! Scheduler period activity was suppressed ("TimeHH:MMStart" in lItem and "TimeHH:MMStop")

- WEB Connect defs
- def WebURLConnectDef(inGSettings, inMethodStr, inURLStr, inMatchTypeStr, inDef, inContentTypeStr="application/octet-stream"): # Connect URL to DEF
- def WebURLConnectFolder(inGSettings, inMethodStr, inURLStr, inMatchTypeStr, inFolderPathStr): # Connect URL to Folder
- def WebURLConnectFile(inGSettings, inMethodStr, inURLStr, inMatchTypeStr, inFilePathStr, inContentTypeStr="application/octet-stream"): # Connect URL to File

- def RDPTemplateCreate(inLoginStr, inPasswordStr, inHostStr="127.0.0.1", inPortInt = 3389, inWidthPXInt = 1680,  inHeightPXInt = 1050, inUseBothMonitorBool = False, inDepthBitInt = 32, inSharedDriveList=["c"]): # Create some RDP template dict to use it when connect/reconnect
- Update def RDPSessionConnect(inGSettings, inRDPSessionKeyStr, inRDPTemplateDict=None, inHostStr=None, inPortStr=None, inLoginStr=None, inPasswordStr=None): # Create new RDPSession in RobotRDPActive. Attention - activity will be ignored if key is exists
- Update def RDPSessionReconnect(inGSettings, inRDPSessionKeyStr, inRDPTemplateDict=None): # RDP Session reconnect
dev-linux
Ivan Maslov 4 years ago
parent f1f706bca1
commit 09ba3c0e86

@ -398,9 +398,17 @@ def Update(inGSettings):
if "ActivityTimeCheckLoopSeconds" in inGSettings["Scheduler"]:
inGSettings["SchedulerDict"]["CheckIntervalSecFloat"] = inGSettings["Scheduler"]["ActivityTimeCheckLoopSeconds"]
for lItemDict in inGSettings["Scheduler"]["ActivityTimeList"]:
# Append to the new struct if this is not periodic ("TimeHH:MMStart"and "TimeHH:MMStop")
if "TimeHH:MMStart" not in lItemDict and "TimeHH:MMStop" not in lItemDict:
lItemDict["ActivityList"]=[v1_2_0_ProcessorOld2NewActivityDict(inActivityOld=lItemDict["Activity"])]
del lItemDict["Activity"]
inGSettings["SchedulerDict"]["ActivityTimeList"].append(lItemDict)
# Remove old structure Scheduler
del inGSettings["Scheduler"]
if lL: lL.warning(f"Backward compatibility (v1.1.20 to v1.2.0): Convert Scheduler to SchedulerDict with new features") # Log about compatibility
# Check if Server is active > convert to ServerDict
if "Server" in inGSettings:
inGSettings["ServerDict"]=inGSettings["Server"]
# Remove old structure Scheduler
del inGSettings["Server"]
if lL: lL.warning(f"Backward compatibility (v1.1.20 to v1.2.0): Convert Server to ServerDict") # Log about compatibility

@ -170,8 +170,8 @@ def UACKeyListCheck(inRequest, inRoleKeyList):
# Update user access
def UACUpdate(inGSettings, inADLoginStr, inADStr="", inADIsDefaultBool=True, inURLList=[], inCPAllowKeyList=[], inRoleHierarchyAllowedDict={}):
lUserTurple = (inADStr.upper(),inADLoginStr.upper()) # Create turple key for inGSettings["Server"]["AccessUsers"]["RuleDomainUserDict"]
if inURLList==[] and lUserTurple not in inGSettings["Server"]["AccessUsers"]["RuleDomainUserDict"]: # Backward compatibility if user is not exist
lUserTurple = (inADStr.upper(),inADLoginStr.upper()) # Create turple key for inGSettings["ServerDict"]["AccessUsers"]["RuleDomainUserDict"]
if inURLList==[] and lUserTurple not in inGSettings["ServerDict"]["AccessUsers"]["RuleDomainUserDict"]: # Backward compatibility if user is not exist
inURLList=[
{
"Method": "GET",
@ -189,8 +189,8 @@ def UACUpdate(inGSettings, inADLoginStr, inADStr="", inADIsDefaultBool=True, inU
}
]
