src/arm/tlb.c - platform/external/cpuinfo - Git at Google



 switch (uarch) {
 	case cpuinfo_uarch_cortex_a5:
 		/*
 		 * Cortex-A5 Technical Reference Manual:
 		 * 6.3.1. Micro TLB
 		 *   The first level of caching for the page table information is a micro TLB of
 		 *   10 entries that is implemented on each of the instruction and data sides.
 		 * 6.3.2. Main TLB
 		 *   Misses from the instruction and data micro TLBs are handled by a unified main TLB.
 		 *   The main TLB is 128-entry two-way set-associative.
 		 */
 		break;
 	case cpuinfo_uarch_cortex_a7:
 		/*
 		 * Cortex-A7 MPCore Technical Reference Manual:
 		 * 5.3.1. Micro TLB
 		 *   The first level of caching for the page table information is a micro TLB of
 		 *   10 entries that is implemented on each of the instruction and data sides.
 		 * 5.3.2. Main TLB
 		 *   Misses from the micro TLBs are handled by a unified main TLB. This is a 256-entry 2-way
 		 *   set-associative structure. The main TLB supports all the VMSAv7 page sizes of
 		 *   4KB, 64KB, 1MB and 16MB in addition to the LPAE page sizes of 2MB and 1G.
 		 */
 		break;
 	case cpuinfo_uarch_cortex_a8:
 		/*
 		 * Cortex-A8 Technical Reference Manual:
 		 * 6.1. About the MMU
 		 *    The MMU features include the following:
 		 *     - separate, fully-associative, 32-entry data and instruction TLBs
 		 *     - TLB entries that support 4KB, 64KB, 1MB, and 16MB pages
 		 */
 		break;
 	case cpuinfo_uarch_cortex_a9:
 		/*
 		 * ARM Cortex‑A9 Technical Reference Manual:
 		 * 6.2.1 Micro TLB
 		 *    The first level of caching for the page table information is a micro TLB of 32 entries on the data side,
 		 *    and configurable 32 or 64 entries on the instruction side.
 		 * 6.2.2 Main TLB
 		 *    The main TLB is implemented as a combination of:
 		 *     - A fully-associative, lockable array of four elements.
 		 *     - A 2-way associative structure of 2x32, 2x64, 2x128 or 2x256 entries.
 		 */
 		break;
 	case cpuinfo_uarch_cortex_a15:
 		/*
 		 * ARM Cortex-A15 MPCore Processor Technical Reference Manual:
 		 * 5.2.1. L1 instruction TLB
 		 *    The L1 instruction TLB is a 32-entry fully-associative structure. This TLB caches entries at the 4KB
 		 *    granularity of Virtual Address (VA) to Physical Address (PA) mapping only. If the page tables map the
 		 *    memory region to a larger granularity than 4K, it only allocates one mapping for the particular 4K region
 		 *    to which the current access corresponds.
 		 * 5.2.2. L1 data TLB
 		 *    There are two separate 32-entry fully-associative TLBs that are used for data loads and stores,
 		 *    respectively. Similar to the L1 instruction TLB, both of these cache entries at the 4KB granularity of
 		 *    VA to PA mappings only. At implementation time, the Cortex-A15 MPCore processor can be configured with
 		 *    the -l1tlb_1m option, to have the L1 data TLB cache entries at both the 4KB and 1MB granularity.
 		 *    With this configuration, any translation that results in a 1MB or larger page is cached in the L1 data
 		 *    TLB as a 1MB entry. Any translation that results in a page smaller than 1MB is cached in the L1 data TLB
 		 *    as a 4KB entry. By default, all translations are cached in the L1 data TLB as a 4KB entry.
 		 * 5.2.3. L2 TLB
 		 *    Misses from the L1 instruction and data TLBs are handled by a unified L2 TLB. This is a 512-entry 4-way
 		 *    set-associative structure. The L2 TLB supports all the VMSAv7 page sizes of 4K, 64K, 1MB and 16MB in
 		 *    addition to the LPAE page sizes of 2MB and 1GB.
