# Copyright 2008-2015 Nokia Networks
# Copyright 2016- Robot Framework Foundation
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import fnmatch
import glob
import io
import os
import shutil
import sys
import tempfile
import time
from robot.version import get_version
from robot.api import logger
from robot.utils import (abspath, ConnectionCache, console_decode, del_env_var,
get_env_var, get_env_vars, get_time, is_truthy,
is_unicode, normpath, parse_time, plural_or_not,
secs_to_timestamp, secs_to_timestr, seq2str,
set_env_var, timestr_to_secs, unic, CONSOLE_ENCODING,
IRONPYTHON, JYTHON, PY2, PY3, SYSTEM_ENCODING, WINDOWS)
__version__ = get_version()
PROCESSES = ConnectionCache('No active processes.')
[docs]class OperatingSystem(object):
"""A test library providing keywords for OS related tasks.
``OperatingSystem`` is Robot Framework's standard library that
enables various operating system related tasks to be performed in
the system where Robot Framework is running. It can, among other
things, execute commands (e.g. `Run`), create and remove files and
directories (e.g. `Create File`, `Remove Directory`), check
whether files or directories exists or contain something
(e.g. `File Should Exist`, `Directory Should Be Empty`) and
manipulate environment variables (e.g. `Set Environment Variable`).
== Table of contents ==
- `Path separators`
- `Pattern matching`
- `Tilde expansion`
- `Boolean arguments`
- `Example`
- `Shortcuts`
- `Keywords`
= Path separators =
Because Robot Framework uses the backslash (``\\``) as an escape character
in the test data, using a literal backslash requires duplicating it like
in ``c:\\\\path\\\\file.txt``. That can be inconvenient especially with
longer Windows paths, and thus all keywords expecting paths as arguments
convert forward slashes to backslashes automatically on Windows. This also
means that paths like ``${CURDIR}/path/file.txt`` are operating system
independent.
Notice that the automatic path separator conversion does not work if
the path is only a part of an argument like with `Run` and `Start Process`
keywords. In these cases the built-in variable ``${/}`` that contains
``\\`` or ``/``, depending on the operating system, can be used instead.
= Pattern matching =
Some keywords allow their arguments to be specified as
[http://en.wikipedia.org/wiki/Glob_(programming)|glob patterns] where:
| ``*`` | matches any string, even an empty string |
| ``?`` | matches any single character |
| ``[chars]`` | matches one character in the bracket |
| ``[!chars]`` | matches one character not in the bracket |
| ``[a-z]`` | matches one character from the range in the bracket |
| ``[!a-z]`` | matches one character not from the range in the bracket |
Unless otherwise noted, matching is case-insensitive on
case-insensitive operating systems such as Windows.
Starting from Robot Framework 2.9.1, globbing is not done if the given path
matches an existing file even if it would contain a glob pattern.
= Tilde expansion =
Paths beginning with ``~`` or ``~username`` are expanded to the current or
specified user's home directory, respectively. The resulting path is
operating system dependent, but typically e.g. ``~/robot`` is expanded to
``C:\\Users\\<user>\\robot`` on Windows and ``/home/<user>/robot`` on
Unixes.
The ``~username`` form does not work on Jython.
= Boolean arguments =
Some keywords accept arguments that are handled as Boolean values true or
false. If such an argument is given as a string, it is considered false if
it is an empty string or equal to ``FALSE``, ``NONE``, ``NO``, ``OFF`` or
``0``, case-insensitively. Other strings are considered true regardless
their value, and other argument types are tested using the same
[http://docs.python.org/library/stdtypes.html#truth|rules as in Python].
True examples:
| `Remove Directory` | ${path} | recursive=True | # Strings are generally true. |
| `Remove Directory` | ${path} | recursive=yes | # Same as the above. |
| `Remove Directory` | ${path} | recursive=${TRUE} | # Python ``True`` is true. |
| `Remove Directory` | ${path} | recursive=${42} | # Numbers other than 0 are true. |
False examples:
| `Remove Directory` | ${path} | recursive=False | # String ``false`` is false. |
| `Remove Directory` | ${path} | recursive=no | # Also string ``no`` is false. |
| `Remove Directory` | ${path} | recursive=${EMPTY} | # Empty string is false. |
| `Remove Directory` | ${path} | recursive=${FALSE} | # Python ``False`` is false. |
Considering string ``NONE`` false is new in Robot Framework 3.0.3 and
considering also ``OFF`` and ``0`` false is new in Robot Framework 3.1.
= Example =
| =Setting= | =Value= |
| Library | OperatingSystem |
| =Variable= | =Value= |
| ${PATH} | ${CURDIR}/example.txt |
| =Test Case= | =Action= | =Argument= | =Argument= |
| Example | Create File | ${PATH} | Some text |
| | File Should Exist | ${PATH} | |
| | Copy File | ${PATH} | ~/file.txt |
| | ${output} = | Run | ${TEMPDIR}${/}script.py arg |
"""
ROBOT_LIBRARY_SCOPE = 'GLOBAL'
ROBOT_LIBRARY_VERSION = __version__
[docs] def run(self, command):
"""Runs the given command in the system and returns the output.
The execution status of the command *is not checked* by this
keyword, and it must be done separately based on the returned
output. If the execution return code is needed, either `Run
And Return RC` or `Run And Return RC And Output` can be used.
The standard error stream is automatically redirected to the standard
output stream by adding ``2>&1`` after the executed command. This
automatic redirection is done only when the executed command does not
contain additional output redirections. You can thus freely forward
the standard error somewhere else, for example, like
``my_command 2>stderr.txt``.
The returned output contains everything written into the standard
output or error streams by the command (unless either of them
is redirected explicitly). Many commands add an extra newline
(``\\n``) after the output to make it easier to read in the
console. To ease processing the returned output, this possible
trailing newline is stripped by this keyword.
Examples:
| ${output} = | Run | ls -lhF /tmp |
| Log | ${output} |
| ${result} = | Run | ${CURDIR}${/}tester.py arg1 arg2 |
| Should Not Contain | ${result} | FAIL |
| ${stdout} = | Run | /opt/script.sh 2>/tmp/stderr.txt |
| Should Be Equal | ${stdout} | TEST PASSED |
| File Should Be Empty | /tmp/stderr.txt |
*TIP:* `Run Process` keyword provided by the
[http://robotframework.org/robotframework/latest/libraries/Process.html|
Process library] supports better process configuration and is generally
recommended as a replacement for this keyword.
