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/*
* 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.
*
* Copyright (C) 2003 Atheros Communications, Inc., All Rights Reserved.
* Copyright (C) 2006 FON Technology, SL.
* Copyright (C) 2006 Imre Kaloz <kaloz@openwrt.org>
* Copyright (C) 2006 Felix Fietkau <nbd@openwrt.org>
*/
/*
* Platform devices for Atheros SoCs
*/
#include <linux/autoconf.h>
#include <linux/init.h>
#include <linux/module.h>
#include <linux/types.h>
#include <linux/string.h>
#include <linux/platform_device.h>
#include <linux/kernel.h>
#include <linux/reboot.h>
#include <asm/bootinfo.h>
#include <asm/reboot.h>
#include <asm/time.h>
#include <asm/irq.h>
#include <asm/io.h>
#include "ar531x.h"
static int is_5315 = 0;
static struct resource ar5315_eth_res[] = {
{
.name = "eth0_membase",
.flags = IORESOURCE_MEM,
.start = AR5315_ENET0,
.end = AR5315_ENET0 + 0x2000,
},
{
.name = "eth0_irq",
.flags = IORESOURCE_IRQ,
.start = AR5315_IRQ_ENET0_INTRS,
.end = AR5315_IRQ_ENET0_INTRS,
},
};
static struct ar531x_eth ar5315_eth_data = {
.phy = 1,
.mac = 0,
.reset_base = AR5315_RESET,
.reset_mac = AR5315_RESET_ENET0,
.reset_phy = AR5315_RESET_EPHY0,
.phy_base = AR5315_ENET0
};
static struct platform_device ar5315_eth = {
.id = 0,
.name = "ar531x-eth",
.dev.platform_data = &ar5315_eth_data,
.resource = ar5315_eth_res,
.num_resources = ARRAY_SIZE(ar5315_eth_res)
};
static struct platform_device ar5315_wmac = {
.id = 0,
.name = "ar531x-wmac",
/* FIXME: add resources */
};
static struct resource ar5315_spiflash_res[] = {
{
.name = "flash_base",
.flags = IORESOURCE_MEM,
.start = KSEG1ADDR(AR5315_SPI_READ),
.end = KSEG1ADDR(AR5315_SPI_READ) + 0x800000,
},
{
.name = "flash_regs",
.flags = IORESOURCE_MEM,
.start = 0x11300000,
.end = 0x11300012,
},
};
static struct platform_device ar5315_spiflash = {
.id = 0,
.name = "spiflash",
.resource = ar5315_spiflash_res,
.num_resources = ARRAY_SIZE(ar5315_spiflash_res)
};
static __initdata struct platform_device *ar5315_devs[4];
static void *flash_regs;
static inline __u32 spiflash_regread32(int reg)
{
volatile __u32 *data = (__u32 *)(flash_regs + reg);
return (*data);
}
static inline void spiflash_regwrite32(int reg, __u32 data)
{
volatile __u32 *addr = (__u32 *)(flash_regs + reg);
*addr = data;
}
#define SPI_FLASH_CTL 0x00
#define SPI_FLASH_OPCODE 0x04
#define SPI_FLASH_DATA 0x08
static __u8 spiflash_probe(void)
{
__u32 reg;
do {
reg = spiflash_regread32(SPI_FLASH_CTL);
} while (reg & SPI_CTL_BUSY);
spiflash_regwrite32(SPI_FLASH_OPCODE, 0xab);
reg = (reg & ~SPI_CTL_TX_RX_CNT_MASK) | 4 |
(1 << 4) | SPI_CTL_START;
spiflash_regwrite32(SPI_FLASH_CTL, reg);
do {
reg = spiflash_regread32(SPI_FLASH_CTL);
} while (reg & SPI_CTL_BUSY);
reg = (__u32) spiflash_regread32(SPI_FLASH_DATA);
reg &= 0xff;
return (u8) reg;
}
#define STM_8MBIT_SIGNATURE 0x13
#define STM_16MBIT_SIGNATURE 0x14
#define STM_32MBIT_SIGNATURE 0x15
#define STM_64MBIT_SIGNATURE 0x16
#define STM_128MBIT_SIGNATURE 0x17
static char __init *ar5315_flash_limit(void)
{
u8 sig;
u32 flash_size = 0;
/* probe the flash chip size */
