linux/arch/mips/include/asm/pmc-sierra/msp71xx/msp_gpio_macros.h

344 lines
11 KiB
C

/*
*
* Macros for external SMP-safe access to the PMC MSP71xx reference
* board GPIO pins
*
* Copyright 2010 PMC-Sierra, Inc.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation; either version 2 of the License, or (at your
* option) any later version.
*
* THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN
* NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
* USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
* ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#ifndef __MSP_GPIO_MACROS_H__
#define __MSP_GPIO_MACROS_H__
#include <msp_regops.h>
#include <msp_regs.h>
#ifdef CONFIG_PMC_MSP7120_GW
#define MSP_NUM_GPIOS 20
#else
#define MSP_NUM_GPIOS 28
#endif
/* -- GPIO Enumerations -- */
enum msp_gpio_data {
MSP_GPIO_LO = 0,
MSP_GPIO_HI = 1,
MSP_GPIO_NONE, /* Special - Means pin is out of range */
MSP_GPIO_TOGGLE, /* Special - Sets pin to opposite */
};
enum msp_gpio_mode {
MSP_GPIO_INPUT = 0x0,
/* MSP_GPIO_ INTERRUPT = 0x1, Not supported yet */
MSP_GPIO_UART_INPUT = 0x2, /* Only GPIO 4 or 5 */
MSP_GPIO_OUTPUT = 0x8,
MSP_GPIO_UART_OUTPUT = 0x9, /* Only GPIO 2 or 3 */
MSP_GPIO_PERIF_TIMERA = 0x9, /* Only GPIO 0 or 1 */
MSP_GPIO_PERIF_TIMERB = 0xa, /* Only GPIO 0 or 1 */
MSP_GPIO_UNKNOWN = 0xb, /* No such GPIO or mode */
};
/* -- Static Tables -- */
/* Maps pins to data register */
static volatile u32 * const MSP_GPIO_DATA_REGISTER[] = {
/* GPIO 0 and 1 on the first register */
GPIO_DATA1_REG, GPIO_DATA1_REG,
/* GPIO 2, 3, 4, and 5 on the second register */
GPIO_DATA2_REG, GPIO_DATA2_REG, GPIO_DATA2_REG, GPIO_DATA2_REG,
/* GPIO 6, 7, 8, and 9 on the third register */
GPIO_DATA3_REG, GPIO_DATA3_REG, GPIO_DATA3_REG, GPIO_DATA3_REG,
/* GPIO 10, 11, 12, 13, 14, and 15 on the fourth register */
GPIO_DATA4_REG, GPIO_DATA4_REG, GPIO_DATA4_REG, GPIO_DATA4_REG,
GPIO_DATA4_REG, GPIO_DATA4_REG,
/* GPIO 16 - 23 on the first strange EXTENDED register */
EXTENDED_GPIO1_REG, EXTENDED_GPIO1_REG, EXTENDED_GPIO1_REG,
EXTENDED_GPIO1_REG, EXTENDED_GPIO1_REG, EXTENDED_GPIO1_REG,
EXTENDED_GPIO1_REG, EXTENDED_GPIO1_REG,
/* GPIO 24 - 27 on the second strange EXTENDED register */
EXTENDED_GPIO2_REG, EXTENDED_GPIO2_REG, EXTENDED_GPIO2_REG,
EXTENDED_GPIO2_REG,
};
/* Maps pins to mode register */
static volatile u32 * const MSP_GPIO_MODE_REGISTER[] = {
/* GPIO 0 and 1 on the first register */
GPIO_CFG1_REG, GPIO_CFG1_REG,
/* GPIO 2, 3, 4, and 5 on the second register */
GPIO_CFG2_REG, GPIO_CFG2_REG, GPIO_CFG2_REG, GPIO_CFG2_REG,
/* GPIO 6, 7, 8, and 9 on the third register */
GPIO_CFG3_REG, GPIO_CFG3_REG, GPIO_CFG3_REG, GPIO_CFG3_REG,
/* GPIO 10, 11, 12, 13, 14, and 15 on the fourth register */
GPIO_CFG4_REG, GPIO_CFG4_REG, GPIO_CFG4_REG, GPIO_CFG4_REG,
GPIO_CFG4_REG, GPIO_CFG4_REG,
/* GPIO 16 - 23 on the first strange EXTENDED register */
EXTENDED_GPIO1_REG, EXTENDED_GPIO1_REG, EXTENDED_GPIO1_REG,
EXTENDED_GPIO1_REG, EXTENDED_GPIO1_REG, EXTENDED_GPIO1_REG,
EXTENDED_GPIO1_REG, EXTENDED_GPIO1_REG,
/* GPIO 24 - 27 on the second strange EXTENDED register */
EXTENDED_GPIO2_REG, EXTENDED_GPIO2_REG, EXTENDED_GPIO2_REG,
EXTENDED_GPIO2_REG,
};
/* Maps 'basic' pins to relative offset from 0 per register */
static int MSP_GPIO_OFFSET[] = {
