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Direktori : /proc/thread-self/root/proc/self/root/lib/python3.6/site-packages/tuned/utils/ |
Current File : //proc/thread-self/root/proc/self/root/lib/python3.6/site-packages/tuned/utils/nettool.py |
__all__ = ["ethcard"] import tuned.logs from subprocess import * import re log = tuned.logs.get() class Nettool: _advertise_values = { # [ half, full ] 10 : [ 0x001, 0x002 ], 100 : [ 0x004, 0x008 ], 1000 : [ 0x010, 0x020 ], 2500 : [ 0, 0x8000 ], 10000 : [ 0, 0x1000 ], "auto" : 0x03F } _disabled = False def __init__(self, interface): self._interface = interface; self.update() log.debug("%s: speed %s, full duplex %s, autoneg %s, link %s" % (interface, self.speed, self.full_duplex, self.autoneg, self.link)) log.debug("%s: supports: autoneg %s, modes %s" % (interface, self.supported_autoneg, self.supported_modes)) log.debug("%s: advertises: autoneg %s, modes %s" % (interface, self.advertised_autoneg, self.advertised_modes)) # def __del__(self): # if self.supported_autoneg: # self._set_advertise(self._advertise_values["auto"]) def _clean_status(self): self.speed = 0 self.full_duplex = False self.autoneg = False self.link = False self.supported_modes = [] self.supported_autoneg = False self.advertised_modes = [] self.advertised_autoneg = False def _calculate_mode(self, modes): mode = 0; for m in modes: mode += self._advertise_values[m[0]][ 1 if m[1] else 0 ] return mode def _set_autonegotiation(self, enable): if self.autoneg == enable: return True if not self.supported_autoneg: return False return 0 == call(["ethtool", "-s", self._interface, "autoneg", "on" if enable else "off"], close_fds=True) def _set_advertise(self, value): if not self._set_autonegotiation(True): return False return 0 == call(["ethtool", "-s", self._interface, "advertise", "0x%03x" % value], close_fds=True) def get_max_speed(self): max = 0 for mode in self.supported_modes: if mode[0] > max: max = mode[0] if max > 0: return max else: return 1000 def set_max_speed(self): if self._disabled or not self.supported_autoneg: return False #if self._set_advertise(self._calculateMode(self.supported_modes)): if self._set_advertise(self._advertise_values["auto"]): self.update() return True else: return False def set_speed(self, speed): if self._disabled or not self.supported_autoneg: return False mode = 0 for am in self._advertise_values: if am == "auto": continue if am <= speed: mode += self._advertise_values[am][0]; mode += self._advertise_values[am][1]; effective_mode = mode & self._calculate_mode(self.supported_modes) log.debug("%s: set_speed(%d) - effective_mode 0x%03x" % (self._interface, speed, effective_mode)) if self._set_advertise(effective_mode): self.update() return True else: return False def update(self): if self._disabled: return # run ethtool and preprocess output p_ethtool = Popen(["ethtool", self._interface], \ stdout=PIPE, stderr=PIPE, close_fds=True, \ universal_newlines = True) p_filter = Popen(["sed", r"s/^\s*//;s/:\s*/:\n/g"], \ stdin=p_ethtool.stdout, stdout=PIPE, \ universal_newlines = True, \ close_fds=True) output = p_filter.communicate()[0] errors = p_ethtool.communicate()[1] if errors != "": log.warning("%s: some errors were reported by 'ethtool'" % self._interface) log.debug("%s: %s" % (self._interface, errors.replace("\n", r"\n"))) self._clean_status() self._disabled = True return # parses output - kind of FSM self._clean_status() re_speed = re.compile(r"(\d+)") re_mode = re.compile(r"(\d+)baseT/(Half|Full)") state = "wait" for line in output.split("\n"): if line.endswith(":"): section = line[:-1] if section == "Speed": state = "speed" elif section == "Duplex": state = "duplex" elif section == "Auto-negotiation": state = "autoneg" elif section == "Link detected": state = "link" elif section == "Supported link modes": state = "supported_modes" elif section == "Supports auto-negotiation": state = "supported_autoneg" elif section == "Advertised link modes": state = "advertised_modes" elif section == "Advertised auto-negotiation": state = "advertised_autoneg" else: state = "wait" del section elif state == "speed": # Try to determine speed. If it fails, assume 1gbit ethernet try: self.speed = re_speed.match(line).group(1) except: self.speed = 1000 state = "wait" elif state == "duplex": self.full_duplex = line == "Full" state = "wait" elif state == "autoneg": self.autoneg = (line == "yes" or line == "on") state = "wait" elif state == "link": self.link = line == "yes" state = "wait" elif state == "supported_modes": # Try to determine supported modes. If it fails, assume 1gibt ethernet fullduplex works try: for m in line.split(): (s, d) = re_mode.match(m).group(1,2) self.supported_modes.append( (int(s), d == "Full") ) del m,s,d except: self.supported_modes.append((1000, True)) elif state == "supported_autoneg": self.supported_autoneg = line == "Yes" state = "wait" elif state == "advertised_modes": # Try to determine advertised modes. If it fails, assume 1gibt ethernet fullduplex works try: if line != "Not reported": for m in line.split(): (s, d) = re_mode.match(m).group(1,2) self.advertised_modes.append( (int(s), d == "Full") ) del m,s,d except: self.advertised_modes.append((1000, True)) elif state == "advertised_autoneg": self.advertised_autoneg = line == "Yes" state = "wait" def ethcard(interface): if not interface in ethcard.list: ethcard.list[interface] = Nettool(interface) return ethcard.list[interface] ethcard.list = {}