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localhorst:1.2.0 localhorst:1.1.3 localhorst:1.1.2 localhorst:1.1.1 localhorst:b1.1.0 localhorst:b0.3.0 localhorst:b0.2.2 localhorst:b0.2.0 localhorst:b0.1.0 localhorst:1.0.0
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localhorst:1.2.0 localhorst:1.1.3 localhorst:1.1.2 localhorst:1.1.1 localhorst:b1.1.0 localhorst:b0.3.0 localhorst:b0.2.2 localhorst:b0.2.0 localhorst:b0.1.0 localhorst:1.0.0

20 Commits
1.1.1 ... test/ipc-d

Author SHA1 Message Date
localhorst
a35cb111ee simple ipc send 2025-06-21 11:32:41 +02:00
localhorst
575cb73d95 send dummy ipc 2025-06-08 23:00:38 +02:00
Hendrik Schutter
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
Hendrik Schutter
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
Hendrik Schutter
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
Hendrik Schutter
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
Hendrik Schutter
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
10 changed files with 277 additions and 112 deletions
Expand all files Collapse all files

2
README.md
View File

@ -9,7 +9,7 @@
* process multiple drives at once * process multiple drives at once
## Download USB Image ## ## 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 . Use [Etcher](https://www.balena.io/etcher/#download) or `dd` to create an bootable USB drive .

1
include/drive.h
View File

@ -34,6 +34,7 @@ public:
} sShredSpeed; } sShredSpeed;
bool bWasShredded = false; // all shred iterations done 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 bWasChecked = false; // all shred iterations and optional checking done
bool bWasDeleted = false; bool bWasDeleted = false;
bool bIsOffline = false; bool bIsOffline = false;

5
include/reHDD.h
View File

@ -8,7 +8,7 @@
#ifndef REHDD_H_ #ifndef REHDD_H_
#define REHDD_H_ #define REHDD_H_
#define REHDD_VERSION "V1.1.1" #define REHDD_VERSION "V1.1.3"
// Drive handling Settings // Drive handling Settings
#define WORSE_HOURS 19200 // mark drive if at this limit or beyond #define WORSE_HOURS 19200 // mark drive if at this limit or beyond
@ -31,7 +31,7 @@
#endif #endif
// Logic // 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 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 #define ZERO_CHECK // check drive after shred if all bytes are zero, show alert if this fails
@ -101,6 +101,7 @@ private:
static void handleESC(); static void handleESC();
static void handleAbort(); static void handleAbort();
static Drive *getSelectedDrive(); static Drive *getSelectedDrive();
static bool getSystemDrive(string &systemDrive);
}; };
#endif // REHDD_H_ #endif // REHDD_H_

27
include/smart.h
View File

@ -19,24 +19,15 @@ public:
private: private:
SMART(void); SMART(void);
static uint8_t parseExitStatus(string sLine); static bool parseExitStatus(string sLine, uint8_t &status);
static void parseModelFamily(string sLine); static bool parseModelFamily(string sLine, string &modelFamily);
static void parseModelName(string sLine); static bool parseModelName(string sLine, string &modelName);
static void parseSerial(string sLine); static bool parseSerial(string sLine, string &serial);
static void parseCapacity(string sLine); static bool parseCapacity(string sLine, uint64_t &capacity);
static void parseErrorCount(string sLine); static bool parseErrorCount(string sLine, uint32_t &errorCount);
static void parsePowerOnHours(string sLine); static bool parsePowerOnHours(string sLine, uint32_t &powerOnHours);
static void parsePowerCycle(string sLine); static bool parsePowerCycles(string sLine, uint32_t &powerCycles);
static void parseTemperature(string sLine); static bool parseTemperature(string sLine, uint32_t &temperature);
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_ #endif // SMART_H_

