print-realtek.c - platform/external/tcpdump - Git at Google

 /*
  * Copyright (c) 2007 - Andrey "nording" Chernyak <[email protected]>
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that: (1) source code distributions
  * retain the above copyright notice and this paragraph in its entirety, (2)
  * distributions including binary code include the above copyright notice and
  * this paragraph in its entirety in the documentation or other materials
  * provided with the distribution, and (3) all advertising materials mentioning
  * features or use of this software display the following acknowledgement:
  * ``This product includes software developed by the University of California,
  * Lawrence Berkeley Laboratory and its contributors.'' Neither the name of
  * the University nor the names of its contributors may be used to endorse
  * or promote products derived from this software without specific prior
  * written permission.
  * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED
  * WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF
  * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
  *
  * Format and print Realtek Remote Control Protocol (RRCP), Realtek
  * Loop Detection Protocol (RLDP), and Realtek Echo Protocol (REP) packets,
  * as well as tag formats used by some Realtek switch chips to supply
  * tag information to a host CPU for a switch.
  */

 /* \summary: printer for various Realtek protocols */

 #ifdef HAVE_CONFIG_H
 #include <config.h>
 #endif

 #include "netdissect-stdinc.h"

 #include "netdissect.h"
 #include "addrtoname.h"
 #include "extract.h"

 #define RTL_PROTOCOL_OFFSET	0	/* Protocol and possibly other data - 1 byte */

 #define RTL_PROTOCOL_RRCP	0x01	/* RRCP */
 #define RTL_PROTOCOL_REP	0x02	/* REP */
 #define RTL_PROTOCOL_RLDP	0x03	/* RLDP */
 #define RTL_PROTOCOL_RLDP2	0x23	/* also RLDP */
 #define RTL_PROTOCOL_XXX_DSA	0x04	/* DSA protocol for some chip(s) */

 /*
  * Values for the upper 4 bits of the protocol field, for
  * protocols where the lower 4 bits contain protocol data.
  *
  * See section 8.10 "CPU Tag Function" of
  *
  *    http://realtek.info/pdf/rtl8306sd%28m%29_datasheet_1.1.pdf
  *
  * for the RTL8306 DSA protocol tag format.
  */
 #define RTL_PROTOCOL_8306_DSA		0x90	/* RTL8306 DSA protocol */
 #define RTL_PROTOCOL_8366RB_DSA		0xA0	/* RTL8366RB DSA protocol */

 #define RRCP_OPCODE_ISREPLY_OFFSET	1	/* opcode and isreply flag - 1 byte */

 #define RRCP_OPCODE_MASK		0x7F	/* 0x00 = hello, 0x01 = get, 0x02 = set */
 #define RRCP_ISREPLY			0x80	/* 0 = request to switch, 0x80 = reply from switch */

 #define RRCP_OPCODE_HELLO		0x00
 #define RRCP_OPCODE_GET_CONFIGURATION	0x01
 #define RRCP_OPCODE_SET_CONFIGURATION	0x02

 #define RRCP_AUTHKEY_OFFSET		2	/* authorization key - 2 bytes, 0x2379 by default */

 /* most packets */
 #define RRCP_REG_ADDR_OFFSET		4	/* register address - 2 bytes */
 #define RRCP_REG_DATA_OFFSET		6	/* register data - 4 bytes */
 #define RRCP_COOKIE1_OFFSET		10	/* 4 bytes */
 #define RRCP_COOKIE2_OFFSET		14	/* 4 bytes */

 /* hello reply packets */
 #define RRCP_DOWNLINK_PORT_OFFSET	4	/* 1 byte */
 #define RRCP_UPLINK_PORT_OFFSET		5	/* 1 byte */
 #define RRCP_UPLINK_MAC_OFFSET		6	/* 6 byte MAC address */
 #define RRCP_CHIP_ID_OFFSET		12	/* 2 bytes */
 #define RRCP_VENDOR_ID_OFFSET		14	/* 4 bytes */

 static const struct tok opcode_values[] = {
 	{ RRCP_OPCODE_HELLO,             "hello" },
 	{ RRCP_OPCODE_GET_CONFIGURATION, "get" },
 	{ RRCP_OPCODE_SET_CONFIGURATION, "set" },
 	{ 0, NULL }
 };

