1
0

Emualtor RX side

This commit is contained in:
Aiden
2026-05-25 21:25:10 +10:00
parent 752148c585
commit e141f3b30d
9 changed files with 597 additions and 2 deletions

View File

@@ -42,6 +42,7 @@ To start the current emulator harness:
.\.venv\Scripts\python.exe h8536_emulator.py --max-steps 1000000 --stop-on-heartbeat --interval-steps 512
.\.venv\Scripts\python.exe h8536_emulator_probe.py --max-steps 4000000 --stop-on-tx
.\.venv\Scripts\python.exe h8536_emulator_probe.py --max-steps 1000000 --stop-on-tx --p9-fast-path
.\.venv\Scripts\python.exe h8536_emulator_rx_probe.py --preset connect-lcd
```
## What It Does
@@ -81,8 +82,9 @@ To start the current emulator harness:
- Handles the E-clock transfer instructions `MOVFPE` and `MOVTPE`.
- Recognizes likely LCD E-clock access routines at `H'F200`/`H'F201`, including busy-flag polling and data/control writes.
- Generates a separate C-like pseudocode view from the JSON, preserving labels, calls, branches, register names, inferred symbols, metadata comments, optional cycle notes, and simple structured `if`/`do while` patterns.
- Provides an early H8/536 emulator harness with ROM/RAM/register memory mapping, reset-vector boot, SCI1 transmit capture, MOV condition-code updates, `SCB/F`, stack/call/return support, scaffolded SCI1 TXI/interval/FRT1-OCIA/FRT2-OCIA interrupt scheduling, a P9 bit-banged bus model, and an opt-in P9 transfer fast path.
- Provides an early H8/536 emulator harness with ROM/RAM/register memory mapping, reset-vector boot, SCI1 transmit capture, MOV condition-code updates, `SCB/F`, stack/call/return support, indirect `JMP/JSR @Rn` dispatch, scaffolded SCI1 RXI/ERI/TXI and interval/FRT1-OCIA/FRT2-OCIA interrupt scheduling, a P9 bit-banged bus model, and an opt-in P9 transfer fast path.
- Includes an emulator probe that reports hot PCs, recent P9/SCI accesses, serial report queue/gate traces, RAM lifecycle watches, final SCI1/TXI state, and captured P9 byte candidates while running the real ROM.
- Includes an RX command probe that boots until SCI1 RXI is serviceable, injects host six-byte frames through RDR/RDRF, listens for device TX frames, and reports serial latch/table/LCD-buffer effects.
Current serial observations:
@@ -92,6 +94,7 @@ Current serial observations:
- Idle cadence from the reference file: 54 frames, average about 699.9 ms, min 601 ms, max 803 ms.
- Static/runtime finding: `F9C4` is a candidate idle heartbeat/report countdown. Init loads `H'14`, `loc_BA26` reloads `H'07` after a send, FRT2 OCIA decrements it, and `loc_4046` can enqueue report `H'0000` when it reaches zero and the queue is empty.
- Runtime-confirmed heartbeat path: `loc_4067` writes `H'0000` into the queue via a zero-extended word move, `loc_BAF2/loc_BB08` dequeue it, `loc_BB1C/loc_BB20/loc_BB2B` stage the TX bytes, and `loc_BA26` emits `00 00 00 00 80 DA`.
- RX probe finding: the `--preset connect-lcd` sequence reaches the command-`0x04` handler; `04 00 00 80 00 DE` writes table index zero, fills the LCD line buffer with `CONNECT: OK`, and emits `02 00 02 00 00 5A` in the current emulator model.
- Observed capture labels such as `cam_power_button_candidate` and `call_button_candidate` are deliberately treated as capture overlays, not protocol facts hard-coded in ROM.
The generated listing is written to:
@@ -190,6 +193,7 @@ For the emulator harness:
```powershell
python h8536_emulator.py --help
python h8536_emulator_probe.py --help
python h8536_emulator_rx_probe.py --help
```
- `--rom PATH`: use an explicit ROM path instead of auto-discovering `ROM\M27C512@DIP28_1.BIN`.
@@ -201,6 +205,8 @@ python h8536_emulator_probe.py --help
- `--p9-fast-path`: shortcut known P9 transfer routines for exploration.
- `--trace-report-gates`, `--trace-report-queue`, and `--trace-ram-lifecycle`: inspect the serial report queue, `loc_4046`/`F9C4` gate, and watched RAM byte history.
