From 51a4655fd786346deb58ca1658f38fceacf1b6b1 Mon Sep 17 00:00:00 2001 From: "/C=JP/ST=JP/CN=Yasuyuki Kozakai/emailAddress=yasuyuki@netfilter.org" Date: Thu, 29 Nov 2007 04:59:51 +0000 Subject: Removes libip6t_u32.man libxt_u32.man already exists. --- extensions/libip6t_u32.man | 129 --------------------------------------------- 1 file changed, 129 deletions(-) delete mode 100644 extensions/libip6t_u32.man diff --git a/extensions/libip6t_u32.man b/extensions/libip6t_u32.man deleted file mode 100644 index 1ac02bc..0000000 --- a/extensions/libip6t_u32.man +++ /dev/null @@ -1,129 +0,0 @@ -U32 tests whether quantities of up to 4 bytes extracted from a packet have -specified values. The specification of what to extract is general enough to -find data at given offsets from tcp headers or payloads. -.TP -[\fB!\fR]\fB --u32 \fItests\fR -The argument amounts to a program in a small language described below. -.IP -tests := location "=" value | tests "&&" location "=" value -.IP -value := range | value "," range -.IP -range := number | number ":" number -.PP -a single number, \fIn\fR, is interpreted the same as \fIn:n\fR. \fIn:m\fR is -interpreted as the range of numbers \fB>=n\fR and \fB<=m\fR. -.IP "" 4 -location := number | location operator number -.IP "" 4 -operator := "&" | "<<" | ">>" | "@" -.PP -The operators \fB&\fR, \fB<<\fR, \fB>>\fR and \fB&&\fR mean the same as in C. -The \fB=\fR is really a set membership operator and the value syntax describes -a set. The \fB@\fR operator is what allows moving to the next header and is -described further below. -.PP -There are currently some artificial implementation limits on the size of the -tests: -.IP " *" -no more than 10 of "\fB=\fR" (and 9 "\fB&&\fR"s) in the u32 argument -.IP " *" -no more than 10 ranges (and 9 commas) per value -.IP " *" -no more than 10 numbers (and 9 operators) per location -.PP -To describe the meaning of location, imagine the following machine that -interprets it. There are three registers: -.IP -A is of type \fBchar *\fR, initially the address of the IP header -.IP -B and C are unsigned 32 bit integers, initially zero -.PP -The instructions are: -.IP -number B = number; -.IP -C = (*(A+B)<<24) + (*(A+B+1)<<16) + (*(A+B+2)<<8) + *(A+B+3) -.IP -&number C = C & number -.IP -<< number C = C << number -.IP ->> number C = C >> number -.IP -@number A = A + C; then do the instruction number -.PP -Any access of memory outside [skb->data,skb->end] causes the match to fail. -Otherwise the result of the computation is the final value of C. -.PP -Whitespace is allowed but not required in the tests. However, the characters -that do occur there are likely to require shell quoting, so it is a good idea -to enclose the arguments in quotes. -.PP -Example: -.IP -match IP packets with total length >= 256 -.IP -The IP header contains a total length field in bytes 2-3. -.IP ---u32 "\fB0 & 0xFFFF = 0x100:0xFFFF\fR" -.IP -read bytes 0-3 -.IP -AND that with 0xFFFF (giving bytes 2-3), and test whether that is in the range -[0x100:0xFFFF] -.PP -Example: (more realistic, hence more complicated) -.IP -match ICMP packets with icmp type 0 -.IP -First test that it is an ICMP packet, true iff byte 9 (protocol) = 1 -.IP ---u32 "\fB6 & 0xFF = 1 &&\fR ... -.IP -read bytes 6-9, use \fB&\fR to throw away bytes 6-8 and compare the result to -1. Next test that it is not a fragment. (If so, it might be part of such a -packet but we cannot always tell.) N.B.: This test is generally needed if you -want to match anything beyond the IP header. The last 6 bits of byte 6 and all -of byte 7 are 0 iff this is a complete packet (not a fragment). Alternatively, -you can allow first fragments by only testing the last 5 bits of byte 6. -.IP - ... \fB4 & 0x3FFF = 0 &&\fR ... -.IP -Last test: the first byte past the IP header (the type) is 0. This is where we -have to use the @syntax. The length of the IP header (IHL) in 32 bit words is -stored in the right half of byte 0 of the IP header itself. -.IP - ... \fB0 >> 22 & 0x3C @ 0 >> 24 = 0\fR" -.IP -The first 0 means read bytes 0-3, \fB>>22\fR means shift that 22 bits to the -right. Shifting 24 bits would give the first byte, so only 22 bits is four -times that plus a few more bits. \fB&3C\fR then eliminates the two extra bits -on the right and the first four bits of the first byte. For instance, if IHL=5, -then the IP header is 20 (4 x 5) bytes long. In this case, bytes 0-1 are (in -binary) xxxx0101 yyzzzzzz, \fB>>22\fR gives the 10 bit value xxxx0101yy and -\fB&3C\fR gives 010100. \fB@\fR means to use this number as a new offset into -the packet, and read four bytes starting from there. This is the first 4 bytes -of the ICMP payload, of which byte 0 is the ICMP type. Therefore, we simply -shift the value 24 to the right to throw out all but the first byte and compare -the result with 0. -.PP -Example: -.IP -TCP payload bytes 8-12 is any of 1, 2, 5 or 8 -.IP -First we test that the packet is a tcp packet (similar to ICMP). -.IP ---u32 "\fB6 & 0xFF = 6 &&\fR ... -.IP -Next, test that it is not a fragment (same as above). -.IP - ... \fB0 >> 22 & 0x3C @ 12 >> 26 & 0x3C @ 8 = 1,2,5,8\fR" -.IP -\fB0>>22&3C\fR as above computes the number of bytes in the IP header. \fB@\fR -makes this the new offset into the packet, which is the start of the TCP -header. The length of the TCP header (again in 32 bit words) is the left half -of byte 12 of the TCP header. The \fB12>>26&3C\fR computes this length in bytes -(similar to the IP header before). "@" makes this the new offset, which is the -start of the TCP payload. Finally, 8 reads bytes 8-12 of the payload and -\fB=\fR checks whether the result is any of 1, 2, 5 or 8. -- cgit v1.2.3