Esempio n. 1
0
def main():
    redis_lock = RedisLock(lock_obj)
    args = Args()
    args.parse_args()

    if args.status:
        print_status(redis_lock)
        return

    # Inclusion of 'status' operator forces positional arguments to be optional even though they
    #  are conceptually required.  Make sure that they are specified.
    if args.action is None or args.target is None:
        print("Usage:\t ./lock_queue.py <action> <target>")
        return

    action = args.action
    target = args.target

    if target == 'all':
        action += '_all'
        target = None
    else:
        target = {'key': target}

    if target is not None:
        t = target['key']
        if redis_lock.get(t) is None:
            print("Unable to locate '{}'\nAvailable queues:".format(t))
            for key in redis_lock.get_all():
                print("\t{}".format(key))
            return

    func = getattr(redis_lock, action)

    # if kwargs exist pass kwargs else pass empty param set
    #  Allows for parameterization of foo(required_param) and bar().
    func(**(target or {}))

    print_status(redis_lock)
Esempio n. 2
0
def main(user_args):
    key = user_args.key
    namespace = user_args.namespace

    if namespace is None:
        namespace = default_namespace

    workarea = scratch + key + '/'
    RQ_file = RedisQueue(key + '_FileQueue', namespace)
    RQ_work = RedisQueue(key + '_WorkQueue', namespace)
    RQ_zip = RedisQueue(key + '_ZIP', namespace)
    RQ_loggy = RedisQueue(key + '_loggy', namespace)
    RQ_final = RedisQueue('FinalQueue', namespace)
    RQ_recipe = RedisQueue(key + '_recipe', namespace)
    RHash = RedisHash(key + '_info')
    RHerror = RedisHash(key + '_error')
    RQ_lock = RedisLock(lock_obj)
    RQ_lock.add({'MAP': '1'})

    if int(RQ_file.QueueSize()) == 0:
        print("No Files Found in Redis Queue")
    elif RQ_lock.available('MAP'):
        jobFile = RQ_file.Qfile2Qwork(RQ_file.getQueueName(),
                                      RQ_work.getQueueName())

        # Setup system logging
        basename = os.path.splitext(os.path.basename(jobFile))[0]
        logger = logging.getLogger(key + '.' + basename)
        logger.setLevel(logging.INFO)

        logFileHandle = logging.FileHandler(pds_log + '/Service.log')

        formatter = logging.Formatter(
            '%(asctime)s - %(name)s - %(levelname)s, %(message)s')
        logFileHandle.setFormatter(formatter)
        logger.addHandler(logFileHandle)

        logger.info('Starting MAP Processing')

        loggyOBJ = Loggy(basename)

        # File Naming
        infile = workarea + \
            os.path.splitext(os.path.basename(jobFile))[0] + '.input.cub'
        outfile = workarea + \
            os.path.splitext(os.path.basename(jobFile))[0] + '.output.cub'

        # Recipe Stuff

        status = 'success'

        for element in RQ_recipe.RecipeGet():

            if status == 'error':
                break
            elif status == 'success':
                processOBJ = Process()
                process = processOBJ.JSON2Process(element)
                if 'gdal_translate' not in processOBJ.getProcessName():
                    if 'cubeatt-band' in processOBJ.getProcessName():
                        if '+' in jobFile:
                            processOBJ.updateParameter('from_', jobFile)
                            processOBJ.updateParameter('to', outfile)
                            processOBJ.ChangeProcess('cubeatt')
                        else:
                            continue

                    elif 'map2map' in processOBJ.getProcessName():
                        if '+' in jobFile:
                            processOBJ.updateParameter('from_', infile)
                        else:
                            processOBJ.updateParameter('from_', jobFile)
                        processOBJ.updateParameter('to', outfile)

                    elif 'cubeatt-bit' in processOBJ.getProcessName():
                        if RHash.OutBit() == 'unsignedbyte':
                            temp_outfile = outfile + '+lsb+tile+attached+unsignedbyte+1:254'
                        elif RHash.OutBit() == 'signedword':
                            temp_outfile = outfile + '+lsb+tile+attached+signedword+-32765:32765'
                        processOBJ.updateParameter('from_', infile)
                        processOBJ.updateParameter('to', temp_outfile)
                        processOBJ.ChangeProcess('cubeatt')

                    elif 'isis2pds' in processOBJ.getProcessName():
                        # finalfile = infile.replace('.input.cub', '_final.img')
                        finalfile = workarea + RHash.getMAPname() + '.img'
                        processOBJ.updateParameter('from_', infile)
                        processOBJ.updateParameter('to', finalfile)

                    else:
                        processOBJ.updateParameter('from_', infile)
                        processOBJ.updateParameter('to', outfile)

                    print(processOBJ.getProcess())

                    for k, v in processOBJ.getProcess().items():
                        func = getattr(isis, k)
                        subloggyOBJ = SubLoggy(k)
                        try:
                            func(**v)
                            logger.info('Process %s :: Success', k)
                            subloggyOBJ.setStatus('SUCCESS')
                            subloggyOBJ.setCommand(processOBJ.LogCommandline())
                            subloggyOBJ.setHelpLink(processOBJ.LogHelpLink())
                            loggyOBJ.AddProcess(subloggyOBJ.getSLprocess())

                            if os.path.isfile(outfile):
                                os.rename(outfile, infile)
                            status = 'success'

                        except ProcessError as e:
                            logger.error('Process %s :: Error', k)
                            logger.error(e)
                            status = 'error'
                            eSTR = 'Error Executing ' + k + \
                                ' Standard Error: ' + str(e)
                            RHerror.addError(
                                os.path.splitext(os.path.basename(jobFile))[0],
                                eSTR)
                            subloggyOBJ.setStatus('ERROR')
                            subloggyOBJ.setCommand(processOBJ.LogCommandline())
                            subloggyOBJ.setHelpLink(processOBJ.LogHelpLink())
                            subloggyOBJ.errorOut(eSTR)
                            loggyOBJ.AddProcess(subloggyOBJ.getSLprocess())
                            RQ_work.QueueRemove(jobFile)
                            break

                else:

                    GDALcmd = ""
                    for process, v, in processOBJ.getProcess().items():
                        subloggyOBJ = SubLoggy(process)
                        GDALcmd += process
                        for dict_key, value in v.items():
                            GDALcmd += ' ' + dict_key + ' ' + value

                    img_format = RHash.Format()

                    if img_format == 'GeoTiff-BigTiff':
                        fileext = 'tif'
                    elif img_format == 'GeoJPEG-2000':
                        fileext = 'jp2'
                    elif img_format == 'JPEG':
                        fileext = 'jpg'
                    elif img_format == 'PNG':
                        fileext = 'png'
                    elif img_format == 'GIF':
                        fileext = 'gif'

                    logGDALcmd = GDALcmd + ' ' + basename + '.input.cub ' + RHash.getMAPname(
                    ) + '.' + fileext
                    finalfile = workarea + RHash.getMAPname() + '.' + fileext
                    GDALcmd += ' ' + infile + ' ' + finalfile
                    print(GDALcmd)
                    try:
                        subprocess.call(GDALcmd, shell=True)
                        logger.info('Process GDAL translate :: Success')
                        status = 'success'
                        subloggyOBJ.setStatus('SUCCESS')
                        subloggyOBJ.setCommand(logGDALcmd)
                        subloggyOBJ.setHelpLink(
                            'www.gdal.org/gdal_translate.html')
                        loggyOBJ.AddProcess(subloggyOBJ.getSLprocess())
                        os.remove(infile)
                    except OSError as e:
                        logger.error('Process GDAL translate :: Error')
                        logger.error(e)
                        status = 'error'
                        RHerror.addError(
                            os.path.splitext(os.path.basename(jobFile))[0],
                            'Process GDAL translate :: Error')
                        subloggyOBJ.setStatus('ERROR')
                        subloggyOBJ.setCommand(logGDALcmd)
                        subloggyOBJ.setHelpLink(
                            'http://www.gdal.org/gdal_translate.html')
                        subloggyOBJ.errorOut(e)
                        loggyOBJ.AddProcess(subloggyOBJ.getSLprocess())

        if status == 'success':
            if RHash.Format() == 'ISIS3':
                finalfile = workarea + RHash.getMAPname() + '.cub'
                shutil.move(infile, finalfile)
            if RHash.getStatus() != 'ERROR':
                RHash.Status('SUCCESS')

            try:
                RQ_zip.QueueAdd(finalfile)
                logger.info('File Added to ZIP Queue')
            except:
                logger.error('File NOT Added to ZIP Queue')

            try:
                RQ_loggy.QueueAdd(loggyOBJ.Loggy2json())
                logger.info('JSON Added to Loggy Queue')
            except:
                logger.error('JSON NOT Added to Loggy Queue')

            RQ_work.QueueRemove(jobFile)
        elif status == 'error':
            RHash.Status('ERROR')
            if os.path.isfile(infile):
                os.remove(infile)

        if RQ_file.QueueSize() == 0 and RQ_work.QueueSize() == 0:
            try:
                RQ_final.QueueAdd(key)
                logger.info('Key %s Added to Final Queue: Success', key)
                logger.info('Job Complete')
            except:
                logger.error('Key NOT Added to Final Queue')
        else:
            logger.warning('Queues Not Empty: filequeue = %s  work queue = %s',
                           str(RQ_file.QueueSize()), str(RQ_work.QueueSize()))
Esempio n. 3
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def main(user_args):
    log_level = user_args.log_level

    PDSinfoDICT = json.load(open(pds_info, 'r'))

    # Set up logging
    logger = logging.getLogger('DI_Process')
    level = logging.getLevelName(log_level)
    logger.setLevel(level)
    logFileHandle = logging.FileHandler(pds_log + 'DI.log')
    formatter = logging.Formatter(
        '%(asctime)s - %(name)s - %(levelname)s, %(message)s')
    logFileHandle.setFormatter(formatter)
    logger.addHandler(logFileHandle)

    logger.info('Starting DI Process')

    try:
        Session, engine = db_connect(pds_db)
        session = Session()
        logger.info('DataBase Connecton: Success')
    except Exception as e:
        logger.error('DataBase Connection Error: %s', str(e))
        return 1

    RQ = RedisQueue('DI_ReadyQueue')
    RQ_error = RedisQueue(upc_error_queue)
    RQ_lock = RedisLock(lock_obj)
    RQ_lock.add({RQ.id_name: '1'})
    index = 0

    logger.info("DI Queue: %s", RQ.id_name)

    while int(RQ.QueueSize()) > 0 and RQ_lock.available(RQ.id_name):
        item = literal_eval(RQ.QueueGet())
        inputfile = item[0]
        archive = item[1]
        logger.debug("%s - %s", inputfile, archive)
        try:
            Qelement = session.query(Files).filter(
                Files.filename == inputfile).one()
        except Exception as e:
            logger.warn('Filename query failed for inputfile %s: %s', inputfile, str(e))
            continue

        archive_path = PDSinfoDICT[archive]['path']

        cpfile = archive_path + Qelement.filename
        if os.path.isfile(cpfile):
            f_hash = hashlib.md5()
            with open(cpfile, "rb") as f:
                for chunk in iter(lambda: f.read(4096), b""):
                    f_hash.update(chunk)
            checksum = f_hash.hexdigest()

            Qelement.di_pass = checksum == Qelement.checksum
            if !Qelement.di_pass:
                logger.warn('File %s checksum %s does not match the database entry checksum %s', 
                            cpfile, checksum, Qelement.checksum)

