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first init

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Ulrich Carmesin 3 years ago
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  1. 5
      .idea/.gitignore
  2. 6
      .idea/externalDependencies.xml
  3. 6
      .idea/inspectionProfiles/profiles_settings.xml
  4. 4
      .idea/misc.xml
  5. 8
      .idea/modules.xml
  6. 8
      .idea/pythonProject.iml
  7. 6
      .idea/vcs.xml
  8. 4
      Readme.txt
  9. 33
      check_environment.py
  10. 0
      components/__init__.py
  11. 380
      components/component.py
  12. 17
      components/mariadb/CONFIG.yml
  13. 34
      components/systemInstance.py
  14. 32
      components/testa/CONFIG.yml
  15. 7
      components/testa/Testa.py
  16. 0
      components/testa/__init__.py
  17. 24
      components/testa1/CONFIG.yml
  18. 193
      components/testa1/DATASTRUCTURE.yml
  19. 7
      components/testa1/Testa1.py
  20. 0
      components/testa1/__init__.py
  21. 16
      components/testa11/CONFIG.yml
  22. 187
      components/testa11/DATASTRUCTURE.yml
  23. 7
      components/testa11/Testa11.py
  24. 0
      components/testa11/__init__.py
  25. 24
      components/testa2/CONFIG.yml
  26. 7
      components/testa2/Testa2.py
  27. 0
      components/testa2/__init__.py
  28. 19
      components/testa21/CONFIG.yml
  29. 5
      components/testa21/Testa21.py
  30. 0
      components/testa21/__init__.py
  31. 24
      components/testb/CONFIG.yml
  32. 5
      components/testb/Testb.py
  33. 0
      components/testb/__init__.py
  34. 17
      components/testb1/CONFIG.yml
  35. 5
      components/testb1/Testb1.py
  36. 0
      components/testb1/__init__.py
  37. 28
      declare_result.py
  38. 29
      finish_testcase.py
  39. 28
      finish_testset.py
  40. 28
      init_testcase.py
  41. 29
      init_testset.py
  42. 1
      requirements.txt
  43. 0
      test/__init__.py
  44. 34
      test/conf/basis.yml
  45. 7
      test/environment/ENV01/PARAMETER_TEST_ENV01.yml
  46. 87
      test/environment/ENV01/configs/tool_conn.yml
  47. 43
      test/lauf/V0.1/implement_2021-08-28_23-50-51/PARAMETER_TEST_UMGEB1.yml
  48. 24
      test/tdata/implement/firstunit.csv
  49. 28
      test/test_config.py
  50. 20
      test/test_conn.py
  51. 32
      test/test_file.py
  52. 35
      test/test_job.py
  53. 12
      test/test_main.py
  54. 39
      test/test_path.py
  55. 18
      test/test_tdata.py
  56. 0
      test_run.py
  57. 0
      ulrich/__init__.py
  58. 185
      ulrich/componentHandling.py
  59. 233
      ulrich/message.py
  60. 295
      ulrich/program.py
  61. 9
      ulrich/toolHandling.py
  62. 17
      unit_run.py
  63. 0
      utils/__init__.py
  64. 90
      utils/config_tool.py
  65. 44
      utils/configs/path.yml
  66. 35
      utils/configs/txt
  67. 46
      utils/conn_tool.py
  68. 12
      utils/date_tool.py
  69. 90
      utils/file_tool.py
  70. 31
      utils/job_tool.py
  71. 98
      utils/match_tool.py
  72. 148
      utils/path_tool.py
  73. 58
      utils/report_tool.py
  74. 46
      utils/ssh_tool.py
  75. 135
      utils/tdata_tool.py

5
.idea/.gitignore
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@ -0,0 +1,5 @@
# Default ignored files
/shelf/
/workspace.xml
../test/log/*.txt
../test/environment/ENV01/log/*.txt

6
.idea/externalDependencies.xml
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@ -0,0 +1,6 @@
<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="ExternalDependencies">
<plugin id="com.intellij.configurationScript" />
</component>
</project>

6
.idea/inspectionProfiles/profiles_settings.xml
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@ -0,0 +1,6 @@
<component name="InspectionProjectProfileManager">
<settings>
<option name="USE_PROJECT_PROFILE" value="false" />
<version value="1.0" />
</settings>
</component>

4
.idea/misc.xml
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@ -0,0 +1,4 @@
<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="ProjectRootManager" version="2" project-jdk-name="Python 3.9 (pythonProject)" project-jdk-type="Python SDK" />
</project>

8
.idea/modules.xml
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@ -0,0 +1,8 @@
<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="ProjectModuleManager">
<modules>
<module fileurl="file://$PROJECT_DIR$/.idea/pythonProject.iml" filepath="$PROJECT_DIR$/.idea/pythonProject.iml" />
</modules>
</component>
</project>

8
.idea/pythonProject.iml
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@ -0,0 +1,8 @@
<?xml version="1.0" encoding="UTF-8"?>
<module type="PYTHON_MODULE" version="4">
<component name="NewModuleRootManager">
<content url="file://$MODULE_DIR$" />
<orderEntry type="jdk" jdkName="Python 3.9 (pythonProject)" jdkType="Python SDK" />
<orderEntry type="sourceFolder" forTests="false" />
</component>
</module>

6
.idea/vcs.xml
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@ -0,0 +1,6 @@
<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="VcsDirectoryMappings">
<mapping directory="$PROJECT_DIR$" vcs="Git" />
</component>
</project>

4
Readme.txt
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@ -0,0 +1,4 @@
This program is a test-framework which controls especially the system-under-test and which makes comparsions for diversity-tests.
It should be installed near by the application-system which has to be tested and with access-rights to the application-system.
The business-test-frameworks on

33
check_environment.py
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@ -0,0 +1,33 @@
# This is a sample Python script.
import sys#
# import jsonpickle # pip install jsonpickle
import yaml # pip install pyyaml
import ulrich.program
import ulrich.componentHandling
import ulrich.message
import utils.tdata_tool
PROGRAM_NAME = "check_environment"
if __name__ == '__main__':
x = ulrich.program.Job(PROGRAM_NAME)
print ("x "+str(x))
x.startJob()
x.m.logDebug(str(vars(x.par)) + "\n" + str(vars(x.conf)))
if x.m.isRc("fatal"):
x.stopJob()
exit(x.m.rc * (-1) + 3)
# now in theory the program is runnable
x.m.setMsg("# job initialized")
cm = ulrich.componentHandling.ComponentManager()
cm.initComponents()
comps = cm.getComponents(PROGRAM_NAME)
x.m.setMsg("# Components initialized with these relevant components " + str(comps))
for c in comps:
comp = cm.getComponents(c)
comp.check_Instance()
x.m.merge(comp.m)
comp.confs["function"][PROGRAM_NAME] = comp.m.topmessage
x.stopJob()
# See PyCharm help at https://www.jetbrains.com/help/pycharm/

0
components/__init__.py
View File

380
components/component.py
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@ -0,0 +1,380 @@
# abstract class for instance components
# ---------------------------------------------------------------------
from datetime import datetime
import ulrich.message
import inspect
"""
A component represents an application of the system-under-test
As the representation it has to knowlegde of the url, which other components depends on this component.
During a test-run the component must be checked, prepared, appfiles has to be collected, etc. For this doing there are some standard-methods implemented.
"""
class Component:
def init(self):
"""
The range of the test-system is defined by the dependancy graph which starts at the application.and indate each component.
By this way it is possible to use the same component in different test-systems and so the
application-knowlegde of this component must be defined only once.
A component can be a software-instance or a data.
Initialisation of concrete component
it is controlled by their configuration
"""
job = ulrich.program.Job.getInstance()
verify = job.getDebugLevel(self.name)
self.m.debug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() " + str(self.name))
def prepare_system(self):
"""
In order to preparate the test system test data should be cleaned and loaded with actual data.
This can happen on different granularities: for each testcase or for each test sequences or for a test set or
for a whole test.
The loaded test data should be selected for a later comparison.
:return:
"""
pass
def init_Testset(self):
"""
main methode for system-preparation
:param self:
:return:
"""
job = ulrich.program.Job.getInstance()
verify = -1+job.getDebugLevel(self.name)
self.m.logInfo("--- " + str(inspect.currentframe().f_code.co_name) + "() started at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
self.m.setMsg("checkInstance for " + self.name + " is OK")
self.m.logInfo("--- " + str(inspect.currentframe().f_code.co_name) + "() finished at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
def reset_TsData(self):
job = ulrich.program.Job.getInstance()
verify = -1+job.getDebugLevel(self.name)
self.m.logDebug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() started at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
if "log" in self.conf["artifact"]:
self.m.logInfo("log rotate in "+ self.name)
if "db" in self.conf["artifact"]:
self.m.logInfo("delete db-content "+ self.name)
if "lob" in self.conf["artifact"]:
self.m.logInfo("lob is deleted with db "+ self.name)
if "file" in self.conf["artifact"]:
self.m.logInfo("rm files in "+ self.name)
self.m.setMsg("checkInstance for " + self.name + " is OK")
self.m.logDebug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() finished at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
def load_TsData(self, testdata):
job = ulrich.program.Job.getInstance()
verify = -1+job.getDebugLevel(self.name)
self.m.logDebug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() started at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
if "testdata" in self.conf:
if self.conf["testdata"] == "db":
self.m.logInfo("insert db-content " + self.name)
self.m.setMsg("data loaded for " + self.name + " is OK")
self.m.logDebug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() finished at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
def read_TsData(self):
job = ulrich.program.Job.getInstance()
verify = -1+job.getDebugLevel(self.name)
self.m.logDebug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() started at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
if "db" in self.conf["artifact"]:
self.m.logInfo("select db-content "+ self.name)
if "lob" in self.conf["artifact"]:
self.m.logInfo("check lob if is deleted with db "+ self.name)
self.m.setMsg("checkInstance for " + self.name + " is OK")
self.m.logDebug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() finished at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
def init_Testcase(self):
"""
main methode for system-preparation
:param self:
:return:
"""
job = ulrich.program.Job.getInstance()
verify = -1+job.getDebugLevel(self.name)
self.m.logInfo("--- " + str(inspect.currentframe().f_code.co_name) + "() started at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
self.m.logInfo("something in "+ self.name)
self.m.setMsg("checkInstance for " + self.name + " is OK")
self.m.logInfo("--- " + str(inspect.currentframe().f_code.co_name) + "() finished at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
def reset_TcData(self):
job = ulrich.program.Job.getInstance()
verify = -1+job.getDebugLevel(self.name)
self.m.logDebug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() started at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
if "log" in self.conf["artifact"]:
self.m.logInfo("log rotate in "+ self.name)
if "db" in self.conf["artifact"]:
self.m.logInfo("delete db-content "+ self.name)
if "lob" in self.conf["artifact"]:
self.m.logInfo("lob is deleted with db "+ self.name)
if "file" in self.conf["artifact"]:
self.m.logInfo("rm files in "+ self.name)
self.m.setMsg("checkInstance for " + self.name + " is OK")
self.m.logDebug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() finished at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
def load_TcData(self):
job = ulrich.program.Job.getInstance()
verify = -1+job.getDebugLevel(self.name)
self.m.logDebug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() started at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
if "testdata" in self.conf:
if self.conf["testdata"] == "db":
self.m.logInfo("insert db-content " + self.name)
self.m.setMsg("data loaded for " + self.name + " is OK")
self.m.logDebug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() finished at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
def read_TcData(self):
job = ulrich.program.Job.getInstance()
verify = -1+job.getDebugLevel(self.name)
self.m.logDebug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() started at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
if "db" in self.conf["artifact"]:
self.m.logInfo("select db-content "+ self.name)
if "lob" in self.conf["artifact"]:
self.m.logInfo("check lob if is deleted with db "+ self.name)
self.m.setMsg("checkInstance for " + self.name + " is OK")
self.m.logDebug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() finished at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
def test_system(self):
"""
:return:
"""
pass
def spiele_ein(self):
pass
def erzeuge_Anfrage(self):
pass
def sende_Anfrage(self, testdata):
pass
def lese_Antwort(self):
pass
def finish_Testcase(self):
"""
initialization-routine for finish-step
:return:
"""
job = ulrich.program.Job.getInstance()
verify = -1+job.getDebugLevel(self.name)
self.m.logInfo("--- " + str(inspect.currentframe().f_code.co_name) + "() started at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
self.m.logInfo("something in "+ self.name)
self.m.setMsg("checkInstance for " + self.name + " is OK")
self.m.logInfo("--- " + str(inspect.currentframe().f_code.co_name) + "() finished at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
def collect_system(self):
"""
After the test the test data of each component should be selected again - to get the post-condition.
In each component is configured how these data can be collected.
In this phase the collected data have to be transformed to comparable files.
:return:
"""
pass
def collect_TcArtifact(self):
"""
collects the artifacts from the test-system.
the result is written as original in subfolder {tcorigin}
post: a further contact zo the test-system is not necessary
:return:
"""
job = ulrich.program.Job.getInstance()
verify = job.getDebugLevel(self.name)
if "log" in self.conf["artifact"]:
self.m.logInfo("get files in for "+ self.name + " in " + self.conf["artifact"]["log"]["path"])
if "db" in self.conf["artifact"]:
self.m.logInfo("select db-content "+ self.name)
if "lob" in self.conf["artifact"]:
pass # after selection get file from db
if "file" in self.conf["artifact"]:
self.m.logInfo("get files in for "+ self.name + " in " + self.conf["artifact"]["file"]["path"])
self.m.debug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() " + str(self.name))
def split_TcResult(self):
"""
transforms the result from subfolder {tcorigin}.
the result is written as utf-8-readable parts in subfolder {tcparts}
:return:
"""
job = ulrich.program.Job.getInstance()
verify = job.getDebugLevel(self.name)
self.m.debug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() " + str(self.name))
if "log" in self.conf["artifact"]:
pass #
if "db" in self.conf["artifact"]:
pass # stored in table
if "lob" in self.conf["artifact"]:
self.m.logInfo("move file from db "+ self.name)
self.m.logInfo("tidy files in for " + self.name + " in " + self.conf["artifact"]["lob"]["format"])
if "file" in self.conf["artifact"]:
self.m.logInfo("tidy files in for "+ self.name + " in " + self.conf["artifact"]["file"]["format"])
def fix_TcResult(self):
"""
fixes the result which is collected and transformed from the test-system.
the result is written in comparable form in folder {tcresult}
with the identifiable name - like in target
:return:
"""
job = ulrich.program.Job.getInstance()
verify = job.getDebugLevel(self.name)
self.m.debug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() " + str(self.name))
def compare_results(self):
"""
to compare the actual result with the target result has three steps:
1 matching each element so you get a comparable pair
2 comparing this pair so maybe you get differences
3 rating the difference if this can be accepted
:return:
"""
pass
def collect_TcResult(self):
"""
collects the result from the folder {tcresult}.
the content is stored intern for comparison
:return:
"""
job = ulrich.program.Job.getInstance()
verify = job.getDebugLevel(self.name)
self.m.logInfo("get files in for " + self.name + " in tcresult ")
self.m.debug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() " + str(self.name))
def collect_Target(self):
"""
pre: only for components which be collected at the end of the test-set
collects the result from the folder {rsresult}.
post: a further contact zo the test-system is not necessary
:return:
"""
job = ulrich.program.Job.getInstance()
verify = job.getDebugLevel(self.name)
self.m.debug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() " + str(self.name))
def compare_TcResults(self):
"""
compares the result with the target
(1) the elements of both sides are assigned
[2) looks for differences in assigned pairs
(3) try to accept the difference with inherent rules
(4) writes the result of comparison as html in folder {diff*}
(5) the summary result is returned
:return:
"""
pass
def getHitscore(self, typ, rs, tg):
"""
calculates the difference between the given elements.
the score is a number [00000-99999] with prefix h_ - 00000 is the best, 99999 the worst
:param typ:
:param rs:
:param tg:
:return:
"""
def report_TcResults(self):
"""
reports the result-code
:return:
"""
pass
def finish_Testset(self):
pass
def collect_TsArtifact(self):
"""
collects the artifacts from the test-system.
the result is written as original in subfolder {tsorigin}
:return:
"""
pass
def split_TsResult(self):
"""
transforms the result which is collected from the test-system.
the result is written as utf-8-readable parts in the specific subfolder {tcparts}
the relevant testcases will be called
:return:
"""
job = ulrich.program.Job.getInstance()
verify = job.getDebugLevel(self.name)
self.m.debug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() " + str(self.name))
# for tc in testcases:
# self.fix_TcResult(self)
def compare_TsResults(self):
"""
controles the comparison the result with the target
:return:
"""
job = ulrich.program.Job.getInstance()
verify = job.getDebugLevel(self.name)
self.m.debug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() " + str(self.name))
# for tc in testcases:
# self.collect_TcResult
# self.collect_Target
# self.compare_TcResults
def report_TsResults(self):
"""
(1.2) extraction of diff-files (only not accepted differences) as html-file in test-set - result-report -
(2.3) visualization of final result-code of each component and each testcase in test-set - result-report -
(2.4) visualization of statistical result-codes of each component and each test-set in test-context - result-report -
:return:
"""
job = ulrich.program.Job.getInstance()
verify = job.getDebugLevel(self.name)
self.m.debug(verify, "--- " + str(inspect.currentframe().f_code.co_name) + "() " + str(self.name))
reportheader = '<head>'
reportbody = '<body>'
testreport = ""
# if job.par.context == "tset":
# for tc in testcases:
# header = utils.report_tool.getTcHeader()
# body = utils.report_tool.getTcExtraction()
# if job.par.context == "tcontext":
# for ts in testsets:
reportheader = reportheader +'<\head>'
reportbody = reportbody + '<\body>'
testreport = reportheader + reportbody
return testreport
def report_result(self):
"""
When you finish your test run you have to report the result for your customer.
1 Your testers have recherche the results which are not acceptable.
They need detailed information of all test results in order to proof if the difference has their cause
in test-technicals or in system-technicals. They should be able to declare the cause.
2 Your testmanager wants to know what is done - the percentage of the necessary test metrik and the status of each test -
and which principle faults are found and which cause the faults have.
3 Your projectmanager wants to know if the system is working correct - the percentage of the necessary test metrik
and founded system errors.
:return:
"""
pass
def maintain_tests(self):
"""
:return:
"""
pass
def declare_Target(self):
job = ulrich.program.Job.getInstance()
verify = -1+job.getDebugLevel(self.name)
self.m.logInfo("--- " + str(inspect.currentframe().f_code.co_name) + "() started at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
self.m.logInfo("something in "+ self.name)
self.m.setMsg("checkInstance for " + self.name + " is OK")
self.m.logInfo("--- " + str(inspect.currentframe().f_code.co_name) + "() finished at " + datetime.now().strftime("%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
def catalog_tests(self):
"""
Its not only a nice-to-have to know which tests are exactly running and which special cases they tests.
Each test running in a special context a special case. Each of such cases are defined by some attributes.
But often nobody knows in which testcases these attributes are tested. If you want to proof your test metrik
for some very special cases a database of these attributes can be very helpful!
Otherwise you must specify always new test cases for a correction of such special case,
the existent test cases must be found afterwards and must be correct in their expectation.
:return:
"""
pass