flash_regs = ioremap_nocache(ar5315_spiflash_res[1].start, ar5315_spiflash_res[1].end - ar5315_spiflash_res[1].start);
sig = spiflash_probe();
iounmap(flash_regs);
switch(sig) {
case STM_8MBIT_SIGNATURE:
flash_size = 0x00100000;
break;
case STM_16MBIT_SIGNATURE:
flash_size = 0x00200000;
break;
case STM_32MBIT_SIGNATURE:
flash_size = 0x00400000;
break;
case STM_64MBIT_SIGNATURE:
flash_size = 0x00800000;
break;
case STM_128MBIT_SIGNATURE:
flash_size = 0x01000000;
break;
}
ar5315_spiflash_res[0].end = ar5315_spiflash_res[0].start + flash_size;
return (char *) ar5315_spiflash_res[0].end;
}
int __init ar5315_init_devices(void)
{
struct ar531x_config *config;
struct ar531x_boarddata *bcfg;
u32 devid;
int dev = 0;
if (!is_5315)
return 0;
/* Find board configuration */
ar531x_find_config(ar5315_flash_limit());
bcfg = (struct ar531x_boarddata *) board_config;
#if 0
/* Detect the hardware based on the device ID */
devid = sysRegRead(AR5315_SREV) & AR5315_REV_MAJ >> AR5315_REV_MAJ_S;
switch(devid) {
case 0x9:
mips_machtype = MACH_ATHEROS_AR2317;
break;
/* FIXME: how can we detect AR2316? */
case 0x8:
default:
mips_machtype = MACH_ATHEROS_AR2315;
break;
}
#endif
config = (struct ar531x_config *) kzalloc(sizeof(struct ar531x_config), GFP_KERNEL);
config->board = board_config;
config->radio = radio_config;
config->unit = 0;
config->tag = (u_int16_t) (sysRegRead(AR5315_SREV) & AR5315_REV_CHIP);
ar5315_eth_data.board_config = board_config;
ar5315_eth_data.macaddr = bcfg->enet0Mac;
ar5315_wmac.dev.platform_data = config;
ar5315_devs[dev++] = &ar5315_eth;
ar5315_devs[dev++] = &ar5315_wmac;
ar5315_devs[dev++] = &ar5315_spiflash;
return platform_add_devices(ar5315_devs, dev);
}
/*
* Called when an interrupt is received, this function
* determines exactly which interrupt it was, and it
* invokes the appropriate handler.
*
* Implicitly, we also define interrupt priority by
* choosing which to dispatch first.
*/
asmlinkage void ar5315_irq_dispatch(void)
{
int pending = read_c0_status() & read_c0_cause();
if (pending & CAUSEF_IP3)
do_IRQ(AR5315_IRQ_WLAN0_INTRS);
else if (pending & CAUSEF_IP4)
do_IRQ(AR5315_IRQ_ENET0_INTRS);
else if (pending & CAUSEF_IP2) {
unsigned int ar531x_misc_intrs = sysRegRead(AR5315_ISR) & sysRegRead(AR5315_IMR);
if (ar531x_misc_intrs & AR5315_ISR_TIMER)
do_IRQ(AR531X_MISC_IRQ_TIMER);
else if (ar531x_misc_intrs & AR5315_ISR_AHB)
do_IRQ(AR531X_MISC_IRQ_AHB_PROC);
else if (ar531x_misc_intrs & AR5315_ISR_GPIO) {
sysRegWrite(AR5315_ISR, sysRegRead(AR5315_IMR) | ~AR5315_ISR_GPIO);
} else if (ar531x_misc_intrs & AR5315_ISR_UART0)
do_IRQ(AR531X_MISC_IRQ_UART0);
else if (ar531x_misc_intrs & AR5315_ISR_WD)
do_IRQ(AR531X_MISC_IRQ_WATCHDOG);
else
do_IRQ(AR531X_MISC_IRQ_NONE);
} else if (pending & CAUSEF_IP7)
do_IRQ(AR531X_IRQ_CPU_CLOCK);
else
do_IRQ(AR531X_IRQ_NONE);
}
static void ar5315_halt(void)
{
while (1);
}
static void ar5315_power_off(void)
{
ar5315_halt();
}
static void ar5315_restart(char *command)
{
unsigned int reg;
for(;;) {
/* reset the system */
sysRegWrite(AR5315_COLD_RESET,AR5317_RESET_SYSTEM);
/*
* Cold reset does not work on the AR2315/6, use the GPIO reset bits a workaround.