/* GPIO 0 and 1 on the first register */
0, 0,
/* GPIO 2, 3, 4, and 5 on the second register */
2, 2, 2, 2,
/* GPIO 6, 7, 8, and 9 on the third register */
6, 6, 6, 6,
/* GPIO 10, 11, 12, 13, 14, and 15 on the fourth register */
10, 10, 10, 10, 10, 10,
};
/* Maps MODE to allowed pin mask */
static unsigned int MSP_GPIO_MODE_ALLOWED[] = {
0xffffffff, /* Mode 0 - INPUT */
0x00000, /* Mode 1 - INTERRUPT */
0x00030, /* Mode 2 - UART_INPUT (GPIO 4, 5)*/
0, 0, 0, 0, 0, /* Modes 3, 4, 5, 6, and 7 are reserved */
0xffffffff, /* Mode 8 - OUTPUT */
0x0000f, /* Mode 9 - UART_OUTPUT/
PERF_TIMERA (GPIO 0, 1, 2, 3) */
0x00003, /* Mode a - PERF_TIMERB (GPIO 0, 1) */
0x00000, /* Mode b - Not really a mode! */
};
/* -- Bit masks -- */
/* This gives you the 'register relative offset gpio' number */
#define OFFSET_GPIO_NUMBER(gpio) (gpio - MSP_GPIO_OFFSET[gpio])
/* These take the 'register relative offset gpio' number */
#define BASIC_DATA_REG_MASK(ogpio) (1 << ogpio)
#define BASIC_MODE_REG_VALUE(mode, ogpio) \
(mode << BASIC_MODE_REG_SHIFT(ogpio))
#define BASIC_MODE_REG_MASK(ogpio) \
BASIC_MODE_REG_VALUE(0xf, ogpio)
#define BASIC_MODE_REG_SHIFT(ogpio) (ogpio * 4)
#define BASIC_MODE_REG_FROM_REG(data, ogpio) \
((data & BASIC_MODE_REG_MASK(ogpio)) >> BASIC_MODE_REG_SHIFT(ogpio))
/* These take the actual GPIO number (0 through 15) */
#define BASIC_DATA_MASK(gpio) \
BASIC_DATA_REG_MASK(OFFSET_GPIO_NUMBER(gpio))
#define BASIC_MODE_MASK(gpio) \
BASIC_MODE_REG_MASK(OFFSET_GPIO_NUMBER(gpio))
#define BASIC_MODE(mode, gpio) \
BASIC_MODE_REG_VALUE(mode, OFFSET_GPIO_NUMBER(gpio))
#define BASIC_MODE_SHIFT(gpio) \
BASIC_MODE_REG_SHIFT(OFFSET_GPIO_NUMBER(gpio))
#define BASIC_MODE_FROM_REG(data, gpio) \
BASIC_MODE_REG_FROM_REG(data, OFFSET_GPIO_NUMBER(gpio))
/*
* Each extended GPIO register is 32 bits long and is responsible for up to
* eight GPIOs. The least significant 16 bits contain the set and clear bit
* pair for each of the GPIOs. The most significant 16 bits contain the
* disable and enable bit pair for each of the GPIOs. For example, the
* extended GPIO reg for GPIOs 16-23 is as follows:
*
* 31: GPIO23_DISABLE
* ...
* 19: GPIO17_DISABLE
* 18: GPIO17_ENABLE
* 17: GPIO16_DISABLE
* 16: GPIO16_ENABLE
* ...
* 3: GPIO17_SET
* 2: GPIO17_CLEAR
* 1: GPIO16_SET
* 0: GPIO16_CLEAR
*/
/* This gives the 'register relative offset gpio' number */
#define EXTENDED_OFFSET_GPIO(gpio) (gpio < 24 ? gpio - 16 : gpio - 24)
/* These take the 'register relative offset gpio' number */
#define EXTENDED_REG_DISABLE(ogpio) (0x2 << ((ogpio * 2) + 16))
#define EXTENDED_REG_ENABLE(ogpio) (0x1 << ((ogpio * 2) + 16))
#define EXTENDED_REG_SET(ogpio) (0x2 << (ogpio * 2))
#define EXTENDED_REG_CLR(ogpio) (0x1 << (ogpio * 2))
/* These take the actual GPIO number (16 through 27) */
#define EXTENDED_DISABLE(gpio) \
EXTENDED_REG_DISABLE(EXTENDED_OFFSET_GPIO(gpio))
#define EXTENDED_ENABLE(gpio) \
EXTENDED_REG_ENABLE(EXTENDED_OFFSET_GPIO(gpio))
#define EXTENDED_SET(gpio) \
EXTENDED_REG_SET(EXTENDED_OFFSET_GPIO(gpio))
#define EXTENDED_CLR(gpio) \
EXTENDED_REG_CLR(EXTENDED_OFFSET_GPIO(gpio))
#define EXTENDED_FULL_MASK (0xffffffff)
/* -- API inline-functions -- */
/*
* Gets the current value of the specified pin
*/
static inline enum msp_gpio_data msp_gpio_pin_get(unsigned int gpio)