17
components/mariadb/CONFIG.yml
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# Example af a component with
# # one instance -> connection
# # mo subcomponents
# # artifact-tyoe db -> precondition, load testdata, postcondition
conf:
instance:
count: 1
components: none
function:
check_environment: "todo"
init_testcase: "todo" # -> precondition, load testdata
finish_testcase: "todo" # -> postcondition, check data
artifact:
db:
reset: testcase
checks:
type: systemctl

34
components/systemInstance.py
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#
# --------------------------------------------------------
"""
When the test system is installed - especially in a continous pipeline - you dont know which versions are
installed and if each instance is running. In order to know these fundamental points it should be checked.
The result could be inserted into a database so you can get an overview over all test environments.
"""
class SystemMonitor:
def check_Instance(self):
"""
checks system-instances and writes it into the parameter-file
"""
job = ulrich.program.Job.getInstance()
verify = -1 + job.getDebugLevel(self.name)
self.m.logInfo("--- " + str(inspect.currentframe().f_code.co_name) + "() started at " + datetime.now().strftime(
"%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
for c in self.confs["components"].keys():
if self.confs["components"][c] == "none":
pass
elif self.confs["components"][c]["relationtyp"] == "call":
self.m.logInfo("check connection from " + self.name + " to " + c)
elif self.confs["components"][c]["relationtyp"] == "called":
self.m.logInfo("check connection from " + c + " to " + self.name)
elif self.confs["components"][c]["relationtyp"] == "queue":
self.m.logInfo("check queue from " + self.name + " to " + c)
self.m.setMsg("checkInstance for " + self.name + " is OK")
self.m.logInfo("--- " + str(inspect.currentframe().f_code.co_name) + "() finished at " + datetime.now().strftime(
"%Y%m%d_%H%M%S") + " for " + str(self.name).upper())
def restart_Instance(self):
pass

32
components/testa/CONFIG.yml
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# Example af a component with
# # more instance -> connection
# # some subcomponents
# # artifact-tyoe log
conf:
instance:
count: 2 # count of instances
single: n
components:
testA1:
relationtyp: call # call|called|queue
conffile: "{dompath}/config/dbconn.xml"
filetyp: xml
ippattern: "<second>.*?<ip>(.*?)</ip>"
hostpattern: "<second>.*?<hostname>(.*?)</hostname>"
testA2:
relationtyp: call # call : is called by this comp
conffile: "{dompath}/config/settings.xml"
filetyp: xml
urlpattern: "<first>.*?<ulr>(.*?)</url>"
function:
check_environment: "todo"
init_testcase: "todo"
finish_testcase: "todo"
artifact:
log: # log|db|file|lob
path: "{dompath}/log/debug.log"
rotate: jmx
reset: testcase
oldfile: "{dompath}/log/debug_{timepattern}.log"

7
components/testa/Testa.py
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import components.component
class Testa(components.component.Component):
def __init__(self):
print('init Testa')

0
components/testa/__init__.py
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24
components/testa1/CONFIG.yml
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# Example af a component with
# # one instance -> connection
# # mo subcomponents
# # artifact-tyoe db -> precondition, load testdata, postcondition
conf:
instance:
count: 1
single: y
components:
testa11:
relationtyp: a # these attributes can be checked in statical way if connection is correctly set
conffile: "{dompath}/config/dbconn.xml"
filetyp: xml
ippattern: "<second>.*?<ip>(.*?)</ip>"
hostpattern: "<second>.*?<hostname>(.*?)</hostname>"
function:
check_environment: "todo"
init_testcase: "todo" # -> precondition, load testdata
finish_testcase: "todo" # -> postcondition, check data
artifact:
db:
reset: testset
testdata: db #

193
components/testa1/DATASTRUCTURE.yml
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# Example of a data-structure with
# # different count of tables, id-fields
testa1: # database
immo: # schema
lofts: # table
character: inventory
fields:
- street
- city
- zip
- state
- beds
- baths
- sqft
- type
- price
- latitude
- longitude
data:
city:
id: b_2
acceptance: norm
type: string
nullable: n
zip:
id: b_1
acceptance: norm
type: string
nullable: n
state:
id: n
acceptance: norm
type: string
nullable: n
beds:
id: n
acceptance: norm
type: int
nullable: y
baths:
id: n
acceptance: norm
type: int
nullable: y
sqft:
id: n
acceptance: norm
type: double
nullable: y
type:
id: n
acceptance: norm
type: string
nullable: y
price:
id: n
acceptance: norm
type: double
nullable: y
latitude:
id: n
acceptance: norm
type: float
nullable: y
longitude:
id: n
acceptance: norm
type: float
nullable: y
user:
name:
character: inventory
fields:
- Username
- Identifier
- First_name
- Last_name
data:
Username:
id: b_1
acceptance: norm
type: string
nullable: y
Identifier:
id: t_1
acceptance: exist
type: int
nullable: y
First_name:
id: n
acceptance: norm
type: string
nullable: y
Last_name:
id: n
acceptance: norm
type: string
nullable: y
mail:
character: inventory
fields:
- Email
- Identifier
- First_name
- Last_name
data:
Email:
id: b_1
acceptance: norm
type: string
nullable: y
Identifier:
id: t_1
acceptance: exist
type: int
nullable: n
First_name:
id: n
acceptance: norm
type: string
nullable: y
Last_name:
id: n
acceptance: norm
type: string
nullable: y
action:
character: transaction
fields:
- id
- Identifier
- login_ok
- login_time
- session_state
- end_time
- cnt_transactions
data:
id:
id: t_1
acceptance: exist
type: int
nullable: n
Identifier:
id: b_1
acceptance: norm
type: int
nullable: n
login_ok:
login_time:
session_state:
end_time:
cnt_transactions:
biblio:
books:
character: inventory
fields:
- id
- title
- autor
- library
- subject
- description
data:
id:
id: t_1
acceptance: norm
type: int
nullable: n
title:
id: b_1
acceptance: norm
type: string
nullable: n
autor:
id: b_2
acceptance: norm
type: string
nullable: n
library:
id: n
acceptance: norm
type: string
nullable: y
subject:
id: n
acceptance: norm
type: string
nullable: y
description:
id: n
acceptance: exist
type: clob
nullable: y

7
components/testa1/Testa1.py
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import components.component
class Testa1(components.component.Component):
def __init__(self):
print('init Testa1')

0
components/testa1/__init__.py
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16
components/testa11/CONFIG.yml
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@ -0,0 +1,16 @@
# Example af a component with
# # one instance -> connection
# # mo subcomponents
# # artifact-tyoe db -> precondition, load testdata, postcondition
conf:
instance:
count: 1
single: y
components:
none: none
function:
finish_testcase: "todo" # -> postcondition, check data
artifact:
lob:
reset: none
path: "testa1:biblio:books.description"

