ed2e0e72fd
The xboxkrnl data export KeTimeStampBundle (ordinal 0x00AD, import slot
0x820007d0 — confirmed via sylpheed.db imports table) was set up with TWO
defects in the import-patch pass:
1. FROZEN: the block was written once at boot and never updated, so every
field stayed a constant for the whole run (observed: the guest's clock
reader sub_824AA830 = [[0x820007d0]+0x10] returned a constant
0x01d6bc0c from 5M..150M instructions).
2. WRONG LAYOUT: it stuffed the FILETIME high-dword at +0x10. The canonical
X_TIME_STAMP_BUNDLE (xenia-canary kernel_state.h) is:
+0x00 interrupt_time u64 (100ns since boot)
+0x08 system_time u64 (FILETIME 100ns since 1601)
+0x10 tick_count u32 (milliseconds since boot)
+0x14 padding
so [block+0x10] is tick_count in ms, not a FILETIME dword.
Fix (deterministic, no wall-clock):
* Initialize the block with the correct field layout (tick_count = 0 at
boot, system_time = FILETIME base, interrupt_time = 0).
* Store the block VA on KernelState::timestamp_bundle_addr during the
import patch.
* Add KernelState::update_timestamp_bundle(mem, clock) and call it every
round in BOTH the lockstep (run_execution) and parallel
(run_execution_parallel) outer loops, right where the deterministic
Scheduler::global_clock is advanced. The clock is the retired-instruction
monotonic global_clock, so every guest-visible time value stays a pure
function of guest progress (lockstep byte-reproducible).
* Cadence: 1 global_clock unit = 100ns (coherent with parse_timeout, which
divides 100ns timeouts by 100 onto the same basis), so
INSTRUCTIONS_PER_MS = 10_000. tick_count now advances 0 -> ~4999ms over
a 50M-instruction window. Also make KeQuerySystemTime read the same
100ns clock instead of a frozen FILETIME constant.
Verification: tick_count at 0x40002010 now advances (deadline arm at
0x82450d0c stores clock+66 = 0x260,0x269,...,0x51d,... advancing, vs the
frozen 0x01d6bc4e before the fix). Determinism: two cold --stable-digest
runs are byte-identical; the n50m golden is UNCHANGED (the clock-affected
counter is not in the stable digest). 672/672 tests pass.
HONEST CAVEAT — the predicted render cascade did NOT materialize on this
branch. The diagnosed consuming gate at 0x82450b10 (the clock-vs-deadline
compare in the worker-hub channel loop sub_82450A68) is unreachable here:
the loop always branches away at 0x82450b0c ([this+220] >= channel-index),
so the hub already dispatches sub_82450B68 342x in BOTH the frozen and
fixed builds. Guest trajectory (imports 339766@50M / 1738001@200M /
9212446@1B), draws (0), swaps (2) and thread topology (tid14 Ready, not
blocked on 0x109c) are identical frozen-vs-fixed. This commit is therefore
a correct latent-clock-bug fix and determinism-safe prerequisite, NOT the
render unblock. The 0x109c/tid14 starvation premise was not reproduced at
f75bc96; the next gate must be re-localized.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
xenia-rs
Rust reimplementation of the Xbox 360 emulator xenia, focused on reverse-engineering and preservation rather than full-speed play. The initial target is Project Sylpheed — Arc of Deception; getting the title disassembled, traced, and far enough into its init path to understand its engine.
Heavy cross-reference to xenia-canary for CPU context setup, kernel export behavior, and XEX loading semantics.
Status
- XEX loader — XEX2 header parsing, LZX decompression, AES decryption, PE section parsing.
- VFS / XISO — XGD2 dual-layer disc images (with the 0x0FD90000 partition offset).
- PPC interpreter — 200+ opcodes, PowerPC 32/64-bit GPR/FPR, VMX128 decoding.
- Static analyzer — function discovery (prolog/epilog heuristics), cross-references, labels, save/restore helper detection, assembly text + SQLite database output.
