# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
import os
+import sys
+import tempfile
+import traceback
import datetime
import time
+import csv
+import shutil
+import itertools
+import re
import paramiko
import src
+import src.ElementTree as etree
STYLESHEET_GLOBAL = "jobs_global_report.xsl"
-STYLESHEET_TABLE = "jobs_table_report.xsl"
+STYLESHEET_BOARD = "jobs_board_report.xsl"
+
+DAYS_SEPARATOR = ","
+CSV_DELIMITER = ";"
parser = src.options.Options()
-parser.add_option('j', 'jobs_config', 'string', 'jobs_cfg',
- _('The name of the config file that contains'
- ' the jobs configuration'))
+parser.add_option('n', 'name', 'list2', 'jobs_cfg',
+ _('Mandatory: The name of the config file that contains'
+ ' the jobs configuration. Can be a list.'))
parser.add_option('o', 'only_jobs', 'list2', 'only_jobs',
- _('The list of jobs to launch, by their name. '))
+ _('Optional: the list of jobs to launch, by their name. '))
parser.add_option('l', 'list', 'boolean', 'list',
- _('list all available config files.'))
-parser.add_option('n', 'no_label', 'boolean', 'no_label',
- _("do not print labels, Works only with --list."), False)
+ _('Optional: list all available config files.'))
parser.add_option('t', 'test_connection', 'boolean', 'test_connection',
- _("Try to connect to the machines. Not executing the jobs."),
+ _("Optional: try to connect to the machines. "
+ "Not executing the jobs."),
False)
parser.add_option('p', 'publish', 'boolean', 'publish',
- _("Generate an xml file that can be read in a browser to "
- "display the jobs status."),
+ _("Optional: generate an xml file that can be read in a "
+ "browser to display the jobs status."),
+ False)
+parser.add_option('i', 'input_boards', 'string', 'input_boards', _("Optional: "
+ "the path to csv file that contain "
+ "the expected boards."),"")
+parser.add_option('', 'completion', 'boolean', 'no_label',
+ _("Optional (internal use): do not print labels, Works only "
+ "with --list."),
False)
class Machine(object):
self.name = name
self.host = host
self.port = port
+ self.distribution = None # Will be filled after copying SAT on the machine
self.user = user
self.password = passwd
self.sat_path = sat_path
'''
res = 0
try:
+ # open a sftp connection
self.sftp = self.ssh.open_sftp()
+ # Create the sat directory on remote machine if it is not existing
self.mkdir(self.sat_path, ignore_existing=True)
+ # Put sat
self.put_dir(sat_local_path, self.sat_path, filters = ['.git'])
- job_file_name = os.path.basename(job_file)
+ # put the job configuration file in order to make it reachable
+ # on the remote machine
+ remote_job_file_name = ".%s" % os.path.basename(job_file)
self.sftp.put(job_file, os.path.join(self.sat_path,
- "data",
- "jobs",
- job_file_name))
+ remote_job_file_name))
except Exception as e:
res = str(e)
self._connection_successful = False
def put_dir(self, source, target, filters = []):
''' Uploads the contents of the source directory to the target path. The
- target directory needs to exists. All subdirectories in source are
+ target directory needs to exists. All sub-directories in source are
created under target.
'''
for item in os.listdir(source):
class Job(object):
'''Class to manage one job
'''
- def __init__(self, name, machine, application, distribution, table,
- commands, timeout, config, logger, job_file, after=None):
+ def __init__(self,
+ name,
+ machine,
+ application,
+ board,
+ commands,
+ timeout,
+ config,
+ job_file_path,
+ logger,
+ after=None,
+ prefix=None):
self.name = name
self.machine = machine
self.after = after
self.timeout = timeout
self.application = application
- self.distribution = distribution
- self.table = table
+ self.board = board
self.config = config
self.logger = logger
# The list of log files to download from the remote machine
self._stdout = None # Store the command outputs field
self._stderr = None # Store the command errors field
- self.out = None # Contains something only if the job is finished
- self.err = None # Contains something only if the job is finished
-
+ self.out = ""
+ self.err = ""
+
+ self.name_remote_jobs_pyconf = ".%s" % os.path.basename(job_file_path)
self.commands = commands
self.command = (os.path.join(self.machine.sat_path, "sat") +
" -l " +
os.path.join(self.machine.sat_path,
"list_log_files.txt") +
- " job --jobs_config " +
- job_file +
- " --job " +
+ " job --jobs_config " +
+ os.path.join(self.machine.sat_path,
+ self.name_remote_jobs_pyconf) +
+ " --name " +
self.name)
+ if prefix:
+ self.command = prefix + ' "' + self.command +'"'
def get_pids(self):
""" Get the pid(s) corresponding to the command that have been launched
:return: (the output of the kill, the error of the kill)
:rtype: (str, str)
'''
-
- pids = self.get_pids()
+ try:
+ pids = self.get_pids()
+ except:
+ return ("Unable to get the pid of the command.", "")
+
cmd_kill = " ; ".join([("kill -2 " + pid) for pid in pids])
(_, out_kill, err_kill) = self.machine.exec_command(cmd_kill,
self.logger)
time.sleep(wait)
- return (out_kill, err_kill)
+ return (out_kill.read().decode(), err_kill.read().decode())
def has_begun(self):
'''Returns True if the job has already begun
if self._stdout.channel.closed:
self._has_finished = True
# Store the result outputs
- self.out = self._stdout.read()
- self.err = self._stderr.read()
+ self.out += self._stdout.read().decode()
+ self.err += self._stderr.read().decode()
# Put end time
self._Tf = time.time()
# And get the remote command status and log files
- self.get_log_files()
+ try:
+ self.get_log_files()
+ except Exception as e:
+ self.err += _("Unable to get remote log files: %s" % e)
return self._has_finished
def get_log_files(self):
"""Get the log files produced by the command launched
- on the remote machine.
