kernel_samsung_a34x-permissive/arch/mips/txx9/rbtx4938/setup.c

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/*
* Setup pointers to hardware-dependent routines.
* Copyright (C) 2000-2001 Toshiba Corporation
*
* 2003-2005 (c) MontaVista Software, Inc. This file is licensed under the
* terms of the GNU General Public License version 2. This program is
* licensed "as is" without any warranty of any kind, whether express
* or implied.
*
* Support for TX4938 in 2.6 - Manish Lachwani (mlachwani@mvista.com)
*/
#include <linux/init.h>
#include <linux/types.h>
#include <linux/ioport.h>
#include <linux/delay.h>
#include <linux/platform_device.h>
#include <linux/gpio/driver.h>
#include <linux/gpio.h>
#include <linux/mtd/physmap.h>
#include <asm/reboot.h>
#include <asm/io.h>
#include <asm/txx9/generic.h>
#include <asm/txx9/pci.h>
#include <asm/txx9/rbtx4938.h>
#include <linux/spi/spi.h>
#include <asm/txx9/spi.h>
#include <asm/txx9pio.h>
static void rbtx4938_machine_restart(char *command)
{
local_irq_disable();
writeb(1, rbtx4938_softresetlock_addr);
writeb(1, rbtx4938_sfvol_addr);
writeb(1, rbtx4938_softreset_addr);
/* fallback */
(*_machine_halt)();
}
static void __init rbtx4938_pci_setup(void)
{
#ifdef CONFIG_PCI
int extarb = !(__raw_readq(&tx4938_ccfgptr->ccfg) & TX4938_CCFG_PCIARB);
struct pci_controller *c = &txx9_primary_pcic;
register_pci_controller(c);
if (__raw_readq(&tx4938_ccfgptr->ccfg) & TX4938_CCFG_PCI66)
txx9_pci_option =
(txx9_pci_option & ~TXX9_PCI_OPT_CLK_MASK) |
TXX9_PCI_OPT_CLK_66; /* already configured */
/* Reset PCI Bus */
writeb(0, rbtx4938_pcireset_addr);
/* Reset PCIC */
txx9_set64(&tx4938_ccfgptr->clkctr, TX4938_CLKCTR_PCIRST);
if ((txx9_pci_option & TXX9_PCI_OPT_CLK_MASK) ==
TXX9_PCI_OPT_CLK_66)
tx4938_pciclk66_setup();
mdelay(10);
/* clear PCIC reset */
txx9_clear64(&tx4938_ccfgptr->clkctr, TX4938_CLKCTR_PCIRST);
writeb(1, rbtx4938_pcireset_addr);
iob();
tx4938_report_pciclk();
tx4927_pcic_setup(tx4938_pcicptr, c, extarb);
if ((txx9_pci_option & TXX9_PCI_OPT_CLK_MASK) ==
TXX9_PCI_OPT_CLK_AUTO &&
txx9_pci66_check(c, 0, 0)) {
/* Reset PCI Bus */
writeb(0, rbtx4938_pcireset_addr);
/* Reset PCIC */
txx9_set64(&tx4938_ccfgptr->clkctr, TX4938_CLKCTR_PCIRST);
tx4938_pciclk66_setup();
mdelay(10);
/* clear PCIC reset */
txx9_clear64(&tx4938_ccfgptr->clkctr, TX4938_CLKCTR_PCIRST);
writeb(1, rbtx4938_pcireset_addr);
iob();
/* Reinitialize PCIC */
tx4938_report_pciclk();
tx4927_pcic_setup(tx4938_pcicptr, c, extarb);
}
if (__raw_readq(&tx4938_ccfgptr->pcfg) &
(TX4938_PCFG_ETH0_SEL|TX4938_PCFG_ETH1_SEL)) {
