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AC63_BT_SDK/apps/hid/board/bd19/board_ac6328b_demo.c
huangjin 9c5b986622 原始文件
2025-02-18 15:40:42 +08:00

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#include "app_config.h"
#ifdef CONFIG_BOARD_AC6328B_DEMO
#include "system/includes.h"
#include "device/key_driver.h"
#include "asm/chargestore.h"
#include "asm/charge.h"
#include "rtc_alarm.h"
#include "asm/pwm_led.h"
#include "user_cfg.h"
#include "usb/otg.h"
#include "norflash.h"
#include "asm/power/p33.h"
#define LOG_TAG_CONST BOARD
#define LOG_TAG "[BOARD]"
#define LOG_ERROR_ENABLE
#define LOG_DEBUG_ENABLE
#define LOG_INFO_ENABLE
/* #define LOG_DUMP_ENABLE */
#define LOG_CLI_ENABLE
#include "debug.h"
void board_power_init(void);
/************************** LOW POWER config ****************************/
const struct low_power_param power_param = {
.config = TCFG_LOWPOWER_LOWPOWER_SEL, //0sniff时芯片不进入低功耗 1sniff时芯片进入powerdown
.btosc_hz = TCFG_CLOCK_OSC_HZ, //外接晶振频率
.delay_us = TCFG_CLOCK_SYS_HZ / 1000000L, //提供给低功耗模块的延时(不需要需修改)
.btosc_disable = TCFG_LOWPOWER_BTOSC_DISABLE, //进入低功耗时BTOSC是否保持
.vddiom_lev = TCFG_LOWPOWER_VDDIOM_LEVEL, //强VDDIO等级,可选2.0V 2.2V 2.4V 2.6V 2.8V 3.0V 3.2V 3.6V
.vddiow_lev = TCFG_LOWPOWER_VDDIOW_LEVEL, //弱VDDIO等级,可选2.1V 2.4V 2.8V 3.2V
.osc_type = TCFG_LOWPOWER_OSC_TYPE,
.lpctmu_en = TCFG_LP_TOUCH_KEY_ENABLE,
.vd13_cap_en = TCFG_VD13_CAP_EN,
};
/************************** KEY MSG****************************/
/*各个按键的消息设置如果USER_CFG中设置了USE_CONFIG_KEY_SETTING为1则会从配置文件读取对应的配置来填充改结构体*/
/* u8 key_table[KEY_NUM_MAX][KEY_EVENT_MAX] = { */
// SHORT LONG HOLD UP DOUBLE TRIPLE
/* }; */
// *INDENT-OFF*
/************************** UART config****************************/
#if TCFG_UART0_ENABLE
UART0_PLATFORM_DATA_BEGIN(uart0_data)
.tx_pin = TCFG_UART0_TX_PORT, //串口打印TX引脚选择
.rx_pin = TCFG_UART0_RX_PORT, //串口打印RX引脚选择
.baudrate = TCFG_UART0_BAUDRATE, //串口波特率
.flags = UART_DEBUG, //串口用来打印需要把改参数设置为UART_DEBUG
UART0_PLATFORM_DATA_END()
#endif //TCFG_UART0_ENABLE
/************************** CHARGE config****************************/
#if TCFG_CHARGE_ENABLE
CHARGE_PLATFORM_DATA_BEGIN(charge_data)
.charge_en = TCFG_CHARGE_ENABLE, //内置充电使能
.charge_poweron_en = TCFG_CHARGE_POWERON_ENABLE, //是否支持充电开机
.charge_full_V = TCFG_CHARGE_FULL_V, //充电截止电压
.charge_full_mA = TCFG_CHARGE_FULL_MA, //充电截止电流
.charge_mA = TCFG_CHARGE_MA, //充电电流