 		 */
 		break;
 	case cpuinfo_uarch_cortex_a17:
 		/*
 		 * ARM Cortex-A17 MPCore Processor Technical Reference Manual:
 		 * 5.2.1. Instruction micro TLB
 		 *    The instruction micro TLB is implemented as a 32, 48 or 64 entry, fully-associative structure. This TLB
 		 *    caches entries at the 4KB and 1MB granularity of Virtual Address (VA) to Physical Address (PA) mapping
 		 *    only. If the translation tables map the memory region to a larger granularity than 4KB or 1MB, it only
 		 *    allocates one mapping for the particular 4KB region to which the current access corresponds.
 		 * 5.2.2. Data micro TLB
 		 *    The data micro TLB is a 32 entry fully-associative TLB that is used for data loads and stores. The cache
 		 *    entries have a 4KB and 1MB granularity of VA to PA mappings only.
 		 * 5.2.3. Unified main TLB
 		 *    Misses from the instruction and data micro TLBs are handled by a unified main TLB. This is a 1024 entry
 		 *    4-way set-associative structure. The main TLB supports all the VMSAv7 page sizes of 4K, 64K, 1MB and 16MB
 		 *    in addition to the LPAE page sizes of 2MB and 1GB.
 		 */
 		break;
 	case cpuinfo_uarch_cortex_a35:
 		/*
 		 * ARM Cortex‑A35 Processor Technical Reference Manual:
 		 * A6.2 TLB Organization
 		 *   Micro TLB
 		 *     The first level of caching for the translation table information is a micro TLB of ten entries that
 		 *     is implemented on each of the instruction and data sides.
 		 *   Main TLB
 		 *     A unified main TLB handles misses from the micro TLBs. It has a 512-entry, 2-way, set-associative
 		 *     structure and supports all VMSAv8 block sizes, except 1GB. If it fetches a 1GB block, the TLB splits
 		 *     it into 512MB blocks and stores the appropriate block for the lookup.
 		 */
 		break;
 	case cpuinfo_uarch_cortex_a53:
 		/*
 		 * ARM Cortex-A53 MPCore Processor Technical Reference Manual:
 		 * 5.2.1. Micro TLB
 		 *    The first level of caching for the translation table information is a micro TLB of ten entries that is
 		 *    implemented on each of the instruction and data sides.
 		 * 5.2.2. Main TLB
 		 *    A unified main TLB handles misses from the micro TLBs. This is a 512-entry, 4-way, set-associative
 		 *    structure. The main TLB supports all VMSAv8 block sizes, except 1GB. If a 1GB block is fetched, it is
 		 *    split into 512MB blocks and the appropriate block for the lookup stored.
 		 */
 		break;
 	case cpuinfo_uarch_cortex_a57:
 		/*
 		 * ARM® Cortex-A57 MPCore Processor Technical Reference Manual:
 		 * 5.2.1 L1 instruction TLB
 		 *    The L1 instruction TLB is a 48-entry fully-associative structure. This TLB caches entries of three
 		 *    different page sizes, natively 4KB, 64KB, and 1MB, of VA to PA mappings. If the page tables map the memory
 		 *    region to a larger granularity than 1MB, it only allocates one mapping for the particular 1MB region to
 		 *    which the current access corresponds.
 		 * 5.2.2 L1 data TLB
 		 *    The L1 data TLB is a 32-entry fully-associative TLB that is used for data loads and stores. This TLB
 		 *    caches entries of three different page sizes, natively 4KB, 64KB, and 1MB, of VA to PA mappings.
