OpenRGB/Controllers/LianLiController/LianLiUniHub_AL10Controller.cpp

/*-----------------------------------------*\
|  LianLiUniHub_AL10Controller.cpp          |
|                                           |
|  Driver for Lian Li Uni Hub USB           |
|  lighting controller                      |
|                                           |
|  Oliver P 05/05/2022                      |
|  Credit to Luca Lovisa for original work. |
\*-----------------------------------------*/

#include "LianLiUniHub_AL10Controller.h"

#include <cstring>

using namespace std::chrono_literals;

/*----------------------------------------------------------------------------*\
| The Uni Hub is controlled by sending control transfers to various wIndex     |
| addresses, allthough it announces some kind of hid interface. Hence it       |
| requires libusb as hidapi provides no wIndex customization.                  |
\*----------------------------------------------------------------------------*/

LianLiUniHub_AL10Controller::LianLiUniHub_AL10Controller
    (
    libusb_device*              device,
    libusb_device_descriptor*   descriptor
    )
{
    int ret;

    /*--------------------------------------------------------------------*\
    | Open the libusb device.                                              |
    \*--------------------------------------------------------------------*/
    ret = libusb_open(device, &handle);

    if(ret < 0)
    {
        return;
    }

    /*--------------------------------------------------------------------*\
    | Fill in the location string from USB port numbers.                   |
    \*--------------------------------------------------------------------*/
    uint8_t ports[7];

    ret = libusb_get_port_numbers(device, ports, sizeof(ports));

    if(ret > 0)
    {
        location = "USB: ";

        for (int i = 0; i < ret; i ++)
        {
            location += std::to_string(ports[i]);
            location.push_back(':');
        }

        location.pop_back();
    }

    /*--------------------------------------------------------------------*\
    | Fill in the serial string from the string descriptor                 |
    \*--------------------------------------------------------------------*/
    char serialStr[64];

    ret = libusb_get_string_descriptor_ascii(handle, descriptor->iSerialNumber, reinterpret_cast<unsigned char*>(serialStr), sizeof(serialStr));

    if(ret > 0)
    {
        serial = std::string(serialStr, ret);
    }

    /*--------------------------------------------------------------------*\
    | Fill in the version string by reading version from device.           |
    \*--------------------------------------------------------------------*/
    version = ReadVersion();

    /*--------------------------------------------------------------------*\
    | Create channels with their static configuration and "sane" defaults. |
    \*--------------------------------------------------------------------*/
    Channel channel1;
    channel1.index                = 0;
    channel1.anyFanCountOffset    = UNIHUB_AL10_ANY_C1_FAN_COUNT_OFFSET;
    channel1.anyFanCount          = UNIHUB_AL10_ANY_FAN_COUNT_001;
    channel1.ledActionAddress     = UNIHUB_AL10_LED_C1_ACTION_ADDRESS;
    channel1.ledCommitAddress     = UNIHUB_AL10_LED_C1_COMMIT_ADDRESS;
    channel1.ledModeAddress       = UNIHUB_AL10_LED_C1_MODE_ADDRESS;
    channel1.ledSpeedAddress      = UNIHUB_AL10_LED_C1_SPEED_ADDRESS;
    channel1.ledDirectionAddress  = UNIHUB_AL10_LED_C1_DIRECTION_ADDRESS;
    channel1.ledBrightnessAddress = UNIHUB_AL10_LED_C1_BRIGHTNESS_ADDRESS;
    channel1.ledMode              = UNIHUB_AL10_LED_MODE_RAINBOW;
    channel1.ledSpeed             = UNIHUB_AL10_LED_SPEED_100;
    channel1.ledDirection         = UNIHUB_AL10_LED_DIRECTION_LTR;
    channel1.ledBrightness        = UNIHUB_AL10_LED_BRIGHTNESS_100;
    channel1.fanHubActionAddress  = UNIHUB_AL10_FAN_C1_HUB_ACTION_ADDRESS;
    channel1.fanHubCommitAddress  = UNIHUB_AL10_FAN_C1_HUB_COMMIT_ADDRESS;
    channel1.fanPwmActionAddress  = UNIHUB_AL10_FAN_C1_PWM_ACTION_ADDRESS;
    channel1.fanPwmCommitAddress  = UNIHUB_AL10_FAN_C1_PWM_COMMIT_ADDRESS;
    channel1.fanRpmActionAddress  = UNIHUB_AL10_FAN_C1_RPM_ACTION_ADDRESS;
    channel1.fanSpeed             = UNIHUB_AL10_FAN_SPEED_QUIET;
    channels[0] = channel1;

