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The reachability claim that single-process multi-profile leakage is desktop- only is incomplete. gateway/run.py:_profile_runtime_scope shows a SECOND such runtime: the multiplexed gateway (gateway.multiplex_profiles) serves every profile from one process, scoping each inbound turn with the same set_hermes_home_override ContextVar the desktop uses (and the /p/<profile>/ URL prefix). The M1 (import-time path globals) and M2 (thread/executor context) leaks are reachable there identically. - tests/gateway/test_multiplex_credential_isolation.py: add a class driving the skills-dir + cache-dir resolvers and a propagated worker thread under the real _profile_runtime_scope, asserting each resolves the active profile. Sits beside the existing credential-isolation proofs for the same topology. - Correct the inline comments in model_tools/run_agent/async_delegation/ rich_sent_store to name both runtimes (desktop tui_gateway AND the multiplexed gateway) instead of implying desktop is the only surface. (ACP runs one agent per subprocess and the kanban dispatcher Popens 'hermes -p <profile>' children, so neither is an in-process multi-profile surface; desktop + multiplexed gateway are the two confirmed ones.)
158 lines
6.1 KiB
Python
158 lines
6.1 KiB
Python
"""End-to-end credential isolation proof for multiplex mode (Workstream A).
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These exercise the REAL resolution path (runtime_provider, secret scope, MCP
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interpolation) rather than mocking it, proving the property that matters: two
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profiles with different keys never see each other's, and an unscoped read in
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multiplex mode fails closed instead of leaking.
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"""
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import pytest
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from pathlib import Path
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from agent import secret_scope as ss
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@pytest.fixture(autouse=True)
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def _reset(monkeypatch):
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ss.set_multiplex_active(False)
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yield
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ss.set_multiplex_active(False)
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class TestRuntimeProviderUsesScope:
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"""hermes_cli.runtime_provider._getenv resolves through the secret scope."""
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def test_getenv_reads_scope_under_multiplex(self, monkeypatch):
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from hermes_cli.runtime_provider import _getenv
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monkeypatch.setenv("ANTHROPIC_API_KEY", "sk-global-leak")
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ss.set_multiplex_active(True)
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tok = ss.set_secret_scope({"ANTHROPIC_API_KEY": "sk-profileA"})
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try:
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assert _getenv("ANTHROPIC_API_KEY") == "sk-profileA"
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finally:
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ss.reset_secret_scope(tok)
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def test_getenv_two_profiles_isolated(self, monkeypatch):
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from hermes_cli.runtime_provider import _getenv
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ss.set_multiplex_active(True)
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tok_a = ss.set_secret_scope({"OPENAI_API_KEY": "sk-A"})
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try:
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assert _getenv("OPENAI_API_KEY") == "sk-A"
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finally:
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ss.reset_secret_scope(tok_a)
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tok_b = ss.set_secret_scope({"OPENAI_API_KEY": "sk-B"})
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try:
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assert _getenv("OPENAI_API_KEY") == "sk-B"
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finally:
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ss.reset_secret_scope(tok_b)
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def test_getenv_fails_closed_unscoped(self, monkeypatch):
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from hermes_cli.runtime_provider import _getenv
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monkeypatch.setenv("OPENROUTER_API_KEY", "sk-leak")
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ss.set_multiplex_active(True)
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with pytest.raises(ss.UnscopedSecretError):
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_getenv("OPENROUTER_API_KEY")
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def test_getenv_global_var_still_reads_environ(self, monkeypatch):
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from hermes_cli.runtime_provider import _getenv
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monkeypatch.setenv("HERMES_MAX_ITERATIONS", "42")
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ss.set_multiplex_active(True)
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# global var: no scope needed, no raise
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assert _getenv("HERMES_MAX_ITERATIONS") == "42"
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class TestMcpInterpolationUsesScope:
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"""MCP config ${VAR} interpolation resolves through the secret scope."""
