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|
from collections import namedtuple, OrderedDict
from .trex_stl_packet_builder_scapy import STLPktBuilder
from .trex_stl_streams import STLStream
from .trex_stl_types import *
from .trex_stl_rx_features import ARPResolver, PingResolver
from . import trex_stl_stats
from .utils.constants import FLOW_CTRL_DICT_REVERSED
import base64
import copy
from datetime import datetime, timedelta
import threading
StreamOnPort = namedtuple('StreamOnPort', ['compiled_stream', 'metadata'])
########## utlity ############
def mult_to_factor (mult, max_bps_l2, max_pps, line_util):
if mult['type'] == 'raw':
return mult['value']
if mult['type'] == 'bps':
return mult['value'] / max_bps_l2
if mult['type'] == 'pps':
return mult['value'] / max_pps
if mult['type'] == 'percentage':
return mult['value'] / line_util
# describes a single port
class Port(object):
STATE_DOWN = 0
STATE_IDLE = 1
STATE_STREAMS = 2
STATE_TX = 3
STATE_PAUSE = 4
STATE_PCAP_TX = 5
MASK_ALL = ((1 << 64) - 1)
PortState = namedtuple('PortState', ['state_id', 'state_name'])
STATES_MAP = {STATE_DOWN: "DOWN",
STATE_IDLE: "IDLE",
STATE_STREAMS: "IDLE",
STATE_TX: "TRANSMITTING",
STATE_PAUSE: "PAUSE",
STATE_PCAP_TX : "TRANSMITTING"}
def __init__ (self, port_id, user, comm_link, session_id, info):
self.port_id = port_id
self.state = self.STATE_IDLE
self.handler = None
self.comm_link = comm_link
self.transmit = comm_link.transmit
self.transmit_batch = comm_link.transmit_batch
self.user = user
self.info = dict(info)
self.streams = {}
self.profile = None
self.session_id = session_id
self.status = {}
self.port_stats = trex_stl_stats.CPortStats(self)
self.next_available_id = 1
self.tx_stopped_ts = None
self.has_rx_streams = False
self.owner = ''
self.last_factor_type = None
self.__attr = {}
self.attr_lock = threading.Lock()
# decorator to verify port is up
def up(func):
def func_wrapper(*args, **kwargs):
port = args[0]
if not port.is_up():
return port.err("{0} - port is down".format(func.__name__))
return func(*args, **kwargs)
return func_wrapper
# owned
def owned(func):
def func_wrapper(*args, **kwargs):
port = args[0]
if not port.is_acquired():
return port.err("{0} - port is not owned".format(func.__name__))
return func(*args, **kwargs)
return func_wrapper
# decorator to check server is readable (port not down and etc.)
def writeable(func):
def func_wrapper(*args, **kwargs):
port = args[0]
if not port.is_acquired():
return port.err("{0} - port is not owned".format(func.__name__))
if not port.is_writeable():
return port.err("{0} - port is not in a writeable state".format(func.__name__))
return func(*args, **kwargs)
return func_wrapper
def err(self, msg):
return RC_ERR("port {0} : {1}\n".format(self.port_id, msg))
def ok(self, data = ""):
return RC_OK(data)
def get_speed_bps (self):
return (self.get_speed_gbps() * 1000 * 1000 * 1000)
def get_speed_gbps (self):
return self.__attr['speed']
def is_acquired(self):
return (self.handler != None)
def is_up (self):
return self.__attr['link']['up']
def is_active(self):
return (self.state == self.STATE_TX ) or (self.state == self.STATE_PAUSE) or (self.state == self.STATE_PCAP_TX)
def is_transmitting (self):
return (self.state == self.STATE_TX) or (self.state == self.STATE_PCAP_TX)
def is_paused (self):
return (self.state == self.STATE_PAUSE)
def is_writeable (self):
# operations on port can be done on state idle or state streams
return ((self.state == self.STATE_IDLE) or (self.state == self.STATE_STREAMS))
def get_owner (self):
if self.is_acquired():
return self.user
else:
return self.owner
def __allocate_stream_id (self):
id = self.next_available_id
self.next_available_id += 1
return id
# take the port
def acquire(self, force = False, sync_streams = True):
params = {"port_id": self.port_id,
"user": self.user,
"session_id": self.session_id,
"force": force}
rc = self.transmit("acquire", params)
if not rc:
return self.err(rc.err())
self.handler = rc.data()
if sync_streams:
return self.sync_streams()
else:
return self.ok()