- `--target-frame "00 00 00 00 80 DA"`: compare staged/emitted TX bytes against an expected six-byte frame.
- `h8536_emulator_rx_probe.py "04 00 00 80 00"`: append the checksum, inject the host frame through SCI1 RX, and summarize responses.
- `h8536_emulator_rx_probe.py --preset connect-lcd`: replay the current CONNECT LCD activation candidates.
- Current status: boots from `H'1000`, initializes SCI1, models the first P9 bit-banged handshakes, captures P9 byte candidates, can optionally fast-path known P9 routines, and schedules FRT1/FRT2 OCIA. With the P9 fast path and current timer cadence, the emulator reaches the SCI1 transmit path and emits the observed heartbeat frame `00 00 00 00 80 DA`.
## Code Layout
@@ -233,6 +239,7 @@ python h8536_emulator_probe.py --help
- `h8536/table_xrefs.py`: table/index xrefs and LCD correlation report generation.
- `h8536/consistency.py`: decompiler/pseudocode semantic consistency checks.
- `h8536/emulator/`: early H8/536 emulator package split into CPU state, memory map, SCI1 TX capture, P9 bus model, runner, probe, CLI, and peripheral scaffolding.
- `h8536/emulator/rx_probe.py`: host-frame injection and response/listener probe for SCI1 RX experiments.
- `h8536/board_profile.py`: Sony RCP-TX7 board-trace annotations, including the MAX202 RS232 path.
- `h8536/peripheral_access.py`: FRT/A-D TEMP-register access analysis.
- `h8536/pseudocode.py`: JSON-to-C-like pseudocode generation.
@@ -242,4 +249,4 @@ python h8536_emulator_probe.py --help
- `h8536_serial_pseudocode.py`: focused serial pseudocode CLI wrapper.
- `h8536_protocol_trace.py`, `h8536_protocol_capture.py`: protocol analysis CLI wrappers.
- `h8536_serial_gate.py`, `h8536_report_source_trace.py`, `h8536_table_xrefs.py`, `h8536_consistency.py`: sidecar analysis CLI wrappers.
- `h8536_emulator.py`, `h8536_emulator_probe.py`: emulator CLI wrappers.
- `h8536_emulator.py`, `h8536_emulator_probe.py`, `h8536_emulator_rx_probe.py`: emulator CLI wrappers.

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@@ -37,6 +37,8 @@ from .constants import (
VECTOR_FRT1_OCIA,
VECTOR_INTERVAL_TIMER,
VECTOR_FRT2_OCIA,
VECTOR_SCI1_ERI,
VECTOR_SCI1_RXI,
VECTOR_SCI1_TXI,
WDT_TCSR_R,
)
@@ -95,6 +97,8 @@ __all__ = [
"VECTOR_FRT1_OCIA",
"VECTOR_INTERVAL_TIMER",
"VECTOR_FRT2_OCIA",
"VECTOR_SCI1_ERI",
"VECTOR_SCI1_RXI",
"VECTOR_SCI1_TXI",
"WDT_TCSR_R",
"build_arg_parser",

View File

@@ -43,4 +43,6 @@ HEARTBEAT_FRAME = bytes([0x00, 0x00, 0x00, 0x00, 0x80, 0xDA])
VECTOR_INTERVAL_TIMER = 0x0042
VECTOR_FRT1_OCIA = 0x0062
VECTOR_FRT2_OCIA = 0x006A
VECTOR_SCI1_ERI = 0x0080
VECTOR_SCI1_RXI = 0x0082
VECTOR_SCI1_TXI = 0x0084

View File

@@ -115,6 +115,11 @@ class MemoryMap:
self.write8(address, (value >> 8) & 0xFF)
self.write8((address + 1) & 0xFFFF, value & 0xFF)
def inject_sci1_rx_byte(self, value: int) -> None:
self.sci1.inject_rx(value)
self._set_register(SCI1_RDR, self.sci1.read(SCI1_RDR))
self._set_register(SCI1_SSR, self.sci1.read(SCI1_SSR))
def _set_register(self, address: int, value: int) -> None:
self.registers[address - REGISTER_FIELD_START] = value & 0xFF

View File

