staging: tidspbridge: remove GlobalTypes.h

Remove custom globaltypes.h header

Signed-off-by: Nishanth Menon <nm@ti.com>
Signed-off-by: Greg Kroah-Hartman <gregkh@suse.de>
This commit is contained in:
Menon, Nishanth 2010-07-22 16:03:45 -05:00 committed by Greg Kroah-Hartman
parent c30d6cb7fb
commit 38bf20a9b6
4 changed files with 0 additions and 326 deletions

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@ -1,291 +0,0 @@
/*
* GlobalTypes.h
*
* DSP-BIOS Bridge driver support functions for TI OMAP processors.
*
* Global HW definitions
*
* 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.
*/
#ifndef _GLOBALTYPES_H
#define _GLOBALTYPES_H
/*
* Definition: RET_CODE_BASE
*
* DESCRIPTION: Base value for return code offsets
*/
#define RET_CODE_BASE 0
/*
* Definition: *BIT_OFFSET
*
* DESCRIPTION: offset in bytes from start of 32-bit word.
*/
#define LOWER16BIT_OFFSET 0
#define UPPER16BIT_OFFSET 2
#define LOWER8BIT_OFFSET 0
#define LOWER_MIDDLE8BIT_OFFSET 1
#define UPPER_MIDDLE8BIT_OFFSET 2
#define UPPER8BIT_OFFSET 3
#define LOWER8BIT_OF16_OFFSET 0
#define UPPER8BIT_OF16_OFFSET 1
/*
* Definition: *BIT_SHIFT
*
* DESCRIPTION: offset in bits from start of 32-bit word.
*/
#define LOWER16BIT_SHIFT 0
#define UPPER16BIT_SHIFT 16
#define LOWER8BIT_SHIFT 0
#define LOWER_MIDDLE8BIT_SHIFT 8
#define UPPER_MIDDLE8BIT_SHIFT 16
#define UPPER8BIT_SHIFT 24
#define LOWER8BIT_OF16_SHIFT 0
#define UPPER8BIT_OF16_SHIFT 8
/*
* Definition: LOWER16BIT_MASK
*
* DESCRIPTION: 16 bit mask used for inclusion of lower 16 bits i.e. mask out
* the upper 16 bits
*/
#define LOWER16BIT_MASK 0x0000FFFF
/*
* Definition: LOWER8BIT_MASK
*
* DESCRIPTION: 8 bit masks used for inclusion of 8 bits i.e. mask out
* the upper 16 bits
*/
#define LOWER8BIT_MASK 0x000000FF
/*
* Definition: RETURN32BITS_FROM16LOWER_AND16UPPER(lower16_bits, upper16_bits)
*
* DESCRIPTION: Returns a 32 bit value given a 16 bit lower value and a 16
* bit upper value
*/
#define RETURN32BITS_FROM16LOWER_AND16UPPER(lower16_bits, upper16_bits)\
(((((u32)lower16_bits) & LOWER16BIT_MASK)) | \
(((((u32)upper16_bits) & LOWER16BIT_MASK) << UPPER16BIT_SHIFT)))
/*
* Definition: RETURN16BITS_FROM8LOWER_AND8UPPER(lower16_bits, upper16_bits)
*
* DESCRIPTION: Returns a 16 bit value given a 8 bit lower value and a 8
* bit upper value
*/
#define RETURN16BITS_FROM8LOWER_AND8UPPER(lower8_bits, upper8_bits)\
(((((u32)lower8_bits) & LOWER8BIT_MASK)) | \
(((((u32)upper8_bits) & LOWER8BIT_MASK) << UPPER8BIT_OF16_SHIFT)))
/*
* Definition: RETURN32BITS_FROM48BIT_VALUES(lower8_bits, lower_middle8_bits,
* lower_upper8_bits, upper8_bits)
*
* DESCRIPTION: Returns a 32 bit value given four 8 bit values
*/
#define RETURN32BITS_FROM48BIT_VALUES(lower8_bits, lower_middle8_bits,\
lower_upper8_bits, upper8_bits)\
(((((u32)lower8_bits) & LOWER8BIT_MASK)) | \
(((((u32)lower_middle8_bits) & LOWER8BIT_MASK) <<\
LOWER_MIDDLE8BIT_SHIFT)) | \
