/*
- * Copyright (c) 2000 Apple Computer, Inc. All rights reserved.
+ * Copyright (c) 2000-2006 Apple Computer, Inc. All rights reserved.
*
* @APPLE_OSREFERENCE_LICENSE_HEADER_START@
*
/*
* @OSF_COPYRIGHT@
*/
-
+#include <platforms.h>
+#include <mach_kdb.h>
+#include <vm/vm_page.h>
#include <pexpert/pexpert.h>
#include "cpuid.h"
+#if MACH_KDB
+#include <i386/db_machdep.h>
+#include <ddb/db_aout.h>
+#include <ddb/db_access.h>
+#include <ddb/db_sym.h>
+#include <ddb/db_variables.h>
+#include <ddb/db_command.h>
+#include <ddb/db_output.h>
+#include <ddb/db_expr.h>
+#endif
#define min(a,b) ((a) < (b) ? (a) : (b))
+#define quad(hi,lo) (((uint64_t)(hi)) << 32 | (lo))
+
+#define bit(n) (1UL << (n))
+#define bitmask(h,l) ((bit(h)|(bit(h)-1)) & ~(bit(l)-1))
+#define bitfield(x,h,l) (((x) & bitmask(h,l)) >> l)
/*
* CPU identification routines.
- *
- * Note that this code assumes a processor that supports the
- * 'cpuid' instruction.
*/
-static unsigned int cpuid_maxcpuid;
-
+static i386_cpu_info_t *cpuid_cpu_infop = NULL;
static i386_cpu_info_t cpuid_cpu_info;
-uint32_t cpuid_feature; /* XXX obsolescent for compat */
-
-/*
- * We only identify Intel CPUs here. Adding support
- * for others would be straightforward.
- */
-static void set_cpu_generic(i386_cpu_info_t *);
-static void set_cpu_intel(i386_cpu_info_t *);
-static void set_cpu_amd(i386_cpu_info_t *);
-static void set_cpu_nsc(i386_cpu_info_t *);
-static void set_cpu_unknown(i386_cpu_info_t *);
-
-struct {
- const char *vendor;
- void (* func)(i386_cpu_info_t *);
-} cpu_vendors[] = {
- {CPUID_VID_INTEL, set_cpu_intel},
- {CPUID_VID_AMD, set_cpu_amd},
- {CPUID_VID_NSC, set_cpu_nsc},
- {0, set_cpu_unknown}
-};
-
-void
-cpuid_get_info(i386_cpu_info_t *info_p)
-{
- uint32_t cpuid_result[4];
- int i;
-
- bzero((void *)info_p, sizeof(i386_cpu_info_t));
-
- /* do cpuid 0 to get vendor */
- do_cpuid(0, cpuid_result);
- cpuid_maxcpuid = cpuid_result[0];
- bcopy((char *)&cpuid_result[1], &info_p->cpuid_vendor[0], 4); /* ugh */
- bcopy((char *)&cpuid_result[2], &info_p->cpuid_vendor[8], 4);
- bcopy((char *)&cpuid_result[3], &info_p->cpuid_vendor[4], 4);
- info_p->cpuid_vendor[12] = 0;
-
- /* look up vendor */
- for (i = 0; ; i++) {
- if ((cpu_vendors[i].vendor == 0) ||
- (!strcmp(cpu_vendors[i].vendor, info_p->cpuid_vendor))) {
- cpu_vendors[i].func(info_p);
- break;
- }
- }
-}
-
-/*
- * Cache descriptor table. Each row has the form:
- * (descriptor_value, cache, size, linesize,
- * description)
- * Note: the CACHE_DESC macro does not expand description text in the kernel.
- */
-static cpuid_cache_desc_t cpuid_cache_desc_tab[] = {
-CACHE_DESC(CPUID_CACHE_ITLB_4K, Lnone, 0, 0, \
- "Instruction TLB, 4K, pages 4-way set associative, 64 entries"),
-CACHE_DESC(CPUID_CACHE_ITLB_4M, Lnone, 0, 0, \
- "Instruction TLB, 4M, pages 4-way set associative, 2 entries"),
-CACHE_DESC(CPUID_CACHE_DTLB_4K, Lnone, 0, 0, \
- "Data TLB, 4K pages, 4-way set associative, 64 entries"),
-CACHE_DESC(CPUID_CACHE_DTLB_4M, Lnone, 0, 0, \
- "Data TLB, 4M pages, 4-way set associative, 8 entries"),
-CACHE_DESC(CPUID_CACHE_ITLB_64, Lnone, 0, 0, \
- "Instruction TLB, 4K and 2M or 4M pages, 64 entries"),
-CACHE_DESC(CPUID_CACHE_ITLB_128, Lnone, 0, 0, \
- "Instruction TLB, 4K and 2M or 4M pages, 128 entries"),
-CACHE_DESC(CPUID_CACHE_ITLB_256, Lnone, 0, 0, \
- "Instruction TLB, 4K and 2M or 4M pages, 256 entries"),
-CACHE_DESC(CPUID_CACHE_DTLB_64, Lnone, 0, 0, \
- "Data TLB, 4K and 4M pages, 64 entries"),
-CACHE_DESC(CPUID_CACHE_DTLB_128, Lnone, 0, 0, \
- "Data TLB, 4K and 4M pages, 128 entries"),
-CACHE_DESC(CPUID_CACHE_DTLB_256, Lnone, 0, 0, \
- "Data TLB, 4K and 4M pages, 256 entries"),
-CACHE_DESC(CPUID_CACHE_ITLB_128_4, Lnone, 0, 0, \
- "Instruction TLB, 4K pages, 4-way set associative, 128 entries"),
-CACHE_DESC(CPUID_CACHE_DTLB_128_4, Lnone, 0, 0, \
- "Data TLB, 4K pages, 4-way set associative, 128 entries"),
-CACHE_DESC(CPUID_CACHE_ICACHE_8K, L1I, 8*1024, 32, \
- "Instruction L1 cache, 8K, 4-way set associative, 32byte line size"),
-CACHE_DESC(CPUID_CACHE_DCACHE_8K, L1D, 8*1024, 32, \
- "Data L1 cache, 8K, 2-way set associative, 32byte line size"),
-CACHE_DESC(CPUID_CACHE_ICACHE_16K, L1I, 16*1024, 32, \
