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* hw_mmu.c
*
* DSP-BIOS Bridge driver support functions for TI OMAP processors.
*
* API definitions to setup MMU TLB and PTE
*
* Copyright (C) 2007 Texas Instruments, Inc.
*
* This package is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* THIS PACKAGE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED
* WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE.
*/
#include <linux/io.h>
#include "MMURegAcM.h"
#include <hw_defs.h>
#include <hw_mmu.h>
#include <linux/types.h>
#include <linux/err.h>
#define MMU_BASE_VAL_MASK 0xFC00
#define MMU_PAGE_MAX 3
#define MMU_ELEMENTSIZE_MAX 3
#define MMU_ADDR_MASK 0xFFFFF000
#define MMU_TTB_MASK 0xFFFFC000
#define MMU_SECTION_ADDR_MASK 0xFFF00000
#define MMU_SSECTION_ADDR_MASK 0xFF000000
#define MMU_PAGE_TABLE_MASK 0xFFFFFC00
#define MMU_LARGE_PAGE_MASK 0xFFFF0000
#define MMU_SMALL_PAGE_MASK 0xFFFFF000
#define MMU_LOAD_TLB 0x00000001
#define MMU_GFLUSH 0x60
/*
* hw_mmu_page_size_t: Enumerated Type used to specify the MMU Page Size(SLSS)
*/
enum hw_mmu_page_size_t {
HW_MMU_SECTION,
HW_MMU_LARGE_PAGE,
HW_MMU_SMALL_PAGE,
HW_MMU_SUPERSECTION
};
/*
* FUNCTION : mmu_flush_entry
*
* INPUTS:
*
* Identifier : base_address
* Type : const u32
* Description : Base Address of instance of MMU module
*
* RETURNS:
*
* Type : hw_status
* Description : 0 -- No errors occurred
* RET_BAD_NULL_PARAM -- A Pointer
* Parameter was set to NULL
*
* PURPOSE: : Flush the TLB entry pointed by the
* lock counter register
* even if this entry is set protected
*
* METHOD: : Check the Input parameter and Flush a
* single entry in the TLB.
*/
static hw_status mmu_flush_entry(const void __iomem *base_address);
/*
* FUNCTION : mmu_set_cam_entry
*
* INPUTS:
*
* Identifier : base_address
* TypE : const u32
* Description : Base Address of instance of MMU module
*
* Identifier : page_sz
* TypE : const u32
* Description : It indicates the page size
*
* Identifier : preserved_bit
* Type : const u32
* Description : It indicates the TLB entry is preserved entry
* or not
*
* Identifier : valid_bit
* Type : const u32
* Description : It indicates the TLB entry is valid entry or not
*
*
* Identifier : virtual_addr_tag
* Type : const u32
* Description : virtual Address
*
* RETURNS:
*
* Type : hw_status
* Description : 0 -- No errors occurred
* RET_BAD_NULL_PARAM -- A Pointer Parameter
* was set to NULL
* RET_PARAM_OUT_OF_RANGE -- Input Parameter out
* of Range
*
* PURPOSE: : Set MMU_CAM reg
*
* METHOD: : Check the Input parameters and set the CAM entry.
*/
static hw_status mmu_set_cam_entry(const void __iomem *base_address,
const u32 page_sz,
const u32 preserved_bit,
const u32 valid_bit,
const u32 virtual_addr_tag);
/*
* FUNCTION : mmu_set_ram_entry
*
* INPUTS:
*
* Identifier : base_address
* Type : const u32
* Description : Base Address of instance of MMU module
*
* Identifier : physical_addr
* Type : const u32
* Description : Physical Address to which the corresponding
* virtual Address shouldpoint
*
* Identifier : endianism
* Type : hw_endianism_t
* Description : endianism for the given page
*
* Identifier : element_size
* Type : hw_element_size_t
* Description : The element size ( 8,16, 32 or 64 bit)
*
* Identifier : mixed_size
* Type : hw_mmu_mixed_size_t
* Description : Element Size to follow CPU or TLB
*
* RETURNS:
*
* Type : hw_status
* Description : 0 -- No errors occurred
* RET_BAD_NULL_PARAM -- A Pointer Parameter
* was set to NULL
* RET_PARAM_OUT_OF_RANGE -- Input Parameter
* out of Range
*
* PURPOSE: : Set MMU_CAM reg
*
* METHOD: : Check the Input parameters and set the RAM entry.