4
src/delete.cpp
View File

@ -32,6 +32,9 @@ void Delete::deleteDrive(Drive *drive)
const char *cpComand = sCMD.c_str(); const char *cpComand = sCMD.c_str();
// cout << "delete: " << cpComand << endl; // cout << "delete: " << cpComand << endl;
if (drive->bWasShredStarted == false)
{
//only start delete if the drive was not shredded before
FILE *deleteCmdOutput = popen(cpComand, "r"); FILE *deleteCmdOutput = popen(cpComand, "r");
while ((getline(&cLine, &len, deleteCmdOutput)) != -1) while ((getline(&cLine, &len, deleteCmdOutput)) != -1)
@ -40,3 +43,4 @@ void Delete::deleteDrive(Drive *drive)
} }
pclose(deleteCmdOutput); pclose(deleteCmdOutput);
} }
}

30
src/main.cpp
View File

@ -6,6 +6,7 @@
*/ */
#include "../include/reHDD.h" #include "../include/reHDD.h"
#include "../include/printer.h"
/** /**
* \brief app entry point * \brief app entry point
@ -14,9 +15,32 @@
*/ */
int main(void) int main(void)
{ {
// cout << "refurbishingHddTool" << endl; cout << "refurbishingHddTool" << endl;
reHDD *app = new reHDD(); Drive *tmpDrive = new Drive("/dev/");
app->app_logic(); tmpDrive->setActionStartTimestamp();
tmpDrive->bWasShredded = true;
tmpDrive->setDriveSMARTData("modelFamily",
"modelName",
"serial",
420000,
43,
44,
45,
46);
while(true){
cout << "send" << endl;
Printer::getPrinter()->print(tmpDrive);
sleep(5); // sleep 5 sec
break;
}
cout << "exit" << endl;
// reHDD *app = new reHDD();
// app->app_logic();
return EXIT_SUCCESS; return EXIT_SUCCESS;
} }

80
src/reHDD.cpp
View File

@ -344,6 +344,26 @@ void reHDD::searchDrives(list<Drive> *plistDrives)
*/ */
void reHDD::filterIgnoredDrives(list<Drive> *plistDrives) void reHDD::filterIgnoredDrives(list<Drive> *plistDrives)
{ {
string systemDrivePath;
if (getSystemDrive(systemDrivePath))
{
// Logger::logThis()->info("Found system drive: " + systemDrivePath);
list<Drive>::iterator it;
for (it = plistDrives->begin(); it != plistDrives->end(); ++it)
{
if (it->getPath().find(systemDrivePath) != std::string::npos) // compare found system drive and current drive
{
// system drive found --> ignore this drive
#ifdef LOG_LEVEL_HIGH
Logger::logThis()->info("system drive found --> ignore this drive: " + it->getPath());
#endif
it = plistDrives->erase(it);
it--;
}
}
}
list<tuple<string>> vtlIgnoredDevices; // store drives from ignore file list<tuple<string>> vtlIgnoredDevices; // store drives from ignore file
ifstream input("ignoreDrives.conf"); // read ignore file ifstream input("ignoreDrives.conf"); // read ignore file
@ -560,7 +580,7 @@ void reHDD::handleEnter()
{ {
Logger::logThis()->info("Started shred/check for: " + getSelectedDrive()->getModelName() + "-" + getSelectedDrive()->getSerial()); Logger::logThis()->info("Started shred/check for: " + getSelectedDrive()->getModelName() + "-" + getSelectedDrive()->getSerial());
getSelectedDrive()->state = Drive::TaskState::SHRED_ACTIVE; getSelectedDrive()->state = Drive::TaskState::SHRED_ACTIVE;
// task for drive is running --> don´t show more task options // task for drive is running --> don't show more task options
Drive *pTmpDrive = getSelectedDrive(); Drive *pTmpDrive = getSelectedDrive();
thread(ThreadShred, pTmpDrive).detach(); thread(ThreadShred, pTmpDrive).detach();
} }
@ -569,7 +589,7 @@ void reHDD::handleEnter()
{ {
Logger::logThis()->info("Started delete for: " + getSelectedDrive()->getModelName() + "-" + getSelectedDrive()->getSerial()); Logger::logThis()->info("Started delete for: " + getSelectedDrive()->getModelName() + "-" + getSelectedDrive()->getSerial());
getSelectedDrive()->state = Drive::TaskState::DELETE_ACTIVE; getSelectedDrive()->state = Drive::TaskState::DELETE_ACTIVE;
// task for drive is running --> don´t show more task options // task for drive is running --> don't show more task options
thread(ThreadDelete).detach(); thread(ThreadDelete).detach();
} }
} }
@ -605,3 +625,59 @@ void reHDD::handleAbort()
} }
} }
} }
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;
}
// Logger::logThis()->info(currentLine);
if ((cLine[0U] != '|') && (cLine[0U] != '`'))
{
systemDrive = currentLine;
systemDrive.erase(std::remove(systemDrive.begin(), systemDrive.end(), '\n'), systemDrive.end()); // remove newline
systemDrive.erase(std::remove(systemDrive.begin(), systemDrive.end(), ' '), systemDrive.end()); // remove spaces
// Logger::logThis()->info("Drive found: " + systemDrive);
}
if (currentLine.ends_with(" /boot/efi\n"s))
{
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);
return systemDriveFound;
}

