/* * This file is subject to the terms and conditions of the GNU General Public * License. See the file "COPYING" in the main directory of this archive * for more details. * * Copyright (C) 1999,2001-2003 Silicon Graphics, Inc. All Rights Reserved. * * Module to export the system's Firmware Interface Tables, including * PROM revision numbers, in /proc */ #include #include #include #include #include #include /* to lookup nasids */ #include MODULE_DESCRIPTION("PROM version reporting for /proc"); MODULE_AUTHOR("Chad Talbott"); MODULE_LICENSE("GPL"); #undef DEBUG_PROMINFO #define TRACE_PROMINFO #if defined(DEBUG_PROMINFO) # define DPRINTK(x...) printk(KERN_DEBUG x) #else # define DPRINTK(x...) #endif #if defined(TRACE_PROMINFO) && defined(DEBUG_PROMINFO) # if defined(__GNUC__) # define TRACE() printk(KERN_DEBUG "%s:%d:%s\n", \ __FILE__, __LINE__, __FUNCTION__) # else # define TRACE() printk(KERN_DEBUG "%s:%d\n", __LINE__, __FILE__) # endif #else # define TRACE() #endif /* Sub-regions determined by bits in Node Offset */ #define LB_PROM_SPACE 0x0000000700000000ul /* Local LB PROM */ #define FIT_SIGNATURE 0x2020205f5449465ful /* Standard Intel FIT entry types */ #define FIT_ENTRY_FIT_HEADER 0x00 /* FIT header entry */ #define FIT_ENTRY_PAL_B 0x01 /* PAL_B entry */ /* Entries 0x02 through 0x0D reserved by Intel */ #define FIT_ENTRY_PAL_A_PROC 0x0E /* Processor-specific PAL_A entry */ #define FIT_ENTRY_PAL_A 0x0F /* PAL_A entry, same as... */ #define FIT_ENTRY_PAL_A_GEN 0x0F /* ...Generic PAL_A entry */ #define FIT_ENTRY_UNUSED 0x7F /* Unused (reserved by Intel?) */ /* OEM-defined entries range from 0x10 to 0x7E. */ #define FIT_ENTRY_SAL_A 0x10 /* SAL_A entry */ #define FIT_ENTRY_SAL_B 0x11 /* SAL_B entry */ #define FIT_ENTRY_SALRUNTIME 0x12 /* SAL runtime entry */ #define FIT_ENTRY_EFI 0x1F /* EFI entry */ #define FIT_ENTRY_FPSWA 0x20 /* embedded fpswa entry */ #define FIT_ENTRY_VMLINUX 0x21 /* embedded vmlinux entry */ #define FIT_MAJOR_SHIFT (32 + 8) #define FIT_MAJOR_MASK ((1 << 8) - 1) #define FIT_MINOR_SHIFT 32 #define FIT_MINOR_MASK ((1 << 8) - 1) #define FIT_MAJOR(q) \ ((unsigned) ((q) >> FIT_MAJOR_SHIFT) & FIT_MAJOR_MASK) #define FIT_MINOR(q) \ ((unsigned) ((q) >> FIT_MINOR_SHIFT) & FIT_MINOR_MASK) #define FIT_TYPE_SHIFT (32 + 16) #define FIT_TYPE_MASK ((1 << 7) - 1) #define FIT_TYPE(q) \ ((unsigned) ((q) >> FIT_TYPE_SHIFT) & FIT_TYPE_MASK) #define FIT_ENTRY(type, maj, min, size) \ ((((unsigned long)(maj) & FIT_MAJOR_MASK) << FIT_MAJOR_SHIFT) | \ (((unsigned long)(min) & FIT_MINOR_MASK) << FIT_MINOR_SHIFT) | \ (((unsigned long)(type) & FIT_TYPE_MASK) << FIT_TYPE_SHIFT) | \ (size)) struct fit_type_map_t { unsigned char type; const char *name; }; static const struct fit_type_map_t fit_entry_types[] = { { FIT_ENTRY_FIT_HEADER, "FIT Header" }, { FIT_ENTRY_PAL_A_GEN, "Generic PAL_A" }, { FIT_ENTRY_PAL_A_PROC, "Processor-specific PAL_A" }, { FIT_ENTRY_PAL_A, "PAL_A" }, { FIT_ENTRY_PAL_B, "PAL_B" }, { FIT_ENTRY_SAL_A, "SAL_A" }, { FIT_ENTRY_SAL_B, "SAL_B" }, { FIT_ENTRY_SALRUNTIME, "SAL