    Channel channel2;
    channel2.index                = 1;
    channel2.anyFanCountOffset    = UNIHUB_AL10_ANY_C2_FAN_COUNT_OFFSET;
    channel2.anyFanCount          = UNIHUB_AL10_ANY_FAN_COUNT_001;
    channel2.ledActionAddress     = UNIHUB_AL10_LED_C2_ACTION_ADDRESS;
    channel2.ledCommitAddress     = UNIHUB_AL10_LED_C2_COMMIT_ADDRESS;
    channel2.ledModeAddress       = UNIHUB_AL10_LED_C2_MODE_ADDRESS;
    channel2.ledSpeedAddress      = UNIHUB_AL10_LED_C2_SPEED_ADDRESS;
    channel2.ledDirectionAddress  = UNIHUB_AL10_LED_C2_DIRECTION_ADDRESS;
    channel2.ledBrightnessAddress = UNIHUB_AL10_LED_C2_BRIGHTNESS_ADDRESS;
    channel2.ledMode              = UNIHUB_AL10_LED_MODE_RAINBOW;
    channel2.ledSpeed             = UNIHUB_AL10_LED_SPEED_100;
    channel2.ledDirection         = UNIHUB_AL10_LED_DIRECTION_LTR;
    channel2.ledBrightness        = UNIHUB_AL10_LED_BRIGHTNESS_100;
    channel2.fanHubActionAddress  = UNIHUB_AL10_FAN_C2_HUB_ACTION_ADDRESS;
    channel2.fanHubCommitAddress  = UNIHUB_AL10_FAN_C2_HUB_COMMIT_ADDRESS;
    channel2.fanPwmActionAddress  = UNIHUB_AL10_FAN_C2_PWM_ACTION_ADDRESS;
    channel2.fanPwmCommitAddress  = UNIHUB_AL10_FAN_C2_PWM_COMMIT_ADDRESS;
    channel2.fanRpmActionAddress  = UNIHUB_AL10_FAN_C2_RPM_ACTION_ADDRESS;
    channel2.fanSpeed             = UNIHUB_AL10_FAN_SPEED_QUIET;
    channels[1] = channel2;

    Channel channel3;
    channel3.index                = 2;
    channel3.anyFanCountOffset    = UNIHUB_AL10_ANY_C3_FAN_COUNT_OFFSET;
    channel3.anyFanCount          = UNIHUB_AL10_ANY_FAN_COUNT_001;
    channel3.ledActionAddress     = UNIHUB_AL10_LED_C3_ACTION_ADDRESS;
    channel3.ledCommitAddress     = UNIHUB_AL10_LED_C3_COMMIT_ADDRESS;
    channel3.ledModeAddress       = UNIHUB_AL10_LED_C3_MODE_ADDRESS;
    channel3.ledSpeedAddress      = UNIHUB_AL10_LED_C3_SPEED_ADDRESS;
    channel3.ledDirectionAddress  = UNIHUB_AL10_LED_C3_DIRECTION_ADDRESS;
    channel3.ledBrightnessAddress = UNIHUB_AL10_LED_C3_BRIGHTNESS_ADDRESS;
    channel3.ledMode              = UNIHUB_AL10_LED_MODE_RAINBOW;
    channel3.ledSpeed             = UNIHUB_AL10_LED_SPEED_100;
    channel3.ledDirection         = UNIHUB_AL10_LED_DIRECTION_LTR;
    channel3.ledBrightness        = UNIHUB_AL10_LED_BRIGHTNESS_100;
    channel3.fanHubActionAddress  = UNIHUB_AL10_FAN_C3_HUB_ACTION_ADDRESS;
    channel3.fanHubCommitAddress  = UNIHUB_AL10_FAN_C3_HUB_COMMIT_ADDRESS;
    channel3.fanPwmActionAddress  = UNIHUB_AL10_FAN_C3_PWM_ACTION_ADDRESS;
    channel3.fanPwmCommitAddress  = UNIHUB_AL10_FAN_C3_PWM_COMMIT_ADDRESS;
    channel3.fanRpmActionAddress  = UNIHUB_AL10_FAN_C3_RPM_ACTION_ADDRESS;
    channel3.fanSpeed             = UNIHUB_AL10_FAN_SPEED_QUIET;
    channels[2] = channel3;

