linux/drivers/pcmcia/sa1100_neponset.c

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/*
* linux/drivers/pcmcia/sa1100_neponset.c
*
* Neponset PCMCIA specific routines
*/
#include <linux/module.h>
#include <linux/kernel.h>
#include <linux/device.h>
#include <linux/errno.h>
#include <linux/init.h>
#include <asm/arch/hardware.h>
#include <asm/mach-types.h>
#include <asm/arch/neponset.h>
#include <asm/hardware/sa1111.h>
#include "sa1111_generic.h"
/*
* Neponset uses the Maxim MAX1600, with the following connections:
*
* MAX1600 Neponset
*
* A0VCC SA-1111 GPIO A<1>
* A1VCC SA-1111 GPIO A<0>
* A0VPP CPLD NCR A0VPP
* A1VPP CPLD NCR A1VPP
* B0VCC SA-1111 GPIO A<2>
* B1VCC SA-1111 GPIO A<3>
* B0VPP ground (slot B is CF)
* B1VPP ground (slot B is CF)
*
* VX VCC (5V)
* VY VCC3_3 (3.3V)
* 12INA 12V
* 12INB ground (slot B is CF)
*
* The MAX1600 CODE pin is tied to ground, placing the device in
* "Standard Intel code" mode. Refer to the Maxim data sheet for
* the corresponding truth table.
*/
static int
neponset_pcmcia_configure_socket(struct soc_pcmcia_socket *skt, const socket_state_t *state)
{
unsigned int ncr_mask, ncr_set, pa_dwr_mask, pa_dwr_set;
int ret;
switch (skt->nr) {
case 0:
pa_dwr_mask = GPIO_A0 | GPIO_A1;
ncr_mask = NCR_A0VPP | NCR_A1VPP;
if (state->Vpp == 0)
ncr_set = 0;
else if (state->Vpp == 120)
ncr_set = NCR_A1VPP;
else if (state->Vpp == state->Vcc)
ncr_set = NCR_A0VPP;
else {
printk(KERN_ERR "%s(): unrecognized VPP %u\n",
__func__, state->Vpp);
return -1;
}
break;
case 1:
pa_dwr_mask = GPIO_A2 | GPIO_A3;
ncr_mask = 0;
ncr_set = 0;
if (state->Vpp != state->Vcc && state->Vpp != 0) {
printk(KERN_ERR "%s(): CF slot cannot support VPP %u\n",
__func__, state->Vpp);
return -1;
}
break;
default:
return -1;
}
/*
* pa_dwr_set is the mask for selecting Vcc on both sockets.
* pa_dwr_mask selects which bits (and therefore socket) we change.
*/
switch (state->Vcc) {
default:
case 0: pa_dwr_set = 0; break;
case 33: pa_dwr_set = GPIO_A1|GPIO_A2; break;
case 50: pa_dwr_set = GPIO_A0|GPIO_A3; break;
}
ret = sa1111_pcmcia_configure_socket(skt, state);
if (ret == 0) {
unsigned long flags;
local_irq_save(flags);
NCR_0 = (NCR_0 & ~ncr_mask) | ncr_set;
local_irq_restore(flags);
sa1111_set_io(SA1111_DEV(skt->dev), pa_dwr_mask, pa_dwr_set);
}
return 0;
}
static void neponset_pcmcia_socket_init(struct soc_pcmcia_socket *skt)
{
if (skt->nr == 0)
NCR_0 &= ~(NCR_A0VPP | NCR_A1VPP);
sa1111_pcmcia_socket_init(skt);
}
static struct pcmcia_low_level neponset_pcmcia_ops = {
.owner = THIS_MODULE,
.hw_init = sa1111_pcmcia_hw_init,
.hw_shutdown = sa1111_pcmcia_hw_shutdown,
.socket_state = sa1111_pcmcia_socket_state,
.configure_socket = neponset_pcmcia_configure_socket,
.socket_init = neponset_pcmcia_socket_init,
.socket_suspend = sa1111_pcmcia_socket_suspend,
};
int __init pcmcia_neponset_init(struct sa1111_dev *sadev)
{
int ret = -ENODEV;
if (machine_is_assabet()) {
/*
* Set GPIO_A<3:0> to be outputs for the MAX1600,
* and switch to standby mode.
*/
sa1111_set_io_dir(sadev, GPIO_A0|GPIO_A1|GPIO_A2|GPIO_A3, 0, 0);
sa1111_set_io(sadev, GPIO_A0|GPIO_A1|GPIO_A2|GPIO_A3, 0);
sa1111_set_sleep_io(sadev, GPIO_A0|GPIO_A1|GPIO_A2|GPIO_A3, 0);
ret = sa11xx_drv_pcmcia_probe(&sadev->dev, &neponset_pcmcia_ops, 0, 2);
}
return ret;
}