import unittest from typing import Any from h8536.serial_semantics import analyze_serial_semantics def reference(address: int) -> dict: return {"address": address} def instruction( address: int, mnemonic: str, operands: str = "", references: list[int] | None = None, targets: list[int] | None = None, ) -> dict: return { "address": address, "mnemonic": mnemonic, "operands": operands, "references": [reference(item) for item in (references or [])], "targets": targets or [], } def base_payload(instructions: list[dict]) -> dict: return { "serial_reconstruction": { "candidates": [ { "kind": "candidate_sci1_rx_frame", "channel": "SCI1", "frame_length": 6, "validation_buffer_start": 0xF860, "validation_buffer_end": 0xF865, "checksum_address": 0xF865, "checksum_seed": 0x5A, "confidence": "high", }, { "kind": "candidate_sci1_tx_frame", "channel": "SCI1", "frame_length": 6, "buffer_start": 0xF850, "buffer_end": 0xF855, "checksum_address": 0xF855, "checksum_seed": 0x5A, "confidence": "high", }, ], }, "instructions": instructions, } def only_semantics(testcase: unittest.TestCase, payload: dict) -> dict: analysis = analyze_serial_semantics(payload) testcase.assertEqual(analysis["kind"], "serial_semantics") testcase.assertEqual(len(analysis["protocol_semantics"]), 1) return analysis["protocol_semantics"][0] def semantic_items(value: Any) -> list[Any]: if isinstance(value, list): return value if isinstance(value, dict): return list(value.values()) return [] def command_item(items: list[Any], command: int) -> Any: for item in items: if not isinstance(item, dict): continue command_value = item.get("command_value", item.get("command")) if command_value == command: return item if isinstance(command_value, str) and command_value.lower() == f"0x{command:02x}": return item return None def semantic_text(value: Any) -> str: if isinstance(value, dict): return " ".join( f"{key} {semantic_text(item)}" for key, item in value.items() ).lower() if isinstance(value, list): return " ".join(semantic_text(item) for item in value).lower() return str(value).lower() def planned_semantics_payload() -> dict: return base_payload( [ instruction(0xBF00, "MOV:G.B", "@H'F860, R0", [0xF860]), instruction(0xBF04, "AND.B", "#H'07, R0"), instruction(0xBF08, "CMP:E.B", "#H'00, R0"), instruction(0xBF0C, "BEQ", "loc_C000", targets=[0xC000]), instruction(0xBF10, "CMP:E.B", "#H'01, R0"), instruction(0xBF14, "BEQ", "loc_C100", targets=[0xC100]), instruction(0xBF18, "CMP:E.B", "#H'06, R0"), instruction(0xBF1C, "BEQ", "loc_C600", targets=[0xC600]), instruction(0xBF1E, "CMP:E.B", "#H'05, R0"), instruction(0xBF1F, "BEQ", "loc_C500", targets=[0xC500]), instruction(0xBF20, "CMP:E.B", "#H'07, R0"), instruction(0xBF24, "BEQ", "loc_C700", targets=[0xC700]), instruction(0x3FD3, "TST.B", "@H'FAA2", [0xFAA2]), instruction(0x3FD9, "BTST.B", "#7, @H'FAA5", [0xFAA5]), instruction(0x3FDF, "TST.B", "@H'F9C3", [0xF9C3]), instruction(0x3FE5, "TST.B", "@H'F9C0", [0xF9C0]), instruction(0x3FEB, "BSR", "loc_BAF2", targets=[0xBAF2]), instruction(0x3FEF, "TST.B", "@H'F9C5", [0xF9C5]), instruction(0x3FF5, "CLR.B", "@H'F9B5", [0xF9B5]), instruction(0x3FF9, "CLR.B", "@H'F9B0", [0xF9B0]), instruction(0x3FFD, "BCLR.B", "#7, @H'FAA5", [0xFAA5]), instruction(0x4007, "BSET.B", "#7, @H'FAA5", [0xFAA5]), instruction(0x4046, "TST.B", "@H'F9C4", [0xF9C4]), instruction(0x404C, "BTST.B", "#7, @H'FAA5", [0xFAA5]), instruction(0x4050, "BEQ", "loc_4059", targets=[0x4059]), instruction(0x4052, "TST.B", "@H'F9C3", [0xF9C3]), instruction(0x405F, "CMP:G.B", "@H'F9B5, R2", [0xF9B5]), instruction(0x4067, "MOV:G.W", "#H'00, @(-H'0790,R2)"), instruction(0x406C, "ADD:Q.B", "#1, @H'F9B0", [0xF9B0]), instruction(0x4070, "BCLR.B", "#7, @H'F9B0", [0xF9B0]), instruction(0x40E0, "MOV:G.B", "#H'14, @H'F9C4", [0xF9C4]), instruction(0xBA31, "MOV:G.B", "#H'07, @H'F9C4", [0xF9C4]), instruction(0xC000, "MOV:G.B", "@H'F861, R1", [0xF861]), instruction(0xC004, "MOV:G.B", "@H'F862, R2", [0xF862]), instruction(0xC008, "BSR", "loc_622B", targets=[0x622B]), instruction(0xC00C, "MOV:G.W", "@H'F863, R3", [0xF863]), instruction(0xC010, "MOV:G.W", "R3, @H'F900", [0xF900]), instruction(0xC014, "MOV:G.W", "R3, @H'F920", [0xF920]), instruction(0xC018, "MOV:G.B", "#H'01, @H'FAA2", [0xFAA2]), instruction(0xC01C, "MOV:G.B", "#H'04, @H'F850", [0xF850]), instruction(0xC020, "MOV:G.B", "@H'F861, R4", [0xF861]), instruction(0xC024, "MOV:G.B", "R4, @H'F851", [0xF851]), instruction(0xC028, "MOV:G.B", "@H'F862, R5", [0xF862]), instruction(0xC02C, "MOV:G.B", "R5, @H'F852", [0xF852]), instruction(0xC030, "BSR", "loc_BA26", targets=[0xBA26]), instruction(0xC100, "MOV:G.B", "@H'F861, R1", [0xF861]), instruction(0xC104, "MOV:G.B", "@H'F862, R2", [0xF862]), instruction(0xC108, "BSR", "loc_622B", targets=[0x622B]), instruction(0xC10C, "MOV:G.W", "@H'F900, R3", [0xF900]), instruction(0xC110, "MOV:G.B", "#H'04, @H'F850", [0xF850]), instruction(0xC114, "MOV:G.B", "@H'F861, R4", [0xF861]), instruction(0xC118, "MOV:G.B", "R4, @H'F851", [0xF851]), instruction(0xC11C, "MOV:G.B", "@H'F862, R5", [0xF862]), instruction(0xC120, "MOV:G.B", "R5, @H'F852", [0xF852]), instruction(0xC124, "MOV:G.W", "R3, @H'F853", [0xF853]), instruction(0xC128, "MOV:G.B", "@H'F9B5, R6", [0xF9B5]), instruction(0xC12C, "BSR", "loc_BA26", targets=[0xBA26]), instruction(0xC500, "ADD:Q.B", "#1, @H'F9B5", [0xF9B5]), instruction(0xC504, "BCLR.B", "#7, @H'F9B5", [0xF9B5]), instruction(0xC508, "BCLR.B", "#7, @H'FAA3", [0xFAA3]), instruction(0xC600, "MOV:G.B", "@H'F861, R1", [0xF861]), instruction(0xC604, "MOV:G.B", "@H'F862, R2", [0xF862]), instruction(0xC608, "BSR", "loc_622B", targets=[0x622B]), instruction(0xC60C, "MOV:G.W", "@H'F863, R3", [0xF863]), instruction(0xC610, "MOV:G.W", "R3, @H'F940", [0xF940]), instruction(0xC614, "MOV:G.B", "#H'01, @H'F980", [0xF980]), instruction(0xC618, "MOV:G.B", "#H'01, @H'F9C0", [0xF9C0]), instruction(0xC700, "MOV:G.B", "#H'07, @H'F850", [0xF850]), instruction(0xC704, "MOV:G.B", "@H'F861, R1", [0xF861]), instruction(0xC708, "MOV:G.B", "R1, @H'F851", [0xF851]), instruction(0xC70C, "BSR", "loc_BA26", targets=[0xBA26]), instruction(0xC800, "CMP:E.B", "@H'F865, R7", [0xF865]), instruction(0xC804, "BNE", "loc_C700", targets=[0xC700]), instruction(0xBB20, "MOV:G.B", "#H'00, @H'F850", [0xF850]), instruction(0xBB24, "MOV:G.B", "#H'00, @H'F851", [0xF851]), instruction(0xBB28, "MOV:G.B", "#H'15, @H'F852", [0xF852]), instruction(0xBB2C, "MOV:G.W", "@(-H'1800,R4), R0"), instruction(0xBB30, "MOV:G.W", "R0, @H'F853", [0xF853]), instruction(0xBB43, "BSR", "loc_BA26", targets=[0xBA26]), instruction(0xBE90, "MOV:G.W", "#H'01F4, @H'F9C6", [0xF9C6]), instruction(0xBE94, "MOV:G.B", "#H'14, @H'F9C8", [0xF9C8]), instruction(0xBE98, "MOV:G.B", "#H'80, @H'FAA3", [0xFAA3]), instruction(0xBE9C, "MOV:G.B", "#H'01, @H'