    Channel channel4;
    channel4.index                = 3;
    channel4.anyFanCountOffset    = UNIHUB_AL10_ANY_C4_FAN_COUNT_OFFSET;
    channel4.anyFanCount          = UNIHUB_AL10_ANY_FAN_COUNT_001;
    channel4.ledActionAddress     = UNIHUB_AL10_LED_C4_ACTION_ADDRESS;
    channel4.ledCommitAddress     = UNIHUB_AL10_LED_C4_COMMIT_ADDRESS;
    channel4.ledModeAddress       = UNIHUB_AL10_LED_C4_MODE_ADDRESS;
    channel4.ledSpeedAddress      = UNIHUB_AL10_LED_C4_SPEED_ADDRESS;
    channel4.ledDirectionAddress  = UNIHUB_AL10_LED_C4_DIRECTION_ADDRESS;
    channel4.ledBrightnessAddress = UNIHUB_AL10_LED_C4_BRIGHTNESS_ADDRESS;
    channel4.ledMode              = UNIHUB_AL10_LED_MODE_RAINBOW;
    channel4.ledSpeed             = UNIHUB_AL10_LED_SPEED_100;
    channel4.ledDirection         = UNIHUB_AL10_LED_DIRECTION_LTR;
    channel4.ledBrightness        = UNIHUB_AL10_LED_BRIGHTNESS_100;
    channel4.fanHubActionAddress  = UNIHUB_AL10_FAN_C4_HUB_ACTION_ADDRESS;
    channel4.fanHubCommitAddress  = UNIHUB_AL10_FAN_C4_HUB_COMMIT_ADDRESS;
    channel4.fanPwmActionAddress  = UNIHUB_AL10_FAN_C4_PWM_ACTION_ADDRESS;
    channel4.fanPwmCommitAddress  = UNIHUB_AL10_FAN_C4_PWM_COMMIT_ADDRESS;
    channel4.fanRpmActionAddress  = UNIHUB_AL10_FAN_C4_RPM_ACTION_ADDRESS;
    channel4.fanSpeed             = UNIHUB_AL10_FAN_SPEED_QUIET;
    channels[3] = channel4;
}

LianLiUniHub_AL10Controller::~LianLiUniHub_AL10Controller()
{
    CloseLibusb();
}

std::string LianLiUniHub_AL10Controller::GetVersion()
{
    return version;
}

std::string LianLiUniHub_AL10Controller::GetLocation()
{
    return location;
}

std::string LianLiUniHub_AL10Controller::GetSerial()
{
    return serial;
}

void LianLiUniHub_AL10Controller::SetAnyFanCount(size_t channel, uint8_t count)
{
    /*-------------------------------------*\
    | Check for invalid channel             |
    \*-------------------------------------*/
    if(channel >= UNIHUB_AL10_CHANNEL_COUNT)
    {
        return;
    }

    channels[channel].anyFanCount = count;
}

void LianLiUniHub_AL10Controller::SetLedColors(size_t channel, RGBColor* colors, size_t count)
{
    /*-------------------------------------*\
    | Check for invalid channel             |
    \*-------------------------------------*/
    if(channel >= UNIHUB_AL10_CHANNEL_COUNT)
    {
        return;
    }

