Ethereal-dev: [Ethereal-dev] Improved iSCSI dissector
Note: This archive is from the project's previous web site, ethereal.com. This list is no longer active.
From: Mark Burton <markb@xxxxxxxxxx>
Date: Sun, 21 Oct 2001 11:23:05 +0100 (BST)
[IPS people please note that this code is currently only tested against the CVS version of ethereal - I don't know if it will work with the latest release] Folks, The enclosed code contains the following improvements: 1 - Compatible with 08 version of the protocol 2 - Handles both header and data digests 3 - Supports desegmentation 4 - Dissects multiple PDUs per packet 5 - Stronger heuristics to avoid dissecting non-iSCSI packets 6 - General rationalisation and de-crufting! The old code that attempted to automatically detect the presence of a header digest has been removed. You now have to specify in the iSCSI preferences whether digests are enabled and if they are, whether they are CRC32 or not. If not CRC32, you also need to specify the size of the digests (in bytes). Another new option specifies the iSCSI port number. This is used in the heuristics to filter out packets with silly port numbers, set to 0 to disable the port filter. One problem that I haven't been able to track down is that if desegmentation is enabled and you turn digests on or off ethereal throws a SEGV. Feedback to markb@xxxxxxxxxx please. Cheers, Mark
/* packet-iscsi.c * Routines for iSCSI dissection * Copyright 2001, Eurologic and Mark Burton <markb@xxxxxxxxxx> * * Conforms to the protocol described in: draft-ietf-ips-iscsi-08.txt * * $Id: packet-iscsi.c,v 1.12 2001/10/20 18:30:50 guy Exp $ * * Ethereal - Network traffic analyzer * By Gerald Combs <gerald@xxxxxxxxxxxx> * Copyright 1998 Gerald Combs * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include <stdio.h> #include <stdlib.h> #include <string.h> #ifdef HAVE_SYS_TYPES_H # include <sys/types.h> #endif #ifdef HAVE_NETINET_IN_H # include <netinet/in.h> #endif #include <glib.h> #ifdef NEED_SNPRINTF_H # include "snprintf.h" #endif #include "packet.h" #include "prefs.h" static uint iscsi_desegment = TRUE; static int enable_bogosity_filter = TRUE; static guint32 bogus_pdu_data_length_threshold = 256 * 1024; static int enableDataDigests = FALSE; static int enableHeaderDigests = FALSE; static int dataDigestIsCRC32 = TRUE; static int headerDigestIsCRC32 = TRUE; static int dataDigestSize = 4; static int headerDigestSize = 4; static uint iscsi_port = 5003; /* Initialize the protocol and registered fields */ static int proto_iscsi = -1; static int hf_iscsi_AHS = -1; static int hf_iscsi_Padding = -1; static int hf_iscsi_ping_data = -1; static int hf_iscsi_immediate_data = -1; static int hf_iscsi_sense_data = -1; static int hf_iscsi_write_data = -1; static int hf_iscsi_read_data = -1; static int hf_iscsi_error_pdu_data = -1; static int hf_iscsi_Opcode = -1; static int hf_iscsi_Flags = -1; static int hf_iscsi_HeaderDigest = -1; static int hf_iscsi_HeaderDigest32 = -1; static int hf_iscsi_DataDigest = -1; static int hf_iscsi_DataDigest32 = -1; static int hf_iscsi_X = -1; static int hf_iscsi_I = -1; static int hf_iscsi_SCSICommand_F = -1; static int hf_iscsi_SCSICommand_R = -1; static int hf_iscsi_SCSICommand_W = -1; static int hf_iscsi_SCSICommand_Attr = -1; static int hf_iscsi_SCSICommand_CRN = -1; static int hf_iscsi_SCSICommand_AddCDB = -1; static int hf_iscsi_DataSegmentLength = -1; static int hf_iscsi_TotalAHSLength = -1; static int hf_iscsi_LUN = -1; static int hf_iscsi_InitiatorTaskTag = -1; static int hf_iscsi_ExpectedDataTransferLength = -1; static int hf_iscsi_CmdSN = -1; static int hf_iscsi_ExpStatSN = -1; static int hf_iscsi_SCSICommand_CDB = -1; static int hf_iscsi_SCSICommand_CDB0 = -1; static int hf_iscsi_StatSN = -1; static int hf_iscsi_ExpCmdSN = -1; static int hf_iscsi_MaxCmdSN = -1; static int hf_iscsi_SCSIResponse_o = -1; static int hf_iscsi_SCSIResponse_u = -1; static int hf_iscsi_SCSIResponse_O = -1; static int hf_iscsi_SCSIResponse_U = -1; static int hf_iscsi_SCSIResponse_BidiReadResidualCount = -1; static int hf_iscsi_SCSIResponse_ResidualCount = -1; static int hf_iscsi_SCSIResponse_Response = -1; static int hf_iscsi_SCSIResponse_Status = -1; static int hf_iscsi_SCSIData_F = -1; static int hf_iscsi_SCSIData_S = -1; static int hf_iscsi_SCSIData_O = -1; static int hf_iscsi_SCSIData_U = -1; static int hf_iscsi_TargetTransferTag = -1; static int hf_iscsi_DataSN = -1; static int hf_iscsi_BufferOffset = -1; static int hf_iscsi_SCSIData_ResidualCount = -1; static int hf_iscsi_VersionMin = -1; static int hf_iscsi_VersionMax = -1; static int hf_iscsi_VersionActive = -1; static int hf_iscsi_CID = -1; static int hf_iscsi_ISID = -1; static int hf_iscsi_TSID = -1; static int hf_iscsi_InitStatSN = -1; static int hf_iscsi_InitCmdSN = -1; static int hf_iscsi_Login_T = -1; static int hf_iscsi_Login_CSG = -1; static int hf_iscsi_Login_NSG = -1; static int hf_iscsi_Login_Stage = -1; static int hf_iscsi_Login_Status = -1; static int hf_iscsi_KeyValue = -1; static int hf_iscsi_Text_F = -1; static int hf_iscsi_ExpDataSN = -1; static int hf_iscsi_R2TSN = -1; static int hf_iscsi_SCSITask_ReferencedTaskTag = -1; static int hf_iscsi_RefCmdSN = -1; static int hf_iscsi_SCSITask_Function = -1; static int hf_iscsi_SCSITask_Response = -1; static int hf_iscsi_Logout_Reason = -1; static int hf_iscsi_Logout_Response = -1; static int hf_iscsi_Time2Wait = -1; static int hf_iscsi_Time2Retain = -1; static int hf_iscsi_DesiredDataLength = -1; static int hf_iscsi_AsyncEvent = -1; static int hf_iscsi_EventVendorCode = -1; static int hf_iscsi_Parameter1 = -1; static int hf_iscsi_Parameter2 = -1; static int hf_iscsi_Parameter3 = -1; static int hf_iscsi_Reject_Reason = -1; static int hf_iscsi_snack_type = -1; static int hf_iscsi_BegRun = -1; static int hf_iscsi_RunLength = -1; /* Initialize the subtree pointers */ static gint ett_iscsi_KeyValues = -1; static gint ett_iscsi_CDB = -1; static gint ett_iscsi_Flags = -1; #define X_BIT 0x80 #define I_BIT 0x40 #define TARGET_OPCODE_BIT 0x20 #define ISCSI_OPCODE_NOP_OUT 0x00 #define ISCSI_OPCODE_SCSI_COMMAND 0x01 #define ISCSI_OPCODE_SCSI_TASK_MANAGEMENT_COMMAND 0x02 #define ISCSI_OPCODE_LOGIN_COMMAND 0x03 #define ISCSI_OPCODE_TEXT_COMMAND 0x04 #define ISCSI_OPCODE_SCSI_DATA_OUT 0x05 #define ISCSI_OPCODE_LOGOUT_COMMAND 0x06 #define ISCSI_OPCODE_SNACK_REQUEST 0x10 #define ISCSI_OPCODE_NOP_IN (0x20 | X_BIT | I_BIT) #define ISCSI_OPCODE_SCSI_RESPONSE (0x21 | X_BIT | I_BIT) #define ISCSI_OPCODE_SCSI_TASK_MANAGEMENT_RESPONSE (0x22 | X_BIT | I_BIT) #define ISCSI_OPCODE_LOGIN_RESPONSE (0x23 | X_BIT | I_BIT) #define ISCSI_OPCODE_TEXT_RESPONSE (0x24 | X_BIT | I_BIT) #define ISCSI_OPCODE_SCSI_DATA_IN (0x25 | X_BIT | I_BIT) #define ISCSI_OPCODE_LOGOUT_RESPONSE (0x26 | X_BIT | I_BIT) #define ISCSI_OPCODE_R2T (0x31 | X_BIT | I_BIT) #define ISCSI_OPCODE_ASYNC_MESSAGE (0x32 | X_BIT | I_BIT) #define ISCSI_OPCODE_REJECT (0x3f | X_BIT | I_BIT) #define CSG_MASK 0x0c static const value_string iscsi_opcodes[] = { { ISCSI_OPCODE_NOP_OUT, "NOP Out" }, { ISCSI_OPCODE_SCSI_COMMAND, "SCSI Command" }, { ISCSI_OPCODE_SCSI_TASK_MANAGEMENT_COMMAND, "SCSI Task Management Command" }, { ISCSI_OPCODE_LOGIN_COMMAND, "Login Command" }, { ISCSI_OPCODE_TEXT_COMMAND, "Text Command" }, { ISCSI_OPCODE_SCSI_DATA_OUT, "SCSI Write Data" }, { ISCSI_OPCODE_LOGOUT_COMMAND, "Logout Command" }, { ISCSI_OPCODE_SNACK_REQUEST, "SNACK Request" }, { ISCSI_OPCODE_NOP_IN, "NOP In" }, { ISCSI_OPCODE_SCSI_RESPONSE, "SCSI Command Response" }, { ISCSI_OPCODE_SCSI_TASK_MANAGEMENT_RESPONSE, "SCSI Task Management Response" }, { ISCSI_OPCODE_LOGIN_RESPONSE, "Login Response" }, { ISCSI_OPCODE_TEXT_RESPONSE, "Text Response" }, { ISCSI_OPCODE_SCSI_DATA_IN, "SCSI Read Data" }, { ISCSI_OPCODE_LOGOUT_RESPONSE, "Logout Response" }, { ISCSI_OPCODE_R2T, "Ready To Transfer" }, { ISCSI_OPCODE_ASYNC_MESSAGE, "Asynchronous Message" }, { ISCSI_OPCODE_REJECT, "Reject"}, {0, NULL}, }; static const true_false_string iscsi_meaning_X = { "Retry", "Not retry" }; static const true_false_string iscsi_meaning_I = { "Immediate delivery", "Queued delivery" }; static const true_false_string iscsi_meaning_F = { "Final PDU in sequence", "Not final PDU in sequence" }; static const true_false_string iscsi_meaning_T = { "Transit