@@ -16,11 +16,19 @@ from .constants import (
IPRA,
IPRC,
IPRE,
SCI_SCR_RE,
SCI_SCR_RIE,
SCI_SCR_TIE,
SCI_SSR_FER,
SCI_SSR_ORER,
SCI_SSR_PER,
SCI_SSR_RDRF,
SCI_SSR_TDRE,
VECTOR_FRT1_OCIA,
VECTOR_FRT2_OCIA,
VECTOR_INTERVAL_TIMER,
VECTOR_SCI1_ERI,
VECTOR_SCI1_RXI,
VECTOR_SCI1_TXI,
)
from .cpu import CPUState, mask, s8, s16, sign_bit
@@ -97,6 +105,9 @@ class H8536Emulator:
return self.memory.rom.u16(0)
raise DecodeError("ROM does not contain a reset vector at H'0000")
def inject_sci1_rx_byte(self, value: int) -> None:
self.memory.inject_sci1_rx_byte(value)
def step(self) -> str:
pc = self.cpu.pc
if self.p9_fast_path.try_handle(self):
@@ -116,6 +127,8 @@ class H8536Emulator:
pass
elif raw[0] == 0x02 and len(raw) == 2:
self._pop_register_mask(raw[1])
elif raw[0] == 0x11 and len(raw) >= 2:
next_pc = self._indirect_jump_call(raw, pc, next_pc)
elif raw[0] == 0x12 and len(raw) == 2:
self._push_register_mask(raw[1])
elif raw[0] in (0x01, 0x06, 0x07) and len(raw) == 3 and 0xB8 <= raw[1] <= 0xBF:
@@ -366,6 +379,20 @@ class H8536Emulator:
return (next_pc + s16(int.from_bytes(raw[1:3], "big"))) & 0xFFFF
return int.from_bytes(raw[1:3], "big")
def _indirect_jump_call(self, raw: bytes, pc: int, next_pc: int) -> int:
op = raw[1]
if 0xC0 <= op <= 0xDF:
target = self.cpu.regs[op & 0x07] & 0xFFFF
elif 0xE0 <= op <= 0xEF and len(raw) >= 3:
target = (self.cpu.regs[op & 0x07] + s8(raw[2])) & 0xFFFF
elif 0xF0 <= op <= 0xFF and len(raw) >= 4:
target = (self.cpu.regs[op & 0x07] + s16(int.from_bytes(raw[2:4], "big"))) & 0xFFFF
else:
raise UnsupportedInstruction(pc, raw, H8536Decoder(self.memory.rom, br=self.cpu.br).decode(pc).text)
if 0xC8 <= op <= 0xCF or 0xD8 <= op <= 0xDF or 0xE8 <= op <= 0xEF or 0xF8 <= op <= 0xFF:
self._push16(next_pc)
return target
def _scb(self, raw: bytes, pc: int, next_pc: int) -> int:
reg = raw[1] & 0x07
condition = {0x01: False, 0x06: not self.cpu.z, 0x07: self.cpu.z}[raw[0]]
@@ -389,6 +416,15 @@ class H8536Emulator:
if self.cpu.interrupt_depth:
return
candidates: list[tuple[int, int, str]] = []
sci1_rx_interrupts_enabled = bool(self.sci1.scr & SCI_SCR_RIE and self.sci1.scr & SCI_SCR_RE)
if sci1_rx_interrupts_enabled and self.sci1.ssr & (SCI_SSR_ORER | SCI_SSR_FER | SCI_SSR_PER):
target = self._vector_target(VECTOR_SCI1_ERI)
if target is not None:
candidates.append((self._sci1_priority(), target, "sci1_eri"))
if sci1_rx_interrupts_enabled and self.sci1.ssr & SCI_SSR_RDRF:
target = self._vector_target(VECTOR_SCI1_RXI)
if target is not None:
candidates.append((self._sci1_priority(), target, "sci1_rxi"))
if self.sci1.scr & SCI_SCR_TIE and self.sci1.ssr & SCI_SSR_TDRE:
target = self._vector_target(VECTOR_SCI1_TXI)
if target is not None:

470
h8536/emulator/rx_probe.py Normal file
View File

@@ -0,0 +1,470 @@
from __future__ import annotations
import argparse
from collections import Counter
from dataclasses import dataclass, field
from pathlib import Path
from typing import Callable, Iterable
from ..formatting import h16, parse_int
from .cli import load_rom
from .constants import (
IPRE,
SCI_SCR_RE,
SCI_SCR_RIE,
SCI_SSR_RDRF,
VECTOR_SCI1_RXI,
)