- "Instruction L1 cache, 16K, 4-way set associative, 32byte line size"),
-CACHE_DESC(CPUID_CACHE_DCACHE_16K, L1D, 16*1024, 32, \
- "Data L1 cache, 16K, 4-way set associative, 32byte line size"),
-CACHE_DESC(CPUID_CACHE_DCACHE_8K_64, L1D, 8*1024, 64, \
- "Data L1 cache, 8K, 4-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_DCACHE_16K_64, L1D, 16*1024, 64, \
- "Data L1 cache, 16K, 4-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_DCACHE_32K_64, L1D, 32*1024, 64, \
- "Data L1 cache, 32K, 4-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_DCACHE_32K, L1D, 32*1024, 64, \
- "Data L1 cache, 32K, 8-way set assocative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_ICACHE_32K, L1I, 32*1024, 64, \
- "Instruction L1 cache, 32K, 8-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_DCACHE_16K_8, L1D, 16*1024, 64, \
- "Data L1 cache, 16K, 8-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_TRACE_12K, L1I, 12*1024, 64, \
- "Trace cache, 12K-uop, 8-way set associative"),
-CACHE_DESC(CPUID_CACHE_TRACE_16K, L1I, 16*1024, 64, \
- "Trace cache, 16K-uop, 8-way set associative"),
-CACHE_DESC(CPUID_CACHE_TRACE_32K, L1I, 32*1024, 64, \
- "Trace cache, 32K-uop, 8-way set associative"),
-CACHE_DESC(CPUID_CACHE_UCACHE_128K, L2U, 128*1024, 32, \
- "Unified L2 cache, 128K, 4-way set associative, 32byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_256K, L2U, 128*1024, 32, \
- "Unified L2 cache, 256K, 4-way set associative, 32byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_512K, L2U, 512*1024, 32, \
- "Unified L2 cache, 512K, 4-way set associative, 32byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_1M, L2U, 1*1024*1024, 32, \
- "Unified L2 cache, 1M, 4-way set associative, 32byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_2M, L2U, 2*1024*1024, 32, \
- "Unified L2 cache, 2M, 4-way set associative, 32byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_128K_64, L2U, 128*1024, 64, \
- "Unified L2 cache, 128K, 8-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_256K_64, L2U, 256*1024, 64, \
- "Unified L2 cache, 256K, 8-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_512K_64, L2U, 512*1024, 64, \
- "Unified L2 cache, 512K, 8-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_1M_64, L2U, 1*1024*1024, 64, \
- "Unified L2 cache, 1M, 8-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_256K_32, L2U, 256*1024, 32, \
- "Unified L2 cache, 256K, 8-way set associative, 32byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_512K_32, L2U, 512*1024, 32, \
- "Unified L2 cache, 512K, 8-way set associative, 32byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_1M_32, L2U, 1*1024*1024, 32, \
- "Unified L2 cache, 1M, 8-way set associative, 32byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_2M_32, L2U, 2*1024*1024, 32, \
- "Unified L2 cache, 2M, 8-way set associative, 32byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_1M_64_4, L2U, 1*1024*1024, 64, \
- "Unified L2 cache, 1M, 4-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_2M_64, L2U, 2*1024*1024, 64, \
- "Unified L2 cache, 2M, 8-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_512K_64_2,L2U, 512*1024, 64, \
- "Unified L2 cache, 512K, 2-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_512K_64_4,L2U, 512*1024, 64, \
- "Unified L2 cache, 512K, 4-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_1M_64_8, L2U, 1*1024*1024, 64, \
- "Unified L2 cache, 1M, 8-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_128K_S4, L2U, 128*1024, 64, \
- "Unified L2 sectored cache, 128K, 4-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_128K_S2, L2U, 128*1024, 64, \
- "Unified L2 sectored cache, 128K, 2-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_UCACHE_256K_S4, L2U, 256*1024, 64, \
- "Unified L2 sectored cache, 256K, 4-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_L3CACHE_512K, L3U, 512*1024, 64, \
- "Unified L3 cache, 512K, 4-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_L3CACHE_1M, L3U, 1*1024*1024, 64, \
- "Unified L3 cache, 1M, 8-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_L3CACHE_2M, L3U, 2*1024*1024, 64, \
