code-image-backup-public/fastbee
1
0
Fork 0
mirror of https://gitee.com/beecue/fastbee.git synced 2025-12-20 18:05:54 +08:00
Code Issues Packages Projects Releases Wiki Activity

更新硬件SDK

Browse Source
This commit is contained in:
kerwincui
2023-03-04 03:44:56 +08:00
parent dcdf6e1b7c
commit e39d3d2f03
1900 changed files with 663153 additions and 0 deletions
Download Patch File Download Diff File Expand all files Collapse all files

350
sdk/合宙/air780e/csdk/luatos-soc-2022/project/example_mobile/inc/RTE_Device.h Normal file
View File

@@ -0,0 +1,350 @@
#ifndef __RTE_DEVICE_H
#define __RTE_DEVICE_H
#include "ec618.h"
/* Peripheral IO Mode Select, Must Configure First !!!
Note, when receiver works in DMA_MODE, interrupt is also enabled to transfer tailing bytes.
*/
#define POLLING_MODE 0x1
#define DMA_MODE 0x2
#define IRQ_MODE 0x3
#define UNILOG_MODE 0x4
#define RTE_UART0_TX_IO_MODE UNILOG_MODE
#define RTE_UART0_RX_IO_MODE IRQ_MODE
#define USART0_RX_TRIG_LVL (30)
#define RTE_UART1_TX_IO_MODE DMA_MODE
#define RTE_UART1_RX_IO_MODE DMA_MODE
#define RTE_UART2_TX_IO_MODE POLLING_MODE
#define RTE_UART2_RX_IO_MODE DMA_MODE
#define RTE_SPI0_IO_MODE POLLING_MODE
#define RTE_SPI1_IO_MODE POLLING_MODE
#define RTE_I2C0_IO_MODE POLLING_MODE
#define RTE_I2C1_IO_MODE POLLING_MODE
// I2C0 (Inter-integrated Circuit Interface) [Driver_I2C0]
// Configuration settings for Driver_I2C0 in component ::Drivers:I2C
#define RTE_I2C0 1
// { PAD_PIN28}, // 0 : gpio13 / 2 : I2C0 SCL
// { PAD_PIN27}, // 0 : gpio12 / 2 : I2C0 SDA
#define RTE_I2C0_SCL_BIT 28 // AUDIO use 28
#define RTE_I2C0_SCL_FUNC PAD_MUX_ALT2
#define RTE_I2C0_SDA_BIT 27 // AUDIO use 27
#define RTE_I2C0_SDA_FUNC PAD_MUX_ALT2
// DMA
// Tx
// Channel <0=>0 <1=>1 <2=>2 <3=>3 <4=>4 <5=>5 <6=>6 <7=>7
#define RTE_I2C0_DMA_TX_EN 0
#define RTE_I2C0_DMA_TX_REQID DMA_REQUEST_I2C0_TX
// Rx
// Channel <0=>0 <1=>1 <2=>2 <3=>3 <4=>4 <5=>5 <6=>6 <7=>7
#define RTE_I2C0_DMA_RX_EN 0
#define RTE_I2C0_DMA_RX_REQID DMA_REQUEST_I2C0_RX
// I2C1 (Inter-integrated Circuit Interface) [Driver_I2C1]
// Configuration settings for Driver_I2C1 in component ::Drivers:I2C
#define RTE_I2C1 1
// { PAD_PIN20}, // 0 : gpio5 / 2 : I2C1 SCL
// { PAD_PIN19}, // 0 : gpio4 / 2 : I2C1 SDA
#define RTE_I2C1_SCL_BIT 20
#define RTE_I2C1_SCL_FUNC PAD_MUX_ALT2
#define RTE_I2C1_SDA_BIT 19
#define RTE_I2C1_SDA_FUNC PAD_MUX_ALT2
// DMA
// Tx
// Channel <0=>0 <1=>1 <2=>2 <3=>3 <4=>4 <5=>5 <6=>6 <7=>7
#define RTE_I2C1_DMA_TX_EN 1
#define RTE_I2C1_DMA_TX_REQID DMA_REQUEST_I2C1_TX
// Rx
// Channel <0=>0 <1=>1 <2=>2 <3=>3 <4=>4 <5=>5 <6=>6 <7=>7
