def copy(src_dic, dst, pattern, pretend):
    for dirname, subdirs, subfiles, dirfd in os.fwalk(dst):
        for fname in flt(subfiles, pattern):
            src_info = src_dic.get(fname)
            if not src_info:
                continue
            if not isinstance(src_info, dict):
                src_info = src_dic[fname] = hash_files(src_info)

            st = os.stat(fname, dir_fd=dirfd)
            if not stat.S_ISREG(st.st_mode):
                continue

            h = hash_file(fname, dir_fd=dirfd)

            src_file = src_info.get(h)
            if src_file:
                dst_path = os.path.join(dirname, fname)
                src_mtime_ns = src_file.mtime_ns
                print('{h} {mtime:%Y-%m-%d %H:%M:%S.%f} {src} => {dst}'.format(
                      src=src_file.path,
                      dst=dst_path,
                      mtime=datetime.fromtimestamp(src_mtime_ns / 1.e9),
                      h=binascii.hexlify(h).decode()))
                if not pretend:
                    os.utime(fname, dir_fd=dirfd,
                             ns=(src_mtime_ns, src_mtime_ns))
Exemple #2
0
def clean_empty_temp_dirs(args):
    for dirpath, dirnames, filenames, dirfd in os.fwalk('.', topdown=False,
                                                        dir_fd=args.temp_fd):
        if not dirnames and not filenames:
            try:
                os.rmdir(dirpath, dir_fd=args.temp_fd)
            except OSError:
                pass
Exemple #3
0
def find_local_finished_files(args, remote_file_set):
    res = []
    for dirpath, dirnames, filenames, dirfd in os.fwalk('.',
                                                        dir_fd=args.temp_fd):
        for name in filenames:
            full = os.path.normpath(os.path.join(dirpath, name))
            if full not in remote_file_set:
                res.append(full)
    return res
Exemple #4
0
def purge_directory(directory, max_age):
    """
    Remove all expired tiles in cache subdirectory.

    `directory` should be a relative directory under
    :attr:`poor.conf.CACHE_HOME_DIR`. `max_age` should be age in days,
    tiles older which to remove.
    """
    if not directory: return
    basename = directory
    if not poor.CACHE_HOME_DIR:
        # This shouldn't happen, but just in case it does,
        # let's try to avoid a disaster.
        raise Exception("poor.CACHE_HOME_DIR not set")
    directory = os.path.join(poor.CACHE_HOME_DIR, directory)
    directory = os.path.realpath(directory)
    if not os.path.isdir(directory): return
    if not "poor-maps" in directory:
        # This shouldn't happen, but just in case it does,
        # let's try to avoid a disaster.
        raise Exception("Suspicious value for cache directory: {}"
                        .format(repr(directory)))

    print("Purging cache >{:3.0f}d {:28s}..."
          .format(max_age, basename), end="")
    cutoff = time.time() - max_age * 86400
    total = removed = 0
    # Only follow symlinks for the directory itself, not its children
    # in order to simplify matters and do a safe bottomup walk.
    for root, dirs, files, rootfd in os.fwalk(
            directory, topdown=False, follow_symlinks=False):
        total += len(files)
        for name in files:
            if os.stat(name, dir_fd=rootfd).st_mtime < cutoff:
                with poor.util.silent(OSError):
                    os.remove(name, dir_fd=rootfd)
                    removed += 1
        for name in dirs:
            with poor.util.silent(OSError):
                # Fails if the directory is not empty.
                # Fails if the directory is a symlink.
                os.rmdir(name, dir_fd=rootfd)
        # Release GIL to let other threads do something more important.
        time.sleep(0.000001)
    with poor.util.silent(OSError):
        # Fails if the directory is not empty.
        # Fails if the directory is a symlink.
        os.rmdir(directory)
    print(" {:6d} rm, {:6d} left."
          .format(removed, total - removed))
    if removed > 0:
        # Make sure application doesn't try to use tiles that were allocated
        # before this purge, but whose files have now been removed.
        poor.app.tilecollection.clear_removed()
        pyotherside.send("queue-update")
Exemple #5
0
	def remove(self):
		def onerror(exc):
			raise exc

		for root, dirs, files, root_fd in fwalk(dir_fd = self.backupdir_fd, topdown = False, onerror = onerror):
			for name in files:
				unlink(name, dir_fd = root_fd)
			for name in dirs:
				rmdir(name, dir_fd = root_fd)

		rmdir(str(self.backupdir), dir_fd = self.host.hostdir_fd)
Exemple #6
0
 def should_build(self):
     try:
         destination_time = getmtime(self.destination)
     except FileNotFoundError:
         return True
     for root, dirs, files, rootfd in fwalk(self.src):
         for filename in files:
             file_path = join(root, filename)
             if destination_time < getmtime(file_path):
                 return True
     return False
def init_src_dic(src, pattern):
    dic = {}

    for dirname, subdirs, subfiles, dirfd in os.fwalk(src):
        for skip in SKIP_DIRS:
            if skip in subdirs:
                subdirs.remove(skip)
        for fname in flt(subfiles, pattern):
            st = os.stat(fname, dir_fd=dirfd, follow_symlinks=False)
            if stat.S_ISREG(st.st_mode):
                fullname = os.path.join(dirname, fname)
                dic.setdefault(fname, []).append(fullname)

    return dic
Exemple #8
0
	def backup(self):
		backupdir = self.backupdir
		backupdir_fd = self.backupdir_fd

		flock(backupdir_fd, LOCK_EX|LOCK_NB)

		def onerror(exc):
			raise exc

		for root, dirs, files, root_fd in fwalk(dir_fd = backupdir_fd, topdown = False, onerror = onerror):
			for name in files:
				unlink(name, dir_fd = root_fd)
			for name in dirs:
				rmdir(name, dir_fd = root_fd)

		env = self.env
		config = self.config
		shares_info = {}
		info = dict(level = self.level, failed = False, shares = shares_info)

		with config.setenv(env):
			self.pre_command(fruitbak = self.fruitbak, host = self.host, newbackup = self)

			info['startTime'] = time_ns()

			for share_config in self.shares:
				combined_config = config.copy()
				combined_config.update(share_config)
				share = NewShare(config = combined_config, newbackup = self)
				shares_info[share.name] = share.backup()

			self.agent.sync()

			info['endTime'] = time_ns()

			self.post_command(fruitbak = self.fruitbak, host = self.host, newbackup = self)

		with open('info.json', 'w', opener = backupdir_fd.opener) as fp:
			dump_json(info, fp)

		hostdir_fd = self.host.hostdir_fd

		self.hashes_fp.close()
		Hashset.sortfile('hashes', self.fruitbak.hash_size, dir_fd = backupdir_fd)

