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fix pointer (again)
Fix error handling if shred failes (#96 )
2026-05-01 15:28:02 +02:00 · 2026-05-01 15:22:35 +02:00 · 2026-05-01 15:18:31 +02:00 · 2026-05-01 15:11:42 +02:00 · 2026-05-01 15:03:15 +02:00 · 2026-05-01 13:12:39 +02:00
18 changed files with 1752 additions and 555 deletions
@@ -9,16 +9,16 @@
 * process multiple drives at once
 ## Download USB Image ##
-[2.5GB image v1.0.0](https://schuttercloud.com/s/ggxGH9sA326aRfK)   (`wget` is your friend)
+See reHDD-Bootable how the live image created: https://git.mosad.xyz/localhorst/reHDD-Bootable
 Use [Etcher](https://www.balena.io/etcher/#download) or `dd` to create an bootable USB drive .
 ## Screenshot 
 ![Screenshot of reHDD with multiple drives in different states](https://git.mosad.xyz/localhorst/reHDD/raw/commit/c40dfe2cbb8f86490b49caf82db70a10015f06f9/doc/screenshot.png "Screenshot")
-## Debian Build Notes
+## openSUSE Build Notes
-* `apt-get install ncurses-dev git make g++`
+* `zypper install ncurses-devel git make gcc-c++`
 * `git submodule init`
 * `git submodule update`
 * `make release`
@@ -28,16 +28,8 @@ 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
-* `apt-get install hwinfo smartmontools curl htop sudo`
+* `zypper install hwinfo smartmontools curl htop sudo`
 ### Installation
@@ -56,7 +48,7 @@ git submodule update
 If you want to upload the logs, edit `scripts/reHDDLogUploader.bash` with your nextcloud token
-Add your system drive in `/root/reHDD/ignoreDrives.conf` like:
+Add ignored drives in `/root/reHDD/ignoreDrives.conf` like:
 ```e102f49d```
 Get the first 8 Bytes from your UUID via `blkid /dev/sdX`
@@ -14,33 +14,50 @@ class Drive
 {
 public:
-    enum TaskState
+    enum class TaskState
    {
        NONE,
        SHRED_SELECTED,
        SHRED_ACTIVE, // shred iterations active
        CHECK_ACTIVE, // optional checking active
        CHECK_SUCCESSFUL,
        CHECK_FAILED,
        DELETE_SELECTED,
        DELETE_ACTIVE,
        FROZEN
-    } state;
+    };
-    struct
+    enum class ConnectionType
    {
        UNKNOWN,
        USB,
        SATA,
        NVME
    };
    struct ShredSpeed
    {
        time_t u32ShredTimeDelta;
-        std::chrono::time_point<std::chrono::system_clock> chronoShredTimestamp;
+        std::chrono::time_point<std::chrono::system_clock>
            chronoShredTimestamp;
        unsigned long ulWrittenBytes;
        unsigned long ulSpeedMetricBytesWritten;
-    } sShredSpeed;
+    };
    std::atomic<TaskState> state;
    std::atomic<ConnectionType> connectionType;
    std::atomic<ShredSpeed> sShredSpeed;
    bool bWasShredded = false;     // all shred iterations done
    bool bWasShredStarted = false; // shred was atleast once started
    bool bWasChecked = false;      // all shred iterations and optional checking done
    bool bWasDeleted = false;
    bool bIsOffline = false;
    uint32_t u32DriveChecksumAfterShredding = 0U;
    uint16_t u16DriveIndex = 0U; // Index of TUI list
 private:
-    string sPath;
+    std::string sPath;
    time_t u32Timestamp = 0U;          // unix timestamp for detecting a frozen drive
    double d32TaskPercentage = 0U;     // in percent for Shred (1 to 100)
    time_t u32TimestampTaskStart = 0U; // unix timestamp for duration of an action
@@ -48,14 +65,17 @@ private:
    struct
    {
-        string sModelFamily;
+        std::string sModelFamily;
-        string sModelName;
+        std::string sModelName;
-        string sSerial;
+        std::string sSerial;
        uint64_t u64Capacity = 0U; // in byte
        uint32_t u32ErrorCount = 0U;
        uint32_t u32PowerOnHours = 0U; // in hours
        uint32_t u32PowerCycles = 0U;
        uint32_t u32Temperature = 0U;          // in Fahrenheit, just kidding: degree Celsius
        uint32_t u32ReallocatedSectors = 0U;   // ID 0x05 - Reallocated Sectors Count
        uint32_t u32PendingSectors = 0U;       // ID 0xC5 - Current Pending Sector Count
        uint32_t u32UncorrectableSectors = 0U; // ID 0xC6 - Offline Uncorrectable Sector Count
    } sSmartData;
 private:
@@ -63,36 +83,54 @@ private:
 protected:
 public:
-    Drive(string path)
+    // Copy constructor
    Drive(const Drive &other);
    // Copy assignment operator
    Drive &operator=(const Drive &other);
    // Move constructor
    Drive(Drive &&other) noexcept;
    // Move assignment operator
    Drive &operator=(Drive &&other) noexcept;
    Drive(std::string path)
    {
        this->sPath = path;
    }
-    string getPath(void);
+    std::string getPath(void);
-    string getModelFamily(void);
+    std::string getModelFamily(void);
-    string getModelName(void);
+    std::string getModelName(void);
-    string getSerial(void);
+    std::string getSerial(void);
    uint64_t getCapacity(void); // in byte
    uint32_t getErrorCount(void);
    uint32_t getPowerOnHours(void); // in hours
    uint32_t getPowerCycles(void);
    uint32_t getTemperature(void); // in Fahrenheit, just kidding: degree Celsius
    uint32_t getReallocatedSectors(void);
    uint32_t getPendingSectors(void);
    uint32_t getUncorrectableSectors(void);
    void checkFrozenDrive(void);
-    void setDriveSMARTData(string modelFamily,
+    void setDriveSMARTData(std::string modelFamily,
-                           string modelName,
+                           std::string modelName,
-                           string serial,
+                           std::string serial,
                           uint64_t capacity,
                           uint32_t errorCount,
                           uint32_t powerOnHours,
                           uint32_t powerCycles,
-                           uint32_t temperature);
+                           uint32_t temperature,
                           uint32_t reallocatedSectors,
                           uint32_t pendingSectors,
                           uint32_t uncorrectableSectors);
-    string sCapacityToText();
+    std::string sCapacityToText();
-    string sErrorCountToText();
+    std::string sErrorCountToText();
-    string sPowerOnHoursToText();
+    std::string sPowerOnHoursToText();
-    string sPowerCyclesToText();
+    std::string sPowerCyclesToText();
-    string sTemperatureToText();
+    std::string sTemperatureToText();
    void setTaskPercentage(double d32TaskPercentage);
    double getTaskPercentage(void);
@@ -16,6 +16,10 @@
 #include <sys/socket.h>
 #include <arpa/inet.h>
 #include <netinet/in.h>
 #include <ifaddrs.h>
 #include <netpacket/packet.h>
 #include <cstring>
 #include <string>
 #include <errno.h>
 #include <stdlib.h>
 #include <sys/ioctl.h>
@@ -26,11 +26,11 @@ typedef struct
    char caDriveShredDuration[STR_BUFFER_SIZE];
    char caDriveCapacity[STR_BUFFER_SIZE];
    char caDriveState[STR_BUFFER_SIZE];
    char caDriveConnectionType[STR_BUFFER_SIZE];
    char caDriveModelFamily[STR_BUFFER_SIZE];
    char caDriveModelName[STR_BUFFER_SIZE];
    char caDriveSerialnumber[STR_BUFFER_SIZE];
    char caDriveReHddVersion[STR_BUFFER_SIZE];
 } t_driveData;
 typedef struct
@@ -8,7 +8,7 @@
 #ifndef REHDD_H_
 #define REHDD_H_
-#define REHDD_VERSION "V1.1.1"
+#define REHDD_VERSION "V1.4.0-dev"
 // Drive handling Settings
 #define WORSE_HOURS 19200    // mark drive if at this limit or beyond
@@ -20,18 +20,18 @@
 // Logger Settings
 #define LOG_PATH "./reHDD.log"
-#define DESCRIPTION "reHDD - Copyright Hendrik Schutter 2024"
+#define DESCRIPTION "reHDD - Copyright Hendrik Schutter 2026"
 #define DEVICE_ID "generic"
 #define SOFTWARE_VERSION REHDD_VERSION
 #define HARDWARE_VERSION "generic"
-// #define LOG_LEVEL_HIGH  //log everything, like drive scan thread
+// #define LOG_LEVEL_HIGH // log everything, like drive scan thread
 #ifndef LOG_LEVEL_HIGH
 #define LOG_LEVEL_LOW // log only user actions and tasks
 #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
@@ -56,9 +56,7 @@
 #include <sstream>
 #include <iomanip>
 #include <signal.h>
-
+#include <atomic>
 using namespace std;
 #include "drive.h"
 #include "smart.h"
 #include "shred.h"
@@ -86,21 +84,25 @@ private:
    static void searchDrives(list<Drive> *plistDrives);
    static void printDrives(list<Drive> *plistDrives);
    static void startShredAllDrives(list<Drive> *plistDrives);
    static void stopShredAllDrives(list<Drive> *plistDrives);
    static void updateShredMetrics(list<Drive> *plistDrives);
    static void filterIgnoredDrives(list<Drive> *plistDrives);
    static void filterInvalidDrives(list<Drive> *plistDrives);
    static void filterNewDrives(list<Drive> *plistOldDrives, list<Drive> *plistNewDrives);
    static void addSMARTData(list<Drive> *plistDrives);
    static void printAllDrives(list<Drive> *plistDrives);
    static void printDrive(Drive *const pDrive);
    static void ThreadScanDevices();
    static void ThreadUserInput();
    static void ThreadShred(Drive *const pDrive);
-    static void ThreadDelete();
+    static void ThreadDelete(Drive *const pDrive);
    static void ThreadCheckFrozenDrives();
    static void handleArrowKey(TUI::UserInput userInput);
    static void handleEnter();
    static void handleESC();
    static void handleAbort();
    static Drive *getSelectedDrive();
    static bool getSystemDrive(string &systemDrive);
 };
 #endif // REHDD_H_
@@ -16,9 +16,28 @@
 #include <fcntl.h>
 #include <unistd.h>
 #include <string.h>
 #include <chrono>
-#define CHUNK_SIZE 1024 * 1024 * 32 // amount of bytes that are overwritten at once --> 32MB
+// Adaptive chunk size optimization - uncomment to enable
-#define TFNG_DATA_SIZE CHUNK_SIZE   // amount of bytes used by tfng
+#define ADAPTIVE_CHUNK_SIZE
 // Chunk size configuration
 #define CHUNK_SIZE_START 1024 * 1024 * 32 // Starting chunk size: 32MB
 #define CHUNK_SIZE_MIN 1024 * 1024 * 4 // Minimum chunk size: 4MB
 #define CHUNK_SIZE_MAX 1024 * 1024 * 128 // Maximum chunk size: 128MB
 #define CHUNK_SIZE_STEP_UP 1024 * 1024 * 2 // Increase step: 2MB
 #define CHUNK_SIZE_STEP_DOWN 1024 * 1024 * 4 // Decrease step: 4MB
 #define CHUNK_MEASURE_INTERVAL 64 // Measure performance every 64 chunks
 #ifdef ADAPTIVE_CHUNK_SIZE
 // Use max buffer size when adaptive mode is enabled
 #define CHUNK_SIZE CHUNK_SIZE_MAX
 #define TFNG_DATA_SIZE CHUNK_SIZE_MAX
 #else
 // Use fixed chunk size when adaptive mode is disabled
 #define CHUNK_SIZE CHUNK_SIZE_START
 #define TFNG_DATA_SIZE CHUNK_SIZE
 #endif
 // #define DEMO_DRIVE_SIZE 1024*1024*256L // 256MB
 // #define DEMO_DRIVE_SIZE 1024*1024*1024L // 1GB
@@ -33,22 +52,47 @@ protected:
 public:
    Shred();
    ~Shred();
-    int shredDrive(Drive *drive, int *ipSignalFd);
+    int shredDrive(Drive* drive, int* ipSignalFd);
 private:
    fileDescriptor randomSrcFileDiscr;
    fileDescriptor driveFileDiscr;
 #ifdef ADAPTIVE_CHUNK_SIZE
    unsigned char* caTfngData; // Dynamic buffer allocation for adaptive mode
    unsigned char* caReadBuffer; // Dynamic buffer allocation for adaptive mode
 #else
    unsigned char caTfngData[TFNG_DATA_SIZE];
    unsigned char caReadBuffer[CHUNK_SIZE];
 #endif
    unsigned long ulDriveByteSize;
    unsigned long ulDriveByteOverallCount = 0; // all bytes shredded in all iterations + checking -> used for progress calculation
    double d32Percent = 0.0;
    double d32TmpPercent = 0.0;
 #ifdef ADAPTIVE_CHUNK_SIZE
    // Adaptive chunk size optimization members
    size_t currentChunkSize;
    size_t bestChunkSize;
    unsigned int chunkCounter;
    std::chrono::high_resolution_clock::time_point measurementStartTime;
    double bestThroughputMBps;
    double lastThroughputMBps;
    unsigned long bytesWrittenInMeasurement;
    bool throughputIncreasing;
    // Adaptive methods
    void startMeasurement();
    void evaluateThroughput(Drive* drive);
    void adjustChunkSize(Drive* drive);
    size_t getCurrentChunkSize() const;
 #endif
    inline double calcProgress();
    int iRewindDrive(fileDescriptor file);
-    unsigned long getDriveSizeInBytes(fileDescriptor file);
+    long getDriveSizeInBytes(fileDescriptor file);
-    unsigned int uiCalcChecksum(fileDescriptor file, Drive *drive, int *ipSignalFd);
+    unsigned int uiCalcChecksum(fileDescriptor file, Drive* drive, int* ipSignalFd);
    void cleanup();
 };
@@ -10,33 +10,29 @@
 #include "reHDD.h"
 /**
 * @brief SMART data reader for drives
 *
 * Parses smartctl JSON output to extract:
 * - Device information (model, serial, capacity)
 * - Power statistics (hours, cycles)
 * - Temperature
 * - Critical sector counts (reallocated, pending, uncorrectable)
 *
 * Uses deterministic state machine parser for reliable multi-line JSON parsing.
