gpio_sw.h
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/*****************************************************************************
* Copyright Statement:
* --------------------
* This software is protected by Copyright and the information contained
* herein is confidential. The software may not be copied and the information
* contained herein may not be used or disclosed except with the written
* permission of MediaTek Inc. (C) 2005
*
* BY OPENING THIS FILE, BUYER HEREBY UNEQUIVOCALLY ACKNOWLEDGES AND AGREES
* THAT THE SOFTWARE/FIRMWARE AND ITS DOCUMENTATIONS ("MEDIATEK SOFTWARE")
* RECEIVED FROM MEDIATEK AND/OR ITS REPRESENTATIVES ARE PROVIDED TO BUYER ON
* AN "AS-IS" BASIS ONLY. MEDIATEK EXPRESSLY DISCLAIMS ANY AND ALL WARRANTIES,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT.
* NEITHER DOES MEDIATEK PROVIDE ANY WARRANTY WHATSOEVER WITH RESPECT TO THE
* SOFTWARE OF ANY THIRD PARTY WHICH MAY BE USED BY, INCORPORATED IN, OR
* SUPPLIED WITH THE MEDIATEK SOFTWARE, AND BUYER AGREES TO LOOK ONLY TO SUCH
* THIRD PARTY FOR ANY WARRANTY CLAIM RELATING THERETO. MEDIATEK SHALL ALSO
* NOT BE RESPONSIBLE FOR ANY MEDIATEK SOFTWARE RELEASES MADE TO BUYER'S
* SPECIFICATION OR TO CONFORM TO A PARTICULAR STANDARD OR OPEN FORUM.
*
* BUYER'S SOLE AND EXCLUSIVE REMEDY AND MEDIATEK'S ENTIRE AND CUMULATIVE
* LIABILITY WITH RESPECT TO THE MEDIATEK SOFTWARE RELEASED HEREUNDER WILL BE,
* AT MEDIATEK'S OPTION, TO REVISE OR REPLACE THE MEDIATEK SOFTWARE AT ISSUE,
* OR REFUND ANY SOFTWARE LICENSE FEES OR SERVICE CHARGE PAID BY BUYER TO
* MEDIATEK FOR SUCH MEDIATEK SOFTWARE AT ISSUE.
*
* THE TRANSACTION CONTEMPLATED HEREUNDER SHALL BE CONSTRUED IN ACCORDANCE
* WITH THE LAWS OF THE STATE OF CALIFORNIA, USA, EXCLUDING ITS CONFLICT OF
* LAWS PRINCIPLES. ANY DISPUTES, CONTROVERSIES OR CLAIMS ARISING THEREOF AND
* RELATED THERETO SHALL BE SETTLED BY ARBITRATION IN SAN FRANCISCO, CA, UNDER
* THE RULES OF THE INTERNATIONAL CHAMBER OF COMMERCE (ICC).
*
*****************************************************************************/
/*****************************************************************************
*
* Filename:
* ---------
* gpio_hw.h
*
* Project:
* --------
* Maui_Software
*
* Description:
* ------------
* This file is intended for GPIO driver.