from .errors import UnsupportedInstruction
from .memory import MemoryAccess
from .runner import H8536Emulator
CHECKSUM_SEED = 0x5A
FRAME_LENGTH = 6
CONNECT_LCD_FRAMES = (
bytes.fromhex("04000040001E"),
bytes.fromhex("0400008000DE"),
bytes.fromhex("040000C0009E"),
)
WATCH_PCS = {
0xBB57: "sci1_eri_entry",
0xBB67: "sci1_rxi_entry",
0xBBD6: "rx_checksum_seed",
0xBBF0: "rx_checksum_compare",
0xBC08: "command_dispatch",
0xBD0E: "command_04_handler",
0xBCCD: "command_04_send",
0xBE05: "command_07_handler",
0xBE29: "rx_error_or_retry",
0xBA26: "tx_builder",
0xBA72: "tx_first_byte",
0xBA84: "txi_entry",
0x3ECC: "lcd_line_buffer_entry",
0x3F28: "lcd_driver_stage",
0x3F40: "lcd_port_writer",
}
WATCH_RANGES = (
(0x2CA6, 0x2D20, "connect_display_window"),
(0xBB57, 0xBE6F, "sci1_rx_command_window"),
)
ACCESS_RANGES = (
(0xF850, 0xF85D, "tx_staging_or_frame"),
(0xF860, 0xF86D, "rx_validation_or_capture"),
(0xF870, 0xF96F, "report_queue"),
(0xF970, 0xF9AF, "secondary_dispatch_or_table"),
(0xF9B0, 0xF9C8, "serial_gate_state"),
(0xFAA2, 0xFAA6, "serial_latches"),
(0xFAF0, 0xFAFF, "lcd_line_buffer"),
(0xE000, 0xE001, "primary_table_index_0000"),
(0xE400, 0xE401, "secondary_table_index_0000"),
(0xE800, 0xE801, "current_table_index_0000"),
(0xEC00, 0xEC01, "flag_table_index_0000"),
(0xF200, 0xF201, "lcd_ports"),
)
STATE_BYTES = {
0xF9B0: "queue_head",
0xF9B5: "queue_tail",
0xF9C0: "tx_gate",
0xF9C1: "rx_interbyte_timeout",
0xF9C3: "rx_index",
0xF9C4: "idle_heartbeat_gate",
0xF9C5: "rx_session_timeout",
0xF9C6: "resend_period_hi",
0xF9C7: "resend_period_lo",
0xF9C8: "resend_countdown",
0xFAA2: "session_flags",
0xFAA3: "pending_mask",
0xFAA4: "rx_error_latch",
0xFAA5: "retry_or_gate_flags",
0xFAA6: "retry_counter",
}
STATE_WORDS = {
0xE000: "E000_index_0000_primary",
0xE400: "E400_index_0000_secondary",
0xE800: "E800_index_0000_current",
0xF860: "rx_frame_01",
0xF862: "rx_frame_23",
0xF864: "rx_frame_45",
0xF970: "F970_selector_zero_dispatch",
}
@dataclass
class RunContext:
pc_hits: Counter[str] = field(default_factory=Counter)
first_pcs: list[tuple[int, str]] = field(default_factory=list)
unsupported: str | None = None
def record_pc(self, pc: int) -> None:
label = WATCH_PCS.get(pc)
if label is None:
for start, end, range_label in WATCH_RANGES:
if start <= pc <= end:
label = range_label
break
if label is None:
return
self.pc_hits[label] += 1
if len(self.first_pcs) < 32:
self.first_pcs.append((pc, label))
@dataclass(frozen=True)
class FrameResult:
input_frame: bytes
checksum_ok: bool
steps: int
stopped_reason: str
new_tx_bytes: bytes
new_tx_frames: list[bytes]
state_before: dict[str, int | str]
state_after: dict[str, int | str]
accesses: list[MemoryAccess]
context: RunContext
def lines(self, index: int) -> list[str]:
lines = [
f"host_frame[{index}]={format_frame(self.input_frame)} checksum_ok={int(self.checksum_ok)}",
f" stopped={self.stopped_reason} steps={self.steps}",
f" new_tx_bytes={format_frame(self.new_tx_bytes) if self.new_tx_bytes else 'none'}",
]
if self.new_tx_frames:
lines.append(" new_tx_frames=" + " | ".join(format_frame(frame) for frame in self.new_tx_frames))