 */
 class SMART
 {
 protected:
 public:
    /**
     * @brief Read S.M.A.R.T. data from drive and populate Drive object
     * @param drive Pointer to Drive instance to populate with SMART data
     */
    static void readSMARTData(Drive *drive);
 private:
-    SMART(void);
+    SMART(void); // Utility class - no instances
    static uint8_t parseExitStatus(string sLine);
    static void parseModelFamily(string sLine);
    static void parseModelName(string sLine);
    static void parseSerial(string sLine);
    static void parseCapacity(string sLine);
    static void parseErrorCount(string sLine);
    static void parsePowerOnHours(string sLine);
    static void parsePowerCycle(string sLine);
    static void parseTemperature(string sLine);
    static string modelFamily;
    static string modelName;
    static string serial;
    static uint64_t capacity;
    static uint32_t errorCount;
    static uint32_t powerOnHours;
    static uint32_t powerCycle;
    static uint32_t temperature;
 };
 #endif // SMART_H_
@@ -31,6 +31,9 @@ public:
        Delete,
        Enter,
        ESC,
        Terminate,
        Print,
        PrintAll,
        Undefined
    };
    struct MenuState
@@ -46,14 +49,16 @@ public:
    static void initTUI();
-    void updateTUI(list<Drive> *plistDrives, uint8_t u8SelectedEntry);
+    void updateTUI(std::list<Drive> *plistDrives, uint8_t u8SelectedEntry);
    static enum UserInput readUserInput();
    static void terminateTUI();
 private:
-    static string sCpuUsage;
+    static std::string sCpuUsage;
-    static string sRamUsage;
+    static std::string sRamUsage;
-    static string sLocalTime;
+    static std::string sLocalTime;
    WINDOW *overview;
    WINDOW *systemview;
@@ -64,19 +69,19 @@ private:
    static void centerTitle(WINDOW *pwin, const char *title);
    static WINDOW *createOverViewWindow(int iXSize, int iYSize);
-    static WINDOW *createDetailViewWindow(int iXSize, int iYSize, int iXStart, Drive drive);
+    static WINDOW *createDetailViewWindow(int iXSize, int iYSize, int iXStart, Drive &drive);
    static WINDOW *overwriteDetailViewWindow(int iXSize, int iYSize, int iXStart);
-    static WINDOW *createEntryWindow(int iXSize, int iYSize, int iXStart, int iYStart, int iListIndex, string sModelFamily, string sSerial, string sCapacity, string sState, string sTime, string sSpeed, string sTemp, bool bSelected);
+    static WINDOW *createEntryWindow(int iXSize, int iYSize, int iXStart, int iYStart, int iListIndex, std::string sModelFamily, std::string sSerial, std::string sCapacity, std::string sState, std::string sTime, std::string sSpeed, std::string sTemp, std::string sConnection, bool bSelected);
    static WINDOW *createSystemStats(int iXSize, int iYSize, int iXStart, int iYStart);
    static WINDOW *createMenuView(int iXSize, int iYSize, int iXStart, int iYStart, struct MenuState menustate);
-    static WINDOW *createDialog(int iXSize, int iYSize, int iXStart, int iYStart, string selectedTask, string optionA, string optionB);
+    static WINDOW *createDialog(int iXSize, int iYSize, int iXStart, int iYStart, std::string selectedTask, std::string optionA, std::string optionB);
-    static WINDOW *createFrozenWarning(int iXSize, int iYSize, int iXStart, int iYStart, string sPath, string sModelFamily, string sModelName, string sSerial, string sProgress);
+    static WINDOW *createFrozenWarning(int iXSize, int iYSize, int iXStart, int iYStart, std::string sPath, std::string sModelFamily, std::string sModelName, std::string sSerial, std::string sProgress);
-    static WINDOW *createSmartWarning(int iXSize, int iYSize, int iXStart, int iYStart, string sPath, uint32_t u32PowerOnHours, uint32_t u32PowerCycles, uint32_t u32ErrorCount, uint32_t u32Temperature);
+    static WINDOW *createSmartWarning(int iXSize, int iYSize, int iXStart, int iYStart, std::string sPath, uint32_t u32PowerOnHours, uint32_t u32PowerCycles, uint32_t u32ErrorCount, uint32_t u32Temperature, uint32_t u32ReallocatedSectors, uint32_t u32PendingSectors, uint32_t u32UncorrectableSectors);
-    static WINDOW *createZeroChecksumWarning(int iXSize, int iYSize, int iXStart, int iYStart, string sPath, string sModelFamily, string sModelName, string sSerial, uint32_t u32Checksum);
+    static WINDOW *createZeroChecksumWarning(int iXSize, int iYSize, int iXStart, int iYStart, std::string sPath, std::string sModelFamily, std::string sModelName, std::string sSerial, uint32_t u32Checksum);
-    void displaySelectedDrive(Drive drive, int stdscrX, int stdscrY);
+    void displaySelectedDrive(Drive &drive, int stdscrX, int stdscrY);
-    string formatTimeDuration(time_t u32Duration);
+    std::string formatTimeDuration(time_t u32Duration);
-    string formatSpeed(time_t u32ShredTimeDelta, unsigned long ulWrittenBytes);
+    std::string formatSpeed(time_t u32ShredTimeDelta, unsigned long ulWrittenBytes);
-    static void vTruncateText(string *psText, uint16_t u16MaxLenght);
+    static void vTruncateText(std::string *psText, uint16_t u16MaxLenght);
 };
 #endif // TUI_H_
@@ -18,7 +18,7 @@ DCOMPILE_FLAGS = -D DEBUG
 # Add additional include paths
 INCLUDES = include
 # General linker settings
-LINK_FLAGS = -Llib -lpthread -lncurses -ltfng
+LINK_FLAGS = -Llib -lpthread -lncurses -ltfng -latomic
 # Doc
 DOCDIR = doc
@@ -6,6 +6,7 @@
 */
 #include "../include/reHDD.h"
 using namespace std;
 /**
 * \brief   delete drive with wipefs
@@ -32,11 +33,17 @@ void Delete::deleteDrive(Drive *drive)
    const char *cpComand = sCMD.c_str();
    // cout << "delete: " << cpComand << endl;
    if (drive->bWasShredStarted == false)
    {
        // only start delete if the drive was not shredded before
        FILE *deleteCmdOutput = popen(cpComand, "r");
        while ((getline(&cLine, &len, deleteCmdOutput)) != -1)
        {
            // wipefs running
        }
        free(cLine);
        pclose(deleteCmdOutput);
    }
 }
@@ -6,6 +6,95 @@
 */
 #include "../include/reHDD.h"
 using namespace std;
 // Copy constructor
 Drive::Drive(const Drive &other)
    : state(other.state.load()),
      connectionType(other.connectionType.load()),
      sShredSpeed(other.sShredSpeed.load()),
      bWasShredded(other.bWasShredded),
      bWasShredStarted(other.bWasShredStarted),
      bWasChecked(other.bWasChecked),
      bWasDeleted(other.bWasDeleted),
      bIsOffline(other.bIsOffline),
      u32DriveChecksumAfterShredding(other.u32DriveChecksumAfterShredding),
      sPath(other.sPath),
      u32Timestamp(other.u32Timestamp),
      d32TaskPercentage(other.d32TaskPercentage),
      u32TimestampTaskStart(other.u32TimestampTaskStart),
      u32TaskDuration(other.u32TaskDuration),
      sSmartData(other.sSmartData)
 {
 }
 // Copy assignment operator
 Drive &Drive::operator=(const Drive &other)
 {
    if (this != &other)
    {
        state = other.state.load();
        connectionType = other.connectionType.load();
        sShredSpeed = other.sShredSpeed.load();
        bWasShredded = other.bWasShredded;
        bWasShredStarted = other.bWasShredStarted;
        bWasChecked = other.bWasChecked;
        bWasDeleted = other.bWasDeleted;
        bIsOffline = other.bIsOffline;
        u32DriveChecksumAfterShredding = other.u32DriveChecksumAfterShredding;
        sPath = other.sPath;
        u32Timestamp = other.u32Timestamp;
        d32TaskPercentage = other.d32TaskPercentage;
        u32TimestampTaskStart = other.u32TimestampTaskStart;
        u32TaskDuration = other.u32TaskDuration;
        sSmartData = other.sSmartData;
    }
    return *this;
 }
 // Move constructor
 Drive::Drive(Drive &&other) noexcept
    : state(other.state.load()),
      connectionType(other.connectionType.load()),
      sShredSpeed(other.sShredSpeed.load()),
      bWasShredded(other.bWasShredded),
      bWasShredStarted(other.bWasShredStarted),
      bWasChecked(other.bWasChecked),
      bWasDeleted(other.bWasDeleted),
      bIsOffline(other.bIsOffline),
      u32DriveChecksumAfterShredding(other.u32DriveChecksumAfterShredding),
      sPath(std::move(other.sPath)),
      u32Timestamp(other.u32Timestamp),
      d32TaskPercentage(other.d32TaskPercentage),
      u32TimestampTaskStart(other.u32TimestampTaskStart),
      u32TaskDuration(other.u32TaskDuration),
      sSmartData(std::move(other.sSmartData))
 {
 }
 // Move assignment operator
 Drive &Drive::operator=(Drive &&other) noexcept
 {
    if (this != &other)
    {
        state = other.state.load();
        connectionType = other.connectionType.load();
        sShredSpeed = other.sShredSpeed.load();
        bWasShredded = other.bWasShredded;
        bWasShredStarted = other.bWasShredStarted;
        bWasChecked = other.bWasChecked;
        bWasDeleted = other.bWasDeleted;
        bIsOffline = other.bIsOffline;
        u32DriveChecksumAfterShredding = other.u32DriveChecksumAfterShredding;
        sPath = std::move(other.sPath);
        u32Timestamp = other.u32Timestamp;
        d32TaskPercentage = other.d32TaskPercentage;
        u32TimestampTaskStart = other.u32TimestampTaskStart;
        u32TaskDuration = other.u32TaskDuration;
        sSmartData = std::move(other.sSmartData);
    }
    return *this;
 }
 string Drive::getPath(void)
 {
@@ -51,6 +140,21 @@ uint32_t Drive::getTemperature(void)
    return sSmartData.u32Temperature;
 }
 uint32_t Drive::getReallocatedSectors(void)
 {
    return sSmartData.u32ReallocatedSectors;
 }
 uint32_t Drive::getPendingSectors(void)
 {
    return sSmartData.u32PendingSectors;
 }
 uint32_t Drive::getUncorrectableSectors(void)
 {
    return sSmartData.u32UncorrectableSectors;
 }
 string Drive::sCapacityToText()
 {
    char acBuffer[16];
@@ -62,8 +166,12 @@ string Drive::sCapacityToText()
        dSize /= 1000;
        u16UnitIndex++;
    }
-
+    if (u16UnitIndex >= 9)
-    sprintf(acBuffer, "%.*f %s", u16UnitIndex - 3, dSize, units[u16UnitIndex]);
+    {
        u16UnitIndex = 8;
    }
    int precision = (u16UnitIndex >= 3) ? (u16UnitIndex - 3) : 0;
    sprintf(acBuffer, "%.*f %s", precision, dSize, units[u16UnitIndex]);
    return acBuffer;
 }
@@ -99,7 +207,6 @@ string Drive::sPowerCyclesToText()
 string Drive::sTemperatureToText()
 {
    return to_string(getTemperature()) + " C";
    ;
 }
 void Drive::setTaskPercentage(double d32TaskPercentage)
@@ -134,7 +241,10 @@ void Drive::setDriveSMARTData(string modelFamily,
                              uint32_t errorCount,
                              uint32_t powerOnHours,
                              uint32_t powerCycle,
-                              uint32_t temperature)
+                              uint32_t temperature,
                              uint32_t reallocatedSectors,
                              uint32_t pendingSectors,
                              uint32_t uncorrectableSectors)
 {
    this->sSmartData.sModelFamily = modelFamily;
    this->sSmartData.sModelName = modelName;
@@ -144,16 +254,27 @@ void Drive::setDriveSMARTData(string modelFamily,
    this->sSmartData.u32PowerOnHours = powerOnHours;
    this->sSmartData.u32PowerCycles = powerCycle;
    this->sSmartData.u32Temperature = temperature;
    this->sSmartData.u32ReallocatedSectors = reallocatedSectors;
    this->sSmartData.u32PendingSectors = pendingSectors;
    this->sSmartData.u32UncorrectableSectors = uncorrectableSectors;
 }
 void Drive::setTimestamp()
 {
-    time(&this->u32Timestamp);
+    if (time(&this->u32Timestamp) == -1)
    {
        // handle error
        this->u32Timestamp = 0U;
    }
 }
 void Drive::setActionStartTimestamp()
 {
-    time(&this->u32TimestampTaskStart);
+    if (time(&this->u32TimestampTaskStart) == -1)
    {
        // handle error
        this->u32TimestampTaskStart = 0U;
    }
 }
 time_t Drive::getActionStartTimestamp()
@@ -164,7 +285,11 @@ time_t Drive::getActionStartTimestamp()
 void Drive::calculateTaskDuration()
 {
    time_t u32localtime;
-    time(&u32localtime);
+    if (time(&u32localtime) == -1)
    {
        // handle error
        u32localtime = 0U;
    }
    this->u32TaskDuration = u32localtime - this->u32TimestampTaskStart;
 }
@@ -178,12 +303,17 @@ void Drive::checkFrozenDrive(void)
 {
    time_t u32localtime;
    time(&u32localtime);
    if (time(&u32localtime) == -1)
    {
        // handle error
        u32localtime = 0U;
    }
    if ((u32localtime - this->u32Timestamp) >= (FROZEN_TIMEOUT * 60) && (this->u32Timestamp > 0) && (this->getTaskPercentage() < 100.0))
    {
        Logger::logThis()->warning("Drive Frozen: " + this->getModelName() + " " + this->getSerial());
        this->bWasDeleted = false;
        this->bWasShredded = false;
-        this->state = Drive::FROZEN;
+        this->state = Drive::TaskState::FROZEN;
    }
 }
@@ -134,7 +134,7 @@ string Logger::getTimestamp()
    }
    timeinfo = localtime(&tv.tv_sec);
    strftime(cpDate, 80, "%d/%m/%Y %T", timeinfo);
-    sprintf(buffer, "%s.%03d", cpDate, millisec);
+    snprintf(buffer, sizeof(buffer), "%s.%03d", cpDate, millisec);
    return buffer;
 }
@@ -143,24 +143,44 @@ string Logger::getTimestamp()
 * \param	void
 * \return  string MAC address (formatted)
 */
-string Logger::getMacAddress()
+std::string Logger::getMacAddress()
 {
-    struct ifreq ifr;
+    struct ifaddrs *ifaddr, *ifa;
    int s = socket(AF_INET, SOCK_STREAM, 0);
-    strcpy(ifr.ifr_name, "eth0");
+    // default MAC if none found
-    if (ioctl(s, SIOCGIFHWADDR, &ifr) < 0)
+    std::string result = "00:00:00:00:00:00";
    if (getifaddrs(&ifaddr) == -1)
        return result;
    for (ifa = ifaddr; ifa != nullptr; ifa = ifa->ifa_next)
    {
-        strcpy(ifr.ifr_name, "eno1");
+        if (!ifa->ifa_addr)
            continue;
        // We want AF_PACKET interfaces (Ethernet)
        if (ifa->ifa_addr->sa_family == AF_PACKET &&
            !(ifa->ifa_flags & IFF_LOOPBACK) && // skip loopback interface
            (ifa->ifa_flags & IFF_UP))          // must be up
        {
            struct sockaddr_ll *s = (struct sockaddr_ll *)ifa->ifa_addr;
            if (s->sll_halen == 6)
            {
                char buf[32];
                snprintf(buf, sizeof(buf),
                         "%02X:%02X:%02X:%02X:%02X:%02X",
                         s->sll_addr[0], s->sll_addr[1], s->sll_addr[2],
                         s->sll_addr[3], s->sll_addr[4], s->sll_addr[5]);
                freeifaddrs(ifaddr);
                return std::string(buf);
            }
        }
    }
-    unsigned char *hwaddr = (unsigned char *)ifr.ifr_hwaddr.sa_data;
+    freeifaddrs(ifaddr);
-    char buffer[80];
+    return result;
    sprintf(buffer, "%02X:%02X:%02X:%02X:%02X:%02X", hwaddr[0], hwaddr[1], hwaddr[2],
            hwaddr[3], hwaddr[4], hwaddr[5]);
    close(s);
    string tmp = buffer;
    return tmp;
 }
 /**
@@ -6,6 +6,7 @@
 */
 #include "../include/reHDD.h"
 using namespace std;
 /**
 * \brief   app entry point
@@ -16,7 +17,7 @@ int main(void)
 {
    // cout << "refurbishingHddTool" << endl;
-    reHDD *app = new reHDD();
+    reHDD app;
-    app->app_logic();
+    app.app_logic();
    return EXIT_SUCCESS;
 }
@@ -42,18 +42,35 @@ void Printer::print(Drive *drive)
    t_msgQueueData msgQueueData;
    msgQueueData.msg_queue_type = 1;
-    sprintf(msgQueueData.driveData.caDriveIndex, "%i", 42); // TODO: get from tui
+    snprintf(msgQueueData.driveData.caDriveIndex, STR_BUFFER_SIZE, "%i", drive->u16DriveIndex);
-    sprintf(msgQueueData.driveData.caDriveState, "shredded");
+    snprintf(msgQueueData.driveData.caDriveState, STR_BUFFER_SIZE, "shredded");
-    strcpy(msgQueueData.driveData.caDriveModelFamily, drive->getModelFamily().c_str());
+    snprintf(msgQueueData.driveData.caDriveModelFamily, STR_BUFFER_SIZE, "%s", drive->getModelFamily().c_str());
-    strcpy(msgQueueData.driveData.caDriveModelName, drive->getModelName().c_str());
+    snprintf(msgQueueData.driveData.caDriveModelName, STR_BUFFER_SIZE, "%s", drive->getModelName().c_str());
-    sprintf(msgQueueData.driveData.caDriveCapacity, "%li", drive->getCapacity());
+    snprintf(msgQueueData.driveData.caDriveCapacity, STR_BUFFER_SIZE, "%li", drive->getCapacity());
-    strcpy(msgQueueData.driveData.caDriveSerialnumber, drive->getSerial().c_str());
+    snprintf(msgQueueData.driveData.caDriveSerialnumber, STR_BUFFER_SIZE, "%s", drive->getSerial().c_str());
-    sprintf(msgQueueData.driveData.caDriveHours, "%i", drive->getPowerOnHours());
+    snprintf(msgQueueData.driveData.caDriveHours, STR_BUFFER_SIZE, "%i", drive->getPowerOnHours());
-    sprintf(msgQueueData.driveData.caDriveCycles, "%i", drive->getPowerCycles());
+    snprintf(msgQueueData.driveData.caDriveCycles, STR_BUFFER_SIZE, "%i", drive->getPowerCycles());
-    sprintf(msgQueueData.driveData.caDriveErrors, "%i", drive->getErrorCount());
+    snprintf(msgQueueData.driveData.caDriveErrors, STR_BUFFER_SIZE, "%i", drive->getErrorCount());
-    sprintf(msgQueueData.driveData.caDriveShredTimestamp, "%li", drive->getActionStartTimestamp());
+    snprintf(msgQueueData.driveData.caDriveShredTimestamp, STR_BUFFER_SIZE, "%li", drive->getActionStartTimestamp());
-    sprintf(msgQueueData.driveData.caDriveShredDuration, "%li", drive->getTaskDuration());
+    snprintf(msgQueueData.driveData.caDriveShredDuration, STR_BUFFER_SIZE, "%li", drive->getTaskDuration());
-    sprintf(msgQueueData.driveData.caDriveReHddVersion, REHDD_VERSION);
+
    switch (drive->connectionType)
    {
    case Drive::ConnectionType::USB:
        strncpy(msgQueueData.driveData.caDriveConnectionType, "usb", STR_BUFFER_SIZE);