+ on the remote machine, and put it in the log directory of the user,
+ so they can be accessible from
"""
# Do not get the files if the command is not finished
if not self.has_finished():
# First get the file that contains the list of log files to get
tmp_file_path = src.get_tmp_filename(self.config, "list_log_files.txt")
+ remote_path = os.path.join(self.machine.sat_path, "list_log_files.txt")
self.machine.sftp.get(
- os.path.join(self.machine.sat_path, "list_log_files.txt"),
+ remote_path,
tmp_file_path)
# Read the file and get the result of the command and all the log files
file_lines = [line.replace("\n", "") for line in file_lines]
fstream_tmp.close()
os.remove(tmp_file_path)
- # The first line is the result of the command (0 success or 1 fail)
- self.res_job = file_lines[0]
- for job_path_remote in file_lines[1:]:
+
+ try :
+ # The first line is the result of the command (0 success or 1 fail)
+ self.res_job = file_lines[0]
+ except Exception as e:
+ self.err += _("Unable to get status from remote file %s: %s" %
+ (remote_path, str(e)))
+
+ for i, job_path_remote in enumerate(file_lines[1:]):
try:
# For each command, there is two files to get :
# 1- The xml file describing the command and giving the
# internal traces.
# 2- The txt file containing the system command traces (like
# traces produced by the "make" command)
- if os.path.basename(os.path.dirname(job_path_remote)) != 'OUT':
+ # 3- In case of the test command, there is another file to get :
+ # the xml board that contain the test results
+ dirname = os.path.basename(os.path.dirname(job_path_remote))
+ if dirname != 'OUT' and dirname != 'TEST':
# Case 1-
local_path = os.path.join(os.path.dirname(
self.logger.logFilePath),
os.path.basename(job_path_remote))
- else:
+ if i==0: # The first is the job command
+ self.logger.add_link(os.path.basename(job_path_remote),
+ "job",
+ self.res_job,
+ self.command)
+ elif dirname == 'OUT':
# Case 2-
local_path = os.path.join(os.path.dirname(
self.logger.logFilePath),
'OUT',
os.path.basename(job_path_remote))
+ elif dirname == 'TEST':
+ # Case 3-
+ local_path = os.path.join(os.path.dirname(
+ self.logger.logFilePath),
+ 'TEST',
+ os.path.basename(job_path_remote))
+
# Get the file
if not os.path.exists(local_path):
self.machine.sftp.get(job_path_remote, local_path)
self.remote_log_files.append(local_path)
except Exception as e:
self.err += _("Unable to get %s log file from remote: %s" %
- (job_path_remote, str(e)))
+ (str(job_path_remote),
+ str(e)))
def has_failed(self):
'''Returns True if the job has failed.
"""In case of a failing job, one has to cancel every job that depend
on it. This method put the job as failed and will not be executed.
"""
+ if self.cancelled:
+ return
self._has_begun = True
self._has_finished = True
self.cancelled = True
- self.out = _("This job was not launched because its father has failed.")
- self.err = _("This job was not launched because its father has failed.")
+ self.out += _("This job was not launched because its father has failed.")
+ self.err += _("This job was not launched because its father has failed.")
def is_running(self):
'''Returns True if the job commands are running
self._has_finished = True
self._has_timouted = True
self._Tf = time.time()
- self.get_pids()
(out_kill, _) = self.kill_remote_process()
- self.out = "TIMEOUT \n" + out_kill.read()
- self.err = "TIMEOUT : %s seconds elapsed\n" % str(self.timeout)
+ self.out += "TIMEOUT \n" + out_kill
+ self.err += "TIMEOUT : %s seconds elapsed\n" % str(self.timeout)
try:
self.get_log_files()
except Exception as e:
- self.err += _("Unable to get remote log files: %s" % e)
+ # The 2 following lines must be suppressed after the bug is fixed
+ print("The error type: ")
+ print(type(e))
+ print("The error: ")
+ print(e)
+ print("Local scope:")
+ print(dir())
+ print("The str type: ")
+ print(type(str))
+ print("str: ")
+ print(str)
+ self.err += _("Unable to get remote log files!")
def total_duration(self):
"""Give the total duration of the job
msg = _("Warning: A job can only be launched one time")
msg2 = _("Trying to launch the job \"%s\" whereas it has "
"already been launched." % self.name)
- self.logger.write(src.printcolors.printcWarning("%s\n%s\n" % (msg, msg2)))
+ self.logger.write(src.printcolors.printcWarning("%s\n%s\n" % (msg,
+ msg2)))
return
# Do not execute the command if the machine could not be reached
if not self.machine.successfully_connected(self.logger):
self._has_finished = True
self.out = "N\A"
- self.err = ("Connection to machine (name : %s, host: %s, port:"
+ self.err += ("Connection to machine (name : %s, host: %s, port:"
" %s, user: %s) has failed\nUse the log command "
"to get more information."
% (self.machine.name,
# Usual case : Launch the command on remote machine
self._T0 = time.time()
self._stdin, self._stdout, self._stderr = self.machine.exec_command(
- self.command, self.logger)
+ self.command,
+ self.logger)
# If the results are not initialized, finish the job
if (self._stdin, self._stdout, self._stderr) == (None, None, None):
self._has_finished = True
self._Tf = time.time()
- self.out = "N\A"
- self.err = "The server failed to execute the command"
+ self.out += "N\A"
+ self.err += "The server failed to execute the command"