#define RTE_I2C1_DMA_RX_EN 1
#define RTE_I2C1_DMA_RX_REQID DMA_REQUEST_I2C1_RX
// UART0 (Universal asynchronous receiver transmitter) [Driver_USART0]
// Configuration settings for Driver_USART0 in component ::Drivers:USART
#define RTE_UART0_CTS_PIN_EN 0
#define RTE_UART0_RTS_PIN_EN 0
// { PAD_PIN27}, // 0 : gpio12 / 3 : UART0 RTSn
// { PAD_PIN28}, // 0 : gpio13 / 3 : UART0 CTSn
// { PAD_PIN29}, // 0 : gpio14 / 3 : UART0 RXD
// { PAD_PIN30}, // 0 : gpio15 / 3 : UART0 TXD
#define RTE_UART0_RTS_BIT 27
#define RTE_UART0_RTS_FUNC PAD_MUX_ALT3
#define RTE_UART0_CTS_BIT 28
#define RTE_UART0_CTS_FUNC PAD_MUX_ALT3
#define RTE_UART0_RX_BIT 29
#define RTE_UART0_RX_FUNC PAD_MUX_ALT3
#define RTE_UART0_TX_BIT 30
#define RTE_UART0_TX_FUNC PAD_MUX_ALT3
// DMA
// Tx
// Channel <0=>0 <1=>1 <2=>2 <3=>3 <4=>4 <5=>5 <6=>6 <7=>7
#define RTE_UART0_DMA_TX_REQID DMA_REQUEST_USART0_TX
// Rx
// Channel <0=>0 <1=>1 <2=>2 <3=>3 <4=>4 <5=>5 <6=>6 <7=>7
#define RTE_UART0_DMA_RX_REQID DMA_REQUEST_USART0_RX
// UART1 (Universal asynchronous receiver transmitter) [Driver_USART1]
// Configuration settings for Driver_USART1 in component ::Drivers:USART
#define RTE_UART1_CTS_PIN_EN 1
#define RTE_UART1_RTS_PIN_EN 1
// { PAD_PIN31}, // 0 : gpio16 / 1 : UART1 RTS
// { PAD_PIN32}, // 0 : gpio17 / 1 : UART1 CTS
// { PAD_PIN33}, // 0 : gpio18 / 1 : UART1 RXD
// { PAD_PIN34}, // 0 : gpio19 / 1 : UART1 TXD
#define RTE_UART1_RTS_BIT 31
#define RTE_UART1_RTS_FUNC PAD_MUX_ALT1
#define RTE_UART1_CTS_BIT 32
#define RTE_UART1_CTS_FUNC PAD_MUX_ALT1
#define RTE_UART1_RX_BIT 33
#define RTE_UART1_RX_FUNC PAD_MUX_ALT1
#define RTE_UART1_TX_BIT 34
#define RTE_UART1_TX_FUNC PAD_MUX_ALT1
// DMA
// Tx
// Channel <0=>0 <1=>1 <2=>2 <3=>3 <4=>4 <5=>5 <6=>6 <7=>7
#define RTE_UART1_DMA_TX_REQID DMA_REQUEST_USART1_TX
// Rx
// Channel <0=>0 <1=>1 <2=>2 <3=>3 <4=>4 <5=>5 <6=>6 <7=>7
#define RTE_UART1_DMA_RX_REQID DMA_REQUEST_USART1_RX
// UART2 (Universal asynchronous receiver transmitter) [Driver_USART2]
// Configuration settings for Driver_USART2 in component ::Drivers:USART
#define RTE_UART2_CTS_PIN_EN 0
#define RTE_UART2_RTS_PIN_EN 0
// { PAD_PIN25}, // 0 : gpio10 / 3 : UART2 RXD
// { PAD_PIN26}, // 0 : gpio11 / 3 : UART2 TXD
#define RTE_UART2_RX_BIT 25
#define RTE_UART2_RX_FUNC PAD_MUX_ALT3
#define RTE_UART2_TX_BIT 26
#define RTE_UART2_TX_FUNC PAD_MUX_ALT3
// DMA
// Tx
// Channel <0=>0 <1=>1 <2=>2 <3=>3 <4=>4 <5=>5 <6=>6 <7=>7
#define RTE_UART2_DMA_TX_REQID DMA_REQUEST_USART2_TX
// Rx
// Channel <0=>0 <1=>1 <2=>2 <3=>3 <4=>4 <5=>5 <6=>6 <7=>7