- "Unified L3 cache, 2M, 8-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_L3CACHE_4M, L3U, 4*1024*1024, 64, \
- "Unified L3 cache, 4M, 8-way set associative, 64byte line size"),
-CACHE_DESC(CPUID_CACHE_PREFETCH_64, Lnone, 0, 0, \
- "64-Byte Prefetching"),
-CACHE_DESC(CPUID_CACHE_PREFETCH_128, Lnone, 0, 0, \
- "128-Byte Prefetching"),
-CACHE_DESC(CPUID_CACHE_NOCACHE, Lnone, 0, 0, \
- "No L2 cache or, if valid L2 cache, no L3 cache"),
-CACHE_DESC(CPUID_CACHE_NULL, Lnone, 0, 0, \
- (char *)0),
-};
-
-static const char * get_intel_model_string( i386_cpu_info_t * info_p )
-{
- /* check for brand id */
- switch(info_p->cpuid_brand) {
- case CPUID_BRAND_UNSUPPORTED:
- /* brand ID not supported; use alternate method. */
- switch(info_p->cpuid_family) {
- case CPUID_FAMILY_486:
- return "Intel 486";
- case CPUID_FAMILY_586:
- return "Intel Pentium";
- case CPUID_FAMILY_686:
- switch(info_p->cpuid_model) {
- case CPUID_MODEL_P6:
- return "Intel Pentium Pro";
- case CPUID_MODEL_PII:
- return "Intel Pentium II";
- case CPUID_MODEL_P65:
- case CPUID_MODEL_P66:
- return "Intel Celeron";
- case CPUID_MODEL_P67:
- case CPUID_MODEL_P68:
- case CPUID_MODEL_P6A:
- case CPUID_MODEL_P6B:
- return "Intel Pentium III";
- case CPUID_MODEL_PM9:
- case CPUID_MODEL_PMD:
- return "Intel Pentium M";
- default:
- return "Unknown Intel P6 Family";
- }
- case CPUID_FAMILY_ITANIUM:
- return "Intel Itanium";
- case CPUID_FAMILY_EXTENDED:
- switch (info_p->cpuid_extfamily) {
- case CPUID_EXTFAMILY_PENTIUM4:
- return "Intel Pentium 4";
- case CPUID_EXTFAMILY_ITANIUM2:
- return "Intel Itanium 2";
- }
- default:
- return "Unknown Intel Family";
- }
- break;
- case CPUID_BRAND_CELERON_1:
- case CPUID_BRAND_CELERON_A:
- case CPUID_BRAND_CELERON_14:
- return "Intel Celeron";
- case CPUID_BRAND_PENTIUM_III_2:
- case CPUID_BRAND_PENTIUM_III_4:
- return "Pentium III";
- case CPUID_BRAND_PIII_XEON:
- if (info_p->cpuid_signature == 0x6B1)
- return "Intel Celeron";
- else
- return "Intel Pentium III Xeon";
- case CPUID_BRAND_PENTIUM_III_M:
- return "Mobile Intel Pentium III-M";
- case CPUID_BRAND_M_CELERON_7:
- case CPUID_BRAND_M_CELERON_F:
- case CPUID_BRAND_M_CELERON_13:
- case CPUID_BRAND_M_CELERON_17:
- return "Mobile Intel Celeron";
- case CPUID_BRAND_PENTIUM4_8:
- case CPUID_BRAND_PENTIUM4_9:
- return "Intel Pentium 4";
- case CPUID_BRAND_XEON:
- return "Intel Xeon";
- case CPUID_BRAND_XEON_MP:
- return "Intel Xeon MP";
- case CPUID_BRAND_PENTIUM4_M:
- if (info_p->cpuid_signature == 0xF13)
- return "Intel Xeon";
- else
- return "Mobile Intel Pentium 4";
- case CPUID_BRAND_CELERON_M:
- return "Intel Celeron M";
- case CPUID_BRAND_PENTIUM_M:
- return "Intel Pentium M";
- case CPUID_BRAND_MOBILE_15:
- case CPUID_BRAND_MOBILE_17:
- return "Mobile Intel";
- }
-
- return "Unknown Intel";
-}
-
-static void set_intel_cache_info( i386_cpu_info_t * info_p )
+/* this function is Intel-specific */
+static void
+cpuid_set_cache_info( i386_cpu_info_t * info_p )
{
uint32_t cpuid_result[4];
- uint32_t l1d_cache_linesize = 0;
+ uint32_t reg[4];
+ uint32_t index;
+ uint32_t linesizes[LCACHE_MAX];
unsigned int i;
unsigned int j;
+ boolean_t cpuid_deterministic_supported = FALSE;
+
+ bzero( linesizes, sizeof(linesizes) );
- /* get processor cache descriptor info */
+ /* Get processor cache descriptor info using leaf 2. We don't use
+ * this internally, but must publish it for KEXTs.
+ */
do_cpuid(2, cpuid_result);
for (j = 0; j < 4; j++) {
if ((cpuid_result[j] >> 31) == 1) /* bit31 is validity */
}
}
- /* decode the descriptors looking for L1/L2/L3 size info */
- for (i = 1; i < sizeof(info_p->cache_info); i++) {
- cpuid_cache_desc_t *descp;
- uint8_t desc = info_p->cache_info[i];
-
- if (desc == CPUID_CACHE_NULL)
- continue;
- for (descp = cpuid_cache_desc_tab;
- descp->value != CPUID_CACHE_NULL; descp++) {
- if (descp->value != desc)
- continue;
- info_p->cache_size[descp->type] = descp->size;
- if (descp->type == L2U)
- info_p->cache_linesize = descp->linesize;
- if (descp->type == L1D)
- l1d_cache_linesize = descp->linesize;
+ /*
+ * Get cache info using leaf 4, the "deterministic cache parameters."
+ * Most processors Mac OS X supports implement this flavor of CPUID.
+ * Loop over each cache on the processor.