*
* Author:
* -------
* -------
*
*============================================================================
* HISTORY
* Below this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
*------------------------------------------------------------------------------
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*------------------------------------------------------------------------------
* Upper this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
*============================================================================
****************************************************************************/
#ifndef _GPIO_SW_H
#define _GPIO_SW_H
#include "drv_features_gpio.h"
#include "dcl.h"
#include "drv_comm.h"
#include "kal_general_types.h"
#include "init.h"
#ifdef DRV_GPIO_NEW_SW_ARCHI
#if !defined(DRV_GPIO_OFF)
typedef struct GPIO_A_DIE_MAP_TABLE_TAG
{
kal_uint8 mode_bit_shift; //the shift of this GPIO's control bit
kal_uint8 output_enable_bit_shift; //the shift of this GPIO's control bit
kal_uint8 data_out_bit_shift; //the shift of this GPIO's control bit
kal_uint8 data_in_bit_shift; //the shift of this GPIO's control bit
#if defined(GPIO_ADIE_PULL0)
kal_uint8 pull_en_bit_shift; //the shift of this GPIO's control bit
#endif
#if defined(GPIO_ADIE_PULL_SEL0)
kal_uint8 pull_sel_bit_shift; //the shift of this GPIO's control bit
#endif
kal_uint16 gpio_num; // A die gpio nmu
kal_uint32 mode_reg_addr; //mode reg address
kal_uint32 output_enable_reg_addr; //output enable reg address
kal_uint32 data_out_reg_addr; //data out reg address
kal_uint32 data_in_reg_addr; //data in reg address
#if defined(GPIO_ADIE_PULL0)
kal_uint32 pull_en_reg_addr; //data in reg address
#endif
#if defined(GPIO_ADIE_PULL_SEL0)
kal_uint32 pull_sel_reg_addr; //data in reg address
#endif
/*
kal_uint16 gpio_num; // A die gpio nmu
kal_uint32 mode_reg_addr; //mode reg address
kal_uint8 mode_bit_shift; //the shift of this GPIO's control bit
kal_uint32 output_enable_reg_addr; //output enable reg address
kal_uint8 output_enable_bit_shift; //the shift of this GPIO's control bit
kal_uint32 data_out_reg_addr; //data out reg address
kal_uint8 data_out_bit_shift; //the shift of this GPIO's control bit
kal_uint32 data_in_reg_addr; //data in reg address
kal_uint8 data_in_bit_shift; //the shift of this GPIO's control bit
*/
}GPIO_A_DIE_MAP_Table_T;
//#define __DRV_GPIO_REG_DBG__
#ifdef __DRV_GPIO_REG_DBG__
#define DRV_GPIO_WriteReg(addr,data) DRV_DBG_WriteReg(addr,data)
#define DRV_GPIO_Reg(addr) DRV_DBG_Reg(addr)
#define DRV_GPIO_WriteReg32(addr,data) DRV_DBG_WriteReg32(addr,data)
#define DRV_GPIO_Reg32(addr) DRV_DBG_Reg32(addr)
#define DRV_GPIO_WriteReg8(addr,data) DRV_DBG_WriteReg8(addr,data)
#define DRV_GPIO_Reg8(addr) DRV_DBG_Reg8(addr)
#define DRV_GPIO_ClearBits(addr,data) DRV_DBG_ClearBits(addr,data)
#define DRV_GPIO_SetBits(addr,data) DRV_DBG_SetBits(addr,data)
#define DRV_GPIO_ClearBits32(addr,data) DRV_DBG_ClearBits32(addr,data)