#define RTE_UART2_DMA_RX_REQID DMA_REQUEST_USART2_RX
// SPI0 (Serial Peripheral Interface) [Driver_SPI0]
// Configuration settings for Driver_SPI0 in component ::Drivers:SPI
#define RTE_SPI0 1
// { PAD_PIN21}, // 0 : gpio16 / 1 : UART1 RTS / 2 : SPI0 SSn
// { PAD_PIN22}, // 0 : gpio11 / 1 : UART1 CTS / 2 : SPI0 MOSI
// { PAD_PIN23}, // 0 : gpio14 / 1 : UART1 RXD / 2 : SPI0 MISO
// { PAD_PIN24}, // 0 : gpio15 / 1 : UART1 TXD / 2 : SPI0 SCLK
#define RTE_SPI0_SSN_BIT 21
#define RTE_SPI0_SSN_FUNC PAD_MUX_ALT2
#define RTE_SPI0_MOSI_BIT 22
#define RTE_SPI0_MOSI_FUNC PAD_MUX_ALT2
#define RTE_SPI0_MISO_BIT 23
#define RTE_SPI0_MISO_FUNC PAD_MUX_ALT2
#define RTE_SPI0_SCLK_BIT 24
#define RTE_SPI0_SCLK_FUNC PAD_MUX_ALT2
#define RTE_SPI0_SSN_GPIO_INSTANCE 1
#define RTE_SPI0_SSN_GPIO_INDEX 0
// DMA
// Tx
// Channel <0=>0 <1=>1 <2=>2 <3=>3 <4=>4 <5=>5 <6=>6 <7=>7
#define RTE_SPI0_DMA_TX_REQID DMA_REQUEST_SPI0_TX
// Rx
// Channel <0=>0 <1=>1 <2=>2 <3=>3 <4=>4 <5=>5 <6=>6 <7=>7
#define RTE_SPI0_DMA_RX_REQID DMA_REQUEST_SPI0_RX
// SPI1 (Serial Peripheral Interface) [Driver_SPI1]
// Configuration settings for Driver_SPI1 in component ::Drivers:SPI
#define RTE_SPI1 1
// { PAD_PIN13}, // 0 : gpio2 / 1 : UART0 RTSn / 3 : SPI1 SSn
// { PAD_PIN14}, // 0 : gpio3 / 1 : UART0 CTSn / 3 : SPI1 MOSI
// { PAD_PIN15}, // 0 : gpio4 / 1 : UART0 RXD / 3 : SPI1 MISO
// { PAD_PIN16}, // 0 : gpio5 / 1 : UART0 TXD / 3 : SPI1 SCLK
#define RTE_SPI1_SSN_BIT 13
#define RTE_SPI1_SSN_FUNC PAD_MUX_ALT3
#define RTE_SPI1_MOSI_BIT 14
#define RTE_SPI1_MOSI_FUNC PAD_MUX_ALT3
#define RTE_SPI1_MISO_BIT 15
#define RTE_SPI1_MISO_FUNC PAD_MUX_ALT3
#define RTE_SPI1_SCLK_BIT 16
#define RTE_SPI1_SCLK_FUNC PAD_MUX_ALT3
#define RTE_SPI1_SSN_GPIO_INSTANCE 0
#define RTE_SPI1_SSN_GPIO_INDEX 2
// DMA
// Tx
// Channel <0=>0 <1=>1 <2=>2 <3=>3 <4=>4 <5=>5 <6=>6 <7=>7
#define RTE_SPI1_DMA_TX_REQID DMA_REQUEST_SPI1_TX
// Rx
// Channel <0=>0 <1=>1 <2=>2 <3=>3 <4=>4 <5=>5 <6=>6 <7=>7
#define RTE_SPI1_DMA_RX_REQID DMA_REQUEST_SPI1_RX
// PWM0 Controller [Driver_PWM0]
// Configuration settings for Driver_PWM0 in component ::Drivers:PWM
#define RTE_PWM 1
#define EFUSE_INIT_MODE POLLING_MODE
#define L2CTLS_INIT_MODE POLLING_MODE
#define FLASH_BARE_RW_MODE 1
#define RTE_UART0 1
#define RTE_UART1 1
#define RTE_UART2 1
/* to enable external thermal */
#define EXTERNAL_NTC_EXIST 0
#if (RTE_UART1 == 1)
#define UART1_DTR_PAD_INDEX 26 // GPIO11
#define UART1_DTR_GPIO_INSTANCE 0
#define UART1_DTR_GPIO_PIN 11
#define UART1_RI_PAD_INDEX 44 // AONIO 4 = GPIO24
#define UART1_RI_GPIO_INSTANCE 1