to next login stage", "Stay in current login stage" }; static const true_false_string iscsi_meaning_S = { "Response contains SCSI status", "Response does not contain SCSI status" }; static const true_false_string iscsi_meaning_R = { "Data will be read from target", "No data will be read from target" }; static const true_false_string iscsi_meaning_W = { "Data will be written to target", "No data will be written to target" }; static const true_false_string iscsi_meaning_o = { "Read part of bi-directional command overflowed", "No overflow of read part of bi-directional command", }; static const true_false_string iscsi_meaning_u = { "Read part of bi-directional command underflowed", "No underflow of read part of bi-directional command", }; static const true_false_string iscsi_meaning_O = { "Residual overflow occurred", "No residual overflow occurred", }; static const true_false_string iscsi_meaning_U = { "Residual underflow occurred", "No residual underflow occurred", }; static const value_string iscsi_scsi_responses[] = { { 0, "Command completed at target" }, { 1, "Response does not contain SCSI status"}, { 0, NULL } }; static const value_string iscsi_scsicommand_taskattrs[] = { {0, "Untagged"}, {1, "Simple"}, {2, "Ordered"}, {3, "Head of Queue"}, {4, "ACA"}, {0, NULL}, }; static const value_string iscsi_scsi_cdb0[] = { {0x00, "TEST_UNIT_READY"}, {0x01, "REZERO_UNIT"}, {0x03, "REQUEST_SENSE"}, {0x04, "FORMAT_UNIT"}, {0x05, "READ_BLOCK_LIMITS"}, {0x07, "REASSIGN_BLOCKS"}, {0x08, "READ_6"}, {0x0a, "WRITE_6"}, {0x0b, "SEEK_6"}, {0x0f, "READ_REVERSE"}, {0x10, "WRITE_FILEMARKS"}, {0x11, "SPACE"}, {0x12, "INQUIRY"}, {0x14, "RECOVER_BUFFERED_DATA"}, {0x15, "MODE_SELECT"}, {0x16, "RESERVE"}, {0x17, "RELEASE"}, {0x18, "COPY"}, {0x19, "ERASE"}, {0x1a, "MODE_SENSE"}, {0x1b, "START_STOP"}, {0x1c, "RECEIVE_DIAGNOSTIC"}, {0x1d, "SEND_DIAGNOSTIC"}, {0x1e, "ALLOW_MEDIUM_REMOVAL"}, {0x24, "SET_WINDOW"}, {0x25, "READ_CAPACITY"}, {0x28, "READ_10"}, {0x2a, "WRITE_10"}, {0x2b, "SEEK_10"}, {0x2e, "WRITE_VERIFY"}, {0x2f, "VERIFY"}, {0x30, "SEARCH_HIGH"}, {0x31, "SEARCH_EQUAL"}, {0x32, "SEARCH_LOW"}, {0x33, "SET_LIMITS"}, {0x34, "PRE_FETCH"}, {0x34, "READ_POSITION"}, {0x35, "SYNCHRONIZE_CACHE"}, {0x36, "LOCK_UNLOCK_CACHE"}, {0x37, "READ_DEFECT_DATA"}, {0x38, "MEDIUM_SCAN"}, {0x39, "COMPARE"}, {0x3a, "COPY_VERIFY"}, {0x3b, "WRITE_BUFFER"}, {0x3c, "READ_BUFFER"}, {0x3d, "UPDATE_BLOCK"}, {0x3e, "READ_LONG"}, {0x3f, "WRITE_LONG"}, {0x40, "CHANGE_DEFINITION"}, {0x41, "WRITE_SAME"}, {0x43, "READ_TOC"}, {0x4c, "LOG_SELECT"}, {0x4d, "LOG_SENSE"}, {0x55, "MODE_SELECT_10"}, {0x5a, "MODE_SENSE_10"}, {0xa5, "MOVE_MEDIUM"}, {0xa8, "READ_12"}, {0xaa, "WRITE_12"}, {0xae, "WRITE_VERIFY_12"}, {0xb0, "SEARCH_HIGH_12"}, {0xb1, "SEARCH_EQUAL_12"}, {0xb2, "SEARCH_LOW_12"}, {0xb8, "READ_ELEMENT_STATUS"}, {0xb6, "SEND_VOLUME_TAG"}, {0xea, "WRITE_LONG_2"}, {0, NULL}, }; static const value_string iscsi_scsi_statuses[] = { {0x00, "Good"}, {0x01, "Check condition"}, {0x02, "Condition good"}, {0x04, "Busy"}, {0x08, "Intermediate good"}, {0x0a, "Intermediate c good"}, {0x0c, "Reservation conflict"}, {0x11, "Command terminated"}, {0x14, "Queue full"}, {0, NULL}, }; static const value_string iscsi_task_responses[] = { {0, "Function complete"}, {1, "Task not in task set"}, {2, "LUN does not exist"}, {255, "Function rejected"}, {0, NULL}, }; static const value_string iscsi_task_functions[] = { {1, "Abort Task"}, {2, "Abort Task Set"}, {3, "Clear ACA"}, {4, "Clear Task Set"}, {5, "Logical Unit Reset"}, {6, "Target Warm Reset"}, {7, "Target Cold Reset"}, {0, NULL}, }; static const value_string iscsi_login_status[] = { {0x0000, "Success"}, {0x0101, "Target moved temporarily"}, {0x0102, "Target moved permanently"}, {0x0200, "Initiator error (miscellaneous error)"}, {0x0201, "Athentication failed"}, {0x0202, "Authorisation failure"}, {0x0203, "Target not found"}, {0x0204, "Target removed"}, {0x0205, "Unsupported version"}, {0x0206, "Too many connections"}, {0x0207, "Missing parameter"}, {0x0208, "Can't include in session"}, {0x0209, "Session type not supported"}, {0x0300, "Target error (miscellaneous