+ */
+ do_cpuid(0, cpuid_result);
+ if (cpuid_result[eax] >= 4)
+ cpuid_deterministic_supported = TRUE;
+
+ for (index = 0; cpuid_deterministic_supported; index++) {
+ cache_type_t type = Lnone;
+ uint32_t cache_type;
+ uint32_t cache_level;
+ uint32_t cache_sharing;
+ uint32_t cache_linesize;
+ uint32_t cache_sets;
+ uint32_t cache_associativity;
+ uint32_t cache_size;
+ uint32_t cache_partitions;
+ uint32_t colors;
+
+ reg[eax] = 4; /* cpuid request 4 */
+ reg[ecx] = index; /* index starting at 0 */
+ cpuid(reg);
+//kprintf("cpuid(4) index=%d eax=%p\n", index, reg[eax]);
+ cache_type = bitfield(reg[eax], 4, 0);
+ if (cache_type == 0)
+ break; /* no more caches */
+ cache_level = bitfield(reg[eax], 7, 5);
+ cache_sharing = bitfield(reg[eax], 25, 14) + 1;
+ info_p->cpuid_cores_per_package
+ = bitfield(reg[eax], 31, 26) + 1;
+ cache_linesize = bitfield(reg[ebx], 11, 0) + 1;
+ cache_partitions = bitfield(reg[ebx], 21, 12) + 1;
+ cache_associativity = bitfield(reg[ebx], 31, 22) + 1;
+ cache_sets = bitfield(reg[ecx], 31, 0) + 1;
+
+ /* Map type/levels returned by CPUID into cache_type_t */
+ switch (cache_level) {
+ case 1:
+ type = cache_type == 1 ? L1D :
+ cache_type == 2 ? L1I :
+ Lnone;
+ break;
+ case 2:
+ type = cache_type == 3 ? L2U :
+ Lnone;
break;
+ case 3:
+ type = cache_type == 3 ? L3U :
+ Lnone;
+ break;
+ default:
+ type = Lnone;
}
+
+ /* The total size of a cache is:
+ * ( linesize * sets * associativity )
+ */
+ if (type != Lnone) {
+ cache_size = cache_linesize * cache_sets * cache_associativity;
+ info_p->cache_size[type] = cache_size;
+ info_p->cache_sharing[type] = cache_sharing;
+ info_p->cache_partitions[type] = cache_partitions;
+ linesizes[type] = cache_linesize;
+
+ /* Compute the number of page colors for this cache,
+ * which is:
+ * ( linesize * sets ) / page_size
+ *
+ * To help visualize this, consider two views of a
+ * physical address. To the cache, it is composed
+ * of a line offset, a set selector, and a tag.
+ * To VM, it is composed of a page offset, a page
+ * color, and other bits in the pageframe number:
+ *
+ * +-----------------+---------+--------+
+ * cache: | tag | set | offset |
+ * +-----------------+---------+--------+
+ *
+ * +-----------------+-------+----------+
+ * VM: | don't care | color | pg offset|
+ * +-----------------+-------+----------+
+ *
+ * The color is those bits in (set+offset) not covered
+ * by the page offset.
+ */
+ colors = ( cache_linesize * cache_sets ) >> 12;
+
+ if ( colors > vm_cache_geometry_colors )
+ vm_cache_geometry_colors = colors;
+ }
+ }
+
+ /*
+ * If deterministic cache parameters are not available, use
+ * something else
+ */
+ if (info_p->cpuid_cores_per_package == 0) {
+ info_p->cpuid_cores_per_package = 1;
+
+ /* cpuid define in 1024 quantities */
+ info_p->cache_size[L2U] = info_p->cpuid_cache_size * 1024;
+ info_p->cache_sharing[L2U] = 1;
+ info_p->cache_partitions[L2U] = 1;
+
+ linesizes[L2U] = info_p->cpuid_cache_linesize;
}
- /* For P-IIIs, L2 could be 256k or 512k but we can't tell */
- if (info_p->cache_size[L2U] == 0 &&
- info_p->cpuid_family == 0x6 && info_p->cpuid_model == 0xb) {
- info_p->cache_size[L2U] = 256*1024;
- info_p->cache_linesize = 32;
- }
- /* If we have no L2 cache, use the L1 data cache line size */
- if (info_p->cache_size[L2U] == 0)
- info_p->cache_linesize = l1d_cache_linesize;
-}
-
-static void set_cpu_intel( i386_cpu_info_t * info_p )
-{
- set_cpu_generic(info_p);
- set_intel_cache_info(info_p);
- info_p->cpuid_model_string = get_intel_model_string(info_p);
-}
-
-static const char * get_amd_model_string( i386_cpu_info_t * info_p )
-{
- switch (info_p->cpuid_family)
- {
- case CPUID_FAMILY_486:
- switch (info_p->cpuid_model) {
- case CPUID_MODEL_AM486_DX:
- case CPUID_MODEL_AM486_DX2:
- case CPUID_MODEL_AM486_DX2WB:
- case CPUID_MODEL_AM486_DX4:
- case CPUID_MODEL_AM486_DX4WB:
- return "Am486";
- case CPUID_MODEL_AM486_5X86:
- case CPUID_MODEL_AM486_5X86WB:
- return "Am5x86";
- }
- break;
- case CPUID_FAMILY_586:
- switch (info_p->cpuid_model) {
- case CPUID_MODEL_K5M0:
- case CPUID_MODEL_K5M1:
- case CPUID_MODEL_K5M2:
- case CPUID_MODEL_K5M3:
- return "AMD-K5";
- case CPUID_MODEL_K6M6:
- case CPUID_MODEL_K6M7:
- return "AMD-K6";
- case CPUID_MODEL_K6_2:
- return "AMD-K6-2";
- case CPUID_MODEL_K6_III:
- return "AMD-K6-III";
- }
- break;
- case CPUID_FAMILY_686:
- switch (info_p->cpuid_model) {
- case CPUID_MODEL_ATHLON_M1:
- case CPUID_MODEL_ATHLON_M2:
- case CPUID_MODEL_ATHLON_M4:
- case CPUID_MODEL_ATHLON_M6:
- case CPUID_MODEL_ATHLON_M8:
- case CPUID_MODEL_ATHLON_M10:
- return "AMD Athlon";
- case CPUID_MODEL_DURON_M3:
- case CPUID_MODEL_DURON_M7:
- return "AMD Duron";
- default:
- return "Unknown AMD Athlon";
- }
- case CPUID_FAMILY_EXTENDED:
- switch (info_p->cpuid_model) {
- case CPUID_MODEL_ATHLON64:
- return "AMD Athlon 64";
- case CPUID_MODEL_OPTERON:
- return "AMD Opteron";
- default:
- return "Unknown AMD-64";
- }
- }
- return "Unknown AMD";
-}
-
-static void set_amd_cache_info( i386_cpu_info_t * info_p )
-{
- uint32_t cpuid_result[4];
-
- /* It would make sense to fill in info_p->cache_info with complete information
- * on the TLBs and data cache associativity, lines, etc, either by mapping
- * to the Intel tags (if possible), or replacing cache_info with a generic
- * mechanism. But right now, nothing makes use of that information (that I know
- * of).
