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aura_ene_gpu_test
OpenRGB/Controllers/SinowealthController/SinowealthController.cpp
mike 22acdd1fed Check return code from hid_get_serial_number_string() in GetSerialString() 
Amended for code style by Adam Honse <calcprogrammer1@gmail.com>
2021-06-04 22:14:05 -05:00

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/*-----------------------------------------*\
| SinowealthController.cpp |
| |
| Definitions and types for Sinowealth |
| mice, including Glorious |
| |
| Niels Westphal (crashniels) 20/5/2020 |
\*-----------------------------------------*/
#include "SinowealthController.h"
#include <cstring>
SinowealthController::SinowealthController(hid_device* dev_handle_id_4, hid_device* dev_handle_id_5, char *_path)
{
dev_report_id_4 = dev_handle_id_4;
dev_report_id_5 = dev_handle_id_5;
led_count = 1;
current_mode = GLORIOUS_MODE_STATIC;
current_speed = GLORIOUS_SPEED_NORMAL;
current_direction = GLORIOUS_DIRECTION_UP;
location = _path;
}
SinowealthController::~SinowealthController()
{
hid_close(dev_report_id_4);
hid_close(dev_report_id_5);
}
std::string SinowealthController::GetLocation()
{
return("HID: " + location);
}
unsigned int SinowealthController::GetLEDCount()
{
return(led_count);
}
std::string SinowealthController::GetSerialString()
{
wchar_t serial_string[128];
int ret = hid_get_serial_number_string(dev_report_id_4, serial_string, 128);
if(ret != 0)
{
return("");
}
std::wstring return_wstring = serial_string;
std::string return_string(return_wstring.begin(), return_wstring.end());
return(return_string);
}
void SinowealthController::SetLEDColor
(
RGBColor* color_buf
)
{
GetProfile();
unsigned char usb_buf[520];
memset(usb_buf, 0x00, sizeof(usb_buf));
for (int i = 0x00; i < 0x83; i++)
{
usb_buf[i] = device_configuration[i];
}
usb_buf[0x03] = 0x7B; //write to device
usb_buf[0x06] = 0x00;
usb_buf[0x82] = device_configuration[0x82];
usb_buf[0x35] = GLORIOUS_MODE_STATIC;
usb_buf[0x38] = 0x40; //max brightness
usb_buf[0x39] = RGBGetRValue(color_buf[0]);
usb_buf[0x3A] = RGBGetBValue(color_buf[0]);
usb_buf[0x3B] = RGBGetGValue(color_buf[0]);
hid_send_feature_report(dev_report_id_4, usb_buf, sizeof(usb_buf));
}
void SinowealthController::SetMode
(
unsigned char mode,
unsigned char speed,
unsigned char direction,
RGBColor* color_buf
)
{
GetProfile();
unsigned char usb_buf[520];
memset(usb_buf, 0x00, sizeof(usb_buf));
for (int i = 0x00; i < 0x83; i++)
{
usb_buf[i] = device_configuration[i];
}
usb_buf[0x03] = 0x7B; //write to device
usb_buf[0x06] = 0x00;
usb_buf[0x82] = device_configuration[0x82];
usb_buf[0x35] = mode;
switch (mode)
{
case GLORIOUS_MODE_OFF:
usb_buf[0x81] = 0x00; //mode 0 either 0x00 or 0x03
break;
case GLORIOUS_MODE_RAINBOW:
usb_buf[0x36] = speed;
usb_buf[0x37] = direction;
break;
case GLORIOUS_MODE_SPECTRUM_BREATING:
//colours not yet researched
usb_buf[0x3C] = speed; //speed for mode 3
