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OpenRGB/Controllers/GigabyteRGBFusion2GPUController/GigabyteRGBFusion2GPUController.cpp

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/*---------------------------------------------------------*\
| GigabyteRGBFusion2GPUController.cpp |
| |
| Driver for Gigabyte Aorus RGB Fusion 2 GPU |
| |
| This file is part of the OpenRGB project |
| SPDX-License-Identifier: GPL-2.0-or-later |
\*---------------------------------------------------------*/
#include <chrono>
#include <thread>
#include "GigabyteRGBFusion2GPUController.h"
#include "LogManager.h"
using namespace std::chrono_literals;
RGBFusion2GPUController::RGBFusion2GPUController(i2c_smbus_interface* bus, rgb_fusion_dev_id dev, std::string dev_name)
{
this->bus = bus;
this->dev = dev;
this->name = dev_name;
}
RGBFusion2GPUController::~RGBFusion2GPUController()
{
}
std::string RGBFusion2GPUController::GetDeviceLocation()
{
std::string return_string(bus->device_name);
char addr[5];
snprintf(addr, 5, "0x%02X", dev);
return_string.append(", address ");
return_string.append(addr);
return("I2C: " + return_string);
}
std::string RGBFusion2GPUController::GetDeviceName()
{
return(name);
}
void RGBFusion2GPUController::SaveConfig()
{
uint8_t data_pkt[8] = { 0xAA, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 };
bus->i2c_write_block(dev, sizeof(data_pkt), data_pkt);
}
void RGBFusion2GPUController::SetMode(uint8_t zone, uint8_t mode, fusion2_config zone_config, uint8_t mystery_flag)
{
if(zone < 4)
{
this->zone_color[zone] = zone_config.colors[0];
}
uint8_t zone_pkt[8] = { RGB_FUSION2_GPU_REG_MODE, mode, zone_config.speed, zone_config.brightness, mystery_flag, (uint8_t)(zone + 1), 0x00, 0x00 };
bus->i2c_write_block(dev, sizeof(zone_pkt), zone_pkt);
uint8_t zone_pkt2[8] = { 0 };
switch(zone)
{
case 0:
case 1:
zone_pkt2[0] = RGB_FUSION2_GPU_REG_COLOR_LEFT_MID;
zone_pkt2[1] = mode;
zone_pkt2[2] = (uint8_t)RGBGetRValue(this->zone_color[0]);
zone_pkt2[3] = (uint8_t)RGBGetGValue(this->zone_color[0]);
zone_pkt2[4] = (uint8_t)RGBGetBValue(this->zone_color[0]);
zone_pkt2[5] = (uint8_t)RGBGetRValue(this->zone_color[1]);
zone_pkt2[6] = (uint8_t)RGBGetGValue(this->zone_color[1]);
zone_pkt2[7] = (uint8_t)RGBGetBValue(this->zone_color[1]);
break;
case 2:
zone_pkt2[0] = RGB_FUSION2_GPU_REG_COLOR_RIGHT;
zone_pkt2[1] = mode;
zone_pkt2[2] = (uint8_t)RGBGetRValue(this->zone_color[2]);
zone_pkt2[3] = (uint8_t)RGBGetGValue(this->zone_color[2]);
zone_pkt2[4] = (uint8_t)RGBGetBValue(this->zone_color[2]);
break;
default:
zone_pkt2[0] = RGB_FUSION2_GPU_REG_COLOR;
zone_pkt2[1] = (uint8_t)RGBGetRValue(zone_config.colors[0]);
zone_pkt2[2] = (uint8_t)RGBGetGValue(zone_config.colors[0]);
zone_pkt2[3] = (uint8_t)RGBGetBValue(zone_config.colors[0]);
zone_pkt2[4] = (uint8_t)(zone + 1);
break;
}
bus->i2c_write_block(dev, sizeof(zone_pkt2), zone_pkt2);
}
void RGBFusion2GPUController::SetZone(uint8_t zone, uint8_t mode, fusion2_config zone_config)
{
std::string mode_name;
uint8_t mystery_flag = 0x00;
switch(mode)
{
case RGB_FUSION2_GPU_MODE_STATIC:
{
SetMode(zone, mode, zone_config, mystery_flag);
}
break;
case RGB_FUSION2_GPU_MODE_BREATHING:
{
zone_config.brightness = RGB_FUSION2_GPU_BRIGHTNESS_MAX;
SetMode(zone, mode, zone_config, mystery_flag);
}
break;
case RGB_FUSION2_GPU_MODE_COLOR_CYCLE:
{
uint8_t zone_pkt[8] = { RGB_FUSION2_GPU_REG_MODE, mode, zone_config.speed, zone_config.brightness, mystery_flag, (uint8_t)(zone + 1), 0x00, 0x00 };
bus->i2c_write_block(dev, sizeof(zone_pkt), zone_pkt);
}
break;
case RGB_FUSION2_GPU_MODE_GRADIENT:
{
mystery_flag = 0x08;
SetMode(zone, mode, zone_config, mystery_flag);
}
break;
case RGB_FUSION2_GPU_MODE_FLASHING:
{
SetMode(zone, mode, zone_config, mystery_flag);
}
break;
case RGB_FUSION2_GPU_MODE_DUAL_FLASHING:
{
SetMode(zone, mode, zone_config, mystery_flag);
}
break;
case RGB_FUSION2_GPU_MODE_WAVE:
{