/* Reset PCIC1 */
txx9_set64(&tx4938_ccfgptr->clkctr, TX4938_CLKCTR_PCIC1RST);
/* PCI1DMD==0 => PCI1CLK==GBUSCLK/2 => PCI66 */
if (!(__raw_readq(&tx4938_ccfgptr->ccfg)
& TX4938_CCFG_PCI1DMD))
tx4938_ccfg_set(TX4938_CCFG_PCI1_66);
mdelay(10);
/* clear PCIC1 reset */
txx9_clear64(&tx4938_ccfgptr->clkctr, TX4938_CLKCTR_PCIC1RST);
tx4938_report_pci1clk();
/* mem:64K(max), io:64K(max) (enough for ETH0,ETH1) */
c = txx9_alloc_pci_controller(NULL, 0, 0x10000, 0, 0x10000);
register_pci_controller(c);
tx4927_pcic_setup(tx4938_pcic1ptr, c, 0);
}
tx4938_setup_pcierr_irq();
#endif /* CONFIG_PCI */
}
/* SPI support */
/* chip select for SPI devices */
#define SEEPROM1_CS 7 /* PIO7 */
#define SEEPROM2_CS 0 /* IOC */
#define SEEPROM3_CS 1 /* IOC */
#define SRTC_CS 2 /* IOC */
#define SPI_BUSNO 0
static int __init rbtx4938_ethaddr_init(void)
{
#ifdef CONFIG_PCI
unsigned char dat[17];
unsigned char sum;
int i;
/* 0-3: "MAC\0", 4-9:eth0, 10-15:eth1, 16:sum */
if (spi_eeprom_read(SPI_BUSNO, SEEPROM1_CS, 0, dat, sizeof(dat))) {
pr_err("seeprom: read error.\n");
return -ENODEV;
} else {
if (strcmp(dat, "MAC") != 0)
pr_warn("seeprom: bad signature.\n");
for (i = 0, sum = 0; i < sizeof(dat); i++)
sum += dat[i];
if (sum)
pr_warn("seeprom: bad checksum.\n");
}
tx4938_ethaddr_init(&dat[4], &dat[4 + 6]);
#endif /* CONFIG_PCI */
return 0;
}
static void __init rbtx4938_spi_setup(void)
{
/* set SPI_SEL */
txx9_set64(&tx4938_ccfgptr->pcfg, TX4938_PCFG_SPI_SEL);
}
static struct resource rbtx4938_fpga_resource;
static void __init rbtx4938_time_init(void)
{
tx4938_time_init(0);
}
static void __init rbtx4938_mem_setup(void)
{
unsigned long long pcfg;
if (txx9_master_clock == 0)
txx9_master_clock = 25000000; /* 25MHz */
tx4938_setup();
#ifdef CONFIG_PCI
txx9_alloc_pci_controller(&txx9_primary_pcic, 0, 0, 0, 0);
txx9_board_pcibios_setup = tx4927_pcibios_setup;
#else
set_io_port_base(RBTX4938_ETHER_BASE);
#endif
tx4938_sio_init(7372800, 0);
#ifdef CONFIG_TOSHIBA_RBTX4938_MPLEX_PIO58_61
pr_info("PIOSEL: disabling both ATA and NAND selection\n");
txx9_clear64(&tx4938_ccfgptr->pcfg,
TX4938_PCFG_NDF_SEL | TX4938_PCFG_ATA_SEL);
#endif
#ifdef CONFIG_TOSHIBA_RBTX4938_MPLEX_NAND
pr_info("PIOSEL: enabling NAND selection\n");
txx9_set64(&tx4938_ccfgptr->pcfg, TX4938_PCFG_NDF_SEL);
txx9_clear64(&tx4938_ccfgptr->pcfg, TX4938_PCFG_ATA_SEL);
#endif
#ifdef CONFIG_TOSHIBA_RBTX4938_MPLEX_ATA
pr_info("PIOSEL: enabling ATA selection\n");
txx9_set64(&tx4938_ccfgptr->pcfg, TX4938_PCFG_ATA_SEL);
txx9_clear64(&tx4938_ccfgptr->pcfg, TX4938_PCFG_NDF_SEL);
#endif
