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localhorst:master localhorst:feature/shred-speedup
localhorst:1.3.0 localhorst:1.2.0 localhorst:1.1.3 localhorst:1.1.2 localhorst:1.1.1 localhorst:b1.1.0 localhorst:b0.3.0 localhorst:b0.2.2 localhorst:b0.2.0 localhorst:b0.1.0 localhorst:1.0.0
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compare: localhorst:6732aacdc8e4ef3d07f4858bb19ef30861ac42ca
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localhorst:feature/shred-speedup localhorst:master
localhorst:1.3.0 localhorst:1.2.0 localhorst:1.1.3 localhorst:1.1.2 localhorst:1.1.1 localhorst:b1.1.0 localhorst:b0.3.0 localhorst:b0.2.2 localhorst:b0.2.0 localhorst:b0.1.0 localhorst:1.0.0

2 Commits
1.3.0 ... 6732aacdc8

Author SHA1 Message Date
localhorst
6732aacdc8 handle user input 2025-12-11 20:48:18 +01:00
localhorst
1caa4ce6f2 add new user input to TUI 2025-12-11 20:20:48 +01:00
4 changed files with 76 additions and 156 deletions
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16
README.md
View File

@ -16,9 +16,9 @@ Use [Etcher](https://www.balena.io/etcher/#download) or `dd` to create an bootab
## Screenshot
![Screenshot of reHDD with multiple drives in different states](https://git.mosad.xyz/localhorst/reHDD/raw/commit/c40dfe2cbb8f86490b49caf82db70a10015f06f9/doc/screenshot.png "Screenshot")
## openSUSE Build Notes
## Debian Build Notes
* `zypper install ncurses-devel git make gcc-c++`
* `apt-get install ncurses-dev git make g++`
* `git submodule init`
* `git submodule update`
* `make release`
@ -28,8 +28,16 @@ Use [Etcher](https://www.balena.io/etcher/#download) or `dd` to create an bootab
Just install [reHDDPrinter](https://git.mosad.xyz/localhorst/reHDDPrinter).
No further settings needed.
## Create Standalone with Debian 11
Instructions how to create a standalone machine that boots directly to reHDD. This is aimed for production use, like several drives a day shredding.
* Start reHDD after boot without login (as a tty1 shell)
* Start dmesg after boot without login (as a tty2 shell)
* Start htop after boot without login (as a tty3 shell)
* Upload reHDD log every 12h if wanted
### Software requirements
* `zypper install hwinfo smartmontools curl htop sudo`
* `apt-get install hwinfo smartmontools curl htop sudo`
### Installation
@ -48,7 +56,7 @@ git submodule update
If you want to upload the logs, edit `scripts/reHDDLogUploader.bash` with your nextcloud token
Add ignored drives in `/root/reHDD/ignoreDrives.conf` like:
Add your system drive in `/root/reHDD/ignoreDrives.conf` like:
```e102f49d```
Get the first 8 Bytes from your UUID via `blkid /dev/sdX`

6
include/reHDD.h
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@ -8,7 +8,7 @@
#ifndef REHDD_H_
#define REHDD_H_
#define REHDD_VERSION "V1.3.0"
#define REHDD_VERSION "V1.2.1"
// Drive handling Settings
#define WORSE_HOURS 19200 // mark drive if at this limit or beyond
@ -31,7 +31,7 @@
#endif
// Logic
// #define DRYRUN // don't touch the drives
#define DRYRUN // don't touch the drives
#define FROZEN_ALERT // show alert if drive is frozen
#define ZERO_CHECK // check drive after shred if all bytes are zero, show alert if this fails
@ -95,7 +95,7 @@ private:
static void ThreadScanDevices();
static void ThreadUserInput();
static void ThreadShred(Drive *const pDrive);
static void ThreadDelete(Drive *const pDrive);
static void ThreadDelete();
static void ThreadCheckFrozenDrives();
static void handleArrowKey(TUI::UserInput userInput);
static void handleEnter();

197
src/reHDD.cpp
View File

@ -218,16 +218,18 @@ void reHDD::ThreadUserInput()
break;
case TUI::UserInput::Print:
// cout << "Print" << endl;
Logger::logThis()->info("User print single");
if (tmpSelectedDrive != nullptr)
{
printDrive(tmpSelectedDrive);
// printDrive(tmpSelectedDrive);
}
ui->updateTUI(&listDrives, u16SelectedEntry);
// ui->updateTUI(&listDrives, u16SelectedEntry);
break;
case TUI::UserInput::PrintAll:
// cout << "PrintAll" << endl;
