[ARM] 5407/1: SA1100: drop broken for ages iPAQ h3800 support

Code has never been in buildable state since initial
merge.

Signed-off-by: Dmitry Artamonow <mad_soft@inbox.ru>
Signed-off-by: Russell King <rmk+kernel@arm.linux.org.uk>
This commit is contained in:
Dmitry Artamonow 2009-02-20 10:16:01 +01:00 коммит произвёл Russell King
Родитель 1c7880dffc
Коммит 7bc35b56f3
7 изменённых файлов: 3 добавлений и 911 удалений

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@ -1093,7 +1093,7 @@ source "drivers/cpufreq/Kconfig"
config CPU_FREQ_SA1100
bool
depends on CPU_FREQ && (SA1100_H3100 || SA1100_H3600 || SA1100_H3800 || SA1100_LART || SA1100_PLEB || SA1100_BADGE4 || SA1100_HACKKIT)
depends on CPU_FREQ && (SA1100_H3100 || SA1100_H3600 || SA1100_LART || SA1100_PLEB || SA1100_BADGE4 || SA1100_HACKKIT)
default y
config CPU_FREQ_SA1110

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@ -71,19 +71,9 @@ config SA1100_H3600
<http://www.handhelds.org/Compaq/index.html#iPAQ_H3600>
<http://www.compaq.com/products/handhelds/pocketpc/>
config SA1100_H3800
bool "Compaq iPAQ H3800"
help
Say Y here if you intend to run this kernel on the Compaq iPAQ H3800
series handheld computer. Information about this machine and the
Linux port to this machine can be found at:
<http://www.handhelds.org/Compaq/index.html#iPAQ_H3800>
<http://www.compaq.com/products/handhelds/pocketpc/>
config SA1100_H3XXX
bool
depends on SA1100_H3100 || SA1100_H3600 || SA1100_H3800
depends on SA1100_H3100 || SA1100_H3600
default y
config SA1100_BADGE4

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@ -42,14 +42,7 @@
#include <asm/mach/serial_sa1100.h>
#include <mach/h3600.h>
#if defined (CONFIG_SA1100_H3600) || defined (CONFIG_SA1100_H3100)
#include <mach/h3600_gpio.h>
#endif
#ifdef CONFIG_SA1100_H3800
#include <mach/h3600_asic.h>
#endif
#include "generic.h"
@ -519,388 +512,3 @@ MACHINE_END
#endif /* CONFIG_SA1100_H3600 */
#ifdef CONFIG_SA1100_H3800
#define SET_ASIC1(x) \
do {if (setp) { H3800_ASIC1_GPIO_OUT |= (x); } else { H3800_ASIC1_GPIO_OUT &= ~(x); }} while(0)
#define SET_ASIC2(x) \
do {if (setp) { H3800_ASIC2_GPIOPIOD |= (x); } else { H3800_ASIC2_GPIOPIOD &= ~(x); }} while(0)
#define CLEAR_ASIC1(x) \
do {if (setp) { H3800_ASIC1_GPIO_OUT &= ~(x); } else { H3800_ASIC1_GPIO_OUT |= (x); }} while(0)
#define CLEAR_ASIC2(x) \
do {if (setp) { H3800_ASIC2_GPIOPIOD &= ~(x); } else { H3800_ASIC2_GPIOPIOD |= (x); }} while(0)
/*
On screen enable, we get
h3800_video_power_on(1)
LCD controller starts
h3800_video_lcd_enable(1)
On screen disable, we get
h3800_video_lcd_enable(0)
LCD controller stops
h3800_video_power_on(0)
*/
static void h3800_video_power_on(int setp)
{
if (setp) {
H3800_ASIC1_GPIO_OUT |= GPIO1_LCD_ON;
msleep(30);
H3800_ASIC1_GPIO_OUT |= GPIO1_VGL_ON;
msleep(5);
H3800_ASIC1_GPIO_OUT |= GPIO1_VGH_ON;
msleep(50);
H3800_ASIC1_GPIO_OUT |= GPIO1_LCD_5V_ON;
msleep(5);
} else {
msleep(5);
H3800_ASIC1_GPIO_OUT &= ~GPIO1_LCD_5V_ON;
msleep(50);
H3800_ASIC1_GPIO_OUT &= ~GPIO1_VGL_ON;
msleep(5);
H3800_ASIC1_GPIO_OUT &= ~GPIO1_VGH_ON;
msleep(100);
H3800_ASIC1_GPIO_OUT &= ~GPIO1_LCD_ON;
}
}
static void h3800_video_lcd_enable(int setp)
{
if (setp) {
msleep(17); // Wait one from before turning on
H3800_ASIC1_GPIO_OUT |= GPIO1_LCD_PCI;
} else {
H3800_ASIC1_GPIO_OUT &= ~GPIO1_LCD_PCI;
msleep(30); // Wait before turning off
}
}
static void h3800_control_egpio(enum ipaq_egpio_type x, int setp)
{
switch (x) {
case IPAQ_EGPIO_LCD_POWER:
h3800_video_power_on(setp);
break;
case IPAQ_EGPIO_LCD_ENABLE:
h3800_video_lcd_enable(setp);
break;
case IPAQ_EGPIO_CODEC_NRESET:
case IPAQ_EGPIO_AUDIO_ON:
case IPAQ_EGPIO_QMUTE:
printk("%s: error - should not be called\n", __func__);
break;
case IPAQ_EGPIO_OPT_NVRAM_ON:
SET_ASIC2(GPIO2_OPT_ON_NVRAM);
break;
case IPAQ_EGPIO_OPT_ON:
SET_ASIC2(GPIO2_OPT_ON);
break;
case IPAQ_EGPIO_CARD_RESET:
SET_ASIC2(GPIO2_OPT_PCM_RESET);
break;
case IPAQ_EGPIO_OPT_RESET:
SET_ASIC2(GPIO2_OPT_RESET);
break;
case IPAQ_EGPIO_IR_ON:
CLEAR_ASIC1(GPIO1_IR_ON_N);
break;
case IPAQ_EGPIO_IR_FSEL:
break;
case IPAQ_EGPIO_RS232_ON:
SET_ASIC1(GPIO1_RS232_ON);
break;
case IPAQ_EGPIO_VPP_ON:
H3800_ASIC2_FlashWP_VPP_ON = setp;
break;
}
}
static unsigned long h3800_read_egpio(void)
{
return H3800_ASIC1_GPIO_OUT | (H3800_ASIC2_GPIOPIOD << 16);
}
/* We need to fix ASIC2 GPIO over suspend/resume. At the moment,
it doesn't appear that ASIC1 GPIO has the same problem */
static int h3800_pm_callback(int req)
{
static u16 asic1_data;
static u16 asic2_data;
int result = 0;
printk("%s %d\n", __func__, req);
switch (req) {
case PM_RESUME:
MSC2 = (MSC2 & 0x0000ffff) | 0xE4510000; /* Set MSC2 correctly */
H3800_ASIC2_GPIOPIOD = asic2_data;
H3800_ASIC2_GPIODIR = GPIO2_PEN_IRQ
| GPIO2_SD_DETECT
| GPIO2_EAR_IN_N
| GPIO2_USB_DETECT_N
| GPIO2_SD_CON_SLT;
H3800_ASIC1_GPIO_OUT = asic1_data;
if (ipaq_model_ops.pm_callback_aux)
result = ipaq_model_ops.pm_callback_aux(req);
break;
case PM_SUSPEND:
if (ipaq_model_ops.pm_callback_aux &&
((result = ipaq_model_ops.pm_callback_aux(req)) != 0))
return result;
asic1_data = H3800_ASIC1_GPIO_OUT;
asic2_data = H3800_ASIC2_GPIOPIOD;
break;
default:
printk("%s: unrecognized PM callback\n", __func__);
break;
}
return result;
}
static struct ipaq_model_ops h3800_model_ops __initdata = {
.generic_name = "3800",
.control = h3800_control_egpio,
.read = h3800_read_egpio,
.pm_callback = h3800_pm_callback
};
#define MAX_ASIC_ISR_LOOPS 20
/* The order of these is important - see #include <mach/irqs.h> */
static u32 kpio_irq_mask[] = {
KPIO_KEY_ALL,
KPIO_SPI_INT,
KPIO_OWM_INT,
KPIO_ADC_INT,
KPIO_UART_0_INT,
KPIO_UART_1_INT,
KPIO_TIMER_0_INT,
KPIO_TIMER_1_INT,
KPIO_TIMER_2_INT
};
static u32 gpio_irq_mask[] = {
GPIO2_PEN_IRQ,
GPIO2_SD_DETECT,
GPIO2_EAR_IN_N,
GPIO2_USB_DETECT_N,
GPIO2_SD_CON_SLT,
};
static void h3800_IRQ_demux(unsigned int irq, struct irq_desc *desc)
{
int i;
if (0) printk("%s: interrupt received\n", __func__);
desc->chip->ack(irq);
for (i = 0; i < MAX_ASIC_ISR_LOOPS && (GPLR & GPIO_H3800_ASIC); i++) {
u32 irq;
int j;
/* KPIO */
irq = H3800_ASIC2_KPIINTFLAG;
if (0) printk("%s KPIO 0x%08X\n", __func__, irq);
for (j = 0; j < H3800_KPIO_IRQ_COUNT; j++)
if (irq & kpio_irq_mask[j])
handle_edge_irq(H3800_KPIO_IRQ_COUNT + j, irq_desc + H3800_KPIO_IRQ_COUNT + j);
/* GPIO2 */
irq = H3800_ASIC2_GPIINTFLAG;
if (0) printk("%s GPIO 0x%08X\n", __func__, irq);
for (j = 0; j < H3800_GPIO_IRQ_COUNT; j++)
if (irq & gpio_irq_mask[j])
handle_edge_irq(H3800_GPIO_IRQ_COUNT + j, irq_desc + H3800_GPIO_IRQ_COUNT + j);
}
if (i >= MAX_ASIC_ISR_LOOPS)
printk("%s: interrupt processing overrun\n", __func__);
/* For level-based interrupts */
desc->chip->unmask(irq);
}
static struct irqaction h3800_irq = {
.name = "h3800_asic",
.handler = h3800_IRQ_demux,
.flags = IRQF_DISABLED | IRQF_TIMER | IRQF_IRQPOLL,
};
u32 kpio_int_shadow = 0;
/* mask_ack <- IRQ is first serviced.