    /*-------------------------------------*\
    | Check for invalid count               |
    \*-------------------------------------*/
    if(count > UNIHUB_AL10_CHANLED_COUNT)
    {
        count = UNIHUB_AL10_CHANLED_COUNT;
    }

    /*-------------------------------------*\
    | Check for mode colors                 |
    \*-------------------------------------*/
    size_t i = 0;
    switch(channels[channel].ledMode)
    {
        case UNIHUB_AL10_LED_MODE_RAINBOW:
            channels[channel].colors[0].r = 0xFC;
            channels[channel].colors[0].b = 0xFC;
            channels[channel].colors[0].g = 0xFC;
            i = 1;
            break;
        case UNIHUB_AL10_LED_MODE_BREATHING:
            for(unsigned int color_idx = 0; color_idx < count; color_idx++)
            {
                for(unsigned int led_idx = 0; led_idx < 20; led_idx++)
                {
                    channels[channel].colors[led_idx + (color_idx * 20)].r = RGBGetRValue(colors[color_idx]);
                    channels[channel].colors[led_idx + (color_idx * 20)].b = RGBGetBValue(colors[color_idx]);
                    channels[channel].colors[led_idx + (color_idx * 20)].g = RGBGetGValue(colors[color_idx]);
                    i++;
                }
            }
            break;
        case UNIHUB_AL10_LED_MODE_SCAN:
            for(; i < 20; i++)
            {
                channels[channel].colors[i].r = 0x00;
                channels[channel].colors[i].b = 0x00;
                channels[channel].colors[i].g = 0x00;
            }

            channels[channel].colors[0x00].r = RGBGetRValue(colors[0]);
            channels[channel].colors[0x00].b = RGBGetBValue(colors[0]);
            channels[channel].colors[0x00].g = RGBGetGValue(colors[0]);

            channels[channel].colors[0x08].r = RGBGetRValue(colors[1]);
            channels[channel].colors[0x08].b = RGBGetBValue(colors[1]);
            channels[channel].colors[0x08].g = RGBGetGValue(colors[1]);

            break;
        default:
            for(; i < count; i++)
            {
                channels[channel].colors[i].r = (RGBGetRValue(colors[i]));
                channels[channel].colors[i].b = (RGBGetBValue(colors[i]));
                channels[channel].colors[i].g = (RGBGetGValue(colors[i]));

                // Limiter to protect LEDs
                if(UNIHUB_AL10_LED_LIMITER && (channels[channel].colors[i].r > 153) && (channels[channel].colors[i].r == channels[channel].colors[i].b) && (channels[channel].colors[i].r == channels[channel].colors[i].g))
                {
                    channels[channel].colors[i].r = 153;
                    channels[channel].colors[i].b = 153;
                    channels[channel].colors[i].g = 153;
                }
            }
    }
    /* Set all remaining leds to black */
    for(; i < UNIHUB_AL10_CHANLED_COUNT; i++)
    {
        channels[channel].colors[i].r = 0x00;
        channels[channel].colors[i].b = 0x00;
        channels[channel].colors[i].g = 0x00;
    }



}

void LianLiUniHub_AL10Controller::SetLedMode(size_t channel, uint8_t mode)
{
    /*-------------------------------------*\
    | Check for invalid channel             |
    \*-------------------------------------*/
    if(channel >= UNIHUB_AL10_CHANNEL_COUNT)
    {
        return;
    }

    channels[channel].ledMode = mode;
}

void LianLiUniHub_AL10Controller::SetLedSpeed(size_t channel, uint8_t speed)
{
    /*-------------------------------------*\
    | Check for invalid channel             |
    \*-------------------------------------*/
    if(channel >= UNIHUB_AL10_CHANNEL_COUNT)
    {
        return;
    }

    channels[channel].ledSpeed = speed;
}

void LianLiUniHub_AL10Controller::SetLedDirection(size_t channel, uint8_t direction)
{
    /*-------------------------------------*\
    | Check for invalid channel             |
    \*-------------------------------------*/
    if(channel >= UNIHUB_AL10_CHANNEL_COUNT)
    {
        return;
    }

