acrn-kernel/arch/sh64/mach-cayman/setup.c

240 lines
6.7 KiB
C

/*
* This file is subject to the terms and conditions of the GNU General Public
* License. See the file "COPYING" in the main directory of this archive
* for more details.
*
* arch/sh64/mach-cayman/setup.c
*
* SH5 Cayman support
*
* This file handles the architecture-dependent parts of initialization
*
* Copyright David J. Mckay.
* Needs major work!
*
* benedict.gaster@superh.com: 3rd May 2002
* Added support for ramdisk, removing statically linked romfs at the same time.
*
* lethal@linux-sh.org: 15th May 2003
* Use the generic procfs cpuinfo interface, just return a valid board name.
*/
#include <linux/init.h>
#include <linux/kernel.h>
#include <asm/platform.h>
#include <asm/irq.h>
#include <asm/io.h>
/*
* Platform Dependent Interrupt Priorities.
*/
/* Using defaults defined in irq.h */
#define RES NO_PRIORITY /* Disabled */
#define IR0 IRL0_PRIORITY /* IRLs */
#define IR1 IRL1_PRIORITY
#define IR2 IRL2_PRIORITY
#define IR3 IRL3_PRIORITY
#define PCA INTA_PRIORITY /* PCI Ints */
#define PCB INTB_PRIORITY
#define PCC INTC_PRIORITY
#define PCD INTD_PRIORITY
#define SER TOP_PRIORITY
#define ERR TOP_PRIORITY
#define PW0 TOP_PRIORITY
#define PW1 TOP_PRIORITY
#define PW2 TOP_PRIORITY
#define PW3 TOP_PRIORITY
#define DM0 NO_PRIORITY /* DMA Ints */
#define DM1 NO_PRIORITY
#define DM2 NO_PRIORITY
#define DM3 NO_PRIORITY
#define DAE NO_PRIORITY
#define TU0 TIMER_PRIORITY /* TMU Ints */
#define TU1 NO_PRIORITY
#define TU2 NO_PRIORITY
#define TI2 NO_PRIORITY
#define ATI NO_PRIORITY /* RTC Ints */
#define PRI NO_PRIORITY
#define CUI RTC_PRIORITY
#define ERI SCIF_PRIORITY /* SCIF Ints */
#define RXI SCIF_PRIORITY
#define BRI SCIF_PRIORITY
#define TXI SCIF_PRIORITY
#define ITI TOP_PRIORITY /* WDT Ints */
/* Setup for the SMSC FDC37C935 */
#define SMSC_SUPERIO_BASE 0x04000000
#define SMSC_CONFIG_PORT_ADDR 0x3f0
#define SMSC_INDEX_PORT_ADDR SMSC_CONFIG_PORT_ADDR
#define SMSC_DATA_PORT_ADDR 0x3f1
#define SMSC_ENTER_CONFIG_KEY 0x55
#define SMSC_EXIT_CONFIG_KEY 0xaa
#define SMCS_LOGICAL_DEV_INDEX 0x07
#define SMSC_DEVICE_ID_INDEX 0x20
#define SMSC_DEVICE_REV_INDEX 0x21
#define SMSC_ACTIVATE_INDEX 0x30
#define SMSC_PRIMARY_BASE_INDEX 0x60
#define SMSC_SECONDARY_BASE_INDEX 0x62
#define SMSC_PRIMARY_INT_INDEX 0x70
#define SMSC_SECONDARY_INT_INDEX 0x72
#define SMSC_IDE1_DEVICE 1
#define SMSC_KEYBOARD_DEVICE 7
#define SMSC_CONFIG_REGISTERS 8
#define SMSC_SUPERIO_READ_INDEXED(index) ({ \
outb((index), SMSC_INDEX_PORT_ADDR); \
inb(SMSC_DATA_PORT_ADDR); })
#define SMSC_SUPERIO_WRITE_INDEXED(val, index) ({ \
outb((index), SMSC_INDEX_PORT_ADDR); \
outb((val), SMSC_DATA_PORT_ADDR); })
#define IDE1_PRIMARY_BASE 0x01f0
#define IDE1_SECONDARY_BASE 0x03f6
unsigned long smsc_superio_virt;
/*
* Platform dependent structures: maps and parms block.