            Qelement.di_date = datetime.datetime.now(
                pytz.utc).strftime("%Y-%m-%d %H:%M:%S")
            session.flush()
            index = index + 1
            if index > 50:
                session.commit()
                logger.info('Session Commit for 50 Records: Success')
                index = 0
        else:
            RQ_error.QueueAdd(f'Unable to locate or access {inputfile} during DI processing')
            logger.warn('File %s Not Found', cpfile)
    try:
        session.commit()
        logger.info("End Commit DI process to Database: Success")
        index = 1
    except Exception as e:
        logger.warn("Unable to commit changes to database\n\n%s", e)
        session.rollback()

    # Close connection to database
    session.close()
    engine.dispose()
Esempio n. 4
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def main(user_args):
    upc_session_maker, upc_engine = db_connect(upc_db)

    persist = user_args.persist
    log_level = user_args.log_level
    namespace = user_args.namespace

    try:
        slurm_job_id = os.environ['SLURM_ARRAY_JOB_ID']
        slurm_array_id = os.environ['SLURM_ARRAY_TASK_ID']
    except:
        slurm_job_id = ''
        slurm_array_id = ''

    inputfile = ''
    context = {'job_id': slurm_job_id, 'array_id':slurm_array_id, 'inputfile': inputfile}
    logger = logging.getLogger('UPC_Process')
    level = logging.getLevelName(log_level)
    logger.setLevel(level)
    log_file_handle = logging.FileHandler(pds_log + 'Process.log')
    formatter = logging.Formatter(
        '%(asctime)s - %(job_id)s - %(array_id)s - %(inputfile)s - %(name)s - %(levelname)s, %(message)s')
    log_file_handle.setFormatter(formatter)
    logger.addHandler(log_file_handle)
    logger = logging.LoggerAdapter(logger, context)

    # Redis Queue Objects
    RQ_main = RedisQueue('UPC_UpdateQueue', namespace)
    RQ_work = RedisQueue('UPC_UpdateWorkQueue', namespace)
    logger.info("UPC Update Queue: %s", RQ_main.id_name)

    RQ_error = RedisQueue(upc_error_queue)
    RQ_lock = RedisLock(lock_obj)
    # If the queue isn't registered, add it and set it to "running"
    RQ_lock.add({RQ_main.id_name: '1'})
    # while there are items in the redis queue
    while int(RQ_main.QueueSize()) > 0 and RQ_lock.available(RQ_main.id_name):
        # get a file from the queue
        item = RQ_main.Qfile2Qwork(RQ_main.getQueueName(), RQ_work.getQueueName())
        item_list = literal_eval(item)
        inputfile = item_list[0]
        archive = item_list[1]
        failing_command = item_list[2]
        update_type = item_list[3]
        upc_id = None

        if not os.path.isfile(inputfile):
            RQ_error.QueueAdd(f'Unable to locate or access {inputfile} during UPC update')
            logger.debug("%s is not a file\n", inputfile)
            exit()

        # Build URL for edr_source
        edr_source = inputfile.replace(workarea, web_base)

        # Update the logger context to include inputfile
        context['inputfile'] = inputfile

        try:
            session = upc_session_maker()
            session.close()
        except TypeError as e:
            logger.error("Unable to create a database session/connection to the upc database: %s", e)
            raise e

        try:
            if update_type.lower() == 'upc':

                recipe_file = recipe_base + "/" + archive + '.json'
                no_extension_inputfile = os.path.splitext(inputfile)[0]
                cam_info_file = no_extension_inputfile + '_caminfo.pvl'
                footprint_file = no_extension_inputfile + '_footprint.json'
                catlab_output = no_extension_inputfile + '_catlab.pvl'

                with open(recipe_file) as fp:
                    upc_json = json.load(fp)['upc']
                    # Attempt to get the optional search_term_mapping for the upc
                    # process
                    try:
                        search_term_mapping = upc_json['search_term_mapping']
                    except KeyError:
                        search_term_mapping = {}

                # Some datasets with attached PDS labels cause PVL to hang,
                #  so recipe includes call to dump label using `catlab`
                # If present, use the catlab output as pds_label instead of inputfile
                if os.path.exists(catlab_output):
                    pds_label = pvl.load(catlab_output)
                else:
                    pds_label = pvl.load(inputfile)

                instrument_name = get_instrument_name(pds_label)
                spacecraft_name = get_spacecraft_name(pds_label)
                target_name = get_target_name(pds_label)
                with session_scope(upc_session_maker) as session:
                    target_qobj = Targets.create(session, targetname=target_name,
                                                 displayname=target_name.title(),
                                                 system=target_name)
                    target_id = target_qobj.targetid



                with session_scope(upc_session_maker) as session:
                    instrument_qobj = Instruments.create(session, instrument=instrument_name,
                                                         spacecraft=spacecraft_name)
                    instrument_id = instrument_qobj.instrumentid

                ######## Generate DataFiles Record ########
                datafile_attributes = create_datafiles_atts(pds_label, edr_source, no_extension_inputfile + '.cub')

                datafile_attributes['instrumentid'] = instrument_id
                datafile_attributes['targetid'] = target_id

                with session_scope(upc_session_maker) as session:
                    datafile_qobj = DataFiles.create(session, **datafile_attributes)
                    upc_id = datafile_qobj.upcid

                ######## Generate SearchTerms Record ########
                search_term_attributes = create_search_terms_atts(cam_info_file, upc_id,
                                                                  no_extension_inputfile + '.cub',
                                                                  footprint_file, search_term_mapping)

                search_term_attributes['targetid'] = target_id
                search_term_attributes['instrumentid'] = instrument_id

                with session_scope(upc_session_maker) as session:
                    SearchTerms.create(session, **search_term_attributes)

                ######## Generate JsonKeywords Record ########
                json_keywords_attributes = create_json_keywords_atts(cam_info_file, upc_id, inputfile,
                                                                     failing_command, logger)

                with session_scope(upc_session_maker) as session:
                    JsonKeywords.create(session, **json_keywords_attributes)

            # Derived Processing:

            # If we don't have a upcid, get the matching ID from the database
            if not upc_id:
                with session_scope(upc_session_maker) as session:
                    src = inputfile.replace(workarea, web_base)
                    datafile = session.query(DataFiles).filter(or_(DataFiles.source == src,
                                                                   DataFiles.detached_label == src)).first()
                    if not datafile:
                        RQ_error.QueueAdd(f'No matching upcid was found for {inputfile}, '
                                          'derived product paths could not be added')
                        logger.warning(f'No matching upcid was found for %s, '
                                       'derived product paths could not be added', inputfile)
                    upc_id = datafile.upcid

            final_path = makedir(inputfile)
            src = os.path.splitext(inputfile)[0]
            derived_product = os.path.join(final_path, os.path.splitext(os.path.basename(inputfile))[0])

            # If derived products exist, copy them to the derived area and add the path to the db
            try:
                shutil.move(src + '.browse.jpg', derived_product + '.browse.jpg')
                shutil.move(src + '.thumbnail.jpg', derived_product + '.thumbnail.jpg')
                add_url(derived_product, upc_id, upc_session_maker)
            except FileNotFoundError:
                RQ_error.QueueAdd(f'Unable to locate or access derived products for {inputfile}')
                logger.warning(f'Unable to locate or access derived products for %s', inputfile)

            if not persist:
                # Remove all files file from the workarea except for the copied
                # source file
                file_prefix = os.path.splitext(inputfile)[0]
                workarea_files = glob(file_prefix + '*')
                # os.remove(os.path.join(workarea, 'print.prt'))
                for file in workarea_files:
                    os.remove(file)

        # Handle SQL specific database errors
        except SQLAlchemyError as e:
            logger.error("Database operation failed: %s \nRequeueing (%s, %s)", e, inputfile, archive)
            RQ_main.QueueAdd((inputfile, archive, failing_command, update_type))
            raise e

        RQ_work.QueueRemove(item)

        # Disconnect from the engines
        upc_engine.dispose()
Esempio n. 5
0
def main(user_args):
    log_level = user_args.log_level
    override = user_args.override

    logger = logging.getLogger('Ingest_Process')
    level = logging.getLevelName(log_level)
    logger.setLevel(level)
    logFileHandle = logging.FileHandler(pds_log + 'Ingest.log')
    print("Log File: {}Ingest.log".format(pds_log))
    formatter = logging.Formatter(
        '%(asctime)s - %(name)s - %(levelname)s, %(message)s')
    logFileHandle.setFormatter(formatter)
    logger.addHandler(logFileHandle)

    logger.info("Starting Ingest Process")
    PDSinfoDICT = json.load(open(pds_info, 'r'))

    RQ_main = RedisQueue('Ingest_ReadyQueue')
    RQ_error = RedisQueue(upc_error_queue)
    RQ_lock = RedisLock(lock_obj)
    RQ_lock.add({RQ_main.id_name: '1'})
    RQ_work = RedisQueue('Ingest_WorkQueue')

    try:
        Session, engine = db_connect(pds_db)
        session = Session()
        logger.info('DataBase Connecton: Success')
    except:
        logger.error('DataBase Connection: Error')
        return 1

    index = 1

    while int(RQ_main.QueueSize()) > 0 and RQ_lock.available(RQ_main.id_name):

        item = literal_eval(RQ_main.QueueGet())
        inputfile = item[0]
        archive = item[1]

        if not os.path.isfile(inputfile):
            RQ_error.QueueAdd(
                f'Unable to locate or access {inputfile} during ingest processing'
            )
            logger.warn("%s is not a file\n", inputfile)
            continue

        RQ_work.QueueAdd(inputfile)

        subfile = inputfile.replace(PDSinfoDICT[archive]['path'], '')
        # Calculate checksum in chunks of 4096
        f_hash = hashlib.md5()
        with open(inputfile, "rb") as f:
            for chunk in iter(lambda: f.read(4096), b""):
                f_hash.update(chunk)
        filechecksum = f_hash.hexdigest()

        QOBJ = session.query(Files).filter_by(filename=subfile).first()

        runflag = False
        if QOBJ is None or filechecksum != QOBJ.checksum:
            runflag = True

        if runflag or override:
            date = datetime.datetime.now(
                pytz.utc).strftime("%Y-%m-%d %H:%M:%S")
            fileURL = inputfile.replace(archive_base, web_base)

            # If all upc requirements are in 'inputfile,' flag for upc
            try:
                upcflag = all(req in inputfile
                              for req in PDSinfoDICT[archive]['upc_reqs'])
            except KeyError:
                logger.warn(
                    "No upc_reqs found for %s\nSetting upc eligibility False for all related files.",
                    str(archive))
                upcflag = False

            filesize = os.path.getsize(inputfile)

            try:
                ingest_entry = Files()

                if QOBJ is not None and override:
                    ingest_entry.fileid = QOBJ.fileid

                ingest_entry.archiveid = PDSinfoDICT[archive]['archiveid']
                ingest_entry.filename = subfile
                ingest_entry.entry_date = date
                ingest_entry.checksum = filechecksum
                ingest_entry.upc_required = upcflag
                ingest_entry.validation_required = True
                ingest_entry.header_only = False
                ingest_entry.release_date = date
                ingest_entry.file_url = fileURL
                ingest_entry.file_size = filesize
                ingest_entry.di_pass = True
                ingest_entry.di_date = date

                session.merge(ingest_entry)
                session.flush()

                RQ_work.QueueRemove(inputfile)

                index = index + 1

            except Exception as e:
                logger.error("Error During File Insert %s : %s", str(subfile),
                             str(e))

        elif not runflag and not override:
            RQ_work.QueueRemove(inputfile)
            logger.warn(
                "Not running ingest: file %s already present"
                " in database and no override flag supplied", inputfile)

        if index >= 250:
            try:
                session.commit()
                logger.info("Commit 250 files to Database: Success")
                index = 1
            except Exception as e:
                session.rollback()
                logger.warn("Unable to commit to database: %s", str(e))
    else:
        logger.info("No Files Found in Ingest Queue")
        try:
            session.commit()
            logger.info("Commit to Database: Success")
        except Exception as e:
            logger.error("Unable to commit to database: %s", str(e))
            session.rollback()