error)"}, {0x0301, "Service unavailable"}, {0x0302, "Out of resources"}, {0, NULL}, }; static const value_string iscsi_login_stage[] = { {0, "Security negotiation"}, {1, "Operational negotiation"}, {3, "Full feature phase"}, {0, NULL}, }; static const value_string iscsi_logout_reasons[] = { {0, "Close session"}, {1, "Close connection"}, {2, "Remove connection for recovery"}, {0, NULL}, }; static const value_string iscsi_logout_response[] = { {0, "Connection closed successfully"}, {1, "CID not found"}, {2, "Connection recovery not supported"}, {3, "Cleanup failed for various reasons"}, {0, NULL}, }; static const value_string iscsi_asyncevents[] = { {0, "A SCSI asynchronous event is reported in the sense data"}, {1, "Target requests logout"}, {2, "Target will/has dropped connection"}, {3, "Target will/has dropped all connections"}, {0, NULL}, }; static const value_string iscsi_snack_types[] = { {0, "Data/R2T"}, {1, "Status"}, {0, NULL} }; static const value_string iscsi_reject_reasons[] = { {0x01, "Full feature phase command before login"}, {0x02, "Data (payload) digest error"}, {0x03, "Data SNACK reject"}, {0x04, "Protocol error"}, {0x05, "Command not supported in this session type"}, {0x06, "Immediate command reject (too many immediate commands)"}, {0x07, "Task in progress"}, {0x08, "Invalid SNACK"}, {0x09, "Bookmark reject (no bookmark for this initiator task tag)"}, {0x0a, "Bookmark reject (can't generate bookmark - out of resources)"}, {0x0b, "Negotiation reset"}, {0, NULL}, }; /*****************************************************************/ /* */ /* CRC LOOKUP TABLE */ /* ================ */ /* The following CRC lookup table was generated automagically */ /* by the Rocksoft^tm Model CRC Algorithm Table Generation */ /* Program V1.0 using the following model parameters: */ /* */ /* Width : 4 bytes. */ /* Poly : 0x1EDC6F41L */ /* Reverse : TRUE. */ /* */ /* For more information on the Rocksoft^tm Model CRC Algorithm, */ /* see the document titled "A Painless Guide to CRC Error */ /* Detection Algorithms" by Ross Williams */ /* (ross@xxxxxxxxxxxxxxxxxxxxx.). This document is likely to be */ /* in the FTP archive "ftp.adelaide.edu.au/pub/rocksoft". */ /* */ /*****************************************************************/ static guint32 crc32Table[256] = { 0x00000000L, 0xF26B8303L, 0xE13B70F7L, 0x1350F3F4L, 0xC79A971FL, 0x35F1141CL, 0x26A1E7E8L, 0xD4CA64EBL, 0x8AD958CFL, 0x78B2DBCCL, 0x6BE22838L, 0x9989AB3BL, 0x4D43CFD0L, 0xBF284CD3L, 0xAC78BF27L, 0x5E133C24L, 0x105EC76FL, 0xE235446CL, 0xF165B798L, 0x030E349BL, 0xD7C45070L, 0x25AFD373L, 0x36FF2087L, 0xC494A384L, 0x9A879FA0L, 0x68EC1CA3L, 0x7BBCEF57L, 0x89D76C54L, 0x5D1D08BFL, 0xAF768BBCL, 0xBC267848L, 0x4E4DFB4BL, 0x20BD8EDEL, 0xD2D60DDDL, 0xC186FE29L, 0x33ED7D2AL, 0xE72719C1L, 0x154C9AC2L, 0x061C6936L, 0xF477EA35L, 0xAA64D611L, 0x580F5512L, 0x4B5FA6E6L, 0xB93425E5L, 0x6DFE410EL, 0x9F95C20DL, 0x8CC531F9L, 0x7EAEB2FAL, 0x30E349B1L, 0xC288CAB2L, 0xD1D83946L, 0x23B3BA45L, 0xF779DEAEL, 0x05125DADL, 0x1642AE59L, 0xE4292D5AL, 0xBA3A117EL, 0x4851927DL, 0x5B016189L, 0xA96AE28AL, 0x7DA08661L, 0x8FCB0562L, 0x9C9BF696L, 0x6EF07595L, 0x417B1DBCL, 0xB3109EBFL, 0xA0406D4BL, 0x522BEE48L, 0x86E18AA3L, 0x748A09A0L, 0x67DAFA54L, 0x95B17957L, 0xCBA24573L, 0x39C9C670L, 0x2A993584L, 0xD8F2B687L, 0x0C38D26CL, 0xFE53516FL, 0xED03A29BL, 0x1F682198L, 0x5125DAD3L, 0xA34E59D0L, 0xB01EAA24L, 0x42752927L, 0x96BF4DCCL, 0x64D4CECFL, 0x77843D3BL, 0x85EFBE38L, 0xDBFC821CL, 0x2997011FL, 0x3AC7F2EBL, 0xC8AC71E8L, 0x1C661503L, 0xEE0D9600L, 0xFD5D65F4L, 0x0F36E6F7L, 0x61C69362L, 0x93AD1061L, 0x80FDE395L, 0x72966096L, 0xA65C047DL, 0x5437877EL, 0x4767748AL, 0xB50CF789L, 0xEB1FCBADL, 0x197448AEL, 0x0A24BB5AL, 0xF84F3859L, 0x2C855CB2L, 0xDEEEDFB1L, 0xCDBE2C45L, 0x3FD5AF46L, 0x7198540DL, 0x83F3D70EL, 0x90A324FAL, 0x62C8A7F9L, 0xB602C312L, 0x44694011L, 0x5739B3E5L, 0xA55230E6L, 0xFB410CC2L, 0x092A8FC1L, 0x1A7A7C35L, 0xE811FF36L, 0x3CDB9BDDL, 0xCEB018DEL, 0xDDE0EB2AL, 0x2F8B6829L, 0x82F63B78L, 0x709DB87BL, 0x63CD4B8FL, 0x91A6C88CL, 0x456CAC67L, 0xB7072F64L, 0xA457DC90L, 0x563C5F93L, 0x082F63B7L, 0xFA44E0B4L, 0xE9141340L, 0x1B7F9043L, 0xCFB5F4A8L, 0x3DDE77ABL, 