via the existing prompt_toolkit modal.
ASK, never auto-launch; headless falls back to printing the URL.
- gateway/slash_commands.py: _handle_credits_command() — renders the block +
tappable top-up URL + no-wait copy; works on button and plain-text platforms.
- /usage credits line now points to /credits.
- Retire `hermes portal topup` (portal_cli.py back to baseline); the engine
(slug/name parse + nous_portal_topup_url) stays as the shared core.
No polling, no payment confirmation (billing phase 2a). Depends on NAS #409.
* fix(credits): /credits works in the TUI slash-worker (non-interactive)
In the TUI, /credits runs in the slash-worker subprocess where there is no
live prompt_toolkit app and stdin is the JSON-RPC pipe. _show_credits called
the 3-button modal unconditionally, which fell back to reading stdin →
exception → slash.exec rejected → the command produced no output (only the
pre-existing 'Credit access paused' banner showed).
- _show_credits: when self._app is None (TUI worker / piped / non-interactive),
render the text variant — balance block + tappable top-up URL + no-wait line,
same affordance as the messaging surfaces — and skip the modal entirely. The
3-button panel still renders in the interactive CLI.
- Depleted banner copy: 'run /usage for balance' → 'run /credits to top up'
now that /credits is the dedicated money surface (+ tests).
- Regression tests: _show_credits with self._app=None renders text and never
invokes the modal; logged-out path.
* feat(tui): credits.view RPC for the /credits tappable top-up button
Add a credits.view JSON-RPC method returning the structured CreditsView
(logged_in, balance_lines, identity_line, topup_url, depleted) so the TUI can
render a clickable <Link> top-up button instead of plain text. Account-
independent (portal fetch gated on a logged-in Nous account), fail-open to
{logged_in: false} on any hiccup. Mirrors session.usage's credits-block pattern.
Frontend (TUI-local /credits command + Ink component) lands separately.
* feat(tui): /credits command with keyboard-driven top-up confirm
TUI-local /credits: fetches the structured balance via the credits.view RPC,
prints the balance + identity + top-up URL, then arms the EXISTING confirm
overlay (Enter = open top-up in browser via openExternalUrl, Esc = cancel).
Reuses ConfirmReq — no new overlay component/state/input handler. Headless
(openExternalUrl returns false) falls back to printing the URL.
- gatewayTypes.ts: CreditsViewResponse.
- commands/credits.ts: the command (mirrors /status's rpc+guarded pattern).
- registry.ts: register creditsCommands.
- test: balance+overlay armed, headless fallback, no-url, logged-out (4 cases).
Matches the CLI /credits 'Enter to open' affordance. Phase 2a: no polling.
* fix(matrix): isolate room context and inbound dispatch
* test(matrix): cover room isolation and dispatch regressions
* docs(matrix): document room isolation and session scope
* fix(matrix): stabilize CI requirement checks
* test(matrix): isolate mautrix stubs in requirements tests
* fix(matrix): port room-scoped status and resume to slash commands mixin
Move Matrix /status scope output and /resume same-room guards from the
pre-refactor gateway/run.py into gateway/slash_commands.py so PR #18505
foundation behavior survives the upstream god-file decomposition.
Uses i18n keys for Matrix resume/status messages. Preserves upstream
session.py fixes (role_authorized, DM user_id isolation).
* docs(matrix): explain inbound dispatch via handle_sync loop
Document why Hermes uses an explicit sync loop with handle_sync() rather than
client.start(), aligning with upstream #7914 diagnostics while preserving
Hermes background maintenance tasks.
* fix(i18n): add Matrix resume/status keys to all locale catalogs
The Matrix /resume and /status slash-command keys added in the foundation
PR must exist in every supported locale file. tests/agent/test_i18n.py
asserts key and placeholder parity across catalogs.
Non-English locales use English strings as interim placeholders until
community translators can localize them.
* fix(matrix): restore gateway authz for allowed_users; honor config require_mention
Revert the early MATRIX_ALLOWED_USERS gate in _on_room_message so inbound
sender authorization stays in gateway authz like main. Parse require_mention
from config.extra (platforms.matrix / top-level matrix yaml) with env fallback,
matching thread_require_mention and fixing Forge when require_mention is set
only in profile config.yaml.
* fix(matrix): harden status scope and allowlisted DMs
* fix(matrix): use session store lookup for resume scope
Follow-ups to #38199/#43354 found in post-merge review:
- Inline CLI memory approval never worked: the per-thread approval callback
was not passed to prompt_dangerous_approval, so the prompt_toolkit
fail-closed guard (#15216) denied every gated foreground write without
showing a prompt. Now invokes the registered callback directly; a crashed
prompt falls back to staging instead of a silent deny.
- Gateway sessions claimed inline support but prompt_dangerous_approval has
no gateway round-trip (that lives in the pending-approval queue), so gated
gateway memory writes hit the input() fallback and denied. Gateway
contexts now stage for /memory pending review.
- /skills pending|approve|reject|diff|approval now works on the gateway
(gateway_config_gate on skills.write_approval), so skills staged from a
messaging session can be reviewed there. Diff output truncated for chat.
- memory_tool validates required params before the gate so invalid writes
are rejected immediately instead of staged and failing at approve time.
- Stale tri-state write_mode docstrings updated to the boolean gate; docs
table corrected (inline prompt is interactive-CLI-only).
- 6 new tests covering the interactive approve/deny/error paths, gateway
staging, skills never-prompt invariant, and pre-gate validation.