printAllDrives(&listDrives);
ui->updateTUI(&listDrives, u16SelectedEntry);
Logger::logThis()->info("User print all");
// printAllDrives(&listDrives);
// ui->updateTUI(&listDrives, u16SelectedEntry);
break;
default:
break;
@ -236,7 +238,7 @@ void reHDD::ThreadUserInput()
}
/**
* \brief print all shredded drives
* \brief start shred for all drives
* \param pointer of list <Drive>* plistDrives
* \return void
*/
@ -252,11 +254,6 @@ void reHDD::printAllDrives(list<Drive> *plistDrives)
mxDrives.unlock();
}
/**
* \brief print a shredded drives
* \param pointer of a drive
* \return void
*/
void reHDD::printDrive(Drive *const pDrive)
{
if (pDrive->bWasShredded)
@ -268,7 +265,7 @@ void reHDD::printDrive(Drive *const pDrive)
}
#endif
Logger::logThis()->info("User print for: " + pDrive->getModelName() + "-" + pDrive->getSerial());
Printer::getPrinter()->print(pDrive);
// TODO: Trigger printer for this drive
}
}
@ -276,24 +273,24 @@ void reHDD::ThreadShred(Drive *const pDrive)
{
if (pDrive != nullptr)
{
pDrive->setActionStartTimestamp(); // save timestamp at start of shredding
Shred *pShredInstance = new Shred(); // create new shred task
pShredInstance->shredDrive(pDrive, &fdShredInformPipe[1]); // start new shred task
delete pShredInstance; // delete shred task
pDrive->setActionStartTimestamp(); // save timestamp at start of shredding
Shred *pShredTask = new Shred(); // create new shred task
pShredTask->shredDrive(pDrive, &fdShredInformPipe[1]); // start new shred task
delete pShredTask; // delete shred task
ui->updateTUI(&listDrives, u16SelectedEntry);
}
}
void reHDD::ThreadDelete(Drive *const pDrive)
void reHDD::ThreadDelete()
{
if (pDrive != nullptr)
Drive *tmpSelectedDrive = getSelectedDrive();
if (tmpSelectedDrive != nullptr)
{
pDrive->state = Drive::TaskState::DELETE_ACTIVE;
pDrive->setActionStartTimestamp(); // save timestamp at start of deleting
Delete::deleteDrive(pDrive); // blocking, no thread
pDrive->state = Drive::TaskState::NONE; // delete finished
pDrive->bWasDeleted = true;
Logger::logThis()->info("Finished delete for: " + pDrive->getModelName() + "-" + pDrive->getSerial());
tmpSelectedDrive->setActionStartTimestamp(); // save timestamp at start of deleting
Delete::deleteDrive(tmpSelectedDrive); // blocking, no thread
tmpSelectedDrive->state = Drive::TaskState::NONE; // delete finished
tmpSelectedDrive->bWasDeleted = true;
Logger::logThis()->info("Finished delete for: " + tmpSelectedDrive->getModelName() + "-" + tmpSelectedDrive->getSerial());
ui->updateTUI(&listDrives, u16SelectedEntry);
}
}
@ -418,8 +415,8 @@ void reHDD::searchDrives(std::list<Drive> *plistDrives)
}
/**
* \brief filter out drives that are listed in "ignoreDrives.conf", loop devices, and optical drives
* \param pointer of list <Drive>* plistDrives
* \brief filter out drives that are listed in "ignoreDrives.conf"
* \param pointer of list <Drive>* plistDrives
* \return void
*/
void reHDD::filterIgnoredDrives(list<Drive> *plistDrives)
@ -428,17 +425,11 @@ void reHDD::filterIgnoredDrives(list<Drive> *plistDrives)
if (getSystemDrive(systemDrivePath))
{
// Logger::logThis()->info("Found system drive: " + systemDrivePath);
list<Drive>::iterator it = plistDrives->begin();
while (it != plistDrives->end())
{
string driveName = it->getPath();
// Remove /dev/ prefix
if (driveName.find("/dev/") == 0)
{
driveName = driveName.substr(5); // Skip "/dev/"
}
if (systemDrivePath.find(driveName) != std::string::npos) // compare found system drive and current drive
list<Drive>::iterator it;
for (it = plistDrives->begin(); it != plistDrives->end(); ++it)
{
if (it->getPath().find(systemDrivePath) != std::string::npos) // compare found system drive and current drive
{
// system drive found --> ignore this drive
#ifdef LOG_LEVEL_HIGH
@ -446,123 +437,59 @@ void reHDD::filterIgnoredDrives(list<Drive> *plistDrives)
#endif
it = plistDrives->erase(it);
}
else
{
++it;
}
}
}
// Filter out loop devices (loop0, loop1, etc.)