187
components/testa11/DATASTRUCTURE.yml
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# Example of a data-structure with
# # different count of tables, id-fields
testa1: # database
immo: # schema
lofts: # table
character: inventory
fields:
- street
- city
- zip
- state
- beds
- baths
- sqft
- type
- price
- latitude
- longitude
data:
city:
id: b_2
acceptance: norm
type: string
nullable: n
zip:
id: b_1
acceptance: norm
type: string
nullable: n
state:
id: n
acceptance: norm
type: string
nullable: n
beds:
id: n
acceptance: norm
type: int
nullable: y
baths:
id: n
acceptance: norm
type: int
nullable: y
sqft:
id: n
acceptance: norm
type: double
nullable: y
type:
id: n
acceptance: norm
type: string
nullable: y
price:
id: n
acceptance: norm
type: double
nullable: y
latitude:
id: n
acceptance: norm
type: float
nullable: y
longitude:
id: n
acceptance: norm
type: float
nullable: y
user:
name:
character: inventory
fields:
- Username
- Identifier
- First_name
- Last_name
data:
Username:
id: b_1
acceptance: norm
type: string
nullable: y
Identifier:
id: t_1
acceptance: exist
type: int
nullable: y
First_name:
id: n
acceptance: norm
type: string
nullable: y
Last_name:
id: n
acceptance: norm
type: string
nullable: y
mail:
character: inventory
fields:
- Email
- Identifier
- First_name
- Last_name
data:
Email:
id: b_1
acceptance: norm
type: string
nullable: y
Identifier:
id: t_1
acceptance: exist
type: int
nullable: n
First_name:
id: n
acceptance: norm
type: string
nullable: y
Last_name:
id: n
acceptance: norm
type: string
nullable: y
action:
character: transaction
fields:
- id
- Identifier
- login_ok
- login_time
- session_state
- end_time
- cnt_transactions
data:
id:
id: t_1
acceptance: exist
type: int
nullable: n
Identifier:
id: b_1
acceptance: norm
type: int
nullable: n
login_ok:
login_time:
session_state:
end_time:
cnt_transactions:
biblio:
books:
character: inventory
fields:
- id
- title
- autor
- library
- subject
data:
id:
id: t_1
acceptance: norm
type: int
nullable: n
title:
id: b_1
acceptance: norm
type: string
nullable: n
autor:
id: b_2
acceptance: norm
type: string
nullable: n
library:
id: n
acceptance: norm
type: string
nullable: y
subject:
id: n
acceptance: norm
type: string
nullable: y

7
components/testa11/Testa11.py
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import components.component
class Testa11(components.component.Component):
def __init__(self):
print('init Testa1')

0
components/testa11/__init__.py
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24
components/testa2/CONFIG.yml
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@ -0,0 +1,24 @@
# Example af a component like a sub-app with
# # one interface -
# # one subcomponents
# # artifact-tyoe log
conf:
instance:
count: 1
single: n
components:
testa21:
relationtyp: call
conffile: "{dompath}/config/dbconn.xml"
filetyp: xml
ippattern: "<second>.*?<ip>(.*?)</ip>"
hostpattern: "<second>.*?<hostname>(.*?)</hostname>"
function:
check_environment: "todo"
init_testcase: "todo"
finish_testcase: "todo"
artifact:
lob:
path: "testa"
rotate: jmx
reset: testcase

7
components/testa2/Testa2.py
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@ -0,0 +1,7 @@
import components.component
class Testa2(components.component.Component):
def __init__(self):
print('init Testa1')

0
components/testa2/__init__.py
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19
components/testa21/CONFIG.yml
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@ -0,0 +1,19 @@
# Example af a component like a sub-app with
# # no subcomponents
# # artifact-tyoe log
conf:
instance:
count: 1
single: n
components:
none: none
function:
check_environment: "todo"
init_testcase: "todo"
finish_testcase: "todo"
artifact:
file:
path: "{dompath}/log/debug.log"
reset: testcase
format: xml
match: lines # lines|tree

5
components/testa21/Testa21.py
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@ -0,0 +1,5 @@
import components.component
class Testa21(components.component.Component):
def __init__(self):
print('init Testa1')

0
components/testa21/__init__.py
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24
components/testb/CONFIG.yml
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@ -0,0 +1,24 @@
# Example af a component like a main app with
# # one instance -> connection
# # one subcomponents
# # artifact-tyoe log
conf:
instance:
count: 1
single: y
components:
testB1:
relationtyp: db
conffile: "{dompath}/config/dbconn.xml"
filetyp: xml
ippattern: "<second>.*?<ip>(.*?)</ip>"
hostpattern: "<second>.*?<hostname>(.*?)</hostname>"
function:
check_environment: "todo"
init_testcase: "todo"
finish_testcase: "todo"
artifact:
log:
path: "{dompath}/log/debug.log"
rotate: jmx
reset: testcase

5
components/testb/Testb.py
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@ -0,0 +1,5 @@
import components.component
class Testb(components.component.Component):
def __init__(self):
print('init Testb')

0
components/testb/__init__.py
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17
components/testb1/CONFIG.yml
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@ -0,0 +1,17 @@
# Example af a component with
# # one instance -> connection
# # mo subcomponents
# # artifact-tyoe db -> precondition, load testdata, postcondition
conf:
instance:
count: 1
single: y
components:
none: none
function:
check_environment: "todo"
init_testcase: "todo" # -> precondition, load testdata
finish_testcase: "todo" # -> postcondition, check data
artifact:
db:
reset: testset

5
components/testb1/Testb1.py
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@ -0,0 +1,5 @@
import components.component
class Testb1(components.component.Component):
def __init__(self):
print('init Testa1')

0
components/testb1/__init__.py
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28
declare_result.py
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# This is a sample Python script.
import sys#
# import jsonpickle # pip install jsonpickle
import yaml # pip install pyyaml
import ulrich.program as program
from ulrich.componentHandling import ComponentManager
import ulrich.message as message
# Press Umschalt+F10 to execute it or replace it with your code.
# Press Double Shift to search everywhere for classes, files, tool windows, actions, and settings.
# Press the green button in the gutter to run the script.
if __name__ == '__main__':
x = program.Job("check_environment")
#m = message.Message(3)
#m.closeMessage()
x.startJob()
x.m.logInfo("hier eine LogInfo")
x.m.logDebug("hier eine DbugMeldung")
x.m.logDebug(str(vars(x.par)) + "\n" + str(vars(x.conf)))
cm = ComponentManager()
if x.m.isRc("fatal"):
x.stopJob()
exit(x.m.rc * (-1) + 3)
x.stopJob()
# See PyCharm help at https://www.jetbrains.com/help/pycharm/

29
finish_testcase.py
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# This is a sample Python script.
import sys#
# import jsonpickle # pip install jsonpickle
import yaml # pip install pyyaml
import ulrich.program
from ulrich.componentHandling import ComponentManager
import ulrich.message
import utils.tdata_tool
PROGRAM_NAME = "finish_testcase"
if __name__ == '__main__':
x = ulrich.program.Job(PROGRAM_NAME)
x.startJob()
x.m.logInfo("hier eine LogInfo")
x.m.logDebug("hier eine DbugMeldung")
x.m.logDebug(str(vars(x.par)) + "\n" + str(vars(x.conf)))
if x.m.isRc("fatal"):
print("fatal Error at begin")
x.stopJob()
exit(x.m.rc * (-1) + 3)
# now in theory the program is runnable
cm = ComponentManager()
cm.initComponents()
comps = cm.getComponents(PROGRAM_NAME)
print(" relevant components for this job: " + str(comps))
tdata = utils.tdata_tool.getTestdata()
x.stopJob()
# See PyCharm help at https://www.jetbrains.com/help/pycharm/

28
finish_testset.py
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# This is a sample Python script.
import sys#
# import jsonpickle # pip install jsonpickle
import yaml # pip install pyyaml
import ulrich.program as program
from ulrich.componentHandling import ComponentManager
import ulrich.message as message
# Press Umschalt+F10 to execute it or replace it with your code.
# Press Double Shift to search everywhere for classes, files, tool windows, actions, and settings.
# Press the green button in the gutter to run the script.
if __name__ == '__main__':
x = program.Job("check_environment")
#m = message.Message(3)
#m.closeMessage()
x.startJob()
x.m.logInfo("hier eine LogInfo")
x.m.logDebug("hier eine DbugMeldung")
x.m.logDebug(str(vars(x.par)) + "\n" + str(vars(x.conf)))
cm = ComponentManager()
if x.m.isRc("fatal"):
x.stopJob()
exit(x.m.rc * (-1) + 3)
x.stopJob()
# See PyCharm help at https://www.jetbrains.com/help/pycharm/

28
init_testcase.py
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# This is a sample Python script.
import sys#
# import jsonpickle # pip install jsonpickle
import yaml # pip install pyyaml
import ulrich.program as program
from ulrich.componentHandling import ComponentManager
import ulrich.message as message
# Press Umschalt+F10 to execute it or replace it with your code.
# Press Double Shift to search everywhere for classes, files, tool windows, actions, and settings.
# Press the green button in the gutter to run the script.
if __name__ == '__main__':
x = program.Job("check_environment")
#m = message.Message(3)
#m.closeMessage()
x.startJob()
x.m.logInfo("hier eine LogInfo")
x.m.logDebug("hier eine DbugMeldung")
x.m.logDebug(str(vars(x.par)) + "\n" + str(vars(x.conf)))
cm = ComponentManager()
if x.m.isRc("fatal"):
x.stopJob()
exit(x.m.rc * (-1) + 3)
x.stopJob()
# See PyCharm help at https://www.jetbrains.com/help/pycharm/

29
init_testset.py
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# This is a sample Python script.
import sys#
# import jsonpickle # pip install jsonpickle
import yaml # pip install pyyaml
import ulrich.program
from ulrich.componentHandling import ComponentManager
import ulrich.message
import utils.tdata_tool
PROGRAM_NAME = "init_testset"
if __name__ == '__main__':
x = ulrich.program.Job(PROGRAM_NAME)
x.startJob()
x.m.logInfo("hier eine LogInfo")
x.m.logDebug("hier eine DbugMeldung")
x.m.logDebug(str(vars(x.par)) + "\n" + str(vars(x.conf)))
if x.m.isRc("fatal"):
print("fatal Error at begin")
x.stopJob()
exit(x.m.rc * (-1) + 3)
# now in theory the program is runnable
cm = ComponentManager()
cm.initComponents()
comps = cm.getComponents(PROGRAM_NAME)
print(" relevant components for this job: " + str(comps))
tdata = utils.tdata_tool.getTestdata()
x.stopJob()
# See PyCharm help at https://www.jetbrains.com/help/pycharm/

1
requirements.txt
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@ -0,0 +1 @@
pyyaml

0
test/__init__.py
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34
test/conf/basis.yml
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@ -0,0 +1,34 @@
tools:
connsrc: yml
remotetyp: ssh
toolcls:
pathTool: path_tool
paths:
mode: "0o775"
home: /home/ulrich/6_Projekte/Programme/pythonProject
debugs: /home/ulrich/6_Projekte/Programme/pythonProject/test/log # for temporary debug-logs
archiv: /home/ulrich/6_Projekte/Programme/pythonProject/test/lauf # the results of
results: /home/ulrich/6_Projekte/Programme/pythonProject/test/target # the target results which a former result files
program: /home/ulrich/6_Projekte/Programme/pythonProject # the programs with default configs
environment: /home/ulrich/6_Projekte/Programme/pythonProject/test/environment # for config etc about the system under test
release: /home/ulrich/6_Projekte/Programme/pythonProject/test/release # for configs about special releases
testdata: /home/ulrich/6_Projekte/Programme/pythonProject/test/tdata # for configs about special releases
pattern:
tctime: '\d{4}-\d{2}-\d{2}_\d{2}-\d{2}-\d{2}'
tltime: '\d{4}-\d{2}-\d{2}_\d{2}-\d{2}-\d{2}'
testcase: '.*?/'
usecase: '.*?/'
typen:
einzel: "Einzelfaelle separat"
menge: "alle zum Lauf einmal laden und auswerten"
unit:
text: "Units testen"
todo: 1
applicationen:
TEST:
- testA
- testB
application:
TEST:
- testA
- testB

7
test/environment/ENV01/PARAMETER_TEST_ENV01.yml
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@ -0,0 +1,7 @@
comps: {}
par:
application: TEST
basedir: envbase
environment: ENV01
parstring: python check_environment --application TEST --environment ENV01
program: check_environment

87
test/environment/ENV01/configs/tool_conn.yml
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env:
testa:
instance: 2
inst1:
ip: "192.178.168.12"
hostname: my-app-store-1
port: 54321
dompath: /opt/app/testa
domscript: bin/manage.sh
user: testa
password: test_secure_a
home: /home/testa
inst2:
ip: 192.178.168.14
hostname: my-app-store-2
port: 54321
dompath: /opt/app/testa
domscript: bin/manage.sh
user: testa
password: test_secure_a
home: /home/testa
testa1:
instance: 1
inst1:
ip: 192.178.168.12
hostname: my-app-store-1
port: 54410
dompath: /opt/app/testa01
domscript: bin/manage.sh
user: testa
password: test_secure_a
home: /home/testa
testa11:
instance: 1
inst1:
ip: 192.178.168.12
hostname: my-app-store-1
port: 54410
dompath: /opt/app/testa01
domscript: bin/manage.sh
user: testa
password: test_secure_a
home: /home/testa
testa2:
instance: 1
inst1:
ip: 192.178.168.12
hostname: my-app-store-1
port: 54420
dompath: /opt/app/testa02
domscript: bin/manage.sh
user: testa
password: test_secure_a
home: /home/testa
testa21:
instance: 1
inst1:
ip: 192.178.168.12
hostname: my-app-store-1
port: 54420
dompath: /opt/app/testa02
domscript: bin/manage.sh
user: testa
password: test_secure_a
home: /home/testa
testb:
instance: 1
inst1:
ip: 192.178.168.14
hostname: my-app-store-2
port: 54500
dompath: /opt/app/testb
domscript: bin/manage.sh
user: testb
password: test_secure_b
home: /home/testb
testb1:
instance: 1
inst1:
ip: 192.178.168.14
hostname: my-app-store-2
port: 54510
dompath: /opt/app/testb01
domscript: bin/manage.sh
user: testb
password: test_secure_b
home: /home/testb