else:
lines.append(" new_tx_frames=none")
state_changes = _state_change_lines(self.state_before, self.state_after)
if state_changes:
lines.append(" state_changes:")
lines.extend(f" {line}" for line in state_changes)
pc_lines = _pc_hit_lines(self.context)
if pc_lines:
lines.append(" pc_hits:")
lines.extend(f" {line}" for line in pc_lines)
access_lines = _access_lines(self.accesses)
if access_lines:
lines.append(" interesting_accesses:")
lines.extend(f" {line}" for line in access_lines)
if self.context.unsupported:
lines.append(f" unsupported={self.context.unsupported}")
return lines
def parse_frame(text: str) -> bytes:
normalized = text.strip().replace(",", " ").replace(":", " ").replace("-", " ").replace("_", " ")
parts = normalized.split()
if len(parts) == 1:
compact = parts[0]
if compact.lower().startswith("0x"):
compact = compact[2:]
if compact.upper().startswith("H'"):
compact = compact[2:]
if len(compact) % 2:
raise argparse.ArgumentTypeError("frame compact hex must have an even number of digits")
parts = [compact[index : index + 2] for index in range(0, len(compact), 2)]
values = [_parse_byte(part) for part in parts]
if len(values) == FRAME_LENGTH - 1:
values.append(frame_checksum(bytes(values)))
if len(values) != FRAME_LENGTH:
raise argparse.ArgumentTypeError("frame must contain 5 bytes plus computed checksum or exactly 6 bytes")
return bytes(values)
def frame_checksum(data: bytes) -> int:
checksum = CHECKSUM_SEED
for value in data[: FRAME_LENGTH - 1]:
checksum ^= value
return checksum & 0xFF
def frame_checksum_ok(frame: bytes) -> bool:
return len(frame) == FRAME_LENGTH and frame_checksum(frame) == frame[-1]
def format_frame(data: bytes) -> str:
return data.hex(" ").upper()
def run_rx_probe(
frames: Iterable[bytes],
*,
rom_path: Path | None = None,
boot_steps: int = 250_000,
per_byte_steps: int = 5_000,
post_frame_steps: int = 80_000,
interval_steps: int = 512,
frt1_ocia_steps: int = 512,
frt2_ocia_steps: int = 512,
p9_fast_path: bool = True,
p9_fast_input: int = 0xFF,
stop_after_tx_frame: bool = True,
) -> tuple[Path, H8536Emulator, str, list[FrameResult]]:
rom_bytes, discovered_rom_path = load_rom(rom_path)
emulator = H8536Emulator(
rom_bytes,
interval_steps=interval_steps,
frt1_ocia_steps=frt1_ocia_steps,
frt2_ocia_steps=frt2_ocia_steps,
p9_fast_path_enabled=p9_fast_path,
p9_fast_default_input_byte=p9_fast_input,
)
boot_context = RunContext()
boot_steps_used, boot_reason = _run_until(emulator, boot_steps, _rx_ready, boot_context)
boot_summary = (
f"boot={boot_reason} steps={boot_steps_used} pc={h16(emulator.cpu.pc)} "
f"SCR={emulator.sci1.scr:02X} SSR={emulator.sci1.ssr:02X} "
f"rx_serviceable={int(_rx_ready(emulator))}"
)
results = [
_run_frame(
emulator,
frame,
per_byte_steps=per_byte_steps,
post_frame_steps=post_frame_steps,
stop_after_tx_frame=stop_after_tx_frame,
)
for frame in frames
]
return discovered_rom_path, emulator, boot_summary, results
def build_arg_parser() -> argparse.ArgumentParser:
parser = argparse.ArgumentParser(description="Inject host SCI1 frames into the H8/536 emulator and listen for ROM TX responses.")