mask <- IRQ is disabled.
unmask <- IRQ is enabled
The INTCLR registers are poorly documented. I believe that writing
a "1" to the register clears the specific interrupt, but the documentation
indicates writing a "0" clears the interrupt. In any case, they shouldn't
be read (that's the INTFLAG register)
*/
static void h3800_mask_ack_kpio_irq(unsigned int irq)
{
u32 mask = kpio_irq_mask[irq - H3800_KPIO_IRQ_START];
kpio_int_shadow &= ~mask;
H3800_ASIC2_KPIINTSTAT = kpio_int_shadow;
H3800_ASIC2_KPIINTCLR = mask;
}
static void h3800_mask_kpio_irq(unsigned int irq)
{
u32 mask = kpio_irq_mask[irq - H3800_KPIO_IRQ_START];
kpio_int_shadow &= ~mask;
H3800_ASIC2_KPIINTSTAT = kpio_int_shadow;
}
static void h3800_unmask_kpio_irq(unsigned int irq)
{
u32 mask = kpio_irq_mask[irq - H3800_KPIO_IRQ_START];
kpio_int_shadow |= mask;
H3800_ASIC2_KPIINTSTAT = kpio_int_shadow;
}
static void h3800_mask_ack_gpio_irq(unsigned int irq)
{
u32 mask = gpio_irq_mask[irq - H3800_GPIO_IRQ_START];
H3800_ASIC2_GPIINTSTAT &= ~mask;
H3800_ASIC2_GPIINTCLR = mask;
}
static void h3800_mask_gpio_irq(unsigned int irq)
{
u32 mask = gpio_irq_mask[irq - H3800_GPIO_IRQ_START];
H3800_ASIC2_GPIINTSTAT &= ~mask;
}
static void h3800_unmask_gpio_irq(unsigned int irq)
{
u32 mask = gpio_irq_mask[irq - H3800_GPIO_IRQ_START];
H3800_ASIC2_GPIINTSTAT |= mask;
}
static void __init h3800_init_irq(void)
{
int i;
/* Initialize standard IRQs */
sa1100_init_irq();
/* Disable all IRQs and set up clock */
H3800_ASIC2_KPIINTSTAT = 0; /* Disable all interrupts */
H3800_ASIC2_GPIINTSTAT = 0;
H3800_ASIC2_KPIINTCLR = 0; /* Clear all KPIO interrupts */
H3800_ASIC2_GPIINTCLR = 0; /* Clear all GPIO interrupts */
// H3800_ASIC2_KPIINTCLR = 0xffff; /* Clear all KPIO interrupts */
// H3800_ASIC2_GPIINTCLR = 0xffff; /* Clear all GPIO interrupts */
H3800_ASIC2_CLOCK_Enable |= ASIC2_CLOCK_EX0; /* 32 kHZ crystal on */
H3800_ASIC2_INTR_ClockPrescale |= ASIC2_INTCPS_SET;
H3800_ASIC2_INTR_ClockPrescale = ASIC2_INTCPS_CPS(0x0e) | ASIC2_INTCPS_SET;
H3800_ASIC2_INTR_TimerSet = 1;
#if 0
for (i = 0; i < H3800_KPIO_IRQ_COUNT; i++) {
int irq = i + H3800_KPIO_IRQ_START;
irq_desc[irq].valid = 1;
irq_desc[irq].probe_ok = 1;
set_irq_chip(irq, &h3800_kpio_irqchip);
}
for (i = 0; i < H3800_GPIO_IRQ_COUNT; i++) {
int irq = i + H3800_GPIO_IRQ_START;
irq_desc[irq].valid = 1;
irq_desc[irq].probe_ok = 1;
set_irq_chip(irq, &h3800_gpio_irqchip);
}
#endif
set_irq_type(IRQ_GPIO_H3800_ASIC, IRQ_TYPE_EDGE_RISING);
set_irq_chained_handler(IRQ_GPIO_H3800_ASIC, h3800_IRQ_demux);
}
#define ASIC1_OUTPUTS 0x7fff /* First 15 bits are used */
static void __init h3800_map_io(void)
{
h3xxx_map_io();
/* Add wakeup on AC plug/unplug */
PWER |= PWER_GPIO12;
/* Initialize h3800-specific values here */
GPCR = 0x0fffffff; /* All outputs are set low by default */
GAFR = GPIO_H3800_CLK_OUT |
GPIO_LDD15 | GPIO_LDD14 | GPIO_LDD13 | GPIO_LDD12 |
GPIO_LDD11 | GPIO_LDD10 | GPIO_LDD9 | GPIO_LDD8;
GPDR = GPIO_H3800_CLK_OUT |
GPIO_H3600_COM_RTS | GPIO_H3600_L3_CLOCK |
GPIO_H3600_L3_MODE | GPIO_H3600_L3_DATA |
GPIO_LDD15 | GPIO_LDD14 | GPIO_LDD13 | GPIO_LDD12 |
GPIO_LDD11 | GPIO_LDD10 | GPIO_LDD9 | GPIO_LDD8;
TUCR = TUCR_3_6864MHz; /* Seems to be used only for the Bluetooth UART */
/* Fix the memory bus */
MSC2 = (MSC2 & 0x0000ffff) | 0xE4510000;
/* Set up ASIC #1 */
H3800_ASIC1_GPIO_DIR = ASIC1_OUTPUTS; /* All outputs */
H3800_ASIC1_GPIO_MASK = ASIC1_OUTPUTS; /* No interrupts */
H3800_ASIC1_GPIO_SLEEP_MASK = ASIC1_OUTPUTS;
H3800_ASIC1_GPIO_SLEEP_DIR = ASIC1_OUTPUTS;
H3800_ASIC1_GPIO_SLEEP_OUT = GPIO1_EAR_ON_N;
H3800_ASIC1_GPIO_BATT_FAULT_DIR = ASIC1_OUTPUTS;
H3800_ASIC1_GPIO_BATT_FAULT_OUT = GPIO1_EAR_ON_N;
H3800_ASIC1_GPIO_OUT = GPIO1_IR_ON_N
| GPIO1_RS232_ON
| GPIO1_EAR_ON_N;
/* Set up ASIC #2 */
H3800_ASIC2_GPIOPIOD = GPIO2_IN_Y1_N | GPIO2_IN_X1_N;
H3800_ASIC2_GPOBFSTAT = GPIO2_IN_Y1_N | GPIO2_IN_X1_N;
H3800_ASIC2_GPIODIR = GPIO2_PEN_IRQ
| GPIO2_SD_DETECT
| GPIO2_EAR_IN_N
| GPIO2_USB_DETECT_N
| GPIO2_SD_CON_SLT;
/* TODO : Set sleep states & battery fault states */
/* Clear VPP Enable */
H3800_ASIC2_FlashWP_VPP_ON = 0;
ipaq_model_ops = h3800_model_ops;
}
MACHINE_START(H3800, "Compaq iPAQ H3800")
.phys_io = 0x80000000,
.io_pg_offst = ((0xf8000000) >> 18) & 0xfffc,
.boot_params = 0xc0000100,
.map_io = h3800_map_io,
.init_irq = h3800_init_irq,
.timer = &sa1100_timer,
.init_machine = h3xxx_mach_init,
MACHINE_END
#endif /* CONFIG_SA1100_H3800 */

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@ -29,7 +29,7 @@ typedef int __bitwise pm_request_t;
#define PM_RESUME ((__force pm_request_t) 2) /* enter D0 */
/* generalized support for H3xxx series Compaq Pocket PC's */
#define machine_is_h3xxx() (machine_is_h3100() || machine_is_h3600() || machine_is_h3800())
#define machine_is_h3xxx() (machine_is_h3100() || machine_is_h3600())
/* Physical memory regions corresponding to chip selects */
#define H3600_EGPIO_PHYS (SA1100_CS5_PHYS + 0x01000000)

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@ -48,22 +48,11 @@
#define GPIO_H3600_OPT_LOCK GPIO_GPIO (22)
#define GPIO_H3600_OPT_DET GPIO_GPIO (27)
/* H3800 specific pins */