#ifdef CONFIG_TOSHIBA_RBTX4938_MPLEX_KEEP
pcfg = ____raw_readq(&tx4938_ccfgptr->pcfg);
pr_info("PIOSEL: NAND %s, ATA %s\n",
(pcfg & TX4938_PCFG_NDF_SEL) ? "enabled" : "disabled",
(pcfg & TX4938_PCFG_ATA_SEL) ? "enabled" : "disabled");
#endif
rbtx4938_spi_setup();
pcfg = ____raw_readq(&tx4938_ccfgptr->pcfg); /* updated */
/* fixup piosel */
if ((pcfg & (TX4938_PCFG_ATA_SEL | TX4938_PCFG_NDF_SEL)) ==
TX4938_PCFG_ATA_SEL)
writeb((readb(rbtx4938_piosel_addr) & 0x03) | 0x04,
rbtx4938_piosel_addr);
else if ((pcfg & (TX4938_PCFG_ATA_SEL | TX4938_PCFG_NDF_SEL)) ==
TX4938_PCFG_NDF_SEL)
writeb((readb(rbtx4938_piosel_addr) & 0x03) | 0x08,
rbtx4938_piosel_addr);
else
writeb(readb(rbtx4938_piosel_addr) & ~(0x08 | 0x04),
rbtx4938_piosel_addr);
rbtx4938_fpga_resource.name = "FPGA Registers";
rbtx4938_fpga_resource.start = CPHYSADDR(RBTX4938_FPGA_REG_ADDR);
rbtx4938_fpga_resource.end = CPHYSADDR(RBTX4938_FPGA_REG_ADDR) + 0xffff;
rbtx4938_fpga_resource.flags = IORESOURCE_MEM | IORESOURCE_BUSY;
if (request_resource(&txx9_ce_res[2], &rbtx4938_fpga_resource))
pr_err("request resource for fpga failed\n");
_machine_restart = rbtx4938_machine_restart;
writeb(0xff, rbtx4938_led_addr);
pr_info("RBTX4938 --- FPGA(Rev %02x) DIPSW:%02x,%02x\n",
readb(rbtx4938_fpga_rev_addr),
readb(rbtx4938_dipsw_addr), readb(rbtx4938_bdipsw_addr));
}
static void __init rbtx4938_ne_init(void)
{
struct resource res[] = {
{
.start = RBTX4938_RTL_8019_BASE,
.end = RBTX4938_RTL_8019_BASE + 0x20 - 1,
.flags = IORESOURCE_IO,
}, {
.start = RBTX4938_RTL_8019_IRQ,
.flags = IORESOURCE_IRQ,
}
};
platform_device_register_simple("ne", -1, res, ARRAY_SIZE(res));
}
static DEFINE_SPINLOCK(rbtx4938_spi_gpio_lock);
static void rbtx4938_spi_gpio_set(struct gpio_chip *chip, unsigned int offset,
int value)
{
u8 val;
unsigned long flags;
spin_lock_irqsave(&rbtx4938_spi_gpio_lock, flags);
val = readb(rbtx4938_spics_addr);
if (value)
val |= 1 << offset;
else
val &= ~(1 << offset);
writeb(val, rbtx4938_spics_addr);
mmiowb();
spin_unlock_irqrestore(&rbtx4938_spi_gpio_lock, flags);
}
static int rbtx4938_spi_gpio_dir_out(struct gpio_chip *chip,
unsigned int offset, int value)
{
rbtx4938_spi_gpio_set(chip, offset, value);
return 0;
}
static struct gpio_chip rbtx4938_spi_gpio_chip = {
.set = rbtx4938_spi_gpio_set,
.direction_output = rbtx4938_spi_gpio_dir_out,
.label = "RBTX4938-SPICS",
.base = 16,
.ngpio = 3,
};
static int __init rbtx4938_spi_init(void)
{
struct spi_board_info srtc_info = {
.modalias = "rtc-rs5c348",
.max_speed_hz = 1000000, /* 1.0Mbps @ Vdd 2.0V */
.bus_num = 0,
