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Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/iir/@/i386/i386/bios.c |
/*- * Copyright (c) 1997 Michael Smith * Copyright (c) 1998 Jonathan Lemon * 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 AND CONTRIBUTORS ``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 AUTHOR 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 <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/i386/i386/bios.c 184564 2008-11-02 18:48:54Z imp $"); /* * Code for dealing with the BIOS in x86 PC systems. */ #include "opt_isa.h" #include <sys/param.h> #include <sys/systm.h> #include <sys/kernel.h> #include <sys/malloc.h> #include <sys/module.h> #include <sys/bus.h> #include <sys/pcpu.h> #include <vm/vm.h> #include <vm/pmap.h> #include <machine/md_var.h> #include <machine/segments.h> #include <machine/stdarg.h> #include <machine/vmparam.h> #include <machine/pc/bios.h> #ifdef DEV_ISA #include <isa/isavar.h> #include <isa/pnpreg.h> #include <isa/pnpvar.h> #endif #define BIOS_START 0xe0000 #define BIOS_SIZE 0x20000 /* exported lookup results */ struct bios32_SDentry PCIbios; static struct PnPBIOS_table *PnPBIOStable; static u_int bios32_SDCI; /* start fairly early */ static void bios32_init(void *junk); SYSINIT(bios32, SI_SUB_CPU, SI_ORDER_ANY, bios32_init, NULL); /* * bios32_init * * Locate various bios32 entities. */ static void bios32_init(void *junk) { u_long sigaddr; struct bios32_SDheader *sdh; struct PnPBIOS_table *pt; u_int8_t ck, *cv; int i; char *p; /* * BIOS32 Service Directory, PCI BIOS */ /* look for the signature */ if ((sigaddr = bios_sigsearch(0, "_32_", 4, 16, 0)) != 0) { /* get a virtual pointer to the structure */ sdh = (struct bios32_SDheader *)(uintptr_t)BIOS_PADDRTOVADDR(sigaddr); for (cv = (u_int8_t *)sdh, ck = 0, i = 0; i < (sdh->len * 16); i++) { ck += cv[i]; } /* If checksum is OK, enable use of the entrypoint */ if ((ck == 0) && (BIOS_START <= sdh->entry ) && (sdh->entry < (BIOS_START + BIOS_SIZE))) { bios32_SDCI = BIOS_PADDRTOVADDR(sdh->entry); if (bootverbose) { printf("bios32: Found BIOS32 Service Directory header at %p\n", sdh); printf("bios32: Entry = 0x%x (%x) Rev = %d Len = %d\n", sdh->entry, bios32_SDCI, sdh->revision, sdh->len); } /* Allow user override of PCI BIOS search */ if (((p = getenv("machdep.bios.pci")) == NULL) || strcmp(p, "disable")) { /* See if there's a PCI BIOS entrypoint here */ PCIbios.ident.id = 0x49435024; /* PCI systems should have this */ if (!bios32_SDlookup(&PCIbios) && bootverbose) printf("pcibios: PCI BIOS entry at 0x%x+0x%x\n", PCIbios.base, PCIbios.entry); } if (p != NULL) freeenv(p); } else { printf("bios32: Bad BIOS32 Service Directory\n"); } } /* * PnP BIOS * * Allow user override of PnP BIOS search */ if ((((p = getenv("machdep.bios.pnp")) == NULL) || strcmp(p, "disable")) && ((sigaddr = bios_sigsearch(0, "$PnP", 4, 16, 0)) != 0)) { /* get a virtual pointer to the structure */ pt = (struct PnPBIOS_table *)(uintptr_t)BIOS_PADDRTOVADDR(sigaddr); for (cv = (u_int8_t *)pt, ck = 0, i = 0; i < pt->len; i++) { ck += cv[i]; } /* If checksum is OK, enable use of the entrypoint */ if (ck == 0) { PnPBIOStable = pt; if (bootverbose) { printf("pnpbios: Found PnP BIOS data at %p\n", pt); printf("pnpbios: Entry = %x:%x Rev = %d.