#define UART1_RI_GPIO_PIN 8
#define UART1_RI_PWM_INSTANCE 1
#define UART1_RI_PWM_CLK_ID FCLK_TIMER1
#define UART1_RI_PWM_CLK_SEL FCLK_TIMER1_SEL_26M
#define UART1_DCD_PAD_INDEX 45 // AONIO 5 = GPIO25
#define UART1_DCD_GPIO_INSTANCE 1
#define UART1_DCD_GPIO_PIN 9
#endif
#if (RTE_UART2 == 1)
#define UART2_DTR_PAD_INDEX 25 // GPIO10
#define UART2_DTR_GPIO_INSTANCE 0
#define UART2_DTR_GPIO_PIN 10
#define UART2_RI_PAD_INDEX 43 // AONIO 3 = GPIO23
#define UART2_RI_GPIO_INSTANCE 1
#define UART2_RI_GPIO_PIN 7
#define UART2_RI_PWM_INSTANCE 0
#define UART2_RI_PWM_CLK_ID FCLK_TIMER0
#define UART2_RI_PWM_CLK_SEL FCLK_TIMER0_SEL_26M
#define UART2_DCD_PAD_INDEX 47 // AONIO 7 = GPIO27
#define UART2_DCD_GPIO_INSTANCE 1
#define UART2_DCD_GPIO_PIN 11
#endif
#define NETLIGHT_PAD_INDEX 46 // AONIO 6 = GPIO26
#define NETLIGHT_PAD_ALT_FUNC PAD_MUX_ALT5
#define NETLIGHT_PWM_INSTANCE 3
//USIM1 OPTION1
#define USIM1_URST_OP1_PAD_INDEX 19 // GPIO4
#define USIM1_URST_OP1_GPIO_INSTANCE 0
#define USIM1_URST_OP1_GPIO_PIN 4
#define USIM1_UCLK_OP1_PAD_INDEX 20 // GPIO5
#define USIM1_UCLK_OP1_GPIO_INSTANCE 0
#define USIM1_UCLK_OP1_GPIO_PIN 5
#define USIM1_UIO_OP1_PAD_INDEX 21 // GPIO6
#define USIM1_UIO_OP1_GPIO_INSTANCE 0
#define USIM1_UIO_OP1_GPIO_PIN 6
//USIM1 OPTION2
#define USIM1_UIO_OP2_PAD_INDEX 27 // GPIO12
#define USIM1_UIO_OP2_GPIO_INSTANCE 0
#define USIM1_UIO_OP2_GPIO_PIN 12
#define USIM1_URST_OP2_PAD_INDEX 28 // GPIO13
#define USIM1_URST_OP2_GPIO_INSTANCE 0
#define USIM1_URST_OP2_GPIO_PIN 13
#define USIM1_UCLK_OP2_PAD_INDEX 29 // GPIO14
#define USIM1_UCLK_OP2_GPIO_INSTANCE 0
#define USIM1_UCLK_OP2_GPIO_PIN 14
//USIM1 clock latched by AONIO, for example, use AONIO-6 test on EVB
#define AONIO_6_PAD_INDEX 46 // AONIO 6 = GPIO26
#define AONIO_6_GPIO_INSTANCE 1
#define AONIO_6_GPIO_PIN 10
#define RTE_CSPI0 0
#define RTE_CSPI0_MCLK_PAD_ADDR 39
#define RTE_CSPI0_MCLK_FUNC PAD_MUX_ALT1
#define RTE_CSPI0_PCLK_PAD_ADDR 35
#define RTE_CSPI0_PCLK_FUNC PAD_MUX_ALT1
#define RTE_CSPI0_CS_PAD_ADDR 36
#define RTE_CSPI0_CS_FUNC PAD_MUX_ALT1
#define RTE_CSPI0_SDO0_PAD_ADDR 37
#define RTE_CSPI0_SDO0_FUNC PAD_MUX_ALT1
#define RTE_CSPI0_SDO1_PAD_ADDR 38
#define RTE_CSPI0_SDO1_FUNC PAD_MUX_ALT1
// DMA CSPI0 Request ID
#define RTE_CSPI0_DMA_RX_REQID DMA_REQUEST_I2S0_RX
// CSPI1 Configuration
#define RTE_CSPI1 1
#define RTE_CSPI1_MCLK_PAD_ADDR 18
#define RTE_CSPI1_MCLK_FUNC PAD_MUX_ALT1
#define RTE_CSPI1_PCLK_PAD_ADDR 19
#define RTE_CSPI1_PCLK_FUNC PAD_MUX_ALT1
#define RTE_CSPI1_CS_PAD_ADDR 20
#define RTE_CSPI1_CS_FUNC PAD_MUX_ALT1