"""
return self._run(command)[1]
[docs] def run_and_return_rc(self, command):
"""Runs the given command in the system and returns the return code.
The return code (RC) is returned as a positive integer in
range from 0 to 255 as returned by the executed command. On
some operating systems (notable Windows) original return codes
can be something else, but this keyword always maps them to
the 0-255 range. Since the RC is an integer, it must be
checked e.g. with the keyword `Should Be Equal As Integers`
instead of `Should Be Equal` (both are built-in keywords).
Examples:
| ${rc} = | Run and Return RC | ${CURDIR}${/}script.py arg |
| Should Be Equal As Integers | ${rc} | 0 |
| ${rc} = | Run and Return RC | /path/to/example.rb arg1 arg2 |
| Should Be True | 0 < ${rc} < 42 |
See `Run` and `Run And Return RC And Output` if you need to get the
output of the executed command.
*TIP:* `Run Process` keyword provided by the
[http://robotframework.org/robotframework/latest/libraries/Process.html|
Process library] supports better process configuration and is generally
recommended as a replacement for this keyword.
"""
return self._run(command)[0]
[docs] def run_and_return_rc_and_output(self, command):
"""Runs the given command in the system and returns the RC and output.
The return code (RC) is returned similarly as with `Run And Return RC`
and the output similarly as with `Run`.
Examples:
| ${rc} | ${output} = | Run and Return RC and Output | ${CURDIR}${/}mytool |
| Should Be Equal As Integers | ${rc} | 0 |
| Should Not Contain | ${output} | FAIL |
| ${rc} | ${stdout} = | Run and Return RC and Output | /opt/script.sh 2>/tmp/stderr.txt |
| Should Be True | ${rc} > 42 |
| Should Be Equal | ${stdout} | TEST PASSED |
| File Should Be Empty | /tmp/stderr.txt |
*TIP:* `Run Process` keyword provided by the
[http://robotframework.org/robotframework/latest/libraries/Process.html|
Process library] supports better process configuration and is generally
recommended as a replacement for this keyword.
"""
return self._run(command)
def _run(self, command):
process = _Process(command)
self._info("Running command '%s'." % process)
stdout = process.read()
rc = process.close()
return rc, stdout
[docs] def get_file(self, path, encoding='UTF-8', encoding_errors='strict'):
"""Returns the contents of a specified file.
This keyword reads the specified file and returns the contents.
Line breaks in content are converted to platform independent form.
See also `Get Binary File`.
``encoding`` defines the encoding of the file. The default value is
``UTF-8``, which means that UTF-8 and ASCII encoded files are read
correctly. In addition to the encodings supported by the underlying
Python implementation, the following special encoding values can be
used:
- ``SYSTEM``: Use the default system encoding.
- ``CONSOLE``: Use the console encoding. Outside Windows this is same
as the system encoding.
``encoding_errors`` argument controls what to do if decoding some bytes
fails. All values accepted by ``decode`` method in Python are valid, but
in practice the following values are most useful:
- ``strict``: Fail if characters cannot be decoded (default).
- ``ignore``: Ignore characters that cannot be decoded.
- ``replace``: Replace characters that cannot be decoded with
a replacement character.
Support for ``SYSTEM`` and ``CONSOLE`` encodings in Robot Framework 3.0.
"""
path = self._absnorm(path)
self._link("Getting file '%s'.", path)
encoding = self._map_encoding(encoding)
if IRONPYTHON:
# https://github.com/IronLanguages/main/issues/1233
with open(path) as f:
content = f.read().decode(encoding, encoding_errors)
else:
with io.open(path, encoding=encoding, errors=encoding_errors,
newline='') as f:
content = f.read()
return content.replace('\r\n', '\n')
def _map_encoding(self, encoding):
# Python 3 opens files in native system encoding by default.
if PY3 and encoding.upper() == 'SYSTEM':
return None
return {'SYSTEM': SYSTEM_ENCODING,
'CONSOLE': CONSOLE_ENCODING}.get(encoding.upper(), encoding)
[docs] def get_binary_file(self, path):
"""Returns the contents of a specified file.
This keyword reads the specified file and returns the contents as is.
See also `Get File`.
"""
path = self._absnorm(path)
self._link("Getting file '%s'.", path)
with open(path, 'rb') as f:
return bytes(f.read())
[docs] def grep_file(self, path, pattern, encoding='UTF-8', encoding_errors='strict'):
"""Returns the lines of the specified file that match the ``pattern``.
This keyword reads a file from the file system using the defined
``path``, ``encoding`` and ``encoding_errors`` similarly as `Get File`.
A difference is that only the lines that match the given ``pattern`` are
returned. Lines are returned as a single string catenated back together
with newlines and the number of matched lines is automatically logged.
Possible trailing newline is never returned.
A line matches if it contains the ``pattern`` anywhere in it and
it *does not need to match the pattern fully*. The pattern
matching syntax is explained in `introduction`, and in this
case matching is case-sensitive.
Examples:
| ${errors} = | Grep File | /var/log/myapp.log | ERROR |
| ${ret} = | Grep File | ${CURDIR}/file.txt | [Ww]ildc??d ex*ple |
If more complex pattern matching is needed, it is possible to use
`Get File` in combination with String library keywords like `Get
Lines Matching Regexp`.
"""
pattern = '*%s*' % pattern
path = self._absnorm(path)
lines = []
total_lines = 0
self._link("Reading file '%s'.", path)
with io.open(path, encoding=encoding, errors=encoding_errors) as f:
for line in f.readlines():
total_lines += 1
line = line.rstrip('\r\n')
if fnmatch.fnmatchcase(line, pattern):
lines.append(line)
self._info('%d out of %d lines matched' % (len(lines), total_lines))
return '\n'.join(lines)
[docs] def log_file(self, path, encoding='UTF-8', encoding_errors='strict'):
"""Wrapper for `Get File` that also logs the returned file.
The file is logged with the INFO level. If you want something else,
just use `Get File` and the built-in keyword `Log` with the desired
level.
See `Get File` for more information about ``encoding`` and
``encoding_errors`` arguments.
"""
content = self.get_file(path, encoding, encoding_errors)
self._info(content)
return content
# File and directory existence
[docs] def should_exist(self, path, msg=None):
"""Fails unless the given path (file or directory) exists.
The path can be given as an exact path or as a glob pattern.
The pattern matching syntax is explained in `introduction`.
The default error message can be overridden with the ``msg`` argument.
