# # Copyright 2017 Ettus Research, National Instruments Company # # SPDX-License-Identifier: GPL-3.0 # """ Miscellaneous utilities for MPM """ import time import sys def poll_with_timeout(state_check, timeout_ms, interval_ms): """ Calls state_check() every interval_ms until it returns a positive value, or until a timeout is exceeded. Returns True if state_check() returned True within the timeout. Arguments: state_check -- Functor that returns a Boolean success value, and takes no arguments. timeout_ms -- The total timeout in milliseconds. state_check() has to return True within this time. interval_ms -- Sleep time between calls to state_check(). Note that if interval_ms is larger than timeout_ms, state_check() will be called exactly once, and then poll_with_timeout() will still sleep for interval_ms milliseconds. Typically, interval_ms should be chosen much smaller than timeout_ms, but not too small for this to become a busy loop. """ max_time = time.time() + (float(timeout_ms) / 1000) interval_s = float(interval_ms) / 1000 while time.time() < max_time: if state_check(): return True time.sleep(interval_s) return False def to_native_str(str_or_bstr): """ Returns a native string, regardless of the input string type (binary or UTF-8), and the Python version (2 or 3). Note that the native string type is actually not the same in Python 2 and 3: In the former, it's a binary string, in the latter, it's Unicode. >>> to_native_str(b'foo') 'foo' >>> to_native_str(u'foo') 'foo' """ if isinstance(str_or_bstr, str): return str_or_bstr try: # This will either fail because we're running Python 2 (which doesn't) # have the encoding argument) or because we're not passing in a bytes- # like object (e.g., an integer) return str(str_or_bstr, encoding='ascii') except TypeError: return str(str_or_bstr) def to_binary_str(str_or_bstr): """ Returns a binary string, regardless of the input string type (binary or UTF-8), and the Python version (2 or 3). Note that in Python 2, a binary string is the native string type. """ try: return bytes(str_or_bstr.encode('utf-8')) except AttributeError: return bytes(str_or_bstr) def to_utf8_str(str_or_bstr): """ Returns a unicode string, regardless of the input string type (binary or UTF-8), and the Python version (2 or 3). Note that in Python 2, a unicode string is not the native string type. """ try: return str_or_bstr.decode('utf-8') except AttributeError: return str_or_bstr def assert_compat_number( expected_compat, actual_compat, component=None, fail_on_old_minor=False, log=None, ): """ Check if a compat number pair is acceptable. A compat number is a pair of integers (MAJOR, MINOR). A compat number is not acceptable if the major part differs from the expected value (regardless of how it's different) or if the minor part is behind the expected value and fail_on_old_minor was given. On failure, will throw a RuntimeError. Arguments: expected_compat -- A tuple (major, minor) which represents the compat number we are expecting. actual_compat -- A tuple (major, minor) which represents the compat number that is actually available. component -- A name of the component for which we are checking the compat number, e.g. "FPGA". fail_on_old_minor -- Will also fail if the actual minor compat number is behind the expected minor compat number, assuming the major compat number matches. log -- Logger object. If given, will use this to report on intermediate steps and non-fatal minor compat mismatches. """ assert len(expected_compat) == 2 assert len(actual_compat) == 2 log_err = lambda msg: log.error(msg) if log is not None else None log_warn = lambda msg: log.warning(msg) if log is not None else None expected_actual_str = "Expected: {:d}.{:d} Actual: {:d}.{:d}".format( expected_compat[0], expected_compat[1], actual_compat[0], actual_compat[1], ) component_str = "" if component is None else " for component `{}'".format( component ) if actual_compat[0] != expected_compat[0]: err_msg = "Major compat number mismatch{}: {}".format( component_str, expected_actual_str ) log_err(err_msg) raise RuntimeError(err_msg) if actual_compat[1] > expected_compat[1]: log_warn("Actual minor compat ahead of expected compat{}. {}".format( component_str, expected_actual_str )) if actual_compat[1] < expected_compat[1]: err_msg = "Minor compat number mismatch{}: {}".format( component_str, expected_actual_str ) log_err(err_msg) if fail_on_old_minor: raise RuntimeError(err_msg) return