# Check RoleHierarchyAllowedDict in gSettings for the old role hierarchy - include in result.
if lUserTurple in inGSettings["Server"]["AccessUsers"]["RuleDomainUserDict"] and "RoleHierarchyAllowedDict" in inGSettings["Server"]["AccessUsers"]["RuleDomainUserDict"][lUserTurple]:
lRoleHierarchyAllowedOLDDict = inGSettings["Server"]["AccessUsers"]["RuleDomainUserDict"][lUserTurple]["RoleHierarchyAllowedDict"]
if lUserTurple in inGSettings["ServerDict"]["AccessUsers"]["RuleDomainUserDict"] and "RoleHierarchyAllowedDict" in inGSettings["ServerDict"]["AccessUsers"]["RuleDomainUserDict"][lUserTurple]:
lRoleHierarchyAllowedOLDDict = inGSettings["ServerDict"]["AccessUsers"]["RuleDomainUserDict"][lUserTurple]["RoleHierarchyAllowedDict"]
Server.__ComplexDictMerge2to1__(in1Dict=inRoleHierarchyAllowedDict, in2Dict=lRoleHierarchyAllowedOLDDict) # Merge dict 2 into dict 1
# Create Access item
@ -199,16 +199,16 @@ def UACUpdate(inGSettings, inADLoginStr, inADStr="", inADIsDefaultBool=True, inU
"RoleHierarchyAllowedDict": inRoleHierarchyAllowedDict
}
# Case add domain + user
inGSettings["Server"]["AccessUsers"]["RuleDomainUserDict"].update({(inADStr.upper(),inADLoginStr.upper()):lRuleDomainUserDict})
inGSettings["ServerDict"]["AccessUsers"]["RuleDomainUserDict"].update({(inADStr.upper(),inADLoginStr.upper()):lRuleDomainUserDict})
if inADIsDefaultBool:
# Case add default domain + user
inGSettings["Server"]["AccessUsers"]["RuleDomainUserDict"].update({("",inADLoginStr.upper()):lRuleDomainUserDict})
inGSettings["ServerDict"]["AccessUsers"]["RuleDomainUserDict"].update({("",inADLoginStr.upper()):lRuleDomainUserDict})
# Add supertoken for the all access (it is need for the robot communication without human)
def UACSuperTokenUpdate(inGSettings, inSuperTokenStr):
lLoginStr = "SUPERTOKEN"
UACUpdate(inGSettings=inGSettings, inADLoginStr=lLoginStr)
inGSettings["Server"]["AccessUsers"]["AuthTokensDict"].update(
inGSettings["ServerDict"]["AccessUsers"]["AuthTokensDict"].update(
{inSuperTokenStr:{"User":lLoginStr, "Domain":"", "TokenDatetime": datetime.datetime.now(), "FlagDoNotExpire":True}}
)
@ -216,6 +216,63 @@ def UACSuperTokenUpdate(inGSettings, inSuperTokenStr):
# OrchestratorWeb defs
# # # # # # # # # # # # # # # # # # # # # # #
# Connect URL to DEF
# "inMethodStr":"GET|POST",
# "inURLStr": "/index", #URL of the request
# "inMatchTypeStr": "", #"BeginWith|Contains|Equal|EqualCase",
# "inContentTypeStr": "", #HTTP Content-type
# "inDef": None #Function with str result
def WebURLConnectDef(inGSettings, inMethodStr, inURLStr, inMatchTypeStr, inDef, inContentTypeStr="application/octet-stream"):
lURLItemDict = {
"Method": inMethodStr.upper(),
"URL": inURLStr, # URL of the request
"MatchType": inMatchTypeStr, # "BeginWith|Contains|Equal|EqualCase",
# "ResponseFilePath": "", #Absolute or relative path
#"ResponseFolderPath": "C:\Abs\Archive\scopeSrcUL\OpenRPA\Orchestrator\Settings",
# Absolute or relative path
"ResponseContentType": inContentTypeStr, #HTTP Content-type
"ResponseDefRequestGlobal": inDef #Function with str result
}
inGSettings["ServerDict"]["URLList"].append(lURLItemDict)
# Connect URL to Folder
# "inMethodStr":"GET|POST",
# "inURLStr": "/Folder/", #URL of the request
# "inMatchTypeStr": "", #"BeginWith|Contains|Equal|EqualCase",
# "inFolderPathStr": "", #Absolute or relative path
def WebURLConnectFolder(inGSettings, inMethodStr, inURLStr, inMatchTypeStr, inFolderPathStr):
# Check if last symbol is "/" - append if not exist
lFolderPathStr = os.path.abspath(inFolderPathStr)
if lFolderPathStr[-1]!="/":lFolderPathStr+="/"
# Prepare URLItem
lURLItemDict = {
"Method": inMethodStr.upper(),
"URL": inURLStr, # URL of the request
"MatchType": inMatchTypeStr, # "BeginWith|Contains|Equal|EqualCase",
# "ResponseFilePath": "", #Absolute or relative path
"ResponseFolderPath": lFolderPathStr, # Absolute or relative path
"ResponseContentType": "application/octet-stream", #HTTP Content-type
#"ResponseDefRequestGlobal": inDef #Function with str result
}
inGSettings["ServerDict"]["URLList"].append(lURLItemDict)
# Connect URL to File
# "inMethodStr":"GET|POST",
# "inURLStr": "/index", #URL of the request
# "inMatchTypeStr": "", #"BeginWith|Contains|Equal|EqualCase",
# "inFolderPathStr": "", #Absolute or relative path
def WebURLConnectFile(inGSettings, inMethodStr, inURLStr, inMatchTypeStr, inFilePathStr, inContentTypeStr="application/octet-stream"):
lURLItemDict = {
"Method": inMethodStr.upper(),
"URL": inURLStr, # URL of the request
"MatchType": inMatchTypeStr, # "BeginWith|Contains|Equal|EqualCase",
"ResponseFilePath": os.path.abspath(inFilePathStr), #Absolute or relative path
#"ResponseFolderPath": os.path.abspath(inFilePathStr), # Absolute or relative path
"ResponseContentType": inContentTypeStr, #HTTP Content-type
#"ResponseDefRequestGlobal": inDef #Function with str result
}
inGSettings["ServerDict"]["URLList"].append(lURLItemDict)
# Add control panel HTML, JSON generator or JS when page init
def WebCPUpdate(inGSettings, inCPKeyStr, inHTMLRenderDef=None, inJSONGeneratorDef=None, inJSInitGeneratorDef=None):
# Create Struct if the re is current key
@ -409,45 +466,71 @@ def SchedulerActivityTimeAddWeekly(inGSettings, inTimeHHMMStr="23:55:", inWeekda
# RDPSession
# # # # # # # # # # # # # # # # # # # # # # #
# Create new RDPSession in RobotRDPActive
def RDPSessionConnect(inGSettings, inRDPSessionKeyStr, inHostStr, inPortStr, inLoginStr, inPasswordStr):
# Create some RDP template dict to use it when connect/reconnect
def RDPTemplateCreate(inLoginStr, inPasswordStr, inHostStr="127.0.0.1", inPortInt = 3389, inWidthPXInt = 1680, inHeightPXInt = 1050,
inUseBothMonitorBool = False, inDepthBitInt = 32, inSharedDriveList=["c"]):
lRDPTemplateDict= { # Init the configuration item
"Host": inHostStr, # Host address, example "77.77.22.22"
"Port": str(inPortInt), # RDP Port, example "3389"
"Login": inLoginStr, # Login, example "test"
"Password": inPasswordStr, # Password, example "test"
"Screen": {
"Width": inWidthPXInt, # Width of the remote desktop in pixels, example 1680
"Height": inHeightPXInt, # Height of the remote desktop in pixels, example 1050
# "640x480" or "1680x1050" or "FullScreen". If Resolution not exists set full screen, example
"FlagUseAllMonitors": inUseBothMonitorBool, # True or False, example False
"DepthBit": str(inDepthBitInt) # "32" or "24" or "16" or "15", example "32"
},
"SharedDriveList": inSharedDriveList, # List of the Root sesion hard drives, example ["c"]
###### Will updated in program ############
"SessionHex": "77777sdfsdf77777dsfdfsf77777777", # Hex is created when robot runs, example ""
"SessionIsWindowExistBool": False,
# Flag if the RDP window is exist, old name "FlagSessionIsActive". Check every n seconds , example False
"SessionIsWindowResponsibleBool": False,
# Flag if RDP window is responsible (recieve commands). Check every nn seconds. If window is Responsible - window is Exist too , example False
"SessionIsIgnoredBool": False # Flag to ignore RDP window False - dont ignore, True - ignore, example False
}
return lRDPTemplateDict
# Search dublicates in GSettings RDPlist TODO!
# Return list if dublicates
def RDPSessionDublicatesResolve(inGSettings):
pass
#for lItemKeyStr in inGSettings["RobotRDPActive"]["RDPList"]:
# lItemDict = inGSettings["RobotRDPActive"]["RDPList"][lItemKeyStr]
# Create new RDPSession in RobotRDPActive. Attention - activity will be ignored if key is exists
# 2 way of the use
# Var 1: inGSettings, inRDPSessionKeyStr, inRDPTemplateDict
# Var 2 (Backward compatibility): inGSettings, inRDPSessionKeyStr, inHostStr, inPortStr, inLoginStr, inPasswordStr
def RDPSessionConnect(inGSettings, inRDPSessionKeyStr, inRDPTemplateDict=None, inHostStr=None, inPortStr=None, inLoginStr=None, inPasswordStr=None):
# Check thread
if not Core.IsProcessorThread(inGSettings=inGSettings):
if inGSettings["Logger"]: inGSettings["Logger"].warning(f"RDP def was called not from processor queue - activity will be append in the processor queue.")