# sync all the streams with the server
def sync_streams (self):
params = {"port_id": self.port_id}
rc = self.transmit("get_all_streams", params)
if rc.bad():
return self.err(rc.err())
for k, v in rc.data()['streams'].items():
self.streams[k] = {'next_id': v['next_stream_id'],
'pkt' : base64.b64decode(v['packet']['binary']),
'mode' : v['mode']['type'],
'rate' : STLStream.get_rate_from_field(v['mode']['rate'])}
return self.ok()
# release the port
def release(self):
params = {"port_id": self.port_id,
"handler": self.handler}
rc = self.transmit("release", params)
if rc.good():
self.handler = None
self.owner = ''
return self.ok()
else:
return self.err(rc.err())
def sync(self):
params = {"port_id": self.port_id}
rc = self.transmit("get_port_status", params)
if rc.bad():
return self.err(rc.err())
# sync the port
port_state = rc.data()['state']
if port_state == "DOWN":
self.state = self.STATE_DOWN
elif port_state == "IDLE":
self.state = self.STATE_IDLE
elif port_state == "STREAMS":
self.state = self.STATE_STREAMS
elif port_state == "TX":
self.state = self.STATE_TX
elif port_state == "PAUSE":
self.state = self.STATE_PAUSE
elif port_state == "PCAP_TX":
self.state = self.STATE_PCAP_TX
else:
raise Exception("port {0}: bad state received from server '{1}'".format(self.port_id, port_state))
self.owner = rc.data()['owner']
self.next_available_id = int(rc.data()['max_stream_id']) + 1
self.status = rc.data()
# replace the attributes in a thread safe manner
self.set_ts_attr(rc.data()['attr'])
return self.ok()
# add streams
@writeable
def add_streams (self, streams_list):
# listify
streams_list = streams_list if isinstance(streams_list, list) else [streams_list]
lookup = {}
# allocate IDs
for stream in streams_list:
# allocate stream id
stream_id = stream.get_id() if stream.get_id() is not None else self.__allocate_stream_id()
if stream_id in self.streams:
return self.err('Stream ID: {0} already exists'.format(stream_id))
# name
name = stream.get_name() if stream.get_name() is not None else id(stream)
if name in lookup:
return self.err("multiple streams with duplicate name: '{0}'".format(name))
lookup[name] = stream_id
batch = []
for stream in streams_list:
name = stream.get_name() if stream.get_name() is not None else id(stream)
stream_id = lookup[name]
next_id = -1
next = stream.get_next()
if next:
if not next in lookup:
return self.err("stream dependency error - unable to find '{0}'".format(next))
next_id = lookup[next]
stream_json = stream.to_json()
stream_json['next_stream_id'] = next_id
params = {"handler": self.handler,
"port_id": self.port_id,
"stream_id": stream_id,
"stream": stream_json}
cmd = RpcCmdData('add_stream', params, 'core')
batch.append(cmd)
rc = self.transmit_batch(batch)
ret = RC()
for i, single_rc in enumerate(rc):
if single_rc.rc:
stream_id = batch[i].params['stream_id']
next_id = batch[i].params['stream']['next_stream_id']
self.streams[stream_id] = {'next_id' : next_id,
'pkt' : streams_list[i].get_pkt(),
'mode' : streams_list[i].get_mode(),
'rate' : streams_list[i].get_rate(),
'has_flow_stats' : streams_list[i].has_flow_stats()}
ret.add(RC_OK(data = stream_id))
self.has_rx_streams = self.has_rx_streams or streams_list[i].has_flow_stats()
else:
ret.add(RC(*single_rc))
self.state = self.STATE_STREAMS if (len(self.streams) > 0) else self.STATE_IDLE
return ret if ret else self.err(str(ret))
# remove stream from port
@writeable
def remove_streams (self, stream_id_list):
# single element to list
stream_id_list = stream_id_list if isinstance(stream_id_list, list) else [stream_id_list]
# verify existance
if not all([stream_id in self.streams for stream_id in stream_id_list]):
return self.err("stream {0} does not exists".format(stream_id))
batch = []
for stream_id in stream_id_list:
params = {"handler": self.handler,
"port_id": self.port_id,
"stream_id": stream_id}
cmd = RpcCmdData('remove_stream', params, 'core')
batch.append(cmd)
rc = self.transmit_batch(batch)
for i, single_rc in enumerate(rc):
if single_rc:
id = batch[i].params['stream_id']
del self.streams[id]