    channels[channel].ledDirection = direction;
}

void LianLiUniHub_AL10Controller::SetLedBrightness(size_t channel, uint8_t brightness)
{
    /*-------------------------------------*\
    | Check for invalid channel             |
    \*-------------------------------------*/
    if(channel >= UNIHUB_AL10_CHANNEL_COUNT)
    {
        return;
    }

    channels[channel].ledBrightness = brightness;
}

uint16_t LianLiUniHub_AL10Controller::GetFanSpeed(size_t channel)
{
    /*-------------------------------------*\
    | Check for invalid channel             |
    \*-------------------------------------*/
    if(channel >= UNIHUB_AL10_CHANNEL_COUNT)
    {
        return 0;
    }

    return channels[channel].fanSpeed;
}

void LianLiUniHub_AL10Controller::SetFanSpeed(size_t channel, uint16_t speed)
{
    /*-------------------------------------*\
    | Check for invalid channel             |
    \*-------------------------------------*/
    if(channel >= UNIHUB_AL10_CHANNEL_COUNT)
    {
        return;
    }

    channels[channel].fanSpeed = speed;
}

void LianLiUniHub_AL10Controller::EnableRgbhMode()
{
    rgbhModeEnabled = true;
}

void LianLiUniHub_AL10Controller::DisableRgbhMode()
{
    rgbhModeEnabled = false;
}

void LianLiUniHub_AL10Controller::EnableSyncMode()
{
    syncModeEnabled = true;
}

void LianLiUniHub_AL10Controller::DisableSyncMode()
{
    syncModeEnabled = false;
}

/*----------------------------------------------------------------------------*\
| The Uni Hub is a PWM and LED controller designed specifically for the Lian   |
| Li Uni Fans. It can control them by itself using the built-in effect engine  |
| can also be connected to the mainboard via 4-pin PWM and 3-pin RGB cables    |
| and forward these signals. The protocol implementation below was build as    |
| close a possible to the Lian Li L-Connect software.                          |
|                                                                              |
| The commands to control the fan speeds and to switch between controller and  |
| mainboard control is already included, but currently deactivated as OpenRGB  |
| had no fan control module or controller specific configuration at the time   |
| of writing.                                                                  |
\*----------------------------------------------------------------------------*/
void LianLiUniHub_AL10Controller::Synchronize()
{
    /*---------------------------------------------------------------------*\
    | Configure common settings.                                            |
    \*---------------------------------------------------------------------*/

    /*---------------------------------------------------------------------*\
    | Still unsure about this. Probably some sort of configuration          |
    | initialization                                                        |
    \*---------------------------------------------------------------------*/
    uint8_t config_initialization[16];

    /*-----------------------------------------------------*\
    | Zero out buffer                                       |
    \*-----------------------------------------------------*/
    memset(config_initialization, 0x00, sizeof(config_initialization));

    config_initialization[0x0F]     = 0x43;                 // Control data
    config_initialization[0x0F]     = 0x01;                 // Ending data

    SendConfig(UNIHUB_AL10_ACTION_ADDRESS, config_initialization, sizeof(config_initialization));

    for(const Channel& channel : channels)
    {
        /*-------------------------------------*\
        | The Uni Hub doesn't know zero fans    |
        \*-------------------------------------*/
        uint8_t anyFanCount = channel.anyFanCount;

        if(anyFanCount == UNIHUB_AL10_ANY_FAN_COUNT_000)
        {
            anyFanCount =  UNIHUB_AL10_ANY_FAN_COUNT_001;
        }

        /*-------------------------------------*\
        | Configure the physical fan count      |
        \*-------------------------------------*/
        uint8_t config_fan_count[16];

        /*-----------------------------------------------------*\
        | Zero out buffer                                       |
        \*-----------------------------------------------------*/
        memset(config_fan_count, 0x00, sizeof(config_fan_count));

        config_fan_count[0x01]      = 0x40;                 // Control data
        config_fan_count[0x02]      = channel.index + 1;    // Channel
        config_fan_count[0x03]      = anyFanCount + 1;      // Number of fans
        config_fan_count[0x0F]      = 0x01;                 // Ending data

