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SharpPcap.xml 182KB

    <?xml version="1.0"?> <doc> <assembly> <name>/home/cmorgan/hdd/sharppcap_git/SharpPcap/bin/Release/SharpPcap</name> </assembly> <members> <member name="T:SharpPcap.AirPcap.AirPcapAdapterBus"> <summary> Adapter bus types </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapAdapterBus.Usb"> <summary> Usb </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapAdapterBus.Pci"> <summary> Pci </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapAdapterBus.PciExpress"> <summary> PciExpress </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapAdapterBus.MiniPci"> <summary> MiniPci </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapAdapterBus.MiniPciExpress"> <summary> MiniPciExpress </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapAdapterBus.Cardbus"> <summary> Cardbus </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapAdapterBus.Expresscard"> <summary> Expresscard </summary> </member> <member name="T:SharpPcap.AirPcap.AirPcapAdapterId"> <summary> Types of airpcap adapters </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapAdapterId.Classic"> <summary> Class </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapAdapterId.ClassicRelease2"> <summary> Class release 2 </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapAdapterId.Tx"> <summary> AirPcap TX </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapAdapterId.Ex"> <summary> AirPcap EX </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapAdapterId.N"> <summary> AirPcap N </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapAdapterId.Nx"> <summary> AirPcap Nx </summary> </member> <member name="T:SharpPcap.AirPcap.AirPcapBands"> <summary> Frequency bands </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapBands._2GHZ"> <summary>2.4 GHz band</summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapBands._5GHZ"> <summary>5 GHz band</summary> </member> <member name="T:SharpPcap.AirPcap.AirPcapChannelInfo"> <summary> Channel info </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapChannelInfo.Frequency"> <summary> Channel frequency, in MHz </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapChannelInfo.ExtChannel"> <summary> 802.11n specific. Offset of the extension channel in case of 40MHz channels. Possible values are -1, 0 +1: - -1 means that the extension channel should be below the control channel (e.g. Control = 5 and Extension = 1) - 0 means that no extension channel should be used (20MHz channels or legacy mode) - +1 means that the extension channel should be above the control channel (e.g. Control = 1 and Extension = 5) In case of 802.11a/b/g channels (802.11n legacy mode), this field should be set to 0. </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapChannelInfo.Flags"> <summary> Channel Flags. The only flag supported at this time is \ref AIRPCAP_CIF_TX_ENABLED. </summary> </member> <member name="M:SharpPcap.AirPcap.AirPcapChannelInfo.ToString"> <summary> ToString() override </summary> <returns> A <see cref="T:System.String" /></returns> </member> <member name="T:SharpPcap.AirPcap.AirPcapChannelInfoFlags"> <summary> Channel info flags </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapChannelInfoFlags.None"> <summary> No flags set </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapChannelInfoFlags.TxEnable"> <summary> Channel info flag: the channel is enabled for transmission, too. To comply with the electomagnetic emission regulations of the different countries, the AirPcap hardware can be programmed to block transmission on specific channels. This flag is set by AirpcapGetDeviceSupportedChannels() to indicate that a channel in the list supports transmission. </summary> </member> <member name="T:SharpPcap.AirPcap.AirPcapDecryptionState"> <summary> Type of decryption the adapter performs. An adapter can be instructed to turn decryption (based on the device-configured keys configured with \ref AirpcapSetDeviceKeys()) on or off. </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapDecryptionState.DecryptionOn"> <summary>This adapter performs decryption</summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapDecryptionState.DecryptionOff"> <summary>This adapter does not perform decryption</summary> </member> <member name="T:SharpPcap.AirPcap.AirPcapDevice"> <summary> AirPcap device </summary> </member> <member name="T:SharpPcap.AirPcap.AirPcapDevice.LedState"> <summary> Led states </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapDevice.LedState.On"> <summary> Led on </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapDevice.LedState.Off"> <summary> Led off </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapDevice.MacAddressSizeInBytes"> <summary> TODO: Get this from packet.net or another place in System.Net.xxx? </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.AirPcapDeviceHandle"> <summary> Handle to the device </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.LastError"> <summary> The last pcap error associated with this pcap device </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.Capabilities"> <summary> Device capabilities, whether the device can transmit, its id, model name etc </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.Channel"> <summary> Adapter channel </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.Frequency"> <summary> Adapter frequency </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.ChannelInfo"> <summary> Channel information </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.DeviceKeys"> <summary> Decryption keys that are currently associated with the specified device </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.DriverKeys"> <summary> Global list of decryption keys that AirPcap is using with all the devices. </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.DecryptionState"> <summary> Tells if decryption of the incoming frames with the <b>device-specific</b> keys. </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.DriverDecryptionState"> <summary> Tells if this open instance is configured to perform the decryption of the incoming frames with the <b>global</b> set of keys. </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.FcsPresence"> <summary> Configures the adapter on whether to include the MAC Frame Check Sequence in the captured packets. </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.FcsValidation"> <summary> The kinds of frames that the device will capture By default all frames are captured </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.KernelBufferSize"> <summary> Kernel packet buffer size for this adapter in bytes </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.LedCount"> <summary> Number of leds on this adapter </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.AirPcapLinkType"> <summary> Link type </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.LinkType"> <summary> Link type in terms of PacketDotNet.LinkLayers </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.MacAddress"> <summary> Mac address </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.MacFlags"> <summary> Mac flags </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.Statistics"> <summary> Adapter statistics </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.SupportedChannels"> <summary> List of supported channels </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.TxPower"> <summary> Transmit power </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDevice.Timestamp"> <summary> Device timestamp </summary> </member> <member name="M:SharpPcap.AirPcap.AirPcapDevice.ThrowIfNotOpen"> <summary> See ThrowIfNotOpen(string ExceptionString) </summary> </member> <member name="M:SharpPcap.AirPcap.AirPcapDevice.GetLastError(System.IntPtr)"> <summary> Retrieve the last error string for a given pcap_t* device </summary> <param name="AirPcapDeviceHandle"> A <see cref="T:System.IntPtr" /></param> <returns> A <see cref="T:System.String" /></returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapDevice.Open"> <summary> Open a device </summary> </member> <member name="M:SharpPcap.AirPcap.AirPcapDevice.Open(SharpPcap.DeviceMode)"> <summary> Open the device. To start capturing call the 'StartCapture' function </summary> <param name="mode"> A <see cref="T:SharpPcap.DeviceMode" /></param> </member> <member name="M:SharpPcap.AirPcap.AirPcapDevice.Open(SharpPcap.DeviceMode,System.Int32)"> <summary> Open the device. To start capturing call the 'StartCapture' function </summary> <param name="mode"> A <see cref="T:SharpPcap.DeviceMode" /></param> <param name="read_timeout"> A <see cref="T:System.Int32" /></param> </member> <member name="M:SharpPcap.AirPcap.AirPcapDevice.Open(SharpPcap.WinPcap.OpenFlags,System.Int32)"> <summary> Opens an Airpcap device with optional WinPcap.OpenFlags </summary> <param name="flags"> A <see cref="!:WinPcap.OpenFlags" /></param> <param name="read_timeout"> A <see cref="T:System.Int32" /></param> </member> <member name="M:SharpPcap.AirPcap.AirPcapDevice.Close"> <summary> Close a device </summary> </member> <member name="M:SharpPcap.AirPcap.AirPcapDevice.KeyCollectionSize(System.Int32)"> <summary> Size in bytes of a key collection with a given count of keys </summary> <param name="keyCount"> </param> <returns> </returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapDevice.IntPtrToKeys(System.IntPtr)"> <summary> Convert a AirpcapKeysCollection unmanaged buffer to a list of managed keys </summary> <param name="pKeysCollection"> </param> <returns> </returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapDevice.KeysToIntPtr(System.Collections.Generic.List{SharpPcap.AirPcap.AirPcapKey})"> <summary> Convert an array of keys into unmanaged memory </summary> <param name="value"> </param> <returns> </returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapDevice.Led(System.Int32,SharpPcap.AirPcap.AirPcapDevice.LedState)"> <summary> Constructor </summary> <param name="ledIndex"> A <see cref="T:System.Int32" /></param> <param name="newLedState"> A <see cref="T:SharpPcap.AirPcap.AirPcapDevice.LedState" /></param> </member> <member name="M:SharpPcap.AirPcap.AirPcapDevice.CaptureThread"> <summary> AirPcap specific capture thread </summary> </member> <member name="M:SharpPcap.AirPcap.AirPcapDevice.MarshalPackets(System.IntPtr,System.IntPtr,System.Collections.Generic.List{SharpPcap.RawCapture}@)"> <summary> Marshal a chunk of captured packets into a packet list </summary> <param name="packetsBuffer"> </param> <param name="bufferEnd"> </param> <param name="packets"> </param> </member> <member name="T:SharpPcap.AirPcap.AirPcapDeviceCapabilities"> <summary> Capabilities for the adapter </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapDeviceCapabilities.AdapterId"> <summary> An id that identifies the adapter model </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapDeviceCapabilities.AdapterModelName"> <summary> String containing a printable adapter model </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapDeviceCapabilities.AdapterBus"> <summary> The type of bus the adapter is plugged to </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapDeviceCapabilities.SupportedMedia"> <summary> An OR combination of the media that the device supports. Possible values are: \ref AIRPCAP_MEDIUM_802_11_A, \ref AIRPCAP_MEDIUM_802_11_B, \ref AIRPCAP_MEDIUM_802_11_G or \ref AIRPCAP_MEDIUM_802_11_N. Not supported at the moment. </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapDeviceCapabilities.SupportedBands"> <summary> An OR combination of the bands that the device supports. Can be one of: \ref AIRPCAP_BAND_2GHZ, \ref AIRPCAP_BAND_5GHZ. </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDeviceCapabilities.CanTransmit"> <summary> TRUE if the adapter is able to perform frame injection. </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDeviceCapabilities.CanSetTransmitPower"> <summary> TRUE if the adapter's transmit power is can be specified by the user application. </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDeviceCapabilities.ExternalAntennaPlug"> <summary> TRUE if the adapter supports plugging one or more external antennas. </summary> </member> <member name="M:SharpPcap.AirPcap.AirPcapDeviceCapabilities.ToString"> <summary> ToString() overload </summary> <returns> A <see cref="T:System.String" /></returns> </member> <member name="T:SharpPcap.AirPcap.AirPcapDeviceDescription"> <summary> Adapter description </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDeviceDescription.Name"> <summary> Device name </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDeviceDescription.Description"> <summary> Device description </summary> </member> <member name="M:SharpPcap.AirPcap.AirPcapDeviceDescription.ToString"> <summary> ToString() override </summary> <returns> A <see cref="T:System.String" /></returns> </member> <member name="T:SharpPcap.AirPcap.AirPcapDeviceList"> <summary> AirPcap device list </summary> </member> <member name="M:SharpPcap.AirPcap.AirPcapDeviceList.#ctor"> <summary> Represents a strongly typed, read-only list of PcapDevices. </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapDeviceList.Item(System.String)"> <param name="Name">The name or description of the pcap interface to get.</param> </member> <member name="P:SharpPcap.AirPcap.AirPcapDeviceList.Instance"> <summary> Method to retrieve this classes singleton instance </summary> </member> <member name="M:SharpPcap.AirPcap.AirPcapDeviceList.New"> <summary> Caution: Use the singlton instance unless you know why you need to call this. One use is for multiple filters on the same physical device. To apply multiple filters open the same physical device multiple times, one for each filter by calling this routine and picking the same device out of each list. </summary> <returns> A <see cref="T:SharpPcap.CaptureDeviceList" /></returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapDeviceList.GetDevices"> <summary> Retrieve an array of AirPcapDevices </summary> <returns> </returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapDeviceList.Refresh"> <summary> Refresh the device list </summary> </member> <!--FIXME: Invalid documentation markup was found for member M:SharpPcap.AirPcap.AirPcapDeviceList.GetAirPcapDevices--> <member name="T:SharpPcap.AirPcap.AirPcapDeviceTimestamp"> <summary> Defines the internal AirPcap device timestamp </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapDeviceTimestamp.DeviceTimestamp"> <summary>Current value of the device counter, in microseconds.</summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapDeviceTimestamp.SoftwareTimestampBefore"> <summary>Value of the software counter used to timestamp packets before reading the device counter, in microseconds.</summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapDeviceTimestamp.SoftwareTimestampAfter"> <summary>Value of the software counter used to timestamp packets after reading the device counter, in microseconds.</summary> </member> <member name="M:SharpPcap.AirPcap.AirPcapDeviceTimestamp.ToString"> <summary> ToString() override </summary> <returns> A <see cref="T:System.String" /></returns> </member> <member name="T:SharpPcap.AirPcap.AirPcapKey"> <summary> WEB key container </summary> </member> <member name="M:SharpPcap.AirPcap.AirPcapKey.