"""
path = self._absnorm(path)
if not self._glob(path):
self._fail(msg, "Path '%s' does not exist." % path)
self._link("Path '%s' exists.", path)
[docs] def should_not_exist(self, path, msg=None):
"""Fails if the given path (file or directory) exists.
The path can be given as an exact path or as a glob pattern.
The pattern matching syntax is explained in `introduction`.
The default error message can be overridden with the ``msg`` argument.
"""
path = self._absnorm(path)
matches = self._glob(path)
if matches:
self._fail(msg, self._get_matches_error('Path', path, matches))
self._link("Path '%s' does not exist.", path)
def _glob(self, path):
return glob.glob(path) if not os.path.exists(path) else [path]
def _get_matches_error(self, what, path, matches):
if not self._is_glob_path(path):
return "%s '%s' exists." % (what, path)
return "%s '%s' matches %s." % (what, path, seq2str(sorted(matches)))
def _is_glob_path(self, path):
return '*' in path or '?' in path or ('[' in path and ']' in path)
[docs] def file_should_exist(self, path, msg=None):
"""Fails unless the given ``path`` points to an existing file.
The path can be given as an exact path or as a glob pattern.
The pattern matching syntax is explained in `introduction`.
The default error message can be overridden with the ``msg`` argument.
"""
path = self._absnorm(path)
matches = [p for p in self._glob(path) if os.path.isfile(p)]
if not matches:
self._fail(msg, "File '%s' does not exist." % path)
self._link("File '%s' exists.", path)
[docs] def file_should_not_exist(self, path, msg=None):
"""Fails if the given path points to an existing file.
The path can be given as an exact path or as a glob pattern.
The pattern matching syntax is explained in `introduction`.
The default error message can be overridden with the ``msg`` argument.
"""
path = self._absnorm(path)
matches = [p for p in self._glob(path) if os.path.isfile(p)]
if matches:
self._fail(msg, self._get_matches_error('File', path, matches))
self._link("File '%s' does not exist.", path)
[docs] def directory_should_exist(self, path, msg=None):
"""Fails unless the given path points to an existing directory.
The path can be given as an exact path or as a glob pattern.
The pattern matching syntax is explained in `introduction`.
The default error message can be overridden with the ``msg`` argument.
"""
path = self._absnorm(path)
matches = [p for p in self._glob(path) if os.path.isdir(p)]
if not matches:
self._fail(msg, "Directory '%s' does not exist." % path)
self._link("Directory '%s' exists.", path)
[docs] def directory_should_not_exist(self, path, msg=None):
"""Fails if the given path points to an existing file.
The path can be given as an exact path or as a glob pattern.
The pattern matching syntax is explained in `introduction`.
The default error message can be overridden with the ``msg`` argument.
"""
path = self._absnorm(path)
matches = [p for p in self._glob(path) if os.path.isdir(p)]
if matches:
self._fail(msg, self._get_matches_error('Directory', path, matches))
self._link("Directory '%s' does not exist.", path)
# Waiting file/dir to appear/disappear
[docs] def wait_until_removed(self, path, timeout='1 minute'):
"""Waits until the given file or directory is removed.
The path can be given as an exact path or as a glob pattern.
The pattern matching syntax is explained in `introduction`.
If the path is a pattern, the keyword waits until all matching
items are removed.
The optional ``timeout`` can be used to control the maximum time of
waiting. The timeout is given as a timeout string, e.g. in a format
``15 seconds``, ``1min 10s`` or just ``10``. The time string format is
described in an appendix of Robot Framework User Guide.
If the timeout is negative, the keyword is never timed-out. The keyword
returns immediately, if the path does not exist in the first place.
"""
path = self._absnorm(path)
timeout = timestr_to_secs(timeout)
maxtime = time.time() + timeout
while self._glob(path):
if timeout >= 0 and time.time() > maxtime:
self._fail("'%s' was not removed in %s."
% (path, secs_to_timestr(timeout)))
time.sleep(0.1)
self._link("'%s' was removed.", path)
[docs] def wait_until_created(self, path, timeout='1 minute'):
"""Waits until the given file or directory is created.
The path can be given as an exact path or as a glob pattern.
The pattern matching syntax is explained in `introduction`.
If the path is a pattern, the keyword returns when an item matching
it is created.
The optional ``timeout`` can be used to control the maximum time of
waiting. The timeout is given as a timeout string, e.g. in a format
``15 seconds``, ``1min 10s`` or just ``10``. The time string format is
described in an appendix of Robot Framework User Guide.
If the timeout is negative, the keyword is never timed-out. The keyword
returns immediately, if the path already exists.
"""
path = self._absnorm(path)
timeout = timestr_to_secs(timeout)
maxtime = time.time() + timeout
while not self._glob(path):
if timeout >= 0 and time.time() > maxtime:
self._fail("'%s' was not created in %s."
% (path, secs_to_timestr(timeout)))
time.sleep(0.1)
self._link("'%s' was created.", path)
# Dir/file empty
[docs] def directory_should_be_empty(self, path, msg=None):
"""Fails unless the specified directory is empty.
The default error message can be overridden with the ``msg`` argument.
"""
path = self._absnorm(path)
items = self._list_dir(path)
if items:
self._fail(msg, "Directory '%s' is not empty. Contents: %s."
% (path, seq2str(items, lastsep=', ')))
self._link("Directory '%s' is empty.", path)
[docs] def directory_should_not_be_empty(self, path, msg=None):
"""Fails if the specified directory is empty.
The default error message can be overridden with the ``msg`` argument.
"""
path = self._absnorm(path)
items = self._list_dir(path)
if not items:
self._fail(msg, "Directory '%s' is empty." % path)
self._link("Directory '%%s' contains %d item%s."
% (len(items), plural_or_not(items)), path)
[docs] def file_should_be_empty(self, path, msg=None):
"""Fails unless the specified file is empty.
The default error message can be overridden with the ``msg`` argument.
"""
path = self._absnorm(path)
if not os.path.isfile(path):
self._error("File '%s' does not exist." % path)
size = os.stat(path).st_size
if size > 0:
self._fail(msg,
"File '%s' is not empty. Size: %d bytes." % (path, size))
self._link("File '%s' is empty.", path)
[docs] def file_should_not_be_empty(self, path, msg=None):
"""Fails if the specified directory is empty.
The default error message can be overridden with the ``msg`` argument.