    # Close connection to database
    session.close()
    engine.dispose()

    if RQ_main.QueueSize() == 0 and RQ_work.QueueSize() == 0:
        logger.info("Process Complete All Queues Empty")
    elif RQ_main.QueueSize() == 0 and RQ_work.QueueSize() != 0:
        logger.warning("Process Done Work Queue NOT Empty Contains %s Files",
                       str(RQ_work.QueueSize()))

    logger.info("Ingest Complete")
def main(user_args):
    log_level = user_args.log_level

    logger = logging.getLogger('Browse_Process')
    level = logging.getLevelName(log_level)
    logger.setLevel(level)
    logFileHandle = logging.FileHandler(pds_log + 'Process.log')
    formatter = logging.Formatter(
        '%(asctime)s - %(name)s - %(levelname)s, %(message)s')
    logFileHandle.setFormatter(formatter)
    logger.addHandler(logFileHandle)

    RQ_main = RedisQueue('Browse_ReadyQueue')
    RQ_error = RedisQueue(upc_error_queue)
    RQ_lock = RedisLock(lock_obj)
    RQ_lock.add({RQ_main.id_name: '1'})

    PDSinfoDICT = json.load(open(pds_info, 'r'))

    pds_session_maker, pds_engine = db_connect(pds_db)
    pds_session = pds_session_maker()
    upc_session_maker, upc_engine = db_connect(upc_db)
    upc_session = upc_session_maker()

    tid = get_tid('fullimageurl', upc_session)

    while int(RQ_main.QueueSize()) > 0 and RQ_lock.available(RQ_main.id_name):
        item = literal_eval(RQ_main.QueueGet())
        inputfile = item[0]
        fid = item[1]
        archive = item[2]
        if os.path.isfile(inputfile):
            logger.info('Starting Process: %s', inputfile)
            finalpath = makedir(inputfile)

            recipeOBJ = Recipe()
            recipeOBJ.addMissionJson(archive, 'reduced')

            infile = workarea + os.path.splitext(
                os.path.basename(inputfile))[0] + '.Binput.cub'
            outfile = workarea + os.path.splitext(
                os.path.basename(inputfile))[0] + '.Boutput.cub'
            status = 'success'
            for item in recipeOBJ.getProcesses():
                if status == 'error':
                    logger.error("Error processing %s", inputfile)
                    break
                elif status == 'success':
                    processOBJ = Process()
                    processOBJ.ProcessFromRecipe(item, recipeOBJ.getRecipe())

                    if '2isis' in item:
                        processOBJ.updateParameter('from_', inputfile)
                        processOBJ.updateParameter('to', outfile)
                    elif item == 'spiceinit':
                        processOBJ.updateParameter('from_', infile)
                    elif item == 'cubeatt':
                        label = pvl.load(infile)
                        bands = PDSinfoDICT[archive]['bandorder']
                        query_bands = label['IsisCube']['BandBin'][
                            PDSinfoDICT[archive]['bandbinQuery']]
                        # Create a set from the list / single value
                        try:
                            query_band_set = set(query_bands)
                        except:
                            query_band_set = set([query_bands])

                        # Iterate through 'bands' and grab the first value that is present in the
                        #  set defined by 'bandbinquery' -- if not present, default to 1
                        exband = next(
                            (band for band in bands if band in query_band_set),
                            1)

                        band_infile = infile + '+' + str(exband)
                        processOBJ.updateParameter('from_', band_infile)
                        processOBJ.updateParameter('to', outfile)

                    elif item == 'ctxevenodd':
                        label = pvl.load(infile)
                        SS = label['IsisCube']['Instrument']['SpatialSumming']
                        if SS != 1:
                            break
                        else:
                            processOBJ.updateParameter('from_', infile)
                            processOBJ.updateParameter('to', outfile)

                    elif item == 'reduce':
                        label = pvl.load(infile)
                        Nline = label['IsisCube']['Core']['Dimensions'][
                            'Lines']
                        Nsample = label['IsisCube']['Core']['Dimensions'][
                            'Samples']
                        Nline = int(Nline)
                        Nsample = int(Nsample)
                        Sfactor = scaleFactor(Nline, Nsample, recip_json)
                        processOBJ.updateParameter('lscale', Sfactor)
                        processOBJ.updateParameter('sscale', Sfactor)
                        processOBJ.updateParameter('from_', infile)
                        processOBJ.updateParameter('to', outfile)

                    elif item == 'isis2std':
                        final_outfile = finalpath + '/' + os.path.splitext(
                            os.path.basename(inputfile))[0] + '.browse.jpg'
                        processOBJ.updateParameter('from_', infile)
                        processOBJ.updateParameter('to', final_outfile)

                    else:
                        processOBJ.updateParameter('from_', infile)
                        processOBJ.updateParameter('to', outfile)

                    for k, v in processOBJ.getProcess().items():
                        func = getattr(isis, k)
                        try:
                            func(**v)
                            logger.info('Process %s :: Success', k)
                            if os.path.isfile(outfile):
                                if '.cub' in outfile:
                                    os.rename(outfile, infile)
                            status = 'success'
                            if '2isis' in item:
                                isisSerial = getISISid(infile)
                        except ProcessError as e:
                            print(e)
                            logger.error('Process %s :: Error', k)
                            status = 'error'
            if status == 'success':
                DB_addURL(upc_session, isisSerial, final_outfile, tid)
                os.remove(infile)
                logger.info('Browse Process Success: %s', inputfile)
                AddProcessDB(pds_session, fid, 't')
        else:
            RQ_error.QueueAdd(
                f'Unable to locate or access {inputfile} during browse processing'
            )
            logger.error('File %s Not Found', inputfile)

    upc_session.close()
    pds_session.close()
    upc_engine.dispose()
    pds_engine.dispose()
Esempio n. 7
0
def main(user_args):
    proc = user_args.proc
    derived = user_args.derived
    log_level = user_args.log_level
    namespace = user_args.namespace

    try:
        slurm_job_id = os.environ['SLURM_ARRAY_JOB_ID']
        slurm_array_id = os.environ['SLURM_ARRAY_TASK_ID']
    except:
        slurm_job_id = ''
        slurm_array_id = ''

    inputfile = ''
    context = {'job_id': slurm_job_id, 'array_id':slurm_array_id, 'inputfile': inputfile}
    logger = logging.getLogger('UPC_Process')
    level = logging.getLevelName(log_level)
    logger.setLevel(level)
    log_file_handle = logging.FileHandler(pds_log + 'Process.log')
    formatter = logging.Formatter(
        '%(asctime)s - %(job_id)s - %(array_id)s - %(inputfile)s - %(name)s - %(levelname)s, %(message)s')
    log_file_handle.setFormatter(formatter)
    logger.addHandler(log_file_handle)
    logger = logging.LoggerAdapter(logger, context)

    # Redis Queue Objects
    RQ_main = RedisQueue('UPC_ReadyQueue', namespace)
    RQ_error = RedisQueue(upc_error_queue, namespace)
    RQ_work = RedisQueue('UPC_WorkQueue', namespace)
    RQ_update = RedisQueue('UPC_UpdateQueue', namespace)

    logger.info("UPC Processing Queue: %s", RQ_main.id_name)

    RQ_lock = RedisLock(lock_obj)
    # If the queue isn't registered, add it and set it to "running"
    RQ_lock.add({RQ_main.id_name: '1'})

    # while there are items in the redis queue
    while int(RQ_main.QueueSize()) > 0 and RQ_lock.available(RQ_main.id_name):
        # get a file from the queue
        item = RQ_main.Qfile2Qwork(RQ_main.getQueueName(), RQ_work.getQueueName())
        inputfile = literal_eval(item)[0]
        archive = literal_eval(item)[1]

        if not os.path.isfile(inputfile):
            RQ_error.QueueAdd(f'Unable to locate or access {inputfile} during UPC processing')
            logger.debug("%s is not a file\n", inputfile)
            exit()

        # Update the logger context to include inputfile
        context['inputfile'] = inputfile

        recipe_file = recipe_base + "/" + archive + '.json'

        no_extension_inputfile = os.path.splitext(inputfile)[0]
        cam_info_file = no_extension_inputfile + '_caminfo.pvl'
        footprint_file = no_extension_inputfile + '_footprint.json'
        catlab_output = no_extension_inputfile + '_catlab.pvl'

        if proc:
            with open(recipe_file) as fp:
                upc_json = json.load(fp)['upc']
                recipe_string = json.dumps(upc_json['recipe'])

            processes = generate_processes(inputfile,
                                           recipe_string, logger,
                                           no_extension_inputfile=no_extension_inputfile,
                                           catlab_output=catlab_output,
                                           cam_info_file=cam_info_file,
                                           footprint_file=footprint_file)
            failing_command, _ = process(processes, workarea, logger)

        if derived:
            if os.path.isfile(inputfile):
                recipe_file = recipe_base + "/" + archive + '.json'
                with open(recipe_file) as fp:
                    recipe = json.load(fp, object_pairs_hook=parse_pairs)['reduced']
                    recipe_string = json.dumps(recipe['recipe'])

                logger.info('Starting Process: %s', inputfile)

                work_dir = os.path.dirname(inputfile)
                derived_product = os.path.join(work_dir, os.path.splitext(os.path.basename(inputfile))[0])

                no_extension_inputfile = os.path.splitext(inputfile)[0]
                processes = generate_processes(inputfile,
                                               recipe_string,
                                               logger,
                                               no_extension_inputfile=no_extension_inputfile,
                                               derived_product=derived_product)
                failing_command, _ = process(processes, workarea, logger)

        if failing_command:
            logger.warn(logger.error('%s Processing Error: %s', inputfile, failing_command))

        if proc:
            RQ_update.QueueAdd((inputfile, archive, failing_command, 'upc'))
        elif derived:
            RQ_update.QueueAdd((inputfile, archive, failing_command, 'derived'))

        RQ_work.QueueRemove(item)
    logger.info("UPC processing exited")
Esempio n. 8
0
def main(user_args):
    key = user_args.key
    norun = user_args.norun
    namespace = user_args.namespace

    if namespace is None:
        namespace = default_namespace

    # Set up logging
    logger = logging.getLogger(key)
    logger.setLevel(logging.INFO)

    logFileHandle = logging.FileHandler(pds_log + 'Service.log')
    formatter = logging.Formatter(
        '%(asctime)s - %(name)s - %(levelname)s, %(message)s')
    logFileHandle.setFormatter(formatter)
    logger.addHandler(logFileHandle)
    RQ_lock = RedisLock(lock_obj)
    RQ_lock.add({'Services': '1'})

    if not RQ_lock.available('Services'):
        exit()

    # Connect to database and access 'jobs' table
    DBQO = PDS_DBquery('JOBS')
    if key is None:
        # If no key is specified, grab the first key
        try:
            key = DBQO.jobKey()
            try:
                key = key.decode('utf-8')
            except:
                pass
        # If the queue is empty, it'll throw a type error.
        except TypeError:
            logger.debug('No keys found in clusterjobs database')
            exit(1)
    try:
        # Set the 'queued' column to current time i.e. prep for processing
        DBQO.setJobsQueued(key)
    except KeyError as e:
        logger.error('%s', e)
        exit(1)

    logger.info('Starting Process')

    xmlOBJ = jobXML(DBQO.jobXML4Key(key))