#ctor(SharpPcap.AirPcap.AirPcapKeyType,System.Byte[])"> <summary> Constructor </summary> <param name="Type"> </param> <param name="Data"> </param> </member> <member name="F:SharpPcap.AirPcap.AirPcapKey.WepKeyMaxSize"> <summary> Number of bytes in a wep key </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapKey.Type"> <summary> Type of key, can be on of: \ref AIRPCAP_KEYTYPE_WEP, \ref AIRPCAP_KEYTYPE_TKIP, \ref AIRPCAP_KEYTYPE_CCMP. Only AIRPCAP_KEYTYPE_WEP is supported by the driver at the moment. </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapKey.Data"> <summary> Key data </summary> </member> <member name="M:SharpPcap.AirPcap.AirPcapKey.ToString"> <summary> </summary> <returns> A <see cref="T:System.String" /></returns> </member> <member name="T:SharpPcap.AirPcap.AirPcapKeyType"> <summary> Type of keys in the adapter </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapKeyType.Wep"> <summary> Key type: WEP. The key can have an arbitrary length smaller than 32 bytes. </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapKeyType.Tkip"> <summary> Key type: TKIP (WPA). NOT SUPPORTED YET by AirPcap </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapKeyType.Ccmp"> <summary> Key type: CCMP (WPA2). NOT SUPPORTED YET by AirPcap </summary> </member> <member name="T:SharpPcap.AirPcap.AirPcapMacFlags"> <summary> Mac flags </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapMacFlags.MonitorModeOn"> <summary> If set, the device is configured to work in monitor mode. When monitor mode is on, the device captures all the frames transmitted on the channel. This includes: - unicast packets - multicast packets - broadcast packets - control and management packets When monitor mode is off, the device has a filter on unicast packets to capture only the packets whose MAC destination address equals the device's address. This means the following frames will be received: - unicast packets whose destination is the address of the device - multicast packets - broadcast packets - beacons and probe requests </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapMacFlags.AckFramesOn"> <summary> If set, the device will acknowledge the data frames sent to its address. This is useful when the device needs to interact with other devices on the 802.11 network, bacause handling the ACKs in software is normally too slow. </summary> </member> <member name="T:SharpPcap.AirPcap.AirPcapMediumType"> <summary> Medium type </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapMediumType._802_11_A"> <summary>802.11a medium</summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapMediumType._802_11_B"> <summary>802.11b medium</summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapMediumType._802_11_G"> <summary>802.11g medium</summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapMediumType._802_11_N"> <summary>802.11n medium</summary> </member> <member name="T:SharpPcap.AirPcap.AirPcapPacketHeader"> <summary> Packet header </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapPacketHeader.TsSec"> <summary> Seconds field </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapPacketHeader.TsUsec"> <summary> Microseconds field </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapPacketHeader.Caplen"> <summary> Number of bytes captured </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapPacketHeader.Originallen"> <summary> On-line packet size in bytes </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapPacketHeader.Hdrlen"> <summary> Header length in bytes </summary> </member> <member name="M:SharpPcap.AirPcap.AirPcapPacketHeader.ToString"> <summary> ToString() override </summary> <returns> A <see cref="T:System.String" /></returns> </member> <member name="T:SharpPcap.AirPcap.AirPcapSafeNativeMethods"> <summary> Per http://msdn.microsoft.com/en-us/ms182161.aspx </summary> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetVersion(System.UInt32@,System.UInt32@,System.UInt32@,System.UInt32@)"> <summary> Sets variables to the particular version being used </summary> <param name="VersionMajor">Pointer to a variable that will be filled with the major version number</param> <param name="VersionMinor">Pointer to a variable that will be filled with the minor version number</param> <param name="VersionRev">Pointer to a variable that will be filled with the revision number</param> <param name="VersionBuild">Pointer to a variable that will be filled with the build number</param> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetLastError(System.IntPtr)"> <summary> Returns the last error related to the specified handle </summary> <param name="AdapterHandle">Handle to an open adapter</param> <returns>String with the last error, a PCHAR</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetDeviceList(System.IntPtr@,System.Text.StringBuilder)"> <summary> Returns the list of available devices </summary> <param name="PPAllDevs">Address to a caller allocated pointer. On success this pointer will receive the head of a list of available devices.</param> <param name="Ebuf">String that will contain error information if FALSE is returned. The size of the string must be AIRPCAP_ERRBUF_SIZE bytes.</param> <returns>TRUE on success. FALSE is returned on failure, in which case Ebuf is filled in with an appropriate error message.</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapFreeDeviceList(System.IntPtr)"> <summary> Frees a list of devices returned by AirpcapGetDeviceList() </summary> <param name="PAllDevs">Head of the list of devices returned by AirpcapGetDeviceList()</param> <returns> </returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapOpen(System.String,System.Text.StringBuilder)"> <summary> Opens an adapter </summary> <param name="DeviceName">Name of the device to open. Use AirpcapGetDeviceList() to get the list of devices.</param> <param name="Ebuf">String that will contain error information in case of failure. The size of the string must be AIRPCAP_ERRBUF_SIZE bytes.</param> <returns>A PAirpcapHandle handle on success. NULL is returned on failure, in which case Ebuf is filled in with an appropriate error message.</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapClose(System.IntPtr)"> <summary> Closes an adapter </summary> <param name="AdapterHandle">Handle to the adapter to close.</param> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetDeviceCapabilities(System.IntPtr,System.IntPtr@)"> <summary> Get the capabilities of a device NOTE: The PCapabilities structure returned by AirpcapGetDeviceCapabilities() must be considered invalid after the adapter has been closed. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="PCapabilities">Pointer to a library-allocated AirpcapDeviceCapabilities structure that contains the capabilities of the adapter</param> <returns>True on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapSetDeviceMacFlags(System.IntPtr,SharpPcap.AirPcap.AirPcapMacFlags)"> <summary> Sets the device's monitor mode and acknowledgment settings. When an adapter is plugged into the system, it's always configured with monitor mode ON and acknowledgment settings OFF. These values are not stored persistently, so if you want to turn monitor mode off, you will need to do it every time you attach the adapter. \note currently, the AirPcap adapter supports frames acknowleging when the adapter is NOT in monitor mode. This means that the combinations in which the two flags have the same value will cause AirpcapSetDeviceMacFlags() to fail. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="AirpcapMacFlags">Flags word, that contains a bitwise-OR combination of the following flags: \ref AIRPCAP_MF_MONITOR_MODE_ON and \ref AIRPCAP_MF_ACK_FRAMES_ON .</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetDeviceMacFlags(System.IntPtr,SharpPcap.AirPcap.AirPcapMacFlags@)"> <summary> Gets the device's monitor mode and acknowledgement settings When an adapter is plugged into the system, it's always configured with monitor mode ON and acknowledgment settings OFF. These values are not stored persistently, so if you want to turn monitor mode off, you will need to do it every time you attach the adapter. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="PAirpcapMacFlags">User-provided flags word, that will be filled by the function with an OR combination of the following flags: \ref AIRPCAP_MF_MONITOR_MODE_ON and \ref AIRPCAP_MF_ACK_FRAMES_ON.</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapSetLinkType(System.IntPtr,SharpPcap.AirPcap.AirPcapLinkTypes)"> <summary> Sets the link type of an adapter the "link type" determines how the driver will encode the packets captured from the network. Aircap supports two link types: - \ref AIRPCAP_LT_802_11, to capture 802.11 frames (including control frames) without any power information. Look at the "Capture_no_radio" example application in the developer's pack for a reference on how to decode 802.11 frames with this link type. - \ref AIRPCAP_LT_802_11_PLUS_RADIO, to capture 802.11 frames (including control frames) with a radiotap header that contains power and channel information. More information about the radiotap header can be found in the \ref radiotap section. Moreover, the "Capture_radio" example application in the developer's pack can be used as a reference on how to decode 802.11 frames with radiotap headers. - \ref AIRPCAP_LT_802_11_PLUS_PPI, to capture 802.11 frames (including control frames) with a Per Packet Information (PPI) header that contains per-packet meta information like channel and power information. More details on the PPI header can be found in the PPI online documentation (TODO). </summary> <param name="AdapterHandle"> </param> <param name="NewLinkType">the "link type", i.e. the format of the frames that will be received from the adapter.</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetLinkType(System.IntPtr,SharpPcap.AirPcap.AirPcapLinkTypes@)"> <summary> Gets the link type of the specified adapter the "link type" determines how the driver will encode the packets captured from the network. Aircap supports two link types: - \ref AIRPCAP_LT_802_11, to capture 802.11 frames (including control frames) without any power information. Look at the "Capture_no_radio" example application in the developer's pack for a reference on how to decode 802.11 frames with this link type. - \ref AIRPCAP_LT_802_11_PLUS_RADIO, to capture 802.11 frames (including control frames) with a radiotap header that contains power and channel information. More information about the radiotap header can be found int the \ref radiotap section. Moreover, the "Capture_radio" example application in the developer's pack can be used as a reference on how to decode 802.11 frames with radiotap headers. - \ref AIRPCAP_LT_802_11_PLUS_PPI, to capture 802.11 frames (including control frames) with a Per Packet Information (PPI) header that contains per-packet meta information like channel and power information. More details on the PPI header can be found in the PPI online documentation (TODO). </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="PLinkType">Pointer to a caller allocated AirpcapLinkType variable that will contain the link type of the adapter</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapSetFcsPresence(System.IntPtr,System.Boolean)"> <summary> Configures the adapter on whether to include the MAC Frame Check Sequence in the captured packets. In the default configuration, the adapter includes the FCS in the captured packets. The MAC Frame Check Sequence is 4 bytes and is located at the end of the 802.11 packet, with \ref AIRPCAP_LT_802_11, \ref AIRPCAP_LT_802_11_PLUS_RADIO and \ref AIRPCAP_LT_802_11_PLUS_PPI link types. When the FCS inclusion is turned on, and if the link type is \ref AIRPCAP_LT_802_11_PLUS_RADIO, the radiotap header that precedes each frame has two additional fields at the end: Padding and FCS. These two fields are not present when FCS inclusion is off. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="IsFcsPresent">TRUE if the packets should include the FCS, FALSE otherwise</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetFcsPresence(System.IntPtr,System.Boolean@)"> <summary> PIsFcsPresent is tue if the specified adapter includes the MAC Frame Check Sequence in the captured packets In the default configuration, the adapter includes the FCS in the captured packets. The MAC Frame Check Sequence is 4 bytes and is located at the end of the 802.11 packet, with \ref AIRPCAP_LT_802_11, \ref AIRPCAP_LT_802_11_PLUS_RADIO and \ref AIRPCAP_LT_802_11_PLUS_PPI link types. When the FCS inclusion is turned on, and if the link type is \ref AIRPCAP_LT_802_11_PLUS_RADIO, the radiotap header that precedes each frame has two additional fields at the end: Padding and FCS. These two fields are not present when FCS inclusion is off. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="PIsFcsPresent">User-provided variable that will be set to true if the adapter is including the FCS</param> <returns>TRUE if the operation is successful. FALSE otherwise.</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapSetFcsValidation(System.IntPtr,SharpPcap.AirPcap.AirPcapValidationType)"> <summary> Configures the adapter to accept or drop frames with an incorrect Frame Check sequence (FCS) NOTE: By default the driver is configured in \ref AIRPCAP_VT_ACCEPT_EVERYTHING mode </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="ValidationType">The type of validation the driver will perform. See the documentation of \ref AirpcapValidationType for details.</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetFcsValidation(System.IntPtr,SharpPcap.AirPcap.AirPcapValidationType@)"> <summary> Checks if the specified adapter is configured to capture frames with incorrect an incorrect Frame Check Sequence (FCS). \note By default, the driver is configured in \ref AIRPCAP_VT_ACCEPT_EVERYTHING mode. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="ValidationType">Pointer to a user supplied variable that will contain the type of validation the driver will perform. See the documentation of \ref AirpcapValidationType for details.</param> <returns>TRUE if the operation is successful, FALSE otherwise</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapSetDeviceKeys(System.IntPtr,System.IntPtr)"> <summary> Sets the list of decryption keys that AirPcap is going to use with the specified device. AirPcap is able to use a set of decryption keys to decrypt the traffic transmitted on a specific SSID. If one of the keys corresponds to the one the frame has been encrypted with, the driver will perform decryption and return the cleartext frames to the application. This function allows to set the <b>device-specific</b> set of keys. These keys will be used by the specified device only, and will not be used by other airpcap devices besides the specified one. At this time, the only supported decryption method is WEP. The keys are applied to the packets in the same order they appear in the KeysCollection structure until the packet is correctly decrypted, therefore putting frequently used keys at the beginning of the structure improves performance. \note When you change the set of keys from an open capture instance, the change will be immediately reflected on all the other capture instances on the same device. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="KeysCollection">Pointer to a \ref PAirpcapKeysCollection structure that contains the keys to be set in the device.</param> <returns>TRUE if the operation is successful. FALSE otherwise.</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetDeviceKeys(System.IntPtr,System.IntPtr,System.UInt32@)"> <summary> Returns the list of decryption keys that are currently associated with the specified device This function returns the <b>device-specific</b> set of keys. These keys are used by the specified device only, and not by other airpcap devices besides the specified one. AirPcap is able to use a set of decryption keys to decrypt the traffic transmitted on a specific SSID. If one of the keys corresponds to the one the frame has been encrypted with, the driver will perform decryption and return the cleartext frames to the application. AirPcap supports, for every device, multiple keys at the same time. The configured decryption keys are device-specific, therefore AirpcapGetDeviceKeys() will return a different set of keys when called on different devices. At this time, the only supported decryption method is WEP. </summary> <param name="AdapterHandle">Handle to an open adapter</param> <param name="KeysCollection">User-allocated PAirpcapKeysCollection structure that will be filled with the keys.</param> <param name="PKeysCollectionSize">- \b IN: pointer to a user-allocated variable that contains the length of the KeysCollection structure, in bytes. - \b OUT: amount of data moved by AirPcap in the buffer pointed by KeysBuffer, in bytes.</param> <returns>TRUE if the operation is successful. If an error occurs, the return value is FALSE and KeysCollectionSize is zero. If the provided buffer is too small to contain the keys, the return value is FALSE and KeysCollectionSize contains the needed KeysCollection length, in bytes. If the device doesn't have any decryption key configured, the return value is TRUE, and KeysCollectionSize will be zero.</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapSetDriverKeys(System.IntPtr,System.IntPtr)"> <summary> Set the global list of decryption keys that AirPcap is going to use with all the devices. The AirPcap driver is able to use a set of decryption keys to decrypt the traffic transmitted on a specific SSID. If one of the keys corresponds to the one the frame has been encrypted with, the driver will perform decryption and return the cleartext frames to the application. This function allows to set the <b>global</b> set of keys. These keys will be used by all the devices plugged in the machine. At this time, the only supported decryption method is WEP. The keys are applied to the packets in the same order they appear in the KeysCollection structure until the packet is correctly decrypted, therefore putting frequently used keys at the beginning of the structure improves performance. \note When you change the set of keys from an open capture instance, the change will be immediately reflected on all the other capture instances. </summary> <param name="AdapterHandle">Handle to an open adapter</param> <param name="KeysCollection">Pointer to a \ref PAirpcapKeysCollection structure that contains the keys to be set globally.</param> <returns>TRUE if the operation is successful. FALSE otherwise.</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetDriverKeys(System.IntPtr,System.IntPtr,System.UInt32@)"> <summary> Returns the global list of decryption keys that AirPcap is using with all the devices. This function returns the <b>global</b> set of keys. These keys will be used by all the devices plugged in the machine. The AirPcap driver is able to use a set of decryption keys to decrypt the traffic transmitted on a specific SSID. If one of the keys corresponds to the one the frame has been encrypted with, the driver will perform decryption and return the cleartext frames to the application. At this time, the only supported decryption method is WEP. </summary> <param name="AdapterHandle">Handle to an adapter</param> <param name="KeysCollection">User-allocated PAirpcapKeysCollection structure that will be filled with the keys.</param> <param name="PKeysCollectionSize">- \b IN: pointer to a user-allocated variable that contains the length of the KeysCollection structure, in bytes. - \b OUT: amount of data moved by AirPcap in the buffer pointed by KeysBuffer, in bytes.