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https://github.com/the-tcpdump-group/tcpdump.git
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1af6dea412
Do it iwth an if chain, which is somewhat the equivalent of what Wireshark does (it uses heuristic dissectors; our ifs do the same checks that Wireshark's heuristic dissectors do). That makes it a bit more obvious that the necessary tests are somewhat weird, thanks to Realtek not just deciding to make the first octet a protocol discriminator *even for switch tags*. We also treat a first octet of 0x23 as meanin RLDP, just as Wireshark does, as some switch chips use 0x23 for loop detection packets. Shuffle some comments while we're at it (and epand the one for RLDP to match all the stuff going on with various RLDP packets).
249 lines
8.8 KiB
C
249 lines
8.8 KiB
C
/*
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* Copyright (c) 2007 - Andrey "nording" Chernyak <andrew@nording.ru>
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that: (1) source code distributions
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* retain the above copyright notice and this paragraph in its entirety, (2)
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* distributions including binary code include the above copyright notice and
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* this paragraph in its entirety in the documentation or other materials
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* provided with the distribution, and (3) all advertising materials mentioning
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* features or use of this software display the following acknowledgement:
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* ``This product includes software developed by the University of California,
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* Lawrence Berkeley Laboratory and its contributors.'' Neither the name of
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* the University nor the names of its contributors may be used to endorse
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* or promote products derived from this software without specific prior
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* written permission.
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* THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED
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* WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF
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* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
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*
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* Format and print Realtek Remote Control Protocol (RRCP), Realtek
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* Loop Detection Protocol (RLDP), and Realtek Echo Protocol (REP) packets,
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* as well as tag formats used by some Realtek switch chips to supply
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* tag information to a host CPU for a switch.
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*/
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/* \summary: printer for various Realtek protocols */
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#ifdef HAVE_CONFIG_H
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#include <config.h>
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#endif
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#include "netdissect-stdinc.h"
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#include "netdissect.h"
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#include "addrtoname.h"
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#include "extract.h"
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#define RTL_PROTOCOL_OFFSET 0 /* Protocol and possibly other data - 1 byte */
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#define RTL_PROTOCOL_RRCP 0x01 /* RRCP */
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#define RTL_PROTOCOL_REP 0x02 /* REP */
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#define RTL_PROTOCOL_RLDP 0x03 /* RLDP */
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#define RTL_PROTOCOL_RLDP2 0x23 /* also RLDP */
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#define RTL_PROTOCOL_XXX_DSA 0x04 /* DSA protocol for some chip(s) */
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/*
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* Values for the upper 4 bits of the protocol field, for
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* protocols where the lower 4 bits contain protocol data.
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*
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* See section 8.10 "CPU Tag Function" of
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*
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* http://realtek.info/pdf/rtl8306sd%28m%29_datasheet_1.1.pdf
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*
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* for the RTL8306 DSA protocol tag format.
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*/
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#define RTL_PROTOCOL_8306_DSA 0x90 /* RTL8306 DSA protocol */
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#define RTL_PROTOCOL_8366RB_DSA 0xA0 /* RTL8366RB DSA protocol */
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#define RRCP_OPCODE_ISREPLY_OFFSET 1 /* opcode and isreply flag - 1 byte */
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#define RRCP_OPCODE_MASK 0x7F /* 0x00 = hello, 0x01 = get, 0x02 = set */
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#define RRCP_ISREPLY 0x80 /* 0 = request to switch, 0x80 = reply from switch */
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#define RRCP_OPCODE_HELLO 0x00
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#define RRCP_OPCODE_GET_CONFIGURATION 0x01
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#define RRCP_OPCODE_SET_CONFIGURATION 0x02
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#define RRCP_AUTHKEY_OFFSET 2 /* authorization key - 2 bytes, 0x2379 by default */
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/* most packets */
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#define RRCP_REG_ADDR_OFFSET 4 /* register address - 2 bytes */
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#define RRCP_REG_DATA_OFFSET 6 /* register data - 4 bytes */
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#define RRCP_COOKIE1_OFFSET 10 /* 4 bytes */
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#define RRCP_COOKIE2_OFFSET 14 /* 4 bytes */
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/* hello reply packets */
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#define RRCP_DOWNLINK_PORT_OFFSET 4 /* 1 byte */
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#define RRCP_UPLINK_PORT_OFFSET 5 /* 1 byte */
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#define RRCP_UPLINK_MAC_OFFSET 6 /* 6 byte MAC address */
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#define RRCP_CHIP_ID_OFFSET 12 /* 2 bytes */
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#define RRCP_VENDOR_ID_OFFSET 14 /* 4 bytes */
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static const struct tok opcode_values[] = {
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{ RRCP_OPCODE_HELLO, "hello" },
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{ RRCP_OPCODE_GET_CONFIGURATION, "get" },
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{ RRCP_OPCODE_SET_CONFIGURATION, "set" },
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{ 0, NULL }
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};
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/*
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* Print RRCP packets.