FAA2", [0xFAA2]), instruction(0xBEA0, "MOV:G.B", "@H'F9B5, R1", [0xF9B5]), instruction(0xBEA4, "MOV:G.B", "#H'01, @H'F9C0", [0xF9C0]), instruction(0xBE9E, "MOV:G.B", "@H'FAA5, R0", [0xFAA5]), instruction(0xBEA5, "AND.B", "@H'FAA3, R0", [0xFAA3]), instruction(0xBEB5, "TST.W", "@H'F9C6", [0xF9C6]), instruction(0xBEBB, "TST.B", "@H'F9C8", [0xF9C8]), instruction(0xBED5, "MOV:G.B", "@H'F858, R0", [0xF858]), instruction(0xBED9, "MOV:G.B", "R0, @H'F850", [0xF850]), instruction(0xBEE0, "BSR", "loc_BA26", targets=[0xBA26]), ] ) class SerialSemanticsTest(unittest.TestCase): def test_detects_low_three_bit_command_dispatch(self): payload = base_payload( [ instruction(0xBA80, "MOV:G.B", "@H'F860, R0", [0xF860]), instruction(0xBA84, "AND.B", "#H'07, R0"), instruction(0xBA88, "CMP:E.B", "#H'00, R0"), instruction(0xBA8C, "BEQ", "loc_BAA0", targets=[0xBAA0]), instruction(0xBA90, "CMP:E.B", "#H'02, R0"), instruction(0xBA94, "BEQ", "loc_BAC0", targets=[0xBAC0]), instruction(0xBA98, "CMP:E.B", "#H'07, R0"), instruction(0xBA9C, "BEQ", "loc_BAE0", targets=[0xBAE0]), ] ) semantics = only_semantics(self, payload) dispatch = semantics["command_dispatch"] self.assertEqual(dispatch["source_address"], 0xF860) self.assertEqual(dispatch["source_field"], "byte0") self.assertEqual(dispatch["mask"], 0x07) self.assertEqual(dispatch["field"], "command_low3") self.assertEqual( {(case["value"], case["target"]) for case in dispatch["cases"]}, {(0x00, 0xBAA0), (0x02, 0xBAC0), (0x07, 0xBAE0)}, ) self.assertIn(0xBA80, dispatch["evidence_addresses"]) self.assertIn(0xBA84, dispatch["evidence_addresses"]) def test_labels_likely_rx_fields_from_validation_buffer_offsets(self): payload = base_payload( [ instruction(0xBB00, "MOV:G.B", "@H'F860, R0", [0xF860]), instruction(0xBB04, "AND.B", "#H'07, R0"), instruction(0xBB08, "MOV:G.W", "@H'F861, R1", [0xF861]), instruction(0xBB0C, "MOV:G.W", "@H'F863, R2", [0xF863]), ] ) semantics = only_semantics(self, payload) fields = {field["offset"]: field for field in semantics["rx_fields"]} self.assertEqual(fields[0]["name"], "command_low3") self.assertEqual(fields[0]["address"], 0xF860) self.assertEqual(fields[0]["mask"], 0x07) self.assertEqual(fields[1]["name"], "likely_id_or_index") self.assertEqual(fields[2]["name"], "likely_id_or_index") self.assertEqual(fields[3]["name"], "likely_value") self.assertEqual(fields[4]["name"], "likely_value") self.assertIn("candidate", fields[1]["confidence"]) self.assertIn("candidate", fields[3]["confidence"]) def test_detects_response_builder_before_serial_send_call(self): payload = base_payload( [ instruction(0xBC00, "MOV:G.B", "@H'F860, R0", [0xF860]), instruction(0xBC04, "MOV:G.B", "R0, @H'F850", [0xF850]), instruction(0xBC08, "MOV:G.B", "@H'F861, R1", [0xF861]), instruction(0xBC0C, "MOV:G.B", "R1, @H'F851", [0xF851]), instruction(0xBC10, "MOV:G.B", "@H'F862, R2", [0xF862]), instruction(0xBC14, "MOV:G.B", "R2, @H'F852", [0xF852]), instruction(0xBC18, "MOV:G.B", "#H'00, @H'F853", [0xF853]), instruction(0xBC1C, "MOV:G.B", "#H'01, @H'F854", [0xF854]), instruction(0xBC20, "BSR", "loc_BA26", targets=[0xBA26]), ] ) semantics = only_semantics(self, payload) response = semantics["response_builders"][0] self.assertEqual(response["buffer_start"], 0xF850) self.assertEqual(response["buffer_end"], 0xF854) self.assertEqual(response["send_call_target"], 0xBA26) self.assertEqual(response["call_address"], 