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-rw-r--r--target/linux/danube/config-2.6.233
-rw-r--r--target/linux/danube/files/arch/mips/danube/Kconfig4
-rw-r--r--target/linux/danube/files/drivers/char/danube_led.c1378
3 files changed, 1384 insertions, 1 deletions
diff --git a/target/linux/danube/config-2.6.23 b/target/linux/danube/config-2.6.23
index f575f6f13..b6f46d696 100644
--- a/target/linux/danube/config-2.6.23
+++ b/target/linux/danube/config-2.6.23
@@ -41,8 +41,10 @@ CONFIG_CPU_SUPPORTS_HIGHMEM=y
# CONFIG_CRYPTO_HW is not set
CONFIG_DANUBE=y
CONFIG_DANUBE_ASC_UART=y
+# CONFIG_DANUBE_LED is not set
CONFIG_DANUBE_MII0=y
CONFIG_DANUBE_MII1=y
+CONFIG_DANUBE_WDT=y
CONFIG_DEVPORT=y
# CONFIG_DM9000 is not set
CONFIG_DMA_NEED_PCI_MAP_STATE=y
@@ -183,4 +185,3 @@ CONFIG_TRAD_SIGNALS=y
# CONFIG_VGASTATE is not set
# CONFIG_VIA_RHINE is not set
CONFIG_ZONE_DMA_FLAG=0
-CONFIG_DANUBE_WDT=y
diff --git a/target/linux/danube/files/arch/mips/danube/Kconfig b/target/linux/danube/files/arch/mips/danube/Kconfig
index 135b640b4..08e5fd4c1 100644
--- a/target/linux/danube/files/arch/mips/danube/Kconfig
+++ b/target/linux/danube/files/arch/mips/danube/Kconfig
@@ -16,5 +16,9 @@ config DANUBE_WDT
bool "Danube watchdog"
default y
+config DANUBE_LED
+ bool "Danube led"
+ default y
+
endmenu
diff --git a/target/linux/danube/files/drivers/char/danube_led.c b/target/linux/danube/files/drivers/char/danube_led.c
new file mode 100644
index 000000000..531c7ed0c
--- /dev/null
+++ b/target/linux/danube/files/drivers/char/danube_led.c
@@ -0,0 +1,1378 @@
+/*
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; either version 2 of the License, or
+ * (at your option) any later version.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307, USA.
+ *
+ * Copyright (C) 2006 infineon
+ * Copyright (C) 2007 John Crispin <blogic@openwrt.org>
+ *
+ */
+
+#include <linux/config.h>
+#include <linux/kernel.h>
+#include <linux/module.h>
+#include <linux/version.h>
+#include <linux/types.h>
+#include <linux/fs.h>
+#include <linux/miscdevice.h>
+#include <linux/init.h>
+#include <asm/uaccess.h>
+#include <asm/unistd.h>
+#include <linux/errno.h>
+
+/*
+ * Chip Specific Head File
+ */
+#include <asm/danube/port.h>
+
+#include <asm/danube/danube_led.h>
+#include <asm/danube/danube_gptu.h>
+
+
+/*
+ * ####################################
+ * Definition
+ * ####################################
+ */
+
+#define DEBUG_ON_AMAZON 0
+
+#define DATA_CLOCKING_EDGE FALLING_EDGE
+
+#define BOARD_TYPE REFERENCE_BOARD
+
+#define DEBUG_WRITE_REGISTER 0
+
+#define RISING_EDGE 0
+#define FALLING_EDGE 1
+
+#define EVALUATION_BOARD 0
+#define REFERENCE_BOARD 1
+
+/*
+ * GPIO Driver Function Wrapping
+ */
+#define port_reserve_pin danube_port_reserve_pin
+#define port_free_pin danube_port_free_pin
+#define port_set_altsel0 danube_port_set_altsel0
+#define port_clear_altsel0 danube_port_clear_altsel0
+#define port_set_altsel1 danube_port_set_altsel1
+#define port_clear_altsel1 danube_port_clear_altsel1
+#define port_set_dir_out danube_port_set_dir_out
+#define port_clear_dir_out danube_port_clear_dir_out
+#define port_set_open_drain danube_port_set_open_drain
+#define port_clear_open_drain danube_port_clear_open_drain
+
+/*
+ * GPIO Port Used By LED
+ */
+#define LED_SH_PORT 0
+#define LED_SH_PIN 4
+#define LED_SH_DIR 1
+#define LED_SH_ALTSEL0 1
+#define LED_SH_ALTSEL1 0
+#define LED_SH_OPENDRAIN 1
+#define LED_D_PORT 0
+#define LED_D_PIN 5
+#define LED_D_DIR 1
+#define LED_D_ALTSEL0 1
+#define LED_D_ALTSEL1 0
+#define LED_D_OPENDRAIN 1
+#define LED_ST_PORT 0
+#define LED_ST_PIN 6
+#define LED_ST_DIR 1
+#define LED_ST_ALTSEL0 1
+#define LED_ST_ALTSEL1 0
+#define LED_ST_OPENDRAIN 1
+
+#define LED_ADSL0_PORT 0
+#define LED_ADSL0_PIN 4
+#define LED_ADSL0_DIR 1
+#define LED_ADSL0_ALTSEL0 0
+#define LED_ADSL0_ALTSEL1 1
+#define LED_ADSL0_OPENDRAIN 1
+#define LED_ADSL1_PORT 0
+#define LED_ADSL1_PIN 5
+#define LED_ADSL1_DIR 1
+#define LED_ADSL1_ALTSEL0 1
+#define LED_ADSL1_ALTSEL1 1
+#define LED_ADSL1_OPENDRAIN 1
+
+#if (LED_SH_PORT == LED_ADSL0_PORT && LED_SH_PIN == LED_ADSL0_PIN) \
+ || (LED_D_PORT == LED_ADSL0_PORT && LED_D_PIN == LED_ADSL0_PIN) \
+ || (LED_ST_PORT == LED_ADSL0_PORT && LED_ST_PIN == LED_ADSL0_PIN) \
+ || (LED_SH_PORT == LED_ADSL1_PORT && LED_SH_PIN == LED_ADSL1_PIN) \
+ || (LED_D_PORT == LED_ADSL1_PORT && LED_D_PIN == LED_ADSL1_PIN) \
+ || (LED_ST_PORT == LED_ADSL1_PORT && LED_ST_PIN == LED_ADSL1_PIN)
+ #define ADSL_LED_IS_EXCLUSIVE 1
+#else
