APS Lab
/
COG_UART_Base
Uart with ADXL362
My Memo's for EV-COG-AD4050LZ Pinname
<<CODE>> #define GPIO_PORT_SHIFT 12 typedef enum { P0_00 = (0 << GPIO_PORT_SHIFT | 0 ), P0_01 = (0 << GPIO_PORT_SHIFT | 1 ), P0_02 = (0 << GPIO_PORT_SHIFT | 2 ), P0_03 = (0 << GPIO_PORT_SHIFT | 3 ), P0_04 = (0 << GPIO_PORT_SHIFT | 4 ), P0_05 = (0 << GPIO_PORT_SHIFT | 5 ), P0_06 = (0 << GPIO_PORT_SHIFT | 6 ), P0_07 = (0 << GPIO_PORT_SHIFT | 7 ), P0_08 = (0 << GPIO_PORT_SHIFT | 8 ), P0_09 = (0 << GPIO_PORT_SHIFT | 9 ), P0_10 = (0 << GPIO_PORT_SHIFT | 10), P0_11 = (0 << GPIO_PORT_SHIFT | 11), P0_12 = (0 << GPIO_PORT_SHIFT | 12), P0_13 = (0 << GPIO_PORT_SHIFT | 13), P0_14 = (0 << GPIO_PORT_SHIFT | 14), P0_15 = (0 << GPIO_PORT_SHIFT | 15), P1_00 = (1 << GPIO_PORT_SHIFT | 0 ), P1_01 = (1 << GPIO_PORT_SHIFT | 1 ), P1_02 = (1 << GPIO_PORT_SHIFT | 2 ), P1_03 = (1 << GPIO_PORT_SHIFT | 3 ), P1_04 = (1 << GPIO_PORT_SHIFT | 4 ), P1_05 = (1 << GPIO_PORT_SHIFT | 5 ), P1_06 = (1 << GPIO_PORT_SHIFT | 6 ), P1_07 = (1 << GPIO_PORT_SHIFT | 7 ), P1_08 = (1 << GPIO_PORT_SHIFT | 8 ), P1_09 = (1 << GPIO_PORT_SHIFT | 9 ), P1_10 = (1 << GPIO_PORT_SHIFT | 10), P1_11 = (1 << GPIO_PORT_SHIFT | 11), P1_12 = (1 << GPIO_PORT_SHIFT | 12), P1_13 = (1 << GPIO_PORT_SHIFT | 13), P1_14 = (1 << GPIO_PORT_SHIFT | 14), P1_15 = (1 << GPIO_PORT_SHIFT | 15), P2_00 = (2 << GPIO_PORT_SHIFT | 0 ), P2_01 = (2 << GPIO_PORT_SHIFT | 1 ), P2_02 = (2 << GPIO_PORT_SHIFT | 2 ), P2_03 = (2 << GPIO_PORT_SHIFT | 3 ), P2_04 = (2 << GPIO_PORT_SHIFT | 4 ), P2_05 = (2 << GPIO_PORT_SHIFT | 5 ), P2_06 = (2 << GPIO_PORT_SHIFT | 6 ), P2_07 = (2 << GPIO_PORT_SHIFT | 7 ), P2_08 = (2 << GPIO_PORT_SHIFT | 8 ), P2_09 = (2 << GPIO_PORT_SHIFT | 9 ), P2_10 = (2 << GPIO_PORT_SHIFT | 10), P2_11 = (2 << GPIO_PORT_SHIFT | 11), // USB Pins USBTX = P0_10, USBRX = P0_11, USBTX1 = P1_15, USBRX1 = P2_00, // mbed original LED naming LED1 = P2_02, LED2 = P2_10, LED3 = LED2, LED4 = LED1, //Push buttons PB0 = P1_00, // BTN1 PB1 = P0_09, // BTN2 BUTTON1 = P1_00, // BTN1 BUTTON2 = P0_09, // BTN2 BOOT = P1_01, WAKE0 = P0_15, // JP15 to select WAKE1 = P1_00, // JP8 (BTN1 jumper) to select WAKE2 = P0_13, // JP4 to select WAKE3 = P2_01, // JP15 to select // SPI Pins SPI0_SCLK = P0_00, SPI0_MOSI = P0_01, SPI0_MISO = P0_02, SPI0_CS0 = P0_03, SPI0_CS1 = P1_10, SPI0_CS2 = P2_08, SPI0_CS3 = P2_09, SPI1_SCLK = P1_06, SPI1_MOSI = P1_07, SPI1_MISO = P1_08, SPI1_CS0 = P1_09, SPI1_CS1 = P2_11, SPI1_CS2 = P2_02, SPI1_CS3 = P1_10, SPI2_SCLK = P1_02, SPI2_MOSI = P1_03, SPI2_MISO = P1_04, SPI2_CS0 = P1_05, SPI2_CS1 = P0_09, SPI2_CS2 = P2_10, SPI2_CS3 = P2_07, // ADC Pins ADC_VIN0 = P2_03, ADC_VIN1 = P2_04, ADC_VIN2 = P2_05, ADC_VIN3 = P2_06, ADC_VIN4 = P2_07, ADC_VIN5 = P2_08, ADC_VIN6 = P2_09, ADC_VIN7 = P2_10, // Arduino Headers D0 = P0_10, // UART0_TXD D1 = P0_11, // UART0_RXD D2 = P0_15, // INT_WAKE0 D3 = P0_13, // EXT_INT_WAKE2 D4 = P0_09, // EXT_SPI2_CS1 D5 = P2_01, // INT_WAKE3 or EXT_RTC1_SS1 via JP8 D6 = P1_11, // GPIO_27 D7 = P0_12, // GPIO_08 or GPIO_12 via JP7 D8 = P1_12, // GPIO_28 D9 = P1_14, // GPIO_30 D10 = SPI0_CS2, // P2_08 D11 = SPI0_MOSI, // P0_01 D12 = SPI0_MISO, // P0_02 D13 = SPI0_SCLK, // P0_00 I2C_SCL = P0_04, // I2C_SCL I2C_SDA = P0_05, // I2C_SDA A0 = P2_03, // ADC0 A1 = P2_04, // EXT_ADC1 A2 = P2_05, // EXT_ADC2 A3 = P2_06, // ADC3 A4 = P2_07, // SPI2_CS3 A5 = P2_10, // EXT_GPIO42 // Not connected NC = (int)0xFFFFFFFF } PinName; <</CODE>>