    # Make directory if it doesn't exist
    directory = scratch + key
    if not os.path.exists(directory):
        os.makedirs(directory)

    logger.info('Working Area: %s', directory)

    # Set up Redis Hash for ground range
    RedisH = RedisHash(key + '_info')
    RedisH.RemoveAll()
    RedisErrorH = RedisHash(key + '_error')
    RedisErrorH.RemoveAll()
    RedisH_DICT = {}
    RedisH_DICT['service'] = xmlOBJ.getProcess()
    RedisH_DICT['fileformat'] = xmlOBJ.getOutFormat()
    RedisH_DICT['outbit'] = xmlOBJ.getOutBit()
    if xmlOBJ.getRangeType() is not None:
        RedisH_DICT['grtype'] = xmlOBJ.getRangeType()
        RedisH_DICT['minlat'] = xmlOBJ.getMinLat()
        RedisH_DICT['maxlat'] = xmlOBJ.getMaxLat()
        RedisH_DICT['minlon'] = xmlOBJ.getMinLon()
        RedisH_DICT['maxlon'] = xmlOBJ.getMaxLon()

    if RedisH.IsInHash('service'):
        pass
    else:
        RedisH.AddHash(RedisH_DICT)
    if RedisH.IsInHash('service'):
        logger.info('Redis info Hash: Success')
    else:
        logger.error('Redis info Hash Not Found')

    # End ground range

    RQ_recipe = RedisQueue(key + '_recipe', namespace)
    RQ_recipe.RemoveAll()
    RQ_file = RedisQueue(key + '_FileQueue', namespace)
    RQ_file.RemoveAll()
    RQ_WorkQueue = RedisQueue(key + '_WorkQueue', namespace)
    RQ_WorkQueue.RemoveAll()
    RQ_loggy = RedisQueue(key + '_loggy', namespace)
    RQ_loggy.RemoveAll()
    RQ_zip = RedisQueue(key + '_ZIP', namespace)
    RQ_zip.RemoveAll()

    if xmlOBJ.getProcess() == 'POW':
        fileList = xmlOBJ.getFileListWB()
    elif xmlOBJ.getProcess() == 'MAP2':
        fileList = xmlOBJ.getMFileListWB()

    for List_file in fileList:

        # Input and output file naming and path stuff
        if xmlOBJ.getProcess() == 'POW':
            if xmlOBJ.getInst() == 'THEMIS_IR':
                Input_file = List_file.replace('odtie1_', 'odtir1_')
                Input_file = Input_file.replace('xxedr', 'xxrdr')
                Input_file = Input_file.replace('EDR.QUB', 'RDR.QUB')
                Input_file = Input_file.replace(
                    'http://pdsimage.wr.usgs.gov/Missions/', archive_base)
            elif xmlOBJ.getInst() == 'ISSNA':
                Input_file = List_file.replace('.IMG', '.LBL')
                Input_file = Input_file.replace(
                    'http://pdsimage.wr.usgs.gov/Missions/', archive_base)
            elif xmlOBJ.getInst() == 'ISSWA':
                Input_file = List_file.replace('.IMG', '.LBL')
                Input_file = Input_file.replace(
                    'http://pdsimage.wr.usgs.gov/Missions/', archive_base)
            elif xmlOBJ.getInst() == 'SOLID STATE IMAGING SYSTEM':
                Input_file = List_file.replace('.img', '.lbl')
                Input_file = Input_file.replace(
                    'http://pdsimage.wr.usgs.gov/Missions/', archive_base)
            else:
                Input_file = List_file.replace(
                    'http://pdsimage.wr.usgs.gov/Missions/', archive_base)

        elif xmlOBJ.getProcess() == 'MAP2':
            Input_file = List_file.replace('file://pds_san', '/pds_san')

            if '+' in Input_file:
                tempsplit = Input_file.split('+')
                tempFile = tempsplit[0]
            else:
                tempFile = Input_file
            label = pvl.load(tempFile)
            # Output final file naming
            Tbasename = os.path.splitext(os.path.basename(tempFile))[0]
            splitBase = Tbasename.split('_')

            labP = xmlOBJ.getProjection()
            if labP == 'INPUT':
                lab_proj = label['IsisCube']['Mapping']['ProjectionName'][0:4]
            else:
                lab_proj = labP[0:4]

            if xmlOBJ.getClat() is None or xmlOBJ.getClon() is None:
                basefinal = splitBase[0] + splitBase[1] + \
                    splitBase[2] + '_MAP2_' + lab_proj.upper()
            else:
                lab_clat = float(xmlOBJ.getClat())
                if lab_clat >= 0:
                    labH = 'N'
                elif lab_clat < 0:
                    labH = 'S'
                lab_clon = float(xmlOBJ.getClon())

                basefinal = splitBase[0] + splitBase[1] + splitBase[
                    2] + '_MAP2_' + str(lab_clat) + labH + str(
                        lab_clon) + '_' + lab_proj.upper()
            RedisH.MAPname(basefinal)

        try:
            RQ_file.QueueAdd(Input_file)
            logger.info('File %s Added to Redis Queue', Input_file)
        except Exception as e:
            logger.warn('File %s NOT Added to Redis Queue', Input_file)
            print('Redis Queue Error', e)
    RedisH.FileCount(RQ_file.QueueSize())
    logger.info('Count of Files Queue: %s', str(RQ_file.QueueSize()))

    # Map Template Stuff
    logger.info('Making Map File')
    mapOBJ = MakeMap()

    if xmlOBJ.getProcess() == 'MAP2' and xmlOBJ.getProjection() == 'INPUT':
        proj = label['IsisCube']['Mapping']['ProjectionName']
        mapOBJ.Projection(proj)
    else:
        mapOBJ.Projection(xmlOBJ.getProjection())

    if xmlOBJ.getClon() is not None:
        mapOBJ.CLon(float(xmlOBJ.getClon()))
    if xmlOBJ.getClat() is not None:
        mapOBJ.CLat(float(xmlOBJ.getClat()))
    if xmlOBJ.getFirstParallel() is not None:
        mapOBJ.FirstParallel(float(xmlOBJ.getFirstParallel()))
    if xmlOBJ.getSecondParallel() is not None:
        mapOBJ.SecondParallel(float(xmlOBJ.getSecondParallel()))
    if xmlOBJ.getResolution() is not None:
        mapOBJ.PixelRes(float(xmlOBJ.getResolution()))
    if xmlOBJ.getTargetName() is not None:
        mapOBJ.Target(xmlOBJ.getTargetName())
    if xmlOBJ.getERadius() is not None:
        mapOBJ.ERadius(float(xmlOBJ.getERadius()))
    if xmlOBJ.getPRadius() is not None:
        mapOBJ.PRadius(float(xmlOBJ.getPRadius()))
    if xmlOBJ.getLatType() is not None:
        mapOBJ.LatType(xmlOBJ.getLatType())
    if xmlOBJ.getLonDirection() is not None:
        mapOBJ.LonDirection(xmlOBJ.getLonDirection())
    if xmlOBJ.getLonDomain() is not None:
        mapOBJ.LonDomain(int(xmlOBJ.getLonDomain()))

    if xmlOBJ.getProcess() == 'MAP2':
        if xmlOBJ.getMinLat() is not None:
            mapOBJ.MinLat(float(xmlOBJ.getMinLat()))
        if xmlOBJ.getMaxLat() is not None:
            mapOBJ.MaxLat(float(xmlOBJ.getMaxLat()))
        if xmlOBJ.getMinLon() is not None:
            mapOBJ.MinLon(float(xmlOBJ.getMinLon()))
        if xmlOBJ.getMaxLon() is not None:
            mapOBJ.MaxLon(float(xmlOBJ.getMaxLon()))

    mapOBJ.Map2pvl()

    MAPfile = directory + "/" + key + '.map'
    mapOBJ.Map2File(MAPfile)

    try:
        f = open(MAPfile)
        f.close
        logger.info('Map File Creation: Success')
    except IOError as e:
        logger.error('Map File %s Not Found', MAPfile)

    # ** End Map Template Stuff **

    logger.info('Building Recipe')
    recipeOBJ = Recipe()
    if xmlOBJ.getProcess() == 'POW':
        recipeOBJ.AddJsonFile(recipe_base + xmlOBJ.getCleanName() + '.json',
                              "pow")
    elif xmlOBJ.getProcess() == 'MAP2':
        recipeOBJ.AddJsonFile(recipe_base + "map2_process.json", "map")
    # Test for stretch and add to recipe
    # if MAP2 and 8 or 16 bit run stretch to set range

    if xmlOBJ.getOutBit() == 'input':
        testBitType = str(label['IsisCube']['Core']['Pixels']['Type']).upper()
    else:
        testBitType = xmlOBJ.getOutBit().upper()

    if xmlOBJ.getProcess() == 'MAP2' and xmlOBJ.STR_Type() is None:
        if str(label['IsisCube']['Core']['Pixels']['Type']).upper(
        ) != xmlOBJ.getOutBit().upper() and str(
                label['IsisCube']['Core']['Pixels']['Type']).upper() != 'REAL':
            if str(label['IsisCube']['Core']['Pixels']
                   ['Type']).upper() == 'SIGNEDWORD':
                strpairs = '0:-32765 0:-32765 100:32765 100:32765'
            elif str(label['IsisCube']['Core']['Pixels']
                     ['Type']).upper() == 'UNSIGNEDBYTE':
                strpairs = '0:1 0:1 100:254 100:254'

            STRprocessOBJ = Process()
            STRprocessOBJ.newProcess('stretch')
            STRprocessOBJ.AddParameter('from_', 'value')
            STRprocessOBJ.AddParameter('to', 'value')
            STRprocessOBJ.AddParameter('usepercentages', 'yes')
            STRprocessOBJ.AddParameter('pairs', strpairs)
            recipeOBJ.AddProcess(STRprocessOBJ.getProcess())

    strType = xmlOBJ.STR_Type()
    if strType == 'StretchPercent' and xmlOBJ.STR_PercentMin(
    ) is not None and xmlOBJ.STR_PercentMax(
    ) is not None and testBitType != 'REAL':
        if float(xmlOBJ.STR_PercentMin()) != 0 and float(
                xmlOBJ.STR_PercentMax()) != 100:
            if testBitType == 'UNSIGNEDBYTE':
                strpairs = '0:1 ' + xmlOBJ.STR_PercentMin() + ':1 ' + \
                    xmlOBJ.STR_PercentMax() + ':254 100:254'
            elif testBitType == 'SIGNEDWORD':
                strpairs = '0:-32765 ' + xmlOBJ.STR_PercentMin() + ':-32765 ' + \
                    xmlOBJ.STR_PercentMax() + ':32765 100:32765'