#define RTE_CSPI1_SDO0_PAD_ADDR 21
#define RTE_CSPI1_SDO0_FUNC PAD_MUX_ALT1
#define RTE_CSPI1_SDO1_PAD_ADDR 22
#define RTE_CSPI1_SDO1_FUNC PAD_MUX_ALT1
// DMA CSPI1 Request ID
#define RTE_CSPI1_DMA_RX_REQID DMA_REQUEST_I2S1_RX
#endif /* __RTE_DEVICE_H */

213
sdk/合宙/air780e/csdk/luatos-soc-2022/project/example_mobile/src/example_mobile.c Normal file
View File

@@ -0,0 +1,213 @@
/*
* Copyright (c) 2022 OpenLuat & AirM2M
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of
* this software and associated documentation files (the "Software"), to deal in
* the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
* the Software, and to permit persons to whom the Software is furnished to do so,
* subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
#include "common_api.h"
#include "luat_rtos.h"
#include "luat_mobile.h"
#include "luat_debug.h"
static void sms_event_cb(uint32_t event, void *param)
{
LUAT_DEBUG_PRINT("短信event%d,%x",event, param);
}
static void mobile_event_cb(LUAT_MOBILE_EVENT_E event, uint8_t index, uint8_t status)
{
luat_mobile_cell_info_t cell_info;
luat_mobile_signal_strength_info_t signal_info;
uint8_t csq, i;
char imsi[20];
char iccid[24] = {0};
char apn[32] = {0};
ip_addr_t ipv4;
ip_addr_t ipv6;
switch(event)
{
case LUAT_MOBILE_EVENT_CFUN:
LUAT_DEBUG_PRINT("CFUN消息status %d", status);
break;
case LUAT_MOBILE_EVENT_SIM:
LUAT_DEBUG_PRINT("SIM卡消息卡槽%d", index);
switch(status)
{
case LUAT_MOBILE_SIM_READY:
LUAT_DEBUG_PRINT("SIM卡正常工作");
luat_mobile_get_iccid(0, iccid, sizeof(iccid));
LUAT_DEBUG_PRINT("ICCID %s", iccid);
luat_mobile_get_imsi(0, imsi, sizeof(imsi));
LUAT_DEBUG_PRINT("IMSI %s", imsi);
break;
case LUAT_MOBILE_NO_SIM:
LUAT_DEBUG_PRINT("SIM卡不存在");
break;
case LUAT_MOBILE_SIM_NEED_PIN:
LUAT_DEBUG_PRINT("SIM卡需要输入PIN码");
break;
}
break;
case LUAT_MOBILE_EVENT_REGISTER_STATUS:
LUAT_DEBUG_PRINT("移动网络服务状态变更,当前为%d", status);
break;
case LUAT_MOBILE_EVENT_CELL_INFO:
switch(status)
{
case LUAT_MOBILE_CELL_INFO_UPDATE:
LUAT_DEBUG_PRINT("周期性搜索小区信息完成一次");
luat_mobile_get_last_notify_cell_info(&cell_info);
if (cell_info.lte_service_info.cid)
{
LUAT_DEBUG_PRINT("服务小区信息 mcc %x mnc %x cellid %u band %d tac %u pci %u earfcn %u is_tdd %d rsrp %d rsrq %d snr %d rssi %d",
cell_info.lte_service_info.mcc, cell_info.lte_service_info.mnc, cell_info.lte_service_info.cid,
cell_info.lte_service_info.band, cell_info.lte_service_info.tac, cell_info.lte_service_info.pci, cell_info.lte_service_info.earfcn,
cell_info.lte_service_info.is_tdd, cell_info.lte_service_info.rsrp, cell_info.lte_service_info.rsrq,
