/*---------------------------------------------------------*\ | RGBController.cpp | | | | OpenRGB's RGB controller hardware abstration layer, | | provides a generic representation of an RGB device | | | | Adam Honse (CalcProgrammer1) 02 Jun 2019 | | | | This file is part of the OpenRGB project | | SPDX-License-Identifier: GPL-2.0-only | \*---------------------------------------------------------*/ #include #include "RGBController.h" using namespace std::chrono_literals; mode::mode() { name = ""; value = 0; flags = 0; speed_min = 0; speed_max = 0; brightness_min = 0; brightness_max = 0; colors_min = 0; colors_max = 0; speed = 0; brightness = 0; direction = 0; color_mode = 0; } mode::~mode() { colors.clear(); } zone::zone() { name = ""; type = 0; leds = NULL; colors = NULL; start_idx = 0; leds_count = 0; leds_min = 0; leds_max = 0; matrix_map = NULL; flags = 0; } zone::~zone() { } RGBController::RGBController() { flags = 0; DeviceThreadRunning = true; DeviceCallThread = new std::thread(&RGBController::DeviceCallThreadFunction, this); } RGBController::~RGBController() { DeviceThreadRunning = false; DeviceCallThread->join(); delete DeviceCallThread; leds.clear(); colors.clear(); zones.clear(); modes.clear(); } std::string RGBController::GetName() { return(name); } std::string RGBController::GetVendor() { return(vendor); } std::string RGBController::GetDescription() { return(description); } std::string RGBController::GetVersion() { return(version); } std::string RGBController::GetSerial() { return(serial); } std::string RGBController::GetLocation() { return(location); } std::string RGBController::GetModeName(unsigned int mode) { return(modes[mode].name); } std::string RGBController::GetZoneName(unsigned int zone) { return(zones[zone].name); } std::string RGBController::GetLEDName(unsigned int led) { if(led < led_alt_names.size()) { if(led_alt_names[led] != "") { return(led_alt_names[led]); } } return(leds[led].name); } unsigned char * RGBController::GetDeviceDescription(unsigned int protocol_version) { unsigned int data_ptr = 0; unsigned int data_size = 0; /*---------------------------------------------------------*\ | Calculate data size | \*---------------------------------------------------------*/ unsigned short name_len = (unsigned short)strlen(name.c_str()) + 1; unsigned short vendor_len = (unsigned short)strlen(vendor.c_str()) + 1; unsigned short description_len = (unsigned short)strlen(description.c_str()) + 1; unsigned short version_len = (unsigned short)strlen(version.c_str()) + 1; unsigned short serial_len = (unsigned short)strlen(serial.c_str()) + 1; unsigned short location_len = (unsigned short)strlen(location.c_str()) + 1; unsigned short num_modes = (unsigned short)modes.size(); unsigned short num_zones = (unsigned short)zones.size(); unsigned short num_leds = (unsigned short)leds.size(); unsigned short num_colors = (unsigned short)colors.size(); unsigned short num_led_alt_names= (unsigned short)led_alt_names.size(); unsigned short *mode_name_len = new unsigned short[num_modes]; unsigned short *zone_name_len = new unsigned short[num_zones]; unsigned short *led_name_len = new unsigned short[num_leds]; unsigned short *zone_matrix_len = new unsigned short[num_zones]; unsigned short *mode_num_colors = new unsigned short[num_modes]; data_size += sizeof(data_size); data_size += sizeof(device_type); data_size += name_len + sizeof(name_len); if(protocol_version >= 1) { data_size += vendor_len + sizeof(vendor_len); } data_size += description_len + sizeof(description_len); data_size += version_len + sizeof(version_len); data_size += serial_len + sizeof(serial_len); data_size += location_len + sizeof(location_len); data_size += sizeof(num_modes); data_size += sizeof(active_mode); for(int mode_index = 0; mode_index < num_modes; mode_index++) { mode_name_len[mode_index] = (unsigned short)strlen(modes[mode_index].name.c_str()) + 1; mode_num_colors[mode_index] = (unsigned short)modes[mode_index].colors.size(); data_size += mode_name_len[mode_index] + sizeof(mode_name_len[mode_index]); data_size += sizeof(modes[mode_index].value); data_size += sizeof(modes[mode_index].flags); data_size += sizeof(modes[mode_index].speed_min); data_size += sizeof(modes[mode_index].speed_max); if(protocol_version >= 3) { data_size += sizeof(modes[mode_index].brightness_min); data_size += sizeof(modes[mode_index].brightness_max); } data_size += sizeof(modes[mode_index].colors_min); data_size += sizeof(modes[mode_index].colors_max); data_size += sizeof(modes[mode_index].speed); if(protocol_version >= 3) { data_size += sizeof(modes[mode_index].brightness); } data_size += sizeof(modes[mode_index].direction); data_size += sizeof(modes[mode_index].color_mode); data_size += sizeof(mode_num_colors[mode_index]); data_size += (mode_num_colors[mode_index] * sizeof(RGBColor)); } data_size += sizeof(num_zones); for(int zone_index = 0; zone_index < num_zones; zone_index++) { zone_name_len[zone_index] = (unsigned short)strlen(zones[zone_index].name.c_str()) + 1; data_size += zone_name_len[zone_index] + sizeof(zone_name_len[zone_index]); data_size += sizeof(zones[zone_index].type); data_size += sizeof(zones[zone_index].leds_min); data_size += sizeof(zones[zone_index].leds_max); data_size += sizeof(zones[zone_index].leds_count); if(zones[zone_index].matrix_map == NULL) { zone_matrix_len[zone_index] = 0; } else { zone_matrix_len[zone_index] = (unsigned short)((2 * sizeof(unsigned int)) + (zones[zone_index].matrix_map->height * zones[zone_index].matrix_map->width * sizeof(unsigned int))); } data_size += sizeof(zone_matrix_len[zone_index]); data_size += zone_matrix_len[zone_index]; if(protocol_version >= 4) { /*---------------------------------------------------------*\ | Number of segments in zone | \*---------------------------------------------------------*/ data_size += sizeof(unsigned short); for(size_t segment_index = 0; segment_index < zones[zone_index].segments.size(); segment_index++) { /*---------------------------------------------------------*\ | Length of segment name string | \*---------------------------------------------------------*/ data_size += sizeof(unsigned short); /*---------------------------------------------------------*\ | Segment name string data | \*---------------------------------------------------------*/ data_size += (unsigned int)strlen(zones[zone_index].segments[segment_index].name.c_str()) + 1; data_size += sizeof(zones[zone_index].segments[segment_index].type); data_size += sizeof(zones[zone_index].segments[segment_index].start_idx); data_size += sizeof(zones[zone_index].segments[segment_index].leds_count); } } /*---------------------------------------------------------*\ | Zone flags | \*---------------------------------------------------------*/ if(protocol_version >= 5) { data_size += sizeof(unsigned int); } } data_size += sizeof(num_leds); for(int led_index = 0; led_index < num_leds; led_index++) { led_name_len[led_index] = (unsigned short)strlen(leds[led_index].name.c_str()) + 1; data_size += led_name_len[led_index] + sizeof(led_name_len[led_index]); data_size += sizeof(leds[led_index].value); } /*---------------------------------------------------------*\ | LED alternate names | \*---------------------------------------------------------*/ if(protocol_version >= 5) { /*-----------------------------------------------------*\ | Number of LED alternate names | \*-----------------------------------------------------*/ data_size += sizeof(num_led_alt_names); /*-----------------------------------------------------*\ | LED alternate name strings | \*-----------------------------------------------------*/ for(std::size_t led_idx = 0; led_idx < led_alt_names.size(); led_idx++) { data_size += sizeof(unsigned short); data_size += strlen(led_alt_names[led_idx].c_str()) + 1; } } /*---------------------------------------------------------*\ | Controller flags | \*---------------------------------------------------------*/ if(protocol_version >= 5) { data_size += sizeof(flags); } data_size += sizeof(num_colors); data_size += num_colors * sizeof(RGBColor); /*---------------------------------------------------------*\ | Create data buffer | \*---------------------------------------------------------*/ unsigned char *data_buf = new unsigned char[data_size]; /*---------------------------------------------------------*\ | Copy in data size | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &data_size, sizeof(data_size)); data_ptr += sizeof(data_size); /*---------------------------------------------------------*\ | Copy in type | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &type, sizeof(device_type)); data_ptr += sizeof(device_type); /*---------------------------------------------------------*\ | Copy in name (size+data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &name_len, sizeof(unsigned short)); data_ptr += sizeof(unsigned short); strcpy((char *)&data_buf[data_ptr], name.c_str()); data_ptr += name_len; /*---------------------------------------------------------*\ | Copy in vendor (size+data) if protocol 1 or higher | \*---------------------------------------------------------*/ if(protocol_version >= 1) { memcpy(&data_buf[data_ptr], &vendor_len, sizeof(unsigned short)); data_ptr += sizeof(unsigned short); strcpy((char *)&data_buf[data_ptr], vendor.c_str()); data_ptr += vendor_len; } /*---------------------------------------------------------*\ | Copy in description (size+data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &description_len, sizeof(unsigned short)); data_ptr += sizeof(unsigned short); strcpy((char *)&data_buf[data_ptr], description.c_str()); data_ptr += description_len; /*---------------------------------------------------------*\ | Copy in version (size+data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &version_len, sizeof(unsigned short)); data_ptr += sizeof(unsigned short); strcpy((char *)&data_buf[data_ptr], version.c_str()); data_ptr += version_len; /*---------------------------------------------------------*\ | Copy in serial (size+data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &serial_len, sizeof(unsigned short)); data_ptr += sizeof(unsigned short); strcpy((char *)&data_buf[data_ptr], serial.c_str()); data_ptr += serial_len; /*---------------------------------------------------------*\ | Copy in location (size+data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &location_len, sizeof(unsigned short)); data_ptr += sizeof(unsigned short); strcpy((char *)&data_buf[data_ptr], location.c_str()); data_ptr += location_len; /*---------------------------------------------------------*\ | Copy in number of modes (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &num_modes, sizeof(unsigned short)); data_ptr += sizeof(unsigned short); /*---------------------------------------------------------*\ | Copy in active mode (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &active_mode, sizeof(active_mode)); data_ptr += sizeof(active_mode); /*---------------------------------------------------------*\ | Copy in modes | \*---------------------------------------------------------*/ for(int mode_index = 0; mode_index < num_modes; mode_index++) { /*---------------------------------------------------------*\ | Copy in mode name (size+data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &mode_name_len[mode_index], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); strcpy((char *)&data_buf[data_ptr], modes[mode_index].name.c_str()); data_ptr += mode_name_len[mode_index]; /*---------------------------------------------------------*\ | Copy in mode value (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode_index].value, sizeof(modes[mode_index].value)); data_ptr += sizeof(modes[mode_index].value); /*---------------------------------------------------------*\ | Copy in mode flags (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode_index].flags, sizeof(modes[mode_index].flags)); data_ptr += sizeof(modes[mode_index].flags); /*---------------------------------------------------------*\ | Copy in mode speed_min (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode_index].speed_min, sizeof(modes[mode_index].speed_min)); data_ptr += sizeof(modes[mode_index].speed_min); /*---------------------------------------------------------*\ | Copy in mode speed_max (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode_index].speed_max, sizeof(modes[mode_index].speed_max)); data_ptr += sizeof(modes[mode_index].speed_max); /*---------------------------------------------------------*\ | Copy in mode brightness_min and brightness_max (data) if | | protocol 3 or higher | \*---------------------------------------------------------*/ if(protocol_version >= 3) { memcpy(&data_buf[data_ptr], &modes[mode_index].brightness_min, sizeof(modes[mode_index].brightness_min)); data_ptr += sizeof(modes[mode_index].brightness_min); memcpy(&data_buf[data_ptr], &modes[mode_index].brightness_max, sizeof(modes[mode_index].brightness_max)); data_ptr += sizeof(modes[mode_index].brightness_max); } /*---------------------------------------------------------*\ | Copy in mode colors_min (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode_index].colors_min, sizeof(modes[mode_index].colors_min)); data_ptr += sizeof(modes[mode_index].colors_min); /*---------------------------------------------------------*\ | Copy in mode colors_max (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode_index].colors_max, sizeof(modes[mode_index].colors_max)); data_ptr += sizeof(modes[mode_index].colors_max); /*---------------------------------------------------------*\ | Copy in mode speed (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode_index].speed, sizeof(modes[mode_index].speed)); data_ptr += sizeof(modes[mode_index].speed); /*---------------------------------------------------------*\ | Copy in mode brightness (data) if protocol 3 or higher | \*---------------------------------------------------------*/ if(protocol_version >= 3) { memcpy(&data_buf[data_ptr], &modes[mode_index].brightness, sizeof(modes[mode_index].brightness)); data_ptr += sizeof(modes[mode_index].brightness); } /*---------------------------------------------------------*\ | Copy in mode direction (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode_index].direction, sizeof(modes[mode_index].direction)); data_ptr += sizeof(modes[mode_index].direction); /*---------------------------------------------------------*\ | Copy in mode color_mode (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode_index].color_mode, sizeof(modes[mode_index].color_mode)); data_ptr += sizeof(modes[mode_index].color_mode); /*---------------------------------------------------------*\ | Copy in mode number of colors | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &mode_num_colors[mode_index], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); /*---------------------------------------------------------*\ | Copy in mode mode colors | \*---------------------------------------------------------*/ for(int color_index = 0; color_index < mode_num_colors[mode_index]; color_index++) { /*---------------------------------------------------------*\ | Copy in color (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode_index].colors[color_index], sizeof(modes[mode_index].colors[color_index])); data_ptr += sizeof(modes[mode_index].colors[color_index]); } } /*---------------------------------------------------------*\ | Copy in number of zones (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &num_zones, sizeof(unsigned short)); data_ptr += sizeof(unsigned short); /*---------------------------------------------------------*\ | Copy in zones | \*---------------------------------------------------------*/ for(int zone_index = 0; zone_index < num_zones; zone_index++) { /*---------------------------------------------------------*\ | Copy in zone name (size+data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &zone_name_len[zone_index], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); strcpy((char *)&data_buf[data_ptr], zones[zone_index].name.c_str()); data_ptr += zone_name_len[zone_index]; /*---------------------------------------------------------*\ | Copy in zone type (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &zones[zone_index].type, sizeof(zones[zone_index].type)); data_ptr += sizeof(zones[zone_index].type); /*---------------------------------------------------------*\ | Check for resizable effects-only zone. For protocol | | versions that do not support this feature, we have to | | overwrite the leds_min/max/count parameters to 1 so that | | the zone appears a fixed size to older clients. | \*---------------------------------------------------------*/ if((zones[zone_index].flags & ZONE_FLAG_RESIZE_EFFECTS_ONLY) && (protocol_version < 5)) { /*---------------------------------------------------------*\ | Create a temporary variable to hold the fixed value of 1 | \*---------------------------------------------------------*/ unsigned int tmp_size = 1; /*---------------------------------------------------------*\ | Copy in temporary minimum LED count (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &tmp_size, sizeof(tmp_size)); data_ptr += sizeof(tmp_size); /*---------------------------------------------------------*\ | Copy in temporary maximum LED count (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &tmp_size, sizeof(tmp_size)); data_ptr += sizeof(tmp_size); /*---------------------------------------------------------*\ | Copy in temporary LED count (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &tmp_size, sizeof(tmp_size)); data_ptr += sizeof(tmp_size); } else { /*---------------------------------------------------------*\ | Copy in zone minimum LED count (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &zones[zone_index].leds_min, sizeof(zones[zone_index].leds_min)); data_ptr += sizeof(zones[zone_index].leds_min); /*---------------------------------------------------------*\ | Copy in zone maximum LED count (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &zones[zone_index].leds_max, sizeof(zones[zone_index].leds_max)); data_ptr += sizeof(zones[zone_index].leds_max); /*---------------------------------------------------------*\ | Copy in zone LED count (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &zones[zone_index].leds_count, sizeof(zones[zone_index].leds_count)); data_ptr += sizeof(zones[zone_index].leds_count); } /*---------------------------------------------------------*\ | Copy in size of zone matrix | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &zone_matrix_len[zone_index], sizeof(zone_matrix_len[zone_index])); data_ptr += sizeof(zone_matrix_len[zone_index]); /*---------------------------------------------------------*\ | Copy in matrix data if size is nonzero | \*---------------------------------------------------------*/ if(zone_matrix_len[zone_index] > 0) { /*---------------------------------------------------------*\ | Copy in matrix height | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &zones[zone_index].matrix_map->height, sizeof(zones[zone_index].matrix_map->height)); data_ptr += sizeof(zones[zone_index].matrix_map->height); /*---------------------------------------------------------*\ | Copy in matrix width | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &zones[zone_index].matrix_map->width, sizeof(zones[zone_index].matrix_map->width)); data_ptr += sizeof(zones[zone_index].matrix_map->width); /*---------------------------------------------------------*\ | Copy in matrix map | \*---------------------------------------------------------*/ for(unsigned int matrix_idx = 0; matrix_idx < (zones[zone_index].matrix_map->height * zones[zone_index].matrix_map->width); matrix_idx++) { memcpy(&data_buf[data_ptr], &zones[zone_index].matrix_map->map[matrix_idx], sizeof(zones[zone_index].matrix_map->map[matrix_idx])); data_ptr += sizeof(zones[zone_index].matrix_map->map[matrix_idx]); } } /*---------------------------------------------------------*\ | Copy in segments | \*---------------------------------------------------------*/ if(protocol_version >= 4) { unsigned short num_segments = (unsigned short)zones[zone_index].segments.size(); /*---------------------------------------------------------*\ | Number of segments in zone | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &num_segments, sizeof(num_segments)); data_ptr += sizeof(num_segments); for(int segment_index = 0; segment_index < num_segments; segment_index++) { /*---------------------------------------------------------*\ | Length of segment name string | \*---------------------------------------------------------*/ unsigned short segment_name_length = (unsigned short)strlen(zones[zone_index].segments[segment_index].name.c_str()) + 1; memcpy(&data_buf[data_ptr], &segment_name_length, sizeof(segment_name_length)); data_ptr += sizeof(segment_name_length); /*---------------------------------------------------------*\ | Segment name string data | \*---------------------------------------------------------*/ strcpy((char *)&data_buf[data_ptr], zones[zone_index].segments[segment_index].name.c_str()); data_ptr += segment_name_length; /*---------------------------------------------------------*\ | Segment type data | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &zones[zone_index].segments[segment_index].type, sizeof(zones[zone_index].segments[segment_index].type)); data_ptr += sizeof(zones[zone_index].segments[segment_index].type); /*---------------------------------------------------------*\ | Segment start index data | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &zones[zone_index].segments[segment_index].start_idx, sizeof(zones[zone_index].segments[segment_index].start_idx)); data_ptr += sizeof(zones[zone_index].segments[segment_index].start_idx); /*---------------------------------------------------------*\ | Segment LED count data | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &zones[zone_index].segments[segment_index].leds_count, sizeof(zones[zone_index].segments[segment_index].leds_count)); data_ptr += sizeof(zones[zone_index].segments[segment_index].leds_count); } } /*---------------------------------------------------------*\ | Copy in zone flags | \*---------------------------------------------------------*/ if(protocol_version >= 5) { /*---------------------------------------------------------*\ | Zone flags | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &zones[zone_index].flags, sizeof(zones[zone_index].flags)); data_ptr += sizeof(zones[zone_index].flags); } } /*---------------------------------------------------------*\ | Copy in number of LEDs (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &num_leds, sizeof(unsigned short)); data_ptr += sizeof(unsigned short); /*---------------------------------------------------------*\ | Copy in LEDs | \*---------------------------------------------------------*/ for(int led_index = 0; led_index < num_leds; led_index++) { /*---------------------------------------------------------*\ | Copy in LED name (size+data) | \*---------------------------------------------------------*/ unsigned short ledname_len = (unsigned short)strlen(leds[led_index].name.c_str()) + 1; memcpy(&data_buf[data_ptr], &ledname_len, sizeof(unsigned short)); data_ptr += sizeof(unsigned short); strcpy((char *)&data_buf[data_ptr], leds[led_index].name.c_str()); data_ptr += ledname_len; /*---------------------------------------------------------*\ | Copy in LED value (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &leds[led_index].value, sizeof(leds[led_index].value)); data_ptr += sizeof(leds[led_index].value); } /*---------------------------------------------------------*\ | Copy in number of colors (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &num_colors, sizeof(unsigned short)); data_ptr += sizeof(unsigned short); /*---------------------------------------------------------*\ | Copy in colors | \*---------------------------------------------------------*/ for(int color_index = 0; color_index < num_colors; color_index++) { /*---------------------------------------------------------*\ | Copy in color (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &colors[color_index], sizeof(colors[color_index])); data_ptr += sizeof(colors[color_index]); } /*---------------------------------------------------------*\ | LED alternate names data | \*---------------------------------------------------------*/ if(protocol_version >= 5) { /*---------------------------------------------------------*\ | Number of LED alternate name strings | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &num_led_alt_names, sizeof(num_led_alt_names)); data_ptr += sizeof(num_led_alt_names); for(std::size_t led_idx = 0; led_idx < led_alt_names.size(); led_idx++) { /*---------------------------------------------------------*\ | Copy in LED alternate name (size+data) | \*---------------------------------------------------------*/ unsigned short string_length = strlen(led_alt_names[led_idx].c_str()) + 1; memcpy(&data_buf[data_ptr], &string_length, sizeof(string_length)); data_ptr += sizeof(string_length); strcpy((char *)&data_buf[data_ptr], led_alt_names[led_idx].c_str()); data_ptr += string_length; } } /*---------------------------------------------------------*\ | Controller flags data | \*---------------------------------------------------------*/ if(protocol_version >= 5) { memcpy(&data_buf[data_ptr], &flags, sizeof(flags)); data_ptr += sizeof(flags); } delete[] mode_name_len; delete[] zone_name_len; delete[] led_name_len; delete[] zone_matrix_len; delete[] mode_num_colors; return(data_buf); } void RGBController::ReadDeviceDescription(unsigned char* data_buf, unsigned int protocol_version) { unsigned int data_ptr = 0; data_ptr += sizeof(unsigned int); /*---------------------------------------------------------*\ | Copy in type | \*---------------------------------------------------------*/ memcpy(&type, &data_buf[data_ptr], sizeof(device_type)); data_ptr += sizeof(device_type); /*---------------------------------------------------------*\ | Copy in name | \*---------------------------------------------------------*/ unsigned short name_len; memcpy(&name_len, &data_buf[data_ptr], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); name = (char *)&data_buf[data_ptr]; data_ptr += name_len; /*---------------------------------------------------------*\ | Copy in vendor if protocol version is 1 or higher | \*---------------------------------------------------------*/ if(protocol_version >= 1) { unsigned short vendor_len; memcpy(&vendor_len, &data_buf[data_ptr], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); vendor = (char *)&data_buf[data_ptr]; data_ptr += vendor_len; } /*---------------------------------------------------------*\ | Copy in description | \*---------------------------------------------------------*/ unsigned short description_len; memcpy(&description_len, &data_buf[data_ptr], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); description = (char *)&data_buf[data_ptr]; data_ptr += description_len; /*---------------------------------------------------------*\ | Copy in version | \*---------------------------------------------------------*/ unsigned short