list<Drive>::iterator it = plistDrives->begin();
while (it != plistDrives->end())
{
string driveName = it->getPath();
if (driveName.find("/dev/") == 0)
{
driveName = driveName.substr(5);
}
if (driveName.find("loop") == 0)
{
#ifdef LOG_LEVEL_HIGH
Logger::logThis()->info("loop device found --> ignore this drive: " + it->getPath());
#endif
it = plistDrives->erase(it);
}
else
{
++it;
}
}
// Filter out optical drives (sr0, sr1, cdrom, dvd, etc.)
it = plistDrives->begin();
while (it != plistDrives->end())
{
string driveName = it->getPath();
if (driveName.find("/dev/") == 0)
{
driveName = driveName.substr(5);
}
if (driveName.find("sr") == 0 ||
driveName.find("cdrom") == 0 ||
driveName.find("dvd") == 0 ||
driveName.find("cdrw") == 0)
{
#ifdef LOG_LEVEL_HIGH
Logger::logThis()->info("optical drive found --> ignore this drive: " + it->getPath());
#endif
it = plistDrives->erase(it);
}
else
{
++it;
}
}
// Read ignored drives from config file
list<tuple<string>> vtlIgnoredDevices;
ifstream input("ignoreDrives.conf");
list<tuple<string>> vtlIgnoredDevices; // store drives from ignore file
ifstream input("ignoreDrives.conf"); // read ignore file
for (string sLine; getline(input, sLine);)
{
// Skip empty lines and comments
if (!sLine.empty() && sLine[0] != '#')
{
vtlIgnoredDevices.emplace_back(sLine);
}
// Logger::logThis()->info("read uuid: " + sLine);
vtlIgnoredDevices.emplace_back(sLine); // add found path and uuid from ignore file to vector
}
// Loop through found entries in ignore file
// loop through found entries in ignore file
for (auto row : vtlIgnoredDevices)
{
it = plistDrives->begin();
while (it != plistDrives->end())
list<Drive>::iterator it;
for (it = plistDrives->begin(); it != plistDrives->end(); ++it)
{
string sUUID;
char *cLine = NULL;
size_t len = 0;
string sCMD = "blkid ";
sCMD.append(it->getPath());
FILE *outputfileBlkid = popen(sCMD.c_str(), "r");
// cout << "cmd: " << sCMD << endl;
FILE *outputfileBlkid = popen(sCMD.c_str(), "r"); // get UUID from drive
if (outputfileBlkid == NULL)
{
Logger::logThis()->error("Failed to execute blkid for: " + it->getPath());
++it;
continue;
exit(EXIT_FAILURE);
}
while ((getline(&cLine, &len, outputfileBlkid)) != -1)
while ((getline(&cLine, &len, outputfileBlkid)) != -1) // parse UUID from blkid
{
size_t ptuuidPos = string(cLine).find("PTUUID");
if (ptuuidPos != string::npos)
{
string sBlkidOut = string(cLine);
sBlkidOut.erase(0, ptuuidPos + 8);
if (sBlkidOut.length() >= 8)
{
sBlkidOut.erase(8, sBlkidOut.length());
}
sBlkidOut.erase(8, sBlkidOut.length());
sUUID = sBlkidOut;
// cout << "blkid uuid:" << sUUID << endl;
}
}
free(cLine);
pclose(outputfileBlkid);
// cout << "blkid uuid:" << sUUID << endl;
if (!get<0>(row).compare(sUUID))
if (!get<0>(row).compare(sUUID)) // compare uuid from ignore file and uuid from drive
{
// same uuid found than in ignore file --> ignore this drive
#ifdef LOG_LEVEL_HIGH
Logger::logThis()->info("same uuid found in ignore file --> ignore this drive: " + it->getPath());
Logger::logThis()->info("same uuid found than in ignore file --> ignore this drive: " + it->getPath());
#endif
it = plistDrives->erase(it);
}
else
{
++it;
}
}
}
}
@ -606,6 +533,7 @@ void reHDD::startShredAllDrives(list<Drive> *plistDrives)
address << (void const *)&(*pTmpDrive);
Logger::logThis()->info("Started shred (all) for: " + pTmpDrive->getModelName() + "-" + pTmpDrive->getSerial() + " @" + address.str());
#endif
pTmpDrive->state = Drive::TaskState::SHRED_ACTIVE;
thread(ThreadShred, pTmpDrive).detach();