lResult = {
"Def": RDPSessionConnect, # def link or def alias (look gSettings["Processor"]["AliasDefDict"])
"ArgList": [], # Args list
"ArgDict": {"inRDPSessionKeyStr": inRDPSessionKeyStr, "inHostStr": inHostStr, "inPortStr": inPortStr,
"inLoginStr": inLoginStr, "inPasswordStr": inPasswordStr, }, # Args dictionary
"ArgDict": {"inRDPSessionKeyStr": inRDPSessionKeyStr, "inRDPTemplateDict":inRDPTemplateDict, "inHostStr": inHostStr, "inPortStr": inPortStr,
"inLoginStr": inLoginStr, "inPasswordStr": inPasswordStr}, # Args dictionary
"ArgGSettings": "inGSettings", # Name of GSettings attribute: str (ArgDict) or index (for ArgList)
"ArgLogger": None # Name of GSettings attribute: str (ArgDict) or index (for ArgList)
}
inGSettings["ProcessorDict"]["ActivityList"].append(lResult)
else: # In processor - do execution
# ATTENTION - dont connect if RDP session is exist
# Var 1 - if RDPTemplateDict is input
lRDPConfigurationItem=inRDPTemplateDict
# Var 2 - backward compatibility
if lRDPConfigurationItem is None:
lRDPConfigurationItem = RDPTemplateCreate(inLoginStr=inLoginStr, inPasswordStr=inPasswordStr,
inHostStr=inHostStr, inPortInt = int(inPortStr)) # ATTENTION - dont connect if RDP session is exist
# Start the connect
if inRDPSessionKeyStr not in inGSettings["RobotRDPActive"]["RDPList"]:
lRDPConfigurationItem = { # Init the configuration item
"Host": inHostStr, # Host address, example "77.77.22.22"
"Port": inPortStr, # RDP Port, example "3389"
"Login": inLoginStr, # Login, example "test"
"Password": inPasswordStr, # Password, example "test"
"Screen": {
"Width": 1680, # Width of the remote desktop in pixels, example 1680
"Height": 1050, # Height of the remote desktop in pixels, example 1050
# "640x480" or "1680x1050" or "FullScreen". If Resolution not exists set full screen, example
"FlagUseAllMonitors": False, # True or False, example False
"DepthBit": "32" # "32" or "24" or "16" or "15", example "32"
},
"SharedDriveList": ["c"], # List of the Root sesion hard drives, example ["c"]
###### Will updated in program ############
"SessionHex": "77777sdfsdf77777dsfdfsf77777777", # Hex is created when robot runs, example ""
"SessionIsWindowExistBool": False, # Flag if the RDP window is exist, old name "FlagSessionIsActive". Check every n seconds , example False
"SessionIsWindowResponsibleBool": False, # Flag if RDP window is responsible (recieve commands). Check every nn seconds. If window is Responsible - window is Exist too , example False
"SessionIsIgnoredBool": False # Flag to ignore RDP window False - dont ignore, True - ignore, example False
}
inGSettings["RobotRDPActive"]["RDPList"][inRDPSessionKeyStr] = lRDPConfigurationItem # Add item in RDPList
Connector.Session(lRDPConfigurationItem) # Create the RDP session
Connector.SystemRDPWarningClickOk() # Click all warning messages
else:
if inGSettings["Logger"]: inGSettings["Logger"].warning(f"RDP session was not created because it is alredy exists in the RDPList. Use RDPSessionReconnect if you want to update RDP configuration.")
return True
# Disconnect the RDP session
@ -476,14 +559,14 @@ def RDPSessionDisconnect(inGSettings, inRDPSessionKeyStr, inBreakTriggerProcessW
return True
# RDP Session reconnect
def RDPSessionReconnect(inGSettings, inRDPSessionKeyStr):
def RDPSessionReconnect(inGSettings, inRDPSessionKeyStr, inRDPTemplateDict=None):
# Check thread
if not Core.IsProcessorThread(inGSettings=inGSettings):
if inGSettings["Logger"]: inGSettings["Logger"].warning(f"RDP def was called not from processor queue - activity will be append in the processor queue.")
