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h8-536-decoder/tests/test_serial_gate.py

165 lines
8.1 KiB
Python

import io
import json
import tempfile
import unittest
from pathlib import Path
from h8536.serial_gate import analyze_serial_gate, format_text_report, main
def ins(
address: int,
text: str,
mnemonic: str | None = None,
operands: str = "",
references: list[int] | None = None,
targets: list[int] | None = None,
) -> dict[str, object]:
refs = [{"address": ref, "symbol": f"ram_{ref:04X}", "region": "on_chip_ram", "kind": "ram"} for ref in references or []]
return {
"address": address,
"text": text,
"mnemonic": mnemonic or text.split()[0],
"operands": operands or (text.split(" ", 1)[1] if " " in text else ""),
"kind": "call" if text.startswith("BSR") else "normal",
"targets": targets or [],
"references": refs,
}
def fixture_payload() -> dict[str, object]:
rows = [
ins(0x3FD3, "TST.B @H'FAA2", references=[0xFAA2]),
ins(0x3FD7, "BNE loc_3FEE", targets=[0x3FEE]),
ins(0x3FD9, "BTST.B #7, @H'FAA5", references=[0xFAA5]),
ins(0x3FDD, "BEQ loc_3FE5", targets=[0x3FE5]),
ins(0x3FDF, "TST.B @H'F9C3", references=[0xF9C3]),
ins(0x3FE3, "BNE loc_3FEE", targets=[0x3FEE]),
ins(0x3FE5, "TST.B @H'F9C0", references=[0xF9C0]),
ins(0x3FE9, "BNE loc_3FEE", targets=[0x3FEE]),
ins(0x3FEB, "BSR loc_BAF2", targets=[0xBAF2]),
ins(0x3FEF, "TST.B @H'F9C5", references=[0xF9C5]),
ins(0x3FF5, "CLR.B @H'F9B5", references=[0xF9B5]),
ins(0x3FF9, "CLR.B @H'F9B0", references=[0xF9B0]),
ins(0xBAF2, "MOV:G.B @H'F9B5, R1", references=[0xF9B5]),
ins(0xBAF8, "CMP:G.B @H'F9B0, R1", references=[0xF9B0]),
ins(0xBAFC, "BNE loc_BB00", targets=[0xBB00]),
ins(0xBAFE, "BRA loc_BB56", targets=[0xBB56]),
ins(0xBB00, "BSET.B #3, @H'FAA2", references=[0xFAA2]),
ins(0xBB08, "MOV:G.W @(-H'0790,R0), R0"),
ins(0xBB1C, "MOV:G.B R1, @H'F850", references=[0xF850]),
ins(0xBB20, "MOV:G.B R5, @H'F852", references=[0xF852]),
ins(0xBB2B, "MOV:G.B R5, @H'F851", references=[0xF851]),
ins(0xBB39, "MOV:G.B R4, @H'F854", references=[0xF854]),
ins(0xBB3F, "MOV:G.B R4, @H'F853", references=[0xF853]),
ins(0xBB43, "BSR loc_BA26", targets=[0xBA26]),
ins(0xBB46, "MOV:G.W #H'01F4, @H'F9C6", references=[0xF9C6]),
ins(0xBB4C, "MOV:G.B #H'14, @H'F9C8", references=[0xF9C8]),
ins(0xBB51, "MOV:G.B #H'80, @H'FAA3", references=[0xFAA3]),
ins(0xBBCB, "CLR.B @H'F9C3", references=[0xF9C3]),
ins(0xBC0F, "TST.B @H'FAA2", references=[0xFAA2]),
ins(0xBC15, "BSET.B #7, @H'FAA2", references=[0xFAA2]),
ins(0xBD6D, "ADD:Q.B #1, @H'F9B5", references=[0xF9B5]),
ins(0xBD71, "BCLR.B #7, @H'F9B5", references=[0xF9B5]),
ins(0xBD75, "CLR.B @H'FAA3", references=[0xFAA3]),
ins(0xBD79, "CLR.B @H'FAA2", references=[0xFAA2]),
ins(0xBE9E, "MOV:G.B @H'FAA5, R0", references=[0xFAA5]),
ins(0xBEA5, "AND.B @H'FAA3, R0", references=[0xFAA3]),
ins(0xBEA9, "MOV:G.B R0, @H'FAA3", references=[0xFAA3]),
ins(0xBEAF, "CLR.B @H'FAA2", references=[0xFAA2]),
ins(0xBEB5, "TST.W @H'F9C6", references=[0xF9C6]),
ins(0xBEBB, "TST.B @H'F9C8", references=[0xF9C8]),
ins(0xBEC5, "MOV:G.W #H'01F4, @H'F9C6", references=[0xF9C6]),
ins(0xBECB, "BTST.B #7, @H'FAA3", references=[0xFAA3]),
ins(0xBED1, "CLR.B @H'F9C3", references=[0xF9C3]),
ins(0xBED5, "BSR loc_BA26", targets=[0xBA26]),
ins(0xBEEA, "BCLR.B #5, @FRT1_TCSR"),
ins(0xBEEE, "TST.B @H'F9C0", references=[0xF9C0]),
ins(0xBEF2, "BEQ loc_BEF8", targets=[0xBEF8]),
ins(0xBEF4, "ADD:Q.B #-1, @H'F9C0", references=[0xF9C0]),
ins(0xBEF8, "TST.B @H'F9C1", references=[0xF9C1]),
ins(0xBEFC, "BEQ loc_BF02", targets=[0xBF02]),
ins(0xBEFE, "ADD:Q.B #-1, @H'F9C1", references=[0xF9C1]),
ins(0xBF02, "TST.W @H'F9C6", references=[0xF9C6]),
ins(0xBF06, "BEQ loc_BF0C", targets=[0xBF0C]),