/*ldo5v拔出过滤值过滤时间 = (filter*2 + 20)ms,ldoin<0.6V且时间大于过滤时间才认为拔出
对于充满直接从5V掉到0V的充电仓该值必须设置成0对于充满由5V先掉到0V之后再升压到xV的
充电仓,需要根据实际情况设置该值大小*/
.ldo5v_off_filter = 100,
.ldo5v_on_filter = 50,
.ldo5v_keep_filter = 220,
.ldo5v_pulldown_lvl = CHARGE_PULLDOWN_200K, //下拉电阻档位选择
.ldo5v_pulldown_keep = 1,
//1、对于自动升压充电舱,若充电舱需要更大的负载才能检测到插入时请将该变量置1,并且根据需求配置下拉电阻档位
//2、对于按键升压,并且是通过上拉电阻去提供维持电压的舱,请将该变量设置1,并且根据舱的上拉配置下拉需要的电阻挡位
//3、对于常5V的舱,可将改变量设为0,省功耗
//4、为LDOIN防止被误触发唤醒,可设置为200k下拉
.ldo5v_pulldown_en = 1,
CHARGE_PLATFORM_DATA_END()
#endif//TCFG_CHARGE_ENABLE
/************************** AD KEY ****************************/
#if TCFG_ADKEY_ENABLE
const struct adkey_platform_data adkey_data = {
.enable = TCFG_ADKEY_ENABLE, //AD按键使能
.adkey_pin = TCFG_ADKEY_PORT, //AD按键对应引脚
.ad_channel = TCFG_ADKEY_AD_CHANNEL, //AD通道值
.extern_up_en = TCFG_ADKEY_EXTERN_UP_ENABLE, //是否使用外接上拉电阻
.ad_value = { //根据电阻算出来的电压值
TCFG_ADKEY_VOLTAGE0,
TCFG_ADKEY_VOLTAGE1,
TCFG_ADKEY_VOLTAGE2,
TCFG_ADKEY_VOLTAGE3,
TCFG_ADKEY_VOLTAGE4,
TCFG_ADKEY_VOLTAGE5,
TCFG_ADKEY_VOLTAGE6,
TCFG_ADKEY_VOLTAGE7,
TCFG_ADKEY_VOLTAGE8,
TCFG_ADKEY_VOLTAGE9,
},
.key_value = { //AD按键各个按键的键值
TCFG_ADKEY_VALUE0,
TCFG_ADKEY_VALUE1,
TCFG_ADKEY_VALUE2,
TCFG_ADKEY_VALUE3,
TCFG_ADKEY_VALUE4,
TCFG_ADKEY_VALUE5,
TCFG_ADKEY_VALUE6,
TCFG_ADKEY_VALUE7,
TCFG_ADKEY_VALUE8,
TCFG_ADKEY_VALUE9,
},
};
#endif
/************************** IO KEY ****************************/
#if TCFG_IOKEY_ENABLE
const struct iokey_port iokey_list[] = {
{
.connect_way = TCFG_IOKEY_POWER_CONNECT_WAY, //IO按键的连接方式
.key_type.one_io.port = TCFG_IOKEY_POWER_ONE_PORT, //IO按键对应的引脚
.key_value = 0, //按键值
},
{
.connect_way = TCFG_IOKEY_PREV_CONNECT_WAY,
.key_type.one_io.port = TCFG_IOKEY_PREV_ONE_PORT,
.key_value = 1,
},
{
.connect_way = TCFG_IOKEY_NEXT_CONNECT_WAY,
.key_type.one_io.port = TCFG_IOKEY_NEXT_ONE_PORT,
.key_value = 2,
},
};
const struct iokey_platform_data iokey_data = {
.enable = TCFG_IOKEY_ENABLE, //是否使能IO按键
.num = ARRAY_SIZE(iokey_list), //IO按键的个数
.port = iokey_list, //IO按键参数表
};
#if MULT_KEY_ENABLE
//组合按键消息映射表
//配置注意事项:单个按键按键值需要按照顺序编号,如power:0, prev:1, next:2
//bit_value = BIT(0) | BIT(1) 指按键值为0和按键值为1的两个按键被同时按下,
//remap_value = 3指当这两个按键被同时按下后重新映射的按键值;
const struct key_remap iokey_remap_table[] = {
{.bit_value = BIT(0) | BIT(1), .remap_value = 3},
{.bit_value = BIT(0) | BIT(2), .remap_value = 4},
{.bit_value = BIT(1) | BIT(2), .remap_value = 5},
};
const struct key_remap_data iokey_remap_data = {