</param> <returns>TRUE if the operation is successful. If an error occurs, the return value is FALSE and KeysCollectionSize is zero. If the provided buffer is too small to contain the keys, the return value is FALSE and KeysCollectionSize contains the needed KeysCollection length, in bytes. If no global decryption keys are configured, the return value is TRUE, and KeysCollectionSize will be zero.</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapSetDecryptionState(System.IntPtr,SharpPcap.AirPcap.AirPcapDecryptionState)"> <summary> Turns on or off the decryption of the incoming frames with the <b>device-specific</b> keys. The device-specific decryption keys can be configured with the \ref AirpcapSetDeviceKeys() function. \note By default, the driver is configured with \ref AIRPCAP_DECRYPTION_ON. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="Enable">Either AIRPCAP_DECRYPTION_ON or AIRPCAP_DECRYPTION_OFF</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetDecryptionState(System.IntPtr,SharpPcap.AirPcap.AirPcapDecryptionState@)"> <summary> Tells if this open instance is configured to perform the decryption of the incoming frames with the <b>device-specific</b> keys. The device-specific decryption keys can be configured with the \ref AirpcapSetDeviceKeys() function. \note By default, the driver is configured with \ref AIRPCAP_DECRYPTION_ON. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="PEnable">Pointer to a user supplied variable that will contain the decryption configuration. See \ref PAirpcapDecryptionState for details.</param> <returns>TRUE if the operation is successful, FALSE otherwise</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapSetDriverDecryptionState(System.IntPtr,SharpPcap.AirPcap.AirPcapDecryptionState)"> <summary> Turns on or off the decryption of the incoming frames with the <b>global</b> set of keys. The global decryption keys can be configured with the \ref AirpcapSetDriverKeys() function. \note By default, the driver is configured with \ref AIRPCAP_DECRYPTION_ON. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="Enable">Either \ref AIRPCAP_DECRYPTION_ON or \ref AIRPCAP_DECRYPTION_OFF</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetDriverDecryptionState(System.IntPtr,SharpPcap.AirPcap.AirPcapDecryptionState@)"> <summary> Tells if this open instance is configured to perform the decryption of the incoming frames with the <b>global</b> set of keys. The global decryption keys can be configured with the \ref AirpcapSetDriverKeys() function. \note By default, the driver is configured with \ref AIRPCAP_DECRYPTION_ON. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="PEnable">Pointer to a user supplied variable that will contain the decryption configuration. See \ref PAirpcapDecryptionState for details.</param> <returns>TRUE if the operation is successful. FALSE otherwise.</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapSetDeviceChannel(System.IntPtr,System.UInt32)"> <summary> Sets the radio channel of a device The list of available channels can be retrieved with \ref AirpcapGetDeviceSupportedChannels(). The default channel setting is 6. \note This is a device-related function: when you change the channel from an open capture instance, the change will be immediately reflected on all the other capture instances. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="Channel">The new channel to set</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetDeviceChannel(System.IntPtr,System.UInt32@)"> <summary> Gets the radio channel of a device The list of available channels can be retrieved with \ref AirpcapGetDeviceSupportedChannels(). The default channel setting is 6. \note This is a device-related function: when you change the channel from an open capture instance, the change will be immediately reflected on all the other capture instances. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="PChannel">Pointer to a user-supplied variable into which the function will copy the currently configured radio channel.</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapSetDeviceChannelEx(System.IntPtr,SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapChannelInfo)"> <summary> Sets the channel of a device through its radio frequency. In case of 802.11n enabled devices, it sets the extension channel, if used. \note This is a device-related function: when you change the channel from an open capture instance, the change will be immediately reflected on all the other capture instances. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="ChannelInfo">The new channel information to set</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetDeviceChannelEx(System.IntPtr,SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapChannelInfo@)"> <summary> Gets the channel of a device through its radio frequency. In case of 802.11n enabled devices, it gets the extension channel, if in use. \note This is a device-related function: when you change the channel from an open capture instance, the change will be immediately reflected on all the other capture instances. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="PChannelInfo">Pointer to a user-supplied variable into which the function will copy the currently configured channel information.</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetDeviceSupportedChannels(System.IntPtr,System.IntPtr@,System.UInt32@)"> <summary> Gets the list of supported channels for a given device. In case of a 802.11n capable device, information related to supported extension channels is also reported. Every control channel is listed multiple times, one for each different supported extension channel. For example channel 6 (2437MHz) is usually listed three times: - <b>Frequency 2437 Extension +1</b>. Control channel is 6, extension channel is 10. - <b>Frequency 2437 Extension 0</b>. Control channel is 6, no extension channel is used (20MHz channel and legacy mode). - <b>Frequency 2437 Extension -1</b>. Control channel is 6, extension channel is 2. \note The supported channels are not listed in any specific order. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="ppChannelInfo">Pointer to a user-supplied variable that will point to an array of supported channel. Such list must not be freed by the caller</param> <param name="pNumChannelInfo">Number of channels returned in the array</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapConvertFrequencyToChannel(System.UInt32,System.UInt32@,System.UInt32@)"> <summary> Converts a frequency to the corresponding channel </summary> <param name="Frequency">Frequency of the channel in MHz</param> <param name="PChannel">Pointer to a user-supplied variable that will contain the channel number on success</param> <param name="PBand">Pointer to a user-supplied variable that will contain the band (a orb/g) of the given channel</param> <returns>TRUE on success, i.e. the frequency corresponds to a valid a or b/g channel</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapConvertChannelToFrequency(System.UInt32,System.UInt32@)"> <summary> Converts a given channel to the corresponding frequency Because of the overlap of channels with respect to 1-14BG and 1-14A, this function will give precidence to BG. Thus, the channels are returned as follows: - <b>Channel 0:</b> 5000MHz - <b>Channels 1-14:</b> 2412MHz - 2484MHz - <b>Channels 15-239:</b> 5005MHz - 6195MHz - <b>Channels 240-255:</b> 4920MHz - 4995MHz </summary> <param name="Channel">Channel number to be converted</param> <param name="PFrequency">Pointer to a user-supplied variable that will contain the channel frequency in MHz on success&gt;</param> <returns> </returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapSetKernelBuffer(System.IntPtr,System.UInt32)"> <summary> Sets the size of the kernel packet buffer for this adapter Every AirPcap open instance has an associated kernel buffer, whose default size is 1 Mbyte. This function can be used to change the size of this buffer, and can be called at any time. A bigger kernel buffer size decreases the risk of dropping packets during network bursts or when the application is busy, at the cost of higher kernel memory usage. \note Don't use this function unless you know what you are doing. Due to caching issues and bigger non-paged memory consumption, bigger buffer sizes can decrease the capture performace instead of improving it. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="BufferSize">New size in bytes</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetKernelBufferSize(System.IntPtr,System.UInt32@)"> <summary> Gets the size of the kernel packet buffer for this adapter Every AirPcap open instance has an associated kernel buffer, whose default size is 1 Mbyte. This function can be used to get the size of this buffer. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="PSizeBytes">User-allocated variable that will be filled with the size of the kernel buffer.</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapSetTxPower(System.IntPtr,System.UInt32)"> <summary> Sets the power of the frames transmitted by adapter The transmit power value is monotonically increasing with higher power levels. 1 is the minimum allowed transmit power. \note The maximum transmit power on each channel is limited by FCC regulations. Therefore, the maximum transmit power changes from channel to channel. When the channel is changed with \ref AirpcapSetDeviceChannel() or \ref AirpcapSetDeviceChannelEx() the power is set to the maximum allowd value for that channel. You can read this value with \ref AirpcapGetTxPower(). Not all the AirPcap adapters support setting the transmit power; you can use \ref AirpcapGetDeviceCapabilities() to find if the current adapter supports this feature. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="Power">The transmit power. Setting a zero power makes the adapter select the highest possible power for the current channel.</param> <returns>TRUE on success. False on failure or if the adapter doesn't support setting the transmit power.</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetTxPower(System.IntPtr,System.UInt32@)"> <summary> Returns the current transmit power level of the adapter The transmit power value is monotonically increasing with higher power levels. 0 is the minimum allowed power. \note The maximum transmit power on each channel is limited by FCC regulations. Therefore, the maximum transmit power changes from channel to channel. When the channel is changed with \ref AirpcapSetDeviceChannel() or \ref AirpcapSetDeviceChannelEx() the power is set to the maximum allowd value for that channel. Not all the AirPcap adapters support setting the transmit power; you can use \ref AirpcapGetDeviceCapabilities() to find if the current adapter supports this feature. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="PPower">User-allocated variable that will be filled with the size of the transmit power</param> <returns>TRUE on success, false on failure or if the adapter doesn't support getting the transmit power</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapStoreCurConfigAsAdapterDefault(System.IntPtr)"> <summary> Saves the configuration of the specified adapter in the registry, so that it becomes the default for this adapter. Almost all the AirPcap calls that modify the configuration (\ref AirpcapSetLinkType(), \ref AirpcapSetFcsPresence(), \ref AirpcapSetFcsValidation(), \ref AirpcapSetKernelBuffer(), \ref AirpcapSetMinToCopy()) affect only the referenced AirPcap open instance. This means that if you do another \ref AirpcapOpen() on the same adapter, the configuration changes will not be remembered, and the new adapter handle will have default configuration settings. Exceptions to this rule are the \ref AirpcapSetDeviceChannel() and \ref AirpcapSetDeviceKeys() functions: a channel change is reflected on all the open instances, and remembered until the next call to \ref AirpcapSetDeviceChannel(), until the adapter is unplugged, or until the machine is powered off. Same thing for the configuration of the WEP keys. AirpcapStoreCurConfigAsAdapterDefault() stores the configuration of the give open instance as the default for the adapter: all the instances opened in the future will have the same configuration that this adapter currently has. The configuration is stored in the registry, therefore it is remembered even when the adapter is unplugged or the machine is turned off. However, an adapter doesn't bring its configuration with it from machine to machine. the configuration information saved in the registry includes the following parameters: - channel - kernel buffer size - mintocopy - link type - CRC presence - Encryption keys - Encryption Enabled/Disabled state The configuration is device-specific. This means that changing the configuration of a device doesn't modify the one of the other devices that are currently used or that will be used in the future. \note AirpcapStoreCurConfigAsAdapterDefault() must have exclusive access to the adapter -- it will fail if more than one AirPcap handle is opened at the same time for this device. AirpcapStoreCurConfigAsAdapterDefault() needs administrator privileges. It will fail if the calling user is not a local machine administrator. </summary> <param name="AdapterHandle">Handle to an adapter</param> <returns>TRUE on success. FALSE on failure.</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapSetFilter(System.IntPtr,System.IntPtr,System.UInt32)"> <summary> Sets the BPF kernel filter for an adapter The AirPcap driver is able to perform kernel-level filtering using the standard BPF pseudo-machine format. You can read the WinPcap documentation at http://www.winpcap.org/devel.htm for more details on the BPF filtering mechaism. A filter can be automatically created by using the pcap_compile() function of the WinPcap API. This function converts a human readable text expression with the tcpdump/libpcap syntax into a BPF program. If your program doesn't link wpcap, but you need to generate the code for a particular filter, you can run WinDump with the -d or -dd or -ddd flags to obtain the pseudocode. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="Instructions"> pointer to the first BPF instruction in the array. Corresponds to the bf_insns in a bpf_program structure (see the WinPcap documentation at http://www.winpcap.org/devel.htm). \param Len Number of instructions in the array pointed by the previous field. Corresponds to the bf_len in a a bpf_program structure (see the WinPcap documentation at http://www.winpcap.org/devel.htm).</param> <param name="Len"> </param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetMacAddress(System.IntPtr,System.IntPtr)"> <summary> Returns the MAC address of a device </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="PMacAddress">Pointer to a user allocated \ref AirpcapMacAddress structure that will receive the MAC address on success. </param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapSetMacAddress(System.IntPtr,System.IntPtr)"> <summary> Sets the MAC address of a device Using this function, the programmer can change the MAC address of the device. This is useful when disabling monitor mode with \ref AirpcapSetDeviceMacFlags(), because the device will acknowledge the data frames sent to its MAC address. \note The address change is temporary: when the device is unplugged or when the host PC is turned off, the address is reset to the original value. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="PMacAddress">Pointer to a user-initialized structure containing the MAC address</param> <returns>TRUE on success. FALSE on failure, or if the adapter doesn't support changing the address.</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapSetMinToCopy(System.IntPtr,System.UInt32)"> <summary> Sets the mintocopy parameter for an open adapter When the number of bytes in the kernel buffer changes from less than mintocopy bytes to greater than or equal to mintocopy bytes, the read event is signalled (see \ref AirpcapGetReadEvent()). A high value for mintocopy results in poor responsiveness since the driver may signal the application "long" after the arrival of the packet. And a high value results in low CPU loading by minimizing the number of user/kernel context switches. A low MinToCopy results in good responsiveness since the driver will signal the application close to the arrival time of the packet. This has higher CPU loading over the first approach. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="MinToCopy">is the mintocopy size in bytes</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetReadEvent(System.IntPtr,System.IntPtr@)"> <summary> Gets an event that is signalled when packets are available in the kernel buffer (see \ref AirpcapSetMinToCopy()). \note The event is signalled when at least mintocopy bytes are present in the kernel buffer (see \ref AirpcapSetMinToCopy()). This event can be used by WaitForSingleObject() and WaitForMultipleObjects() to create blocking behavior when reading packets from one or more adapters (see \ref AirpcapRead()). </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="PReadEvent">Pointer to a user-supplied handle in which the read event will be copied.</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapRead(System.IntPtr,System.IntPtr,System.UInt32,System.UInt32@)"> <summary> Fills a user-provided buffer with zero or more packets that have been captured on the referenced adapter. 