#define GPIO_H3800_AC_IN GPIO_GPIO (12)
#define GPIO_H3800_COM_DSR GPIO_GPIO (13)
#define GPIO_H3800_MMC_INT GPIO_GPIO (18)
#define GPIO_H3800_NOPT_IND GPIO_GPIO (20) /* Almost exactly the same as GPIO_H3600_OPT_DET */
#define GPIO_H3800_OPT_BAT_FAULT GPIO_GPIO (22)
#define GPIO_H3800_CLK_OUT GPIO_GPIO (27)
/****************************************************/
#define IRQ_GPIO_H3600_ACTION_BUTTON IRQ_GPIO18
#define IRQ_GPIO_H3600_OPT_DET IRQ_GPIO27
#define IRQ_GPIO_H3800_MMC_INT IRQ_GPIO18
#define IRQ_GPIO_H3800_NOPT_IND IRQ_GPIO20 /* almost same as OPT_DET */
/* H3100 / 3600 EGPIO pins */
#define EGPIO_H3600_VPP_ON (1 << 0)
#define EGPIO_H3600_CARD_RESET (1 << 1) /* reset the attached pcmcia/compactflash card. active high. */
@ -84,457 +73,5 @@
#define EGPIO_H3600_LCD_5V_ON (1 << 14) /* enable 5V to LCD. active high. */
#define EGPIO_H3600_LVDD_ON (1 << 15) /* enable 9V and -6.5V to LCD. */
/********************* H3800, ASIC #2 ********************/
#define _H3800_ASIC2_Base (H3600_EGPIO_VIRT)
#define H3800_ASIC2_OFFSET(s,x,y) \
(*((volatile s *) (_H3800_ASIC2_Base + _H3800_ASIC2_ ## x ## _Base + _H3800_ASIC2_ ## x ## _ ## y)))
#define H3800_ASIC2_NOFFSET(s,x,n,y) \
(*((volatile s *) (_H3800_ASIC2_Base + _H3800_ASIC2_ ## x ## _ ## n ## _Base + _H3800_ASIC2_ ## x ## _ ## y)))
#define _H3800_ASIC2_GPIO_Base 0x0000
#define _H3800_ASIC2_GPIO_Direction 0x0000 /* R/W, 16 bits 1:input, 0:output */
#define _H3800_ASIC2_GPIO_InterruptType 0x0004 /* R/W, 12 bits 1:edge, 0:level */
#define _H3800_ASIC2_GPIO_InterruptEdgeType 0x0008 /* R/W, 12 bits 1:rising, 0:falling */
#define _H3800_ASIC2_GPIO_InterruptLevelType 0x000C /* R/W, 12 bits 1:high, 0:low */
#define _H3800_ASIC2_GPIO_InterruptClear 0x0010 /* W, 12 bits */
#define _H3800_ASIC2_GPIO_InterruptFlag 0x0010 /* R, 12 bits - reads int status */
#define _H3800_ASIC2_GPIO_Data 0x0014 /* R/W, 16 bits */
#define _H3800_ASIC2_GPIO_BattFaultOut 0x0018 /* R/W, 16 bit - sets level on batt fault */
#define _H3800_ASIC2_GPIO_InterruptEnable 0x001c /* R/W, 12 bits 1:enable interrupt */
#define _H3800_ASIC2_GPIO_Alternate 0x003c /* R/W, 12+1 bits - set alternate functions */
#define H3800_ASIC2_GPIO_Direction H3800_ASIC2_OFFSET( u16, GPIO, Direction )
#define H3800_ASIC2_GPIO_InterruptType H3800_ASIC2_OFFSET( u16, GPIO, InterruptType )
#define H3800_ASIC2_GPIO_InterruptEdgeType H3800_ASIC2_OFFSET( u16, GPIO, InterruptEdgeType )
#define H3800_ASIC2_GPIO_InterruptLevelType H3800_ASIC2_OFFSET( u16, GPIO, InterruptLevelType )
#define H3800_ASIC2_GPIO_InterruptClear H3800_ASIC2_OFFSET( u16, GPIO, InterruptClear )
#define H3800_ASIC2_GPIO_InterruptFlag H3800_ASIC2_OFFSET( u16, GPIO, InterruptFlag )
#define H3800_ASIC2_GPIO_Data H3800_ASIC2_OFFSET( u16, GPIO, Data )
#define H3800_ASIC2_GPIO_BattFaultOut H3800_ASIC2_OFFSET( u16, GPIO, BattFaultOut )
#define H3800_ASIC2_GPIO_InterruptEnable H3800_ASIC2_OFFSET( u16, GPIO, InterruptEnable )
#define H3800_ASIC2_GPIO_Alternate H3800_ASIC2_OFFSET( u16, GPIO, Alternate )
#define GPIO_H3800_ASIC2_IN_Y1_N (1 << 0) /* Output: Touchscreen Y1 */
#define GPIO_H3800_ASIC2_IN_X0 (1 << 1) /* Output: Touchscreen X0 */
#define GPIO_H3800_ASIC2_IN_Y0 (1 << 2) /* Output: Touchscreen Y0 */
#define GPIO_H3800_ASIC2_IN_X1_N (1 << 3) /* Output: Touchscreen X1 */
#define GPIO_H3800_ASIC2_BT_RST (1 << 4) /* Output: Bluetooth reset */
#define GPIO_H3800_ASIC2_PEN_IRQ (1 << 5) /* Input : Pen down */
#define GPIO_H3800_ASIC2_SD_DETECT (1 << 6) /* Input : SD detect */
#define GPIO_H3800_ASIC2_EAR_IN_N (1 << 7) /* Input : Audio jack plug inserted */
#define GPIO_H3800_ASIC2_OPT_PCM_RESET (1 << 8) /* Output: */
#define GPIO_H3800_ASIC2_OPT_RESET (1 << 9) /* Output: */
#define GPIO_H3800_ASIC2_USB_DETECT_N (1 << 10) /* Input : */
#define GPIO_H3800_ASIC2_SD_CON_SLT (1 << 11) /* Input : */
#define _H3800_ASIC2_KPIO_Base 0x0200
#define _H3800_ASIC2_KPIO_Direction 0x0000 /* R/W, 12 bits 1:input, 0:output */
#define _H3800_ASIC2_KPIO_InterruptType 0x0004 /* R/W, 12 bits 1:edge, 0:level */
#define _H3800_ASIC2_KPIO_InterruptEdgeType 0x0008 /* R/W, 12 bits 1:rising, 0:falling */
#define _H3800_ASIC2_KPIO_InterruptLevelType 0x000C /* R/W, 12 bits 1:high, 0:low */
#define _H3800_ASIC2_KPIO_InterruptClear 0x0010 /* W, 20 bits - 8 special */
#define _H3800_ASIC2_KPIO_InterruptFlag 0x0010 /* R, 20 bits - 8 special - reads int status */
#define _H3800_ASIC2_KPIO_Data 0x0014 /* R/W, 16 bits */
#define _H3800_ASIC2_KPIO_BattFaultOut 0x0018 /* R/W, 16 bit - sets level on batt fault */
#define _H3800_ASIC2_KPIO_InterruptEnable 0x001c /* R/W, 20 bits - 8 special */
#define _H3800_ASIC2_KPIO_Alternate 0x003c /* R/W, 6 bits */
#define H3800_ASIC2_KPIO_Direction H3800_ASIC2_OFFSET( u16, KPIO, Direction )
#define H3800_ASIC2_KPIO_InterruptType H3800_ASIC2_OFFSET( u16, KPIO, InterruptType )
#define H3800_ASIC2_KPIO_InterruptEdgeType H3800_ASIC2_OFFSET( u16, KPIO, InterruptEdgeType )
#define H3800_ASIC2_KPIO_InterruptLevelType H3800_ASIC2_OFFSET( u16, KPIO, InterruptLevelType )
#define H3800_ASIC2_KPIO_InterruptClear H3800_ASIC2_OFFSET( u32, KPIO, InterruptClear )