        break;
    case Drive::ConnectionType::SATA:
        strncpy(msgQueueData.driveData.caDriveConnectionType, "sata", STR_BUFFER_SIZE);
        break;
    case Drive::ConnectionType::NVME:
        strncpy(msgQueueData.driveData.caDriveConnectionType, "nvme", STR_BUFFER_SIZE);
        break;
    case Drive::ConnectionType::UNKNOWN:
    default:
        strncpy(msgQueueData.driveData.caDriveConnectionType, "na", STR_BUFFER_SIZE);
    }
    snprintf(msgQueueData.driveData.caDriveReHddVersion, STR_BUFFER_SIZE, "%s", REHDD_VERSION);
    if (-1 == msgsnd(this->msqid, &msgQueueData, sizeof(t_msgQueueData) - sizeof(long), 0))
    {
@@ -6,6 +6,7 @@
 */
 #include "../include/reHDD.h"
 using namespace std;
 static int fdNewDrivesInformPipe[2]; // File descriptor for pipe that informs if new drives are found
@@ -19,7 +20,7 @@ static list<Drive> listDrives; // stores all drive data from scan thread
 TUI *ui;
-static uint8_t u8SelectedEntry;
+static uint16_t u16SelectedEntry;
 static fd_set selectSet;
@@ -30,7 +31,7 @@ static fd_set selectSet;
 */
 reHDD::reHDD(void)
 {
-    u8SelectedEntry = 0U;
+    u16SelectedEntry = 0U;
 }
 /**
@@ -43,8 +44,15 @@ void reHDD::app_logic(void)
    ui = new TUI();
    ui->initTUI();
-    pipe(fdNewDrivesInformPipe);
+    if (pipe(fdNewDrivesInformPipe) == -1)
-    pipe(fdShredInformPipe);
+    {
        Logger::logThis()->error("Unable to open pipe 'fdNewDrivesInformPipe'");
    }
    if (pipe(fdShredInformPipe) == -1)
    {
        Logger::logThis()->error("Unable to open pipe 'fdShredInformPipe'");
    }
    thread thDevices(ThreadScanDevices);                 // start thread that scans for drives
    thread thUserInput(ThreadUserInput);                 // start thread that reads user input
@@ -76,7 +84,7 @@ void reHDD::app_logic(void)
            Logger::logThis()->info("got progress signal from a shred task");
 #endif
        }
-        ui->updateTUI(&listDrives, u8SelectedEntry);
+        ui->updateTUI(&listDrives, u16SelectedEntry);
    } // endless loop
    thDevices.join();
    thUserInput.join();
@@ -85,16 +93,20 @@ void reHDD::app_logic(void)
 Drive *reHDD::getSelectedDrive()
 {
-    if (u8SelectedEntry < listDrives.size())
+    mxDrives.lock();
    if (u16SelectedEntry < listDrives.size())
    {
        list<Drive>::iterator it = listDrives.begin();
-        advance(it, u8SelectedEntry);
+        advance(it, u16SelectedEntry);
        it->u16DriveIndex = u16SelectedEntry;
        mxDrives.unlock();
        return &(*it);
    }
    else
    {
        Logger::logThis()->warning("selected drive not present");
-        return {};
+        mxDrives.unlock();
        return nullptr;
    }
 }
@@ -121,7 +133,7 @@ void reHDD::ThreadCheckFrozenDrives()
        mxDrives.lock();
        for (auto it = begin(listDrives); it != end(listDrives); ++it)
        {
-            if (it->state == Drive::SHRED_ACTIVE)
+            if (it->state == Drive::TaskState::SHRED_ACTIVE)
            {
                it->checkFrozenDrive();
            }
@@ -135,18 +147,20 @@ void reHDD::ThreadUserInput()
 {
    while (true)
    {
        Drive *tmpSelectedDrive = getSelectedDrive();
        // cout << TUI::readUserInput() << endl;
        switch (TUI::readUserInput())
        {
        case TUI::UserInput::DownKey:
            // cout << "Down" << endl;
            handleArrowKey(TUI::UserInput::DownKey);
-            ui->updateTUI(&listDrives, u8SelectedEntry);
+            ui->updateTUI(&listDrives, u16SelectedEntry);
            break;
        case TUI::UserInput::UpKey:
            // cout << "Up" << endl;
            handleArrowKey(TUI::UserInput::UpKey);
-            ui->updateTUI(&listDrives, u8SelectedEntry);
+            ui->updateTUI(&listDrives, u16SelectedEntry);
            break;
        case TUI::UserInput::Undefined:
            // cout << "Undefined" << endl;
@@ -154,48 +168,66 @@ void reHDD::ThreadUserInput()
        case TUI::UserInput::Abort:
            // cout << "Abort" << endl;
            handleAbort();
-            ui->updateTUI(&listDrives, u8SelectedEntry);
+            ui->updateTUI(&listDrives, u16SelectedEntry);
            break;
        case TUI::UserInput::Delete:
            // cout << "Delete" << endl;
-            if (getSelectedDrive() != nullptr)
+            if (tmpSelectedDrive != nullptr)
            {
-                if (getSelectedDrive()->state == Drive::NONE)
+                if (tmpSelectedDrive->state == Drive::TaskState::NONE)
                {
-                    getSelectedDrive()->state = Drive::DELETE_SELECTED;
+                    tmpSelectedDrive->state = Drive::TaskState::DELETE_SELECTED;
                }
            }
-            ui->updateTUI(&listDrives, u8SelectedEntry);
+            ui->updateTUI(&listDrives, u16SelectedEntry);
            break;
        case TUI::UserInput::Shred:
            // cout << "Shred" << endl;
-
+            if (tmpSelectedDrive != nullptr)
            if (getSelectedDrive() != nullptr)
            {
-                if (getSelectedDrive()->state == Drive::NONE)
+                if (tmpSelectedDrive->state == Drive::TaskState::NONE)
                {
-                    getSelectedDrive()->state = Drive::SHRED_SELECTED;
+                    tmpSelectedDrive->state = Drive::TaskState::SHRED_SELECTED;
                }
            }
-
+            ui->updateTUI(&listDrives, u16SelectedEntry);
            ui->updateTUI(&listDrives, u8SelectedEntry);
            break;
        case TUI::UserInput::ShredAll:
            // cout << "ShredAll" << endl;
            startShredAllDrives(&listDrives);
-            ui->updateTUI(&listDrives, u8SelectedEntry);
+            ui->updateTUI(&listDrives, u16SelectedEntry);
            break;
        case TUI::UserInput::Enter:
            // cout << "Enter" << endl;
            handleEnter();
-            ui->updateTUI(&listDrives, u8SelectedEntry);
+            ui->updateTUI(&listDrives, u16SelectedEntry);
            break;
        case TUI::UserInput::ESC:
            // cout << "ESC" << endl;
            handleESC();
-            ui->updateTUI(&listDrives, u8SelectedEntry);
+            ui->updateTUI(&listDrives, u16SelectedEntry);
            break;
        case TUI::UserInput::Terminate:
            // cout << "Terminate" << endl;
            stopShredAllDrives(&listDrives);
            ui->terminateTUI();
            sleep(5);     // sleep 5 sec
            std::exit(1); // Terminates main, doesn't wait for threads
            break;
        case TUI::UserInput::Print:
            // cout << "Print" << endl;
            if (tmpSelectedDrive != nullptr)
            {
                printDrive(tmpSelectedDrive);
            }
            ui->updateTUI(&listDrives, u16SelectedEntry);
            break;
        case TUI::UserInput::PrintAll:
            // cout << "PrintAll" << endl;
            printAllDrives(&listDrives);
            ui->updateTUI(&listDrives, u16SelectedEntry);
            break;
        default:
            break;
@@ -203,28 +235,66 @@ void reHDD::ThreadUserInput()
    }
 }
 /**
 * \brief   print all shredded drives
 * \param	pointer of list <Drive>* plistDrives
 * \return  void
 */
 void reHDD::printAllDrives(list<Drive> *plistDrives)
 {
    list<Drive>::iterator it;
    mxDrives.lock();
    for (it = plistDrives->begin(); it != plistDrives->end(); ++it)
    {
        Drive *pTmpDrive = iterator_to_pointer<Drive, std::list<Drive>::iterator>(it);
        printDrive(pTmpDrive);
    }
    mxDrives.unlock();
 }
 /**
 * \brief   print a shredded drives
 * \param	pointer of a drive
 * \return  void
 */
 void reHDD::printDrive(Drive *const pDrive)
 {
    if (pDrive->bWasShredded)
    {
 #ifdef ZERO_CHECK
        if (pDrive->bWasChecked && (pDrive->u32DriveChecksumAfterShredding != 0U))
        {
            return; // Drive was shredded&checked but checksum failed, don't print label
        }
 #endif
        Logger::logThis()->info("User print for: " + pDrive->getModelName() + "-" + pDrive->getSerial());
        Printer::getPrinter()->print(pDrive);
    }
 }
 void reHDD::ThreadShred(Drive *const pDrive)
 {
    if (pDrive != nullptr)
    {
        pDrive->setActionStartTimestamp();                         // save timestamp at start of shredding
-        Shred *pShredTask = new Shred();                       // create new shred task
+        Shred *pShredInstance = new Shred();                       // create new shred task
-        pShredTask->shredDrive(pDrive, &fdShredInformPipe[1]); // start new shred task
+        pShredInstance->shredDrive(pDrive, &fdShredInformPipe[1]); // start new shred task
-        delete pShredTask;                                     // delete shred task
+        delete pShredInstance;                                     // delete shred task
-        ui->updateTUI(&listDrives, u8SelectedEntry);
+        ui->updateTUI(&listDrives, u16SelectedEntry);
    }
 }
-void reHDD::ThreadDelete()
+void reHDD::ThreadDelete(Drive *const pDrive)
 {
-    if (getSelectedDrive() != nullptr)
+    if (pDrive != nullptr)
    {
-        getSelectedDrive()->setActionStartTimestamp();      // save timestamp at start of deleting
+        pDrive->state = Drive::TaskState::DELETE_ACTIVE;
-        Delete::deleteDrive(getSelectedDrive());            // blocking, no thread
+        pDrive->setActionStartTimestamp();      // save timestamp at start of deleting
-        getSelectedDrive()->state = Drive::TaskState::NONE; // delete finished
+        Delete::deleteDrive(pDrive);            // blocking, no thread
-        getSelectedDrive()->bWasDeleted = true;
+        pDrive->state = Drive::TaskState::NONE; // delete finished
-        Logger::logThis()->info("Finished delete for: " + getSelectedDrive()->getModelName() + "-" + getSelectedDrive()->getSerial());
+        pDrive->bWasDeleted = true;
-        ui->updateTUI(&listDrives, u8SelectedEntry);
+        Logger::logThis()->info("Finished delete for: " + pDrive->getModelName() + "-" + pDrive->getSerial());
        ui->updateTUI(&listDrives, u16SelectedEntry);
    }
 }
@@ -262,7 +332,7 @@ void reHDD::filterNewDrives(list<Drive> *plistOldDrives, list<Drive> *plistNewDr
            {
                itOld->bIsOffline = false; // drive is still attached
                // copy new smart data to existing drive
-                itOld->setDriveSMARTData(itNew->getModelFamily(), itNew->getModelName(), itNew->getSerial(), itNew->getCapacity(), itNew->getErrorCount(), itNew->getPowerOnHours(), itNew->getPowerCycles(), itNew->getTemperature());
+                itOld->setDriveSMARTData(itNew->getModelFamily(), itNew->getModelName(), itNew->getSerial(), itNew->getCapacity(), itNew->getErrorCount(), itNew->getPowerOnHours(), itNew->getPowerCycles(), itNew->getTemperature(), itNew->getReallocatedSectors(), itNew->getPendingSectors(), itNew->getUncorrectableSectors());
 #ifdef LOG_LEVEL_HIGH
                Logger::logThis()->info("Delete new drive, because already attached: " + itNew->getModelName());
 #endif
@@ -282,7 +352,7 @@ void reHDD::filterNewDrives(list<Drive> *plistOldDrives, list<Drive> *plistNewDr
        {
            // cout << "offline drive found: " << itOld->getPath() << endl;
            Logger::logThis()->warning("Mark offline drive found: " + itOld->getPath());
-            itOld->state = Drive::NONE; // clear state --> shred task will terminate
+            itOld->state = Drive::TaskState::NONE; // clear state --> shred task will terminate
        }
    }
@@ -300,98 +370,198 @@ void reHDD::filterNewDrives(list<Drive> *plistOldDrives, list<Drive> *plistNewDr
 * \param	pointer of list <Drive>* plistDrives
 * \return  void
 */
-void reHDD::searchDrives(list<Drive> *plistDrives)
+void reHDD::searchDrives(std::list<Drive> *plistDrives)
 {
-    // Logger::logThis()->info("-->    search drives   <--");
+    FILE *fp = popen("lsblk -d -n -o NAME,TRAN", "r");
-    char *cLine = NULL;
+    if (!fp)
    size_t len = 0;
    FILE *outputfileHwinfo = popen("lsblk -e 11 -d -o NAME", "r");
    if (outputfileHwinfo == NULL)
    {
-        Logger::logThis()->error("Unable to scan attached drives");
+        Logger::logThis()->error("Unable to execute lsblk to scan drives");
        exit(EXIT_FAILURE);
    }
-    while ((getline(&cLine, &len, outputfileHwinfo)) != -1)
+    char line[256];
    while (fgets(line, sizeof(line), fp))
    {
-        if (string(cLine).length() == 4)
+        std::string devName, transport;
-        {
+        std::istringstream iss(line);
-            Drive *tmpDrive = new Drive("/dev/" + string(cLine).substr(0, 3));
+        iss >> devName >> transport;
-            tmpDrive->state = Drive::NONE;
+
-            tmpDrive->bIsOffline = false;
+        if (devName.empty())
-            plistDrives->push_back(*tmpDrive);
+            continue;
-            // Logger::logThis()->info("SATA drive found: " + tmpDrive->getPath());
+
        Drive tmpDrive("/dev/" + devName);
        tmpDrive.state = Drive::TaskState::NONE;
        tmpDrive.bIsOffline = false;
        // Set connection type
        if (transport == "sata")
            tmpDrive.connectionType = Drive::ConnectionType::SATA;
        else if (transport == "usb")
            tmpDrive.connectionType = Drive::ConnectionType::USB;
        else if (transport == "nvme")
            tmpDrive.connectionType = Drive::ConnectionType::NVME;
        else
            tmpDrive.connectionType = Drive::ConnectionType::UNKNOWN;
        plistDrives->push_back(tmpDrive);
        Logger::logThis()->info(
            "Drive found: " + tmpDrive.getPath() +
            " (type: " +
            (tmpDrive.connectionType == Drive::ConnectionType::USB ? "USB" : tmpDrive.connectionType == Drive::ConnectionType::SATA ? "SATA"
                                                                         : tmpDrive.connectionType == Drive::ConnectionType::NVME   ? "NVME"
                                                                                                                                    : "UNKNOWN") +
            ")");
    }
-        if (string(cLine).length() == 8)
+    pclose(fp);
        {
            Drive *tmpDrive = new Drive("/dev/" + string(cLine).substr(0, 7));
            tmpDrive->state = Drive::NONE;
            tmpDrive->bIsOffline = false;
            plistDrives->push_back(*tmpDrive);
            // Logger::logThis()->info("NVME drive found: " + tmpDrive->getPath());
        }
    }
    pclose(outputfileHwinfo);
 }
 /**
- * \brief   filter out drives that are listed in "ignoreDrives.conf"
+ * \brief   filter out drives that are listed in "ignoreDrives.conf", loop devices, and optical drives
 * \param   pointer of list <Drive>* plistDrives
 * \return  void
 */
 void reHDD::filterIgnoredDrives(list<Drive> *plistDrives)
 {
-    list<tuple<string>> vtlIgnoredDevices; // store drives from ignore file
+    string systemDrivePath;
-    ifstream input("ignoreDrives.conf");   // read ignore file
+    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
            {
                // system drive found --> ignore this drive
 #ifdef LOG_LEVEL_HIGH
                Logger::logThis()->info("system drive found --> ignore this drive: " + it->getPath());
 #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");
    for (string sLine; getline(input, sLine);)
    {
-        // Logger::logThis()->info("read uuid: " + sLine);
+        // Skip empty lines and comments
-        vtlIgnoredDevices.emplace_back(sLine); // add found path and uuid from ignore file to vector
+        if (!sLine.empty() && sLine[0] != '#')
        {
            vtlIgnoredDevices.emplace_back(sLine);
        }
-    // loop through found entries in ignore file
+    }
    // Loop through found entries in ignore file
    for (auto row : vtlIgnoredDevices)
    {
-        list<Drive>::iterator it;
+        it = plistDrives->begin();
-        for (it = plistDrives->begin(); it != plistDrives->end(); ++it)
+        while (it != plistDrives->end())
        {
            string sUUID;
            char *cLine = NULL;
            size_t len = 0;
            string sCMD = "blkid ";
            sCMD.append(it->getPath());
-            // cout << "cmd: " << sCMD << endl;
+
-            FILE *outputfileBlkid = popen(sCMD.c_str(), "r"); // get UUID from drive
+            FILE *outputfileBlkid = popen(sCMD.c_str(), "r");
            if (outputfileBlkid == NULL)
            {
-                exit(EXIT_FAILURE);
+                Logger::logThis()->error("Failed to execute blkid for: " + it->getPath());
                ++it;
                continue;
            }
-            while ((getline(&cLine, &len, outputfileBlkid)) != -1) // parse UUID from blkid
+            while ((getline(&cLine, &len, outputfileBlkid)) != -1)
            {
-                if (string(cLine).find("PTUUID") != string::npos)
+                size_t ptuuidPos = string(cLine).find("PTUUID");
                if (ptuuidPos != string::npos)
                {
                    string sBlkidOut = string(cLine);
-                    sBlkidOut.erase(0, 18);
+                    sBlkidOut.erase(0, ptuuidPos + 8);
                    if (sBlkidOut.length() >= 8)
                    {
                        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)) // compare uuid from ignore file and uuid from drive
+            if (!get<0>(row).compare(sUUID))