802.11 frames are returned by the driver in buffers. Every 802.11 frame in the buffer is preceded by a \ref AirpcapBpfHeader structure. The suggested way to use an AirPcap adapter is through the pcap API exported by wpcap.dll. If this is not possible, the Capture_radio and Capture_no_radio examples in the AirPcap developer's pack show how to properly decode the packets in the read buffer returned by AirpcapRead(). \note This function is NOT blocking. Blocking behavior can be obtained using the event returned by \ref AirpcapGetReadEvent(). See also \ref AirpcapSetMinToCopy(). </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="Buffer">pointer to the buffer that will be filled with captured packets.</param> <param name="BufSize">size of the input buffer that will contain the packets, in bytes.</param> <param name="PReceievedBytes">Pointer to a user supplied variable that will receive the number of bytes copied by AirpcapRead. Can be smaller than BufSize.</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapWrite(System.IntPtr,System.IntPtr,System.UInt32)"> <summary> Transmits a packet The packet will be transmitted on the channel the device is currently set. To change the device adapter, use the \ref AirpcapSetDeviceChannel() function. If the link type of the adapter is AIRPCAP_LT_802_11, the buffer pointed by TxPacket should contain just the 802.11 packet, without additional information. The packet will be transmitted at 1Mbps. If the link type of the adapter is AIRPCAP_LT_802_11_PLUS_RADIO, the buffer pointed by TxPacket should contain a radiotap header followed by the 802.11 packet. AirpcapWrite will use the rate information in the radiotap header when transmitting the packet. If the link type of the adapter is AIRPCAP_LT_802_11_PLUS_PPI, the buffer pointed by TxPacket should contain a PPI header followed by the 802.11 packet. AirpcapWrite will use the rate information in the PPI header when transmitting the packet. If the packet should be transmitted at a 802.11n rate, the packet must include a PPI 802.11n MAC+PHY Extension header, containing the rate expressed in terms of MCS, short/long guard interval (SGI/LGI) and 20MHz or 40MHz channel. When the MAC+PHY Extension header is present, the rate field in the PPI 802.11-Common header is ignored. By default on 802.11n-capable AirPcap adapters, packets are transmitted with no A-MPDU aggregation. A-MPDU aggregation is controlled by the adapter, but it's possible to give a hint to the hardware to aggregate some packets by setting the "Aggregate" and "More aggregates" flags in the PPI 802.11n MAC+PHY extension header. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="TxPacket">Pointer to a buffer that contains the packet to be transmitted.</param> <param name="PacketLen">Length of the buffer pointed by the TxPacket argument, in bytes</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetStats(System.IntPtr,System.IntPtr)"> <summary> Gets per-adapter WinPcap-compatible capture statistics. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="PStats">Pointer to a user-allocated AirpcapStats structure that will be filled with statistical information.</param> <returns>TRUE on success</returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetLedsNumber(System.IntPtr,System.UInt32@)"> <summary> Gets the number of LEDs the referenced adapter has available </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="NumberOfLeds">Number of LEDs available on this adapter</param> <returns> </returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapTurnLedOn(System.IntPtr,System.UInt32)"> <summary> Turns on one of the adapter's LEDs. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="LedNumber">Zero-based identifier of the LED to turn on</param> <returns> </returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapTurnLedOff(System.IntPtr,System.UInt32)"> <summary> Turns off one of the adapter's LEDs. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="LedNumber">Zero-based identifier of the LED to turn off.</param> <returns> </returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapSafeNativeMethods.AirpcapGetDeviceTimestamp(System.IntPtr,System.IntPtr)"> <summary> Gets the current value of the device counter used to timestamp packets. </summary> <param name="AdapterHandle">Handle to the adapter</param> <param name="PTimestamp">Pointer to a caller allocated 64bit integer that will receive the device timestamp, in microseconds.</param> <returns>TRUE on success</returns> </member> <member name="T:SharpPcap.AirPcap.AirPcapStatistics"> <summary> Device statistics </summary> </member> <member name="P:SharpPcap.AirPcap.AirPcapStatistics.ReceivedPackets"> <value> Number of packets received </value> </member> <member name="P:SharpPcap.AirPcap.AirPcapStatistics.DroppedPackets"> <value> Number of packets dropped </value> </member> <member name="P:SharpPcap.AirPcap.AirPcapStatistics.InterfaceDroppedPackets"> <value> Number of interface dropped packets </value> </member> <member name="P:SharpPcap.AirPcap.AirPcapStatistics.CapturedPackets"> <summary> Number of packets that pass the BPF filter, find place in the kernel buffer and therefore reach the application. </summary> </member> <member name="M:SharpPcap.AirPcap.AirPcapStatistics.ToString"> <summary> ToString override </summary> <returns> </returns> </member> <member name="T:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapChannelInfo"> <summary> Channel information Used by \ref AirpcapSetDeviceChannelEx(), \ref AirpcapGetDeviceChannelEx(), \ref AirpcapGetDeviceSupportedChannels() </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapChannelInfo.Frequency"> <summary> Channel frequency, in MHz UINT </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapChannelInfo.ExtChannel"> <summary> 802.11n specific. Offset of the extension channel in case of 40MHz channels. Possible values are -1, 0 +1: - -1 means that the extension channel should be below the control channel (e.g. Control = 5 and Extension = 1) - 0 means that no extension channel should be used (20MHz channels or legacy mode) - +1 means that the extension channel should be above the control channel (e.g. Control = 1 and Extension = 5) In case of 802.11a/b/g channels (802.11n legacy mode), this field should be set to 0. CHAR </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapChannelInfo.Flags"> <summary> Channel Flags. The only flag supported at this time is \ref AIRPCAP_CIF_TX_ENABLED. UCHAR </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapChannelInfo.Reserved1"> <summary> Reserved. It should be set to {0,0}. </summary> </member> <member name="T:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapStats"> <summary> Capture statistics Returned by AirpcapGetStats() </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapStats.Recvs"> <summary> Number of packets that the driver received by the adapter from the beginning of the current capture. This value includes the packets dropped because of buffer full. </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapStats.Drops"> <summary> Number of packets that the driver dropped from the beginning of a capture. A packet is lost when the the buffer of the driver is full. </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapStats.IfDrops"> <summary> Packets dropped by the card before going to the USB bus. Not supported at the moment. </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapStats.Capt"> <summary> Number of packets that pass the BPF filter, find place in the kernel buffer and therefore reach the application. </summary> </member> <member name="T:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapDeviceCapabilities"> <summary> Device capabilities Returned by AirpcapGetDeviceCapabilities() </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapDeviceCapabilities.AdapterId"> <summary> An id that identifies the adapter model </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapDeviceCapabilities.AdapterModelName"> <summary> String containing a printable adapter model </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapDeviceCapabilities.AdapterBus"> <summary> The type of bus the adapter is plugged to </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapDeviceCapabilities.CanTransmit"> <summary> TRUE if the adapter is able to perform frame injection. </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapDeviceCapabilities.CanSetTransmitPower"> <summary> TRUE if the adapter's transmit power is can be specified by the user application. </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapDeviceCapabilities.ExternalAntennaPlug"> <summary> TRUE if the adapter supports plugging one or more external antennas. </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapDeviceCapabilities.SupportedMedia"> <summary> An OR combination of the media that the device supports. Possible values are: \ref AIRPCAP_MEDIUM_802_11_A, \ref AIRPCAP_MEDIUM_802_11_B, \ref AIRPCAP_MEDIUM_802_11_G or \ref AIRPCAP_MEDIUM_802_11_N. Not supported at the moment. </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapDeviceCapabilities.SupportedBands"> <summary> An OR combination of the bands that the device supports. Can be one of: \ref AIRPCAP_BAND_2GHZ, \ref AIRPCAP_BAND_5GHZ. </summary> </member> <member name="T:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapKey"> <summary> WEB key container </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapKey.KeyType"> <summary> Type of key, can be on of: \ref AIRPCAP_KEYTYPE_WEP, \ref AIRPCAP_KEYTYPE_TKIP, \ref AIRPCAP_KEYTYPE_CCMP. Only AIRPCAP_KEYTYPE_WEP is supported by the driver at the moment. </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapKey.KeyLen"> <summary> Length of the key in bytes </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapKey.KeyData"> <summary> Key data </summary> </member> <member name="T:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapChannelBand"> <summary> frequency Band. 802.11 adapters can support different frequency bands, the most important of which are: 2.4GHz (802.11b/g/n) and 5GHz (802.11a/n). </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapChannelBand.AIRPCAP_CB_AUTO"> <summary>Automatically pick the best frequency band</summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapChannelBand.AIRPCAP_CB_2_4_GHZ"> <summary>2.4 GHz frequency band</summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapChannelBand.AIRPCAP_CB_4_GHZ"> <summary>4 GHz frequency band</summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapChannelBand.AIRPCAP_CB_5_GHZ"> <summary>5 GHz frequency band</summary> </member> <member name="T:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapDeviceDescription"> <summary> Entry in the list returned by \ref AirpcapGetDeviceList(). </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapDeviceDescription.next"> <summary> Next element in the list struct _AirpcapDeviceDescription* </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapDeviceDescription.Name"> <summary> Device name PCHAR </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapDeviceDescription.Description"> <summary> Device description PCHAR </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapKeysCollection.nKeys"> <summary> Number of keys in the collection </summary> </member> <member name="T:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapBpfHeader"> <summary> Packet header This structure defines the BPF that preceeds every packet delivered to the application </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapBpfHeader.TsSec"> <summary> Timestamp associated with the captured packet. SECONDS. UINT </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapBpfHeader.TsUsec"> <summary> Timestamp associated with the captured packet. MICROSECONDS. UINT </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapBpfHeader.Caplen"> <summary> Length of captured portion. The captured portion <b>can be different</b> from the original packet, because it is possible (with a proper filter) to instruct the driver to capture only a portion of the packets. </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapBpfHeader.Originallen"> <summary> Original length of packet UINT </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapBpfHeader.Hdrlen"> <summary> Length of bpf header (this struct plus alignment padding). In some cases, a padding could be added between the end of this structure and the packet data for performance reasons. This field can be used to retrieve the actual data of the packet. USHORT </summary> </member> <member name="T:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapDeviceTimestamp"> <summary> Structure used to read the free running counter on a device This structure contains the current value of the counter used by the device to timestamp packets (when the hardware supports hardware timestamps). This structure also contains the value of the software counter (used to timestamp packets in software), before and after the hardware counter is read on the device. </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapDeviceTimestamp.DeviceTimestamp"> <summary>Current value of the device counter, in microseconds.</summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapDeviceTimestamp.SoftwareTimestampBefore"> <summary>Value of the software counter used to timestamp packets before reading the device counter, in microseconds.</summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapUnmanagedStructures.AirpcapDeviceTimestamp.SoftwareTimestampAfter"> <summary>Value of the software counter used to timestamp packets after reading the device counter, in microseconds.</summary> </member> <member name="T:SharpPcap.AirPcap.AirPcapValidationType"> <summary> Type of frame validation the adapter performs. An adapter can be instructed to accept different kind of frames: correct frames only, frames with wrong Frame Check Sequence (FCS) only, all frames. </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapValidationType.ACCEPT_EVERYTHING"> <summary>Accept all the frames the device captures</summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapValidationType.ACCEPT_CORRECT_FRAMES"> <summary>Accept correct frames only, i.e. frames with correct Frame Check Sequence (FCS).</summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapValidationType.ACCEPT_CORRUPT_FRAMES"> <summary>Accept corrupt frames only, i.e. frames with worng Frame Check Sequence (FCS).</summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapValidationType.UNKNOWN"> <summary>Unknown validation type. You should see it only in case of error.</summary> </member> <member name="T:SharpPcap.AirPcap.AirPcapVersion"> <summary> Version </summary> </member> <member name="M:SharpPcap.AirPcap.AirPcapVersion.Version(System.UInt32@,System.UInt32@,System.UInt32@,System.UInt32@)"> <summary> Returns the version in separate fields </summary> <param name="Major"> </param> <param name="Minor"> </param> <param name="Rev"> </param> <param name="Build"> </param> <returns> </returns> </member> <member name="M:SharpPcap.AirPcap.AirPcapVersion.VersionString"> <summary> Returns the version in a.b.c.d format </summary> <returns> </returns> </member> <member name="T:SharpPcap.CaptureDeviceList"> <summary> List of available capture devices </summary> </member> <member name="M:SharpPcap.CaptureDeviceList.#ctor"> <summary> Represents a strongly typed, read-only list of PcapDevices. </summary> </member> <member name="P:SharpPcap.CaptureDeviceList.Item(System.String)"> <param name="Name">The name or description of the pcap interface to get.</param> </member> <member name="P:SharpPcap.CaptureDeviceList.Instance"> <summary> Method to retrieve this classes singleton instance </summary> </member> <member name="M:SharpPcap.CaptureDeviceList.New"> <summary> Caution: Use the singlton instance unless you know why you need to call this. One use is for multiple filters on the same physical device. To apply multiple filters open the same physical device multiple times, one for each filter by calling this routine and picking the same device out of each list. </summary> <returns> A <see cref="T:SharpPcap.CaptureDeviceList" /></returns> </member> <member name="M:SharpPcap.CaptureDeviceList.GetDevices"> <summary> Retrieve a list of the current devices </summary> <returns> A <see cref="!:List&lt;ICaptureDevice&gt;" /></returns> </member> <member name="M:SharpPcap.CaptureDeviceList.Refresh"> <summary> Refresh the device list </summary> </member> <member name="T:SharpPcap.PcapException"> <summary> General Pcap Exception. </summary> </member> <member name="T:SharpPcap.LibPcap.PcapHeader"> <summary> A wrapper for libpcap's pcap_pkthdr structure </summary> </member> <member name="M:SharpPcap.LibPcap.PcapHeader.#ctor(System.IntPtr)"> <summary> A wrapper class for libpcap's pcap_pkthdr structure </summary> </member> <member name="M:SharpPcap.LibPcap.PcapHeader.