def test_rm(self): # init path = 'fake' self.addCleanup(clean, path) catalog = Catalog(path, force=True, debug=False) top = catalog._restore_json(get_fakecatalog()) noder = Noder() # create fake args dict args = {'<path>': '', '--recursive': False, '--verbose': True} # list files and make sure there are children args['<path>'] = '' found = cmd_ls(args, noder, top) self.assertTrue(len(found) > 0) self.assertTrue(len(top.children) == 1) # rm a not existing storage args['<storage>'] = 'abc' top = cmd_rm(args, noder, catalog, top) # rm a storage args['<storage>'] = 'tmpdir' top = cmd_rm(args, noder, catalog, top) # ensure there no children anymore self.assertTrue(len(top.children) == 0)
def test_find(self): # init catalog = Catalog('fake', force=True, debug=False) top = catalog._restore_json(get_fakecatalog()) noder = Noder() # create fake args args = { '<term>': '7544G', '--script': True, '--verbose': True, '--parent': False, '--directory': False, '--path': None, '--format': 'native' } # try to find something found = cmd_find(args, noder, top) self.assertTrue(len(found) > 0) # try to find something that does not exist args['<term>'] = 'verynotfoundnote' found = cmd_find(args, noder, top) self.assertTrue(len(found) == 0)
def test_ls(self): # init path = 'fake' self.addCleanup(clean, path) catalog = Catalog(path, force=True, debug=False) top = catalog._restore_json(get_fakecatalog()) noder = Noder() # create fake args args = {'<path>': '', '--recursive': False, '--verbose': True} # list root args['<path>'] = '' found = cmd_ls(args, noder, top) self.assertTrue(len(found) > 0) # list tmpdir that should have 5 children args['<path>'] = '/tmpdir' found = cmd_ls(args, noder, top) self.assertTrue(len(found) == 5) # list folder that should have 2 children args['<path>'] = '/tmpdir/P4C' found = cmd_ls(args, noder, top) self.assertTrue(len(found) == 2) # list folder that should have 1 children args['<path>'] = '/tmpdir/VNN' found = cmd_ls(args, noder, top) self.assertTrue(len(found) == 1) # test not existing path args['<path>'] = 'itdoesnotexist' found = cmd_ls(args, noder, top) self.assertTrue(len(found) == 0)
def test_tree(self): # init path = 'fake' self.addCleanup(clean, path) catalog = Catalog(path, force=True, verbose=False) top = catalog._restore_json(get_fakecatalog()) noder = Noder() # create fake args dict args = {'<path>': path, '--verbose': True} # print tree and wait for any errors cmd_tree(args, noder, top)
def test_index(self): # init workingdir = get_tempdir() catalogpath = create_rnd_file(workingdir, 'catalog.json', content='') self.addCleanup(clean, workingdir) dirpath = get_tempdir() self.addCleanup(clean, dirpath) # create 3 files f1 = create_rnd_file(dirpath, get_rnd_string(5)) f2 = create_rnd_file(dirpath, get_rnd_string(5)) f3 = create_rnd_file(dirpath, get_rnd_string(5)) # create 2 directories d1 = create_dir(dirpath, get_rnd_string(3)) d2 = create_dir(dirpath, get_rnd_string(3)) # fill directories with files _ = create_rnd_file(d1, get_rnd_string(4)) _ = create_rnd_file(d1, get_rnd_string(4)) _ = create_rnd_file(d2, get_rnd_string(6)) noder = Noder() top = noder.new_top_node() catalog = Catalog(catalogpath, force=True, debug=False) # create fake args tmpdirname = 'tmpdir' args = { '<path>': dirpath, '<name>': tmpdirname, '--hash': True, '--meta': ['some meta'], '--no-subsize': False, '--verbose': True } # index the directory cmd_index(args, noder, catalog, top) self.assertTrue(os.stat(catalogpath).st_size != 0) # explore the top node to find all nodes self.assertTrue(len(top.children) == 