.remap_num = ARRAY_SIZE(iokey_remap_table),
.table = iokey_remap_table,
};
#endif
#endif
#if TCFG_RTC_ALARM_ENABLE
const struct sys_time def_sys_time = { //初始一下当前时间
.year = 2020,
.month = 1,
.day = 1,
.hour = 0,
.min = 0,
.sec = 0,
};
const struct sys_time def_alarm = { //初始一下目标时间,即闹钟时间
.year = 2050,
.month = 1,
.day = 1,
.hour = 0,
.min = 0,
.sec = 0,
};
extern void alarm_isr_user_cbfun(u8 index);
RTC_DEV_PLATFORM_DATA_BEGIN(rtc_data)
.default_sys_time = &def_sys_time,
.default_alarm = &def_alarm,
/* .cbfun = NULL, //闹钟中断的回调函数,用户自行定义 */
.cbfun = alarm_isr_user_cbfun,
RTC_DEV_PLATFORM_DATA_END()
#endif
/************************** PWM_LED ****************************/
#if TCFG_PWMLED_ENABLE
LED_PLATFORM_DATA_BEGIN(pwm_led_data)
.io_mode = TCFG_PWMLED_IOMODE, //推灯模式设置:支持单个IO推两个灯和两个IO推两个灯
.io_cfg.one_io.pin = TCFG_PWMLED_PIN, //单个IO推两个灯的IO口配置
LED_PLATFORM_DATA_END()
#endif
/************************** norflash ****************************/
NORFLASH_DEV_PLATFORM_DATA_BEGIN(norflash_fat_dev_data)
.spi_hw_num = TCFG_FLASH_DEV_SPI_HW_NUM,
.spi_cs_port = TCFG_FLASH_DEV_SPI_CS_PORT,
.spi_read_width = 4,
#if (TCFG_FLASH_DEV_SPI_HW_NUM == 1)
.spi_pdata = &spi1_p_data,
#elif (TCFG_FLASH_DEV_SPI_HW_NUM == 2)
.spi_pdata = &spi2_p_data,
#endif
.start_addr = 0,
.size = 16*1024*1024,
NORFLASH_DEV_PLATFORM_DATA_END()
/************************** otg data****************************/
#if TCFG_OTG_MODE
struct otg_dev_data otg_data = {
.usb_dev_en = TCFG_OTG_USB_DEV_EN,
.slave_online_cnt = TCFG_OTG_SLAVE_ONLINE_CNT,
.slave_offline_cnt = TCFG_OTG_SLAVE_OFFLINE_CNT,
.host_online_cnt = TCFG_OTG_HOST_ONLINE_CNT,
.host_offline_cnt = TCFG_OTG_HOST_OFFLINE_CNT,
.detect_mode = TCFG_OTG_MODE,
.detect_time_interval = TCFG_OTG_DET_INTERVAL,
};
#endif
REGISTER_DEVICES(device_table) = {
#if TCFG_OTG_MODE
{ "otg", &usb_dev_ops, (void *) &otg_data},
#endif
#if TCFG_CHARGE_ENABLE
{ "charge", &charge_dev_ops, (void *)&charge_data },
#endif
};
void debug_uart_init(const struct uart_platform_data *data)
{
#if TCFG_UART0_ENABLE
if (data) {
uart_init(data);
} else {
uart_init(&uart0_data);
}
#endif
}
static void board_devices_init(void)
{
#if TCFG_PWMLED_ENABLE
pwm_led_init(&pwm_led_data);
#endif
#if (TCFG_IOKEY_ENABLE || TCFG_ADKEY_ENABLE || TCFG_TOUCH_KEY_ENABLE)
key_driver_init();
#endif
#if TCFG_CHARGE_ENABLE
charge_api_init(&charge_data);
#else
/* CHGBG_EN(0); */
/* CHARGE_EN(0); */