        SendConfig(UNIHUB_AL10_ACTION_ADDRESS, config_fan_count, sizeof(config_fan_count));
        //SendCommit(UNIHUB_AL10_COMMIT_ADDRESS);
    }

    /*--------------------------------------------------------------------*\
    | Configure channels for sync effects                                  |
    \*--------------------------------------------------------------------*/

    /*
    if(syncModeEnabled)
    {
        uint8_t config_sync[6];
        uint8_t config_sync_index = 0;

        config_sync[config_sync_index++] = 0x33;

        for(const Channel& channel : channels)
        {
            if(channel.anyFanCount != UNIHUB_AL10_ANY_FAN_COUNT_000)
            {
                config_sync[config_sync_index++] = channel.index;
            }
        }

        config_sync[config_sync_index++] = 0x08;

        SendConfig(UNIHUB_AL10_ACTION_ADDRESS, config_sync, config_sync_index);
        SendCommit(UNIHUB_AL10_COMMIT_ADDRESS);
    }

    */

    /*--------------------------------------------------------------------*\
    | Configure led settings.                                              |
    \*--------------------------------------------------------------------*/
    for(const Channel& channel : channels)
    {
        if(channel.anyFanCount != UNIHUB_AL10_ANY_FAN_COUNT_000)
        {
            for(unsigned int fan_idx = 0; fan_idx <= UNIHUB_AL10_ANY_FAN_COUNT_004; fan_idx++)
            {
                /*-----------------------------*\
                | Configure fan colors          |
                \*-----------------------------*/
                uint8_t fan_config_colors[24];
                memcpy(fan_config_colors, channel.colors + (fan_idx * 20), sizeof(fan_config_colors));

                SendConfig(channel.ledActionAddress + (60 * fan_idx), fan_config_colors, sizeof(fan_config_colors));
            }

            /*-----------------------------*\
            | Configure led mode            |
            \*-----------------------------*/
            uint8_t led_config[16];

            /*-----------------------------------------------------*\
            | Zero out buffer                                       |
            \*-----------------------------------------------------*/
            memset(led_config, 0x00, sizeof(led_config));

            led_config[0x01]      = channel.ledMode;       // Effect
            led_config[0x02]      = channel.ledSpeed;      // Speed
            led_config[0x03]      = channel.ledDirection;  // Direction
            led_config[0x09]      = channel.ledBrightness; // Brightness?
            led_config[0x0F]      = 0x01;                  // Ending data

            SendConfig(UNIHUB_AL10_ACTION_ADDRESS + (channel.index * 32 ), led_config, sizeof(led_config));

            for(unsigned int fan_idx = 0; fan_idx <= UNIHUB_AL10_ANY_FAN_COUNT_004; fan_idx++)
            {
                /*-----------------------------*\
                | Configure rim colors          |
                \*-----------------------------*/
                uint8_t rim_config_colors[36];
                memcpy(rim_config_colors, channel.colors + (fan_idx * 20) + 8, sizeof(rim_config_colors));

                SendConfig(channel.ledActionAddress + 24 + (60 * fan_idx), rim_config_colors, sizeof(rim_config_colors));
            }

            SendConfig(UNIHUB_AL10_ACTION_ADDRESS + 16 + (channel.index * 32 ), led_config, sizeof(led_config));
        }
        /*-----------------------------------------------------------------*\
        | The Uni Hub doesn't know zero fans so we set them to black        |
        \*-----------------------------------------------------------------*/
        else
        {
            for(unsigned int fan_idx = 0; fan_idx <= UNIHUB_AL10_ANY_FAN_COUNT_004; fan_idx++)
            {
                /*-----------------------------*\
                | Configure fan colors          |
                \*-----------------------------*/
                uint8_t fan_config_colors[24];
                memset(fan_config_colors, 0x00, sizeof(fan_config_colors));

                SendConfig(channel.ledActionAddress + (60 * fan_idx), fan_config_colors, sizeof(fan_config_colors));
            }

