示例#1
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DOT_80211_AP_NUMBER = Measurement(key='DOT_80211_STA_NUMBER', type=int) #: Number of APs in communication range
DOT_80211_STA_NUMBER = Measurement(key='DOT_80211_STA_NUMBER', type=int) #: Number of STAs in communication range
DOT_80211_SEEN_SSIDS = Measurement(key='DOT_80211_SEEN_SSIDS', type=str) #: List of SSIDs seen in communication range
DOT_80211_CONNECTED_STA_NUMBER = Measurement(key='DOT_80211_CONNECTED_STA_NUMBER', type=int) #: Number of connected STAs to AP
DOT_80211_STA_RSSI = Measurement(key='DOT_80211_STA_RSSI', type=str) #: Per-STA RSSI
DOT_80211_STA_TX_BITRATE = Measurement(key='DOT_80211_STA_TX_BITRATE', type=str) #: Per-STA bitrate
DOT_80211_STA_TX_BYTES = Measurement(key='DOT_80211_STA_TX_BYTES', type=str) #: Per-STA TX bytes
DOT_80211_STA_TX_PKTS = Measurement(key='DOT_80211_STA_TX_PKTS', type=str) #: Per-STA TX packets
DOT_80211_STA_RX_BYTES = Measurement(key='DOT_80211_STA_RX_BYTES', type=str) #: Per-STA RX bytes
DOT_80211_STA_RX_PKTS = Measurement(key='DOT_80211_STA_RX_PKTS', type=str) #: Per-STA RX packets
DOT_80211_STA_INACTIVE_TIME = Measurement(key='DOT_80211_STA_INACTIVE_TIME', type=str) #: Per-STA inactivity time
DOT_80211_STA_RETRY_NUM = Measurement(key='DOT_80211_STA_RETRY_NUM', type=str) #: Per-STA TX retries number
DOT_80211_STA_TX_FAILED = Measurement(key='DOT_80211_STA_TX_FAILED', type=str) #: Per-STA number of failed transmissions

# EVENTS
DOT_80211_PROBE_REQUEST = Event(key='DOT_80211_PROBE_REQUEST', type=None) #: Event triggered on Probe Request reception
DOT_80211_STA_CONNECTED = Event(key='DOT_80211_STA_CONNECTED', type=None) #: Event triggered on STA connection to AP
DOT_80211_STA_DISCONNECTED = Event(key='DOT_80211_STA_DISCONNECTED', type=None) #: Event triggered on STA disconnection from AP
DOT_80211_STA_LOSS = Event(key='DOT_80211_STA_LOSS', type=None) #: Event triggered when STA lost connection with AP

# ACTIONS
DOT_80211_SCAN = Action(key='DOT_80211_SCAN', args_types=int, return_type=bool) #: Perform scanning
DOT_80211_CONNECT = Action(key='DOT_80211_CONNECT', args_types=str, return_type=bool) #: Connect to network by SSID
DOT_80211_DISCONNECT = Action(key='DOT_80211_DISCONNECT', args_types=str, return_type=bool) #: Disconnect from network




# Upper MAC layer
def set_hostapd_conf(iface, file_path, channel, essid):
    '''Set hostapd configuration, provide functionality to setting Access Point station
示例#2
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)  #: Ratio of time that MAC spent in RX state in last sampling interval
DOT_80211_MAC_STATE_ED_TIME = Measurement(
    key='DOT_80211_MAC_STATE_ED_TIME', type=int
)  #: Time MAC spent in energy detection state in last sampling interval
DOT_80211_MAC_STATE_ED_RATIO = Measurement(
    key='DOT_80211_MAC_STATE_ED_RATIO', type=float
)  #: Ratio of time that MAC spent in energy detection state in last sampling interval

DOT_80211_MAC_STA_AIR_TIME = Measurement(
    key='DOT_80211_MAC_STA_AIR_TIME',
    type=float)  #: Per STA air-time statistics
DOT_80211_PHY_LINK_INFO = Measurement(key='DOT_80211_PHY_LINK_INFO',
                                      type=float)  #: Per STA link informations