		rename('new', str(self.index), src_dir_fd = hostdir_fd, dst_dir_fd = hostdir_fd)

		return info
Exemple #9
0
def get_files(path=settings.COURSE_PATH):
    """ Find sub folders and files on the path """
    if path[-1] != "/":
        path += "/"
    directories = defaultdict(dict)
    for root, folder, files, _ in os.fwalk(path):
        files = [file for file in files if not re.search("^\.", file)]
        root_without_path = root.replace(path, "").split("/")
        if root_without_path[0]:
            index = directories
            for level, under_level in enumerate(root_without_path, start=1):
                if under_level in index:
                    index = index[under_level]['folders']
                else:
                    get_folder_file(files, under_level, index)
        elif files:
            folder = root.split("/")[-2]
            get_folder_file(files, folder, directories)
    return directories
Exemple #10
0
def main():
    home_path = os.path.expanduser('~')
    files_path = os.path.join(home_path, 'Documents')
    file_list = os.fwalk(files_path)
    counter = 0
    for loc_f in file_list:
        # print()

        for i_file in loc_f[2]:
            counter += 1
            file_path = os.path.join(loc_f[0], i_file)
            # print(file_path)
            file_hash = get_hash(file_path)
            # print(file_hash)
            to_dict(file_hash)

    pprint.pprint(let_dict)
    print('Overall count: ', counter)

    print('Std is: ', np.std([i for i in let_dict.values()]))
Exemple #11
0
def copytree_owner(src, dest, userid):
    """
    Copy the contents of a directory but ignore files not owned by `userid`.
    """
    src = os.path.abspath(src)
    dest = os.path.abspath(dest)

    for root, dirs, files, rootfd in os.fwalk(src):
        assert root.startswith(src)
        local_dest = root[len(src) + 1:]
        local_dest = os.path.join(dest, local_dest)

        root_owner = os.fstat(rootfd).st_uid
        if root != src and root_owner != userid:
            logger.critical(
                "Found dir with invalid owner. %s should be "
                "owned by %s but is owned by %s. Can not write "
                "to dropbox", root, userid, root_owner)
            continue

        for file in files:

            def opener(f, flags):
                return os.open(f, flags, dir_fd=rootfd)

            with open(file, 'rb', opener=opener) as fsrc:
                owner = os.fstat(fsrc.fileno()).st_uid
                if userid is not None and owner != userid:
                    logger.critical(
                        "Found file with invalid owner. %s should "
                        "be owned by %s but is owned by %s. Can "
                        "not write to dropbox", os.path.join(root, file),
                        userid, owner)
                    continue
                with open(os.path.join(local_dest, file), 'wb') as fdst:
                    shutil.copyfileobj(fsrc, fdst)

        for dir in dirs:
            os.mkdir(os.path.join(local_dest, dir), 0o700)
Exemple #12
0
def deepscan_dir(dirname, crud_object, indexfile=None):

    if not indexfile:
        indexfile = os.path.join(dirname, '.index.db')
    index = shelve.open(indexfile)
    for root, dirs, files, dir_fd in os.fwalk(dirname):
        current_state = DirObject(files, dirs, dir_fd)
        if root not in index:
            previous_state = DirObject([], [], None)
        else:
            previous_state = index[root]
        # deleted files
        for name in previous_state.mtimed_files.keys(
        ) - current_state.mtimed_files.keys():
            crud_object.delete(os.path.join(root, name))
        # created files
        for name in current_state.mtimed_files.keys(
        ) - previous_state.mtimed_files.keys():
            crud_object.create(os.path.join(root, name))
        # updated files
        for name in current_state.mtimed_files:
            if name in previous_state.mtimed_files and \
                previous_state.mtimed_files[name]!=current_state.mtimed_files[name]:
                crud_object.update(os.path.join(root, name))
        # deleted dirs (TODO: recursively)
        roots_to_delete = []
        for dirname in previous_state.dirs_set - current_state.dirs_set:
            prefix = dirname
            for root_dirname, dirobject in index.items():
                if root_dirname.startswith(prefix):
                    for name in dirobject.mtimed_files:
                        crud_object.delete(os.path.join(root_dirname, name))
                    roots_to_delete.append(root_dirname)
        for root_dirname in roots_to_delete:
            del index[root_dirname]
        if root not in index or index[root] != current_state:
            index[root] = current_state
    index.close()
Exemple #13
0
def copy_common_notebooks(staging_notebooks_dir):
    common_folders_files = [f for f in os.listdir('pynq/notebooks/')]
    for basename in common_folders_files:
        if basename != 'arch':
            dst_folder_file = os.path.join(staging_notebooks_dir, basename)
            src_folder_file = os.path.join('pynq/notebooks/', basename)

            if os.path.isdir(src_folder_file):
                copy_tree(src_folder_file, dst_folder_file)
            elif os.path.isfile(src_folder_file):
                copy_file(src_folder_file, dst_folder_file)
    if os.path.exists(os.path.join('pynq/notebooks/arch', CPU_ARCH)):
        dir_fd = os.open(os.path.join('pynq/notebooks/arch', CPU_ARCH),
                         os.O_RDONLY)
        dirs = os.fwalk(dir_fd=dir_fd)
        for dir, _, files, _ in dirs:
            if not os.path.exists(os.path.join(staging_notebooks_dir, dir)):
                os.mkdir(os.path.join(staging_notebooks_dir, dir))
            for f in files:
                copy_file(
                    os.path.join('pynq/notebooks/arch', CPU_ARCH, dir, f),
                    os.path.join(staging_notebooks_dir, dir, f))
        os.close(dir_fd)
 def compile_all(self):
     import time
     t_ini = time.time()
     with futures.ThreadPoolExecutor(max_workers=5) as tpe:
         for cur_dir, dirs, files, root_fd in os.fwalk(top=self.src_path):
             rel_path = os.path.relpath(cur_dir, self.src_path)
             compiled_dir_path = os.path.join(self.out_path, rel_path)
             mkdirs_called = False
             for file_i in files:
                 if self.exclude_regex is not None and self.exclude_regex.match(file_i):
                     continue
                 # only create dirs and files if the compilation is successful and the files are not excluded
                 if not mkdirs_called:
                     os.makedirs(compiled_dir_path, exist_ok=True)
                     mkdirs_called = True
                 file_src_i = os.path.join(cur_dir, file_i)
                 file_i_name, file_i_ext = os.path.splitext(file_i)
                 compiled_out_path = os.path.normpath(
                                                       os.path.join(compiled_dir_path,
                                                                    file_i_name + self.ext_replace)
                                                      )
                 tpe.submit(self.compile_and_save, file_src_i, compiled_out_path)
         tpe.shutdown(wait=True)
         print(time.time()-t_ini)
Exemple #15
0
def stat_directory(directory):
    """
    Return file count and total size of cache subdirectory.