# Put the beginning flag to true.
self._has_begun = True
if self.after:
self.logger.write("after : %s\n" % self.after)
self.logger.write("Time elapsed : %4imin %2is \n" %
- (self.total_duration()/60 , self.total_duration()%60))
+ (self.total_duration()//60 , self.total_duration()%60))
if self._T0 != -1:
self.logger.write("Begin time : %s\n" %
time.strftime('%Y-%m-%d %H:%M:%S',
self.machine.write_info(self.logger)
self.logger.write(src.printcolors.printcInfo("out : \n"))
- if self.out is None:
+ if self.out == "":
self.logger.write("Unable to get output\n")
else:
self.logger.write(self.out + "\n")
self.logger.write(src.printcolors.printcInfo("err : \n"))
- if self.err is None:
- self.logger.write("Unable to get error\n")
- else:
- self.logger.write(self.err + "\n")
+ self.logger.write(self.err + "\n")
def get_status(self):
"""Get the status of the job (used by the Gui for xml display)
def __init__(self,
runner,
logger,
- job_file,
job_file_path,
config_jobs,
lenght_columns = 20):
# The jobs configuration
self.cfg_jobs = config_jobs
- self.job_file = job_file
self.job_file_path = job_file_path
# The machine that will be used today
self.lmachines = []
self.ljobs_not_today = []
self.runner = runner
self.logger = logger
- # The correlation dictionary between jobs and machines
- self.dic_job_machine = {}
self.len_columns = lenght_columns
# the list of jobs that have not been run yet
'''
name = job_def.name
cmmnds = job_def.commands
- timeout = job_def.timeout
+ if not "timeout" in job_def:
+ timeout = 4*60*60 # default timeout = 4h
+ else:
+ timeout = job_def.timeout
after = None
if 'after' in job_def:
after = job_def.after
application = None
if 'application' in job_def:
application = job_def.application
- distribution = None
- if 'distribution' in job_def:
- distribution = job_def.distribution
- table = None
- if 'table' in job_def:
- table = job_def.table
+ board = None
+ if 'board' in job_def:
+ board = job_def.board
+ prefix = None
+ if "prefix" in job_def:
+ prefix = job_def.prefix
return Job(name,
machine,
application,
- distribution,
- table,
+ board,
cmmnds,
timeout,
self.runner.cfg,
+ self.job_file_path,
self.logger,
- self.job_file,
- after = after)
+ after = after,
+ prefix = prefix)
def determine_jobs_and_machines(self):
'''Function that reads the pyconf jobs definition and instantiates all
msg = _("WARNING: The job \"%(job_name)s\" requires the "
"machine \"%(machine_name)s\" but this machine "
"is not defined in the configuration file.\n"
- "The job will not be launched")
- self.logger.write(src.printcolors.printcWarning(msg))
+ "The job will not be launched\n")
+ self.logger.write(src.printcolors.printcWarning(
+ msg % {"job_name" : job_def.name,
+ "machine_name" : name_machine}))
+ continue
a_job = self.define_job(job_def, a_machine)
- self.dic_job_machine[a_job] = a_machine
if today in job_def.when:
self.ljobs.append(a_job)
else: # today in job_def.when
self.ljobs_not_today.append(a_job)
-
+
self.lhosts = host_list
def ssh_connection_all_machines(self, pad=50):
# Copy salomeTools to the remote machine
if machine.successfully_connected(self.logger):
+ step = _("Remove SAT")
+ self.logger.write('\r%s%s%s' % (begin_line, endline, 20 * " "),3)
+ self.logger.write('\r%s%s%s' % (begin_line, endline, step), 3)
+ (__, out_dist, __) = machine.exec_command(
+ "rm -rf %s" % machine.sat_path,
+ self.logger)
+ out_dist.read()
+
+ self.logger.flush()
step = _("Copy SAT")
self.logger.write('\r%s%s%s' % (begin_line, endline, 20 * " "),3)
self.logger.write('\r%s%s%s' % (begin_line, endline, step), 3)
self.logger.flush()
res_copy = machine.copy_sat(self.runner.cfg.VARS.salometoolsway,
self.job_file_path)
+ # get the remote machine distribution using a sat command
+ (__, out_dist, __) = machine.exec_command(
+ os.path.join(machine.sat_path,
+ "sat config --value VARS.dist --no_label"),
+ self.logger)
+ machine.distribution = out_dist.read().decode().replace("\n",
+ "")
# Print the status of the copy
if res_copy == 0:
self.logger.write('\r%s' %
self.logger.write('\r%s%s%s %s' %
(begin_line,
endline,
- src.printcolors.printc(src.OK_STATUS),
- _("Copy of SAT failed")), 3)
+ src.printcolors.printc(src.KO_STATUS),
+ _("Copy of SAT failed: %s" % res_copy)), 3)
else:
self.logger.write('\r%s' %
((len(begin_line)+len(endline)+20) * " "), 3)
'''
host = hostname[0]
port = hostname[1]
- for jb in self.dic_job_machine:
+ for jb in self.ljobs:
if jb.machine.host == host and jb.machine.port == port:
if jb.is_running():
return jb
'''
jobs_finished_list = []
jobs_running_list = []
- for jb in self.dic_job_machine:
+ for jb in self.ljobs:
if jb.is_running():
jobs_running_list.append(jb)
jb.check_time()
if job.after is None:
continue
father_job = self.find_job_that_has_name(job.after)
- if father_job.has_failed():
+ if father_job is not None and father_job.has_failed():
job.cancel()
def find_job_that_has_name(self, name):
for jb in self.ljobs:
if jb.name == name:
return jb
-
# the following is executed only if the job was not found
- msg = _('The job "%s" seems to be nonexistent') % name
- raise src.SatException(msg)
+ return None
def str_of_length(self, text, length):
'''Takes a string text of any length and returns
text_out = text[:length-3] + '...'
else:
diff = length - len(text)
- before = " " * (diff/2)
- after = " " * (diff/2 + diff%2)
+ before = " " * (diff//2)
+ after = " " * (diff//2 + diff%2)
text_out = before + text + after
return text_out
self.logger.flush()
# The infinite loop that runs the jobs
- l_jobs_not_started = self.dic_job_machine.keys()
- while len(self._l_jobs_finished) != len(self.dic_job_machine.keys()):
+ l_jobs_not_started = src.deepcopy_list(self.ljobs)
+ while len(self._l_jobs_finished) != len(self.ljobs):
new_job_start = False
for host_port in self.lhosts:
new_job_start = True
break
else:
- jb_before = self.find_job_that_has_name(jb.after)
+ jb_before = self.find_job_that_has_name(jb.after)
+ if jb_before is None:
+ jb.cancel()
+ msg = _("This job was not launched because its "
+ "father is not in the jobs list.")