0xBC20) self.assertEqual( [write["address"] for write in response["writes"]], [0xF850, 0xF851, 0xF852, 0xF853, 0xF854], ) def test_planned_command_effects_include_core_command_behaviors(self): semantics = only_semantics(self, planned_semantics_payload()) self.assertIn("command_effects", semantics) effects = semantic_items(semantics["command_effects"]) command_0 = command_item(effects, 0x00) self.assertIsNotNone(command_0) command_0_text = semantic_text(command_0) self.assertIn("write", command_0_text) self.assertIn("primary_value_table", command_0_text) self.assertIn("current_value_table", command_0_text) command_1 = command_item(effects, 0x01) self.assertIsNotNone(command_1) command_1_text = semantic_text(command_1) self.assertIn("read", command_1_text) self.assertIn("response", command_1_text) self.assertIn("initial/idle", command_1_text) self.assertIn("f852", command_1_text) command_6 = command_item(effects, 0x06) self.assertIsNotNone(command_6) command_6_text = semantic_text(command_6) self.assertIn("write", command_6_text) self.assertIn("secondary_value_table", command_6_text) command_5 = command_item(effects, 0x05) self.assertIsNotNone(command_5) command_5_text = semantic_text(command_5) self.assertIn("faa2 != 0", command_5_text) self.assertIn("0040", command_5_text) self.assertIn("no response", command_5_text) def test_planned_response_schema_tracks_immediates_and_rx_copies(self): semantics = only_semantics(self, planned_semantics_payload()) self.assertIn("response_schema", semantics) schema_text = semantic_text(semantics["response_schema"]) self.assertIn("tx", schema_text) self.assertIn("byte0", schema_text) self.assertIn("0x04", schema_text) self.assertIn("byte1", schema_text) self.assertIn("rx[1]", schema_text) self.assertIn("byte2", schema_text) self.assertIn("rx[2]", schema_text) def test_planned_table_map_candidates_name_known_tables(self): semantics = only_semantics(self, planned_semantics_payload()) self.assertIn("table_map_candidates", semantics) table_text = semantic_text(semantics["table_map_candidates"]) self.assertIn("primary_value_table", table_text) self.assertIn("current_value_table", table_text) self.assertIn("secondary_value_table", table_text) self.assertIn("flag_table", table_text) def test_planned_state_variable_candidates_include_known_addresses(self): semantics = only_semantics(self, planned_semantics_payload()) self.assertIn("state_variable_candidates", semantics) state_text = semantic_text(semantics["state_variable_candidates"]) self.assertIn("faa2", state_text) self.assertIn("f9b5", state_text) self.assertIn("f9c0", state_text) self.assertIn("f9c4", state_text) self.assertIn("idle_heartbeat_gate_countdown", state_text) def test_planned_retry_error_model_identifies_retransmit_and_checksum_error(self): semantics = only_semantics(self, planned_semantics_payload()) self.assertIn("retry_error_model", semantics) retry_text = semantic_text(semantics["retry_error_model"]) self.assertIn("retransmit", retry_text) self.assertIn("0x07", retry_text) self.assertIn("checksum_error_response", retry_text) def test_tx_report_model_separates_autonomous_reports_from_rx_commands(self): semantics = only_semantics(self, planned_semantics_payload()) report = semantics["tx_report_model"] report_text = semantic_text(report) self.assertEqual(report["direction"], "device_to_host_autonomous_report_candidate") self.assertIn("bb43", report_text) self.assertIn("ba26", report_text) self.assertIn("bytes 