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kernel_samsung_sm7125/arch/xtensa/mm/tlb.c

546 lines
15 KiB

/*
* arch/xtensa/mm/mmu.c
*
* Logic that manipulates the Xtensa MMU. Derived from MIPS.
*
* This file is subject to the terms and conditions of the GNU General Public
* License. See the file "COPYING" in the main directory of this archive
* for more details.
*
* Copyright (C) 2001 - 2003 Tensilica Inc.
*
* Joe Taylor
* Chris Zankel <chris@zankel.net>
* Marc Gauthier
*/
#include <linux/mm.h>
#include <asm/processor.h>
#include <asm/mmu_context.h>
#include <asm/tlbflush.h>
#include <asm/system.h>
#include <asm/cacheflush.h>
static inline void __flush_itlb_all (void)
{
int way, index;
for (way = 0; way < XCHAL_ITLB_ARF_WAYS; way++) {
for (index = 0; index < ITLB_ENTRIES_PER_ARF_WAY; index++) {
int entry = way + (index << PAGE_SHIFT);
invalidate_itlb_entry_no_isync (entry);
}
}
asm volatile ("isync\n");
}
static inline void __flush_dtlb_all (void)
{
int way, index;
for (way = 0; way < XCHAL_DTLB_ARF_WAYS; way++) {
for (index = 0; index < DTLB_ENTRIES_PER_ARF_WAY; index++) {
int entry = way + (index << PAGE_SHIFT);
invalidate_dtlb_entry_no_isync (entry);
}
}
asm volatile ("isync\n");
}
void flush_tlb_all (void)
{
__flush_itlb_all();
__flush_dtlb_all();
}
/* If mm is current, we simply assign the current task a new ASID, thus,
* invalidating all previous tlb entries. If mm is someone else's user mapping,
* wie invalidate the context, thus, when that user mapping is swapped in,
* a new context will be assigned to it.
*/
void flush_tlb_mm(struct mm_struct *mm)
{
#if 0
printk("[tlbmm<%lx>]\n", (unsigned long)mm->context);
#endif
if (mm == current->active_mm) {
int flags;
local_save_flags(flags);
get_new_mmu_context(mm, asid_cache);
set_rasid_register(ASID_INSERT(mm->context));
local_irq_restore(flags);
}
else
mm->context = 0;
}
void flush_tlb_range (struct vm_area_struct *vma,
unsigned long start, unsigned long end)
{
struct mm_struct *mm = vma->vm_mm;
unsigned long flags;
if (mm->context == NO_CONTEXT)
return;
#if 0
printk("[tlbrange<%02lx,%08lx,%08lx>]\n",
(unsigned long)mm->context, start, end);
#endif
local_save_flags(flags);
if (end-start + (PAGE_SIZE-1) <= SMALLEST_NTLB_ENTRIES << PAGE_SHIFT) {
int oldpid = get_rasid_register();
set_rasid_register (ASID_INSERT(mm->context));
start &= PAGE_MASK;
if (vma->vm_flags & VM_EXEC)
while(start < end) {
invalidate_itlb_mapping(start);
invalidate_dtlb_mapping(start);
start += PAGE_SIZE;
}
else
while(start < end) {
invalidate_dtlb_mapping(start);
start += PAGE_SIZE;
}
set_rasid_register(oldpid);
} else {
get_new_mmu_context(mm, asid_cache);
if (mm == current->active_mm)
set_rasid_register(ASID_INSERT(mm->context));
}
local_irq_restore(flags);
}
void flush_tlb_page (struct vm_area_struct *vma, unsigned long page)
{
struct mm_struct* mm = vma->vm_mm;
unsigned long flags;
int oldpid;
#if 0
printk("[tlbpage<%02lx,%08lx>]\n",
(unsigned long)mm->context, page);
#endif
if(mm->context == NO_CONTEXT)
return;
local_save_flags(flags);
oldpid = get_rasid_register();
if (vma->vm_flags & VM_EXEC)