+ jb.out = msg
+ jb.err = msg
+ break
if jb_before.has_finished():
jb.run()
l_jobs_not_started.remove(jb)
new_job_finished = self.update_jobs_states_list()
if new_job_start or new_job_finished:
- self.gui.update_xml_files(self.ljobs)
+ if self.gui:
+ self.gui.update_xml_files(self.ljobs)
# Display the current status
self.display_status(self.len_columns)
self.logger.write(tiret_line)
self.logger.write("\n\n")
- self.gui.update_xml_files(self.ljobs)
- self.gui.last_update()
+ if self.gui:
+ self.gui.update_xml_files(self.ljobs)
+ self.gui.last_update()
def write_all_results(self):
'''Display all the jobs outputs.
:rtype: N\A
'''
- for jb in self.dic_job_machine.keys():
+ for jb in self.ljobs:
self.logger.write(src.printcolors.printcLabel(
"#------- Results for job %s -------#\n" % jb.name))
jb.write_results()
see the jobs states
'''
- def __init__(self, xml_dir_path, l_jobs, l_jobs_not_today):
+ def __init__(self,
+ xml_dir_path,
+ l_jobs,
+ l_jobs_not_today,
+ prefix,
+ logger,
+ file_boards=""):
'''Initialization
:param xml_dir_path str: The path to the directory where to put
the xml resulting files
:param l_jobs List: the list of jobs that run today
:param l_jobs_not_today List: the list of jobs that do not run today
+ :param file_boards str: the file path from which to read the
+ expected boards
'''
+ # The logging instance
+ self.logger = logger
+
+ # The prefix to add to the xml files : date_hour
+ self.prefix = prefix
+
+ # The path of the csv files to read to fill the expected boards
+ self.file_boards = file_boards
+
+ if file_boards != "":
+ today = datetime.date.weekday(datetime.date.today())
+ self.parse_csv_boards(today)
+ else:
+ self.d_input_boards = {}
+
# The path of the global xml file
self.xml_dir_path = xml_dir_path
# Initialize the xml files
- xml_global_path = os.path.join(self.xml_dir_path, "global_report.xml")
+ self.global_name = "global_report"
+ xml_global_path = os.path.join(self.xml_dir_path,
+ self.global_name + ".xml")
self.xml_global_file = src.xmlManager.XmlLogFile(xml_global_path,
"JobsReport")
- # The xml files that corresponds to the tables.
- # {name_table : xml_object}}
- self.d_xml_table_files = {}
+
+ # Find history for each job
+ self.history = {}
+ self.find_history(l_jobs, l_jobs_not_today)
+
+ # The xml files that corresponds to the boards.
+ # {name_board : xml_object}}
+ self.d_xml_board_files = {}
+
# Create the lines and columns
- self.initialize_arrays(l_jobs, l_jobs_not_today)
+ self.initialize_boards(l_jobs, l_jobs_not_today)
+
# Write the xml file
self.update_xml_files(l_jobs)
- def initialize_arrays(self, l_jobs, l_jobs_not_today):
+ def add_xml_board(self, name):
+ '''Add a board to the board list
+ :param name str: the board name
+ '''
+ xml_board_path = os.path.join(self.xml_dir_path, name + ".xml")
+ self.d_xml_board_files[name] = src.xmlManager.XmlLogFile(
+ xml_board_path,
+ "JobsReport")
+ self.d_xml_board_files[name].add_simple_node("distributions")
+ self.d_xml_board_files[name].add_simple_node("applications")
+ self.d_xml_board_files[name].add_simple_node("board", text=name)
+
+ def initialize_boards(self, l_jobs, l_jobs_not_today):
'''Get all the first information needed for each file and write the
first version of the files
:param l_jobs List: the list of jobs that run today
:param l_jobs_not_today List: the list of jobs that do not run today
'''
- # Get the tables to fill and put it in a dictionary
- # {table_name : xml instance corresponding to the table}
+ # Get the boards to fill and put it in a dictionary
+ # {board_name : xml instance corresponding to the board}
for job in l_jobs + l_jobs_not_today:
- table = job.table
- if (table is not None and
- table not in self.d_xml_table_files.keys()):
- xml_table_path = os.path.join(self.xml_dir_path, table + ".xml")
- self.d_xml_table_files[table] = src.xmlManager.XmlLogFile(
- xml_table_path,
- "JobsReport")
- self.d_xml_table_files[table].add_simple_node("distributions")
- self.d_xml_table_files[table].add_simple_node("applications")
- self.d_xml_table_files[table].add_simple_node("table", text=table)
+ board = job.board
+ if (board is not None and
+ board not in self.d_xml_board_files.keys()):
+ self.add_xml_board(board)
+
+ # Verify that the boards given as input are done
+ for board in list(self.d_input_boards.keys()):
+ if board not in self.d_xml_board_files:
+ self.add_xml_board(board)
+ root_node = self.d_xml_board_files[board].xmlroot
+ src.xmlManager.append_node_attrib(root_node,
+ {"input_file" : self.file_boards})
# Loop over all jobs in order to get the lines and columns for each
# xml file
d_dist = {}
d_application = {}
- for table in self.d_xml_table_files:
- d_dist[table] = []
- d_application[table] = []
+ for board in self.d_xml_board_files:
+ d_dist[board] = []
+ d_application[board] = []
l_hosts_ports = []
if (job.machine.host, job.machine.port) not in l_hosts_ports:
l_hosts_ports.append((job.machine.host, job.machine.port))
- distrib = job.distribution
+ distrib = job.machine.distribution
application = job.application
- table_job = job.table
- if table is None:
+ board_job = job.board
+ if board is None:
continue
- for table in self.d_xml_table_files:
- if table_job == table:
- if distrib is not None and distrib not in d_dist[table]:
- d_dist[table].append(distrib)
+ for board in self.d_xml_board_files:
+ if board_job == board:
+ if (distrib not in [None, ''] and
+ distrib not in d_dist[board]):
+ d_dist[board].append(distrib)
src.xmlManager.add_simple_node(
- self.d_xml_table_files[table].xmlroot.find('distributions'),
+ self.d_xml_board_files[board].xmlroot.find(
+ 'distributions'),
"dist",
attrib={"name" : distrib})
- if table_job == table:
- if application is not None and application not in d_application[table]:
- d_application[table].append(application)
- src.xmlManager.add_simple_node(self.d_xml_table_files[table].xmlroot.find('applications'),
+ if board_job == board:
+ if (application not in [None, ''] and
+ application not in d_application[board]):
+ d_application[board].append(application)
+ src.xmlManager.add_simple_node(
+ self.d_xml_board_files[board].xmlroot.find(
+ 'applications'),
"application",
- attrib={"name" : application})
-
+ attrib={
+ "name" : application})
+
+ # Verify that there are no missing application or distribution in the
+ # xml board files (regarding the input boards)
+ for board in self.d_xml_board_files:
+ l_dist = d_dist[board]
+ if board not in self.d_input_boards.keys():
+ continue
+ for dist in self.d_input_boards[board]["rows"]:
+ if dist not in l_dist:
+ src.xmlManager.add_simple_node(
+ self.d_xml_board_files[board].xmlroot.find(
+ 'distributions'),
+ "dist",
+ attrib={"name" : dist})
+ l_appli = d_application[board]
+ for appli in self.d_input_boards[board]["columns"]:
+ if appli not in l_appli:
+ src.xmlManager.add_simple_node(
+ self.d_xml_board_files[board].xmlroot.find(
+ 'applications'),
+ "application",
+ attrib={"name" : appli})
+
# Initialize the hosts_ports node for the global file
- self.xmlhosts_ports = self.xml_global_file.add_simple_node("hosts_ports")
+ self.xmlhosts_ports = self.xml_global_file.add_simple_node(
+ "hosts_ports")
for host, port in l_hosts_ports:
host_port = "%s:%i" % (host, port)
src.xmlManager.add_simple_node(self.xmlhosts_ports,
attrib={"name" : host_port})
# Initialize the jobs node in all files
- for xml_file in [self.xml_global_file] + self.d_xml_table_files.values():
+ for xml_file in [self.xml_global_file] + list(
+ self.d_xml_board_files.values()):
xml_jobs = xml_file.add_simple_node("jobs")
- # Get the jobs present in the config file but that will not be launched
- # today
+ # Get the jobs present in the config file but
+ # that will not be launched today
self.put_jobs_not_today(l_jobs_not_today, xml_jobs)
- xml_file.add_simple_node("infos", attrib={"name" : "last update", "JobsCommandStatus" : "running"})
+ # add also the infos node
+ xml_file.add_simple_node("infos",
+ attrib={"name" : "last update",
+ "JobsCommandStatus" : "running"})
+
+ # and put the history node
+ history_node = xml_file.add_simple_node("history")
+ name_board = os.path.basename(xml_file.logFile)[:-len(".xml")]
+ # serach for board files
+ expression = "^[0-9]{8}_+[0-9]{6}_" + name_board + ".xml$"
+ oExpr = re.compile(expression)
+ # Get the list of xml borad files that are in the log directory
+ for file_name in os.listdir(self.xml_dir_path):
+ if oExpr.search(file_name):
+ date = os.path.basename(file_name).split("_")[0]
+ file_path = os.path.join(self.xml_dir_path, file_name)
+ src.xmlManager.add_simple_node(history_node,
+ "link",
+ text=file_path,
+ attrib={"date" : date})
+
+
+ # Find in each board the squares that needs to be filled regarding the
+ # input csv files but that are not covered by a today job
+ for board in self.d_input_boards.keys():
+ xml_root_board = self.d_xml_board_files[board].xmlroot
+ # Find the missing jobs for today
+ xml_missing = src.xmlManager.add_simple_node(xml_root_board,
+ "missing_jobs")
+ for row, column in self.d_input_boards[board]["jobs"]:
+ found = False
+ for job in l_jobs:
+ if (job.application == column and
+ job.machine.distribution == row):
+ found = True
+ break
+ if not found:
+ src.xmlManager.add_simple_node(xml_missing,
+ "job",
+ attrib={"distribution" : row,
+ "application" : column })
+ # Find the missing jobs not today
+ xml_missing_not_today = src.xmlManager.add_simple_node(
+ xml_root_board,
+ "missing_jobs_not_today")
+ for row, column in self.d_input_boards[board]["jobs_not_today"]:
+ found = False
+ for job in l_jobs_not_today:
+ if (job.application == column and
+ job.machine.distribution == row):
+ found = True
+ break
+ if not found:
+ src.xmlManager.add_simple_node(xml_missing_not_today,
+ "job",
+ attrib={"distribution" : row,
+ "application" : column })
-
+ def find_history(self, l_jobs, l_jobs_not_today):
+ """find, for each job, in the existent xml boards the results for the
+ job. Store the results in the dictionnary self.history = {name_job :
+ list of (date, status, list links)}
+
+ :param l_jobs List: the list of jobs to run today
+ :param l_jobs_not_today List: the list of jobs that do not run today
+ """
+ # load the all the history
+ expression = "^[0-9]{8}_+[0-9]{6}_" + self.global_name + ".xml$"
+ oExpr = re.compile(expression)
+ # Get the list of global xml that are in the log directory
+ l_globalxml = []
+ for file_name in os.listdir(self.xml_dir_path):
+ if oExpr.search(file_name):
+ file_path = os.path.join(self.xml_dir_path, file_name)
+ try:
+ global_xml = src.xmlManager.ReadXmlFile(file_path)
+ l_globalxml.append(global_xml)
+ except Exception as e:
+ msg = _("\nWARNING: the file %s can not be read, it will be "
+ "ignored\n%s" % (file_path, e))
+ self.logger.write("%s\n" % src.printcolors.printcWarning(
+ msg), 5)
+
+ # Construct the dictionnary self.history
+ for job in l_jobs + l_jobs_not_today:
+ l_links = []
+ for global_xml in l_globalxml:
+ date = os.path.basename(global_xml.filePath).split("_")[0]
+ global_root_node = global_xml.xmlroot.find("jobs")
+ job_node = src.xmlManager.find_node_by_attrib(
+ global_root_node,
+ "job",
+ "name",
+ job.name)
+ if job_node:
+ if job_node.find("remote_log_file_path") is not None:
+ link = job_node.find("remote_log_file_path").text
+ res_job = job_node.find("res").text
+ if link != "nothing":
+ l_links.append((date, res_job, link))
+ l_links = sorted(l_links, reverse=True)
+ self.history[job.name] = l_links
+