 /*
  * Print RRCP packets.
  *
  * See, for example, section 8.20 "Realtek Remote Control Protocol" of
  *
  *    http://realtek.info/pdf/rtl8324.pdf
  *
  * and section 7.22 "Realtek Remote Control Protocol" of
  *
  *    http://realtek.info/pdf/rtl8326.pdf
  *
  * and this page on the OpenRRCP Wiki:
  *
  *    http://openrrcp.org.ru/wiki/rrcp_protocol
  *
  * for information on RRCP.
  */
 static void
 rrcp_print(netdissect_options *ndo,
 	  const u_char *cp)
 {
 	uint8_t rrcp_opcode;

 	ndo->ndo_protocol = "rrcp";
 	rrcp_opcode = GET_U_1((cp + RRCP_OPCODE_ISREPLY_OFFSET)) & RRCP_OPCODE_MASK;
 	ND_PRINT("RRCP %s: %s",
 		((GET_U_1(cp + RRCP_OPCODE_ISREPLY_OFFSET)) & RRCP_ISREPLY) ? "reply" : "query",
 		tok2str(opcode_values,"unknown opcode (0x%02x)",rrcp_opcode));
 	if (rrcp_opcode==RRCP_OPCODE_GET_CONFIGURATION ||
 	    rrcp_opcode==RRCP_OPCODE_SET_CONFIGURATION){
     	    ND_PRINT(" addr=0x%04x, data=0x%08x",
 		     GET_LE_U_2(cp + RRCP_REG_ADDR_OFFSET),
 		     GET_LE_U_4(cp + RRCP_REG_DATA_OFFSET));
 	}
 	ND_PRINT(", auth=0x%04x",
 	         GET_BE_U_2(cp + RRCP_AUTHKEY_OFFSET));
 	if (rrcp_opcode==RRCP_OPCODE_HELLO &&
 	     ((GET_U_1(cp + RRCP_OPCODE_ISREPLY_OFFSET)) & RRCP_ISREPLY)){
 	    ND_PRINT(" downlink_port=%u, uplink_port=%u, uplink_mac=%s, vendor_id=%08x ,chip_id=%04x ",
 		     GET_U_1(cp + RRCP_DOWNLINK_PORT_OFFSET),
 		     GET_U_1(cp + RRCP_UPLINK_PORT_OFFSET),
 		     GET_ETHERADDR_STRING(cp + RRCP_UPLINK_MAC_OFFSET),
 		     GET_BE_U_4(cp + RRCP_VENDOR_ID_OFFSET),
 		     GET_BE_U_2(cp + RRCP_CHIP_ID_OFFSET));
 	}else if (rrcp_opcode==RRCP_OPCODE_GET_CONFIGURATION ||
 	          rrcp_opcode==RRCP_OPCODE_SET_CONFIGURATION){
 	    ND_PRINT(", cookie=0x%08x%08x ",
 		    GET_BE_U_4(cp + RRCP_COOKIE2_OFFSET),
 		    GET_BE_U_4(cp + RRCP_COOKIE1_OFFSET));
 	}
 }