(((((u32)lower_upper8_bits) & LOWER8BIT_MASK) <<\
UPPER_MIDDLE8BIT_SHIFT)) | \
(((((u32)upper8_bits) & LOWER8BIT_MASK) <<\
UPPER8BIT_SHIFT)))
/*
* Definition: READ_LOWER16BITS_OF32(value32bits)
*
* DESCRIPTION: Returns a 16 lower bits of 32bit value
*/
#define READ_LOWER16BITS_OF32(value32bits)\
((u16)((u32)(value32bits) & LOWER16BIT_MASK))
/*
* Definition: READ_UPPER16BITS_OF32(value32bits)
*
* DESCRIPTION: Returns a 16 lower bits of 32bit value
*/
#define READ_UPPER16BITS_OF32(value32bits)\
(((u16)((u32)(value32bits) >> UPPER16BIT_SHIFT)) &\
LOWER16BIT_MASK)
/*
* Definition: READ_LOWER8BITS_OF32(value32bits)
*
* DESCRIPTION: Returns a 8 lower bits of 32bit value
*/
#define READ_LOWER8BITS_OF32(value32bits)\
((u8)((u32)(value32bits) & LOWER8BIT_MASK))
/*
* Definition: READ_LOWER_MIDDLE8BITS_OF32(value32bits)
*
* DESCRIPTION: Returns a 8 lower middle bits of 32bit value
*/
#define READ_LOWER_MIDDLE8BITS_OF32(value32bits)\
(((u8)((u32)(value32bits) >> LOWER_MIDDLE8BIT_SHIFT)) &\
LOWER8BIT_MASK)
/*
* Definition: READ_LOWER_MIDDLE8BITS_OF32(value32bits)
*
* DESCRIPTION: Returns a 8 lower middle bits of 32bit value
*/
#define READ_UPPER_MIDDLE8BITS_OF32(value32bits)\
(((u8)((u32)(value32bits) >> LOWER_MIDDLE8BIT_SHIFT)) &\
LOWER8BIT_MASK)
/*
* Definition: READ_UPPER8BITS_OF32(value32bits)
*
* DESCRIPTION: Returns a 8 upper bits of 32bit value
*/
#define READ_UPPER8BITS_OF32(value32bits)\
(((u8)((u32)(value32bits) >> UPPER8BIT_SHIFT)) & LOWER8BIT_MASK)
/*
* Definition: READ_LOWER8BITS_OF16(value16bits)
*
* DESCRIPTION: Returns a 8 lower bits of 16bit value
*/
#define READ_LOWER8BITS_OF16(value16bits)\
((u8)((u16)(value16bits) & LOWER8BIT_MASK))
/*
* Definition: READ_UPPER8BITS_OF16(value32bits)
*
* DESCRIPTION: Returns a 8 upper bits of 16bit value
*/
#define READ_UPPER8BITS_OF16(value16bits)\
(((u8)((u32)(value16bits) >> UPPER8BIT_SHIFT)) & LOWER8BIT_MASK)
/* UWORD16: 16 bit tpyes */
/* reg_uword8, reg_word8: 8 bit register types */
typedef volatile unsigned char reg_uword8;
typedef volatile signed char reg_word8;
/* reg_uword16, reg_word16: 16 bit register types */
#ifndef OMAPBRIDGE_TYPES
typedef volatile unsigned short reg_uword16;
#endif
typedef volatile short reg_word16;
/* reg_uword32, REG_WORD32: 32 bit register types */
typedef volatile unsigned long reg_uword32;
/* FLOAT
*
* Type to be used for floating point calculation. Note that floating point
* calculation is very CPU expensive, and you should only use if you
* absolutely need this. */
/* boolean_t: Boolean Type True, False */
/* return_code_t: Return codes to be returned by all library functions */
enum return_code_label {
RET_OK = 0,
RET_FAIL = -1,
RET_BAD_NULL_PARAM = -2,
RET_PARAM_OUT_OF_RANGE = -3,
RET_INVALID_ID = -4,
RET_EMPTY = -5,
RET_FULL = -6,
RET_TIMEOUT = -7,
RET_INVALID_OPERATION = -8,
/* Add new error codes at end of above list */
RET_NUM_RET_CODES /* this should ALWAYS be LAST entry */
