package state import ( "bareos-zabbix-check/job" "bytes" "encoding/binary" "fmt" "log" "os" "regexp" "time" ) // jobLength : the length of the job result struct const jobLength = 16 + 4 + 4 + 4 + 4 + 4 + 4 + 4 + 4 + 8 + 8 + 8 + maxNameLength var jobNameRegex = regexp.MustCompilePOSIX(`^([-A-Za-z0-9_]+)\.[0-9]{4}-[0-9]{2}-[0-9]{2}.*`) // jobEntry : A structure to hold a job result from the state file // This comes from bareos repository file core/src/lib/recent_job_results_list.h:29 and file core/src/lib/recent_job_results_list.cc:44 type jobEntry struct { Pad [16]byte Errors int32 JobType int32 JobStatus int32 JobLevel int32 JobID uint32 VolSessionID uint32 VolSessionTime uint32 JobFiles uint32 JobBytes uint64 StartTime uint64 EndTime uint64 Job [maxNameLength]byte } func (je jobEntry) String() string { var matches = jobNameRegex.FindSubmatchIndex(je.Job[:]) var jobNameLen int if len(matches) >= 4 { jobNameLen = matches[3] } return fmt.Sprintf("Errors: %d, JobType: %c, JobStatus: %c, JobLevel: %c, JobID: %d, VolSessionID: %d, VolSessionTime: %d, JobFiles: %d, JobBytes: %d, StartTime: %s, EndTime: %s, Job: %s", je.Errors, je.JobType, je.JobStatus, je.JobLevel, je.JobID, je.VolSessionID, je.VolSessionTime, je.JobFiles, je.JobBytes, time.Unix(int64(je.StartTime), 0), time.Unix(int64(je.EndTime), 0), je.Job[:jobNameLen]) } func (s *State) parseJobs(file *os.File) (err error) { // We seek to the jobs position in the state file file.Seek(int64(s.header.LastJobsAddr), 0) // We read how many jobs there are in the state file n, data, err := s.readNextBytes(file, 4) if err != nil { return fmt.Errorf("INFO Corrupted state file : %s", err) } if n != 4 { return fmt.Errorf("INFO Corrupted state file : invalid numberOfJobs read length in %s", s.config.StateFile()) } buffer := bytes.NewBuffer(data) var numberOfJobs uint32 err = binary.Read(buffer, binary.LittleEndian, &numberOfJobs) if err != nil { return fmt.Errorf("INFO Corrupted state file : binary.Read failed on numberOfJobs in %s : %s", s.config.StateFile(), err) } if s.config.Verbose() { log.Printf("%d jobs found in state file\n", numberOfJobs) } // We parse the job entries for ; numberOfJobs > 0; numberOfJobs-- { var ( jobResult jobEntry jobName string ) n, data, err = s.readNextBytes(file, jobLength) if err != nil { return fmt.Errorf("INFO Corrupted state file : %s", err) } if n != jobLength { return fmt.Errorf("INFO Corrupted state file : invalid job entry in %s", s.config.StateFile()) } buffer = bytes.NewBuffer(data) err = binary.Read(buffer, binary.LittleEndian, &jobResult) if err != nil { return fmt.Errorf("INFO Corrupted state file : binary.Read failed on job entry in %s : %s", s.config.StateFile(), err) } matches := jobNameRegex.FindSubmatchIndex(jobResult.Job[:]) if len(matches) >= 4 { jobName = string(jobResult.Job[:matches[3]]) } else { return fmt.Errorf("INFO Couldn't parse job name, this shouldn't happen : %s", jobResult.Job[:]) } if s.config.Verbose() { log.Printf("Parsed job entry: %s\n", jobResult) } // If the job is of type backup (B == ascii 66) if jobResult.JobType == 66 { // If the job is of status success JobStatus is equals to 84 (T == ascii 84) s.jobs = append(s.jobs, job.Job{Name: jobName, Timestamp: jobResult.StartTime, Success: jobResult.JobStatus == 84}) } } return }