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xpg_ssd_linux_devel
OpenRGB/Controllers/XPGSpectrixS40GControllerWindows/XPGSpectrixS40GController.cpp
Adam Honse e700dbd003 Should build for both Windows and Linux now
2021-11-16 22:21:49 -06:00

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/*-------------------------------------------------------------------*\
| XPGSpectrixS40GController.cpp |
| |
| Driver for XPG's Spectrix S40G NVMe |
| |
| NicolasNewman 25th Mar 2021 |
| |
\*-------------------------------------------------------------------*/
#include "XPGSpectrixS40GController.h"
#include <malloc.h>
#include <cstring>
#include "LogManager.h"
#include <windows.h>
#include <fileapi.h>
#include <winioctl.h>
#include <nvme.h>
int XPGSpectrixS40GController::SetHandle(wchar_t buff[MAX_PATH])
{
wchar_t path[MAX_PATH];
wcscpy(path, L"\\\\?\\");
wcsncat(path, buff, MAX_PATH - 4);
for(size_t i = 0; i < MAX_PATH && path[i] != '\0'; i++)
{
path[i] = tolower(path[i]);
}
wprintf(L"%s\n", path);
hDevice = CreateFileW(path, GENERIC_READ | GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE, (LPSECURITY_ATTRIBUTES)0x0, OPEN_EXISTING, 0x0, (HANDLE)0x0);
if(hDevice == INVALID_HANDLE_VALUE)
{
return 0;
}
return 1;
}
/*-----------------------------------------*\
| AsusAuraSMBusController.cpp |
| |
| Driver for ASUS Aura RGB lighting |
| controller |
| |
| Adam Honse (CalcProgrammer1) 8/19/2018 |
\*-----------------------------------------*/
#include <cstring>
static const char* aura_channels[] = /* Aura channel strings */
{
"Audio",
"Backplate",
"Back I/O",
"Center",
"Center",
"DRAM",
"PCIe",
"RGB Header",
"RGB Header 2",
"RGB Header",
"Unknown",
};
XPGSpectrixS40GController::XPGSpectrixS40GController(aura_dev_id dev)
{
this->dev = dev;
direct_reg = AURA_REG_COLORS_DIRECT_V2;
effect_reg = AURA_REG_COLORS_EFFECT_V2;
channel_cfg = AURA_CONFIG_CHANNEL_V2;
led_count = 8;
}
XPGSpectrixS40GController::~XPGSpectrixS40GController()
{
}
std::string XPGSpectrixS40GController::GetDeviceName()
{
return("SSD");
}
std::string XPGSpectrixS40GController::GetDeviceLocation()
{
return("I2C: SSD");
}
unsigned char XPGSpectrixS40GController::GetChannel(unsigned int led)
{
return(0);
}
const char * XPGSpectrixS40GController::GetChannelName(unsigned int led)
{
switch (config_table[channel_cfg + led])
{
case (unsigned char)AURA_LED_CHANNEL_AUDIO:
return(aura_channels[0]);
break;
case (unsigned char)AURA_LED_CHANNEL_BACKPLATE:
return(aura_channels[1]);
break;
case (unsigned char)AURA_LED_CHANNEL_BACK_IO:
return(aura_channels[2]);
break;
case (unsigned char)AURA_LED_CHANNEL_CENTER:
return(aura_channels[3]);
break;
case (unsigned char)AURA_LED_CHANNEL_CENTER_START:
return(aura_channels[4]);
break;
case (unsigned char)AURA_LED_CHANNEL_DRAM:
return(aura_channels[5]);
break;
case (unsigned char)AURA_LED_CHANNEL_PCIE:
return(aura_channels[6]);
break;
case (unsigned char)AURA_LED_CHANNEL_RGB_HEADER:
return(aura_channels[7]);
break;
case (unsigned char)AURA_LED_CHANNEL_RGB_HEADER_2:
return(aura_channels[8]);
break;
case (unsigned char)AURA_LED_CHANNEL_RGB_HEADER_3:
return(aura_channels[9]);
break;
default:
return(aura_channels[10]);
break;
}
}
unsigned int XPGSpectrixS40GController::GetLEDCount()
{
return(led_count);
