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Diffstat (limited to 'c/src/exec/rtems/src/cache.c')
-rw-r--r-- | c/src/exec/rtems/src/cache.c | 252 |
1 files changed, 252 insertions, 0 deletions
diff --git a/c/src/exec/rtems/src/cache.c b/c/src/exec/rtems/src/cache.c new file mode 100644 index 0000000000..82d6410a92 --- /dev/null +++ b/c/src/exec/rtems/src/cache.c @@ -0,0 +1,252 @@ +/* cache.c + * + * Cache Manager + * + * COPYRIGHT (c) 1989-1999. + * On-Line Applications Research Corporation (OAR). + * + * The license and distribution terms for this file may be + * found in the file LICENSE in this distribution or at + * http://www.OARcorp.com/rtems/license.html. + * + * + * The functions in this file define the API to the RTEMS Cache Manager and + * are divided into data cache and instruction cache functions. Data cache + * functions are only declared if a data cache is supported. Instruction + * cache functions are only declared if an instruction cache is supported. + * Support for a particular cache exists only if _CPU_x_CACHE_ALIGNMENT is + * defined, where x E {DATA, INST}. These definitions are found in the CPU + * dependent source files in the supercore, often + * + * rtems/c/src/exec/score/cpu/CPU/rtems/score/CPU.h + * + * The functions below are implemented with CPU dependent inline routines + * also found in the above file. In the event that a CPU does not support a + * specific function, the CPU dependent routine does nothing (but does exist). + * + * At this point, the Cache Manager makes no considerations, and provides no + * support for BSP specific issues such as a secondary cache. In such a system, + * the CPU dependent routines would have to be modified, or a BSP layer added + * to this Manager. + */ + +#include <rtems/system.h> +#include <sys/types.h> +#include <rtems/rtems/cache.h> + + +/* + * THESE FUNCTIONS ONLY EXIST IF WE HAVE A DATA CACHE + */ +#if defined(_CPU_DATA_CACHE_ALIGNMENT) + +/* + * This function is called to flush the data cache by performing cache + * copybacks. It must determine how many cache lines need to be copied + * back and then perform the copybacks. + */ +void +rtems_flush_multiple_data_cache_lines( const void * d_addr, size_t n_bytes ) +{ + const void * final_address; + /* + * Set d_addr to the beginning of the cache line; final_address indicates + * the last address_t which needs to be pushed. Increment d_addr and push + * the resulting line until final_address is passed. + */ + final_address = (void *)((size_t)d_addr + n_bytes - 1); + d_addr = (void *)((size_t)d_addr & ~(_CPU_DATA_CACHE_ALIGNMENT - 1)); + while( d_addr <= final_address ) { + _CPU_flush_1_data_cache_line( d_addr ); + d_addr = (void *)((size_t)d_addr + _CPU_DATA_CACHE_ALIGNMENT); + } +} + + +/* + * This function is responsible for performing a data cache invalidate. + * It must determine how many cache lines need to be invalidated and then + * perform the invalidations. + */ +void +rtems_invalidate_multiple_data_cache_lines( const void * d_addr, size_t n_bytes ) +{ + const void * final_address; + /* + * Set d_addr to the beginning of the cache line; final_address indicates + * the last address_t which needs to be invalidated. Increment d_addr and + * invalidate the resulting line until final_address is passed. + */ + final_address = (void *)((size_t)d_addr + n_bytes - 1); + d_addr = (void *)((size_t)d_addr & ~(_CPU_DATA_CACHE_ALIGNMENT - 1)); + while( final_address > d_addr ) { + _CPU_invalidate_1_data_cache_line( d_addr ); + d_addr = (void *)((size_t)d_addr + _CPU_DATA_CACHE_ALIGNMENT); + } +} + + +/* + * This function is responsible for performing a data cache flush. + * It flushes the entire cache. + */ +void +rtems_flush_entire_data_cache( void ) +{ + /* + * Call the CPU-specific routine + */ + _CPU_flush_entire_data_cache(); + +} + + +/* + * This function is responsible for performing a data cache + * invalidate. It invalidates the entire cache. + */ +void +rtems_invalidate_entire_data_cache( void ) +{ + /* + * Call the CPU-specific routine + */ + _CPU_invalidate_entire_data_cache(); +} + + +/* + * This function returns the data cache granularity. + */ +int +rtems_get_data_cache_line_size( void ) +{ + return _CPU_DATA_CACHE_ALIGNMENT; +} + + +/* + * This function freezes the data cache; cache lines + * are not replaced. + */ +void +rtems_freeze_data_cache( void ) +{ + _CPU_freeze_data_cache(); +} + + +/* + * This function unfreezes the instruction cache. + */ +void rtems_unfreeze_data_cache( void ) +{ + _CPU_unfreeze_data_cache(); +} + + +/* Turn on the data cache. */ +void +rtems_enable_data_cache( void ) +{ + _CPU_enable_data_cache(); +} + + +/* Turn off the data cache. */ +void +rtems_disable_data_cache( void ) +{ + _CPU_disable_data_cache(); +} +#endif + + + +/* + * THESE FUNCTIONS ONLY EXIST IF WE HAVE AN INSTRUCTION CACHE + */ +#if defined(_CPU_INST_CACHE_ALIGNMENT) + +/* + * This function is responsible for performing an instruction cache + * invalidate. It must determine how many cache lines need to be invalidated + * and then perform the invalidations. + */ +void +rtems_invalidate_multiple_inst_cache_lines( const void * i_addr, size_t n_bytes ) +{ + const void * final_address; + /* + * Set i_addr to the beginning of the cache line; final_address indicates + * the last address_t which needs to be invalidated. Increment i_addr and + * invalidate the resulting line until final_address is passed. + */ + final_address = (void *)((size_t)i_addr + n_bytes - 1); + i_addr = (void *)((size_t)i_addr & ~(_CPU_INST_CACHE_ALIGNMENT - 1)); + while( final_address > i_addr ) { + _CPU_invalidate_1_inst_cache_line( i_addr ); + i_addr = (void *)((size_t)i_addr + _CPU_INST_CACHE_ALIGNMENT); + } +} + + +/* + * This function is responsible for performing an instruction cache + * invalidate. It invalidates the entire cache. + */ +void +rtems_invalidate_entire_inst_cache( void ) +{ + /* + * Call the CPU-specific routine + */ + _CPU_invalidate_entire_inst_cache(); +} + + +/* + * This function returns the instruction cache granularity. + */ +int +rtems_get_inst_cache_line_size( void ) +{ + return _CPU_INST_CACHE_ALIGNMENT; +} + + +/* + * This function freezes the instruction cache; cache lines + * are not replaced. + */ +void +rtems_freeze_inst_cache( void ) +{ + _CPU_freeze_inst_cache(); +} + + +/* + * This function unfreezes the instruction cache. + */ +void rtems_unfreeze_inst_cache( void ) +{ + _CPU_unfreeze_inst_cache(); +} + + +/* Turn on the instruction cache. */ +void +rtems_enable_inst_cache( void ) +{ + _CPU_enable_inst_cache(); +} + + +/* Turn off the instruction cache. */ +void +rtems_disable_inst_cache( void ) +{ + _CPU_disable_inst_cache(); +} +#endif |