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WinPcap is one of the widely used packet capture libraries. WinPcap supports both Windows and Linux.
It monitors the network segment specified by interface and creates a snapshot of the network traffic which covers the specified interface.
It has built-in filtering (SYN, ACK, FIN, etc.) so that you do not need to perform complicated filtering since the filtered packets are already captured.
It also supports UDP, TCP, ICMP, and HTTP protocols.
About WinPcap Library:
WinPcap is a Microsoft Research project. It is developed by a group of Microsoft’s developers. The WinPcap library is widely used in the Windows OS because it is included in the Windows OS and Windows NT. WinPcap has been developed to support both 32bit and 64bit Windows OS’s. (Note: WinPcap requires a license to use WinPcap.)
WinPcap includes a C API for WinPcap. It supports Windows XP, 2000, Windows Vista, Windows Server 2003, Windows Server 2008, and Windows Server 2008 R2.
Advantages of WinPcap:
WinPcap provides easy to use API with a high performance. With WinPcap, WinPcap is more user friendly for the embedded and web developer because it is easy to use.
WinPcap is the only packet capture library which is designed to be compatible with Windows OS. Since WinPcap is a MSR project, it is one of the few MSR Projects which use Microsoft’s latest and most advanced technology.
WinPcap is a portable program. WinPcap can be compiled as a DLL or EXE in Linux. It can be statically compiled in windows.
It is easy to use and implement. WinPcap supports most of the popular protocols.
WinPcap provides a rich functionality. WinPcap has more built-in features than other packet capture library.
WinPcap supports many filtering and analyzing features. WinPcap can be used as a monitor software.
WinPcap supports multi-threading which makes WinPcap suitable for multi-thread applications.
Schnauzer is a packet sniffer developed by the National Taiwan University. It is free and open source. It runs in Windows. It is developed to be a monitoring tool for machines with embedded OS. It is used for packet sniffing and capturing the network traffic
When it comes to working with packets, they don’t come much simpler or easier than with pcap_iter sniff and capture. With pcap_iter you can focus on how to detect the packets, and send out packets on a chosen interface which can be set with pcap_fileno. Now all you need to do is copy the data into a buffer for better processing later with your favorite language. But if that’s not enough you can also make sure that you save your captured data with a file which you will most likely need later. The last part is easily done by simply making use of the pcap_new, pcap_open, pcap_findalldevs and pcap_open_live functions. Once you have captured the data you can proceed to do one of two things: Just let it sit there for later use, or dump it into a more permanent archive with pcap_dump. If you have gotten this far, all you really need to do is load your saved file with the pcap_open_offline routine. That’s it! You’re done with basic packet sniffing.
Not really though. If you want to detect packets, you need pcap_loop, otherwise all packets will pass by and be ignored. But that only gets you so far. You need packet timestamps, so you probably need to capture them too. Again, there are a few options here. You can use pcap_compile, pcap_compile_nopcap, pcap_loop and pcap_compile_nopcap_filter. You also have to make sure that you capture events in pcap_loop. You do that with pcap_next_ex. If you want your packets to be displayed you can use pcap_filedecode or pcap_filedecode_r. As you can see, there’s a lot to it.
In addition, you can log information for the capture files. You can do this by using the pcap_next_log and the pcap_next_log_ipaddr functions. The user friendly way to save all this information is to simply use pcap_next_pcap_log2pcap.
OK, we can’t just do it all as there are many ways and methods to “sniff” packets. Another tool is tcpdump. You can use it with different ways. You have at least two options: You can create
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Schnauzer is a promiscuous packet sniffer. It allows you to
display IP packets on screen.
Schnauzer application is available for Windows 2000/XP/Vista/Windows 7 as well as Mac OS X.
The application is available at the Google Code site. You can run the application, however you need to download the source code and compile the program manually.
After the program is compiled, you can install the binary into c:\program files\schnauzer on a Windows machine or somewhere in your Mac OS X hierarchy.
Compiling and installing
Compile the program using the following commands:
mingw-w64-32-gcc -m32 -o snauzer snauzer.c -lpcap
and install the compiled application using the following commands:
mingw-w64-32-pkg-config –libs –static –static-libgcc –prefix=c:\program files\schnauzer –enable-auto-cleanup –enable-extra-apis –enable-http-cgi-parser –enable-http-dav-parser –enable-imap-filter –enable-imap-imap4-cache –enable-imap-mupdate-filter –enable-imap-sasl-ssap –enable-imap-ssl-ticket –enable-itxt-mailx-filter –enable-itxt-omf-mailx-filter –enable-isp-sieve-mail-filter –enable-isp-sieve-mail-indicator –enable-isp-sieve-mail-pipe –enable-isp-sieve-message-status –enable-isp-sieve-namedpipe –enable-isp-sieve-pipe –enable-isp-sieve-socks-filter –enable-isp-sieve-socks –enable-isp-sieve-subscription –enable-isp-snowslide-filter –enable-isp-snowslide-monitor –enable-isp-snowslide-socks-filter –enable-isp-snowslide-socks –enable-isp-snowslide-tls-filter –enable-isp-snowslide-tls-monitor –enable-isp-snowslide-tls –enable-isp-snowslide-
What’s New In Schnauzer?
Schnauzer is an easy to use, stand alone packet sniffer for Windows. Version 0.9 of Schnauzer is the first release and it still has a few problems. Unlike other sniffers like Wireshark, it uses pcap instead of libpcap. Packets are displayed in a treeview form with different viewing options. The packages can be displayed with their source, destination, protocol, total size, packet count and many other statistics.
– WinPcap interface
– Stand alone program
– No dependencies
– ActiveX support (Msdn)
– High quality GUI
– File based network capture
– Display of IP headers and packet boundaries
– Display of captured files
– Many more…
Schnauzer Running Modes:
Schnauzer can operate in passive and active sniffing modes. Passive sniffing mode is used to sniff network traffic. In this mode, only the packets (including IP headers) are collected and display. Some protocols such as DHCP, ICMP and Fax headers are not displayed but are still captured. Active sniffing mode is used to display IP headers, TCP headers, UDP headers, etc. The amount of data to be displayed depends on the capturing interval.
Schnauzer consists of a main window and two button windows. To view the sniffed packets, double click on the main window. To activate the sniffing button, click on the sniff button. To display the sniffed packets, click on the sniff button. To stop sniffing, click on the stop button.
To view the packets, the filtering mode, sniffing intervals, and displaying options can be specified.
The filtering mode can be specified to be any of the following:
– None: The packets are displayed in the main window without any filter.
– Raw: Packets are not filtered and are displayed in the raw format.
– Conversations: Only the sequence of packets that belong to a conversation are displayed. This is not an ideal packet display option and can only be applied to tcp conversations.
– TCP and UDP connections: Only tcp and udp connections are displayed.
– Transmission Control Protocol and TCP/IP connections: The packets belonging to the established TCP connections are displayed.
The sniffing interval can be specified to be any of the following:
– None: Displays packets captured at the sniffing interval.
– Short interval: Displays packets captured
System Requirements For Schnauzer:
Please note that in order to be able to play the game successfully, your computer must meet the minimum hardware specifications for the game.
Windows XP or later
Processor: 2.0GHz CPU or better
Memory: 512 MB RAM (1 GB is strongly recommended)
Hard disk: 100 MB available space
Graphics: 64 MB of Video RAM
Sound: DirectX 9.0c compatible with 7.1 surround sound
Mac OSX 10.5.8 or later
Processor: 2.0GHz CPU or better