            /*-----------------------------*\
            | Configure led mode            |
            \*-----------------------------*/
            uint8_t led_config[16];

            /*-----------------------------------------------------*\
            | Zero out buffer                                       |
            \*-----------------------------------------------------*/
            memset(led_config, 0x00, sizeof(led_config));

            led_config[0x01]      = UNIHUB_AL10_LED_MODE_STATIC_COLOR;       // Effect
            led_config[0x02]      = channel.ledSpeed;      // Speed?
            led_config[0x03]      = channel.ledDirection;  // direction
            led_config[0x0F]      = 0x01;                  // Ending data

            SendConfig(UNIHUB_AL10_ACTION_ADDRESS + (channel.index * 32 ), led_config, sizeof(led_config));

            for(unsigned int fan_idx = 0; fan_idx <= UNIHUB_AL10_ANY_FAN_COUNT_004; fan_idx++)
            {
                /*-----------------------------*\
                | Configure rim colors          |
                \*-----------------------------*/
                uint8_t rim_config_colors[36];
                memset(rim_config_colors, 0x00, sizeof(rim_config_colors));

                SendConfig(channel.ledActionAddress + 24 + (60 * fan_idx), rim_config_colors, sizeof(rim_config_colors));
            }

            SendConfig(UNIHUB_AL10_ACTION_ADDRESS + 16 + (channel.index * 32 ), led_config, sizeof(led_config));
        }
    }

    /*--------------------------------------------------------------------*\
    | Configure fan settings. Comment out until enabling fan control       |
    \*--------------------------------------------------------------------*/
//    uint8_t control = 0;

    /*-------------------------------------*\
    | Configure fan settings                |
    \*-------------------------------------*/
//    for(const Channel& channel : channels)
//    {
//        if(channel.fanSpeed == UNIHUB_AL10_FAN_SPEED_PWM)
//        {
            /*-----------------------------*\
            | Configure the fan to pwm      |
            | control                       |
            \*-----------------------------*/
//            uint8_t config_pwm[1] = { 0x00 };

//            control |= (0x01 << channel.index);

//            SendConfig(channel.fanPwmActionAddress, config_pwm, sizeof(config_pwm));
//            SendCommit(channel.fanPwmCommitAddress);
//        }
//        else
//        {
            /*-----------------------------*\
            | Configure the fan to hub      |
            | control and set speed         |
            \*-----------------------------*/
//            uint8_t config_hub[2] = { (uint8_t)(channel.fanSpeed >> 0x08), (uint8_t)(channel.fanSpeed &  0xFF) };

//            SendConfig(channel.fanHubActionAddress, config_hub, sizeof(config_hub));
//            SendCommit(channel.fanHubCommitAddress);
//        }
//    }

    /*-------------------------------------*\
    | Configure fan control modes           |
    \*-------------------------------------*/
//    uint8_t config_fan_mode[2] = { 0x31, (uint8_t)(0xF0 | control) };

//    SendConfig(UNIHUB_AL10_ACTION_ADDRESS, config_fan_mode, sizeof(config_fan_mode));
//    SendCommit(UNIHUB_AL10_COMMIT_ADDRESS);

    /*--------------------------------------------------------------------*\
    | Configure led settings.                                              |
    \*--------------------------------------------------------------------*/
//    if(rgbhModeEnabled)
//    {
        /*-------------------------------------*\
        | Configure the leds to hdr control.    |
        \*-------------------------------------*/
//        uint8_t config_hdr[2] = { 0x30, 0x01 };

//        SendConfig(UNIHUB_AL10_ACTION_ADDRESS, config_hdr, sizeof(config_hdr));
//        SendCommit(UNIHUB_AL10_COMMIT_ADDRESS);
//    }
//    else
//    {
        /*-------------------------------------*\
        | Configure the leds to hub control     |
        \*-------------------------------------*/
//        uint8_t config_hub[2] = { 0x30, 0x00 };