+ #define ADSL_LED_IS_EXCLUSIVE 0
+#endif
+
+/*
+ * Define GPIO Functions
+ */
+#if LED_SH_DIR
+ #define LED_SH_DIR_SETUP port_set_dir_out
+#else
+ #define LED_SH_DIR_SETUP port_clear_dir_out
+#endif
+#if LED_SH_ALTSEL0
+ #define LED_SH_ALTSEL0_SETUP port_set_altsel0
+#else
+ #define LED_SH_ALTSEL0_SETUP port_clear_altsel0
+#endif
+#if LED_SH_ALTSEL1
+ #define LED_SH_ALTSEL1_SETUP port_set_altsel1
+#else
+ #define LED_SH_ALTSEL1_SETUP port_clear_altsel1
+#endif
+#if LED_SH_OPENDRAIN
+ #define LED_SH_OPENDRAIN_SETUP port_set_open_drain
+#else
+ #define LED_SH_OPENDRAIN_SETUP port_clear_open_drain
+#endif
+
+#if LED_D_DIR
+ #define LED_D_DIR_SETUP port_set_dir_out
+#else
+ #define LED_D_DIR_SETUP port_clear_dir_out
+#endif
+#if LED_D_ALTSEL0
+ #define LED_D_ALTSEL0_SETUP port_set_altsel0
+#else
+ #define LED_D_ALTSEL0_SETUP port_clear_altsel0
+#endif
+#if LED_D_ALTSEL1
+ #define LED_D_ALTSEL1_SETUP port_set_altsel1
+#else
+ #define LED_D_ALTSEL1_SETUP port_clear_altsel1
+#endif
+#if LED_D_OPENDRAIN
+ #define LED_D_OPENDRAIN_SETUP port_set_open_drain
+#else
+ #define LED_D_OPENDRAIN_SETUP port_clear_open_drain
+#endif
+
+#if LED_ST_DIR
+ #define LED_ST_DIR_SETUP port_set_dir_out
+#else
+ #define LED_ST_DIR_SETUP port_clear_dir_out
+#endif
+#if LED_ST_ALTSEL0
+ #define LED_ST_ALTSEL0_SETUP port_set_altsel0
+#else
+ #define LED_ST_ALTSEL0_SETUP port_clear_altsel0
+#endif
+#if LED_ST_ALTSEL1
+ #define LED_ST_ALTSEL1_SETUP port_set_altsel1
+#else
+ #define LED_ST_ALTSEL1_SETUP port_clear_altsel1
+#endif
+#if LED_ST_OPENDRAIN
+ #define LED_ST_OPENDRAIN_SETUP port_set_open_drain
+#else
+ #define LED_ST_OPENDRAIN_SETUP port_clear_open_drain
+#endif
+
+#if LED_ADSL0_DIR
+ #define LED_ADSL0_DIR_SETUP port_set_dir_out
+#else
+ #define LED_ADSL0_DIR_SETUP port_clear_dir_out
+#endif
+#if LED_ADSL0_ALTSEL0
+ #define LED_ADSL0_ALTSEL0_SETUP port_set_altsel0
+#else
+ #define LED_ADSL0_ALTSEL0_SETUP port_clear_altsel0
+#endif
+#if LED_ADSL0_ALTSEL1
+ #define LED_ADSL0_ALTSEL1_SETUP port_set_altsel1
+#else
+ #define LED_ADSL0_ALTSEL1_SETUP port_clear_altsel1
+#endif
+#if LED_ADSL0_OPENDRAIN
+ #define LED_ADSL0_OPENDRAIN_SETUP port_set_open_drain
+#else
+ #define LED_ADSL0_OPENDRAIN_SETUP port_clear_open_drain
+#endif
+
+#if LED_ADSL1_DIR
+ #define LED_ADSL1_DIR_SETUP port_set_dir_out
+#else
+ #define LED_ADSL1_DIR_SETUP port_clear_dir_out
+#endif
+#if LED_ADSL1_ALTSEL0
+ #define LED_ADSL1_ALTSEL0_SETUP port_set_altsel0
+#else
+ #define LED_ADSL1_ALTSEL0_SETUP port_clear_altsel0
+#endif
+#if LED_ADSL1_ALTSEL1
+ #define LED_ADSL1_ALTSEL1_SETUP port_set_altsel1
+#else
+ #define LED_ADSL1_ALTSEL1_SETUP port_clear_altsel1
+#endif
+#if LED_ADSL1_OPENDRAIN
+ #define LED_ADSL1_OPENDRAIN_SETUP port_set_open_drain
+#else
+ #define LED_ADSL1_OPENDRAIN_SETUP port_clear_open_drain
+#endif
+
+/*
+ * LED Device Minor Number
+ */
+#if !defined(LED_MINOR)
+ #define LED_MINOR 151 // This number is written in Linux kernel document "devices.txt"
+#endif // !defined(LED_MINOR)
+
+/*
+ * Bits Operation
+ */
+#define GET_BITS(x, msb, lsb) (((x) & ((1 << ((msb) + 1)) - 1)) >> (lsb))
+#define SET_BITS(x, msb, lsb, value) (((x) & ~(((1 << ((msb) + 1)) - 1) ^ ((1 << (lsb)) - 1))) | (((value) & ((1 << (1 + (msb) - (lsb))) - 1)) << (lsb)))
+
+/*
+ * LED Registers Mapping
+ */
+#define DANUBE_LED (KSEG1 + 0x1E100BB0)
+#define DANUBE_LED_CON0 ((volatile u32*)(DANUBE_LED + 0x0000))
+#define DANUBE_LED_CON1 ((volatile u32*)(DANUBE_LED + 0x0004))
+#define DANUBE_LED_CPU0 ((volatile u32*)(DANUBE_LED + 0x0008))
+#define DANUBE_LED_CPU1 ((volatile u32*)(DANUBE_LED + 0x000C))
+#define DANUBE_LED_AR ((volatile u32*)(DANUBE_LED + 0x0010))
+
+/*
+ * LED Control 0 Register
+ */
+#define LED_CON0_SWU (*DANUBE_LED_CON0 & (1 << 31))
+#define LED_CON0_FALLING_EDGE (*DANUBE_LED_CON0 & (1 << 26))
+#define LED_CON0_AD1 (*DANUBE_LED_CON0 & (1 << 25))
+#define LED_CON0_AD0 (*DANUBE_LED_CON0 & (1 << 24))
+#define LED_CON0_LBn(n) (*DANUBE_LED_CON0 & (1 << n))
+#define LED_CON0_DEFAULT_VALUE (0x80000000 | (DATA_CLOCKING_EDGE << 26))
+
+/*
+ * LED Control 1 Register
+ */
+#define LED_CON1_US (*DANUBE_LED_CON1 >> 30)
+#define LED_CON1_SCS (*DANUBE_LED_CON1 & (1 << 28))
+#define LED_CON1_FPID GET_BITS(*DANUBE_LED_CON1, 27, 23)
+#define LED_CON1_FPIS GET_BITS(*DANUBE_LED_CON1, 21, 20)
+#define LED_CON1_DO GET_BITS(*DANUBE_LED_CON1, 19, 18)
+#define LED_CON1_G2 (*DANUBE_LED_CON1 & (1 << 2))
+#define LED_CON1_G1 (*DANUBE_LED_CON1 & (1 << 1))
+#define LED_CON1_G0 (*DANUBE_LED_CON1 & 0x01)