"""
path = self._absnorm(path)
if not os.path.isfile(path):
self._error("File '%s' does not exist." % path)
size = os.stat(path).st_size
if size == 0:
self._fail(msg, "File '%s' is empty." % path)
self._link("File '%%s' contains %d bytes." % size, path)
# Creating and removing files and directory
[docs] def create_file(self, path, content='', encoding='UTF-8'):
"""Creates a file with the given content and encoding.
If the directory where the file is created does not exist, it is
automatically created along with possible missing intermediate
directories. Possible existing file is overwritten.
On Windows newline characters (``\\n``) in content are automatically
converted to Windows native newline sequence (``\\r\\n``).
See `Get File` for more information about possible ``encoding`` values,
including special values ``SYSTEM`` and ``CONSOLE``.
Examples:
| Create File | ${dir}/example.txt | Hello, world! | |
| Create File | ${path} | Hyv\\xe4 esimerkki | Latin-1 |
| Create File | /tmp/foo.txt | 3\\nlines\\nhere\\n | SYSTEM |
Use `Append To File` if you want to append to an existing file
and `Create Binary File` if you need to write bytes without encoding.
`File Should Not Exist` can be used to avoid overwriting existing
files.
The support for ``SYSTEM`` and ``CONSOLE`` encodings is new in Robot
Framework 3.0. Automatically converting ``\\n`` to ``\\r\\n`` on
Windows is new in Robot Framework 3.1.
"""
path = self._write_to_file(path, content, encoding)
self._link("Created file '%s'.", path)
def _write_to_file(self, path, content, encoding=None, mode='w'):
path = self._absnorm(path)
parent = os.path.dirname(path)
if not os.path.exists(parent):
os.makedirs(parent)
# io.open() only accepts Unicode, not byte-strings, in text mode.
# We expect possible byte-strings to be all ASCII.
if PY2 and isinstance(content, str) and 'b' not in mode:
content = unicode(content)
if encoding:
encoding = self._map_encoding(encoding)
with io.open(path, mode, encoding=encoding) as f:
f.write(content)
return path
[docs] def create_binary_file(self, path, content):
"""Creates a binary file with the given content.
If content is given as a Unicode string, it is first converted to bytes
character by character. All characters with ordinal below 256 can be
used and are converted to bytes with same values. Using characters
with higher ordinal is an error.
Byte strings, and possible other types, are written to the file as is.
If the directory for the file does not exist, it is created, along
with missing intermediate directories.
Examples:
| Create Binary File | ${dir}/example.png | ${image content} |
| Create Binary File | ${path} | \\x01\\x00\\xe4\\x00 |
Use `Create File` if you want to create a text file using a certain
encoding. `File Should Not Exist` can be used to avoid overwriting
existing files.
"""
if is_unicode(content):
content = bytes(bytearray(ord(c) for c in content))
path = self._write_to_file(path, content, mode='wb')
self._link("Created binary file '%s'.", path)
[docs] def append_to_file(self, path, content, encoding='UTF-8'):
"""Appends the given content to the specified file.
If the file exists, the given text is written to its end. If the file
does not exist, it is created.
Other than not overwriting possible existing files, this keyword works
exactly like `Create File`. See its documentation for more details
about the usage.
Note that special encodings ``SYSTEM`` and ``CONSOLE`` only work
with this keyword starting from Robot Framework 3.1.2.
"""
path = self._write_to_file(path, content, encoding, mode='a')
self._link("Appended to file '%s'.", path)
[docs] def remove_file(self, path):
"""Removes a file with the given path.
Passes if the file does not exist, but fails if the path does
not point to a regular file (e.g. it points to a directory).
The path can be given as an exact path or as a glob pattern.
The pattern matching syntax is explained in `introduction`.
If the path is a pattern, all files matching it are removed.
"""
path = self._absnorm(path)
matches = self._glob(path)
if not matches:
self._link("File '%s' does not exist.", path)
for match in matches:
if not os.path.isfile(match):
self._error("Path '%s' is not a file." % match)
os.remove(match)
self._link("Removed file '%s'.", match)
[docs] def remove_files(self, *paths):
"""Uses `Remove File` to remove multiple files one-by-one.
Example:
| Remove Files | ${TEMPDIR}${/}foo.txt | ${TEMPDIR}${/}bar.txt | ${TEMPDIR}${/}zap.txt |
"""
for path in paths:
self.remove_file(path)
[docs] def empty_directory(self, path):
"""Deletes all the content from the given directory.
Deletes both files and sub-directories, but the specified directory
itself if not removed. Use `Remove Directory` if you want to remove
the whole directory.
"""
path = self._absnorm(path)
for item in self._list_dir(path, absolute=True):
if os.path.isdir(item):
shutil.rmtree(item)
else:
os.remove(item)
self._link("Emptied directory '%s'.", path)
[docs] def create_directory(self, path):
"""Creates the specified directory.
Also possible intermediate directories are created. Passes if the
directory already exists, but fails if the path exists and is not
a directory.
"""
path = self._absnorm(path)
if os.path.isdir(path):
self._link("Directory '%s' already exists.", path )
elif os.path.exists(path):
self._error("Path '%s' is not a directory." % path)
else:
os.makedirs(path)
self._link("Created directory '%s'.", path)
[docs] def remove_directory(self, path, recursive=False):
"""Removes the directory pointed to by the given ``path``.
If the second argument ``recursive`` is given a true value (see
`Boolean arguments`), the directory is removed recursively. Otherwise
removing fails if the directory is not empty.
If the directory pointed to by the ``path`` does not exist, the keyword
passes, but it fails, if the ``path`` points to a file.
"""
path = self._absnorm(path)
if not os.path.exists(path):
self._link("Directory '%s' does not exist.", path)
elif not os.path.isdir(path):
self._error("Path '%s' is not a directory." % path)
else:
if is_truthy(recursive):
shutil.rmtree(path)
else:
self.directory_should_be_empty(
path, "Directory '%s' is not empty." % path)
os.rmdir(path)
self._link("Removed directory '%s'.", path)
# Moving and copying files and directories
[docs] def copy_file(self, source, destination):
"""Copies the source file into the destination.
Source must be a path to an existing file or a glob pattern (see
`Pattern matching`) that matches exactly one file. How the
destination is interpreted is explained below.
1) If the destination is an existing file, the source file is copied
over it.
2) If the destination is an existing directory, the source file is
copied into it. A possible file with the same name as the source is
overwritten.
3) If the destination does not exist and it ends with a path
separator (``/`` or ``\\``), it is considered a directory. That
directory is created and a source file copied into it.
Possible missing intermediate directories are also created.