            {
                // same uuid found than in ignore file --> ignore this drive
 #ifdef LOG_LEVEL_HIGH
-                Logger::logThis()->info("same uuid found than in ignore file --> ignore this drive: " + it->getPath());
+                Logger::logThis()->info("same uuid found in ignore file --> ignore this drive: " + it->getPath());
 #endif
                it = plistDrives->erase(it);
-                it--;
+            }
            else
            {
                ++it;
            }
        }
    }
@@ -413,7 +583,6 @@ void reHDD::filterInvalidDrives(list<Drive> *plistDrives)
            Logger::logThis()->info("Drive reports zero capacity --> ignore this drive: " + it->getPath());
 #endif
            it = plistDrives->erase(it);
            it--;
        }
    }
 }
@@ -429,7 +598,7 @@ void reHDD::startShredAllDrives(list<Drive> *plistDrives)
    mxDrives.lock();
    for (it = plistDrives->begin(); it != plistDrives->end(); ++it)
    {
-        if (it->state == Drive::NONE)
+        if (it->state == Drive::TaskState::NONE)
        {
            Drive *pTmpDrive = iterator_to_pointer<Drive, std::list<Drive>::iterator>(it);
 #ifdef LOG_LEVEL_HIGH
@@ -437,13 +606,40 @@ 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();
        }
    }
    mxDrives.unlock();
 }
 /**
 * \brief   stop shred for all drives
 * \param	pointer of list <Drive>* plistDrives
 * \return  void
 */
 void reHDD::stopShredAllDrives(list<Drive> *plistDrives)
 {
    list<Drive>::iterator it;
    mxDrives.lock();
    for (it = plistDrives->begin(); it != plistDrives->end(); ++it)
    {
        if (it->state == Drive::TaskState::SHRED_ACTIVE || it->state == Drive::TaskState::DELETE_ACTIVE)
        {
            it->state = Drive::TaskState::NONE;
            Logger::logThis()->info("Abort-Shred-Signal for: " + it->getModelName() + "-" + it->getSerial());
            // task for drive is running --> remove selection
        }
 #ifdef LOG_LEVEL_HIGH
        ostringstream address;
        address << (void const *)&(*it);
        Logger::logThis()->info("Started shred (all) for: " + it->getModelName() + "-" + it->getSerial() + " @" + address.str());
 #endif
    }
    mxDrives.unlock();
 }
 /**
 * \brief   print drives with all information
 * \param	pointer of list <Drive>* plistDrives
@@ -489,18 +685,20 @@ void reHDD::updateShredMetrics(list<Drive> *plistDrives)
    list<Drive>::iterator it;
    for (it = plistDrives->begin(); it != plistDrives->end(); ++it)
    {
-        if (it->state == Drive::SHRED_ACTIVE)
+        if (it->state == Drive::TaskState::SHRED_ACTIVE)
        {
            Drive *pTmpDrive = iterator_to_pointer<Drive, std::list<Drive>::iterator>(it);
            // set metrics for calculating shred speed
            std::chrono::time_point<std::chrono::system_clock> chronoCurrentTimestamp = std::chrono::system_clock::now();
-            time_t u32ShredTimeDelta = (chronoCurrentTimestamp - pTmpDrive->sShredSpeed.chronoShredTimestamp).count();
+            auto shredSpeed = pTmpDrive->sShredSpeed.load();
            time_t u32ShredTimeDelta = (chronoCurrentTimestamp - shredSpeed.chronoShredTimestamp).count();
            if (u32ShredTimeDelta > METRIC_THRESHOLD)
            {
-                pTmpDrive->sShredSpeed.u32ShredTimeDelta = u32ShredTimeDelta;
+                shredSpeed.u32ShredTimeDelta = u32ShredTimeDelta;
-                pTmpDrive->sShredSpeed.chronoShredTimestamp = std::chrono::system_clock::now();
+                shredSpeed.chronoShredTimestamp = std::chrono::system_clock::now();
-                pTmpDrive->sShredSpeed.ulWrittenBytes = pTmpDrive->sShredSpeed.ulSpeedMetricBytesWritten;
+                shredSpeed.ulWrittenBytes = shredSpeed.ulSpeedMetricBytesWritten;
-                pTmpDrive->sShredSpeed.ulSpeedMetricBytesWritten = 0U;
+                shredSpeed.ulSpeedMetricBytesWritten = 0U;
                pTmpDrive->sShredSpeed.store(shredSpeed);
            }
        }
    }
@@ -523,28 +721,28 @@ void reHDD::addSMARTData(list<Drive> *plistDrives)
 void reHDD::handleArrowKey(TUI::UserInput userInput)
 {
-    int8_t u8EntrySize = (int8_t)listDrives.size();
+    uint8_t u8EntrySize = (uint8_t)listDrives.size();
    switch (userInput)
    {
    case TUI::UserInput::DownKey:
-        u8SelectedEntry++;
+        u16SelectedEntry++;
-        if (u8SelectedEntry >= u8EntrySize)
+        if (u16SelectedEntry >= u8EntrySize)
        {
-            u8SelectedEntry = 0;
+            u16SelectedEntry = 0;
        }
        break;
    case TUI::UserInput::UpKey:
-        if (u8SelectedEntry == 0)
+        if (u16SelectedEntry == 0)
        {
-            u8SelectedEntry = (u8EntrySize - 1);
+            u16SelectedEntry = (u8EntrySize - 1);
        }
        else
        {
-            u8SelectedEntry--;
+            u16SelectedEntry--;
        }
        break;
    default:
-        u8SelectedEntry = 0;
+        u16SelectedEntry = 0;
        break;
    }
@@ -553,41 +751,37 @@ void reHDD::handleArrowKey(TUI::UserInput userInput)
 void reHDD::handleEnter()
 {
-
+    Drive *tmpSelectedDrive = getSelectedDrive();
-    if (getSelectedDrive() != nullptr)
+    if (tmpSelectedDrive != nullptr)
    {
-        if (getSelectedDrive()->state == Drive::TaskState::SHRED_SELECTED)
+        if (tmpSelectedDrive->state == Drive::TaskState::SHRED_SELECTED)
        {
-            Logger::logThis()->info("Started shred/check for: " + getSelectedDrive()->getModelName() + "-" + getSelectedDrive()->getSerial());
+            Logger::logThis()->info("Started shred/check for: " + tmpSelectedDrive->getModelName() + "-" + tmpSelectedDrive->getSerial());
-            getSelectedDrive()->state = Drive::TaskState::SHRED_ACTIVE;
+            thread(ThreadShred, tmpSelectedDrive).detach();
            // task for drive is running --> don´t show  more task options
            Drive *pTmpDrive = getSelectedDrive();
            thread(ThreadShred, pTmpDrive).detach();
        }
-        if (getSelectedDrive()->state == Drive::TaskState::DELETE_SELECTED)
+        if (tmpSelectedDrive->state == Drive::TaskState::DELETE_SELECTED)
        {
-            Logger::logThis()->info("Started delete for: " + getSelectedDrive()->getModelName() + "-" + getSelectedDrive()->getSerial());
+            Logger::logThis()->info("Started delete for: " + tmpSelectedDrive->getModelName() + "-" + tmpSelectedDrive->getSerial());
-            getSelectedDrive()->state = Drive::TaskState::DELETE_ACTIVE;
+            thread(ThreadDelete, tmpSelectedDrive).detach();
            // task for drive is running --> don´t show  more task options
            thread(ThreadDelete).detach();
        }
    }
 }
 void reHDD::handleESC()
 {
-    if (getSelectedDrive() != nullptr)
+    Drive *tmpSelectedDrive = getSelectedDrive();
    if (tmpSelectedDrive != nullptr)
    {
-        if (getSelectedDrive()->state == Drive::TaskState::SHRED_SELECTED)
+        if (tmpSelectedDrive->state == Drive::TaskState::SHRED_SELECTED)
        {
-            getSelectedDrive()->state = Drive::TaskState::NONE;
+            tmpSelectedDrive->state = Drive::TaskState::NONE;
            // task for drive is selected --> remove selection
        }
-        if (getSelectedDrive()->state == Drive::TaskState::DELETE_SELECTED)
+        if (tmpSelectedDrive->state == Drive::TaskState::DELETE_SELECTED)
        {
-            getSelectedDrive()->state = Drive::TaskState::NONE;
+            tmpSelectedDrive->state = Drive::TaskState::NONE;
            // task for drive is selected --> remove selection
        }
    }
@@ -595,13 +789,91 @@ void reHDD::handleESC()
 void reHDD::handleAbort()
 {
-    if (getSelectedDrive() != nullptr)
+    Drive *tmpSelectedDrive = getSelectedDrive();
    if (tmpSelectedDrive != nullptr)
    {
-        if (getSelectedDrive()->state == Drive::SHRED_ACTIVE || getSelectedDrive()->state == Drive::DELETE_ACTIVE)
+        if (tmpSelectedDrive->state == Drive::TaskState::SHRED_ACTIVE || tmpSelectedDrive->state == Drive::TaskState::DELETE_ACTIVE)
        {
-            getSelectedDrive()->state = Drive::NONE;
+            tmpSelectedDrive->state = Drive::TaskState::NONE;
-            Logger::logThis()->info("Abort-Shred-Signal for: " + getSelectedDrive()->getModelName() + "-" + getSelectedDrive()->getSerial());
+            Logger::logThis()->info("Abort-Shred-Signal for: " + tmpSelectedDrive->getModelName() + "-" + tmpSelectedDrive->getSerial());
            // task for drive is running --> remove selection
        }
    }
 }
 bool reHDD::getSystemDrive(string &systemDrive)
 {
    char *cLine = NULL;
    size_t len = 0;
    bool systemDriveFound = false;
    FILE *outputfileHwinfo = popen("lsblk -e 11 -o NAME,MOUNTPOINT", "r");
    if (outputfileHwinfo == NULL)
    {
        Logger::logThis()->error("Unable to scan attached drives for system drive");
        exit(EXIT_FAILURE);
    }
    while ((getline(&cLine, &len, outputfileHwinfo)) != -1)
    {
        string currentLine = cLine;
        if (currentLine.find("NAME") != std::string::npos)
        {
            continue;
        }
        // Extract drive name from line (removing tree characters)
        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);
        }
        if (currentLine.ends_with(" /boot/efi\n"s))
        {
            systemDriveFound = true;
            break;
        }
        if (currentLine.ends_with(" /run/overlay/live\n"s))
        {
            systemDriveFound = true;
            break;
        }
        if (currentLine.ends_with(" /\n"s))
        {
            systemDriveFound = true;
            break;
        }
    }
    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;
 }
@@ -6,6 +6,7 @@
 */
 #include "../include/reHDD.h"
 using namespace std;
 #ifdef __cplusplus
 extern "C"
@@ -20,142 +21,448 @@ const static char *randomsrc = (char *)"/dev/urandom";
 Shred::Shred()
 {
 #ifdef ADAPTIVE_CHUNK_SIZE
    // Allocate aligned buffers for maximum chunk size
    if (posix_memalign((void **)&caTfngData, 4096, CHUNK_SIZE_MAX) != 0)
    {
        Logger::logThis()->error("Failed to allocate aligned buffer for tfng data");
        caTfngData = nullptr;
    }
    if (posix_memalign((void **)&caReadBuffer, 4096, CHUNK_SIZE_MAX) != 0)
    {
        Logger::logThis()->error("Failed to allocate aligned buffer for read buffer");
        caReadBuffer = nullptr;
    }
    // Initialize adaptive tracking variables
    currentChunkSize = CHUNK_SIZE_START;
    bestChunkSize = CHUNK_SIZE_START;
    chunkCounter = 0;
    bestThroughputMBps = 0.0;
    lastThroughputMBps = 0.0;
    bytesWrittenInMeasurement = 0;
    throughputIncreasing = true;
    Logger::logThis()->info("Adaptive chunk size optimization ENABLED - Starting with " +
                            to_string(currentChunkSize / (1024 * 1024)) + " MB chunks");
 #endif
 }
 Shred::~Shred()
 {
 #ifdef ADAPTIVE_CHUNK_SIZE
    if (caTfngData != nullptr)
    {
        free(caTfngData);
        caTfngData = nullptr;
    }
    if (caReadBuffer != nullptr)
    {
        free(caReadBuffer);
        caReadBuffer = nullptr;
    }
 #endif
 }
 #ifdef ADAPTIVE_CHUNK_SIZE
 /**
 * \brief   Start performance measurement interval
 * \return  void
 */
 void Shred::startMeasurement()
 {
    measurementStartTime = std::chrono::high_resolution_clock::now();
    bytesWrittenInMeasurement = 0;
    chunkCounter = 0;
 }
 /**
 * \brief   shred drive with shred
 * \param   pointer of Drive instance
 * \param   file descriptor for signaling
 * \return  0 on success, -1 on error
 */
 void Shred::evaluateThroughput(Drive *drive)
 {
    auto measurementEndTime = std::chrono::high_resolution_clock::now();
    std::chrono::duration<double> elapsed = measurementEndTime - measurementStartTime;
    double elapsedSeconds = elapsed.count();
    if (elapsedSeconds > 0.0)
    {
        double throughputMBps = (bytesWrittenInMeasurement / (1024.0 * 1024.0)) / elapsedSeconds;
        lastThroughputMBps = throughputMBps;
        Logger::logThis()->info("Throughput measurement - ChunkSize: " +
                                to_string(currentChunkSize / (1024 * 1024)) + " MB, " +
                                "Throughput: " + to_string((int)throughputMBps) + " MB/s, " +
                                "Best: " + to_string((int)bestThroughputMBps) + " MB/s" +
                                " - Drive: " + drive->getSerial());
        // Check if this is better than our best
        if (throughputMBps > bestThroughputMBps)
        {
            bestThroughputMBps = throughputMBps;
            bestChunkSize = currentChunkSize;
            throughputIncreasing = true;
            Logger::logThis()->info("NEW BEST throughput: " + to_string((int)bestThroughputMBps) +
                                    " MB/s with " + to_string(currentChunkSize / (1024 * 1024)) +
                                    " MB chunks - Drive: " + drive->getSerial());
        }
        else
        {
            throughputIncreasing = false;
        }
    }
    // Adjust chunk size for next measurement interval
    adjustChunkSize(drive);
    // Start new measurement
    startMeasurement();
 }
 /**
 * \brief   Adjust chunk size based on throughput trend
 * \param   pointer to Drive instance
 * \return  void
 */
 void Shred::adjustChunkSize(Drive *drive)
 {
    size_t oldChunkSize = currentChunkSize;
    if (throughputIncreasing)
    {
        // Throughput is improving - increase chunk size
        currentChunkSize += CHUNK_SIZE_STEP_UP;
        // Clamp to maximum
        if (currentChunkSize > CHUNK_SIZE_MAX)
        {
            currentChunkSize = CHUNK_SIZE_MAX;
            Logger::logThis()->info("Reached maximum chunk size: " +
                                    to_string(currentChunkSize / (1024 * 1024)) + " MB" +
                                    " - Drive: " + drive->getSerial());
        }
    }
    else
    {
        // Throughput decreased - decrease chunk size to find sweet spot
        if (currentChunkSize > CHUNK_SIZE_STEP_DOWN)
        {
            currentChunkSize -= CHUNK_SIZE_STEP_DOWN;
        }
        // Clamp to minimum
        if (currentChunkSize < CHUNK_SIZE_MIN)
        {
            currentChunkSize = CHUNK_SIZE_MIN;
            Logger::logThis()->info("Reached minimum chunk size: " +
                                    to_string(currentChunkSize / (1024 * 1024)) + " MB" +
                                    " - Drive: " + drive->getSerial());
        }
    }
    if (oldChunkSize != currentChunkSize)
    {
        Logger::logThis()->info("Adjusted chunk size: " +
                                to_string(oldChunkSize / (1024 * 1024)) + " MB -> " +
                                to_string(currentChunkSize / (1024 * 1024)) + " MB" +
                                " - Drive: " + drive->getSerial());
    }
 }
 /**
 * \brief   Get current chunk size for adaptive mode
 * \return  current chunk size in bytes
 */
 size_t Shred::getCurrentChunkSize() const
 {
    return currentChunkSize;
 }
 #endif
 /**
 * \brief   shred drive with shred
 * \param   pointer of Drive instance
 * \param   file descriptor for signaling
 * \return  0 on success, -1 on error
 */
 int Shred::shredDrive(Drive *drive, int *ipSignalFd)
 {
    ostringstream address;
    address << (void const *)&(*drive);
    Logger::logThis()->info("Shred-Task started - Drive: " + drive->getModelName() + "-" + drive->getSerial() + " @" + address.str());
    // Mark as started but NOT shredded yet
    drive->bWasShredStarted = true;
    drive->bWasShredded = false;
    drive->bWasChecked = false;
    drive->setTaskPercentage(0.0);
    drive->u32DriveChecksumAfterShredding = UINT32_MAX;
    drive->state = Drive::TaskState::SHRED_ACTIVE;
 #ifdef DRYRUN
-    for (int i = 0; i <= 500; i++)
+    for (int i = 0; i <= 100; i++)
    {
-        if (drive->state != Drive::SHRED_ACTIVE)
+        if (drive->state.load() != Drive::TaskState::SHRED_ACTIVE)
        {
-            return 0;
+            Logger::logThis()->info("Shred-Task aborted during DRYRUN - Drive: " + drive->getSerial());
        }
            drive->setTaskPercentage(i + 0.05);
            drive->state = Drive::TaskState::NONE;
            drive->bWasShredded = false; // CRITICAL: Mark as NOT shredded on abort
            return -1;
        }
        drive->setTaskPercentage((double)i);
        write(*ipSignalFd, "A", 1);
        usleep(20000);
    }
    // Only mark as shredded if DRYRUN completed successfully
    drive->bWasShredded = true;
    drive->setTaskPercentage(0.0);
    drive->state = Drive::TaskState::NONE;
    Logger::logThis()->info("DRYRUN completed - Drive: " + drive->getSerial());
    return 0;
 #endif
 #ifndef DRYRUN
-    const char *cpDrivePath = drive->getPath().c_str();
+    string sDrivePath = drive->getPath();
    const char *cpDrivePath = sDrivePath.c_str();
    unsigned char ucKey[TFNG_KEY_SIZE];
-    // open random source
+#ifdef ADAPTIVE_CHUNK_SIZE
    // Validate buffers were allocated
    if (caTfngData == nullptr || caReadBuffer == nullptr)
    {
        Logger::logThis()->error("Shred-Task: Aligned buffers not allocated! - Drive: " + drive->getSerial());
        return -1;
    }
 #endif
    // Open random source
    Logger::logThis()->info("Shred-Task: Opening random source: " + string(randomsrc) + " - Drive: " + drive->getSerial());
    randomSrcFileDiscr = open(randomsrc, O_RDONLY | O_LARGEFILE);
    if (randomSrcFileDiscr == -1)