usb_buf[0x3D] = 0x07; //maybe some kind of bank change?+
//usb_buf[0x3D] = 0x06;
usb_buf[0x3E] = RGBGetRValue(color_buf[0]); //mode 3 red 1
usb_buf[0x3F] = RGBGetBValue(color_buf[0]); //mode 3 blue 1
usb_buf[0x40] = RGBGetGValue(color_buf[0]); //mode 3 green 1
usb_buf[0x41] = RGBGetRValue(color_buf[1]); //mode 3 red 2
usb_buf[0x42] = RGBGetBValue(color_buf[1]); //mode 3 blue 2
usb_buf[0x43] = RGBGetGValue(color_buf[1]); //mode 3 green 2
usb_buf[0x44] = RGBGetRValue(color_buf[2]); //mode 3 red 3
usb_buf[0x45] = RGBGetBValue(color_buf[2]); //mode 3 blue 3
usb_buf[0x46] = RGBGetGValue(color_buf[2]); //mode 3 green 3
usb_buf[0x47] = RGBGetRValue(color_buf[3]); //mode 3 red 4
usb_buf[0x48] = RGBGetBValue(color_buf[3]); //mode 3 blue 4
usb_buf[0x49] = RGBGetGValue(color_buf[3]); //mode 3 green 4
usb_buf[0x4A] = RGBGetRValue(color_buf[4]); //mode 3 red 5
usb_buf[0x4B] = RGBGetBValue(color_buf[4]); //mode 3 blue 5
usb_buf[0x4C] = RGBGetGValue(color_buf[4]); //mode 3 green 5
usb_buf[0x4D] = RGBGetRValue(color_buf[5]); //mode 3 red 6
usb_buf[0x4E] = RGBGetBValue(color_buf[5]); //mode 3 blue 6
usb_buf[0x4F] = RGBGetGValue(color_buf[5]); //mode 3 green 6
usb_buf[0x50] = RGBGetRValue(color_buf[6]); //mode 3 red 7
usb_buf[0x51] = RGBGetBValue(color_buf[6]); //mode 3 blue 7
usb_buf[0x52] = RGBGetGValue(color_buf[6]); //mode 3 green 7
break;
case GLORIOUS_MODE_TAIL:
usb_buf[0x53] = speed; //Speed for mode 4
break;
case GLORIOUS_MODE_SPECTRUM_CYCLE:
usb_buf[0x54] = speed; //Speed for mode 1,2,5
break;
case GLORIOUS_MODE_RAVE:
usb_buf[0x74] = speed; //Speed for mode 7
usb_buf[0x75] = RGBGetRValue(color_buf[0]); //mode 7 red 1
usb_buf[0x76] = RGBGetBValue(color_buf[0]); //mode 7 blue 1
usb_buf[0x77] = RGBGetGValue(color_buf[0]); //mode 7 green 1
usb_buf[0x78] = RGBGetRValue(color_buf[1]); //mode 7 red 2
usb_buf[0x79] = RGBGetBValue(color_buf[1]); //mode 7 blue 2
usb_buf[0x7A] = RGBGetGValue(color_buf[1]); //mode 7 green 2
break;
case GLORIOUS_MODE_WAVE:
usb_buf[0x7C] = speed; //Speed for mode 9
break;
case GLORIOUS_MODE_BREATHING:
usb_buf[0x7D] = speed;
usb_buf[0x7E] = RGBGetRValue(color_buf[0]); //mode 0a red
usb_buf[0x7F] = RGBGetBValue(color_buf[0]); //mode 0a blue
usb_buf[0x80] = RGBGetGValue(color_buf[0]); //mode 0a green
default:
break;
}
hid_send_feature_report(dev_report_id_4, usb_buf, sizeof(usb_buf));
}
void SinowealthController::GetProfile()
{
int actual;
unsigned char usb_buf[6];
usb_buf[0] = 0x05;
usb_buf[1] = 0x11;
actual = hid_send_feature_report(dev_report_id_5, usb_buf, 6);
if (actual != 6)
{
printf("Error sending read request!");
}
else
{
memset(device_configuration, 0x00, sizeof(device_configuration));
//unsigned char device_configuration[520];
device_configuration[0] = 0x04;
device_configuration[1] = 0x11;
actual = hid_get_feature_report(dev_report_id_4, device_configuration, 520);
if (actual != 131)
{
printf("Error reading device configuration");
}
}
}
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