4) If the destination does not exist and it does not end with a path
separator, it is considered a file. If the path to the file does not
exist, it is created.
The resulting destination path is returned since Robot Framework 2.9.2.
See also `Copy Files`, `Move File`, and `Move Files`.
"""
source, destination = \
self._prepare_copy_and_move_file(source, destination)
if not self._are_source_and_destination_same_file(source, destination):
source, destination = self._atomic_copy(source, destination)
self._link("Copied file from '%s' to '%s'.", source, destination)
return destination
def _prepare_copy_and_move_file(self, source, destination):
source = self._normalize_copy_and_move_source(source)
destination = self._normalize_copy_and_move_destination(destination)
if os.path.isdir(destination):
destination = os.path.join(destination, os.path.basename(source))
return source, destination
def _normalize_copy_and_move_source(self, source):
source = self._absnorm(source)
sources = self._glob(source)
if len(sources) > 1:
self._error("Multiple matches with source pattern '%s'." % source)
if sources:
source = sources[0]
if not os.path.exists(source):
self._error("Source file '%s' does not exist." % source)
if not os.path.isfile(source):
self._error("Source file '%s' is not a regular file." % source)
return source
def _normalize_copy_and_move_destination(self, destination):
is_dir = os.path.isdir(destination) or destination.endswith(('/', '\\'))
destination = self._absnorm(destination)
directory = destination if is_dir else os.path.dirname(destination)
self._ensure_destination_directory_exists(directory)
return destination
def _ensure_destination_directory_exists(self, path):
if not os.path.exists(path):
os.makedirs(path)
elif not os.path.isdir(path):
self._error("Destination '%s' exists and is not a directory." % path)
def _are_source_and_destination_same_file(self, source, destination):
if self._force_normalize(source) == self._force_normalize(destination):
self._link("Source '%s' and destination '%s' point to the same "
"file.", source, destination)
return True
return False
def _force_normalize(self, path):
# TODO: Should normalize_path also support link normalization?
# TODO: Should we handle dos paths like 'exampl~1.txt'?
return os.path.realpath(normpath(path, case_normalize=True))
def _atomic_copy(self, source, destination):
"""Copy file atomically (or at least try to).
This method tries to ensure that a file copy operation will not fail
if the destination file is removed during copy operation. The problem
is that copying a file is typically not an atomic operation.
Luckily moving files is atomic in almost every platform, assuming files
are on the same filesystem, and we can use that as a workaround:
- First move the source to a temporary directory that is ensured to
be on the same filesystem as the destination.
- Move the temporary file over the real destination.
See also https://github.com/robotframework/robotframework/issues/1502
"""
temp_directory = tempfile.mkdtemp(dir=os.path.dirname(destination))
temp_file = os.path.join(temp_directory, os.path.basename(source))
try:
shutil.copy(source, temp_file)
if os.path.exists(destination):
os.remove(destination)
shutil.move(temp_file, destination)
finally:
shutil.rmtree(temp_directory)
return source, destination
[docs] def move_file(self, source, destination):
"""Moves the source file into the destination.
Arguments have exactly same semantics as with `Copy File` keyword.
Destination file path is returned since Robot Framework 2.9.2.
If the source and destination are on the same filesystem, rename
operation is used. Otherwise file is copied to the destination
filesystem and then removed from the original filesystem.
See also `Move Files`, `Copy File`, and `Copy Files`.
"""
source, destination = \
self._prepare_copy_and_move_file(source, destination)
if not self._are_source_and_destination_same_file(destination, source):
shutil.move(source, destination)
self._link("Moved file from '%s' to '%s'.", source, destination)
return destination
[docs] def copy_files(self, *sources_and_destination):
"""Copies specified files to the target directory.
Source files can be given as exact paths and as glob patterns (see
`Pattern matching`). At least one source must be given, but it is
not an error if it is a pattern that does not match anything.
Last argument must be the destination directory. If the destination
does not exist, it will be created.
Examples:
| Copy Files | ${dir}/file1.txt | ${dir}/file2.txt | ${dir2} |
| Copy Files | ${dir}/file-*.txt | ${dir2} | |
See also `Copy File`, `Move File`, and `Move Files`.
"""
sources, destination \
= self._prepare_copy_and_move_files(sources_and_destination)
for source in sources:
self.copy_file(source, destination)
def _prepare_copy_and_move_files(self, items):
if len(items) < 2:
self._error('Must contain destination and at least one source.')
sources = self._glob_files(items[:-1])
destination = self._absnorm(items[-1])
self._ensure_destination_directory_exists(destination)
return sources, destination
def _glob_files(self, patterns):
files = []
for pattern in patterns:
files.extend(self._glob(self._absnorm(pattern)))
return files
[docs] def move_files(self, *sources_and_destination):
"""Moves specified files to the target directory.
Arguments have exactly same semantics as with `Copy Files` keyword.
See also `Move File`, `Copy File`, and `Copy Files`.
"""
sources, destination \
= self._prepare_copy_and_move_files(sources_and_destination)
for source in sources:
self.move_file(source, destination)
[docs] def copy_directory(self, source, destination):
"""Copies the source directory into the destination.
If the destination exists, the source is copied under it. Otherwise
the destination directory and the possible missing intermediate
directories are created.
"""
source, destination \
= self._prepare_copy_and_move_directory(source, destination)
try:
shutil.copytree(source, destination)
except shutil.Error:
# https://github.com/robotframework/robotframework/issues/2321
if not (WINDOWS and JYTHON):
raise
self._link("Copied directory from '%s' to '%s'.", source, destination)
def _prepare_copy_and_move_directory(self, source, destination):
source = self._absnorm(source)
destination = self._absnorm(destination)
if not os.path.exists(source):
self._error("Source '%s' does not exist." % source)
if not os.path.isdir(source):
self._error("Source '%s' is not a directory." % source)
if os.path.exists(destination) and not os.path.isdir(destination):
self._error("Destination '%s' is not a directory." % destination)
if os.path.exists(destination):
base = os.path.basename(source)
destination = os.path.join(destination, base)
else:
parent = os.path.dirname(destination)
if not os.path.exists(parent):
os.makedirs(parent)
return source, destination
[docs] def move_directory(self, source, destination):
"""Moves the source directory into a destination.
Uses `Copy Directory` keyword internally, and ``source`` and
``destination`` arguments have exactly same semantics as with
that keyword.