def put_jobs_not_today(self, l_jobs_not_today, xml_node_jobs):
'''Get all the first information needed for each file and write the
first version of the files
src.xmlManager.add_simple_node(xmlj, "application", job.application)
src.xmlManager.add_simple_node(xmlj,
"distribution",
- job.distribution)
- src.xmlManager.add_simple_node(xmlj, "table", job.table)
+ job.machine.distribution)
+ src.xmlManager.add_simple_node(xmlj, "board", job.board)
src.xmlManager.add_simple_node(xmlj,
"commands", " ; ".join(job.commands))
src.xmlManager.add_simple_node(xmlj, "state", "Not today")
src.xmlManager.add_simple_node(xmlj, "user", job.machine.user)
src.xmlManager.add_simple_node(xmlj, "sat_path",
job.machine.sat_path)
-
+ xml_history = src.xmlManager.add_simple_node(xmlj, "history")
+ for i, (date, res_job, link) in enumerate(self.history[job.name]):
+ if i==0:
+ # tag the first one (the last one)
+ src.xmlManager.add_simple_node(xml_history,
+ "link",
+ text=link,
+ attrib={"date" : date,
+ "res" : res_job,
+ "last" : "yes"})
+ else:
+ src.xmlManager.add_simple_node(xml_history,
+ "link",
+ text=link,
+ attrib={"date" : date,
+ "res" : res_job,
+ "last" : "no"})
+
+ def parse_csv_boards(self, today):
+ """ Parse the csv file that describes the boards to produce and fill
+ the dict d_input_boards that contain the csv file contain
+
+ :param today int: the current day of the week
+ """
+ # open the csv file and read its content
+ l_read = []
+ with open(self.file_boards, 'r') as f:
+ reader = csv.reader(f,delimiter=CSV_DELIMITER)
+ for row in reader:
+ l_read.append(row)
+ # get the delimiter for the boards (empty line)
+ boards_delimiter = [''] * len(l_read[0])
+ # Make the list of boards, by splitting with the delimiter
+ l_boards = [list(y) for x, y in itertools.groupby(l_read,
+ lambda z: z == boards_delimiter) if not x]
+
+ # loop over the csv lists of lines and get the rows, columns and jobs
+ d_boards = {}
+ for input_board in l_boards:
+ # get board name
+ board_name = input_board[0][0]
+
+ # Get columns list
+ columns = input_board[0][1:]
+
+ rows = []
+ jobs = []
+ jobs_not_today = []
+ for line in input_board[1:]:
+ row = line[0]
+ rows.append(row)
+ for i, square in enumerate(line[1:]):
+ if square=='':
+ continue
+ days = square.split(DAYS_SEPARATOR)
+ days = [int(day) for day in days]
+ job = (row, columns[i])
+ if today in days:
+ jobs.append(job)
+ else:
+ jobs_not_today.append(job)
+
+ d_boards[board_name] = {"rows" : rows,
+ "columns" : columns,
+ "jobs" : jobs,
+ "jobs_not_today" : jobs_not_today}
+
+ self.d_input_boards = d_boards
+
def update_xml_files(self, l_jobs):
'''Write all the xml files with updated information about the jobs
:param l_jobs List: the list of jobs that run today
'''
- for xml_file in [self.xml_global_file] + self.d_xml_table_files.values():
+ for xml_file in [self.xml_global_file] + list(
+ self.d_xml_board_files.values()):
self.update_xml_file(l_jobs, xml_file)
# Write the file
src.xmlManager.add_simple_node(xmlj, "host", job.machine.host)
src.xmlManager.add_simple_node(xmlj, "port", str(job.machine.port))
src.xmlManager.add_simple_node(xmlj, "user", job.machine.user)
+ xml_history = src.xmlManager.add_simple_node(xmlj, "history")
+ for date, res_job, link in self.history[job.name]:
+ src.xmlManager.add_simple_node(xml_history,
+ "link",
+ text=link,
+ attrib={"date" : date,
+ "res" : res_job})
+
src.xmlManager.add_simple_node(xmlj, "sat_path",
job.machine.sat_path)
src.xmlManager.add_simple_node(xmlj, "application", job.application)
src.xmlManager.add_simple_node(xmlj, "distribution",
- job.distribution)
- src.xmlManager.add_simple_node(xmlj, "table", job.table)
+ job.machine.distribution)
+ src.xmlManager.add_simple_node(xmlj, "board", job.board)
src.xmlManager.add_simple_node(xmlj, "timeout", str(job.timeout))
src.xmlManager.add_simple_node(xmlj, "commands",
" ; ".join(job.commands))
src.xmlManager.add_simple_node(xmlj,
"remote_log_file_path",
"nothing")
+ # Search for the test log if there is any
+ l_test_log_files = self.find_test_log(job.remote_log_files)
+ xml_test = src.xmlManager.add_simple_node(xmlj,
+ "test_log_file_path")
+ for test_log_path, res_test, nb_fails in l_test_log_files:
+ test_path_node = src.xmlManager.add_simple_node(xml_test,
+ "path",
+ test_log_path)
+ test_path_node.attrib["res"] = res_test
+ test_path_node.attrib["nb_fails"] = nb_fails
xmlafter = src.xmlManager.add_simple_node(xmlj, "after", job.after)
# get the job father
for jb in l_jobs:
if jb.name == job.after:
job_father = jb
- if job_father is None:
- msg = _("The job %(father_name)s that is parent of "
- "%(son_name)s is not in the job list." %
- {"father_name" : job.after , "son_name" : job.name})
- raise src.SatException(msg)
- if len(job_father.remote_log_files) > 0:
+ if (job_father is not None and
+ len(job_father.remote_log_files) > 0):
link = job_father.remote_log_files[0]
else:
link = "nothing"
src.xmlManager.append_node_attrib(xmlafter, {"link" : link})
+ # Verify that the job is to be done today regarding the input csv
+ # files
+ if job.board and job.board in self.d_input_boards.keys():
+ found = False
+ for dist, appli in self.d_input_boards[job.board]["jobs"]:
+ if (job.machine.distribution == dist
+ and job.application == appli):
+ found = True
+ src.xmlManager.add_simple_node(xmlj,
+ "extra_job",
+ "no")
+ break
+ if not found:
+ src.xmlManager.add_simple_node(xmlj,
+ "extra_job",
+ "yes")
+
# Update the date
xml_node_infos = xml_file.xmlroot.find('infos')
datetime.datetime.now().strftime("%Y-%m-%d %H:%M:%S")})
+ def find_test_log(self, l_remote_log_files):
+ '''Find if there is a test log (board) in the remote log files and
+ the path to it. There can be several test command, so the result is
+ a list.