stats_report.h
- Committer:
- APS_Lab
- Date:
- 2019-01-11
- Revision:
- 0:5868fc6c16b3
File content as of revision 0:5868fc6c16b3:
/* mbed Microcontroller Library * Copyright (c) 2018 ARM Limited * SPDX-License-Identifier: Apache-2.0 */ #ifndef STATS_REPORT_H #define STATS_REPORT #include "mbed.h" /** * System Reporting library. Provides runtime information on device: * - CPU sleep, idle, and wake times * - Heap and stack usage * - Thread information * - Static system information */ class SystemReport { mbed_stats_heap_t heap_stats; mbed_stats_cpu_t cpu_stats; mbed_stats_sys_t sys_stats; mbed_stats_thread_t *thread_stats; uint8_t thread_count; uint8_t max_thread_count; uint32_t sample_time_ms; public: /** * SystemReport - Sample rate in ms is required to handle the CPU percent awake logic */ SystemReport(uint32_t sample_rate) : max_thread_count(8), sample_time_ms(sample_rate) { thread_stats = new mbed_stats_thread_t[max_thread_count]; // Collect the static system information mbed_stats_sys_get(&sys_stats); printf("=============================== SYSTEM INFO ================================\r\n"); printf("Mbed OS Version: %ld \r\n", sys_stats.os_version); printf("CPU ID: 0x%lx \r\n", sys_stats.cpu_id); printf("Compiler ID: %d \r\n", sys_stats.compiler_id); printf("Compiler Version: %ld \r\n", sys_stats.compiler_version); } ~SystemReport(void) { free(thread_stats); } /** * Report on each Mbed OS Platform stats API */ void report_state(void) { report_cpu_stats(); report_heap_stats(); report_thread_stats(); // Clear next line to separate subsequent report logs printf("\r\n"); } /** * Report CPU idle and awake time in terms of percentage */ void report_cpu_stats(void) { static uint64_t prev_idle_time = 0; printf("================= CPU STATS =================\r\n"); // Collect and print cpu stats mbed_stats_cpu_get(&cpu_stats); uint64_t diff = (cpu_stats.idle_time - prev_idle_time); uint8_t idle = (diff * 100) / (sample_time_ms * 1000); // usec; uint8_t usage = 100 - ((diff * 100) / (sample_time_ms * 1000)); // usec;; prev_idle_time = cpu_stats.idle_time; printf("Idle: %d%% Usage: %d%% \r\n", idle, usage); } /** * Report current heap stats. Current heap refers to the current amount of * allocated heap. Max heap refers to the highest amount of heap allocated * since reset. */ void report_heap_stats(void) { printf("================ HEAP STATS =================\r\n"); // Collect and print heap stats mbed_stats_heap_get(&heap_stats); printf("Current heap: %lu\r\n", heap_stats.current_size); printf("Max heap size: %lu\r\n", heap_stats.max_size); } /** * Report active thread stats */ void report_thread_stats(void) { printf("================ THREAD STATS ===============\r\n"); // Collect and print running thread stats int count = mbed_stats_thread_get_each(thread_stats, max_thread_count); for (int i = 0; i < count; i++) { printf("ID: 0x%lx \r\n", thread_stats[i].id); printf("Name: %s \r\n", thread_stats[i].name); printf("State: %ld \r\n", thread_stats[i].state); printf("Priority: %ld \r\n", thread_stats[i].priority); printf("Stack Size: %ld \r\n", thread_stats[i].stack_size); printf("Stack Space: %ld \r\n", thread_stats[i].stack_space); } } }; #endif // STATS_REPORT_H