"""
source, destination \
= self._prepare_copy_and_move_directory(source, destination)
shutil.move(source, destination)
self._link("Moved directory from '%s' to '%s'.", source, destination)
# Environment Variables
[docs] def get_environment_variable(self, name, default=None):
"""Returns the value of an environment variable with the given name.
If no such environment variable is set, returns the default value, if
given. Otherwise fails the test case.
Returned variables are automatically decoded to Unicode using
the system encoding.
Note that you can also access environment variables directly using
the variable syntax ``%{ENV_VAR_NAME}``.
"""
value = get_env_var(name, default)
if value is None:
self._error("Environment variable '%s' does not exist." % name)
return value
[docs] def set_environment_variable(self, name, value):
"""Sets an environment variable to a specified value.
Values are converted to strings automatically. Set variables are
automatically encoded using the system encoding.
"""
set_env_var(name, value)
self._info("Environment variable '%s' set to value '%s'."
% (name, value))
[docs] def append_to_environment_variable(self, name, *values, **config):
"""Appends given ``values`` to environment variable ``name``.
If the environment variable already exists, values are added after it,
and otherwise a new environment variable is created.
Values are, by default, joined together using the operating system
path separator (``;`` on Windows, ``:`` elsewhere). This can be changed
by giving a separator after the values like ``separator=value``. No
other configuration parameters are accepted.
Examples (assuming ``NAME`` and ``NAME2`` do not exist initially):
| Append To Environment Variable | NAME | first | |
| Should Be Equal | %{NAME} | first | |
| Append To Environment Variable | NAME | second | third |
| Should Be Equal | %{NAME} | first${:}second${:}third |
| Append To Environment Variable | NAME2 | first | separator=- |
| Should Be Equal | %{NAME2} | first | |
| Append To Environment Variable | NAME2 | second | separator=- |
| Should Be Equal | %{NAME2} | first-second |
"""
sentinel = object()
initial = self.get_environment_variable(name, sentinel)
if initial is not sentinel:
values = (initial,) + values
separator = config.pop('separator', os.pathsep)
if config:
config = ['='.join(i) for i in sorted(config.items())]
self._error('Configuration %s not accepted.'
% seq2str(config, lastsep=' or '))
self.set_environment_variable(name, separator.join(values))
[docs] def remove_environment_variable(self, *names):
"""Deletes the specified environment variable.
Does nothing if the environment variable is not set.
It is possible to remove multiple variables by passing them to this
keyword as separate arguments.
"""
for name in names:
value = del_env_var(name)
if value:
self._info("Environment variable '%s' deleted." % name)
else:
self._info("Environment variable '%s' does not exist." % name)
[docs] def environment_variable_should_be_set(self, name, msg=None):
"""Fails if the specified environment variable is not set.
The default error message can be overridden with the ``msg`` argument.
"""
value = get_env_var(name)
if not value:
self._fail(msg, "Environment variable '%s' is not set." % name)
self._info("Environment variable '%s' is set to '%s'." % (name, value))
[docs] def environment_variable_should_not_be_set(self, name, msg=None):
"""Fails if the specified environment variable is set.
The default error message can be overridden with the ``msg`` argument.
"""
value = get_env_var(name)
if value:
self._fail(msg, "Environment variable '%s' is set to '%s'."
% (name, value))
self._info("Environment variable '%s' is not set." % name)
[docs] def get_environment_variables(self):
"""Returns currently available environment variables as a dictionary.
Both keys and values are decoded to Unicode using the system encoding.
Altering the returned dictionary has no effect on the actual environment
variables.
"""
return get_env_vars()
[docs] def log_environment_variables(self, level='INFO'):
"""Logs all environment variables using the given log level.
Environment variables are also returned the same way as with
`Get Environment Variables` keyword.
"""
variables = get_env_vars()
for name in sorted(variables, key=lambda item: item.lower()):
self._log('%s = %s' % (name, variables[name]), level)
return variables
# Path
[docs] def join_path(self, base, *parts):
"""Joins the given path part(s) to the given base path.
The path separator (``/`` or ``\\``) is inserted when needed and
the possible absolute paths handled as expected. The resulted
path is also normalized.
Examples:
| ${path} = | Join Path | my | path |
| ${p2} = | Join Path | my/ | path/ |
| ${p3} = | Join Path | my | path | my | file.txt |
| ${p4} = | Join Path | my | /path |
| ${p5} = | Join Path | /my/path/ | .. | path2 |
=>
- ${path} = 'my/path'
- ${p2} = 'my/path'
- ${p3} = 'my/path/my/file.txt'
- ${p4} = '/path'
- ${p5} = '/my/path2'
"""
base = base.replace('/', os.sep)
parts = [p.replace('/', os.sep) for p in parts]
return self.normalize_path(os.path.join(base, *parts))
[docs] def join_paths(self, base, *paths):
"""Joins given paths with base and returns resulted paths.
See `Join Path` for more information.
Examples:
| @{p1} = | Join Paths | base | example | other | |
| @{p2} = | Join Paths | /my/base | /example | other | |
| @{p3} = | Join Paths | my/base | example/path/ | other | one/more |
=>
- @{p1} = ['base/example', 'base/other']
- @{p2} = ['/example', '/my/base/other']
- @{p3} = ['my/base/example/path', 'my/base/other', 'my/base/one/more']
"""
return [self.join_path(base, path) for path in paths]
[docs] def normalize_path(self, path, case_normalize=False):
"""Normalizes the given path.
- Collapses redundant separators and up-level references.
- Converts ``/`` to ``\\`` on Windows.
- Replaces initial ``~`` or ``~user`` by that user's home directory.
The latter is not supported on Jython.
- If ``case_normalize`` is given a true value (see `Boolean arguments`)
on Windows, converts the path to all lowercase. New in Robot
Framework 3.1.
Examples:
| ${path1} = | Normalize Path | abc/ |
| ${path2} = | Normalize Path | abc/../def |
| ${path3} = | Normalize Path | abc/./def//ghi |
| ${path4} = | Normalize Path | ~robot/stuff |
=>
- ${path1} = 'abc'
- ${path2} = 'def'
- ${path3} = 'abc/def/ghi'
- ${path4} = '/home/robot/stuff'
On Windows result would use ``\\`` instead of ``/`` and home directory
would be different.
"""
path = os.path.normpath(os.path.expanduser(path.replace('/', os.sep)))
# os.path.normcase doesn't normalize on OSX which also, by default,
# has case-insensitive file system. Our robot.utils.normpath would
# do that, but it's not certain would that, or other things that the
# utility do, desirable.
if case_normalize:
path = os.path.normcase(path)
return path or '.'