0x2E8E845FL, 0xDCE5075CL, 0x92A8FC17L, 0x60C37F14L, 0x73938CE0L, 0x81F80FE3L, 0x55326B08L, 0xA759E80BL, 0xB4091BFFL, 0x466298FCL, 0x1871A4D8L, 0xEA1A27DBL, 0xF94AD42FL, 0x0B21572CL, 0xDFEB33C7L, 0x2D80B0C4L, 0x3ED04330L, 0xCCBBC033L, 0xA24BB5A6L, 0x502036A5L, 0x4370C551L, 0xB11B4652L, 0x65D122B9L, 0x97BAA1BAL, 0x84EA524EL, 0x7681D14DL, 0x2892ED69L, 0xDAF96E6AL, 0xC9A99D9EL, 0x3BC21E9DL, 0xEF087A76L, 0x1D63F975L, 0x0E330A81L, 0xFC588982L, 0xB21572C9L, 0x407EF1CAL, 0x532E023EL, 0xA145813DL, 0x758FE5D6L, 0x87E466D5L, 0x94B49521L, 0x66DF1622L, 0x38CC2A06L, 0xCAA7A905L, 0xD9F75AF1L, 0x2B9CD9F2L, 0xFF56BD19L, 0x0D3D3E1AL, 0x1E6DCDEEL, 0xEC064EEDL, 0xC38D26C4L, 0x31E6A5C7L, 0x22B65633L, 0xD0DDD530L, 0x0417B1DBL, 0xF67C32D8L, 0xE52CC12CL, 0x1747422FL, 0x49547E0BL, 0xBB3FFD08L, 0xA86F0EFCL, 0x5A048DFFL, 0x8ECEE914L, 0x7CA56A17L, 0x6FF599E3L, 0x9D9E1AE0L, 0xD3D3E1ABL, 0x21B862A8L, 0x32E8915CL, 0xC083125FL, 0x144976B4L, 0xE622F5B7L, 0xF5720643L, 0x07198540L, 0x590AB964L, 0xAB613A67L, 0xB831C993L, 0x4A5A4A90L, 0x9E902E7BL, 0x6CFBAD78L, 0x7FAB5E8CL, 0x8DC0DD8FL, 0xE330A81AL, 0x115B2B19L, 0x020BD8EDL, 0xF0605BEEL, 0x24AA3F05L, 0xD6C1BC06L, 0xC5914FF2L, 0x37FACCF1L, 0x69E9F0D5L, 0x9B8273D6L, 0x88D28022L, 0x7AB90321L, 0xAE7367CAL, 0x5C18E4C9L, 0x4F48173DL, 0xBD23943EL, 0xF36E6F75L, 0x0105EC76L, 0x12551F82L, 0xE03E9C81L, 0x34F4F86AL, 0xC69F7B69L, 0xD5CF889DL, 0x27A40B9EL, 0x79B737BAL, 0x8BDCB4B9L, 0x988C474DL, 0x6AE7C44EL, 0xBE2DA0A5L, 0x4C4623A6L, 0x5F16D052L, 0xAD7D5351L }; #define CRC32C_PRELOAD 0xffffffff static guint32 calculateCRC32(const void *buf, int len, guint32 crc) { guint8 *p = (guint8 *)buf; while(len-- > 0) crc = crc32Table[(crc ^ *p++) & 0xff] ^ (crc >> 8); return crc; } static int iscsi_min(int a, int b) { return (a < b)? a : b; } static gint addTextKeys(proto_tree *tt, tvbuff_t *tvb, gint offset, guint32 text_len) { const gint limit = offset + text_len; while(offset < limit) { gint len = tvb_strnlen(tvb, offset, limit - offset); if(len == -1) len = limit - offset; else len = len + 1; proto_tree_add_item(tt, hf_iscsi_KeyValue, tvb, offset, len, FALSE); offset += len; } return offset; } static gint handleHeaderDigest(proto_item *ti, tvbuff_t *tvb, guint offset, int headerLen) { int available_bytes = tvb_length_remaining(tvb, offset); if(enableHeaderDigests) { if(headerDigestIsCRC32) { if(available_bytes >= (headerLen + 4)) { guint32 crc = ~calculateCRC32(tvb_get_ptr(tvb, offset, headerLen), headerLen, CRC32C_PRELOAD); guint32 sent = tvb_get_ntohl(tvb, offset + headerLen); if(crc == sent) { proto_tree_add_uint_format(ti, hf_iscsi_HeaderDigest32, tvb, offset + headerLen, 4, sent, "HeaderDigest: 0x%08x (Good CRC32)", sent); } else { proto_tree_add_uint_format(ti, hf_iscsi_HeaderDigest32, tvb, offset + headerLen, 4, sent, "HeaderDigest: 0x%08x (Bad CRC32)", sent); } } return offset + headerLen + 4; } if(available_bytes >= (headerLen + headerDigestSize)) { proto_tree_add_item(ti, hf_iscsi_HeaderDigest, tvb, offset + headerLen, headerDigestSize, FALSE); } return offset + headerLen + headerDigestSize; } return offset + headerLen; } static gint handleDataDigest(proto_item *ti, tvbuff_t *tvb, guint offset, int dataLen) { int available_bytes = tvb_length_remaining(tvb, offset); if(enableDataDigests) { if(dataDigestIsCRC32) { if(available_bytes >= (dataLen + 4)) { guint32 crc = ~calculateCRC32(tvb_get_ptr(tvb, offset, dataLen), dataLen, CRC32C_PRELOAD); guint32 sent = tvb_get_ntohl(tvb, offset + dataLen); if(crc == sent) { proto_tree_add_uint_format(ti, hf_iscsi_DataDigest32, tvb, offset + dataLen, 4, sent, "DataDigest: 0x%08x (Good CRC32)", sent); } else { proto_tree_add_uint_format(ti, hf_iscsi_DataDigest32, tvb, offset + dataLen, 4, sent, "DataDigest: 0x%08x (Bad CRC32)", sent); } } return offset + dataLen + 4; } if(available_bytes >= (dataLen + dataDigestSize)) { proto_tree_add_item(ti, hf_iscsi_DataDigest, tvb, offset + dataLen, dataDigestSize, FALSE); } return offset + dataLen + dataDigestSize; } return offset + dataLen; } static int handleDataSegment(proto_item *ti, tvbuff_t *tvb, guint offset, guint dataSegmentLen, guint endOffset, int hf_id) { if(endOffset > offset) { int dataOffset = offset; int dataLen = iscsi_min(dataSegmentLen, endOffset - offset); if(dataLen > 0) { proto_tree_add_item(ti, hf_id, tvb, offset, dataLen, FALSE); offset += dataLen; } if(offset < endOffset && (offset & 3) != 0) { int padding = 4 - (offset & 3); proto_tree_add_item(ti, hf_iscsi_Padding, tvb, offset, padding, FALSE); offset += padding; } if(dataSegmentLen > 0 && offset < endOffset) offset = handleDataDigest(ti, tvb, dataOffset, offset - dataOffset); } return offset; } static int handleDataSegmentAsTextKeys(proto_item *ti, tvbuff_t *tvb, guint offset, guint dataSegmentLen, guint endOffset, int digestsActive) { if(endOffset > offset) { int dataOffset = offset; int textLen = iscsi_min(dataSegmentLen, endOffset - offset); if(textLen > 0) { proto_item *tf = proto_tree_add_text(ti, tvb, offset, textLen, "Key/Value Pairs"); proto_tree *tt = proto_item_add_subtree(tf, ett_iscsi_KeyValues); offset = addTextKeys(tt, tvb, offset, textLen); } if(offset < endOffset && (offset & 3) != 0) { int padding = 4 - (offset & 3); proto_tree_add_item(ti, hf_iscsi_Padding, tvb, offset, padding, FALSE); offset += padding; } if(digestsActive && dataSegmentLen > 0 && offset < endOffset) offset = handleDataDigest(ti, tvb, dataOffset, offset - dataOffset); } return offset; } /* Code to actually dissect the packets */ static void dissect_iscsi_pdu(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, guint offset, guint8 opcode, const char *opcode_str, guint32 data_segment_len) { guint original_offset = offset; proto_item *ti; char *scsi_command_name = NULL; guint cdb_offset = offset + 32; /* offset of CDB from start of PDU */ guint end_offset = offset + tvb_length_remaining(tvb, offset); /* Make entries in Protocol column and Info column on summary display */ if (check_col(pinfo->fd, COL_PROTOCOL)) col_set_str(pinfo->fd, COL_PROTOCOL, "iSCSI"); if (check_col(pinfo->fd, COL_INFO)) { col_add_str(pinfo->fd, COL_INFO, (char *)opcode_str); if((opcode & ~(X_BIT | I_BIT)) == ISCSI_OPCODE_SCSI_COMMAND) { /* SCSI Command */ guint8 cdb0 = tvb_get_guint8(tvb, cdb_offset); scsi_command_name = match_strval(cdb0, iscsi_scsi_cdb0); if(cdb0 == 0x08 || cdb0 == 0x0a) { /* READ_6 and WRITE_6 */ guint lba = tvb_get_ntohl(tvb, cdb_offset) & 0x1fffff; guint len = tvb_get_guint8(tvb, cdb_offset + 4); col_append_fstr(pinfo->fd, COL_INFO, " (%s LBA 0x%06x len 0x%02x)", scsi_command_name, lba, len); } else if(cdb0 == 0x28 || cdb0 == 0x2a) { /* READ_10 and WRITE_10 */ guint lba = tvb_get_ntohl(tvb, cdb_offset + 2); guint len = tvb_get_ntohs(tvb, cdb_offset + 7); col_append_fstr(pinfo->fd, COL_INFO, " (%s LBA 0x%08x len 0x%04x)", scsi_command_name, lba, len); } else if(scsi_command_name != NULL) col_append_fstr(pinfo->fd, COL_INFO, " (%s)", scsi_command_name); } else if(opcode == ISCSI_OPCODE_SCSI_RESPONSE) { /* SCSI Command Response */ const char *blurb = NULL; /* look at response byte */ if(tvb_get_guint8(tvb, offset + 2) == 0) { /* command completed at target */ blurb = match_strval(tvb_get_guint8(tvb, offset + 3) >> 1, iscsi_scsi_statuses); } else blurb = "Target Failure"; if(blurb != NULL) col_append_fstr(pinfo->fd, COL_INFO, " (%s)", blurb); } } /* In the interest of speed, if "tree" is NULL, don't do any work not necessary to generate protocol tree items. */ if (tree) { /* create display subtree for the protocol */ ti = proto_tree_add_protocol_format(tree, proto_iscsi, tvb, offset, 0, "iSCSI (%s)", (char *)opcode_str); proto_tree_add_uint(ti, hf_iscsi_Opcode, tvb, offset + 0, 1, opcode); if((opcode & TARGET_OPCODE_BIT) == 0) { /* initiator -> target */ gint b = tvb_get_guint8(tvb, offset + 0); if(opcode != ISCSI_OPCODE_SCSI_DATA_OUT && opcode != ISCSI_OPCODE_LOGOUT_COMMAND && opcode != ISCSI_OPCODE_SNACK_REQUEST) proto_tree_add_boolean(ti, hf_iscsi_X, tvb, offset + 0, 1, b); if(opcode != ISCSI_OPCODE_SCSI_DATA_OUT) proto_tree_add_boolean(ti, hf_iscsi_I, tvb, offset + 0, 1, b); } if(opcode == ISCSI_OPCODE_NOP_OUT) { /* NOP Out */ proto_tree_add_uint(ti, hf_iscsi_DataSegmentLength, tvb, offset + 5, 3, data_segment_len); proto_tree_add_item(ti, hf_iscsi_LUN, tvb, offset + 8, 