    `directory` should be a relative directory under
    :attr:`poor.conf.CACHE_HOME_DIR`.
    """
    count = 0
    bytes = 0
    basename = directory
    directory = os.path.join(poor.CACHE_HOME_DIR, directory)
    directory = os.path.realpath(directory)
    if os.path.isdir(directory):
        for root, dirs, files, rootfd in os.fwalk(directory,
                                                  follow_symlinks=False):
            count += len(files)
            bytes += sum(os.stat(x, dir_fd=rootfd).st_size for x in files)
    names = dict((x["pid"], x["name"]) for x in poor.util.get_tilesources())
    name = names.get(basename, basename)
    return dict(directory=basename,
                name=name,
                count=count,
                bytes=bytes,
                size=poor.util.format_filesize(bytes))
def build_mlflow_model(homedir):
    from sklearn import datasets
    from sklearn.ensemble import RandomForestClassifier
    import mlflow
    import mlflow.sklearn
    from mlflow.models.signature import infer_signature
    import pandas as pd
    from mlflow.tracking._model_registry import fluent

    mlflow.set_tracking_uri('http://localhost:5000')
    with mlflow.start_run() as run:
        iris = datasets.load_iris()
        iris_train = pd.DataFrame(iris.data, columns=iris.feature_names)
        clf = RandomForestClassifier(max_depth=7, random_state=0)
        clf.fit(iris_train, iris.target)
        signature = infer_signature(iris_train, clf.predict(iris_train))
        model_name = "iris_rf"
        mlflow.sklearn.log_model(clf,
                                 model_name,
                                 signature=signature,
                                 registered_model_name=model_name)
        logging.info('runs:', os.fwalk(homedir))
        return fluent.MlflowClient().get_model_version_download_uri(
            name=model_name, version=1)
Exemple #17
0
def stat_directory(directory):
    """
    Return file count and total size of cache subdirectory.

    `directory` should be a relative directory under
    :attr:`poor.conf.CACHE_HOME_DIR`.
    """
    count = 0
    bytes = 0
    basename = directory
    directory = os.path.join(poor.CACHE_HOME_DIR, directory)
    directory = os.path.realpath(directory)
    if os.path.isdir(directory):
        for root, dirs, files, rootfd in os.fwalk(
                directory, follow_symlinks=False):
            count += len(files)
            bytes += sum(os.stat(x, dir_fd=rootfd).st_size for x in files)
    names = dict((x["pid"], x["name"]) for x in poor.util.get_tilesources())
    name = names.get(basename, basename)
    return dict(directory=basename,
                name=name,
                count=count,
                bytes=bytes,
                size=poor.util.format_filesize(bytes))
Exemple #18
0
 def clean_temp(self):
     for it in os.fwalk('/tmp'):
         if 'OVAL_NVD_' in it[0]:
             shutil.rmtree(it[0])
     return
Exemple #19
0
        DELIMITER ';',
        NULL '',
        HEADER false,
        QUOTE '"',
        ENCODING 'LATIN-1'
        ); """ % (table_name, file_csv)

    get_ipython().magic('sql {copy}')


# In[ ]:

import codecs
consulta_cand_dir = e2016_tse_home + "/consulta_cand_2016"

for root, dirs, files, rootfd in os.fwalk(consulta_cand_dir, topdown=False):
    for filename in files:
        file_full_name = consulta_cand_dir + '/' + filename
        name = filename.split(".")
        if name[1] == "txt":
            fname = name[0]
            uf = fname[-2:]
            table_name = ('tse_' + uf + '.' + fname).lower()
            print(table_name, ' <-- ', file_full_name)
            create_table_consulta_cand(table_name)
            load_csv_into_table(table_name, file_full_name)

# ## Importa arquivos prestacao_contas_final_2016

# In[ ]:
Exemple #20
0
 def walk(self):
     for root, dirs, files, rootfd in os.fwalk(self._topdir):
         self.get_directory_entries(root, rootfd, files)
Exemple #21
0
import os

for i in os.fwalk("."):
    print(i)
    for f in i[2]:
        print(f)



for i in os.walk("."):
    print(i)



process = os.popen("ls -la")

print(process)
 def clean_temp(self):
     for it in os.fwalk('/tmp'):
         if 'OVAL_NVD_' in it[0]:
             shutil.rmtree(it[0])
     return
Exemple #23
0
def find_function_files() -> List[str]:
    path, base, files, _ = list(os.fwalk())[0]
    server_funcs = [
        i for i in files if i[:len('server_func')] == 'server_func'
    ]
    return server_funcs
Exemple #24
0
def empty_the_dir(top):
    '''remove files and folders from the bottom of the tree upwards'''
    for _, dirs, files, rootfd in os.fwalk(top, topdown=False):
        _ = [os.remove(name, dir_fd=rootfd) for name in files]
        _ = [os.rmdir(name, dir_fd=rootfd) for name in dirs]
import sys, os, re

if len(sys.argv) != 3:
  print("Usage: {} <directory> <suffix>".format(sys.argv[0]))
  exit(1)

directory, suffix = sys.argv[1:3]
regex = re.compile("\.{}$".format(suffix))

for root, dirs, files, rootfd in os.fwalk(directory):
  for filename in files:
    if regex.search(filename):
      print(os.path.abspath(os.path.join(root, filename)))

Exemple #26
0
    def _walk(
            self, directory: ty.Union[ty.AnyStr, int],
            directory_str: ty.Optional[ty.AnyStr], matcher: Matcher[ty.AnyStr],
            follow_symlinks: bool, intermediate_dirs: bool
    ) -> ty.Generator[FSNodeEntry, ty.Any, None]:
        sep = (
            utils.maybe_fsencode(os.path.sep, directory_str)  # type: ty.AnyStr
            if directory_str is not None else os.path.sep)
        dot = utils.maybe_fsencode(".", sep)  # type: ty.AnyStr

        # Identify the leading portion of the `dirpath` returned by `os.walk`
        # that should be dropped
        if not isinstance(directory, int):
            while directory.endswith(sep):
                directory = directory[:-len(sep)]
        prefix = (directory if not isinstance(directory, int) else dot) + sep

        reported_directories = set()  # type: ty.Set[ty.AnyStr]