#endif
#if TCFG_RTC_ALARM_ENABLE
alarm_init(&rtc_data);
#endif
}
//maskrom 使用到的io
static void mask_io_cfg()
{
struct boot_soft_flag_t boot_soft_flag = {0};
boot_soft_flag.flag0.boot_ctrl.wdt_dis = 0;
boot_soft_flag.flag0.boot_ctrl.poweroff = 0;
boot_soft_flag.flag0.boot_ctrl.is_port_b = JL_IOMAP->CON0 & BIT(16) ? 1 : 0;
boot_soft_flag.flag1.misc.usbdm = SOFTFLAG_HIGH_RESISTANCE;
boot_soft_flag.flag1.misc.usbdp = SOFTFLAG_HIGH_RESISTANCE;
boot_soft_flag.flag1.misc.uart_key_port = 0;
boot_soft_flag.flag1.misc.ldoin = SOFTFLAG_HIGH_RESISTANCE;
boot_soft_flag.flag2.pa7_pb4.pa7 = SOFTFLAG_HIGH_RESISTANCE;
boot_soft_flag.flag2.pa7_pb4.pb4 = SOFTFLAG_HIGH_RESISTANCE;
boot_soft_flag.flag3.pc3_pc5.pc3 = SOFTFLAG_HIGH_RESISTANCE;
boot_soft_flag.flag3.pc3_pc5.pc5 = SOFTFLAG_HIGH_RESISTANCE;
mask_softflag_config(&boot_soft_flag);
}
extern void cfg_file_parse(u8 idx);
void board_init()
{
board_power_init();
adc_vbg_init();
adc_init();
cfg_file_parse(0);
devices_init();
board_devices_init();
if(get_charge_online_flag()) {
power_set_mode(PWR_LDO15);
} else {
power_set_mode(TCFG_LOWPOWER_POWER_SEL);
}
/*close FAST CHARGE */
#if TCFG_UART0_ENABLE
if (uart0_data.rx_pin < IO_MAX_NUM) {
gpio_set_die(uart0_data.rx_pin, 1);
}
#endif
}
enum {
PORTA_GROUP = 0,
PORTB_GROUP,
PORTC_GROUP,
};
static void port_protect(u16 *port_group, u32 port_num)
{
if (port_num == NO_CONFIG_PORT) {
return;
}
port_group[port_num / IO_GROUP_NUM] &= ~BIT(port_num % IO_GROUP_NUM);
}
void usb1_iomode(u32 enable);
/*进软关机之前默认将IO口都设置成高阻状态需要保留原来状态的请修改该函数*/
static void close_gpio(void)
{
u16 port_group[] = {
[PORTA_GROUP] = 0x1ff,
[PORTB_GROUP] = 0x3ff,//
[PORTC_GROUP] = 0x3ff,//
};
if(P3_ANA_CON2 & BIT(3))
{
port_protect(port_group, IO_PORTB_02); //protect VCM_IO
}
#if TCFG_ADKEY_ENABLE
port_protect(port_group,TCFG_ADKEY_PORT);
#endif /* */
#if TCFG_IOKEY_ENABLE
port_protect(port_group, TCFG_IOKEY_POWER_ONE_PORT);
port_protect(port_group, TCFG_IOKEY_PREV_ONE_PORT);
port_protect(port_group, TCFG_IOKEY_NEXT_ONE_PORT);
#endif /* TCFG_IOKEY_ENABLE */
#if TCFG_RTC_ALARM_ENABLE
/* port_protect(port_group, IO_PORTA_01); */
/* port_protect(port_group, IO_PORTA_02); */
#endif /* TCFG_RTC_ALARM_ENABLE */
//< close gpio
gpio_dir(GPIOA, 0, 9, port_group[PORTA_GROUP], GPIO_OR);
gpio_set_pu(GPIOA, 0, 9, ~port_group[PORTA_GROUP], GPIO_AND);
gpio_set_pd(GPIOA, 0, 9, ~port_group[PORTA_GROUP], GPIO_AND);