lResult = {
"Def": RDPSessionReconnect, # def link or def alias (look gSettings["Processor"]["AliasDefDict"])
"ArgList": [], # Args list
"ArgDict": {"inRDPSessionKeyStr": inRDPSessionKeyStr }, # Args dictionary
"ArgDict": {"inRDPSessionKeyStr": inRDPSessionKeyStr, "inRDPTemplateDict":inRDPTemplateDict }, # Args dictionary
"ArgGSettings": "inGSettings", # Name of GSettings attribute: str (ArgDict) or index (for ArgList)
"ArgLogger": None # Name of GSettings attribute: str (ArgDict) or index (for ArgList)
}
@ -491,6 +574,8 @@ def RDPSessionReconnect(inGSettings, inRDPSessionKeyStr):
else:
lRDPConfigurationItem = inGSettings["RobotRDPActive"]["RDPList"][inRDPSessionKeyStr]
RDPSessionDisconnect(inRDPSessionKeyStr=inRDPSessionKeyStr) # Disconnect the RDP
# Replace Configuration item if inRDPTemplateDict exists
if inRDPTemplateDict is not None: lRDPConfigurationItem=inRDPTemplateDict
# Add item in RDPList
inGSettings["RobotRDPActive"]["RDPList"][inRDPSessionKeyStr] = lRDPConfigurationItem
# Create the RDP session
@ -748,7 +833,7 @@ def Orchestrator(inGSettings):
lDaemonLoopSeconds=gSettingsDict["SchedulerDict"]["CheckIntervalSecFloat"]
lDaemonActivityLogDict={} #Словарь отработанных активностей, ключ - кортеж (<activityType>, <datetime>, <processPath || processName>, <processArgs>)
lDaemonLastDateTime=datetime.datetime.now()
gSettingsDict["Server"]["WorkingDirectoryPathStr"] = os.getcwd() # Set working directory in g settings
gSettingsDict["ServerDict"]["WorkingDirectoryPathStr"] = os.getcwd() # Set working directory in g settings
# Init SettingsUpdate defs from file list (after RDP restore)
lSettingsUpdateFilePathList = gSettingsDict.get("OrchestratorStart", {}).get("DefSettingsUpdatePathList",[])
@ -858,25 +943,6 @@ def Orchestrator(inGSettings):
lThread = threading.Thread(target=Processor.ActivityListExecute, kwargs={"inGSettings": inGSettings, "inActivityList":lItem["ActivityList"]})
lThread.start()
lIterationLastDateTime = datetime.datetime.now() # Set the new datetime for the new processor activity
#######################################################################
#Branch 2 - if TimeHH:MMStart, TimeHH:MMStop, ActivityIntervalSeconds
#######################################################################
if "TimeHH:MMStart" in lItem and "TimeHH:MMStop" in lItem and "ActivityIntervalSeconds" in lItem:
#Сформировать временной штамп, относительно которого надо будет проверять время
#часовой пояс пока не учитываем
lActivityDateTime=datetime.datetime.strptime(lItem["TimeHH:MMStart"],"%H:%M")
lActivityDateTime=lActivityDateTime.replace(year=lCurrentDateTime.year,month=lCurrentDateTime.month,day=lCurrentDateTime.day)
lActivityTimeEndDateTime=datetime.datetime.strptime(lItem["TimeHH:MMStop"],"%H:%M")
lActivityTimeEndDateTime=lActivityTimeEndDateTime.replace(year=lCurrentDateTime.year,month=lCurrentDateTime.month,day=lCurrentDateTime.day)
#Убедиться в том, что время наступило
if (
lCurrentDateTime<lActivityTimeEndDateTime and
lCurrentDateTime>=lActivityDateTime and
(lGUID,lActivityDateTime) not in lDaemonActivityLogDict):
#Запись в массив отработанных активностей
lDaemonActivityLogDict[(lGUID,lActivityDateTime)]={"ActivityStartDateTime":lCurrentDateTime, "ActivityEndDateTime":lActivityTimeEndDateTime}
#Запуск циклической процедуры
Timer.activityLoopStart(lItem["ActivityIntervalSeconds"], lActivityTimeEndDateTime, lItem["Activity"])
except Exception as e:
if lL: lL.exception(f"Scheduler: Exception has been catched in Scheduler module when activity time item was initialising. ActivityTimeItem is {lItem}")
lDaemonLastDateTime = lIterationLastDateTime # Set the new datetime for the new processor activity