+
+ :param l_remote_log_files List: the list of all remote log files
+ :return: the list of (test log files path, res of the command)
+ :rtype: List
+ '''
+ res = []
+ for file_path in l_remote_log_files:
+ dirname = os.path.basename(os.path.dirname(file_path))
+ file_name = os.path.basename(file_path)
+ regex = src.logger.log_all_command_file_expression
+ oExpr = re.compile(regex)
+ if dirname == "TEST" and oExpr.search(file_name):
+ # find the res of the command
+ prod_node = etree.parse(file_path).getroot().find("product")
+ res_test = prod_node.attrib["global_res"]
+ # find the number of fails
+ testbase_node = prod_node.find("tests").find("testbase")
+ nb_fails = int(testbase_node.attrib["failed"])
+ # put the file path, the res of the test command and the number
+ # of fails in the output
+ res.append((file_path, res_test, nb_fails))
+
+ return res
def last_update(self, finish_status = "finished"):
'''update information about the jobs for the file xml_file
:param l_jobs List: the list of jobs that run today
:param xml_file xmlManager.XmlLogFile: the xml instance to update
'''
- for xml_file in [self.xml_global_file] + self.d_xml_table_files.values():
+ for xml_file in [self.xml_global_file] + list(self.d_xml_board_files.values()):
xml_node_infos = xml_file.xmlroot.find('infos')
src.xmlManager.append_node_attrib(xml_node_infos,
attrib={"JobsCommandStatus" : finish_status})
# Write the file
self.write_xml_files()
-
+
+ def write_xml_file(self, xml_file, stylesheet):
+ ''' Write one xml file and the same file with prefix
+ '''
+ xml_file.write_tree(stylesheet)
+ file_path = xml_file.logFile
+ file_dir = os.path.dirname(file_path)
+ file_name = os.path.basename(file_path)
+ file_name_with_prefix = self.prefix + "_" + file_name
+ xml_file.write_tree(stylesheet, os.path.join(file_dir,
+ file_name_with_prefix))
+
def write_xml_files(self):
''' Write the xml files
'''
- self.xml_global_file.write_tree(STYLESHEET_GLOBAL)
- for xml_file in self.d_xml_table_files.values():
- xml_file.write_tree(STYLESHEET_TABLE)
-
+ self.write_xml_file(self.xml_global_file, STYLESHEET_GLOBAL)
+ for xml_file in self.d_xml_board_files.values():
+ self.write_xml_file(xml_file, STYLESHEET_BOARD)
+
+def get_config_file_path(job_config_name, l_cfg_dir):
+ found = False
+ file_jobs_cfg = None
+ if os.path.exists(job_config_name) and job_config_name.endswith(".pyconf"):
+ found = True
+ file_jobs_cfg = job_config_name
+ else:
+ for cfg_dir in l_cfg_dir:
+ file_jobs_cfg = os.path.join(cfg_dir, job_config_name)
+ if not file_jobs_cfg.endswith('.pyconf'):
+ file_jobs_cfg += '.pyconf'
+
+ if not os.path.exists(file_jobs_cfg):
+ continue
+ else:
+ found = True
+ break
+ return found, file_jobs_cfg
+
##
# Describes the command
def description():
return _("The jobs command launches maintenances that are described"
- " in the dedicated jobs configuration file.")
+ " in the dedicated jobs configuration file.\n\nexample:\nsat "
+ "jobs --name my_jobs --publish")
##
# Runs the command.
(options, args) = parser.parse_args(args)
- jobs_cfg_files_dir = runner.cfg.SITE.jobs.config_path
-
- l_cfg_dir = [jobs_cfg_files_dir,
- os.path.join(runner.cfg.VARS.datadir, "jobs")]
-
- # Make sure the path to the jobs config files directory exists
- src.ensure_path_exists(jobs_cfg_files_dir)
+ l_cfg_dir = runner.cfg.PATHS.JOBPATH
# list option : display all the available config files
if options.list:
if not options.no_label:
logger.write("------ %s\n" %
src.printcolors.printcHeader(cfg_dir))
-
+ if not os.path.exists(cfg_dir):
+ continue
for f in sorted(os.listdir(cfg_dir)):
if not f.endswith('.pyconf'):
continue
src.printcolors.printcError(message)
return 1
- # Find the file in the directories
- found = False
- for cfg_dir in l_cfg_dir:
- file_jobs_cfg = os.path.join(cfg_dir, options.jobs_cfg)
- if not file_jobs_cfg.endswith('.pyconf'):
- file_jobs_cfg += '.pyconf'
-
- if not os.path.exists(file_jobs_cfg):
- continue
- else:
- found = True
- break
-
- if not found:
- msg = _("The file configuration %(name_file)s was not found."
- "\nUse the --list option to get the possible files.")