        # Always report the top-level directory even if nothing therein is matched
        reported_directories.add(utils.maybe_fsencode("", sep))
        yield FSNodeEntry(type=FSNodeType.DIRECTORY,
                          path=prefix[:-len(sep)],
                          relpath=dot,
                          name=dot,
                          parentfd=None)

        if not isinstance(directory, int):
            walk_iter = os.walk(directory, followlinks=follow_symlinks)
        else:
            walk_iter = os.fwalk(dot,
                                 dir_fd=directory,
                                 follow_symlinks=follow_symlinks)
        try:
            for result in walk_iter:
                dirpath, dirnames, filenames = result[0:3]
                dirfd = result[3] if len(result) > 3 else None

                # Remove the directory prefix from the received path
                _, _, dirpath = dirpath.partition(prefix)

                # Keep track of reported intermediaries, so that we only check for
                # these at most once per directory base
                intermediates_reported = False  # type: bool

                for filename, is_dir in self._join_dirs_and_files(
                        list(dirnames), filenames):
                    filepath = os.path.join(dirpath, filename)

                    # Check if matcher thinks we should descend into this directory
                    if is_dir and not matcher.should_descend(filepath):
                        dirnames.remove(filename)

                    # Check if matcher thinks we should report this node
                    if not matcher.should_report(filepath, is_dir=is_dir):
                        continue

                    # Ensure that all containing directories are reported
                    # before reporting this node
                    if not intermediates_reported and intermediate_dirs:
                        parts = dirpath.split(sep)
                        for end_offset in range(len(parts)):
                            parent_dirpath = sep.join(parts[0:(end_offset +
                                                               1)])
                            if parent_dirpath not in reported_directories:
                                reported_directories.add(parent_dirpath)
                                yield FSNodeEntry(type=FSNodeType.DIRECTORY,
                                                  path=(prefix +
                                                        parent_dirpath),
                                                  relpath=parent_dirpath,
                                                  name=parts[end_offset],
                                                  parentfd=None)
                        intermediates_reported = True

                    # Report the target file or directory
                    if is_dir:
                        reported_directories.add(filepath)
                        yield FSNodeEntry(type=FSNodeType.DIRECTORY,
                                          path=(prefix + filepath),
                                          relpath=filepath,
                                          name=filename,
                                          parentfd=dirfd)
                    else:
                        yield FSNodeEntry(type=FSNodeType.FILE,
                                          path=(prefix + filepath),
                                          relpath=filepath,
                                          name=filename,
                                          parentfd=dirfd)
        finally:
            # Make sure the file descriptors bound by `os.fwalk` are freed on error
            walk_iter.close()

            # Close root file descriptor of `os.fwalk` as well
            if self._close_fd is not None:
                os.close(self._close_fd)
                self._close_fd = None

if __name__ == "__main__":
    parser = OptionParser()
    parser.add_option("-d",
                      "--dir",
                      dest="dirname",
                      action="store",
                      type="string",
                      help="write report to FILE",
                      default="/home/dev/githubClone/shadowsocks")
    (options, args) = parser.parse_args()
    import pdb
    pdb.set_trace()
    db = SQLiteWraper('root', 'root', '127.0.0.1', 'walkdir')
    dirwalk = os.fwalk(options.dirname)
    smbwalk = getsmbwalklist('192.168.1.1', 'Expansion_Drive(1)', 'admin',
                             'Ab860813', '/qzfs/yy/aido')
    # composewalk = chain(dirwalk,smbwalk);
    for root, dirs, files, rootfd in dirwalk:
        #print(root, dirs, files, rootfd)
        for f in files:
            appendfix = getappendfix(f)
            filehere = os.path.join(root, f)
            dbresult = db.select("select * from filedict where filedir = '" +
                                 filehere.replace("'", "_") + "'")
            if (len(dbresult) == 0):
                insertsql = "insert into filedict (filedir,filename,appendfix) values ('" + filehere.replace(
                    "'", "_") + "','" + f.replace(
                        "'", "_") + "','" + appendfix + "')"
                db.execute(insertsql)
Exemple #28
0
os.symlink(src="src",
           dst="dst")  # $ getAPathArgument="src" getAPathArgument="dst"

os.truncate("path", 42)  # $ getAPathArgument="path"
os.truncate(path="path", length=42)  # $ getAPathArgument="path"

os.unlink("path")  # $ getAPathArgument="path"
os.unlink(path="path")  # $ getAPathArgument="path"

os.utime("path")  # $ getAPathArgument="path"
os.utime(path="path")  # $ getAPathArgument="path"

os.walk("top")  # $ getAPathArgument="top"
os.walk(top="top")  # $ getAPathArgument="top"

os.fwalk("top")  # $ getAPathArgument="top"
os.fwalk(top="top")  # $ getAPathArgument="top"

# Linux only
os.getxattr("path", "attribute")  # $ getAPathArgument="path"
os.getxattr(path="path", attribute="attribute")  # $ getAPathArgument="path"

# Linux only
os.listxattr("path")  # $ getAPathArgument="path"
os.listxattr(path="path")  # $ getAPathArgument="path"

# Linux only
os.removexattr("path", "attribute")  # $ getAPathArgument="path"
os.removexattr(path="path", attribute="attribute")  # $ getAPathArgument="path"

# Linux only
Exemple #29
0
def all_files(which_dir):
    for songs in os.fwalk(which_dir):
        return songs[2]
Exemple #30
0
import os
import random
problems = []
for path, d, *files, _ in os.fwalk():
    for file in files[0]:
        if file[-3:] == ".sh":
            problems.append(os.path.join(path, file))