@ -58,10 +58,10 @@ def AuthenticateVerify(inRequest):
lCookieAuthToken = lCookies.get("AuthToken", "").value
if lCookieAuthToken:
#Find AuthToken in GlobalDict
if lCookieAuthToken in gSettingsDict.get("Server", {}).get("AccessUsers", {}).get("AuthTokensDict", {}):
if lCookieAuthToken in gSettingsDict.get("ServerDict", {}).get("AccessUsers", {}).get("AuthTokensDict", {}):
#Auth Token Has Been Founded
lResult["Domain"] = gSettingsDict["Server"]["AccessUsers"]["AuthTokensDict"][lCookieAuthToken]["Domain"]
lResult["User"] = gSettingsDict["Server"]["AccessUsers"]["AuthTokensDict"][lCookieAuthToken]["User"]
lResult["Domain"] = gSettingsDict["ServerDict"]["AccessUsers"]["AuthTokensDict"][lCookieAuthToken]["Domain"]
lResult["User"] = gSettingsDict["ServerDict"]["AccessUsers"]["AuthTokensDict"][lCookieAuthToken]["User"]
#Set auth token
inRequest.OpenRPA["AuthToken"] = lCookieAuthToken
inRequest.OpenRPA["Domain"] = lResult["Domain"]
@ -95,11 +95,11 @@ def AuthenticateVerify(inRequest):
lResult["User"] = lLogonResult["User"]
#Create token
lAuthToken=str(uuid.uuid1())
gSettingsDict["Server"]["AccessUsers"]["AuthTokensDict"][lAuthToken] = {}
gSettingsDict["Server"]["AccessUsers"]["AuthTokensDict"][lAuthToken]["Domain"] = lResult["Domain"]
gSettingsDict["Server"]["AccessUsers"]["AuthTokensDict"][lAuthToken]["User"] = lResult["User"]
gSettingsDict["Server"]["AccessUsers"]["AuthTokensDict"][lAuthToken]["FlagDoNotExpire"] = False
gSettingsDict["Server"]["AccessUsers"]["AuthTokensDict"][lAuthToken]["TokenDatetime"] = datetime.datetime.now()
gSettingsDict["ServerDict"]["AccessUsers"]["AuthTokensDict"][lAuthToken] = {}
gSettingsDict["ServerDict"]["AccessUsers"]["AuthTokensDict"][lAuthToken]["Domain"] = lResult["Domain"]
gSettingsDict["ServerDict"]["AccessUsers"]["AuthTokensDict"][lAuthToken]["User"] = lResult["User"]
gSettingsDict["ServerDict"]["AccessUsers"]["AuthTokensDict"][lAuthToken]["FlagDoNotExpire"] = False
gSettingsDict["ServerDict"]["AccessUsers"]["AuthTokensDict"][lAuthToken]["TokenDatetime"] = datetime.datetime.now()
#Set-cookie
inRequest.OpenRPA["AuthToken"] = lAuthToken
inRequest.OpenRPA["Domain"] = lResult["Domain"]
@ -140,13 +140,13 @@ def UserAccessCheckBefore(inMethod, inRequest):
#go next if user is identified
lUserDict = None
if lAuthToken:
lUserDict = gSettingsDict["Server"]["AccessUsers"]["AuthTokensDict"][lAuthToken]
lUserDict = gSettingsDict["ServerDict"]["AccessUsers"]["AuthTokensDict"][lAuthToken]
#pdb.set_trace()
########################################
########################################
#Check general before rule (without User domain)
#Check rules
for lAccessRuleItem in gSettingsDict.get("Server", {}).get("AccessUsers", {}).get("RuleMethodMatchURLBeforeList", []):
for lAccessRuleItem in gSettingsDict.get("ServerDict", {}).get("AccessUsers", {}).get("RuleMethodMatchURLBeforeList", []):
#Go next execution if flag is false
if not lResult:
#Check if Method is identical
@ -178,7 +178,7 @@ def UserAccessCheckBefore(inMethod, inRequest):
#Check access by User Domain
#Check rules to find first appicable
#Check rules
for lAccessRuleItem in gSettingsDict.get("Server", {}).get("AccessUsers", {}).get("RuleDomainUserDict", {}).get((lUserDict["Domain"].upper(), lUserDict["User"].upper()), {}).get("MethodMatchURLBeforeList", []):
for lAccessRuleItem in gSettingsDict.get("ServerDict", {}).get("AccessUsers", {}).get("RuleDomainUserDict", {}).get((lUserDict["Domain"].upper(), lUserDict["User"].upper()), {}).get("MethodMatchURLBeforeList", []):
#Go next execution if flag is false
if not lResult:
#Check if Method is identical
@ -237,7 +237,7 @@ class testHTTPServer_RequestHandler(BaseHTTPRequestHandler):
def UserRoleHierarchyGet(self):