#define DRV_GPIO_SetBits32(addr,data) DRV_DBG_SetBits32(addr,data)
#define DRV_GPIO_ClearBits8(addr,data) DRV_DBG_ClearBits8(addr,data)
#define DRV_GPIO_SetBits8(addr,data) DRV_DBG_SetBits8(addr,data)
#define DRV_GPIO_SetData(addr, bitmask, value) DRV_DBG_SetData(addr, bitmask, value)
#define DRV_GPIO_SetData32(addr, bitmask, value) DRV_DBG_SetData32(addr, bitmask, value)
#define DRV_GPIO_SetData8(addr, bitmask, value) DRV_DBG_SetData8(addr, bitmask, value)
#else //__DRV_GPIO_REG_DBG__
#define DRV_GPIO_WriteReg(addr,data) DRV_WriteReg(addr,data)
#define DRV_GPIO_Reg(addr) DRV_Reg(addr)
#define DRV_GPIO_WriteReg32(addr,data) DRV_WriteReg32(addr,data)
#define DRV_GPIO_Reg32(addr) DRV_Reg32(addr)
#define DRV_GPIO_WriteReg8(addr,data) DRV_WriteReg8(addr,data)
#define DRV_GPIO_Reg8(addr) DRV_Reg8(addr)
#define DRV_GPIO_ClearBits(addr,data) DRV_ClearBits(addr,data)
#define DRV_GPIO_SetBits(addr,data) DRV_SetBits(addr,data)
#define DRV_GPIO_ClearBits32(addr,data) DRV_ClearBits32(addr,data)
#define DRV_GPIO_SetBits32(addr,data) DRV_SetBits32(addr,data)
#define DRV_GPIO_ClearBits8(addr,data) DRV_ClearBits8(addr,data)
#define DRV_GPIO_SetBits8(addr,data) DRV_SetBits8(addr,data)
#define DRV_GPIO_SetData(addr, bitmask, value) DRV_SetData(addr, bitmask, value)
#define DRV_GPIO_SetData32(addr, bitmask, value) DRV_SetData32(addr, bitmask, value)
#define DRV_GPIO_SetData8(addr, bitmask, value) DRV_SetData8(addr, bitmask, value)
#endif //__DRV_GPIO_REG_DBG__
#else //#if !defined(DRV_GPIO_OFF)
#define DRV_GPIO_WriteReg(addr,data)
#define DRV_GPIO_Reg(addr) drv_dummy_return()
#define DRV_GPIO_WriteReg32(addr,data)
#define DRV_GPIO_Reg32(addr) drv_dummy_return()
#define DRV_GPIO_WriteReg8(addr,data)
#define DRV_GPIO_Reg8(addr) drv_dummy_return()
#define DRV_GPIO_ClearBits(addr,data)
#define DRV_GPIO_SetBits(addr,data)
#define DRV_GPIO_ClearBits32(addr,data)
#define DRV_GPIO_SetBits32(addr,data)
#define DRV_GPIO_ClearBits8(addr,data)
#define DRV_GPIO_SetBits8(addr,data)
#define DRV_GPIO_SetData(addr, bitmask, value)
#define DRV_GPIO_SetData32(addr, bitmask, value)
#define DRV_GPIO_SetData8(addr, bitmask, value)
#endif //#if !defined(DRV_GPIO_OFF)
//#if defined(DRV_GPIO_6250_SPECIAL_SET_REG)
extern kal_uint16 get_pupd_R_index( kal_uint16 pin_num);
extern void GPIO_set_pupd_R(kal_uint16 pin, kal_bool pupd_en,kal_bool r0,kal_bool r1);
//#endif
extern SW_SECVERSION INT_SW_SecVersion(void);
extern void GPIO_InitIO(char direction, kal_uint16 port);
extern char GPIO_ReadIO(kal_uint16 port);
extern kal_uint16 GPIO_ReadAll(void);
extern void GPIO_WriteIO(char data, kal_uint16 port);
extern void GPIO_WriteAll(kal_uint16 write_data);
extern char GPIO_ReturnMode(kal_uint16 port);
extern char GPO_ReturnMode(kal_uint16 port);
extern char GPIO_ReturnDir(kal_uint16 port);
extern char GPIO_ReturnDout(kal_uint16 port);
extern char GPO_ReturnDout(kal_uint16 port);