parser.add_argument("frames", nargs="*", type=parse_frame, help="host frame hex; 5-byte inputs get a 0x5A-XOR checksum appended")
parser.add_argument("--rom", type=Path, help="ROM image path; defaults to ROM/M27C512@DIP28_1.BIN when present")
parser.add_argument("--preset", choices=("connect-lcd",), help="append a built-in host-frame set")
parser.add_argument("--boot-steps", type=int, default=250_000, help="maximum steps to boot until SCI1 RXI is serviceable")
parser.add_argument("--per-byte-steps", type=int, default=5_000, help="maximum steps after each injected RX byte")
parser.add_argument("--post-frame-steps", type=int, default=80_000, help="maximum steps after a full injected frame")
parser.add_argument("--keep-listening", action="store_true", help="use all post-frame steps instead of stopping at the first new TX frame")
parser.add_argument("--interval-steps", type=int, default=512, help="rough step period for the scaffolded interval timer interrupt")
parser.add_argument("--frt1-ocia-steps", type=int, default=512, help="rough step period for the scaffolded FRT1 OCIA interrupt")
parser.add_argument("--frt2-ocia-steps", type=int, default=512, help="rough step period for the scaffolded FRT2 OCIA interrupt")
parser.add_argument("--no-p9-fast-path", action="store_true", help="disable shortcut handling for known P9 routines")
parser.add_argument("--p9-fast-input", type=parse_int, default=0xFF, help="default byte returned by the P9 fast-path read routine")
return parser
def main(argv: list[str] | None = None) -> int:
args = build_arg_parser().parse_args(argv)
frames = list(args.frames)
if args.preset == "connect-lcd":
frames.extend(CONNECT_LCD_FRAMES)
if not frames:
raise SystemExit("pass at least one frame or use --preset connect-lcd")
rom_path, emulator, boot_summary, results = run_rx_probe(
frames,
rom_path=args.rom,
boot_steps=args.boot_steps,
per_byte_steps=args.per_byte_steps,
post_frame_steps=args.post_frame_steps,
interval_steps=args.interval_steps,
frt1_ocia_steps=args.frt1_ocia_steps,
frt2_ocia_steps=args.frt2_ocia_steps,
p9_fast_path=not args.no_p9_fast_path,
p9_fast_input=args.p9_fast_input,
stop_after_tx_frame=not args.keep_listening,
)
print(f"rom={rom_path}")
print(f"reset_vector={h16(emulator.reset_vector())}")
print(boot_summary)
for index, result in enumerate(results):
for line in result.lines(index):
print(line)
print("total_tx_frames=" + " | ".join(format_frame(frame) for frame in emulator.sci1.tx_frames))
return 0
def _run_frame(
emulator: H8536Emulator,
frame: bytes,
*,
per_byte_steps: int,
post_frame_steps: int,
stop_after_tx_frame: bool,
) -> FrameResult:
state_before = _state_snapshot(emulator)
log_start = len(emulator.memory.access_log)
tx_byte_start = len(emulator.sci1.tx_bytes)
tx_frame_start = len(emulator.sci1.tx_frames)
context = RunContext()
stopped_reason = "post_frame_steps"
steps_total = 0
for offset, value in enumerate(frame):
emulator.inject_sci1_rx_byte(value)
steps, reason = _run_until(emulator, per_byte_steps, _rx_byte_consumed, context)
steps_total += steps
if reason != "predicate":
stopped_reason = f"rx_byte_{offset}_{reason}"
break
else:
target_frame_count = tx_frame_start + 1
def post_predicate(inner: H8536Emulator) -> bool:
return stop_after_tx_frame and len(inner.sci1.tx_frames) >= target_frame_count
steps, reason = _run_until(emulator, post_frame_steps, post_predicate, context)
steps_total += steps
stopped_reason = "tx_frame" if reason == "predicate" and stop_after_tx_frame else reason
log_end = len(emulator.memory.access_log)
state_after = _state_snapshot(emulator)
return FrameResult(
input_frame=frame,
checksum_ok=frame_checksum_ok(frame),
steps=steps_total,
stopped_reason=stopped_reason,