}
unsigned char XPGSpectrixS40GController::GetLEDRed(unsigned int led)
{
return(AuraRegisterRead(direct_reg + ( 3 * led )));
}
unsigned char XPGSpectrixS40GController::GetLEDGreen(unsigned int led)
{
return(AuraRegisterRead(direct_reg + ( 3 * led ) + 2));
}
unsigned char XPGSpectrixS40GController::GetLEDBlue(unsigned int led)
{
return(AuraRegisterRead(direct_reg + ( 3 * led ) + 1));
}
void XPGSpectrixS40GController::SaveMode()
{
AuraRegisterWrite(AURA_REG_APPLY, AURA_SAVE_VAL);
}
void XPGSpectrixS40GController::SetAllColorsDirect(RGBColor* colors)
{
unsigned char* color_buf = new unsigned char[led_count * 3];
for (unsigned int i = 0; i < (led_count * 3); i += 3)
{
color_buf[i + 0] = RGBGetRValue(colors[i / 3]);
color_buf[i + 1] = RGBGetBValue(colors[i / 3]);
color_buf[i + 2] = RGBGetGValue(colors[i / 3]);
}
AuraRegisterWriteBlock(direct_reg, color_buf, led_count * 3);
delete color_buf;
}
void XPGSpectrixS40GController::SetAllColorsEffect(RGBColor* colors)
{
unsigned char* color_buf = new unsigned char[led_count * 3];
for (unsigned int i = 0; i < (led_count * 3); i += 3)
{
color_buf[i + 0] = RGBGetRValue(colors[i / 3]);
color_buf[i + 1] = RGBGetBValue(colors[i / 3]);
color_buf[i + 2] = RGBGetGValue(colors[i / 3]);
}
AuraRegisterWriteBlock(effect_reg, color_buf, led_count * 3);
AuraRegisterWrite(AURA_REG_APPLY, AURA_APPLY_VAL);
delete[] color_buf;
}
void XPGSpectrixS40GController::SetDirect(unsigned char direct)
{
AuraRegisterWrite(AURA_REG_DIRECT, direct);
AuraRegisterWrite(AURA_REG_APPLY, AURA_APPLY_VAL);
}
void XPGSpectrixS40GController::SetLEDColorDirect(unsigned int led, unsigned char red, unsigned char green, unsigned char blue)
{
unsigned char colors[3] = { red, blue, green };
AuraRegisterWriteBlock(direct_reg + ( 3 * led ), colors, 3);
}
void XPGSpectrixS40GController::SetLEDColorEffect(unsigned int led, unsigned char red, unsigned char green, unsigned char blue)
{
unsigned char colors[3] = { red, blue, green };
AuraRegisterWriteBlock(effect_reg + (3 * led), colors, 3);
AuraRegisterWrite(AURA_REG_APPLY, AURA_APPLY_VAL);
}
void XPGSpectrixS40GController::SetMode(unsigned char mode, unsigned char speed, unsigned char direction)
{
AuraRegisterWrite(AURA_REG_MODE, mode);
AuraRegisterWrite(AURA_REG_SPEED, speed);
AuraRegisterWrite(AURA_REG_DIRECTION, direction);
AuraRegisterWrite(AURA_REG_APPLY, AURA_APPLY_VAL);
}
void XPGSpectrixS40GController::AuraUpdateDeviceName()
{
for (int i = 0; i < 16; i++)
{
device_name[i] = AuraRegisterRead(AURA_REG_DEVICE_NAME + i);
}
}
unsigned char XPGSpectrixS40GController::AuraRegisterRead(aura_register reg)
{
return(0);
}
void XPGSpectrixS40GController::AuraRegisterWrite(aura_register reg, unsigned char val)
{
if(hDevice != INVALID_HANDLE_VALUE)
{
/*-----------------------------------------------------------------------------*\
| Create buffer to hold STORAGE_PROTOCOL_COMMAND |
| Size must be enough for the STORAGE_PROTOCOL_COMMAND struct plus the command |
| data. Subtract sizeof(DWORD) as the Command field in the structure overlaps |
| the actual command data. |
\*-----------------------------------------------------------------------------*/
unsigned char buffer[sizeof(STORAGE_PROTOCOL_COMMAND) + (sizeof(DWORD) * 34) - sizeof(DWORD)];