 /*
  * Print Realtek packets.
  *
  * See, for example, section 8.22 "Realtek Echo Protocol" of
  *
  *    http://realtek.info/pdf/rtl8324.pdf
  *
  * and section 7.24 "Realtek Echo Protocol" of
  *
  *    http://realtek.info/pdf/rtl8326.pdf
  *
  * for information on REP.
  *
  * See section 8.21 "Network Loop Connection Fault Detection" of
  *
  *    http://realtek.info/pdf/rtl8324.pdf
  *
  * and section 7.23 "Network Loop Connection Fault Detection" of
  *
  *    http://realtek.info/pdf/rtl8326.pdf
  *
  * for information on RLDP.
  *
  * See also section 7.3.8 "Loop Detection" of
  *
  *    http://www.ibselectronics.com/ibsstore/datasheet/RTL8306E-CG.pdf
  *
  * (revision 1.1 of the RTL8306E-CG datasheet), which describes a loop
  * detection protocol for which the payload has a 16-bit (presumably
  * big-endian) field containing the value 0x0300, followed by what is
  * presumably a 16-bit big-endian field the upper 12 bits of which are 0
  * and the lower 4 bits of which are a TTL value, followed by zeroes to
  * pad the packet out to the minimum Ethernet packet size.
  *
  * See also section 7.3.13 "Loop Detection" of
  *
  *    http://realtek.info/pdf/rtl8305sb.pdf
  *
  * (revision 1.3 of the RTL8305SB datasheet), which describes a similar
  * loop detection protocol that lacks the TTL field - all the bytes
  * after 0x0300 are zero.
  *
  * See also section 7.3.7 "Loop Detection" of
  *
  *    https://datasheet.lcsc.com/lcsc/1810221720_Realtek-Semicon-RTL8305NB-CG_C52146.pdf
  *
  * (revision 1.0 of the RTL8305NB-CT datasheet), which describes a loop
  * detection protocol similar to the one from the RTL8306E-CG datasheet,
  * except that the first value is 0x2300, not 0x0300.
  *
  * And, on top of all that, I've seen packets where the first octet of
  * the packet is 0x23, and that's followed by 6 unknown octets (a MAC
  * address of some sort?  It differs from packet to packet in a capture),
  * followed by the MAC address that appears in the source address in the
  * Ethernet header (possibly the originator, in case the packet is forwarded,
  * in which case the forwarded packets won't have the source address from
  * the Ethernet header there), followed by unknown stuff (0x0d followed by
  * zeroes for all such packets in one capture, 0x01 followed by zeroes for
  * all such packets in another capture, 0x07 followed by 0x20's for all
  * such packets in yet another capture).  The OpenRRCP issue at
  * https://github.com/illarionov/OpenRRCP/issues/3 shows a capture
  * similar to the last of those, but with 0x02 instead of 0x07.  Or is that
  * just crap in the buffer in which the chip constructed the packet, left
  * over from something else?
  */
 void
 rtl_print(netdissect_options *ndo,
 	  const u_char *cp,
 	  u_int length _U_,
 	  const struct lladdr_info *src,
 	  const struct lladdr_info *dst)
 {
 	uint8_t rtl_proto;

 	ndo->ndo_protocol = "rtl";

 	if (src != NULL && dst != NULL) {
 		ND_PRINT("%s > %s, ",
 			(src->addr_string)(ndo, src->addr),
 			(dst->addr_string)(ndo, dst->addr));
 	}

 	rtl_proto = GET_U_1(cp + RTL_PROTOCOL_OFFSET);

