android_kernel_xiaomi_sm8350/arch/v850/kernel/v850e_cache.c

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/*
* arch/v850/kernel/v850e_cache.c -- Cache control for V850E cache memories
*
* Copyright (C) 2003 NEC Electronics Corporation
* Copyright (C) 2003 Miles Bader <miles@gnu.org>
*
* 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.
*
* Written by Miles Bader <miles@gnu.org>
*/
/* This file implements cache control for the rather simple cache used on
some V850E CPUs, specifically the NB85E/TEG CPU-core and the V850E/ME2
CPU. V850E2 processors have their own (better) cache
implementation. */
#include <asm/entry.h>
#include <asm/cacheflush.h>
#include <asm/v850e_cache.h>
#define WAIT_UNTIL_CLEAR(value) while (value) {}
/* Set caching params via the BHC and DCC registers. */
void v850e_cache_enable (u16 bhc, u16 icc, u16 dcc)
{
unsigned long *r0_ram = (unsigned long *)R0_RAM_ADDR;
register u16 bhc_val asm ("r6") = bhc;
/* Read the instruction cache control register (ICC) and confirm
that bits 0 and 1 (TCLR0, TCLR1) are all cleared. */
WAIT_UNTIL_CLEAR (V850E_CACHE_ICC & 0x3);
V850E_CACHE_ICC = icc;
#ifdef V850E_CACHE_DCC
/* Configure data-cache. */
V850E_CACHE_DCC = dcc;
#endif /* V850E_CACHE_DCC */
/* Configure caching for various memory regions by writing the BHC
register. The documentation says that an instruction _cannot_
enable/disable caching for the memory region in which the
instruction itself exists; to work around this, we store
appropriate instructions into the on-chip RAM area (which is never
cached), and briefly jump there to do the work. */
#ifdef V850E_CACHE_WRITE_IBS
*r0_ram++ = 0xf0720760; /* st.h r0, 0xfffff072[r0] */
#endif
*r0_ram++ = 0xf06a3760; /* st.h r6, 0xfffff06a[r0] */
*r0_ram = 0x5640006b; /* jmp [r11] */
asm ("mov hilo(1f), r11; jmp [%1]; 1:;"
:: "r" (bhc_val), "r" (R0_RAM_ADDR) : "r11");
}
static void clear_icache (void)
{
/* 1. Read the instruction cache control register (ICC) and confirm
that bits 0 and 1 (TCLR0, TCLR1) are all cleared. */
WAIT_UNTIL_CLEAR (V850E_CACHE_ICC & 0x3);
/* 2. Read the ICC register and confirm that bit 12 (LOCK0) is
cleared. Bit 13 of the ICC register is always cleared. */
WAIT_UNTIL_CLEAR (V850E_CACHE_ICC & 0x1000);
/* 3. Set the TCLR0 and TCLR1 bits of the ICC register as follows,
when clearing way 0 and way 1 at the same time:
(a) Set the TCLR0 and TCLR1 bits.
(b) Read the TCLR0 and TCLR1 bits to confirm that these bits
are cleared.
(c) Perform (a) and (b) above again. */
V850E_CACHE_ICC |= 0x3;
WAIT_UNTIL_CLEAR (V850E_CACHE_ICC & 0x3);
#ifdef V850E_CACHE_REPEAT_ICC_WRITE
/* Do it again. */
V850E_CACHE_ICC |= 0x3;
WAIT_UNTIL_CLEAR (V850E_CACHE_ICC & 0x3);
#endif
}
#ifdef V850E_CACHE_DCC
/* Flush or clear (or both) the data cache, depending on the value of FLAGS;
the procedure is the same for both, just the control bits used differ (and
both may be performed simultaneously). */
static void dcache_op (unsigned short flags)
{
/* 1. Read the data cache control register (DCC) and confirm that bits
0, 1, 4, and 5 (DC00, DC01, DC04, DC05) are all cleared. */
WAIT_UNTIL_CLEAR (V850E_CACHE_DCC & 0x33);
/* 2. Clear DCC register bit 12 (DC12), bit 13 (DC13), or both
depending on the way for which tags are to be cleared. */
V850E_CACHE_DCC &= ~0xC000;
/* 3. Set DCC register bit 0 (DC00), bit 1 (DC01) or both depending on
the way for which tags are to be cleared.
...
Set DCC register bit 4 (DC04), bit 5 (DC05), or both depending
on the way to be data flushed. */
V850E_CACHE_DCC |= flags;
/* 4. Read DCC register bit DC00, DC01 [DC04, DC05], or both depending
on the way for which tags were cleared [flushed] and confirm
that that bit is cleared. */
WAIT_UNTIL_CLEAR (V850E_CACHE_DCC & flags);
}
#endif /* V850E_CACHE_DCC */
/* Flushes the contents of the dcache to memory. */
static inline void flush_dcache (void)
{
#ifdef V850E_CACHE_DCC
/* We only need to do something if in write-back mode. */
if (V850E_CACHE_DCC & 0x0400)
dcache_op (0x30);
#endif /* V850E_CACHE_DCC */
}
/* Flushes the contents of the dcache to memory, and then clears it. */
static inline void clear_dcache (void)
{
#ifdef V850E_CACHE_DCC
/* We only need to do something if the dcache is enabled. */
if (V850E_CACHE_DCC & 0x0C00)
dcache_op (0x33);
#endif /* V850E_CACHE_DCC */
}
/* Clears the dcache without flushing to memory first. */
static inline void clear_dcache_no_flush (void)
{
#ifdef V850E_CACHE_DCC
/* We only need to do something if the dcache is enabled. */
if (V850E_CACHE_DCC & 0x0C00)
dcache_op (0x3);
#endif /* V850E_CACHE_DCC */
}
static inline void cache_exec_after_store (void)
{
flush_dcache ();
clear_icache ();
}
/* Exported functions. */
void flush_icache (void)
{
cache_exec_after_store ();
}
void flush_icache_range (unsigned long start, unsigned long end)
{
cache_exec_after_store ();
}
void flush_icache_page (struct vm_area_struct *vma, struct page *page)
{
cache_exec_after_store ();
}
void flush_icache_user_range (struct vm_area_struct *vma, struct page *page,
unsigned long adr, int len)
{
cache_exec_after_store ();
}
void flush_cache_sigtramp (unsigned long addr)
{
cache_exec_after_store ();
}