[docs] def split_path(self, path):
"""Splits the given path from the last path separator (``/`` or ``\\``).
The given path is first normalized (e.g. a possible trailing
path separator is removed, special directories ``..`` and ``.``
removed). The parts that are split are returned as separate
components.
Examples:
| ${path1} | ${dir} = | Split Path | abc/def |
| ${path2} | ${file} = | Split Path | abc/def/ghi.txt |
| ${path3} | ${d2} = | Split Path | abc/../def/ghi/ |
=>
- ${path1} = 'abc' & ${dir} = 'def'
- ${path2} = 'abc/def' & ${file} = 'ghi.txt'
- ${path3} = 'def' & ${d2} = 'ghi'
"""
return os.path.split(self.normalize_path(path))
[docs] def split_extension(self, path):
"""Splits the extension from the given path.
The given path is first normalized (e.g. possible trailing
path separators removed, special directories ``..`` and ``.``
removed). The base path and extension are returned as separate
components so that the dot used as an extension separator is
removed. If the path contains no extension, an empty string is
returned for it. Possible leading and trailing dots in the file
name are never considered to be extension separators.
Examples:
| ${path} | ${ext} = | Split Extension | file.extension |
| ${p2} | ${e2} = | Split Extension | path/file.ext |
| ${p3} | ${e3} = | Split Extension | path/file |
| ${p4} | ${e4} = | Split Extension | p1/../p2/file.ext |
| ${p5} | ${e5} = | Split Extension | path/.file.ext |
| ${p6} | ${e6} = | Split Extension | path/.file |
=>
- ${path} = 'file' & ${ext} = 'extension'
- ${p2} = 'path/file' & ${e2} = 'ext'
- ${p3} = 'path/file' & ${e3} = ''
- ${p4} = 'p2/file' & ${e4} = 'ext'
- ${p5} = 'path/.file' & ${e5} = 'ext'
- ${p6} = 'path/.file' & ${e6} = ''
"""
path = self.normalize_path(path)
basename = os.path.basename(path)
if basename.startswith('.' * basename.count('.')):
return path, ''
if path.endswith('.'):
path2 = path.rstrip('.')
trailing_dots = '.' * (len(path) - len(path2))
path = path2
else:
trailing_dots = ''
basepath, extension = os.path.splitext(path)
if extension.startswith('.'):
extension = extension[1:]
if extension:
extension += trailing_dots
else:
basepath += trailing_dots
return basepath, extension
# Misc
[docs] def get_modified_time(self, path, format='timestamp'):
"""Returns the last modification time of a file or directory.
How time is returned is determined based on the given ``format``
string as follows. Note that all checks are case-insensitive.
Returned time is also automatically logged.
1) If ``format`` contains the word ``epoch``, the time is returned
in seconds after the UNIX epoch. The return value is always
an integer.
2) If ``format`` contains any of the words ``year``, ``month``,
``day``, ``hour``, ``min`` or ``sec``, only the selected parts are
returned. The order of the returned parts is always the one
in the previous sentence and the order of the words in
``format`` is not significant. The parts are returned as
zero-padded strings (e.g. May -> ``05``).
3) Otherwise, and by default, the time is returned as a
timestamp string in the format ``2006-02-24 15:08:31``.
Examples (when the modified time of ``${CURDIR}`` is
2006-03-29 15:06:21):
| ${time} = | Get Modified Time | ${CURDIR} |
| ${secs} = | Get Modified Time | ${CURDIR} | epoch |
| ${year} = | Get Modified Time | ${CURDIR} | return year |
| ${y} | ${d} = | Get Modified Time | ${CURDIR} | year,day |
| @{time} = | Get Modified Time | ${CURDIR} | year,month,day,hour,min,sec |
=>
- ${time} = '2006-03-29 15:06:21'
- ${secs} = 1143637581
- ${year} = '2006'
- ${y} = '2006' & ${d} = '29'
- @{time} = ['2006', '03', '29', '15', '06', '21']
"""
path = self._absnorm(path)
if not os.path.exists(path):
self._error("Path '%s' does not exist." % path)
mtime = get_time(format, os.stat(path).st_mtime)
self._link("Last modified time of '%%s' is %s." % mtime, path)
return mtime
[docs] def set_modified_time(self, path, mtime):
"""Sets the file modification and access times.
Changes the modification and access times of the given file to
the value determined by ``mtime``. The time can be given in
different formats described below. Note that all checks
involving strings are case-insensitive. Modified time can only
be set to regular files.
1) If ``mtime`` is a number, or a string that can be converted
to a number, it is interpreted as seconds since the UNIX
epoch (1970-01-01 00:00:00 UTC). This documentation was
originally written about 1177654467 seconds after the epoch.
2) If ``mtime`` is a timestamp, that time will be used. Valid
timestamp formats are ``YYYY-MM-DD hh:mm:ss`` and
``YYYYMMDD hhmmss``.
3) If ``mtime`` is equal to ``NOW``, the current local time is used.
4) If ``mtime`` is equal to ``UTC``, the current time in
[http://en.wikipedia.org/wiki/Coordinated_Universal_Time|UTC]
is used.
5) If ``mtime`` is in the format like ``NOW - 1 day`` or ``UTC + 1
hour 30 min``, the current local/UTC time plus/minus the time
specified with the time string is used. The time string format
is described in an appendix of Robot Framework User Guide.
Examples:
| Set Modified Time | /path/file | 1177654467 | # Time given as epoch seconds |
| Set Modified Time | /path/file | 2007-04-27 9:14:27 | # Time given as a timestamp |
| Set Modified Time | /path/file | NOW | # The local time of execution |
| Set Modified Time | /path/file | NOW - 1 day | # 1 day subtracted from the local time |
| Set Modified Time | /path/file | UTC + 1h 2min 3s | # 1h 2min 3s added to the UTC time |
"""
mtime = parse_time(mtime)
path = self._absnorm(path)
if not os.path.exists(path):
self._error("File '%s' does not exist." % path)
if not os.path.isfile(path):
self._error("Path '%s' is not a regular file." % path)
os.utime(path, (mtime, mtime))
time.sleep(0.1) # Give os some time to really set these times
tstamp = secs_to_timestamp(mtime, seps=('-', ' ', ':'))
self._link("Set modified time of '%%s' to %s." % tstamp, path)
[docs] def get_file_size(self, path):
"""Returns and logs file size as an integer in bytes."""
path = self._absnorm(path)
if not os.path.isfile(path):
self._error("File '%s' does not exist." % path)
size = os.stat(path).st_size
plural = plural_or_not(size)
self._link("Size of file '%%s' is %d byte%s." % (size, plural), path)
return size
[docs] def list_directory(self, path, pattern=None, absolute=False):
"""Returns and logs items in a directory, optionally filtered with ``pattern``.