- */
-
- /* L1 Cache and TLB Information */
- do_cpuid(0x80000005, cpuid_result);
-
- /* EAX: TLB Information for 2-Mbyte and 4-MByte Pages */
- /* (ignore) */
-
- /* EBX: TLB Information for 4-Kbyte Pages */
- /* (ignore) */
-
- /* ECX: L1 Data Cache Information */
- info_p->cache_size[L1D] = ((cpuid_result[2] >> 24) & 0xFF) * 1024;
- info_p->cache_linesize = (cpuid_result[2] & 0xFF);
-
- /* EDX: L1 Instruction Cache Information */
- info_p->cache_size[L1I] = ((cpuid_result[3] >> 24) & 0xFF) * 1024;
-
- /* L2 Cache Information */
- do_cpuid(0x80000006, cpuid_result);
-
- /* EAX: L2 TLB Information for 2-Mbyte and 4-Mbyte Pages */
- /* (ignore) */
-
- /* EBX: L2 TLB Information for 4-Kbyte Pages */
- /* (ignore) */
-
- /* ECX: L2 Cache Information */
- info_p->cache_size[L2U] = ((cpuid_result[2] >> 16) & 0xFFFF) * 1024;
- if (info_p->cache_size[L2U] > 0)
- info_p->cache_linesize = cpuid_result[2] & 0xFF;
-}
-
-static void set_cpu_amd( i386_cpu_info_t * info_p )
-{
- set_cpu_generic(info_p);
- set_amd_cache_info(info_p);
- info_p->cpuid_model_string = get_amd_model_string(info_p);
-}
-
-static void set_cpu_nsc( i386_cpu_info_t * info_p )
-{
- set_cpu_generic(info_p);
- set_amd_cache_info(info_p);
-
- if (info_p->cpuid_family == CPUID_FAMILY_586 && info_p->cpuid_model == CPUID_MODEL_GX1)
- info_p->cpuid_model_string = "AMD Geode GX1";
- else if (info_p->cpuid_family == CPUID_FAMILY_586 && info_p->cpuid_model == CPUID_MODEL_GX2)
- info_p->cpuid_model_string = "AMD Geode GX";
- else
- info_p->cpuid_model_string = "Unknown National Semiconductor";
+
+ /*
+ * What linesize to publish? We use the L2 linesize if any,
+ * else the L1D.
+ */
+ if ( linesizes[L2U] )
+ info_p->cache_linesize = linesizes[L2U];
+ else if (linesizes[L1D])
+ info_p->cache_linesize = linesizes[L1D];
+ else panic("no linesize");
}
static void
-set_cpu_generic(i386_cpu_info_t *info_p)
+cpuid_set_generic_info(i386_cpu_info_t *info_p)
{
- uint32_t cpuid_result[4];
+ uint32_t cpuid_reg[4];
uint32_t max_extid;
char str[128], *p;
+ /* do cpuid 0 to get vendor */
+ do_cpuid(0, cpuid_reg);
+ bcopy((char *)&cpuid_reg[ebx], &info_p->cpuid_vendor[0], 4); /* ug */
+ bcopy((char *)&cpuid_reg[ecx], &info_p->cpuid_vendor[8], 4);
+ bcopy((char *)&cpuid_reg[edx], &info_p->cpuid_vendor[4], 4);
+ info_p->cpuid_vendor[12] = 0;
+
/* get extended cpuid results */
- do_cpuid(0x80000000, cpuid_result);
- max_extid = cpuid_result[0];
+ do_cpuid(0x80000000, cpuid_reg);
+ max_extid = cpuid_reg[eax];
/* check to see if we can get brand string */
if (max_extid >= 0x80000004) {
* The brand string 48 bytes (max), guaranteed to
* be NUL terminated.
*/
- do_cpuid(0x80000002, cpuid_result);
- bcopy((char *)cpuid_result, &str[0], 16);
- do_cpuid(0x80000003, cpuid_result);
- bcopy((char *)cpuid_result, &str[16], 16);
- do_cpuid(0x80000004, cpuid_result);
- bcopy((char *)cpuid_result, &str[32], 16);
+ do_cpuid(0x80000002, cpuid_reg);
+ bcopy((char *)cpuid_reg, &str[0], 16);
+ do_cpuid(0x80000003, cpuid_reg);
+ bcopy((char *)cpuid_reg, &str[16], 16);
+ do_cpuid(0x80000004, cpuid_reg);
+ bcopy((char *)cpuid_reg, &str[32], 16);
for (p = str; *p != '\0'; p++) {
if (*p != ' ') break;
}
- strncpy(info_p->cpuid_brand_string,
- p, sizeof(info_p->cpuid_brand_string)-1);
- info_p->cpuid_brand_string[sizeof(info_p->cpuid_brand_string)-1] = '\0';
+ strlcpy(info_p->cpuid_brand_string,
+ p, sizeof(info_p->cpuid_brand_string));
- if (!strcmp(info_p->cpuid_brand_string, CPUID_STRING_UNKNOWN)) {
+ if (!strncmp(info_p->cpuid_brand_string, CPUID_STRING_UNKNOWN,
+ min(sizeof(info_p->cpuid_brand_string),
+ strlen(CPUID_STRING_UNKNOWN) + 1))) {
/*
- * This string means we have a BIOS-programmable brand string,
- * and the BIOS couldn't figure out what sort of CPU we have.