extern void GPO_WriteIO(char data,kal_uint16 port);
//extern void GPO_WriteAll(kal_uint16 write_data);
extern void GPIO_ModeSetup(kal_uint16 pin, kal_uint16 conf_dada);
//extern void GPO_ModeSetup(kal_uint16 pin, kal_uint16 conf_dada);
extern void initGPIO(void);
//extern void GPIO_init_(void);
extern void GPIO_ALLIO(void);
extern void GPIO_PullenSetup(kal_uint16 pin, kal_bool enable);
extern void GPIO_DinvSetup(kal_uint16 pin, kal_bool enable);
extern void GPIO_SetDebugMode(kal_bool enable);
extern void GPIO_SetClkOut(char clk_num, gpio_clk_mode mode);
extern void GPIO_SetClkDiv(char clk_num, gpio_clk_div div);
extern void GPIO_PullSelSetup(kal_uint16 pin, kal_bool pull_up);
extern void GPIO_TMDir(kal_bool pad_oe);
#ifdef __CUST_NEW__
extern void GPIO_ModeSetup_FAST(kal_uint16 pin, kal_uint16 conf_dada);
extern void GPIO_InitIO_FAST(char direction, kal_uint16 port);
extern char GPIO_ReadIO_FAST(kal_uint16 port);
extern void GPIO_WriteIO_FAST(char data, kal_uint16 port);
#endif/* __CUST_NEW__ */
extern void GPIO_Check_MultiPins(GPIOCheckStruct *check_ptr, kal_uint32 pin_cnt);
extern void GPIO_WriteIO_Force(char data, kal_uint16 port);
extern void GPIO_WriteIO_FAST2(char data, kal_uint16 no, kal_uint16 remainder_shift);
extern kal_bool Is_ADIE_GPIO( kal_uint16 pin);
#else //DRV_GPIO_NEW_SW_ARCHI
#if !defined(DRV_GPIO_OFF)
#if defined (DRV_GPIO_6250_SPECIAL_SET_REG)
#define INVALID_PUPD_R0_R1_INDEX 200
#define INVALID_ADIE_GPIO_INDEX 200
#define ADIE_MIN_GPIO_PIN 105 //A-DIE GPIO's pin-number
#define ADIE_MAX_GPIO_PIN 107 //A-DIE GPIO's pin-number
#define FORBID_SET_GPIO_PIN_A 73
#define FORBID_SET_GPIO_PIN_B 74
#define FORBID_SET_GPIO_PIN_C 81
typedef struct MT6250_GPIO_PULL_EN_SELL_MAP_TABLE_TAG
{
kal_uint16 port_id;
kal_uint16 reg_num; // which register
kal_uint16 remainder; // which bit in register
}MT6250_GPIO_PULL_EN_SELL_MAP_Table_T;
typedef struct MT6250_GPIO_PUPD_R0_R1_MAP_TABLE_TAG
{
kal_uint16 pupd_reg_num; // which register
kal_uint16 pupd_remainder; // which bit in register
kal_uint16 R0_reg_num; // which register
kal_uint16 R0_remainder; // which bit in register
kal_uint16 R1_reg_num; // which register
kal_uint16 R1_remainder; // which bit in register
}MT6250_GPIO_PUPD_R0_R1_MAP_Table_T;
#endif
//#define __DRV_GPIO_REG_DBG__
#ifdef __DRV_GPIO_REG_DBG__
#define DRV_GPIO_WriteReg(addr,data) DRV_DBG_WriteReg(addr,data)
#define DRV_GPIO_Reg(addr) DRV_DBG_Reg(addr)
#define DRV_GPIO_WriteReg32(addr,data) DRV_DBG_WriteReg32(addr,data)
#define DRV_GPIO_Reg32(addr) DRV_DBG_Reg32(addr)
#define DRV_GPIO_WriteReg8(addr,data) DRV_DBG_WriteReg8(addr,data)
#define DRV_GPIO_Reg8(addr) DRV_DBG_Reg8(addr)
#define DRV_GPIO_ClearBits(addr,data) DRV_DBG_ClearBits(addr,data)
#define DRV_GPIO_SetBits(addr,data) DRV_DBG_SetBits(addr,data)
#define DRV_GPIO_ClearBits32(addr,data) DRV_DBG_ClearBits32(addr,data)
#define DRV_GPIO_SetBits32(addr,data) DRV_DBG_SetBits32(addr,data)