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def test_interpolation_reads_scope(self, monkeypatch):
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from tools.mcp_tool import _interpolate_env_vars
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monkeypatch.setenv("MY_MCP_TOKEN", "global-token")
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ss.set_multiplex_active(True)
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tok = ss.set_secret_scope({"MY_MCP_TOKEN": "profile-token"})
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try:
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cfg = {"env": {"TOKEN": "${MY_MCP_TOKEN}"}}
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assert _interpolate_env_vars(cfg) == {"env": {"TOKEN": "profile-token"}}
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finally:
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ss.reset_secret_scope(tok)
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def test_interpolation_unset_keeps_placeholder(self, monkeypatch):
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from tools.mcp_tool import _interpolate_env_vars
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monkeypatch.delenv("UNSET_MCP_VAR", raising=False)
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# multiplex off: unset var keeps literal placeholder (legacy behavior)
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assert _interpolate_env_vars("${UNSET_MCP_VAR}") == "${UNSET_MCP_VAR}"
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def test_interpolation_off_reads_environ(self, monkeypatch):
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from tools.mcp_tool import _interpolate_env_vars
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monkeypatch.setenv("MY_MCP_TOKEN", "env-token")
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# multiplex off: legacy os.environ resolution
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assert _interpolate_env_vars("${MY_MCP_TOKEN}") == "env-token"
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class TestProfilePathResolutionUnderMultiplexScope:
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"""Profile-scoped paths must follow the per-turn _profile_runtime_scope.
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The multiplexed gateway (gateway.multiplex_profiles) serves every profile
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from ONE process, scoping each inbound turn with _profile_runtime_scope —
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the same in-process-many-profiles topology as the desktop tui_gateway. The
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profile-isolation fixes (per-call path resolution + thread context
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propagation) must therefore hold under THIS scope too, not just desktop.
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This is the regression guard proving reachability is not desktop-only.
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"""
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def _profiles(self, tmp_path):
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prof_a = tmp_path / "profA"
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prof_b = tmp_path / "profB"
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for p in (prof_a, prof_b):
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(p / "skills").mkdir(parents=True, exist_ok=True)
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(p / "state").mkdir(parents=True, exist_ok=True)
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return prof_a, prof_b
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def test_skills_dir_follows_multiplex_scope(self, tmp_path):
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from gateway.run import _profile_runtime_scope
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import tools.skills_hub as sh
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prof_a, prof_b = self._profiles(tmp_path)
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with _profile_runtime_scope(prof_a):
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a_seen = Path(sh.SKILLS_DIR)
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with _profile_runtime_scope(prof_b):
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b_seen = Path(sh.SKILLS_DIR)
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assert a_seen == prof_a / "skills"
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assert b_seen == prof_b / "skills"
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def test_cache_dir_follows_multiplex_scope(self, tmp_path):
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from gateway.run import _profile_runtime_scope
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import gateway.platforms.base as gb
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_prof_a, prof_b = self._profiles(tmp_path)
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with _profile_runtime_scope(prof_b):
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seen = gb.get_image_cache_dir()
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assert str(seen).startswith(str(prof_b))
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def test_worker_thread_inherits_multiplex_scope(self, tmp_path):
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"""A wrapped worker spawned inside the scope must see the right profile.
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The _profile_runtime_scope docstring relies on copy_context() carrying
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the override into the agent worker thread; this proves the M2 fix
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primitive delivers that under the multiplexer's scope.
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"""
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import threading
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from gateway.run import _profile_runtime_scope
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from hermes_constants import get_hermes_home
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from tools.thread_context import propagate_context_to_thread
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_prof_a, prof_b = self._profiles(tmp_path)
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seen = {}
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def worker():
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seen["home"] = str(get_hermes_home())
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with _profile_runtime_scope(prof_b):
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t = threading.Thread(target=propagate_context_to_thread(worker))
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t.start()
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t.join()
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assert seen["home"] == str(prof_b)
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