# EVENTS
DOT_80211_DATA_FRAME_LOSS = Event(key='DOT_80211_DATA_FRAME_LOSS',
                                  type=None)  #: Notify about data frame loss
DOT_80211_CONTROL_FRAME_LOSS = Event(
    key='DOT_80211_CONTROL_FRAME_LOSS',
    type=None)  #: Notify about control frame loss
DOT_80211_MGMT_FRAME_LOSS = Event(
    key='DOT_80211_MGMT_FRAME_LOSS',
    type=None)  #: Notify about management frame loss

# ACTIONS
DOT_80211_SWITCH_CHANNEL = Action(
    key='DOT_80211_SWITCH_CHANNEL', args_types=int,
    return_type=bool)  #: Trigger channel switch to new channel
DOT_80211_INJECT_L2_FRAME = Action(
    key='DOT_80211_INJECT_MGMT_FRAME', args_types=str,
    return_type=bool)  #: Inject L2 frame in hex format
DOT_80211_SNIFF_L2_FRAMES = Action(key='DOT_80211_SNIFF_L2_FRAMES',
示例#3
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NUM_GOOD_PREAMBLE = Measurement(key='NUM_GOOD_PREAMBLE', type=int) #:Number of preambles correctly synchronized by the receiver.
NUM_BAD_PREAMBLE = Measurement(key='NUM_BAD_PREAMBLE', type=int) #:Number of receiver errors in synchronizing a valid preamble.
NUM_GOOD_PLCP = Measurement(key='NUM_GOOD_PLCP', type=int) #:Number of valid PLCP synchronized by the receiver
NUM_BAD_PLCP = Measurement(key='NUM_BAD_PLCP', type=int) #:Number of wrong PLCP errors triggered by the receiver
NUM_GOOD_CRC = Measurement(key='NUM_GOOD_CRC', type=int) #:Number of success of CRC checks
NUM_BAD_CRC = Measurement(key='NUM_BAD_CRC', type=int) #:Number of failures of CRC checks
NUM_TX = Measurement(key='NUM_TX', type=int) #:Total number of transmitted frames measured since the interface has been started
NUM_TX_DATA_FRAME = Measurement(key='NUM_TX_DATA_FRAME', type=int) #:Total number of transmitted frames measured since the interface has been started
NUM_TX_SUCCESS = Measurement(key='NUM_TX_SUCCESS', type=int) #:Total number of successfully transmitted frame measured since the interface has been started
NUM_RX = Measurement(key='NUM_RX', type=int) #:Total number of received frames since the interface has been started
NUM_RX_ACK_RAMATCH = Measurement(key='NUM_RX_ACK_RAMATCH', type=int) #:Total number of received frames addressed to the node since the interface has been started. This measurement traces the number of received frame in which the receiver address field matches with the network interface card MAC address
NUM_RX_ACK = Measurement(key='NUM_RX_ACK', type=int) #:Total receive ack frame measured since the interface has been started
NUM_RX_SUCCESS = Measurement(key='NUM_RX_SUCCESS', type=int) #:Total number of successfully transmitted frame measured since the interface has been started

# EVENTS
CHANNEL_UP = Event(key='CHANNEL_UP', type=None) #:Triggered when the wireless channel switches from idle to busy
CHANNEL_DOWN = Event(key='CHANNEL_DOWN', type=None) #:Triggered when the wireless channel switches from busy to idle
QUEUE_OUT_UP = Event(key='QUEUE_OUT_UP', type=None) #:Triggered when the frame is injected into the physical queue of the platform from the upper MAC
RX_END = Event(key='RX_END', type=None) #:Triggered when that receiver operation is finished
RX_PLCP_END = Event(key='RX_PLCP_END', type=None) #:Triggered at the end of PLCP reception
RX_ERROR_BAD_PLCP = Event(key='RX_ERROR_BAD_PLCP', type=None) #:Triggered at the occurrence of a receiver error due a PLCP check failure
RX_ERROR_BAD_CRC = Event(key='RX_ERROR_BAD_CRC', type=None) #:Triggered at the occurrence of a receiver error due a CRC failure
TDMA_SLOT_START = Event(key='TDMA_SLOT_START', type=None) #:Triggered at the beginning of a TDMA slot
TDMA_SLOT_END = Event(key='TDMA_SLOT_END', type=None) #:Triggered at the end of a TDMA slot



