check_smart.cpp
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#include "check_smart.h"
#include <regex>
const char *servicename = (const char*)"SMART";
int getSmartAttrValue(string line, unsigned int col) {
line = std::regex_replace(line, std::regex("\\s+"), " ");
line = std::regex_replace(line, std::regex("^ "), "");
// Find nth col
size_t pos = 0;
int cnt = 0;
while(cnt != col) {
pos = line.find(" ", pos+1);
if (pos == std::string::npos) {
throw std::runtime_error("Column out of range");
}
cnt++;
}
if(pos != 0) {
++pos;
}
size_t end_pos = line.find(" ", pos);
if(end_pos != std::string::npos) {
return stoi(line.substr(pos, line.find(" ", pos)));
}
return stoi(line.substr(pos));
}
int getSmartAttrID(string line) {
size_t first = line.find_first_not_of(' ');
size_t last = line.find_first_of(' ',first);
int id = -1;
try {
id = stoi(line.substr(first,last-first));
}
catch(...){
return -1;
}
return id;
}
int checkDriveType(const char* disk) {
string output = "";
string RRLine = "";
string line= "";
int rc = run_smartctl_cmd(string(SMARTCTL_CMD_INFO), disk,&output);
if(rc) {
cout << "Error reading SMART data from disk " << disk << endl;
exit(3);
}
stringstream sstream;
sstream.str(output);
while(getline(sstream,line) && RRLine == "") {
size_t found = line.find(ROTATION_INFO_STR);
if(found != string::npos) {
RRLine = line;
}
}
if(RRLine != "") {
size_t found = RRLine.find(SSD_DEV_STR);
if(found != string::npos) {
return SSD;
}
}
return HDD;
}
map<int,SMARTAttr> prepareAttrMap(int driveType) {
map<int,SMARTAttr> map;
map[REALLOC_SEC_COUNT_ID] = reallocated;
map[REP_UNCORRECT_ID] = rep_uncorrect;
switch(driveType) {
case HDD:
map[CURRENT_PENDING_SEC_ID] = pending;
map[OFFLINE_UNCORRECT_ID] = off_uncorrect;
break;
case SSD:
map[WEAR_COUNT_ID] = wear;
map[MEDIA_WEAROUT_ID] = wearout;
map[RUNTIME_BAD_BLOCKS_ID] = badblocks;
break;
}
return map;
}
int evalStatus(const char* disk, int driveType, string *status) {
string output = "";
string line = "";
int rc = run_smartctl_cmd(string(SMARTCTL_CMD_ATTRS), disk,&output);
if(rc) {
cout << "Error reading SMART data from disk " << disk << endl;
exit(UNKN);
}
map<int,SMARTAttr> attrMap = prepareAttrMap(driveType);
stringstream sstream;
sstream.str(output);
while(getline(sstream,line)) {
for(map<int,SMARTAttr>::iterator it = attrMap.begin(); it != attrMap.end(); ++it) {
int id = it->first;
int attrID = getSmartAttrID(line);
if(attrID == -1) {
continue;
}
if(getSmartAttrID(line) == id) {
attrMap[id].value = getSmartAttrValue(line, attrMap[id].col);
}
}
}
int ret = OK;
*status = string(disk);
for(map<int,SMARTAttr>::iterator it = attrMap.begin(); it != attrMap.end(); ++it) {
int id = it->first;
SMARTAttr attr = it->second;
if(attr.value == -1) {
if(attr.optional) {
continue;
}
*status = string(disk) + " status UNKNOWN";
return UNKN;
}
int veredict = 0;
if(attr.lower_than) {
if(attr.value < attr.threshold_warn) {
veredict = WARN;
}
if(attr.threshold_crit != -1 && attr.value < attr.threshold_crit) {
veredict = CRIT;
}
} else {
if(attr.value > attr.threshold_warn) {
veredict = WARN;
}
if(attr.threshold_crit != -1 && attr.value > attr.threshold_crit) {
veredict = CRIT;
}
}
switch(veredict) {
case OK:
break;
case WARN:
if(ret == OK) {
ret = WARN;
}
break;
case CRIT:
ret = CRIT;
break;
}
*status += " " + attr.name + ":" + to_string(attr.value);
}
return ret;
}
int run_smartctl_cmd(const string command, const char* disk, string* output) {
int uid = getuid();
setreuid(0,0);
int rc = exec(command + disk,output);
setreuid(uid,0);
return rc;
}
void printVersion() {
cout << "check_smart v" << VERSION << endl << endl;
}
void printHelp(bool longVersion) {
if(longVersion) {
printVersion();
cout << "Checks for pending, reallocated or uncorrectable sectors in disks using SMART" << endl << "WARNING: Requires the setuid bit to be set to run as root" << endl << endl;
printHelp(false);
cout << "Options:" << endl;
cout << " -h" << endl;
cout << " Print detailed help screen" << endl;
cout << " -V" << endl;
cout << " Print version information" << endl;
cout << " DISKS" << endl;
cout << " Disks for which to retrieve S.M.A.R.T data" << endl << endl;
return;
}
cout << "Usage: " << endl << "check_smart [-hV] DISKS..." << endl << endl;
}
void set_timeout(unsigned int sec) {
struct itimerval timer;
timer.it_value.tv_sec = sec;
timer.it_value.tv_usec = 0;
timer.it_interval.tv_sec = 0;
timer.it_interval.tv_usec = 0;
setitimer (ITIMER_VIRTUAL, &timer, 0);
struct sigaction sa;
memset (&sa, 0, sizeof (sa));
sa.sa_handler = &timer_handler;
sigaction (SIGVTALRM, &sa, 0);
}
int main(int argc, char **argv) {
set_timeout(10);
int c;
while ((c = getopt (argc, argv, "Vh")) != -1) {
switch(c) {
case 'h':
printHelp(true);
return OK;
case 'V':
printVersion();
return OK;
case '?':
printHelp(false);
return UNKN;
}
}
if(argc == 1) {
cout << "No disks checked" << endl;
return 3;
}
string *results = new string[argc-1];
int returnCode = OK;
for(int i = 1; i < argc; i++) {
int driveType = checkDriveType(argv[i]);
switch(driveType) {
case HDD:
case SSD:
break;
default:
cout << "Unknown disk type" << endl;
return UNKN;
break;
}
switch(evalStatus(argv[i],driveType,&(results[i-1]))) {
case OK:
break;
case WARN:
if(returnCode == OK) {returnCode = WARN;}
break;
case CRIT:
returnCode = CRIT;
break;
case UNKN:
returnCode = UNKN;
break;
}
}
cout << servicename;
if(returnCode == OK) {cout << " OK - disk status: ";}
else if(returnCode == WARN) {cout << " WARNING - disk status: ";}
else if(returnCode == CRIT) {cout << " CRITICAL - disk status: ";}
else if(returnCode == UNKN) {cout << " UNKNOWN - disk status: ";}
for(int i = 0; i < (argc-1); i++) {
cout << results[i];
if(i != (argc-2)) {cout << ", ";}
}
cout << endl;
return returnCode;
}