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111 lines
4.4 KiB
Plaintext
111 lines
4.4 KiB
Plaintext
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About
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-----
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This is a module for GP2X 2.4 based Linux kernel, created for developers to use in their
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programs.
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Normally the upper 32MB is uncached. This means that reads/writes on the memory
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are always done via the physical memory modules rather than the much faster
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memory built into the processor (called 'cache'). Access to the upper 32MB can
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be sped up by Squidge's MMU hack. The easiest way to use the MMU hack is to add
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and load the MMU hack kernel module into your program.
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Note: Building this module requries a GP2X 'kernel' toolchain (i.e. GCC 2.95.*
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for the GP2X stock, 3.* for Open2X).
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You can't build this module with the GCC 4 based application toolchains.
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Operation
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---------
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When loaded into kernel, this module creates /dev/mmuhack device. Whenever
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a program opens that device using open() call, the module traverses all
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memory, which was allocated in 0x02000000-0x03ffffff range by the program via
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using mmap() system call. While doing that, it marks all encountered memory
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as bufferable and cacheable.
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The most common use of this is to remove the framebuffer access bottleneck.
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Note that, however, by making the framebuffer cacheable you can cause display
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artifacts. This can happen because parts of your framebuffer may stay in CPU
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cache and not to be written back to the physical memory. The display
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controller only fetches data from the physical memory, so you get incomplete
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image (the memory will most likely contain data from previous frame, so these
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artifacts are better visible during fade effects). The easy way to fix this
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is by using a special ARM Linux system call, which flushes the cache (forces
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the CPU to write data in cache to the physical memory (see section "Flushing
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the cache")).
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Using this module affects the whole upper memory area. But in some situations
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this may be not desirable, for example when using ARM940 core in your program
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(ether using 940 libraries like ogg940 and gpu940, or using your custom code,
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which needs uncacheable memory for communication and such). If you need part
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of your upper memory to be cached, and other part not, you should mmap() that
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memory (which you want to be uncached) _after_ doing open("/dev/mmuhack").
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Another way is to modify mmuhack.c to suit your needs and rebuild the module.
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Usage
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-----
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The very first thing to do is to load the kernel module (mmuhack.o) into the
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running kernel. But before that you should try to unload mmuhack module,
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because other program might have left a different version loaded with
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different memory configuration, which may not suit your program.
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system("/sbin/rmmod mmuhack");
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system("/sbin/insmod mmuhack.o");
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Now you can assume the module is loaded into kernel and open /dev/mmuhack
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device. You don't need to worry about previous calls failing, because in that
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case open() will simply fail and nothing bad will happen.
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IMPORTANT: you _must_ do the open() call _after_ you initialize your graphics
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library or allocate your memory, because it can only work with memory which is
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already allocated, it won't affect memory you or your lib allocates after the
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open() call.
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int mmufd = open("/dev/mmuhack", O_RDWR);
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if(mmufd < 0)
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{
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printf("MMU hack failed");
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}
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else
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{
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printf("MMU hack loaded");
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close(mmufd);
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}
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If the above call succeeded, you are all done.
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I recommend to unload the module when your program exits, because the other
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program may want to load a different mmuhack.o and may fail, because you left
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your mmuhack.o loaded (it does not get unloaded automatically on exit).
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system("/sbin/rmmod mmuhack");
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Flushing the cache
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------------------
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If using mmuhack.o causes your program to display artifacts (see "Operation"
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section for explanation), you will need to flush the CPU cache. This should
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be done after finishing every frame and just before flipping your display
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buffer/surface. You will need to add flush_uppermem_cache.s file to your
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Makefile/project and add a call to flush_uppermem_cache() just before final
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framebuffer flip or blit.
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flush_uppermem_cache() has 3 parameters. First param is the start address,
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second param is the end address, third one should always be 0. The addresses
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should be virtual ones (most often pointers to the start/end of your
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framebuffer). Example:
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flush_uppermem_cache(screen_surface->pixels, screen_surface->pixels + 320*240, 0);
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Credits
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-------
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Original idea/implementation: Squidge (this whole thing is also known as squidgehack)
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Kernel module: NK
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Documentation: notaz
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