invalidate_itlb_mapping(page);
invalidate_dtlb_mapping(page);
set_rasid_register(oldpid);
local_irq_restore(flags);
#if 0
flush_tlb_all();
return;
#endif
}
#ifdef DEBUG_TLB
#define USE_ITLB 0
#define USE_DTLB 1
struct way_config_t {
int indicies;
int indicies_log2;
int pgsz_log2;
int arf;
};
static struct way_config_t itlb[XCHAL_ITLB_WAYS] =
{
{ XCHAL_ITLB_SET(XCHAL_ITLB_WAY0_SET, ENTRIES),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY0_SET, ENTRIES_LOG2),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY0_SET, PAGESZ_LOG2_MIN),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY0_SET, ARF)
},
{ XCHAL_ITLB_SET(XCHAL_ITLB_WAY1_SET, ENTRIES),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY1_SET, ENTRIES_LOG2),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY1_SET, PAGESZ_LOG2_MIN),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY1_SET, ARF)
},
{ XCHAL_ITLB_SET(XCHAL_ITLB_WAY2_SET, ENTRIES),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY2_SET, ENTRIES_LOG2),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY2_SET, PAGESZ_LOG2_MIN),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY2_SET, ARF)
},
{ XCHAL_ITLB_SET(XCHAL_ITLB_WAY3_SET, ENTRIES),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY3_SET, ENTRIES_LOG2),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY3_SET, PAGESZ_LOG2_MIN),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY3_SET, ARF)
},
{ XCHAL_ITLB_SET(XCHAL_ITLB_WAY4_SET, ENTRIES),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY4_SET, ENTRIES_LOG2),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY4_SET, PAGESZ_LOG2_MIN),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY4_SET, ARF)
},
{ XCHAL_ITLB_SET(XCHAL_ITLB_WAY5_SET, ENTRIES),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY5_SET, ENTRIES_LOG2),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY5_SET, PAGESZ_LOG2_MIN),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY5_SET, ARF)
},
{ XCHAL_ITLB_SET(XCHAL_ITLB_WAY6_SET, ENTRIES),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY6_SET, ENTRIES_LOG2),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY6_SET, PAGESZ_LOG2_MIN),
XCHAL_ITLB_SET(XCHAL_ITLB_WAY6_SET, ARF)
}
};
static struct way_config_t dtlb[XCHAL_DTLB_WAYS] =
{
{ XCHAL_DTLB_SET(XCHAL_DTLB_WAY0_SET, ENTRIES),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY0_SET, ENTRIES_LOG2),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY0_SET, PAGESZ_LOG2_MIN),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY0_SET, ARF)
},
{ XCHAL_DTLB_SET(XCHAL_DTLB_WAY1_SET, ENTRIES),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY1_SET, ENTRIES_LOG2),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY1_SET, PAGESZ_LOG2_MIN),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY1_SET, ARF)
},
{ XCHAL_DTLB_SET(XCHAL_DTLB_WAY2_SET, ENTRIES),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY2_SET, ENTRIES_LOG2),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY2_SET, PAGESZ_LOG2_MIN),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY2_SET, ARF)