 	if (rtl_proto == RTL_PROTOCOL_RRCP)
 		rrcp_print(ndo, cp);
 	else if (rtl_proto == RTL_PROTOCOL_REP) {
 		/*
 		 * REP packets have no payload.
 		 */
 		ND_PRINT("REP");
 	} else if (rtl_proto == RTL_PROTOCOL_RLDP ||
 	           rtl_proto == RTL_PROTOCOL_RLDP2) {
 		/*
 		 * RLDP packets have no payload.
 		 * (XXX - except when they do?  See above.)
 		 */
 		ND_PRINT("RLDP");
 	} else if (rtl_proto == RTL_PROTOCOL_XXX_DSA)
 		ND_PRINT("Realtek 8-byte DSA tag");
 	else if ((rtl_proto & 0xF0) == RTL_PROTOCOL_8306_DSA)
 		ND_PRINT("Realtek RTL8306 4-byte DSA tag");
 	else if ((rtl_proto & 0xF0) == RTL_PROTOCOL_8366RB_DSA)
 		ND_PRINT("Realtek RTL8366RB 4-byte DSA tag");
 	else
 		ND_PRINT("Realtek unknown type 0x%02x", rtl_proto);
 }
	/*
	* Copyright (c) 2007 - Andrey "nording" Chernyak <[email protected]>
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that: (1) source code distributions
	* retain the above copyright notice and this paragraph in its entirety, (2)
	* distributions including binary code include the above copyright notice and
	* this paragraph in its entirety in the documentation or other materials
	* provided with the distribution, and (3) all advertising materials mentioning
	* features or use of this software display the following acknowledgement:
	* ``This product includes software developed by the University of California,
	* Lawrence Berkeley Laboratory and its contributors.'' Neither the name of
	* the University nor the names of its contributors may be used to endorse
	* or promote products derived from this software without specific prior
	* written permission.
	* THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED
	* WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF
	* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
	*
	* Format and print Realtek Remote Control Protocol (RRCP), Realtek
	* Loop Detection Protocol (RLDP), and Realtek Echo Protocol (REP) packets,
	* as well as tag formats used by some Realtek switch chips to supply
	* tag information to a host CPU for a switch.
	*/

	/* \summary: printer for various Realtek protocols */

	#ifdef HAVE_CONFIG_H
	#include <config.h>
	#endif

	#include "netdissect-stdinc.h"

	#include "netdissect.h"
	#include "addrtoname.h"
	#include "extract.h"

	#define RTL_PROTOCOL_OFFSET 0 /* Protocol and possibly other data - 1 byte */

	#define RTL_PROTOCOL_RRCP 0x01 /* RRCP */
	#define RTL_PROTOCOL_REP 0x02 /* REP */
	#define RTL_PROTOCOL_RLDP 0x03 /* RLDP */
	#define RTL_PROTOCOL_RLDP2 0x23 /* also RLDP */
	#define RTL_PROTOCOL_XXX_DSA 0x04 /* DSA protocol for some chip(s) */

	/*
	* Values for the upper 4 bits of the protocol field, for
	* protocols where the lower 4 bits contain protocol data.
	*
	* See section 8.10 "CPU Tag Function" of
	*
	* http://realtek.info/pdf/rtl8306sd%28m%29_datasheet_1.1.pdf
	*
	* for the RTL8306 DSA protocol tag format.
	*/
	#define RTL_PROTOCOL_8306_DSA 0x90 /* RTL8306 DSA protocol */
	#define RTL_PROTOCOL_8366RB_DSA 0xA0 /* RTL8366RB DSA protocol */

	#define RRCP_OPCODE_ISREPLY_OFFSET 1 /* opcode and isreply flag - 1 byte */

	#define RRCP_OPCODE_MASK 0x7F /* 0x00 = hello, 0x01 = get, 0x02 = set */
	#define RRCP_ISREPLY 0x80 /* 0 = request to switch, 0x80 = reply from switch */

	#define RRCP_OPCODE_HELLO 0x00
	#define RRCP_OPCODE_GET_CONFIGURATION 0x01
	#define RRCP_OPCODE_SET_CONFIGURATION 0x02

	#define RRCP_AUTHKEY_OFFSET 2 /* authorization key - 2 bytes, 0x2379 by default */

	/* most packets */
	#define RRCP_REG_ADDR_OFFSET 4 /* register address - 2 bytes */
	#define RRCP_REG_DATA_OFFSET 6 /* register data - 4 bytes */
	#define RRCP_COOKIE1_OFFSET 10 /* 4 bytes */
	#define RRCP_COOKIE2_OFFSET 14 /* 4 bytes */

	/* hello reply packets */
	#define RRCP_DOWNLINK_PORT_OFFSET 4 /* 1 byte */
	#define RRCP_UPLINK_PORT_OFFSET 5 /* 1 byte */
	#define RRCP_UPLINK_MAC_OFFSET 6 /* 6 byte MAC address */
	#define RRCP_CHIP_ID_OFFSET 12 /* 2 bytes */
	#define RRCP_VENDOR_ID_OFFSET 14 /* 4 bytes */

	static const struct tok opcode_values[] = {
	{ RRCP_OPCODE_HELLO, "hello" },
	{ RRCP_OPCODE_GET_CONFIGURATION, "get" },
	{ RRCP_OPCODE_SET_CONFIGURATION, "set" },
	{ 0, NULL }
	};