 		 * 5.2.3 L2 TLB
 		 *    Misses from the L1 instruction and data TLBs are handled by a unified L2 TLB. This is a 1024-entry 4-way
 		 *    set-associative structure. The L2 TLB supports the page sizes of 4K, 64K, 1MB and 16MB. It also supports
 		 *    page sizes of 2MB and 1GB for the long descriptor format translation in AArch32 state and in AArch64 state
 		 *    when using the 4KB translation granule. In addition, the L2 TLB supports the 512MB page map size defined
 		 *    for the AArch64 translations that use a 64KB translation granule.
 		 */
 		break;
 }


	switch (uarch) {
	case cpuinfo_uarch_cortex_a5:
	/*
	* Cortex-A5 Technical Reference Manual:
	* 6.3.1. Micro TLB
	* The first level of caching for the page table information is a micro TLB of
	* 10 entries that is implemented on each of the instruction and data sides.
	* 6.3.2. Main TLB
	* Misses from the instruction and data micro TLBs are handled by a unified main TLB.
	* The main TLB is 128-entry two-way set-associative.
	*/
	break;
	case cpuinfo_uarch_cortex_a7:
	/*
	* Cortex-A7 MPCore Technical Reference Manual:
	* 5.3.1. Micro TLB
	* The first level of caching for the page table information is a micro TLB of
	* 10 entries that is implemented on each of the instruction and data sides.
	* 5.3.2. Main TLB
	* Misses from the micro TLBs are handled by a unified main TLB. This is a 256-entry 2-way
	* set-associative structure. The main TLB supports all the VMSAv7 page sizes of
	* 4KB, 64KB, 1MB and 16MB in addition to the LPAE page sizes of 2MB and 1G.
	*/
	break;
	case cpuinfo_uarch_cortex_a8:
	/*
	* Cortex-A8 Technical Reference Manual:
	* 6.1. About the MMU
	* The MMU features include the following:
	* - separate, fully-associative, 32-entry data and instruction TLBs
	* - TLB entries that support 4KB, 64KB, 1MB, and 16MB pages
	*/
	break;
	case cpuinfo_uarch_cortex_a9:
	/*
	* ARM Cortex‑A9 Technical Reference Manual:
	* 6.2.1 Micro TLB
	* The first level of caching for the page table information is a micro TLB of 32 entries on the data side,
	* and configurable 32 or 64 entries on the instruction side.
	* 6.2.2 Main TLB
	* The main TLB is implemented as a combination of:
	* - A fully-associative, lockable array of four elements.
	* - A 2-way associative structure of 2x32, 2x64, 2x128 or 2x256 entries.
	*/
	break;
	case cpuinfo_uarch_cortex_a15:
	/*
	* ARM Cortex-A15 MPCore Processor Technical Reference Manual:
	* 5.2.1. L1 instruction TLB
	* The L1 instruction TLB is a 32-entry fully-associative structure. This TLB caches entries at the 4KB
	* granularity of Virtual Address (VA) to Physical Address (PA) mapping only. If the page tables map the
	* memory region to a larger granularity than 4K, it only allocates one mapping for the particular 4K region
	* to which the current access corresponds.
	* 5.2.2. L1 data TLB
	* There are two separate 32-entry fully-associative TLBs that are used for data loads and stores,
	* respectively. Similar to the L1 instruction TLB, both of these cache entries at the 4KB granularity of
	* VA to PA mappings only. At implementation time, the Cortex-A15 MPCore processor can be configured with
	* the -l1tlb_1m option, to have the L1 data TLB cache entries at both the 4KB and 1MB granularity.
	* With this configuration, any translation that results in a 1MB or larger page is cached in the L1 data
	* TLB as a 1MB entry. Any translation that results in a page smaller than 1MB is cached in the L1 data TLB
	* as a 4KB entry. By default, all translations are cached in the L1 data TLB as a 4KB entry.
	* 5.2.3. L2 TLB
	* Misses from the L1 instruction and data TLBs are handled by a unified L2 TLB. This is a 512-entry 4-way
	* set-associative structure. The L2 TLB supports all the VMSAv7 page sizes of 4K, 64K, 1MB and 16MB in
	* addition to the LPAE page sizes of 2MB and 1GB.