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*
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* See, for example, section 8.20 "Realtek Remote Control Protocol" of
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*
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* http://realtek.info/pdf/rtl8324.pdf
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*
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* and section 7.22 "Realtek Remote Control Protocol" of
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*
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* http://realtek.info/pdf/rtl8326.pdf
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*
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* and this page on the OpenRRCP Wiki:
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*
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* http://openrrcp.org.ru/wiki/rrcp_protocol
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*
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* for information on RRCP.
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*/
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static void
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rrcp_print(netdissect_options *ndo,
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const u_char *cp)
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{
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uint8_t rrcp_opcode;
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ndo->ndo_protocol = "rrcp";
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rrcp_opcode = GET_U_1((cp + RRCP_OPCODE_ISREPLY_OFFSET)) & RRCP_OPCODE_MASK;
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ND_PRINT("RRCP %s: %s",
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((GET_U_1(cp + RRCP_OPCODE_ISREPLY_OFFSET)) & RRCP_ISREPLY) ? "reply" : "query",
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tok2str(opcode_values,"unknown opcode (0x%02x)",rrcp_opcode));
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if (rrcp_opcode==RRCP_OPCODE_GET_CONFIGURATION ||
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rrcp_opcode==RRCP_OPCODE_SET_CONFIGURATION){
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ND_PRINT(" addr=0x%04x, data=0x%08x",
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GET_LE_U_2(cp + RRCP_REG_ADDR_OFFSET),
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GET_LE_U_4(cp + RRCP_REG_DATA_OFFSET));
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}
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ND_PRINT(", auth=0x%04x",
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GET_BE_U_2(cp + RRCP_AUTHKEY_OFFSET));
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if (rrcp_opcode==RRCP_OPCODE_HELLO &&
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((GET_U_1(cp + RRCP_OPCODE_ISREPLY_OFFSET)) & RRCP_ISREPLY)){
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ND_PRINT(" downlink_port=%u, uplink_port=%u, uplink_mac=%s, vendor_id=%08x ,chip_id=%04x ",
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GET_U_1(cp + RRCP_DOWNLINK_PORT_OFFSET),
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GET_U_1(cp + RRCP_UPLINK_PORT_OFFSET),
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GET_ETHERADDR_STRING(cp + RRCP_UPLINK_MAC_OFFSET),
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GET_BE_U_4(cp + RRCP_VENDOR_ID_OFFSET),
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GET_BE_U_2(cp + RRCP_CHIP_ID_OFFSET));
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}else if (rrcp_opcode==RRCP_OPCODE_GET_CONFIGURATION ||
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rrcp_opcode==RRCP_OPCODE_SET_CONFIGURATION){
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ND_PRINT(", cookie=0x%08x%08x ",
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GET_BE_U_4(cp + RRCP_COOKIE2_OFFSET),
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GET_BE_U_4(cp + RRCP_COOKIE1_OFFSET));
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}
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}
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/*
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* Print Realtek packets.
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*
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* See, for example, section 8.22 "Realtek Echo Protocol" of
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*
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* http://realtek.info/pdf/rtl8324.pdf
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*
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* and section 7.24 "Realtek Echo Protocol" of
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*
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* http://realtek.info/pdf/rtl8326.pdf
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*
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* for information on REP.