lDomainUpperStr = self.OpenRPA["Domain"].upper()
lUserUpperStr = self.OpenRPA["User"].upper()
return gSettingsDict.get("Server", {}).get("AccessUsers", {}).get("RuleDomainUserDict", {}).get((lDomainUpperStr, lUserUpperStr), {}).get("RoleHierarchyAllowedDict", {})
return gSettingsDict.get("ServerDict", {}).get("AccessUsers", {}).get("RuleDomainUserDict", {}).get((lDomainUpperStr, lUserUpperStr), {}).get("RoleHierarchyAllowedDict", {})
#Tech def
#return {"headers":[],"body":"","statuscode":111}
@ -350,7 +350,7 @@ class testHTTPServer_RequestHandler(BaseHTTPRequestHandler):
#####################################
lFlagAccessUserBlock=False
lAuthenticateDict = {"Domain": "", "User": ""}
if gSettingsDict.get("Server", {}).get("AccessUsers", {}).get("FlagCredentialsAsk", False):
if gSettingsDict.get("ServerDict", {}).get("AccessUsers", {}).get("FlagCredentialsAsk", False):
lAuthenticateDict = AuthenticateVerify(self)
if not lAuthenticateDict["User"]:
lFlagAccessUserBlock=True
@ -364,7 +364,7 @@ class testHTTPServer_RequestHandler(BaseHTTPRequestHandler):
####################################
lFlagUserAccess = True
#If need user authentication
if gSettingsDict.get("Server", {}).get("AccessUsers", {}).get("FlagCredentialsAsk", False):
if gSettingsDict.get("ServerDict", {}).get("AccessUsers", {}).get("FlagCredentialsAsk", False):
lFlagUserAccess = UserAccessCheckBefore("GET", self)
######################################
if lFlagUserAccess:
@ -372,7 +372,7 @@ class testHTTPServer_RequestHandler(BaseHTTPRequestHandler):
############################
#New server engine (url from global dict (URLList))
############################
for lURLItem in gSettingsDict["Server"]["URLList"]:
for lURLItem in gSettingsDict["ServerDict"]["URLList"]:
#Check if all condition are applied
lFlagURLIsApplied=False
lFlagURLIsApplied=self.URLItemCheckDo(lURLItem, "GET")
@ -422,10 +422,10 @@ class testHTTPServer_RequestHandler(BaseHTTPRequestHandler):
lFlagAccessUserBlock=False
lAuthenticateDict = {"Domain": "", "User": ""}
lIsSuperToken = False # Is supertoken
if gSettingsDict.get("Server", {}).get("AccessUsers", {}).get("FlagCredentialsAsk", False):
if gSettingsDict.get("ServerDict", {}).get("AccessUsers", {}).get("FlagCredentialsAsk", False):
lAuthenticateDict = AuthenticateVerify(self)
# Get Flag is supertoken (True|False)
lIsSuperToken = gSettingsDict.get("Server", {}).get("AccessUsers", {}).get("AuthTokensDict", {}).get(
lIsSuperToken = gSettingsDict.get("ServerDict", {}).get("AccessUsers", {}).get("AuthTokensDict", {}).get(
self.OpenRPA["AuthToken"], {}).get("FlagDoNotExpire", False)
if not lAuthenticateDict["User"]:
lFlagAccessUserBlock=True
@ -437,7 +437,7 @@ class testHTTPServer_RequestHandler(BaseHTTPRequestHandler):
####################################
lFlagUserAccess = True
#If need user authentication
if gSettingsDict.get("Server", {}).get("AccessUsers", {}).get("FlagCredentialsAsk", False):
if gSettingsDict.get("ServerDict", {}).get("AccessUsers", {}).get("FlagCredentialsAsk", False):
lFlagUserAccess = UserAccessCheckBefore("POST", self)
######################################
if lFlagUserAccess:
@ -445,7 +445,7 @@ class testHTTPServer_RequestHandler(BaseHTTPRequestHandler):
############################
#New server engine (url from global dict (URLList))
############################
for lURLItem in gSettingsDict["Server"]["URLList"]:
for lURLItem in gSettingsDict["ServerDict"]["URLList"]:
#Check if all condition are applied
lFlagURLIsApplied=False
lFlagURLIsApplied=self.URLItemCheckDo(lURLItem, "POST")
@ -489,7 +489,7 @@ class ThreadedHTTPServer(ThreadingMixIn, HTTPServer):
daemon_threads = True
"""Handle requests in a separate thread."""