%d\n", pt->pmentrybase, pt->pmentryoffset, pt->version >> 4, pt->version & 0xf); if ((pt->control & 0x3) == 0x01) printf("pnpbios: Event flag at %x\n", pt->evflagaddr); if (pt->oemdevid != 0) printf("pnpbios: OEM ID %x\n", pt->oemdevid); } } else { printf("pnpbios: Bad PnP BIOS data checksum\n"); } } if (p != NULL) freeenv(p); if (bootverbose) { /* look for other know signatures */ printf("Other BIOS signatures found:\n"); } } /* * bios32_SDlookup * * Query the BIOS32 Service Directory for the service named in (ent), * returns nonzero if the lookup fails. The caller must fill in * (ent->ident), the remainder are populated on a successful lookup. */ int bios32_SDlookup(struct bios32_SDentry *ent) { struct bios_regs args; if (bios32_SDCI == 0) return (1); args.eax = ent->ident.id; /* set up arguments */ args.ebx = args.ecx = args.edx = 0; bios32(&args, bios32_SDCI, GSEL(GCODE_SEL, SEL_KPL)); if ((args.eax & 0xff) == 0) { /* success? */ ent->base = args.ebx; ent->len = args.ecx; ent->entry = args.edx; ent->ventry = BIOS_PADDRTOVADDR(ent->base + ent->entry); return (0); /* all OK */ } return (1); /* failed */ } /* * bios_sigsearch * * Search some or all of the BIOS region for a signature string. * * (start) Optional offset returned from this function * (for searching for multiple matches), or NULL * to start the search from the base of the BIOS. * Note that this will be a _physical_ address in * the range 0xe0000 - 0xfffff. * (sig) is a pointer to the byte(s) of the signature. * (siglen) number of bytes in the signature. * (paralen) signature paragraph (alignment) size. * (sigofs) offset of the signature within the paragraph. * * Returns the _physical_ address of the found signature, 0 if the * signature was not found. */ u_int32_t bios_sigsearch(u_int32_t start, u_char *sig, int siglen, int paralen, int sigofs) { u_char *sp, *end; /* compute the starting address */ if ((start >= BIOS_START) && (start <= (BIOS_START + BIOS_SIZE))) { sp = (char *)BIOS_PADDRTOVADDR(start); } else if (start == 0) { sp = (char *)BIOS_PADDRTOVADDR(BIOS_START); } else { return 0; /* bogus start address */ } /* compute the end address */ end = (u_char *)BIOS_PADDRTOVADDR(BIOS_START + BIOS_SIZE); /* loop searching */ while ((sp + sigofs + siglen) < end) { /* compare here */ if (!bcmp(sp + sigofs, sig, siglen)) { /* convert back to physical address */ return((u_int32_t)BIOS_VADDRTOPADDR(sp)); } sp += paralen; } return(0); } /* * do not staticize, used by bioscall.s */ union { struct { u_short offset; u_short segment; } vec16; struct { u_int offset; u_short segment; } vec32; } bioscall_vector; /* bios jump vector */ void set_bios_selectors(struct bios_segments *seg, int flags) { struct soft_segment_descriptor ssd = { 0, /* segment base address (overwritten) */ 0, /* length (overwritten) */ SDT_MEMERA, /* segment type (overwritten) */ 0, /* priority level */ 1, /* descriptor present */ 0, 0, 1, /* descriptor size (overwritten) */ 0 /* granularity == byte units */ }; union descriptor *p_gdt; #ifdef SMP p_gdt = &gdt[PCPU_GET(cpuid) * NGDT]; #else p_gdt = gdt; #endif ssd.ssd_base = seg->code32.base; ssd.ssd_limit = seg->code32.limit; ssdtosd(&ssd, &p_gdt[GBIOSCODE32_SEL].sd); ssd.ssd_def32 = 0; if (flags & BIOSCODE_FLAG) { ssd.ssd_base = seg->code16.base; ssd.ssd_limit = seg->code16.limit; ssdtosd(&ssd, &p_gdt[GBIOSCODE16_SEL].sd); } ssd.ssd_type = SDT_MEMRWA; if (flags & BIOSDATA_FLAG) { ssd.ssd_base = seg->data.base; ssd.ssd_limit = seg->data.limit; ssdtosd(&ssd, &p_gdt[GBIOSDATA_SEL].sd); } if (flags & BIOSUTIL_FLAG) { ssd.ssd_base = seg->util.base; ssd.ssd_limit = seg->util.limit; ssdtosd(&ssd, &p_gdt[GBIOSUTIL_SEL].sd); } if (flags & BIOSARGS_FLAG) { ssd.ssd_base = seg->args.base; ssd.ssd_limit = seg->args.limit; ssdtosd(&ssd, &p_gdt[GBIOSARGS_SEL].sd); } } extern int vm86pa; extern void bios16_jmp(void); /* * this routine is really greedy with selectors, and uses 5: * * 32-bit code selector: to return to kernel * 16-bit code selector: for running code * data selector: for 16-bit data * util selector: extra utility selector * args selector: to handle pointers * * the util selector is set from the util16 entry in bios16_args, if a * "U" specifier is seen. * * See <machine/pc/bios.h> for description of format specifiers */ int bios16(struct bios_args *args, char *fmt, ...) { char *p, *stack, *stack_top; va_list ap; int flags = BIOSCODE_FLAG | BIOSDATA_FLAG; u_int i, arg_start, arg_end; pt_entry_t *pte; pd_entry_t *ptd; arg_start = 0xffffffff; arg_end = 0; /* * Some BIOS entrypoints attempt to copy the largest-case * argument frame (in order to generalise handling for * different entry types). If our argument frame is * smaller than this, the BIOS will reach off the top of * our constructed stack segment. Pad the top of the stack * with some garbage to avoid this. */ stack = (caddr_t)PAGE_SIZE - 32; va_start(ap, fmt); for (p = fmt; p && *p; p++) { switch (*p) { case 'p': /* 32-bit pointer */ i = va_arg(ap, u_int); arg_start = min(arg_start, i); arg_end = max(arg_end, i); flags |= BIOSARGS_FLAG; stack -= 4; break; case 'i': /* 32-bit integer */ i = va_arg(ap, u_int); stack -= 4; break; case 'U': /* 16-bit selector */ flags |= BIOSUTIL_FLAG; /* FALLTHROUGH */ case 'D': /* 16-bit selector */ case 'C': /* 16-bit selector */ stack -= 2; break; case 's': /* 16-bit integer passed as an int */ i = va_arg(ap, int); stack -= 2; break; default: return (EINVAL); } } if (flags & BIOSARGS_FLAG) { if (arg_end - arg_start > ctob(16)) return (EACCES); args->seg.args.base = arg_start; args->seg.args.limit = 0xffff; } args->seg.code32.base = (u_int)&bios16_jmp & PG_FRAME; args->seg.code32.limit = 0xffff; ptd = (pd_entry_t *)rcr3(); #ifdef PAE if (ptd == IdlePDPT) #else if (ptd == IdlePTD) #endif { /* * no page table, so create one and install it. */ pte = (pt_entry_t *)malloc(PAGE_SIZE, M_TEMP, M_WAITOK); ptd = (pd_entry_t *)((u_int)IdlePTD + KERNBASE); *pte = (vm86pa - PAGE_SIZE) | PG_RW | PG_V; *ptd = vtophys(pte) | PG_RW | PG_V; } else { /* * this is a user-level page table */ pte = PTmap; *pte = (vm86pa - PAGE_SIZE) | PG_RW | PG_V; } pmap_invalidate_all(kernel_pmap); /* XXX insurance for now */ stack_top = stack; va_start(ap, fmt); for (p = fmt; p && *p; p++) { switch (*p) { case 'p': /* 32-bit pointer */ i = va_arg(ap, u_int); *(u_int *)stack = (i - arg_start) | (GSEL(GBIOSARGS_SEL, SEL_KPL) << 16); stack += 4; break; case 'i': /* 32-bit integer */ i = va_arg(ap, u_int); *(u_int *)stack = i; stack += 4; break; case 'U': /* 16-bit selector */ *(u_short *)stack = GSEL(GBIOSUTIL_SEL, SEL_KPL); stack += 2; break; case 'D': /* 16-bit selector */ *(u_short *)stack = GSEL(GBIOSDATA_SEL, SEL_KPL); stack += 2; break; case 'C': /* 16-bit selector */ *(u_short *)stack = GSEL(GBIOSCODE16_SEL, SEL_KPL); stack += 2; break; case 's': /* 16-bit integer passed as an int */ i = va_arg(ap, int); *(u_short *)stack = i; stack += 2; break; default: return (EINVAL); } } set_bios_selectors(&args->seg, flags); bioscall_vector.vec16.offset = (u_short)args->entry; bioscall_vector.vec16.segment = GSEL(GBIOSCODE16_SEL, SEL_KPL); i = bios16_call(&args->r, stack_top); if (pte == PTmap) { *pte = 0; /* remove entry */ /* * XXX only needs to be invlpg(0) but that doesn't work on the 386 */ pmap_invalidate_all(kernel_pmap); } else { *ptd = 0; /* remove page table */ /* * XXX only needs to be invlpg(0) but that doesn't work on the 386 */ pmap_invalidate_all(kernel_pmap); free(pte, M_TEMP); /* ... and free it */ } return (i); } int bios_oem_strings(struct bios_oem *oem, u_char *buffer, size_t maxlen) { size_t idx = 0; struct bios_oem_signature *sig; u_int from, to; u_char c, *s, *se, *str, *bios_str; size_t i, off, len, tot; if ( !oem || !buffer || maxlen<2 ) return(-1); sig = oem->signature; if (!sig) return(-2); from = oem->range.from; to = oem->range.to; if ( (to<=from) || (from<BIOS_START) || (to>(BIOS_START+BIOS_SIZE)) ) return(-3); while (sig->anchor != NULL) { str = sig->anchor; len = strlen(str); off = sig->offset; tot = sig->totlen; /* make sure offset doesn't go beyond bios area */ if ( (to+off)>(BIOS_START+BIOS_SIZE) || ((from+off)<BIOS_START) ) { printf("sys/i386/i386/bios.c: sig '%s' " "from 0x%0x to 0x%0x offset %d " "out of BIOS bounds 0x%0x - 0x%0x\n", str, from, to, off, BIOS_START, BIOS_START+BIOS_SIZE); return(-4); } /* make sure we don't overrun return buffer */ if (idx + tot > maxlen - 1) { printf("sys/i386/i386/bios.c: sig '%s' " "idx %d + tot %d = %d > maxlen-1 %d\n", str, idx, tot, idx+tot, maxlen-1); return(-5); } bios_str = NULL; s = (u_char *)BIOS_PADDRTOVADDR(from); se = (u_char *)BIOS_PADDRTOVADDR(to-len); for (; s<se; s++) { if (!bcmp(str, s, len)) { bios_str = s; break; } } /* * store pretty version of totlen bytes of bios string with * given offset; 0x20 - 0x7E are printable; uniquify spaces */ if (bios_str) { for (i=0; i<tot; i++) { c = bios_str[i+off]; if ( (c < 0x20) || (c > 0x7E) ) c = ' '; if (idx == 0) { if (c != ' ') buffer[idx++] = c; } else if ( (c != ' ') || ((c == ' ') && (buffer[idx-1] != ' ')) ) buffer[idx++] = c; } } sig++; } /* remove a final trailing space */ if ( (idx > 1) && (buffer[idx-1] == ' ') ) idx--; buffer[idx] = '\0'; return (idx); } #ifdef DEV_ISA /* * PnP BIOS interface; enumerate devices only known to the system * BIOS and save information about them for later use. */ struct pnp_sysdev { u_int16_t size; u_int8_t handle; u_int32_t devid; u_int8_t type[3]; u_int16_t attrib; #define PNPATTR_NODISABLE (1<<0) /* can't be disabled */ #define PNPATTR_NOCONFIG (1<<1) /* can't be configured */ #define PNPATTR_OUTPUT (1<<2) /* can be primary output */ #define PNPATTR_INPUT (1<<3) /* can be primary input */ #define PNPATTR_BOOTABLE (1<<4) /* can be booted from */ #define PNPATTR_DOCK (1<<5) /* is a docking station */ #define PNPATTR_REMOVEABLE (1<<6) /* device is removeable */ #define PNPATTR_CONFIG_STATIC (0) #define PNPATTR_CONFIG_DYNAMIC (1) #define PNPATTR_CONFIG_DYNONLY (3) #define PNPATTR_CONFIG(a) (((a) >> 7) & 0x3) /* device-specific data comes here */ u_int8_t devdata[0]; } __packed; /* We have to cluster arguments within a 64k range for the bios16 call */ struct pnp_sysdevargs { u_int16_t next; struct pnp_sysdev node; }; /* * This function is called after the bus has assigned resource * locations for a logical device. */ static void pnpbios_set_config(void *arg, struct isa_config *config, int enable) { } /* * Quiz the PnP BIOS, build a list of PNP IDs and resource data. */ static void pnpbios_identify(driver_t *driver, device_t parent) { struct PnPBIOS_table *pt = PnPBIOStable; struct bios_args args; struct pnp_sysdev *pd; struct pnp_sysdevargs *pda; u_int16_t ndevs, bigdev; int error, currdev; u_int8_t *devnodebuf, tag; u_int32_t *devid, *compid; int idx, left; device_t dev; /* no PnP BIOS information */ if (pt == NULL) return; /* Check to see if ACPI is already active. */ dev = devclass_get_device(devclass_find("acpi"), 0); if (dev != NULL && device_is_attached(dev)) return; /* get count of PnP devices */ bzero(&args, sizeof(args)); args.seg.code16.base = BIOS_PADDRTOVADDR(pt->pmentrybase); args.seg.code16.limit = 0xffff; /* XXX ? */ args.seg.data.base = BIOS_PADDRTOVADDR(pt->pmdataseg); args.seg.data.limit = 0xffff; args.entry = pt->pmentryoffset; if ((error = bios16(&args, PNP_COUNT_DEVNODES, &ndevs, &bigdev)) || (args.r.eax & 0xff)) { printf("pnpbios: error %d/%x getting device count/size limit\n", error, args.r.eax); return; } ndevs &= 0xff; /* clear high byte garbage */ if (bootverbose) printf("pnpbios: %d devices, largest %d bytes\n", ndevs, bigdev); devnodebuf = malloc(bigdev + (sizeof(struct pnp_sysdevargs) - sizeof(struct pnp_sysdev)), M_DEVBUF, M_NOWAIT); if (devnodebuf == NULL) { printf("pnpbios: cannot allocate memory, bailing\n"); return; } pda = (struct pnp_sysdevargs *)devnodebuf; pd = &pda->node; for (currdev = 0, left = ndevs; (currdev != 0xff) && (left > 0); left--) { bzero(pd, bigdev); pda->next = currdev; /* get current configuration */ if ((error = bios16(&args, PNP_GET_DEVNODE, &pda->next, &pda->node, 1))) { printf("pnpbios: error %d making BIOS16 call\n", error); break; } if ((error = (args.r.eax & 0xff))) { if (bootverbose) printf("pnpbios: %s 0x%x fetching node %d\n", error & 0x80 ? "error" : "warning", error, currdev); if (error & 0x80) break; } currdev = pda->next; if (pd->size < sizeof(struct pnp_sysdev)) { printf("pnpbios: bogus system node data, aborting scan\n"); break; } /* * Ignore PICs so that we don't have to worry about the PICs * claiming IRQs to prevent their use. The PIC drivers * already ensure that invalid IRQs are not used. */ if (!strcmp(pnp_eisaformat(pd->devid), "PNP0000")) /* ISA PIC */ continue; if (!strcmp(pnp_eisaformat(pd->devid), "PNP0003")) /* APIC */ continue; /* Add the device and parse its resources */ dev = BUS_ADD_CHILD(parent, ISA_ORDER_PNPBIOS, NULL, -1); isa_set_vendorid(dev, pd->devid); isa_set_logicalid(dev, pd->devid); /* * It appears that some PnP BIOS doesn't allow us to re-enable * the embedded system device once it is disabled. We shall * mark all system device nodes as "cannot be disabled", regardless * of actual settings in the device attribute byte. * XXX isa_set_configattr(dev, ((pd->attrib & PNPATTR_NODISABLE) ? 0 : ISACFGATTR_CANDISABLE) | ((!(pd->attrib & PNPATTR_NOCONFIG) && PNPATTR_CONFIG(pd->attrib) != PNPATTR_CONFIG_STATIC) ? ISACFGATTR_DYNAMIC : 0)); */ isa_set_configattr(dev, (!(pd->attrib & PNPATTR_NOCONFIG) && PNPATTR_CONFIG(pd->attrib) != PNPATTR_CONFIG_STATIC) ? ISACFGATTR_DYNAMIC : 0); isa_set_pnpbios_handle(dev, pd->handle); ISA_SET_CONFIG_CALLBACK(parent, dev, pnpbios_set_config, 0); pnp_parse_resources(dev, &pd->devdata[0], pd->size - sizeof(struct pnp_sysdev), 0); if (!device_get_desc(dev)) device_set_desc_copy(dev, pnp_eisaformat(pd->devid)); /* Find device IDs */ devid = &pd->devid; compid = NULL; /* look for a compatible device ID too */ left = pd->size - sizeof(struct pnp_sysdev); idx = 0; while (idx < left) { tag = pd->devdata[idx++]; if (PNP_RES_TYPE(tag) == 0) { /* Small resource */ switch (PNP_SRES_NUM(tag)) { case PNP_TAG_COMPAT_DEVICE: compid = (u_int32_t *)(pd->devdata + idx); if (bootverbose) printf("pnpbios: node %d compat ID 0x%08x\n", pd->handle, *compid); /* FALLTHROUGH */ case PNP_TAG_END: idx = left; break; default: idx += PNP_SRES_LEN(tag); break; } } else /* Large resource, skip it */ idx += *(u_int16_t *)(pd->devdata + idx) + 2; } if (bootverbose) { printf("pnpbios: handle %d device ID %s (%08x)", pd->handle, pnp_eisaformat(*devid), *devid); if (compid != NULL) printf(" compat ID %s (%08x)", pnp_eisaformat(*compid), *compid); printf("\n"); } } } static device_method_t pnpbios_methods[] = { /* Device interface */ DEVMETHOD(device_identify, pnpbios_identify), { 0, 0 } }; static driver_t pnpbios_driver = { "pnpbios", pnpbios_methods, 1, /* no softc */ }; static devclass_t pnpbios_devclass; DRIVER_MODULE(pnpbios, isa, pnpbios_driver, pnpbios_devclass, 0, 0); #endif /* DEV_ISA */