/*-----------------------------------------------------------------------------*\
| Create STORAGE_PROTOCOL_COMMAND pointer and point it to the buffer |
\*-----------------------------------------------------------------------------*/
PSTORAGE_PROTOCOL_COMMAND command = (PSTORAGE_PROTOCOL_COMMAND)buffer;
/*-----------------------------------------------------------------------------*\
| Fill in STORAGE_PROTOCOL_COMMAND structure |
\*-----------------------------------------------------------------------------*/
command->Version = STORAGE_PROTOCOL_STRUCTURE_VERSION;
command->Length = sizeof(STORAGE_PROTOCOL_COMMAND);
command->ProtocolType = ProtocolTypeNvme;
command->Flags = STORAGE_PROTOCOL_COMMAND_FLAG_ADAPTER_REQUEST;
command->ReturnStatus = 0x00000000;
command->ErrorCode = 0x00000000;
command->CommandLength = STORAGE_PROTOCOL_COMMAND_LENGTH_NVME;
command->ErrorInfoLength = 0x00000040;
command->DataToDeviceTransferLength = 0x00000001;
command->DataFromDeviceTransferLength = 0x00000000;
command->TimeOutValue = 0x00000001;
command->ErrorInfoOffset = 0x00000090;
command->DataToDeviceBufferOffset = 0x000000D0;
command->DataFromDeviceBufferOffset = 0x00000000;
command->CommandSpecific = STORAGE_PROTOCOL_SPECIFIC_NVME_ADMIN_COMMAND;
command->Reserved0 = 0x00000000;
command->FixedProtocolReturnData = 0x00000000;
command->Reserved1[0] = 0x00000000;
command->Reserved1[1] = 0x00000000;
command->Reserved1[2] = 0x00000000;
/*-----------------------------------------------------------------------------*\
| Create ENE Register Write command, filling in the appropriate register and |
| value |
\*-----------------------------------------------------------------------------*/
PNVME_COMMAND CommandValue = (PNVME_COMMAND)command->Command;
unsigned short corrected_reg = ((reg << 8) & 0xFF00) | ((reg >> 8) & 0x00FF);
CommandValue->CDW0.OPC = 0xFB;
CommandValue->NSID = 0x00000031;
CommandValue->u.GENERAL.CDW12 = (corrected_reg << 16) | (dev << 1);
CommandValue->u.GENERAL.CDW13 = 0x01100001;
DWORD ExtraValue[18] = { 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000,
0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000 };
ExtraValue[16] = val;
/*-----------------------------------------------------------------------------*\
| Copy the ENE Register Write extra data into the STORAGE_PROTOCOL_COMMAND |
| buffer |
\*-----------------------------------------------------------------------------*/
memcpy(&command->Command + sizeof(NVME_COMMAND), ExtraValue, sizeof(ExtraValue));
/*-----------------------------------------------------------------------------*\
| Send the STORAGE_PROTOCOL_COMMAND to the device |
\*-----------------------------------------------------------------------------*/
DeviceIoControl(hDevice, IOCTL_STORAGE_PROTOCOL_COMMAND, buffer, sizeof(buffer), buffer, sizeof(buffer), 0x0, (LPOVERLAPPED)0x0);
}
}
void XPGSpectrixS40GController::AuraRegisterWriteBlock(aura_register reg, unsigned char * data, unsigned char sz)
{
if(hDevice != INVALID_HANDLE_VALUE)
{
/*-----------------------------------------------------------------------------*\
| Create buffer to hold STORAGE_PROTOCOL_COMMAND |
| Size must be enough for the STORAGE_PROTOCOL_COMMAND struct plus the command |