	*/
	break;
	case cpuinfo_uarch_cortex_a17:
	/*
	* ARM Cortex-A17 MPCore Processor Technical Reference Manual:
	* 5.2.1. Instruction micro TLB
	* The instruction micro TLB is implemented as a 32, 48 or 64 entry, fully-associative structure. This TLB
	* caches entries at the 4KB and 1MB granularity of Virtual Address (VA) to Physical Address (PA) mapping
	* only. If the translation tables map the memory region to a larger granularity than 4KB or 1MB, it only
	* allocates one mapping for the particular 4KB region to which the current access corresponds.
	* 5.2.2. Data micro TLB
	* The data micro TLB is a 32 entry fully-associative TLB that is used for data loads and stores. The cache
	* entries have a 4KB and 1MB granularity of VA to PA mappings only.
	* 5.2.3. Unified main TLB
	* Misses from the instruction and data micro TLBs are handled by a unified main TLB. This is a 1024 entry
	* 4-way set-associative structure. The main TLB supports all the VMSAv7 page sizes of 4K, 64K, 1MB and 16MB
	* in addition to the LPAE page sizes of 2MB and 1GB.
	*/
	break;
	case cpuinfo_uarch_cortex_a35:
	/*
	* ARM Cortex‑A35 Processor Technical Reference Manual:
	* A6.2 TLB Organization
	* Micro TLB
	* The first level of caching for the translation table information is a micro TLB of ten entries that
	* is implemented on each of the instruction and data sides.
	* Main TLB
	* A unified main TLB handles misses from the micro TLBs. It has a 512-entry, 2-way, set-associative
	* structure and supports all VMSAv8 block sizes, except 1GB. If it fetches a 1GB block, the TLB splits
	* it into 512MB blocks and stores the appropriate block for the lookup.
	*/
	break;
	case cpuinfo_uarch_cortex_a53:
	/*
	* ARM Cortex-A53 MPCore Processor Technical Reference Manual:
	* 5.2.1. Micro TLB
	* The first level of caching for the translation table information is a micro TLB of ten entries that is
	* implemented on each of the instruction and data sides.
	* 5.2.2. Main TLB
	* A unified main TLB handles misses from the micro TLBs. This is a 512-entry, 4-way, set-associative
	* structure. The main TLB supports all VMSAv8 block sizes, except 1GB. If a 1GB block is fetched, it is
	* split into 512MB blocks and the appropriate block for the lookup stored.
	*/
	break;
	case cpuinfo_uarch_cortex_a57:
	/*
	* ARM® Cortex-A57 MPCore Processor Technical Reference Manual:
	* 5.2.1 L1 instruction TLB
	* The L1 instruction TLB is a 48-entry fully-associative structure. This TLB caches entries of three
	* different page sizes, natively 4KB, 64KB, and 1MB, of VA to PA mappings. If the page tables map the memory
	* region to a larger granularity than 1MB, it only allocates one mapping for the particular 1MB region to
	* which the current access corresponds.
	* 5.2.2 L1 data TLB
	* The L1 data TLB is a 32-entry fully-associative TLB that is used for data loads and stores. This TLB
	* caches entries of three different page sizes, natively 4KB, 64KB, and 1MB, of VA to PA mappings.
	* 5.2.3 L2 TLB
	* Misses from the L1 instruction and data TLBs are handled by a unified L2 TLB. This is a 1024-entry 4-way
	* set-associative structure. The L2 TLB supports the page sizes of 4K, 64K, 1MB and 16MB. It also supports
	* page sizes of 2MB and 1GB for the long descriptor format translation in AArch32 state and in AArch64 state
	* when using the 4KB translation granule. In addition, the L2 TLB supports the 512MB page map size defined
	* for the AArch64 translations that use a 64KB translation granule.
	*/
	break;
	}