},
{ XCHAL_DTLB_SET(XCHAL_DTLB_WAY3_SET, ENTRIES),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY3_SET, ENTRIES_LOG2),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY3_SET, PAGESZ_LOG2_MIN),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY3_SET, ARF)
},
{ XCHAL_DTLB_SET(XCHAL_DTLB_WAY4_SET, ENTRIES),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY4_SET, ENTRIES_LOG2),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY4_SET, PAGESZ_LOG2_MIN),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY4_SET, ARF)
},
{ XCHAL_DTLB_SET(XCHAL_DTLB_WAY5_SET, ENTRIES),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY5_SET, ENTRIES_LOG2),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY5_SET, PAGESZ_LOG2_MIN),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY5_SET, ARF)
},
{ XCHAL_DTLB_SET(XCHAL_DTLB_WAY6_SET, ENTRIES),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY6_SET, ENTRIES_LOG2),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY6_SET, PAGESZ_LOG2_MIN),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY6_SET, ARF)
},
{ XCHAL_DTLB_SET(XCHAL_DTLB_WAY7_SET, ENTRIES),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY7_SET, ENTRIES_LOG2),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY7_SET, PAGESZ_LOG2_MIN),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY7_SET, ARF)
},
{ XCHAL_DTLB_SET(XCHAL_DTLB_WAY8_SET, ENTRIES),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY8_SET, ENTRIES_LOG2),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY8_SET, PAGESZ_LOG2_MIN),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY8_SET, ARF)
},
{ XCHAL_DTLB_SET(XCHAL_DTLB_WAY9_SET, ENTRIES),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY9_SET, ENTRIES_LOG2),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY9_SET, PAGESZ_LOG2_MIN),
XCHAL_DTLB_SET(XCHAL_DTLB_WAY9_SET, ARF)
}
};
/* Total number of entries: */
#define ITLB_TOTAL_ENTRIES \
XCHAL_ITLB_SET(XCHAL_ITLB_WAY0_SET, ENTRIES) + \
XCHAL_ITLB_SET(XCHAL_ITLB_WAY1_SET, ENTRIES) + \
XCHAL_ITLB_SET(XCHAL_ITLB_WAY2_SET, ENTRIES) + \
XCHAL_ITLB_SET(XCHAL_ITLB_WAY3_SET, ENTRIES) + \
XCHAL_ITLB_SET(XCHAL_ITLB_WAY4_SET, ENTRIES) + \
XCHAL_ITLB_SET(XCHAL_ITLB_WAY5_SET, ENTRIES) + \
XCHAL_ITLB_SET(XCHAL_ITLB_WAY6_SET, ENTRIES)
#define DTLB_TOTAL_ENTRIES \
XCHAL_DTLB_SET(XCHAL_DTLB_WAY0_SET, ENTRIES) + \
XCHAL_DTLB_SET(XCHAL_DTLB_WAY1_SET, ENTRIES) + \
XCHAL_DTLB_SET(XCHAL_DTLB_WAY2_SET, ENTRIES) + \
XCHAL_DTLB_SET(XCHAL_DTLB_WAY3_SET, ENTRIES) + \
XCHAL_DTLB_SET(XCHAL_DTLB_WAY4_SET, ENTRIES) + \
XCHAL_DTLB_SET(XCHAL_DTLB_WAY5_SET, ENTRIES) + \
XCHAL_DTLB_SET(XCHAL_DTLB_WAY6_SET, ENTRIES) + \
XCHAL_DTLB_SET(XCHAL_DTLB_WAY7_SET, ENTRIES) + \
XCHAL_DTLB_SET(XCHAL_DTLB_WAY8_SET, ENTRIES) + \
XCHAL_DTLB_SET(XCHAL_DTLB_WAY9_SET, ENTRIES)
typedef struct {
unsigned va;
unsigned pa;
unsigned char asid;
unsigned char ca;
unsigned char way;
unsigned char index;
unsigned char pgsz_log2; /* 0 .. 32 */
unsigned char type; /* 0=ITLB 1=DTLB */
} tlb_dump_entry_t;
/* Return -1 if a precedes b, +1 if a follows b, 0 if same: */