*/
static hw_status mmu_set_ram_entry(const void __iomem *base_address,
const u32 physical_addr,
enum hw_endianism_t endianism,
enum hw_element_size_t element_size,
enum hw_mmu_mixed_size_t mixed_size);
/* HW FUNCTIONS */
hw_status hw_mmu_enable(const void __iomem *base_address)
{
hw_status status = 0;
MMUMMU_CNTLMMU_ENABLE_WRITE32(base_address, HW_SET);
return status;
}
hw_status hw_mmu_disable(const void __iomem *base_address)
{
hw_status status = 0;
MMUMMU_CNTLMMU_ENABLE_WRITE32(base_address, HW_CLEAR);
return status;
}
hw_status hw_mmu_num_locked_set(const void __iomem *base_address,
u32 num_locked_entries)
{
hw_status status = 0;
MMUMMU_LOCK_BASE_VALUE_WRITE32(base_address, num_locked_entries);
return status;
}
hw_status hw_mmu_victim_num_set(const void __iomem *base_address,
u32 victim_entry_num)
{
hw_status status = 0;
MMUMMU_LOCK_CURRENT_VICTIM_WRITE32(base_address, victim_entry_num);
return status;
}
hw_status hw_mmu_event_ack(const void __iomem *base_address, u32 irq_mask)
{
hw_status status = 0;
MMUMMU_IRQSTATUS_WRITE_REGISTER32(base_address, irq_mask);
return status;
}
hw_status hw_mmu_event_disable(const void __iomem *base_address, u32 irq_mask)
{
hw_status status = 0;
u32 irq_reg;
irq_reg = MMUMMU_IRQENABLE_READ_REGISTER32(base_address);
MMUMMU_IRQENABLE_WRITE_REGISTER32(base_address, irq_reg & ~irq_mask);
return status;
}
hw_status hw_mmu_event_enable(const void __iomem *base_address, u32 irq_mask)
{
hw_status status = 0;
u32 irq_reg;
irq_reg = MMUMMU_IRQENABLE_READ_REGISTER32(base_address);
MMUMMU_IRQENABLE_WRITE_REGISTER32(base_address, irq_reg | irq_mask);
return status;
}
hw_status hw_mmu_event_status(const void __iomem *base_address, u32 *irq_mask)
{
hw_status status = 0;
*irq_mask = MMUMMU_IRQSTATUS_READ_REGISTER32(base_address);
return status;
}
hw_status hw_mmu_fault_addr_read(const void __iomem *base_address, u32 *addr)
{
hw_status status = 0;
/* read values from register */
*addr = MMUMMU_FAULT_AD_READ_REGISTER32(base_address);
return status;
}
hw_status hw_mmu_ttb_set(const void __iomem *base_address, u32 ttb_phys_addr)
{
hw_status status = 0;
u32 load_ttb;
load_ttb = ttb_phys_addr & ~0x7FUL;
/* write values to register */
MMUMMU_TTB_WRITE_REGISTER32(base_address, load_ttb);
return status;
}
hw_status hw_mmu_twl_enable(const void __iomem *base_address)
{
hw_status status = 0;
MMUMMU_CNTLTWL_ENABLE_WRITE32(base_address, HW_SET);
return status;
}
hw_status hw_mmu_twl_disable(const void __iomem *base_address)
{
hw_status status = 0;
MMUMMU_CNTLTWL_ENABLE_WRITE32(base_address, HW_CLEAR);
return status;
}
hw_status hw_mmu_tlb_flush(const void __iomem *base_address, u32 virtual_addr,
u32 page_sz)
{
hw_status status = 0;
u32 virtual_addr_tag;
enum hw_mmu_page_size_t pg_size_bits;
switch (page_sz) {
case HW_PAGE_SIZE4KB:
pg_size_bits = HW_MMU_SMALL_PAGE;
break;
case HW_PAGE_SIZE64KB:
pg_size_bits = HW_MMU_LARGE_PAGE;
break;
case HW_PAGE_SIZE1MB:
pg_size_bits = HW_MMU_SECTION;
break;
case HW_PAGE_SIZE16MB:
pg_size_bits = HW_MMU_SUPERSECTION;
break;
default:
return -EINVAL;
}
/* Generate the 20-bit tag from virtual address */
virtual_addr_tag = ((virtual_addr & MMU_ADDR_MASK) >> 12);
mmu_set_cam_entry(base_address, pg_size_bits, 0, 0, virtual_addr_tag);
mmu_flush_entry(base_address);
return status;
}
hw_status hw_mmu_tlb_add(const void __iomem *base_address,
u32 physical_addr,
u32 virtual_addr,
u32 page_sz,
u32 entry_num,
struct hw_mmu_map_attrs_t *map_attrs,
s8 preserved_bit, s8 valid_bit)
{
hw_status status = 0;
u32 lock_reg;
u32 virtual_addr_tag;
enum hw_mmu_page_size_t mmu_pg_size;
/*Check the input Parameters */
switch (page_sz) {
case HW_PAGE_SIZE4KB:
mmu_pg_size = HW_MMU_SMALL_PAGE;
break;
case HW_PAGE_SIZE64KB:
mmu_pg_size = HW_MMU_LARGE_PAGE;
break;
case HW_PAGE_SIZE1MB:
mmu_pg_size = HW_MMU_SECTION;
break;
case HW_PAGE_SIZE16MB:
mmu_pg_size = HW_MMU_SUPERSECTION;
break;
default:
return -EINVAL;
}
lock_reg = MMUMMU_LOCK_READ_REGISTER32(base_address);
/* Generate the 20-bit tag from virtual address */
virtual_addr_tag = ((virtual_addr & MMU_ADDR_MASK) >> 12);
/* Write the fields in the CAM Entry Register */
mmu_set_cam_entry(base_address, mmu_pg_size, preserved_bit, valid_bit,
virtual_addr_tag);
/* Write the different fields of the RAM Entry Register */
/* endianism of the page,Element Size of the page (8, 16, 32, 64 bit) */
mmu_set_ram_entry(base_address, physical_addr, map_attrs->endianism,
map_attrs->element_size, map_attrs->mixed_size);
/* Update the MMU Lock Register */
/* currentVictim between lockedBaseValue and (MMU_Entries_Number - 1) */
MMUMMU_LOCK_CURRENT_VICTIM_WRITE32(base_address, entry_num);
/* Enable loading of an entry in TLB by writing 1
into LD_TLB_REG register */
MMUMMU_LD_TLB_WRITE_REGISTER32(base_address, MMU_LOAD_TLB);
MMUMMU_LOCK_WRITE_REGISTER32(base_address, lock_reg);
return status;
}
hw_status hw_mmu_pte_set(const u32 pg_tbl_va,
u32 physical_addr,
u32 virtual_addr,
u32 page_sz, struct hw_mmu_map_attrs_t *map_attrs)
{
hw_status status = 0;
u32 pte_addr, pte_val;
s32 num_entries = 1;
switch (page_sz) {
case HW_PAGE_SIZE4KB:
pte_addr = hw_mmu_pte_addr_l2(pg_tbl_va,
virtual_addr &
MMU_SMALL_PAGE_MASK);
pte_val =
((physical_addr & MMU_SMALL_PAGE_MASK) |
(map_attrs->endianism << 9) | (map_attrs->
element_size << 4) |
(map_attrs->mixed_size << 11) | 2);
break;
case HW_PAGE_SIZE64KB:
num_entries = 16;
pte_addr = hw_mmu_pte_addr_l2(pg_tbl_va,
virtual_addr &
MMU_LARGE_PAGE_MASK);
pte_val =
((physical_addr & MMU_LARGE_PAGE_MASK) |
(map_attrs->endianism << 9) | (map_attrs->
element_size << 4) |
(map_attrs->mixed_size << 11) | 1);
break;
case HW_PAGE_SIZE1MB:
pte_addr = hw_mmu_pte_addr_l1(pg_tbl_va,
virtual_addr &
MMU_SECTION_ADDR_MASK);
pte_val =
((((physical_addr & MMU_SECTION_ADDR_MASK) |