};
/* MACRO: RD_MEM8, WR_MEM8
*
* DESCRIPTION: 32 bit memory access macros
*/
#define RD_MEM8(addr) ((u8)(*((u8 *)(addr))))
#define WR_MEM8(addr, data) (*((u8 *)(addr)) = (u8)(data))
/* MACRO: RD_MEM8_VOLATILE, WR_MEM8_VOLATILE
*
* DESCRIPTION: 8 bit register access macros
*/
#define RD_MEM8_VOLATILE(addr) ((u8)(*((reg_uword8 *)(addr))))
#define WR_MEM8_VOLATILE(addr, data) (*((reg_uword8 *)(addr)) = (u8)(data))
/*
* MACRO: RD_MEM16, WR_MEM16
*
* DESCRIPTION: 16 bit memory access macros
*/
#define RD_MEM16(addr) ((u16)(*((u16 *)(addr))))
#define WR_MEM16(addr, data) (*((u16 *)(addr)) = (u16)(data))
/*
* MACRO: RD_MEM16_VOLATILE, WR_MEM16_VOLATILE
*
* DESCRIPTION: 16 bit register access macros
*/
#define RD_MEM16_VOLATILE(addr) ((u16)(*((reg_uword16 *)(addr))))
#define WR_MEM16_VOLATILE(addr, data) (*((reg_uword16 *)(addr)) =\
(u16)(data))
/*
* MACRO: RD_MEM32, WR_MEM32
*
* DESCRIPTION: 32 bit memory access macros
*/
#define RD_MEM32(addr) ((u32)(*((u32 *)(addr))))
#define WR_MEM32(addr, data) (*((u32 *)(addr)) = (u32)(data))
/*
* MACRO: RD_MEM32_VOLATILE, WR_MEM32_VOLATILE
*
* DESCRIPTION: 32 bit register access macros
*/
#define RD_MEM32_VOLATILE(addr) ((u32)(*((reg_uword32 *)(addr))))
#define WR_MEM32_VOLATILE(addr, data) (*((reg_uword32 *)(addr)) =\
(u32)(data))
/* Not sure if this all belongs here */
#define CHECK_RETURN_VALUE(actual_value, expected_value,\
return_code_if_mismatch, spy_code_if_mis_match)
#define CHECK_RETURN_VALUE_RET(actual_value, expected_value,\
return_code_if_mismatch)
#define CHECK_RETURN_VALUE_RES(actual_value, expected_value,\
spy_code_if_mis_match)
#define CHECK_RETURN_VALUE_RET_VOID(actual_value, expected_value,\
spy_code_if_mis_match)
#define CHECK_INPUT_PARAM(actual_value, invalid_value,\
return_code_if_mismatch, spy_code_if_mis_match)
#define CHECK_INPUT_PARAM_NO_SPY(actual_value, invalid_value,\
return_code_if_mismatch)
#define CHECK_INPUT_RANGE(actual_value, min_valid_value, max_valid_value,\
return_code_if_mismatch, spy_code_if_mis_match)
#define CHECK_INPUT_RANGE_NO_SPY(actual_value, min_valid_value,\
max_valid_value, return_code_if_mismatch)
#define CHECK_INPUT_RANGE_MIN0(actual_value, max_valid_value,\
return_code_if_mismatch, spy_code_if_mis_match)
#define CHECK_INPUT_RANGE_NO_SPY_MIN0(actual_value, max_valid_value,\
return_code_if_mismatch)
#endif /* _GLOBALTYPES_H */

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@ -17,7 +17,6 @@
#ifndef _MMU_REG_ACM_H
#define _MMU_REG_ACM_H
#include <GlobalTypes.h>
#include <linux/io.h>
#include <EasiGlobal.h>

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@ -19,8 +19,6 @@
#ifndef _HW_DEFS_H
#define _HW_DEFS_H
#include <GlobalTypes.h>
/* Page size */
#define HW_PAGE_SIZE4KB 0x1000
#define HW_PAGE_SIZE64KB 0x10000

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@ -16,7 +16,6 @@
* WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE.