+#define LED_CON1_G (*DANUBE_LED_CON1 & 0x07)
+#define LED_CON1_DEFAULT_VALUE 0x00000000
+
+/*
+ * LED Data Output CPU 0 Register
+ */
+#define LED_CPU0_Ln(n) (*DANUBE_LED_CPU0 & (1 << n))
+#define LED_LED_CPU0_DEFAULT_VALUE 0x00000000
+
+/*
+ * LED Data Output CPU 1 Register
+ */
+#define LED_CPU1_Ln(n) (*DANUBE_LED_CPU1 & (1 << n))
+#define LED_LED_CPU1_DEFAULT_VALUE 0x00000000
+
+/*
+ * LED Data Output Access Rights Register
+ */
+#define LED_AR_Ln(n) (*DANUBE_LED_AR & (1 << n))
+#define LED_AR_DEFAULT_VALUE 0x00000000
+
+
+/*
+ * ####################################
+ * Preparation of Debug on Amazon Chip
+ * ####################################
+ */
+
+/*
+ * If try module on Amazon chip, prepare some tricks to prevent invalid memory write.
+ */
+#if defined(DEBUG_ON_AMAZON) && DEBUG_ON_AMAZON
+ char g_pFakeRegisters[0x50];
+
+ #undef DEBUG_WRITE_REGISTER
+
+ #undef DANUBE_LED
+ #define DANUBE_LED g_pFakeRegisters
+
+ #undef port_reserve_pin
+ #undef port_free_pin
+ #undef port_set_altsel0
+ #undef port_clear_altsel0
+ #undef port_set_altsel1
+ #undef port_clear_altsel1
+ #undef port_set_dir_out
+
+ #define port_reserve_pin amazon_port_reserve_pin
+ #define port_free_pin amazon_port_free_pin
+ #define port_set_altsel0 amazon_port_set_altsel0
+ #define port_clear_altsel0 amazon_port_clear_altsel0
+ #define port_set_altsel1 amazon_port_set_altsel1
+ #define port_clear_altsel1 amazon_port_clear_altsel1
+ #define port_set_dir_out amazon_port_set_dir_out
+#endif // defined(DEBUG_ON_AMAZON) && DEBUG_ON_AMAZON
+
+
+/*
+ * ####################################
+ * Declaration
+ * ####################################
+ */
+
+/*
+ * File Operations
+ */
+static int led_ioctl(struct inode *, struct file *, unsigned int, unsigned long);
+static int led_open(struct inode *, struct file *);
+static int led_release(struct inode *, struct file *);
+
+/*
+ * Software Update LED
+ */
+static inline int update_led(void);
+
+/*
+ * LED Configuration Functions
+ */
+static inline u32 set_update_source(u32, unsigned long, unsigned long);
+static inline u32 set_blink_in_batch(u32, unsigned long, unsigned long);
+static inline u32 set_data_clock_edge(u32, unsigned long);
+static inline u32 set_update_clock(u32, unsigned long, unsigned long);
+static inline u32 set_store_mode(u32, unsigned long);
+static inline u32 set_shift_clock(u32, unsigned long);
+static inline u32 set_data_offset(u32, unsigned long);
+static inline u32 set_number_of_enabled_led(u32, unsigned long);
+static inline u32 set_data_in_batch(u32, unsigned long, unsigned long);
+static inline u32 set_access_right(u32, unsigned long, unsigned long);
+
+/*
+ * PMU Operation
+ */
+static inline void enable_led(void);
+static inline void disable_led(void);
+
+/*
+ * GPIO Setup & Release
+ */
+static inline int setup_gpio_port(unsigned long);
+static inline void release_gpio_port(unsigned long);
+
+/*
+ * GPT Setup & Release
+ */
+static inline int setup_gpt(int, unsigned long);
+static inline void release_gpt(int);
+
+/*
+ * Turn On/Off LED
+ */
+static inline int turn_on_led(unsigned long);
+static inline void turn_off_led(unsigned long);
+
+
+/*
+ * ####################################
+ * Local Variable
+ * ####################################
+ */
+
+static struct semaphore led_sem;
+
+static struct file_operations led_fops = {
+ owner: THIS_MODULE,
+ ioctl: led_ioctl,
+ open: led_open,
+ release: led_release
+};
+
+static struct miscdevice led_miscdev = {
+ LED_MINOR,
+ "led",
+ &led_fops,
+ NULL,
+ NULL,
+ NULL
+};
+
+static unsigned long gpt_on = 0;
+static unsigned long gpt_freq = 0;
+
+static unsigned long adsl_on = 0;
+static unsigned long f_led_on = 0;
+
+static int module_id;
+
+
+/*
+ * ####################################
+ * Global Variable
+ * ####################################
+ */
+
+
+/*
+ * ####################################
+ * Local Function
+ * ####################################
+ */
+
+static int led_ioctl(struct inode *inode, struct file *file, unsigned int cmd, unsigned long arg)
+{
+ int ret = -EINVAL;
+ struct led_config_param param;
+
+ switch ( cmd )
+ {
+ case LED_CONFIG:
+ copy_from_user(&param, (char*)arg, sizeof(param));
+ ret = danube_led_config(&param);
+ break;
+ }
+
+ return ret;
+}
+
+static int led_open(struct inode *inode, struct file *file)
+{
+ return 0;
+}
+
+static int led_release(struct inode *inode, struct file *file)
+{
+ return 0;
+}
+
+/*
+ * Description:
+ * Update LEDs with data stored in register.
