from nepi.execution.attribute import Attribute, Flags, Types
from nepi.execution.trace import Trace, TraceAttr
-from nepi.execution.resource import ResourceManager, clsinit, ResourceState, \
- reschedule_delay
+from nepi.execution.resource import ResourceManager, clsinit_copy, \
+ ResourceState, reschedule_delay, failtrap
from nepi.resources.linux.node import LinuxNode
from nepi.util.sshfuncs import ProcStatus
from nepi.util.timefuncs import tnow, tdiffsec
# TODO: Resolve wildcards in commands!!
# TODO: When a failure occurs during deployment, scp and ssh processes are left running behind!!
-@clsinit
+@clsinit_copy
class LinuxApplication(ResourceManager):
"""
.. class:: Class Args :
"""
_rtype = "LinuxApplication"
+ _help = "Runs an application on a Linux host with a BASH command "
+ _backend_type = "linux"
@classmethod
def _register_attributes(cls):
out = int(out.strip())
return out
-
+
+ @failtrap
def provision(self):
# create run dir for application
self.node.mkdir(self.run_home)
# Since provisioning takes a long time, before
# each step we check that the EC is still
for step in steps:
- if self.ec.finished:
- raise RuntimeError, "EC finished"
+ if self.ec.abort:
+ self.debug("Interrupting provisioning. EC says 'ABORT")
+ return
ret = step()
if ret:
# replace application specific paths in the command
return self.replace_paths(install)
+ @failtrap
def deploy(self):
# Wait until node is associated and deployed
node = self.node
self.debug("---- RESCHEDULING DEPLOY ---- node state %s " % self.node.state )
self.ec.schedule(reschedule_delay, self.deploy)
else:
- try:
- command = self.get("command") or ""
- self.info("Deploying command '%s' " % command)
- self.discover()
- self.provision()
- except:
- self.fail()
- raise
+ command = self.get("command") or ""
+ self.info("Deploying command '%s' " % command)
+ self.discover()
+ self.provision()
super(LinuxApplication, self).deploy()
-
+
+ @failtrap
def start(self):
command = self.get("command")
# installation), then the application is directly marked as FINISHED
self.set_finished()
else:
-
if self.in_foreground:
self._run_in_foreground()
else:
command = self.get("command")
sudo = self.get("sudo") or False
x11 = self.get("forwardX11")
+ env = self.get("env")
# For a command being executed in foreground, if there is stdin,
# it is expected to be text string not a file or pipe
# to be able to kill the process from the stop method.
# We also set blocking = False, since we don't want the
# thread to block until the execution finishes.
- (out, err), self._proc = self.execute_command(self, command,
+ (out, err), self._proc = self.execute_command(command,
env = env,
sudo = sudo,
stdin = stdin,
blocking = False)
if self._proc.poll():
- self.fail()
self.error(msg, out, err)
raise RuntimeError, msg
msg = " Failed to start command '%s' " % command
if proc.poll():
- self.fail()
self.error(msg, out, err)
raise RuntimeError, msg
# Out is what was written in the stderr file
if err:
- self.fail()
msg = " Failed to start command '%s' " % command
self.error(msg, out, err)
raise RuntimeError, msg
-
+
+ @failtrap
def stop(self):
""" Stops application execution
"""
if proc.poll() or err:
msg = " Failed to STOP command '%s' " % self.get("command")
self.error(msg, out, err)
- self.fail()
- if self.state == ResourceState.STARTED:
super(LinuxApplication, self).stop()
def release(self):
self.info("Releasing resource")
- tear_down = self.get("tearDown")
- if tear_down:
- self.node.execute(tear_down)
+ try:
+ tear_down = self.get("tearDown")
+ if tear_down:
+ self.node.execute(tear_down)
- self.stop()
+ self.stop()
+ except:
+ import traceback
+ err = traceback.format_exc()
+ self.error(err)
- if self.state != ResourceState.FAILED:
- self.info("Resource released")
-
- super(LinuxApplication, self).release()
-
+ super(LinuxApplication, self).release()
+
@property
def state(self):
""" Returns the state of the application