# Generic API to control the lower layers, i.e. key-value configuration.
def set_parameters(param_key_values_dict):
    """The UPI_R interface is able to configure the radio and MAC behavior by changing parameters.
    Parameters correspond to the configuration registers of the hardware platform and to the variables used in
示例#4
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DOT_802154_PHY_TXPOWER = Attribute("IEEE802154_phyTXPower", type=int, isReadOnly=False)  #: The transmit power of the device.
DOT_802154_MAC_EXTENDEDADDRESS = Attribute("IEEE802154_macExtendedAddress", type=list, isReadOnly=False)  #: The extended 64-bit IEEE address assigned to the device.
DOT_802154_MAC_SHORTADDRESS = Attribute("IEEE802154_macShortAddress", type=int, isReadOnly=False)  #: The short 16-bit address that the device uses to communicate in the PAN.
DOT_802154_MAC_PANID = Attribute("IEEE802154_macPANId", type=int, isReadOnly=False)  #: The 16-bit identifier of the PAN on which the device is operating.
DOT_802154_MAC_CW = Attribute("IEEE802154_macCW", type=int, isReadOnly=False)  #: IEEE-802.15.4 channel.
DOT_802154_MAC_MAX_BE = Attribute("IEEE802154_macMaxBE", type=int, isReadOnly=False)  #: The maximum value of the backoff exponent, BE, in the CSMA-CA algorithm, as defined in Section 5.1.1.4. of the IEEE-802.15.4 standard.
DOT_802154_MAC_MIN_BE = Attribute("IEEE802154_macMinBE", type=int, isReadOnly=False)  #: IEEE-802.15.4 channel.
DOT_802154_MAC_MAXCSMABACKOFFS = Attribute("IEEE802154_macMaxCSMABackoffs", type=int, isReadOnly=False)  #: IEEE-802.15.4 channel.
DOT_802154_MAC_MAXFRAMERETRIES = Attribute("IEEE802154_macMaxFrameRetries", type=int, isReadOnly=False)  #: IEEE-802.15.4 channel.
DOT_802154E_MAC_HOPPINGSEQUENCELENGTH = Attribute("IEEE802154e_macHoppingSequenceLength", type=int, isReadOnly=False)  #: IEEE-802.15.4 channel.
DOT_802154E_MAC_HOPPINGSEQUENCELIST = Attribute("IEEE802154e_macHoppingSequenceList", type=list, isReadOnly=False)  #: IEEE-802.15.4 channel.
DOT_802154E_MAC_SLOTFRAMESIZE = Attribute("IEEE802154e_macSlotframeSize", type=int, isReadOnly=False)  #: IEEE-802.15.4 channel.
DOT_802154E_MAC_TIMESLOT = Attribute("IEEE802154e_macTimeslot", type=DOT_802154E_TimeSlot, isReadOnly=False)  #: IEEE-802.15.4 channel.
DOT_802154E_MAC_TSTIMESLOTLENGTH = Attribute("IEEE802154e_macTsTimeslotLength", type=int, isReadOnly=False)  #: IEEE-802.15.4 channel.
DOT_802154E_MAC_SLOTLIST = Attribute("IEEE802154e_macSlotList", type=DOT_802154E_SlotList, isReadOnly=False)  #: IEEE-802.15.4 channel.
DOT_802154E_MAC_SLOTFRAME = Attribute("IEEE802154e_macSlotFrame", type=DOT_802154E_SlotFrame, isReadOnly=False)  #: IEEE-802.15.4 channel.
# protocol (LPL, e.g. contiki_mac specific attributes or TAISC SPECIFIC)
DOT_802154_MAC_LPL_CHANNELCHECKRATE = Attribute("IEEE802154_macLplChannelCheckRate", type=int, isReadOnly=False)  #: IEEE-802.15.4 channel.
DOT_802154_MAC_LPL_PHASEOPTIMIZATION = Attribute("IEEE802154_macLplPhaseOptimization", type=bool, isReadOnly=False)  #: IEEE-802.15.4 channel.
DOT_802154_MAC_TAISC_ACTIVE_RADIO_PROGRAM = Attribute("TAISCActiveRadioProgram", type=str, isReadOnly=False)  #: IEEE-802.15.4 channel.

# MEASUREMENTS
DOT_802154_MAC_STATISTICS = Measurement("IEEE802154_macStats", type=list)

# EVENTS
DOT_802154_MAC_STATISTICS_EVENT = Event("IEEE802154_macStatsEvent", type=list)


def blacklist_channels():
    return