int cmp_tlb_dump_info( tlb_dump_entry_t *a, tlb_dump_entry_t *b )
{
if (a->asid < b->asid) return -1;
if (a->asid > b->asid) return 1;
if (a->va < b->va) return -1;
if (a->va > b->va) return 1;
if (a->pa < b->pa) return -1;
if (a->pa > b->pa) return 1;
if (a->ca < b->ca) return -1;
if (a->ca > b->ca) return 1;
if (a->way < b->way) return -1;
if (a->way > b->way) return 1;
if (a->index < b->index) return -1;
if (a->index > b->index) return 1;
return 0;
}
void sort_tlb_dump_info( tlb_dump_entry_t *t, int n )
{
int i, j;
/* Simple O(n*n) sort: */
for (i = 0; i < n-1; i++)
for (j = i+1; j < n; j++)
if (cmp_tlb_dump_info(t+i, t+j) > 0) {
tlb_dump_entry_t tmp = t[i];
t[i] = t[j];
t[j] = tmp;
}
}
static tlb_dump_entry_t itlb_dump_info[ITLB_TOTAL_ENTRIES];
static tlb_dump_entry_t dtlb_dump_info[DTLB_TOTAL_ENTRIES];
static inline char *way_type (int type)
{
return type ? "autorefill" : "non-autorefill";
}
void print_entry (struct way_config_t *way_info,
unsigned int way,
unsigned int index,
unsigned int virtual,
unsigned int translation)
{
char valid_chr;
unsigned int va, pa, asid, ca;
va = virtual &
~((1 << (way_info->pgsz_log2 + way_info->indicies_log2)) - 1);
asid = virtual & ((1 << XCHAL_MMU_ASID_BITS) - 1);
pa = translation & ~((1 << way_info->pgsz_log2) - 1);
ca = translation & ((1 << XCHAL_MMU_CA_BITS) - 1);
valid_chr = asid ? 'V' : 'I';
/* Compute and incorporate the effect of the index bits on the
* va. It's more useful for kernel debugging, since we always
* want to know the effective va anyway. */
va += index << way_info->pgsz_log2;
printk ("\t[%d,%d] (%c) vpn 0x%.8x ppn 0x%.8x asid 0x%.2x am 0x%x\n",
way, index, valid_chr, va, pa, asid, ca);
}
void print_itlb_entry (struct way_config_t *way_info, int way, int index)
{
print_entry (way_info, way, index,
read_itlb_virtual (way + (index << way_info->pgsz_log2)),
read_itlb_translation (way + (index << way_info->pgsz_log2)));
}
void print_dtlb_entry (struct way_config_t *way_info, int way, int index)
{
print_entry (way_info, way, index,
read_dtlb_virtual (way + (index << way_info->pgsz_log2)),
read_dtlb_translation (way + (index << way_info->pgsz_log2)));
}
void dump_itlb (void)
{
int way, index;
printk ("\nITLB: ways = %d\n", XCHAL_ITLB_WAYS);
for (way = 0; way < XCHAL_ITLB_WAYS; way++) {
printk ("\nWay: %d, Entries: %d, MinPageSize: %d, Type: %s\n",
way, itlb[way].indicies,
itlb[way].pgsz_log2, way_type(itlb[way].arf));
for (index = 0; index < itlb[way].indicies; index++) {
print_itlb_entry(&itlb[way], way, index);
}
}
}
void dump_dtlb (void)
{
int way, index;
printk ("\nDTLB: ways = %d\n", XCHAL_DTLB_WAYS);
for (way = 0; way < XCHAL_DTLB_WAYS; way++) {
printk ("\nWay: %d, Entries: %d, MinPageSize: %d, Type: %s\n",
way, dtlb[way].indicies,
dtlb[way].pgsz_log2, way_type(dtlb[way].arf));
for (index = 0; index < dtlb[way].indicies; index++) {
print_dtlb_entry(&dtlb[way], way, index);
}
}
}
void dump_tlb (tlb_dump_entry_t *tinfo, struct way_config_t *config,
int entries, int ways, int type, int show_invalid)
{
tlb_dump_entry_t *e = tinfo;
int way, i;
/* Gather all info: */