	/*
	* Print RRCP packets.
	*
	* See, for example, section 8.20 "Realtek Remote Control Protocol" of
	*
	* http://realtek.info/pdf/rtl8324.pdf
	*
	* and section 7.22 "Realtek Remote Control Protocol" of
	*
	* http://realtek.info/pdf/rtl8326.pdf
	*
	* and this page on the OpenRRCP Wiki:
	*
	* http://openrrcp.org.ru/wiki/rrcp_protocol
	*
	* for information on RRCP.
	*/
	static void
	rrcp_print(netdissect_options *ndo,
	const u_char *cp)
	{
	uint8_t rrcp_opcode;

	ndo->ndo_protocol = "rrcp";
	rrcp_opcode = GET_U_1((cp + RRCP_OPCODE_ISREPLY_OFFSET)) & RRCP_OPCODE_MASK;
	ND_PRINT("RRCP %s: %s",
	((GET_U_1(cp + RRCP_OPCODE_ISREPLY_OFFSET)) & RRCP_ISREPLY) ? "reply" : "query",
	tok2str(opcode_values,"unknown opcode (0x%02x)",rrcp_opcode));
	if (rrcp_opcode==RRCP_OPCODE_GET_CONFIGURATION \|\|
	rrcp_opcode==RRCP_OPCODE_SET_CONFIGURATION){
	ND_PRINT(" addr=0x%04x, data=0x%08x",
	GET_LE_U_2(cp + RRCP_REG_ADDR_OFFSET),
	GET_LE_U_4(cp + RRCP_REG_DATA_OFFSET));
	}
	ND_PRINT(", auth=0x%04x",
	GET_BE_U_2(cp + RRCP_AUTHKEY_OFFSET));
	if (rrcp_opcode==RRCP_OPCODE_HELLO &&
	((GET_U_1(cp + RRCP_OPCODE_ISREPLY_OFFSET)) & RRCP_ISREPLY)){
	ND_PRINT(" downlink_port=%u, uplink_port=%u, uplink_mac=%s, vendor_id=%08x ,chip_id=%04x ",
	GET_U_1(cp + RRCP_DOWNLINK_PORT_OFFSET),
	GET_U_1(cp + RRCP_UPLINK_PORT_OFFSET),
	GET_ETHERADDR_STRING(cp + RRCP_UPLINK_MAC_OFFSET),
	GET_BE_U_4(cp + RRCP_VENDOR_ID_OFFSET),
	GET_BE_U_2(cp + RRCP_CHIP_ID_OFFSET));
	}else if (rrcp_opcode==RRCP_OPCODE_GET_CONFIGURATION \|\|
	rrcp_opcode==RRCP_OPCODE_SET_CONFIGURATION){
	ND_PRINT(", cookie=0x%08x%08x ",
	GET_BE_U_4(cp + RRCP_COOKIE2_OFFSET),
	GET_BE_U_4(cp + RRCP_COOKIE1_OFFSET));
	}
	}

