ref: b3dc2af6d671b6311ccfc8a5f053dc85151cb7ed
dir: /sys/src/9/pc/memory.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "ureg.h" enum { MemUPA = 0, /* unbacked physical address */ MemUMB = 1, /* upper memory block (<16MB) */ MemRAM = 2, /* physical memory */ MemACPI = 3, /* ACPI tables */ MemReserved = 4, /* don't allocate */ KB = 1024, }; u32int MemMin; /* set by l.s */ void* rampage(void) { uintptr pa; if(conf.mem[0].npage != 0) return xspanalloc(BY2PG, BY2PG, 0); /* * Allocate from the map directly to make page tables. */ pa = memmapalloc(-1, BY2PG, BY2PG, MemRAM); if(pa == -1 || cankaddr(pa) == 0) panic("rampage: out of memory\n"); return KADDR(pa); } static void mapkzero(uintptr base, uintptr len, int type) { uintptr flags, n; if(base < MemMin && base+len > MemMin){ mapkzero(base, MemMin-base, type); len = base+len-MemMin; base = MemMin; } n = cankaddr(base); if(n == 0) return; if(len > n) len = n; switch(type){ default: return; case MemRAM: if(base < MemMin) return; flags = PTEWRITE|PTEVALID; break; case MemUMB: if(base < MemMin) punmap(base+KZERO, len); flags = PTEWRITE|PTEUNCACHED|PTEVALID; break; } #ifdef PTENOEXEC flags |= PTENOEXEC; #endif pmap(base|flags, base+KZERO, len); } static uintptr ebdaseg(void) { uchar *bda; if(memcmp(KADDR(0xfffd9), "EISA", 4) != 0) return 0; bda = KADDR(0x400); return ((bda[0x0f]<<8)|bda[0x0e]) << 4; } static uintptr convmemsize(void) { uintptr top; uchar *bda; bda = KADDR(0x400); top = ((bda[0x14]<<8) | bda[0x13])*KB; if(top < 64*KB || top > 640*KB) top = 640*KB; /* sanity */ /* Reserved for BIOS tables */ top -= 1*KB; return top; } static void lowraminit(void) { uintptr base, pa, len; uchar *p; /* * Discover 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. */ base = PADDR(CPU0END); pa = convmemsize(); if(base < pa) memmapadd(base, pa-base, MemRAM); /* Reserve BIOS tables */ memmapadd(pa, 1*KB, MemReserved); /* Reserve EBDA */ if((pa = ebdaseg()) != 0) memmapadd(pa, 1*KB, MemReserved); memmapadd(0xA0000-1*KB, 1*KB, MemReserved); /* Reserve the VGA frame buffer */ umballoc(0xA0000, 128*KB, 0); /* Reserve VGA ROM */ memmapadd(0xC0000, 64*KB, MemReserved); /* * Scan the Upper Memory Blocks (0xD0000->0xF0000) for device BIOS ROMs. * 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. */ for(p = (uchar*)KADDR(0xD0000); p < (uchar*)KADDR(0xF0000); p += len){ len = 2*KB; if(p[0] == 0x55 && p[1] == 0xAA){ if(p[2] != 0) len = p[2]*512; memmapadd(PADDR(p), len, MemReserved); len = ROUND(len, 2*KB); } } /* Reserve BIOS ROM */ memmapadd(0xF0000, 64*KB, MemReserved); } int checksum(void *v, int n) { uchar *p, s; s = 0; p = v; while(n-- > 0) s += *p++; return s; } static void* sigscan(uchar *addr, int len, char *sig, int size, int step) { uchar *e, *p; int sl; sl = strlen(sig); e = addr+len-(size > sl ? size : sl); for(p = addr; p <= e; p += step){ if(memcmp(p, sig, sl) != 0) continue; if(size && checksum(p, size) != 0) continue; return p; } return nil; } void* sigsearch(char* signature, int size) { uintptr p; void *r; /* * Search for the data structure: * 1) within the first KiB of the Extended BIOS Data Area (EBDA), or * 2) within the last KiB of system base memory if the EBDA segment * is undefined, or * 3) within the BIOS ROM address space between 0xf0000 and 0xfffff * (but will actually check 0xe0000 to 0xfffff). */ if((p = ebdaseg()) != 0){ if((r = sigscan(KADDR(p), 1*KB, signature, size, 16)) != nil) return r; } if((r = sigscan(KADDR(convmemsize()), 1*KB, signature, size, 16)) != nil) return r; /* hack for virtualbox: look in KiB