43
test/lauf/V0.1/implement_2021-08-28_23-50-51/PARAMETER_TEST_UMGEB1.yml
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@ -0,0 +1,43 @@
comps:
testa_02:
conn:
dompath: /opt/app/testa
domscript: bin/manage.sh
home: /home/testa
hostname: my-app-store-1
ip: 192.178.168.12
password: test_secure_a
port: 54321
user: testa
function:
check_environment: 'INFO: checkInstance for testa_02 is OK'
finish_testcase: todo
init_testcase: todo
testb:
conn:
dompath: /opt/app/testb
domscript: bin/manage.sh
home: /home/testb
hostname: my-app-store-2
ip: 192.178.168.14
password: test_secure_b
port: 54500
user: testb
function:
check_environment: 'INFO: checkInstance for testb is OK'
finish_testcase: todo
init_testcase: todo
par:
application: TEST
basedir: tsbase
environment: ENV01
parstring: python init_testset --application TEST --environment ENV01 --tsdir /home/ulrich/6_Projekte/Programme/pythonProject/test/lauf/V0.1/implement_2021-08-28_23-50-51
--tdtyp csv --tdsrc implement --tdname firstunit
program: init_testset
release: V0.1
tdname: firstunit
tdsrc: implement
tdtyp: csv
tltime: 2021-08-28_23-50-51
tsdir: /home/ulrich/6_Projekte/Programme/pythonProject/test/lauf/V0.1/implement_2021-08-28_23-50-51
usecase: implement

24
test/tdata/implement/firstunit.csv
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head;referencedate;;;;;;;;;;;
;25.08.2021;;;;;;;;;;;
;;;;;;;;;;;;
node;action;street;city;zip;state;beds;baths;sqft;type;price;latitude;longitude
testa1:immo:lofts;;3526 HIGH ST;SACRAMENTO;95838;CA;2;1;836;Residential;59222;38.631913;-121.434879
testa1:immo:lofts;;51 OMAHA CT;SACRAMENTO;95823;CA;3;1;1167;Residential;68212;38.478902;-121.431028
;;;;;;;;;;;;
;;;;;;;;;;;;
node;action;Username;Identifier;First_name;Last_name;;;;;;;
testa1:user:name;;booker12;9012;Rachel;Booker;;;;;;;
testa1:user:name;;grey07;2070;Laura;Grey;;;;;;;
;;;;;;;;;;;;
;;;;;;;;;;;;
node;action;Email;Identifier;First_name;Last_name;;;;;;;
testa1:user:mail;;rachel@yourcompany.com;9012;Rachel;Booker;;;;;;;
testa1:user:mail;;laura@yourcompany.com ;2070;Laura;Grey;;;;;;;
;;;;;;;;;;;;
;;;;;;;;;;;;
node;action;id;title;autor;library;subject;description;;;;;
testa1:biblio:books;;1;Eldon Base for stackable storage shelf, platinum;Muhammed MacIntyre;Nunavut;Storage & Organization;;;;;;
testa1:biblio:books;;2;"1.7 Cubic Foot Compact ""Cube"" Office Refrigerators";Barry French;Nunavut;Appliances;;;;;;
testa1:biblio:books;;3;Cardinal Slant-D® Ring Binder, Heavy Gauge Vinyl;Barry French;Nunavut;Binders and Binder Accessories;;;;;;
testa1:biblio:books;;4;R380;Clay Rozendal;Nunavut;Telephones and Communication;;;;;;
testa1:biblio:books;;5;Holmes HEPA Air Purifier;Carlos Soltero;Nunavut;Appliances;;;;;;

28
test/test_config.py
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import unittest
import utils.config_tool as t
from ulrich.program import Job
class MyTestCase(unittest.TestCase):
def test_something(self):
job = Job("unit")
args = {"application": "TEST", "application": "ENV01", "modus": "unit", "loglevel": "debug", "tool": "config_tool",
"modus": "unit"}
job.par.setParameterArgs(args)
r = t.getConfigPath("tool", "path")
print (r)
self.assertEqual(r, "/home/ulrich/6_Projekte/Programme/pythonProject/utils/configs/path.yml")
r = t.getConfigPath("comp", "TestA2")
print (r)
self.assertEqual(r, None)
r = t.getConfigPath("comp", "testA2")
print (r)
r = t.getConfig("tool", "path")
print (r)
#r = t.getConfig("comp", "testA2")
print("pattern " + r["pattern"]["log"])
print("pattern " + r["pattern"]["precond"])
if __name__ == '__main__':
unittest.main()

20
test/test_conn.py
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import unittest
import ulrich.program
import utils.conn_tool
class MyTestCase(unittest.TestCase):
def test_something(self):
print("# # # # tetsComponents # # # # #")
job = ulrich.program.Job("unit")
args = { "application" : "TEST" , "environment" : "ENV01", "modus" : "unit", "loglevel" : "debug", "tool" : "job_tool"}
job.par.setParameterArgs(args)
self.assertEqual(True, True)
conn = utils.conn_tool.getConnection("testb", 1)
print("test-conn " + str(conn))
conns = utils.conn_tool.getConnections("testb")
print("test-conn " + str(conns))
conns = utils.conn_tool.getConnections("testa")
print("test-conn " + str(conns))
if __name__ == '__main__':
unittest.main()

32
test/test_file.py
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import unittest
import utils.file_tool as t
import utils.path_tool
import ulrich.program
class MyTestCase(unittest.TestCase):
def test_getFiles(self):
job = ulrich.program.Job("unit")
args = {"application": "TEST", "application": "ENV01", "modus": "unit", "loglevel": "debug", "tool": "job_tool",
"modus": "unit"}
job.par.setParameterArgs(args)
r = t.getFiles(job.m, job.conf.confs.get("paths").get("program") + "/utils", "file_.*.py", None)
self.assertEqual((len(r) == 1), True)
r = t.getFiles(job.m, job.conf.confs.get("paths").get("program") + "/utils", "file__.*.py", None)
self.assertEqual((len(r) == 0), True)
r = t.getFiles(job.m, job.conf.confs.get("paths").get("program") + "/utils", ".*_tool.py", None)
self.assertEqual((len(r) > 2), True)
r = t.getFilesRec(job.m, job.conf.confs.get("paths").get("program"), ".*?file.*.py")
print (r)
def test_pathTool(self):
job = ulrich.program.Job("unit")
args = {"application": "TEST", "application": "ENV01", "modus": "unit", "loglevel": "debug", "tool": "job_tool",
"modus": "unit"}
job.par.setParameterArgs(args)
self.assertEqual(utils.path_tool.generatePath("program", "komp", "testA", "CONFIG.yml"),
"/home/ulrich/6_Projekte/PythonProject/komponents/testA/COFIG.yml")
if __name__ == '__main__':
unittest.main()

35
test/test_job.py
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import unittest
import os
from ulrich.program import Job
from ulrich.componentHandling import ComponentManager
class MyTestCase(unittest.TestCase):
def test_parameter(self):
job = Job("unit")
args = { "application" : "TEST" , "environment" : "ENV01", "modus" : "unit", "loglevel" : "debug", "tool" : "job_tool"}
job.par.setParameterArgs(args)
self.assertEqual(job.hascomponente("TestA"), True)
self.assertEqual(job.hasTool("TestA"), False)
self.assertEqual(job.hasTool("job_tool"), True)
self.assertEqual(job.getDebugLevel("file_tool"), 23)
self.assertEqual(job.getDebugLevel("job_tool"), 23)
args = { "application" : "TEST" , "environment" : "ENV01", "modus" : "unit", "loglevel" : "debug",
"tool" : "job_tool", "tsdir": "/home/ulrich/6_Projekte/Programme/pythonProject/test/lauf/V0.1/startjob/2021-08-21_18-ß2-01"}
job.par.setParameterArgs(args)
def test_components(self):
print("# # # # tetsComponents # # # # #")
job = Job.resetInstance("unit")
args = { "application" : "TEST" , "environment" : "ENV01", "modus" : "unit", "loglevel" : "debug", "tool" : "job_tool"}
job.par.setParameterArgs(args)
cm = ComponentManager()
cm.createComponents("testb", 0, "")
cm.createComponents("testa", 1, "")
def test_run(self):
os.system("python /home/ulrich/6_Projekte/Programme/pythonProject/check_environment.py -a TEST -e ENV01")
# os.system("python /home/ulrich/6_Projekte/Programme/pythonProject/init_testset.py -a TEST -e ENV01 "
# "-ts /home/ulrich/6_Projekte/Programme/pythonProject/test/lauf/V0.1/implement_2021-08-28_23-50-51 -dt csv -ds implement -dn firstunit")
# os.system("python /home/ulrich/6_Projekte/Programme/pythonProject/init_testset.py")
if __name__ == '__main__':
unittest.main()

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test/test_main.py
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import unittest
import utils.path_tool as path_tool
import ulrich.program as program
class MyTestCase(unittest.TestCase):
def test_pathTool(self):
x = program.Job("test:application=TEST:application=ENV01")
self.assertEqual(path_tool.generatePath("program", "komp", "testA", "CONFIG.yml"), "/home/ulrich/6_Projekte/PythonProject/komponents/testA/COFIG.yml")
if __name__ == '__main__':
unittest.main()

39
test/test_path.py
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import unittest
import utils.path_tool
from ulrich.program import Job
class MyTestCase(unittest.TestCase):
def test_path(self):
job = Job("unit")
t = utils.path_tool.PathTool()
args = {"application": "TEST", "environment": "ENV01", "modus": "unit", "loglevel": "debug", "tool": "job_tool",
"modus": "unit", "testcase": "TESTFALL", "release": "V0.1", "tctime": "2021-08-21_12-02-01" }
job.par.setParameterArgs(args)
pt = t.PathConf()
r = t.getKeyValue("job.par.application")
print(r)
r = t.getKeyValue("job.conf.results")
print(r)
self.assertEqual(r, "/home/ulrich/6_Projekte/Programme/pythonProject/test/target")
r = t.composePath("tcbase", None)
#r = t.replaceNoPython("{job.conf.archiv}/{job.par.release}/{job.par.testcase}/{job.par.tctime}", "{job.conf.archiv}", "/home/ulrich/6_Projekte/Programme/pythonProject/test/lauf")
print(r)
args = { "application" : "TEST" , "application" : "ENV01", "modus" : "unit", "loglevel" : "debug",
"tool" : "job_tool", "tsdir": "/home/ulrich/6_Projekte/Programme/pythonProject/test/lauf/V0.1/startjob/2021-08-21_18-ß2-01"}
job = Job.resetInstance("unit")
job.par.setParameterArgs(args)
# r = t.extractPath("tsbase" , "/home/ulrich/6_Projekte/Programme/pythonProject/test/lauf/V0.1/startjob/2021-08-21_18-ß2-01")
r = t.extractPattern("tsbase" )
print(r)
self.assertEqual(r[0][1], "job.conf.archiv")
self.assertEqual(r[3][0], "_")
r = t.extractPath("tsbase" , "/home/ulrich/6_Projekte/Programme/pythonProject/test/lauf/V0.1/startjob_2021-08-21_10-02-01")
print("r " + str(r))
print(vars(job.par))
self.assertEqual(job.par.release, "V0.1")
self.assertEqual(job.par.usecase, "startjob")
self.assertEqual(job.par.tltime, "2021-08-21_10-02-01")
if __name__ == '__main__':
unittest.main()

18
test/test_tdata.py
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import unittest
import utils.tdata_tool as t
import ulrich.program
class MyTestCase(unittest.TestCase):
def test_pathTool(self):
job = ulrich.program.Job("unit")
args = {"application": "TEST", "application": "ENV01", "modus": "unit", "loglevel": "debug",
"tool": "job_tool", "tdtyp": "csv", "tdsrc": "implement", "tdname": "firstunit",
"modus": "unit"}
job.par.setParameterArgs(args)
filename = str(job.conf.confs["paths"]["testdata"]) + "/" + getattr(job.par, "tdsrc") + "/" + getattr(job.par, "tdname") + ".csv"
tdata = t.readCsv(filename)
self.assertEqual(1, 1)
if __name__ == '__main__':
unittest.main()