*/
#include <GlobalTypes.h>
#include <linux/io.h>
#include "MMURegAcM.h"
#include <hw_defs.h>
@ -250,10 +249,6 @@ hw_status hw_mmu_fault_addr_read(const void __iomem *base_address, u32 *addr)
{
hw_status status = 0;
/*Check the input Parameters */
CHECK_INPUT_PARAM(base_address, 0, RET_BAD_NULL_PARAM,
RES_MMU_BASE + RES_INVALID_INPUT_PARAM);
/* read values from register */
*addr = MMUMMU_FAULT_AD_READ_REGISTER32(base_address);
@ -265,10 +260,6 @@ hw_status hw_mmu_ttb_set(const void __iomem *base_address, u32 ttb_phys_addr)
hw_status status = 0;
u32 load_ttb;
/*Check the input Parameters */
CHECK_INPUT_PARAM(base_address, 0, RET_BAD_NULL_PARAM,
RES_MMU_BASE + RES_INVALID_INPUT_PARAM);
load_ttb = ttb_phys_addr & ~0x7FUL;
/* write values to register */
MMUMMU_TTB_WRITE_REGISTER32(base_address, load_ttb);
@ -346,14 +337,6 @@ hw_status hw_mmu_tlb_add(const void __iomem *base_address,
enum hw_mmu_page_size_t mmu_pg_size;
/*Check the input Parameters */
CHECK_INPUT_PARAM(base_address, 0, RET_BAD_NULL_PARAM,
RES_MMU_BASE + RES_INVALID_INPUT_PARAM);
CHECK_INPUT_RANGE_MIN0(page_sz, MMU_PAGE_MAX, RET_PARAM_OUT_OF_RANGE,
RES_MMU_BASE + RES_INVALID_INPUT_PARAM);
CHECK_INPUT_RANGE_MIN0(map_attrs->element_size, MMU_ELEMENTSIZE_MAX,
RET_PARAM_OUT_OF_RANGE, RES_MMU_BASE +
RES_INVALID_INPUT_PARAM);
switch (page_sz) {
case HW_PAGE_SIZE4KB:
mmu_pg_size = HW_MMU_SMALL_PAGE;
@ -526,10 +509,6 @@ static hw_status mmu_flush_entry(const void __iomem *base_address)
hw_status status = 0;
u32 flush_entry_data = 0x1;
/*Check the input Parameters */
CHECK_INPUT_PARAM(base_address, 0, RET_BAD_NULL_PARAM,
RES_MMU_BASE + RES_INVALID_INPUT_PARAM);
/* write values to register */
MMUMMU_FLUSH_ENTRY_WRITE_REGISTER32(base_address, flush_entry_data);
@ -546,10 +525,6 @@ static hw_status mmu_set_cam_entry(const void __iomem *base_address,
hw_status status = 0;
u32 mmu_cam_reg;
/*Check the input Parameters */
CHECK_INPUT_PARAM(base_address, 0, RET_BAD_NULL_PARAM,
RES_MMU_BASE + RES_INVALID_INPUT_PARAM);
mmu_cam_reg = (virtual_addr_tag << 12);
mmu_cam_reg = (mmu_cam_reg) | (page_sz) | (valid_bit << 2) |
(preserved_bit << 3);
@ -570,13 +545,6 @@ static hw_status mmu_set_ram_entry(const void __iomem *base_address,
hw_status status = 0;
u32 mmu_ram_reg;
/*Check the input Parameters */
CHECK_INPUT_PARAM(base_address, 0, RET_BAD_NULL_PARAM,
RES_MMU_BASE + RES_INVALID_INPUT_PARAM);
CHECK_INPUT_RANGE_MIN0(element_size, MMU_ELEMENTSIZE_MAX,
RET_PARAM_OUT_OF_RANGE, RES_MMU_BASE +
RES_INVALID_INPUT_PARAM);
mmu_ram_reg = (physical_addr & MMU_ADDR_MASK);
mmu_ram_reg = (mmu_ram_reg) | ((endianism << 9) | (element_size << 7) |
(mixed_size << 6));