+ * Input:
+ * none
+ * Output:
+ * int --- 0: Success
+ * else: Error Code
+ */
+static inline int update_led(void)
+{
+ int i, j;
+
+ /*
+ * GPT2 or FPID is the clock to update LEDs automatically.
+ */
+ if ( LED_CON1_US != 0 )
+ return 0;
+
+ /*
+ * Check the status to prevent conflict of two consecutive update
+ */
+ for ( i = 100000; i != 0; i -= j / 16 )
+ {
+ down(&led_sem);
+ if ( !LED_CON0_SWU )
+ {
+ *DANUBE_LED_CON0 |= 1 << 31;
+ up(&led_sem);
+ return 0;
+ }
+ else
+ up(&led_sem);
+ for ( j = 0; j < 1000 * 16; j++ );
+ }
+
+ return -EBUSY;
+}
+
+/*
+ * Description:
+ * Select update source for LED bit 0 and bit 1.
+ * Input:
+ * reg --- u32, the original register value going to be modified.
+ * led --- unsigned long, bit 0 stands for LED 0, and bit 1 stands for
+ * LED 1. If the bit is set, the source value is valid, else
+ * the source value is invalid.
+ * source --- unsigned long, bit 0 stands for LED 0, and bit 1 stands for
+ * LED 1. If the corresponding is cleared, LED is updated with
+ * value in data register, else LED is updated with ARC module.
+ * Output:
+ * u32 --- The updated register value.
+ */
+static inline u32 set_update_source(u32 reg, unsigned long led, unsigned long source)
+{
+ return (reg & ~((led & 0x03) << 24)) | ((source & 0x03) << 24);
+}
+
+/*
+ * Description:
+ * Define which of the LEDs should change their value based on the US pulse.
+ * Input:
+ * reg --- u32, the original register value going to be modified.
+ * mask --- unsigned long, if the corresponding bit is set, the blink value
+ * is valid, else the blink value is invalid.
+ * blink --- unsigned long, if the corresponding bit is set, the LED should
+ * change its value based on the US pulse.
+ * Output:
+ * u32 --- The updated register value.
+ */
+static inline u32 set_blink_in_batch(u32 reg, unsigned long mask, unsigned long blink)
+{
+ return (reg & (~(mask & 0x00FFFFFF) & 0x87FFFFFF)) | (blink & 0x00FFFFFF);
+}
+
+static inline u32 set_data_clock_edge(u32 reg, unsigned long f_on_rising_edge)
+{
+ return f_on_rising_edge ? (reg & ~(1 << 26)) : (reg | (1 << 26));
+}
+
+/*
+ * Description:
+ * Select the clock source for US pulse.
+ * Input:
+ * reg --- u32, the original register value going to be modified.
+ * clock --- unsigned long, there 3 available values:
+ * 0x00 - use software update bit (SWU) as source.
+ * 0x01 - use GPT2 as clock source.
+ * 0x02 - use FPI as clock source.
+ * fpid --- unsigned long, if FPI is selected as clock source, this field
+ * specify the divider. Please refer to specification for detail
+ * description.
+ * Output:
+ * u32 --- The updated register value.
+ */
+static inline u32 set_update_clock(u32 reg, unsigned long clock, unsigned long fpid)
+{
+ switch ( clock )
+ {
+ case 0: reg &= ~0xC0000000; break;
+ case 1: reg = (reg & ~0xC0000000) | 0x40000000; break;
+ case 2: reg = (reg & ~0xCF800000) | 0x80000000 | ((fpid & 0x1F) << 23); break;
+ }
+ return reg;
+}
+
+/*
+ * Description:
+ * Set the behavior of the LED_ST (shift register) signal.
+ * Input:
+ * reg --- u32, the original register value going to be modified.
+ * mode --- unsigned long, there 2 available values:
+ * zero - LED controller generate single pulse.
+ * non-zero - LED controller generate inverted shift clock.
+ * Output:
+ * u32 --- The updated register value.
+ */
+static inline u32 set_store_mode(u32 reg, unsigned long mode)
+{
+ return mode ? (reg | (1 << 28)) : (reg & ~(1 << 28));
+}
+
+/*
+ * Description:
+ * Select the clock source for shift clock LED_SH.
+ * Input:
+ * reg --- u32, the original register value going to be modified.
+ * fpis --- unsigned long, if FPI is selected as clock source, this field
+ * specify the divider. Please refer to specification for detail
+ * description.
+ * Output:
+ * u32 --- The updated register value.
+ */
+static inline u32 set_shift_clock(u32 reg, unsigned long fpis)
+{
+ return SET_BITS(reg, 21, 20, fpis);
+}
+
+/*
+ * Description:
+ * Set the clock cycle offset before data is transmitted to LED_D pin.
+ * Input:
+ * reg --- u32, the original register value going to be modified.
+ * offset --- unsigned long, the number of clock cycles would be inserted
+ * before data is transmitted to LED_D pin. Zero means no cycle
+ * inserted.
+ * Output:
+ * u32 --- The updated register value.
+ */
+static inline u32 set_data_offset(u32 reg, unsigned long offset)
+{
+ return SET_BITS(reg, 19, 18, offset);
+}
+
+/*
+ * Description:
+ * Enable or disable LEDs.
+ * Input:
+ * reg --- u32, the original register value going to be modified.
+ * number --- unsigned long, the number of LED to be enabled. This field
+ * could 0, 8, 16 or 24. Zero means disable all LEDs.
+ * Output:
+ * u32 --- The updated register value.
+ */
+static inline u32 set_number_of_enabled_led(u32 reg, unsigned long number)
+{
+ u32 bit_mask;
+
+ bit_mask = number > 16 ? 0x07 : (number > 8 ? 0x03 : (number ? 0x01 : 0x00));
+ return (reg & ~0x07) | bit_mask;
+}
+
+/*
+ * Description:
+ * Turn on/off LEDs.
+ * Input:
+ * reg --- u32, the original register value going to be modified.
+ * mask --- unsigned long, if the corresponding bit is set, the data value
+ * is valid, else the data value is invalid.
+ * data --- unsigned long, if the corresponding bit is set, the LED should
+ * be on, else be off.
+ * Output:
+ * u32 --- The updated register value.
+ */
+static inline u32 set_data_in_batch(u32 reg, unsigned long mask, unsigned long data)
+{
+ return (reg & ~(mask & 0x00FFFFFF)) | (data & 0x00FFFFFF);
+}
+
+static inline u32 set_access_right(u32 reg, unsigned long mask, unsigned long ar)
+{
+ return (reg & ~(mask & 0x00FFFFFF)) | (~ar & mask);
+}
+
+/*
+ * Description:
+ * Enable LED control module.