0
test_run.py
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0
ulrich/__init__.py
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185
ulrich/componentHandling.py
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# managing the components
# -----------------------------------------------------------------------------
"""
component has to be created in relation of the application (basis.yml).
Each componente could be created mostly once, but not everytime:
* the same instance of a component is used in different contexts
* there could be exist more instances
* there could be alternatives of an instance
Each kind of instance has its component-class and for each use should be an object be created.
Each crated component-onject are documented in the parameter-file.
"""
import utils.config_tool
import utils.conn_tool
import ulrich.program
import ulrich.message
import components.component
import importlib
import copy
components = {}
PARAM_NOSUBNODE = [ "artifact", "components", "instance" ]
class ComponentManager:
__instance = None
"""
initializes the Manager with all necessary components
"""
def __init__(self):
job = ulrich.program.Job.getInstance()
job.m.logDebug("applicationscomponente -- " + str(type(job.par)) )
self.components = {}
def initComponents(self):
# sets components the first time
# afterwards set components from parameter-file
job = ulrich.program.Job.getInstance()
anw = job.par.application
job.m.logDebug("applicationscomponente -- " + str(type(job.par)) )
if not job.conf.confs["applicationen"].get(anw):
job.m.setFatal("application " + job.par.application + " is not configured")
return
for k in job.conf.confs["applicationen"].get(anw):
job.m.logDebug("applicationscomponente -- " + k + ":" )
self.createComponents(k, 0, "")
def setComponents(self):
# set components from parameter-file
job = ulrich.program.Job.getInstance()
job.m.logDebug("applicationscomponente -- " + str(type(job.par)) )
def getComponent(self, compobjname):
job = ulrich.program.Job.getInstance()
verify=-2+job.getDebugLevel("job_tool")
job.debug(verify, "getComponents " + compobjname)
return components[compobjname]
def getComponents(self, mainfct):
job = ulrich.program.Job.getInstance()
verify=-2+job.getDebugLevel("job_tool")
job.debug(verify, "getComponents " + mainfct)
out = []
for c in components:
job.debug(verify, "getComponents " + c + ": " + str(components[c].conf))
print("getComponents " + c + ": " + str(components[c].conf))
if mainfct in components[c].conf["function"]:
out.append(c)
return out
@staticmethod
def getInstance():
if (ComponentManager.__instance is not None):
return ComponentManager.__instance
else:
raise Exception("Klasse noch nicht initialisiert")
def createComponents(self, componentName, nr, suffix):
"""
in order to create a component it must be loaded
* knogwedge of the application - which components should be created
* technical-knowledge of the instanciated component, especially the connection, user, password
* business-knowledge of the component, especially of their interfaces resp. artifacts
:param componentName: Name of the component
:param nr:
:param add:
:return:
"""
job = ulrich.program.Job.getInstance()
verify=job.getDebugLevel("job_tool")
componentName = componentName.lower()
print("createComponent " + componentName)
confs = utils.config_tool.getConfig("comp", componentName)
conns = utils.conn_tool.getConnections(componentName)
print("createComponent -91- " + componentName + " : " + str(confs))
if nr > 0 and int(confs["conf"]["instance"]["count"]) > 1:
job.m.setError("for multiple callers are multiple calls not implemented ")
if nr > 0 and len(conns) == 0:
job.m.setError("for multiple calls has only one call configured")
print(confs)
print("createComponent 1 " + componentName)
print(getComponentPath(componentName))
print("createComponent 2 " + componentName)
cmodul = importlib.import_module(getComponentPath(componentName))
class_ = getattr(cmodul, getComponentClass(componentName))
readedPar = job.loadParameter()
if len(conns) == 1:
print("createComponent 3 a " + componentName)
if nr > 0 and confs["conf"]["instance"]["single"] == "n":
name = componentName + "_0" + str(nr)
else:
name = componentName
c = class_()
c.name = name
c.conf = confs["conf"]
c.conf["conn"] = conns[0]
c.m = ulrich.message.Message(ulrich.message.LIMIT_DEBUG, "logTime", name)
c.init()
print("createComponent 4 a " + componentName)
print(vars(c))
print(vars(c.m))
if readedPar is not None:
print("createComponent 5 a " + name + " : "+ str(readedPar))
for k in readedPar["components"][name].keys():
c.conf[k] = readedPar["components"][name][k]
components[name] = c
self.createComponent(c, nr, suffix)
else:
i = 1
print("createComponent 3 b " + componentName)
for cn in conns:
name = componentName+ "_0"+str(i)
c = class_()
c.name = name
c.conf = confs["conf"]
c.conf["conn"] = conns[0]
c.m = ulrich.message.Message(ulrich.message.LIMIT_DEBUG, "logTime", name)
c.init()
print("createComponent 4 b " + componentName)
print(vars(c))
if readedPar is not None:
for k in readedPar["components"][name].keys():
c.conf[k] = readedPar["components"][name][k]
components[name] = c
self.createComponent(c, i, suffix)
i = i + 1
print("createComponent 9 " + componentName)
print(components)
def createComponent(self, comp, nr, suffix):
job = ulrich.program.Job.getInstance()
verify = -2 + job.getDebugLevel("job_tool")
job.debug(verify, "getComponents " + str(comp.conf["components"]))
for c in comp.conf["components"].keys():
if c == "none":
continue
self.createComponents(c, nr, suffix)
def getComponentFolder(comp):
return comp.lower()
def getComponentModul(comp):
return comp[0:1].upper() + comp[1:].lower()
def getComponentClass(comp):
return comp[0:1].upper() + comp[1:].lower()
def getComponentPath(comp):
return "components." + getComponentFolder(comp) + "." + getComponentModul(comp)
def getComponentDict():
job = ulrich.program.Job.getInstance()
verify=-2+job.getDebugLevel("job_tool")
job.debug(verify, "getComponents ")
out = {}
for c in components:
out[components[c].name] = {}
print("getCompDict " + components[c].name)
for k in components[c].confs.keys():
print("getCompDict " + k)
if isParameterSubnode(k): # "artifact" in k or "components" in k or "instance" in k:
print("getCompDict -b- " + k)
out[components[c].name][k] = copy.deepcopy(components[c].confs[k])
return out
def isParameterSubnode(key):
for k in PARAM_NOSUBNODE:
if key in k:
return False
return True

233
ulrich/message.py
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# function for collecting and writing messages i.e. logging and calculate the return-code
# ------------------------------------------------------------------------
"""
there are two types of logging:
* log everything relevant to document the test-run in relation of the test-system and the test-effort
should be logged in order to archive these logfiles
* debug everything to know how this automatism is running should log into a debug-file. This file can be
removed after a few days
the logging is parametrized by the log-level (fatal ... trace). Especially the debug- and trace-message can be
switched on/of en detail in the functions and over special settings (parameter tool, component: these debugs should be switched on)
there are three types of functions:
* setFatal|Error|...() it logs, sets the top-message and return-code
* logFatal|Error|...() it logs without any effect for the program-result
* log()|debug(int) it logs depending on the special level-setting
at the end of a program there are some results:
* for each component there is a return-code, a top-message for documentation in the parameter-file, and a list of collected messages
+ for the main-program the result (return-code, top-message) will be summarized (the most relevant message will used)
"""
import ulrich.program
import os
import math
from datetime import datetime
import utils.path_tool
LIMIT_FATAL = 0
LIMIT_ERROR = 4
LIMIT_WARN = 8
LIMIT_MSG = 12
LIMIT_INFO = 16
LIMIT_DEBUG = 20
LIMIT_TRACE = 24
RC_OFFSET = 4
RC_FATAL = 8
RC_ERROR = 6
RC_WARN = 5
RC_MSG = 4
RC_INFO = 3
RC_DEBUG = 2
RC_TRACE = 1
class Message:
"""
Ausgaben erfolgen prioritaeten-gesteuert anhand
* Typ (fatal..trace)
* Einstellung (a) ueber Parameter ODER (b) in Funktion
Im Funktionskopf wird Einstellung gesetzt, z.B. verify=job.getDebugLevel (ggf keine Debug-Ausgabe) bzw. verify=job.getDebugLevel-1 (eingeschaltete Debug-Ausgabe)
"fatal": "4", # Abbruchfehlker, wird immer in debug und log ausgegeben, setzt RC
"error": "8", # Fehler, wird immer in debug und log ausgegeben, setzt RC
"warn": "12", # Warnung, wird immer in debug und log ausgegeben, setzt RC
"msg": "16", # Ergebnis, wird immer in debug und log ausgegeben, setzt RC
"info": "20", # Info, wird ggf. in debug und log ausgegeben, setzt RC
"debug": "24", # wird nur in debug ausgegeben, wenn log-level hoechstens auf eingestelltem job-level steht
"trace": "28", # wird nur in debug ausgegeben, wenn log-level hoechstens auf eingestelltem job-level steht
"""
def __init__(self, level, logTime, componente):
# (self, componente, out, level):
self.componente = componente # dezantrales Logsystem
#self.level = level # Vorgabe zu level zum Filtern, ob auszugebe
job = ulrich.program.Job.getInstance()
print(vars(job))
print(globals())
# exit(5)
verify = LIMIT_DEBUG
self.initErrorTyp()
self.rc = RC_INFO
if (level == 0):
self.level = LIMIT_DEBUG
else:
self.level = level
# init debugfile - except for each component
if componente is not None: # use general debugfile
self.debugfile = job.m.debugfile
self.debug(verify, "> > > debugfile uebernommen zu " + str(componente))
else:
debugpath = job.conf.confs["paths"]["debugs"] + "/debug_" + logTime[0:-4] + "00.txt"
self.debugfile = open(debugpath, "a")
self.debug(verify, "> > > debugfile geoeffnet zu " + job.program + " mit " + debugpath)
# init logfile - except for components or unittest
self.logDebug("logfile " + str(componente) + ", " + str(job.par.basedir))
if componente is not None: #
self.logfile = self.debugfile
elif job.program == "unit":
self.logfile = self.debugfile
else:
basedir = job.par.basedir
basedir = basedir.replace("base", "log")
# basedir = utils.path_tool.composePath(basedir, None)
basedir = utils.path_tool.composePath(basedir, None)
os.makedirs(basedir, exist_ok=True)
logpath = basedir + "/protokoll_" + logTime + ".txt"
self.logDebug("logfile " + logpath)
self.logfile = open(logpath, "w")
self.topmessage = ""
self.messages = []
print("message initialisiert mit level " + str(self.level))
def initErrorTyp(self):
self.CONST_ERRTYP = {
"fatal": "4", # wird immer in debug und log ausgegeben, setzt RC
"error": "8", # wird immer in debug und log ausgegeben, setzt RC
"warn": "12", # wird immer in debug und log ausgegeben, setzt RC
"msg": "16", # wird immer in debug und log ausgegeben, setzt RC
"info": "20", # wird immer in debug und log ausgegeben, setzt RC
"debug": "24", # wird nur in debug ausgegeben, wenn log-level hoechstens auf eingestelltem job-level steht
"trace": "28", # wird nur in debug ausgegeben, wenn log-level hoechstens auf eingestelltem job-level steht
"rc1": "fatal",
"rc2": "error",
"rc3": "warn",
"rc4": "info",
"rc5": "debug",
"rc6": "trace",
"1": "fatal",
"2": "error",
"3": "warn",
"4": "info",
"5": "debug",
"6": "trace"
}
def getErrortyp(self, prio):
if prio <= LIMIT_FATAL:
return "FATAL"
elif prio <= LIMIT_ERROR:
return "ERROR"
elif prio <= LIMIT_WARN:
return "WARN"
elif prio <= LIMIT_MSG:
return "MESSAGE"
elif prio <= LIMIT_INFO:
return "INFO"
elif prio <= LIMIT_DEBUG:
return "DEBUG"
elif prio <= LIMIT_TRACE:
return "TRACE"
else:
return "NDEF"
def closeMessage(self) :
self.debug(LIMIT_INFO, "closeMessage ------------------------------------------- \n")
self.logfile.close()
self.debugfile.close()
def setRc(self, rc, text):
job = ulrich.program.Job.getInstance()
verify = -0+LIMIT_DEBUG
self.debug(verify, "setRc " + str(rc) + " " + str(self.rc)+ "\n")
if (int(rc) > self.rc):
self.rc = rc
self.topmessage = self.CONST_ERRTYP["rc"+str(rc)].upper() + ": " + text
elif (int(rc) == self.rc):
self.topmessage = self.CONST_ERRTYP["rc"+str(rc)].upper() + ": " + text
def isRc(self, rc):
rcId = int(int(self.CONST_ERRTYP[rc]) / 4 - RC_OFFSET)
print("< < < isRc " + str(self.rc) + " <=? " + str(rcId))
if self.rc <= int(rcId):
print("return True")
return True
else:
print("return False")
return False
def getFinalRc(self):
if (self.rc <= RC_OFFSET):
return 0
else:
return int(int(self.rc) - RC_OFFSET)
def setFatal(self, text):
""" Routine zum Setzen des RC und gleichzeitigem Schreiben des Logs """
self.setRc(RC_FATAL, text)
self.logFatal(text)
def setError(self, text):
""" Routine zum Setzen des RC und gleichzeitigem Schreiben des Logs """
self.setRc(RC_ERROR, text)
self.logError(text)
def setWarn(self, text):
""" Routine zum Setzen des RC und gleichzeitigem Schreiben des Logs """
self.setRc(RC_WARN, text)
self.logWarn(text)
def setMsg(self, text):
""" Routine zum Setzen des RC und gleichzeitigem Schreiben des Logs """
self.setRc(RC_MSG, text)
self.logInfo(text)
def logFatal(self, text):
self.log(LIMIT_FATAL, "FATAL: " + text)
self.debug(LIMIT_FATAL, "FATAL: " + text)
def logError(self, text):
self.log(LIMIT_ERROR, "ERROR: " + text)
self.debug(LIMIT_ERROR, "ERROR: " + text)
def logWarn(self, text):
self.log(LIMIT_WARN, "WARN: " + text)
def logMsg(self, text):
self.log(LIMIT_MSG, text)
self.log(LIMIT_MSG, "MSG: " + text)
def logInfo(self, text):
self.log(LIMIT_INFO, text)
def logDebug(self, text):
self.debug(LIMIT_DEBUG, text)
def logTrace(self, text):
self.debug(LIMIT_TRACE, text)
def log(self, prio, text):
""" eigentliche Schreibroutine: hierin wird debug-Level beruecksichtgigt"""
if (int(prio) <= int(self.level)) and (self.componente is None):
self.logfile.write(text + "\n")
elif (int(prio) <= int(self.level)):
self.messages.append(text)
else:
self.debug(prio, self.getErrortyp(prio) + ": " + text)
def debug(self, prio, text):
""" eigentliche Schreibroutine: hierin wird debug-Level beruecksichtgigt"""
if (int(prio) < int(self.level)+1):
print ("debugfile " + str(self.debugfile))
self.debugfile.write(text + "\n")
def merge(self, submsg):
self.setRc(submsg.getFinalRc(), submsg.topmessage)
text = "\n".join(submsg.messages)
self.logInfo("\n"+text+"\n")