//        SendConfig(UNIHUB_AL10_ACTION_ADDRESS, config_hub, sizeof(config_hub));
//        SendCommit(UNIHUB_AL10_COMMIT_ADDRESS);
//    }
}

uint16_t LianLiUniHub_AL10Controller::ReadFanSpeed(size_t channel)
{
    /*-------------------------------------*\
    | Check for invalid handle              |
    \*-------------------------------------*/
    if(handle == nullptr)
    {
        return(0);
    }

    /*-------------------------------------*\
    | Check for invalid channel             |
    \*-------------------------------------*/
    if(channel > UNIHUB_AL10_CHANNEL_COUNT)
    {
        return(0);
    }

    uint8_t buffer[2];
    uint8_t length = sizeof(buffer);

    uint16_t wIndex = channels[channel].fanRpmActionAddress;

    /*-------------------------------------*\
    | Send packet                           |
    \*-------------------------------------*/
    size_t ret = libusb_control_transfer(handle,    /* dev_handle       */
                                         0xC0,      /* bmRequestType    */
                                         0x81,      /* bRequest         */
                                         0x00,      /* wValue           */
                                         wIndex,    /* wIndex           */
                                         buffer,    /* data             */
                                         length,    /* wLength          */
                                         1000);     /* timeout          */

    /*-------------------------------------*\
    | Check for communication error         |
    \*-------------------------------------*/
    if(ret != length)
    {
        return(0);
    }

    return(*(uint16_t*)buffer);
}

void LianLiUniHub_AL10Controller::CloseLibusb()
{
    if (handle != nullptr)
    {
        libusb_close(handle);
        handle = nullptr;
    }
}

std::string LianLiUniHub_AL10Controller::ReadVersion()
{
    /*-------------------------------------*\
    | Check for invalid handle              |
    \*-------------------------------------*/
    if(handle == nullptr)
    {
        return("");
    }

    uint8_t buffer[5];
    uint8_t length = sizeof(buffer);

    /*-------------------------------------*\
    | Send packet                           |
    \*-------------------------------------*/
    size_t ret = libusb_control_transfer(handle,    /* dev_handle       */
                                         0xC0,      /* bmRequestType    */
                                         0x81,      /* bRequest         */
                                         0x00,      /* wValue           */
                                         0xB500,    /* wIndex           */
                                         buffer,    /* data             */
                                         length,    /* wLength          */
                                         1000);     /* timeout          */

    /*-------------------------------------*\
    | Check for communication error         |
    \*-------------------------------------*/
    if(ret != length)
    {
        return("");
    }

    /*-------------------------------------*\
    | Format version string                 |
    \*-------------------------------------*/
    char version[15];
    int  vlength = std::snprintf(version, sizeof(version), "%x.%x.%x.%x.%x", buffer[0], buffer[1], buffer[2], buffer[3], buffer[4]);

    return(std::string(version, vlength));
}

void LianLiUniHub_AL10Controller::SendConfig(uint16_t wIndex, uint8_t  *config, size_t length)
{
    /*-------------------------------------*\
    | Check for invalid handle              |
    \*-------------------------------------*/
    if(handle == nullptr)
    {
        return;
    }

    /*-------------------------------------*\
    | Send packet                           |
    \*-------------------------------------*/
    size_t ret = libusb_control_transfer(handle,    /* dev_handle       */
                                         0x40,      /* bmRequestType    */
                                         0x80,      /* bRequest         */
                                         0x00,      /* wValue           */
                                         wIndex,    /* wIndex           */
                                         config,    /* data             */
                                         length,    /* wLength          */
                                         1000);     /* timeout          */
    std::this_thread::sleep_for(5ms);
    /*-------------------------------------*\
    | Check for communication error         |
    \*-------------------------------------*/
    if(ret != length)
    {
        return;
    }
}

void LianLiUniHub_AL10Controller::SendCommit(uint16_t wIndex)
{
    /*-------------------------------------*\
    | Set up config packet                  |
    \*-------------------------------------*/
    uint8_t config[1] = { 0x01 };

    /*-------------------------------------*\
    | Send packet                           |
    \*-------------------------------------*/
    SendConfig(wIndex, config, sizeof(config));

    std::this_thread::sleep_for(5ms);
}