    {
-        std::string errorMsg(strerror(randomSrcFileDiscr));
+        int savedErrno = errno;
-        Logger::logThis()->error("Shred-Task: Open random source failed! " + errorMsg + " - Drive: " + drive->getSerial());
+        Logger::logThis()->error("Shred-Task: Open random source failed! Path: " + string(randomsrc) +
-        perror(randomsrc);
+                                 " - Error: " + strerror(savedErrno) + " (errno: " + to_string(savedErrno) + ")" +
-        cleanup();
+                                 " - Drive: " + drive->getSerial());
        // Reset drive state on error - NOT shredded
        drive->state = Drive::TaskState::NONE;
        drive->setTaskPercentage(0.0);
        drive->bWasShredStarted = false;
        drive->bWasShredded = false;
        return -1;
    }
    Logger::logThis()->info("Shred-Task: Random source opened successfully (fd: " + to_string(randomSrcFileDiscr) + ") - Drive: " + drive->getSerial());
-    // open disk
+    // Open disk
    driveFileDiscr = open(cpDrivePath, O_RDWR | O_LARGEFILE);
    if (driveFileDiscr == -1)
    {
-        std::string errorMsg(strerror(driveFileDiscr));
+        int savedErrno = errno;
-        Logger::logThis()->error("Shred-Task: Open drive failed! " + errorMsg + " - Drive: " + drive->getSerial());
+        string errorDetail;
-        perror(cpDrivePath);
+
-        cleanup();
+        switch (savedErrno)
-        return -1;
+        {
        case ENOMEDIUM:
            errorDetail = "No medium found (drive may be empty or disconnected)";
            break;
        case EACCES:
            errorDetail = "Permission denied (need root/sudo?)";
            break;
        case ENOENT:
            errorDetail = "Drive not found (device may have been removed)";
            break;
        case EROFS:
            errorDetail = "Read-only file system";
            break;
        case EBUSY:
            errorDetail = "Drive is busy (may be mounted or in use)";
            break;
        case EINVAL:
            errorDetail = "Invalid argument";
            break;
        default:
            errorDetail = strerror(savedErrno);
            break;
        }
-    // read key for random generator
+        Logger::logThis()->error("Shred-Task: Open drive failed! Path: " + string(cpDrivePath) +
                                 " - Error: " + errorDetail + " (errno: " + to_string(savedErrno) + ")" +
                                 " - Drive: " + drive->getSerial() + " - Model: " + drive->getModelName());
        // Close random source before returning
        close(randomSrcFileDiscr);
        randomSrcFileDiscr = -1;
        // Reset drive state on error - NOT shredded
        drive->state = Drive::TaskState::NONE;
        drive->setTaskPercentage(0.0);
        drive->bWasShredStarted = false;
        drive->bWasShredded = false;
        return -1;
    }
    Logger::logThis()->info("Shred-Task: Drive opened successfully (fd: " + to_string(driveFileDiscr) + ") - Drive: " + drive->getSerial());
    // Read key for random generator
    Logger::logThis()->info("Shred-Task: Reading random key - Drive: " + drive->getSerial());
    ssize_t readRet = read(randomSrcFileDiscr, ucKey, sizeof(ucKey));
    if (readRet <= 0)
    {
-        std::string errorMsg(strerror(readRet));
+        int savedErrno = errno;
-        Logger::logThis()->error("Shred-Task: Read random key failed! " + errorMsg + " - Drive: " + drive->getSerial());
+        Logger::logThis()->error("Shred-Task: Read random key failed! Expected: " + to_string(sizeof(ucKey)) +
-        perror(randomsrc);
+                                 " bytes, Got: " + to_string(readRet) + " bytes" +
                                 " - Error: " + strerror(savedErrno) + " (errno: " + to_string(savedErrno) + ")" +
                                 " - Drive: " + drive->getSerial());
        cleanup();
        // Reset drive state on error - NOT shredded
        drive->state = Drive::TaskState::NONE;
        drive->setTaskPercentage(0.0);
        drive->bWasShredStarted = false;
        drive->bWasShredded = false;
        return -1;
    }
    Logger::logThis()->info("Shred-Task: Random key read successfully (" + to_string(readRet) + " bytes) - Drive: " + drive->getSerial());
    tfng_prng_seedkey(ucKey);
    this->ulDriveByteSize = getDriveSizeInBytes(driveFileDiscr);
-    drive->sShredSpeed.chronoShredTimestamp = std::chrono::system_clock::now();
+    if (this->ulDriveByteSize == 0)
-    ;                                                  // set inital timestamp for speed metric
+    {
-    drive->sShredSpeed.ulSpeedMetricBytesWritten = 0U; // uses to calculate speed metric
+        Logger::logThis()->error("Shred-Task: Drive size is 0 bytes! Drive may be empty or size detection failed - Drive: " + drive->getSerial());
        cleanup();
        // Reset drive state on error - NOT shredded
        drive->state = Drive::TaskState::NONE;
        drive->setTaskPercentage(0.0);
        drive->bWasShredStarted = false;
        drive->bWasShredded = false;
        return -1;
    }
    Drive::ShredSpeed shredSpeed = drive->sShredSpeed.load();
    shredSpeed.chronoShredTimestamp = std::chrono::system_clock::now();
    shredSpeed.ulSpeedMetricBytesWritten = 0U;
    drive->sShredSpeed.store(shredSpeed);
 #ifdef LOG_LEVEL_HIGH
    Logger::logThis()->info("Shred-Task: Bytes-Size of Drive: " + to_string(this->ulDriveByteSize) + " - Drive: " + drive->getSerial());
 #endif
 #ifdef ADAPTIVE_CHUNK_SIZE
    // Start first measurement interval
    startMeasurement();
 #endif
    // Main shredding loop
    for (unsigned int uiShredIterationCounter = 0U; uiShredIterationCounter < SHRED_ITERATIONS; uiShredIterationCounter++)
    {
-        unsigned long ulDriveByteCounter = 0U; // used for one shred-iteration to keep track of the current drive position
+        // Logger::logThis()->info("Shred-Task: Starting iteration " + to_string(uiShredIterationCounter + 1) + "/" + to_string(SHRED_ITERATIONS) + " - Drive: " + drive->getSerial());
        unsigned long ulDriveByteCounter = 0U;
        if (uiShredIterationCounter == (SHRED_ITERATIONS - 1))
        {
            // last shred iteration --> overwrite (just the write chunk) bytes with zeros instead with random data
 #ifdef ADAPTIVE_CHUNK_SIZE
            memset(caTfngData, 0U, CHUNK_SIZE_MAX);
 #else
            memset(caTfngData, 0U, CHUNK_SIZE);
 #endif
        }
        while (ulDriveByteCounter < ulDriveByteSize)
        {
-            int iBytesToShred = 0; // Bytes that will be overwritten in this chunk-iteration
+#ifdef ADAPTIVE_CHUNK_SIZE
            size_t activeChunkSize = getCurrentChunkSize();
 #else
            size_t activeChunkSize = CHUNK_SIZE;
 #endif
            int iBytesToShred = 0;
            if (uiShredIterationCounter != (SHRED_ITERATIONS - 1))
            {
-                // NOT last shred iteration --> generate new random data
+#ifdef ADAPTIVE_CHUNK_SIZE
                tfng_prng_genrandom(caTfngData, activeChunkSize);
 #else
                tfng_prng_genrandom(caTfngData, TFNG_DATA_SIZE);
 #endif
            }
-            if ((ulDriveByteSize - ulDriveByteCounter) < CHUNK_SIZE)
+            if ((ulDriveByteSize - ulDriveByteCounter) < activeChunkSize)
            {
                iBytesToShred = (ulDriveByteSize - ulDriveByteCounter);
            }
            else
            {
-                iBytesToShred = CHUNK_SIZE;
+                iBytesToShred = activeChunkSize;
            }
            int iByteShredded = write(driveFileDiscr, caTfngData, iBytesToShred);
            if (iByteShredded <= 0)
            {
-                std::string errorMsg(strerror(iByteShredded));
+                int savedErrno = errno;
-                Logger::logThis()->error("Shred-Task: Write to drive failed! " + errorMsg + " - Drive: " + drive->getSerial());
+                Logger::logThis()->error("Shred-Task: Write to drive failed! Attempted: " + to_string(iBytesToShred) +
-                perror("unable to write random data");
+                                         " bytes, Written: " + to_string(iByteShredded) + " bytes" +
                                         " - Position: " + to_string(ulDriveByteCounter) + "/" + to_string(ulDriveByteSize) +
                                         " - Iteration: " + to_string(uiShredIterationCounter + 1) + "/" + to_string(SHRED_ITERATIONS) +
                                         " - Error: " + strerror(savedErrno) + " (errno: " + to_string(savedErrno) + ")" +
                                         " - Drive: " + drive->getSerial());
                cleanup();
                // CRITICAL: Mark as NOT shredded on write failure
                drive->state = Drive::TaskState::NONE;
                drive->setTaskPercentage(0.0);
                drive->bWasShredded = false;
                drive->bWasChecked = false;
                return -1;
            }
            auto shredSpeed = drive->sShredSpeed.load();
            shredSpeed.ulSpeedMetricBytesWritten += iByteShredded;
            drive->sShredSpeed.store(shredSpeed);
            ulDriveByteCounter += iByteShredded;
            ulDriveByteOverallCount += iByteShredded;
 #ifdef ADAPTIVE_CHUNK_SIZE
            bytesWrittenInMeasurement += iByteShredded;
            chunkCounter++;
            // Evaluate throughput after measurement interval
            if (chunkCounter >= CHUNK_MEASURE_INTERVAL)
            {
                evaluateThroughput(drive);
            }
 #endif
            d32Percent = this->calcProgress();
            drive->sShredSpeed.ulSpeedMetricBytesWritten += iByteShredded;
 #ifdef LOG_LEVEL_HIGH
-            Logger::logThis()->info("Shred-Task: ByteCount: " + to_string(ulDriveByteCounter) + " - iteration: " + to_string((uiShredIterationCounter + 1)) + " - progress: " + to_string(d32Percent) + " - Drive: " + drive->getSerial());
+            Logger::logThis()->info("Shred-Task: ByteCount: " + to_string(ulDriveByteCounter) +
                                    " - iteration: " + to_string((uiShredIterationCounter + 1)) +
                                    " - progress: " + to_string(d32Percent) + "%" +
                                    " - Drive: " + drive->getSerial());
 #endif
            if ((d32Percent - d32TmpPercent) >= 0.01)
            {
-                // set shred percantage
+                // set shred percentage
                drive->setTaskPercentage(d32TmpPercent);
                d32TmpPercent = d32Percent;
-                // signal process in shreding
+                // signal process in shredding
                write(*ipSignalFd, "A", 1);
            }
-            if (drive->state != Drive::SHRED_ACTIVE)
+            if (drive->state != Drive::TaskState::SHRED_ACTIVE)
            {
                drive->setTaskPercentage(0);
                d32Percent = 0.00;
@@ -165,54 +472,92 @@ int Shred::shredDrive(Drive *drive, int *ipSignalFd)
                cleanup();
                return -1;
            }
            // end one chunk write
        }
        Logger::logThis()->info("Shred-Task: Iteration " + to_string(uiShredIterationCounter + 1) + "/" +
                                to_string(SHRED_ITERATIONS) + " completed - Drive: " + drive->getSerial());
        // Rewind drive for next iteration
        if (0 != iRewindDrive(driveFileDiscr))
        {
-            Logger::logThis()->error("Shred-Task: Unable to rewind drive! - Drive: " + drive->getSerial());
+            Logger::logThis()->error("Shred-Task: Unable to rewind drive after iteration " +
                                     to_string(uiShredIterationCounter + 1) + " - Drive: " + drive->getSerial());
            cleanup();
            // CRITICAL: Mark as NOT shredded on rewind failure
            drive->state = Drive::TaskState::NONE;
            drive->setTaskPercentage(0.0);
            drive->bWasShredded = false;
            drive->bWasChecked = false;
            return -1;
        }
        // end one shred iteration
    }
    // end of all shred iteratio
-    tfng_prng_seedkey(NULL); // reset random generator
+#ifdef ADAPTIVE_CHUNK_SIZE
    Logger::logThis()->info("Shred completed - Optimal chunk size: " +
                            to_string(bestChunkSize / (1024 * 1024)) + " MB, " +
                            "Best throughput: " + to_string((int)bestThroughputMBps) + " MB/s" +
                            " - Drive: " + drive->getSerial());
 #endif
    // All shred iterations completed successfully
    tfng_prng_seedkey(NULL);
    // ONLY mark as shredded if ALL iterations completed AND fsync succeeded
    drive->bWasShredded = true;
    Logger::logThis()->info("Shred-Task finished - Drive: " + drive->getModelName() + "-" + drive->getSerial() + " @" + address.str());
 #ifdef ZERO_CHECK
-    drive->state = Drive::CHECK_ACTIVE;
+    drive->state = Drive::TaskState::CHECK_ACTIVE;
    Logger::logThis()->info("Check-Task started - Drive: " + drive->getModelName() + "-" + drive->getSerial() + " @" + address.str());
    drive->u32DriveChecksumAfterShredding = uiCalcChecksum(driveFileDiscr, drive, ipSignalFd);
-#ifdef LOG_LEVEL_HIGH
+
-    if (drive->u32DriveChecksumAferShredding != 0)
+    if (drive->u32DriveChecksumAfterShredding != 0)
    {
-        Logger::logThis()->info("Shred-Task: Checksum not zero: " + to_string(drive->u32DriveChecksumAfterShredding) + " - Drive: " + drive->getSerial());
+        drive->state = Drive::TaskState::CHECK_FAILED;
        Logger::logThis()->error("Check-Task: Checksum verification failed! Expected: 0, Got: " +
                                 to_string(drive->u32DriveChecksumAfterShredding) + " - Drive: " + drive->getSerial());
    }
    else
    {
-        Logger::logThis()->info("Shred-Task: Checksum zero: " + to_string(drive->u32DriveChecksumAfterShredding) + " - Drive: " + drive->getSerial());
+        drive->state = Drive::TaskState::CHECK_SUCCESSFUL;
        drive->bWasChecked = true;
        Logger::logThis()->info("Check-Task: Checksum verification passed (zero) - Drive: " + drive->getSerial());
    }
 #endif
 #endif
 #endif
    cleanup();
 #endif
-    if ((drive->state == Drive::SHRED_ACTIVE) || (drive->state == Drive::CHECK_ACTIVE))
+    // Final state handling - ONLY process if shred actually completed
    Drive::TaskState finalState = drive->state.load();
    // Only do final processing if we reached a completion state
    // (not if we returned early with errors)
    if ((finalState == Drive::TaskState::SHRED_ACTIVE) ||
        (finalState == Drive::TaskState::CHECK_SUCCESSFUL) ||
        (finalState == Drive::TaskState::CHECK_FAILED))
    {
-        drive->state = Drive::NONE;
+        if (finalState != Drive::TaskState::CHECK_FAILED)
-        drive->setTaskPercentage(0.0);
+        {
            Logger::logThis()->info("Shred-Task: Triggering print for drive - Drive: " + drive->getSerial());
            Printer::getPrinter()->print(drive);
        Logger::logThis()->info("Finished shred/check for: " + drive->getModelName() + "-" + drive->getSerial());
        }
        else
        {
            Logger::logThis()->warning("Shred-Task: Skipping print due to checksum failure - Drive: " + drive->getSerial());
        }
        drive->state = Drive::TaskState::NONE;
        drive->setTaskPercentage(0.0);
        Logger::logThis()->info("Completed shred/check for: " + drive->getModelName() + "-" + drive->getSerial());
    }
    return 0;
 }
 /**
 * \brief   calc shredding progress in %
 * \param	current byte index of the drive
 * \param	current shred iteration
 * \return  double percentage
 */
 double Shred::calcProgress()
@@ -222,53 +567,121 @@ double Shred::calcProgress()
 #ifdef ZERO_CHECK
    uiMaxShredIteration++; // increment because we will check after SHRED_ITERATIONS the drive for non-zero bytes
 #endif
-    return (double)(((double)ulDriveByteOverallCount) / ((double)this->ulDriveByteSize * uiMaxShredIteration)) * 100.0f;
+
    if (this->ulDriveByteSize == 0)
        return 0.0;
    return (double)(((double)ulDriveByteOverallCount) / ((double)this->ulDriveByteSize * uiMaxShredIteration)) * 100.0;
 }
 /**
 * \brief   rewind drive to beginning
 * \param   file descriptor
 * \return  0 on success, -1 on error
 */
 int Shred::iRewindDrive(fileDescriptor file)
 {
-    if (0 != lseek(file, 0L, SEEK_SET))
+    off_t result = lseek(file, 0L, SEEK_SET);
    if (result == -1)
    {
-        perror("unable to rewind drive");
+        int savedErrno = errno;
        Logger::logThis()->error("Unable to rewind drive! Error: " + string(strerror(savedErrno)) +
                                 " (errno: " + to_string(savedErrno) + ") - fileDescriptor: " + to_string(file));
        return -1;
    }
-    else
+    else if (result != 0)
    {
-        return 0;
+        Logger::logThis()->error("Rewind position mismatch! Expected: 0, Got: " + to_string(result) +
                                 " - fileDescriptor: " + to_string(file));
        return -1;
    }
    return 0;
 }
-unsigned long Shred::getDriveSizeInBytes(fileDescriptor file)
+/**
 * \brief   get drive size in bytes
 * \param   file descriptor
 * \return  size in bytes, 0 on error
 */
 long Shred::getDriveSizeInBytes(fileDescriptor file)
 {
-    unsigned long ulDriveSizeTmp = lseek(file, 0L, SEEK_END);
+    off_t liDriveSizeTmp = lseek(file, 0L, SEEK_END);
    if (liDriveSizeTmp == -1)