+ * Input:
+ * none
+ * Output:
+ * none
+ */
+static inline void enable_led(void)
+{
+#if !defined(DEBUG_ON_AMAZON) || !DEBUG_ON_AMAZON
+ /* Activate LED module in PMU. */
+ int i = 1000000;
+
+ *(unsigned long *)0xBF10201C &= ~(1 << 11);
+ while ( --i && (*(unsigned long *)0xBF102020 & (1 << 11)) );
+ if ( !i )
+ panic("Activating LED in PMU failed!");
+#endif
+}
+
+/*
+ * Description:
+ * Disable LED control module.
+ * Input:
+ * none
+ * Output:
+ * none
+ */
+static inline void disable_led(void)
+{
+#if !defined(DEBUG_ON_AMAZON) || !DEBUG_ON_AMAZON
+ /* Inactivating LED module in PMU. */
+ *(unsigned long *)0xBF10201C |= 1 << 11;
+#endif
+}
+
+/*
+ * Description:
+ * If LEDs are enabled, GPIO must be setup to enable LED pins.
+ * Input:
+ * none
+ * Output:
+ * int --- 0: Success
+ * else: Error Code
+ */
+static inline int setup_gpio_port(unsigned long adsl)
+{
+#if !defined(DEBUG_ON_AMAZON) || !DEBUG_ON_AMAZON
+ int ret = 0;
+
+ #if defined(DEBUG_WRITE_REGISTER) && DEBUG_WRITE_REGISTER
+ if ( adsl )
+ {
+ *(unsigned long *)0xBE100B18 |= 0x30;
+ *(unsigned long *)0xBE100B1C |= 0x20;
+ *(unsigned long *)0xBE100B1C &= ~0x10;
+ *(unsigned long *)0xBE100B20 |= 0x30;
+ *(unsigned long *)0xBE100B24 |= 0x30;
+ }
+ else
+ {
+ *(unsigned long *)0xBE100B18 |= 0x70;
+ *(unsigned long *)0xBE100B1C |= 0x70;
+ *(unsigned long *)0xBE100B20 &= ~0x70;
+ *(unsigned long *)0xBE100B24 |= 0x70;
+ }
+ #else
+
+ /*
+ * Reserve all pins before config them.
+ */
+ if ( adsl )
+ {
+ ret |= port_reserve_pin(LED_ADSL0_PORT, LED_ADSL0_PIN, module_id);
+ ret |= port_reserve_pin(LED_ADSL1_PORT, LED_ADSL1_PIN, module_id);
+ }
+ else
+ {
+ ret |= port_reserve_pin(LED_ST_PORT, LED_ST_PIN, module_id);
+ ret |= port_reserve_pin(LED_D_PORT, LED_D_PIN, module_id);
+ ret |= port_reserve_pin(LED_SH_PORT, LED_SH_PIN, module_id);
+ }
+ if ( ret )
+ {
+ release_gpio_port(adsl);
+ return ret; // Should be -EBUSY
+ }
+
+ if ( adsl )
+ {
+ LED_ADSL0_ALTSEL0_SETUP(LED_ADSL0_PORT, LED_ADSL0_PIN, module_id);
+ LED_ADSL0_ALTSEL1_SETUP(LED_ADSL0_PORT, LED_ADSL0_PIN, module_id);
+ LED_ADSL0_DIR_SETUP(LED_ADSL0_PORT, LED_ADSL0_PIN, module_id);
+ LED_ADSL0_OPENDRAIN_SETUP(LED_ADSL0_PORT, LED_ADSL0_PIN, module_id);
+
+ LED_ADSL1_ALTSEL0_SETUP(LED_ADSL1_PORT, LED_ADSL1_PIN, module_id);
+ LED_ADSL1_ALTSEL1_SETUP(LED_ADSL1_PORT, LED_ADSL1_PIN, module_id);
+ LED_ADSL1_DIR_SETUP(LED_ADSL1_PORT, LED_ADSL1_PIN, module_id);
+ LED_ADSL1_OPENDRAIN_SETUP(LED_ADSL1_PORT, LED_ADSL1_PIN, module_id);
+ }
+ else
+ {
+ /*
+ * Set LED_ST
+ * I don't check the return value, because I'm sure the value is valid
+ * and the pins are reserved already.
+ */
+ LED_ST_ALTSEL0_SETUP(LED_ST_PORT, LED_ST_PIN, module_id);
+ LED_ST_ALTSEL1_SETUP(LED_ST_PORT, LED_ST_PIN, module_id);
+ LED_ST_DIR_SETUP(LED_ST_PORT, LED_ST_PIN, module_id);
+ LED_ST_OPENDRAIN_SETUP(LED_ST_PORT, LED_ST_PIN, module_id);
+
+ /*
+ * Set LED_D
+ */
+ LED_D_ALTSEL0_SETUP(LED_D_PORT, LED_D_PIN, module_id);
+ LED_D_ALTSEL1_SETUP(LED_D_PORT, LED_D_PIN, module_id);
+ LED_D_DIR_SETUP(LED_D_PORT, LED_D_PIN, module_id);
+ LED_D_OPENDRAIN_SETUP(LED_D_PORT, LED_D_PIN, module_id);
+
+ /*
+ * Set LED_SH
+ */
+ LED_SH_ALTSEL0_SETUP(LED_SH_PORT, LED_SH_PIN, module_id);
+ LED_SH_ALTSEL1_SETUP(LED_SH_PORT, LED_SH_PIN, module_id);
+ LED_SH_DIR_SETUP(LED_SH_PORT, LED_SH_PIN, module_id);
+ LED_SH_OPENDRAIN_SETUP(LED_SH_PORT, LED_SH_PIN, module_id);
+ }
+ #endif
+#endif
+
+ return 0;
+}
+
+/*
+ * Description:
+ * If LEDs are all disabled, GPIO must be released so that other application
+ * could reuse it.
+ * Input:
+ * none
+ * Output:
+ * none
+ */
+static inline void release_gpio_port(unsigned long adsl)
+{
+#if !defined(DEBUG_ON_AMAZON) || !DEBUG_ON_AMAZON
+ #if !defined(DEBUG_WRITE_REGISTER) || !DEBUG_WRITE_REGISTER
+ if ( adsl )
+ {
+ port_free_pin(LED_ADSL0_PORT, LED_ADSL0_PIN, module_id);
+ port_free_pin(LED_ADSL1_PORT, LED_ADSL1_PIN, module_id);
+ }
+ else
+ {
+ port_free_pin(LED_ST_PORT, LED_ST_PIN, module_id);
+ port_free_pin(LED_D_PORT, LED_D_PIN, module_id);
+ port_free_pin(LED_SH_PORT, LED_SH_PIN, module_id);
+ }
+ #endif
+#endif
+}
+
+/*
+ * Description:
+ * If shifter or update select GPT as clock source, this function would be
+ * invoked to setup corresponding GPT module.
