Esempio n. 1
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    def test_module(self):
        ret = subprocess.run(
            "module --version",
            shell=True,
            stdout=subprocess.PIPE,
            stderr=subprocess.STDOUT,
        )
        print(ret.stdout)

        mod_names = ["lmod"]
        a = Module(mod_names, debug=True)
        print(a.get_command())
        print(a.test_modules())
        assert 0 == a.test_modules()

        b = Module(mod_names, force=True)
        assert 0 == b.test_modules()

        c = Module(mod_names, debug=True)
        assert 0 == c.test_modules()

        d = Module(mod_names, purge=True)
        d.get_command()

        e = Module("lmod settarg", debug=True)
        e.get_command()
Esempio n. 2
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    def _validate_modules(self, module_dict):
        """This method will validate modules by running ``module load`` test for all
        discovered modules specified in parameter ``discovered_modules``. This method
        returns a list of modules that were valid, if all tests pass we return the same
        list. A module test pass if we get a returncode 0.

        """

        if self.debug:
            print(
                f"Testing all discovered modules: {list(module_dict.values())}"
            )

        self.compiler_modules_lookup = {}
        # test all modules via 'module load' and add only modules that passed (ret: 0)
        for name, module_list in module_dict.items():
            self.compiler_modules_lookup[name] = []
            for module in module_list:
                cmd = Module(module, debug=self.debug)
                ret = cmd.test_modules(login=True)
                # if module load test passed we add entry to list
                if ret == 0:
                    self.compiler_modules_lookup[name].append(module)
Esempio n. 3
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from lmod.module import Module

a = Spider()
names = a.get_names()
print(f"Module Trees: {a.get_trees()}")
print("{:_<80}".format(""))
print(f"Unique Software: {names}")

print("\n")

parents = a.get_parents()
print(f"Parent Modules: {parents}")

print("\n")

gcc_versions = a.get_all_versions("GCC")
print(f"GCC Versions: {gcc_versions}")

print("\n")

b = Spider("/mxg-hpc/users/ssi29/easybuild-HMNS/modules/all/Core")
mod_names = b.get_modules()
print(f"Module Trees: {b.get_trees()}")
print(f"Unique Software: {b.get_names()}")
print(f"Module Names: {mod_names}")

# testing all modules
for x in mod_names:
    cmd = Module(x, debug=True)
    cmd.test_modules()
Esempio n. 4
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pass_counter = 0
fail_counter = 0
total = 0

for module in modules:
    # output of module tree is as follows '/path/to/tree:' so we remove trailing colon
    tree = module[:-1]
    # skip entry when it's module tree
    if os.path.exists(tree):
        print(f"Skipping tree: {tree}")
        continue
    if re.search("(\(default\))$", module):
        module = module.replace('(default)', '')

    cmd = Module(module, debug=True)
    ret = cmd.test_modules(login=True)
    total += 1
    # if returncode is 0 mark as PASS
    if ret == 0:
        pass_counter += 1
    else:
        fail_counter += 1

pass_rate = pass_counter * 100 / total
fail_rate = fail_counter * 100 / total

print("-------- SUMMARY ---------")
print(f"Total Pass: {pass_counter}/{total}")
print(f"Total Failure: {fail_counter}/{total}")
print(f"PASS RATE: {pass_rate:.3f}")
print(f"FAIL RATE: {fail_rate:.3f}")
Esempio n. 5
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 def test_modules_in_login(self):
     a = Module("lmod", debug=True)
     a.test_modules(login=True)
Esempio n. 6
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    def __init__(
        self,
        tree=None,
        purge=True,
        force=False,
        debug=False,
        count=999999999,
        name=[],
        include=[],
        exclude=[],
        login=False,
    ):
        """This is the initializer method for ModuleLoadTest class.

           Parameters:
           -----------
           :param tree: specify one or more module trees to test. The module tree must be root directory where modulefiles
            are found. Use a colon ``:`` to define more than one module tree.
           :type tree: str

           :param purge: control whether to run ``module purge`` before loading each module
           :type purge: bool

           :param force: control whether to run ``module --force purge`` before loading each module
           :type purge: bool

           :param login: controls whether to run test in login shell when ``login=True``. By default tests are run in sub-shell.
           :type purge: bool

           :param count: control how many tests to run before exiting
           :type purge: int

           :param name: filter modules by software name to test
           :type name: list

           :param include: specify a list of modules to **include** by full canonical name for testing
           :type purge: list

           :param exclude: specify a list of modules to **exclude** by full canonical name for testing
           :type purge: list

           :return: Result of module load test
           :rtype: None
        """

        # setting module tree to argument passed in or default to MODULEPATH
        self.tree = tree or os.getenv("MODULEPATH")
        self.debug = debug
        self.purge = purge
        self.force = force
        self.login = login
        self.count = count
        self.name = name
        self.include = include
        self.exclude = exclude
        filter_modules = None

        spider_cmd = Spider(self.tree)
        module_dict, modules = (
            spider_cmd.get_modules(self.name),
            list(spider_cmd.get_modules(self.name).values()),
        )

        if self.include:
            filter_modules = set(self.include).intersection(modules)

        # only do exclusion if include list is not specified
        if self.exclude and not self.include:
            filter_modules = set(modules).difference(self.exclude)

        modules = filter_modules or modules

        modulecount = 0

        print(f"Testing the Following Module Trees: {self.tree}")
        print("{:_<80}".format(""))

        for module_name in modules:
            module_cmd = Module(
                module_name,
                purge=self.purge,
                force=self.force,
                debug=self.debug,
            )
            ret = module_cmd.test_modules(self.login)

            # extract modulefile based on module name. This is basically getting the key from dictionary (module_dict)
            # This is only used for printing purposes since it helps to know which module is tested. Simply putting
            # the full module canonical name is not enough.
            modulefile = list(module_dict.keys())[list(
                module_dict.values()).index(module_name)]

            if ret == 0:
                print(
                    f"PASSED -  Module Name: {module_name} ( modulefile={modulefile} )"
                )
            else:
                print(
                    f"FAILED -  Module Name: {module_name} ( modulefile={modulefile} )"
                )

            modulecount += 1

            # terminate module load test once we have tested up to specified count
            if self.count <= modulecount:
                return
Esempio n. 7
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import os, sys

sys.path.insert(0, os.path.dirname(os.path.dirname(os.path.abspath(__file__))))

from lmod.module import Module

mod_names = ["GCCcore", "Python"]

a = Module(mod_names)
module_cmds = a.get_command()
rc = a.test_modules()

if rc == 0:
    print(f"The following modules:  {mod_names} were loaded successfully")
    print("\n")
    print(f"Command Executed: {module_cmds}")

# passing a module name ``invalid`` this is expected to fail during test
bad_names = ["GCCcore", "invalid"]
b = Module(bad_names)

print(f"Failed to load modules: {bad_names}")
print(f"Command Executed: {b.get_command()}")
print(f"return code: {b.test_modules()}")

# disable purge when loading modules
c = Module(mod_names, purge=False)
print(c.get_command())

# force purge modules
d = Module(mod_names, purge=True, force=True)