0..2", report_text) self.assertIn("current_value_table", report_text) self.assertIn("00 00 15 80 00 cf", report_text) self.assertIn("idle_heartbeat_report_runtime_confirmation", report_text) self.assertIn("idle_heartbeat_report_id_width", report_text) self.assertIn("host/device request", report_text) def test_periodic_resend_model_marks_heartbeat_constants(self): semantics = only_semantics(self, planned_semantics_payload()) periodic = semantics["periodic_resend_model"] periodic_text = semantic_text(periodic) self.assertIn("f9c6", periodic_text) self.assertIn("01f4", periodic_text) self.assertIn("f9c8", periodic_text) self.assertIn("14", periodic_text) self.assertIn("faa3", periodic_text) self.assertIn("80", periodic_text) self.assertIn("bed5", periodic_text) def test_gate_queue_model_surfaces_autonomous_tx_state_machine(self): semantics = only_semantics(self, planned_semantics_payload()) gate = semantics["gate_queue_model"] gate_text = semantic_text(gate) self.assertIn("3fd3", gate_text) self.assertIn("baf2", gate_text) self.assertIn("faa2 == 0", gate_text) self.assertIn("f9c0 == 0", gate_text) self.assertIn("f9c4 == 0", gate_text) self.assertIn("h'0000", gate_text) self.assertIn("zero-extended", gate_text) self.assertIn("00 00 00 00 80 da", gate_text) self.assertIn("f9b5 != f9b0", gate_text) self.assertIn("bb43", gate_text) self.assertIn("be9e", gate_text) self.assertIn("bed5", gate_text) self.assertIn("f9c5", gate_text) self.assertIn("command 0x05", gate_text) self.assertIn("selector 0x0040 has no response", gate_text) self.assertIn("faa2 == 0", gate_text) self.assertIn("not rom constants", gate_text) def test_actual_dispatch_split_marks_initial_and_continuation_commands(self): semantics = only_semantics( self, base_payload( [ instruction(0xBC08, "MOV:G.B", "@H'F860, R0", [0xF860]), instruction(0xBC0C, "AND.B", "#H'07, R0"), instruction(0xBC0F, "TST.B", "@H'FAA2", [0xFAA2]), instruction(0xBC13, "BNE", "loc_BC3A", targets=[0xBC3A]), instruction(0xBC19, "BTST.B", "#7, @H'F861", [0xF861]), instruction(0xBC20, "CMP:E", "#H'00, R0"), instruction(0xBC22, "BEQ", "loc_BC69", targets=[0xBC69]), instruction(0xBC24, "CMP:E", "#H'01, R0"), instruction(0xBC26, "BEQ", "loc_BCD7", targets=[0xBCD7]), instruction(0xBC29, "CMP:E", "#H'02, R0"), instruction(0xBC2B, "BEQ", "loc_BD04", targets=[0xBD04]), instruction(0xBC2E, "CMP:E", "#H'07, R0"), instruction(0xBC30, "BEQ", "loc_BE05", targets=[0xBE05]), instruction(0xBC45, "CMP:E", "#H'04, R0"), instruction(0xBC47, "BEQ", "loc_BD0E", targets=[0xBD0E]), instruction(0xBC4A, "CMP:E", "#H'05, R0"), instruction(0xBC4C, "BEQ", "loc_BD80", targets=[0xBD80]), instruction(0xBC4F, "CMP:E", "#H'06, R0"), instruction(0xBC51, "BEQ", "loc_BDDB", targets=[0xBDDB]), instruction(0xBC54, "CMP:E", "#H'07, R0"), instruction(0xBC56, "BEQ", "loc_BE05", targets=[0xBE05]), ] ), ) split = semantics["command_dispatch"]["state_split"] self.assertEqual(split["initial_idle_commands"], [0, 1, 2, 7]) self.assertEqual(split["continuation_commands"], [4, 5, 6, 7]) command_1 = command_item(semantics["commands"], 0x01) self.assertIn("FAA2 == 0", command_1["availability_conditions"]) self.assertIn("F861.bit7 == 0", command_1["availability_conditions"]) command_5 = command_item(semantics["commands"], 0x05) self.assertIn("FAA2 != 