#define H3800_ASIC2_KPIO_InterruptFlag H3800_ASIC2_OFFSET( u32, KPIO, InterruptFlag )
#define H3800_ASIC2_KPIO_Data H3800_ASIC2_OFFSET( u16, KPIO, Data )
#define H3800_ASIC2_KPIO_BattFaultOut H3800_ASIC2_OFFSET( u16, KPIO, BattFaultOut )
#define H3800_ASIC2_KPIO_InterruptEnable H3800_ASIC2_OFFSET( u32, KPIO, InterruptEnable )
#define H3800_ASIC2_KPIO_Alternate H3800_ASIC2_OFFSET( u16, KPIO, Alternate )
#define H3800_ASIC2_KPIO_SPI_INT ( 1 << 16 )
#define H3800_ASIC2_KPIO_OWM_INT ( 1 << 17 )
#define H3800_ASIC2_KPIO_ADC_INT ( 1 << 18 )
#define H3800_ASIC2_KPIO_UART_0_INT ( 1 << 19 )
#define H3800_ASIC2_KPIO_UART_1_INT ( 1 << 20 )
#define H3800_ASIC2_KPIO_TIMER_0_INT ( 1 << 21 )
#define H3800_ASIC2_KPIO_TIMER_1_INT ( 1 << 22 )
#define H3800_ASIC2_KPIO_TIMER_2_INT ( 1 << 23 )
#define KPIO_H3800_ASIC2_RECORD_BTN_N (1 << 0) /* Record button */
#define KPIO_H3800_ASIC2_KEY_5W1_N (1 << 1) /* Keypad */
#define KPIO_H3800_ASIC2_KEY_5W2_N (1 << 2) /* */
#define KPIO_H3800_ASIC2_KEY_5W3_N (1 << 3) /* */
#define KPIO_H3800_ASIC2_KEY_5W4_N (1 << 4) /* */
#define KPIO_H3800_ASIC2_KEY_5W5_N (1 << 5) /* */
#define KPIO_H3800_ASIC2_KEY_LEFT_N (1 << 6) /* */
#define KPIO_H3800_ASIC2_KEY_RIGHT_N (1 << 7) /* */
#define KPIO_H3800_ASIC2_KEY_AP1_N (1 << 8) /* Old "Calendar" */
#define KPIO_H3800_ASIC2_KEY_AP2_N (1 << 9) /* Old "Schedule" */
#define KPIO_H3800_ASIC2_KEY_AP3_N (1 << 10) /* Old "Q" */
#define KPIO_H3800_ASIC2_KEY_AP4_N (1 << 11) /* Old "Undo" */
/* Alternate KPIO functions (set by default) */
#define KPIO_ALT_H3800_ASIC2_KEY_5W1_N (1 << 1) /* Action key */
#define KPIO_ALT_H3800_ASIC2_KEY_5W2_N (1 << 2) /* J1 of keypad input */
#define KPIO_ALT_H3800_ASIC2_KEY_5W3_N (1 << 3) /* J2 of keypad input */
#define KPIO_ALT_H3800_ASIC2_KEY_5W4_N (1 << 4) /* J3 of keypad input */
#define KPIO_ALT_H3800_ASIC2_KEY_5W5_N (1 << 5) /* J4 of keypad input */
#define _H3800_ASIC2_SPI_Base 0x0400
#define _H3800_ASIC2_SPI_Control 0x0000 /* R/W 8 bits */
#define _H3800_ASIC2_SPI_Data 0x0004 /* R/W 8 bits */
#define _H3800_ASIC2_SPI_ChipSelectDisabled 0x0008 /* W 8 bits */
#define H3800_ASIC2_SPI_Control H3800_ASIC2_OFFSET( u8, SPI, Control )
#define H3800_ASIC2_SPI_Data H3800_ASIC2_OFFSET( u8, SPI, Data )
#define H3800_ASIC2_SPI_ChipSelectDisabled H3800_ASIC2_OFFSET( u8, SPI, ChipSelectDisabled )
#define _H3800_ASIC2_PWM_0_Base 0x0600
#define _H3800_ASIC2_PWM_1_Base 0x0700
#define _H3800_ASIC2_PWM_TimeBase 0x0000 /* R/W 6 bits */
#define _H3800_ASIC2_PWM_PeriodTime 0x0004 /* R/W 12 bits */
#define _H3800_ASIC2_PWM_DutyTime 0x0008 /* R/W 12 bits */
#define H3800_ASIC2_PWM_0_TimeBase H3800_ASIC2_NOFFSET( u8, PWM, 0, TimeBase )
#define H3800_ASIC2_PWM_0_PeriodTime H3800_ASIC2_NOFFSET( u16, PWM, 0, PeriodTime )
#define H3800_ASIC2_PWM_0_DutyTime H3800_ASIC2_NOFFSET( u16, PWM, 0, DutyTime )
#define H3800_ASIC2_PWM_1_TimeBase H3800_ASIC2_NOFFSET( u8, PWM, 1, TimeBase )
#define H3800_ASIC2_PWM_1_PeriodTime H3800_ASIC2_NOFFSET( u16, PWM, 1, PeriodTime )
#define H3800_ASIC2_PWM_1_DutyTime H3800_ASIC2_NOFFSET( u16, PWM, 1, DutyTime )
#define H3800_ASIC2_PWM_TIMEBASE_MASK 0xf /* Low 4 bits sets time base, max = 8 */
#define H3800_ASIC2_PWM_TIMEBASE_ENABLE ( 1 << 4 ) /* Enable clock */
#define H3800_ASIC2_PWM_TIMEBASE_CLEAR ( 1 << 5 ) /* Clear the PWM */
#define _H3800_ASIC2_LED_0_Base 0x0800
#define _H3800_ASIC2_LED_1_Base 0x0880
#define _H3800_ASIC2_LED_2_Base 0x0900
#define _H3800_ASIC2_LED_TimeBase 0x0000 /* R/W 7 bits */
#define _H3800_ASIC2_LED_PeriodTime 0x0004 /* R/W 12 bits */
#define _H3800_ASIC2_LED_DutyTime 0x0008 /* R/W 12 bits */
#define _H3800_ASIC2_LED_AutoStopCount 0x000c /* R/W 16 bits */
#define H3800_ASIC2_LED_0_TimeBase H3800_ASIC2_NOFFSET( u8, LED, 0, TimeBase )
#define H3800_ASIC2_LED_0_PeriodTime H3800_ASIC2_NOFFSET( u16, LED, 0, PeriodTime )
#define H3800_ASIC2_LED_0_DutyTime H3800_ASIC2_NOFFSET( u16, LED, 0, DutyTime )
#define H3800_ASIC2_LED_0_AutoStopClock H3800_ASIC2_NOFFSET( u16, LED, 0, AutoStopClock )
#define H3800_ASIC2_LED_1_TimeBase H3800_ASIC2_NOFFSET( u8, LED, 1, TimeBase )
#define H3800_ASIC2_LED_1_PeriodTime H3800_ASIC2_NOFFSET( u16, LED, 1, PeriodTime )
#define H3800_ASIC2_LED_1_DutyTime H3800_ASIC2_NOFFSET( u16, LED, 1, DutyTime )
#define H3800_ASIC2_LED_1_AutoStopClock H3800_ASIC2_NOFFSET( u16, LED, 1, AutoStopClock )
#define H3800_ASIC2_LED_2_TimeBase H3800_ASIC2_NOFFSET( u8, LED, 2, TimeBase )
#define H3800_ASIC2_LED_2_PeriodTime H3800_ASIC2_NOFFSET( u16, LED, 2, PeriodTime )
#define H3800_ASIC2_LED_2_DutyTime H3800_ASIC2_NOFFSET( u16, LED, 2, DutyTime )
#define H3800_ASIC2_LED_2_AutoStopClock H3800_ASIC2_NOFFSET( u16, LED, 2, AutoStopClock )
#define H3800_ASIC2_LED_TIMEBASE_MASK 0x0f /* Low 4 bits sets time base, max = 13 */
#define H3800_ASIC2_LED_TIMEBASE_BLINK ( 1 << 4 ) /* Enable blinking */
#define H3800_ASIC2_LED_TIMEBASE_AUTOSTOP ( 1 << 5 )
#define H3800_ASIC2_LED_TIMEBASE_ALWAYS ( 1 << 6 ) /* Enable blink always */
#define _H3800_ASIC2_UART_0_Base 0x0A00
#define _H3800_ASIC2_UART_1_Base 0x0C00
#define _H3800_ASIC2_UART_Receive 0x0000 /* R 8 bits */
#define _H3800_ASIC2_UART_Transmit 0x0000 /* W 8 bits */
