#include #include #include #include #include "chuniio/config.h" #include "chuniio/leddata.h" #include "chuniio/ledoutput.h" #include "chuniio/pipeimpl.h" #include "chuniio/serialimpl.h" static struct _chuni_led_data_buf_t led_unescaped_buf[LED_BOARDS_TOTAL]; static struct _chuni_led_data_buf_t led_escaped_buf[LED_BOARDS_TOTAL]; static bool led_output_is_init = false; static struct chuni_io_config* config; static bool any_outputs_enabled; HANDLE led_init_mutex; int led_output_init(struct chuni_io_config* const cfg) { DWORD dwWaitResult = WaitForSingleObject(led_init_mutex, INFINITE); if (dwWaitResult == WAIT_FAILED) { // return HRESULT_FROM_WIN32(GetLastError()); return 1; } else if (dwWaitResult != WAIT_OBJECT_0) { // return E_FAIL; return 1; } if (!led_output_is_init) { config = cfg; // Setup the framing bytes for the packets for (int i = 0; i < LED_BOARDS_TOTAL; i++) { led_unescaped_buf[i].framing = LED_PACKET_FRAMING; led_unescaped_buf[i].board = i; led_unescaped_buf[i].data_len = chuni_led_board_data_lens[i]; led_escaped_buf[i].framing = LED_PACKET_FRAMING; led_escaped_buf[i].board = i; led_escaped_buf[i].data_len = chuni_led_board_data_lens[i]; } any_outputs_enabled = config->led_output_pipe || config->slider_led_output_pipe || config->led_output_serial || config->slider_led_output_serial; if (config->led_output_pipe || config->slider_led_output_pipe) { led_pipe_init(); // don't really care about errors here tbh } if (config->led_output_serial || config->slider_led_output_serial) { led_serial_init(config->led_serial_port, config->led_serial_baud); } } led_output_is_init = true; ReleaseMutex(led_init_mutex); // return S_OK; return 0; } struct _chuni_led_data_buf_t* escape_led_data(struct _chuni_led_data_buf_t* unescaped) { struct _chuni_led_data_buf_t* out_struct = &led_escaped_buf[unescaped->board]; byte* in_buf = unescaped->data; byte* out_buf = out_struct->data; int i = 0; int o = 0; while (i < unescaped->data_len) { byte b = in_buf[i++]; if (b == LED_PACKET_FRAMING || b == LED_PACKET_ESCAPE) { out_buf[o++] = LED_PACKET_ESCAPE; b--; } out_buf[o++] = b; } out_struct->data_len = o; return out_struct; } void led_output_update(uint8_t board, const byte* rgb) { if (board < 0 || board > 2 || !any_outputs_enabled) { return; } memcpy(led_unescaped_buf[board].data, rgb, led_unescaped_buf[board].data_len); struct _chuni_led_data_buf_t* escaped_data = escape_led_data(&led_unescaped_buf[board]); if (board < 2) { // billboard if (config->led_output_pipe) { led_pipe_update(escaped_data); } if (config->led_output_serial) { led_serial_update(escaped_data); } } else { // slider if (config->slider_led_output_pipe) { led_pipe_update(escaped_data); } if (config->slider_led_output_serial) { led_serial_update(escaped_data); } } }