*
* This is used as a parameter in cpuid().
*
- * CPU_VENDORID:
+ * CPUID_VENDORID:
* The CPU's Vendor ID.
*
- * CPU_PROCINFO_AND_FEATUREBITS:
+ * CPUID_PROCINFO_AND_FEATUREBITS:
* Processor information and feature bits (SSE, etc.).
*
- * CPU_CACHE_AND_TLBD_INFO
+ * CPUID_CACHE_AND_TLBD_INFO
* Cache and TLBD Information.
+ * For AMD: Use CPUID_EXTENDED_L2_CACHE_FEATURES
*
- * CPU_HIGHEST_EXTENDED_FUNCTION_SUPPORTED:
+ * CPUID_HIGHEST_EXTENDED_FUNCTION_SUPPORTED:
* Highest extended function supported address.
* Can be like 0x80000008.
*
- * CPU_EXTENDED_PROC_INFO_FEATURE_BITS:
+ * CPUID_EXTENDED_PROC_INFO_FEATURE_BITS:
* Extended processor information and feature bits (64bit etc.)
*
- * CPU_PROC_BRAND_STRING:
+ * CPUID_PROC_BRAND_STRING:
* The Processor's brand string.
*
- * CPU_L1_CACHE_AND_TLB_IDS:
+ * CPUID_L1_CACHE_AND_TLB_IDS:
* L1 Cache and TLB Identifications.
+ * AMD Only.
*
- * CPU_EXTENDED_L2_CACHE_FEATURES:
+ * CPUID_EXTENDED_L2_CACHE_FEATURES:
* Extended L2 Cache features.
*
- * CPU_ADV_POWER_MGT_INFO:
+ * CPUID_ADV_POWER_MGT_INFO:
* Advaned power management information.
*
- * CPU_VIRT_PHYS_ADDR_SIZES:
+ * CPUID_VIRT_PHYS_ADDR_SIZES:
* Virtual and physical address sizes.
*/
typedef enum cpuid {
- CPU_VENDORID = 0,
- CPU_PROCINFO_AND_FEATUREBITS = 1,
- CPU_CACHE_AND_TLBD_INFO = 2,
+ CPUID_VENDORID = 0,
+ CPUID_PROCINFO_AND_FEATUREBITS = 1,
+ CPUID_CACHE_AND_TLBD_INFO = 2,
- CPU_HIGHEST_EXTENDED_FUNCTION_SUPPORTED = 0x80000000,
- CPU_EXTENDED_PROC_INFO_FEATURE_BITS = 0x80000001,
- CPU_PROC_BRAND_STRING = 0x80000002,
- CPU_L1_CACHE_AND_TLB_IDS = 0x80000005,
- CPU_EXTENDED_L2_CACHE_FEATURES = 0x80000006,
- CPU_ADV_POWER_MGT_INFO = 0x80000007,
- CPU_VIRT_PHYS_ADDR_SIZES = 0x80000008
+ CPUID_HIGHEST_EXTENDED_FUNCTION_SUPPORTED = 0x80000000,
+ CPUID_EXTENDED_PROC_INFO_FEATURE_BITS = 0x80000001,
+ CPUID_PROC_BRAND_STRING = 0x80000002,
+ CPUID_L1_CACHE_AND_TLB_IDS = 0x80000005,
+ CPUID_EXTENDED_L2_CACHE_FEATURES = 0x80000006,
+ CPUID_ADV_POWER_MGT_INFO = 0x80000007,
+ CPUID_VIRT_PHYS_ADDR_SIZES = 0x80000008
} cpuid_t;
enum {
* Returns the highest extended function supported.
*
* This is the same as calling:
- * cpuid(CPU_HIGHEST_EEXTENDED_FUNCTION_SUPPORTED, &highest);
+ * cpuid(CPUID_HIGHEST_EEXTENDED_FUNCTION_SUPPORTED, &highest);
*
* This is made visible to the linker because it's easier to call it
* instead of calling cpuid with less type-checking. cpuid calls this.
* This function expects buf to be a valid pointer to a string/int/...
* depending on the requested information.
*
- * For CPU_VENDOR_ID:
+ * For CPUID_VENDOR_ID:
* Returns a string into buf.
*
- * For CPU_PROCINFO_AND_FEATUREBITS:
+ * For CPUID_PROCINFO_AND_FEATUREBITS:
* buf[0]: Stepping
* buf[1]: Model
* buf[2]: Family
* buf[3]: Extended Model
* buf[4]: Extended Family
- * buf[5] and buf[6]:
- * Feature flags
- * buf[7]: Brand Index
- * buf[8]: CL Flush Line Size
- * buf[9]: Logical Processors
- * buf[10]: Initial APICID
- *
- * For CPU_L1_CACHE_AND_TLB_IDS:
- * buf[0]: (eax):
- * - 7..0 Number of times to exec cpuid to get all descriptors.