#define DRV_GPIO_ClearBits8(addr,data) DRV_DBG_ClearBits8(addr,data)
#define DRV_GPIO_SetBits8(addr,data) DRV_DBG_SetBits8(addr,data)
#define DRV_GPIO_SetData(addr, bitmask, value) DRV_DBG_SetData(addr, bitmask, value)
#define DRV_GPIO_SetData32(addr, bitmask, value) DRV_DBG_SetData32(addr, bitmask, value)
#define DRV_GPIO_SetData8(addr, bitmask, value) DRV_DBG_SetData8(addr, bitmask, value)
#else //__DRV_GPIO_REG_DBG__
#define DRV_GPIO_WriteReg(addr,data) DRV_WriteReg(addr,data)
#define DRV_GPIO_Reg(addr) DRV_Reg(addr)
#define DRV_GPIO_WriteReg32(addr,data) DRV_WriteReg32(addr,data)
#define DRV_GPIO_Reg32(addr) DRV_Reg32(addr)
#define DRV_GPIO_WriteReg8(addr,data) DRV_WriteReg8(addr,data)
#define DRV_GPIO_Reg8(addr) DRV_Reg8(addr)
#define DRV_GPIO_ClearBits(addr,data) DRV_ClearBits(addr,data)
#define DRV_GPIO_SetBits(addr,data) DRV_SetBits(addr,data)
#define DRV_GPIO_ClearBits32(addr,data) DRV_ClearBits32(addr,data)
#define DRV_GPIO_SetBits32(addr,data) DRV_DBGD_SetBits32(addr,data)
#define DRV_GPIO_ClearBits8(addr,data) DRV_ClearBits8(addr,data)
#define DRV_GPIO_SetBits8(addr,data) DRV_SetBits8(addr,data)
#define DRV_GPIO_SetData(addr, bitmask, value) DRV_SetData(addr, bitmask, value)
#define DRV_GPIO_SetData32(addr, bitmask, value) DRV_SetData32(addr, bitmask, value)
#define DRV_GPIO_SetData8(addr, bitmask, value) DRV_SetData8(addr, bitmask, value)
#endif //__DRV_GPIO_REG_DBG__
#else //#if !defined(DRV_GPIO_OFF)
#define DRV_GPIO_WriteReg(addr,data)
#define DRV_GPIO_Reg(addr) drv_dummy_return()
#define DRV_GPIO_WriteReg32(addr,data)
#define DRV_GPIO_Reg32(addr) drv_dummy_return()
#define DRV_GPIO_WriteReg8(addr,data)
#define DRV_GPIO_Reg8(addr) drv_dummy_return()
#define DRV_GPIO_ClearBits(addr,data)
#define DRV_GPIO_SetBits(addr,data)
#define DRV_GPIO_ClearBits32(addr,data)
#define DRV_GPIO_SetBits32(addr,data)
#define DRV_GPIO_ClearBits8(addr,data)
#define DRV_GPIO_SetBits8(addr,data)
#define DRV_GPIO_SetData(addr, bitmask, value)
#define DRV_GPIO_SetData32(addr, bitmask, value)
#define DRV_GPIO_SetData8(addr, bitmask, value)
#endif //#if !defined(DRV_GPIO_OFF)
//#if defined(DRV_GPIO_6250_SPECIAL_SET_REG)
extern kal_uint16 get_6250_pupd_R0_R1_index( kal_uint16 pin_num);
extern void GPIO_6250_set_pupd_R0_R1(kal_uint16 pin, kal_bool pupd_en,kal_bool r0,kal_bool r1);
extern kal_bool Is_6250_ADIE_GPIO( kal_uint16 pin);
//#endif
extern SW_SECVERSION INT_SW_SecVersion(void);
extern void GPIO_InitIO(char direction, char port);
extern char GPIO_ReadIO(char port);
extern kal_uint16 GPIO_ReadAll(void);
extern void GPIO_WriteIO(char data, char port);
extern void GPIO_WriteAll(kal_uint16 write_data);
extern char GPIO_ReturnMode(char port);
extern char GPO_ReturnMode(char port);
extern char GPIO_ReturnDir(char port);
extern char GPIO_ReturnDout(char port);
extern char GPO_ReturnDout(char port);
extern void GPO_WriteIO(char data,char port);
extern void GPO_WriteAll(kal_uint16 write_data);