cell_info.lte_service_info.snr, cell_info.lte_service_info.rssi);
}
for (i = 0; i < cell_info.lte_neighbor_info_num; i++)
{
if (cell_info.lte_info[i].cid)
{
LUAT_DEBUG_PRINT("邻小区 %d mcc %x mnc %x cellid %u tac %u pci %u", i + 1, cell_info.lte_info[i].mcc,
cell_info.lte_info[i].mnc, cell_info.lte_info[i].cid, cell_info.lte_info[i].tac, cell_info.lte_info[i].pci);
LUAT_DEBUG_PRINT("邻小区 %d earfcn %u rsrp %d rsrq %d snr %d", i + 1, cell_info.lte_info[i].earfcn, cell_info.lte_info[i].rsrp,
cell_info.lte_info[i].rsrq, cell_info.lte_info[i].snr);
}
}
break;
case LUAT_MOBILE_SIGNAL_UPDATE:
LUAT_DEBUG_PRINT("服务小区信号状态变更");
luat_mobile_get_last_notify_signal_strength_info(&signal_info);
luat_mobile_get_last_notify_signal_strength(&csq);
if (signal_info.luat_mobile_lte_signal_strength_vaild)
{
LUAT_DEBUG_PRINT("rsrp %d, rsrq %d, snr %d, rssi %d, csq %d %d", signal_info.lte_signal_strength.rsrp,
signal_info.lte_signal_strength.rsrq, signal_info.lte_signal_strength.snr,
signal_info.lte_signal_strength.rssi, csq, luat_mobile_rssi_to_csq(signal_info.lte_signal_strength.rssi));
}
break;
}
break;
case LUAT_MOBILE_EVENT_PDP:
LUAT_DEBUG_PRINT("CID %d PDP激活状态变更为 %d", index, status);
break;
case LUAT_MOBILE_EVENT_NETIF:
LUAT_DEBUG_PRINT("internet工作状态变更为 %d", status);
switch (status)
{
case LUAT_MOBILE_NETIF_LINK_ON:
LUAT_DEBUG_PRINT("可以上网");
if (luat_mobile_get_apn(0, 0, apn, sizeof(apn)))
{
LUAT_DEBUG_PRINT("默认apn %s", apn);
}
luat_mobile_get_local_ip(0, 1, &ipv4, &ipv6);
if (ipv4.type != 0xff)
{
LUAT_DEBUG_PRINT("IPV4 %s", ip4addr_ntoa(&ipv4.u_addr.ip4));
}
if (ipv6.type != 0xff)
{
LUAT_DEBUG_PRINT("IPV6 %s", ip6addr_ntoa(&ipv4.u_addr.ip6));
}
break;
default:
LUAT_DEBUG_PRINT("不能上网");
break;
}
break;
case LUAT_MOBILE_EVENT_TIME_SYNC:
LUAT_DEBUG_PRINT("通过移动网络同步了UTC时间");
break;
case LUAT_MOBILE_EVENT_CSCON:
LUAT_DEBUG_PRINT("RRC状态 %d", status);
break;
default:
break;
}
}
static void task_run(void *param)
{
int i;
luat_mobile_cell_info_t cell_info;
char imei[20] = {0};
luat_mobile_get_imei(0, imei, sizeof(imei));
LUAT_DEBUG_PRINT("IMEI %s", imei);
luat_mobile_set_sn("1234567890abcdefghijklmnopqrstuv",32);
char sn[33] = {0};
luat_mobile_get_sn(sn, sizeof(sn));
LUAT_DEBUG_PRINT("SN %s", sn);
char muid[64] = {0};
luat_mobile_get_muid(muid, sizeof(muid));
LUAT_DEBUG_PRINT("MUID %s", muid);
while(1)
{
luat_rtos_task_sleep(10000);
luat_mobile_set_sim_id(0);
luat_rtos_task_sleep(10000);
luat_mobile_set_sim_id(1);
luat_rtos_task_sleep(10000);
luat_mobile_set_sim_id(2); //自动识别时需要手动重启协议栈或者启动SIM卡自动恢复功能
luat_mobile_reset_stack();
luat_rtos_task_sleep(15000);
