ref: ad5a80bfb081dc954be03836cc65090e0f6c7e4f
dir: /os/pc/memory.c/
/* * Size memory and create the kernel page-tables on the fly while doing so. * Called from main(), this code should only be run by the bootstrap processor. */ #include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #define MEMDEBUG 0 enum { MemUPA = 0, /* unbacked physical address */ MemRAM = 1, /* physical memory */ MemUMB = 2, /* upper memory block (<16MB) */ NMemType = 3, KB = 1024, MemMinMB = 4, /* minimum physical memory (<=4MB) */ MemMaxMB = 768, /* maximum physical memory to check */ NMemBase = 10, }; typedef struct { int size; ulong addr; } Map; typedef struct { char* name; Map* map; Map* mapend; Lock; } RMap; static Map mapupa[16]; static RMap rmapupa = { "unallocated unbacked physical memory", mapupa, &mapupa[nelem(mapupa)-1], }; static Map xmapupa[16]; static RMap xrmapupa = { "unbacked physical memory", xmapupa, &xmapupa[nelem(xmapupa)-1], }; static Map mapram[16]; static RMap rmapram = { "physical memory", mapram, &mapram[nelem(mapram)-1], }; static Map mapumb[64]; static RMap rmapumb = { "upper memory block", mapumb, &mapumb[nelem(mapumb)-1], }; static Map mapumbrw[16]; static RMap rmapumbrw = { "UMB device memory", mapumbrw, &mapumbrw[nelem(mapumbrw)-1], }; void mapprint(RMap *rmap) { Map *mp; print("%s\n", rmap->name); for(mp = rmap->map; mp->size; mp++) print("\t%8.8luX %8.8uX %8.8luX\n", mp->addr, mp->size, mp->addr+mp->size); } void memdebug(void) { ulong maxpa, maxpa1, maxpa2; if(MEMDEBUG == 0) return; maxpa = (nvramread(0x18)<<8)|nvramread(0x17); maxpa1 = (nvramread(0x31)<<8)|nvramread(0x30); maxpa2 = (nvramread(0x16)<<8)|nvramread(0x15); print("maxpa = %luX -> %luX, maxpa1 = %luX maxpa2 = %luX\n", maxpa, MB+maxpa*KB, maxpa1, maxpa2); mapprint(&rmapram); mapprint(&rmapumb); mapprint(&rmapumbrw); mapprint(&rmapupa); } void mapfree(RMap* rmap, ulong addr, ulong size) { Map *mp; ulong t; if(size <= 0) return; lock(rmap); for(mp = rmap->map; mp->addr <= addr && mp->size; mp++) ; if(mp > rmap->map && (mp-1)->addr+(mp-1)->size == addr){ (mp-1)->size += size; if(addr+size == mp->addr){ (mp-1)->size += mp->size; while(mp->size){ mp++; (mp-1)->addr = mp->addr; (mp-1)->size = mp->size; } } } else{ if(addr+size == mp->addr && mp->size){ mp->addr -= size; mp->size += size; } else do{ if(mp >= rmap->mapend){ print("mapfree: %s: losing 0x%luX, %ld\n", rmap->name, addr, size); break; } t = mp->addr; mp->addr = addr; addr = t; t = mp->size; mp->size = size; mp++; }while(size = t); } unlock(rmap); } ulong mapalloc(RMap* rmap, ulong addr, int size, int align) { Map *mp; ulong maddr, oaddr; lock(rmap); for(mp = rmap->map; mp->size; mp++){ maddr = mp->addr; if(addr){ /* * A specific address range has been given: * if the current map entry is greater then * the address is not in the map; * if the current map entry does not overlap * the beginning of the requested range then * continue on to the next map entry; * if the current map entry does not entirely * contain the requested range then the range * is not in the map. */ if(maddr > addr) break; if(mp->size < addr - maddr) /* maddr+mp->size < addr, but no overflow */ continue; if(addr - maddr > mp->size - size) /* addr+size > maddr+mp->size, but no overflow */ break; maddr = addr; } if(align > 0) maddr = ((maddr+align-1)/align)*align; if(mp->addr+mp->size-maddr < size) continue; oaddr = mp->addr; mp->addr = maddr+size; mp->size -= maddr-oaddr+size; if(mp->size == 0){ do{ mp++; (mp-1)->addr = mp->addr; }while((mp-1)->size = mp->size); } unlock(rmap); if(oaddr != maddr) mapfree(rmap, oaddr, maddr-oaddr); return maddr; } unlock(rmap); return 0; } static void umbscan(void) { uchar *p; /* * Scan the Upper Memory Blocks (0xA0000->0xF0000) for pieces * which aren't used; they can be used later for devices which * want to allocate some virtual address space. * Check for two things: * 1) device BIOS ROM. This should start with a two-byte header * of 0x55 0xAA, followed by a byte giving the size of the ROM * in 512-byte chunks. These ROM's must start on a 2KB boundary. * 2) device