    {
        int savedErrno = errno;
        Logger::logThis()->error("Unable to get drive size! Error: " + string(strerror(savedErrno)) +
                                 " (errno: " + to_string(savedErrno) + ") - fileDescriptor: " + to_string(file));
        return 0L;
    }
    if (0 != iRewindDrive(file))
    {
-        ulDriveSizeTmp = 0U;
+        Logger::logThis()->error("Unable to rewind after size detection - fileDescriptor: " + to_string(file));
        return 0L;
    }
 #ifdef DEMO_DRIVE_SIZE
-    ulDriveSizeTmp = DEMO_DRIVE_SIZE;
+    liDriveSizeTmp = DEMO_DRIVE_SIZE;
    Logger::logThis()->info("DEMO_DRIVE_SIZE active - using size: " + to_string(liDriveSizeTmp) + " bytes");
 #endif
-    return ulDriveSizeTmp;
+
    return liDriveSizeTmp;
 }
 /**
 * \brief   calculate checksum of drive (verify all zeros)
 * \param   file descriptor
 * \param   pointer to Drive instance
 * \param   signal file descriptor
 * \return  checksum value (0 = all zeros)
 */
 unsigned int Shred::uiCalcChecksum(fileDescriptor file, Drive *drive, int *ipSignalFd)
 {
    unsigned int uiChecksum = 0;
    unsigned long ulDriveByteCounter = 0U;
    Logger::logThis()->info("Check-Task: Starting checksum verification - Drive: " + drive->getSerial());
 #ifdef ADAPTIVE_CHUNK_SIZE
    size_t checkChunkSize = CHUNK_SIZE_MAX;
 #else
    size_t checkChunkSize = CHUNK_SIZE;
 #endif
    while (ulDriveByteCounter < ulDriveByteSize)
    {
        // Check if task was aborted
        if (drive->state.load() != Drive::TaskState::CHECK_ACTIVE)
        {
            Logger::logThis()->info("Check-Task: Aborted by user at " + to_string(d32Percent) + "% - Drive: " + drive->getSerial());
            return UINT32_MAX; // Return non-zero to indicate incomplete check
        }
        int iBytesToCheck = 0;
-        if ((ulDriveByteSize - ulDriveByteCounter) < CHUNK_SIZE)
+        if ((ulDriveByteSize - ulDriveByteCounter) < checkChunkSize)
        {
            iBytesToCheck = (ulDriveByteSize - ulDriveByteCounter);
        }
        else
        {
-            iBytesToCheck = CHUNK_SIZE;
+            iBytesToCheck = checkChunkSize;
        }
        int iReadBytes = read(file, caReadBuffer, iBytesToCheck);
        if (iReadBytes <= 0)
        {
            int savedErrno = errno;
            Logger::logThis()->error("Check-Task: Read failed! Attempted: " + to_string(iBytesToCheck) +
                                     " bytes, Read: " + to_string(iReadBytes) + " bytes" +
                                     " - Position: " + to_string(ulDriveByteCounter) + "/" + to_string(ulDriveByteSize) +
                                     " - Error: " + strerror(savedErrno) + " (errno: " + to_string(savedErrno) + ")" +
                                     " - Drive: " + drive->getSerial());
            return UINT32_MAX; // Return non-zero to indicate read failure
        }
        for (int iReadBytesCounter = 0U; iReadBytesCounter < iReadBytes; iReadBytesCounter++)
        {
            uiChecksum += caReadBuffer[iReadBytesCounter];
@@ -276,10 +689,15 @@ unsigned int Shred::uiCalcChecksum(fileDescriptor file, Drive *drive, int *ipSig
        ulDriveByteCounter += iReadBytes;
        ulDriveByteOverallCount += iReadBytes;
        d32Percent = this->calcProgress();
-        drive->sShredSpeed.ulSpeedMetricBytesWritten += iReadBytes;
+        auto shredSpeed = drive->sShredSpeed.load();
        shredSpeed.ulSpeedMetricBytesWritten += iReadBytes;
        drive->sShredSpeed.store(shredSpeed);
 #ifdef LOG_LEVEL_HIGH
-        Logger::logThis()->info("Shred-Task (Checksum): ByteCount: " + to_string(ulDriveByteCounter) + " - progress: " + to_string(d32Percent) + " - Drive: " + drive->getSerial());
+        Logger::logThis()->info("Check-Task: ByteCount: " + to_string(ulDriveByteCounter) +
                                " - progress: " + to_string(d32Percent) + "%" +
                                " - checksum so far: " + to_string(uiChecksum) +
                                " - Drive: " + drive->getSerial());
 #endif
        if (((d32Percent - d32TmpPercent) >= 0.01) || (d32Percent == 100.0))
@@ -292,12 +710,29 @@ unsigned int Shred::uiCalcChecksum(fileDescriptor file, Drive *drive, int *ipSig
            write(*ipSignalFd, "A", 1);
        }
    }
    Logger::logThis()->info("Check-Task: Verification complete - Final checksum: " + to_string(uiChecksum) + " - Drive: " + drive->getSerial());
    drive->bWasChecked = true;
    return uiChecksum;
 }
 /**
 * \brief   cleanup - close file descriptors
 */
 void Shred::cleanup()
 {
    if (driveFileDiscr != -1)
    {
        Logger::logThis()->info("Shred-Task: Closing drive file descriptor: " + to_string(driveFileDiscr));
        close(driveFileDiscr);
        driveFileDiscr = -1;
    }
    if (randomSrcFileDiscr != -1)
    {
        Logger::logThis()->info("Shred-Task: Closing random source file descriptor: " + to_string(randomSrcFileDiscr));
        close(randomSrcFileDiscr);
        randomSrcFileDiscr = -1;
    }
 }
@@ -6,15 +6,257 @@
 */
 #include "../include/reHDD.h"
 #include <sys/wait.h> // For WIFSIGNALED, WTERMSIG
 using namespace std;
-string SMART::modelFamily;
+/**
-string SMART::modelName;
+ * \brief   Parse context for SMART attribute values
-string SMART::serial;
+ */
-uint64_t SMART::capacity = 0U;
+struct SMARTParseContext
-uint32_t SMART::errorCount = 0U;
+{
-uint32_t SMART::powerOnHours = 0U;
+    // Device information (top-level JSON fields)
-uint32_t SMART::powerCycle = 0U;
+    string modelFamily;
-uint32_t SMART::temperature = 0U;
+    string modelName;
    string serial;
    uint64_t capacity;
    // Power and temperature (top-level JSON fields)
    uint32_t errorCount;
    uint32_t powerOnHours;
    uint32_t powerCycles;
    uint32_t temperature;
    // Critical sector counts (from ata_smart_attributes table)
    uint32_t reallocatedSectors;   // ID 5
    uint32_t pendingSectors;       // ID 197
    uint32_t uncorrectableSectors; // ID 198
    // Parser state machine
    enum State
    {
        SEARCHING,        // Looking for next field
        IN_ATTRIBUTE_5,   // Inside ID 5 object
        IN_ATTRIBUTE_197, // Inside ID 197 object
        IN_ATTRIBUTE_198, // Inside ID 198 object
        IN_RAW_SECTION    // Inside "raw": { } of current attribute
    };
    State state;
    int currentAttributeId; // Which attribute are we parsing? (5, 197, 198)
    SMARTParseContext()
        : capacity(0),
          errorCount(0),
          powerOnHours(0),
          powerCycles(0),
          temperature(0),
          reallocatedSectors(0),
          pendingSectors(0),
          uncorrectableSectors(0),
          state(SEARCHING),
          currentAttributeId(0)
    {
    }
 };
 /**
 * \brief   Extract JSON string value
 * \param   line containing "key": "value"
 * \return  extracted string value
 */
 static string extractStringValue(const string &line)
 {
    size_t colonPos = line.find(": ");
    if (colonPos == string::npos)
        return "";
    size_t firstQuote = line.find('"', colonPos + 2);
    if (firstQuote == string::npos)
        return "";
    size_t secondQuote = line.find('"', firstQuote + 1);
    if (secondQuote == string::npos)
        return "";
    return line.substr(firstQuote + 1, secondQuote - firstQuote - 1);
 }
 /**
 * \brief   Extract JSON integer value
 * \param   line containing "key": number
 * \return  extracted integer value
 */
 static uint64_t extractIntegerValue(const string &line)
 {
    size_t colonPos = line.find(": ");
    if (colonPos == string::npos)
        return 0;
    string valueStr = line.substr(colonPos + 2);
    // Remove whitespace, commas, braces
    valueStr.erase(remove_if(valueStr.begin(), valueStr.end(),
                             [](char c)
                             { return c == ' ' || c == ',' || c == '}' || c == '\n'; }),
                   valueStr.end());
    // Verify it's a valid number
    if (valueStr.empty() || valueStr.find_first_not_of("0123456789") != string::npos)
        return 0;
    try
    {
        return stoull(valueStr);
    }
    catch (...)
    {
        return 0;
    }
 }
 /**
 * \brief   Process a single line of JSON output
 * \param   line from smartctl JSON output
 * \param   context parsing context with state
 * \return  void
 */
 static void processLine(const string &line, SMARTParseContext &ctx)
 {
    // Trim whitespace for consistent parsing
    string trimmed = line;
    size_t firstNonSpace = trimmed.find_first_not_of(" \t\r\n");
    if (firstNonSpace != string::npos)
    {
        trimmed = trimmed.substr(firstNonSpace);
    }
    // Parse top-level device information
    if (trimmed.find("\"model_family\":") == 0)
    {
        ctx.modelFamily = extractStringValue(line);
        return;
    }
    if (trimmed.find("\"model_name\":") == 0)
    {
        ctx.modelName = extractStringValue(line);
        return;
    }
    if (trimmed.find("\"serial_number\":") == 0)
    {
        ctx.serial = extractStringValue(line);
        return;
    }
    // Parse capacity from user_capacity.bytes
    if (trimmed.find("\"bytes\":") == 0)
    {
        ctx.capacity = extractIntegerValue(line);
        return;
    }
    // Parse error count from self_test log
    if (trimmed.find("\"error_count_total\":") == 0)
    {
        ctx.errorCount = extractIntegerValue(line);
        return;
    }
    // Parse power-on hours
    if (trimmed.find("\"hours\":") == 0)
    {
        ctx.powerOnHours = extractIntegerValue(line);
        return;
    }
    // Parse power cycle count
    if (trimmed.find("\"power_cycle_count\":") == 0)
    {
        ctx.powerCycles = extractIntegerValue(line);
        return;
    }
    // Parse temperature
    if (trimmed.find("\"current\":") == 0 && ctx.temperature == 0)
    {
        // Only parse first occurrence (temperature section, not other "current" fields)
        ctx.temperature = extractIntegerValue(line);
        return;
    }
    // State machine for SMART attributes parsing
    switch (ctx.state)
    {
    case SMARTParseContext::SEARCHING:
        // Look for critical attribute IDs
        if (trimmed.find("\"id\": 5,") == 0)
        {
            ctx.state = SMARTParseContext::IN_ATTRIBUTE_5;
            ctx.currentAttributeId = 5;
        }
        else if (trimmed.find("\"id\": 197,") == 0)
        {
            ctx.state = SMARTParseContext::IN_ATTRIBUTE_197;
            ctx.currentAttributeId = 197;
        }
        else if (trimmed.find("\"id\": 198,") == 0)
        {
            ctx.state = SMARTParseContext::IN_ATTRIBUTE_198;
            ctx.currentAttributeId = 198;
        }
        break;
    case SMARTParseContext::IN_ATTRIBUTE_5:
    case SMARTParseContext::IN_ATTRIBUTE_197:
    case SMARTParseContext::IN_ATTRIBUTE_198:
        // Look for "raw": { start
        if (trimmed.find("\"raw\":") == 0)
        {
            ctx.state = SMARTParseContext::IN_RAW_SECTION;
        }
        // Look for end of attribute object (more indented closing brace = end of attribute)
        // "      }," or "      }" at attribute level (6 spaces)
        else if (line.find("      },") == 0 || line.find("      }") == 0)
        {
            ctx.state = SMARTParseContext::SEARCHING;
            ctx.currentAttributeId = 0;
        }
        break;
    case SMARTParseContext::IN_RAW_SECTION:
        // Look for "value": number inside raw section
        if (trimmed.find("\"value\":") == 0)
        {
            uint64_t value = extractIntegerValue(line);
            // Store value in appropriate field based on current attribute
            if (ctx.currentAttributeId == 5)
            {
                ctx.reallocatedSectors = static_cast<uint32_t>(value);
            }
            else if (ctx.currentAttributeId == 197)
            {
                ctx.pendingSectors = static_cast<uint32_t>(value);
            }
            else if (ctx.currentAttributeId == 198)
            {
                ctx.uncorrectableSectors = static_cast<uint32_t>(value);
            }
            // Stay in raw section - closing brace will exit
        }
        // Look for end of raw object (less indented = back to attribute level)
        // "        }" at raw level (8 spaces)
        else if (line.find("        }") == 0)
        {
            // Return to attribute state (raw section closed)
            ctx.state = (ctx.currentAttributeId == 5) ? SMARTParseContext::IN_ATTRIBUTE_5 : (ctx.currentAttributeId == 197) ? SMARTParseContext::IN_ATTRIBUTE_197
                                                                                                                            : SMARTParseContext::IN_ATTRIBUTE_198;
        }
        break;
    }
 }
 /**
 * \brief   get and set S.M.A.R.T. values in Drive
@@ -23,213 +265,123 @@ uint32_t SMART::temperature = 0U;
 */
 void SMART::readSMARTData(Drive *drive)
 {
-    modelFamily.clear();
+    SMARTParseContext ctx;
-    modelName.clear();
+    uint8_t exitStatus = 255U;
    serial.clear();
    capacity = 0U;
    errorCount = 0U;
    powerOnHours = 0U;
    powerCycle = 0U;
    temperature = 0U;
-    string sSmartctlCommands[] = {" --json -a ", " --json -d sntjmicron -a ", " --json -d sntasmedia -a ", " --json -d sntrealtek -a "};
+    // Command order optimized for USB adapters
    // Standard commands first, then device-specific variants
    string sSmartctlCommands[] = {
        " --json -a ",                // Try standard first
        " --json -d sat -a ",         // SAT (SCSI/ATA Translation) - most USB adapters
        " --json -d usbjmicron -a ",  // USB JMicron
        " --json -d usbprolific -a ", // USB Prolific
        " --json -d usbsunplus -a "   // USB Sunplus
    };
-    for (string sSmartctlCommand : sSmartctlCommands)
+    for (const string &sSmartctlCommand : sSmartctlCommands)
    {
-        string sCMD = ("smartctl");
+        // Build command with timeout
        string sCMD = "timeout 5 smartctl"; // 5 second timeout prevents hanging
        sCMD.append(sSmartctlCommand);
        sCMD.append(drive->getPath());
-        const char *cpComand = sCMD.c_str();
+        // Note: stderr NOT suppressed for debugging
-        FILE *outputfileSmart = popen(cpComand, "r");
+        Logger::logThis()->info("SMART: Executing: " + sCMD);
        size_t len = 0;     // length of found line
        char *cLine = NULL; // found line
        uint8_t status = 255;
-        while ((getline(&cLine, &len, outputfileSmart)) != -1)
+        // Execute smartctl with timeout protection
        FILE *outputfileSmart = popen(sCMD.c_str(), "r");
        if (outputfileSmart == nullptr)
        {
-            string sLine = string(cLine);
+            Logger::logThis()->error("SMART: Failed to execute smartctl");
-
+            continue;
            status = SMART::parseExitStatus(sLine);
            SMART::parseModelFamily(sLine);
            SMART::parseModelName(sLine);
            SMART::parseSerial(sLine);
            SMART::parseCapacity(sLine);
            SMART::parseErrorCount(sLine);
            SMART::parsePowerOnHours(sLine);
            SMART::parsePowerCycle(sLine);
            SMART::parseTemperature(sLine);
        }
-        pclose(outputfileSmart);
+        // Reset context for new attempt
        ctx = SMARTParseContext();
-        if (status == 0U)
+        // Parse output line by line
        char *cLine = nullptr;
        size_t len = 0;
        int lineCount = 0;
        while (getline(&cLine, &len, outputfileSmart) != -1)
        {
-            // Found S.M.A.R.T. data with this command
+            string sLine(cLine);
-            break;
+            lineCount++;
-        }
+
            // Parse exit status
            if (sLine.find("\"exit_status\":") != string::npos)
            {
                exitStatus = static_cast<uint8_t>(extractIntegerValue(sLine));
            }
-    drive->setDriveSMARTData(modelFamily, modelName, serial, capacity, errorCount, powerOnHours, powerCycle, temperature); // wirte data in drive
+            // Process this line
-}
+            processLine(sLine, ctx);
 /**
 * \brief   parse ExitStatus
 * \param	string output line of smartctl
 * \return  uint_8 exit status
 */
 uint8_t SMART::parseExitStatus(string sLine)
 {
    uint8_t exitStatus = -1;
    string search("\"exit_status\": ");
    size_t found = sLine.find(search);
    if (found != string::npos)
    {
        sLine.erase(0, sLine.find(": ") + 1);
        exitStatus = stol(sLine);
        }
    return exitStatus;
 }
-/**
+        free(cLine);
- * \brief   parse ModelFamiliy
+        int pcloseStatus = pclose(outputfileSmart);
- * \param	string output line of smartctl
+
- * \return  void
+        Logger::logThis()->info("SMART: Parsed " + to_string(lineCount) + " lines, exit status: " + to_string(exitStatus));
- */
+
-void SMART::parseModelFamily(string sLine)
+        // Check if timeout killed the process
-{
+        if (WIFSIGNALED(pcloseStatus) && WTERMSIG(pcloseStatus) == SIGTERM)
    string search("\"model_family\": ");
    size_t found = sLine.find(search);
    if (found != string::npos)
        {
-        sLine.erase(0, sLine.find(": ") + 3);
+            Logger::logThis()->warning("SMART: Command timed out (5s) - skipping to next variant");
-        sLine.erase(sLine.length() - 3, 3);
+            continue;
        modelFamily = sLine;
        }
 }
-/**
+        // IGNORE exit status - instead check if we got valid data!