- Kernel HLE — minimal subset driving Project Sylpheed: ~170 xboxkrnl + xam exports (critical sections, events, TLS, virtual memory, Vd stubs, XAM input/user/content).
- Debugger — in-memory step/break, SQLite execution + import-call + branch tracing.
Not yet: GPU (xenos/xe-shader), APU audio, HID, kernel scheduler, full threading, exception delivery.
Workspace
crates/
xenia-types # shared primitive types, bitflags
xenia-memory # guest memory, paged allocator, page table
xenia-cpu # PPC decoder, interpreter, context
xenia-xex # XEX2 loader, PE parser, LZX, AES
xenia-vfs # XISO / disc-image reader
xenia-kernel # HLE kernel state, exports, XAM
xenia-gpu # (stub) Xenos command processor
xenia-apu # (stub) XAudio
xenia-hid # (stub) XInput
xenia-debugger # in-memory trace, breakpoints, step modes
xenia-analysis # function/xref analysis, assembly formatter, SQLite DbWriter
xenia-app # `xenia-rs` CLI binary
CLI
Build:
cargo build --release
The binary xenia-rs accepts XEX2 files or ISO / XISO disc images as input
(the loader auto-detects discs and extracts default.xex).
info / browse / disasm
Quick header / disc / first-N-instructions inspection. See --help.
extract — unpack PE + metadata
xenia-rs extract <xex-or-iso> [-o <out-dir>] [--db <sqlite-path>]
Writes <name>.pe (decompressed/decrypted PE image) and <name>.xex.json
(header metadata). With --db, also emits a SQLite database containing the
base tables: metadata, sections, imports.
dis — full disassembly
xenia-rs dis <xex-or-iso> [-o <asm-file>] [--db <sqlite-path>] [--quiet]
Runs function + cross-reference analysis and produces:
- assembly text to stdout or
-o <file>(unless--quiet) - optional SQLite DB with the base tables + disasm tables:
functions,labels,instructions,xrefs
exec — interpret with tracing
xenia-rs exec <xex-or-iso> [-n <max-instrs>] [--db <sqlite-path>]
[--trace-instructions] [--trace-imports] [--trace-branches]
Loads the title, initializes CPU state per xenia-canary, intercepts import
thunks with HLE kernel calls, and interprets from the entry point. Without
-n, runs until halt/fault. With --db, produces a DB that is a superset
of dis --db plus opt-in trace tables:
| flag | table | rows |
|---|---|---|
--trace-instructions |
exec_trace |
one row per interpreted instruction (PC, r3/r4, LR, SP) |
--trace-imports |
import_calls |
one row per kernel/XAM call (module, ordinal, args) |
--trace-branches |
branch_trace |
taken branches classified as call/return/jump/branch |
Cumulative DB layering
Each command's DB is a superset of the previous. A single
xenia-rs exec <iso> --db full.db --trace-instructions --trace-imports --trace-branches
produces the full picture in one pass — base tables, complete static
disassembly, and runtime traces correlatable by address/cycle.
Performance knobs
XENIA_DB_BATCH_SIZE— rows per streaming commit / trace-buffer flush (default100_000). Lower values reduce memory use; higher values reduce fsync overhead on slow disks.
The DB writer uses journal_mode=OFF, synchronous=OFF, locking_mode=EXCLUSIVE
and commits in batches; no ANALYZE is run at finalize. Indices are created
after bulk insertion with progress messages.
Example queries
-- Top 20 kernel functions called during early init
SELECT name, COUNT(*) FROM import_calls GROUP BY name ORDER BY 2 DESC LIMIT 20;
-- All basic-block leaders (targets of taken branches) not already labelled
SELECT DISTINCT bt.target
FROM branch_trace bt LEFT JOIN labels l ON l.address = bt.target
WHERE l.address IS NULL;
-- Correlate a traced call site with its static disassembly
SELECT et.cycle, i.disasm, i.ext_disasm
FROM exec_trace et JOIN instructions i ON i.address = et.address
WHERE et.address = 0x824AB748 ORDER BY et.cycle;
License
BSD-3-Clause, matching upstream xenia.