+ * Attention please, this function is not working since the GPTU driver is
+ * not ready.
+ * Input:
+ * timer --- int, index of timer.
+ * freq --- unsigned long, frequency of timer (0.001Hz). This value will be
+ * rounded off to nearest possible value.
+ * Output:
+ * int --- 0: Success
+ * else: Error Code
+ */
+static inline int setup_gpt(int timer, unsigned long freq)
+{
+ int ret;
+
+#if 0
+ timer = TIMER(timer, 0);
+#else
+ timer = TIMER(timer, 1); // 2B
+#endif
+
+#if 0
+ ret = set_timer(timer, freq, 1, 0, TIMER_FLAG_NO_HANDLE, 0, 0);
+#else
+ ret = request_timer(timer,
+ TIMER_FLAG_SYNC
+ | TIMER_FLAG_16BIT
+ | TIMER_FLAG_INT_SRC
+ | TIMER_FLAG_CYCLIC | TIMER_FLAG_COUNTER | TIMER_FLAG_DOWN
+ | TIMER_FLAG_ANY_EDGE
+ | TIMER_FLAG_NO_HANDLE,
+ 8000000 / freq,
+ 0,
+ 0);
+
+#endif
+// printk("setup_gpt: timer = %d, freq = %d, return = %d\n", timer, freq, ret);
+ if ( !ret )
+ {
+ ret = start_timer(timer, 0);
+ if ( ret )
+ free_timer(timer);
+ }
+
+ return ret;
+}
+
+/*
+ * Description:
+ * If shifter or update select other clock source, allocated GPT must be
+ * released so that other application can use it.
+ * Attention please, this function is not working since the GPTU driver is
+ * not ready.
+ * Input:
+ * none
+ * Output:
+ * none
+ */
+static inline void release_gpt(int timer)
+{
+#if 0
+ timer = TIMER(timer, 0);
+#else
+ timer = TIMER(timer, 1);
+#endif
+ stop_timer(timer);
+ free_timer(timer);
+}
+
+static inline int turn_on_led(unsigned long adsl)
+{
+ int ret;
+
+ ret = setup_gpio_port(adsl);
+ if ( ret )
+ return ret;
+
+ enable_led();
+
+ return 0;
+}
+
+static inline void turn_off_led(unsigned long adsl)
+{
+ release_gpio_port(adsl);
+ disable_led();
+}
+
+
+/*
+ * ####################################
+ * Global Function
+ * ####################################
+ */
+
+/*
+ * Description:
+ * Define which of the LEDs should change its value based on the US pulse.
+ * Input:
+ * led --- unsigned int, index of the LED to be set.
+ * blink --- unsigned int, zero means normal mode, and non-zero means blink
+ * mode.
+ * Output:
+ * int --- 0: Success
+ * else: Error Code
+ */
+int danube_led_set_blink(unsigned int led, unsigned int blink)
+{
+ u32 bit_mask;
+
+ if ( led > 23 )
+ return -EINVAL;
+
+ bit_mask = 1 << led;
+ down(&led_sem);
+ if ( blink )
+ *DANUBE_LED_CON0 |= bit_mask;
+ else
+ *DANUBE_LED_CON0 &= ~bit_mask;
+ up(&led_sem);
+
+ return (led == 0 && LED_CON0_AD0) || (led == 1 && LED_CON0_AD1) ? -EINVAL : 0;
+}
+
+/*
+ * Description:
+ * Turn on/off LED.
+ * Input:
+ * led --- unsigned int, index of the LED to be set.
+ * data --- unsigned int, zero means off, and non-zero means on.
+ * Output:
+ * int --- 0: Success
+ * else: Error Code
+ */
+int danube_led_set_data(unsigned int led, unsigned int data)
+{
+ unsigned long f_update;
+ u32 bit_mask;
+
+ if ( led > 23 )
+ return -EINVAL;
+
+ bit_mask = 1 << led;
+ down(&led_sem);
+ if ( data )
+ *DANUBE_LED_CPU0 |= bit_mask;
+ else
+ *DANUBE_LED_CPU0 &= ~bit_mask;
+ f_update = !(*DANUBE_LED_AR & bit_mask);
+ up(&led_sem);
+
+ return f_update ? update_led() : 0;
+}
+
+/*
+ * Description:
+ * Config LED controller.
