from steps import *
from Exceptions import *
import notify_messages
+import BootServerRequest
# all output is written to this file
LOG_FILE= "/tmp/bm.log"
-CURL_PATH= "curl"
-UPLOAD_LOG_URL = "http://boot.planet-lab.org/alpina-logs/upload.php"
+UPLOAD_LOG_PATH = "/alpina-logs/upload.php"
# the new contents of PATH when the boot manager is running
BIN_PATH= ('/usr/local/bin',
"""
if self.OutputFile is not None:
- self.LogEntry( "Uploading logs to %s" % UPLOAD_LOG_URL )
+ self.LogEntry( "Uploading logs to %s" % UPLOAD_LOG_PATH )
self.OutputFile.close()
self.OutputFile= None
-
- curl_cmd= "%s -s --connect-timeout 60 --max-time 600 " \
- "--form log=@%s %s" % \
- (CURL_PATH, self.OutputFilePath, UPLOAD_LOG_URL)
- os.system( curl_cmd )
+
+ bs_request = BootServerRequest.BootServerRequest()
+ bs_request.MakeRequest(PartialPath = UPLOAD_LOG_PATH,
+ GetVars = None, PostVars = None,
+ FormData = ["log=@" + self.OutputFilePath],
+ DoSSL = True, DoCertCheck = True)
os.environ['PATH']= string.join(BIN_PATH,":")
self.CAN_RUN= 1
-
-
-
def ReadBMConf(self):
"""
return 1
-
def Run(self):
"""
core boot manager logic.
For exact return values and expected operations, see the comments
at the top of each of the invididual step functions.
"""
-
+
+ def _nodeNotInstalled():
+ # called by the _xxxState() functions below upon failure
+ self.VARS['BOOT_STATE']= 'dbg'
+ self.VARS['STATE_CHANGE_NOTIFY']= 1
+ self.VARS['STATE_CHANGE_NOTIFY_MESSAGE']= \
+ notify_messages.MSG_NODE_NOT_INSTALLED
+ UpdateBootStateWithPLC.Run( self.VARS, self.LOG )
+
+ def _rinsRun():
+ # implements the reinstall logic, which will check whether
+ # the min. hardware requirements are met, install the
+ # software, and upon correct installation will switch too
+ # 'boot' state and chainboot into the production system
+ if not CheckHardwareRequirements.Run( self.VARS, self.LOG ):
+ self.VARS['BOOT_STATE']= 'dbg'
+ UpdateBootStateWithPLC.Run( self.VARS, self.LOG )
+ raise BootManagerException, "Hardware requirements not met."
+
+ self.RunInstaller()
+
+ if ValidateNodeInstall.Run( self.VARS, self.LOG ):
+ SendHardwareConfigToPLC.Run( self.VARS, self.LOG )
+ ChainBootNode.Run( self.VARS, self.LOG )
+ else:
+ _nodeNotInstalled()
+
+ def _newRun():
+ # implements the new install logic, which will first check
+ # with the user whether it is ok to install on this
+ # machine, switch to 'rins' state and then invoke the rins
+ # logic. See rinsState logic comments for further
+ # details.
+ if not ConfirmInstallWithUser.Run( self.VARS, self.LOG ):
+ return 0
+ self.VARS['BOOT_STATE']= 'rins'
+ UpdateBootStateWithPLC.Run( self.VARS, self.LOG )
+ _rinsRun()
+
+ def _bootRun():
+ # implements the boot logic, which consists of first
+ # double checking that the node was properly installed,
+ # checking whether someone added or changed disks, and
+ # then finally chain boots.