ins(0xBF08, "ADD:Q.W #-1, @H'F9C6", references=[0xF9C6]),
]
return {
"vectors": [{"address": 0x0062, "name": "frt1_ocia", "target": 0xBEEA, "target_label": "vec_frt1_ocia_BEEA"}],
"call_graph": {"nodes": [{"start": 0x3FD3, "label": "loc_3FD3"}, {"start": 0xBAF2, "label": "loc_BAF2"}]},
"instructions": rows,
}
class SerialGateTest(unittest.TestCase):
def test_reconstructs_requested_gate_evidence(self):
analysis = analyze_serial_gate(fixture_payload())
self.assertEqual(analysis["summary"]["confidence"], "high")
self.assertTrue(analysis["evidence"]["scheduler_gate_loc_3FD3"]["present"])
self.assertIn("FAA2 == 0", analysis["evidence"]["scheduler_gate_loc_3FD3"]["summary"])
self.assertTrue(analysis["evidence"]["queue_send_gate_loc_BAF2"]["present"])
self.assertEqual(analysis["evidence"]["queue_send_gate_loc_BAF2"]["queue_table_candidate"]["base_address_hex"], "H'F870")
self.assertEqual(analysis["evidence"]["queue_send_gate_loc_BAF2"]["send_call_address_hex"], "H'BB43")
self.assertTrue(analysis["evidence"]["resend_gate_path"]["present"])
self.assertEqual(analysis["evidence"]["resend_gate_path"]["resend_call_address_hex"], "H'BED5")
self.assertTrue(analysis["evidence"]["rx_session_maintenance"]["present"])
self.assertTrue(any("0x0007" in caveat and "0x0015" in caveat for caveat in analysis["caveats"]))
def test_json_analysis_includes_frt1_tick_timer_roles(self):
analysis = analyze_serial_gate(fixture_payload())
tick = analysis["evidence"]["timer_tick_evidence"]
self.assertTrue(tick["present"])
self.assertEqual(tick["vector_address_hex"], "H'0062")
self.assertEqual(tick["handler_address_hex"], "H'BEEA")
self.assertIn("FRT1_TCSR.OCFA", tick["summary"])
roles = {role["address"]: role for role in tick["candidate_timer_roles"]}
self.assertIn("post-TX/report delay", roles[0xF9C0]["role"])
self.assertIn("secondary delay", roles[0xF9C1]["role"])
self.assertIn("periodic report/heartbeat", roles[0xF9C6]["role"])
def test_summarizes_key_state_readers_and_writers(self):
analysis = analyze_serial_gate(fixture_payload())
accesses = {entry["address"]: entry for entry in analysis["state_accesses"]}
self.assertGreaterEqual(accesses[0xF9B5]["read_count"], 1)
self.assertGreaterEqual(accesses[0xF9B5]["read_write_count"], 1)
self.assertGreaterEqual(accesses[0xF9C1]["read_write_count"], 1)
self.assertGreaterEqual(accesses[0xFAA3]["write_count"], 1)
self.assertIn("sample_accesses", accesses[0xFAA2])
def test_text_report_mentions_caveat_and_gate(self):
text = format_text_report(analyze_serial_gate(fixture_payload()))
self.assertIn("loc_3FD3 gate into loc_BAF2", text)
self.assertIn("capture overlays/runtime queue entries", text)
self.assertIn("H'F9B5", text)
def test_text_report_mentions_frt1_tick_timer_roles(self):
text = format_text_report(analyze_serial_gate(fixture_payload()))
self.assertIn("FRT1 OCIA periodic tick countdowns: present", text)
self.assertIn("H'BEEA: BCLR.B #5, @FRT1_TCSR", text)
self.assertIn("H'F9C0: candidate post-TX/report delay countdown", text)
self.assertIn("H'F9C1: candidate secondary delay countdown", text)
self.assertIn("H'F9C6: candidate periodic report/heartbeat countdown", text)
def test_cli_json_output_and_out_file(self):
with tempfile.TemporaryDirectory() as tmp:
input_path = Path(tmp) / "rom.json"
output_path = Path(tmp) / "gate.json"
input_path.write_text(json.dumps(fixture_payload()), encoding="utf-8")
stdout = io.StringIO()
rc = main(["--json", "--out", str(output_path), str(input_path)], stdout=stdout)
self.assertEqual(rc, 0)
self.assertIn("wrote", stdout.getvalue())
payload = json.loads(output_path.read_text(encoding="utf-8"))
self.assertEqual(payload["kind"], "serial_gate")
if __name__ == "__main__":
unittest.main()