+ * Input:
+ * param --- struct led_config_param*, the members are listed below:
+ * operation_mask - Select operations to be performed
+ * led - LED to change update source
+ * source - Corresponding update source
+ * blink_mask - LEDs to set blink mode
+ * blink - Set to blink mode or normal mode
+ * update_clock - Select the source of update clock
+ * fpid - If FPI is the source of update clock, set the divider
+ * store_mode - Set clock mode or single pulse mode for store signal
+ * fpis - If FPI is the source of shift clock, set the divider
+ * data_offset - Set cycles to be inserted before data is transmitted
+ * number_of_enabled_led - Total number of LED to be enabled
+ * data_mask - LEDs to set value
+ * data - Corresponding value
+ * mips0_access_mask - LEDs to set access right
+ * mips0_access; - 1: the corresponding data is output from MIPS0, 0: MIPS1
+ * f_data_clock_on_rising - 1: data clock on rising edge, 0: data clock on falling edge
+ * Output:
+ * int --- 0: Success
+ * else: Error Code
+ */
+int danube_led_config(struct led_config_param* param)
+{
+ int ret;
+ u32 reg_con0, reg_con1, reg_cpu0, reg_ar;
+ u32 clean_reg_con0, clean_reg_con1, clean_reg_cpu0, clean_reg_ar;
+ u32 f_setup_gpt2;
+ u32 f_software_update;
+ u32 new_led_on, new_adsl_on;
+
+ if ( !param )
+ return -EINVAL;
+
+ down(&led_sem);
+
+ reg_con0 = *DANUBE_LED_CON0;
+ reg_con1 = *DANUBE_LED_CON1;
+ reg_cpu0 = *DANUBE_LED_CPU0;
+ reg_ar = *DANUBE_LED_AR;
+
+ clean_reg_con0 = 1;
+ clean_reg_con1 = 1;
+ clean_reg_cpu0 = 1;
+ clean_reg_ar = 1;
+
+ f_setup_gpt2 = 0;
+
+ f_software_update = LED_CON0_SWU ? 0 : 1;
+
+ new_led_on = f_led_on;
+ new_adsl_on = adsl_on;
+
+ /* ADSL or LED */
+ if ( (param->operation_mask & CONFIG_OPERATION_UPDATE_SOURCE) )
+ {
+ if ( param->led > 0x03 || param->source > 0x03 )
+ goto INVALID_PARAM;
+ clean_reg_con0 = 0;
+ reg_con0 = set_update_source(reg_con0, param->led, param->source);
+#if 0 // ADSL0,1 is source for bit 0, 1 in shift register
+ new_adsl_on = param->source;
+#endif
+ }
+
+ /* Blink */
+ if ( (param->operation_mask & CONFIG_OPERATION_BLINK) )
+ {
+ if ( (param->blink_mask & 0xFF000000) || (param->blink & 0xFF000000) )
+ goto INVALID_PARAM;
+ clean_reg_con0 = 0;
+ reg_con0 = set_blink_in_batch(reg_con0, param->blink_mask, param->blink);
+ }
+
+ /* Edge */
+ if ( (param->operation_mask & CONFIG_DATA_CLOCK_EDGE) )
+ {
+ clean_reg_con0 = 0;
+ reg_con0 = set_data_clock_edge(reg_con0, param->f_data_clock_on_rising);
+ }
+
+ /* Update Clock */
+ if ( (param->operation_mask & CONFIG_OPERATION_UPDATE_CLOCK) )
+ {
+ if ( param->update_clock > 0x02 || (param->update_clock == 0x02 && param->fpid > 0x3) )
+ goto INVALID_PARAM;
+ clean_reg_con1 = 0;
+ f_software_update = param->update_clock == 0 ? 1 : 0;
+ if ( param->update_clock == 0x01 )
+ f_setup_gpt2 = 1;
+ reg_con1 = set_update_clock(reg_con1, param->update_clock, param->fpid);
+ }
+
+ /* Store Mode */
+ if ( (param->operation_mask & CONFIG_OPERATION_STORE_MODE) )
+ {
+ clean_reg_con1 = 0;
+ reg_con1 = set_store_mode(reg_con1, param->store_mode);
+ }
+
+ /* Shift Clock */
+ if ( (param->operation_mask & CONFIG_OPERATION_SHIFT_CLOCK) )
+ {
+ if ( param->fpis > 0x03 )
+ goto INVALID_PARAM;
+ clean_reg_con1 = 0;
+ reg_con1 = set_shift_clock(reg_con1, param->fpis);
+ }
+
+ /* Data Offset */
+ if ( (param->operation_mask & CONFIG_OPERATION_DATA_OFFSET) )
+ {
+ if ( param->data_offset > 0x03 )
+ goto INVALID_PARAM;
+ clean_reg_con1 = 0;
+ reg_con1 = set_data_offset(reg_con1, param->data_offset);
+ }
+
+ /* Number of LED */
+ if ( (param->operation_mask & CONFIG_OPERATION_NUMBER_OF_LED) )
+ {
+ if ( param->number_of_enabled_led > 0x24 )
+ goto INVALID_PARAM;
+
+ /*
+ * If there is at lease one LED enabled, the GPIO pin must be setup.
+ */
+ new_led_on = param->number_of_enabled_led ? 1 : 0;
+
+ clean_reg_con1 = 0;
+ reg_con1 = set_number_of_enabled_led(reg_con1, param->number_of_enabled_led);
+ }
+
+ /* LED Data */
+ if ( (param->operation_mask & CONFIG_OPERATION_DATA) )
+ {
+ if ( (param->data_mask & 0xFF000000) || (param->data & 0xFF000000) )
+ goto INVALID_PARAM;
+ clean_reg_cpu0 = 0;
+ reg_cpu0 = set_data_in_batch(reg_cpu0, param->data_mask, param->data);
+ if ( f_software_update )
+ {
+ clean_reg_con0 = 0;
+ reg_con0 |= 0x80000000;
+ }
+ }
+
+ /* Access Right */
+ if ( (param->operation_mask & CONFIG_OPERATION_MIPS0_ACCESS) )
+ {
+ if ( (param->mips0_access_mask & 0xFF000000) || (param->mips0_access & 0xFF000000) )
+ goto INVALID_PARAM;
+ clean_reg_ar = 0;
+ reg_ar = set_access_right(reg_ar, param->mips0_access_mask, param->mips0_access);
+ }
+
+ /* Setup GPT */
+ if ( f_setup_gpt2 && !new_adsl_on ) // If ADSL led is on, GPT is disabled.