{
u32 pinhi_mask = 0, pinhi_mask2 = 0;
if (gpio >= MSP_NUM_GPIOS)
return MSP_GPIO_NONE;
if (gpio < 16) {
pinhi_mask = BASIC_DATA_MASK(gpio);
} else {
/*
* Two cases are possible with the EXTENDED register:
* - In output mode (ENABLED flag set), check the CLR bit
* - In input mode (ENABLED flag not set), check the SET bit
*/
pinhi_mask = EXTENDED_ENABLE(gpio) | EXTENDED_CLR(gpio);
pinhi_mask2 = EXTENDED_SET(gpio);
}
if (((*MSP_GPIO_DATA_REGISTER[gpio] & pinhi_mask) == pinhi_mask) ||
(*MSP_GPIO_DATA_REGISTER[gpio] & pinhi_mask2))
return MSP_GPIO_HI;
else
return MSP_GPIO_LO;
}
/* Sets the specified pin to the specified value */
static inline void msp_gpio_pin_set(enum msp_gpio_data data, unsigned int gpio)
{
if (gpio >= MSP_NUM_GPIOS)
return;
if (gpio < 16) {
if (data == MSP_GPIO_TOGGLE)
toggle_reg32(MSP_GPIO_DATA_REGISTER[gpio],
BASIC_DATA_MASK(gpio));
else if (data == MSP_GPIO_HI)
set_reg32(MSP_GPIO_DATA_REGISTER[gpio],
BASIC_DATA_MASK(gpio));
else
clear_reg32(MSP_GPIO_DATA_REGISTER[gpio],
BASIC_DATA_MASK(gpio));
} else {
if (data == MSP_GPIO_TOGGLE) {
/* Special ugly case:
* We have to read the CLR bit.
* If set, we write the CLR bit.
* If not, we write the SET bit.
*/
u32 tmpdata;
custom_read_reg32(MSP_GPIO_DATA_REGISTER[gpio],
tmpdata);
if (tmpdata & EXTENDED_CLR(gpio))
tmpdata = EXTENDED_CLR(gpio);
else
tmpdata = EXTENDED_SET(gpio);
custom_write_reg32(MSP_GPIO_DATA_REGISTER[gpio],
tmpdata);
} else {
u32 newdata;
if (data == MSP_GPIO_HI)
newdata = EXTENDED_SET(gpio);
else
newdata = EXTENDED_CLR(gpio);
set_value_reg32(MSP_GPIO_DATA_REGISTER[gpio],
EXTENDED_FULL_MASK, newdata);
}
}
}
/* Sets the specified pin to the specified value */
static inline void msp_gpio_pin_hi(unsigned int gpio)
{
msp_gpio_pin_set(MSP_GPIO_HI, gpio);
}
/* Sets the specified pin to the specified value */
static inline void msp_gpio_pin_lo(unsigned int gpio)
{
msp_gpio_pin_set(MSP_GPIO_LO, gpio);
}
/* Sets the specified pin to the opposite value */
static inline void msp_gpio_pin_toggle(unsigned int gpio)
{
msp_gpio_pin_set(MSP_GPIO_TOGGLE, gpio);
}
/* Gets the mode of the specified pin */
static inline enum msp_gpio_mode msp_gpio_pin_get_mode(unsigned int gpio)
{
enum msp_gpio_mode retval = MSP_GPIO_UNKNOWN;
uint32_t data;
if (gpio >= MSP_NUM_GPIOS)
return retval;
data = *MSP_GPIO_MODE_REGISTER[gpio];
if (gpio < 16) {
retval = BASIC_MODE_FROM_REG(data, gpio);
} else {
/* Extended pins can only be either INPUT or OUTPUT */
if (data & EXTENDED_ENABLE(gpio))
retval = MSP_GPIO_OUTPUT;
else
retval = MSP_GPIO_INPUT;
}
return retval;
}
/*
* Sets the specified mode on the requested pin
* Returns 0 on success, or -1 if that mode is not allowed on this pin
*/
static inline int msp_gpio_pin_mode(enum msp_gpio_mode mode, unsigned int gpio)
{
u32 modemask, newmode;
if ((1 << gpio) & ~MSP_GPIO_MODE_ALLOWED[mode])
return -1;
if (gpio >= MSP_NUM_GPIOS)
return -1;
if (gpio < 16) {
modemask = BASIC_MODE_MASK(gpio);
newmode = BASIC_MODE(mode, gpio);
} else {
modemask = EXTENDED_FULL_MASK;
if (mode == MSP_GPIO_INPUT)
newmode = EXTENDED_DISABLE(gpio);
else
newmode = EXTENDED_ENABLE(gpio);
}
/* Do the set atomically */
set_value_reg32(MSP_GPIO_MODE_REGISTER[gpio], modemask, newmode);
return 0;
}
#endif /* __MSP_GPIO_MACROS_H__ */