below 0xa0000 */ if((r = sigscan(KADDR(0xA0000-1*KB), 1*KB, signature, size, 16)) != nil) return r; return sigscan(KADDR(0xE0000), 128*KB, signature, size, 16); } void* rsdsearch(void) { static char signature[] = "RSD PTR "; uintptr base, size; uchar *v, *p; if((p = sigsearch(signature, 36)) != nil) return p; if((p = sigsearch(signature, 20)) != nil) return p; for(base = memmapnext(-1, MemACPI); base != -1; base = memmapnext(base, MemACPI)){ size = memmapsize(base, 0); if(size == 0 || size > 0x7fffffff) continue; if((v = vmap(base, size)) != nil){ p = sigscan(v, size, signature, 36, 4); if(p == nil) p = sigscan(v, size, signature, 20, 4); vunmap(v, size); if(p != nil) return vmap(base + (p - v), 64); } } return nil; } /* * Give out otherwise-unused physical address space * for use in configuring devices. Note that upaalloc * does not map the physical address into virtual memory. * Call vmap to do that. */ uvlong upaalloc(uvlong pa, uvlong size, uvlong align) { return memmapalloc(pa, size, align, MemUPA); } uvlong upaallocwin(uvlong pa, uvlong win, uvlong size, uvlong align) { uvlong a, base, top = pa + win; for(base = memmapnext(-1, MemUPA); base != -1 && base < top; base = memmapnext(base, MemUPA)){ if(base < pa){ if(pa >= base + memmapsize(base, 0)) continue; base = pa; } a = upaalloc(base, size, align); if(a != -1) return a; } return -1ULL; } void upafree(uvlong pa, uvlong size) { memmapfree(pa, size, MemUPA); } /* * Allocate memory from the upper memory blocks. */ ulong umballoc(ulong pa, ulong size, ulong align) { return (ulong)memmapalloc(pa == -1UL ? -1ULL : (uvlong)pa, size, align, MemUMB); } void umbfree(ulong pa, ulong size) { memmapfree(pa, size, MemUMB); } static void umbexclude(void) { ulong pa, size; char *op, *p, *rptr; if((p = getconf("umbexclude")) == nil) return; while(p && *p != '\0' && *p != '\n'){ op = p; pa = strtoul(p, &rptr, 0); if(rptr == nil || rptr == p || *rptr != '-'){ print("umbexclude: invalid argument <%s>\n", op); break; } p = rptr+1; size = strtoul(p, &rptr, 0) - pa + 1; if(size <= 0){ print("umbexclude: bad range <%s>\n", op); break; } if(rptr != nil && *rptr == ',') *rptr++ = '\0'; p = rptr; memmapalloc(pa, size, 0, MemUMB); } } static void mtrrexclude(int type, char *expect) { uvlong base, top, next, pa; char *attr; for(base = memmapnext(-1, type); base != -1; base = memmapnext(base, type)){ top = base + memmapsize(base, 0); for(pa = base; pa < top; pa = next){ next = top; attr = mtrrattr(pa, &next); if(attr != nil && strcmp(attr, expect) != 0){ if(next > top) next = top; memmapadd(pa, next - pa, MemReserved); } base = pa; } } } static int e820scan(void) { uvlong base, top, size; int type; char *s; /* passed by bootloader */ if((s = getconf("*e820")) == nil) if((s = getconf("e820")) == nil) return -1; for(;;){ while(*s == ' ') s++; if(*s == 0) break; type = 1; if(s[1] == ' '){ /* new format */ type = s[0] - '0'; s += 2; } base = strtoull(s, &s, 16); if(*s != ' ') break; top = strtoull(s, &s, 16); if(*s != ' ' && *s != 0) break; if(base >= top) continue; switch(type){ case 1: memmapadd(base, top - base, MemRAM); break; case 3: memmapadd(base, top - base, MemACPI); break; default: memmapadd(base, top - base, MemReserved); } } /* RAM needs to be writeback */ mtrrexclude(MemRAM, "wb"); for(base = memmapnext(-1, MemRAM); base != -1; base = memmapnext(base, MemRAM)){ size = memmapsize(base, BY2PG) & ~(BY2PG-1); if(size != 0) mapkzero(PGROUND(base), size, MemRAM); } return 0; } static void ramscan(uintptr pa, uintptr top, uintptr chunk) { ulong