- * - 15..8 Instruction TLB: 4K Pages, 4-way set associtive, 128 entries.
- * - 23..16 Data TLB: 4k Pages, 4-way set associtive, 128 entries.
- * - 24..31 Instruction TLB: 4K Pages, 4-way set associtive, 2 entries.
- * buf[1]: (ebx):
- * - 7..0 64-byte prefetching
- * - 8..31 Null descriptor
- * buf[2]: (ecx):
- * - 0..31 Null descriptor
- * buf[3]: (edx):
- * - 7..0 2nd-level cache, 2M, 8-way set associtive, 64-byte line size
- * - 15..8 1st-level instruction cache: 32K, 8-way set associtive, 64 byte line size
- * - 16..23 Data TLB: 4M Pages, 4-way set associtive, 8 entires.
- * - 24..31 1st-level data cache: 32K, 8-way set associtive, 64 byte line size
- *
- * For CPU_HIGHEST_EXTENDED_FUNCTION_SUPPORTED:
+ * buf[5]: Brand Index
+ * buf[6]: CL Flush Line Size
+ * buf[7]: Logical Processors
+ * buf[8]: Initial APICID
+ *
+ * For CPUID_L1_CACHE_AND_TLB_IDS:
+ * buf[0] to buf[3]: 2M+4M page TLB info
+ * 0: Inst count
+ * 1: Inst Assoc
+ * 2: Data Count
+ * 3: Data Assoc
+ * buf[4] to buf[7]: 4k page TLB info
+ * 0: Inst count
+ * 1: Inst Assoc
+ * 2: Data Count
+ * 3: Data Assoc
+ * buf[8] to buf[11]: L1 data cache information
+ * 0: Line Size
+ * 1: LinesPerTag
+ * 2: Associativity
+ * 3: CacheSize
+ * buf[12] to buf[15]: L1 instruction cache info
+ * 0: Line Size
+ * 1: LinesPerTag
+ * 2: Associativity
+ * 3: CacheSize
+ *
+ * For CPUID_HIGHEST_EXTENDED_FUNCTION_SUPPORTED:
* Returns the highest supported function in *buf (expects an integer ofc)
*
- * For CPU_EXTENDED_PROC_INFO_FEATURE_BITS:
+ * For CPUID_EXTENDED_PROC_INFO_FEATURE_BITS:
* Returns them in buf[0] and buf[1].
*
- * For CPU_EXTENDED_L2_CACHE_FEATURES:
+ * For CPUID_EXTENDED_L2_CACHE_FEATURES:
* buf[0]: Line size
* buf[1]: Associativity
* buf[2]: Cache size.
*
- * For CPU_VIRT_PHYS_ADDR_SIZES:
+ * For CPUID_VIRT_PHYS_ADDR_SIZES:
* buf[0]: Physical
* buf[1]: Virtual
*
- * For CPU_PROC_BRAND_STRING:
+ * For CPUID_PROC_BRAND_STRING:
* Have a char array with at least 48 bytes assigned to it.
*
- * Here's a page which will help you parse the data provided by this function.
- * http://www.flounder.com/cpuid_explorer2.htm
- *
* If an invalid flag has been passed a 0xbaadf00d is returned in *buf.
*/
void cpuid(cpuid_t info, uint32_t *buf);
*
* Returns true if feature is supported, false otherwise.
*
- * The feature parameter must be >= CPU_EXTENDED_PROC_INFO_FEATURE_BITS
- * and <= CPU_VIRT_PHYS_ADDR_SIZES.
+ * The feature parameter must be >= CPUID_EXTENDED_PROC_INFO_FEATURE_BITS
+ * and <= CPUID_VIRT_PHYS_ADDR_SIZES.
*/
bool cpuid_test_feature(cpuid_t feature);
#define cpuid_highest_ext_func_supported() BUILD_ASSERT_OR_ZERO(0)
#define cpuid_test_feature(feature) BUILD_ASSERT_OR_ZERO(0)
-#define cpuid_has_feature(feature, ext) BUILD_ASSERT_OR_ZERO(0)
+#define cpuid_has_ecxfeature(feature) BUILD_ASSERT_OR_ZERO(0)
+#define cpuid_has_edxfeature(feature) BUILD_ASSERT_OR_ZERO(0)
#endif
#endif