- src.printcolors.printcError(msg)
- return 1
+ # Find the file in the directories, unless it is a full path
+ # merge all in a config
+ merger = src.pyconf.ConfigMerger()
+ config_jobs = src.pyconf.Config()
+ l_conf_files_path = []
+ for config_file in options.jobs_cfg:
+ found, file_jobs_cfg = get_config_file_path(config_file, l_cfg_dir)
+ if not found:
+ msg = _("The file configuration %s was not found."
+ "\nUse the --list option to get the "
+ "possible files." % config_file)
+ logger.write("%s\n" % src.printcolors.printcError(msg), 1)
+ return 1
+ l_conf_files_path.append(file_jobs_cfg)
+ # Read the config that is in the file
+ one_config_jobs = src.read_config_from_a_file(file_jobs_cfg)
+ merger.merge(config_jobs, one_config_jobs)
info = [
(_("Platform"), runner.cfg.VARS.dist),
- (_("File containing the jobs configuration"), file_jobs_cfg)
+ (_("Files containing the jobs configuration"), l_conf_files_path)
]
src.print_info(logger, info)
-
- # Read the config that is in the file
- config_jobs = src.read_config_from_a_file(file_jobs_cfg)
+
if options.only_jobs:
l_jb = src.pyconf.Sequence()
for jb in config_jobs.jobs:
if jb.name in options.only_jobs:
l_jb.append(jb,
- "Adding a job that was given in only_jobs option parameters")
+ "Job that was given in only_jobs option parameters\n")
config_jobs.jobs = l_jb
-
+
+ # Make a unique file that contain all the jobs in order to use it
+ # on every machine
+ name_pyconf = "_".join([os.path.basename(path)[:-len('.pyconf')]
+ for path in l_conf_files_path]) + ".pyconf"
+ path_pyconf = src.get_tmp_filename(runner.cfg, name_pyconf)
+ #Save config
+ f = file( path_pyconf , 'w')
+ config_jobs.__save__(f)
+
+ # log the paramiko problems
+ paramiko_log_dir_path = os.path.join(runner.cfg.USER.log_dir, "JOBS")
+ src.ensure_path_exists(paramiko_log_dir_path)
+ paramiko.util.log_to_file(os.path.join(paramiko_log_dir_path,
+ logger.txtFileName))
+
# Initialization
today_jobs = Jobs(runner,
logger,
- options.jobs_cfg,
- file_jobs_cfg,
+ path_pyconf,
config_jobs)
# SSH connection to all machines
today_jobs.ssh_connection_all_machines()
gui = None
if options.publish:
- gui = Gui("/export/home/serioja/LOGS",
+ logger.write(src.printcolors.printcInfo(
+ _("Initialize the xml boards : ")), 5)
+ logger.flush()
+
+ # Copy the stylesheets in the log directory
+ log_dir = runner.cfg.USER.log_dir
+ xsl_dir = os.path.join(runner.cfg.VARS.srcDir, 'xsl')
+ files_to_copy = []
+ files_to_copy.append(os.path.join(xsl_dir, STYLESHEET_GLOBAL))
+ files_to_copy.append(os.path.join(xsl_dir, STYLESHEET_BOARD))
+ files_to_copy.append(os.path.join(xsl_dir, "running.gif"))
+ for file_path in files_to_copy:
+ shutil.copy2(file_path, log_dir)
+
+ # Instanciate the Gui in order to produce the xml files that contain all
+ # the boards
+ gui = Gui(runner.cfg.USER.log_dir,
today_jobs.ljobs,
- today_jobs.ljobs_not_today,)
-
+ today_jobs.ljobs_not_today,
+ runner.cfg.VARS.datehour,
+ logger,
+ file_boards = options.input_boards)
+
+ logger.write(src.printcolors.printcSuccess("OK"), 5)
+ logger.write("\n\n", 5)
+ logger.flush()
+
+ # Display the list of the xml files
+ logger.write(src.printcolors.printcInfo(("Here is the list of published"
+ " files :\n")), 4)
+ logger.write("%s\n" % gui.xml_global_file.logFile, 4)
+ for board in gui.d_xml_board_files.keys():
+ file_path = gui.d_xml_board_files[board].logFile
+ file_name = os.path.basename(file_path)
+ logger.write("%s\n" % file_path, 4)
+ logger.add_link(file_name, "board", 0, board)
+
+ logger.write("\n", 4)
+
today_jobs.gui = gui
interruped = False
interruped = True
logger.write("\n\n%s\n\n" %
(src.printcolors.printcWarning(_("Forced interruption"))), 1)
+ except Exception as e:
+ msg = _("CRITICAL ERROR: The jobs loop has been interrupted\n")
+ logger.write("\n\n%s\n" % src.printcolors.printcError(msg) )
+ logger.write("%s\n" % str(e))
+ # get stack
+ __, __, exc_traceback = sys.exc_info()
+ fp = tempfile.TemporaryFile()
+ traceback.print_tb(exc_traceback, file=fp)
+ fp.seek(0)
+ stack = fp.read()
+ logger.write("\nTRACEBACK: %s\n" % stack.replace('"',"'"), 1)
finally:
+ res = 0
+ if interruped:
+ res = 1
+ msg = _("Killing the running jobs and trying"
+ " to get the corresponding logs\n")
+ logger.write(src.printcolors.printcWarning(msg))
+
# find the potential not finished jobs and kill them
for jb in today_jobs.ljobs:
if not jb.has_finished():
- jb.kill_remote_process()
+ res = 1
+ try:
+ jb.kill_remote_process()
+ except Exception as e:
+ msg = _("Failed to kill job %s: %s\n" % (jb.name, e))
+ logger.write(src.printcolors.printcWarning(msg))
+ if jb.res_job != "0":
+ res = 1
if interruped:
- today_jobs.gui.last_update(_("Forced interruption"))
+ if today_jobs.gui:
+ today_jobs.gui.last_update(_("Forced interruption"))
else:
- today_jobs.gui.last_update()
+ if today_jobs.gui:
+ today_jobs.gui.last_update()
# Output the results
today_jobs.write_all_results()
+ # Remove the temporary pyconf file
+ if os.path.exists(path_pyconf):
+ os.remove(path_pyconf)
+ return res