self.state = self.STATE_STREAMS if (len(self.streams) > 0) else self.STATE_IDLE
# recheck if any RX stats streams present on the port
self.has_rx_streams = any([stream['has_flow_stats'] for stream in self.streams.values()])
return self.ok() if rc else self.err(rc.err())
# remove all the streams
@writeable
def remove_all_streams (self):
params = {"handler": self.handler,
"port_id": self.port_id}
rc = self.transmit("remove_all_streams", params)
if not rc:
return self.err(rc.err())
self.streams = {}
self.state = self.STATE_IDLE
self.has_rx_streams = False
return self.ok()
# get a specific stream
def get_stream (self, stream_id):
if stream_id in self.streams:
return self.streams[stream_id]
else:
return None
def get_all_streams (self):
return self.streams
@writeable
def start (self, mul, duration, force, mask):
if self.state == self.STATE_IDLE:
return self.err("unable to start traffic - no streams attached to port")
params = {"handler": self.handler,
"port_id": self.port_id,
"mul": mul,
"duration": duration,
"force": force,
"core_mask": mask if mask is not None else self.MASK_ALL}
# must set this before to avoid race with the async response
last_state = self.state
self.state = self.STATE_TX
rc = self.transmit("start_traffic", params)
if rc.bad():
self.state = last_state
return self.err(rc.err())
# save this for TUI
self.last_factor_type = mul['type']
return rc
# stop traffic
# with force ignores the cached state and sends the command
@owned
def stop (self, force = False):
# if not is not active and not force - go back
if not self.is_active() and not force:
return self.ok()
params = {"handler": self.handler,
"port_id": self.port_id}
rc = self.transmit("stop_traffic", params)
if rc.bad():
return self.err(rc.err())
self.state = self.STATE_STREAMS
self.last_factor_type = None
# timestamp for last tx
self.tx_stopped_ts = datetime.now()
return self.ok()
# return True if port has any stream configured with RX stats
def has_rx_enabled (self):
return self.has_rx_streams
# return true if rx_delay_ms has passed since the last port stop
def has_rx_delay_expired (self, rx_delay_ms):
assert(self.has_rx_enabled())
# if active - it's not safe to remove RX filters
if self.is_active():
return False
# either no timestamp present or time has already passed
return not self.tx_stopped_ts or (datetime.now() - self.tx_stopped_ts) > timedelta(milliseconds = rx_delay_ms)
@writeable
def remove_rx_filters (self):
assert(self.has_rx_enabled())
if self.state == self.STATE_IDLE:
return self.ok()
params = {"handler": self.handler,
"port_id": self.port_id}
rc = self.transmit("remove_rx_filters", params)
if rc.bad():
return self.err(rc.err())
return self.ok()
@owned
def set_rx_sniffer (self, pcap_filename, limit):
if not self.is_service_mode_on():
return self.err('port service mode must be enabled for performing RX capturing')
params = {"handler": self.handler,
"port_id": self.port_id,
"type": "capture",
"enabled": True,
"pcap_filename": pcap_filename,
"limit": limit}
rc = self.transmit("set_rx_feature", params)
if rc.bad():
return self.err(rc.err())
return self.ok()
@owned
def remove_rx_sniffer (self):
params = {"handler": self.handler,
"port_id": self.port_id,
"type": "capture",
"enabled": False}
rc = self.transmit("set_rx_feature", params)
if rc.bad():
return self.err(rc.err())
return self.ok()
@owned
def set_arp_resolution (self, ipv4, mac):
params = {"handler": self.handler,
"port_id": self.port_id,
"ipv4": ipv4,
"mac": mac}
rc = self.transmit("set_arp_resolution", params)
if rc.bad():
return self.err(rc.err())
# instead of updating manualy - let's sync with the server
return self.sync()
@owned
def set_rx_queue (self, size):
params = {"handler": self.handler,
"port_id": self.port_id,
"type": "queue",
"enabled": True,
"size": size}
rc = self.transmit("set_rx_feature", params)
if rc.bad():
return self.err(rc.err())
return self.ok()
@owned
def remove_rx_queue (self):
params = {"handler": self.handler,
"port_id": self.port_id,
"type": "queue",
"enabled": False}
rc = self.transmit("set_rx_feature", params)
if rc.bad():
