/* ** linux/amiga/chipram.c ** ** Modified 03-May-94 by Geert Uytterhoeven ** - 64-bit aligned allocations for full AGA compatibility */ #include #include #include #include #include struct chip_desc { unsigned first : 1; unsigned last : 1; unsigned alloced : 1; unsigned length : 24; long pad; /* We suppose this makes this struct 64 bits long!! */ }; #define DP(ptr) ((struct chip_desc *)(ptr)) u_long amiga_chip_size; static unsigned long chipavail; static struct resource chipram = { "Chip RAM", 0 }; unsigned long amiga_chip_avail( void ) { #ifdef DEBUG printk("chip_avail : %ld bytes\n",chipavail); #endif return chipavail; } void __init amiga_chip_init (void) { struct chip_desc *dp; if (!AMIGAHW_PRESENT(CHIP_RAM)) return; #ifndef CONFIG_APUS_FAST_EXCEPT /* * Remove the first 4 pages where PPC exception handlers will * be located. */ amiga_chip_size -= 0x4000; #endif chipram.end = amiga_chip_size-1; request_resource(&iomem_resource, &chipram); /* initialize start boundary */ dp = DP(chipaddr); dp->first = 1; dp->alloced = 0; dp->length = amiga_chip_size - 2*sizeof(*dp); /* initialize end boundary */ dp = DP(chipaddr + amiga_chip_size) - 1; dp->last = 1; dp->alloced = 0; dp->length = amiga_chip_size - 2*sizeof(*dp); chipavail = dp->length; /*MILAN*/ #ifdef DEBUG printk ("chipram end boundary is %p, length is %d\n", dp, dp->length); #endif } void *amiga_chip_alloc(long size, const char *name) { /* last chunk */ struct chip_desc *dp; void *ptr; /* round off */ size = (size + 7) & ~7; #ifdef DEBUG printk("amiga_chip_alloc: allocate %ld bytes\n", size); #endif /* * get pointer to descriptor for last chunk by * going backwards from end chunk */ dp = DP(chipaddr + amiga_chip_size) - 1; dp = DP((unsigned long)dp - dp->length) - 1; while ((dp->alloced || dp->length < size) && !dp->first) dp = DP ((unsigned long)dp - dp[-1].length) - 2; if (dp->alloced || dp->length < size) { printk ("no chipmem available for %ld allocation\n", size); return NULL; } if (dp->length < (size + 2*sizeof(*dp))) { /* length too small to split; allocate the whole thing */ dp->alloced = 1; ptr = (void *)(dp+1); dp = DP((unsigned long)ptr + dp->length); dp->alloced = 1; #ifdef DEBUG printk ("amiga_chip_alloc: no split\n"); #endif } else { /* split the extent; use the end part */ long newsize = dp->length - (2*sizeof(*dp) + size); #ifdef DEBUG printk ("amiga_chip_alloc: splitting %d to %ld\n", dp->length, newsize); #endif dp->length = newsize; dp = DP((unsigned long)(dp+1) + newsize); dp->first = dp->last = 0; dp->alloced = 0; dp->length = newsize; dp++; dp->first = dp->last = 0; dp->alloced = 1; dp->length = size; ptr = (void *)(dp+1); dp = DP((unsigned long)ptr + size); dp->alloced = 1; dp->length = size; } #ifdef DEBUG printk ("amiga_chip_alloc: returning %p\n", ptr); #endif if ((unsigned long)ptr & 7) panic("amiga_chip_alloc: alignment violation\n"); chipavail -= size + (2*sizeof(*dp)); /*MILAN*/ if (!request_mem_region(ZTWO_PADDR(ptr), size, name)) printk(KERN_WARNING "amiga_chip_alloc: region of size %ld at 0x%08lx " "is busy\n", size, ZTWO_PADDR(ptr)); return ptr; } void amiga_chip_free (void *ptr) { struct chip_desc *sdp = DP(ptr) - 1, *dp2; struct chip_desc *edp = DP((unsigned long)ptr + sdp->length); chipavail += sdp->length + (2* sizeof(sdp)); /*MILAN*/ #ifdef DEBUG printk("chip_free: free %ld bytes at %p\n",sdp->length,ptr); #endif /* deallocate the chunk */ sdp->alloced = edp->alloced = 0; release_mem_region(ZTWO_PADDR(ptr), sdp->length); /* check if we should merge with the previous chunk */ if (!sdp->first && !sdp[-1].alloced) { dp2 = DP((unsigned long)sdp - sdp[-1].length) - 2; dp2->length += sdp->length + 2*sizeof(*sdp); edp->length = dp2->length; sdp = dp2; } /* check if we should merge with the following chunk */ if (!edp->last && !edp[1].alloced) { dp2 = DP((unsigned long)edp + edp[1].length) + 2; dp2->length += edp->length + 2*sizeof(*sdp); sdp->length = dp2->length; edp = dp2; } }