LUAT_DEBUG_PRINT("手动获取一次周围小区信息,异步方式");
luat_mobile_get_cell_info_async(6);
luat_rtos_task_sleep(15000);
LUAT_DEBUG_PRINT("手动获取一次周围小区信息,同步方式");
luat_mobile_get_cell_info(&cell_info);
if (cell_info.lte_service_info.cid)
{
LUAT_DEBUG_PRINT("服务小区信息 mcc %x mnc %x cellid %u band %d tac %u pci %u earfcn %u is_tdd %d rsrp %d rsrq %d snr %d rssi %d",
cell_info.lte_service_info.mcc, cell_info.lte_service_info.mnc, cell_info.lte_service_info.cid,
cell_info.lte_service_info.band, cell_info.lte_service_info.tac, cell_info.lte_service_info.pci, cell_info.lte_service_info.earfcn,
cell_info.lte_service_info.is_tdd, cell_info.lte_service_info.rsrp, cell_info.lte_service_info.rsrq,
cell_info.lte_service_info.snr, cell_info.lte_service_info.rssi);
}
for (i = 0; i < cell_info.lte_neighbor_info_num; i++)
{
if (cell_info.lte_info[i].cid)
{
LUAT_DEBUG_PRINT("邻小区 %d mcc %x mnc %x cellid %u tac %u pci %u", i + 1, cell_info.lte_info[i].mcc,
cell_info.lte_info[i].mnc, cell_info.lte_info[i].cid, cell_info.lte_info[i].tac, cell_info.lte_info[i].pci);
LUAT_DEBUG_PRINT("邻小区 %d earfcn %u rsrp %d rsrq %d snr %d", i + 1, cell_info.lte_info[i].earfcn, cell_info.lte_info[i].rsrp,
cell_info.lte_info[i].rsrq, cell_info.lte_info[i].snr);
}
}
}
}
void task_init(void)
{
luat_mobile_event_register_handler(mobile_event_cb);
luat_mobile_sms_event_register_handler(sms_event_cb);
luat_mobile_set_period_work(90000, 0, 4);
luat_mobile_set_sim_id(2);
luat_rtos_task_handle task_handle;
luat_rtos_task_create(&task_handle, 4 * 1204, 50, "test", task_run, NULL, 32);
}
INIT_TASK_EXPORT(task_init, "0");

27
sdk/合宙/air780e/csdk/luatos-soc-2022/project/example_mobile/xmake.lua Normal file
View File

@@ -0,0 +1,27 @@
local TARGET_NAME = "example_mobile"
local LIB_DIR = "$(buildir)/".. TARGET_NAME .. "/"
local LIB_NAME = "lib" .. TARGET_NAME .. ".a "
target(TARGET_NAME)
set_kind("static")
set_targetdir(LIB_DIR)
--加入代码和头文件
add_includedirs("./inc",{public = true})
add_files("./src/*.c",{public = true})
--路径可以随便写,可以加任意路径的代码,下面代码等效上方代码
-- add_includedirs(SDK_TOP .. "project/" .. TARGET_NAME .. "/inc",{public = true})
-- add_files(SDK_TOP .. "project/" .. TARGET_NAME .. "/src/*.c",{public = true})
-- 按需链接mbedtls
-- add_defines("MBEDTLS_CONFIG_FILE=\"config_ec_ssl_comm.h\"")
-- add_files(SDK_TOP .. "PLAT/middleware/thirdparty/mbedtls/library/*.c")
-- 按需编译httpclient
-- add_files(SDK_TOP .. "PLAT/middleware/thirdparty/httpclient/*.c")
--可以继续增加add_includedirs和add_files
--自动链接
LIB_USER = LIB_USER .. SDK_TOP .. LIB_DIR .. LIB_NAME
--甚至可以加入自己的库
target_end()