return self.err(rc.err())
return self.ok()
@owned
def get_rx_queue_pkts (self):
params = {"handler": self.handler,
"port_id": self.port_id}
rc = self.transmit("get_rx_queue_pkts", params)
if rc.bad():
return self.err(rc.err())
pkts = rc.data()['pkts']
# decode the packets from base64 to binary
for i in range(len(pkts)):
pkts[i]['binary'] = base64.b64decode(pkts[i]['binary'])
return RC_OK(pkts)
@owned
def pause (self):
if (self.state == self.STATE_PCAP_TX) :
return self.err("pause is not supported during PCAP TX")
if (self.state != self.STATE_TX) :
return self.err("port is not transmitting")
params = {"handler": self.handler,
"port_id": self.port_id}
rc = self.transmit("pause_traffic", params)
if rc.bad():
return self.err(rc.err())
self.state = self.STATE_PAUSE
return self.ok()
@owned
def resume (self):
if (self.state != self.STATE_PAUSE) :
return self.err("port is not in pause mode")
params = {"handler": self.handler,
"port_id": self.port_id}
# only valid state after stop
rc = self.transmit("resume_traffic", params)
if rc.bad():
return self.err(rc.err())
self.state = self.STATE_TX
return self.ok()
@owned
def update (self, mul, force):
if (self.state == self.STATE_PCAP_TX) :
return self.err("update is not supported during PCAP TX")
if (self.state != self.STATE_TX) :
return self.err("port is not transmitting")
params = {"handler": self.handler,
"port_id": self.port_id,
"mul": mul,
"force": force}
rc = self.transmit("update_traffic", params)
if rc.bad():
return self.err(rc.err())
# save this for TUI
self.last_factor_type = mul['type']
return self.ok()
@owned
def validate (self):
if (self.state == self.STATE_IDLE):
return self.err("no streams attached to port")
params = {"handler": self.handler,
"port_id": self.port_id}
rc = self.transmit("validate", params)
if rc.bad():
return self.err(rc.err())
self.profile = rc.data()
return self.ok()
@owned
def set_attr (self, **kwargs):
json_attr = {}
if kwargs.get('promiscuous') is not None:
json_attr['promiscuous'] = {'enabled': kwargs.get('promiscuous')}
if kwargs.get('link_status') is not None:
json_attr['link_status'] = {'up': kwargs.get('link_status')}
if kwargs.get('led_status') is not None:
json_attr['led_status'] = {'on': kwargs.get('led_status')}
if kwargs.get('flow_ctrl_mode') is not None:
json_attr['flow_ctrl_mode'] = {'mode': kwargs.get('flow_ctrl_mode')}
if kwargs.get('rx_filter_mode') is not None:
json_attr['rx_filter_mode'] = {'mode': kwargs.get('rx_filter_mode')}
if kwargs.get('ipv4') is not None:
json_attr['ipv4'] = {'addr': kwargs.get('ipv4')}
if kwargs.get('dest') is not None:
if not self.is_service_mode_on():
return self.err('setting destination requires port to be in service mode')
json_attr['dest'] = {'addr': kwargs.get('dest')}
params = {"handler": self.handler,
"port_id": self.port_id,
"attr": json_attr}
rc = self.transmit("set_port_attr", params)
if rc.bad():
return self.err(rc.err())
# update the dictionary from the server explicitly
return self.sync()
@owned
def set_service_mode (self, enabled):
rc = self.set_attr(rx_filter_mode = 'all' if enabled else 'hw')
if not rc:
return rc
if not enabled:
rc = self.remove_rx_queue()
if not rc:
return rc
rc = self.remove_rx_sniffer()
if not rc:
return rc
return self.ok()
def is_service_mode_on (self):
return self.get_rx_filter_mode() == 'all'
@writeable
def push_remote (self, pcap_filename, ipg_usec, speedup, count, duration, is_dual, slave_handler):
params = {"handler": self.handler,
"port_id": self.port_id,
"pcap_filename": pcap_filename,
"ipg_usec": ipg_usec if ipg_usec is not None else -1,
"speedup": speedup,
"count": count,
"duration": duration,
"is_dual": is_dual,
"slave_handler": slave_handler}
rc = self.transmit("push_remote", params)
if rc.bad():
return self.err(rc.err())
self.state = self.STATE_PCAP_TX
return self.ok()
def get_profile (self):
return self.profile
# invalidates the current ARP
def invalidate_arp (self):
dest = self.__attr['dest']
if dest['type'] != 'mac':
return self.set_attr(dest = dest['ipv4'])
else:
return self.ok()
def print_profile (self, mult, duration):