295
ulrich/program.py
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#!/usr/bin/python3
# Template Batchrahmen
#
#import sys, getopt
import argparse
import copy
import yaml
from datetime import datetime
import ulrich.message
import ulrich.message
import ulrich.componentHandling
import utils.date_tool
import utils.path_tool
jobdef = {
"unit": {
"pardef": "",
"pfilesource" : "",
"pfiletarget" : "envparfile",
"basedir": "envbase",
"logdir": "{job.par.envdir}/{log}/log_{time}.txt" },
"check_environment": {
"pardef": "",
"pfilesource" : "",
"pfiletarget" : "envparfile",
"basedir": "envbase",
"logdir": "{job.par.envdir}/{log}/log_{time}.txt" },
"init_testset": {
"pardef": "tsdir,tdtyp,tdsrc,tdname",
"pfilesource" : "envparfile",
"pfiletarget" : "tsparfile",
"basedir": "tsbase",
"logdir": "{job.par.tsdir}/{log}/log_{tstime}.txt" },
"init_testcase": {
"pardef": "tcdir,tdtyp,tdsrc,tdname",
"pfilesource" : "tsparfile",
"pfiletarget" : "tcparfile",
"basedir": "tcbase",
"logdir": "{job.par.tcdir}/{log}/log_{tctime}.txt" }
}
def setGlobal():
pass
class Job:
__instance = None
def __init__ (self, program):
print ("################# init Job ## " + program + " #################")
self.program = program
Job.__instance = self
par = Parameter(program)
self.par = par
print("prog-42 " + str(self.par.basedir))
conf = Configuration(program)
self.conf = conf
print("prog-45 " + str(self.par.basedir))
dirpath = self.par.getDirParameter()
setGlobal()
if dirpath is not None:
utils.path_tool.extractPath(dirpath[0], dirpath[1])
if program == "unit": # no job will be started
self.start = datetime.now()
logTime = self.start.strftime("%Y%m%d_%H%M%S")
self.m = ulrich.message.Message(ulrich.message.LIMIT_DEBUG, logTime, None)
print("prog-50 " + str(self.par.basedir))
def resetInstance(program):
job = Job.getInstance()
if job is not None:
job.stopJob(1)
Job.__instance = None
Job(program)
return Job.__instance
def getInstance():
if (Job.__instance is not None):
return Job.__instance
else:
return None
def startJob(self):
self.start = datetime.now()
print("prog-68 " + str(self.par.basedir))
logTime = self.start.strftime("%Y%m%d_%H%M%S")
self.m = ulrich.message.Message(ulrich.message.LIMIT_DEBUG, logTime, None)
print("prog-68 " + str(self.m.rc))
self.par.setParameterLoaded()
self.m.logInfo("# # # Start Job " + self.start.strftime("%d.%m.%Y %H:%M:%S") + " # # # ")
self.m.debug(ulrich.message.LIMIT_INFO, "# # # Start Job " + self.start.strftime("%d.%m.%Y %H:%M:%S") + " # # # ")
self.par.checkParameter()
def stopJob(self, reboot=0):
self.ende = datetime.now()
self.dumpParameter()
print("stopJob " + str(self.m.messages) + ", " + str(self.m.debugfile))
self.m.logInfo("# # " + self.m.topmessage + " # # # ")
self.m.logInfo("# # # Stop Job " + self.start.strftime("%d.%m.%Y %H:%M:%S") + " # " + self.ende.strftime("%d.%m.%Y %H:%M:%S") + " # # # ")
self.m.debug(ulrich.message.LIMIT_INFO, "# # " + self.m.topmessage + " # # # ")
self.m.debug(ulrich.message.LIMIT_INFO, "# # # Stop Job " + self.start.strftime("%d.%m.%Y %H:%M:%S") + " # " + self.ende.strftime("%d.%m.%Y %H:%M:%S") + " # # # RC: " + str(self.m.getFinalRc()))
self.m.closeMessage()
rc = self.m.getFinalRc()
print ("rc " + str(rc))
if reboot == 0:
exit(rc)
def dumpParameter(self):
parpath = utils.path_tool.composePath(jobdef[self.program]["pfiletarget"], None)
output = {}
output["comps"] = ulrich.componentHandling.getComponentDict()
output["par"] = self.par.__dict__
print(str(output))
with open(parpath, "w") as file:
doc = yaml.dump(output, file)
file.close()
def loadParameter(self):
output = {}
if len(str(jobdef[self.program]["pfilesource"])) < 2:
return None
parpath = utils.path_tool.composePath(jobdef[self.program]["pfilesource"], None)
with open(parpath, "r") as file:
doc = yaml.full_load(file)
for k in doc.keys():
output[k] = copy.deepcopy(doc[k])
return output
def getParameter(self, parameter):
if hasattr(self.par, parameter):
return getattr(self.par, parameter)
elif "xxxtime" in parameter:
neu = utils.date_tool.getActdate(utils.date_tool.F_DIR)
# setattr(self.par, parameter, neu)
return neu
def hasElement(self, parameter, elem):
if hasattr(self.par, parameter):
print (parameter + " in Parameter")
if getattr(self.par, parameter).find(elem) >= 0:
return True
return False
return True
def hascomponente(self, komp):
return self.hasElement("componente", komp)
def hasFunction(self, fct):
return self.hasElement("function", fct)
def hasTool(self, tool):
return self.hasElement("tool", tool)
def getMessageLevel(self, errtyp, elem):
if (not hasattr(self, "m")) or (self.m is None):
return ulrich.message.LIMIT_DEBUG
elif elem.find("tool") > 1:
if not hasattr(self.par, "tool") or getattr(self.par, "tool").find(elem) <= 0:
return int(self.m.CONST_ERRTYP[errtyp]) -1
else:
return int(self.m.CONST_ERRTYP[errtyp])
else:
return int(self.m.CONST_ERRTYP[errtyp])
def getInfoLevel(self, elem):
return self.getMessageLevel("info", elem)
def getDebugLevel(self, elem):
return self.getMessageLevel("debug", elem)
def getTraceLevel(self, elem):
return self.getMessageLevel("trace", elem)
def debug(self, prio, text):
print("job.debug "+str(prio)+" "+text)
if hasattr(self, "m"):
self.m.debug(prio, text)
else:
print(text)
class Parameter:
print ("class Parameter")
def __init__ (self, program):
print ("# init Parameter for " + program)
self.program = program
if program == "unit":
self.basedir = "debugs"
return
elif jobdef[program]:
self.basedir = jobdef[program]["basedir"]
elif "estcase" in program:
self.basedir = "tcbase"
elif "estset" in program:
self.basedir = "tsbase"
elif "nviron" in program:
self.basedir = "envbase"
else:
self.basedir = "debugs"
print (f"# Parameter initialisiert {self.program} mit basedir {self.basedir}")
self.setParameter()
def checkParameter(self):
job = Job.getInstance()
print (f"Parameter initialisiert {self.program}")
pardef = jobdef[job.program]["pardef"]
for p in pardef.split(","):
print(p)
if len(p) > 1 and not hasattr(self, p):
job.m.setFatal("Parameter " + p + " is not set!")
print (f"job initialisiert {self.program}")
def setParameter(self):
"""
1. Programm -- implementiert in Main-Klasse
2. anwndung -- steuert zu pruefende System [ in basis_Config ]
3. amgebung -- steuert zu pruefende Maschine [ in dir/applicationen ]
4. release -- steuert zu prufendes Release [ aus dir/release kann spez. release_Config geladen werden, dir/lauf/release ]
5. ~Verz -- Dokumentationsverzeichnis zu Testlauf/Testfall/Soll-Branch
6. zyklus -- optional unterscheidet echte und entwicklungsLaeufe
7. Programmspezifische Parameter
8. loglevel -- steuert Protokollierung; default debug (fatal/error/warn/msg/info/debug1/debug2/trace1/trace2)
10. modus -- steuert die Verarbeitung; default echt
- echt-auto Lauf aus Automatisierung (1-7)
- test Lauf ohne Ausfuehrungen am Testsystem, wohl aber in Testverzeichnissen
- echt-spez Wiederholung einer spezifischen Funktion (1-13)
- unit Ausfuehrung der Unittests
11. componente -- schraenkt Verarbeitung auf parametriserte componenten ein
12. funktion -- schraenkt Verarbeitung auf parametriserte Funktionen ein
13. tool -- schraenkt Protokollierung/Verarbeitung auf parametriserte Tools ein
"""
# args = str(sys.argv)
# print ("Job-Programm %s : " % args)
parser = argparse.ArgumentParser()
parser.add_argument('-a', '--application', required=True, action='store')
parser.add_argument('-e', '--environment', required=True, action='store')
parser.add_argument('-r', '--release', action='store')
parser.add_argument('-ts', '--tsdir', action='store')
parser.add_argument('-tc', '--tcdir', action='store')
parser.add_argument('-rs', '--rsdir', action='store')
parser.add_argument('-dt', '--tdtyp', action='store')
parser.add_argument('-ds', '--tdsrc', action='store')
parser.add_argument('-dn', '--tdname', action='store')
parser.add_argument('-l', '--loglevel', action='store')
parser.add_argument('-m', '--modus', action='store')
parser.add_argument('-c', '--componente', action='store')
parser.add_argument('-f', '--funktion', action='store')
parser.add_argument('-t', '--tool', action='store')
# parser.add_argument('-t', '--typ', default='einzel', action='store')
# parser.add_argument('-d', '--dir', action='store')
args = parser.parse_args()
self.setParameterArgs(args)
def getDirParameter(self):
if hasattr(self, "tcdir"):
return ("tcbase", str(self.tcdir))
if hasattr(self, "tsdir"):
return ("tsbase", str(self.tsdir))
return None
def setParameterArgs(self, args):
job = Job.getInstance()
print("setParArgs " + str(type(args)))
self.parstring = "python " + self.program
if "dict" in str(type(args)):
for k in args:
self.setJobAttr(k, args[k])
else:
for k in vars(args):
if getattr(args, k) is not None:
self.setJobAttr(k , getattr(args, k))
def setParameterLoaded(self):
job = Job.getInstance()
print("setParLoaded " )
readedPar = job.loadParameter()
if readedPar is not None:
for k in readedPar["par"].keys():
if not hasattr(self, k):
self.setJobAttr(k, readedPar["par"][k])
def setJobAttr(self, key, val):
setattr(self, key, val)
self.parstring = self.parstring + " --" + key + " " + val
class Configuration:
def __init__ (self, program):
self.program = program
print (f"job initialisiert {self.program}")
if program == "unit":
self.setConfiguration('../conf/basis.yml')
return
self.setConfiguration('conf/basis.yml')
def setConfiguration(self, path):
self.confs = {}
with open(path, "r") as file:
doc = yaml.full_load(file)
for i, v in doc.items():
self.confs[i] = v
print ("set conf")
print ("set configuration")

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ulrich/toolHandling.py
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#
# -------------------------------------------------
"""
Toolmanager
"""
class ToolManager:
# for c job.conf.toolscls
# c = importlib. [c].capital(c())
pass

17
unit_run.py
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#
# ----------------------------------------------------------
"""
This program is created for the business-test on the level of unit testing. On this level there is an intensive test-set up to a carthesian product possible.
The test-specification is written in a yaml-config in the data-directory.
workflow:
1. generate test-cases with all inputs into a csv-file of the spec-yaml
2. run the csv-file and collect all results into a new result-csv-file with all inputs and outputs
3. check the result-csv-file and declare it as a target-results
OR instead 2 and 3 on test-first-strategy:
3. create manually the target-result with your inputs and the target system-outputs
4. run and compare the actual-result with the target-result
5. at the end you get an xls-sheet like your result-csv-file but additionally with comparsion-result as detailed result and the only counts of passed and failed tests as minimum-result which can be inserted into management-tools
"""
# Press the green button in the gutter to run the script.
if __name__ == '__main__':
print ("start")

