/*---------------------------------------------------------*\ | RGBController_Govee.cpp | | | | RGBController for Govee wireless lighting devices | | | | Adam Honse (calcprogrammer1@gmail.com) 27 Dec 2023 | | | | This file is part of the OpenRGB project | | SPDX-License-Identifier: GPL-2.0-or-later | \*---------------------------------------------------------*/ #include #include #include #include "RGBController_Govee.h" using namespace std::chrono_literals; struct GoveeHardwareInfo { unsigned int led_count; unsigned int matrix_row_len; // 0 = linear }; const unsigned int GOVEE_FALLBACK_LED_COUNT = 20; static std::map govee_hardware_info { { "H6022", { 132, 12 } }, // Govee Smart Table Lamp 2 { "H612F", { 12, 0 } }, // Govee Strip Light S (3m) { "H619A", { 20, 0 } }, // Govee RGBIC Led Strip Lights { "H70B1", { 20, 0 } }, // Govee LED Curtain Lights { "H607C", { 174, 0 } }, // Govee Floor Lamp 2 }; RGBController_Govee::RGBController_Govee(GoveeController* controller_ptr) { controller = controller_ptr; name = "Govee " + controller->GetSku(); vendor = "Govee"; type = DEVICE_TYPE_LIGHT; description = "Govee Device"; location = controller->GetLocation(); version = controller->GetVersion(); mode Static; Static.name = "Static"; Static.value = 1; Static.flags = MODE_FLAG_HAS_MODE_SPECIFIC_COLOR; Static.color_mode = MODE_COLORS_MODE_SPECIFIC; Static.colors_min = 1; Static.colors_max = 1; Static.colors.resize(1); modes.push_back(Static); mode Direct; Direct.name = "Direct"; Direct.value = 0; Direct.flags = MODE_FLAG_HAS_PER_LED_COLOR; Direct.color_mode = MODE_COLORS_PER_LED; modes.push_back(Direct); SetupZones(); keepalive_thread_run = 1; keepalive_thread = new std::thread(&RGBController_Govee::KeepaliveThread, this); } RGBController_Govee::~RGBController_Govee() { Shutdown(); keepalive_thread_run = 0; keepalive_thread->join(); delete keepalive_thread; delete controller; } void RGBController_Govee::SetupZones() { GoveeHardwareInfo hw = { GOVEE_FALLBACK_LED_COUNT, 0 }; bool resizable = true; std::map::iterator it = govee_hardware_info.find(controller->GetSku()); if(it != govee_hardware_info.end()) { hw = it->second; resizable = false; } zone strip; strip.leds_count = hw.led_count; strip.leds_min = resizable ? 0 : hw.led_count; strip.leds_max = resizable ? 255 : hw.led_count; if(hw.matrix_row_len == 0) { strip.name = "Govee Strip"; strip.type = ZONE_TYPE_LINEAR; } else { strip.name = "Govee Matrix"; strip.type = ZONE_TYPE_MATRIX; unsigned int width = hw.matrix_row_len; unsigned int height = hw.led_count / width; strip.matrix_map.height = height; strip.matrix_map.width = width; strip.matrix_map.map.resize(hw.led_count); /*-------------------------------------------------*\ | On H6022, LEDs indexed bottom to top, alternating | | clockwise and counterclockwise for each row. | \*-------------------------------------------------*/ for(unsigned int y = 0; y < height; y++) { /*---------------------------------------------*\ | LEDs numbered bottom to top, opposite of | | matrix clockwise and counterclockwise for | | each row. | \*---------------------------------------------*/ unsigned int led_y = (height - 1) - y; for(unsigned int x = 0; x < width; x++) { /*-----------------------------------------*\ | LED is right-to-left for even rows, | | including first one | \*-----------------------------------------*/ unsigned int led_x = led_y & 1 ? x : (width - 1) - x; strip.matrix_map.map[y * width + x] = led_y * width + led_x; } } } zones.push_back(strip); for(std::size_t led_idx = 0; led_idx < strip.leds_count; led_idx++) { led strip_led; strip_led.name = "Govee LED " + std::to_string(led_idx); leds.push_back(strip_led); } SetupColors(); } void RGBController_Govee::DeviceConfigureZone(int zone_idx) { if(zones[zone_idx].type == ZONE_TYPE_MATRIX) { return; } if((size_t)zone_idx < zones.size()) { leds.clear(); leds.resize(zones[zone_idx].leds_count); for(unsigned int i = 0; i < zones[zone_idx].leds_count; i++) { leds[i].name = "Govee LED " + std::to_string(i); } SetupColors(); /* re-sync color buffers with LED count */ DeviceUpdateLEDs(); /* push an updated frame */ } } void RGBController_Govee::DeviceUpdateLEDs() { last_update_time = std::chrono::steady_clock::now(); if(modes[active_mode].color_mode == MODE_COLORS_PER_LED) { if(!colors.empty()) { controller->SendRazerData(&colors[0], (unsigned int)colors.size()); } } } void RGBController_Govee::DeviceUpdateZoneLEDs(int /*zone*/) { DeviceUpdateLEDs(); } void RGBController_Govee::DeviceUpdateSingleLED(int /*led*/) { DeviceUpdateLEDs(); } void RGBController_Govee::DeviceUpdateMode() { if(modes[active_mode].color_mode == MODE_COLORS_MODE_SPECIFIC) { unsigned char red = RGBGetRValue(modes[active_mode].colors[0]); unsigned char grn = RGBGetGValue(modes[active_mode].colors[0]); unsigned char blu = RGBGetBValue(modes[active_mode].colors[0]); controller->SetColor(red, grn, blu); } else { controller->SendRazerEnable(); DeviceUpdateLEDs(); } } void RGBController_Govee::KeepaliveThread() { while(keepalive_thread_run.load()) { if((std::chrono::steady_clock::now() - last_update_time) > std::chrono::seconds(30)) { DeviceUpdateLEDs(); } std::this_thread::sleep_for(10s); } }