	/*
	* Print Realtek packets.
	*
	* See, for example, section 8.22 "Realtek Echo Protocol" of
	*
	* http://realtek.info/pdf/rtl8324.pdf
	*
	* and section 7.24 "Realtek Echo Protocol" of
	*
	* http://realtek.info/pdf/rtl8326.pdf
	*
	* for information on REP.
	*
	* See section 8.21 "Network Loop Connection Fault Detection" of
	*
	* http://realtek.info/pdf/rtl8324.pdf
	*
	* and section 7.23 "Network Loop Connection Fault Detection" of
	*
	* http://realtek.info/pdf/rtl8326.pdf
	*
	* for information on RLDP.
	*
	* See also section 7.3.8 "Loop Detection" of
	*
	* http://www.ibselectronics.com/ibsstore/datasheet/RTL8306E-CG.pdf
	*
	* (revision 1.1 of the RTL8306E-CG datasheet), which describes a loop
	* detection protocol for which the payload has a 16-bit (presumably
	* big-endian) field containing the value 0x0300, followed by what is
	* presumably a 16-bit big-endian field the upper 12 bits of which are 0
	* and the lower 4 bits of which are a TTL value, followed by zeroes to
	* pad the packet out to the minimum Ethernet packet size.
	*
	* See also section 7.3.13 "Loop Detection" of
	*
	* http://realtek.info/pdf/rtl8305sb.pdf
	*
	* (revision 1.3 of the RTL8305SB datasheet), which describes a similar
	* loop detection protocol that lacks the TTL field - all the bytes
	* after 0x0300 are zero.
	*
	* See also section 7.3.7 "Loop Detection" of
	*
	* https://datasheet.lcsc.com/lcsc/1810221720_Realtek-Semicon-RTL8305NB-CG_C52146.pdf
	*
	* (revision 1.0 of the RTL8305NB-CT datasheet), which describes a loop
	* detection protocol similar to the one from the RTL8306E-CG datasheet,
	* except that the first value is 0x2300, not 0x0300.
	*
	* And, on top of all that, I've seen packets where the first octet of
	* the packet is 0x23, and that's followed by 6 unknown octets (a MAC
	* address of some sort? It differs from packet to packet in a capture),
	* followed by the MAC address that appears in the source address in the
	* Ethernet header (possibly the originator, in case the packet is forwarded,
	* in which case the forwarded packets won't have the source address from
	* the Ethernet header there), followed by unknown stuff (0x0d followed by
	* zeroes for all such packets in one capture, 0x01 followed by zeroes for
	* all such packets in another capture, 0x07 followed by 0x20's for all
	* such packets in yet another capture). The OpenRRCP issue at
	* https://github.com/illarionov/OpenRRCP/issues/3 shows a capture
	* similar to the last of those, but with 0x02 instead of 0x07. Or is that
	* just crap in the buffer in which the chip constructed the packet, left
	* over from something else?
	*/
	void
	rtl_print(netdissect_options *ndo,
	const u_char *cp,
	u_int length _U_,
	const struct lladdr_info *src,
	const struct lladdr_info *dst)
	{
	uint8_t rtl_proto;

	ndo->ndo_protocol = "rtl";

	if (src != NULL && dst != NULL) {
	ND_PRINT("%s > %s, ",
	(src->addr_string)(ndo, src->addr),
	(dst->addr_string)(ndo, dst->addr));
	}

	rtl_proto = GET_U_1(cp + RTL_PROTOCOL_OFFSET);

	if (rtl_proto == RTL_PROTOCOL_RRCP)
	rrcp_print(ndo, cp);
	else if (rtl_proto == RTL_PROTOCOL_REP) {
	/*
	* REP packets have no payload.
	*/
	ND_PRINT("REP");
	} else if (rtl_proto == RTL_PROTOCOL_RLDP \|\|
	rtl_proto == RTL_PROTOCOL_RLDP2) {
	/*
	* RLDP packets have no payload.
	* (XXX - except when they do? See above.)
	*/
	ND_PRINT("RLDP");
	} else if (rtl_proto == RTL_PROTOCOL_XXX_DSA)
	ND_PRINT("Realtek 8-byte DSA tag");
	else if ((rtl_proto & 0xF0) == RTL_PROTOCOL_8306_DSA)
	ND_PRINT("Realtek RTL8306 4-byte DSA tag");
	else if ((rtl_proto & 0xF0) == RTL_PROTOCOL_8366RB_DSA)
	ND_PRINT("Realtek RTL8366RB 4-byte DSA tag");
	else
	ND_PRINT("Realtek unknown type 0x%02x", rtl_proto);
	}