/**************************************************************************** Copyright(c) 2019 by Aerospace C.Power (Chongqing) Microelectronics. ALL RIGHTS RESERVED. This Information is proprietary to Aerospace C.Power (Chongqing) Microelectronics and MAY NOT be copied by any method or incorporated into another program without the express written consent of Aerospace C.Power. This Information or any portion thereof remains the property of Aerospace C.Power. The Information contained herein is believed to be accurate and Aerospace C.Power assumes no responsibility or liability for its use in any way and conveys no license or title under any patent or copyright and makes no representation or warranty that this Information is free from patent or copyright infringement. ****************************************************************************/ /* os shim includes */ #include "os_types.h" #include "os_task.h" #include "os_lock.h" #include "os_mem.h" #include "os_utils.h" /* common includes */ #include "iot_io.h" #include "iot_utils.h" #include "iot_clock.h" #include "iot_pkt.h" #include "dbg_io.h" #include "strformat.h" #include "uart.h" #include "iot_uart.h" #include "mtd.h" #include "iot_mtd.h" #include "upgrade.h" #if 0 extern int platform_init(); static const iot_pkt_config_t test_pkt_config = { { { 256, 50, PKT_OWNER_ALL, }, { 600, 50, PKT_OWNER_ALL, }, { 1100, 15, PKT_OWNER_ALL, }, { 2200, 6, PKT_OWNER_ALL, }, { 0, 0, PKT_OWNER_NONE, }, { 0, 0, PKT_OWNER_NONE, }, { 0, 0, PKT_OWNER_NONE, }, { 0, 0, PKT_OWNER_NONE, }, } }; void iot_task_1(void *arg) { int i = 0; int total_size = 0x20; uint32_t ret = 0; // start to upgrade iot_start_src_t start_src = { .id = 0xc8, .block_size = 100, .fw_size = 0x60000, .crc = 0xabcdef5a }; iot_start_rst_t start_rst = {0}; iot_printf("task 1 entry....\r\n"); ret = iot_upgrade_start(&start_rst, &start_src); if (ret) { iot_printf("upgrade start error\n"); } // trans command while(1) { uint8_t *pkt_data; uint8_t data[100] = {0,1,2,3,4,5,6,7,8,9}; iot_trans_cmd_t trans = {0}; iot_printf("\r\niot_task_1\n"); iot_pkt_t *pkt = iot_pkt_alloc(100, IOT_DRIVER_MID); data[9] = i; pkt_data = iot_pkt_block_ptr(pkt, IOT_PKT_BLOCK_DATA); os_mem_cpy(pkt_data, &data, 100); iot_pkt_put(pkt, 100); trans.id = start_src.id; trans.block_size = start_src.block_size; trans.block_num = i; trans.data = pkt; while(1) { ret = iot_upgrade_trans(&trans); if (ret) { iot_printf("retry to send %d.\n", trans.block_num); os_delay(700); } else { break; } } os_delay(500); i++; if (i>=total_size) { break; } //iot_pkt_free(pkt); } iot_printf("upgrade trans end.\n"); os_delay(1000); while(1) { ret = iot_upgrade_commit(start_src.id); if (!ret) { iot_printf("upgrade trans end.\n"); break; } os_delay(2000); } ret = iot_upgrade_start(&start_rst, &start_src); if (ret) { iot_printf("upgrade start error\n"); } } void iot_task_2(void *arg) { while(1) { iot_printf("\r\niot_task_2\n"); idle_upgrade_handle_queue(); os_delay(700); } } int32_t iot_task_init() { os_task_h handle; /* start plc lib task */ handle = os_create_task(iot_task_1, NULL, 6); //create the tasks; if(handle != NULL) { iot_printf("task 1 init successfully...\r\n"); } /* start plc lib task */ handle = os_create_task(iot_task_2, NULL, 6); //create the tasks; if(handle != NULL) { iot_printf("task 1 init successfully...\r\n"); } return 0; } int32_t iot_task_start() { //start the tasks; os_start_kernel(); return 0; } static int32_t iot_platform_init() { /*platform intialization*/ platform_init(); //resource initializations; system_clock_init(); system_uart_init(); dbg_uart_init(); return 0; } int32_t iot_module_init(void) { //platform intialization; iot_platform_init(); // mtd initializations mtd_device_init(1); //create all the tasks; iot_task_init(); iot_printf("\r\nstarting...\r\n"); return 0; } int32_t iot_module_start(void) { int32_t res = 0; res = iot_task_start(); return res; } #endif int main(void) { #if 0 //module init; iot_module_init(); iot_pkt_init(&test_pkt_config); iot_printf("\r\nstarting...\r\n"); //module start; iot_module_start(); #endif return 0; }