if not self.get_profile():
return
rate = self.get_profile()['rate']
graph = self.get_profile()['graph']
print(format_text("Profile Map Per Port\n", 'underline', 'bold'))
factor = mult_to_factor(mult, rate['max_bps_l2'], rate['max_pps'], rate['max_line_util'])
print("Profile max BPS L2 (base / req): {:^12} / {:^12}".format(format_num(rate['max_bps_l2'], suffix = "bps"),
format_num(rate['max_bps_l2'] * factor, suffix = "bps")))
print("Profile max BPS L1 (base / req): {:^12} / {:^12}".format(format_num(rate['max_bps_l1'], suffix = "bps"),
format_num(rate['max_bps_l1'] * factor, suffix = "bps")))
print("Profile max PPS (base / req): {:^12} / {:^12}".format(format_num(rate['max_pps'], suffix = "pps"),
format_num(rate['max_pps'] * factor, suffix = "pps"),))
print("Profile line util. (base / req): {:^12} / {:^12}".format(format_percentage(rate['max_line_util']),
format_percentage(rate['max_line_util'] * factor)))
# duration
exp_time_base_sec = graph['expected_duration'] / (1000 * 1000)
exp_time_factor_sec = exp_time_base_sec / factor
# user configured a duration
if duration > 0:
if exp_time_factor_sec > 0:
exp_time_factor_sec = min(exp_time_factor_sec, duration)
else:
exp_time_factor_sec = duration
print("Duration (base / req): {:^12} / {:^12}".format(format_time(exp_time_base_sec),
format_time(exp_time_factor_sec)))
print("\n")
# generate formatted (console friendly) port info
def get_formatted_info (self, sync = True):
# sync the status
if sync:
self.sync()
# get a copy of the current attribute set (safe against manipulation)
attr = self.get_ts_attr()
info = dict(self.info)
info['status'] = self.get_port_state_name()
if 'link' in attr:
info['link'] = 'UP' if attr['link']['up'] else 'DOWN'
else:
info['link'] = 'N/A'
if 'fc' in attr:
info['fc'] = FLOW_CTRL_DICT_REVERSED.get(attr['fc']['mode'], 'N/A')
else:
info['fc'] = 'N/A'
if 'promiscuous' in attr:
info['prom'] = "on" if attr['promiscuous']['enabled'] else "off"
else:
info['prom'] = "N/A"
if 'description' not in info:
info['description'] = "N/A"
if 'is_fc_supported' in info:
info['fc_supported'] = 'yes' if info['is_fc_supported'] else 'no'
else:
info['fc_supported'] = 'N/A'
if 'is_led_supported' in info:
info['led_change_supported'] = 'yes' if info['is_led_supported'] else 'no'
else:
info['led_change_supported'] = 'N/A'
if 'is_link_supported' in info:
info['link_change_supported'] = 'yes' if info['is_link_supported'] else 'no'
else:
info['link_change_supported'] = 'N/A'
if 'is_virtual' in info:
info['is_virtual'] = 'yes' if info['is_virtual'] else 'no'
else:
info['is_virtual'] = 'N/A'
# speed
info['speed'] = self.get_speed_gbps()
# RX filter mode
info['rx_filter_mode'] = 'hardware match' if attr['rx_filter_mode'] == 'hw' else 'fetch all'
# src MAC and IPv4
info['src_mac'] = attr['src_mac']
info['src_ipv4'] = attr['src_ipv4']
if info['src_ipv4'] is None:
info['src_ipv4'] = 'Not Configured'
# dest
dest = attr['dest']
if dest['type'] == 'mac':
info['dest'] = dest['mac']
info['arp'] = '-'
elif dest['type'] == 'ipv4':
info['dest'] = dest['ipv4']
info['arp'] = dest['arp']
elif dest['type'] == 'ipv4_u':
info['dest'] = dest['ipv4']
info['arp'] = 'unresolved'
# RX info
rx_info = self.status['rx_info']
# RX sniffer
sniffer = rx_info['sniffer']
info['rx_sniffer'] = '{0}\n[{1} / {2}]'.format(sniffer['pcap_filename'], sniffer['count'], sniffer['limit']) if sniffer['is_active'] else 'off'
# RX queue
queue = rx_info['queue']
info['rx_queue'] = '[{0} / {1}]'.format(queue['count'], queue['size']) if queue['is_active'] else 'off'
return info
def get_port_state_name(self):
return self.STATES_MAP.get(self.state, "Unknown")
def get_src_addr (self):
src_mac = self.__attr['src_mac']
src_ipv4 = self.__attr['src_ipv4']
return {'mac': src_mac, 'ipv4': src_ipv4}
def get_rx_filter_mode (self):
return self.__attr['rx_filter_mode']
def get_dst_addr (self):
dest = self.__attr['dest']
if dest['type'] == 'mac':
return {'ipv4': None, 'mac': dest['mac']}
elif dest['type'] == 'ipv4':
return {'ipv4': dest['ipv4'], 'mac': dest['arp']}