+ {
+ ret = 0;
+
+ if ( gpt_on )
+ {
+ if ( gpt_freq != param->fpid )
+ {
+ release_gpt(2);
+ gpt_on = 0;
+ ret = setup_gpt(2, param->fpid);
+ }
+ }
+ else
+ ret = setup_gpt(2, param->fpid);
+
+ if ( ret )
+ {
+#if 1
+ printk("Setup GPT error!\n");
+#endif
+ goto SETUP_GPT_ERROR;
+ }
+ else
+ {
+#if 0
+ printk("Setup GPT successfully!\n");
+#endif
+ gpt_on = 1;
+ }
+ }
+ else
+ if ( gpt_on )
+ {
+ release_gpt(2);
+ gpt_on = 0;
+ }
+
+ /* Turn on LED */
+ if ( new_adsl_on )
+ new_led_on = 1;
+ if ( !new_led_on || adsl_on != new_adsl_on )
+ {
+ turn_off_led(adsl_on);
+ f_led_on = 0;
+ adsl_on = 0;
+ }
+ if ( !f_led_on && new_led_on )
+ {
+ ret = turn_on_led(new_adsl_on);
+ if ( ret )
+ {
+#if 1
+ printk("Setup GPIO error!\n");
+#endif
+ goto SETUP_GPIO_ERROR;
+ }
+ adsl_on = new_adsl_on;
+ f_led_on = 1;
+ }
+
+#if 0
+ if ( (reg_con0 & 0x80000000) )
+ printk("software update\n");
+#endif
+
+ /* Write Register */
+ if ( !f_led_on )
+ enable_led();
+ if ( !clean_reg_ar )
+ *DANUBE_LED_AR = reg_ar;
+ if ( !clean_reg_cpu0 )
+ *DANUBE_LED_CPU0 = reg_cpu0;
+ if ( !clean_reg_con1 )
+ *DANUBE_LED_CON1 = reg_con1;
+ if ( !clean_reg_con0 )
+ *DANUBE_LED_CON0 = reg_con0;
+ if ( !f_led_on )
+ disable_led();
+
+#if defined(DEBUG_ON_AMAZON) && DEBUG_ON_AMAZON
+ *DANUBE_LED_CON0 &= 0x7FFFFFFF;
+#endif
+
+#if 0
+ #if !defined(DEBUG_ON_AMAZON) || !DEBUG_ON_AMAZON
+ printk("*0xBF10201C = 0x%08lX\n", *(unsigned long *)0xBF10201C);
+ printk("*0xBE100B18 = 0x%08lX\n", *(unsigned long *)0xBE100B18);
+ printk("*0xBE100B1C = 0x%08lX\n", *(unsigned long *)0xBE100B1C);
+ printk("*0xBE100B20 = 0x%08lX\n", *(unsigned long *)0xBE100B20);
+ printk("*0xBE100B24 = 0x%08lX\n", *(unsigned long *)0xBE100B24);
+ #endif
+ printk("*DANUBE_LED_CON0 = 0x%08X\n", *DANUBE_LED_CON0);
+ printk("*DANUBE_LED_CON1 = 0x%08X\n", *DANUBE_LED_CON1);
+ printk("*DANUBE_LED_CPU0 = 0x%08X\n", *DANUBE_LED_CPU0);
+ printk("*DANUBE_LED_CPU1 = 0x%08X\n", *DANUBE_LED_CPU1);
+ printk("*DANUBE_LED_AR = 0x%08X\n", *DANUBE_LED_AR);
+#endif
+
+ up(&led_sem);
+ return 0;
+
+SETUP_GPIO_ERROR:
+ release_gpt(2);
+ gpt_on = 0;
+SETUP_GPT_ERROR:
+ up(&led_sem);
+ return ret;
+
+INVALID_PARAM:
+ up(&led_sem);
+ return -EINVAL;
+}
+
+
+/*
+ * ####################################
+ * Init/Cleanup API
+ * ####################################
+ */
+
+/*
+ * Description:
+ * register device
+ * Input:
+ * none
+ * Output:
+ * 0 --- successful
+ * else --- failure, usually it is negative value of error code
+ */
+int __init danube_led_init(void)
+{
+ int ret;
+ struct led_config_param param = {0};
+
+ enable_led();
+
+ /*
+ * Set default value to registers to turn off all LED light.
+ */
+ *DANUBE_LED_AR = LED_AR_DEFAULT_VALUE;
+ *DANUBE_LED_CPU0 = LED_LED_CPU0_DEFAULT_VALUE;
+ *DANUBE_LED_CPU1 = LED_LED_CPU1_DEFAULT_VALUE;
+ *DANUBE_LED_CON1 = LED_CON1_DEFAULT_VALUE;
+ *DANUBE_LED_CON0 = LED_CON0_DEFAULT_VALUE;
+
+#if defined(DEBUG_ON_AMAZON) && DEBUG_ON_AMAZON
+ *DANUBE_LED_CON0 &= 0x7FFFFFFF;
+#endif
+
+ disable_led();
+
+ sema_init(&led_sem, 0);
+
+ ret = misc_register(&led_miscdev);
+ if ( ret == -EBUSY )
+ {
+ led_miscdev.minor = MISC_DYNAMIC_MINOR;
+ ret = misc_register(&led_miscdev);
+ }
+ if ( ret )
+ {
+ printk(KERN_ERR "led: can't misc_register\n");
+ return ret;
+ }
+ else
+ printk(KERN_INFO "led: misc_register on minor = %d\n", led_miscdev.minor);
+
+ module_id = THIS_MODULE ? (int)THIS_MODULE : ((MISC_MAJOR << 8) | led_miscdev.minor);
+
+ up(&led_sem);
+
+#if BOARD_TYPE == REFERENCE_BOARD
+ /* Add to enable hardware relay */
+ /* Map for LED on reference board
+ WLAN_READ LED11 OUT1 15
+ WARNING LED12 OUT2 14
+ FXS1_LINK LED13 OUT3 13
+ FXS2_LINK LED14 OUT4 12
+ FXO_ACT LED15 OUT5 11
+ USB_LINK LED16 OUT6 10
+ ADSL2_LINK LED19 OUT7 9
+ BT_LINK LED17 OUT8 8
+ SD_LINK LED20 OUT9 7
+ ADSL2_TRAFFIC LED31 OUT16 0
+ Map for hardware relay on reference board
+ USB Power On OUT11 5
+ RELAY OUT12 4
+ */
+ param.operation_mask = CONFIG_OPERATION_NUMBER_OF_LED;
+ param.number_of_enabled_led = 16;
+ danube_led_config(&param);
+ param.operation_mask = CONFIG_OPERATION_DATA;
+ param.data_mask = 1 << 4;
+ param.data = 1 << 4;
+ danube_led_config(&param);
+#endif
+
+ // by default, update by FSC clock (FPID)
+ param.operation_mask = CONFIG_OPERATION_UPDATE_CLOCK;
+ param.update_clock = 2; // FPID
+ param.fpid = 3; // 10Hz
+ danube_led_config(&param);
+
+ // source of LED 0, 1 is ADSL
+ param.operation_mask = CONFIG_OPERATION_UPDATE_SOURCE;
+ param.led = 3; // LED 0, 1
+ param.source = 3; // ADSL
+ danube_led_config(&param);
+
+ // turn on USB
+ param.operation_mask = CONFIG_OPERATION_DATA;
+ param.data_mask = 1 << 5;
+ param.data = 1 << 5;
+ danube_led_config(&param);
+
+ return 0;
+}
+
+/*
+ * Description:
+ * deregister device
+ * Input:
+ * none
+ * Output:
+ * none
+ */
+void __exit danube_led_exit(void)
+{
+ int ret;
+
+ ret = misc_deregister(&led_miscdev);
+ if ( ret )
+ printk(KERN_ERR "led: can't misc_deregister, get error number %d\n", -ret);
+ else
+ printk(KERN_INFO "led: misc_deregister successfully\n");
+}
+
+EXPORT_SYMBOL(danube_led_set_blink);
+EXPORT_SYMBOL(danube_led_set_data);
+EXPORT_SYMBOL(danube_led_config);
+
+module_init(danube_led_init);
+module_exit(danube_led_exit);
+