#define _H3800_ASIC2_UART_IntEnable 0x0004 /* R/W 8 bits */
#define _H3800_ASIC2_UART_IntVerify 0x0008 /* R/W 8 bits */
#define _H3800_ASIC2_UART_FIFOControl 0x000c /* R/W 8 bits */
#define _H3800_ASIC2_UART_LineControl 0x0010 /* R/W 8 bits */
#define _H3800_ASIC2_UART_ModemStatus 0x0014 /* R/W 8 bits */
#define _H3800_ASIC2_UART_LineStatus 0x0018 /* R/W 8 bits */
#define _H3800_ASIC2_UART_ScratchPad 0x001c /* R/W 8 bits */
#define _H3800_ASIC2_UART_DivisorLatchL 0x0020 /* R/W 8 bits */
#define _H3800_ASIC2_UART_DivisorLatchH 0x0024 /* R/W 8 bits */
#define H3800_ASIC2_UART_0_Receive H3800_ASIC2_NOFFSET( u8, UART, 0, Receive )
#define H3800_ASIC2_UART_0_Transmit H3800_ASIC2_NOFFSET( u8, UART, 0, Transmit )
#define H3800_ASIC2_UART_0_IntEnable H3800_ASIC2_NOFFSET( u8, UART, 0, IntEnable )
#define H3800_ASIC2_UART_0_IntVerify H3800_ASIC2_NOFFSET( u8, UART, 0, IntVerify )
#define H3800_ASIC2_UART_0_FIFOControl H3800_ASIC2_NOFFSET( u8, UART, 0, FIFOControl )
#define H3800_ASIC2_UART_0_LineControl H3800_ASIC2_NOFFSET( u8, UART, 0, LineControl )
#define H3800_ASIC2_UART_0_ModemStatus H3800_ASIC2_NOFFSET( u8, UART, 0, ModemStatus )
#define H3800_ASIC2_UART_0_LineStatus H3800_ASIC2_NOFFSET( u8, UART, 0, LineStatus )
#define H3800_ASIC2_UART_0_ScratchPad H3800_ASIC2_NOFFSET( u8, UART, 0, ScratchPad )
#define H3800_ASIC2_UART_0_DivisorLatchL H3800_ASIC2_NOFFSET( u8, UART, 0, DivisorLatchL )
#define H3800_ASIC2_UART_0_DivisorLatchH H3800_ASIC2_NOFFSET( u8, UART, 0, DivisorLatchH )
#define H3800_ASIC2_UART_1_Receive H3800_ASIC2_NOFFSET( u8, UART, 1, Receive )
#define H3800_ASIC2_UART_1_Transmit H3800_ASIC2_NOFFSET( u8, UART, 1, Transmit )
#define H3800_ASIC2_UART_1_IntEnable H3800_ASIC2_NOFFSET( u8, UART, 1, IntEnable )
#define H3800_ASIC2_UART_1_IntVerify H3800_ASIC2_NOFFSET( u8, UART, 1, IntVerify )
#define H3800_ASIC2_UART_1_FIFOControl H3800_ASIC2_NOFFSET( u8, UART, 1, FIFOControl )
#define H3800_ASIC2_UART_1_LineControl H3800_ASIC2_NOFFSET( u8, UART, 1, LineControl )
#define H3800_ASIC2_UART_1_ModemStatus H3800_ASIC2_NOFFSET( u8, UART, 1, ModemStatus )
#define H3800_ASIC2_UART_1_LineStatus H3800_ASIC2_NOFFSET( u8, UART, 1, LineStatus )
#define H3800_ASIC2_UART_1_ScratchPad H3800_ASIC2_NOFFSET( u8, UART, 1, ScratchPad )
#define H3800_ASIC2_UART_1_DivisorLatchL H3800_ASIC2_NOFFSET( u8, UART, 1, DivisorLatchL )
#define H3800_ASIC2_UART_1_DivisorLatchH H3800_ASIC2_NOFFSET( u8, UART, 1, DivisorLatchH )
#define _H3800_ASIC2_TIMER_Base 0x0E00
#define _H3800_ASIC2_TIMER_Command 0x0000 /* R/W 8 bits */
#define H3800_ASIC2_TIMER_Command H3800_ASIC2_OFFSET( u8, Timer, Command )
#define H3800_ASIC2_TIMER_GAT_0 ( 1 << 0 ) /* Gate enable, counter 0 */
#define H3800_ASIC2_TIMER_GAT_1 ( 1 << 1 ) /* Gate enable, counter 1 */
#define H3800_ASIC2_TIMER_GAT_2 ( 1 << 2 ) /* Gate enable, counter 2 */
#define H3800_ASIC2_TIMER_CLK_0 ( 1 << 3 ) /* Clock enable, counter 0 */
#define H3800_ASIC2_TIMER_CLK_1 ( 1 << 4 ) /* Clock enable, counter 1 */
#define H3800_ASIC2_TIMER_CLK_2 ( 1 << 5 ) /* Clock enable, counter 2 */
#define H3800_ASIC2_TIMER_MODE_0 ( 1 << 6 ) /* Mode 0 enable, counter 0 */
#define H3800_ASIC2_TIMER_MODE_1 ( 1 << 7 ) /* Mode 0 enable, counter 1 */
#define _H3800_ASIC2_CLOCK_Base 0x1000
#define _H3800_ASIC2_CLOCK_Enable 0x0000 /* R/W 18 bits */
#define H3800_ASIC2_CLOCK_Enable H3800_ASIC2_OFFSET( u32, CLOCK, Enable )
#define H3800_ASIC2_CLOCK_AUDIO_1 0x0001 /* Enable 4.1 MHz clock for 8Khz and 4khz sample rate */
#define H3800_ASIC2_CLOCK_AUDIO_2 0x0002 /* Enable 12.3 MHz clock for 48Khz and 32khz sample rate */
#define H3800_ASIC2_CLOCK_AUDIO_3 0x0004 /* Enable 5.6 MHz clock for 11 kHZ sample rate */
#define H3800_ASIC2_CLOCK_AUDIO_4 0x0008 /* Enable 11.289 MHz clock for 44 and 22 kHz sample rate */
#define H3800_ASIC2_CLOCK_ADC ( 1 << 4 ) /* 1.024 MHz clock to ADC */
#define H3800_ASIC2_CLOCK_SPI ( 1 << 5 ) /* 4.096 MHz clock to SPI */
#define H3800_ASIC2_CLOCK_OWM ( 1 << 6 ) /* 4.096 MHz clock to OWM */
#define H3800_ASIC2_CLOCK_PWM ( 1 << 7 ) /* 2.048 MHz clock to PWM */
#define H3800_ASIC2_CLOCK_UART_1 ( 1 << 8 ) /* 24.576 MHz clock to UART1 (turn off bit 16) */
#define H3800_ASIC2_CLOCK_UART_0 ( 1 << 9 ) /* 24.576 MHz clock to UART0 (turn off bit 17) */
#define H3800_ASIC2_CLOCK_SD_1 ( 1 << 10 ) /* 16.934 MHz to SD */
#define H3800_ASIC2_CLOCK_SD_2 ( 2 << 10 ) /* 24.576 MHz to SD */
#define H3800_ASIC2_CLOCK_SD_3 ( 3 << 10 ) /* 33.869 MHz to SD */
#define H3800_ASIC2_CLOCK_SD_4 ( 4 << 10 ) /* 49.152 MHz to SD */
#define H3800_ASIC2_CLOCK_EX0 ( 1 << 13 ) /* Enable 32.768 kHz crystal */
#define H3800_ASIC2_CLOCK_EX1 ( 1 << 14 ) /* Enable 24.576 MHz crystal */
#define H3800_ASIC2_CLOCK_EX2 ( 1 << 15 ) /* Enable 33.869 MHz crystal */
#define H3800_ASIC2_CLOCK_SLOW_UART_1 ( 1 << 16 ) /* Enable 3.686 MHz to UART1 (turn off bit 8) */
#define H3800_ASIC2_CLOCK_SLOW_UART_0 ( 1 << 17 ) /* Enable 3.686 MHz to UART0 (turn off bit 9) */
#define _H3800_ASIC2_ADC_Base 0x1200
#define _H3800_ASIC2_ADC_Multiplexer 0x0000 /* R/W 4 bits - low 3 bits set channel */
#define _H3800_ASIC2_ADC_ControlStatus 0x0004 /* R/W 8 bits */