runtime" }, { FIT_ENTRY_EFI, "EFI" }, { FIT_ENTRY_VMLINUX, "Embedded Linux" }, { FIT_ENTRY_FPSWA, "Embedded FPSWA" }, { FIT_ENTRY_UNUSED, "Unused" }, { 0xff, "Error" }, }; static const char * fit_type_name(unsigned char type) { struct fit_type_map_t const*mapp; for (mapp = fit_entry_types; mapp->type != 0xff; mapp++) if (type == mapp->type) return mapp->name; if ((type > FIT_ENTRY_PAL_A) && (type < FIT_ENTRY_UNUSED)) return "OEM type"; if ((type > FIT_ENTRY_PAL_B) && (type < FIT_ENTRY_PAL_A)) return "Reserved"; return "Unknown type"; } /* These two routines read the FIT table directly from the FLASH PROM * on a specific node. The PROM can only be accessed using aligned 64 * bit reads, so we do that and then shift and mask the result to get * at each field. */ static int dump_fit_entry(char *page, unsigned long *fentry) { unsigned long q1, q2; unsigned type; TRACE(); q1 = readq(fentry); q2 = readq(fentry + 1); type = FIT_TYPE(q2); return sprintf(page, "%02x %-25s %x.%02x %016lx %u\n", type, fit_type_name(type), FIT_MAJOR(q2), FIT_MINOR(q2), q1, /* mult by sixteen to get size in bytes */ (unsigned)q2 * 16); } /* We assume that the fit table will be small enough that we can print * the whole thing into one page. (This is true for our default 16kB * pages -- each entry is about 60 chars wide when printed.) I read * somewhere that the maximum size of the FIT is 128 entries, so we're * OK except for 4kB pages (and no one is going to do that on SN * anyway). */ static int dump_fit(char *page, unsigned long *fit) { unsigned long qw; int nentries; int fentry; char *p; TRACE(); DPRINTK("dumping fit from %p\n", (void *)fit); qw = readq(fit); DPRINTK("FIT signature: %016lx (%.8s)\n", qw, (char *)&qw); if (qw != FIT_SIGNATURE) printk(KERN_WARNING "Unrecognized FIT signature"); qw = readq(fit + 1); nentries = (unsigned)qw; DPRINTK("number of fit entries: %u\n", nentries); /* check that we won't overflow the page -- see comment above */ BUG_ON(nentries * 60 > PAGE_SIZE); p = page; for (fentry = 0; fentry < nentries; fentry++) /* each FIT entry is two 64 bit words */ p += dump_fit_entry(p, fit + 2 * fentry); return p - page; } static int dump_version(char *page, unsigned long *fit) { int nentries; int fentry; unsigned long qw; TRACE(); nentries = (unsigned)readq(fit + 1); BUG_ON(nentries * 60 > PAGE_SIZE); for (fentry = 0; fentry < nentries; fentry++) { qw = readq(fit + 2 * fentry + 1); if (FIT_TYPE(qw) == FIT_ENTRY_SAL_A) return sprintf(page, "%x.%02x\n", FIT_MAJOR(qw), FIT_MINOR(qw)); } return 0; } /* same as in proc_misc.c */ static int proc_calc_metrics(char *page, char **start, off_t off, int count, int *eof, int len) { if (len <= off+count) *eof = 1; *start = page + off; len -= off; if (len>count) len = count; if (len<0) len = 0; return len; } static int read_version_entry(char *page, char **start, off_t off, int count, int *eof, void *data) { int len = 0; MOD_INC_USE_COUNT; /* data holds the pointer to this node's FIT */ len = dump_version(page, (unsigned