+ * This string means we have a firmware-programmable brand string,
+ * and the firmware couldn't figure out what sort of CPU we have.
*/
info_p->cpuid_brand_string[0] = '\0';
}
}
+ /* Get cache and addressing info. */
+ if (max_extid >= 0x80000006) {
+ do_cpuid(0x80000006, cpuid_reg);
+ info_p->cpuid_cache_linesize = bitfield(cpuid_reg[ecx], 7, 0);
+ info_p->cpuid_cache_L2_associativity =
+ bitfield(cpuid_reg[ecx],15,12);
+ info_p->cpuid_cache_size = bitfield(cpuid_reg[ecx],31,16);
+ do_cpuid(0x80000008, cpuid_reg);
+ info_p->cpuid_address_bits_physical =
+ bitfield(cpuid_reg[eax], 7, 0);
+ info_p->cpuid_address_bits_virtual =
+ bitfield(cpuid_reg[eax],15, 8);
+ }
+
/* get processor signature and decode */
- do_cpuid(1, cpuid_result);
- info_p->cpuid_signature = cpuid_result[0];
- info_p->cpuid_stepping = cpuid_result[0] & 0x0f;
- info_p->cpuid_model = (cpuid_result[0] >> 4) & 0x0f;
- info_p->cpuid_family = (cpuid_result[0] >> 8) & 0x0f;
- info_p->cpuid_type = (cpuid_result[0] >> 12) & 0x03;
- info_p->cpuid_extmodel = (cpuid_result[0] >> 16) & 0x0f;
- info_p->cpuid_extfamily = (cpuid_result[0] >> 20) & 0xff;
- info_p->cpuid_brand = cpuid_result[1] & 0xff;
- info_p->cpuid_features = cpuid_result[3];
+ do_cpuid(1, cpuid_reg);
+ info_p->cpuid_signature = cpuid_reg[eax];
+ info_p->cpuid_stepping = bitfield(cpuid_reg[eax], 3, 0);
+ info_p->cpuid_model = bitfield(cpuid_reg[eax], 7, 4);
+ info_p->cpuid_family = bitfield(cpuid_reg[eax], 11, 8);
+ info_p->cpuid_type = bitfield(cpuid_reg[eax], 13, 12);
+ info_p->cpuid_extmodel = bitfield(cpuid_reg[eax], 19, 16);
+ info_p->cpuid_extfamily = bitfield(cpuid_reg[eax], 27, 20);
+ info_p->cpuid_brand = bitfield(cpuid_reg[ebx], 7, 0);
+ info_p->cpuid_features = quad(cpuid_reg[ecx], cpuid_reg[edx]);
+
+ /* Fold extensions into family/model */
+ if (info_p->cpuid_family == 0x0f)
+ info_p->cpuid_family += info_p->cpuid_extfamily;
+ if (info_p->cpuid_family == 0x0f || info_p->cpuid_family== 0x06)
+ info_p->cpuid_model += (info_p->cpuid_extmodel << 4);
+
+ if (info_p->cpuid_features & CPUID_FEATURE_HTT)
+ info_p->cpuid_logical_per_package =
+ bitfield(cpuid_reg[ebx], 23, 16);
+ else
+ info_p->cpuid_logical_per_package = 1;
+
+ if (max_extid >= 0x80000001) {
+ do_cpuid(0x80000001, cpuid_reg);
+ info_p->cpuid_extfeatures =
+ quad(cpuid_reg[ecx], cpuid_reg[edx]);
+ }
+
+ if (info_p->cpuid_extfeatures && CPUID_FEATURE_MONITOR) {
+ /*
+ * Extract the Monitor/Mwait Leaf info:
+ */
+ do_cpuid(5, cpuid_reg);
+ info_p->cpuid_mwait_linesize_min = cpuid_reg[eax];
+ info_p->cpuid_mwait_linesize_max = cpuid_reg[ebx];
+ info_p->cpuid_mwait_extensions = cpuid_reg[ecx];
+ info_p->cpuid_mwait_sub_Cstates = cpuid_reg[edx];
+
+ /*
+ * And the thermal and Power Leaf while we're at it:
+ */
+ do_cpuid(6, cpuid_reg);
+ info_p->cpuid_thermal_sensor =
+ bitfield(cpuid_reg[eax], 0, 0);
+ info_p->cpuid_thermal_dynamic_acceleration =
+ bitfield(cpuid_reg[eax], 1, 1);
+ info_p->cpuid_thermal_thresholds =
+ bitfield(cpuid_reg[ebx], 3, 0);
+ info_p->cpuid_thermal_ACNT_MCNT =
+ bitfield(cpuid_reg[ecx], 0, 0);
+
+ /*
+ * And the Architectural Performance Monitoring Leaf:
+ */
+ do_cpuid(0xa, cpuid_reg);
+ info_p->cpuid_arch_perf_version =
+ bitfield(cpuid_reg[eax], 7, 0);
+ info_p->cpuid_arch_perf_number =
+ bitfield(cpuid_reg[eax],15, 8);
+ info_p->cpuid_arch_perf_width =
+ bitfield(cpuid_reg[eax],23,16);
+ info_p->cpuid_arch_perf_events_number =
+ bitfield(cpuid_reg[eax],31,24);
+ info_p->cpuid_arch_perf_events =
+ cpuid_reg[ebx];
+ info_p->cpuid_arch_perf_fixed_number =
+ bitfield(cpuid_reg[edx], 4, 0);