#define _H3800_ASIC2_ADC_Data 0x0008 /* R 10 bits */
#define H3800_ASIC2_ADC_Multiplexer H3800_ASIC2_OFFSET( u8, ADC, Multiplexer )
#define H3800_ASIC2_ADC_ControlStatus H3800_ASIC2_OFFSET( u8, ADC, ControlStatus )
#define H3800_ASIC2_ADC_Data H3800_ASIC2_OFFSET( u16, ADC, Data )
#define H3600_ASIC2_ADC_MUX_CHANNEL_MASK 0x07 /* Low 3 bits sets channel. max = 4 */
#define H3600_ASIC2_ADC_MUX_CLKEN ( 1 << 3 ) /* Enable clock */
#define H3600_ASIC2_ADC_CSR_ADPS_MASK 0x0f /* Low 4 bits sets prescale, max = 8 */
#define H3600_ASIC2_ADC_CSR_FREE_RUN ( 1 << 4 )
#define H3600_ASIC2_ADC_CSR_INT_ENABLE ( 1 << 5 )
#define H3600_ASIC2_ADC_CSR_START ( 1 << 6 ) /* Set to start conversion. Goes to 0 when done */
#define H3600_ASIC2_ADC_CSR_ENABLE ( 1 << 7 ) /* 1:power up ADC, 0:power down */
#define _H3800_ASIC2_INTR_Base 0x1600
#define _H3800_ASIC2_INTR_MaskAndFlag 0x0000 /* R/(W) 8bits */
#define _H3800_ASIC2_INTR_ClockPrescale 0x0004 /* R/(W) 5bits */
#define _H3800_ASIC2_INTR_TimerSet 0x0008 /* R/(W) 8bits */
#define H3800_ASIC2_INTR_MaskAndFlag H3800_ASIC2_OFFSET( u8, INTR, MaskAndFlag )
#define H3800_ASIC2_INTR_ClockPrescale H3800_ASIC2_OFFSET( u8, INTR, ClockPrescale )
#define H3800_ASIC2_INTR_TimerSet H3800_ASIC2_OFFSET( u8, INTR, TimerSet )
#define H3800_ASIC2_INTR_GLOBAL_MASK ( 1 << 0 ) /* Global interrupt mask */
#define H3800_ASIC2_INTR_POWER_ON_RESET ( 1 << 1 ) /* 01: Power on reset (bits 1 & 2 ) */
#define H3800_ASIC2_INTR_EXTERNAL_RESET ( 2 << 1 ) /* 10: External reset (bits 1 & 2 ) */
#define H3800_ASIC2_INTR_MASK_UART_0 ( 1 << 4 )
#define H3800_ASIC2_INTR_MASK_UART_1 ( 1 << 5 )
#define H3800_ASIC2_INTR_MASK_TIMER ( 1 << 6 )
#define H3800_ASIC2_INTR_MASK_OWM ( 1 << 7 )
#define H3800_ASIC2_INTR_CLOCK_PRESCALE 0x0f /* 4 bits, max 14 */
#define H3800_ASIC2_INTR_SET ( 1 << 4 ) /* Time base enable */
#define _H3800_ASIC2_OWM_Base 0x1800
#define _H3800_ASIC2_OWM_Command 0x0000 /* R/W 4 bits command register */
#define _H3800_ASIC2_OWM_Data 0x0004 /* R/W 8 bits, transmit / receive buffer */
#define _H3800_ASIC2_OWM_Interrupt 0x0008 /* R/W Command register */
#define _H3800_ASIC2_OWM_InterruptEnable 0x000c /* R/W Command register */
#define _H3800_ASIC2_OWM_ClockDivisor 0x0010 /* R/W 5 bits of divisor and pre-scale */
#define H3800_ASIC2_OWM_Command H3800_ASIC2_OFFSET( u8, OWM, Command )
#define H3800_ASIC2_OWM_Data H3800_ASIC2_OFFSET( u8, OWM, Data )
#define H3800_ASIC2_OWM_Interrupt H3800_ASIC2_OFFSET( u8, OWM, Interrupt )
#define H3800_ASIC2_OWM_InterruptEnable H3800_ASIC2_OFFSET( u8, OWM, InterruptEnable )
#define H3800_ASIC2_OWM_ClockDivisor H3800_ASIC2_OFFSET( u8, OWM, ClockDivisor )
#define H3800_ASIC2_OWM_CMD_ONE_WIRE_RESET ( 1 << 0 ) /* Set to force reset on 1-wire bus */
#define H3800_ASIC2_OWM_CMD_SRA ( 1 << 1 ) /* Set to switch to Search ROM accelerator mode */
#define H3800_ASIC2_OWM_CMD_DQ_OUTPUT ( 1 << 2 ) /* Write only - forces bus low */
#define H3800_ASIC2_OWM_CMD_DQ_INPUT ( 1 << 3 ) /* Read only - reflects state of bus */
#define H3800_ASIC2_OWM_INT_PD ( 1 << 0 ) /* Presence detect */
#define H3800_ASIC2_OWM_INT_PDR ( 1 << 1 ) /* Presence detect result */
#define H3800_ASIC2_OWM_INT_TBE ( 1 << 2 ) /* Transmit buffer empty */
#define H3800_ASIC2_OWM_INT_TEMT ( 1 << 3 ) /* Transmit shift register empty */
#define H3800_ASIC2_OWM_INT_RBF ( 1 << 4 ) /* Receive buffer full */
#define H3800_ASIC2_OWM_INTEN_EPD ( 1 << 0 ) /* Enable receive buffer full interrupt */
#define H3800_ASIC2_OWM_INTEN_IAS ( 1 << 1 ) /* Enable transmit shift register empty interrupt */
#define H3800_ASIC2_OWM_INTEN_ETBE ( 1 << 2 ) /* Enable transmit buffer empty interrupt */
#define H3800_ASIC2_OWM_INTEN_ETMT ( 1 << 3 ) /* INTR active state */
#define H3800_ASIC2_OWM_INTEN_ERBF ( 1 << 4 ) /* Enable presence detect interrupt */
#define _H3800_ASIC2_FlashCtl_Base 0x1A00
/****************************************************/
/* H3800, ASIC #1
* This ASIC is accesed through ASIC #2, and
* mapped into the 1c00 - 1f00 region
*/
#define H3800_ASIC1_OFFSET(s,x,y) \
(*((volatile s *) (_H3800_ASIC2_Base + _H3800_ASIC1_ ## x ## _Base + (_H3800_ASIC1_ ## x ## _ ## y << 1))))
#define _H3800_ASIC1_MMC_Base 0x1c00
#define _H3800_ASIC1_MMC_StartStopClock 0x00 /* R/W 8bit */
#define _H3800_ASIC1_MMC_Status 0x02 /* R See below, default 0x0040 */
#define _H3800_ASIC1_MMC_ClockRate 0x04 /* R/W 8bit, low 3 bits are clock divisor */
#define _H3800_ASIC1_MMC_SPIRegister 0x08 /* R/W 8bit, see below */
#define _H3800_ASIC1_MMC_CmdDataCont 0x0a /* R/W 8bit, write to start MMC adapter */
#define _H3800_ASIC1_MMC_ResponseTimeout 0x0c /* R/W 8bit, clocks before response timeout */
#define _H3800_ASIC1_MMC_ReadTimeout 0x0e /* R/W 16bit, clocks before received data timeout */
#define _H3800_ASIC1_MMC_BlockLength 0x10 /* R/W 10bit */
#define _H3800_ASIC1_MMC_NumOfBlocks 0x12 /* R/W 16bit, in block mode, number of blocks */
#define _H3800_ASIC1_MMC_InterruptMask 0x1a /* R/W 8bit */
#define _H3800_ASIC1_MMC_CommandNumber 0x1c /* R/W 6 bits */
#define _H3800_ASIC1_MMC_ArgumentH 0x1e /* R/W 16 bits */