1) storage = top.children[0] self.assertTrue(len(storage.children) == 5) # ensures files and directories are in names = [x.name for x in storage.children] self.assertTrue(os.path.basename(f1) in names) self.assertTrue(os.path.basename(f2) in names) self.assertTrue(os.path.basename(f3) in names) self.assertTrue(os.path.basename(d1) in names) self.assertTrue(os.path.basename(d2) in names) for node in storage.children: if node.name == os.path.basename(d1): self.assertTrue(len(node.children) == 2) elif node.name == os.path.basename(d2): self.assertTrue(len(node.children) == 1)
def test_graph(self): # init path = 'fake' gpath = tempfile.gettempdir() + os.sep + 'graph.dot' self.addCleanup(clean, path) self.addCleanup(clean, gpath) catalog = Catalog(path, force=True, verbose=False) top = catalog._restore_json(get_fakecatalog()) noder = Noder() # create fake args dict args = {'<path>': gpath, '--verbose': True} # create the graph cmd_graph(args, noder, top) # ensure file exists self.assertTrue(os.path.exists(gpath))
def test_index(self): # init workingdir = get_tempdir() catalogpath = create_rnd_file(workingdir, 'catalog.json', content='') self.addCleanup(clean, workingdir) dirpath = get_tempdir() self.addCleanup(clean, dirpath) # create 3 files f1 = create_rnd_file(dirpath, 'file1') f2 = create_rnd_file(dirpath, 'file2') f3 = create_rnd_file(dirpath, 'file3') f4 = create_rnd_file(dirpath, 'file4') # create 2 directories d1 = create_dir(dirpath, 'dir1') d2 = create_dir(dirpath, 'dir2') # fill directories with files d1f1 = create_rnd_file(d1, 'dir1file1') d1f2 = create_rnd_file(d1, 'dir1file2') d2f1 = create_rnd_file(d2, 'dir2file1') d2f2 = create_rnd_file(d2, 'dir2file2') noder = Noder(debug=True) noder.set_hashing(True) top = noder.new_top_node() catalog = Catalog(catalogpath, force=True, debug=False) # get checksums f4_md5 = md5sum(f4) self.assertTrue(f4_md5) d1f1_md5 = md5sum(d1f1) self.assertTrue(d1f1_md5) d2f2_md5 = md5sum(d2f2) self.assertTrue(d2f2_md5) # create fake args tmpdirname = 'tmpdir' args = { '<path>': dirpath, '<name>': tmpdirname, '--hash': True, '--meta': ['some meta'], '--no-subsize': False, '--verbose': True, '--lpath': None } # index the directory unix_tree(dirpath) cmd_index(args, noder, catalog, top) self.assertTrue(os.stat(catalogpath).st_size != 0) # ensure md5 sum are in nods = noder.find_name(top, os.path.basename(f4)) self.assertTrue(len(nods) == 1) nod = nods[0] self.assertTrue(nod) self.assertTrue(nod.md5 == f4_md5) # print catalog noder.print_tree(top) # add some files and directories new1 = create_rnd_file(d1, 'newf1') new2 = create_rnd_file(dirpath, 'newf2') new3 = create_dir(dirpath, 'newd3') new4 = create_dir(d2, 'newd4') new5 = create_rnd_file(new4, 'newf5') unix_tree(dirpath) # modify files EDIT = 'edited' edit_file(d1f1, EDIT) d1f1_md5_new = md5sum(d1f1) self.assertTrue(d1f1_md5_new) self.assertTrue(d1f1_md5_new != d1f1_md5) # change file without mtime maccess = os.path.getmtime(f4) EDIT = 'edited' edit_file(f4, EDIT) # reset edit time os.utime(f4, (maccess, maccess)) f4_md5_new = md5sum(d1f1) self.assertTrue(f4_md5_new) self.assertTrue(f4_md5_new != f4_md5) # change file without mtime maccess = os.path.getmtime(d2f2) EDIT = 'edited' edit_file(d2f2, EDIT) # reset edit time os.utime(d2f2, (maccess, maccess)) d2f2_md5_new = md5sum(d2f2) self.assertTrue(d2f2_md5_new) self.assertTrue(d2f2_md5_new != d2f2_md5) # update storage cmd_update(args, noder, catalog, top) # print catalog # print(read_from_file(catalogpath)) noder.print_tree(top) # explore