*/
struct resource io_resources[] = {
/* To be updated with external devices */
};
struct resource kram_resources[] = {
/* These must be last in the array */
{ .name = "Kernel code", .start = 0, .end = 0 },
/* These must be last in the array */
{ .name = "Kernel data", .start = 0, .end = 0 }
};
struct resource xram_resources[] = {
/* To be updated with external devices */
};
struct resource rom_resources[] = {
/* To be updated with external devices */
};
struct sh64_platform platform_parms = {
.readonly_rootfs = 1,
.initial_root_dev = 0x0100,
.loader_type = 1,
.io_res_p = io_resources,
.io_res_count = ARRAY_SIZE(io_resources),
.kram_res_p = kram_resources,
.kram_res_count = ARRAY_SIZE(kram_resources),
.xram_res_p = xram_resources,
.xram_res_count = ARRAY_SIZE(xram_resources),
.rom_res_p = rom_resources,
.rom_res_count = ARRAY_SIZE(rom_resources),
};
int platform_int_priority[NR_INTC_IRQS] = {
IR0, IR1, IR2, IR3, PCA, PCB, PCC, PCD, /* IRQ 0- 7 */
RES, RES, RES, RES, SER, ERR, PW3, PW2, /* IRQ 8-15 */
PW1, PW0, DM0, DM1, DM2, DM3, DAE, RES, /* IRQ 16-23 */
RES, RES, RES, RES, RES, RES, RES, RES, /* IRQ 24-31 */
TU0, TU1, TU2, TI2, ATI, PRI, CUI, ERI, /* IRQ 32-39 */
RXI, BRI, TXI, RES, RES, RES, RES, RES, /* IRQ 40-47 */
RES, RES, RES, RES, RES, RES, RES, RES, /* IRQ 48-55 */
RES, RES, RES, RES, RES, RES, RES, ITI, /* IRQ 56-63 */
};
static int __init smsc_superio_setup(void)
{
unsigned char devid, devrev;
smsc_superio_virt = onchip_remap(SMSC_SUPERIO_BASE, 1024, "SMSC SuperIO");
if (!smsc_superio_virt) {
panic("Unable to remap SMSC SuperIO\n");
}
/* Initially the chip is in run state */
/* Put it into configuration state */
outb(SMSC_ENTER_CONFIG_KEY, SMSC_CONFIG_PORT_ADDR);
outb(SMSC_ENTER_CONFIG_KEY, SMSC_CONFIG_PORT_ADDR);
/* Read device ID info */
devid = SMSC_SUPERIO_READ_INDEXED(SMSC_DEVICE_ID_INDEX);
devrev = SMSC_SUPERIO_READ_INDEXED(SMSC_DEVICE_REV_INDEX);
printk("SMSC SuperIO devid %02x rev %02x\n", devid, devrev);
/* Select the keyboard device */
SMSC_SUPERIO_WRITE_INDEXED(SMSC_KEYBOARD_DEVICE, SMCS_LOGICAL_DEV_INDEX);
/* enable it */
SMSC_SUPERIO_WRITE_INDEXED(1, SMSC_ACTIVATE_INDEX);
/* Select the interrupts */
/* On a PC keyboard is IRQ1, mouse is IRQ12 */
SMSC_SUPERIO_WRITE_INDEXED(1, SMSC_PRIMARY_INT_INDEX);
SMSC_SUPERIO_WRITE_INDEXED(12, SMSC_SECONDARY_INT_INDEX);
#ifdef CONFIG_IDE
/*
* Only IDE1 exists on the Cayman
*/
/* Power it on */
SMSC_SUPERIO_WRITE_INDEXED(1 << SMSC_IDE1_DEVICE, 0x22);
SMSC_SUPERIO_WRITE_INDEXED(SMSC_IDE1_DEVICE, SMCS_LOGICAL_DEV_INDEX);
SMSC_SUPERIO_WRITE_INDEXED(1, SMSC_ACTIVATE_INDEX);
SMSC_SUPERIO_WRITE_INDEXED(IDE1_PRIMARY_BASE >> 8,
SMSC_PRIMARY_BASE_INDEX + 0);
SMSC_SUPERIO_WRITE_INDEXED(IDE1_PRIMARY_BASE & 0xff,
SMSC_PRIMARY_BASE_INDEX + 1);
SMSC_SUPERIO_WRITE_INDEXED(IDE1_SECONDARY_BASE >> 8,
SMSC_SECONDARY_BASE_INDEX + 0);
SMSC_SUPERIO_WRITE_INDEXED(IDE1_SECONDARY_BASE & 0xff,
SMSC_SECONDARY_BASE_INDEX + 1);
SMSC_SUPERIO_WRITE_INDEXED(14, SMSC_PRIMARY_INT_INDEX);
SMSC_SUPERIO_WRITE_INDEXED(SMSC_CONFIG_REGISTERS,
SMCS_LOGICAL_DEV_INDEX);
SMSC_SUPERIO_WRITE_INDEXED(0x00, 0xc2); /* GP42 = nIDE1_OE */
SMSC_SUPERIO_WRITE_INDEXED(0x01, 0xc5); /* GP45 = IDE1_IRQ */
SMSC_SUPERIO_WRITE_INDEXED(0x00, 0xc6); /* GP46 = nIOROP */
SMSC_SUPERIO_WRITE_INDEXED(0x00, 0xc7); /* GP47 = nIOWOP */
#endif
/* Exit the configuration state */
outb(SMSC_EXIT_CONFIG_KEY, SMSC_CONFIG_PORT_ADDR);
return 0;
}
/* This is grotty, but, because kernel is always referenced on the link line
* before any devices, this is safe.
*/
__initcall(smsc_superio_setup);
void __init platform_setup(void)
{
/* Cayman platform leaves the decision to head.S, for now */
platform_parms.fpu_flags = fpu_in_use;
}
void __init platform_monitor(void)
{
/* Nothing yet .. */
}
void __init platform_reserve(void)
{
/* Nothing yet .. */
}
const char *get_system_type(void)
{
return "Hitachi Cayman";
}