#define _H3800_ASIC1_MMC_ArgumentL 0x20 /* R/W 16 bits */
#define _H3800_ASIC1_MMC_ResFifo 0x22 /* R 8 x 16 bits - contains response FIFO */
#define _H3800_ASIC1_MMC_BufferPartFull 0x28 /* R/W 8 bits */
#define H3800_ASIC1_MMC_StartStopClock H3800_ASIC1_OFFSET( u8, MMC, StartStopClock )
#define H3800_ASIC1_MMC_Status H3800_ASIC1_OFFSET( u16, MMC, Status )
#define H3800_ASIC1_MMC_ClockRate H3800_ASIC1_OFFSET( u8, MMC, ClockRate )
#define H3800_ASIC1_MMC_SPIRegister H3800_ASIC1_OFFSET( u8, MMC, SPIRegister )
#define H3800_ASIC1_MMC_CmdDataCont H3800_ASIC1_OFFSET( u8, MMC, CmdDataCont )
#define H3800_ASIC1_MMC_ResponseTimeout H3800_ASIC1_OFFSET( u8, MMC, ResponseTimeout )
#define H3800_ASIC1_MMC_ReadTimeout H3800_ASIC1_OFFSET( u16, MMC, ReadTimeout )
#define H3800_ASIC1_MMC_BlockLength H3800_ASIC1_OFFSET( u16, MMC, BlockLength )
#define H3800_ASIC1_MMC_NumOfBlocks H3800_ASIC1_OFFSET( u16, MMC, NumOfBlocks )
#define H3800_ASIC1_MMC_InterruptMask H3800_ASIC1_OFFSET( u8, MMC, InterruptMask )
#define H3800_ASIC1_MMC_CommandNumber H3800_ASIC1_OFFSET( u8, MMC, CommandNumber )
#define H3800_ASIC1_MMC_ArgumentH H3800_ASIC1_OFFSET( u16, MMC, ArgumentH )
#define H3800_ASIC1_MMC_ArgumentL H3800_ASIC1_OFFSET( u16, MMC, ArgumentL )
#define H3800_ASIC1_MMC_ResFifo H3800_ASIC1_OFFSET( u16, MMC, ResFifo )
#define H3800_ASIC1_MMC_BufferPartFull H3800_ASIC1_OFFSET( u8, MMC, BufferPartFull )
#define H3800_ASIC1_MMC_STOP_CLOCK (1 << 0) /* Write to "StartStopClock" register */
#define H3800_ASIC1_MMC_START_CLOCK (1 << 1)
#define H3800_ASIC1_MMC_STATUS_READ_TIMEOUT (1 << 0)
#define H3800_ASIC1_MMC_STATUS_RESPONSE_TIMEOUT (1 << 1)
#define H3800_ASIC1_MMC_STATUS_CRC_WRITE_ERROR (1 << 2)
#define H3800_ASIC1_MMC_STATUS_CRC_READ_ERROR (1 << 3)
#define H3800_ASIC1_MMC_STATUS_SPI_READ_ERROR (1 << 4) /* SPI data token error received */
#define H3800_ASIC1_MMC_STATUS_CRC_RESPONSE_ERROR (1 << 5)
#define H3800_ASIC1_MMC_STATUS_FIFO_EMPTY (1 << 6)
#define H3800_ASIC1_MMC_STATUS_FIFO_FULL (1 << 7)
#define H3800_ASIC1_MMC_STATUS_CLOCK_ENABLE (1 << 8) /* MultiMediaCard clock stopped */
#define H3800_ASIC1_MMC_STATUS_DATA_TRANSFER_DONE (1 << 11) /* Write operation, indicates transfer finished */
#define H3800_ASIC1_MMC_STATUS_END_PROGRAM (1 << 12) /* End write and read operations */
#define H3800_ASIC1_MMC_STATUS_END_COMMAND_RESPONSE (1 << 13) /* End command response */
#define H3800_ASIC1_MMC_SPI_REG_SPI_ENABLE (1 << 0) /* Enables SPI mode */
#define H3800_ASIC1_MMC_SPI_REG_CRC_ON (1 << 1) /* 1:turn on CRC */
#define H3800_ASIC1_MMC_SPI_REG_SPI_CS_ENABLE (1 << 2) /* 1:turn on SPI CS */
#define H3800_ASIC1_MMC_SPI_REG_CS_ADDRESS_MASK 0x38 /* Bits 3,4,5 are the SPI CS relative address */
#define H3800_ASIC1_MMC_CMD_DATA_CONT_FORMAT_NO_RESPONSE 0x00
#define H3800_ASIC1_MMC_CMD_DATA_CONT_FORMAT_R1 0x01
#define H3800_ASIC1_MMC_CMD_DATA_CONT_FORMAT_R2 0x02
#define H3800_ASIC1_MMC_CMD_DATA_CONT_FORMAT_R3 0x03
#define H3800_ASIC1_MMC_CMD_DATA_CONT_DATA_ENABLE (1 << 2) /* This command contains a data transfer */
#define H3800_ASIC1_MMC_CMD_DATA_CONT_WRITE (1 << 3) /* This data transfer is a write */
#define H3800_ASIC1_MMC_CMD_DATA_CONT_STREAM_MODE (1 << 4) /* This data transfer is in stream mode */
#define H3800_ASIC1_MMC_CMD_DATA_CONT_BUSY_BIT (1 << 5) /* Busy signal expected after current cmd */
#define H3800_ASIC1_MMC_CMD_DATA_CONT_INITIALIZE (1 << 6) /* Enables the 80 bits for initializing card */
#define H3800_ASIC1_MMC_INT_MASK_DATA_TRANSFER_DONE (1 << 0)
#define H3800_ASIC1_MMC_INT_MASK_PROGRAM_DONE (1 << 1)
#define H3800_ASIC1_MMC_INT_MASK_END_COMMAND_RESPONSE (1 << 2)
#define H3800_ASIC1_MMC_INT_MASK_BUFFER_READY (1 << 3)
#define H3800_ASIC1_MMC_BUFFER_PART_FULL (1 << 0)
/********* GPIO **********/
#define _H3800_ASIC1_GPIO_Base 0x1e00
#define _H3800_ASIC1_GPIO_Mask 0x30 /* R/W 0:don't mask, 1:mask interrupt */
#define _H3800_ASIC1_GPIO_Direction 0x32 /* R/W 0:input, 1:output */
#define _H3800_ASIC1_GPIO_Out 0x34 /* R/W 0:output low, 1:output high */
#define _H3800_ASIC1_GPIO_TriggerType 0x36 /* R/W 0:level, 1:edge */
#define _H3800_ASIC1_GPIO_EdgeTrigger 0x38 /* R/W 0:falling, 1:rising */
#define _H3800_ASIC1_GPIO_LevelTrigger 0x3A /* R/W 0:low, 1:high level detect */
#define _H3800_ASIC1_GPIO_LevelStatus 0x3C /* R/W 0:none, 1:detect */
#define _H3800_ASIC1_GPIO_EdgeStatus 0x3E /* R/W 0:none, 1:detect */
#define _H3800_ASIC1_GPIO_State 0x40 /* R See masks below (default 0) */
#define _H3800_ASIC1_GPIO_Reset 0x42 /* R/W See masks below (default 0x04) */
#define _H3800_ASIC1_GPIO_SleepMask 0x44 /* R/W 0:don't mask, 1:mask trigger in sleep mode */
#define _H3800_ASIC1_GPIO_SleepDir 0x46 /* R/W direction 0:input, 1:output in sleep mode */
#define _H3800_ASIC1_GPIO_SleepOut 0x48 /* R/W level 0:low, 1:high in sleep mode */
#define _H3800_ASIC1_GPIO_Status 0x4A /* R Pin status */
#define _H3800_ASIC1_GPIO_BattFaultDir 0x4C /* R/W direction 0:input, 1:output in batt_fault */
#define _H3800_ASIC1_GPIO_BattFaultOut 0x4E /* R/W level 0:low, 1:high in batt_fault */
#define H3800_ASIC1_GPIO_Mask H3800_ASIC1_OFFSET( u16, GPIO, Mask )