random.shuffle(problems)
print('\n'.join(problems[0:10]))
Exemple #31
0
 def __init__(self, root, sorton='name', filtercount=None, showerrors=True):
     assert sorton in ('name', 'size')
     rp = pathlib.Path(root).expanduser().resolve()
     basedepth = len(str(rp).split('/'))
     xgen = os.fwalk(str(rp), )
     xgc = 0
     print('in', rp)
     for dirpath, dirnames, filenames, dir_fd in xgen:
         pathsplit = dirpath.split('/')
         try:
             finfos = [(fn, os.stat(fn, dir_fd=dir_fd).st_size)
                       for fn in filenames]
         except:
             finfos = []
             for fn in filenames:
                 try:
                     finfos.append((fn, os.stat(fx, dir_fd=dir_fd).st_size))
                 except:
                     if showerrors:
                         print('oops at', fn, 'in', dirpath)
         filtcount = 0
         if not filtercount is None:
             for fn in filenames:
                 if fn.endswith(filtercount):
                     filtcount += 1
         if sorton == 'name':
             sortix = 0
             sreverse = False
         elif sorton == 'size':
             sortix = 1
             sreverse = True
         else:
             raise ValueError('I cannot sort on' + str(sorton))
         finfos.sort(key=lambda x: x[sortix], reverse=sreverse)
         dirdict = {
             'folds': {},
             'files': dict(finfos),
             'path': dirpath,
             'name': pathsplit[-1]
         }
         pcount = len(pathsplit) - basedepth
         if pcount == 0:
             self.data = dirdict
             plist = [dirdict]
         elif pcount == len(plist):
             plist[-1]['folds'][pathsplit[-1]] = dirdict
             plist.append(dirdict)
         elif pcount > len(plist):
             print('NEVERRRRRRRRRRR')
         elif pcount < len(plist):
             while pcount < len(plist):
                 finished = plist.pop(-1)
                 finished['size'] = sum(finished['files'].values()) + sum(
                     f['size'] for f in finished['folds'].values())
                 finished['filtc'] = len(finished['files']) + sum(
                     f['filtc'] for f in finished['folds'].values())
                 if len(finished['folds']) > 0:
                     sx = list(finished['folds'].items())
                     sx.sort(key=lambda kv: kv[1][sorton], reverse=sreverse)
                     finished['folds'] = dict(sx)
             plist[-1]['folds'][pathsplit[-1]] = dirdict
             plist.append(dirdict)
         else:
             print('too steep?')
         xgc += 1
     while len(plist) > 0:
         finished = plist.pop(-1)
         finished['size'] = sum(finished['files'].values()) + sum(
             f['size'] for f in finished['folds'].values())
         if len(finished['folds']) > 0:
             sx = list(finished['folds'].items())
             sx.sort(key=lambda kv: kv[1][sorton], reverse=sreverse)
             finished['folds'] = dict(sx)
     print(sizestr(self.data['size']))
Exemple #32
0
import os
for root, dirs, files, rootfd in os.fwalk('/usr/lib/python3.6'):
    print(root, "consumes", end=" ")
    print(sum([os.stat(name, dir_fd=rootfd).st_size for name in files]),
          end="")
    print("bytes in", len(files), "non-directory files")
    if 'CVS' in dirs:
        dirs.remove('CVS')  #don't visit CVS directories
Exemple #33
0
import os
for root, dirs, files, rootfd in os.fwalk(
        '/home/senthil/hg/cpython/Lib/email'):
    print(root, "consumes ", end="")
    print(sum([os.fstatat(rootfd, name).st_size for name in files]), end="")
    print("bytes in", len(files), "non-directory files")
    if 'CVS' in dirs:
        dirs.remove('CVS')  # don't visit CVS directories
Exemple #34
0
import os
for root, dirs, files, rootfd in os.fwalk('/home/albert/data'):
    size = sum([os.stat(name, dir_fd=rootfd).st_size for name in files])
    print("{} consumes {} bytes in {} non-directory files".format(
        root, size, len(files)))
Exemple #35
0
                    if l[0] != '[':
                        continue
                    bracket_index = l.index(']:')
                    if bracket_index < 0:
                        continue
                    key = l[1:bracket_index].lower()
                    # TODO : Log key value found in DEBUG mode
                    text = l[bracket_index + 2:].strip()
                    refs[key] = [path, lineno, text, 0]
                # TODO : Log number of key / values retrieved in DEBUG mode
        except IOError:
            sys.exit('Error opening ' + filepath)

import pprint

for dirpath, subdirs, subfiles, dir_fd in os.fwalk(skc_base_path, '_data'):
    for filename in subfiles:
        if not filename.endswith('.md'):
            continue
        with(os.fdopen(os.open(filename, os.O_RDONLY, dir_fd=dir_fd))) as mdfile:
            for l in mdfile:
                for match in RE_MDLINK.finditer(l):
                    key, value = match.group(2, 1)
                    if not key:
                        key = value
                    key = key.lower()
                    if key.startswith('/'):
                        pass
                    elif key in skc_refs:
                        # Increment reference count
                        skc_refs[key][3] += 1
Exemple #36
0
def main(args=None):
	import argparse
	parser = argparse.ArgumentParser(
		description='Surviving Mars music shuffler script.'
			' Produces radio-like playlist with radio blurbs/talks interspersed with music.'
			' Source files can be extracted from hpk files with https://github.com/nickelc/hpk')
	parser.add_argument('src_dir',
		help='Source path with mp3/ogg/opus music files.'
			' These should be organized as "station/file.ogg",'
				' with filenames preserved from hpk, except for filename'
				' extensions (can be mp3, ogg or original opus).')
	parser.add_argument('dst_pls',
		help='Destination pls file to produce.')
	parser.add_argument('--chance-pre',
		type=float, default=0.8, metavar='float',
		help='Chance of adding blurb/talk before music track (range: 0 - 1.0). Default: %(default)s')
	parser.add_argument('--chance-talk',
		type=float, default=0.7, metavar='float',
		help='Chance of adding talk segment instead'
			' of blurb before music track (if any, range: 0 - 1.0). Default: %(default)s')
	parser.add_argument('--chance-ad',
		type=float, default=0.5, metavar='float',
		help='Chance of adding commercial segment before'
			' any blurb/talk/music track combo (range: 0 - 1.0). Default: %(default)s')
	opts = parser.parse_args(sys.argv[1:] if args is None else args)

	### Find tracks

	src = pl.Path(opts.src_dir)
	src_lists = dict()
	src_t_res = dict( blurb=re.compile(r'^Blurb_'),
		talk=re.compile(r'^Talks_'), ad=re.compile('^Commercials_'), music=re.compile('.') )

	src_rp = str(src.resolve())
	for root, dirs, files, dir_fd in os.fwalk(src, follow_symlinks=True):
		root = pl.Path(root)
		st = str(root.resolve())
		if st.startswith(src_rp):
			st = st[len(src_rp)+1:]
			if st: st = st.rsplit('/', 1)[-1]
		for p in files:
			if not re.search(r'(?i)\.(ogg|oga|mp3|opus)$', p): continue
			track = re.sub(r'^Radio_[^_]+_', '', p.rsplit('.', 1)[0])
			for t, rx in src_t_res.items():
				if not rx.search(track): continue
				if st not in src_lists: src_lists[st] = adict()
				if t not in src_lists[st]: src_lists[st][t] = adict()
				src_lists[st][t][track] = root / p
				break
			else: raise RuntimeError(f'Failed to detect track type: {track} [{root} / {p}]')

	### Assemble playlist

	pls = list()

	if '' in src_lists:
		tracks = src_lists.pop('').music.values()
		random.shuffle(tracks)
		pls.extend(tracks)