+ info_p->cpuid_arch_perf_fixed_width =
+ bitfield(cpuid_reg[edx],12, 5);
+
+ }
return;
}
-static void
-set_cpu_unknown(__unused i386_cpu_info_t *info_p)
+void
+cpuid_set_info(void)
{
- info_p->cpuid_model_string = "Unknown";
-}
+ bzero((void *)&cpuid_cpu_info, sizeof(cpuid_cpu_info));
+ cpuid_set_generic_info(&cpuid_cpu_info);
+
+ /* verify we are running on a supported CPU */
+ if ((strncmp(CPUID_VID_INTEL, cpuid_cpu_info.cpuid_vendor,
+ min(strlen(CPUID_STRING_UNKNOWN) + 1,
+ sizeof(cpuid_cpu_info.cpuid_vendor)))) ||
+ (cpuid_cpu_info.cpuid_family != 6) ||
+ (cpuid_cpu_info.cpuid_model < 13))
+ panic("Unsupported CPU");
+
+ cpuid_cpu_info.cpuid_cpu_type = CPU_TYPE_X86;
+ cpuid_cpu_info.cpuid_cpu_subtype = CPU_SUBTYPE_X86_ARCH1;
+
+ cpuid_set_cache_info(&cpuid_cpu_info);
+
+ cpuid_cpu_info.cpuid_model_string = ""; /* deprecated */
+}
static struct {
- uint32_t mask;
+ uint64_t mask;
const char *name;
-} feature_names[] = {
+} feature_map[] = {
{CPUID_FEATURE_FPU, "FPU",},
{CPUID_FEATURE_VME, "VME",},
{CPUID_FEATURE_DE, "DE",},
{CPUID_FEATURE_SS, "SS",},
{CPUID_FEATURE_HTT, "HTT",},
{CPUID_FEATURE_TM, "TM",},
+ {CPUID_FEATURE_SSE3, "SSE3"},
+ {CPUID_FEATURE_MONITOR, "MON"},
+ {CPUID_FEATURE_DSCPL, "DSCPL"},
+ {CPUID_FEATURE_VMX, "VMX"},
+ {CPUID_FEATURE_SMX, "SMX"},
+ {CPUID_FEATURE_EST, "EST"},
+ {CPUID_FEATURE_TM2, "TM2"},
+ {CPUID_FEATURE_SSSE3, "SSSE3"},
+ {CPUID_FEATURE_CID, "CID"},
+ {CPUID_FEATURE_CX16, "CX16"},
+ {CPUID_FEATURE_xTPR, "TPR"},
+ {CPUID_FEATURE_PDCM, "PDCM"},
+ {CPUID_FEATURE_SSE4_1, "SSE4.1"},
+ {CPUID_FEATURE_SSE4_2, "SSE4.2"},
+ {CPUID_FEATURE_POPCNT, "POPCNT"},
+ {0, 0}
+},
+extfeature_map[] = {
+ {CPUID_EXTFEATURE_SYSCALL, "SYSCALL"},
+ {CPUID_EXTFEATURE_XD, "XD"},
+ {CPUID_EXTFEATURE_EM64T, "EM64T"},
+ {CPUID_EXTFEATURE_LAHF, "LAHF"},
{0, 0}
};
+i386_cpu_info_t *
+cpuid_info(void)
+{
+ /* Set-up the cpuid_indo stucture lazily */
+ if (cpuid_cpu_infop == NULL) {
+ cpuid_set_info();
+ cpuid_cpu_infop = &cpuid_cpu_info;
+ }
+ return cpuid_cpu_infop;
+}
+
char *
-cpuid_get_feature_names(uint32_t feature, char *buf, unsigned buf_len)
+cpuid_get_feature_names(uint64_t features, char *buf, unsigned buf_len)
{
+ int len = -1;
+ char *p = buf;
int i;
- int len;
+
+ for (i = 0; feature_map[i].mask != 0; i++) {
+ if ((features & feature_map[i].mask) == 0)
+ continue;
+ if (len > 0)
+ *p++ = ' ';
+ len = min(strlen(feature_map[i].name), (buf_len-1) - (p-buf));
+ if (len == 0)
+ break;
+ bcopy(feature_map[i].name, p, len);
+ p += len;
+ }
+ *p = '\0';
+ return buf;
+}
+
+char *
+cpuid_get_extfeature_names(uint64_t extfeatures, char *buf, unsigned buf_len)
+{
+ int len = -1;
char *p = buf;
+ int i;
- for (i = 0; feature_names[i].mask != 0; i++) {
- if ((feature & feature_names[i].mask) == 0)
+ for (i = 0; extfeature_map[i].mask != 0; i++) {
+ if ((extfeatures & extfeature_map[i].mask) == 0)
continue;
- if (i > 0)
+ if (len > 0)
*p++ = ' ';
- len = min(strlen(feature_names[i].name), (buf_len-1) - (p-buf));
+ len = min(strlen(extfeature_map[i].name), (buf_len-1)-(p-buf));
if (len == 0)
break;
- bcopy(feature_names[i].name, p, len);
+ bcopy(extfeature_map[i].name, p, len);
p += len;
}
*p = '\0';
return buf;
}
+
+#if CONFIG_NO_KPRINTF_STRINGS
void
cpuid_feature_display(
- const char *header,
- __unused int my_cpu)
+ __unused const char *header)
+{
+}
+
+void
+cpuid_extfeature_display(
+ __unused const char *header)
+{
+}
+
+void
+cpuid_cpu_display(
+ __unused const char *header)
+{
+}
+#else /* CONFIG_NO_KPRINTF_STRINGS */
+void
+cpuid_feature_display(
+ const char *header)
+{
+ char buf[256];
+
