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/*
* Meta cache partition manipulation.
*
* Copyright 2010 Imagination Technologies Ltd.
*/
#include <linux/kernel.h>
#include <linux/io.h>
#include <linux/errno.h>
#include <asm/processor.h>
#include <asm/cachepart.h>
#include <asm/metag_isa.h>
#include <asm/metag_mem.h>
#define SYSC_DCPART(n) (SYSC_DCPART0 + SYSC_xCPARTn_STRIDE * (n))
#define SYSC_ICPART(n) (SYSC_ICPART0 + SYSC_xCPARTn_STRIDE * (n))
#define CACHE_ASSOCIATIVITY 4 /* 4 way set-associative */
#define ICACHE 0
#define DCACHE 1
/* The CORE_CONFIG2 register is not available on Meta 1 */
#ifdef CONFIG_METAG_META21
unsigned int get_dcache_size(void)
{
unsigned int config2 = metag_in32(METAC_CORE_CONFIG2);
unsigned int sz = 0x1000 << ((config2 & METAC_CORECFG2_DCSZ_BITS)
>> METAC_CORECFG2_DCSZ_S);
if (config2 & METAC_CORECFG2_DCSMALL_BIT)
sz >>= 6;
return sz;
}
unsigned int get_icache_size(void)
{
unsigned int config2 = metag_in32(METAC_CORE_CONFIG2);
unsigned int sz = 0x1000 << ((config2 & METAC_CORE_C2ICSZ_BITS)
>> METAC_CORE_C2ICSZ_S);
if (config2 & METAC_CORECFG2_ICSMALL_BIT)
sz >>= 6;
return sz;
}
unsigned int get_global_dcache_size(void)
{
unsigned int cpart = metag_in32(SYSC_DCPART(hard_processor_id()));
unsigned int temp = cpart & SYSC_xCPARTG_AND_BITS;
return (get_dcache_size() * ((temp >> SYSC_xCPARTG_AND_S) + 1)) >> 4;
}
unsigned int get_global_icache_size(void)
{
unsigned int cpart = metag_in32(SYSC_ICPART(hard_processor_id()));
unsigned int temp = cpart & SYSC_xCPARTG_AND_BITS;
return (get_icache_size() * ((temp >> SYSC_xCPARTG_AND_S) + 1)) >> 4;
}
static int get_thread_cache_size(unsigned int cache, int thread_id)
{
unsigned int cache_size;
unsigned int t_cache_part;
unsigned int isEnabled;
unsigned int offset = 0;
isEnabled = (cache == DCACHE ? metag_in32(MMCU_DCACHE_CTRL_ADDR) & 0x1 :
metag_in32(MMCU_ICACHE_CTRL_ADDR) & 0x1);
if (!isEnabled)
return 0;
#if PAGE_OFFSET >= LINGLOBAL_BASE
/* Checking for global cache */
cache_size = (cache == DCACHE ? get_global_dcache_size() :
get_global_icache_size());
offset = 8;
#else
cache_size = (cache == DCACHE ? get_dcache_size() :
get_icache_size());
#endif
t_cache_part = (cache == DCACHE ?
(metag_in32(SYSC_DCPART(thread_id)) >> offset) & 0xF :
(metag_in32(SYSC_ICPART(thread_id)) >> offset) & 0xF);
switch (t_cache_part) {
case 0xF:
return cache_size;
case 0x7:
return cache_size / 2;
case 0x3:
return cache_size / 4;
case 0x1:
return cache_size / 8;
case 0:
return cache_size / 16;
}
return -1;
}
void check_for_cache_aliasing(int thread_id)
{
int thread_cache_size;
unsigned int cache_type;
for (cache_type = ICACHE; cache_type <= DCACHE; cache_type++) {
thread_cache_size =
get_thread_cache_size(cache_type, thread_id);
if (thread_cache_size < 0)
pr_emerg("Can't read %s cache size\n",
cache_type ? "DCACHE" : "ICACHE");
else if (thread_cache_size == 0)
/* Cache is off. No need to check for aliasing */
continue;
if (thread_cache_size / CACHE_ASSOCIATIVITY > PAGE_SIZE) {
pr_emerg("Potential cache aliasing detected in %s on Thread %d\n",
cache_type ? "DCACHE" : "ICACHE", thread_id);
pr_warn("Total %s size: %u bytes\n",
cache_type ? "DCACHE" : "ICACHE",
cache_type ? get_dcache_size()
: get_icache_size());
pr_warn("Thread %s size: %d bytes\n",
cache_type ? "CACHE" : "ICACHE",
thread_cache_size);
pr_warn("Page Size: %lu bytes\n", PAGE_SIZE);
panic("Potential cache aliasing detected");
}
}
}
#else
void check_for_cache_aliasing(int thread_id)
{
return;
}
#endif
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