memory. This is read-write. * There are some assumptions: there's VGA memory at 0xA0000 and * the VGA BIOS ROM is at 0xC0000. Also, if there's no ROM signature * at 0xE0000 then the whole 64KB up to 0xF0000 is theoretically up * for grabs; check anyway. */ p = KADDR(0xD0000); while(p < (uchar*)KADDR(0xE0000)){ /* * Test for 0x55 0xAA before poking obtrusively, * some machines (e.g. Thinkpad X20) seem to map * something dynamic here (cardbus?) causing weird * problems if it is changed. */ if(p[0] == 0x55 && p[1] == 0xAA){ p += p[2]*512; continue; } p[0] = 0xCC; p[2*KB-1] = 0xCC; if(p[0] != 0xCC || p[2*KB-1] != 0xCC){ p[0] = 0x55; p[1] = 0xAA; p[2] = 4; if(p[0] == 0x55 && p[1] == 0xAA){ p += p[2]*512; continue; } if(p[0] == 0xFF && p[1] == 0xFF) mapfree(&rmapumb, PADDR(p), 2*KB); } else mapfree(&rmapumbrw, PADDR(p), 2*KB); p += 2*KB; } p = KADDR(0xE0000); if(p[0] != 0x55 || p[1] != 0xAA){ p[0] = 0xCC; p[64*KB-1] = 0xCC; if(p[0] != 0xCC && p[64*KB-1] != 0xCC) mapfree(&rmapumb, PADDR(p), 64*KB); } } static void ramscan(ulong maxmem) { ulong *k0, kzero, map, maxpa, pa, *pte, *table, *va, x, n; int nvalid[NMemType]; uchar *bda; /* * The bootstrap code has has created a prototype page * table which maps the first MemMinMB of physical memory to KZERO. * The page directory is at m->pdb and the first page of * free memory is after the per-processor MMU information. */ /* * Initialise the memory bank information for conventional memory * (i.e. less than 640KB). The base is the first location after the * bootstrap processor MMU information and the limit is obtained from * the BIOS data area. */ x = PADDR(CPU0MACH+BY2PG); bda = (uchar*)KADDR(0x400); n = ((bda[0x14]<<8)|bda[0x13])*KB-x; mapfree(&rmapram, x, n); // memset(KADDR(x), 0, n); /* keep us honest */ x = PADDR(PGROUND((ulong)end)); pa = MemMinMB*MB; mapfree(&rmapram, x, pa-x); // memset(KADDR(x), 0, pa-x); /* keep us honest */ /* * Check if the extended memory size can be obtained from the CMOS. * If it's 0 then it's either not known or >= 64MB. Always check * at least 24MB in case there's a memory gap (up to 8MB) below 16MB; * in this case the memory from the gap is remapped to the top of * memory. * The value in CMOS is supposed to be the number of KB above 1MB. */ if(maxmem == 0){ x = (nvramread(0x18)<<8)|nvramread(0x17); if(x == 0 || x >= (63*KB)) maxpa = MemMaxMB*MB; else maxpa = MB+x*KB; if(maxpa < 24*MB) maxpa = 24*MB; maxmem = MemMaxMB*MB; } else maxpa = maxmem; /* * March up memory from MemMinMB to maxpa 1MB at a time, * mapping the first page and checking the page can * be written and read correctly. The page tables are created here * on the fly, allocating from low memory as necessary. */ k0 = (ulong*)KADDR(0); kzero = *k0; map = 0; x = 0x12345678; memset(nvalid, 0, sizeof(nvalid)); while(pa < maxpa){ /* * Map the page. Use mapalloc(&rmapram, ...) to make * the page table if necessary, it will be returned to the * pool later if it isn't needed. */ va = KADDR(pa); table = &m->pdb[PDX(va)]; if(*table == 0){ if(map == 0 && (map = mapalloc(&rmapram, 0, BY2PG, BY2PG)) == 0) break; memset(KADDR(map), 0, BY2PG); *table = map|PTEWRITE|PTEVALID; memset(nvalid, 0, sizeof(nvalid)); } table = KADDR(PPN(*table)); pte = &table[PTX(va)]; *pte = pa|PTEWRITE|PTEUNCACHED|PTEVALID; mmuflushtlb(PADDR(m->pdb)); /* * Write a pattern to the page and write a different * pattern to a possible mirror at KZER0. If the data * reads back correctly the chunk is some type of RAM (possibly * a linearly-mapped VGA framebuffer, for instance...) and * can be cleared and added to the memory pool. If not, the * chunk is marked uncached and added to the UMB pool if <16MB * or is marked invalid and added to the UPA pool. */ *va = x; *k0 = ~x; if(*va == x){ nvalid[MemRAM] += MB/BY2PG; mapfree(&rmapram, pa, MB); do{ *pte++ = pa|PTEWRITE|PTEVALID; pa += BY2PG; }while(pa % MB); mmuflushtlb(PADDR(m->pdb)); /* memset(va, 0, MB); so damn slow to memset all of memory */ } else if(pa < 16*MB){ nvalid[MemUMB] += MB/BY2PG; mapfree(&rmapumb, pa, MB); do{ *pte++ = pa|PTEWRITE|PTEUNCACHED|PTEVALID; pa += BY2PG; }while(pa % MB); } else{ nvalid[MemUPA] += MB/BY2PG; mapfree(&rmapupa, pa, MB); *pte = 0; pa += MB; } /* * Done with this 4MB chunk, review the options: * 1) not physical memory and >=16MB - invalidate the PDB entry; * 2) physical memory - use the 4MB page extension if possible; * 3) not physical memory and <16MB - use the 4MB page extension * if possible; * 4) mixed or no 4MB page extension - commit the already * initialised space for the page table. */ if((pa % (4*MB)) == 0){ table = &m->pdb[PDX(va)]; if(nvalid[MemUPA] == (4*MB)/BY2PG) *table = 0; else if(nvalid[MemRAM] == (4*MB)/BY2PG && (m->cpuiddx & 0x08)) *table = (pa - 4*MB)|PTESIZE|PTEWRITE|PTEVALID; else if(nvalid[MemUMB] == (4*MB)/BY2PG && (m->cpuiddx & 0x08)) *table = (pa - 4*MB)|PTESIZE|PTEWRITE|PTEUNCACHED|PTEVALID; else map = 0; } mmuflushtlb(PADDR(m->pdb)); x += 0x3141526; } /* * If we didn't reach the end of the 4MB chunk, that part won't * be mapped. Commit the already initialised space for the page table. */ if(pa % (4*MB)) map = 0; if(map) mapfree(&rmapram, map, BY2PG); if(pa < maxmem) mapfree(&rmapupa, pa, maxmem-pa); if(maxmem < 0xFFE00000) mapfree(&rmapupa, maxmem, 0x00000000-maxmem); if(MEMDEBUG) print("maxmem %luX %luX\n", maxmem, 0x00000000-maxmem); *k0 = kzero; } void meminit(ulong maxmem) { Map *mp, *xmp; ulong pa, *pte; /* * Set special attributes for memory between 640KB and 1MB: * VGA memory is writethrough; * BIOS ROM's/UMB's are uncached; * then scan for useful memory. */ for(pa = 0xA0000; pa < 0xC0000; pa += BY2PG){ pte = mmuwalk(m->pdb, (ulong)KADDR(pa), 2, 0); *pte |= PTEWT; } for(pa = 0xC0000; pa < 0x100000; pa += BY2PG){ pte = mmuwalk(m->pdb, (ulong)KADDR(pa), 2, 0); *pte |= PTEUNCACHED; } mmuflushtlb(PADDR(m->pdb)); umbscan(); ramscan(maxmem); /* * Set the conf entries describing two banks of allocatable memory. * Grab the first and largest entries in rmapram as left by ramscan(). * * It would be nice to have more than 2 memory banks describable in conf. */ mp = rmapram.map; conf.base0 = mp->addr; conf.npage0 = mp->size/BY2PG; mp++; for(xmp = 0; mp->size; mp++){ if(xmp == 0 || mp->size > xmp->size) xmp = mp; } if(xmp){ conf.base1 = xmp->addr; conf.npage1 = xmp->size/BY2PG; } if(MEMDEBUG) memdebug(); } ulong umbmalloc(ulong addr, int size, int align) { ulong a; if(a = mapalloc(&rmapumb, addr, size, align)) return (ulong)KADDR(a); return 0; } void umbfree(ulong addr, int size) { mapfree(&rmapumb, PADDR(addr), size); } ulong umbrwmalloc(ulong addr, int size, int align) { ulong a; uchar *p; if(a = mapalloc(&rmapumbrw, addr, size, align)) return(ulong)KADDR(a); /* * Perhaps the memory wasn't visible before * the interface is initialised, so try again. */ if((a = umbmalloc(addr, size, align)) == 0) return 0; p = (uchar*)a; p[0] = 0xCC; p[size-1] = 0xCC; if(p[0] == 0xCC && p[size-1] == 0xCC) return a; umbfree(a, size); return 0; } void umbrwfree(ulong addr, int size) { mapfree(&rmapumbrw, PADDR(addr), size); } ulong upamalloc(ulong pa, int size, int align) { ulong a, ae; if(a = mapalloc(&xrmapupa, pa, size, align)) return a; if((a = mapalloc(&rmapupa, pa, size, align)) == 0){ memdebug(); return 0; } /* * Upamalloc is a request to map a range of physical addresses. * Therefore, if pa is 0 mapalloc will choose the base address. * Note, however, mmukmap is always asked to give a 1-to-1 mapping * of va to pa. */ ae = mmukmap(a, a, size); /* * Should check here that it was all delivered * and put it back and barf if not. */ USED(ae); /* * Be very careful this returns a PHYSICAL address * mapped 1-to-1 with the virtual address. * If a < KZERO it's probably not a good idea to * try KADDR(a)... */ return a; } void upafree(ulong pa, int size) { mapfree(&xrmapupa, pa, size); } void upareserve(ulong pa, int size) { ulong a; a = mapalloc(&rmapupa, pa, size, 0); if(a != pa){ /* * This can happen when we're using the E820 * map, which might have already reserved some * of the regions claimed by the pci devices. */ // print("upareserve: cannot reserve pa=%#.8lux size=%d\n", pa, size); if(a != 0) mapfree(&rmapupa, a, size); } }