- * \brief   parse ModelName
+        // Exit status 64 means "error log contains errors" but SMART data is still valid
- * \param	string output line of smartctl
+        // Exit status 4 means "some prefail attributes concerning" but data is valid
- * \return  void
+        // What matters: Did we parse model name and serial?
- */
+        if (!ctx.modelName.empty() && !ctx.serial.empty())
 void SMART::parseModelName(string sLine)
 {
    string search("\"model_name\": ");
    size_t found = sLine.find(search);
    if (found != string::npos)
        {
-        sLine.erase(0, sLine.find(": ") + 3);
+            Logger::logThis()->info("SMART: Successfully parsed data");
-        sLine.erase(sLine.length() - 3, 3);
+            Logger::logThis()->info("SMART: Model: " + ctx.modelName);
-        modelName = sLine;
+            Logger::logThis()->info("SMART: Serial: " + ctx.serial);
            Logger::logThis()->info("SMART: Capacity: " + to_string(ctx.capacity) + " bytes");
            Logger::logThis()->info("SMART: Power-On Hours: " + to_string(ctx.powerOnHours));
            Logger::logThis()->info("SMART: Temperature: " + to_string(ctx.temperature) + " C");
            Logger::logThis()->info("SMART: Reallocated Sectors: " + to_string(ctx.reallocatedSectors));
            Logger::logThis()->info("SMART: Pending Sectors: " + to_string(ctx.pendingSectors));
            Logger::logThis()->info("SMART: Uncorrectable Sectors: " + to_string(ctx.uncorrectableSectors));
            if (exitStatus != 0)
            {
                Logger::logThis()->info("SMART: Note - exit status " + to_string(exitStatus) + " indicates warnings/errors in SMART log");
            }
 }
-/**
+            break; // Success - we got data!
 * \brief   parse Serial
 * \param	string output line of smartctl
 * \return  void
 */
 void SMART::parseSerial(string sLine)
 {
    string search("\"serial_number\": ");
    size_t found = sLine.find(search);
    if (found != string::npos)
    {
        sLine.erase(0, sLine.find(": ") + 3);
        sLine.erase(sLine.length() - 3, 3);
        serial = sLine;
    }
 }
 /**
 * \brief   parse Capacity
 * \param	string output line of smartctl
 * \return  void
 */
 void SMART::parseCapacity(string sLine)
 {
    string search("\"bytes\": ");
    size_t found = sLine.find(search);
    if (found != string::npos)
    {
        sLine.erase(0, sLine.find(": ") + 2);
        sLine.erase(sLine.length() - 1, 1);
        capacity = stol(sLine);
    }
 }
 /**
 * \brief   parse ErrorCount
 * \param	string output line of smartctl
 * \return  void
 */
 void SMART::parseErrorCount(string sLine)
 {
    string search("\"error_count_total\": ");
    size_t found = sLine.find(search);
    if (found != string::npos)
    {
        sLine.erase(0, sLine.find(": ") + 2);
        sLine.erase(sLine.length() - 2, 2);
        errorCount = stol(sLine);
    }
 }
 /**
 * \brief   parse PowerOnHours
 * \param	string output line of smartctl
 * \return  void
 */
 void SMART::parsePowerOnHours(string sLine)
 {
    string search("\"hours\": ");
    size_t found = sLine.find(search);
    if (found != string::npos)
    {
        sLine.erase(0, sLine.find(": ") + 2);
        sLine.erase(sLine.length() - 1, 1);
        powerOnHours = stol(sLine);
    }
 }
 /**
 * \brief   parse PowerCycle
 * \param	string output line of smartctl
 * \return  void
 */
 void SMART::parsePowerCycle(string sLine)
 {
    string search("\"power_cycle_count\": ");
    size_t found = sLine.find(search);
    if (found != string::npos)
    {
        sLine.erase(0, sLine.find(": ") + 2);
        sLine.erase(sLine.length() - 2, 2);
        powerCycle = stol(sLine);
    }
 }
 /**
 * \brief   parse temperature
 * \param	string output line of smartctl
 * \return  void
 */
 void SMART::parseTemperature(string sLine)
 {
    string search("\"current\": ");
    size_t found = sLine.find(search);
    if (found != string::npos)
    {
        sLine.erase(0, sLine.find(": ") + 2);
        sLine.erase(sLine.length() - 1, 2);
        if (sLine == "{")
        {
            temperature = 0U; // this drive doesn't support temperature
        }
        else
        {
-            temperature = stol(sLine);
+            Logger::logThis()->warning("SMART: No valid data parsed (exit status: " + to_string(exitStatus) + ")");
        }
    }
    // Check if we got ANY data
    if (ctx.modelName.empty() && ctx.serial.empty())
    {
        Logger::logThis()->warning("SMART: No SMART data available for this drive - may not support SMART or need root privileges");
        // Try basic device info without SMART (use hdparm or similar as fallback)
        // For now, just log that SMART is not available
        ctx.modelName = "SMART not available";
        ctx.serial = "N/A";
    }
    // Write parsed data to drive
    drive->setDriveSMARTData(
        ctx.modelFamily,
        ctx.modelName,
        ctx.serial,
        ctx.capacity,
        ctx.errorCount,
        ctx.powerOnHours,
        ctx.powerCycles,
        ctx.temperature,
        ctx.reallocatedSectors,
        ctx.pendingSectors,
        ctx.uncorrectableSectors);
 }
@@ -6,6 +6,7 @@
 */
 #include "../include/reHDD.h"
 using namespace std;
 static std::mutex mxUIrefresh;
@@ -43,16 +44,31 @@ void TUI::initTUI()
    init_pair(COLOR_AREA_ENTRY_EVEN, COLOR_BLACK, COLOR_WHITE);
    init_pair(COLOR_AREA_ENTRY_ODD, COLOR_BLUE, COLOR_WHITE);
 #ifdef DRYRUN
    init_pair(COLOR_AREA_ENTRY_SELECTED, COLOR_WHITE, COLOR_GREEN);
 #else
    init_pair(COLOR_AREA_ENTRY_SELECTED, COLOR_WHITE, COLOR_RED);
 #endif
    init_pair(COLOR_AREA_OVERVIEW, COLOR_BLACK, COLOR_WHITE);
    init_pair(COLOR_AREA_DETAIL, COLOR_BLACK, COLOR_WHITE);
 #ifdef DRYRUN
    mvprintw(0, 2, "reHDD - HDD refurbishing tool - GPL 3.0    DRYRUN is active! Don't use in production!");
 #else
    mvprintw(0, 2, "reHDD - HDD refurbishing tool - GPL 3.0 ");
 #endif
    Logger::logThis()->info("UI successfully initialized");
 }
 void TUI::updateTUI(list<Drive> *plistDrives, uint8_t u8SelectedEntry)
 {
    if (isendwin())
    {
        return;
    }
    mxUIrefresh.lock();
    uint16_t u16StdscrX, u16StdscrY;
    getmaxyx(stdscr, u16StdscrY, u16StdscrX);
@@ -83,6 +99,9 @@ void TUI::updateTUI(list<Drive> *plistDrives, uint8_t u8SelectedEntry)
        string sSpeed = " ";
        string sTime = " ";
        string sTemp = it->sTemperatureToText();
        string sConnection = (it->connectionType == Drive::ConnectionType::USB ? "USB" : it->connectionType == Drive::ConnectionType::SATA ? "SATA"
                                                                                     : it->connectionType == Drive::ConnectionType::NVME   ? "NVME"
                                                                                                                                           : "");
        bool bSelectedEntry = false;
@@ -91,10 +110,10 @@ void TUI::updateTUI(list<Drive> *plistDrives, uint8_t u8SelectedEntry)
            bSelectedEntry = true; // mark this drive in entries list
            displaySelectedDrive(*it, u16StdscrX, u16StdscrY);
-            if ((it->getPowerOnHours() >= WORSE_HOURS) || (it->getPowerCycles() >= WORSE_POWERUP) || (it->getErrorCount() > 0) || (it->getTemperature() >= WORSE_TEMPERATURE))
+            if ((it->getPowerOnHours() >= WORSE_HOURS) || (it->getPowerCycles() >= WORSE_POWERUP) || (it->getErrorCount() > 0) || (it->getTemperature() >= WORSE_TEMPERATURE) || (it->getReallocatedSectors() > 0) || (it->getPendingSectors() > 0) || (it->getUncorrectableSectors() > 0))
            {
                // smart values are bad --> show warning
-                smartWarning = createSmartWarning(50, 10, ((u16StdscrX) - (int)(u16StdscrX / 2) + 35), (int)(u16StdscrY / 2) - 5, it->getPath(), it->getPowerOnHours(), it->getPowerCycles(), it->getErrorCount(), it->getTemperature());
+                smartWarning = createSmartWarning(50, 14, ((u16StdscrX) - (int)(u16StdscrX / 2) + 35), (int)(u16StdscrY / 2) - 7, it->getPath(), it->getPowerOnHours(), it->getPowerCycles(), it->getErrorCount(), it->getTemperature(), it->getReallocatedSectors(), it->getPendingSectors(), it->getUncorrectableSectors());
                wrefresh(smartWarning);
            }
        }
@@ -103,30 +122,40 @@ void TUI::updateTUI(list<Drive> *plistDrives, uint8_t u8SelectedEntry)
        switch (it->state)
        {
-        case Drive::SHRED_ACTIVE:
+        case Drive::TaskState::SHRED_ACTIVE:
-
+        {
            stream << fixed << setprecision(3) << (it->getTaskPercentage());
            sState = "Shredding: " + stream.str() + "%";
            it->calculateTaskDuration();
            sTime = this->formatTimeDuration(it->getTaskDuration());
-            sSpeed = this->formatSpeed(it->sShredSpeed.u32ShredTimeDelta, it->sShredSpeed.ulWrittenBytes);
+            auto shredSpeed = it->sShredSpeed.load();
            sSpeed = this->formatSpeed(shredSpeed.u32ShredTimeDelta, shredSpeed.ulWrittenBytes);
            break;
-        case Drive::CHECK_ACTIVE:
+        }
        case Drive::TaskState::CHECK_ACTIVE:
        {
            stream << fixed << setprecision(3) << (it->getTaskPercentage());
            sState = "Checking: " + stream.str() + "%";
            it->calculateTaskDuration();
            sTime = this->formatTimeDuration(it->getTaskDuration());
-            sSpeed = this->formatSpeed(it->sShredSpeed.u32ShredTimeDelta, it->sShredSpeed.ulWrittenBytes);
+            auto shredSpeed = it->sShredSpeed.load();
            sSpeed = this->formatSpeed(shredSpeed.u32ShredTimeDelta, shredSpeed.ulWrittenBytes);
            break;
-        case Drive::DELETE_ACTIVE:
+        }
        case Drive::TaskState::DELETE_ACTIVE:
        {
            sState = "Deleting ...";
            it->calculateTaskDuration();
            sTime = this->formatTimeDuration(it->getTaskDuration());
            break;
-        case Drive::NONE:
+        }
-        case Drive::SHRED_SELECTED:
+        case Drive::TaskState::NONE:
-        case Drive::DELETE_SELECTED:
+        case Drive::TaskState::SHRED_SELECTED:
        case Drive::TaskState::DELETE_SELECTED:
        case Drive::TaskState::CHECK_SUCCESSFUL:
        {
            if (it->bWasDeleted)
            {
                sState = "DELETED"; // mark drive as deleted previously
@@ -153,9 +182,9 @@ void TUI::updateTUI(list<Drive> *plistDrives, uint8_t u8SelectedEntry)
                wrefresh(dialog);
            }
 #endif
            break;
-        case Drive::FROZEN:
+        }
        case Drive::TaskState::FROZEN:
            stream << fixed << setprecision(3) << (it->getTaskPercentage());
 #ifdef FROZEN_ALERT
            if (bSelectedEntry)
@@ -172,7 +201,7 @@ void TUI::updateTUI(list<Drive> *plistDrives, uint8_t u8SelectedEntry)
        uint16_t u16StartOffsetY = (2 * (u8Index));
-        WINDOW *tmp = createEntryWindow((int)(u16StdscrX * (float)(3.0 / 7.0) - 2), 2, 3, u16StartOffsetY + 2, (distance(plistDrives->begin(), it) + 1), sModelFamily, sSerial, sCapacity, sState, sTime, sSpeed, sTemp, bSelectedEntry);
+        WINDOW *tmp = createEntryWindow((int)(u16StdscrX * (float)(3.0 / 7.0) - 2), 2, 3, u16StartOffsetY + 2, (distance(plistDrives->begin(), it) + 1), sModelFamily, sSerial, sCapacity, sState, sTime, sSpeed, sTemp, sConnection, bSelectedEntry);
        wrefresh(tmp);
        u8Index++;
    } // end loop though drives
@@ -227,6 +256,15 @@ enum TUI::UserInput TUI::readUserInput()
    case 'S':
        return TUI::UserInput::ShredAll;
        break;
    case 'T':
        return TUI::UserInput::Terminate;
        break;
    case 'p':
        return TUI::UserInput::Print;
        break;
    case 'P':
        return TUI::UserInput::PrintAll;
        break;
    default:
        return TUI::UserInput::Undefined;
        break;
@@ -234,6 +272,11 @@ enum TUI::UserInput TUI::readUserInput()
    return TUI::UserInput::Undefined;
 }
 void TUI::terminateTUI()
 {
    endwin();
 }
 void TUI::centerTitle(WINDOW *pwin, const char *title)
 {
    int x, maxX, stringSize;
@@ -263,7 +306,7 @@ WINDOW *TUI::createOverViewWindow(int iXSize, int iYSize)
    return newWindow;
 }
-WINDOW *TUI::createDetailViewWindow(int iXSize, int iYSize, int iXStart, Drive drive)
+WINDOW *TUI::createDetailViewWindow(int iXSize, int iYSize, int iXStart, Drive &drive)
 {
    WINDOW *newWindow;
    newWindow = newwin(iYSize, iXSize, 1, iXStart);
@@ -311,7 +354,7 @@ WINDOW *TUI::overwriteDetailViewWindow(int iXSize, int iYSize, int iXStart)
    string sLine01 = "reHDD - hard drive refurbishing tool";
    string sLine02 = "Version: " + string(REHDD_VERSION);
-    string sLine03 = "Available under GPL 3.0";
+    string sLine03 = "Free software under the GNU GPL 3.0";
    string sLine04 = "https://git.mosad.xyz/localhorst/reHDD";
    string sLine05 = "Delete: Wipe format table - this is NOT secure";
    string sLine06 = "Shred: Overwrite drive " + to_string(SHRED_ITERATIONS) + " iterations - this is secure";
@@ -332,7 +375,7 @@ WINDOW *TUI::overwriteDetailViewWindow(int iXSize, int iYSize, int iXStart)
    return newWindow;
 }
-WINDOW *TUI::createEntryWindow(int iXSize, int iYSize, int iXStart, int iYStart, int iListIndex, string sModelFamily, string sSerial, string sCapacity, string sState, string sTime, string sSpeed, string sTemp, bool bSelected)
+WINDOW *TUI::createEntryWindow(int iXSize, int iYSize, int iXStart, int iYStart, int iListIndex, string sModelFamily, string sSerial, string sCapacity, string sState, string sTime, string sSpeed, string sTemp, string sConnection, bool bSelected)
 {
    WINDOW *newWindow;
    newWindow = newwin(iYSize, iXSize, iYStart, iXStart);
@@ -377,6 +420,7 @@ WINDOW *TUI::createEntryWindow(int iXSize, int iYSize, int iXStart, int iYStart,
        37-43:  Capacity
        44:     space
        47-49:  Temp
        57-60:  Connection Type
    line:02
        0-2:    space
@@ -393,6 +437,7 @@ WINDOW *TUI::createEntryWindow(int iXSize, int iYSize, int iXStart, int iYStart,
    mvwaddstr(newWindow, 0, 3, sModelFamily.c_str());
    mvwaddstr(newWindow, 0, 37, sCapacity.c_str());
    mvwaddstr(newWindow, 0, 47, sTemp.c_str());
    mvwaddstr(newWindow, 0, 57, sConnection.c_str());
    vTruncateText(&sSerial, 28);
    mvwaddstr(newWindow, 1, 3, sSerial.c_str());
@@ -427,7 +472,7 @@ WINDOW *TUI::createSystemStats(int iXSize, int iYSize, int iXStart, int iYStart)
    sLine03.append(__DATE__);
    sLine03.append(" ");
    sLine03.append(__TIME__);
-    string sLine04 = "Available under GPL 3.0";