+ kprintf("%s: %s\n", header,
+ cpuid_get_feature_names(cpuid_features(),
+ buf, sizeof(buf)));
+ if (cpuid_features() & CPUID_FEATURE_HTT) {
+#define s_if_plural(n) ((n > 1) ? "s" : "")
+ kprintf(" HTT: %d core%s per package;"
+ " %d logical cpu%s per package\n",
+ cpuid_cpu_info.cpuid_cores_per_package,
+ s_if_plural(cpuid_cpu_info.cpuid_cores_per_package),
+ cpuid_cpu_info.cpuid_logical_per_package,
+ s_if_plural(cpuid_cpu_info.cpuid_logical_per_package));
+ }
+}
+
+void
+cpuid_extfeature_display(
+ const char *header)
{
char buf[256];
- printf("%s: %s\n", header,
- cpuid_get_feature_names(cpuid_features(), buf, sizeof(buf)));
+ kprintf("%s: %s\n", header,
+ cpuid_get_extfeature_names(cpuid_extfeatures(),
+ buf, sizeof(buf)));
}
void
cpuid_cpu_display(
- const char *header,
- __unused int my_cpu)
+ const char *header)
{
if (cpuid_cpu_info.cpuid_brand_string[0] != '\0') {
- printf("%s: %s\n", header,
- cpuid_cpu_info.cpuid_brand_string);
+ kprintf("%s: %s\n", header, cpuid_cpu_info.cpuid_brand_string);
}
}
+#endif /* !CONFIG_NO_KPRINTF_STRINGS */
unsigned int
cpuid_family(void)
{
- return cpuid_cpu_info.cpuid_family;
+ return cpuid_info()->cpuid_family;
}
-unsigned int
+cpu_type_t
+cpuid_cputype(void)
+{
+ return cpuid_info()->cpuid_cpu_type;
+}
+
+cpu_subtype_t
+cpuid_cpusubtype(void)
+{
+ return cpuid_info()->cpuid_cpu_subtype;
+}
+
+uint64_t
cpuid_features(void)
{
static int checked = 0;
char fpu_arg[16] = { 0 };
+
+ (void) cpuid_info();
if (!checked) {
/* check for boot-time fpu limitations */
if (PE_parse_boot_arg("_fpu", &fpu_arg[0])) {
printf("limiting fpu features to: %s\n", fpu_arg);
- if (!strncmp("387", fpu_arg, sizeof "387") || !strncmp("mmx", fpu_arg, sizeof "mmx")) {
+ if (!strncmp("387", fpu_arg, sizeof("387")) || !strncmp("mmx", fpu_arg, sizeof("mmx"))) {
printf("no sse or sse2\n");
cpuid_cpu_info.cpuid_features &= ~(CPUID_FEATURE_SSE | CPUID_FEATURE_SSE2 | CPUID_FEATURE_FXSR);
- } else if (!strncmp("sse", fpu_arg, sizeof "sse")) {
+ } else if (!strncmp("sse", fpu_arg, sizeof("sse"))) {
printf("no sse2\n");
cpuid_cpu_info.cpuid_features &= ~(CPUID_FEATURE_SSE2);
}
return cpuid_cpu_info.cpuid_features;
}
-i386_cpu_info_t *
-cpuid_info(void)
+uint64_t
+cpuid_extfeatures(void)
{
- return &cpuid_cpu_info;
+ return cpuid_info()->cpuid_extfeatures;
}
+
-/* XXX for temporary compatibility */
-void
-set_cpu_model(void)
+#if MACH_KDB
+
+/*
+ * Display the cpuid
+ * *
+ * cp
+ */
+void
+db_cpuid(__unused db_expr_t addr,
+ __unused int have_addr,
+ __unused db_expr_t count,
+ __unused char *modif)
{
- cpuid_get_info(&cpuid_cpu_info);
- cpuid_feature = cpuid_cpu_info.cpuid_features; /* XXX compat */
+
+ uint32_t i, mid;
+ uint32_t cpid[4];
+
+ do_cpuid(0, cpid); /* Get the first cpuid which is the number of
+ * basic ids */
+ db_printf("%08X - %08X %08X %08X %08X\n",
+ 0, cpid[eax], cpid[ebx], cpid[ecx], cpid[edx]);
+
+ mid = cpid[eax]; /* Set the number */
+ for (i = 1; i <= mid; i++) { /* Dump 'em out */
+ do_cpuid(i, cpid); /* Get the next */
+ db_printf("%08X - %08X %08X %08X %08X\n",
+ i, cpid[eax], cpid[ebx], cpid[ecx], cpid[edx]);
+ }
+ db_printf("\n");
+
+ do_cpuid(0x80000000, cpid); /* Get the first extended cpuid which
+ * is the number of extended ids */
+ db_printf("%08X - %08X %08X %08X %08X\n",
+ 0x80000000, cpid[eax], cpid[ebx], cpid[ecx], cpid[edx]);
+
+ mid = cpid[eax]; /* Set the number */
+ for (i = 0x80000001; i <= mid; i++) { /* Dump 'em out */
+ do_cpuid(i, cpid); /* Get the next */
+ db_printf("%08X - %08X %08X %08X %08X\n",
+ i, cpid[eax], cpid[ebx], cpid[ecx], cpid[edx]);
+ }
}
+#endif