+
+ if ValidateNodeInstall.Run( self.VARS, self.LOG ):
+ UpdateNodeConfiguration.Run( self.VARS, self.LOG )
+ CheckForNewDisks.Run( self.VARS, self.LOG )
+ SendHardwareConfigToPLC.Run( self.VARS, self.LOG )
+ ChainBootNode.Run( self.VARS, self.LOG )
+ else:
+ _nodeNotInstalled()
+
+
+ def _debugRun():
+ # implements debug logic, which just starts the sshd
+ # and just waits around
+ StartDebug.Run( self.VARS, self.LOG )
+
+ def _badRun():
+ # should never happen; log event
+ self.LOG.write( "\nInvalid BOOT_STATE = %s\n" % self.VARS['BOOT_STATE'])
+ self.VARS['BOOT_STATE']= 'dbg'
+ UpdateBootStateWithPLC.Run( self.VARS, self.LOG )
+ StartDebug.Run( self.VARS, self.LOG )
+
+ # setup state -> function hash table
+ states = {'new':_newRun,
+ 'inst':_newRun,
+ 'rins':_rinsRun,
+ 'boot':_bootRun,
+ 'dbg':_debugRun}
try:
InitializeBootManager.Run( self.VARS, self.LOG )
ReadNodeConfiguration.Run( self.VARS, self.LOG )
AuthenticateWithPLC.Run( self.VARS, self.LOG )
GetAndUpdateNodeDetails.Run( self.VARS, self.LOG )
-
- if self.VARS['BOOT_STATE'] == 'new' or \
- self.VARS['BOOT_STATE'] == 'inst':
- if not ConfirmInstallWithUser.Run( self.VARS, self.LOG ):
- return 0
-
- self.VARS['BOOT_STATE']= 'rins'
- UpdateBootStateWithPLC.Run( self.VARS, self.LOG )
-
- if not CheckHardwareRequirements.Run( self.VARS, self.LOG ):
- self.VARS['BOOT_STATE']= 'dbg'
- UpdateBootStateWithPLC.Run( self.VARS, self.LOG )
- raise BootManagerException, "Hardware requirements not met."
-
- self.RunInstaller()
-
- if ValidateNodeInstall.Run( self.VARS, self.LOG ):
- SendHardwareConfigToPLC.Run( self.VARS, self.LOG )
- ChainBootNode.Run( self.VARS, self.LOG )
- else:
- self.VARS['BOOT_STATE']= 'dbg'
- self.VARS['STATE_CHANGE_NOTIFY']= 1
- self.VARS['STATE_CHANGE_NOTIFY_MESSAGE']= \
- notify_messages.MSG_NODE_NOT_INSTALLED
- UpdateBootStateWithPLC.Run( self.VARS, self.LOG )
-
-
- elif self.VARS['BOOT_STATE'] == 'rins':
- if not CheckHardwareRequirements.Run( self.VARS, self.LOG ):
- self.VARS['BOOT_STATE']= 'dbg'
- UpdateBootStateWithPLC.Run( self.VARS, self.LOG )
- raise BootManagerException, "Hardware requirements not met."
-
- self.RunInstaller()
-
- if ValidateNodeInstall.Run( self.VARS, self.LOG ):
- SendHardwareConfigToPLC.Run( self.VARS, self.LOG )
- ChainBootNode.Run( self.VARS, self.LOG )
- else:
- self.VARS['BOOT_STATE']= 'dbg'
- self.VARS['STATE_CHANGE_NOTIFY']= 1
- self.VARS['STATE_CHANGE_NOTIFY_MESSAGE']= \
- notify_messages.MSG_NODE_NOT_INSTALLED
- UpdateBootStateWithPLC.Run( self.VARS, self.LOG )
-
- elif self.VARS['BOOT_STATE'] == 'boot':
- if ValidateNodeInstall.Run( self.VARS, self.LOG ):
- UpdateNodeConfiguration.Run( self.VARS, self.LOG )
- CheckForNewDisks.Run( self.VARS, self.LOG )
- SendHardwareConfigToPLC.Run( self.VARS, self.LOG )
- ChainBootNode.Run( self.VARS, self.LOG )
- else:
- self.VARS['BOOT_STATE']= 'dbg'
- self.VARS['STATE_CHANGE_NOTIFY']= 1
- self.VARS['STATE_CHANGE_NOTIFY_MESSAGE']= \
- notify_messages.MSG_NODE_NOT_INSTALLED
- UpdateBootStateWithPLC.Run( self.VARS, self.LOG )
-
- elif self.VARS['BOOT_STATE'] == 'dbg':
- StartDebug.Run( self.VARS, self.LOG )
+
+ stateRun = states.get(self.VARS['BOOT_STATE'],_badRun)
+ stateRun()
except KeyError, e:
self.LOG.write( "\n\nKeyError while running: %s\n" % str(e) )
InstallInit.Run( self.VARS, self.LOG )
InstallPartitionDisks.Run( self.VARS, self.LOG )
InstallBootstrapRPM.Run( self.VARS, self.LOG )
- InstallBase.Run( self.VARS, self.LOG )
InstallWriteConfig.Run( self.VARS, self.LOG )
InstallBuildVServer.Run( self.VARS, self.LOG )
InstallNodeInit.Run( self.VARS, self.LOG )