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*
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* See section 8.21 "Network Loop Connection Fault Detection" of
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*
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* http://realtek.info/pdf/rtl8324.pdf
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*
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* and section 7.23 "Network Loop Connection Fault Detection" of
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*
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* http://realtek.info/pdf/rtl8326.pdf
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*
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* for information on RLDP.
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*
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* See also section 7.3.8 "Loop Detection" of
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*
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* http://www.ibselectronics.com/ibsstore/datasheet/RTL8306E-CG.pdf
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*
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* (revision 1.1 of the RTL8306E-CG datasheet), which describes a loop
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* detection protocol for which the payload has a 16-bit (presumably
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* big-endian) field containing the value 0x0300, followed by what is
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* presumably a 16-bit big-endian field the upper 12 bits of which are 0
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* and the lower 4 bits of which are a TTL value, followed by zeroes to
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* pad the packet out to the minimum Ethernet packet size.
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*
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* See also section 7.3.13 "Loop Detection" of
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*
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* http://realtek.info/pdf/rtl8305sb.pdf
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*
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* (revision 1.3 of the RTL8305SB datasheet), which describes a similar
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* loop detection protocol that lacks the TTL field - all the bytes
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* after 0x0300 are zero.
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*
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* See also section 7.3.7 "Loop Detection" of
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*
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* https://datasheet.lcsc.com/lcsc/1810221720_Realtek-Semicon-RTL8305NB-CG_C52146.pdf
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*
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* (revision 1.0 of the RTL8305NB-CT datasheet), which describes a loop
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* detection protocol similar to the one from the RTL8306E-CG datasheet,
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* except that the first value is 0x2300, not 0x0300.
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*
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* And, on top of all that, I've seen packets where the first octet of
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* the packet is 0x23, and that's followed by 6 unknown octets (a MAC
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* address of some sort? It differs from packet to packet in a capture),
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* followed by the MAC address that appears in the source address in the
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* Ethernet header (possibly the originator, in case the packet is forwarded,
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* in which case the forwarded packets won't have the source address from
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* the Ethernet header there), followed by unknown stuff (0x0d followed by
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* zeroes for all such packets in one capture, 0x01 followed by zeroes for
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* all such packets in another capture, 0x07 followed by 0x20's for all
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* such packets in yet another capture). The OpenRRCP issue at
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* https://github.com/illarionov/OpenRRCP/issues/3 shows a capture
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* similar to the last of those, but with 0x02 instead of 0x07. Or is that
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* just crap in the buffer in which the chip constructed the packet, left
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* over from something else?
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*/
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void
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rtl_print(netdissect_options *ndo,
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const u_char *cp,
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u_int length _U_,
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const struct lladdr_info *src,
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const struct lladdr_info *dst)
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{
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uint8_t rtl_proto;
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ndo->ndo_protocol = "rtl";
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if (src != NULL && dst != NULL) {
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ND_PRINT("%s > %s, ",
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(src->addr_string)(ndo, src->addr),
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(dst->addr_string)(ndo, dst->addr));
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}
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rtl_proto = GET_U_1(cp + RTL_PROTOCOL_OFFSET);
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if (rtl_proto == RTL_PROTOCOL_RRCP)
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rrcp_print(ndo, cp);
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else if (rtl_proto == RTL_PROTOCOL_REP) {
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/*
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* REP packets have no payload.
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*/
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ND_PRINT("REP");
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} else if (rtl_proto == RTL_PROTOCOL_RLDP ||
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rtl_proto == RTL_PROTOCOL_RLDP2) {
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/*
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* RLDP packets have no payload.
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* (XXX - except when they do? See above.)
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*/
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ND_PRINT("RLDP");
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} else if (rtl_proto == RTL_PROTOCOL_XXX_DSA)
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ND_PRINT("Realtek 8-byte DSA tag");
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else if ((rtl_proto & 0xF0) == RTL_PROTOCOL_8306_DSA)
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ND_PRINT("Realtek RTL8306 4-byte DSA tag");
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else if ((rtl_proto & 0xF0) == RTL_PROTOCOL_8366RB_DSA)
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ND_PRINT("Realtek RTL8366RB 4-byte DSA tag");
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else
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ND_PRINT("Realtek unknown type 0x%02x", rtl_proto);
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}
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