#ctor(System.UInt32,System.UInt32,System.UInt32,System.UInt32)"> <summary> Constructs a new PcapHeader </summary> <param name="seconds">The seconds value of the packet's timestamp</param> <param name="microseconds">The microseconds value of the packet's timestamp</param> <param name="packetLength">The actual length of the packet</param> <param name="captureLength">The length of the capture</param> </member> <member name="F:SharpPcap.LibPcap.PcapHeader.epochTicks"> <summary> DateTime(1970, 1, 1).Ticks, saves cpu cycles in the Date property </summary> </member> <member name="F:SharpPcap.LibPcap.PcapHeader.Seconds"> <summary> The seconds value of the packet's timestamp </summary> </member> <member name="F:SharpPcap.LibPcap.PcapHeader.MicroSeconds"> <summary> The microseconds value of the packet's timestamp </summary> </member> <member name="F:SharpPcap.LibPcap.PcapHeader.PacketLength"> <summary> The length of the packet on the line </summary> </member> <member name="F:SharpPcap.LibPcap.PcapHeader.CaptureLength"> <summary> The the bytes actually captured. If the capture length is small CaptureLength might be less than PacketLength </summary> </member> <member name="P:SharpPcap.LibPcap.PcapHeader.Date"> <summary> Return the DateTime value of this pcap header </summary> </member> <member name="M:SharpPcap.LibPcap.PcapHeader.FromPointer(System.IntPtr)"> <summary> Get a PcapHeader structure from a pcap_pkthdr pointer. </summary> </member> <member name="M:SharpPcap.LibPcap.PcapHeader.MarshalToIntPtr"> <summary> Marshal this structure into the platform dependent version and return and IntPtr to that memory NOTE: IntPtr MUST BE FREED via Marshal.FreeHGlobal() </summary> <returns> A <see cref="T:System.IntPtr" /></returns> </member> <member name="T:SharpPcap.Pcap"> <summary> Constants and static helper methods </summary> </member> <member name="F:SharpPcap.Pcap.InfinitePacketCount"> <summary>Represents the infinite number for packet captures </summary> </member> <member name="P:SharpPcap.Pcap.Version"> <summary> Returns the pcap version string retrieved via a call to pcap_lib_version() </summary> </member> <member name="T:SharpPcap.Version"> <summary> Helper class/method to retrieve the version of the SharpPcap assembly </summary> </member> <member name="P:SharpPcap.Version.VersionString"> <summary> Returns the current version string of the SharpPcap library </summary> <returns>the current version string of the SharpPcap library</returns> </member> <member name="T:SharpPcap.LibPcap.PcapUnmanagedStructures.pcap_if"> <summary> Item in a list of interfaces. </summary> </member> <member name="T:SharpPcap.LibPcap.PcapUnmanagedStructures.pcap_addr"> <summary> Representation of an interface address. </summary> </member> <member name="T:SharpPcap.LibPcap.PcapUnmanagedStructures.sockaddr"> <summary> Structure used by kernel to store a generic address Look at the sa_family value to determine which specific structure to use 'struct sockaddr' </summary> </member> <member name="T:SharpPcap.LibPcap.PcapUnmanagedStructures.in_addr"> <summary> Structure that holds an ipv4 address </summary> </member> <member name="T:SharpPcap.LibPcap.PcapUnmanagedStructures.sockaddr_in"> <summary> Structure that holds an ipv4 address 'struct sockaddr' </summary> </member> <member name="T:SharpPcap.LibPcap.PcapUnmanagedStructures.sockaddr_in6"> <summary> Structure that holds an ipv6 address NOTE: we cast the 'struct sockaddr*' to this structure based on the sa_family type 'struct sockaddr_in6' </summary> </member> <member name="T:SharpPcap.LibPcap.PcapUnmanagedStructures.sockaddr_ll"> <summary> Structure to represent a low level address, like a hardware address </summary> </member> <member name="T:SharpPcap.LibPcap.PcapUnmanagedStructures.timeval_unix"> <summary> Windows and Unix differ in their memory models and make it difficult to support struct timeval in a single library, like this one, across multiple platforms. See http://en.wikipedia.org/wiki/64bit#Specific_data_models The issue is that struct timeval { long tv_sec; long tv_usec; } has different sizes on Linux 32 and 64bit but the same size on Windows 32 and 64 bit Thanks to Jon Pryor for his help in figuring out both the issue with Linux 32/64bit and the issue between Windows and Unix </summary> </member> <member name="T:SharpPcap.LibPcap.PcapUnmanagedStructures.timeval_windows"> <summary> Windows version of struct timeval, the longs are 32bit even on 64-bit versions of Windows </summary> </member> <member name="T:SharpPcap.LibPcap.PcapUnmanagedStructures.pcap_pkthdr_unix"> <summary> Each packet in the dump file is prepended with this generic header. This gets around the problem of different headers for different packet interfaces. </summary> </member> <member name="T:SharpPcap.LibPcap.PcapUnmanagedStructures.pcap_pkthdr_windows"> <summary> Each packet in the dump file is prepended with this generic header. This gets around the problem of different headers for different packet interfaces. </summary> </member> <member name="T:SharpPcap.LibPcap.PcapUnmanagedStructures.PCAP_PKTDATA"> <summary> Packet data bytes NOTE: This struct doesn't exist in header files, it is a construct to map to an unmanaged byte array </summary> </member> <member name="T:SharpPcap.LibPcap.PcapUnmanagedStructures.bpf_program"> <summary> A BPF pseudo-assembly program for packet filtering </summary> </member> <member name="T:SharpPcap.LibPcap.PcapUnmanagedStructures.pcap_send_queue"> <summary> A queue of raw packets that will be sent to the network with pcap_sendqueue_transmit() </summary> </member> <member name="T:SharpPcap.LibPcap.PcapUnmanagedStructures.PcapStatReturnValue"> <summary> Define the return values from int pcap_stats() </summary> </member> <member name="T:SharpPcap.LibPcap.PcapUnmanagedStructures.pcap_stat_unix"> <summary> Unix version of 'struct pcap_stat' Uses the same trick as timeval_unix </summary> </member> <member name="F:SharpPcap.LibPcap.PcapUnmanagedStructures.pcap_stat_unix.ps_recv"> <summary> Packets received </summary> </member> <member name="F:SharpPcap.LibPcap.PcapUnmanagedStructures.pcap_stat_unix.ps_drop"> <summary> Packets dropped </summary> </member> <member name="F:SharpPcap.LibPcap.PcapUnmanagedStructures.pcap_stat_unix.ps_ifdrop"> <summary> Drops by interface (maybe not yet supported) </summary> </member> <member name="T:SharpPcap.LibPcap.PcapUnmanagedStructures.pcap_stat_windows"> <summary> Windows version of 'struct pcap_stat' </summary> </member> <member name="F:SharpPcap.LibPcap.PcapUnmanagedStructures.pcap_stat_windows.ps_recv"> <summary> Packets received </summary> </member> <member name="F:SharpPcap.LibPcap.PcapUnmanagedStructures.pcap_stat_windows.ps_drop"> <summary> Packets dropped </summary> </member> <member name="F:SharpPcap.LibPcap.PcapUnmanagedStructures.pcap_stat_windows.ps_ifdrop"> <summary> Drops by interface (maybe not yet supported) </summary> </member> <member name="F:SharpPcap.LibPcap.PcapUnmanagedStructures.pcap_stat_windows.bs_capt"> <summary> Packets that reach the application WIN32 only, based on struct pcap_stat in pcap.h </summary> </member> <member name="T:SharpPcap.LibPcap.LibPcapSafeNativeMethods"> <summary> Per http://msdn.microsoft.com/en-us/ms182161.aspx </summary> </member> <member name="T:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_handler"> <summary> The delegate declaration for PcapHandler requires an UnmanagedFunctionPointer attribute. Without this it fires for one time and then throws null pointer exception </summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_dump_open(System.IntPtr,System.String)"> <summary>Open a file to write packets. </summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_dump(System.IntPtr,System.IntPtr,System.IntPtr)"> <summary> Save a packet to disk. </summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_close(System.IntPtr)"> <summary> close the files associated with p and deallocates resources.</summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_next_ex(System.IntPtr,System.IntPtr@,System.IntPtr@)"> <summary> To avoid callback, this returns one packet at a time </summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_sendpacket(System.IntPtr,System.IntPtr,System.Int32)"> <summary> Send a raw packet.<br /> This function allows to send a raw packet to the network. The MAC CRC doesn't need to be included, because it is transparently calculated and added by the network interface driver. </summary> <param name="adaptHandle">the interface that will be used to send the packet</param> <param name="data">contains the data of the packet to send (including the various protocol headers)</param> <param name="size">the dimension of the buffer pointed by data</param> <returns>0 if the packet is succesfully sent, -1 otherwise.</returns> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_compile(System.IntPtr,System.IntPtr,System.String,System.Int32,System.UInt32)"> <summary> Compile a packet filter, converting an high level filtering expression (see Filtering expression syntax) in a program that can be interpreted by the kernel-level filtering engine. </summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_freecode(System.IntPtr)"> <summary> Free up allocated memory pointed to by a bpf_program struct generated by pcap_compile() </summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_geterr(System.IntPtr)"> <summary> return the error text pertaining to the last pcap library error. </summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_lib_version"> <summary>Returns a pointer to a string giving information about the version of the libpcap library being used; note that it contains more information than just a version number. </summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_dump_file(System.IntPtr)"> <summary>return the standard I/O stream of the 'savefile' opened by pcap_dump_open().</summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_dump_flush(System.IntPtr)"> <summary>Flushes the output buffer to the 'savefile', so that any packets written with pcap_dump() but not yet written to the 'savefile' will be written. -1 is returned on error, 0 on success. </summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_dump_close(System.IntPtr)"> <summary>Closes a savefile. </summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_datalink(System.IntPtr)"> <summary> Return the link layer of an adapter. </summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_setnonblock(System.IntPtr,System.Int32,System.Text.StringBuilder)"> <summary> Set nonblocking mode. pcap_loop() and pcap_next() doesnt work in nonblocking mode! </summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_getnonblock(System.IntPtr,System.Text.StringBuilder)"> <summary> Get nonblocking mode, returns allways 0 for savefiles. </summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_dispatch(System.IntPtr,System.Int32,SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_handler,System.IntPtr)"> <summary> Read packets until cnt packets are processed or an error occurs. </summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_get_selectable_fd(System.IntPtr)"> <summary> Retrieves a selectable file descriptor </summary> <param name="adaptHandle"> A <see cref="T:System.IntPtr" /></param> <returns> A <see cref="T:System.Int32" /></returns> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_stats(System.IntPtr,System.IntPtr)"> <summary> Fills in the pcap_stat structure passed to the function based on the pcap_t adapter </summary> <param name="adapter"> A <see cref="T:System.IntPtr" /></param> <param name="stat"> A <see cref="T:System.IntPtr" /></param> <returns> A <see cref="T:System.Int32" /></returns> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_snapshot(System.IntPtr)"> <summary> Returns the snapshot length </summary> <param name="adapter"> A <see cref="T:System.IntPtr" /></param> <returns> A <see cref="T:System.Int32" /></returns> </member> <member name="M:SharpPcap.LibPcap.LibPcapSafeNativeMethods.pcap_fileno(System.IntPtr)"> <summary> Returns the file descriptor number from which captured packets are read, if a network device was opened with pcap_create() and pcap_activate() or with pcap_open_live(), or -1, if a ``savefile'' was opened with pcap_open_offline() Libpcap specific method </summary> <param name="adapter"> A <see cref="T:System.IntPtr" /></param> <returns> A <see cref="T:System.Int32" /></returns> </member> <member name="T:SharpPcap.LibPcap.PcapDevice"> <summary> Base class for all pcap devices </summary> </member> <member name="F:SharpPcap.LibPcap.PcapDevice.captureThread"> <summary> Thread that is performing the background packet capture </summary> </member> <member name="F:SharpPcap.LibPcap.PcapDevice.shouldCaptureThreadStop"> <summary> Flag that indicates that a capture thread should stop </summary> </member> <member name="F:SharpPcap.LibPcap.PcapDevice.MonoUnixFound"> <summary> If Environment.OSVersion.Platform is unix and MonoUnixFound is true then we can support proper termination of the capture loop </summary> <returns> A <see cref="T:System.Boolean" /></returns> </member> <member name="F:SharpPcap.LibPcap.PcapDevice.m_pcapIf"> <summary> Low level interface object that contains device specific information </summary> </member> <member name="F:SharpPcap.LibPcap.PcapDevice.m_pcapAdapterHandle"> <summary> Handle to a pcap adapter, not equal to IntPtr.Zero if an adapter is open </summary> </member> <member name="F:SharpPcap.LibPcap.PcapDevice.m_pcapPacketCount"> <summary> Number of packets that this adapter should capture </summary> </member> <member name="F:SharpPcap.LibPcap.PcapDevice.isOpen"> <summary> Cached open and linkType variables, avoids a unsafe pointer comparison and a pinvoke call for each packet retrieved as MarshalRawPacket retrieves the LinkType </summary> </member> <member name="E:SharpPcap.LibPcap.PcapDevice.OnPacketArrival"> <summary> Fires whenever a new packet is processed, either when the packet arrives from the network device or when the packet is read from the on-disk file.<br /> For network captured packets this event is invoked only when working in "PcapMode.Capture" mode. </summary> </member> <member name="E:SharpPcap.LibPcap.PcapDevice.OnCaptureStopped"> <summary> Fired when the capture process of this pcap device is stopped </summary> </member> <member name="P:SharpPcap.LibPcap.PcapDevice.Started"> <summary> Return a value indicating if the capturing process of this adapter is started </summary> </member> <member name="P:SharpPcap.LibPcap.PcapDevice.StopCaptureTimeout"> <summary> Maximum time within which the capture thread must join the main thread (on <see cref="M:SharpPcap.LibPcap.PcapDevice.StopCapture" />) or else the thread is aborted and an exception thrown. </summary> </member> <member name="P:SharpPcap.LibPcap.PcapDevice.Name"> <summary> Device name </summary> </member> <member name="P:SharpPcap.LibPcap.PcapDevice.Description"> <summary> Description </summary> </member> <member name="P:SharpPcap.LibPcap.PcapDevice.IsOnPacketArrivalNull"> <summary> Implemented because there isn't any way to perform if(OnPacketArrival == null) isn't permitted outside of the containing class this operation results in a CS0070 compile error </summary> <returns> A <see cref="T:System.Boolean" /></returns> </member> <member name="P:SharpPcap.LibPcap.PcapDevice.Interface"> <value> Low level pcap device values </value> </member> <member name="P:SharpPcap.LibPcap.PcapDevice.Opened"> <summary> Return a value indicating if this adapter is opened </summary> </member> <member name="P:SharpPcap.LibPcap.PcapDevice.PcapHandle"> <summary> The underlying pcap device handle </summary> </member> <member name="P:SharpPcap.LibPcap.PcapDevice.LastError"> <summary> The last pcap error associated with this pcap device </summary> </member> <member name="P:SharpPcap.LibPcap.PcapDevice.LinkType"> <summary> Link type in terms of PacketDotNet.LinkLayers </summary> </member> <member name="P:SharpPcap.LibPcap.PcapDevice.Statistics"> <summary> Retrieves pcap statistics </summary> <returns> A <see cref="T:SharpPcap.LibPcap.PcapStatistics" /></returns> </member> <member name="P:SharpPcap.LibPcap.PcapDevice.MacAddress"> <summary> Mac address of the physical device </summary> </member> <member name="P:SharpPcap.LibPcap.PcapDevice.Filter"> <summary> Kernel level filtering expression associated with this device. For more info on filter expression syntax, see: http://www.winpcap.org/docs/docs31/html/group__language.html </summary> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.UnixSetupMonoUnixNative"> <summary> Setup the reflection type and methodinfo for invocation of Mono.Unix.Native.Syscall.poll() to avoid timeouts when stopping the capture thread </summary> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.StartCapture"> <summary> Starts the capturing process via a background thread OnPacketArrival() will be called for each captured packet </summary> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.StopCapture"> <summary> Stops the capture process Throws an exception if the stop capture timeout is exceeded and the capture thread was aborted </summary> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.Capture"> <summary> Synchronously capture packets on this device. Method blocks forever. </summary> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.Capture(System.Int32)"> <summary> Synchronously captures packets on this network device. This method will block until capturing is finished. </summary> <param name="packetCount">The number of packets to be captured. -1 means capture indefiniately</param> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.CaptureThread"> <summary> The capture thread </summary> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.GetLastError(System.IntPtr)"> <summary> Retrieve the last error string for a given pcap_t* device </summary> <param name="deviceHandle"> A <see cref="T:System.IntPtr" /></param> <returns> A <see cref="T:System.String" /></returns> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.Open"> <summary> Open the device with class specific options </summary> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.Open(SharpPcap.DeviceMode)"> <summary> Open the device. To start capturing call the 'StartCapture' function </summary> <param name="mode"> A <see cref="T:SharpPcap.DeviceMode" /></param> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.Open(SharpPcap.DeviceMode,System.Int32)"> <summary> Open the device. To start capturing call the 'StartCapture' function </summary> <param name="mode"> A <see cref="T:SharpPcap.DeviceMode" /></param> <param name="read_timeout"> A <see cref="T:System.Int32" /></param> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.Close"> <summary> Closes this adapter </summary> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.SendPacketArrivalEvent(SharpPcap.RawCapture)"> <summary> Notify the OnPacketArrival delegates about a newly captured packet </summary> <param name="p"> A <see cref="T:SharpPcap.RawCapture" /></param> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.SendCaptureStoppedEvent(SharpPcap.CaptureStoppedEventStatus)"> <summary> Notify the delegates that are subscribed to the capture stopped event </summary> <param name="status"> A <see cref="T:SharpPcap.CaptureStoppedEventStatus" /></param> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.GetNextPacket"> <summary> Gets the next packet captured on this device </summary> <returns>The next packet captured on this device</returns> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.GetNextPacket(SharpPcap.RawCapture@)"> <summary> Gets the next packet captured on this device </summary> <param name="p"> A <see cref="T:SharpPcap.RawCapture" /></param> <returns> A <see cref="T:System.Int32" /> that contains the result code </returns> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.GetNextPacketPointers(System.IntPtr@,System.IntPtr@)"> <summary> Gets pointers to the next PCAP header and packet data. Data is only valid until next call to GetNextPacketNative. Advanced use only. Intended to allow unmanaged code to avoid the overhead of marshalling PcapHeader and packet contents to allocated memory. </summary> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.PacketHandler(System.IntPtr,System.IntPtr,System.IntPtr)"> <summary> Pcap_loop callback method. </summary> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.MarshalRawPacket(System.IntPtr,System.IntPtr)"> <summary> Convert an unmanaged packet into a managed PacketDotNet.RawPacket </summary> <param name="header"> A <see cref="T:System.IntPtr" /></param> <param name="data"> A <see cref="T:System.IntPtr" /></param> <returns> A <see cref="T:SharpPcap.RawCapture" /></returns> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.SetFilter(System.String)"> <summary> Assign a filter to this device given a filterExpression </summary> <param name="filterExpression">The filter expression to compile</param> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.CompileFilter(System.IntPtr,System.String,System.UInt32,System.IntPtr@,System.String@)"> or unmanaged memory will be leaked</member> <member name="M:SharpPcap.LibPcap.PcapDevice.FreeBpfProgram(System.IntPtr)"> <summary> Free memory allocated in CompileFilter() </summary> <param name="bpfProgram"> A <see cref="T:System.IntPtr" /></param> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.CheckFilter(System.String,System.String@)"> <summary> Returns true if the filter expression was able to be compiled into a program without errors </summary> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.SendPacket(PacketDotNet.Packet)"> <summary> Sends a raw packet throgh this device </summary> <param name="p">The packet to send</param> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.SendPacket(PacketDotNet.Packet,System.Int32)"> <summary> Sends a raw packet throgh this device </summary> <param name="p">The packet to send</param> <param name="size">The number of bytes to send</param> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.SendPacket(System.Byte[])"> <summary> Sends a raw packet throgh this device </summary> <param name="p">The packet bytes to send</param> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.SendPacket(System.Byte[],System.Int32)"> <summary> Sends a raw packet throgh this device </summary> <param name="p">The packet bytes to send</param> <param name="size">The number of bytes to send</param> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.ThrowIfNotOpen(System.String)"> <summary> Helper method for checking that the adapter is open, throws an exception with a string of ExceptionString if the device isn't open </summary> <param name="ExceptionString"> A <see cref="T:System.String" /></param> </member> <member name="M:SharpPcap.LibPcap.PcapDevice.ToString"> <summary> Override the default ToString() implementation </summary> <returns> A <see cref="T:System.String" /></returns> </member> <member name="T:SharpPcap.LibPcap.PcapAddress"> <summary> Managed representation of the unmanaged pcap_addr structure </summary> </member> <member name="P:SharpPcap.LibPcap.PcapAddress.Addr"> <summary> The address value of this PcapAddress, null if none is present </summary> </member> <member name="P:SharpPcap.LibPcap.PcapAddress.Netmask"> <summary> Netmask of this PcapAddress, null if none is present </summary> </member> <member name="P:SharpPcap.LibPcap.PcapAddress.Broadaddr"> <summary> Broadcast address of this PcapAddress, null if none is present </summary> </member> <member name="P:SharpPcap.LibPcap.PcapAddress.Dstaddr"> <summary> Destination address, null if the interface isn't a point-to-point interface </summary> </member> <member name="M:SharpPcap.LibPcap.PcapAddress.ToString"> <summary> ToString override </summary> <returns> A <see cref="T:System.String" /></returns> </member> <member name="T:SharpPcap.LibPcap.Sockaddr"> <summary> Container class that represents either an ip address or a mac address An analog to the 'sockaddr_' series of structures </summary> </member> <member name="M:SharpPcap.LibPcap.Sockaddr.#ctor(System.Net.NetworkInformation.PhysicalAddress)"> <summary> Create a Sockaddr from a PhysicalAddress which is presumed to be a hardware address </summary> <param name="hardwareAddress"> A <see cref="T:System.Net.NetworkInformation.PhysicalAddress" /></param> </member> <member name="T:SharpPcap.LibPcap.Sockaddr.AddressTypes"> <summary> Types of addresses a Sockaddr can represent </summary> </member> <member name="F:SharpPcap.LibPcap.Sockaddr.AddressTypes.AF_INET_AF_INET6"> <summary> Address represents an ipv4 or ipv6 address </summary> </member> <member name="F:SharpPcap.LibPcap.Sockaddr.AddressTypes.HARDWARE"> <summary> Address represents a physical hardware address eg. a ethernet mac address </summary> </member> <member name="F:SharpPcap.LibPcap.Sockaddr.AddressTypes.UNKNOWN"> <summary> Unknown address type </summary> </member> <member name="F:SharpPcap.LibPcap.Sockaddr.type"> <summary> Address type represented by this Sockaddr </summary> </member> <member name="F:SharpPcap.LibPcap.Sockaddr.ipAddress"> <summary> If type == AF_INET_AF_INET6 </summary> </member> <member name="F:SharpPcap.LibPcap.Sockaddr.hardwareAddress"> <summary> If type == HARDWARE </summary> </member> <member name="P:SharpPcap.LibPcap.Sockaddr.sa_family"> <summary> Address family </summary> </member> <member name="M:SharpPcap.LibPcap.Sockaddr.ToString"> <summary> ToString override </summary> <returns> A <see cref="T:System.String" /></returns> </member> <member name="T:SharpPcap.LibPcap.PcapInterface"> <summary> managed version of struct pcap_if NOTE: we can't use pcap_if directly because the class contains a pointer to pcap_if that will be freed when the device memory is freed, so instead convert the unmanaged structure to a managed one to avoid this issue </summary> </member> <member name="P:SharpPcap.LibPcap.PcapInterface.Name"> <value> Name of the interface. Used internally when passed to pcap_open_live() </value> </member> <member name="P:SharpPcap.LibPcap.PcapInterface.FriendlyName"> <value> Human readable interface name derived from System.Net.NetworkInformation.NetworkInterface.Name </value> </member> <member name="P:SharpPcap.LibPcap.PcapInterface.Description"> <value> Text description of the interface as given by pcap/winpcap </value> </member> <member name="P:SharpPcap.LibPcap.PcapInterface.GatewayAddress"> <value> Gateway address of this device NOTE: May only be available on Windows </value> </member> <member name="P:SharpPcap.LibPcap.PcapInterface.Addresses"> <value> Addresses associated with this device </value> </member> <member name="P:SharpPcap.LibPcap.PcapInterface.Flags"> <value> Pcap interface flags </value> </member> <member name="P:SharpPcap.LibPcap.PcapInterface.MacAddress"> <summary> MacAddress of the interface </summary> </member> <member name="M:SharpPcap.LibPcap.PcapInterface.ToString"> <summary> ToString override </summary> <returns> A <see cref="T:System.String" /></returns> </member> <member name="T:SharpPcap.DeviceNotReadyException"> <summary> A PcapDevice or dumpfile is not ready for capture operations. </summary> </member> <member name="T:SharpPcap.LibPcap.PcapStatistics"> <summary> Adapter statistics, received, dropped packet counts etc </summary> </member> <member name="M:SharpPcap.LibPcap.PcapStatistics.#ctor(System.IntPtr)"> <summary> Retrieve pcap statistics from the adapter </summary> <param name="pcap_t"> pcap_t* for the adapter A <see cref="T:System.IntPtr" /></param> </member> <member name="P:SharpPcap.LibPcap.PcapStatistics.ReceivedPackets"> <value> Number of packets received </value> </member> <member name="P:SharpPcap.LibPcap.PcapStatistics.DroppedPackets"> <value> Number of packets dropped </value> </member> <member name="P:SharpPcap.LibPcap.PcapStatistics.InterfaceDroppedPackets"> <value> Number of interface dropped packets </value> </member> <member name="M:SharpPcap.LibPcap.PcapStatistics.ToString"> <summary> ToString override </summary> <returns> A <see cref="T:System.String" /></returns> </member> <member name="T:SharpPcap.WinPcapRequiredException"> <summary> Exception thrown when a WinPcap extension method is called from a non-Windows platform </summary> </member> <member name="M:SharpPcap.WinPcapRequiredException.#ctor(System.String)"> <summary> string constructor </summary> <param name="msg"> A <see cref="T:System.String" /></param> </member> <member name="T:SharpPcap.PacketArrivalEventHandler"> <summary>A delegate for Packet Arrival events</summary> </member> <member name="T:SharpPcap.CaptureStoppedEventHandler"> <summary> A delegate for notifying of a capture stopped event </summary> </member> <member name="T:SharpPcap.DeviceMode"> <summary> The mode used when opening a device </summary> </member> <member name="F:SharpPcap.DeviceMode.Promiscuous"> <summary> Promiscuous mode. Instructs the OS that we want to receive all packets, even those not intended for the adapter. On non-switched networks this can result in a large amount of addtional traffic. NOTE: Devices in this mode CAN be detected via the network </summary> </member> <member name="F:SharpPcap.DeviceMode.Normal"> <summary> Not promiscuous mode </summary> </member> <member name="T:SharpPcap.CaptureEventArgs"> <summary> Capture event arguments </summary> </member> <member name="M:SharpPcap.CaptureEventArgs.#ctor(SharpPcap.RawCapture,SharpPcap.ICaptureDevice)"> <summary> Constructor </summary> <param name="packet"> A <see cref="T:SharpPcap.RawCapture" /></param> <param name="device"> A <see cref="T:SharpPcap.ICaptureDevice" /></param> </member> <member name="P:SharpPcap.CaptureEventArgs.Packet"> <summary> Packet that was captured </summary> </member> <member name="P:SharpPcap.CaptureEventArgs.Device"> <summary> Device this EventArgs was generated for </summary> </member> <member name="T:SharpPcap.ARP"> <summary> Resolves MAC addresses from IP addresses using the Address Resolution Protocol (ARP) </summary> </member> <member name="M:SharpPcap.ARP.#ctor(SharpPcap.LibPcap.LibPcapLiveDevice)"> <summary> Constructs a new ARP Resolver </summary> <param name="device">The network device on which this resolver sends its ARP packets</param> </member> <member name="P:SharpPcap.ARP.Timeout"> <summary> Timeout for a given call to Resolve() </summary> </member> <member name="M:SharpPcap.ARP.Resolve(System.Net.IPAddress)"> <summary> Resolves the MAC address of the specified IP address. The 'DeviceName' propery must be set prior to using this method. </summary> <param name="destIP">The IP address to resolve</param> <returns>The MAC address that matches to the given IP address</returns> </member> <member name="M:SharpPcap.ARP.Resolve(System.Net.IPAddress,System.Net.IPAddress,System.Net.NetworkInformation.PhysicalAddress)"> <summary> Resolves the MAC address of the specified IP address </summary> <param name="destIP">The IP address to resolve</param> <param name="localIP">The local IP address from which to send the ARP request, if null the local address will be discovered</param> <param name="localMAC">The localMAC address to use, if null the local mac will be discovered</param> <returns>The MAC address that matches to the given IP address or null if there was a timeout</returns> </member> <member name="T:SharpPcap.CaptureStoppedEventStatus"> <summary> Status types when capture is stopped </summary> </member> <member name="F:SharpPcap.CaptureStoppedEventStatus.CompletedWithoutError"> <summary> Capture completed without errors </summary> </member> <member name="F:SharpPcap.CaptureStoppedEventStatus.ErrorWhileCapturing"> <summary> Error while capturing </summary> </member> <member name="T:SharpPcap.InvalidOperationDuringBackgroundCaptureException"> <summary> Thrown when an operation can't be performed because a background capture has been started via PcapDevice.StartCapture() </summary> </member> <member name="M:SharpPcap.InvalidOperationDuringBackgroundCaptureException.#ctor(System.String)"> <summary> string constructor </summary> <param name="msg"> A <see cref="T:System.String" /></param> </member> <member name="T:SharpPcap.WinPcap.SafeNativeMethods"> <summary> Per http://msdn.microsoft.com/en-us/ms182161.aspx </summary> </member> <member name="M:SharpPcap.WinPcap.SafeNativeMethods.pcap_open(System.String,System.Int32,System.Int32,System.Int32,System.IntPtr,System.Text.StringBuilder)"> <summary> Extended pcap_open() method that is WinPcap specific that provides extra flags and functionality See http://www.winpcap.org/docs/docs_40_2/html/group__wpcapfunc.html#g2b64c7b6490090d1d37088794f1f1791 </summary> <param name="dev"> A <see cref="T:System.String" /></param> <param name="packetLen"> A <see cref="T:System.Int32" /></param> <param name="flags"> A <see cref="T:System.Int32" /></param> <param name="read_timeout"> A <see cref="T:System.Int32" /></param> <param name="rmtauth"> A <see cref="T:System.IntPtr" /></param> <param name="errbuf"> A <see cref="T:System.Text.StringBuilder" /></param> <returns> A <see cref="T:System.IntPtr" /></returns> </member> <member name="M:SharpPcap.WinPcap.SafeNativeMethods.pcap_findalldevs_ex(System.String,System.IntPtr,System.IntPtr@,System.Text.StringBuilder)"> <summary>Create a list of network devices that can be opened with pcap_open().</summary> </member> <member name="M:SharpPcap.WinPcap.SafeNativeMethods.pcap_setmode(System.IntPtr,System.Int32)"> <summary> Set the working mode of the interface p to mode. Valid values for mode are MODE_CAPT (default capture mode) and MODE_STAT (statistical mode). See the tutorial "\ref wpcap_tut9" for details about statistical mode. WinPcap specific method </summary> </member> <member name="M:SharpPcap.WinPcap.SafeNativeMethods.pcap_setbuff(System.IntPtr,System.Int32)"> <summary> WinPcap specific method for setting the kernel buffer size associated with this adapter. The old buffer is discarded when the buffer size is changed. See http://www.winpcap.org/docs/docs_40_2/html/group__wpcapfunc.html </summary> <param name="adapter"> A <see cref="T:System.IntPtr" /></param> <param name="bufferSizeInBytes"> A <see cref="T:System.Int32" /></param> <returns> A <see cref="T:System.Int32" /></returns> </member> <member name="M:SharpPcap.WinPcap.SafeNativeMethods.pcap_setmintocopy(System.IntPtr,System.Int32)"> <summary> changes the minimum amount of data in the kernel buffer that causes a read from the application to return (unless the timeout expires) See http://www.winpcap.org/docs/docs_412/html/group__wpcapfunc.html#gab14ceacbf1c2f63026416dd73f80dc0d </summary> <param name="adapter"> A <see cref="T:System.IntPtr" /></param> <param name="sizeInBytes"> A <see cref="T:System.Int32" /></param> <returns> A <see cref="T:System.Int32" /></returns> </member> <member name="M:SharpPcap.WinPcap.SafeNativeMethods.pcap_get_airpcap_handle(System.IntPtr)"> <summary> Returns the AirPcap handler associated with an adapter. This handler can be used to change the wireless-related settings of the CACE Technologies AirPcap wireless capture adapters. Note: THIS FUNCTION SHOULD BE CONSIDERED PROVISIONAL, AND MAY BE REPLACED IN THE FUTURE BY A MORE COMPLETE SET OF FUNCTIONS FOR WIRELESS SUPPORT. pcap_get_airpcap_handle() allows to obtain the airpcap handle of an open adapter. This handle can be used with the AirPcap API functions to perform wireless-releated operations, e.g. changing the channel or enabling WEP decryption. For more details about the AirPcap wireless capture adapters, see http://www.cacetech.com/products/airpcap.html Parameters: p,: handle to an open libpcap adapter Returns: a PAirpcapHandle pointer to an open AirPcap handle, used internally by the libpcap open adapter. NULL if the libpcap adapter doesn't have wireless support through AirPcap. </summary> <param name="p"> </param> <returns> </returns> </member> <member name="M:SharpPcap.WinPcap.SafeNativeMethods.pcap_sendqueue_alloc(System.Int32)"> <summary> Allocate a send queue. </summary> <param name="memsize">The size of the queue</param> <returns>A pointer to the allocated buffer</returns> </member> <member name="M:SharpPcap.WinPcap.SafeNativeMethods.pcap_sendqueue_destroy(System.IntPtr)"> <summary> Destroy a send queue. </summary> <param name="queue">A pointer to the queue start address</param> </member> <member name="M:SharpPcap.WinPcap.SafeNativeMethods.pcap_sendqueue_queue(System.IntPtr,System.IntPtr,System.IntPtr)"> <summary> Add a packet to a send queue. </summary> <param name="queue">A pointer to a queue</param> <param name="header">The pcap header of the packet to send</param> <param name="data">The packet data</param> </member> <member name="M:SharpPcap.WinPcap.SafeNativeMethods.pcap_sendqueue_transmit(System.IntPtr,System.IntPtr,System.Int32)"> <summary> Send a queue of raw packets to the network. </summary> <param name="p"> </param> <param name="queue"> </param> <param name="sync">determines if the send operation must be synchronized: if it is non-zero, the packets are sent respecting the timestamps, otherwise they are sent as fast as possible</param> <returns>The amount of bytes actually sent. If it is smaller than the size parameter, an error occurred during the send. The error can be caused by a driver/adapter problem or by an inconsistent/bogus send queue.