0
utils/__init__.py
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90
utils/config_tool.py
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#
# --------------------------------------------------------------
import sys
try:
import ulrich.program
except ImportError:
print("ImportError: " + str(ImportError.with_traceback()))
pass
import yaml
import ulrich.componentHandling
import utils.path_tool
import os.path
def getConfigPath(modul, name):
"""
gets the most specified configuration of different sources
Parameter:
* typ -- (basic, comp, tool)
* name -- the specific class
sources:
* programm <<
* install <<
* environ << basis-conf
* release << basis-conf
* testset << parameter/environ
* testcase << parameter
"""
job = ulrich.program.Job.getInstance()
verify = job.getDebugLevel("config_tool")
job.debug(verify, "getConfig " + modul + ", " + name)
if modul == "tool":
pathname = job.conf.confs.get("paths").get("home") + "/configs/tool_" + name + ".yml"
job.debug(verify, "1 " + pathname)
if os.path.exists(pathname):
return pathname
pathname = job.conf.confs.get("paths").get("program") + "/utils/configs/" + name + ".yml"
job.debug(verify, "2 " + pathname)
if os.path.exists(pathname):
return pathname
pathname = job.conf.confs.get("paths").get("environment") + "/" + job.par.environment + "/configs/tool_" + name + ".yml"
job.debug(verify, "3 " + pathname)
if os.path.exists(pathname):
return pathname
job.debug(verify, "3x " + pathname)
elif modul == "comp":
pathname = job.conf.confs.get("paths").get("home") + "/configs/comp_" + name + ".yml"
job.debug(verify, "4 " + pathname)
if os.path.exists(pathname):
return pathname
pathname = job.conf.confs.get("paths").get("program") + "/components/" + ulrich.componentHandling.getComponentFolder(name) + "/CONFIG.yml"
job.debug(verify, "5 " + pathname)
if os.path.exists(pathname):
return pathname
job.debug(verify, "6 " + pathname)
else:
pathname = utils.path_tool.composePath("tcparfile")
job.debug(verify, "7 " + pathname)
if os.path.exists(pathname):
return pathname
pathname = utils.path_tool.composePath("tsparfile")
job.debug(verify, "8 " + pathname)
if os.path.exists(pathname):
return pathname
pathname = job.conf.confs.get("paths").get("release") + "/configs/basis.yml"
job.debug(verify, "9 " + pathname)
if os.path.exists(pathname):
return pathname
pathname = job.conf.confs.get("paths").get("environment") + "/configs/basis.yml"
job.debug(verify, "10 " + pathname)
if os.path.exists(pathname):
return pathname
pathname = job.conf.confs.get("paths").get("home") + "/config/basis.yml"
job.debug(verify, "11 " + pathname)
if os.path.exists(pathname):
return pathname
job.debug(verify, "12 " + pathname)
def getConfig(modul, name):
job = ulrich.program.Job.getInstance()
verify = job.getDebugLevel("config_tool")
pathname = getConfigPath(modul, name)
confs = {}
job.debug(verify, "getConfig " + pathname)
with open(pathname, "r") as file:
job.debug(verify, "openfile")
doc = yaml.full_load(file)
for i, v in doc.items():
job.debug(verify, "item " + str(i) + ": " + str(v))
confs[i] = v
return confs

44
utils/configs/path.yml
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#
pattern:
# Keywords
log: log
parfile: PARAMETER_{job.par.application}_{job.par.environment}.yml
precond: vorher
postcond: nachher
diff: diff_fach
prediff: diff_init
rundiff: diff_ablauf
result: Ergebnisse/{comp.name}
origin: original
parts: teilergebnisse
sumfile: xxx
backup: backup
reffile: Herkunft.txt
tc: testfall
ts: testlauf
debugname: debug
logname: log
debugs: "{job.conf.home}/test/log"
# environment
envbase: "{job.conf.environment}/{job.par.environment}"
envlog: "{envbase}/{log}"
envparfile: "{envbase}/{parfile}"
# testcase
tcbase: "{job.conf.archiv}/{job.par.release}/{job.par.testcase}/{job.par.tctime}"
tclog: "{tcbase}/{log}"
tcresult: "{tcbase}/{result}"
tcparfile: "{tcbase}/{parfile}"
tcdiff: "{tcresult}/{diff}"
tcprediff: "{tcresult}/{prediff}"
tcrundiff: "{tcresult}/{rundiff}"
tcprecond: "{tcresult}/vorher"
tcpostcond: "{tcresult}/nachher"
# testset
tsbase: "{job.conf.archiv}/{job.par.release}/{job.par.usecase}_{job.par.tltime}"
tslog: "{tsbase}/{log}"
tsparfile: "{tsbase}/{parfile}"
tssum: "{tsbase}/Ergebnis"
# target-result rs
rsbase: "{job.conf.results}/{job.par.branch}"
rsresult: "{rsbase}/{result}"
rsbackup: "{rsbase}/{result}"

35
utils/configs/txt
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#
pattern:
# Keywords
log: Protokolle
parfile: PARAMETER_{job.par.application}_{job.par.environ}.yml
precond: vorher
postcond: nachher
diff: diff_fach
prediff: diff_init
rundiff: diff_ablauf
result: Ergebnisse/{comp.name}
origin: original
parts: teilergebnisse
sumfile:
backup: backup
reffile: Herkunft.txt
tc: testfall
ts: testlauf
# testcase
tcbase: {job.conf.archiv}/{job.par.release}/{job.par.testcase}/{job.par.tctime}
tcresult: {tcbase}/{result}
tcparfile: {tcbase}/{parfile}
tcdiff: {tcresult}/{diff}
tcprediff: {tcresult}/{prediff}
tcrundiff: {tcresult}/{rundiff}
precond: {tcresult}/vorher
postcond: {tcresult}/nachher
# testset
tsbase: {job.conf.archiv}/{job.par.release}/{job.par.usecase}_{job.par.tltime}
tsparfile: {tsbase}/{parfile}
tssum: {tsbase}/Ergebnis
# target-result rs
rsbase: {job.conf.results}/{job.par.branch}
rsresult: {rsbase}/{result}
rsbackup: {rsbase}/{result}

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utils/conn_tool.py
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# functions about connections to other instances
# -------------------------------------------------------------------
"""
"""
import ulrich.program
import utils.config_tool
def getConnection(comp, nr):
job = ulrich.program.Job.getInstance()
verify = job.getDebugLevel("conn_tool")
conn = {}
if job.conf.confs.get("tools").get("connsrc") == "yml":
conn = utils.config_tool.getConfig("tool", "conn")
instnr = "inst" + str(nr)
if conn["env"][comp][instnr]:
return conn["env"][comp][instnr]
else:
job.m.setFatal("Conn-Tool: Comp not configured " + comp + " " + str(nr))
elif job.conf.confs.get("tools").get("connsrc") == "db":
pass
elif job.conf.confs.get("tools").get("connsrc") == "csv":
pass
return None
def getConnections(comp):
job = ulrich.program.Job.getInstance()
verify = job.getDebugLevel("conn_tool")
print("getConnections " + comp)
conn = {}
conns = []
if job.conf.confs.get("tools").get("connsrc") == "yml":
conn = utils.config_tool.getConfig("tool", "conn")
if not comp in conn["env"]:
job.m.setFatal("Conn-Tool: Comp not configured " + comp)
elif job.conf.confs.get("tools").get("connsrc") == "db":
pass
elif job.conf.confs.get("tools").get("connsrc") == "csv":
pass
print(comp)
print(conn["env"].keys())
print(conn["env"][comp]["instance"])
for i in range(conn["env"][comp]["instance"]):
print("range " + str(i+1))
instnr = "inst" + str(i+1)
conns.append(conn["env"][comp][instnr])
return conns

12
utils/date_tool.py
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# functions related to Date-fields
# -----------------------------------------------------
"""
additionally functions for calculating date with formulas like [DATE+2M] and for comparison of date related on two reference-dates
"""
import datetime
F_DIR = "%Y-%m-%d_%H-%M-%S"
def getActdate(format):
return getFormatdate(datetime.datetime.now(), format)
def getFormatdate(date, format):
return date.strftime(format)

90
utils/file_tool.py
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# Funktionen zum Dateizugriff mit Suchen, Lesen, Schreiben
# ------------------------------------------------------------
"""
"""
import os
import os.path
import re
from ulrich.message import Message
from ulrich.program import Job
from pprint import pp
def getDump(obj):
result=""
print (str(type(obj)))
result = vars(obj)
return str(result)
# if type(obj) == "__dict__"
def getFiles(msg: Message, path, pattern, conn):
"""
search filenames in the directory - if conn is set search remote
:param msg: -- msg-Objekt
:param path: -- Pfad - String
:param pattern: -- Dateiname als Pattern
:param conn:
:return: Array mit gefundenen Dateien, nur Dateiname
"""
if conn is not None:
return getRemoteFiles(msg, path, pattern, conn)
job = Job.getInstance()
verify = int(job.getDebugLevel("file_tool"))
out = []
msg.debug(verify, "getFiles " + path + " , " + pattern)
for f in os.listdir(path):
msg.debug(verify, "getFiles " + f)
if re.search(pattern, f):
msg.debug(verify, "match " + f)
out.append(f)
return out
def getRemoteFiles(msg: Message, path, pattern, conn):
"""
search filenames in the directory - if conn is set search remote
:param msg: -- msg-Objekt
:param path: -- Pfad - String
:param pattern: -- Dateiname als Pattern
:param conn:
:return: Array mit gefundenen Dateien, nur Dateiname
"""
def getFilesRec(msg: Message, path, pattern):
"""
Sucht Dateien im Verzeichnis rekursiv
:param msg: -- msg-Objekt
:param path: -- Pfad - String
:param pattern: -- Dateiname als Pattern
:return: Array mit gefundenen Dateien, absoluter Pfad
"""
job = Job.getInstance()
verify = int(job.getDebugLevel("file_tool"))
out = []
msg.debug(verify, "getFilesRec " + path + " , " + pattern)
for (r, dirs, files) in os.walk(path):
for f in files:
msg.debug(verify, "getFilesRec " + f)
if re.search(pattern, f):
msg.debug(verify, "match " + f)
out.append(os.path.join(r, f))
return out
def getTree(msg: Message, pfad):
job = Job.getInstance()
verify = int(job.getDebugLevel("file_tool"))
msg.debug(verify, "getTree " + pfad )
tree = {}
files = []
for f in os.listdir(pfad):
if os.path.isDir(os.path.join(pfad, f)):
tree[f] = getTree(msg, os.path.join(pfad, f))
elif os.path.isFile(os.path.join(pfad, f)):
files.append(f)
tree["_files_"] = files
return tree
def mkPaths(msg, pfad):
job = Job.getInstance()
verify = int(job.getDebugLevel("file_tool"))
modus = job.conf.confs["paths"]["mode"]
os.makedirs(pfad, exist_ok=True)

31
utils/job_tool.py
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# GrundFunktionen zur Ablaufsteuerung
#
# --------------------------------------------------------
"""
1. Programm -- implementiert in Main-Klasse
2. Anwndung -- steuert zu pruefende System [ in basis_Config ]
3. application -- steuert zu pruefende Maschine [ in dir/applicationen ]
4. release -- steuert zu prufendes Release [ aus dir/release kann spez. release_Config geladen werden, dir/lauf/release ]
5. ~Verz -- Dokumentationsverzeichnis zu Testlauf/Testfall/Soll-Branch
6. zyklus -- optional unterscheidet echte und entwicklungsLaeufe
7. Programmspezifische Parameter
8. loglevel -- steuert Protokollierung; default debug (fatal/error/warn/msg/info/debug1/debug2/trace1/trace2)
10. Laufart -- steuert die Verarbeitung; default echt
- echt-auto Lauf aus Automatisierung (1-7)
- test Lauf ohne Ausfuehrungen am Testsystem, wohl aber in Testverzeichnissen
- echt-spez Wiederholung einer spezifischen Funktion (1-13)
- unit Ausfuehrung der Unittests
11. Modul -- schraenkt Verarbeitung auf parametriserte componenten ein
12. Funktion -- schraenkt Verarbeitung auf parametriserte Funktionen ein
13. Tool -- schraenkt Protokollierung/Verarbeitung auf parametriserte Tools ein
"""
from ulrich.program import Job
def hasModul(komp):
job = Job.getInstance()
return False
def hasFunction(fct):
job = Job.getInstance()
return False
def hasTool(tool):
job = Job.getInstance()
return False

98
utils/match_tool.py
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#
# ------------------------------------------------------------
"""
"""
class Matching():
def __init__(self, comp):
self.comp = comp
self.elements = {}
self.resultFiles = comp.resultFiles
self.targetFiles = comp.targetFiles
self.assignedFiles = {}
pass
def matchFiles(matching):
"""
post:
:param matching:
:return:
"""
pass
def matchBestfit(matching):
"""
in this strategy the difference-score of all elements of both sides will be calculated.
the best fit will assigned together until nothing is
* the elements can be each kind of object
* the count of elements should not be high
:param matching:
:return:
"""
hits = {}
output = []
results = {}
targets = {}
for tg in matching.elements["tgelement"]:
targets[tg] = True
for rs in matching.elements["rselement"]:
results[rs] = True
for tg in matching.elements["tgelement"]:
acthit = matching.comp.getHitscore(matching.elementtyp, matching.elements["rselement"][rs], matching.elements["tgelement"][tg])
while acthit in hits.keys():
acthit = getNextHitscore(acthit)
hits[acthit] = {}
hits[acthit]["result"] = rs
hits[acthit]["target"] = tg
for h in sorted(hits.keys()):
if results[h]["result"] and targets[h]["target"]:
results[h]["result"] = False
targets[h]["target"] = False
output.append((hits[acthit]["result"], hits[acthit]["target"]))
for rs in results.keys():
if results[rs]:
output.append((matching.elements["rselement"][rs], None))
for tg in targets.keys():
if results[rs]:
output.append((matching.elements["tgelement"][tg], None))
return output
# --------------------------------------------------------------------------
def matchTree(matching):
"""
:param matching:
:return:
"""
pass
def matchElement(matching, rs, tg):
if "array" in type(rs) and "array" in type(tg):
return matchArray(matching, rs, tg)
elif "dict" in type(rs) and "dict" in type(tg):
return matchDict(matching, rs, tg)
else:
pass
def matchDict(matching, rs, tg):
pass
def matchArray(matching, rs, tg):
pass # matchBest
# --------------------------------------------------------------------------
def matchLines(matching):
pass
# --------------------------------------------------------------------------
def getScoreint(score):
if score.is_integer():
return score
elif "h_" in score:
return int(score[2:])
def getHitscore(score):
return "h_" + ':04d'.format(getScoreint(score))
def getNextHitscore(score):
return "h_" + ':04d'.format(getScoreint(score)+1)

