#include "global.h" #include "dma3.h" #define MAX_DMA_REQUESTS 128 #define DMA_REQUEST_COPY32 1 #define DMA_REQUEST_FILL32 2 #define DMA_REQUEST_COPY16 3 #define DMA_REQUEST_FILL16 4 BSS_DATA struct { const u8 *src; u8 *dest; u16 size; u16 mode; u32 value; } gDma3Requests[MAX_DMA_REQUESTS]; static volatile bool8 gDma3ManagerLocked; static u8 gDma3RequestCursor; void ClearDma3Requests(void) { int i; gDma3ManagerLocked = TRUE; gDma3RequestCursor = 0; for (i = 0; i < MAX_DMA_REQUESTS; i++) { gDma3Requests[i].size = 0; gDma3Requests[i].src = NULL; gDma3Requests[i].dest = NULL; } gDma3ManagerLocked = FALSE; } void ProcessDma3Requests(void) { u16 bytesTransferred; if (gDma3ManagerLocked) return; bytesTransferred = 0; // as long as there are DMA requests to process (unless size or vblank is an issue), do not exit while (gDma3Requests[gDma3RequestCursor].size != 0) { bytesTransferred += gDma3Requests[gDma3RequestCursor].size; if (bytesTransferred > 40 * 1024) return; // don't transfer more than 40 KiB if (*(u8 *)REG_ADDR_VCOUNT > 224) return; // we're about to leave vblank, stop switch (gDma3Requests[gDma3RequestCursor].mode) { case DMA_REQUEST_COPY32: // regular 32-bit copy Dma3CopyLarge32_(gDma3Requests[gDma3RequestCursor].src, gDma3Requests[gDma3RequestCursor].dest, gDma3Requests[gDma3RequestCursor].size); break; case DMA_REQUEST_FILL32: // repeat a single 32-bit value across RAM Dma3FillLarge32_(gDma3Requests[gDma3RequestCursor].value, gDma3Requests[gDma3RequestCursor].dest, gDma3Requests[gDma3RequestCursor].size); break; case DMA_REQUEST_COPY16: // regular 16-bit copy Dma3CopyLarge16_(gDma3Requests[gDma3RequestCursor].src, gDma3Requests[gDma3RequestCursor].dest, gDma3Requests[gDma3RequestCursor].size); break; case DMA_REQUEST_FILL16: // repeat a single 16-bit value across RAM Dma3FillLarge16_(gDma3Requests[gDma3RequestCursor].value, gDma3Requests[gDma3RequestCursor].dest, gDma3Requests[gDma3RequestCursor].size); break; } // Free the request gDma3Requests[gDma3RequestCursor].src = NULL; gDma3Requests[gDma3RequestCursor].dest = NULL; gDma3Requests[gDma3RequestCursor].size = 0; gDma3Requests[gDma3RequestCursor].mode = 0; gDma3Requests[gDma3RequestCursor].value = 0; gDma3RequestCursor++; if (gDma3RequestCursor >= MAX_DMA_REQUESTS) // loop back to the first DMA request gDma3RequestCursor = 0; } } s16 RequestDma3Copy(const void *src, void *dest, u16 size, u8 mode) { int cursor; int i = 0; gDma3ManagerLocked = TRUE; cursor = gDma3RequestCursor; while (i < MAX_DMA_REQUESTS) { if (gDma3Requests[cursor].size == 0) // an empty request was found. { gDma3Requests[cursor].src = src; gDma3Requests[cursor].dest = dest; gDma3Requests[cursor].size = size; if (mode == 1) gDma3Requests[cursor].mode = DMA_REQUEST_COPY32; else gDma3Requests[cursor].mode = DMA_REQUEST_COPY16; gDma3ManagerLocked = FALSE; return cursor; } if (++cursor >= MAX_DMA_REQUESTS) // loop back to start. cursor = 0; i++; } gDma3ManagerLocked = FALSE; return -1; // no free DMA request was found } s16 RequestDma3Fill(s32 value, void *dest, u16 size, u8 mode) { int cursor; int i = 0; cursor = gDma3RequestCursor; gDma3ManagerLocked = TRUE; while (i < MAX_DMA_REQUESTS) { if (gDma3Requests[cursor].size == 0) // an empty request was found. { gDma3Requests[cursor].dest = dest; gDma3Requests[cursor].size = size; gDma3Requests[cursor].mode = mode; gDma3Requests[cursor].value = value; if(mode == 1) gDma3Requests[cursor].mode = DMA_REQUEST_FILL32; else gDma3Requests[cursor].mode = DMA_REQUEST_FILL16; gDma3ManagerLocked = FALSE; return cursor; } if (++cursor >= MAX_DMA_REQUESTS) // loop back to start. cursor = 0; i++; } gDma3ManagerLocked = FALSE; return -1; // no free DMA request was found } s16 CheckForSpaceForDma3Request(s16 index) { int i = 0; if (index == -1) // check if all requests are free { while (i < MAX_DMA_REQUESTS) { if (gDma3Requests[i].size != 0) return -1; i++; } return 0; } else // check the specified request { if (gDma3Requests[index].size != 0) return -1; return 0; } }