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TegraRcmGUI/kourou/kourou.cpp
eliboa 44c4a7fb0d driver install
settings tab
autoRCM tool
2020-06-27 17:51:01 +02:00

220 lines
5.6 KiB
C++

/*
* Copyright (c) 2020 eliboa
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "kourou.h"
#include <iostream>
#include <fstream>
using namespace std;
Kourou::Kourou()
{
}
bool Kourou::initDevice(KLST_DEVINFO_HANDLE deviceInfo)
{
m_rcm_ready = RcmDevice::initDevice(deviceInfo);
m_ariane_ready = false;
// If RCM device is not ready, check if Ariane is already loaded
if (!m_rcm_ready && getStatus() == CONNECTED)
{
m_ariane_ready = arianeIsReady_sync();
return m_ariane_ready;
}
return m_rcm_ready;
}
void Kourou::disconnect()
{
RcmDevice::disconnect();
m_rcm_ready = false;
m_ariane_ready = false;
}
int Kourou::sdmmc_writeFile(const char* in_path, const char* out_path, bool create_always)
{
char* fileMemBlock = nullptr;
ifstream file(in_path, ios::in | ios::binary | ios::ate);
UC_SDIO uc;
auto end = [&] (int rc) {
if(file.is_open()) file.close();
if (fileMemBlock != nullptr) delete[] fileMemBlock;
return rc;
};
if (strlen(out_path) > array_countof(uc.path)-1)
return PATH_TOO_LONG;
if (!file.is_open())
return OPEN_FILE_FAILED;
// Check file size
if (file.tellg() > MAX_FILE_SIZE) // 100MB max
return end(FILE_TOO_LARGE);
// Create command
memset(uc.path, 0, array_countof(uc.path));
uc.command = WRITE_SD_FILE;
strcpy_s(uc.path, array_countof(uc.path), out_path);
uc.file_size = file.tellg();
file.seekg(0, ios::beg);
// Send command to device
int bytesSent = write((const u8*)&uc, sizeof(uc));
if (bytesSent != sizeof(uc))
return end(SEND_COMMAND_FAILED);
// Allocate memory for file
fileMemBlock = new char[uc.file_size];
file.read(fileMemBlock, uc.file_size);
return end(sendBinPackets(fileMemBlock, uc.file_size));
}
int Kourou::sendBinPackets(char* buffer, u32 len)
{
u32 curOffset = 0, bytesRemaining = len;
u8 buf[USB_BUFFER_LENGTH];
u32 dataBufSize = USB_BUFFER_LENGTH - 32;
while(bytesRemaining > 0)
{
memset(buf, 0, USB_BUFFER_LENGTH);
UC_BlockHeader bh;
bh.block_size = bytesRemaining > dataBufSize ? dataBufSize : bytesRemaining;
bh.block_full_size = 0; // no compression
memcpy_s(&buf[0], sizeof(UC_BlockHeader), &bh, sizeof(UC_BlockHeader));
memcpy_s(&buf[32], bh.block_size, &buffer[curOffset], bh.block_size);
u32 fbs = bh.block_size + 32;
if (write((const u8*)&buf[0], fbs) != int(fbs))
return USB_WRITE_FAILED;
// Get confirmation
u32 bytesReceived = 0;
if (!readResponse(&bytesReceived, sizeof(u32)))
return USB_WRITE_FAILED;
if (bytesReceived != bh.block_size)
return USB_WRITE_FAILED;
bytesRemaining -= bh.block_size;
}
return int(len);
}
bool Kourou::readResponse(void* buffer, u32 size)
{
u32 res_size = RESPONSE_MAX_SIZE - sizeof(u16);
u8 tmp_buffer[RESPONSE_MAX_SIZE - sizeof(u16)];
if (size > res_size)
return false;
else res_size = size + sizeof(u16);
if (read(tmp_buffer, res_size) != int(res_size))
return false;
u16* signature = (u16*)tmp_buffer;
if (*signature != RESPONSE)
return false;
memcpy(buffer, &tmp_buffer[sizeof(u16)], size);
return true;
}
bool Kourou::arianeIsReady_sync()
{
auto end = [&](bool ready) {
m_ariane_ready = ready;
return ready;
};
if (RcmDevice::deviceIsReady())
{
m_rcm_ready = true;
return end(false);
}
else m_rcm_ready = false;
u8 buff[0x10];
static const char READY_INDICATOR[] = "READY.\n";
int bytesRead = 0;
flushPipe(READ_PIPE_ID);
UC_Header uc;
uc.command = GET_STATUS;
if (write((const u8*)&uc, sizeof(uc)) != sizeof(uc))
return end(false);
if ((bytesRead = read(&buff[0], 0x10)) > 0 && memcmp(&buff[0], READY_INDICATOR, array_countof(READY_INDICATOR) - 1) == 0)
return end(true);
return end(false);
}
int Kourou::getDeviceInfo(UC_DeviceInfo* di)
{
UC_Header uc;
uc.command = GET_DEVICE_INFO;
if(write((const u8*)&uc, sizeof(uc)) != sizeof(uc))
return SEND_COMMAND_FAILED;
if(read((u8*)di, sizeof(UC_DeviceInfo)) != sizeof(UC_DeviceInfo))
return RECEIVE_COMMAND_FAILED;
if (di->signature != DEVINFO)
return RECEIVE_COMMAND_FAILED;
return 0;
}
bool Kourou::rebootToRcm()
{
if (!arianeIsReady_sync())
return false;
UC_Header uc;
uc.command = REBOOT_RCM;
// Send command
write((const u8*)&uc, sizeof(uc));
// Get response
bool response = false;
if (!readResponse(&response, sizeof(bool)))
return false;
return response;
}
bool Kourou::setAutoRcmEnabled(bool state)
{
if (!arianeIsReady_sync())
return false;
UC_Header uc;
uc.command = state ? SET_AUTORCM_ON : SET_AUTORCM_OFF;
// Send command
write((const u8*)&uc, sizeof(uc));
// Get response
bool response = false;
if (!readResponse(&response, sizeof(bool)))
return false;
return response;
}