*/
reg = sysRegRead(AR5315_GPIO_DO);
reg &= ~(1 << AR5315_RESET_GPIO);
sysRegWrite(AR5315_GPIO_DO, reg);
(void)sysRegRead(AR5315_GPIO_DO); /* flush write to hardware */
}
}
/*
* This table is indexed by bits 5..4 of the CLOCKCTL1 register
* to determine the predevisor value.
*/
static int __initdata CLOCKCTL1_PREDIVIDE_TABLE[4] = {
1,
2,
4,
5
};
static int __initdata PLLC_DIVIDE_TABLE[5] = {
2,
3,
4,
6,
3
};
static unsigned int __init
ar5315_sys_clk(unsigned int clockCtl)
{
unsigned int pllcCtrl,cpuDiv;
unsigned int pllcOut,refdiv,fdiv,divby2;
unsigned int clkDiv;
pllcCtrl = sysRegRead(AR5315_PLLC_CTL);
refdiv = (pllcCtrl & PLLC_REF_DIV_M) >> PLLC_REF_DIV_S;
refdiv = CLOCKCTL1_PREDIVIDE_TABLE[refdiv];
fdiv = (pllcCtrl & PLLC_FDBACK_DIV_M) >> PLLC_FDBACK_DIV_S;
divby2 = (pllcCtrl & PLLC_ADD_FDBACK_DIV_M) >> PLLC_ADD_FDBACK_DIV_S;
divby2 += 1;
pllcOut = (40000000/refdiv)*(2*divby2)*fdiv;
/* clkm input selected */
switch(clockCtl & CPUCLK_CLK_SEL_M) {
case 0:
case 1:
clkDiv = PLLC_DIVIDE_TABLE[(pllcCtrl & PLLC_CLKM_DIV_M) >> PLLC_CLKM_DIV_S];
break;
case 2:
clkDiv = PLLC_DIVIDE_TABLE[(pllcCtrl & PLLC_CLKC_DIV_M) >> PLLC_CLKC_DIV_S];
break;
default:
pllcOut = 40000000;
clkDiv = 1;
break;
}
cpuDiv = (clockCtl & CPUCLK_CLK_DIV_M) >> CPUCLK_CLK_DIV_S;
cpuDiv = cpuDiv * 2 ?: 1;
return (pllcOut/(clkDiv * cpuDiv));
}
static inline unsigned int ar5315_cpu_frequency(void)
{
return ar5315_sys_clk(sysRegRead(AR5315_CPUCLK));
}
static inline unsigned int ar5315_apb_frequency(void)
{
return ar5315_sys_clk(sysRegRead(AR5315_AMBACLK));
}
static void __init ar5315_time_init(void)
{
mips_hpt_frequency = ar5315_cpu_frequency() / 2;
}
/* Enable the specified AR531X_MISC_IRQ interrupt */
static void
ar5315_misc_intr_enable(unsigned int irq)
{
unsigned int imr;
imr = sysRegRead(AR5315_IMR);
switch(irq)
{
case AR531X_MISC_IRQ_TIMER:
imr |= AR5315_ISR_TIMER;
break;
case AR531X_MISC_IRQ_AHB_PROC:
imr |= AR5315_ISR_AHB;
break;
case AR531X_MISC_IRQ_AHB_DMA:
imr |= 0/* ?? */;
break;
case AR531X_MISC_IRQ_GPIO:
imr |= AR5315_ISR_GPIO;
break;
case AR531X_MISC_IRQ_UART0:
imr |= AR5315_ISR_UART0;
break;
case AR531X_MISC_IRQ_WATCHDOG:
imr |= AR5315_ISR_WD;
break;
case AR531X_MISC_IRQ_LOCAL:
imr |= 0/* ?? */;
break;
}
sysRegWrite(AR5315_IMR, imr);
imr=sysRegRead(AR5315_IMR); /* flush write buffer */
}
/* Disable the specified AR531X_MISC_IRQ interrupt */
static void
ar5315_misc_intr_disable(unsigned int irq)
{
unsigned int imr;
imr = sysRegRead(AR5315_IMR);
switch(irq)
{
case AR531X_MISC_IRQ_TIMER:
imr &= (~AR5315_ISR_TIMER);
break;
case AR531X_MISC_IRQ_AHB_PROC:
imr &= (~AR5315_ISR_AHB);
break;
case AR531X_MISC_IRQ_AHB_DMA:
imr &= 0/* ?? */;
break;
case AR531X_MISC_IRQ_GPIO:
imr &= ~AR5315_ISR_GPIO;
break;
case AR531X_MISC_IRQ_UART0:
imr &= (~AR5315_ISR_UART0);
break;
case AR531X_MISC_IRQ_WATCHDOG:
imr &= (~AR5315_ISR_WD);
break;
case AR531X_MISC_IRQ_LOCAL:
imr &= ~0/* ?? */;
break;
}
sysRegWrite(AR5315_IMR, imr);
sysRegRead(AR5315_IMR); /* flush write buffer */
}
/* Turn on the specified AR531X_MISC_IRQ interrupt */
static unsigned int
ar5315_misc_intr_startup(unsigned int irq)
{
ar5315_misc_intr_enable(irq);
return 0;
}
/* Turn off the specified AR531X_MISC_IRQ interrupt */
static void
ar5315_misc_intr_shutdown(unsigned int irq)
{
ar5315_misc_intr_disable(irq);
}
static void
ar5315_misc_intr_ack(unsigned int irq)
{
ar5315_misc_intr_disable(irq);
}
static void
ar5315_misc_intr_end(unsigned int irq)
{
if (!(irq_desc[irq].status & (IRQ_DISABLED | IRQ_INPROGRESS)))
ar5315_misc_intr_enable(irq);
}
static struct irq_chip ar5315_misc_intr_controller = {
.typename = "AR5315 misc",
.startup = ar5315_misc_intr_startup,
.shutdown = ar5315_misc_intr_shutdown,
.enable = ar5315_misc_intr_enable,
.disable = ar5315_misc_intr_disable,
.ack = ar5315_misc_intr_ack,
.end = ar5315_misc_intr_end,
};
static irqreturn_t ar5315_ahb_proc_handler(int cpl, void *dev_id)
{
sysRegWrite(AR5315_AHB_ERR0,AHB_ERROR_DET);
sysRegRead(AR5315_AHB_ERR1);
printk("AHB fatal error\n");
machine_restart("AHB error"); /* Catastrophic failure */
return IRQ_HANDLED;
}
static struct irqaction ar5315_ahb_proc_interrupt = {
.handler = ar5315_ahb_proc_handler,
.flags = SA_INTERRUPT,
.name = "ar5315_ahb_proc_interrupt",
};
static struct irqaction cascade = {
.handler = no_action,
.flags = SA_INTERRUPT,
.name = "cascade",
};
void ar5315_misc_intr_init(int irq_base)
{
int i;
for (i = irq_base; i < irq_base + AR531X_MISC_IRQ_COUNT; i++) {
irq_desc[i].status = IRQ_DISABLED;
irq_desc[i].action = NULL;
irq_desc[i].depth = 1;
irq_desc[i].chip = &ar5315_misc_intr_controller;
}
setup_irq(AR531X_MISC_IRQ_AHB_PROC, &ar5315_ahb_proc_interrupt);
setup_irq(AR5315_IRQ_MISC_INTRS, &cascade);
}
void __init ar5315_prom_init(void)
{
u32 memsize, memcfg;
is_5315 = 1;
memcfg = sysRegRead(AR5315_MEM_CFG);
memsize = 1 + ((memcfg & SDRAM_DATA_WIDTH_M) >> SDRAM_DATA_WIDTH_S);
memsize <<= 1 + ((memcfg & SDRAM_COL_WIDTH_M) >> SDRAM_COL_WIDTH_S);
memsize <<= 1 + ((memcfg & SDRAM_ROW_WIDTH_M) >> SDRAM_ROW_WIDTH_S);
memsize <<= 3;
add_memory_region(0, memsize, BOOT_MEM_RAM);
/* Initialize it to AR2315 for now. Real detection will be done
* in ar5315_init_devices() */
mips_machtype = MACH_ATHEROS_AR2315;
}
void __init ar5315_plat_setup(void)
{
unsigned int config = read_c0_config();
/* Clear any lingering AHB errors */
write_c0_config(config & ~0x3);
sysRegWrite(AR5315_AHB_ERR0,AHB_ERROR_DET);
sysRegRead(AR5315_AHB_ERR1);
sysRegWrite(AR5315_WDC, WDC_IGNORE_EXPIRATION);
board_time_init = ar5315_time_init;
_machine_restart = ar5315_restart;
_machine_halt = ar5315_halt;
pm_power_off = ar5315_power_off;
serial_setup(KSEG1ADDR(AR5315_UART0), ar5315_apb_frequency());
}
arch_initcall(ar5315_init_devices);
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