version_len; memcpy(&version_len, &data_buf[data_ptr], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); version = (char *)&data_buf[data_ptr]; data_ptr += version_len; /*---------------------------------------------------------*\ | Copy in serial | \*---------------------------------------------------------*/ unsigned short serial_len; memcpy(&serial_len, &data_buf[data_ptr], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); serial = (char *)&data_buf[data_ptr]; data_ptr += serial_len; /*---------------------------------------------------------*\ | Copy in location | \*---------------------------------------------------------*/ unsigned short location_len; memcpy(&location_len, &data_buf[data_ptr], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); location = (char *)&data_buf[data_ptr]; data_ptr += location_len; /*---------------------------------------------------------*\ | Copy in number of modes (data) | \*---------------------------------------------------------*/ unsigned short num_modes; memcpy(&num_modes, &data_buf[data_ptr], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); /*---------------------------------------------------------*\ | Copy in active mode (data) | \*---------------------------------------------------------*/ memcpy(&active_mode, &data_buf[data_ptr], sizeof(active_mode)); data_ptr += sizeof(active_mode); /*---------------------------------------------------------*\ | Copy in modes | \*---------------------------------------------------------*/ for(int mode_index = 0; mode_index < num_modes; mode_index++) { mode new_mode; /*---------------------------------------------------------*\ | Copy in mode name (size+data) | \*---------------------------------------------------------*/ unsigned short modename_len; memcpy(&modename_len, &data_buf[data_ptr], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); new_mode.name = (char *)&data_buf[data_ptr]; data_ptr += modename_len; /*---------------------------------------------------------*\ | Copy in mode value (data) | \*---------------------------------------------------------*/ memcpy(&new_mode.value, &data_buf[data_ptr], sizeof(new_mode.value)); data_ptr += sizeof(new_mode.value); /*---------------------------------------------------------*\ | Copy in mode flags (data) | \*---------------------------------------------------------*/ memcpy(&new_mode.flags, &data_buf[data_ptr], sizeof(new_mode.flags)); data_ptr += sizeof(new_mode.flags); /*---------------------------------------------------------*\ | Copy in mode speed_min (data) | \*---------------------------------------------------------*/ memcpy(&new_mode.speed_min, &data_buf[data_ptr], sizeof(new_mode.speed_min)); data_ptr += sizeof(new_mode.speed_min); /*---------------------------------------------------------*\ | Copy in mode speed_max (data) | \*---------------------------------------------------------*/ memcpy(&new_mode.speed_max, &data_buf[data_ptr], sizeof(new_mode.speed_max)); data_ptr += sizeof(new_mode.speed_max); /*---------------------------------------------------------*\ | Copy in mode brightness min and max if protocol version | | is 3 or higher | \*---------------------------------------------------------*/ if(protocol_version >= 3) { memcpy(&new_mode.brightness_min, &data_buf[data_ptr], sizeof(new_mode.brightness_min)); data_ptr += sizeof(new_mode.brightness_min); memcpy(&new_mode.brightness_max, &data_buf[data_ptr], sizeof(new_mode.brightness_max)); data_ptr += sizeof(new_mode.brightness_max); } /*---------------------------------------------------------*\ | Copy in mode colors_min (data) | \*---------------------------------------------------------*/ memcpy(&new_mode.colors_min, &data_buf[data_ptr], sizeof(new_mode.colors_min)); data_ptr += sizeof(new_mode.colors_min); /*---------------------------------------------------------*\ | Copy in mode colors_max (data) | \*---------------------------------------------------------*/ memcpy(&new_mode.colors_max, &data_buf[data_ptr], sizeof(new_mode.colors_max)); data_ptr += sizeof(new_mode.colors_max); /*---------------------------------------------------------*\ | Copy in mode speed (data) | \*---------------------------------------------------------*/ memcpy(&new_mode.speed, &data_buf[data_ptr], sizeof(new_mode.speed)); data_ptr += sizeof(new_mode.speed); /*---------------------------------------------------------*\ | Copy in mode brightness if protocol version is 3 or higher| \*---------------------------------------------------------*/ if(protocol_version >= 3) { memcpy(&new_mode.brightness, &data_buf[data_ptr], sizeof(new_mode.brightness)); data_ptr += sizeof(new_mode.brightness); } /*---------------------------------------------------------*\ | Copy in mode direction (data) | \*---------------------------------------------------------*/ memcpy(&new_mode.direction, &data_buf[data_ptr], sizeof(new_mode.direction)); data_ptr += sizeof(new_mode.direction); /*---------------------------------------------------------*\ | Copy in mode color_mode (data) | \*---------------------------------------------------------*/ memcpy(&new_mode.color_mode, &data_buf[data_ptr], sizeof(new_mode.color_mode)); data_ptr += sizeof(new_mode.color_mode); /*---------------------------------------------------------*\ | Copy in mode number of colors | \*---------------------------------------------------------*/ unsigned short mode_num_colors; memcpy(&mode_num_colors, &data_buf[data_ptr], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); /*---------------------------------------------------------*\ | Copy in mode mode colors | \*---------------------------------------------------------*/ for(int color_index = 0; color_index < mode_num_colors; color_index++) { /*---------------------------------------------------------*\ | Copy in color (data) | \*---------------------------------------------------------*/ RGBColor new_color; memcpy(&new_color, &data_buf[data_ptr], sizeof(RGBColor)); data_ptr += sizeof(modes[mode_index].colors[color_index]); new_mode.colors.push_back(new_color); } modes.push_back(new_mode); } /*---------------------------------------------------------*\ | Copy in number of zones (data) | \*---------------------------------------------------------*/ unsigned short num_zones; memcpy(&num_zones, &data_buf[data_ptr], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); /*---------------------------------------------------------*\ | Copy in zones | \*---------------------------------------------------------*/ for(int zone_index = 0; zone_index < num_zones; zone_index++) { zone new_zone; /*---------------------------------------------------------*\ | Copy in zone name (size+data) | \*---------------------------------------------------------*/ unsigned short zonename_len; memcpy(&zonename_len, &data_buf[data_ptr], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); new_zone.name = (char *)&data_buf[data_ptr]; data_ptr += zonename_len; /*---------------------------------------------------------*\ | Copy in zone type (data) | \*---------------------------------------------------------*/ memcpy(&new_zone.type, &data_buf[data_ptr], sizeof(new_zone.type)); data_ptr += sizeof(new_zone.type); /*---------------------------------------------------------*\ | Copy in zone minimum LED count (data) | \*---------------------------------------------------------*/ memcpy(&new_zone.leds_min, &data_buf[data_ptr], sizeof(new_zone.leds_min)); data_ptr += sizeof(new_zone.leds_min); /*---------------------------------------------------------*\ | Copy in zone maximum LED count (data) | \*---------------------------------------------------------*/ memcpy(&new_zone.leds_max, &data_buf[data_ptr], sizeof(new_zone.leds_max)); data_ptr += sizeof(new_zone.leds_max); /*---------------------------------------------------------*\ | Copy in zone LED count (data) | \*---------------------------------------------------------*/ memcpy(&new_zone.leds_count, &data_buf[data_ptr], sizeof(new_zone.leds_count)); data_ptr += sizeof(new_zone.leds_count); /*---------------------------------------------------------*\ | Copy in size of zone matrix | \*---------------------------------------------------------*/ unsigned short zone_matrix_len; memcpy(&zone_matrix_len, &data_buf[data_ptr], sizeof(zone_matrix_len)); data_ptr += sizeof(zone_matrix_len); /*---------------------------------------------------------*\ | Copy in matrix data if size is nonzero | \*---------------------------------------------------------*/ if(zone_matrix_len > 0) { /*---------------------------------------------------------*\ | Create a map data structure to fill in and attach it to | | the new zone | \*---------------------------------------------------------*/ matrix_map_type * new_map = new matrix_map_type; new_zone.matrix_map = new_map; /*---------------------------------------------------------*\ | Copy in matrix height | \*---------------------------------------------------------*/ memcpy(&new_map->height, &data_buf[data_ptr], sizeof(new_map->height)); data_ptr += sizeof(new_map->height); /*---------------------------------------------------------*\ | Copy in matrix width | \*---------------------------------------------------------*/ memcpy(&new_map->width, &data_buf[data_ptr], sizeof(new_map->width)); data_ptr += sizeof(new_map->width); /*---------------------------------------------------------*\ | Copy in matrix map | \*---------------------------------------------------------*/ new_map->map = new unsigned int[new_map->height * new_map->width]; for(unsigned int matrix_idx = 0; matrix_idx < (new_map->height * new_map->width); matrix_idx++) { memcpy(&new_map->map[matrix_idx], &data_buf[data_ptr], sizeof(new_map->map[matrix_idx])); data_ptr += sizeof(new_map->map[matrix_idx]); } } else { new_zone.matrix_map = NULL; } /*---------------------------------------------------------*\ | Copy in segments | \*---------------------------------------------------------*/ if(protocol_version >= 4) { unsigned short num_segments = 0; /*---------------------------------------------------------*\ | Number of segments in zone | \*---------------------------------------------------------*/ memcpy(&num_segments, &data_buf[data_ptr], sizeof(num_segments)); data_ptr += sizeof(num_segments); for(int segment_index = 0; segment_index < num_segments; segment_index++) { segment new_segment; /*---------------------------------------------------------*\ | Copy in segment name (size+data) | \*---------------------------------------------------------*/ unsigned short segmentname_len; memcpy(&segmentname_len, &data_buf[data_ptr], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); new_segment.name = (char *)&data_buf[data_ptr]; data_ptr += segmentname_len; /*---------------------------------------------------------*\ | Segment type data | \*---------------------------------------------------------*/ memcpy(&new_segment.type, &data_buf[data_ptr], sizeof(new_segment.type)); data_ptr += sizeof(new_segment.type); /*---------------------------------------------------------*\ | Segment start index data | \*---------------------------------------------------------*/ memcpy(&new_segment.start_idx, &data_buf[data_ptr], sizeof(new_segment.start_idx)); data_ptr += sizeof(new_segment.start_idx); /*---------------------------------------------------------*\ | Segment LED count data | \*---------------------------------------------------------*/ memcpy(&new_segment.leds_count, &data_buf[data_ptr], sizeof(new_segment.leds_count)); data_ptr += sizeof(new_segment.leds_count); new_zone.segments.push_back(new_segment); } } /*---------------------------------------------------------*\ | Copy in zone flags | \*---------------------------------------------------------*/ if(protocol_version >= 5) { memcpy(&new_zone.flags, &data_buf[data_ptr], sizeof(new_zone.flags)); data_ptr += sizeof(new_zone.flags); } zones.push_back(new_zone); } /*---------------------------------------------------------*\ | Copy in number of LEDs (data) | \*---------------------------------------------------------*/ unsigned short num_leds; memcpy(&num_leds, &data_buf[data_ptr], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); /*---------------------------------------------------------*\ | Copy in LEDs | \*---------------------------------------------------------*/ for(int led_index = 0; led_index < num_leds; led_index++) { led new_led; /*---------------------------------------------------------*\ | Copy in LED name (size+data) | \*---------------------------------------------------------*/ unsigned short ledname_len; memcpy(&ledname_len, &data_buf[data_ptr], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); new_led.name = (char *)&data_buf[data_ptr]; data_ptr += ledname_len; /*---------------------------------------------------------*\ | Copy in LED value (data) | \*---------------------------------------------------------*/ memcpy(&new_led.value, &data_buf[data_ptr], sizeof(new_led.value)); data_ptr += sizeof(new_led.value); leds.push_back(new_led); } /*---------------------------------------------------------*\ | Copy in number of colors (data) | \*---------------------------------------------------------*/ unsigned short num_colors; memcpy(&num_colors, &data_buf[data_ptr], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); /*---------------------------------------------------------*\ | Copy in colors | \*---------------------------------------------------------*/ for(int color_index = 0; color_index < num_colors; color_index++) { RGBColor new_color; /*---------------------------------------------------------*\ | Copy in color (data) | \*---------------------------------------------------------*/ memcpy(&new_color, &data_buf[data_ptr], sizeof(RGBColor)); data_ptr += sizeof(RGBColor); colors.push_back(new_color); } /*---------------------------------------------------------*\ | Copy in LED alternate names data | \*---------------------------------------------------------*/ if(protocol_version >= 5) { /*---------------------------------------------------------*\ | Copy in number of LED alternate names | \*---------------------------------------------------------*/ unsigned short num_led_alt_names; memcpy(&num_led_alt_names, &data_buf[data_ptr], sizeof(num_led_alt_names)); data_ptr += sizeof(num_led_alt_names); for(int led_idx = 0; led_idx < num_led_alt_names; led_idx++) { unsigned short string_length = 0; /*---------------------------------------------------------*\ | Copy in LED alternate name string (size+data) | \*---------------------------------------------------------*/ memcpy(&string_length, &data_buf[data_ptr], sizeof(string_length)); data_ptr += sizeof(string_length); led_alt_names.push_back((char *)&data_buf[data_ptr]); data_ptr += string_length; } } /*---------------------------------------------------------*\ | Copy in controller flags data | \*---------------------------------------------------------*/ if(protocol_version >= 5) { memcpy(&flags, &data_buf[data_ptr], sizeof(flags)); data_ptr += sizeof(flags); } /*---------------------------------------------------------*\ | Setup colors | \*---------------------------------------------------------*/ SetupColors(); } unsigned char * RGBController::GetModeDescription(int mode, unsigned int protocol_version) { unsigned int data_ptr = 0; unsigned int data_size = 0; unsigned short mode_name_len; unsigned short mode_num_colors; /*---------------------------------------------------------*\ | Calculate data size | \*---------------------------------------------------------*/ mode_name_len = (unsigned short)strlen(modes[mode].name.c_str()) + 1; mode_num_colors = (unsigned short)modes[mode].colors.size(); data_size += sizeof(data_size); data_size += sizeof(mode); data_size += sizeof(mode_name_len); data_size += mode_name_len; data_size += sizeof(modes[mode].value); data_size += sizeof(modes[mode].flags); data_size += sizeof(modes[mode].speed_min); data_size += sizeof(modes[mode].speed_max); if(protocol_version >= 3) { data_size += sizeof(modes[mode].brightness_min); data_size += sizeof(modes[mode].brightness_max); } data_size += sizeof(modes[mode].colors_min); data_size += sizeof(modes[mode].colors_max); data_size += sizeof(modes[mode].speed); if(protocol_version >= 3) { data_size += sizeof(modes[mode].brightness); } data_size += sizeof(modes[mode].direction); data_size += sizeof(modes[mode].color_mode); data_size += sizeof(mode_num_colors); data_size += (mode_num_colors * sizeof(RGBColor)); /*---------------------------------------------------------*\ | Create data buffer | \*---------------------------------------------------------*/ unsigned char *data_buf = new unsigned char[data_size]; /*---------------------------------------------------------*\ | Copy in data size | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &data_size, sizeof(data_size)); data_ptr += sizeof(data_size); /*---------------------------------------------------------*\ | Copy in mode index | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &mode, sizeof(int)); data_ptr += sizeof(int); /*---------------------------------------------------------*\ | Copy in mode name (size+data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &mode_name_len, sizeof(unsigned short)); data_ptr += sizeof(unsigned short); strcpy((char *)&data_buf[data_ptr], modes[mode].name.c_str()); data_ptr += mode_name_len; /*---------------------------------------------------------*\ | Copy in mode value (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode].value, sizeof(modes[mode].value)); data_ptr += sizeof(modes[mode].value); /*---------------------------------------------------------*\ | Copy in mode flags (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode].flags, sizeof(modes[mode].flags)); data_ptr += sizeof(modes[mode].flags); /*---------------------------------------------------------*\ | Copy in mode speed_min (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode].speed_min, sizeof(modes[mode].speed_min)); data_ptr += sizeof(modes[mode].speed_min); /*---------------------------------------------------------*\ | Copy in mode speed_max (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode].speed_max, sizeof(modes[mode].speed_max)); data_ptr += sizeof(modes[mode].speed_max); /*---------------------------------------------------------*\ | Copy in mode brightness min and max if protocol version | | is 3 or higher | \*---------------------------------------------------------*/ if(protocol_version >= 3) { memcpy(&data_buf[data_ptr], &modes[mode].brightness_min, sizeof(modes[mode].brightness_min)); data_ptr += sizeof(modes[mode].brightness_min); memcpy(&data_buf[data_ptr], &modes[mode].brightness_max, sizeof(modes[mode].brightness_max)); data_ptr += sizeof(modes[mode].brightness_max); } /*---------------------------------------------------------*\ | Copy in mode colors_min (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode].colors_min, sizeof(modes[mode].colors_min)); data_ptr += sizeof(modes[mode].colors_min); /*---------------------------------------------------------*\ | Copy in mode colors_max (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode].colors_max, sizeof(modes[mode].colors_max)); data_ptr += sizeof(modes[mode].colors_max); /*---------------------------------------------------------*\ | Copy in mode speed (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode].speed, sizeof(modes[mode].speed)); data_ptr += sizeof(modes[mode].speed); /*---------------------------------------------------------*\ | Copy in mode brightness if protocol version is 3 or higher| \*---------------------------------------------------------*/ if(protocol_version >= 3) { memcpy(&data_buf[data_ptr], &modes[mode].brightness, sizeof(modes[mode].brightness)); data_ptr += sizeof(modes[mode].brightness); } /*---------------------------------------------------------*\ | Copy in mode direction (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode].direction, sizeof(modes[mode].direction)); data_ptr += sizeof(modes[mode].direction); /*---------------------------------------------------------*\ | Copy in mode color_mode (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode].color_mode, sizeof(modes[mode].color_mode)); data_ptr += sizeof(modes[mode].color_mode); /*---------------------------------------------------------*\ | Copy in mode number of colors | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &mode_num_colors, sizeof(unsigned short)); data_ptr += sizeof(unsigned short); /*---------------------------------------------------------*\ | Copy in mode mode colors | \*---------------------------------------------------------*/ for(int color_index = 0; color_index < mode_num_colors; color_index++) { /*---------------------------------------------------------*\ | Copy in color (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &modes[mode].colors[color_index], sizeof(modes[mode].colors[color_index])); data_ptr += sizeof(modes[mode].colors[color_index]); } return(data_buf); } void RGBController::SetModeDescription(unsigned char* data_buf, unsigned int protocol_version) { int mode_idx; unsigned int data_ptr = sizeof(unsigned int); /*---------------------------------------------------------*\ | Copy in mode index | \*---------------------------------------------------------*/ memcpy(&mode_idx, &data_buf[data_ptr], sizeof(int)); data_ptr += sizeof(int); /*---------------------------------------------------------*\ | Check if we aren't reading beyond the list of modes. | \*---------------------------------------------------------*/ if(((size_t) mode_idx) > modes.size()) { return; } /*---------------------------------------------------------*\ | Get pointer to target mode | \*---------------------------------------------------------*/ mode * new_mode = &modes[mode_idx]; /*---------------------------------------------------------*\ | Set active mode to the new mode | \*---------------------------------------------------------*/ active_mode = mode_idx; /*---------------------------------------------------------*\ | Copy in mode name (size+data) | \*---------------------------------------------------------*/ unsigned short modename_len; memcpy(&modename_len, &data_buf[data_ptr], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); new_mode->name = (char *)&data_buf[data_ptr]; data_ptr += modename_len; /*---------------------------------------------------------*\ | Copy in mode value (data) | \*---------------------------------------------------------*/ memcpy(&new_mode->value, &data_buf[data_ptr], sizeof(new_mode->value)); data_ptr += sizeof(new_mode->value); /*---------------------------------------------------------*\ | Copy in mode flags (data) | \*---------------------------------------------------------*/ memcpy(&new_mode->flags, &data_buf[data_ptr], sizeof(new_mode->flags)); data_ptr += sizeof(new_mode->flags); /*---------------------------------------------------------*\ | Copy in mode speed_min (data) | \*---------------------------------------------------------*/ memcpy(&new_mode->speed_min, &data_buf[data_ptr], sizeof(new_mode->speed_min)); data_ptr += sizeof(new_mode->speed_min); /*---------------------------------------------------------*\ | Copy in mode speed_max (data) | \*---------------------------------------------------------*/ memcpy(&new_mode->speed_max, &data_buf[data_ptr], sizeof(new_mode->speed_max)); data_ptr += sizeof(new_mode->speed_max); /*---------------------------------------------------------*\ | Copy in mode brightness_min and brightness_max (data) if | | protocol 3 or higher | \*---------------------------------------------------------*/ if(protocol_version >= 3) { memcpy(&new_mode->brightness_min, &data_buf[data_ptr], sizeof(new_mode->brightness_min)); data_ptr += sizeof(new_mode->brightness_min); memcpy(&new_mode->brightness_max, &data_buf[data_ptr], sizeof(new_mode->brightness_max)); data_ptr += sizeof(new_mode->brightness_max); } /*---------------------------------------------------------*\ | Copy in mode colors_min (data) | \*---------------------------------------------------------*/ memcpy(&new_mode->colors_min, &data_buf[data_ptr], sizeof(new_mode->colors_min)); data_ptr += sizeof(new_mode->colors_min); /*---------------------------------------------------------*\ | Copy in mode colors_max (data) | \*---------------------------------------------------------*/ memcpy(&new_mode->colors_max, &data_buf[data_ptr], sizeof(new_mode->colors_max)); data_ptr += sizeof(new_mode->colors_max); /*---------------------------------------------------------*\ | Copy in mode speed (data) | \*---------------------------------------------------------*/ memcpy(&new_mode->speed, &data_buf[data_ptr], sizeof(new_mode->speed)); data_ptr += sizeof(new_mode->speed); /*---------------------------------------------------------*\ | Copy in mode brightness (data) if protocol 3 or higher | \*---------------------------------------------------------*/ if(protocol_version >= 3) { memcpy(&new_mode->brightness, &data_buf[data_ptr], sizeof(new_mode->brightness)); data_ptr += sizeof(new_mode->brightness); } /*---------------------------------------------------------*\ | Copy in mode direction (data) | \*---------------------------------------------------------*/ memcpy(&new_mode->direction, &data_buf[data_ptr], sizeof(new_mode->direction)); data_ptr += sizeof(new_mode->direction); /*---------------------------------------------------------*\ | Copy in mode color_mode (data) | \*---------------------------------------------------------*/ memcpy(&new_mode->color_mode, &data_buf[data_ptr], sizeof(new_mode->color_mode)); data_ptr += sizeof(new_mode->color_mode); /*---------------------------------------------------------*\ | Copy in mode number of colors | \*---------------------------------------------------------*/ unsigned short mode_num_colors; memcpy(&mode_num_colors, &data_buf[data_ptr], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); /*---------------------------------------------------------*\ | Copy in mode mode colors | \*---------------------------------------------------------*/ new_mode->colors.clear(); for(int color_index = 0; color_index < mode_num_colors; color_index++) { /*---------------------------------------------------------*\ | Copy in color (data) | \*---------------------------------------------------------*/ RGBColor new_color; memcpy(&new_color, &data_buf[data_ptr], sizeof(RGBColor)); data_ptr += sizeof(RGBColor); new_mode->colors.push_back(new_color); } } unsigned char * RGBController::GetColorDescription() { unsigned int data_ptr = 0; unsigned int data_size = 0; unsigned short num_colors = (unsigned short)colors.size(); /*---------------------------------------------------------*\ | Calculate data size | \*---------------------------------------------------------*/ data_size += sizeof(data_size); data_size += sizeof(num_colors); data_size += num_colors * sizeof(RGBColor); /*---------------------------------------------------------*\ | Create data buffer | \*---------------------------------------------------------*/ unsigned char *data_buf = new unsigned char[data_size]; /*---------------------------------------------------------*\ | Copy in data size | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &data_size, sizeof(data_size)); data_ptr += sizeof(data_size); /*---------------------------------------------------------*\ | Copy in number of colors (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &num_colors, sizeof(unsigned short)); data_ptr += sizeof(unsigned short); /*---------------------------------------------------------*\ | Copy in colors | \*---------------------------------------------------------*/ for(int color_index = 0; color_index < num_colors; color_index++) { /*---------------------------------------------------------*\ | Copy in color (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &colors[color_index], sizeof(colors[color_index])); data_ptr += sizeof(colors[color_index]); } return(data_buf); } void RGBController::SetColorDescription(unsigned char* data_buf) { unsigned int data_ptr = sizeof(unsigned int); /*---------------------------------------------------------*\ | Copy in number of colors (data) | \*---------------------------------------------------------*/ unsigned short num_colors; memcpy(&num_colors, &data_buf[data_ptr], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); /*---------------------------------------------------------*\ | Check if we aren't reading beyond the list of colors. | \*---------------------------------------------------------*/ if(((size_t)num_colors) > colors.size()) { return; } /*---------------------------------------------------------*\ | Copy in colors | \*---------------------------------------------------------*/ for(int color_index = 0; color_index < num_colors; color_index++) { RGBColor new_color; /*---------------------------------------------------------*\ | Copy in color (data) | \*---------------------------------------------------------*/ memcpy(&new_color, &data_buf[data_ptr], sizeof(RGBColor)); data_ptr += sizeof(RGBColor); colors[color_index] = new_color; } } unsigned char * RGBController::GetZoneColorDescription(int zone) { unsigned int data_ptr = 0; unsigned int data_size = 0; unsigned short num_colors = zones[zone].leds_count; /*---------------------------------------------------------*\ | Calculate data size | \*---------------------------------------------------------*/ data_size += sizeof(data_size); data_size += sizeof(zone); data_size += sizeof(num_colors); data_size += num_colors * sizeof(RGBColor); /*---------------------------------------------------------*\ | Create data buffer | \*---------------------------------------------------------*/ unsigned char *data_buf = new unsigned char[data_size]; /*---------------------------------------------------------*\ | Copy in data size | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &data_size, sizeof(data_size)); data_ptr += sizeof(data_size); /*---------------------------------------------------------*\ | Copy in zone index | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &zone, sizeof(zone)); data_ptr += sizeof(zone); /*---------------------------------------------------------*\ | Copy in number of colors (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &num_colors, sizeof(unsigned short)); data_ptr += sizeof(unsigned short); /*---------------------------------------------------------*\ | Copy in colors | \*---------------------------------------------------------*/ for(int color_index = 0; color_index < num_colors; color_index++) { /*---------------------------------------------------------*\ | Copy in color (data) | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &zones[zone].colors[color_index], sizeof(zones[zone].colors[color_index])); data_ptr += sizeof(zones[zone].colors[color_index]); } return(data_buf); } void RGBController::SetZoneColorDescription(unsigned char* data_buf) { unsigned int data_ptr = sizeof(unsigned int); unsigned int zone_idx; /*---------------------------------------------------------*\ | Copy in zone index | \*---------------------------------------------------------*/ memcpy(&zone_idx, &data_buf[data_ptr], sizeof(zone_idx)); data_ptr += sizeof(zone_idx); /*---------------------------------------------------------*\ | Check if we aren't reading beyond the list of zones. | \*---------------------------------------------------------*/ if(((size_t)zone_idx) > zones.size()) { return; } /*---------------------------------------------------------*\ | Copy in number of colors (data) | \*---------------------------------------------------------*/ unsigned short num_colors; memcpy(&num_colors, &data_buf[data_ptr], sizeof(unsigned short)); data_ptr += sizeof(unsigned short); /*---------------------------------------------------------*\ | Copy in colors | \*---------------------------------------------------------*/ for(int color_index = 0; color_index < num_colors; color_index++) { RGBColor new_color; /*---------------------------------------------------------*\ | Copy in color (data) | \*---------------------------------------------------------*/ memcpy(&new_color, &data_buf[data_ptr], sizeof(RGBColor)); data_ptr += sizeof(RGBColor); zones[zone_idx].colors[color_index] = new_color; } } unsigned char * RGBController::GetSingleLEDColorDescription(int led) { /*---------------------------------------------------------*\ | Fixed size descrption: | | int: LED index | | RGBColor: LED color | \*---------------------------------------------------------*/ unsigned char *data_buf = new unsigned char[sizeof(int) + sizeof(RGBColor)]; /*---------------------------------------------------------*\ | Copy in LED index | \*---------------------------------------------------------*/ memcpy(&data_buf[0], &led, sizeof(int)); /*---------------------------------------------------------*\ | Copy in LED color | \*---------------------------------------------------------*/ memcpy(&data_buf[sizeof(led)], &colors[led], sizeof(RGBColor)); return(data_buf); } void RGBController::SetSingleLEDColorDescription(unsigned char* data_buf) { /*---------------------------------------------------------*\ | Fixed size descrption: | | int: LED index | | RGBColor: LED color | \*---------------------------------------------------------*/ int led_idx; /*---------------------------------------------------------*\ | Copy in LED index | \*---------------------------------------------------------*/ memcpy(&led_idx, &data_buf[0], sizeof(led_idx)); /*---------------------------------------------------------*\ | Check if we aren't reading beyond the list of leds. | \*---------------------------------------------------------*/ if(((size_t)led_idx) > leds.size()) { return; } /*---------------------------------------------------------*\ | Copy in LED color | \*---------------------------------------------------------*/ memcpy(&colors[led_idx], &data_buf[sizeof(led_idx)], sizeof(RGBColor)); } unsigned char * RGBController::GetSegmentDescription(int zone, segment new_segment) { unsigned int data_ptr = 0; unsigned int data_size = 0; /*---------------------------------------------------------*\ | Length of data size | \*---------------------------------------------------------*/ data_size += sizeof(data_size); /*---------------------------------------------------------*\ | Length of zone index | \*---------------------------------------------------------*/ data_size += sizeof(zone); /*---------------------------------------------------------*\ | Length of segment name string | \*---------------------------------------------------------*/ data_size += sizeof(unsigned short); /*---------------------------------------------------------*\ | Segment name string data | \*---------------------------------------------------------*/ data_size += strlen(new_segment.name.c_str()) + 1; data_size += sizeof(new_segment.type); data_size += sizeof(new_segment.start_idx); data_size += sizeof(new_segment.leds_count); /*---------------------------------------------------------*\ | Create data buffer | \*---------------------------------------------------------*/ unsigned char *data_buf = new unsigned char[data_size]; /*---------------------------------------------------------*\ | Copy in data size | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &data_size, sizeof(data_size)); data_ptr += sizeof(data_size); /*---------------------------------------------------------*\ | Copy in zone index | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &zone, sizeof(zone)); data_ptr += sizeof(zone); /*---------------------------------------------------------*\ | Length of segment name string | \*---------------------------------------------------------*/ unsigned short segment_name_length = strlen(new_segment.name.c_str()) + 1; memcpy(&data_buf[data_ptr], &segment_name_length, sizeof(segment_name_length)); data_ptr += sizeof(segment_name_length); /*---------------------------------------------------------*\ | Segment name string data | \*---------------------------------------------------------*/ strcpy((char *)&data_buf[data_ptr], new_segment.name.c_str()); data_ptr += segment_name_length; /*---------------------------------------------------------*\ | Segment type data | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &new_segment.type, sizeof(new_segment.type)); data_ptr += sizeof(new_segment.type); /*---------------------------------------------------------*\ | Segment start index data | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &new_segment.start_idx, sizeof(new_segment.start_idx)); data_ptr += sizeof(new_segment.start_idx); /*---------------------------------------------------------*\ | Segment LED count data | \*---------------------------------------------------------*/ memcpy(&data_buf[data_ptr], &new_segment.leds_count, sizeof(new_segment.leds_count)); data_ptr += sizeof(new_segment.leds_count); return(data_buf); } void RGBController::SetSegmentDescription(unsigned char* data_buf) { unsigned int data_ptr = sizeof(unsigned int); /*---------------------------------------------------------*\ | Copy in zone index | \*---------------------------------------------------------*/ unsigned int zone_idx; memcpy(&zone_idx, &data_buf[data_ptr], sizeof(zone_idx)); data_ptr += sizeof(zone_idx); /*---------------------------------------------------------*\ | Length of segment name string | \*---------------------------------------------------------*/ unsigned short segment_name_length; memcpy(&segment_name_length, &data_buf[data_ptr], sizeof(segment_name_length)); data_ptr += sizeof(segment_name_length); /*---------------------------------------------------------*\ | Segment name string data | \*---------------------------------------------------------*/ char * segment_name = new char[segment_name_length]; memcpy(segment_name, &data_buf[data_ptr], segment_name_length); data_ptr += segment_name_length; /*---------------------------------------------------------*\ | Segment type data | \*---------------------------------------------------------*/ zone_type segment_type; memcpy(&segment_type, &data_buf[data_ptr], sizeof(segment_type)); data_ptr += sizeof(segment_type); /*---------------------------------------------------------*\ | Segment start index data | \*---------------------------------------------------------*/ unsigned int segment_start_idx; memcpy(&segment_start_idx, &data_buf[data_ptr], sizeof(segment_start_idx)); data_ptr += sizeof(segment_start_idx); /*---------------------------------------------------------*\ | Segment LED count data | \*---------------------------------------------------------*/ unsigned int segment_leds_count; memcpy(&segment_leds_count, &data_buf[data_ptr], sizeof(segment_leds_count)); data_ptr += sizeof(segment_leds_count); /*---------------------------------------------------------*\ | Add new segment | \*---------------------------------------------------------*/ segment new_segment; new_segment.name = segment_name; new_segment.type = segment_type; new_segment.start_idx = segment_start_idx; new_segment.leds_count = segment_leds_count; AddSegment(zone_idx, new_segment); delete[] segment_name; } void RGBController::SetupColors() { unsigned int total_led_count; unsigned int zone_led_count; /*---------------------------------------------------------*\ | Determine total number of LEDs on the device | \*---------------------------------------------------------*/ total_led_count = 0; for(std::size_t zone_idx = 0; zone_idx < zones.size(); zone_idx++) { total_led_count += GetLEDsInZone(zone_idx); } /*---------------------------------------------------------*\ | Set the size of the color buffer to the number of LEDs | \*---------------------------------------------------------*/ colors.resize(total_led_count); /*---------------------------------------------------------*\ | Set the color buffer pointers on each zone | \*---------------------------------------------------------*/ total_led_count = 0; for(std::size_t zone_idx = 0; zone_idx < zones.size(); zone_idx++) { zones[zone_idx].start_idx = total_led_count; zone_led_count = GetLEDsInZone(zone_idx); if((colors.size() > 0) && (zone_led_count > 0)) { zones[zone_idx].colors = &colors[total_led_count]; } else { zones[zone_idx].colors = NULL; } if((leds.size() > 0) && (zone_led_count > 0)) { zones[zone_idx].leds = &leds[total_led_count]; } else { zones[zone_idx].leds = NULL; } total_led_count += zone_led_count; } } unsigned int RGBController::GetLEDsInZone(unsigned int zone) { unsigned int leds_count = zones[zone].leds_count; if(zones[zone].flags & ZONE_FLAG_RESIZE_EFFECTS_ONLY) { if(leds_count > 1) { leds_count = 1; } } return(leds_count); } RGBColor RGBController::GetLED(unsigned int led) { if(led < colors.size()) { return(colors[led]); } else { return(0x00000000); } } void RGBController::SetLED(unsigned int led, RGBColor color) { if(led < colors.size()) { colors[led] = color; } } void RGBController::SetAllLEDs(RGBColor color) { for(std::size_t zone_idx = 0; zone_idx < zones.size(); zone_idx++) { SetAllZoneLEDs((int)zone_idx, color); } } void RGBController::SetAllZoneLEDs(int zone, RGBColor color) { for (std::size_t color_idx = 0; color_idx < GetLEDsInZone(zone); color_idx++) { zones[zone].colors[color_idx] = color; } } int RGBController::GetMode() { return(active_mode); } void RGBController::SetMode(int mode) { active_mode = mode; UpdateMode(); } void RGBController::RegisterUpdateCallback(RGBControllerCallback new_callback, void * new_callback_arg) { UpdateCallbacks.push_back(new_callback); UpdateCallbackArgs.push_back(new_callback_arg); } void RGBController::UnregisterUpdateCallback(void * callback_arg) { for(unsigned int callback_idx = 0; callback_idx < UpdateCallbackArgs.size(); callback_idx++ ) { if(UpdateCallbackArgs[callback_idx] == callback_arg) { UpdateCallbackArgs.erase(UpdateCallbackArgs.begin() + callback_idx); UpdateCallbacks.erase(UpdateCallbacks.begin() + callback_idx); break; } } } void RGBController::ClearCallbacks() { UpdateCallbacks.clear(); UpdateCallbackArgs.clear(); } void RGBController::SignalUpdate() { UpdateMutex.lock(); /*-------------------------------------------------*\ | Client info has changed, call the callbacks | \*-------------------------------------------------*/ for(unsigned int callback_idx = 0; callback_idx < UpdateCallbacks.size(); callback_idx++) { UpdateCallbacks[callback_idx](UpdateCallbackArgs[callback_idx]); } UpdateMutex.unlock(); } void RGBController::UpdateLEDs() { CallFlag_UpdateLEDs = true; SignalUpdate(); } void RGBController::UpdateMode() { CallFlag_UpdateMode = true; } void RGBController::SaveMode() { DeviceSaveMode(); } void RGBController::DeviceUpdateLEDs() { } void RGBController::SetCustomMode() { /*-------------------------------------------------*\ | Search the Controller's mode list for a suitable | | per-LED custom mode in the following order: | | 1. Direct | | 2. Custom | | 3. Static | \*-------------------------------------------------*/ #define NUM_CUSTOM_MODE_NAMES 3 const std::string custom_mode_names[] = { "Direct", "Custom", "Static" }; for(unsigned int custom_mode_idx = 0; custom_mode_idx < NUM_CUSTOM_MODE_NAMES; custom_mode_idx++) { for(unsigned int mode_idx = 0; mode_idx < modes.size(); mode_idx++) { if((modes[mode_idx].name == custom_mode_names[custom_mode_idx]) && ((modes[mode_idx].color_mode == MODE_COLORS_PER_LED) || (modes[mode_idx].color_mode == MODE_COLORS_MODE_SPECIFIC))) { active_mode = mode_idx; return; } } } } void RGBController::DeviceUpdateMode() { } void RGBController::DeviceCallThreadFunction() { CallFlag_UpdateLEDs = false; CallFlag_UpdateMode = false; while(DeviceThreadRunning.load() == true) { if(CallFlag_UpdateMode.load() == true) { if(flags & CONTROLLER_FLAG_RESET_BEFORE_UPDATE) { CallFlag_UpdateMode = false; DeviceUpdateMode(); } else { DeviceUpdateMode(); CallFlag_UpdateMode = false; } } if(CallFlag_UpdateLEDs.load() == true) { if(flags & CONTROLLER_FLAG_RESET_BEFORE_UPDATE) { CallFlag_UpdateLEDs = false; DeviceUpdateLEDs(); } else { DeviceUpdateLEDs(); CallFlag_UpdateLEDs = false; } } else { std::this_thread::sleep_for(1ms); } } } void RGBController::DeviceSaveMode() { /*-------------------------------------------------*\ | If not implemented by controller, does nothing | \*-------------------------------------------------*/ } void RGBController::ClearSegments(int zone) { zones[zone].segments.clear(); } void RGBController::AddSegment(int zone, segment new_segment) { zones[zone].segments.push_back(new_segment); } std::string device_type_to_str(device_type type) { switch(type) { case DEVICE_TYPE_MOTHERBOARD: return "Motherboard"; case DEVICE_TYPE_DRAM: return "DRAM"; case DEVICE_TYPE_GPU: return "GPU"; case DEVICE_TYPE_COOLER: return "Cooler"; case DEVICE_TYPE_LEDSTRIP: return "LED Strip"; case DEVICE_TYPE_KEYBOARD: return "Keyboard"; case DEVICE_TYPE_MOUSE: return "Mouse"; case DEVICE_TYPE_MOUSEMAT: return "Mousemat"; case DEVICE_TYPE_HEADSET: return "Headset"; case DEVICE_TYPE_HEADSET_STAND: return "Headset Stand"; case DEVICE_TYPE_GAMEPAD: return "Gamepad"; case DEVICE_TYPE_LIGHT: return "Light"; case DEVICE_TYPE_SPEAKER: return "Speaker"; case DEVICE_TYPE_VIRTUAL: return "Virtual"; case DEVICE_TYPE_STORAGE: return "Storage"; case DEVICE_TYPE_CASE: return "Case"; case DEVICE_TYPE_MICROPHONE: return "Microphone"; case DEVICE_TYPE_ACCESSORY: return "Accessory"; case DEVICE_TYPE_KEYPAD: return "Keypad"; default: return "Unknown"; } }