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utils/path_tool.py
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# All functions related to the full path.
# It implements the team conventions of the directory structure
# -----------------------------------------------------------------------
""" In diesem Modul werden alle Funktionen zusammengefasst zur Generierung und Ermittlung von pathsn """
import sys
import ulrich.program
import utils.config_tool
import re
def getKeyValue(key):
job = ulrich.program.Job.getInstance()
verify = job.getDebugLevel("path_tool")
pt = PathConf.getInstance()
print("getKeyValue " + key)
if 'job.par' in key:
neu = job.getParameter(key[8:])
return neu
elif 'job.conf' in key:
neu = job.conf.confs["paths"][key[9:]]
print(neu)
return neu
# return job.conf.confs["paths"][key[9:]]
elif (pt.pattern):
return pt.pattern[key]
print("pt exists")
else:
return "xx-"+key+"-xx"
def composePath(pathname, comp):
job = ulrich.program.Job.getInstance()
verify = job.getDebugLevel("path_tool")
pt = PathConf.getInstance()
print("composePath " + pathname + " zu " + str(pt) + "mit ")
print(pt.pattern)
if pt.pattern[pathname]:
return composePatttern(pt.pattern[pathname], comp)
else:
print("in Pattern nicht vorhanden: " + pathname)
def composePatttern(pattern, comp):
job = ulrich.program.Job.getInstance()
verify = job.getDebugLevel("path_tool")
print("composePattern " + pattern)
max=5
l = re.findall('\{.*?\}', pattern)
print(l)
for pat in l:
pit = getKeyValue(pat[1:-1])
print(str(max) + ": " + pattern + ": " + pat + ": " + pit)
pattern = pattern.replace(pat, pit)
print(str(max) + ": " + pattern + ": " + pat + ": " + pit)
while ("{" in pattern):
max = max-1
print(str(max) + ": " + pattern + ": " + pat + ": " + pit)
pattern = composePatttern(pattern, comp)
print(str(max) + ": " + pattern + ": " + pat + ": " + pit)
if (max < 3) :
break
return pattern
def extractPattern(pathtyp):
job = ulrich.program.Job.getInstance()
out = []
pt = PathConf.getInstance()
pattern = pt.pattern[pathtyp]
work = pattern
while "{" in work:
i = work.index("{")
j = work.index("}")
pre = work[0:i]
pat = work[i+1:j]
print (work + " von " + str(i) + "-" + str(j) + " pre " + pre + "pat " + pat)
pit = getKeyValue(pat)
tup = (pre, pat, pit)
out.append(tup)
work = work[j+1:]
return out
def extractPath(pathtyp, pathname):
job = ulrich.program.Job.getInstance()
patterlist = extractPattern(pathtyp)
work = pathname
i = 0
print("-- extractPatternList -- " + pathtyp + ":" + str(patterlist))
for p in patterlist:
delim = p[0]
key = p[1]
val = p[2]
nextdelim = ""
if i >= len(patterlist) - 1:
nextdelim = ""
else:
nextdelim = patterlist[i+1][0]
print("xPath delim " + delim + " " + str(len(delim)) + ", " + nextdelim + " work " + work)
work = work[len(delim):]
print("xPath key " + key + " i " + str(i) + " work " + work)
if val is not None:
print("val not none " + val)
if val in work:
print("val ok")
work = work.replace(val, "")
elif "time" in key and "job.par" in key:
prop = ""
if i < len(patterlist) - 1:
prop = work[0:work.index(nextdelim)]
else:
prop = work
key = key[8:]
print("setprop " + key + " = " + prop)
if hasattr(job.par, key): delattr(job.par, key)
setattr(job.par, key, val)
else:
print("val not not ok " + val + " zu " + key)
elif "job.par" in key:
prop = ""
if i < len(patterlist) - 1:
print("job.par nextdelim " + nextdelim)
prop = work[0:work.index(nextdelim)]
else:
prop = work
key = key[8:]
print("setprop " + key + " = " + prop)
if hasattr(job.par, key): delattr(job.par, key)
setattr(job.par, key, prop)
work = work.replace(prop, "")
else:
print("val is none " + key)
i = i +1
class PathConf:
__instance = None
def __init__(self):
print('init pathConf')
confs = utils.config_tool.getConfig("tool", "path")
self.pattern = confs["pattern"]
print(self.pattern)
PathConf.__instance = self
@staticmethod
def getInstance():
#print("PathConf getInstance " + str(PathConf.__instance))
if (PathConf.__instance is None):
PathConf()
#print("PathConf getInstance " + str(PathConf.__instance))
return PathConf.__instance

58
utils/report_tool.py
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# functions in order to report the summaries
# -------------------------------------------------------
"""
the reporting-system in bottom-up
(0) raw-data
(0.1) artificats created from test-system - raw-files up to work-files -
(0.2) in logs all contacts to test-system - raw-info -
(1) comparison-result
(1.1) comparison-result as difference for each file-comparison in html-files in testcases - diff-files -
(1.2) extraction of diff-files (only not accepted differences) as html-file in test-set - result-report -
(2) result-code
(2.1) result-code of each test-step for each component in testcases - parameter-file -
(2.2) transfer of the summary result-code of each testcase to an extern reporting-system - protocol -
(2.3) visualization of final result-code of each component and each testcase in test-set - result-report -
(2.4) visualization of statistical result-codes of each component and each test-set in test-context - result-report -
"""
import ulrich.program
def getTcExtraction(tcpath, comp):
"""
extracts the pure differences of diff-files
:param comp:
:return: html-code with links to diff-files
"""
job = ulrich.program.Job.getInstance()
verify = -0 + job.getDebugLevel("report_tool")
job.debug(verify, "writeDataTable " + str(comp))
body = '<div class="diff"><p>'
# for f in diff-files:
# body = body + extractDiffLines
body = body + '</p></div>'
return body
def getTcBody(tcpath):
"""
:param tcpath:
:return:
"""
job = ulrich.program.Job.getInstance()
verify = -0+job.getDebugLevel("report_tool")
job.debug(verify, "writeDataTable " + str(tcpath))
body = '<div class="diff"><p>'
# for c in comps:
#
body = body + '</p></div>'
return body
def getTcHeader(tcpath):
"""
creates header
:param tcpath:
:return: html-code with result-codes of each component
"""
job = ulrich.program.Job.getInstance()
verify = -0+job.getDebugLevel("report_tool")
job.debug(verify, "writeDataTable " + str(tcpath))

46
utils/ssh_tool.py
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#
# ----------------------------------------------------------
"""
"""
import os
import ulrich
import paramiko
def getRemoteClass(comp):
job = ulrich.program.Job.getInstance()
verify = job.getDebugLevel("config_tool")
if job.conf.confs.get("tools").get("remotetyp") == "ssh":
return SshCmd(comp)
class RemoteCmd:
def __init__(self):
self.rc = 0
self.sysout = ""
pass
class SshCmd(RemoteCmd):
def __init__(self, comp):
self.conn = comp
def execCmd(self, cmds):
"""
:param cmds:
:return:
"""
ssh = paramiko.SSHClient()
ssh.load_system_host_keys(os.path.expanduser('~/.ssh/known_hosts'))
if self.conn["password"]:
ssh.connect(self.conn["host"], username=self.conn["user"], password=self.conn["password"])
else:
ssh.connect(self.conn["host"], username=self.conn["user"])
shell = ssh.invoke_shell()
for cmd in cmds:
stdin, stdout, stderr = ssh.exec_command(cmd + "\n")
self.sysout = stdout.read()
stdin.close()
stderr.close()
stdout.close()
ssh.close()

135
utils/tdata_tool.py
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#
# ---------------------------------------------------------------------
"""
the issue of this tool is to transform extern data to the internal structure and the internal structure into extern data - i.e. mostly test-results.
* * * * * * * *
the testdata have several elements
* parameter (-td --tdata) : to identify which testdata should be loaded
* source (db: dbname / dir: filename) : always structured in a table (easy to specify) with columns
* node : where the rows are
* action : what should be done - default insert
+ fields : dates in relation of a reference<day or a formula
* interface : configured in components and used in comparison with attributes to each field:
* ignored - if it should be ignored on differences, it is necessary on technical ID-fields
* id-field - necessary
* * * * * * * *
the testdata itself which are written in different artifacts of modern applications are mostly stored as tree
- so as xml, json, always with plain data in the leaf. So the intern structure should be also a tree - in python: dictionary.
"""
import ulrich.program
import csv
def getSourcefile(filename):
pass
def getTestdata():
job = ulrich.program.Job.getInstance()
reftyp = getattr(job.par, "tdtyp")
source = getattr(job.par, "tdsrc")
criteria = getattr(job.par, "tdname")
tdata = {"reftyp": reftyp, "source": source, "criteria": criteria}
if reftyp == "db":
# read data-structure with sourcename
# connect to source
# select with all data with datastructure
job.m.setInfo("Test-Data readed from " + reftyp + " for " + criteria)
elif reftyp == "csv":
# read file in testdata
job.m.logInfo("Test-Data readed from " + reftyp + " for " + criteria)
else:
job.m.setFatal("test-Data: reftyp " + reftyp + " is not implemented")
return tdata
def readCsv(filename):
job = ulrich.program.Job.getInstance()
verify = -1+job.getDebugLevel("tdata_tool")
job.debug(verify, "readCsv " + filename)
fields = []
nodes = []
columns = []
output = {}
state = 0
data = []
cnt = 0
with open(filename, 'r') as file:
lines = file.read().splitlines()
for line in lines:
# while (line := file.readline().rstrip()):
fields = line.split(';')
testline = line.replace(";", "")
job.debug(verify, str(state) + " line " + line + " :" + str(len(fields)) + ": " + str(fields))
if len(testline) < 2 and state < 1:
state = 0
elif fields[0].lower() == "node":
state = 2
columns = []
cnt = len(fields)
job.debug(verify, str(state) + " cnt " + str(cnt))
j = 0
for i in range(2, cnt-1):
job.debug(verify, str(i) + " cnt " + str(fields[i]))
if len(fields[i]) > 0:
columns.append(fields[i])
j = j + 1
cnt = j
job.debug(verify, str(state) + " " + str(cnt) + " cols " + str(columns))
elif state >= 2 and len(testline) > 2:
if state == 2:
nodes = fields[0].split(":")
job.debug(verify, str(state) + " nodes " + str(nodes))
state = 3
row = {}
for i in range(2, cnt-1):
row[columns[i-2]] = fields[i]
job.debug(verify, str(state) + " row " + str(row))
data.append(row)
elif state == 3:
job.debug(verify, "structure " + str(state) + ": " + str(nodes))
output = setSubnode(0, nodes, data, output)
data = []
state = 0
print(str(output))
print(str(output))
output = setSubnode(0, nodes, data, output)
print(str(output))
file.close()
return output
def setSubnode(i, nodes, data, tree):
print("setSubnode " + str(i) + ": " + ": " + str(tree))
if i >= len(nodes):
print("setSubnode a " + str(i))
tree["data"] = data
elif tree is not None and nodes[i] in tree.keys():
print("setSubnode b " + str(i))
tree[nodes[i]] = setSubnode(i+1, nodes, data, tree[nodes[i]])
else:
print("setSubnode c " + str(i))
tree[nodes[i]] = setSubnode((i + 1), nodes, data, {})
return tree
def getDataStructure(comp):
# gets data-structure from the vml in the component-folder
job = ulrich.program.Job.getInstance()
verify = -1+job.getDebugLevel("tdata_tool")
job.debug(verify, "getDataStructure " + comp)
def normalizeDataRow(dstruct, xpathtupel, row, referencedate):
# normalize data of the row if necessary
# raw-value is saved as new field with _raw as suffix
job = ulrich.program.Job.getInstance()
verify = -1+job.getDebugLevel("tdata_tool")
job.debug(verify, "calcDataRow " + row)
def writeDataTable(teststatus, tdata, comp):
"""
writes the testdata into a csv-file for documentation of the test-run
:param teststatus:
:param tdata:
:param comp: if specific else None
:return:
"""
job = ulrich.program.Job.getInstance()
verify = -1+job.getDebugLevel("tdata_tool")
job.debug(verify, "writeDataTable " + str(comp))
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