the top node to find all nodes self.assertTrue(len(top.children) == 1) storage = top.children[0] self.assertTrue(len(storage.children) == 8) # ensure d1f1 md5 sum has changed in catalog nods = noder.find_name(top, os.path.basename(d1f1)) self.assertTrue(len(nods) == 1) nod = nods[0] self.assertTrue(nod) self.assertTrue(nod.md5 != d1f1_md5) self.assertTrue(nod.md5 == d1f1_md5_new) # ensure f4 md5 sum has changed in catalog nods = noder.find_name(top, os.path.basename(f4)) self.assertTrue(len(nods) == 1) nod = nods[0] self.assertTrue(nod) self.assertTrue(nod.md5 != f4_md5) self.assertTrue(nod.md5 == f4_md5_new) # ensure d2f2 md5 sum has changed in catalog nods = noder.find_name(top, os.path.basename(d2f2)) self.assertTrue(len(nods) == 1) nod = nods[0] self.assertTrue(nod) self.assertTrue(nod.md5 != d2f2_md5) self.assertTrue(nod.md5 == d2f2_md5_new) # ensures files and directories are in names = [node.name for node in anytree.PreOrderIter(storage)] print(names) self.assertTrue(os.path.basename(f1) in names) self.assertTrue(os.path.basename(f2) in names) self.assertTrue(os.path.basename(f3) in names) self.assertTrue(os.path.basename(f4) in names) self.assertTrue(os.path.basename(d1) in names) self.assertTrue(os.path.basename(d1f1) in names) self.assertTrue(os.path.basename(d1f2) in names) self.assertTrue(os.path.basename(d2) in names) self.assertTrue(os.path.basename(d2f1) in names) self.assertTrue(os.path.basename(new1) in names) self.assertTrue(os.path.basename(new2) in names) self.assertTrue(os.path.basename(new3) in names) self.assertTrue(os.path.basename(new4) in names) self.assertTrue(os.path.basename(new5) in names) for node in storage.children: if node.name == os.path.basename(d1): self.assertTrue(len(node.children) == 3) elif node.name == os.path.basename(d2): self.assertTrue(len(node.children) == 3) elif node.name == os.path.basename(new3): self.assertTrue(len(node.children) == 0) elif node.name == os.path.basename(new4): self.assertTrue(len(node.children) == 1) self.assertTrue(read_from_file(d1f1) == EDIT) # remove some files clean(d1f1) clean(d2) clean(new2) clean(new4) # update storage cmd_update(args, noder, catalog, top) # ensures files and directories are (not) in names = [node.name for node in anytree.PreOrderIter(storage)] print(names) self.assertTrue(os.path.basename(f1) in names) self.assertTrue(os.path.basename(f2) in names) self.assertTrue(os.path.basename(f3) in names) self.assertTrue(os.path.basename(f4) in names) self.assertTrue(os.path.basename(d1) in names) self.assertTrue(os.path.basename(d1f1) not in names) self.assertTrue(os.path.basename(d1f2) in names) self.assertTrue(os.path.basename(d2) not in names) self.assertTrue(os.path.basename(d2f1) not in names) self.assertTrue(os.path.basename(d2f1) not in names) self.assertTrue(os.path.basename(new1) in names) self.assertTrue(os.path.basename(new2) not in names) self.assertTrue(os.path.basename(new3) in names) self.assertTrue(os.path.basename(new4) not in names) self.assertTrue(os.path.basename(new5) not in names) for node in storage.children: if node.name == os.path.basename(d1): self.assertTrue(len(node.children) == 2) elif node.name == os.path.basename(new3): self.assertTrue(len(node.children) == 0)