def finish_request(self, request, client_address):
request.settimeout(gSettingsDict["Server"]["RequestTimeoutSecFloat"])
request.settimeout(gSettingsDict["ServerDict"]["RequestTimeoutSecFloat"])
# "super" can not be used because BaseServer is not created from object
HTTPServer.finish_request(self, request, client_address)
#inGlobalDict
@ -502,7 +502,7 @@ class RobotDaemonServer(Thread):
ServerSettings.SettingsUpdate(inGlobalDict)
def run(self):
inServerAddress="";
inPort = gSettingsDict["Server"]["ListenPort"];
inPort = gSettingsDict["ServerDict"]["ListenPort"];
# Server settings
# Choose port 8080, for port 80, which is normally used for a http server, you need root access
server_address = (inServerAddress, inPort)

@ -386,5 +386,5 @@ def SettingsUpdate(inGlobalConfiguration):
{"Method": "POST", "URL": "/pyOpenRPA/Agent/O2A", "MatchType": "Equal","ResponseDefRequestGlobal": pyOpenRPA_Agent_O2A, "ResponseContentType": "application/json"},
{"Method": "POST", "URL": "/pyOpenRPA/Agent/A2O", "MatchType": "Equal","ResponseDefRequestGlobal": pyOpenRPA_Agent_A2O, "ResponseContentType": "application/json"},
]
inGlobalConfiguration["Server"]["URLList"]=inGlobalConfiguration["Server"]["URLList"]+lURLList
inGlobalConfiguration["ServerDict"]["URLList"]=inGlobalConfiguration["ServerDict"]["URLList"]+lURLList
return inGlobalConfiguration

@ -37,7 +37,7 @@ def __Create__():
"DumpLogListHashStr": None, # Will be filled automatically
# # # # # # # # # # # # # # # # # #
},
"Server": {
"ServerDict": {
"WorkingDirectoryPathStr": None, # Will be filled automatically
"RequestTimeoutSecFloat": 300, # Time to handle request in seconds
"ListenPort_": "Порт, по которому можно подключиться к демону",

@ -92,6 +92,17 @@
- Scheduler now listen SchedulerDict
- def ProcessorActivityItemAppend(inGSettings, inDef, inArgList=[], inArgDict={}, inArgGSettingsStr=None, inArgLoggerStr=None): # Add Activity item in Processor list
! Scheduler period activity was suppressed ("TimeHH:MMStart" in lItem and "TimeHH:MMStop")
- WEB Connect defs
- def WebURLConnectDef(inGSettings, inMethodStr, inURLStr, inMatchTypeStr, inDef, inContentTypeStr="application/octet-stream"): # Connect URL to DEF
- def WebURLConnectFolder(inGSettings, inMethodStr, inURLStr, inMatchTypeStr, inFolderPathStr): # Connect URL to Folder
- def WebURLConnectFile(inGSettings, inMethodStr, inURLStr, inMatchTypeStr, inFilePathStr, inContentTypeStr="application/octet-stream"): # Connect URL to File
- def RDPTemplateCreate(inLoginStr, inPasswordStr, inHostStr="127.0.0.1", inPortInt = 3389, inWidthPXInt = 1680, inHeightPXInt = 1050, inUseBothMonitorBool = False, inDepthBitInt = 32, inSharedDriveList=["c"]): # Create some RDP template dict to use it when connect/reconnect
- Update def RDPSessionConnect(inGSettings, inRDPSessionKeyStr, inRDPTemplateDict=None, inHostStr=None, inPortStr=None, inLoginStr=None, inPasswordStr=None): # Create new RDPSession in RobotRDPActive. Attention - activity will be ignored if key is exists
- Update def RDPSessionReconnect(inGSettings, inRDPSessionKeyStr, inRDPTemplateDict=None): # RDP Session reconnect
- Add alg which find dublicates in RDPList if connection lost was appeared - important to catch 2+ RDP to one RDP configs
[1.1.0]
After 2 month test prefinal with new improovements (+RobotRDPActive in Orchestrator + Easy ControlPanelTemplate)
Beta before 1.1.0 (new way of OpenRPA with improvements. Sorry, but no backward compatibility)/ Backward compatibility will start from 1.0.1

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