(map_attrs->endianism << 15) | (map_attrs->
element_size << 10) |
(map_attrs->mixed_size << 17)) & ~0x40000) | 0x2);
break;
case HW_PAGE_SIZE16MB:
num_entries = 16;
pte_addr = hw_mmu_pte_addr_l1(pg_tbl_va,
virtual_addr &
MMU_SSECTION_ADDR_MASK);
pte_val =
(((physical_addr & MMU_SSECTION_ADDR_MASK) |
(map_attrs->endianism << 15) | (map_attrs->
element_size << 10) |
(map_attrs->mixed_size << 17)
) | 0x40000 | 0x2);
break;
case HW_MMU_COARSE_PAGE_SIZE:
pte_addr = hw_mmu_pte_addr_l1(pg_tbl_va,
virtual_addr &
MMU_SECTION_ADDR_MASK);
pte_val = (physical_addr & MMU_PAGE_TABLE_MASK) | 1;
break;
default:
return -EINVAL;
}
while (--num_entries >= 0)
((u32 *) pte_addr)[num_entries] = pte_val;
return status;
}
hw_status hw_mmu_pte_clear(const u32 pg_tbl_va, u32 virtual_addr, u32 page_size)
{
hw_status status = 0;
u32 pte_addr;
s32 num_entries = 1;
switch (page_size) {
case HW_PAGE_SIZE4KB:
pte_addr = hw_mmu_pte_addr_l2(pg_tbl_va,
virtual_addr &
MMU_SMALL_PAGE_MASK);
break;
case HW_PAGE_SIZE64KB:
num_entries = 16;
pte_addr = hw_mmu_pte_addr_l2(pg_tbl_va,
virtual_addr &
MMU_LARGE_PAGE_MASK);
break;
case HW_PAGE_SIZE1MB:
case HW_MMU_COARSE_PAGE_SIZE:
pte_addr = hw_mmu_pte_addr_l1(pg_tbl_va,
virtual_addr &
MMU_SECTION_ADDR_MASK);
break;
case HW_PAGE_SIZE16MB:
num_entries = 16;
pte_addr = hw_mmu_pte_addr_l1(pg_tbl_va,
virtual_addr &
MMU_SSECTION_ADDR_MASK);
break;
default:
return -EINVAL;
}
while (--num_entries >= 0)
((u32 *) pte_addr)[num_entries] = 0;
return status;
}
/* mmu_flush_entry */
static hw_status mmu_flush_entry(const void __iomem *base_address)
{
hw_status status = 0;
u32 flush_entry_data = 0x1;
/* write values to register */
MMUMMU_FLUSH_ENTRY_WRITE_REGISTER32(base_address, flush_entry_data);
return status;
}
/* mmu_set_cam_entry */
static hw_status mmu_set_cam_entry(const void __iomem *base_address,
const u32 page_sz,
const u32 preserved_bit,
const u32 valid_bit,
const u32 virtual_addr_tag)
{
hw_status status = 0;
u32 mmu_cam_reg;
mmu_cam_reg = (virtual_addr_tag << 12);
mmu_cam_reg = (mmu_cam_reg) | (page_sz) | (valid_bit << 2) |
(preserved_bit << 3);
/* write values to register */
MMUMMU_CAM_WRITE_REGISTER32(base_address, mmu_cam_reg);
return status;
}
/* mmu_set_ram_entry */
static hw_status mmu_set_ram_entry(const void __iomem *base_address,
const u32 physical_addr,
enum hw_endianism_t endianism,
enum hw_element_size_t element_size,
enum hw_mmu_mixed_size_t mixed_size)
{
hw_status status = 0;
u32 mmu_ram_reg;
mmu_ram_reg = (physical_addr & MMU_ADDR_MASK);
mmu_ram_reg = (mmu_ram_reg) | ((endianism << 9) | (element_size << 7) |
(mixed_size << 6));
/* write values to register */
MMUMMU_RAM_WRITE_REGISTER32(base_address, mmu_ram_reg);
return status;
}
void hw_mmu_tlb_flush_all(const void __iomem *base)
{
__raw_writel(1, base + MMU_GFLUSH);
}
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