This module contains the "core" (API) of
bemanitools which includes an abstraction
layer for threads and logging at this time.
The threads API is very close to what
util/thread already was with some structural
enhancements which make it easier to understand
and work with the API, I hope. Some additional
helpers (*-ext module) support in doing common
tasks, e.g. setting up the thread API with other
modules.
The log(ging) part receives a major overhaul to
address known limitations and issues with the
util/log module:
- Cleaner API layer
- Separate sinks from actual logging engine
- Sinks are composable
- Improved and cleaner compatibility layer
with AVS logging API
Additional "extensions" (*-ext modules) add
various helper functions for common tasks like
setting up the logging engine with a file and stdout
sink.
The sinks also improved significantly with the file
sink now supporting proper appending and log rotation.
Logging to stdout/stderr supports coloring of log
messages which works across logging engines.
Overall, this refactored foundation is expected to
support future developments and removes known
limitations at the current scale of bemanitools such as:
- Reducing boiler plate code across hooks
- Interop of bemanitools and AVS (and setting the foundation
for addressing currently missing interop, e.g. for
dealing with property structures without AVS)
- Addressing performance issues in the logging engine
due to incorrect interop with AVS
Improve the development experience by providing
an additional docker container that can be started
and used as an interactive development environment.
It provides all the tools and a stable environment
for building (identical to the build container).
This one was missing and is the actual correct
version used for ddr-13. 2.13.04 was compatible,
thus far, but there isn't any guarantee that they
are actually 100% compatible (only konmai knows...).
* Improve psmap types, taken from a private
eamuse server backend which had more complete
mappings.
* Move psmap terminator to enum
* AVS error type: Supports improving
expressiveness of the API interface
* Add more property node related functions
Add more AVS file system related functions
These were previously missing and are required for
various file system related tasks such as iterating
directory trees, reading and writing files through
the AVS file system for the upcoming launcher
rework.
Note that the AVS API broke with some mode flags
after version 2.13.06.
Use this to share helpers or other extensions to the
original avs API across modules.
Start with including error codes to readable strings
to improve velocity on AVS API error analysis.
This has been a source of common error in the past.
It is known that most, or even all, games run into
various issues when not run with elevated privileges.
Apply a consistent style across all markdown documents.
Use mdformat (https://github.com/executablebooks/mdformat)
to achieve that. Improves maintainability and readability.
Using ddrhook1, this caused DDR X to crash on startup when the
P3io client sends the currently unknown command 2B. Handling it
with the incorrect p3io command struct, any following reading
attempts from the P3IO by the game fail.
Handle the 2B case explicitly with a generic response that worked
previously before the restructuring of the code. Apply the same
to any further unknown commands with improved logging warning
about this.
Buffers are allowed to have the exact size as the max defined
P3IO buffer size. Cutting it short by one byte causes this
to fail incorrectly when using the pure raw buffer structure
Wrapper/shim library to drive another ddrio in a dedicated
IO thread. Depending on the other ddrio backend used, this
can significantly improve performance while staying
compatible to the existing ddrio API interface
This turned out to be a good solution to solve performance
problems when running MAME with ddrio-p3io that is
(currently) implemented with synchronous IO calls that are
very costly: ~12 ms for a write over the ACIO protocol, ~4 ms
for a read using an IOCTL. As this already adds up to nearly
a full frame (60 fps) regarding latency, there isn't a lot
of time left to do other stuff in a synchronous update loop.
MAME's performance was unstable and dropped all the time below
100%. The result was a choppy gameplay experience.
Combining ddrio-async with ddrio-p3io, the combined backend
is able to drive inputs/outputs at a rate of ~250hz = ~4
updates per frame. This results in an average input latency
of ~4 ms which is as good as it can get with the p3io
hardware's performance limitations that I measured (see
the 4 ms for the IOCTL mentioned above).
This is more than good enough as as update frequency of
the 573 hardware is slightly less than that (I got told
something ~180 hz?).
tl;dr: Gameplay on MAME is great, smooth frame rate, IO feels
amazing and responsive.
By hooking CreateProcessA, we can adjust the commandline to
disable any rotation, which displays the error box at the correct
place on screen (no additional x/y adjustment is needed)
The NVRAM redirection was silently failing because the prop
delete/recreate pair didn't work. This just recreates the entire
config from scratch instead, which guarantees success every time.
By making the NVRAM type "fs", we also make it easier to debug
any issues that people may have.