55 lines
2.0 KiB
Python
55 lines
2.0 KiB
Python
import pytest
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from gridguard_secure_attested_cross_domain_e.contracts import SecurityContractsRegistry
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from gridguard_secure_attested_cross_domain_e.optimization import VerifiableOptimization
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from gridguard_secure_attested_cross_domain_e.attestation import AttestedAgent
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from gridguard_secure_attested_cross_domain_e.governance import GovernanceLedger, DeltaSync
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from gridguard_secure_attested_cross_domain_e.transport import TransportLayer
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from gridguard_secure_attested_cross_domain_e.marketplace import AdaptersMarketplace
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from gridguard_secure_attested_cross_domain_e.simulation import SimulationHarness
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def test_security_contract_registry():
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reg = SecurityContractsRegistry()
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reg.register_contract("v1", {"policy": "no_raw_data"})
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assert reg.get_contract("v1")["policy"] == "no_raw_data"
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def test_verifiable_optimization():
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obj = {"x": 10, "y": 5}
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constr = {"limit": 20}
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sol, proof = VerifiableOptimization.run_local_solver(obj, constr, seed=7)
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assert isinstance(sol, dict)
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assert isinstance(proof, str) and proof.startswith("ZK_PROOF_")
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def test_attested_agent():
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agent = AttestedAgent("agent-1")
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ok = agent.attest()
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assert ok is True
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assert agent.credential is not None
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def test_governance_ledger_and_delta_sync():
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ledger = GovernanceLedger()
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event = {"action": "deploy", "agent": "agent-1"}
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entry = ledger.append_event(event)
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assert "signature" in entry
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# DeltaSync
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local = {"budget": 100}
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remote = {"budget": 95}
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reconciled = DeltaSync.reconcile(local, remote, {"valid": True})
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assert reconciled["budget"] == 95
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def test_adapters_marketplace():
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market = AdaptersMarketplace()
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market.register_adapter("attestation-adapter", {"type": "attestation", "version": "1.0"})
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adapters = market.list_adapters()
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assert any(a["name"] == "attestation-adapter" for a in adapters) or adapters
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def test_simulation_harness():
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sim = SimulationHarness.simulate({"grid": "test"})
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assert sim["state"] == "initialized"
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