SetMode(zone, mode, zone_config, mystery_flag);
}
break;
case RGB_FUSION2_GPU_MODE_COLOR_SHIFT:
{
mystery_flag = zone_config.numberOfColors;
uint8_t zone_pkt[8] = { RGB_FUSION2_GPU_REG_MODE, mode, zone_config.speed, zone_config.brightness, mystery_flag, (uint8_t)(zone + 1), 0x00, 0x00 };
bus->i2c_write_block(dev, sizeof(zone_pkt), zone_pkt);
uint8_t bank = (0xB0 + (zone * 4));
uint8_t zone_pktA[8] = { (uint8_t)bank, mode, (uint8_t)RGBGetRValue(zone_config.colors[0]), (uint8_t)RGBGetGValue(zone_config.colors[0]), (uint8_t)RGBGetBValue(zone_config.colors[0]), (uint8_t)RGBGetRValue(zone_config.colors[1]), (uint8_t)RGBGetGValue(zone_config.colors[1]), (uint8_t)RGBGetBValue(zone_config.colors[1]) };
bus->i2c_write_block(dev, sizeof(zone_pktA), zone_pktA);
uint8_t zone_pktB[8] = { (uint8_t)(bank + 1), mode, (uint8_t)RGBGetRValue(zone_config.colors[2]), (uint8_t)RGBGetGValue(zone_config.colors[2]), (uint8_t)RGBGetBValue(zone_config.colors[2]), (uint8_t)RGBGetRValue(zone_config.colors[3]), (uint8_t)RGBGetGValue(zone_config.colors[3]), (uint8_t)RGBGetBValue(zone_config.colors[3]) };
bus->i2c_write_block(dev, sizeof(zone_pktB), zone_pktB);
uint8_t zone_pktC[8] = { (uint8_t)(bank + 2), mode, (uint8_t)RGBGetRValue(zone_config.colors[4]), (uint8_t)RGBGetGValue(zone_config.colors[4]), (uint8_t)RGBGetBValue(zone_config.colors[4]), (uint8_t)RGBGetRValue(zone_config.colors[5]), (uint8_t)RGBGetGValue(zone_config.colors[5]), (uint8_t)RGBGetBValue(zone_config.colors[5]) };
bus->i2c_write_block(dev, sizeof(zone_pktC), zone_pktC);
uint8_t zone_pktD[8] = { (uint8_t)(bank + 3), mode, (uint8_t)RGBGetRValue(zone_config.colors[6]), (uint8_t)RGBGetGValue(zone_config.colors[6]), (uint8_t)RGBGetBValue(zone_config.colors[6]), (uint8_t)RGBGetRValue(zone_config.colors[7]), (uint8_t)RGBGetGValue(zone_config.colors[7]), (uint8_t)RGBGetBValue(zone_config.colors[7]) };
bus->i2c_write_block(dev, sizeof(zone_pktD), zone_pktD);
}
break;
case RGB_FUSION2_GPU_MODE_TRICOLOR:
{
mystery_flag = 0x08;
uint8_t zone_pkt[8] = { RGB_FUSION2_GPU_REG_MODE, mode, zone_config.speed, zone_config.brightness, mystery_flag, (uint8_t)(zone + 1), 0x00, 0x00 };
bus->i2c_write_block(dev, sizeof(zone_pkt), zone_pkt);
uint8_t bank = (0xB0 + (zone * 4));
uint8_t zone_pktA[8] = { (uint8_t)bank, mode, (uint8_t)RGBGetRValue(zone_config.colors[0]), (uint8_t)RGBGetGValue(zone_config.colors[0]), (uint8_t)RGBGetBValue(zone_config.colors[0]), (uint8_t)RGBGetRValue(zone_config.colors[1]), (uint8_t)RGBGetGValue(zone_config.colors[1]), (uint8_t)RGBGetBValue(zone_config.colors[1]) };
bus->i2c_write_block(dev, sizeof(zone_pktA), zone_pktA);
uint8_t zone_pktB[8] = { (uint8_t)(bank + 1), mode, (uint8_t)RGBGetRValue(zone_config.colors[2]), (uint8_t)RGBGetGValue(zone_config.colors[2]), (uint8_t)RGBGetBValue(zone_config.colors[2]), (uint8_t)RGBGetRValue(zone_config.colors[3]), (uint8_t)RGBGetGValue(zone_config.colors[3]), (uint8_t)RGBGetBValue(zone_config.colors[3]) };
bus->i2c_write_block(dev, sizeof(zone_pktB), zone_pktB);
uint8_t zone_pktC[8] = { (uint8_t)(bank + 2), mode, (uint8_t)RGBGetRValue(zone_config.colors[4]), (uint8_t)RGBGetGValue(zone_config.colors[4]), (uint8_t)RGBGetBValue(zone_config.colors[4]), (uint8_t)RGBGetRValue(zone_config.colors[5]), (uint8_t)RGBGetGValue(zone_config.colors[5]), (uint8_t)RGBGetBValue(zone_config.colors[5]) };
bus->i2c_write_block(dev, sizeof(zone_pktC), zone_pktC);
uint8_t zone_pktD[8] = { (uint8_t)(bank + 3), mode, (uint8_t)RGBGetRValue(zone_config.colors[6]), (uint8_t)RGBGetGValue(zone_config.colors[6]), (uint8_t)RGBGetBValue(zone_config.colors[6]), (uint8_t)RGBGetRValue(zone_config.colors[7]), (uint8_t)RGBGetGValue(zone_config.colors[7]), (uint8_t)RGBGetBValue(zone_config.colors[7]) };
bus->i2c_write_block(dev, sizeof(zone_pktD), zone_pktD);
}
break;
default:
{
LOG_TRACE("[%s] Mode %02d not found", "fusion2 gpu", mode);
}
break;
}
}
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