extern void GPIO_ModeSetup(kal_uint16 pin, kal_uint16 conf_dada);
extern void GPO_ModeSetup(kal_uint16 pin, kal_uint16 conf_dada);
extern void initGPIO(void);
//extern void GPIO_init_(void);
extern void GPIO_ALLIO(void);
extern void GPIO_PullenSetup(kal_uint16 pin, kal_bool enable);
extern void GPIO_DinvSetup(kal_uint16 pin, kal_bool enable);
extern void GPIO_SetDebugMode(kal_bool enable);
extern void GPIO_SetClkOut(char clk_num, gpio_clk_mode mode);
extern void GPIO_SetClkDiv(char clk_num, gpio_clk_div div);
extern void GPIO_PullSelSetup(kal_uint16 pin, kal_bool pull_up);
extern void GPIO_TMDir(kal_bool pad_oe);
#ifdef __CUST_NEW__
extern void GPIO_ModeSetup_FAST(kal_uint16 pin, kal_uint16 conf_dada);
extern void GPIO_InitIO_FAST(char direction, char port);
extern char GPIO_ReadIO_FAST(char port);
extern void GPIO_WriteIO_FAST(char data, char port);
#endif/* __CUST_NEW__ */
extern void GPIO_Check_MultiPins(GPIOCheckStruct *check_ptr, kal_uint32 pin_cnt);
extern void GPIO_WriteIO_Force(char data, char port);
extern void GPIO_WriteIO_FAST2(char data, kal_uint16 no, kal_uint16 remainder_shift);
#endif //DRV_GPIO_NEW_SW_ARCHI
#endif
#if defined(__TOPWELL_HW_MARQUEET__)
#if defined(__TOPWELL_HW_MARQUEET_GPIO_LED__)
#if defined(__TOPWELL_HW_MARQUEET_LED_EFFECT_T310__)
#define topwell_gpio_led_pin_1 1 ////左右中间蓝色
#define topwell_gpio_led_pin_2 2 ////左下右上绿色
#define topwell_gpio_led_pin_3 3 ////左上右下红色
#define LED_INDEX_MAX 3
static kal_uint16 g_led_reg_array[LED_INDEX_MAX]={
topwell_gpio_led_pin_2,
topwell_gpio_led_pin_1,
topwell_gpio_led_pin_3
};
#elif defined(__TOPWELL_HW_MARQUEET_LED_EFFECT_T308__)
#define topwell_gpio_led_pin_1 3 //主板灯的位置从左到右依次为 3-2-1-54
#define topwell_gpio_led_pin_2 2
#define topwell_gpio_led_pin_3 1
#define topwell_gpio_led_pin_4 54
#define LED_INDEX_MAX 4
static kal_uint16 g_led_reg_array[LED_INDEX_MAX]={
topwell_gpio_led_pin_1,
topwell_gpio_led_pin_2,
topwell_gpio_led_pin_3,
topwell_gpio_led_pin_4
};
#elif defined(__TOPWELL_HW_MARQUEET_LED_EFFECT_T333__)
#define topwell_gpio_led_pin_1 10
#define topwell_gpio_led_pin_2 17
#define LED_INDEX_MAX 2
static kal_uint16 g_led_reg_array[LED_INDEX_MAX]={
topwell_gpio_led_pin_1,
topwell_gpio_led_pin_2,
};
#else
#define topwell_gpio_led_pin_1 20 ////左右中间蓝色
#define topwell_gpio_led_pin_2 21 ////左下右上绿色
#define topwell_gpio_led_pin_3 28 ////左上右下红色
#define LED_INDEX_MAX 3
static kal_uint16 g_led_reg_array[LED_INDEX_MAX]={
topwell_gpio_led_pin_2,
topwell_gpio_led_pin_1,
topwell_gpio_led_pin_3
};
#endif
#define LED_BL_OFF 0
#define LED_BL_ON 1
#else //NONE
#define LED_BL_OFF 0
#define LED_BL_ON 1
#define LED_INDEX_MAX 4
#endif
// Public defined
typedef kal_bool (*LedFunc) (void);
typedef kal_uint16 LED_BL;
typedef kal_uint16 LED_ID;
extern void Led_ControlPower(kal_uint16 PwrOnOff);
extern void Led_ControlLED(LED_BL bl, LED_ID index);
extern void Led_TimerStart(kal_uint16 duration, LedFunc led_cb);
extern void Led_TimerStop(void);
#endif