gpio_die(GPIOA, 0, 9, ~port_group[PORTA_GROUP], GPIO_AND);
gpio_dieh(GPIOA, 0, 9, ~port_group[PORTA_GROUP], GPIO_AND);
gpio_dir(GPIOB, 0, 10, port_group[PORTB_GROUP], GPIO_OR);
gpio_set_pu(GPIOB, 0, 10, ~port_group[PORTB_GROUP], GPIO_AND);
gpio_set_pd(GPIOB, 0, 10, ~port_group[PORTB_GROUP], GPIO_AND);
gpio_die(GPIOB, 0, 10, ~port_group[PORTB_GROUP], GPIO_AND);
gpio_dieh(GPIOB, 0, 10, ~port_group[PORTB_GROUP], GPIO_AND);
//< close usb io
usb_iomode(1);
gpio_set_pull_up(IO_PORT_DP, 0);
gpio_set_pull_down(IO_PORT_DP, 0);
gpio_set_direction(IO_PORT_DP, 1);
gpio_set_die(IO_PORT_DP, 0);
gpio_set_dieh(IO_PORT_DP, 0);
gpio_set_pull_up(IO_PORT_DM, 0);
gpio_set_pull_down(IO_PORT_DM, 0);
gpio_set_direction(IO_PORT_DM, 1);
gpio_set_die(IO_PORT_DM, 0);
gpio_set_dieh(IO_PORT_DM, 0);
usb1_iomode(1);
gpio_set_pull_up(IO_PORT_DP1, 0);
gpio_set_pull_down(IO_PORT_DP1, 0);
gpio_set_direction(IO_PORT_DP1, 1);
gpio_set_die(IO_PORT_DP1, 0);
gpio_set_dieh(IO_PORT_DP1, 0);
gpio_set_pull_up(IO_PORT_DM1, 0);
gpio_set_pull_down(IO_PORT_DM1, 0);
gpio_set_direction(IO_PORT_DM1, 1);
gpio_set_die(IO_PORT_DM1, 0);
gpio_set_dieh(IO_PORT_DM1, 0);
/* printf("JL_USB_IO->CON0=0x%x\r\n", JL_USB_IO->CON0); */
/* printf("JL_USB_IO->CON1=0x%x\r\n", JL_USB_IO->CON1); */
/* printf("JL_USB->CON0=0x%x\r\n", JL_USB->CON0); */
/* */
/* printf("JL_USB1_IO->CON0=0x%x\r\n", JL_USB1_IO->CON0); */
/* printf("JL_USB1_IO->CON1=0x%x\r\n", JL_USB1_IO->CON1); */
/* printf("JL_USB1->CON0=0x%x\r\n", JL_USB1->CON0); */
}
/************************** PWR config ****************************/
struct port_wakeup port0 = {
.pullup_down_enable = ENABLE, //配置I/O 内部上下拉是否使能
.edge = FALLING_EDGE, //唤醒方式选择,可选:上升沿\下降沿
.both_edge = 0,
#if TCFG_ADKEY_ENABLE
.iomap = TCFG_ADKEY_PORT, //唤醒口选择
#else
.iomap = TCFG_IOKEY_POWER_ONE_PORT, //唤醒口选择
#endif
.filter = PORT_FLT_2ms,
};
#if TCFG_TEST_BOX_ENABLE
struct port_wakeup port1 = {
.pullup_down_enable = DISABLE, //配置I/O 内部上下拉是否使能
.edge = FALLING_EDGE, //唤醒方式选择,可选:上升沿\下降沿
.both_edge = 1,
.filter = PORT_FLT_1ms,
.iomap = TCFG_CHARGESTORE_PORT, //唤醒口选择
};
#endif
#if TCFG_CHARGE_ENABLE
struct port_wakeup charge_port = {
.edge = RISING_EDGE, //唤醒方式选择,可选:上升沿\下降沿\双边沿
.both_edge = 0,
.filter = PORT_FLT_16ms,
.iomap = IO_CHGFL_DET, //唤醒口选择
};
struct port_wakeup vbat_port = {
.edge = BOTH_EDGE, //唤醒方式选择,可选:上升沿\下降沿\双边沿
.both_edge = 1,
.filter = PORT_FLT_16ms,
.iomap = IO_VBTCH_DET, //唤醒口选择
};
