/* $OpenBSD: memprobe.c,v 1.5 2006/09/18 21:15:33 mpf Exp $ */ /* * Copyright (c) 1997-1999 Michael Shalayeff * Copyright (c) 1997-1999 Tobias Weingartner * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * */ #include #include #include #include #include "libsa.h" u_int cnvmem, extmem; /* XXX - compatibility */ /* Check gateA20 * * A sanity check. */ static __inline int checkA20(void) { register char *p = (char *)0x100000; register char *q = (char *)0x000000; int st; /* Simple check */ if(*p != *q) return(1); /* Complex check */ *p = ~(*p); st = (*p != *q); *p = ~(*p); return(st); } /* BIOS int 15, AX=E820 * * This is the "preferred" method. */ static __inline bios_memmap_t * bios_E820(bios_memmap_t *mp) { int rc, off = 0, sig, gotcha = 0; do { BIOS_regs.biosr_es = ((u_int)(mp) >> 4); __asm __volatile(DOINT(0x15) "; setc %b1" : "=a" (sig), "=d" (rc), "=b" (off) : "0" (0xE820), "1" (0x534d4150), "b" (off), "c" (sizeof(*mp)), "D" (((u_int)mp) & 0xF) : "cc", "memory"); off = BIOS_regs.biosr_bx; if (rc & 0xff || sig != 0x534d4150) break; gotcha++; if (!mp->type) mp->type = BIOS_MAP_RES; mp++; } while (off); if (!gotcha) return (NULL); #ifdef DEBUG printf("0x15[E820] "); #endif return (mp); } #if 0 /* BIOS int 15, AX=E801 * * Only used if int 15, AX=E820 does not work. * This should work for more than 64MB on most * modern machines. However, there is always * an exception, the older IBM machine do not * like this call. */ static __inline bios_memmap_t * bios_E801(bios_memmap_t *mp) { int rc, m1, m2, m3, m4; u_int8_t *info; /* Test for possibility of 0xE801 */ info = getSYSCONFaddr(); if(!info) return(NULL); /* XXX - Should test model/submodel/rev here */ printf("model(%d,%d,%d)", info[2], info[3], info[4]); /* Check for 94 or later bios */ info = (void *)0xFFFFB; if(info[0] == '9' && info[1] <= '3') return(NULL); /* We might have this call */ __asm __volatile(DOINT(0x15) "; mov %%ax, %%si; setc %b0" : "=a" (rc), "=S" (m1), "=b" (m2), "=c" (m3), "=d" (m4) : "0" (0xE801)); /* Test for failure */ if(rc & 0xff) return (NULL); /* Fixup for screwed up machines */ if(m1 == 0){ m1 = m3; m2 = m4; } #ifdef DEBUG printf("0x15[E801] "); #endif /* Fill out BIOS map */ mp->addr = (1024 * 1024); /* 1MB */ mp->size = (m1 & 0xffff) * 1024; mp->type = BIOS_MAP_FREE; mp++; mp->addr = (1024 * 1024) * 16; /* 16MB */ mp->size = (m2 & 0xffff) * 64L * 1024; mp->type = BIOS_MAP_FREE; return ++mp; } #endif /* BIOS int 15, AX=8800 * * Only used if int 15, AX=E801 does not work. * Machines with this are restricted to 64MB. */ static __inline bios_memmap_t * bios_8800(bios_memmap_t *mp) { int rc, mem; __asm __volatile(DOINT(0x15) "; setc %b0" : "=c" (rc), "=a" (mem) : "a" (0x8800)); if(rc & 0xff) return (NULL); #ifdef DEBUG printf("0x15[8800] "); #endif /* Fill out a BIOS_MAP */ mp->addr = 1024 * 1024; /* 1MB */ mp->size = (mem & 0xffff) * 1024; mp->type = BIOS_MAP_FREE; return ++mp; } /* BIOS int 0x12 Get Conventional Memory * * Only used if int 15, AX=E820 does not work. */ static __inline bios_memmap_t * bios_int12(bios_memmap_t *mp) { int mem; #ifdef DEBUG printf("0x12 "); #endif __asm __volatile(DOINT(0x12) : "=a" (mem) :: "%ecx", "%edx", "cc"); /* Fill out a bios_memmap_t */ mp->addr = 0; mp->size = (mem & 0xffff) * 1024; mp->type = BIOS_MAP_FREE; return ++mp; } /* addrprobe(kloc): Probe memory at address kloc * 1024. * * This is a hack, but it seems to work ok. Maybe this is * the *real* way that you are supposed to do probing??? * * Modify the original a bit. We write everything first, and * then test for the values. This should croak on machines that * return values just written on non-existent memory... * * BTW: These machines are pretty broken IMHO. * * XXX - Does not detect aliased memory. */ const u_int addrprobe_pat[] = { 0x00000000, 0xFFFFFFFF, 0x01010101, 0x10101010, 0x55555555, 0xCCCCCCCC }; static int addrprobe(u_int kloc) { __volatile u_int *loc; register u_int i, ret = 0; u_int save[NENTS(addrprobe_pat)]; /* Get location */ loc = (int *)(kloc * 1024); save[0] = *loc; /* Probe address */ for(i = 0; i < NENTS(addrprobe_pat); i++){ *loc = addrprobe_pat[i]; if(*loc != addrprobe_pat[i]) ret++; } *loc = save[0]; if (!ret) { /* Write address */ for(i = 0; i < NENTS(addrprobe_pat); i++) { save[i] = loc[i]; loc[i] = addrprobe_pat[i]; } /* Read address */ for(i = 0; i < NENTS(addrprobe_pat); i++) { if(loc[i] != addrprobe_pat[i]) ret++; loc[i] = save[i]; } } return ret; } /* Probe for all extended memory. * * This is only used as a last resort. If we resort to this * routine, we are getting pretty desperate. Hopefully nobody * has to rely on this after all the work above. * * XXX - Does not detect aliased memory. * XXX - Could be destructive, as it does write. */ static __inline bios_memmap_t * badprobe(bios_memmap_t *mp) { u_int64_t ram; #ifdef DEBUG printf("scan "); #endif /* probe extended memory * * There is no need to do this in assembly language. This is * much easier to debug in C anyways. */ for(ram = 1024; ram < 512 * 1024; ram += 4) if(addrprobe(ram)) break; mp->addr = 1024 * 1024; mp->size = (ram - 1024) * 1024; mp->type = BIOS_MAP_FREE; return ++mp; } bios_memmap_t bios_memmap[32]; /* This is easier */ #ifndef _TEST void memprobe(void) { bios_memmap_t *pm = bios_memmap, *im; #ifdef DEBUG printf(" mem("); #else printf(" mem["); #endif if(!(pm = bios_E820(bios_memmap))) { im = bios_int12(bios_memmap); #if 0 pm = bios_E801(im); if (!pm) #endif pm = bios_8800(im); if (!pm) pm = badprobe(im); if (!pm) { printf (" No Extended memory detected."); pm = im; } } pm->type = BIOS_MAP_END; /* XXX - gotta peephole optimize the list */ #ifdef DEBUG printf(")["); #endif /* XXX - Compatibility, remove later (smpprobe() relies on it) */ extmem = cnvmem = 0; for(im = bios_memmap; im->type != BIOS_MAP_END; im++) { /* Count only "good" memory chunks 12K and up in size */ if ((im->type == BIOS_MAP_FREE) && (im->size >= 12*1024)) { if (im->size > 1024 * 1024) printf("%uM ", (u_int)(im->size / (1024 * 1024))); else printf("%uK ", (u_int)im->size / 1024); /* * Compute compatibility values: * cnvmem -- is the upper boundary of conventional * memory (below IOM_BEGIN (=640k)) * extmem -- is the size of the contignous extended * memory segment starting at 1M * * We ignore "good" memory in the 640K-1M hole. * We drop "machine {cnvmem,extmem}" commands. */ if(im->addr < IOM_BEGIN) cnvmem = max(cnvmem, im->addr + im->size) / 1024; if(im->addr >= IOM_END && (im->addr/1024) == (extmem + 1024)) { extmem += im->size / 1024; } } } /* Adjust extmem to be no more than 4G (which it usually is not * anyways). In order for an x86 type machine (amd64/etc) to use * more than 4GB of memory, it will need to grok and use the bios * memory map we pass it. Note that above we only count CONTIGUOUS * memory from the 1MB boundary on for extmem (think I/O holes). * * extmem is in KB, and we have 4GB - 1MB (base/io hole) worth of it. */ if(extmem > 4*1024*1024 - 1024) extmem = 4*1024*1024 - 1024; /* Check if gate A20 is on */ printf("a20=o%s] ", checkA20()? "n" : "ff!"); } #endif void dump_biosmem(bios_memmap_t *tm) { register bios_memmap_t *p; register u_int total = 0; if (!tm) tm = bios_memmap; for(p = tm; p->type != BIOS_MAP_END; p++) { printf("Region %ld: type %u at 0x%llx for %uKB\n", (long)(p - tm), p->type, p->addr, (u_int)(p->size / 1024)); if(p->type == BIOS_MAP_FREE) total += p->size / 1024; } printf("Low ram: %dKB High ram: %dKB\n", cnvmem, extmem); printf("Total free memory: %uKB\n", total); } int mem_delete(long long sa, long long ea) { register bios_memmap_t *p; for (p = bios_memmap; p->type != BIOS_MAP_END; p++) { if (p->type == BIOS_MAP_FREE) { register int64_t sp = p->addr, ep = p->addr + p->size; /* can we eat it as a whole? */ if ((sa - sp) <= NBPG && (ep - ea) <= NBPG) { bcopy (p + 1, p, (char *)bios_memmap + sizeof(bios_memmap) - (char *)p); break; /* eat head or legs */ } else if (sa <= sp && sp < ea) { p->addr = ea; p->size = ep - ea; break; } else if (sa < ep && ep <= ea) { p->size = sa - sp; break; } else if (sp < sa && ea < ep) { /* bite in half */ bcopy (p, p + 1, (char *)bios_memmap + sizeof(bios_memmap) - (char *)p - sizeof(bios_memmap[0])); p[1].addr = ea; p[1].size = ep - ea; p->size = sa - sp; break; } } } return 0; } int mem_add(long long sa, long long ea) { register bios_memmap_t *p; for (p = bios_memmap; p->type != BIOS_MAP_END; p++) { if (p->type == BIOS_MAP_FREE) { register int64_t sp = p->addr, ep = p->addr + p->size; /* is it already there? */ if (sp <= sa && ea <= ep) { break; /* join head or legs */ } else if (sa < sp && sp <= ea) { p->addr = sa; p->size = ep - sa; break; } else if (sa <= ep && ep < ea) { p->size = ea - sp; break; } else if (ea < sp) { /* insert before */ bcopy (p, p + 1, (char *)bios_memmap + sizeof(bios_memmap) - (char *)(p - 1)); p->addr = sa; p->size = ea - sa; break; } } } /* meaning add new item at the end of the list */ if (p->type == BIOS_MAP_END) { p[1] = p[0]; p->type = BIOS_MAP_FREE; p->addr = sa; p->size = ea - sa; } return 0; } void mem_pass(void) { bios_memmap_t *p; for (p = bios_memmap; p->type != BIOS_MAP_END; p++) ; addbootarg(BOOTARG_MEMMAP, (p - bios_memmap + 1) * sizeof *bios_memmap, bios_memmap); }