diff options
Diffstat (limited to 'resources/libraries')
-rw-r--r-- | resources/libraries/python/MLRsearch/MultipleLossRatioSearch.py | 279 |
1 files changed, 179 insertions, 100 deletions
diff --git a/resources/libraries/python/MLRsearch/MultipleLossRatioSearch.py b/resources/libraries/python/MLRsearch/MultipleLossRatioSearch.py index be7ffba3a3..1ecd42e7dd 100644 --- a/resources/libraries/python/MLRsearch/MultipleLossRatioSearch.py +++ b/resources/libraries/python/MLRsearch/MultipleLossRatioSearch.py @@ -17,9 +17,9 @@ import logging import math import time -from AbstractSearchAlgorithm import AbstractSearchAlgorithm -from NdrPdrResult import NdrPdrResult -from ReceiveRateInterval import ReceiveRateInterval +from .AbstractSearchAlgorithm import AbstractSearchAlgorithm +from .NdrPdrResult import NdrPdrResult +from .ReceiveRateInterval import ReceiveRateInterval class MultipleLossRatioSearch(AbstractSearchAlgorithm): @@ -344,48 +344,51 @@ class MultipleLossRatioSearch(AbstractSearchAlgorithm): :rtype: ReceiveRateInterval.ReceiveRateInterval """ old_lo, old_hi = old_interval.measured_low, old_interval.measured_high + new_lo = new_hi = None # Priority zero: direct replace if the target Tr is the same. if measurement.target_tr in (old_lo.target_tr, old_hi.target_tr): if measurement.target_tr == old_lo.target_tr: - return ReceiveRateInterval(measurement, old_hi) + new_lo = measurement else: - return ReceiveRateInterval(old_lo, measurement) + new_hi = measurement # Priority one: invalid lower bound allows only one type of update. - if old_lo.loss_fraction > packet_loss_ratio: + elif old_lo.loss_fraction > packet_loss_ratio: # We can only expand down, old bound becomes valid upper one. if measurement.target_tr < old_lo.target_tr: - return ReceiveRateInterval(measurement, old_lo) + new_lo, new_hi = measurement, old_lo else: return old_interval + # Lower bound is now valid. # Next priorities depend on target Tr. - if measurement.target_tr < old_lo.target_tr: + elif measurement.target_tr < old_lo.target_tr: # Lower external measurement, relevant only # if the new measurement has high loss rate. if measurement.loss_fraction > packet_loss_ratio: # Returning the broader interval as old_lo # would be invalid upper bound. - return ReceiveRateInterval(measurement, old_hi) + new_lo = measurement elif measurement.target_tr > old_hi.target_tr: # Upper external measurement, only relevant for invalid upper bound. if old_hi.loss_fraction <= packet_loss_ratio: # Old upper bound becomes valid new lower bound. - return ReceiveRateInterval(old_hi, measurement) + new_lo, new_hi = old_hi, measurement else: # Internal measurement, replaced boundary # depends on measured loss fraction. if measurement.loss_fraction > packet_loss_ratio: # We have found a narrow valid interval, # regardless of whether old upper bound was valid. - return ReceiveRateInterval(old_lo, measurement) + new_hi = measurement else: # In ideal world, we would not want to shrink interval # if upper bound is not valid. # In the real world, we want to shrink it for # "invalid upper bound at maximal rate" case. - return ReceiveRateInterval(measurement, old_hi) - # Fallback, the interval is unchanged by the measurement. - return old_interval + new_lo = measurement + + return ReceiveRateInterval(old_lo if new_lo is None else new_lo, + old_hi if new_hi is None else new_hi) def ndrpdr(self, state): """Pefrom trials for this phase. Return the new state when done. @@ -416,6 +419,7 @@ class MultipleLossRatioSearch(AbstractSearchAlgorithm): state.duration = saved_duration state.width_goal = saved_width state.phases = saved_phases # Not needed, but just in case. + logging.info( "starting iterations with duration %s and relative width goal %s", state.duration, state.width_goal) @@ -436,62 +440,14 @@ class MultipleLossRatioSearch(AbstractSearchAlgorithm): state.width_goal, state.result.pdr_interval.rel_tr_width) # If we are hitting maximal or minimal rate, we cannot shift, # but we can re-measure. - if ndr_lo.loss_fraction > 0.0: - if ndr_lo.target_tr > state.minimum_transmit_rate: - new_tr = max( - state.minimum_transmit_rate, - self.expand_down( - ndr_rel_width, self.doublings, ndr_lo.target_tr)) - logging.info("ndr lo external %s", new_tr) - state = self._measure_and_update_state(state, new_tr) - continue - elif ndr_lo.duration < state.duration: - logging.info("ndr lo minimal re-measure") - state = self._measure_and_update_state( - state, state.minimum_transmit_rate) - continue - if pdr_lo.loss_fraction > state.packet_loss_ratio: - if pdr_lo.target_tr > state.minimum_transmit_rate: - new_tr = max( - state.minimum_transmit_rate, - self.expand_down( - pdr_rel_width, self.doublings, pdr_lo.target_tr)) - logging.info("pdr lo external %s", new_tr) - state = self._measure_and_update_state(state, new_tr) - continue - elif pdr_lo.duration < state.duration: - logging.info("pdr lo minimal re-measure") - state = self._measure_and_update_state( - state, state.minimum_transmit_rate) - continue - if ndr_hi.loss_fraction <= 0.0: - if ndr_hi.target_tr < state.maximum_transmit_rate: - new_tr = min( - state.maximum_transmit_rate, - self.expand_up( - ndr_rel_width, self.doublings, ndr_hi.target_tr)) - logging.info("ndr hi external %s", new_tr) - state = self._measure_and_update_state(state, new_tr) - continue - elif ndr_hi.duration < state.duration: - logging.info("ndr hi maximal re-measure") - state = self._measure_and_update_state( - state, state.maximum_transmit_rate) - continue - if pdr_hi.loss_fraction <= state.packet_loss_ratio: - if pdr_hi.target_tr < state.maximum_transmit_rate: - new_tr = min( - state.maximum_transmit_rate, - self.expand_up( - pdr_rel_width, self.doublings, pdr_hi.target_tr)) - logging.info("pdr hi external %s", new_tr) - state = self._measure_and_update_state(state, new_tr) - continue - elif pdr_hi.duration < state.duration: - logging.info("ndr hi maximal re-measure") - state = self._measure_and_update_state( - state, state.maximum_transmit_rate) - continue + new_tr = self._ndrpdr_loss_fraction(state, + ndr_lo, ndr_hi, pdr_lo, pdr_hi, + ndr_rel_width, pdr_rel_width) + + if new_tr is not None: + state = self._measure_and_update_state(state, new_tr) + continue + # If we are hitting maximum_transmit_rate, # it is still worth narrowing width, # hoping large enough loss fraction will happen. @@ -504,43 +460,166 @@ class MultipleLossRatioSearch(AbstractSearchAlgorithm): if (pdr_lo.target_tr <= state.minimum_transmit_rate and pdr_lo.loss_fraction > state.packet_loss_ratio): pdr_rel_width = 0.0 - if ndr_rel_width > state.width_goal: - # We have to narrow NDR width first, as NDR internal search - # can invalidate PDR (but not vice versa). - new_tr = self.half_step_up(ndr_rel_width, ndr_lo.target_tr) - logging.info("Bisecting for NDR at %s", new_tr) - state = self._measure_and_update_state(state, new_tr) - continue - if pdr_rel_width > state.width_goal: - # PDR iternal search. - new_tr = self.half_step_up(pdr_rel_width, pdr_lo.target_tr) - logging.info("Bisecting for PDR at %s", new_tr) + + new_tr = self._ndrpdr_width_goal(state, ndr_lo, pdr_lo, + ndr_rel_width, pdr_rel_width) + + if new_tr is not None: state = self._measure_and_update_state(state, new_tr) continue + # We do not need to improve width, but there still might be # some measurements with smaller duration. - # We need to re-measure with full duration, possibly - # creating invalid bounds to resolve (thus broadening width). - if ndr_lo.duration < state.duration: - logging.info("re-measuring NDR lower bound") - self._measure_and_update_state(state, ndr_lo.target_tr) - continue - if pdr_lo.duration < state.duration: - logging.info("re-measuring PDR lower bound") - self._measure_and_update_state(state, pdr_lo.target_tr) - continue - # Except when lower bounds have high loss fraction, in that case - # we do not need to re-measure _upper_ bounds. - if ndr_hi.duration < state.duration and ndr_rel_width > 0.0: - logging.info("re-measuring NDR upper bound") - self._measure_and_update_state(state, ndr_hi.target_tr) - continue - if pdr_hi.duration < state.duration and pdr_rel_width > 0.0: - logging.info("re-measuring PDR upper bound") - self._measure_and_update_state(state, pdr_hi.target_tr) + new_tr = self._ndrpdr_duration(state, + ndr_lo, ndr_hi, pdr_lo, pdr_hi, + ndr_rel_width, pdr_rel_width) + + if new_tr is not None: + state = self._measure_and_update_state(state, new_tr) continue + # Widths are narrow (or lower bound minimal), bound measurements # are long enough, we can return. logging.info("phase done") break return state + + def _ndrpdr_loss_fraction(self, state, ndr_lo, ndr_hi, pdr_lo, pdr_hi, + ndr_rel_width, pdr_rel_width): + """Perform loss_fraction-based trials within a ndrpdr phase + + :param state: current state + :param ndr_lo: ndr interval measured low + :param ndr_hi: ndr interval measured high + :param pdr_lo: pdr interval measured low + :param pdr_hi: pdr interval measured high + :param ndr_rel_width: ndr interval relative width + :param pdr_rel_width: pdr interval relative width + :type state: ProgressState + :type ndr_lo: ReceiveRateMeasurement.ReceiveRateMeasurement + :type ndr_hi: ReceiveRateMeasurement.ReceiveRateMeasurement + :type pdr_lo: ReceiveRateMeasurement.ReceiveRateMeasurement + :type pdr_hi: ReceiveRateMeasurement.ReceiveRateMeasurement + :type ndr_rel_width: float + :type pdr_rel_width: float + :returns: a new transmit rate if one should be applied + :rtype: float + """ + result = None + if ndr_lo.loss_fraction > 0.0: + if ndr_lo.target_tr > state.minimum_transmit_rate: + result = max( + state.minimum_transmit_rate, + self.expand_down( + ndr_rel_width, self.doublings, ndr_lo.target_tr)) + logging.info("ndr lo external %s", result) + elif ndr_lo.duration < state.duration: + result = state.minimum_transmit_rate + logging.info("ndr lo minimal re-measure") + + if result is None and pdr_lo.loss_fraction > state.packet_loss_ratio: + if pdr_lo.target_tr > state.minimum_transmit_rate: + result = max( + state.minimum_transmit_rate, + self.expand_down( + pdr_rel_width, self.doublings, pdr_lo.target_tr)) + logging.info("pdr lo external %s", result) + elif pdr_lo.duration < state.duration: + result = state.minimum_transmit_rate + logging.info("pdr lo minimal re-measure") + + if result is None and ndr_hi.loss_fraction <= 0.0: + if ndr_hi.target_tr < state.maximum_transmit_rate: + result = min( + state.maximum_transmit_rate, + self.expand_up( + ndr_rel_width, self.doublings, ndr_hi.target_tr)) + logging.info("ndr hi external %s", result) + elif ndr_hi.duration < state.duration: + result = state.maximum_transmit_rate + logging.info("ndr hi maximal re-measure") + + if result is None and pdr_hi.loss_fraction <= state.packet_loss_ratio: + if pdr_hi.target_tr < state.maximum_transmit_rate: + result = min( + state.maximum_transmit_rate, + self.expand_up( + pdr_rel_width, self.doublings, pdr_hi.target_tr)) + logging.info("pdr hi external %s", result) + elif pdr_hi.duration < state.duration: + result = state.maximum_transmit_rate + logging.info("ndr hi maximal re-measure") + return result + + def _ndrpdr_width_goal(self, state, ndr_lo, pdr_lo, + ndr_rel_width, pdr_rel_width): + """Perform width_goal-based trials within a ndrpdr phase + + :param state: current state + :param ndr_lo: ndr interval measured low + :param pdr_lo: pdr interval measured low + :param ndr_rel_width: ndr interval relative width + :param pdr_rel_width: pdr interval relative width + :type state: ProgressState + :type ndr_lo: ReceiveRateMeasurement.ReceiveRateMeasurement + :type pdr_lo: ReceiveRateMeasurement.ReceiveRateMeasurement + :type ndr_rel_width: float + :type pdr_rel_width: float + :returns: a new transmit rate if one should be applied + :rtype: float + Return a new transmit rate if one should be applied. + """ + if ndr_rel_width > state.width_goal: + # We have to narrow NDR width first, as NDR internal search + # can invalidate PDR (but not vice versa). + result = self.half_step_up(ndr_rel_width, ndr_lo.target_tr) + logging.info("Bisecting for NDR at %s", result) + elif pdr_rel_width > state.width_goal: + # PDR iternal search. + result = self.half_step_up(pdr_rel_width, pdr_lo.target_tr) + logging.info("Bisecting for PDR at %s", result) + else: + result = None + return result + + @staticmethod + def _ndrpdr_duration(state, ndr_lo, pdr_lo, ndr_hi, pdr_hi, + ndr_rel_width, pdr_rel_width): + """Perform duration-based trials within a ndrpdr phase + + :param state: current state + :param ndr_lo: ndr interval measured low + :param ndr_hi: ndr interval measured high + :param pdr_lo: pdr interval measured low + :param pdr_hi: pdr interval measured high + :param ndr_rel_width: ndr interval relative width + :param pdr_rel_width: pdr interval relative width + :type state: ProgressState + :type ndr_lo: ReceiveRateMeasurement.ReceiveRateMeasurement + :type ndr_hi: ReceiveRateMeasurement.ReceiveRateMeasurement + :type pdr_lo: ReceiveRateMeasurement.ReceiveRateMeasurement + :type pdr_hi: ReceiveRateMeasurement.ReceiveRateMeasurement + :type ndr_rel_width: float + :type pdr_rel_width: float + :returns: a new transmit rate if one should be applied + :rtype: float + """ + # We need to re-measure with full duration, possibly + # creating invalid bounds to resolve (thus broadening width). + if ndr_lo.duration < state.duration: + result = ndr_lo.target_tr + logging.info("re-measuring NDR lower bound") + elif pdr_lo.duration < state.duration: + result = pdr_lo.target_tr + logging.info("re-measuring PDR lower bound") + # Except when lower bounds have high loss fraction, in that case + # we do not need to re-measure _upper_ bounds. + elif ndr_hi.duration < state.duration and ndr_rel_width > 0.0: + result = ndr_hi.target_tr + logging.info("re-measuring NDR upper bound") + elif pdr_hi.duration < state.duration and pdr_rel_width > 0.0: + result = pdr_hi.target_tr + logging.info("re-measuring PDR upper bound") + else: + result = None + return result |