	# Weighted random is used so that longest track-list won't end up in the tail
	src_weights = adict((k, len(v.music)) for k,v in src_lists.items())
	while src_weights:
		t, = random.choices(list(src_weights.keys()), src_weights.values())
		src_list = src_lists[t]
		if not src_list.music:
			src_weights.pop(t)
			continue

		if random.random() < opts.chance_ad and src_list.get('ad'):
			k = random.choice(list(src_list.ad))
			p = src_list.ad.pop(k)
			pls.append(p)

		if random.random() < opts.chance_pre:
			k = 'blurb' if random.random() > opts.chance_talk else 'talk'
			files = src_list.get(k)
			if not files: files = src_list.get(next(iter({'blurb', 'talk'}.difference([k]))))
			if files:
				k = random.choice(list(files))
				p = files.pop(k)
				pls.append(p)

		k = random.choice(list(src_list.music))
		p = src_list.music.pop(k)
		pls.append(p)

	### Write playlist

	pl.Path(opts.dst_pls).write_text(''.join(f'{p}\n' for p in pls))
    steamworks_present = False
    for entry in line_list:
        if entry.startswith(
                "[OnlineSubsystemSteamworks.KFWorkshopSteamworks]"):
            steamworks_present = True
            entry = entry + "ServerSubscribedWorkshopItems=" + id + "\n"
        file.write(entry)
    if not steamworks_present:
        entry = "[OnlineSubsystemSteamworks.KFWorkshopSteamworks]\n" + "ServerSubscribedWorkshopItems=" + id + "\n"
        file.write(entry)

# Call startstop
subprocess.call("./startstop.sh")

# Grab file name
for root, dirs, files, rootfd in os.fwalk('KFGame/Cache/' + id):
    filelist = files
map = filelist.pop()[:-4]

# Data Store Prototype
with open('KFGame/Config/LinuxServer-KFGame.ini', 'r+') as file:
    line_list = []
    for line in file:
        line_list.append(line)
    file.seek(0)
    for entry in line_list:
        if entry.startswith("[KF-Default KFMapSummary]"):
            entry = map + " KFMapSummary]\nMapName=" + map + "\nMapAssociation=0\nScreenshotPathName=UI_MapPreview_TEX.UI_MapPreview_Placeholder\n\n" + entry
        file.write(entry)

# #Add map to map cycle
Exemple #38
0
 def walk(self):
     for root, dirs, files, rootfd in os.fwalk(self._topdir):
         self.get_directory_entries(root, rootfd, files)
	def _body(self):
		"""Streams the contents of the selected directory as binary chunks."""
		def match_short_path(short_path):
			# Remove initial path component so that all files are based in
			# the target directory itself (not one level above)
			if os.path.sep in short_path:
				path = short_path.split(os.path.sep, 1)[1]
			else:
				return False

			# Convert all path seperators to POSIX style
			path = path.replace(os.path.sep, '/')

			# Do the matching and the simplified path
			for pattern in self.patterns:
				if pattern.match(path):
					return True
			return False

		visited_directories = set()

		# Normalize directory path without destroying symlinks
		sep = os.path.sep
		directory = self.directory
		if not isinstance(self.directory, int):
			directory = os.fspath(directory) if hasattr(os, "fspath") else directory
			if isinstance(directory, six.text_type) and not isinstance(sep, six.text_type):  #PY2
				import sys
				sep = sep.decode(sys.getfilesystemencoding())
			elif isinstance(directory, six.binary_type) and not isinstance(sep, six.binary_type):  #PY3 noqa
				sep = os.fsencode(sep)
			while sep * 2 in directory:
				directory.replace(sep * 2, sep)
			if directory.endswith(sep):
				directory = directory[:-len(sep)]

		# Determine base directory name to send to IPFS (required and also used
		# as part of the wrap_with_directory feature)
		if self.dirname:
			dirname = self.dirname
		elif not isinstance(directory, int):
			dirname = os.path.basename(directory)
			dirname = dirname if isinstance(dirname, str) else os.fsdecode(dirname)
		else:
			dirname = "_"
		assert type(directory) == type(dirname) or isinstance(directory, int)

		# Identify the unnecessary portion of the relative path
		truncate = (directory if not isinstance(directory, int) else ".") + sep
		# Traverse the filesystem downward from the target directory's uri
		# Errors: `os.walk()` will simply return an empty generator if the
		#         target directory does not exist.
		wildcard_directories = set()

		if not isinstance(self.directory, int):
			walk_iter = os.walk(self.directory)
		else:
			walk_iter = os.fwalk(dir_fd=self.directory)
		for result in walk_iter:
			cur_dir, filenames = result[0], result[2]
			dir_fd = -1 if not isinstance(self.directory, int) else result[3]

			# find the path relative to the directory being added
			if len(truncate) > 0:
				_, _, short_path = cur_dir.partition(truncate)
			else:
				short_path = cur_dir
				# remove leading / or \ if it is present
				if short_path.startswith(os.path.sep):
					short_path = short_path[len(os.path.sep):]
			short_path = os.path.join(dirname, short_path) if short_path else dirname

			wildcard_directory = False
			if os.path.split(short_path)[0] in wildcard_directories:
				# Parent directory has matched a pattern, all sub-nodes should
				# be added too
				wildcard_directories.add(short_path)
				wildcard_directory = True
			else:
				# Check if directory path matches one of the patterns
				if match_short_path(short_path):
					# Directory matched pattern and it should therefor
					# be added along with all of its contents
					wildcard_directories.add(short_path)
					wildcard_directory = True

			# Always add directories within wildcard directories - even if they
			# are empty
			if wildcard_directory:
				#PY2: Use `yield from` instead
				for chunk in self._body_directory(short_path, visited_directories): yield chunk

			# Iterate across the files in the current directory
			for filename in filenames:
				# Find the filename relative to the directory being added
				short_file_path = os.path.join(short_path, filename)
				if dir_fd < 0:
					file_location = os.path.join(cur_dir, filename)
				else:
					file_location = filename

				if wildcard_directory:
					# Always add files in wildcard directories
					#PY2: Use `yield from` instead
					for chunk in self._body_file(short_file_path, file_location, dir_fd=dir_fd):
						yield chunk
				else:
					# Add file (and all missing intermediary directories)
					# if it matches one of the patterns
					if match_short_path(short_file_path):
						#PY2: Use `yield from` instead
						for chunk in self._body_directory(short_path, visited_directories):
							yield chunk
						for chunk in self._body_file(short_file_path, file_location, dir_fd=dir_fd):
							yield chunk