long *)data); len = proc_calc_metrics(page, start, off, count, eof, len); MOD_DEC_USE_COUNT; return len; } static int read_fit_entry(char *page, char **start, off_t off, int count, int *eof, void *data) { int len = 0; MOD_INC_USE_COUNT; /* data holds the pointer to this node's FIT */ len = dump_fit(page, (unsigned long *)data); len = proc_calc_metrics(page, start, off, count, eof, len); MOD_DEC_USE_COUNT; return len; } /* this is a fake FIT that's used on the medusa simulator which * doesn't usually run a complete PROM. */ #ifdef CONFIG_IA64_SGI_SN_SIM static unsigned long fakefit[] = { /* this is all we need to satisfy the code below */ FIT_SIGNATURE, FIT_ENTRY(FIT_ENTRY_FIT_HEADER, 0x02, 0x60, 2), /* dump something arbitrary for * /proc/sgi_prominfo/nodeX/version */ 0xbadbeef00fa3ef17ul, FIT_ENTRY(FIT_ENTRY_SAL_A, 0, 0x99, 0x100) }; #endif static unsigned long * lookup_fit(int nasid) { unsigned long *fitp; unsigned long fit_paddr; unsigned long *fit_vaddr; #ifdef CONFIG_IA64_SGI_SN_SIM if (IS_RUNNING_ON_SIMULATOR()) return fakefit; #endif fitp = (void *)GLOBAL_MMR_ADDR(nasid, LB_PROM_SPACE - 32); DPRINTK("pointer to fit at %p\n", (void *)fitp); fit_paddr = readq(fitp); DPRINTK("fit pointer contains %lx\n", fit_paddr); /* snag just the node-relative offset */ fit_paddr &= ~0ul >> (63-35); /* the pointer to the FIT is relative to IA-64 compatibility * space. However, the PROM is mapped at a different offset * in MMR space (both local and global) */ fit_paddr += 0x700000000; fit_vaddr = (void *)GLOBAL_MMR_ADDR(nasid, fit_paddr); DPRINTK("fit at %p\n", (void *)fit_vaddr); return fit_vaddr; } /* module entry points */ int __init prominfo_init(void); void __exit prominfo_exit(void); module_init(prominfo_init); module_exit(prominfo_exit); static struct proc_dir_entry **proc_entries; static struct proc_dir_entry *sgi_prominfo_entry; #define NODE_NAME_LEN 11 int __init prominfo_init(void) { struct proc_dir_entry **entp; cnodeid_t cnodeid; nasid_t nasid; char name[NODE_NAME_LEN]; TRACE(); DPRINTK("running on cpu %d\n", smp_processor_id()); DPRINTK("numnodes %d\n", numnodes); proc_entries = kmalloc(numnodes * sizeof(struct proc_dir_entry *), GFP_KERNEL); sgi_prominfo_entry = proc_mkdir("sgi_prominfo", NULL); for (cnodeid = 0, entp = proc_entries; cnodeid < numnodes; cnodeid++, entp++) { sprintf(name, "node%d", cnodeid); *entp = proc_mkdir(name, sgi_prominfo_entry); nasid = cnodeid_to_nasid(cnodeid); create_proc_read_entry( "fit", 0, *entp, read_fit_entry, lookup_fit(nasid)); create_proc_read_entry( "version", 0, *entp, read_version_entry, lookup_fit(nasid)); } return 0; } void __exit prominfo_exit(void) { struct proc_dir_entry **entp; unsigned cnodeid; char name[NODE_NAME_LEN]; TRACE(); for (cnodeid = 0, entp = proc_entries; cnodeid < numnodes; cnodeid++, entp++) { remove_proc_entry("fit", *entp); remove_proc_entry("version", *entp); sprintf(name, "node%d", cnodeid); remove_proc_entry(name, sgi_prominfo_entry); } remove_proc_entry("sgi_prominfo", NULL); kfree(proc_entries); }