5
src/shred.cpp
View File

@ -36,6 +36,7 @@ int Shred::shredDrive(Drive *drive, int *ipSignalFd)
ostringstream address; ostringstream address;
address << (void const *)&(*drive); address << (void const *)&(*drive);
Logger::logThis()->info("Shred-Task started - Drive: " + drive->getModelName() + "-" + drive->getSerial() + " @" + address.str()); Logger::logThis()->info("Shred-Task started - Drive: " + drive->getModelName() + "-" + drive->getSerial() + " @" + address.str());
drive->bWasShredStarted = true; //Mark drive as partly shredded
#ifdef DRYRUN #ifdef DRYRUN
for (int i = 0; i <= 500; i++) for (int i = 0; i <= 500; i++)
@ -48,6 +49,7 @@ int Shred::shredDrive(Drive *drive, int *ipSignalFd)
write(*ipSignalFd, "A", 1); write(*ipSignalFd, "A", 1);
usleep(20000); usleep(20000);
} }
drive->bWasShredded = true;
#endif #endif
#ifndef DRYRUN #ifndef DRYRUN
@ -90,8 +92,7 @@ int Shred::shredDrive(Drive *drive, int *ipSignalFd)
tfng_prng_seedkey(ucKey); tfng_prng_seedkey(ucKey);
this->ulDriveByteSize = getDriveSizeInBytes(driveFileDiscr); this->ulDriveByteSize = getDriveSizeInBytes(driveFileDiscr);
drive->sShredSpeed.chronoShredTimestamp = std::chrono::system_clock::now(); drive->sShredSpeed.chronoShredTimestamp = std::chrono::system_clock::now(); // set inital timestamp for speed metric
; // set inital timestamp for speed metric
drive->sShredSpeed.ulSpeedMetricBytesWritten = 0U; // uses to calculate speed metric drive->sShredSpeed.ulSpeedMetricBytesWritten = 0U; // uses to calculate speed metric
#ifdef LOG_LEVEL_HIGH #ifdef LOG_LEVEL_HIGH

