1PCAP-SAVEFILE(5) File Formats Manual PCAP-SAVEFILE(5)
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6 pcap-savefile - libpcap savefile format
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9 NOTE: applications and libraries should, if possible, use libpcap to
10 read savefiles, rather than having their own code to read savefiles.
11 If, in the future, a new file format is supported by libpcap, applica‐
12 tions and libraries using libpcap to read savefiles will be able to
13 read the new format of savefiles, but applications and libraries using
14 their own code to read savefiles will have to be changed to support the
15 new file format.
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17 ``Savefiles'' read and written by libpcap and applications using libp‐
18 cap start with a per-file header. The format of the per-file header
19 is:
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21 ┌──────────────────────────────┐
22 │ Magic number │
23 ├──────────────┬───────────────┤
24 │Major version │ Minor version │
25 ├──────────────┴───────────────┤
26 │ Time zone offset │
27 ├──────────────────────────────┤
28 │ Time stamp accuracy │
29 ├──────────────────────────────┤
30 │ Snapshot length │
31 ├──────────────────────────────┤
32 │ Link-layer header type │
33 └──────────────────────────────┘
34 All fields in the per-file header are in the byte order of the host
35 writing the file. Normally, the first field in the per-file header is
36 a 4-byte magic number, with the value 0xa1b2c3d4. The magic number,
37 when read by a host with the same byte order as the host that wrote the
38 file, will have the value 0xa1b2c3d4, and, when read by a host with the
39 opposite byte order as the host that wrote the file, will have the
40 value 0xd4c3b2a1. That allows software reading the file to determine
41 whether the byte order of the host that wrote the file is the same as
42 the byte order of the host on which the file is being read, and thus
43 whether the values in the per-file and per-packet headers need to be
44 byte-swapped.
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46 If the magic number has the value 0xa1b23c4d (with the two nibbles of
47 the two lower-order bytes of the magic number swapped), which would be
48 read as 0xa1b23c4d by a host with the same byte order as the host that
49 wrote the file and as 0x4d3cb2a1 by a host with the opposite byte order
50 as the host that wrote the file, the file format is the same as for
51 regular files, except that the time stamps for packets are given in
52 seconds and nanoseconds rather than seconds and microseconds.
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54 Following this are:
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56 A 2-byte file format major version number; the current version
57 number is 2.
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59 A 2-byte file format minor version number; the current version
60 number is 4.
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62 A 4-byte time zone offset; this is always 0.
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64 A 4-byte number giving the accuracy of time stamps in the file;
65 this is always 0.
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67 A 4-byte number giving the "snapshot length" of the capture;
68 packets longer than the snapshot length are truncated to the
69 snapshot length, so that, if the snapshot length is N, only the
70 first N bytes of a packet longer than N bytes will be saved in
71 the capture.
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73 a 4-byte number giving the link-layer header type for packets in
74 the capture; see pcap-linktype(7) for the LINKTYPE_ values that
75 can appear in this field.
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77 Following the per-file header are zero or more packets; each packet
78 begins with a per-packet header, which is immediately followed by the
79 raw packet data. The format of the per-packet header is:
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81 ┌──────────────────────────────────────────────┐
82 │ Time stamp, seconds value │
83 ├──────────────────────────────────────────────┤
84 │Time stamp, microseconds or nanoseconds value │
85 ├──────────────────────────────────────────────┤
86 │ Length of captured packet data │
87 ├──────────────────────────────────────────────┤
88 │ Un-truncated length of the packet data │
89 └──────────────────────────────────────────────┘
90 All fields in the per-packet header are in the byte order of the host
91 writing the file. The per-packet header begins with a time stamp giv‐
92 ing the approximate time the packet was captured; the time stamp con‐
93 sists of a 4-byte value, giving the time in seconds since January 1,
94 1970, 00:00:00 UTC, followed by a 4-byte value, giving the time in
95 microseconds or nanoseconds since that second, depending on the magic
96 number in the file header. Following that are a 4-byte value giving
97 the number of bytes of captured data that follow the per-packet header
98 and a 4-byte value giving the number of bytes that would have been
99 present had the packet not been truncated by the snapshot length. The
100 two lengths will be equal if the number of bytes of packet data are
101 less than or equal to the snapshot length.
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104 pcap(3PCAP)
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108 8 March 2015 PCAP-SAVEFILE(5)