#define H3800_ASIC1_GPIO_Direction H3800_ASIC1_OFFSET( u16, GPIO, Direction )
#define H3800_ASIC1_GPIO_Out H3800_ASIC1_OFFSET( u16, GPIO, Out )
#define H3800_ASIC1_GPIO_TriggerType H3800_ASIC1_OFFSET( u16, GPIO, TriggerType )
#define H3800_ASIC1_GPIO_EdgeTrigger H3800_ASIC1_OFFSET( u16, GPIO, EdgeTrigger )
#define H3800_ASIC1_GPIO_LevelTrigger H3800_ASIC1_OFFSET( u16, GPIO, LevelTrigger )
#define H3800_ASIC1_GPIO_LevelStatus H3800_ASIC1_OFFSET( u16, GPIO, LevelStatus )
#define H3800_ASIC1_GPIO_EdgeStatus H3800_ASIC1_OFFSET( u16, GPIO, EdgeStatus )
#define H3800_ASIC1_GPIO_State H3800_ASIC1_OFFSET( u8, GPIO, State )
#define H3800_ASIC1_GPIO_Reset H3800_ASIC1_OFFSET( u8, GPIO, Reset )
#define H3800_ASIC1_GPIO_SleepMask H3800_ASIC1_OFFSET( u16, GPIO, SleepMask )
#define H3800_ASIC1_GPIO_SleepDir H3800_ASIC1_OFFSET( u16, GPIO, SleepDir )
#define H3800_ASIC1_GPIO_SleepOut H3800_ASIC1_OFFSET( u16, GPIO, SleepOut )
#define H3800_ASIC1_GPIO_Status H3800_ASIC1_OFFSET( u16, GPIO, Status )
#define H3800_ASIC1_GPIO_BattFaultDir H3800_ASIC1_OFFSET( u16, GPIO, BattFaultDir )
#define H3800_ASIC1_GPIO_BattFaultOut H3800_ASIC1_OFFSET( u16, GPIO, BattFaultOut )
#define H3800_ASIC1_GPIO_STATE_MASK (1 << 0)
#define H3800_ASIC1_GPIO_STATE_DIRECTION (1 << 1)
#define H3800_ASIC1_GPIO_STATE_OUT (1 << 2)
#define H3800_ASIC1_GPIO_STATE_TRIGGER_TYPE (1 << 3)
#define H3800_ASIC1_GPIO_STATE_EDGE_TRIGGER (1 << 4)
#define H3800_ASIC1_GPIO_STATE_LEVEL_TRIGGER (1 << 5)
#define H3800_ASIC1_GPIO_RESET_SOFTWARE (1 << 0)
#define H3800_ASIC1_GPIO_RESET_AUTO_SLEEP (1 << 1)
#define H3800_ASIC1_GPIO_RESET_FIRST_PWR_ON (1 << 2)
/* These are all outputs */
#define GPIO_H3800_ASIC1_IR_ON_N (1 << 0) /* Apply power to the IR Module */
#define GPIO_H3800_ASIC1_SD_PWR_ON (1 << 1) /* Secure Digital power on */
#define GPIO_H3800_ASIC1_RS232_ON (1 << 2) /* Turn on power to the RS232 chip ? */
#define GPIO_H3800_ASIC1_PULSE_GEN (1 << 3) /* Goes to speaker / earphone */
#define GPIO_H3800_ASIC1_CH_TIMER (1 << 4) /* */
#define GPIO_H3800_ASIC1_LCD_5V_ON (1 << 5) /* Enables LCD_5V */
#define GPIO_H3800_ASIC1_LCD_ON (1 << 6) /* Enables LCD_3V */
#define GPIO_H3800_ASIC1_LCD_PCI (1 << 7) /* Connects to PDWN on LCD controller */
#define GPIO_H3800_ASIC1_VGH_ON (1 << 8) /* Drives VGH on the LCD (+9??) */
#define GPIO_H3800_ASIC1_VGL_ON (1 << 9) /* Drivers VGL on the LCD (-6??) */
#define GPIO_H3800_ASIC1_FL_PWR_ON (1 << 10) /* Frontlight power on */
#define GPIO_H3800_ASIC1_BT_PWR_ON (1 << 11) /* Bluetooth power on */
#define GPIO_H3800_ASIC1_SPK_ON (1 << 12) /* */
#define GPIO_H3800_ASIC1_EAR_ON_N (1 << 13) /* */
#define GPIO_H3800_ASIC1_AUD_PWR_ON (1 << 14) /* */
/* Write enable for the flash */
#define _H3800_ASIC1_FlashWP_Base 0x1F00
#define _H3800_ASIC1_FlashWP_VPP_ON 0x00 /* R 1: write, 0: protect */
#define H3800_ASIC1_FlashWP_VPP_ON H3800_ASIC1_OFFSET( u8, FlashWP, VPP_ON )
#endif /* _INCLUDE_H3600_GPIO_H_ */

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@ -153,8 +153,6 @@
*/
#ifdef CONFIG_SA1111
#define NR_IRQS (IRQ_S1_BVD1_STSCHG + 1)
#elif defined(CONFIG_SA1100_H3800)
#define NR_IRQS (IRQ_BOARD_END)
#elif defined(CONFIG_SHARP_LOCOMO)
#define NR_IRQS (IRQ_LOCOMO_SPI_TEND + 1)
#else
@ -175,23 +173,3 @@
#define IRQ_LOCOMO_LT_BASE (IRQ_BOARD_START + 2)
#define IRQ_LOCOMO_SPI_BASE (IRQ_BOARD_START + 3)
/* H3800-specific IRQs (CONFIG_SA1100_H3800) */
#define H3800_KPIO_IRQ_START (IRQ_BOARD_START)
#define IRQ_H3800_KEY (IRQ_BOARD_START + 0)
#define IRQ_H3800_SPI (IRQ_BOARD_START + 1)
#define IRQ_H3800_OWM (IRQ_BOARD_START + 2)
#define IRQ_H3800_ADC (IRQ_BOARD_START + 3)
#define IRQ_H3800_UART_0 (IRQ_BOARD_START + 4)
#define IRQ_H3800_UART_1 (IRQ_BOARD_START + 5)
#define IRQ_H3800_TIMER_0 (IRQ_BOARD_START + 6)
#define IRQ_H3800_TIMER_1 (IRQ_BOARD_START + 7)
#define IRQ_H3800_TIMER_2 (IRQ_BOARD_START + 8)
#define H3800_KPIO_IRQ_COUNT 9
#define H3800_GPIO_IRQ_START (IRQ_BOARD_START + 9)
#define IRQ_H3800_PEN (IRQ_BOARD_START + 9)
#define IRQ_H3800_SD_DETECT (IRQ_BOARD_START + 10)
#define IRQ_H3800_EAR_IN (IRQ_BOARD_START + 11)
#define IRQ_H3800_USB_DETECT (IRQ_BOARD_START + 12)
#define IRQ_H3800_SD_CON_SLT (IRQ_BOARD_START + 13)
#define H3800_GPIO_IRQ_COUNT 5

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@ -251,22 +251,6 @@ static struct sa1100fb_mach_info pal_info __initdata = {
#endif
#endif
#ifdef CONFIG_SA1100_H3800
static struct sa1100fb_mach_info h3800_info __initdata = {
.pixclock = 174757, .bpp = 16,
.xres = 320, .yres = 240,
.hsync_len = 3, .vsync_len = 3,
.left_margin = 12, .upper_margin = 10,
.right_margin = 17, .lower_margin = 1,
.cmap_static = 1,
.lccr0 = LCCR0_Color | LCCR0_Sngl | LCCR0_Act,
.lccr3 = LCCR3_OutEnH | LCCR3_PixRsEdg | LCCR3_ACBsDiv(2),
};
#endif
#ifdef CONFIG_SA1100_H3600
static struct sa1100fb_mach_info h3600_info __initdata = {
.pixclock = 174757, .bpp = 16,
@ -432,11 +416,6 @@ sa1100fb_get_machine_info(struct sa1100fb_info *fbi)
fbi->rgb[RGB_16] = &h3600_rgb_16;
}
#endif
#ifdef CONFIG_SA1100_H3800
if (machine_is_h3800()) {
inf = &h3800_info;
}
#endif
#ifdef CONFIG_SA1100_COLLIE
if (machine_is_collie()) {
inf = &collie_info;