            STRprocessOBJ = Process()
            STRprocessOBJ.newProcess('stretch')
            STRprocessOBJ.AddParameter('from_', 'value')
            STRprocessOBJ.AddParameter('to', 'value')
            STRprocessOBJ.AddParameter('usepercentages', 'yes')
            STRprocessOBJ.AddParameter('pairs', strpairs)
            recipeOBJ.AddProcess(STRprocessOBJ.getProcess())

    elif strType == 'GaussStretch':
        STRprocessOBJ = Process()
        STRprocessOBJ.newProcess('gaussstretch')
        STRprocessOBJ.AddParameter('from_', 'value')
        STRprocessOBJ.AddParameter('to', 'value')
        STRprocessOBJ.AddParameter('gsigma', xmlOBJ.STR_GaussSigma())
        recipeOBJ.AddProcess(STRprocessOBJ.getProcess())

    elif strType == 'HistogramEqualization':
        STRprocessOBJ = Process()
        STRprocessOBJ.newProcess('histeq')
        STRprocessOBJ.AddParameter('from_', 'value')
        STRprocessOBJ.AddParameter('to', 'value')
        if xmlOBJ.STR_PercentMin() is None:
            STRprocessOBJ.AddParameter('minper', '0')
        else:
            STRprocessOBJ.AddParameter('minper', xmlOBJ.STR_PercentMin())
        if xmlOBJ.STR_PercentMax() is None:
            STRprocessOBJ.AddParameter('maxper', '100')
        else:
            STRprocessOBJ.AddParameter('maxper', xmlOBJ.STR_PercentMax())
        recipeOBJ.AddProcess(STRprocessOBJ.getProcess())

    elif strType == 'SigmaStretch':
        STRprocessOBJ = Process()
        STRprocessOBJ.newProcess('sigmastretch')
        STRprocessOBJ.AddParameter('from_', 'value')
        STRprocessOBJ.AddParameter('to', 'value')
        STRprocessOBJ.AddParameter('variance', xmlOBJ.STR_SigmaVariance())
        recipeOBJ.AddProcess(STRprocessOBJ.getProcess())

    # Test for output bit type and add to recipe
    if xmlOBJ.getProcess() == 'POW':
        if xmlOBJ.getOutBit().upper() == 'UNSIGNEDBYTE' or xmlOBJ.getOutBit(
        ).upper() == 'SIGNEDWORD':
            CAprocessOBJ = Process()
            CAprocessOBJ.newProcess('cubeatt-bit')
            CAprocessOBJ.AddParameter('from_', 'value')
            CAprocessOBJ.AddParameter('to', 'value')
            recipeOBJ.AddProcess(CAprocessOBJ.getProcess())
    elif xmlOBJ.getProcess() == 'MAP2':
        if xmlOBJ.getOutBit().upper() != 'INPUT':
            if xmlOBJ.getOutBit().upper(
            ) == 'UNSIGNEDBYTE' or xmlOBJ.getOutBit().upper() == 'SIGNEDWORD':
                if str(label['IsisCube']['Core']['Pixels']
                       ['Type']).upper() != xmlOBJ.getOutBit().upper():
                    CAprocessOBJ = Process()
                    CAprocessOBJ.newProcess('cubeatt-bit')
                    CAprocessOBJ.AddParameter('from_', 'value')
                    CAprocessOBJ.AddParameter('to', 'value')
                    recipeOBJ.AddProcess(CAprocessOBJ.getProcess())

    # Add Grid(MAP2)
    if xmlOBJ.getGridInterval() is not None:
        GprocessOBJ = Process()
        GprocessOBJ.newProcess('grid')
        GprocessOBJ.AddParameter('from_', 'value')
        GprocessOBJ.AddParameter('to', 'value')
        GprocessOBJ.AddParameter('latinc', xmlOBJ.getGridInterval())
        GprocessOBJ.AddParameter('loninc', xmlOBJ.getGridInterval())
        GprocessOBJ.AddParameter('outline', 'yes')
        GprocessOBJ.AddParameter('boundary', 'yes')
        GprocessOBJ.AddParameter('linewidth', '3')
        recipeOBJ.AddProcess(GprocessOBJ.getProcess())

    # OUTPUT FORMAT
    # Test for GDAL and add to recipe
    Oformat = xmlOBJ.getOutFormat()
    if Oformat == 'GeoTiff-BigTiff' or Oformat == 'GeoJPEG-2000' or Oformat == 'JPEG' or Oformat == 'PNG':
        if Oformat == 'GeoJPEG-2000':
            Oformat = 'JP2KAK'
        if Oformat == 'GeoTiff-BigTiff':
            Oformat = 'GTiff'
        GDALprocessOBJ = Process()
        GDALprocessOBJ.newProcess('gdal_translate')
        if xmlOBJ.getOutBit() != 'input':
            GDALprocessOBJ.AddParameter(
                '-ot', GDALprocessOBJ.GDAL_OBit(xmlOBJ.getOutBit()))
        GDALprocessOBJ.AddParameter('-of', Oformat)

        if Oformat == 'GTiff' or Oformat == 'JP2KAK' or Oformat == 'JPEG':
            GDALprocessOBJ.AddParameter('-co',
                                        GDALprocessOBJ.GDAL_Creation(Oformat))

        recipeOBJ.AddProcess(GDALprocessOBJ.getProcess())
    # set up pds2isis and add to recipe
    elif Oformat == 'PDS':
        pdsProcessOBJ = Process()
        pdsProcessOBJ.newProcess('isis2pds')
        pdsProcessOBJ.AddParameter('from_', 'value')
        pdsProcessOBJ.AddParameter('to', 'value')
        if xmlOBJ.getOutBit() == 'unsignedbyte':
            pdsProcessOBJ.AddParameter('bittype', '8bit')
        elif xmlOBJ.getOutBit() == 'signedword':
            pdsProcessOBJ.AddParameter('bittype', 's16bit')

        recipeOBJ.AddProcess(pdsProcessOBJ.getProcess())

    for item in recipeOBJ.getProcesses():
        processOBJ = Process()
        processOBJ.ProcessFromRecipe(item, recipeOBJ.getRecipe())

        if item == 'cam2map':

            processOBJ.updateParameter('map', MAPfile)

            if xmlOBJ.getResolution() is None:
                processOBJ.updateParameter('pixres', 'CAMERA')
            else:
                processOBJ.updateParameter('pixres', 'MAP')

            if xmlOBJ.getRangeType() is None:
                processOBJ.updateParameter('defaultrange', 'MINIMIZE')
            elif xmlOBJ.getRangeType() == 'smart' or xmlOBJ.getRangeType(
            ) == 'fill':
                processOBJ.updateParameter('defaultrange', 'CAMERA')
                processOBJ.AddParameter('trim', 'YES')

        elif item == 'map2map':
            processOBJ.updateParameter('map', MAPfile)
            if xmlOBJ.getResolution() is None:
                processOBJ.updateParameter('pixres', 'FROM')
            else:
                processOBJ.updateParameter('pixres', 'MAP')

            if xmlOBJ.OutputGeometry() is not None:
                processOBJ.updateParameter('defaultrange', 'MAP')
                processOBJ.AddParameter('trim', 'YES')
            else:
                processOBJ.updateParameter('defaultrange', 'FROM')

        processJSON = processOBJ.Process2JSON()
        try:
            RQ_recipe.QueueAdd(processJSON)
            logger.info('Recipe Element Added to Redis: %s : Success', item)
        except Exception as e:
            logger.warn('Recipe Element NOT Added to Redis: %s', item)

    # HPC job stuff
    logger.info('HPC Cluster job Submission Starting')
    jobOBJ = HPCjob()
    jobOBJ.setJobName(key + '_Service')
    jobOBJ.setStdOut(slurm_log + key + '_%A_%a.out')
    jobOBJ.setStdError(slurm_log + key + '_%A_%a.err')
    jobOBJ.setWallClock('24:00:00')
    jobOBJ.setMemory('24576')
    jobOBJ.setPartition('pds')
    JAsize = RQ_file.QueueSize()
    jobOBJ.setJobArray(JAsize)
    logger.info('Job Array Size : %s', str(JAsize))

    # @TODO replace with source activate <env>
    #jobOBJ.addPath('/usgs/apps/anaconda/bin')

    # Whether or not we use the default namespace, this guarantees that the POW/MAP queues will match the namespace
    #  used in the job manager.
    if xmlOBJ.getProcess() == 'POW':
        cmd = cmd_dir + "pow_process.py -k {} -n {}".format(key, namespace)
    elif xmlOBJ.getProcess() == 'MAP2':
        cmd = cmd_dir + "map_process.py -k {} -n {}".format(key, namespace)

    logger.info('HPC Command: %s', cmd)
    jobOBJ.setCommand(cmd)

    SBfile = directory + '/' + key + '.sbatch'
    jobOBJ.MakeJobFile(SBfile)

    try:
        sb = open(SBfile)
        sb.close
        logger.info('SBATCH File Creation: Success')
    except IOError as e:
        logger.error('SBATCH File %s Not Found', SBfile)

    if norun:
        logger.info('No-run mode, will not submit HPC job.')
    else:
        try:
            jobOBJ.Run()
            logger.info('Job Submission to HPC: Success')
            DBQO.setJobsStarted(key)
        except IOError as e:
            logger.error('Jobs NOT Submitted to HPC')
Esempio n. 9
0
def main(key, namespace=None):
    key = user_args.key
    namespace = user_args.namespace
    print(namespace)

    if namespace is None:
        namespace = default_namespace

    workarea = scratch + key + '/'
    RQ_file = RedisQueue(key + '_FileQueue', namespace)
    RQ_work = RedisQueue(key + '_WorkQueue', namespace)
    RQ_zip = RedisQueue(key + '_ZIP', namespace)
    RQ_loggy = RedisQueue(key + '_loggy', namespace)
    RQ_final = RedisQueue('FinalQueue', namespace)
    RQ_recipe = RedisQueue(key + '_recipe', namespace)
    RHash = RedisHash(key + '_info')
    RHerror = RedisHash(key + '_error')
    RQ_lock = RedisLock(lock_obj)
    RQ_lock.add({'POW': '1'})

    if int(RQ_file.QueueSize()) == 0:
        print("No Files Found in Redis Queue")
    elif RQ_lock.available('POW'):
        print(RQ_file.getQueueName())
        jobFile = RQ_file.Qfile2Qwork(RQ_file.getQueueName(),
                                      RQ_work.getQueueName())

        # Setup system logging
        basename = os.path.splitext(os.path.basename(jobFile))[0]
        logger = logging.getLogger(key + '.' + basename)
        logger.setLevel(logging.INFO)

        logFileHandle = logging.FileHandler(pds_log + '/Service.log')
        formatter = logging.Formatter(
            '%(asctime)s - %(name)s - %(levelname)s, %(message)s')
        logFileHandle.setFormatter(formatter)
        logger.addHandler(logFileHandle)

        logger.info('Starting POW Processing')