new_tx_bytes=bytes(emulator.sci1.tx_bytes[tx_byte_start:]),
new_tx_frames=list(emulator.sci1.tx_frames[tx_frame_start:]),
state_before=state_before,
state_after=state_after,
accesses=emulator.memory.access_log[log_start:log_end],
context=context,
)
def _run_until(
emulator: H8536Emulator,
max_steps: int,
predicate: Callable[[H8536Emulator], bool],
context: RunContext,
) -> tuple[int, str]:
for index in range(max_steps):
if predicate(emulator):
return index, "predicate"
pc = emulator.cpu.pc
context.record_pc(pc)
try:
emulator.step()
except UnsupportedInstruction as exc:
context.unsupported = str(exc)
return index, "unsupported_instruction"
return max_steps, "max_steps"
def _rx_ready(emulator: H8536Emulator) -> bool:
if not (emulator.sci1.scr & SCI_SCR_RIE and emulator.sci1.scr & SCI_SCR_RE):
return False
if emulator.vectors.get(VECTOR_SCI1_RXI) is None:
return False
return _sci1_priority(emulator) > _interrupt_mask(emulator)
def _rx_byte_consumed(emulator: H8536Emulator) -> bool:
return not (emulator.sci1.ssr & SCI_SSR_RDRF) and emulator.cpu.interrupt_depth == 0
def _sci1_priority(emulator: H8536Emulator) -> int:
return (emulator.memory.read8(IPRE) >> 4) & 0x07
def _interrupt_mask(emulator: H8536Emulator) -> int:
return (emulator.cpu.sr >> 8) & 0x07
def _state_snapshot(emulator: H8536Emulator) -> dict[str, int | str]:
snapshot: dict[str, int | str] = {}
for address, name in STATE_BYTES.items():
snapshot[name] = emulator.memory.read8(address)
for address, name in STATE_WORDS.items():
snapshot[name] = emulator.memory.read16(address)
snapshot["lcd_line_buffer_ascii"] = _ascii_window(emulator, 0xFAF0, 16)
snapshot["tx_frame_staging"] = format_frame(bytes(emulator.memory.read8(0xF850 + offset) for offset in range(6)))
snapshot["rx_frame_validation"] = format_frame(bytes(emulator.memory.read8(0xF860 + offset) for offset in range(6)))
return snapshot
def _ascii_window(emulator: H8536Emulator, start: int, length: int) -> str:
chars = []
for offset in range(length):
value = emulator.memory.read8(start + offset)
chars.append(chr(value) if 0x20 <= value <= 0x7E else ".")
return "".join(chars)
def _state_change_lines(before: dict[str, int | str], after: dict[str, int | str]) -> list[str]:
lines = []
for key in sorted(after):
if before.get(key) == after[key]:
continue
old = _state_value(before.get(key))
new = _state_value(after[key])
lines.append(f"{key}: {old}->{new}")
return lines
def _state_value(value: int | str | None) -> str:
if isinstance(value, int):
return f"H'{value:04X}" if value > 0xFF else f"H'{value:02X}"
return repr(value)
def _pc_hit_lines(context: RunContext) -> list[str]:
lines = [f"{name}={count}" for name, count in sorted(context.pc_hits.items())]
if context.first_pcs:
first = ", ".join(f"{h16(pc)}:{label}" for pc, label in context.first_pcs[:16])
lines.append(f"first={first}")
return lines
def _access_lines(accesses: list[MemoryAccess]) -> list[str]:
interesting = [access for access in accesses if _interesting_access(access)]
lines = []
for access in interesting[:80]:
label = _access_label(access.address)
lines.append(f"{access.kind:<5} {h16(access.address)} {access.value:02X} {label}")
if len(interesting) > 80:
lines.append(f"... {len(interesting) - 80} more interesting accesses")
return lines
def _interesting_access(access: MemoryAccess) -> bool:
if access.kind == "write":
return _access_label(access.address) != ""
return _access_label(access.address) in {"secondary_dispatch_or_table", "lcd_ports"}
def _access_label(address: int) -> str:
for start, end, label in ACCESS_RANGES:
if start <= address <= end:
return label
return ""
def _parse_byte(text: str) -> int:
token = text.strip()
if token.lower().startswith("0x"):
token = token[2:]
if token.upper().startswith("H'"):