</returns> </member> <member name="T:SharpPcap.WinPcap.SendQueue"> <summary> Interface to the WinPcap send queue extension methods </summary> </member> <member name="M:SharpPcap.WinPcap.SendQueue.#ctor(System.Int32)"> <summary> Creates and allocates a new SendQueue </summary> <param name="memSize"> The maximun amount of memory (in bytes) to allocate for the queue</param> </member> <member name="P:SharpPcap.WinPcap.SendQueue.CurrentLength"> <summary> The current length in bytes of this queue </summary> </member> <member name="M:SharpPcap.WinPcap.SendQueue.AddInternal(System.Byte[],SharpPcap.LibPcap.PcapHeader)"> <summary> Add a packet to this send queue. The PcapHeader defines the packet length. </summary> <param name="packet">The packet bytes to add</param> <param name="pcapHdr">The pcap header of the packet</param> <returns>True if success, else false</returns> </member> <member name="M:SharpPcap.WinPcap.SendQueue.Add(System.Byte[],SharpPcap.LibPcap.PcapHeader)"> <summary> Add a packet to this send queue. </summary> <param name="packet">The packet bytes to add</param> <param name="pcapHdr">The pcap header of the packet</param> <returns>True if success, else false</returns> </member> <member name="M:SharpPcap.WinPcap.SendQueue.Add(System.Byte[])"> <summary> Add a packet to this send queue. </summary> <param name="packet">The packet bytes to add</param> <returns>True if success, else false</returns> </member> <member name="M:SharpPcap.WinPcap.SendQueue.Add(SharpPcap.RawCapture)"> <summary> Add a packet to this send queue. </summary> <param name="packet">The packet to add</param> <returns>True if success, else false</returns> </member> <member name="M:SharpPcap.WinPcap.SendQueue.Add(System.Byte[],System.Int32,System.Int32)"> <summary> Add a packet to this send queue. </summary> <param name="packet">The packet to add</param> <param name="seconds">The 'seconds' part of the packet's timestamp</param> <param name="microseconds">The 'microseconds' part of the packet's timestamp</param> <returns>True if success, else false</returns> </member> <member name="M:SharpPcap.WinPcap.SendQueue.Transmit(SharpPcap.WinPcap.WinPcapDevice,SharpPcap.WinPcap.SendQueueTransmitModes)"> <summary> Send a queue of raw packets to the network. </summary> <param name="device"> The device on which to send the queue A <see cref="T:SharpPcap.LibPcap.PcapDevice" /></param> <param name="transmitMode"> A <see cref="T:SharpPcap.WinPcap.SendQueueTransmitModes" /></param> <returns> A <see cref="T:System.Int32" /></returns> </member> <member name="M:SharpPcap.WinPcap.SendQueue.Dispose"> <summary> Destroy the send queue. </summary> </member> <member name="T:SharpPcap.WinPcap.SendQueueTransmitModes"> <summary> The types of transmit modes allowed by the WinPcap specific send queue implementation </summary> </member> <member name="F:SharpPcap.WinPcap.SendQueueTransmitModes.Normal"> <summary> Packets are sent as fast as possible </summary> </member> <member name="F:SharpPcap.WinPcap.SendQueueTransmitModes.Synchronized"> <summary> Packets are synchronized in the kernel with a high precision timestamp </summary> </member> <member name="T:SharpPcap.WinPcap.StatisticsModeEventArgs"> <summary> Event that contains statistics mode data NOTE: WinPcap only </summary> </member> <member name="M:SharpPcap.WinPcap.StatisticsModeEventArgs.#ctor(SharpPcap.RawCapture,SharpPcap.LibPcap.PcapDevice)"> <summary> Constructor for a statistics mode event </summary> <param name="packet"> A <see cref="T:SharpPcap.RawCapture" /></param> <param name="device"> A <see cref="T:SharpPcap.LibPcap.PcapDevice" /></param> </member> <member name="P:SharpPcap.WinPcap.StatisticsModeEventArgs.Statistics"> <summary> Statistics data for this event </summary> </member> <member name="T:SharpPcap.WinPcap.StatisticsModeEventHandler"> <summary> A delegate for delivering network statistics when using winpcap in statistics mode </summary> </member> <member name="T:SharpPcap.WinPcap.StatisticsModePacket"> <summary> Holds network statistics entry from winpcap when in statistics mode See http://www.winpcap.org/docs/docs_41b5/html/group__wpcap__tut9.html </summary> </member> <member name="F:SharpPcap.WinPcap.StatisticsModePacket.m_pktData"> <summary> This holds byte received and packets received </summary> </member> <member name="P:SharpPcap.WinPcap.StatisticsModePacket.Timeval"> <summary> This holds time value </summary> </member> <member name="P:SharpPcap.WinPcap.StatisticsModePacket.RecievedPackets"> <summary> Number of packets received since last sample </summary> </member> <member name="P:SharpPcap.WinPcap.StatisticsModePacket.RecievedBytes"> <summary> Number of bytes received since last sample </summary> </member> <member name="T:SharpPcap.WinPcap.OpenFlags"> <summary> The mode used when opening a device </summary> </member> <member name="F:SharpPcap.WinPcap.OpenFlags.Promiscuous"> <summary> Defines if the adapter has to go in promiscuous mode. </summary> </member> <member name="F:SharpPcap.WinPcap.OpenFlags.DataTransferUdp"> <summary> Defines if the data trasfer (in case of a remote capture) has to be done with UDP protocol. </summary> </member> <member name="F:SharpPcap.WinPcap.OpenFlags.NoCaptureRemote"> <summary> Defines if the remote probe will capture its own generated traffic. </summary> </member> <member name="F:SharpPcap.WinPcap.OpenFlags.NoCaptureLocal"> <summary> Defines if the local adapter will capture its own generated traffic. </summary> </member> <member name="F:SharpPcap.WinPcap.OpenFlags.MaxResponsiveness"> <summary> This flag configures the adapter for maximum responsiveness. </summary> </member> <member name="T:SharpPcap.ICaptureDevice"> <summary> Interfaces for capture devices </summary> </member> <member name="E:SharpPcap.ICaptureDevice.OnPacketArrival"> <summary> Fires whenever a new packet is processed, either when the packet arrives from the network device or when the packet is read from the on-disk file.<br /> For network captured packets this event is invoked only when working in "PcapMode.Capture" mode. </summary> </member> <member name="E:SharpPcap.ICaptureDevice.OnCaptureStopped"> <summary> Fired when the capture process of this pcap device is stopped </summary> </member> <member name="P:SharpPcap.ICaptureDevice.Name"> <summary> Gets the name of the device </summary> </member> <member name="P:SharpPcap.ICaptureDevice.Description"> <value> Description of the device </value> </member> <member name="P:SharpPcap.ICaptureDevice.LastError"> <summary> The last pcap error associated with this pcap device </summary> </member> <member name="P:SharpPcap.ICaptureDevice.Filter"> <summary> Kernel level filtering expression associated with this device. For more info on filter expression syntax, see: http://www.winpcap.org/docs/docs31/html/group__language.html </summary> </member> <member name="P:SharpPcap.ICaptureDevice.Statistics"> <summary> Retrieves pcap statistics </summary> </member> <member name="P:SharpPcap.ICaptureDevice.MacAddress"> <summary> Mac address of the physical device </summary> </member> <member name="P:SharpPcap.ICaptureDevice.Started"> <summary> Return a value indicating if the capturing process of this adapter is started </summary> </member> <member name="P:SharpPcap.ICaptureDevice.StopCaptureTimeout"> <summary> Maximum time within which the capture thread must join the main thread (on <see cref="M:SharpPcap.ICaptureDevice.StopCapture" />) or else the thread is aborted and an exception thrown. </summary> </member> <member name="P:SharpPcap.ICaptureDevice.LinkType"> <summary> Return the pcap link layer value of an adapter. </summary> </member> <member name="M:SharpPcap.ICaptureDevice.Open"> <summary> Opens the adapter </summary> </member> <member name="M:SharpPcap.ICaptureDevice.Open(SharpPcap.DeviceMode)"> <summary> Open the device. To start capturing call the 'StartCapture' function </summary> <param name="mode"> A <see cref="T:SharpPcap.DeviceMode" /></param> </member> <member name="M:SharpPcap.ICaptureDevice.Open(SharpPcap.DeviceMode,System.Int32)"> <summary> Open the device. To start capturing call the 'StartCapture' function </summary> <param name="mode"> A <see cref="T:SharpPcap.DeviceMode" /></param> <param name="read_timeout"> A <see cref="T:System.Int32" /></param> </member> <member name="M:SharpPcap.ICaptureDevice.Close"> <summary> Closes this adapter </summary> </member> <member name="M:SharpPcap.ICaptureDevice.StartCapture"> <summary> Start the capture </summary> </member> <member name="M:SharpPcap.ICaptureDevice.StopCapture"> <summary> Stop the capture </summary> </member> <member name="M:SharpPcap.ICaptureDevice.Capture"> <summary> Synchronously capture packets on this device. Method blocks forever. </summary> </member> <member name="M:SharpPcap.ICaptureDevice.GetNextPacket"> <summary> Retrieves the next packet from a device </summary> <returns> </returns> </member> <member name="M:SharpPcap.ICaptureDevice.GetNextPacketPointers(System.IntPtr@,System.IntPtr@)"> <summary> Gets pointers to the next PCAP header and packet data. Data is only valid until next call to GetNextPacketNative. Advanced use only. Intended to allow unmanaged code to avoid the overhead of marshalling PcapHeader and packet contents to allocated memory. </summary> </member> <member name="M:SharpPcap.ICaptureDevice.SendPacket(PacketDotNet.Packet)"> <summary> Sends a raw packet throgh this device </summary> <param name="p">The packet to send</param> </member> <member name="M:SharpPcap.ICaptureDevice.SendPacket(PacketDotNet.Packet,System.Int32)"> <summary> Sends a raw packet throgh this device </summary> <param name="p">The packet to send</param> <param name="size">The number of bytes to send</param> </member> <member name="M:SharpPcap.ICaptureDevice.SendPacket(System.Byte[])"> <summary> Sends a raw packet throgh this device </summary> <param name="p">The packet bytes to send</param> </member> <member name="M:SharpPcap.ICaptureDevice.SendPacket(System.Byte[],System.Int32)"> <summary> Sends a raw packet throgh this device </summary> <param name="p">The packet bytes to send</param> <param name="size">The number of bytes to send</param> </member> <member name="T:SharpPcap.WinPcap.WinPcapDevice"> <summary> WinPcap device </summary> </member> <member name="M:SharpPcap.WinPcap.WinPcapDevice.#ctor(SharpPcap.LibPcap.PcapInterface)"> <summary> Constructs a new PcapDevice based on a 'pcapIf' struct </summary> <param name="pcapIf">A 'pcapIf' struct representing the pcap device</param> </member> <member name="E:SharpPcap.WinPcap.WinPcapDevice.OnPcapStatistics"> <summary> Fires whenever a new pcap statistics is available for this Pcap Device.<br /> For network captured packets this event is invoked only when working in "PcapMode.Statistics" mode. </summary> </member> <member name="P:SharpPcap.WinPcap.WinPcapDevice.Mode"> <value> WinPcap specific property </value> </member> <member name="P:SharpPcap.WinPcap.WinPcapDevice.KernelBufferSize"> <value> Set the kernel value buffer size in bytes WinPcap extension </value> </member> <member name="P:SharpPcap.WinPcap.WinPcapDevice.MinToCopy"> <value> Set the minumum amount of data (in bytes) received by the kernel in a single call. WinPcap extension </value> </member> <member name="M:SharpPcap.WinPcap.WinPcapDevice.StartCapture"> <summary> Starts the capturing process via a background thread OnPacketArrival() will be called for each captured packet NOTE: Winpcap devices can capture packets or statistics updates so only if both a packet handler AND a statistics handler are defined will an exception be thrown </summary> </member> <member name="M:SharpPcap.WinPcap.WinPcapDevice.Open"> <summary> Open the device </summary> </member> <member name="M:SharpPcap.WinPcap.WinPcapDevice.Open(SharpPcap.WinPcap.OpenFlags,System.Int32,SharpPcap.WinPcap.RemoteAuthentication)"> <summary> Open </summary> <param name="flags"> A <see cref="T:SharpPcap.WinPcap.OpenFlags" /></param> <param name="readTimeoutMilliseconds"> A <see cref="T:System.Int32" /></param> <param name="remoteAuthentication"> A <see cref="T:SharpPcap.WinPcap.RemoteAuthentication" /></param> </member> <member name="M:SharpPcap.WinPcap.WinPcapDevice.Open(SharpPcap.WinPcap.OpenFlags,System.Int32)"> <summary> Open a device with specific flags WinPcap extension - Use of this method will exclude your application from working on Linux or Mac </summary> </member> <member name="M:SharpPcap.WinPcap.WinPcapDevice.Close"> <summary> Close the device </summary> </member> <member name="M:SharpPcap.WinPcap.WinPcapDevice.SendPacketArrivalEvent(SharpPcap.RawCapture)"> <summary> Notify the OnPacketArrival delegates about a newly captured packet </summary> <param name="p"> A <see cref="T:SharpPcap.RawCapture" /></param> </member> <member name="M:SharpPcap.WinPcap.WinPcapDevice.SendQueue(SharpPcap.WinPcap.SendQueue,SharpPcap.WinPcap.SendQueueTransmitModes)"> <summary> Sends all packets in a 'PcapSendQueue' out this pcap device </summary> <param name="q"> A <see cref="T:SharpPcap.WinPcap.SendQueue" /></param> <param name="transmitMode"> A <see cref="T:SharpPcap.WinPcap.SendQueueTransmitModes" /></param> <returns> A <see cref="T:System.Int32" /></returns> </member> <member name="M:SharpPcap.WinPcap.WinPcapDevice.ThrowIfNotWinPcap"> <summary> Helper method for ensuring we are running in winpcap. Throws a PcapWinPcapRequiredException() if not on a windows platform </summary> </member> <member name="T:SharpPcap.StatisticsException"> <summary> thrown when pcap_stats() reports an error </summary> </member> <member name="M:SharpPcap.StatisticsException.#ctor(System.String)"> <summary> string constructor </summary> <param name="msg"> A <see cref="T:System.String" /></param> </member> <member name="T:SharpPcap.WinPcap.CaptureMode"> <summary> The working mode of a Pcap device </summary> </member> <member name="F:SharpPcap.WinPcap.CaptureMode.Packets"> <summary> Set a Pcap device to capture packets, Capture mode </summary> </member> <member name="F:SharpPcap.WinPcap.CaptureMode.Statistics"> <summary> Set a Pcap device to report statistics. <br /> Statistics mode is only supported in WinPcap </summary> </member> <member name="T:SharpPcap.WinPcap.UnmanagedStructures"> <summary> WinPcap specific unmanaged structures </summary> </member> <member name="T:SharpPcap.WinPcap.UnmanagedStructures.pcap_rmtauth"> <summary> Struct to specifiy Remote Address using rpcapd.exe, Winpcaps Remote Packet Capture Daemon </summary> </member> <member name="F:SharpPcap.WinPcap.UnmanagedStructures.pcap_rmtauth.type"> <summary> NOTE: IntPtr used to ensure that the correct data size is used depending on the platform being used, 32bits on a 32bit machine, 64bits on a 64bit machine Auth Type, 0=Null, 1= Password </summary> </member> <member name="F:SharpPcap.WinPcap.UnmanagedStructures.pcap_rmtauth.username"> <summary> Username </summary> </member> <member name="F:SharpPcap.WinPcap.UnmanagedStructures.pcap_rmtauth.password"> <summary> Password </summary> </member> <member name="T:SharpPcap.WinPcap.RemoteAuthentication"> <summary> Remote authentication type and parameters </summary> </member> <member name="M:SharpPcap.WinPcap.RemoteAuthentication.