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MIPS: Abstract cache op loops with a macro 

The various cache maintenance routines perform a number of loops over
cache lines. Rather than duplicate the code for performing such loops,
abstract it out into a new cache_loop macro which performs an arbitrary
number of cache ops on a range of addresses. This reduces duplication in
the existing L1 cache maintenance code & will allow for not adding
further duplication when introducing L2 cache support.

Signed-off-by: Paul Burton <paul.burton@imgtec.com>
This commit is contained in:
Paul Burton 2016-05-27 14:28:06 +01:00 committed by Daniel Schwierzeck
parent 372286217f
commit fb64cda579
1 changed files with 18 additions and 41 deletions
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59
arch/mips/lib/cache.c
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@ -37,82 +37,59 @@ static inline unsigned long dcache_line_size(void)
return 2 << dl;
}
#define cache_loop(start, end, lsize, ops...) do { \
const void *addr = (const void *)(start & ~(lsize - 1)); \
const void *aend = (const void *)((end - 1) & ~(lsize - 1)); \
const unsigned int cache_ops[] = { ops }; \
unsigned int i; \
\
for (; addr <= aend; addr += lsize) { \
for (i = 0; i < ARRAY_SIZE(cache_ops); i++) \
mips_cache(cache_ops[i], addr); \
} \
} while (0)
void flush_cache(ulong start_addr, ulong size)
{
unsigned long ilsize = icache_line_size();
unsigned long dlsize = dcache_line_size();
const void *addr, *aend;
/* aend will be miscalculated when size is zero, so we return here */
if (size == 0)
return;
addr = (const void *)(start_addr & ~(dlsize - 1));
aend = (const void *)((start_addr + size - 1) & ~(dlsize - 1));
if (ilsize == dlsize) {
/* flush I-cache & D-cache simultaneously */
while (1) {
mips_cache(HIT_WRITEBACK_INV_D, addr);
mips_cache(HIT_INVALIDATE_I, addr);
if (addr == aend)
break;
addr += dlsize;
}
cache_loop(start_addr, start_addr + size, ilsize,
HIT_WRITEBACK_INV_D, HIT_INVALIDATE_I);
return;
}
/* flush D-cache */
while (1) {
mips_cache(HIT_WRITEBACK_INV_D, addr);
if (addr == aend)
break;
addr += dlsize;
}
cache_loop(start_addr, start_addr + size, dlsize, HIT_WRITEBACK_INV_D);
/* flush I-cache */
addr = (const void *)(start_addr & ~(ilsize - 1));
aend = (const void *)((start_addr + size - 1) & ~(ilsize - 1));
while (1) {
mips_cache(HIT_INVALIDATE_I, addr);
if (addr == aend)
break;
addr += ilsize;
}
cache_loop(start_addr, start_addr + size, ilsize, HIT_INVALIDATE_I);
}
void flush_dcache_range(ulong start_addr, ulong stop)
{
unsigned long lsize = dcache_line_size();
const void *addr = (const void *)(start_addr & ~(lsize - 1));
const void *aend = (const void *)((stop - 1) & ~(lsize - 1));
/* aend will be miscalculated when size is zero, so we return here */
if (start_addr == stop)
return;
while (1) {
mips_cache(HIT_WRITEBACK_INV_D, addr);
if (addr == aend)
break;
addr += lsize;
}
cache_loop(start_addr, stop, lsize, HIT_WRITEBACK_INV_D);
}
void invalidate_dcache_range(ulong start_addr, ulong stop)
{
unsigned long lsize = dcache_line_size();
const void *addr = (const void *)(start_addr & ~(lsize - 1));
const void *aend = (const void *)((stop - 1) & ~(lsize - 1));
/* aend will be miscalculated when size is zero, so we return here */
if (start_addr == stop)
return;
while (1) {
mips_cache(HIT_INVALIDATE_D, addr);
if (addr == aend)
break;
addr += lsize;
}
cache_loop(start_addr, stop, lsize, HIT_INVALIDATE_I);
}