for (way = 0; way < ways; way++) {
struct way_config_t *cfg = config + way;
for (i = 0; i < cfg->indicies; i++) {
unsigned wayindex = way + (i << cfg->pgsz_log2);
unsigned vv = (type ? read_dtlb_virtual (wayindex)
: read_itlb_virtual (wayindex));
unsigned pp = (type ? read_dtlb_translation (wayindex)
: read_itlb_translation (wayindex));
/* Compute and incorporate the effect of the index bits on the
* va. It's more useful for kernel debugging, since we always
* want to know the effective va anyway. */
e->va = (vv & ~((1 << (cfg->pgsz_log2 + cfg->indicies_log2)) - 1));
e->va += (i << cfg->pgsz_log2);
e->pa = (pp & ~((1 << cfg->pgsz_log2) - 1));
e->asid = (vv & ((1 << XCHAL_MMU_ASID_BITS) - 1));
e->ca = (pp & ((1 << XCHAL_MMU_CA_BITS) - 1));
e->way = way;
e->index = i;
e->pgsz_log2 = cfg->pgsz_log2;
e->type = type;
e++;
}
}
#if 1
/* Sort by ASID and VADDR: */
sort_tlb_dump_info (tinfo, entries);
#endif
/* Display all sorted info: */
printk ("\n%cTLB dump:\n", (type ? 'D' : 'I'));
for (e = tinfo, i = 0; i < entries; i++, e++) {
#if 0
if (e->asid == 0 && !show_invalid)
continue;
#endif
printk ("%c way=%d i=%d ASID=%02X V=%08X -> P=%08X CA=%X (%d %cB)\n",
(e->type ? 'D' : 'I'), e->way, e->index,
e->asid, e->va, e->pa, e->ca,
(1 << (e->pgsz_log2 % 10)),
" kMG"[e->pgsz_log2 / 10]
);
}
}
void dump_tlbs2 (int showinv)
{
dump_tlb (itlb_dump_info, itlb, ITLB_TOTAL_ENTRIES, XCHAL_ITLB_WAYS, 0, showinv);
dump_tlb (dtlb_dump_info, dtlb, DTLB_TOTAL_ENTRIES, XCHAL_DTLB_WAYS, 1, showinv);
}
void dump_all_tlbs (void)
{
dump_tlbs2 (1);
}
void dump_valid_tlbs (void)
{
dump_tlbs2 (0);
}
void dump_tlbs (void)
{
dump_itlb();
dump_dtlb();
}
void dump_cache_tag(int dcache, int idx)
{
int w, i, s, e;
unsigned long tag, index;
unsigned long num_lines, num_ways, cache_size, line_size;
num_ways = dcache ? XCHAL_DCACHE_WAYS : XCHAL_ICACHE_WAYS;
cache_size = dcache ? XCHAL_DCACHE_SIZE : XCHAL_ICACHE_SIZE;
line_size = dcache ? XCHAL_DCACHE_LINESIZE : XCHAL_ICACHE_LINESIZE;
num_lines = cache_size / num_ways;
s = 0; e = num_lines;
if (idx >= 0)
e = (s = idx * line_size) + 1;
for (i = s; i < e; i+= line_size) {
printk("\nline %#08x:", i);
for (w = 0; w < num_ways; w++) {
index = w * num_lines + i;
if (dcache)
__asm__ __volatile__("ldct %0, %1\n\t"
: "=a"(tag) : "a"(index));
else
__asm__ __volatile__("lict %0, %1\n\t"
: "=a"(tag) : "a"(index));
printk(" %#010lx", tag);
}
}
printk ("\n");
}
void dump_icache(int index)
{
unsigned long data, addr;
int w, i;
const unsigned long num_ways = XCHAL_ICACHE_WAYS;
const unsigned long cache_size = XCHAL_ICACHE_SIZE;
const unsigned long line_size = XCHAL_ICACHE_LINESIZE;
const unsigned long num_lines = cache_size / num_ways / line_size;
for (w = 0; w < num_ways; w++) {
printk ("\nWay %d", w);
for (i = 0; i < line_size; i+= 4) {
addr = w * num_lines + index * line_size + i;
__asm__ __volatile__("licw %0, %1\n\t"
: "=a"(data) : "a"(addr));
printk(" %#010lx", data);
}
}
printk ("\n");
}
void dump_cache_tags(void)
{
printk("Instruction cache\n");
dump_cache_tag(0, -1);
printk("Data cache\n");
dump_cache_tag(1, -1);
}
#endif