+    string sLine04 = "Free software under the GNU GPL 3.0";
    string sLine05 = "https://git.mosad.xyz/localhorst/reHDD";
    uint16_t u16Line = 2;
@@ -454,7 +499,7 @@ WINDOW *TUI::createMenuView(int iXSize, int iYSize, int iXStart, int iYStart, st
    centerTitle(newWindow, "Controls");
-    uint16_t u16Line = 4;
+    uint16_t u16Line = 2;
    if (menustate.bAbort)
    {
@@ -472,8 +517,16 @@ WINDOW *TUI::createMenuView(int iXSize, int iYSize, int iXStart, int iYStart, st
    {
        string sLineTmp = "Press d for Delete";
        mvwaddstr(newWindow, u16Line++, (iXSize / 2) - (sLineTmp.size() / 2), sLineTmp.c_str());
        u16Line++;
    }
    string sLineTmp = "Press p for Print (P for all drives)";
    mvwaddstr(newWindow, u16Line++, (iXSize / 2) - (sLineTmp.size() / 2), sLineTmp.c_str());
    u16Line++;
    sLineTmp = "Press T for terminating reHDD";
    mvwaddstr(newWindow, u16Line++, (iXSize / 2) - (sLineTmp.size() / 2), sLineTmp.c_str());
    return newWindow;
 }
@@ -600,9 +653,10 @@ void TUI::vTruncateText(string *psText, uint16_t u16MaxLenght)
    }
 }
-void TUI::displaySelectedDrive(Drive drive, int stdscrX, int stdscrY)
+void TUI::displaySelectedDrive(Drive &drive, int stdscrX, int stdscrY)
 {
    struct MenuState menustate;
    static bool dialogIsActive;
    menustate.bAbort = false;
    menustate.bConfirmDelete = false;
    menustate.bConfirmShred = false;
@@ -612,27 +666,27 @@ void TUI::displaySelectedDrive(Drive drive, int stdscrX, int stdscrY)
    // set menustate based on drive state
    switch (drive.state)
    {
-    case Drive::NONE: // no task running or selected for this drive
+    case Drive::TaskState::NONE: // no task running or selected for this drive
        menustate.bShred = true;
        menustate.bDelete = true;
        break;
-    case Drive::DELETE_ACTIVE: // delete task running for this drive
+    case Drive::TaskState::DELETE_ACTIVE: // delete task running for this drive
        menustate.bAbort = true;
        break;
-    case Drive::SHRED_ACTIVE: // shred task running for this drive
+    case Drive::TaskState::SHRED_ACTIVE: // shred task running for this drive
        menustate.bAbort = true;
        break;
-    case Drive::CHECK_ACTIVE: // check task running for this drive
+    case Drive::TaskState::CHECK_ACTIVE: // check task running for this drive
        menustate.bAbort = true;
        break;
-    case Drive::DELETE_SELECTED: // delete task selected for this drive
+    case Drive::TaskState::DELETE_SELECTED: // delete task selected for this drive
        menustate.bConfirmDelete = true;
        break;
-    case Drive::SHRED_SELECTED: // shred task selected for this drive
+    case Drive::TaskState::SHRED_SELECTED: // shred task selected for this drive
        menustate.bConfirmShred = true;
        break;
    default:
@@ -649,19 +703,25 @@ void TUI::displaySelectedDrive(Drive drive, int stdscrX, int stdscrY)
    {
        dialog = createDialog(40, 10, ((stdscrX) - (int)(stdscrX / 3) - 7) - (int)((stdscrX / 3) + 5) / 2, (int)(stdscrY / 2) - 5, "Confirm SHRED", "Press ENTER for SHRED", "Press ESC for cancel");
        wrefresh(dialog);
        dialogIsActive = true;
    }
    else if (menustate.bConfirmDelete == true)
    {
        dialog = createDialog(40, 10, ((stdscrX) - (int)(stdscrX / 3) - 7) - (int)((stdscrX / 3) + 5) / 2, (int)(stdscrY / 2) - 5, "Confirm DELETE", "Press ENTER for DELETE", "Press ESC for cancel");
        wrefresh(dialog);
        dialogIsActive = true;
    }
    else
    {
        if (dialogIsActive)
        {
            delwin(dialog);
            dialogIsActive = false;
        }
    }
 }
-WINDOW *TUI::createSmartWarning(int iXSize, int iYSize, int iXStart, int iYStart, string sPath, uint32_t u32PowerOnHours, uint32_t u32PowerCycles, uint32_t u32ErrorCount, uint32_t u32Temperature)
+WINDOW *TUI::createSmartWarning(int iXSize, int iYSize, int iXStart, int iYStart, string sPath, uint32_t u32PowerOnHours, uint32_t u32PowerCycles, uint32_t u32ErrorCount, uint32_t u32Temperature, uint32_t u32ReallocatedSectors, uint32_t u32PendingSectors, uint32_t u32UncorrectableSectors)
 {
    WINDOW *newWindow;
    newWindow = newwin(iYSize, iXSize, iYStart, iXStart);
@@ -703,6 +763,28 @@ WINDOW *TUI::createSmartWarning(int iXSize, int iYSize, int iXStart, int iYStart
    {
        string sLineTmp = "Drive too hot: " + to_string(u32Temperature) + " C";
        mvwaddstr(newWindow, u16Line++, (iXSize / 2) - (sLine01.size() / 2), sLineTmp.c_str());
        u16Line++;
    }
    if (u32ReallocatedSectors > 0)
    {
        string sLineTmp = "CRITICAL: Reallocated sectors detected: " + to_string(u32ReallocatedSectors);
        mvwaddstr(newWindow, u16Line++, (iXSize / 2) - (sLine01.size() / 2), sLineTmp.c_str());
        u16Line++;
    }
    if (u32PendingSectors > 0)
    {
        string sLineTmp = "CRITICAL: Pending sectors detected: " + to_string(u32PendingSectors);
        mvwaddstr(newWindow, u16Line++, (iXSize / 2) - (sLine01.size() / 2), sLineTmp.c_str());
        u16Line++;
    }
    if (u32UncorrectableSectors > 0)
    {
        string sLineTmp = "CRITICAL: Uncorrectable sectors: " + to_string(u32UncorrectableSectors);
        mvwaddstr(newWindow, u16Line++, (iXSize / 2) - (sLine01.size() / 2), sLineTmp.c_str());
    }
    return newWindow;
 }
Author	SHA1	Message	Date
localhorst	716ab5614f	add comments	2026-05-01 15:28:02 +02:00
localhorst	e017aeca0b	fix pointer (again)	2026-05-01 15:22:35 +02:00
localhorst	42a1567b32	Fix error handling if shred failes (#96 ) fixes #95 Reviewed-on: #96 Co-authored-by: localhorst <localhorst@mosad.xyz> Co-committed-by: localhorst <localhorst@mosad.xyz>	2026-05-01 15:18:31 +02:00
localhorst	95f5037529	Merge branch 'master' into feature/adaptive-chunksize	2026-05-01 15:11:42 +02:00
localhorst	55481b86fd	Show HDD warnings based on sectors (#97 ) If one of the following metrics is >0 an warning is shown * Reallocated_Sector_Count * Current_Pending_Sector * Offline_Uncorrectable Reviewed-on: #97 Co-authored-by: localhorst <localhorst@mosad.xyz> Co-committed-by: localhorst <localhorst@mosad.xyz>	2026-05-01 15:03:15 +02:00
localhorst	5478a871f1	Fix error handling if shred failes (#96 ) fixes #95 Reviewed-on: #96 Co-authored-by: localhorst <localhorst@mosad.xyz> Co-committed-by: localhorst <localhorst@mosad.xyz>	2026-05-01 13:12:39 +02:00
localhorst	50e88c8e84	Best throughput tracker with chunksize	2026-04-28 21:54:49 +02:00
localhorst	157e769268	Filter loop and cd/dvd drives (#92 ) Reviewed-on: #92 Co-authored-by: localhorst <localhorst@mosad.xyz> Co-committed-by: localhorst <localhorst@mosad.xyz>	2025-12-13 14:16:24 +01:00
localhorst	8a42ccf9c0	Refactor start of delete thread (#90 ) Reviewed-on: #90 Co-authored-by: localhorst <localhorst@mosad.xyz> Co-committed-by: localhorst <localhorst@mosad.xyz>	2025-12-12 22:56:28 +01:00
localhorst	1dce303ab6	Defensive drive state (#89 ) fixes #79 Reviewed-on: #89 Co-authored-by: localhorst <localhorst@mosad.xyz> Co-committed-by: localhorst <localhorst@mosad.xyz>	2025-12-12 22:46:21 +01:00
localhorst	1449e807ad	User triggered print of drive lable (#85 ) implements #66 Reviewed-on: #85 Co-authored-by: localhorst <localhorst@mosad.xyz> Co-committed-by: localhorst <localhorst@mosad.xyz>	2025-12-12 22:32:51 +01:00
localhorst	c4a960f3cf	bugfix/dry-run-tui-freeze (#88 ) Fixes #87 Reviewed-on: #88 Co-authored-by: localhorst <localhorst@mosad.xyz> Co-committed-by: localhorst <localhorst@mosad.xyz>	2025-12-12 22:14:47 +01:00
localhorst	d749f23e77	Merge pull request 'State "Failed" if checksum is not zero' (#81 ) from feature/failed-state into master Reviewed-on: #81	2025-12-10 22:30:50 +01:00
localhorst	238915bfee	fix checksum alert	2025-12-10 22:29:30 +01:00
localhorst	3afe3517e2	only print if check is not failed	2025-12-10 22:05:11 +01:00
localhorst	7bb9013c6c	Merge branch 'master' into feature/failed-state	2025-12-10 21:59:04 +01:00
localhorst	6060ae13d6	Merge pull request 'bugfix/ai-static-analysis' (#82 ) from bugfix/ai-static-analysis into master Reviewed-on: #82	2025-12-10 21:52:17 +01:00
localhorst	9aca86af0c	add call to logger	2025-12-10 21:49:44 +01:00
localhorst	26c42a7e5d	fix shred bytes counters	2025-12-10 21:44:27 +01:00
localhorst	cbf781f0e5	fix prod build	2025-12-10 21:37:14 +01:00
localhorst	b953394c0d	Merge pull request 'fix/atomic-drive-members' (#83 ) from fix/atomic-drive-members into bugfix/ai-static-analysis Reviewed-on: #83	2025-12-10 21:21:15 +01:00
localhorst	4b0ec380b1	fix atomic	2025-12-10 21:15:39 +01:00
localhorst	a4f15460d3	make members atomic	2025-12-10 20:40:48 +01:00
localhorst	acc05dac8b	Potential Division by Zero	2025-12-09 22:02:59 +01:00
localhorst	c27471ae03	Unused Semicolon	2025-12-09 21:59:24 +01:00
localhorst	15014d8542	Global Using Namespace in Header	2025-12-09 21:58:57 +01:00
localhorst	c9c4c0fac2	Missing Free for getline Allocated Memory	2025-12-09 21:53:39 +01:00
localhorst	e5506fd67e	Missing Validation of String Length	2025-12-09 21:51:47 +01:00
localhorst	2c45158ee8	Unchecked ioctl Return Value	2025-12-09 21:47:20 +01:00
localhorst	24d0eda150	Deprecated sprintf in Logger	2025-12-09 21:33:31 +01:00
localhorst	228d8ecf6c	Missing Check for lseek Return Value	2025-12-09 21:31:31 +01:00
localhorst	c4cbcb99b5	Signed/Unsigned Comparison	2025-12-09 21:23:02 +01:00
localhorst	f9d63a6a3f	Mutex Not Held During List Size Check	2025-12-09 21:21:44 +01:00
localhorst	8872902990	strcpy Without Bounds Checking	2025-12-09 21:15:48 +01:00
localhorst	7c92386082	Using sprintf Instead of snprintf	2025-12-09 21:09:25 +01:00
localhorst	ba2f036d88	Uninitialized Memory in cLine	2025-12-07 20:41:09 +01:00
localhorst	43ccdbd4d8	fix terminate if no drive is detected	2025-12-07 20:39:04 +01:00
localhorst	460cfeab2c	Iterator Invalidation Bug	2025-12-07 20:36:53 +01:00
localhorst	2ca0b8b061	Missing Validation of Pipe Return Value	2025-12-07 20:30:36 +01:00
localhorst	c7d37b1d95	Missing Bounds Check on Array Access	2025-12-07 20:27:56 +01:00
localhorst	4afc155230	Unchecked strerror() with Invalid Errno	2025-12-07 19:11:35 +01:00
localhorst	d82c45057b	Missing Error Check on time() Calls	2025-12-07 19:04:00 +01:00
localhorst	f303f9f032	Integer Overflow in sprintf Buffer	2025-12-07 19:01:13 +01:00
localhorst	46e8dae697	Race Condition with Shared Drive List	2025-12-07 18:59:19 +01:00
localhorst	eded3f166c	Revert "Unchecked popen/pclose Return Values" This reverts commit `bcabad0620`.	2025-12-07 18:52:10 +01:00
localhorst	bcabad0620	Unchecked popen/pclose Return Values	2025-12-07 18:48:38 +01:00
localhorst	bc4083a98c	Resource Leak - File Descriptor Not Checked	2025-12-07 18:47:24 +01:00
localhorst	2d63788352	Nullptr Return Without Proper Handling	2025-12-07 18:45:42 +01:00
localhorst	ff6a1763e0	Memory Leak in Drive Scanning	2025-12-07 18:44:53 +01:00
localhorst	37cbc9500e	Memory Leak in main.cpp	2025-12-07 18:42:03 +01:00
localhorst	298192111d	new states	2025-12-07 18:36:32 +01:00
localhorst	80ffb3c6c3	Merge pull request 'Improve UUID parsing' (#78 ) from hannesbraun/reHDD:master into master Reviewed-on: #78 Reviewed-by: Hendrik Schutter <localhorst@mosad.xyz>	2025-12-07 18:15:28 +01:00
localhorst	ebe0ef9ec1	Merge pull request 'fix(UI): Restore terminal state on termination' (#77 ) from hannesbraun/reHDD:terminal-restore into master Reviewed-on: #77	2025-12-07 18:11:02 +01:00
localhorst	86660cb112	Merge pull request 'feature/drive-type-ipc' (#80 ) from feature/drive-type-ipc into master Reviewed-on: #80	2025-12-07 18:05:36 +01:00
localhorst	47ab9cc36f	update Version	2025-12-07 18:04:52 +01:00
localhorst	aaf4695656	IPC connection type	2025-12-07 17:51:16 +01:00
hannesbraun	664582f01d	Improve UUID parsing The previous approach only worked if the drive name had three letters (usually sda).	2025-07-25 14:26:20 +02:00
hannesbraun	9f6cfc17f8	Restore terminal state on termination	2025-07-24 18:55:49 +02:00
localhorst	a5eb5532d5	Merge pull request 'feature/sata-usb-info' (#76 ) from feature/sata-usb-info into master Reviewed-on: #76	2025-06-22 11:58:22 +02:00
localhorst	1efe3376c1	display empty string if connection type is not known	2025-06-22 11:57:40 +02:00
localhorst	36ea3a2bef	disable dryrun	2025-06-22 11:46:09 +02:00
localhorst	fd4ad95ab1	display connection type	2025-06-21 20:25:32 +02:00
localhorst	d76cb1a195	get connection type	2025-06-21 20:19:30 +02:00
localhorst	d8584486b9	Merge pull request 'Terminate reHDD on user input' (#75 ) from feature/control-menu into master Reviewed-on: #75	2025-06-21 11:51:00 +02:00
localhorst	20d0dd8e90	reset build settings	2025-06-21 11:49:49 +02:00
localhorst	1ec4a2c793	fix shred.cpp	2025-06-21 11:46:45 +02:00
localhorst	a0c842d90d	add terminate action	2025-06-15 22:16:34 +02:00
localhorst	1ceffa56f8	Merge pull request 'Ignore system drives as live image' (#71 ) from bugfix/systemdrive_live into master Reviewed-on: #71	2024-08-19 16:30:09 +02:00
localhorst	4ff1888333	ignore system drives as live image	2024-08-19 15:35:22 +02:00
localhorst	4b33fb6fdb	update live image info	2024-08-17 16:02:58 +02:00
localhorst	87a859f187	skip delete if drive was shredded before	2024-08-16 10:29:12 +02:00
localhorst	952e8c8eeb	add new flag	2024-08-16 10:29:12 +02:00
localhorst	1055ef57ee	Disable delete after shred was once started. (#69 ) documented here: #65 Reviewed-on: #69 Co-authored-by: localhorst <localhorst@mosad.xyz> Co-committed-by: localhorst <localhorst@mosad.xyz>	2024-08-16 10:26:49 +02:00
localhorst	6dd4c44688	Merge pull request 'fix deletion of dialog' (#68 ) from bugfix/segmentationfault into master Reviewed-on: #68	2024-06-23 11:13:53 +02:00
localhorst	feed1b4a97	fix deletion of dialog	2024-06-23 11:11:20 +02:00
localhorst	5d2094939b	Merge pull request 'feature/ignore_systemdrive' (#64 ) from feature/ignore_systemdrive into master Reviewed-on: #64	2024-06-02 10:00:39 +02:00
localhorst	b1b9870150	remove dryrun	2024-06-02 09:57:12 +02:00
localhorst	77b322d47d	ignore system drive	2024-06-02 09:51:22 +02:00
localhorst	a665f8638e	find system drive	2024-06-02 09:31:55 +02:00
localhorst	282c294ae7	Merge pull request 'Fix S.M.A.R.T. data reading' (#63 ) from bugfix/smart into master Reviewed-on: #63	2024-06-02 08:44:45 +02:00
localhorst	93c52f9a69	Revert "reuse working smartclt cmd" This reverts commit `84a2da8bc2`.	2024-06-01 15:04:06 +02:00
localhorst	84a2da8bc2	reuse working smartclt cmd	2024-06-01 14:52:50 +02:00
localhorst	fe11419e37	add usb sata bridge	2024-06-01 14:37:03 +02:00
localhorst	76c728c241	fix dryrun	2024-06-01 14:23:53 +02:00
localhorst	fb31becf1a	get status from smartctl correct	2024-06-01 14:14:58 +02:00