		#PY2: Use `yield from` instead
		for chunk in self._gen_end(): yield chunk
Exemple #40
0
                    if l[0] != '[':
                        continue
                    bracket_index = l.index(']:')
                    if bracket_index < 0:
                        continue
                    key = l[1:bracket_index].lower()
                    # TODO : Log key value found in DEBUG mode
                    text = l[bracket_index + 2:].strip()
                    refs[key] = [path, lineno, text, 0]
                # TODO : Log number of key / values retrieved in DEBUG mode
        except IOError:
            sys.exit('Error opening ' + filepath)

import pprint

for dirpath, subdirs, subfiles, dir_fd in os.fwalk(sky_base_path, 'content'):
    for filename in subfiles:
        if not filename.endswith('.md'):
            continue
        with (os.fdopen(os.open(filename, os.O_RDONLY,
                                dir_fd=dir_fd))) as mdfile:
            for l in mdfile:
                for match in RE_MDLINK.finditer(l):
                    key, value = match.group(2, 1)
                    if not key:
                        key = value
                    key = key.lower()
                    if key.startswith('/'):
                        pass
                    elif key in sky_refs:
                        # Increment reference count
Exemple #41
0
def calculate_size(files):
    sum_ = 0
    for root, dirs, files, rootfd in os.fwalk(files):
        sum_ += sum([os.stat(name, dir_fd=rootfd).st_size for name in files])
    return sum_
Exemple #42
0
	def _body(self):
		"""Streams the contents of the selected directory as binary chunks."""
		def match_short_path(short_path):
			# Remove initial path component so that all files are based in
			# the target directory itself (not one level above)
			if os.path.sep in short_path:
				path = short_path.split(os.path.sep, 1)[1]
			else:
				return False

			# Convert all path seperators to POSIX style
			path = path.replace(os.path.sep, '/')

			# Do the matching and the simplified path
			for pattern in self.patterns:
				if pattern.match(path):
					return True
			return False

		visited_directories = set()

		# Normalize directory path without destroying symlinks
		sep = os.path.sep
		directory = self.directory
		if not isinstance(self.directory, int):
			directory = os.fspath(directory) if hasattr(os, "fspath") else directory
			if not isinstance(directory, str):
				sep = os.fsencode(sep)
			while sep * 2 in directory:
				directory.replace(sep * 2, sep)
			if directory.endswith(sep):
				directory = directory[:-len(sep)]

		# Determine base directory name to send to IPFS (required and also used
		# as part of the wrap_with_directory feature)
		if self.dirname:
			dirname = self.dirname
		elif not isinstance(directory, int):
			dirname = os.path.basename(directory)
			dirname = dirname if isinstance(dirname, str) else os.fsdecode(dirname)
		else:
			dirname = "_" if isinstance(directory, (str, int)) else os.fsencode("_")
		assert(type(directory) == type(dirname) or isinstance(directory, int))

		# Identify the unnecessary portion of the relative path
		truncate = (directory if not isinstance(directory, int) else ".") + sep
		# Traverse the filesystem downward from the target directory's uri
		# Errors: `os.walk()` will simply return an empty generator if the
		#         target directory does not exist.
		wildcard_directories = set()

		if not isinstance(self.directory, int):
			walk_iter = os.walk(self.directory)
		else:
			walk_iter = os.fwalk(dir_fd=self.directory)
		for result in walk_iter:
			cur_dir, filenames = result[0], result[2]
			dir_fd = -1 if not isinstance(self.directory, int) else result[3]

			# find the path relative to the directory being added
			if len(truncate) > 0:
				_, _, short_path = cur_dir.partition(truncate)
			else:
				short_path = cur_dir
				# remove leading / or \ if it is present
				if short_path.startswith(os.path.sep):
					short_path = short_path[len(os.path.sep):]
			short_path = os.path.join(dirname, short_path)

			wildcard_directory = False
			if os.path.split(short_path)[0] in wildcard_directories:
				# Parent directory has matched a pattern, all sub-nodes should
				# be added too
				wildcard_directories.add(short_path)
				wildcard_directory = True
			else:
				# Check if directory path matches one of the patterns
				if match_short_path(short_path):
					# Directory matched pattern and it should therefor
					# be added along with all of its contents
					wildcard_directories.add(short_path)
					wildcard_directory = True

			# Always add directories within wildcard directories - even if they
			# are empty
			if wildcard_directory:
				#PY2: Use `yield from` instead
				for chunk in self._body_directory(short_path, visited_directories): yield chunk

			# Iterate across the files in the current directory
			for filename in filenames:
				# Find the filename relative to the directory being added
				short_file_path = os.path.join(short_path, filename)
				if dir_fd < 0:
					file_location = os.path.join(cur_dir, filename)
				else:
					file_location = filename

				if wildcard_directory:
					# Always add files in wildcard directories
					#PY2: Use `yield from` instead
					for chunk in self._body_file(short_file_path, file_location, dir_fd=dir_fd):
						yield chunk
				else:
					# Add file (and all missing intermediary directories)
					# if it matches one of the patterns
					if match_short_path(short_file_path):
						#PY2: Use `yield from` instead
						for chunk in self._body_directory(short_path, visited_directories):
							yield chunk
						for chunk in self._body_file(short_file_path, file_location, dir_fd=dir_fd):
							yield chunk