}
}
@ -757,13 +685,17 @@ void reHDD::handleEnter()
if (tmpSelectedDrive->state == Drive::TaskState::SHRED_SELECTED)
{
Logger::logThis()->info("Started shred/check for: " + tmpSelectedDrive->getModelName() + "-" + tmpSelectedDrive->getSerial());
tmpSelectedDrive->state = Drive::TaskState::SHRED_ACTIVE;
// task for drive is running --> don't show more task option
thread(ThreadShred, tmpSelectedDrive).detach();
}
if (tmpSelectedDrive->state == Drive::TaskState::DELETE_SELECTED)
{
Logger::logThis()->info("Started delete for: " + tmpSelectedDrive->getModelName() + "-" + tmpSelectedDrive->getSerial());
thread(ThreadDelete, tmpSelectedDrive).detach();
tmpSelectedDrive->state = Drive::TaskState::DELETE_ACTIVE;
// task for drive is running --> don't show more task options
thread(ThreadDelete).detach();
}
}
}
@ -824,23 +756,14 @@ bool reHDD::getSystemDrive(string &systemDrive)
continue;
}
// Extract drive name from line (removing tree characters)
// Logger::logThis()->info(currentLine);
if ((cLine[0U] != '|') && (cLine[0U] != '`'))
{
systemDrive = currentLine;
// Find the actual drive name (after tree characters like └─, ├─)
size_t lastAlpha = 0;
for (size_t i = 0; i < systemDrive.length(); i++)
{
if (isalpha(systemDrive[i]))
{
lastAlpha = i;
break;
}
}
systemDrive = systemDrive.substr(lastAlpha);
systemDrive.erase(std::remove(systemDrive.begin(), systemDrive.end(), '\n'), systemDrive.end()); // remove newline
systemDrive.erase(std::remove(systemDrive.begin(), systemDrive.end(), ' '), systemDrive.end()); // remove spaces
// Logger::logThis()->info("Drive found: " + systemDrive);
}
if (currentLine.ends_with(" /boot/efi\n"s))
@ -863,17 +786,5 @@ bool reHDD::getSystemDrive(string &systemDrive)
}
pclose(outputfileHwinfo);
// Remove mountpoint (everything after first space)
size_t spacePos = systemDrive.find(' ');
if (spacePos != std::string::npos)
{
systemDrive = systemDrive.substr(0, spacePos);
}
// Remove all unwanted characters
systemDrive.erase(std::remove(systemDrive.begin(), systemDrive.end(), '\n'), systemDrive.end());
systemDrive.erase(std::remove(systemDrive.begin(), systemDrive.end(), '/'), systemDrive.end());
systemDrive.erase(std::remove(systemDrive.begin(), systemDrive.end(), '\r'), systemDrive.end());
return systemDriveFound;
}

13
src/shred.cpp
View File

@ -38,14 +38,14 @@ int Shred::shredDrive(Drive *drive, int *ipSignalFd)
address << (void const *)&(*drive);
Logger::logThis()->info("Shred-Task started - Drive: " + drive->getModelName() + "-" + drive->getSerial() + " @" + address.str());
drive->bWasShredStarted = true; // Mark drive as partly shredded
drive->bWasShredded = false;
drive->setTaskPercentage(0.0);
drive->u32DriveChecksumAfterShredding = UINT32_MAX;
drive->state = Drive::TaskState::SHRED_ACTIVE;
#ifdef DRYRUN
for (int i = 0; i <= 100; i++)
for (int i = 0; i <= 500; i++)
{
if (drive->state.load() != Drive::TaskState::SHRED_ACTIVE)
{
return 0;
}
drive->setTaskPercentage(i + 0.05);
write(*ipSignalFd, "A", 1);
usleep(20000);
@ -204,9 +204,10 @@ int Shred::shredDrive(Drive *drive, int *ipSignalFd)
Logger::logThis()->info("Shred-Task: Checksum zero: " + to_string(drive->u32DriveChecksumAfterShredding) + " - Drive: " + drive->getSerial());
}
#endif
cleanup();
#endif
cleanup();
if ((drive->state.load() == Drive::TaskState::SHRED_ACTIVE) || (drive->state.load() == Drive::TaskState::CHECK_SUCCESSFUL) || (drive->state == Drive::TaskState::CHECK_FAILED))
{
if (drive->state != Drive::TaskState::CHECK_FAILED)