0", command_5["availability_conditions"]) def test_actual_bcd7_command1_response_marks_f852_stale(self): semantics = only_semantics( self, base_payload( [ instruction(0xBCD4, "BRA", "loc_BE6F", targets=[0xBE6F]), instruction(0xBCD7, "MOV:G.B", "#H'04, @H'F850", [0xF850]), instruction(0xBCDC, "MOV:G.B", "@H'F861, R0", [0xF861]), instruction(0xBCE0, "MOV:G.B", "R0, @H'F851", [0xF851]), instruction(0xBCE4, "MOV:G.B", "@H'F862, R0", [0xF862]), instruction(0xBCE8, "MOV:G.B", "R0, @H'F851", [0xF851]), instruction(0xBCEC, "MOV:G.W", "@(-H'2000,R4), R0"), instruction(0xBCF0, "MOV:G.B", "R0, @H'F854", [0xF854]), instruction(0xBCF4, "SWAP.B", "R0"), instruction(0xBCF6, "MOV:G.B", "R0, @H'F853", [0xF853]), instruction(0xBCFA, "BSR", "loc_BA26", targets=[0xBA26]), ] ), ) schema = semantics["response_schema"][0] byte_sources = {item["offset"]: item["source_expression"] for item in schema["bytes"]} self.assertEqual(byte_sources[0], "0x04") self.assertEqual(byte_sources[1], "rx[2]") self.assertEqual(byte_sources[2], "stale/unchanged") self.assertEqual(byte_sources[3], "primary_value_table_candidate") self.assertEqual(byte_sources[4], "primary_value_table_candidate") self.assertIn("avoid a fixed 04 00 qq hi lo", semantic_text(schema)) def test_actual_be4d_retry_error_echo_copies_rx_payload(self): semantics = only_semantics( self, base_payload( [ instruction(0xBE4B, "BRA", "loc_BE6D", targets=[0xBE6D]), instruction(0xBE4D, "MOV:G.B", "#H'07, @H'F850", [0xF850]), instruction(0xBE52, "MOV:G.B", "@H'F861, R0", [0xF861]), instruction(0xBE56, "MOV:G.B", "R0, @H'F851", [0xF851]), instruction(0xBE5A, "MOV:G.W", "@H'F862, R0", [0xF862]), instruction(0xBE5E, "MOV:G.W", "R0, @H'F852", [0xF852]), instruction(0xBE62, "MOV:G.B", "@H'F864, R0", [0xF864]), instruction(0xBE66, "MOV:G.B", "R0, @H'F854", [0xF854]), instruction(0xBE6A, "BSR", "loc_BA26", targets=[0xBA26]), ] ), ) schema = semantics["response_schema"][0] byte_sources = {item["offset"]: item["source_expression"] for item in schema["bytes"]} self.assertEqual(byte_sources, {0: "0x07", 1: "rx[1]", 2: "rx[2]", 3: "rx[3]", 4: "rx[4]"}) self.assertIn("80 40 20 90", semantic_text(schema)) self.assertIn("not a table", semantic_text(schema)) def test_timer_interrupt_model_surfaces_frt2_idle_heartbeat_counter(self): semantics = only_semantics( self, base_payload( [ instruction(0xBF23, "BCLR.B", "#5, @FRT2_TCSR"), instruction(0xBF27, "TST.B", "@H'F9C4", [0xF9C4]), instruction(0xBF2D, "ADD:Q.B", "#-1, @H'F9C4", [0xF9C4]), instruction(0xBF31, "TST.B", "@H'F9C5", [0xF9C5]), instruction(0xBF37, "ADD:Q.B", "#-1, @H'F9C5", [0xF9C5]), ] ), ) timer = semantics["timer_interrupt_model"] timer_text = semantic_text(timer) self.assertIn("frt2 ocia", timer_text) self.assertIn("f9c4", timer_text) self.assertIn("idle_heartbeat_gate_countdown", timer_text) self.assertIn("phi/32", timer_text) def test_missing_serial_reconstruction_candidates_emit_no_protocol_semantics(self): payload = { "serial_reconstruction": {"candidates": []}, "instructions": [ instruction(0xBA80, "MOV:G.B", "@H'F860, R0", [0xF860]), instruction(0xBA84, "AND.B", "#H'07, R0"), instruction(0xBA88, "CMP:E.B", "#H'00, R0"), instruction(0xBA8C, "BEQ", "loc_BAA0", targets=[0xBAA0]), ], } analysis = analyze_serial_semantics(payload) self.assertEqual(analysis["kind"], "serial_semantics") self.assertEqual(analysis["protocol_semantics"], []) if __name__ == "__main__": unittest.main()