        # set up loggy
        loggyOBJ = Loggy(basename)

        # File Naming
        if '+' in jobFile:
            bandSplit = jobFile.split('+')
            inputFile = bandSplit[0]
        else:
            inputFile = jobFile

        infile = workarea + \
            os.path.splitext(os.path.basename(jobFile))[0] + '.input.cub'
        outfile = workarea + \
            os.path.splitext(os.path.basename(jobFile))[0] + '.output.cub'

        status = 'success'
        for element in RQ_recipe.RecipeGet():
            if status == 'error':
                break
            elif status == 'success':
                processOBJ = Process()
                process = processOBJ.JSON2Process(element)

                if 'gdal_translate' not in processOBJ.getProcessName():
                    print(processOBJ.getProcessName())
                    if '2isis' in processOBJ.getProcessName():
                        processOBJ.updateParameter('from_', inputFile)
                        processOBJ.updateParameter('to', outfile)
                    elif 'cubeatt-band' in processOBJ.getProcessName():
                        if '+' in jobFile:
                            infileB = infile + '+' + bandSplit[1]
                            processOBJ.updateParameter('from_', infileB)
                            processOBJ.updateParameter('to', outfile)
                            processOBJ.ChangeProcess('cubeatt')
                        else:
                            continue
                    elif 'cubeatt-bit' in processOBJ.getProcessName():
                        if RHash.OutBit() == 'unsignedbyte':
                            temp_outfile = outfile + '+lsb+tile+attached+unsignedbyte+1:254'
                        elif RHash.OutBit() == 'signedword':
                            temp_outfile = outfile + '+lsb+tile+attached+signedword+-32765:32765'
                        processOBJ.updateParameter('from_', infile)
                        processOBJ.updateParameter('to', temp_outfile)
                        processOBJ.ChangeProcess('cubeatt')

                    elif 'spice' in processOBJ.getProcessName():
                        processOBJ.updateParameter('from_', infile)

                    elif 'ctxevenodd' in processOBJ.getProcessName():
                        label = pvl.load(infile)
                        SS = label['IsisCube']['Instrument']['SpatialSumming']
                        print(SS)
                        if SS != 1:
                            continue
                        else:
                            processOBJ.updateParameter('from_', infile)
                            processOBJ.updateParameter('to', outfile)

                    elif 'mocevenodd' in processOBJ.getProcessName():
                        label = pvl.load(infile)
                        CTS = label['IsisCube']['Instrument'][
                            'CrosstrackSumming']
                        print(CTS)
                        if CTS != 1:
                            continue
                        else:
                            processOBJ.updateParameter('from_', infile)
                            processOBJ.updateParameter('to', outfile)
                    elif 'mocnoise50' in processOBJ.getProcessName():
                        label = pvl.load(infile)
                        CTS = label['IsisCube']['Instrument'][
                            'CrosstrackSumming']
                        if CTS != 1:
                            continue
                        else:
                            processOBJ.updateParameter('from_', infile)
                            processOBJ.updateParameter('to', outfile)
                    elif 'cam2map' in processOBJ.getProcessName():
                        processOBJ.updateParameter('from', infile)
                        processOBJ.updateParameter('to', outfile)

                        if RHash.getGRtype() == 'smart' or RHash.getGRtype(
                        ) == 'fill':
                            subloggyOBJ = SubLoggy('cam2map')
                            camrangeOUT = workarea + basename + '_camrange.txt'
                            isis.camrange(from_=infile, to=camrangeOUT)

                            cam = pvl.load(camrangeOUT)

                            if cam['UniversalGroundRange']['MaximumLatitude'] < float(RHash.getMinLat()) or \
                               cam['UniversalGroundRange']['MinimumLatitude'] > float(RHash.getMaxLat()) or \
                               cam['UniversalGroundRange']['MaximumLongitude'] < float(RHash.getMinLon()) or \
                               cam['UniversalGroundRange']['MinimumLongitude'] > float(RHash.getMaxLon()):

                                status = 'error'
                                eSTR = "Error Ground Range Outside Extent Range"
                                RHerror.addError(
                                    os.path.splitext(
                                        os.path.basename(jobFile))[0], eSTR)
                                subloggyOBJ.setStatus('ERROR')
                                subloggyOBJ.errorOut(eSTR)
                                loggyOBJ.AddProcess(subloggyOBJ.getSLprocess())
                                break

                            elif RHash.getGRtype() == 'smart':
                                if cam['UniversalGroundRange'][
                                        'MinimumLatitude'] > float(
                                            RHash.getMinLat()):
                                    minlat = cam['UniversalGroundRange'][
                                        'MinimumLatitude']
                                else:
                                    minlat = RHash.getMinLat()

                                if cam['UniversalGroundRange'][
                                        'MaximumLatitude'] < float(
                                            RHash.getMaxLat()):
                                    maxlat = cam['UniversalGroundRange'][
                                        'MaximumLatitude']
                                else:
                                    maxlat = RHash.getMaxLat()

                                if cam['UniversalGroundRange'][
                                        'MinimumLongitude'] > float(
                                            RHash.getMinLon()):
                                    minlon = cam['UniversalGroundRange'][
                                        'MinimumLongitude']
                                else:
                                    minlon = RHash.getMinLon()

                                if cam['UniversalGroundRange'][
                                        'MaximumLongitude'] < float(
                                            RHash.getMaxLon()):
                                    maxlon = cam['UniversalGroundRange'][
                                        'MaximumLongitude']
                                else:
                                    maxlon = RHash.getMaxLon()
                            elif RHash.getGRtype() == 'fill':
                                minlat = RHash.getMinLat()
                                maxlat = RHash.getMaxLat()
                                minlon = RHash.getMinLon()
                                maxlon = RHash.getMaxLon()

                            processOBJ.AddParameter('minlat', minlat)
                            processOBJ.AddParameter('maxlat', maxlat)
                            processOBJ.AddParameter('minlon', minlon)
                            processOBJ.AddParameter('maxlon', maxlon)

                            #os.remove(camrangeOUT)

                    elif 'isis2pds' in processOBJ.getProcessName():
                        finalfile = infile.replace('.input.cub', '_final.img')
                        processOBJ.updateParameter('from_', infile)
                        processOBJ.updateParameter('to', finalfile)

                    else:
                        processOBJ.updateParameter('from_', infile)
                        processOBJ.updateParameter('to', outfile)

                    print(processOBJ.getProcess())

                    for k, v in processOBJ.getProcess().items():
                        func = getattr(isis, k)
                        subloggyOBJ = SubLoggy(k)
                        try:
                            func(**v)
                            logger.info('Process %s :: Success', k)
                            subloggyOBJ.setStatus('SUCCESS')
                            subloggyOBJ.setCommand(processOBJ.LogCommandline())
                            subloggyOBJ.setHelpLink(processOBJ.LogHelpLink())
                            loggyOBJ.AddProcess(subloggyOBJ.getSLprocess())

                            if os.path.isfile(outfile):
                                os.rename(outfile, infile)
                            status = 'success'

                        except ProcessError as e:
                            logger.error('Process %s :: Error', k)
                            logger.error(e)
                            status = 'error'
                            eSTR = 'Error Executing ' + k + \
                                ' Standard Error: ' + str(e)
                            RHerror.addError(
                                os.path.splitext(os.path.basename(jobFile))[0],
                                eSTR)
                            subloggyOBJ.setStatus('ERROR')
                            subloggyOBJ.setCommand(processOBJ.LogCommandline())
                            subloggyOBJ.setHelpLink(processOBJ.LogHelpLink())
                            subloggyOBJ.errorOut(eSTR)
                            loggyOBJ.AddProcess(subloggyOBJ.getSLprocess())

                else:
                    GDALcmd = ""
                    for process, v, in processOBJ.getProcess().items():
                        subloggyOBJ = SubLoggy(process)
                        GDALcmd += process
                        for dict_key, value in v.items():
                            GDALcmd += ' ' + dict_key + ' ' + value

                    frmt = RHash.Format()
                    if frmt == 'GeoTiff-BigTiff':
                        fileext = 'tif'
                    elif frmt == 'GeoJPEG-2000':
                        fileext = 'jp2'
                    elif frmt == 'JPEG':
                        fileext = 'jpg'
                    elif frmt == 'PNG':
                        fileext = 'png'
                    elif frmt == 'GIF':
                        fileext = 'gif'

                    logGDALcmd = GDALcmd + ' ' + basename + \
                        '.input.cub ' + basename + '_final.' + fileext
                    finalfile = infile.replace('.input.cub',
                                               '_final.' + fileext)
                    GDALcmd += ' ' + infile + ' ' + finalfile
                    print(GDALcmd)

                    result = subprocess.call(GDALcmd, shell=True)
                    if result == 0:
                        logger.info('Process GDAL translate :: Success')
                        status = 'success'
                        subloggyOBJ.setStatus('SUCCESS')
                        subloggyOBJ.setCommand(logGDALcmd)
                        subloggyOBJ.setHelpLink(
                            'http://www.gdal.org/gdal_translate.html')
                        loggyOBJ.AddProcess(subloggyOBJ.getSLprocess())
                        #os.remove(infile)
                    else:
                        errmsg = 'Error Executing GDAL translate: Error'
                        logger.error(errmsg)
                        status = 'error'
                        RHerror.addError(
                            os.path.splitext(os.path.basename(jobFile))[0],
                            errmsg)
                        subloggyOBJ.setStatus('ERROR')
                        subloggyOBJ.setCommand(logGDALcmd)
                        subloggyOBJ.setHelpLink(
                            'http://www.gdal.org/gdal_translate.html')
                        subloggyOBJ.errorOut('Process GDAL translate :: Error')
                        loggyOBJ.AddProcess(subloggyOBJ.getSLprocess())

        if status == 'success':

            if RHash.Format() == 'ISIS3':
                finalfile = infile.replace('.input.cub', '_final.cub')
                shutil.move(infile, finalfile)
            if RHash.getStatus() != 'ERROR':
                RHash.Status('SUCCESS')

            try:
                RQ_zip.QueueAdd(finalfile)
                logger.info('File Added to ZIP Queue')
            except:
                logger.error('File NOT Added to ZIP Queue')

        elif status == 'error':
            RHash.Status('ERROR')
            if os.path.isfile(infile):
                #os.remove(infile)
                pass

        try:
            RQ_loggy.QueueAdd(loggyOBJ.Loggy2json())
            RQ_work.QueueRemove(jobFile)
            logger.info('JSON Added to Loggy Queue')
        except:
            logger.error('JSON NOT Added to Loggy Queue')

        if RQ_file.QueueSize() == 0 and RQ_work.QueueSize() == 0:
            try:
                RQ_final.QueueAdd(key)
                logger.info('Key %s Added to Final Queue: Success', key)
                logger.info(
                    'Both Queues Empty: filequeue = %s  work queue = %s',
                    str(RQ_file.QueueSize()), str(RQ_work.QueueSize()))
                logger.info('JOB Complete')
            except:
                logger.error('Key NOT Added to Final Queue')
        elif RQ_file.QueueSize() == 0 and RQ_work.QueueSize() != 0:
            logger.warning(
                'Work Queue Not Empty: filequeue = %s  work queue = %s',
                str(RQ_file.QueueSize()), str(RQ_work.QueueSize()))
Esempio n. 10
0
def main(user_args):
    upc_session_maker, upc_engine = db_connect(upc_db)
    pds_session_maker, pds_engine = db_connect(pds_db)

    persist = user_args.persist
    log_level = user_args.log_level

    try:
        slurm_job_id = os.environ['SLURM_ARRAY_JOB_ID']
        slurm_array_id = os.environ['SLURM_ARRAY_TASK_ID']
    except:
        slurm_job_id = ''
        slurm_array_id = ''

    inputfile = ''
    context = {
        'job_id': slurm_job_id,
        'array_id': slurm_array_id,
        'inputfile': inputfile
    }
    logger = logging.getLogger('UPC_Process')
    level = logging.getLevelName(log_level)
    logger.setLevel(level)
    log_file_handle = logging.FileHandler(pds_log + 'Process.log')
    formatter = logging.Formatter(
        '%(asctime)s - %(job_id)s - %(array_id)s - %(inputfile)s - %(name)s - %(levelname)s, %(message)s'
    )
    log_file_handle.setFormatter(formatter)
    logger.addHandler(log_file_handle)
    logger = logging.LoggerAdapter(logger, context)

    # ***************** Set up logging *****************

    # Redis Queue Objects
    RQ_main = RedisQueue('UPC_ReadyQueue')
    logger.info("UPC Processing Queue: %s", RQ_main.id_name)

    RQ_error = RedisQueue(upc_error_queue)
    RQ_lock = RedisLock(lock_obj)
    # If the queue isn't registered, add it and set it to "running"
    RQ_lock.add({RQ_main.id_name: '1'})

    # if there are items in the redis queue
    if int(RQ_main.QueueSize()) > 0 and RQ_lock.available(RQ_main.id_name):
        # get a file from the queue
        item = literal_eval(RQ_main.QueueGet())
        inputfile = item[0]
        fid = item[1]
        archive = item[2]

        if not os.path.isfile(inputfile):
            RQ_error.QueueAdd(
                f'Unable to locate or access {inputfile} during UPC processing'
            )
            logger.debug("%s is not a file\n", inputfile)
            exit()

