#include #include #include #include #include #include #include #include "sim.h" #include "../shared/consts.h" #include "../shared/protocol.h" #include "sercomm.h" #include "../shared/errcatch.h" struct timespec reference_time; // NOLINT static const char* const W2_CMD_NAMES[] = { "PING", "EXPT", "MODE", "SPED", "DIRC", "CORD", "BOMD", "SRES", "MCFG", "SENS", "INFO", "DISP", "PLAY", "CLED", }; static const char* const W2_CMD_DIRECTIONS[] = { "RX", "TX", }; void time_reset() { simprintfunc("time_reset", ""); #ifdef W2_HOST_LINUX clock_gettime(CLOCK_MONOTONIC, &reference_time); #endif } unsigned long get_ms() { simprintfunc("get_ms", ""); #ifdef W2_HOST_LINUX struct timespec elapsed; clock_gettime(CLOCK_MONOTONIC, &elapsed); return ((elapsed.tv_sec * 1000) + (elapsed.tv_nsec / 1000000)) - ((reference_time.tv_sec * 1000) + (reference_time.tv_nsec / 1000000)); #endif return 0; } void red_led(unsigned char on) { simprintfunc("red_led", "%i", on); } void green_led(unsigned char on) { simprintfunc("green_led", "%i", on); } void clear() { simprintfunc("clear", ""); } void play(const char* melody) { simprintfunc("play", "\"%s\"", melody); } void serial_set_baud_rate(unsigned int rate) { simprintfunc("serial_set_baud_rate", "%u", rate); } void serial_send(char* message, unsigned int length) { for (unsigned int byte = 0; byte < length; byte++) putc(message[byte] & 0xff, stdout); fflush(stdout); return; simprintfunc("serial_send", "0x%02x", (uint8_t) message[0]); } void serial_receive_ring(char* buffer, unsigned char size) { simprintfunc("serial_receive_ring", "0x%016lx, %u", (uint64_t) buffer, size); } unsigned char serial_get_received_bytes() { simprintfunc("serial_get_received_bytes", ""); return g_w2_serial_buffer_head; } void w2_sim_setup() { // disable echo and enable raw mode fcntl(STDIN_FILENO, F_SETFL, O_NONBLOCK); struct termios term; tcgetattr(STDIN_FILENO, &term); term.c_lflag &= ~(ECHO | ICANON); term.c_cc[VTIME] = 0; term.c_cc[VMIN] = 1; tcsetattr(STDIN_FILENO, 0, &term); // debug error // w2_errcatch_throw(W2_E_WARN_BATTERY_LOW); } void w2_sim_cycle_begin() { fflush(stdout); // read bytes from stdin while(read(STDIN_FILENO, (g_w2_serial_buffer + sizeof(char) * g_w2_serial_buffer_head), 1) > 0) g_w2_serial_buffer_head = (g_w2_serial_buffer_head + 1) % W2_SERIAL_READ_BUFFER_SIZE; } void w2_sim_print_serial(w2_s_bin *data) { simprintf(COL_GRN "[%s_%s]" COL_RST, W2_CMD_NAMES[data->data[0] >> 1], W2_CMD_DIRECTIONS[data->data[0] & W2_CMD_DIRECTION_MASK]); for (int i = 0; i < data->bytes; i++) fprintf(stderr, " %02x", data->data[i]); fprintf(stderr, "\n"); } void set_motors(int left, int right) { simprintfunc("set_motors", "%i, %i", left, right); } static const char* const W2_BUTTON_NAMES[] = { "BUTTON_A", "BUTTON_B", "BUTTON_C", "TOP_BUTTON", "BOTTOM_BUTTON", }; unsigned char get_single_debounced_button_press(unsigned char buttons) { simprintfunc("get_single_debounced_button_press", "%s", W2_BUTTON_NAMES[buttons]); return false; } void qtr_read(unsigned int* sensor_values, unsigned char read_mode) { simprintfunc("qtr_read", "0x%016lx, %s", (uint64_t) sensor_values, read_mode == QTR_EMITTERS_ON ? "QTR_EMITTERS_ON" : "???"); sensor_values[0] = 0; sensor_values[1] = 0; sensor_values[2] = 0; sensor_values[3] = 0; sensor_values[4] = 0; } unsigned int analog_read(unsigned char channel) { simprintfunc("analog_read", "ADC%i", channel); return 0; } void print(const char* str) { simprintfunc("print", "\"%s\"", str); }