.chip_select = 16 + SRTC_CS,
/* Mode 1 (High-Active, Shift-Then-Sample), High Avtive CS */
.mode = SPI_MODE_1 | SPI_CS_HIGH,
};
spi_register_board_info(&srtc_info, 1);
spi_eeprom_register(SPI_BUSNO, SEEPROM1_CS, 128);
spi_eeprom_register(SPI_BUSNO, 16 + SEEPROM2_CS, 128);
spi_eeprom_register(SPI_BUSNO, 16 + SEEPROM3_CS, 128);
gpio_request(16 + SRTC_CS, "rtc-rs5c348");
gpio_direction_output(16 + SRTC_CS, 0);
gpio_request(SEEPROM1_CS, "seeprom1");
gpio_direction_output(SEEPROM1_CS, 1);
gpio_request(16 + SEEPROM2_CS, "seeprom2");
gpio_direction_output(16 + SEEPROM2_CS, 1);
gpio_request(16 + SEEPROM3_CS, "seeprom3");
gpio_direction_output(16 + SEEPROM3_CS, 1);
tx4938_spi_init(SPI_BUSNO);
return 0;
}
static void __init rbtx4938_mtd_init(void)
{
struct physmap_flash_data pdata = {
.width = 4,
};
switch (readb(rbtx4938_bdipsw_addr) & 7) {
case 0:
/* Boot */
txx9_physmap_flash_init(0, 0x1fc00000, 0x400000, &pdata);
/* System */
txx9_physmap_flash_init(1, 0x1e000000, 0x1000000, &pdata);
break;
case 1:
/* System */
txx9_physmap_flash_init(0, 0x1f000000, 0x1000000, &pdata);
/* Boot */
txx9_physmap_flash_init(1, 0x1ec00000, 0x400000, &pdata);
break;
case 2:
/* Ext */
txx9_physmap_flash_init(0, 0x1f000000, 0x1000000, &pdata);
/* System */
txx9_physmap_flash_init(1, 0x1e000000, 0x1000000, &pdata);
/* Boot */
txx9_physmap_flash_init(2, 0x1dc00000, 0x400000, &pdata);
break;
case 3:
/* Boot */
txx9_physmap_flash_init(1, 0x1bc00000, 0x400000, &pdata);
/* System */
txx9_physmap_flash_init(2, 0x1a000000, 0x1000000, &pdata);
break;
}
}
static void __init rbtx4938_arch_init(void)
{
txx9_gpio_init(TX4938_PIO_REG & 0xfffffffffULL, 0, TX4938_NUM_PIO);
gpiochip_add_data(&rbtx4938_spi_gpio_chip, NULL);
rbtx4938_pci_setup();
rbtx4938_spi_init();
}
static void __init rbtx4938_device_init(void)
{
rbtx4938_ethaddr_init();
rbtx4938_ne_init();
tx4938_wdt_init();
rbtx4938_mtd_init();
/* TC58DVM82A1FT: tDH=10ns, tWP=tRP=tREADID=35ns */
tx4938_ndfmc_init(10, 35);
tx4938_ata_init(RBTX4938_IRQ_IOC_ATA, 0, 1);
tx4938_dmac_init(0, 2);
tx4938_aclc_init();
platform_device_register_simple("txx9aclc-generic", -1, NULL, 0);
tx4938_sramc_init();
txx9_iocled_init(RBTX4938_LED_ADDR - IO_BASE, -1, 8, 1, "green", NULL);
}
struct txx9_board_vec rbtx4938_vec __initdata = {
.system = "Toshiba RBTX4938",
.prom_init = rbtx4938_prom_init,
.mem_setup = rbtx4938_mem_setup,
.irq_setup = rbtx4938_irq_setup,
.time_init = rbtx4938_time_init,
.device_init = rbtx4938_device_init,
.arch_init = rbtx4938_arch_init,
#ifdef CONFIG_PCI
.pci_map_irq = rbtx4938_pci_map_irq,
#endif
};