174
src/smart.cpp
View File

@ -7,15 +7,6 @@
#include "../include/reHDD.h" #include "../include/reHDD.h"
string SMART::modelFamily;
string SMART::modelName;
string SMART::serial;
uint64_t SMART::capacity = 0U;
uint32_t SMART::errorCount = 0U;
uint32_t SMART::powerOnHours = 0U;
uint32_t SMART::powerCycle = 0U;
uint32_t SMART::temperature = 0U;
/** /**
* \brief get and set S.M.A.R.T. values in Drive * \brief get and set S.M.A.R.T. values in Drive
* \param pointer of Drive instance * \param pointer of Drive instance
@ -23,16 +14,20 @@ uint32_t SMART::temperature = 0U;
*/ */
void SMART::readSMARTData(Drive *drive) void SMART::readSMARTData(Drive *drive)
{ {
string modelFamily;
string modelName;
string serial;
uint64_t capacity = 0U;
uint32_t errorCount = 0U;
uint32_t powerOnHours = 0U;
uint32_t powerCycles = 0U;
uint32_t temperature = 0U;
modelFamily.clear(); modelFamily.clear();
modelName.clear(); modelName.clear();
serial.clear(); 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 "}; string sSmartctlCommands[] = {" --json -a ", " --json -d sntjmicron -a ", " --json -d sntasmedia -a ", " --json -d sntrealtek -a ", " --json -d sat -a "};
for (string sSmartctlCommand : sSmartctlCommands) for (string sSmartctlCommand : sSmartctlCommands)
{ {
@ -41,24 +36,26 @@ void SMART::readSMARTData(Drive *drive)
sCMD.append(drive->getPath()); sCMD.append(drive->getPath());
const char *cpComand = sCMD.c_str(); const char *cpComand = sCMD.c_str();
//Logger::logThis()->info(cpComand);
FILE *outputfileSmart = popen(cpComand, "r"); FILE *outputfileSmart = popen(cpComand, "r");
size_t len = 0; // length of found line size_t len = 0U; // length of found line
char *cLine = NULL; // found line char *cLine = NULL; // found line
uint8_t status = 255; uint8_t status = 255U;
while ((getline(&cLine, &len, outputfileSmart)) != -1) while ((getline(&cLine, &len, outputfileSmart)) != -1)
{ {
string sLine = string(cLine); string sLine = string(cLine);
status = SMART::parseExitStatus(sLine); SMART::parseExitStatus(sLine, status);
SMART::parseModelFamily(sLine); SMART::parseModelFamily(sLine, modelFamily);
SMART::parseModelName(sLine); SMART::parseModelName(sLine, modelName);
SMART::parseSerial(sLine); SMART::parseSerial(sLine, serial);
SMART::parseCapacity(sLine); SMART::parseCapacity(sLine, capacity);
SMART::parseErrorCount(sLine); SMART::parseErrorCount(sLine, errorCount);
SMART::parsePowerOnHours(sLine); SMART::parsePowerOnHours(sLine, powerOnHours);
SMART::parsePowerCycle(sLine); SMART::parsePowerCycles(sLine, powerCycles);
SMART::parseTemperature(sLine); SMART::parseTemperature(sLine, temperature);
} }
pclose(outputfileSmart); pclose(outputfileSmart);
@ -66,71 +63,89 @@ void SMART::readSMARTData(Drive *drive)
if (status == 0U) if (status == 0U)
{ {
// Found S.M.A.R.T. data with this command // Found S.M.A.R.T. data with this command
//Logger::logThis()->info("Found S.M.A.R.T. data with this command");
break; break;
} }
} }
drive->setDriveSMARTData(modelFamily, modelName, serial, capacity, errorCount, powerOnHours, powerCycle, temperature); // wirte data in drive drive->setDriveSMARTData(modelFamily, modelName, serial, capacity, errorCount, powerOnHours, powerCycles, temperature); // write data in drive
} }
/** /**
* \brief parse ExitStatus * \brief parse ExitStatus
* \param string output line of smartctl * \param string output line of smartctl
* \return uint_8 exit status * \param uint8_t parsed status
* \return bool if parsing was possible
*/ */
uint8_t SMART::parseExitStatus(string sLine) bool SMART::parseExitStatus(string sLine, uint8_t &status)
{ {
uint8_t exitStatus = -1;
string search("\"exit_status\": "); string search("\"exit_status\": ");
size_t found = sLine.find(search); size_t found = sLine.find(search);
if (found != string::npos) if (found != string::npos)
{ {
sLine.erase(0, sLine.find(": ") + 1); sLine.erase(0U, sLine.find(": ") + 1U);
exitStatus = stol(sLine); status = stol(sLine);
return true;
}
else
{
return false;
} }
return exitStatus;
} }
/** /**
* \brief parse ModelFamiliy * \brief parse ModelFamily
* \param string output line of smartctl * \param string output line of smartctl
* \return void * \param string parsed model family
* \return bool if parsing was possible
*/ */
void SMART::parseModelFamily(string sLine) bool SMART::parseModelFamily(string sLine, string &modelFamily)
{ {
string search("\"model_family\": "); string search("\"model_family\": ");
size_t found = sLine.find(search); size_t found = sLine.find(search);
if (found != string::npos) if (found != string::npos)
{ {
sLine.erase(0, sLine.find(": ") + 3); sLine.erase(0U, sLine.find(": ") + 3U);
sLine.erase(sLine.length() - 3, 3); sLine.erase(sLine.length() - 3U, 3U);
modelFamily = sLine; modelFamily = sLine;
return true;
}
else
{
return false;
} }
} }
/** /**
* \brief parse ModelName * \brief parse ModelName
* \param string output line of smartctl * \param string output line of smartctl
* \return void * \param string parsed model name
* \return bool if parsing was possible
*/ */
void SMART::parseModelName(string sLine) bool SMART::parseModelName(string sLine, string &modelName)
{ {
string search("\"model_name\": "); string search("\"model_name\": ");
size_t found = sLine.find(search); size_t found = sLine.find(search);