| data. Subtract sizeof(DWORD) as the Command field in the structure overlaps |
| the actual command data. |
\*-----------------------------------------------------------------------------*/
unsigned char buffer[sizeof(STORAGE_PROTOCOL_COMMAND) + (sizeof(DWORD) * 39) - sizeof(DWORD)];
/*-----------------------------------------------------------------------------*\
| Create STORAGE_PROTOCOL_COMMAND pointer and point it to the buffer |
\*-----------------------------------------------------------------------------*/
PSTORAGE_PROTOCOL_COMMAND command = (PSTORAGE_PROTOCOL_COMMAND)buffer;
/*-----------------------------------------------------------------------------*\
| Fill in STORAGE_PROTOCOL_COMMAND structure |
\*-----------------------------------------------------------------------------*/
command->Version = STORAGE_PROTOCOL_STRUCTURE_VERSION;
command->Length = sizeof(STORAGE_PROTOCOL_COMMAND);
command->ProtocolType = ProtocolTypeNvme;
command->Flags = STORAGE_PROTOCOL_COMMAND_FLAG_ADAPTER_REQUEST;
command->ReturnStatus = 0x00000000;
command->ErrorCode = 0x00000000;
command->CommandLength = STORAGE_PROTOCOL_COMMAND_LENGTH_NVME;
command->ErrorInfoLength = 0x00000040;
command->DataToDeviceTransferLength = sz;
command->DataFromDeviceTransferLength = 0x00000000;
command->TimeOutValue = 0x00000001;
command->ErrorInfoOffset = 0x00000090;
command->DataToDeviceBufferOffset = 0x000000D0;
command->DataFromDeviceBufferOffset = 0x00000000;
command->CommandSpecific = STORAGE_PROTOCOL_SPECIFIC_NVME_ADMIN_COMMAND;
command->Reserved0 = 0x00000000;
command->FixedProtocolReturnData = 0x00000000;
command->Reserved1[0] = 0x00000000;
command->Reserved1[1] = 0x00000000;
command->Reserved1[2] = 0x00000000;
/*-----------------------------------------------------------------------------*\
| Create ENE Register Write Block command, filling in the appropriate register |
| and value |
\*-----------------------------------------------------------------------------*/
PNVME_COMMAND CommandValue = (PNVME_COMMAND)command->Command;
unsigned short corrected_reg = ((reg << 8) & 0xFF00) | ((reg >> 8) & 0x00FF);
CommandValue->CDW0.OPC = 0xFB;
CommandValue->NSID = 0x00000031;
CommandValue->u.GENERAL.CDW12 = (corrected_reg << 16) | (dev << 1);
CommandValue->u.GENERAL.CDW13 = 0x03100000 | sz;
DWORD ExtraValue[23] = { 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000,
0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000,
0x00000000, 0x00000000, 0x00000000 };
memcpy(&ExtraValue[16], data, sz);
/*-----------------------------------------------------------------------------*\
| Copy the ENE Register Write Block extra data into the |
| STORAGE_PROTOCOL_COMMAND buffer |
\*-----------------------------------------------------------------------------*/
memcpy(&command->Command + sizeof(NVME_COMMAND), ExtraValue, sizeof(ExtraValue));
/*-----------------------------------------------------------------------------*\
| Send the STORAGE_PROTOCOL_COMMAND to the device |
\*-----------------------------------------------------------------------------*/
DeviceIoControl(hDevice, IOCTL_STORAGE_PROTOCOL_COMMAND, buffer, sizeof(buffer), buffer, sizeof(buffer), 0x0, (LPOVERLAPPED)0x0);
}
}
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