		#PY2: Use `yield from` instead
		for chunk in self._gen_end(): yield chunk
Exemple #43
0
def backup(src_path,
           backend,
           recipients,
           recipients_files,
           reuse_backup_count=30,
           follow_symlinks=False):
    t0 = monotime()
    encryption_key = os.urandom(32)
    encryption_key_sha1 = hashlib.new('sha1', encryption_key).hexdigest()
    if recipients or recipients_files:
        age_encrypted_encryption_key = encrypt_with_age(
            encryption_key,
            recipients=recipients,
            recipients_files=recipients_files)
    else:
        logger.info(
            'No recipients specified - the data file AES key will be stored in metadata file unencrypted'
        )
        age_encrypted_encryption_key = None
    backup_id = datetime.utcnow().strftime('%Y%m%dT%H%M%SZ')
    adapter = ChunkAdapter(backend)
    logger.info('Backing up %s to %s - backup id %s', src_path, backend,
                backup_id)
    with ExitStack() as stack:
        stack.callback(backend.close_data_file)
        temp_dir = Path(
            stack.enter_context(
                TemporaryDirectory(prefix=f'baq.{backup_id}.')))
        reuse_encryption_keys, reuse_blocks = load_previous_backup_for_reuse(
            backend, temp_dir, reuse_backup_count)
        meta_path = temp_dir / f'baq.{backup_id}.meta'
        meta_file = stack.enter_context(gzip.open(meta_path, mode='wb'))
        meta_file.write(
            to_json(
                generate_header(
                    backup_id=backup_id,
                    encryption_key=encryption_key,
                    encryption_key_sha1=encryption_key_sha1,
                    age_encrypted_encryption_key=age_encrypted_encryption_key,
                    reuse_encryption_keys=reuse_encryption_keys)))
        for dir_path, dirs, files, dir_fd in os.fwalk(
                src_path, follow_symlinks=follow_symlinks):
            #logger.debug('fwalk -> %s, %s, %s, %s', dir_path, dirs, files, dir_fd)
            dir_stat = os.fstat(dir_fd)
            meta_file.write(
                to_json({
                    'directory': {
                        'path': str(Path(dir_path).relative_to(src_path)),
                        'mode': dir_stat.st_mode,
                        'uid': dir_stat.st_uid,
                        'gid': dir_stat.st_gid,
                        'atime': dir_stat.st_atime,
                        'ctime': dir_stat.st_ctime,
                        'mtime': dir_stat.st_mtime,
                    }
                }))
            for file_name in files:
                file_path = str(
                    Path(dir_path).relative_to(src_path) / file_name)
                try:
                    file_stat = os.stat(file_name,
                                        dir_fd=dir_fd,
                                        follow_symlinks=follow_symlinks)
                except FileNotFoundError as e:
                    logger.warning('Cannot stat file %s: %s', file_path, e)
                    continue
                if stat.S_ISLNK(file_stat.st_mode):
                    try:
                        symlink_target = os.readlink(file_name, dir_fd=dir_fd)
                    except Exception as e:
                        logger.warning('Cannot read symlink target: %s - %r',
                                       file_path, e)
                    else:
                        meta_file.write(
                            to_json({
                                'symlink': {
                                    'path': file_path,
                                    'target': symlink_target,
                                    'mode': file_stat.st_mode,
                                    'uid': file_stat.st_uid,
                                    'gid': file_stat.st_gid,
                                    'atime': file_stat.st_atime,
                                    'ctime': file_stat.st_ctime,
                                    'mtime': file_stat.st_mtime,
                                }
                            }))
                    continue
                elif not stat.S_ISREG(file_stat.st_mode):
                    logger.warning('Skipping file with unknown type: %s',
                                   file_path)
                    continue
                assert stat.S_ISREG(file_stat.st_mode)
                try:
                    file_stream = open(file_name,
                                       mode='rb',
                                       opener=partial(os.open, dir_fd=dir_fd))
                except PermissionError as e:
                    logger.warning('Cannot open file %s: %s', file_path, e)
                    continue
                with file_stream:
                    logger.debug('Processing file %s', file_path)
                    file_hash = hashlib.new('sha3_512')
                    file_stat = os.fstat(file_stream.fileno())
                    meta_file.write(
                        to_json({
                            'file': {
                                'path': file_path,
                                'mode': file_stat.st_mode,
                                'uid': file_stat.st_uid,
                                'gid': file_stat.st_gid,
                                'atime': file_stat.st_atime,
                                'ctime': file_stat.st_ctime,
                                'mtime': file_stat.st_mtime,
                            }
                        }))
                    while True:
                        pos = file_stream.tell()
                        chunk = file_stream.read(chunk_size)
                        if not chunk:
                            break
                        #logger.debug('Read %d bytes from file %s pos %s: %s', len(chunk), file_name, pos, smart_repr(chunk))
                        file_hash.update(chunk)
                        chunk_hash = hashlib.new('sha3_512', chunk).digest()

                        if chunk_hash in reuse_blocks:
                            meta_file.write(
                                to_json({
                                    'content': {
                                        'offset':
                                        pos,
                                        'sha3_512':
                                        chunk_hash.hex(),
                                        'df_name':
                                        reuse_blocks[chunk_hash]['df_name'],
                                        'df_offset':
                                        reuse_blocks[chunk_hash]['df_offset'],
                                        'df_size':
                                        reuse_blocks[chunk_hash]['df_size'],
                                        'encryption_key_sha1':
                                        reuse_blocks[chunk_hash]
                                        ['encryption_key_sha1'],
                                    }
                                }))
                        else:
                            chunk_df = adapter.write_data_chunk(
                                backup_id,
                                chunk,
                                encryption_key=encryption_key)
                            meta_file.write(
                                to_json({
                                    'content': {
                                        'offset': pos,
                                        'sha3_512': chunk_hash.hex(),
                                        'df_name': chunk_df.name,
                                        'df_offset': chunk_df.offset,
                                        'df_size': chunk_df.size,
                                        'encryption_key_sha1':
                                        encryption_key_sha1,
                                    }
                                }))
                            reuse_blocks[chunk_hash] = {
                                'df_name': chunk_df.name,
                                'df_offset': chunk_df.offset,
                                'df_size': chunk_df.size,
                                'encryption_key_sha1': encryption_key_sha1,
                            }
                        del chunk
                    meta_file.write(
                        to_json({
                            'file_done': {
                                'sha3_512': file_hash.hexdigest(),
                            }
                        }))
        adapter.close_data_file()
        meta_file.write(
            to_json({
                'done': {
                    'backup_id': backup_id,
                    'date': datetime.utcnow().strftime('%Y%m%dT%H%M%SZ'),
                }
            }))
        meta_file.close()
        backend.store_file(meta_path, name=meta_path.name)
    logger.info('Backup id %s done in %.3f s', backup_id, monotime() - t0)
    return BackupResult(backup_id)
Exemple #44
0

def usage():
    print("Usage: lib-finder lib-folder")
    print()
    print(
        "       lib-folder: path of the folder that contains he libraries to search in Maven "
    )


if len(sys.argv) < 2:
    usage()
    exit(1)

libFolder = sys.argv[1]
libraries = next(os.fwalk(libFolder))[2]
libraries = list(
    filter(lambda x: not x.startswith(".") and not x.startswith("biospace"),
           libraries))
equivalences = []
customEquivalences = load_custom_equivalences()

for library in libraries:
    if not library.endswith(".jar"):
        print(f"! {library} does not look like a jar, ignoring...")
        equivalences.append((library, "?"))
        continue

    manualEquivalence = get_configured_equivalence(customEquivalences, library)
    if manualEquivalence is not None:
        equivalences.append((library, manualEquivalence))
Exemple #45
0
import os

for root, dirs, files, rootfd in os.fwalk("/home/senthil/hg/cpython/Lib/email"):
    print(root, "consumes ", end="")
    print(sum([os.fstatat(rootfd, name).st_size for name in files]), end="")
    print("bytes in", len(files), "non-directory files")
    if "CVS" in dirs:
        dirs.remove("CVS")  # don't visit CVS directories