Berkeley Packet Filter

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The Berkeley Packet Filter or BPF provides, on some Unix-like systems, a raw interface to data link layers, permitting raw link-layer packets to be sent and received. In addition, if the driver for the network interface supports promiscuous mode, it allows the interface to be put into that mode, so that all packets on the network, even those destined for other hosts, can be received.

In addition, it supports "filtering" packets, so that only "interesting" packets can be supplied to the software using BPF; this can avoid copying "uninteresting" packets from the operating system kernel to software running in user mode, reducing the CPU requirement to capture packets and the buffer space required to avoid dropping packets. BPF's filtering capabilities are implemented as an interpreter for a machine language for the BPF virtual machine; programs in that language can fetch data from the packet, perform arithmetic operations on data from the packet, and compare the results against constants or against data in the packet or test bits in the results, accepting or rejecting the packet based on the results of those tests.

Kernel-mode interpreters for that same virtual machine language are used in raw data link layer mechanisms in other operating systems, such as Tru64 Unix, and for socket filters in Linux and in the WinPcap packet capture mechanism.

A user-mode interpreter for it is provided with the libpcap/WinPcap implementation of the pcap application programming interface (API), so that, when capturing packets on systems without kernel-mode support for that filtering mechanism, packets can be filtered in user mode; code using the pcap API will work on both types of systems, although, on systems where the filtering is done in user mode, all packets, including those that will be filtered out, are copied from the kernel to user space. That interpreter can also be used when reading a file containing packets captured using pcap.

BPF is sometimes used to refer just to the filtering mechanism, rather than to the entire interface.

BSD kernels implement routines such as bpf_mtap() and bpf_tap(), with some wrapping them in macros such as BPF_MTAP() and BPF_TAP(), which are called by network interface drivers (and pseudo-drivers) to deliver incoming and outgoing packets to the BPF mechanism.