def test_index(self): # init workingdir = get_tempdir() catalogpath = create_rnd_file(workingdir, 'catalog.json', content='') self.addCleanup(clean, workingdir) dirpath = get_tempdir() self.addCleanup(clean, dirpath) # create 3 files f1 = create_rnd_file(dirpath, 'file1') f2 = create_rnd_file(dirpath, 'file2') f3 = create_rnd_file(dirpath, 'file3') # create 2 directories d1 = create_dir(dirpath, 'dir1') d2 = create_dir(dirpath, 'dir2') # fill directories with files d1f1 = create_rnd_file(d1, 'dir1file1') d1f2 = create_rnd_file(d1, 'dir1file2') d2f1 = create_rnd_file(d2, 'dir2file1') noder = Noder() top = noder.new_top_node() catalog = Catalog(catalogpath, force=True, verbose=False) # create fake args tmpdirname = 'tmpdir' args = { '<path>': dirpath, '<name>': tmpdirname, '--hash': True, '--meta': ['some meta'], '--no-subsize': False, '--verbose': True } # index the directory unix_tree(dirpath) cmd_index(args, noder, catalog, top, debug=True) self.assertTrue(os.stat(catalogpath).st_size != 0) # print catalog noder.print_tree(top) # add some files and directories new1 = create_rnd_file(d1, 'newf1') new2 = create_rnd_file(dirpath, 'newf2') new3 = create_dir(dirpath, 'newd3') new4 = create_dir(d2, 'newd4') new5 = create_rnd_file(new4, 'newf5') unix_tree(dirpath) # modify files EDIT = 'edited' edit_file(d1f1, EDIT) # update storage cmd_update(args, noder, catalog, top, debug=True) # print catalog # print(read_from_file(catalogpath)) noder.print_tree(top) # explore the top node to find all nodes self.assertTrue(len(top.children) == 1) storage = top.children[0] self.assertTrue(len(storage.children) == 7) # ensures files and directories are in names = [node.name for node in anytree.PreOrderIter(storage)] print(names) self.assertTrue(os.path.basename(f1) in names) self.assertTrue(os.path.basename(f2) in names) self.assertTrue(os.path.basename(f3) in names) self.assertTrue(os.path.basename(d1) in names) self.assertTrue(os.path.basename(d1f1) in names) self.assertTrue(os.path.basename(d1f2) in names) self.assertTrue(os.path.basename(d2) in names) self.assertTrue(os.path.basename(d2f1) in names) self.assertTrue(os.path.basename(new1) in names) self.assertTrue(os.path.basename(new2) in names) self.assertTrue(os.path.basename(new3) in names) self.assertTrue(os.path.basename(new4) in names) self.assertTrue(os.path.basename(new5) in names) for node in storage.children: if node.name == os.path.basename(d1): self.assertTrue(len(node.children) == 3) elif node.name == os.path.basename(d2): self.assertTrue(len(node.children) == 2) elif node.name == os.path.basename(new3): self.assertTrue(len(node.children) == 0) elif node.name == os.path.basename(new4): self.assertTrue(len(node.children) == 1) self.assertTrue(read_from_file(d1f1) == EDIT) # remove some files clean(d1f1) clean(d2) clean(new2) clean(new4) # update storage cmd_update(args, noder, catalog, top, debug=True) # ensures files and directories are (not) in names = [node.name for node in anytree.PreOrderIter(storage)] print(names) self.assertTrue(os.path.basename(f1) in names) self.assertTrue(os.path.basename(f2) in names) self.assertTrue(os.path.basename(f3) in names) self.assertTrue(os.path.basename(d1) in names) self.assertTrue(os.path.basename(d1f1) not in names) self.assertTrue(os.path.basename(d1f2) in names) self.assertTrue(os.path.basename(d2) not in names) self.assertTrue(os.path.basename(d2f1) not in names) self.assertTrue(os.path.basename(new1) in names) self.assertTrue(os.path.basename(new2) not in names) self.assertTrue(os.path.basename(new3) in names) self.assertTrue(os.path.basename(new4) not in names) self.assertTrue(os.path.basename(new5) not in names) for node in storage.children: if node.name == os.path.basename(d1): self.assertTrue(len(node.children) == 2) elif node.name == os.path.basename(new3): self.assertTrue(len(node.children) == 0)