token = token[2:]
if not token or len(token) > 2:
raise argparse.ArgumentTypeError(f"invalid byte token {text!r}")
try:
value = int(token, 16)
except ValueError as exc:
raise argparse.ArgumentTypeError(f"invalid byte token {text!r}") from exc
if not 0 <= value <= 0xFF:
raise argparse.ArgumentTypeError(f"byte out of range {text!r}")
return value
__all__ = [
"CONNECT_LCD_FRAMES",
"format_frame",
"frame_checksum",
"frame_checksum_ok",
"main",
"parse_frame",
"run_rx_probe",
]

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@@ -0,0 +1,5 @@
from h8536.emulator.rx_probe import main
if __name__ == "__main__":
raise SystemExit(main())

View File

@@ -7,11 +7,16 @@ from h8536.emulator import (
IPRE,
ON_CHIP_RAM_START,
REGISTER_FIELD_START,
SCI1_RDR,
SCI1_SCR,
SCI1_SSR,
SCI1_TDR,
SCI_SCR_RE,
SCI_SCR_RIE,
SCI_SCR_TE,
SCI_SSR_RDRF,
SCI_SSR_TDRE,
VECTOR_SCI1_RXI,
H8536Emulator,
MemoryMap,
SCI1,
@@ -106,6 +111,18 @@ class EmulatorHarnessTest(unittest.TestCase):
self.assertEqual(emulator.cpu.regs[1], 0x1234)
self.assertEqual(emulator.cpu.regs[7], 0xFE80)
def test_jmp_register_uses_register_target(self):
rom = rom_with_reset(size=0x1020)
rom[0x1000:0x1003] = b"\x59\x10\x10" # MOV:I.W #H'1010, R1
rom[0x1003:0x1005] = b"\x11\xD1" # JMP @R1
rom[0x1010:0x1013] = b"\x58\x12\x34" # MOV:I.W #H'1234, R0
emulator = H8536Emulator(bytes(rom))
emulator.run(max_steps=3)
self.assertEqual(emulator.cpu.regs[0], 0x1234)
self.assertEqual(emulator.cpu.pc, 0x1013)
def test_sci1_txi_interrupt_can_emit_through_tdr(self):
rom = rom_with_reset(size=0x1040)
rom[0x0084:0x0086] = (0x1010).to_bytes(2, "big")
@@ -123,6 +140,28 @@ class EmulatorHarnessTest(unittest.TestCase):
self.assertEqual(bytes(emulator.sci1.tx_bytes), b"\x42")
self.assertFalse(report.heartbeat_seen)
def test_sci1_rxi_interrupt_consumes_injected_rdr_byte(self):
rom = rom_with_reset(size=0x1040)
rom[VECTOR_SCI1_RXI : VECTOR_SCI1_RXI + 2] = (0x1010).to_bytes(2, "big")
rom[0x1000:0x1003] = b"\x5F\xFE\x80" # MOV:I.W #H'FE80, R7
rom[0x1003:0x1008] = bytes([0x15, (IPRE >> 8) & 0xFF, IPRE & 0xFF, 0x06, 0x70])
rom[0x1008:0x100D] = bytes(
[0x15, (SCI1_SCR >> 8) & 0xFF, SCI1_SCR & 0xFF, 0x06, SCI_SCR_RIE | SCI_SCR_RE],
)
rom[0x100D] = 0x00
rom[0x1010:0x1014] = bytes([0x15, (SCI1_SSR >> 8) & 0xFF, SCI1_SSR & 0xFF, 0xD6])
rom[0x1014:0x1018] = bytes([0x15, (SCI1_RDR >> 8) & 0xFF, SCI1_RDR & 0xFF, 0x80])
rom[0x1018:0x101C] = bytes([0x15, (ON_CHIP_RAM_START >> 8) & 0xFF, ON_CHIP_RAM_START & 0xFF, 0x90])
rom[0x101C] = 0x0A
emulator = H8536Emulator(bytes(rom))
emulator.run(max_steps=3)
emulator.inject_sci1_rx_byte(0xA5)
emulator.run(max_steps=5)
self.assertEqual(emulator.memory.read8(ON_CHIP_RAM_START), 0xA5)
self.assertFalse(emulator.sci1.read(SCI1_SSR) & SCI_SSR_RDRF)
def test_interval_interrupt_vector_can_fire(self):
rom = rom_with_reset(size=0x1040)
rom[0x0042:0x0044] = (0x1020).to_bytes(2, "big")

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@@ -0,0 +1,27 @@
import argparse
import unittest
from h8536.emulator.rx_probe import frame_checksum, frame_checksum_ok, parse_frame
class EmulatorRxProbeTest(unittest.TestCase):
def test_parse_frame_accepts_five_bytes_and_appends_checksum(self):
frame = parse_frame("04 00 00 40 00")
self.assertEqual(frame, bytes.fromhex("04000040001E"))
self.assertTrue(frame_checksum_ok(frame))
def test_parse_frame_accepts_compact_checked_frame(self):
frame = parse_frame("0780684030C5")
self.assertEqual(frame, bytes.fromhex("0780684030C5"))
self.assertEqual(frame_checksum(frame), 0xC5)
self.assertTrue(frame_checksum_ok(frame))
def test_parse_frame_rejects_wrong_length(self):
with self.assertRaises(argparse.ArgumentTypeError):
parse_frame("04 00 00 40")
if __name__ == "__main__":
unittest.main()