if (found != string::npos) if (found != string::npos)
{ {
sLine.erase(0, sLine.find(": ") + 3); sLine.erase(0U, sLine.find(": ") + 3U);
sLine.erase(sLine.length() - 3, 3); sLine.erase(sLine.length() - 3U, 3U);
modelName = sLine; modelName = sLine;
return true;
}
else
{
return false;
} }
} }
/** /**
* \brief parse Serial * \brief parse Serial
* \param string output line of smartctl * \param string output line of smartctl
* \return void * \param string parsed serial
* \return bool if parsing was possible
*/ */
void SMART::parseSerial(string sLine) bool SMART::parseSerial(string sLine, string &serial)
{ {
string search("\"serial_number\": "); string search("\"serial_number\": ");
size_t found = sLine.find(search); size_t found = sLine.find(search);
@ -139,15 +154,21 @@ void SMART::parseSerial(string sLine)
sLine.erase(0, sLine.find(": ") + 3); sLine.erase(0, sLine.find(": ") + 3);
sLine.erase(sLine.length() - 3, 3); sLine.erase(sLine.length() - 3, 3);
serial = sLine; serial = sLine;
return true;
}
else
{
return false;
} }
} }
/** /**
* \brief parse Capacity * \brief parse Capacity
* \param string output line of smartctl * \param string output line of smartctl
* \return void * \param string parsed capacity
* \return bool if parsing was possible
*/ */
void SMART::parseCapacity(string sLine) bool SMART::parseCapacity(string sLine, uint64_t &capacity)
{ {
string search("\"bytes\": "); string search("\"bytes\": ");
size_t found = sLine.find(search); size_t found = sLine.find(search);
@ -156,49 +177,67 @@ void SMART::parseCapacity(string sLine)
sLine.erase(0, sLine.find(": ") + 2); sLine.erase(0, sLine.find(": ") + 2);
sLine.erase(sLine.length() - 1, 1); sLine.erase(sLine.length() - 1, 1);
capacity = stol(sLine); capacity = stol(sLine);
return true;
}
else
{
return false;
} }
} }
/** /**
* \brief parse ErrorCount * \brief parse ErrorCount
* \param string output line of smartctl * \param string output line of smartctl
* \return void * \param uint32_t parsed error count
* \return bool if parsing was possible
*/ */
void SMART::parseErrorCount(string sLine) bool SMART::parseErrorCount(string sLine, uint32_t &errorCount)
{ {
string search("\"error_count_total\": "); string search("\"error_count_total\": ");
size_t found = sLine.find(search); size_t found = sLine.find(search);
if (found != string::npos) if (found != string::npos)
{ {
sLine.erase(0, sLine.find(": ") + 2); sLine.erase(0U, sLine.find(": ") + 2U);
sLine.erase(sLine.length() - 2, 2); sLine.erase(sLine.length() - 2U, 2U);
errorCount = stol(sLine); errorCount = stol(sLine);
return true;
}
else
{
return false;
} }
} }
/** /**
* \brief parse PowerOnHours * \brief parse PowerOnHours
* \param string output line of smartctl * \param string output line of smartctl\
* \return void * \param uint32_t parsed power on hours
* \return bool if parsing was possible
*/ */
void SMART::parsePowerOnHours(string sLine) bool SMART::parsePowerOnHours(string sLine, uint32_t &powerOnHours)
{ {
string search("\"hours\": "); string search("\"hours\": ");
size_t found = sLine.find(search); size_t found = sLine.find(search);
if (found != string::npos) if (found != string::npos)
{ {
sLine.erase(0, sLine.find(": ") + 2); sLine.erase(0U, sLine.find(": ") + 2U);
sLine.erase(sLine.length() - 1, 1); sLine.erase(sLine.length() - 1U, 1U);
powerOnHours = stol(sLine); powerOnHours = stol(sLine);
return true;
}
else
{
return false;
} }
} }
/** /**
* \brief parse PowerCycle * \brief parse PowerCycle
* \param string output line of smartctl * \param string output line of smartctl
* \return void * \param uint32_t parsed power cycles
* \return bool if parsing was possible
*/ */
void SMART::parsePowerCycle(string sLine) bool SMART::parsePowerCycles(string sLine, uint32_t &powerCycles)
{ {
string search("\"power_cycle_count\": "); string search("\"power_cycle_count\": ");
size_t found = sLine.find(search); size_t found = sLine.find(search);
@ -206,23 +245,29 @@ void SMART::parsePowerCycle(string sLine)
{ {
sLine.erase(0, sLine.find(": ") + 2); sLine.erase(0, sLine.find(": ") + 2);
sLine.erase(sLine.length() - 2, 2); sLine.erase(sLine.length() - 2, 2);
powerCycle = stol(sLine); powerCycles = stol(sLine);
return true;
}
else
{
return false;
} }
} }
/** /**
* \brief parse temperature * \brief parse temperature
* \param string output line of smartctl * \param string output line of smartctl
* \return void * \param uint32_t parsed temperature
* \return bool if parsing was possible
*/ */
void SMART::parseTemperature(string sLine) bool SMART::parseTemperature(string sLine, uint32_t &temperature)
{ {
string search("\"current\": "); string search("\"current\": ");
size_t found = sLine.find(search); size_t found = sLine.find(search);
if (found != string::npos) if (found != string::npos)
{ {
sLine.erase(0, sLine.find(": ") + 2); sLine.erase(0U, sLine.find(": ") + 2U);
sLine.erase(sLine.length() - 1, 2); sLine.erase(sLine.length() - 1U, 2U);
if (sLine == "{") if (sLine == "{")
{ {
temperature = 0U; // this drive doesn't support temperature temperature = 0U; // this drive doesn't support temperature
@ -231,5 +276,10 @@ void SMART::parseTemperature(string sLine)
{ {
temperature = stol(sLine); temperature = stol(sLine);
} }
return true;
}
else
{
return false;
} }
} }