#ctor(SharpPcap.WinPcap.AuthenticationTypes,System.String,System.String)"> <summary> Constructor </summary> <param name="Type"> A <see cref="T:SharpPcap.WinPcap.AuthenticationTypes" /></param> <param name="Username"> A <see cref="T:System.String" /></param> <param name="Password"> A <see cref="T:System.String" /></param> </member> <member name="P:SharpPcap.WinPcap.RemoteAuthentication.Type"> <summary> Type of authentication </summary> </member> <member name="P:SharpPcap.WinPcap.RemoteAuthentication.Username"> <summary> Username </summary> </member> <member name="P:SharpPcap.WinPcap.RemoteAuthentication.Password"> <summary> Password </summary> </member> <member name="M:SharpPcap.WinPcap.RemoteAuthentication.GetUnmanaged"> <summary> Converts this structure to an unmanaged IntPtr. Should be freed with Marshal.FreeHGlobal(IntPtr); </summary> <returns> A <see cref="T:System.IntPtr" /></returns> </member> <member name="T:SharpPcap.WinPcap.AuthenticationTypes"> <summary> Types of authentication </summary> </member> <member name="F:SharpPcap.WinPcap.AuthenticationTypes.Null"> <summary> Null authentication </summary> </member> <member name="F:SharpPcap.WinPcap.AuthenticationTypes.Password"> <summary> Username/password authentication </summary> </member> <member name="T:SharpPcap.AirPcap.AirPcapLinkTypes"> <summary> Link type </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapLinkTypes._802_11"> <summary> plain 802.11 link type. Every packet in the buffer contains the raw 802.11 frame, including MAC FCS. </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapLinkTypes._802_11_PLUS_RADIO"> <summary> 802.11 plus radiotap link type. Every packet in the buffer contains a radiotap header followed by the 802.11 frame. MAC FCS is included. </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapLinkTypes.UNKNOWN"> <summary> Unknown link type, should be seen only in error </summary> </member> <member name="F:SharpPcap.AirPcap.AirPcapLinkTypes._802_11_PLUS_PPI"> <summary> 802.11 plus PPI header link type. Every packet in the buffer contains a PPI header followed by the 802.11 frame. MAC FCS is included. </summary> </member> <member name="T:SharpPcap.ICaptureStatistics"> <summary> Adapter statistics, received, dropped packet counts etc </summary> </member> <member name="P:SharpPcap.ICaptureStatistics.ReceivedPackets"> <value> Number of packets received </value> </member> <member name="P:SharpPcap.ICaptureStatistics.DroppedPackets"> <value> Number of packets dropped </value> </member> <member name="P:SharpPcap.ICaptureStatistics.InterfaceDroppedPackets"> <value> Number of interface dropped packets </value> </member> <member name="T:SharpPcap.WinPcap.WinPcapDeviceList"> <summary> Remote adapter list </summary> </member> <member name="M:SharpPcap.WinPcap.WinPcapDeviceList.#ctor"> <summary> Represents a strongly typed, read-only list of PcapDevices. </summary> </member> <member name="F:SharpPcap.WinPcap.WinPcapDeviceList.RpcapdDefaultPort"> <summary> Port used by rpcapd by default </summary> </member> <member name="P:SharpPcap.WinPcap.WinPcapDeviceList.Item(System.String)"> <param name="Name">The name or description of the pcap interface to get.</param> </member> <member name="P:SharpPcap.WinPcap.WinPcapDeviceList.Instance"> <summary> Method to retrieve this classes singleton instance </summary> </member> <member name="M:SharpPcap.WinPcap.WinPcapDeviceList.New"> <summary> Caution: Use the singlton instance unless you know why you need to call this. One use is for multiple filters on the same physical device. To apply multiple filters open the same physical device multiple times, one for each filter by calling this routine and picking the same device out of each list. </summary> <returns> A <see cref="T:SharpPcap.CaptureDeviceList" /></returns> </member> <!--FIXME: Invalid documentation markup was found for member M:SharpPcap.WinPcap.WinPcapDeviceList.Devices(System.Net.IPAddress,System.Int32,SharpPcap.WinPcap.RemoteAuthentication)--> <member name="M:SharpPcap.WinPcap.WinPcapDeviceList.GetDevices"> <summary> Retrieve the local devices </summary> <returns> </returns> </member> <member name="M:SharpPcap.WinPcap.WinPcapDeviceList.Refresh"> <summary> Refresh the device list </summary> </member> <member name="T:SharpPcap.LibPcap.LibPcapLiveDevice"> <summary> Capture live packets from a network device </summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapLiveDevice.#ctor(SharpPcap.LibPcap.PcapInterface)"> <summary> Constructs a new PcapDevice based on a 'pcapIf' struct </summary> <param name="pcapIf">A 'pcapIf' struct representing the pcap device</param> </member> <member name="M:SharpPcap.LibPcap.LibPcapLiveDevice.#ctor"> <summary> Default contructor for subclasses </summary> </member> <member name="P:SharpPcap.LibPcap.LibPcapLiveDevice.Name"> <summary> Gets the pcap name of this network device </summary> </member> <member name="P:SharpPcap.LibPcap.LibPcapLiveDevice.Addresses"> <summary> Addresses that represent this device </summary> </member> <member name="P:SharpPcap.LibPcap.LibPcapLiveDevice.Description"> <summary> Gets the pcap description of this device </summary> </member> <member name="P:SharpPcap.LibPcap.LibPcapLiveDevice.Flags"> <summary> Interface flags, see pcap_findalldevs() man page for more info </summary> </member> <member name="P:SharpPcap.LibPcap.LibPcapLiveDevice.Loopback"> <summary> True if device is a loopback interface, false if not </summary> </member> <member name="P:SharpPcap.LibPcap.LibPcapLiveDevice.NonBlockingMode"> <summary> Set/Get Non-Blocking Mode. returns allways false for savefiles. </summary> </member> <member name="P:SharpPcap.LibPcap.LibPcapLiveDevice.Statistics"> <summary> Retrieves pcap statistics </summary> <returns> A <see cref="T:SharpPcap.LibPcap.PcapStatistics" /></returns> </member> <member name="M:SharpPcap.LibPcap.LibPcapLiveDevice.Finalize"> <summary> PcapDevice finalizer. Ensure PcapDevices are stopped and closed before exit. </summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapLiveDevice.Open"> <summary> Open the device with default values of: promiscuous_mode = false, read_timeout = 1000 To start capturing call the 'StartCapture' function </summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapLiveDevice.Open(SharpPcap.DeviceMode)"> <summary> Open the device. To start capturing call the 'StartCapture' function </summary> <param name="mode"> A <see cref="T:SharpPcap.DeviceMode" /></param> </member> <member name="M:SharpPcap.LibPcap.LibPcapLiveDevice.Open(SharpPcap.DeviceMode,System.Int32)"> <summary> Open the device. To start capturing call the 'StartCapture' function </summary> <param name="mode"> A <see cref="T:SharpPcap.DeviceMode" /></param> <param name="read_timeout"> A <see cref="T:System.Int32" /></param> </member> <member name="M:SharpPcap.LibPcap.LibPcapLiveDevice.SendPacket(System.Byte[],System.Int32)"> <summary> Sends a raw packet throgh this device </summary> <param name="p">The packet bytes to send</param> <param name="size">The number of bytes to send</param> </member> <member name="T:SharpPcap.LibPcap.LibPcapLiveDeviceList"> <summary> List of available Pcap Interfaces. </summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapLiveDeviceList.#ctor"> <summary> Represents a strongly typed, read-only list of PcapDevices. </summary> </member> <member name="P:SharpPcap.LibPcap.LibPcapLiveDeviceList.Item(System.String)"> <param name="Name">The name or description of the pcap interface to get.</param> </member> <member name="P:SharpPcap.LibPcap.LibPcapLiveDeviceList.Instance"> <summary> Method to retrieve this classes singleton instance </summary> </member> <member name="M:SharpPcap.LibPcap.LibPcapLiveDeviceList.New"> <summary> Caution: Use the singlton instance unless you know why you need to call this. One use is for multiple filters on the same physical device. To apply multiple filters open the same physical device multiple times, one for each filter by calling this routine and picking the same device out of each list. </summary> <returns> A <see cref="T:SharpPcap.LibPcap.LibPcapLiveDeviceList" /></returns> </member> <member name="M:SharpPcap.LibPcap.LibPcapLiveDeviceList.GetDevices"> <summary> Retrieve a list of the current PcapDevices </summary> <returns> A <see cref="!:List&lt;LibPcapLiveDevice&gt;" /></returns> </member> <member name="M:SharpPcap.LibPcap.LibPcapLiveDeviceList.Refresh"> <summary> Refresh the device list </summary> </member> <member name="T:SharpPcap.RawCapture"> <summary> Represents a raw captured packet </summary> </member> <member name="M:SharpPcap.RawCapture.#ctor(PacketDotNet.LinkLayers,SharpPcap.PosixTimeval,System.Byte[])"> <summary> Constructor </summary> <param name="LinkLayerType"> A <see cref="T:PacketDotNet.LinkLayers" /></param> <param name="Timeval"> A <see cref="T:SharpPcap.PosixTimeval" /></param> <param name="Data"> A <see cref="T:System.Byte" /></param> </member> <member name="F:SharpPcap.RawCapture.Data"> <summary> Fetch data portion of the packet.</summary> Data as a class field vs. a virtual property improves performance significantly. ~2.5% when parsing the packet with Packet.Net and ~20% when reading each byte of the packet</member> <member name="P:SharpPcap.RawCapture.LinkLayerType"> <value> Link layer from which this packet was captured </value> </member> <member name="P:SharpPcap.RawCapture.Timeval"> <value> The unix timeval when the packet was created </value> </member> <member name="M:SharpPcap.RawCapture.ToString"> <summary>Output this packet as a readable string</summary> </member> <member name="T:SharpPcap.PosixTimeval"> <summary> POSIX.4 timeval</summary> </member> <member name="M:SharpPcap.PosixTimeval.#ctor(System.UInt64,System.UInt64)"> <summary> Constructor with Seconds and MicroSeconds fields </summary> <param name="Seconds"> A <see cref="T:System.UInt64" /></param> <param name="MicroSeconds"> A <see cref="T:System.UInt64" /></param> </member> <member name="M:SharpPcap.PosixTimeval.#ctor"> <summary> Construct a PosixTimeval using the current UTC time </summary> </member> <member name="P:SharpPcap.PosixTimeval.Seconds"> <value> Number of seconds in the timeval </value> </member> <member name="P:SharpPcap.PosixTimeval.MicroSeconds"> <value> Number of microseconds in the timeval </value> </member> <member name="P:SharpPcap.PosixTimeval.Date"> <summary> The timeval as a DateTime in Utc </summary> </member> <member name="M:SharpPcap.PosixTimeval.Equals(System.Object)"> <summary> Equals override </summary> <param name="obj"> A <see cref="T:System.Object" /></param> <returns> A <see cref="T:System.Boolean" /></returns> </member> <member name="M:SharpPcap.PosixTimeval.GetHashCode"> <summary> GetHashCode override </summary> <returns> A <see cref="T:System.Int32" /></returns> </member> <member name="M:SharpPcap.PosixTimeval.ToString"> <summary> Convert the timeval to a string like 'SECONDS.MICROSECONDSs' </summary> <returns> A <see cref="T:System.String" /></returns> </member> <member name="M:SharpPcap.PosixTimeval.CompareTo(SharpPcap.PosixTimeval)"> <summary> Compare this to another </summary> <param name="that"> A <see cref="T:SharpPcap.PosixTimeval" /></param> <returns> A <see cref="T:System.Int32" /></returns> </member> <member name="M:SharpPcap.PosixTimeval.op_LessThan(SharpPcap.PosixTimeval,SharpPcap.PosixTimeval)"> <summary> Operator &lt; overload </summary> <param name="a"> A <see cref="T:SharpPcap.PosixTimeval" /></param> <param name="b"> A <see cref="T:SharpPcap.PosixTimeval" /></param> <returns> A <see cref="T:System.Boolean" /></returns> </member> <member name="M:SharpPcap.PosixTimeval.op_GreaterThan(SharpPcap.PosixTimeval,SharpPcap.PosixTimeval)"> <summary> Operator &gt; overload </summary> <param name="a"> A <see cref="T:SharpPcap.PosixTimeval" /></param> <param name="b"> A <see cref="T:SharpPcap.PosixTimeval" /></param> <returns> A <see cref="T:System.Boolean" /></returns> </member> <member name="M:SharpPcap.PosixTimeval.op_LessThanOrEqual(SharpPcap.PosixTimeval,SharpPcap.PosixTimeval)"> <summary> Operator &lt;= </summary> <param name="a"> A <see cref="T:SharpPcap.PosixTimeval" /></param> <param name="b"> A <see cref="T:SharpPcap.PosixTimeval" /></param> <returns> A <see cref="T:System.Boolean" /></returns> </member> <member name="M:SharpPcap.PosixTimeval.op_GreaterThanOrEqual(SharpPcap.PosixTimeval,SharpPcap.PosixTimeval)"> <summary> Operator &gt;= </summary> <param name="a"> A <see cref="T:SharpPcap.PosixTimeval" /></param> <param name="b"> A <see cref="T:SharpPcap.PosixTimeval" /></param> <returns> A <see cref="T:System.Boolean" /></returns> </member> <member name="M:SharpPcap.PosixTimeval.op_Equality(SharpPcap.PosixTimeval,SharpPcap.PosixTimeval)"> <summary> Operator == </summary> <param name="a"> A <see cref="T:SharpPcap.PosixTimeval" /></param> <param name="b"> A <see cref="T:SharpPcap.PosixTimeval" /></param> <returns> A <see cref="T:System.Boolean" /></returns> </member> <member name="M:SharpPcap.PosixTimeval.op_Inequality(SharpPcap.PosixTimeval,SharpPcap.PosixTimeval)"> <summary> Operator != </summary> <param name="a"> A <see cref="T:SharpPcap.PosixTimeval" /></param> <param name="b"> A <see cref="T:SharpPcap.PosixTimeval" /></param> <returns> A <see cref="T:System.Boolean" /></returns> </member> <member name="T:SharpPcap.LibPcap.CaptureFileReaderDevice"> <summary> Read a pcap capture file </summary> </member> <member name="M:SharpPcap.LibPcap.CaptureFileReaderDevice.#ctor(System.String)"> <summary> </summary> <param name="captureFilename"> A <see cref="T:System.String" /></param> </member> <member name="P:SharpPcap.LibPcap.CaptureFileReaderDevice.Name"> <value> The name of the capture file </value> </member> <member name="P:SharpPcap.LibPcap.CaptureFileReaderDevice.Description"> <value> Description of the device </value> </member> <member name="P:SharpPcap.LibPcap.CaptureFileReaderDevice.FileSize"> <value> Number of bytes in the capture file </value> </member> <member name="P:SharpPcap.LibPcap.CaptureFileReaderDevice.FileName"> <summary> The underlying pcap file name </summary> </member> <member name="P:SharpPcap.LibPcap.CaptureFileReaderDevice.Statistics"> <summary> Retrieves pcap statistics </summary> <returns> A <see cref="T:SharpPcap.LibPcap.PcapStatistics" /></returns> </member> <member name="M:SharpPcap.LibPcap.CaptureFileReaderDevice.Open"> <summary> Open the device </summary> </member> <member name="T:SharpPcap.LibPcap.CaptureFileWriterDevice"> <summary> Create or write to a pcap capture file NOTE: Appending to a capture file is not currently supported </summary> </member> <member name="M:SharpPcap.LibPcap.CaptureFileWriterDevice.#ctor(System.String)"> <summary> Constructor </summary> <param name="captureFilename"> A <see cref="T:System.String" /></param> </member> <member name="M:SharpPcap.LibPcap.CaptureFileWriterDevice.#ctor(System.String,System.IO.FileMode)"> <summary> Constructor </summary> <param name="captureFilename"> A <see cref="T:System.String" /></param> <param name="mode"> A <see cref="T:System.IO.FileMode" /></param> </member> <member name="M:SharpPcap.LibPcap.CaptureFileWriterDevice.#ctor(SharpPcap.LibPcap.LibPcapLiveDevice,System.String)"> <summary> Constructor </summary> <param name="device"> A <see cref="T:SharpPcap.LibPcap.LibPcapLiveDevice" /></param> <param name="captureFilename"> A <see cref="T:System.String" /></param> </member> <member name="M:SharpPcap.LibPcap.CaptureFileWriterDevice.#ctor(SharpPcap.LibPcap.LibPcapLiveDevice,System.String,System.IO.FileMode)"> <summary> Constructor </summary> <param name="device"> A <see cref="T:SharpPcap.LibPcap.LibPcapLiveDevice" /></param> <param name="captureFilename"> A <see cref="T:System.String" /></param> <param name="mode"> A <see cref="T:System.IO.FileMode" /></param> </member> <member name="M:SharpPcap.LibPcap.CaptureFileWriterDevice.#ctor(PacketDotNet.LinkLayers,System.Nullable{System.Int32},System.String,System.IO.FileMode)"> <summary> Constructor </summary> <param name="linkLayerType"> A <see cref="T:PacketDotNet.LinkLayers" /></param> <param name="snapshotLength"> A <see cref="!:System.Nullable&lt;System.Int32&gt;" /></param> <param name="captureFilename"> A <see cref="T:System.String" /></param> <param name="mode"> A <see cref="T:System.IO.FileMode" /></param> </member> <member name="F:SharpPcap.LibPcap.CaptureFileWriterDevice.m_pcapDumpHandle"> <summary> Handle to an open dump file, not equal to IntPtr.Zero if a dump file is open </summary> </member> <member name="P:SharpPcap.LibPcap.CaptureFileWriterDevice.DumpOpened"> <summary> Whether dump file is open or not </summary> <returns> A <see cref="T:System.Boolean" /></returns> </member> <member name="P:SharpPcap.LibPcap.CaptureFileWriterDevice.Name"> <value> The name of the capture file </value> </member> <member name="P:SharpPcap.LibPcap.CaptureFileWriterDevice.Description"> <value> Description of the device </value> </member> <member name="P:SharpPcap.LibPcap.CaptureFileWriterDevice.Statistics"> <summary> Retrieves pcap statistics </summary> <returns> A <see cref="T:SharpPcap.LibPcap.PcapStatistics" /></returns> </member> <member name="M:SharpPcap.LibPcap.CaptureFileWriterDevice.Close"> <summary> Close the capture file </summary> </member> <member name="M:SharpPcap.LibPcap.CaptureFileWriterDevice.Open"> <summary> Open the device </summary> </member> <member name="M:SharpPcap.LibPcap.CaptureFileWriterDevice.Write(System.Byte[],SharpPcap.LibPcap.PcapHeader)"> <summary> Writes a packet to the pcap dump file associated with this device. </summary> </member> <member name="M:SharpPcap.LibPcap.CaptureFileWriterDevice.Write(System.Byte[])"> <summary> Writes a packet to the pcap dump file associated with this device. </summary> <param name="p">The packet to write</param> </member> <member name="M:SharpPcap.LibPcap.CaptureFileWriterDevice.Write(SharpPcap.RawCapture)"> <summary> Writes a packet to the pcap dump file associated with this device. </summary> <param name="p">The packet to write</param> </member> <member name="T:SharpPcap.NotSupportedOnCaptureFileException"> <summary> Thrown when a method not supported on a capture file </summary> </member> <member name="M:SharpPcap.NotSupportedOnCaptureFileException.#ctor(System.String)"> <summary> string constructor </summary> <param name="msg"> A <see cref="T:System.String" /></param> </member> </members> </doc>