elif dest['type'] == 'ipv4_u':
return {'ipv4': dest['ipv4'], 'mac': None}
else:
assert(0)
# port is considered resolved if it's dest is either MAC or resolved IPv4
def is_resolved (self):
return (self.get_dst_addr()['mac'] is not None)
# return True if the port is valid for resolve (has an IPv4 address as dest)
def is_resolvable (self):
return (self.get_dst_addr()['ipv4'] is not None)
@writeable
def arp_resolve (self, retries):
if not self.is_service_mode_on():
return self.err('port service mode must be enabled for performing ARP resolution')
return ARPResolver(self).resolve(retries)
@writeable
def ping (self, ping_ipv4, pkt_size):
if not self.is_service_mode_on():
return self.err('port service mode must be enabled for performing ping')
return PingResolver(self, ping_ipv4, pkt_size).resolve()
################# stats handler ######################
def generate_port_stats(self):
return self.port_stats.generate_stats()
def generate_port_status(self):
info = self.get_formatted_info()
return {"driver": info['driver'],
"description": info.get('description', 'N/A')[:18],
"src MAC": info['src_mac'],
"src IPv4": info['src_ipv4'],
"Destination": info['dest'],
"ARP Resolution": info['arp'],
"PCI Address": info['pci_addr'],
"NUMA Node": info['numa'],
"--": "",
"---": "",
"----": "",
"-----": "",
"link speed": info['speed'],
"port status": info['status'],
"link status": info['link'],
"promiscuous" : info['prom'],
"flow ctrl" : info['fc'],
"RX Filter Mode": info['rx_filter_mode'],
"RX Queueing": info['rx_queue'],
"RX sniffer": info['rx_sniffer'],
}
def clear_stats(self):
return self.port_stats.clear_stats()
def get_stats (self):
return self.port_stats.get_stats()
def invalidate_stats(self):
return self.port_stats.invalidate()
################# stream printout ######################
def generate_loaded_streams_sum(self):
if self.state == self.STATE_DOWN:
return {}
data = {}
for id, obj in self.streams.items():
# lazy build scapy repr.
if not 'pkt_type' in obj:
obj['pkt_type'] = STLPktBuilder.pkt_layers_desc_from_buffer(obj['pkt'])
data[id] = OrderedDict([ ('id', id),
('packet_type', obj['pkt_type']),
('L2 len', len(obj['pkt']) + 4),
('mode', obj['mode']),
('rate', obj['rate']),
('next_stream', obj['next_id'] if not '-1' else 'None')
])
return {"streams" : OrderedDict(sorted(data.items())) }
######## attributes are a complex type (dict) that might be manipulated through the async thread #############
# get in a thread safe manner a duplication of attributes
def get_ts_attr (self):
with self.attr_lock:
return dict(self.__attr)
# set in a thread safe manner a new dict of attributes
def set_ts_attr (self, new_attr):
with self.attr_lock:
self.__attr = new_attr
################# events handler ######################
def async_event_port_job_done (self):
# until thread is locked - order is important
self.tx_stopped_ts = datetime.now()
self.state = self.STATE_STREAMS
self.last_factor_type = None
def async_event_port_attr_changed (self, new_attr):
# get a thread safe duplicate
cur_attr = self.get_ts_attr()
# check if anything changed
if new_attr == cur_attr:
return None
# generate before
before = self.get_formatted_info(sync = False)
# update
self.set_ts_attr(new_attr)
# generate after
after = self.get_formatted_info(sync = False)
# return diff
diff = {}
for key, new_value in after.items():
old_value = before.get(key, 'N/A')
if new_value != old_value:
diff[key] = (old_value, new_value)
return diff
# rest of the events are used for TUI / read only sessions
def async_event_port_stopped (self):
if not self.is_acquired():
self.state = self.STATE_STREAMS
def async_event_port_paused (self):
if not self.is_acquired():
self.state = self.STATE_PAUSE
def async_event_port_started (self):
if not self.is_acquired():
self.state = self.STATE_TX
def async_event_port_resumed (self):
if not self.is_acquired():
self.state = self.STATE_TX
def async_event_acquired (self, who):
self.handler = None
self.owner = who
def async_event_released (self):
self.owner = ''
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