File and directory names are returned in case-sensitive alphabetical
order, e.g. ``['A Name', 'Second', 'a lower case name', 'one more']``.
Implicit directories ``.`` and ``..`` are not returned. The returned
items are automatically logged.
File and directory names are returned relative to the given path
(e.g. ``'file.txt'``) by default. If you want them be returned in
absolute format (e.g. ``'/home/robot/file.txt'``), give the ``absolute``
argument a true value (see `Boolean arguments`).
If ``pattern`` is given, only items matching it are returned. The pattern
matching syntax is explained in `introduction`, and in this case
matching is case-sensitive.
Examples (using also other `List Directory` variants):
| @{items} = | List Directory | ${TEMPDIR} |
| @{files} = | List Files In Directory | /tmp | *.txt | absolute |
| ${count} = | Count Files In Directory | ${CURDIR} | ??? |
"""
items = self._list_dir(path, pattern, absolute)
self._info('%d item%s:\n%s' % (len(items), plural_or_not(items),
'\n'.join(items)))
return items
[docs] def list_files_in_directory(self, path, pattern=None, absolute=False):
"""Wrapper for `List Directory` that returns only files."""
files = self._list_files_in_dir(path, pattern, absolute)
self._info('%d file%s:\n%s' % (len(files), plural_or_not(files),
'\n'.join(files)))
return files
[docs] def list_directories_in_directory(self, path, pattern=None, absolute=False):
"""Wrapper for `List Directory` that returns only directories."""
dirs = self._list_dirs_in_dir(path, pattern, absolute)
self._info('%d director%s:\n%s' % (len(dirs),
'y' if len(dirs) == 1 else 'ies',
'\n'.join(dirs)))
return dirs
[docs] def count_items_in_directory(self, path, pattern=None):
"""Returns and logs the number of all items in the given directory.
The argument ``pattern`` has the same semantics as with `List Directory`
keyword. The count is returned as an integer, so it must be checked e.g.
with the built-in keyword `Should Be Equal As Integers`.
"""
count = len(self._list_dir(path, pattern))
self._info("%s item%s." % (count, plural_or_not(count)))
return count
[docs] def count_files_in_directory(self, path, pattern=None):
"""Wrapper for `Count Items In Directory` returning only file count."""
count = len(self._list_files_in_dir(path, pattern))
self._info("%s file%s." % (count, plural_or_not(count)))
return count
[docs] def count_directories_in_directory(self, path, pattern=None):
"""Wrapper for `Count Items In Directory` returning only directory count."""
count = len(self._list_dirs_in_dir(path, pattern))
self._info("%s director%s." % (count, 'y' if count == 1 else 'ies'))
return count
def _list_dir(self, path, pattern=None, absolute=False):
path = self._absnorm(path)
self._link("Listing contents of directory '%s'.", path)
if not os.path.isdir(path):
self._error("Directory '%s' does not exist." % path)
# result is already unicode but unic also handles NFC normalization
items = sorted(unic(item) for item in os.listdir(path))
if pattern:
items = [i for i in items if fnmatch.fnmatchcase(i, pattern)]
if is_truthy(absolute):
path = os.path.normpath(path)
items = [os.path.join(path, item) for item in items]
return items
def _list_files_in_dir(self, path, pattern=None, absolute=False):
return [item for item in self._list_dir(path, pattern, absolute)
if os.path.isfile(os.path.join(path, item))]
def _list_dirs_in_dir(self, path, pattern=None, absolute=False):
return [item for item in self._list_dir(path, pattern, absolute)
if os.path.isdir(os.path.join(path, item))]
[docs] def touch(self, path):
"""Emulates the UNIX touch command.
Creates a file, if it does not exist. Otherwise changes its access and
modification times to the current time.
Fails if used with the directories or the parent directory of the given
file does not exist.
"""
path = self._absnorm(path)
if os.path.isdir(path):
self._error("Cannot touch '%s' because it is a directory." % path)
if not os.path.exists(os.path.dirname(path)):
self._error("Cannot touch '%s' because its parent directory does "
"not exist." % path)
if os.path.exists(path):
mtime = round(time.time())
os.utime(path, (mtime, mtime))
self._link("Touched existing file '%s'.", path)
else:
open(path, 'w').close()
self._link("Touched new file '%s'.", path)
def _absnorm(self, path):
path = self.normalize_path(path)
try:
return abspath(path)
except ValueError: # http://ironpython.codeplex.com/workitem/29489
return path
def _fail(self, *messages):
raise AssertionError(next(msg for msg in messages if msg))
def _error(self, msg):
raise RuntimeError(msg)
def _info(self, msg):
self._log(msg, 'INFO')
def _link(self, msg, *paths):
paths = tuple('<a href="file://%s">%s</a>' % (p, p) for p in paths)
self._log(msg % paths, 'HTML')
def _warn(self, msg):
self._log(msg, 'WARN')
def _log(self, msg, level):
logger.write(msg, level)
class _Process:
def __init__(self, command):
self._command = self._process_command(command)
self._process = os.popen(self._command)
def __str__(self):
return self._command
def read(self):
return self._process_output(self._process.read())
def close(self):
try:
rc = self._process.close()
except IOError: # Has occurred sometimes in Windows
return 255
if rc is None:
return 0
# In Windows (Python and Jython) return code is value returned by
# command (can be almost anything)
# In other OS:
# In Jython return code can be between '-255' - '255'
# In Python return code must be converted with 'rc >> 8' and it is
# between 0-255 after conversion
if WINDOWS or JYTHON:
return rc % 256
return rc >> 8
def _process_command(self, command):
if '>' not in command:
if command.endswith('&'):
command = command[:-1] + ' 2>&1 &'
else:
command += ' 2>&1'
return self._encode_to_file_system(command)
def _encode_to_file_system(self, string):
enc = sys.getfilesystemencoding() if PY2 else None
return string.encode(enc) if enc else string
def _process_output(self, output):
if '\r\n' in output:
output = output.replace('\r\n', '\n')
if output.endswith('\n'):
output = output[:-1]
return console_decode(output, force=True)