17
src/tui.cpp
View File

@ -43,11 +43,21 @@ void TUI::initTUI()
init_pair(COLOR_AREA_ENTRY_EVEN, COLOR_BLACK, COLOR_WHITE); init_pair(COLOR_AREA_ENTRY_EVEN, COLOR_BLACK, COLOR_WHITE);
init_pair(COLOR_AREA_ENTRY_ODD, COLOR_BLUE, 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); init_pair(COLOR_AREA_ENTRY_SELECTED, COLOR_WHITE, COLOR_RED);
#endif
init_pair(COLOR_AREA_OVERVIEW, COLOR_BLACK, COLOR_WHITE); init_pair(COLOR_AREA_OVERVIEW, COLOR_BLACK, COLOR_WHITE);
init_pair(COLOR_AREA_DETAIL, 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 "); mvprintw(0, 2, "reHDD - HDD refurbishing tool - GPL 3.0 ");
#endif
Logger::logThis()->info("UI successfully initialized"); Logger::logThis()->info("UI successfully initialized");
} }
@ -603,6 +613,7 @@ 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; struct MenuState menustate;
static bool dialogIsActive;
menustate.bAbort = false; menustate.bAbort = false;
menustate.bConfirmDelete = false; menustate.bConfirmDelete = false;
menustate.bConfirmShred = false; menustate.bConfirmShred = false;
@ -649,15 +660,21 @@ 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"); 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); wrefresh(dialog);
dialogIsActive = true;
} }
else if (menustate.bConfirmDelete == 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"); 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); wrefresh(dialog);
dialogIsActive = true;
} }
else else
{
if (dialogIsActive)
{ {
delwin(dialog); delwin(dialog);
dialogIsActive = false;
}
} }
} }