save, pat, seed, *v, *k0; int i, n, w; char *attr; pa += chunk-1; pa &= ~(chunk-1); top &= ~(chunk-1); n = chunk/sizeof(*v); w = BY2PG/sizeof(*v); k0 = KADDR(0); save = *k0; pat = 0x12345678UL; for(; pa < top; pa += chunk){ attr = mtrrattr(pa, nil); if(attr != nil && strcmp(attr, "wb") != 0) goto Skip; /* write pattern */ seed = pat; if((v = vmap(pa, chunk)) == nil) continue; for(i = 0; i < n; i += w){ pat += 0x3141526UL; v[i] = pat; *k0 = ~pat; if(v[i] != pat) goto Bad; } vunmap(v, chunk); /* verify pattern */ pat = seed; if((v = vmap(pa, chunk)) == nil) continue; for(i = 0; i < n; i += w){ pat += 0x3141526UL; if(v[i] != pat) goto Bad; } vunmap(v, chunk); memmapadd(pa, chunk, MemRAM); mapkzero(pa, chunk, MemRAM); continue; Bad: vunmap(v, chunk); Skip: if(pa+chunk <= 16*MB) memmapadd(pa, chunk, MemUMB); /* * If we encounter a chunk of missing memory * at a sufficiently high offset, call it the end of * memory. Otherwise we run the risk of thinking * that video memory is real RAM. */ if(pa >= 32*MB) break; } *k0 = save; } /* * Sort out initial memory map and discover RAM. */ void meminit0(void) { /* * Add the already mapped memory after the kernel. */ if(MemMin < PADDR(PGROUND((uintptr)end))) panic("kernel too big"); memmapadd(PADDR(PGROUND((uintptr)end)), MemMin-PADDR(PGROUND((uintptr)end)), MemRAM); /* * Memory between KTZERO and end is the kernel itself. */ memreserve(PADDR(KTZERO), PADDR(PGROUND((uintptr)end))-PADDR(KTZERO)); /* * Memory below CPU0END is reserved for the kernel. */ memreserve(0, PADDR(CPU0END)); /* * Addresses below 16MB default to be upper * memory blocks usable for ISA devices. */ memmapadd(0, 16*MB, MemUMB); /* * Everything between 16MB and 4GB defaults * to unbacked physical addresses usable for * device mappings. */ memmapadd(16*MB, (u32int)-16*MB, MemUPA); /* * On 386, reserve >= 4G as we have no PAE support. */ if(sizeof(void*) == 4) memmapadd((u32int)-BY2PG, -((uvlong)((u32int)-BY2PG)), MemReserved); /* * Discover conventional RAM, ROMs and UMBs. */ lowraminit(); /* * Discover more RAM and map to KZERO. */ if(e820scan() < 0) ramscan(MemMin, -((uintptr)MemMin), 4*MB); /* * Exclude UMB's and UPA's with unusual cache attributes. */ mtrrexclude(MemUMB, "uc"); mtrrexclude(MemUPA, "uc"); } /* * Until the memory map is finalized by meminit(), * archinit() should reserve memory of discovered BIOS * and ACPI tables by calling memreserve() to prevent * them from getting allocated and trashed. * This is due to the UEFI and BIOS memory map being * unreliable and sometimes marking these ranges as RAM. */ void memreserve(uintptr pa, uintptr size) { assert(conf.mem[0].npage == 0); size += (pa & BY2PG-1); size &= ~(BY2PG-1); pa &= ~(BY2PG-1); memmapadd(pa, size, MemReserved); } /* * Finalize the memory map: * (re-)map the upper memory blocks * allocate all usable ram to the conf.mem[] banks */ void meminit(void) { uintptr base, size; Confmem *cm; umbexclude(); for(base = memmapnext(-1, MemUMB); base != -1; base = memmapnext(base, MemUMB)){ size = memmapsize(base, BY2PG) & ~(BY2PG-1); if(size != 0) mapkzero(PGROUND(base), size, MemUMB); } cm = &conf.mem[0]; for(base = memmapnext(-1, MemRAM); base != -1; base = memmapnext(base, MemRAM)){ size = memmapsize(base, BY2PG) & ~(BY2PG-1); if(size == 0) continue; if(cm >= &conf.mem[nelem(conf.mem)]){ print("meminit: out of entries, loosing: %#p (%llud)\n", base, (uvlong)size); continue; } cm->base = memmapalloc(base, size, BY2PG, MemRAM); if(cm->base == -1) continue; base = cm->base; cm->npage = size/BY2PG; cm++; } if(0) memmapdump(); }