struct port_wakeup ldoin_port = {
.edge = BOTH_EDGE, //唤醒方式选择,可选:上升沿\下降沿\双边沿
.both_edge = 1,
.filter = PORT_FLT_16ms,
.iomap = IO_LDOIN_DET, //唤醒口选择
};
#endif
const struct wakeup_param wk_param = {
#if TCFG_ADKEY_ENABLE || TCFG_IOKEY_ENABLE
.port[1] = &port0,
#endif
/* .sub = &sub_wkup, */
/* .charge = &charge_wkup, */
#if TCFG_TEST_BOX_ENABLE
.port[2] = &port1,
#endif
#if TCFG_CHARGE_ENABLE
.aport[0] = &charge_port,
.aport[1] = &vbat_port,
.aport[2] = &ldoin_port,
#endif
};
//-----------------------------------------------
/*进软关机之前默认将IO口都设置成高阻状态需要保留原来状态的请修改该函数*/
extern void dac_power_off(void);
void board_set_soft_poweroff(void)
{
log_info("%s",__FUNCTION__);
mask_io_cfg();
#if TCFG_TEST_BOX_ENABLE
power_wakeup_index_disable(2);
#endif
close_gpio();
}
#define APP_IO_DEBUG_0(i,x) //{JL_PORT##i->DIR &= ~BIT(x), JL_PORT##i->OUT &= ~BIT(x);}
#define APP_IO_DEBUG_1(i,x) //{JL_PORT##i->DIR &= ~BIT(x), JL_PORT##i->OUT |= BIT(x);}
void sleep_exit_callback(u32 usec)
{
putchar('>');
APP_IO_DEBUG_0(A, 5);
}
void sleep_enter_callback(u8 step)
{
/* 此函数禁止添加打印 */
if (step == 1) {
putchar('<');
APP_IO_DEBUG_1(A, 5);
/*dac_power_off();*/
} else {
close_gpio();
}
}
static void wl_audio_clk_on(void)
{
JL_WL_AUD->CON0 = 1;
}
static void port_wakeup_callback(u8 index, u8 gpio)
{
/* log_info("%s:%d,%d",__FUNCTION__,index,gpio); */
switch (index) {
#if TCFG_TEST_BOX_ENABLE
case 2:
extern void chargestore_ldo5v_fall_deal(void);
chargestore_ldo5v_fall_deal();
break;
#endif
}
}
static void aport_wakeup_callback(u8 index, u8 gpio, u8 edge)
{
#if TCFG_CHARGE_ENABLE
switch (gpio) {
case IO_CHGFL_DET://charge port
charge_wakeup_isr();
break;
case IO_VBTCH_DET://vbat port
case IO_LDOIN_DET://ldoin port
ldoin_wakeup_isr();
break;
}
#endif
}
void board_power_init(void)
{
log_info("Power init : %s", __FILE__);
power_init(&power_param);
//< close short key reset
/* power_mclr(0); */
//< close long key reset
/* power_pin_reset(0); */
power_set_callback(TCFG_LOWPOWER_LOWPOWER_SEL, sleep_enter_callback, sleep_exit_callback, board_set_soft_poweroff);
// wl_audio_clk_on();
power_keep_dacvdd_en(0);
power_wakeup_init(&wk_param);
aport_edge_wkup_set_callback(aport_wakeup_callback);
port_edge_wkup_set_callback(port_wakeup_callback);
/* #if (!TCFG_IOKEY_ENABLE && !TCFG_ADKEY_ENABLE) */
/* charge_check_and_set_pinr(0); */
/* #endif */
}
#endif
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