        # Build URL for edr_source based on archive path from PDSinfo.json
        PDSinfoDICT = json.load(open(pds_info, 'r'))
        archive_path = PDSinfoDICT[archive]['path']
        orig_file = inputfile.replace(workarea, archive_path)
        edr_source = orig_file.replace(archive_base, web_base)

        # Update the logger context to include inputfile
        context['inputfile'] = inputfile

        recipe_file = recipe_base + "/" + archive + '.json'
        with open(recipe_file) as fp:
            upc_json = json.load(fp)['upc']
            recipe_string = json.dumps(upc_json['recipe'])
            # Attempt to get the optional search_term_mapping for the upc
            # process
            try:
                search_term_mapping = upc_json['search_term_mapping']
            except KeyError:
                search_term_mapping = {}

        processes, infile, caminfoOUT, footprint_file, workarea_pwd = generate_processes(
            inputfile, recipe_string, logger)
        failing_command = process(processes, workarea_pwd, logger)

        pds_label = pvl.load(inputfile)

        ######## Generate DataFiles Record ########
        upc_id = create_datafiles_record(pds_label, edr_source,
                                         infile + '.cub', upc_session_maker)

        ######## Generate SearchTerms Record ########
        create_search_terms_record(pds_label, caminfoOUT, upc_id,
                                   infile + '.cub', footprint_file,
                                   search_term_mapping, upc_session_maker)

        ######## Generate JsonKeywords Record ########
        create_json_keywords_record(caminfoOUT, upc_id, inputfile,
                                    failing_command, upc_session_maker, logger)

        try:
            pds_session = pds_session_maker()
            pds_session.flush()
        except:
            logger.debug("Unable to flush database connection")

        AddProcessDB(pds_session, fid, True)
        pds_session.close()

        if not persist:
            # Remove all files file from the workarea except for the copied
            # source file
            workarea_files = glob(workarea_pwd + '/*')
            workarea_files.remove(inputfile)
            for file in workarea_files:
                os.remove(file)

        # Disconnect from the engines
        pds_engine.dispose()
        upc_engine.dispose()

    logger.info("UPC processing exited")
Esempio n. 11
0
def main(user_args):
    key = user_args.key
    namespace = user_args.namespace

    if namespace is None:
        namespace = default_namespace

    work_dir = os.path.join(workarea, key)
    RQ_file = RedisQueue(key + '_FileQueue', namespace)
    RQ_work = RedisQueue(key + '_WorkQueue', namespace)
    RQ_zip = RedisQueue(key + '_ZIP', namespace)
    RQ_loggy = RedisQueue(key + '_loggy', namespace)
    RQ_final = RedisQueue('FinalQueue', namespace)
    RQ_recipe = RedisQueue(key + '_recipe', namespace)
    RQ_error = RedisQueue(upc_error_queue, namespace)
    RHash = RedisHash(key + '_info')
    RHerror = RedisHash(key + '_error')
    RQ_lock = RedisLock(lock_obj)
    RQ_lock.add({'MAP': '1'})

    if int(RQ_file.QueueSize()) > 0 and RQ_lock.available('MAP'):
        jobFile = RQ_file.Qfile2Qwork(RQ_file.getQueueName(),
                                      RQ_work.getQueueName())

        # Setup system logging
        basename = os.path.splitext(os.path.basename(jobFile))[0]
        logger = logging.getLogger(key + '.' + basename)
        logger.setLevel(logging.INFO)

        logFileHandle = logging.FileHandler(pds_log + '/Service.log')

        formatter = logging.Formatter(
            '%(asctime)s - %(name)s - %(levelname)s, %(message)s')
        logFileHandle.setFormatter(formatter)
        logger.addHandler(logFileHandle)

        logger.info('Starting MAP Processing')

        # File Naming
        infile = os.path.join(work_dir, \
            os.path.splitext(os.path.basename(jobFile))[0] + '.input.cub')
        outfile = os.path.join(
            work_dir,
            os.path.splitext(os.path.basename(jobFile))[0] + '.output.cub')

        # Recipe Stuff
        status = 'success'
        recipe_string = RQ_recipe.QueueGet()
        no_extension_inputfile = os.path.join(
            work_dir,
            os.path.splitext(os.path.basename(jobFile))[0])
        processes = generate_processes(
            jobFile,
            recipe_string,
            logger,
            no_extension_inputfile=no_extension_inputfile)
        failing_command, error = process(processes, work_dir, logger)
        process_log = generate_log_json(processes, basename, failing_command,
                                        error)

        if failing_command:
            status = 'error'

        if status == 'success':
            final_file_list = []
            img_format = RHash.Format()

            # If final output format is ISIS3 or PDS, will use an ISIS program to create
            if img_format == 'ISIS3' or img_format == 'PDS':
                last_output = list(processes.items())[-1][-1]['to']
                last_output = last_output.split('+')[0]
                if img_format == 'ISIS3':
                    finalfile = os.path.join(work_dir,
                                             RHash.getMAPname() + '.cub')
                else:
                    finalfile = os.path.join(work_dir,
                                             RHash.getMAPname() + '.img')

            # Else will use GDAL, so set extension and define possible ancillary files
            else:
                if img_format == 'GeoTiff-BigTiff' or img_format == 'GTiff':
                    fileext = 'tif'
                elif img_format == 'GeoJPEG-2000':
                    fileext = 'jp2'
                elif img_format == 'JPEG':
                    fileext = 'jpg'
                elif img_format == 'PNG':
                    fileext = 'png'
                elif img_format == 'GIF':
                    fileext = 'gif'

                last_output = list(processes.items())[-1][-1]['dest']
                finalfile = os.path.join(work_dir,
                                         RHash.getMAPname() + '.' + fileext)

                # Possible ancillary files
                last_output_msk = last_output + '.msk'
                last_output_aux = last_output + '.aux.xml'

                if os.path.isfile(last_output_msk):
                    finalfile_msk = os.path.join(
                        work_dir,
                        RHash.getMAPname() + '.' + fileext + '.msk')
                    shutil.move(last_output_msk, finalfile_msk)
                    final_file_list.append(finalfile_msk)

                if os.path.isfile(last_output_aux):
                    finalfile_aux = os.path.join(
                        work_dir,
                        RHash.getMAPname() + '.' + fileext + '.aux.xml')
                    shutil.move(last_output_aux, finalfile_aux)
                    final_file_list.append(finalfile_aux)

            shutil.move(last_output, finalfile)
            final_file_list.append(finalfile)

            if RHash.getStatus() != 'ERROR':
                RHash.Status('SUCCESS')

            # Loop over the list of final output files and add them to RQ_zip
            for item in final_file_list:
                try:
                    RQ_zip.QueueAdd(item)
                    logger.info('File Added to ZIP Queue')
                except:
                    logger.error('File NOT Added to ZIP Queue')

            try:
                RQ_loggy.QueueAdd(process_log)
                logger.info('JSON Added to Loggy Queue')
            except Exception as e:
                logger.error(f'JSON NOT Added to Loggy Queue with error: {e}')

            RQ_work.QueueRemove(jobFile)

        elif status == 'error':
            RHash.Status('ERROR')
            logger.error(f'Process {failing_command} :: Error')
            logger.error(error)
            error_string = f'Error Executing {failing_command}' \
                           f'Standard Error: {error}'
            RHerror.addError(basename, error_string)
            RQ_error.QueueAdd(
                f'Process {failing_command} failed for {jobFile}')
            if os.path.isfile(infile):
                os.remove(infile)

        if RQ_file.QueueSize() == 0 and RQ_work.QueueSize() == 0:
            try:
                RQ_final.QueueAdd(key)
                logger.info('Key %s Added to Final Queue: Success', key)
                logger.info('Job Complete')
            except:
                logger.error('Key NOT Added to Final Queue')
        else:
            logger.warning('Queues Not Empty: filequeue = %s  work queue = %s',
                           str(RQ_file.QueueSize()), str(RQ_work.QueueSize()))
def main(user_args):
    key = user_args.key
    norun = user_args.norun
    namespace = user_args.namespace

    if namespace is None:
        namespace = default_namespace

    # Set up logging
    logger = logging.getLogger(key)
    logger.setLevel(logging.INFO)

    logFileHandle = logging.FileHandler(pds_log + 'Service.log')
    formatter = logging.Formatter(
        '%(asctime)s - %(name)s - %(levelname)s, %(message)s')
    logFileHandle.setFormatter(formatter)
    logger.addHandler(logFileHandle)
    RQ_lock = RedisLock(lock_obj)
    RQ_lock.add({'Services': '1'})

    if not RQ_lock.available('Services'):
        exit()

    # Connect to database and access 'jobs' table
    DBQO = PDS_DBquery('JOBS')
    if key is None:
        # If no key is specified, grab the first key
        try:
            key = DBQO.jobKey()
            try:
                key = key.decode('utf-8')
            except:
                pass
        # If the queue is empty, it'll throw a type error.
        except TypeError:
            logger.debug('No keys found in clusterjobs database')
            exit(1)
    try:
        # Set the 'queued' column to current time i.e. prep for processing
        DBQO.setJobsQueued(key)
    except KeyError as e:
        logger.error('%s', e)
        exit(1)

    logger.info('Starting Process')

    xmlOBJ = jobXML(DBQO.jobXML4Key(key))

    # Make directory if it doesn't exist
    directory = os.path.join(workarea, key)
    if not os.path.exists(directory):
        os.makedirs(directory)

    logger.info('Working Area: %s', directory)

    # Set up Redis Hash for ground range
    RedisH = RedisHash(key + '_info')
    RedisH.RemoveAll()
    RedisErrorH = RedisHash(key + '_error')
    RedisErrorH.RemoveAll()
    RedisH_DICT = {}
    RedisH_DICT['service'] = xmlOBJ.getProcess()
    RedisH_DICT['fileformat'] = xmlOBJ.getOutFormat()
    RedisH_DICT['outbit'] = xmlOBJ.getOutBit()
    if xmlOBJ.getRangeType() is not None:
        RedisH_DICT['grtype'] = xmlOBJ.getRangeType()
        RedisH_DICT['minlat'] = xmlOBJ.getMinLat()
        RedisH_DICT['maxlat'] = xmlOBJ.getMaxLat()
        RedisH_DICT['minlon'] = xmlOBJ.getMinLon()
        RedisH_DICT['maxlon'] = xmlOBJ.getMaxLon()

    if RedisH.IsInHash('service'):
        pass
    else:
        RedisH.AddHash(RedisH_DICT)
    if RedisH.IsInHash('service'):
        logger.info('Redis info Hash: Success')
    else:
        logger.error('Redis info Hash Not Found')

    # End ground range

    RQ_recipe = RedisQueue(key + '_recipe', namespace)
    RQ_recipe.RemoveAll()
    RQ_file = RedisQueue(key + '_FileQueue', namespace)
    RQ_file.RemoveAll()
    RQ_WorkQueue = RedisQueue(key + '_WorkQueue', namespace)
    RQ_WorkQueue.RemoveAll()
    RQ_loggy = RedisQueue(key + '_loggy', namespace)
    RQ_loggy.RemoveAll()
    RQ_zip = RedisQueue(key + '_ZIP', namespace)
    RQ_zip.RemoveAll()

    if xmlOBJ.getProcess() == 'POW':
        fileList = xmlOBJ.getFileListWB()
    elif xmlOBJ.getProcess() == 'MAP2':
        fileList = xmlOBJ.getMFileListWB()

    for List_file in fileList:

        # Input and output file naming and path stuff
        if xmlOBJ.getProcess() == 'POW':
            if xmlOBJ.getInst() == 'THEMIS_IR':
                Input_file = List_file.replace('odtie1_', 'odtir1_')
                Input_file = Input_file.replace('xxedr', 'xxrdr')
                Input_file = Input_file.replace('EDR.QUB', 'RDR.QUB')
                Input_file = Input_file.replace(
                    'http://pdsimage.wr.usgs.gov/Missions/', archive_base)
            elif xmlOBJ.getInst() == 'ISSNA':
                Input_file = List_file.replace('.IMG', '.LBL')
                Input_file = Input_file.replace(
                    'http://pdsimage.wr.usgs.gov/Missions/', archive_base)
            elif xmlOBJ.getInst() == 'ISSWA':
                Input_file = List_file.replace('.IMG', '.LBL')
                Input_file = Input_file.replace(
                    'http://pdsimage.wr.usgs.gov/Missions/', archive_base)
            elif xmlOBJ.getInst() == 'SOLID STATE IMAGING SYSTEM':
                Input_file = List_file.replace('.img', '.lbl')
                Input_file = Input_file.replace(
                    'http://pdsimage.wr.usgs.gov/Missions/', archive_base)
            else:
                Input_file = List_file.replace(
                    'http://pdsimage.wr.usgs.gov/Missions/', archive_base)

        elif xmlOBJ.getProcess() == 'MAP2':
            Input_file = List_file.replace('file://pds_san', '/pds_san')

            if '+' in Input_file:
                tempsplit = Input_file.split('+')
                tempFile = tempsplit[0]
            else:
                tempFile = Input_file

            # Output final file naming
            Tbasename = os.path.splitext(os.path.basename(tempFile))[0]
            splitBase = Tbasename.split('_')

            labP = xmlOBJ.getProjection()
            isis_label = pvl.load(tempFile)
            if labP == 'INPUT':
                lab_proj = isis_label['IsisCube']['Mapping']['ProjectionName'][
                    0:4]
            else:
                lab_proj = labP[0:4]

            if xmlOBJ.getClat() is None or xmlOBJ.getClon() is None:
                basefinal = splitBase[0] + splitBase[1] + \
                    splitBase[2] + '_MAP2_' + lab_proj.upper()
            else:
                lab_clat = float(xmlOBJ.getClat())
                if lab_clat >= 0:
                    labH = 'N'
                elif lab_clat < 0:
                    labH = 'S'
                lab_clon = float(xmlOBJ.getClon())

                basefinal = splitBase[0] + splitBase[1] + splitBase[
                    2] + '_MAP2_' + str(lab_clat) + labH + str(
                        lab_clon) + '_' + lab_proj.upper()
            RedisH.MAPname(basefinal)

        try:
            basename = os.path.splitext(os.path.basename(Input_file))[0]
            RQ_file.QueueAdd(Input_file)
            logger.info('File %s Added to Redis Queue', Input_file)
        except Exception as e:
            logger.warning('File %s NOT Added to Redis Queue', Input_file)
            print('Redis Queue Error', e)
    RedisH.FileCount(RQ_file.QueueSize())
    logger.info('Count of Files Queue: %s', str(RQ_file.QueueSize()))

    # Map Template Stuff
    logger.info('Making Map File')
    mapOBJ = MakeMap()

    if xmlOBJ.getProcess() == 'MAP2' and xmlOBJ.getProjection() == 'INPUT':
        proj = isis_label['IsisCube']['Mapping']['ProjectionName']
        mapOBJ.Projection(proj)
    else:
        mapOBJ.Projection(xmlOBJ.getProjection())

    if xmlOBJ.getClon() is not None:
        mapOBJ.CLon(float(xmlOBJ.getClon()))
    if xmlOBJ.getClat() is not None:
        mapOBJ.CLat(float(xmlOBJ.getClat()))
    if xmlOBJ.getFirstParallel() is not None:
        mapOBJ.FirstParallel(float(xmlOBJ.getFirstParallel()))
    if xmlOBJ.getSecondParallel() is not None:
        mapOBJ.SecondParallel(float(xmlOBJ.getSecondParallel()))
    if xmlOBJ.getResolution() is not None:
        mapOBJ.PixelRes(float(xmlOBJ.getResolution()))
    if xmlOBJ.getTargetName() is not None:
        mapOBJ.Target(xmlOBJ.getTargetName())
    if xmlOBJ.getERadius() is not None:
        mapOBJ.ERadius(float(xmlOBJ.getERadius()))
    if xmlOBJ.getPRadius() is not None:
        mapOBJ.PRadius(float(xmlOBJ.getPRadius()))
    if xmlOBJ.getLatType() is not None:
        mapOBJ.LatType(xmlOBJ.getLatType())
    if xmlOBJ.getLonDirection() is not None:
        mapOBJ.LonDirection(xmlOBJ.getLonDirection())
    if xmlOBJ.getLonDomain() is not None:
        mapOBJ.LonDomain(int(xmlOBJ.getLonDomain()))

    if xmlOBJ.getProcess() == 'MAP2':
        if xmlOBJ.getMinLat() is not None:
            mapOBJ.MinLat(float(xmlOBJ.getMinLat()))
        if xmlOBJ.getMaxLat() is not None:
            mapOBJ.MaxLat(float(xmlOBJ.getMaxLat()))
        if xmlOBJ.getMinLon() is not None:
            mapOBJ.MinLon(float(xmlOBJ.getMinLon()))
        if xmlOBJ.getMaxLon() is not None:
            mapOBJ.MaxLon(float(xmlOBJ.getMaxLon()))

    mapOBJ.Map2pvl()

    MAPfile = directory + "/" + key + '.map'
    mapOBJ.Map2File(MAPfile)

    try:
        f = open(MAPfile)
        f.close
        logger.info('Map File Creation: Success')
    except IOError as e:
        logger.error('Map File %s Not Found', MAPfile)

    # ** End Map Template Stuff **

    logger.info('Building Recipe')
    if xmlOBJ.getProcess() == 'POW':
        try:
            pds_label = pvl.load(Input_file.split('+')[0])
        except:
            # If pvl fails to load a label, chances are that is because the input file is in a pre-PDS format,
            #  in which case generate_pow_process() doesn't need the label anyway.
            # Catch all exceptions because pvl can throw many different types of errors when attempting to read such files
            logger.warning('PVL was unable to parse PDS label for %s',
                           Input_file.split('+')[0])
            pds_label = None

        recipeOBJ = generate_pow_recipe(xmlOBJ, pds_label, MAPfile)

    elif xmlOBJ.getProcess() == 'MAP2':
        recipeOBJ = generate_map2_recipe(xmlOBJ, isis_label, MAPfile)

    # OUTPUT FORMAT
    # Test for GDAL and add to recipe
    Oformat = xmlOBJ.getOutFormat()
    if Oformat == 'GeoTiff-BigTiff' or Oformat == 'GeoJPEG-2000' or Oformat == 'JPEG' or Oformat == 'PNG':
        if Oformat == 'GeoJPEG-2000':
            Oformat = 'JP2KAK'
        if Oformat == 'GeoTiff-BigTiff':
            Oformat = 'GTiff'
        gdal_translate_dict = {}

        def GDAL_OBit(ibit):
            bitDICT = {
                'unsignedbyte': 'Byte',
                'signedword': 'Int16',
                'real': 'Float32'
            }
            try:
                return bitDICT[ibit]
            except KeyError:
                raise Exception(
                    f"Unsupported ibit type given {ibit}. " +
                    f"Currently supported bit types are {list(bitDICT.keys())}"
                )

        def GDAL_Creation(format):
            cDICT = {
                'JPEG': 'quality=100',
                'JP2KAK': 'quality=100',
                'GTiff': 'bigtiff=if_safer'
            }
            try:
                return cDICT[format]
            except KeyError:
                raise Exception(
                    f"Unsupported format {format}. " +
                    f"Currently supported bit types are {list(cDICT.keys())}")

        if xmlOBJ.getOutBit() != 'input':
            gdal_translate_dict['outputType'] = GDAL_OBit(xmlOBJ.getOutBit())
        gdal_translate_dict['format'] = Oformat

        if Oformat == 'GTiff' or Oformat == 'JP2KAK' or Oformat == 'JPEG':
            gdal_translate_dict['creationOptions'] = [GDAL_Creation(Oformat)]

        frmt = xmlOBJ.getOutFormat()
        if frmt == 'GeoTiff-BigTiff':
            fileext = 'tif'
        elif frmt == 'GeoJPEG-2000':
            fileext = 'jp2'
        elif frmt == 'JPEG':
            fileext = 'jpg'
        elif frmt == 'PNG':
            fileext = 'png'
        elif frmt == 'GIF':
            fileext = 'gif'

        gdal_translate_dict['src'] = list(
            recipeOBJ.items())[-1][-1]['to'].split('+')[0]
        gdal_translate_dict[
            'dest'] = "{{no_extension_inputfile}}_final." + fileext

        recipeOBJ['gdal_translate'] = gdal_translate_dict
    # set up pds2isis and add to recipe
    elif Oformat == 'PDS':
        isis2pds_dict = {}
        isis2pds_dict['from_'] = list(recipeOBJ.items())[-1][-1]['to']
        isis2pds_dict['to'] = "{{no_extension_inputfile}}_final.img"
        if xmlOBJ.getOutBit() == 'unsignedbyte':
            isis2pds_dict['bittype'] = '8bit'
        elif xmlOBJ.getOutBit() == 'signedword':
            isis2pds_dict['bittype'] = 's16bit'
        recipeOBJ['isis.isis2pds'] = isis2pds_dict

    try:
        RQ_recipe.QueueAdd(json.dumps(recipeOBJ))
        logger.info('Recipe Added to Redis')
    except Exception as e:
        logger.warning('Recipe NOT Added to Redis: %s', recipeOBJ)

    # HPC job stuff
    logger.info('HPC Cluster job Submission Starting')
    jobOBJ = HPCjob()
    jobOBJ.setJobName(key + '_Service')
    jobOBJ.setStdOut(slurm_log + key + '_%A_%a.out')
    jobOBJ.setStdError(slurm_log + key + '_%A_%a.err')
    jobOBJ.setWallClock('24:00:00')
    jobOBJ.setMemory('24576')
    jobOBJ.setPartition('pds')
    JAsize = RQ_file.QueueSize()
    jobOBJ.setJobArray(JAsize)
    logger.info('Job Array Size : %s', str(JAsize))

    # Whether or not we use the default namespace, this guarantees that the POW/MAP queues will match the namespace
    #  used in the job manager.
    if xmlOBJ.getProcess() == 'POW':
        cmd = cmd_dir + "pow_process.py -k {} -n {}".format(key, namespace)
    elif xmlOBJ.getProcess() == 'MAP2':
        cmd = cmd_dir + "map_process.py -k {} -n {}".format(key, namespace)

    logger.info('HPC Command: %s', cmd)
    jobOBJ.setCommand(cmd)

    SBfile = directory + '/' + key + '.sbatch'
    jobOBJ.MakeJobFile(SBfile)

    try:
        sb = open(SBfile)
        sb.close
        logger.info('SBATCH File Creation: Success')
    except IOError as e:
        logger.error('SBATCH File %s Not Found', SBfile)

    if norun:
        logger.info('No-run mode, will not submit HPC job.')
    else:
        try:
            jobOBJ.Run()
            logger.info('Job Submission to HPC: Success')
            DBQO.setJobsStarted(key)
        except IOError as e:
            logger.error('Jobs NOT Submitted to HPC')