8, FALSE); proto_tree_add_item(ti, hf_iscsi_InitiatorTaskTag, tvb, offset + 16, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_TargetTransferTag, tvb, offset + 20, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_CmdSN, tvb, offset + 24, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpStatSN, tvb, offset + 28, 4, FALSE); offset = handleHeaderDigest(ti, tvb, offset, 48); offset = handleDataSegment(ti, tvb, offset, data_segment_len, end_offset, hf_iscsi_ping_data); } else if(opcode == ISCSI_OPCODE_NOP_IN) { /* NOP In */ proto_tree_add_uint(ti, hf_iscsi_DataSegmentLength, tvb, offset + 5, 3, data_segment_len); proto_tree_add_item(ti, hf_iscsi_LUN, tvb, offset + 8, 8, FALSE); proto_tree_add_item(ti, hf_iscsi_InitiatorTaskTag, tvb, offset + 16, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_TargetTransferTag, tvb, offset + 20, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_StatSN, tvb, offset + 24, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpCmdSN, tvb, offset + 28, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_MaxCmdSN, tvb, offset + 32, 4, FALSE); offset = handleHeaderDigest(ti, tvb, offset, 48); offset = handleDataSegment(ti, tvb, offset, data_segment_len, end_offset, hf_iscsi_ping_data); } else if(opcode == ISCSI_OPCODE_SCSI_COMMAND) { /* SCSI Command */ guint32 ahsLen = tvb_get_guint8(tvb, offset + 4) * 4; { gint b = tvb_get_guint8(tvb, offset + 1); proto_item *tf = proto_tree_add_uint(ti, hf_iscsi_Flags, tvb, offset + 1, 1, b); proto_tree *tt = proto_item_add_subtree(tf, ett_iscsi_Flags); proto_tree_add_boolean(tt, hf_iscsi_SCSICommand_F, tvb, offset + 1, 1, b); proto_tree_add_boolean(tt, hf_iscsi_SCSICommand_R, tvb, offset + 1, 1, b); proto_tree_add_boolean(tt, hf_iscsi_SCSICommand_W, tvb, offset + 1, 1, b); proto_tree_add_uint(tt, hf_iscsi_SCSICommand_Attr, tvb, offset + 1, 1, b); } proto_tree_add_item(ti, hf_iscsi_SCSICommand_CRN, tvb, offset + 3, 1, FALSE); proto_tree_add_item(ti, hf_iscsi_TotalAHSLength, tvb, offset + 4, 1, FALSE); proto_tree_add_uint(ti, hf_iscsi_DataSegmentLength, tvb, offset + 5, 3, data_segment_len); proto_tree_add_item(ti, hf_iscsi_LUN, tvb, offset + 8, 8, FALSE); proto_tree_add_item(ti, hf_iscsi_InitiatorTaskTag, tvb, offset + 16, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpectedDataTransferLength, tvb, offset + 20, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_CmdSN, tvb, offset + 24, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpStatSN, tvb, offset + 28, 4, FALSE); { /* dissect a little of the CDB for the most common * commands */ guint8 cdb0 = tvb_get_guint8(tvb, cdb_offset); gint cdb_len = 16; proto_item *tf; /* FIXME - extended CDB */ if(scsi_command_name == NULL) scsi_command_name = match_strval(cdb0, iscsi_scsi_cdb0); if(cdb0 == 0x08 || cdb0 == 0x0a) { /* READ_6 and WRITE_6 */ guint lba = tvb_get_ntohl(tvb, cdb_offset) & 0x1fffff; guint len = tvb_get_guint8(tvb, cdb_offset + 4); tf = proto_tree_add_uint_format(ti, hf_iscsi_SCSICommand_CDB0, tvb, cdb_offset, cdb_len, cdb0, "CDB: %s LBA 0x%06x len 0x%02x", scsi_command_name, lba, len); } else if(cdb0 == 0x28 || cdb0 == 0x2a) { /* READ_10 and WRITE_10 */ guint lba = tvb_get_ntohl(tvb, cdb_offset + 2); guint len = tvb_get_ntohs(tvb, cdb_offset + 7); tf = proto_tree_add_uint_format(ti, hf_iscsi_SCSICommand_CDB0, tvb, cdb_offset, cdb_len, cdb0, "CDB: %s LBA 0x%08x len 0x%04x", scsi_command_name, lba, len); } else tf = proto_tree_add_uint(ti, hf_iscsi_SCSICommand_CDB0, tvb, cdb_offset, cdb_len, cdb0); { proto_tree *tt = proto_item_add_subtree(tf, ett_iscsi_CDB); proto_tree_add_item(tt, hf_iscsi_SCSICommand_CDB, tvb, cdb_offset, cdb_len, FALSE); } if(ahsLen > 0) { /* FIXME - disssect AHS? */ proto_tree_add_item(ti, hf_iscsi_AHS, tvb, offset + 48, ahsLen, FALSE); } offset = handleHeaderDigest(ti, tvb, offset, 48 + ahsLen); } offset = handleDataSegment(ti, tvb, offset, data_segment_len, end_offset, hf_iscsi_immediate_data); } else if(opcode == ISCSI_OPCODE_SCSI_RESPONSE) { /* SCSI Response */ { gint b = tvb_get_guint8(tvb, offset + 1); proto_item *tf = proto_tree_add_uint(ti, hf_iscsi_Flags, tvb, offset + 1, 1, b); proto_tree *tt = proto_item_add_subtree(tf, ett_iscsi_Flags); proto_tree_add_boolean(tt, hf_iscsi_SCSIResponse_o, tvb, offset + 1, 1, b); proto_tree_add_boolean(tt, hf_iscsi_SCSIResponse_u, tvb, offset + 1, 1, b); proto_tree_add_boolean(tt, hf_iscsi_SCSIResponse_O, tvb, offset + 1, 1, b); proto_tree_add_boolean(tt, hf_iscsi_SCSIResponse_U, tvb, offset + 1, 1, b); } proto_tree_add_item(ti, hf_iscsi_SCSIResponse_Response, tvb, offset + 2, 1, FALSE); proto_tree_add_item(ti, hf_iscsi_SCSIResponse_Status, tvb, offset + 3, 1, FALSE); proto_tree_add_uint(ti, hf_iscsi_DataSegmentLength, tvb, offset + 5, 3, data_segment_len); proto_tree_add_item(ti, hf_iscsi_InitiatorTaskTag, tvb, offset + 16, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_SCSIResponse_ResidualCount, tvb, offset + 20, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_StatSN, tvb, offset + 24, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpCmdSN, tvb, offset + 28, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_MaxCmdSN, tvb, offset + 32, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpDataSN, tvb, offset + 36, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_SCSIResponse_BidiReadResidualCount, tvb, offset + 44, 4, FALSE); offset = handleHeaderDigest(ti, tvb, offset, 48); offset = handleDataSegment(ti, tvb, offset, data_segment_len, end_offset, hf_iscsi_sense_data); } else if(opcode == ISCSI_OPCODE_SCSI_TASK_MANAGEMENT_COMMAND) { /* SCSI Task Command */ proto_tree_add_item(ti, hf_iscsi_SCSITask_Function, tvb, offset + 1, 1, FALSE); proto_tree_add_item(ti, hf_iscsi_LUN, tvb, offset + 8, 8, FALSE); proto_tree_add_item(ti, hf_iscsi_InitiatorTaskTag, tvb, offset + 16, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_SCSITask_ReferencedTaskTag, tvb, offset + 20, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_CmdSN, tvb, offset + 24, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpStatSN, tvb, offset + 28, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_RefCmdSN, tvb, offset + 32, 4, FALSE); offset = handleHeaderDigest(ti, tvb, offset, 48); } else if(opcode == ISCSI_OPCODE_SCSI_TASK_MANAGEMENT_RESPONSE) { /* SCSI Task Response */ proto_tree_add_item(ti, hf_iscsi_SCSITask_Response, tvb, offset + 2, 1, FALSE); proto_tree_add_item(ti, hf_iscsi_InitiatorTaskTag, tvb, offset + 16, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_SCSITask_ReferencedTaskTag, tvb, offset + 20, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_StatSN, tvb, offset + 24, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpCmdSN, tvb, offset + 28, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_MaxCmdSN, tvb, offset + 32, 4, FALSE); offset = handleHeaderDigest(ti, tvb, offset, 48); } else if(opcode == ISCSI_OPCODE_LOGIN_COMMAND) { /* Login Command */ int digestsActive = 1; { gint b = tvb_get_guint8(tvb, offset + 1); if((b & CSG_MASK) == 0) { /* current stage is SecurityNegotiation, digests * are not yet turned on */ digestsActive = 0; } #if 0 proto_item *tf = proto_tree_add_uint(ti, hf_iscsi_Flags, tvb, offset + 1, 1, b); proto_tree *tt = proto_item_add_subtree(tf, ett_iscsi_Flags); #endif proto_tree_add_boolean(ti, hf_iscsi_Login_T, tvb, offset + 1, 1, b); proto_tree_add_item(ti, hf_iscsi_Login_CSG, tvb, offset + 1, 1, FALSE); proto_tree_add_item(ti, hf_iscsi_Login_NSG, tvb, offset + 1, 1, FALSE); } proto_tree_add_item(ti, hf_iscsi_VersionMax, tvb, offset + 2, 1, FALSE); proto_tree_add_item(ti, hf_iscsi_VersionMin, tvb, offset + 3, 1, FALSE); proto_tree_add_uint(ti, hf_iscsi_DataSegmentLength, tvb, offset + 5, 3, data_segment_len); proto_tree_add_item(ti, hf_iscsi_CID, tvb, offset + 8, 2, FALSE); proto_tree_add_item(ti, hf_iscsi_ISID, tvb, offset + 12, 2, FALSE); proto_tree_add_item(ti, hf_iscsi_TSID, tvb, offset + 14, 2, FALSE); proto_tree_add_item(ti, hf_iscsi_InitiatorTaskTag, tvb, offset + 16, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_CmdSN, tvb, offset + 24, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpStatSN, tvb, offset + 28, 4, FALSE); if(digestsActive) offset = handleHeaderDigest(ti, tvb, offset, 48); else offset += 48; offset = handleDataSegmentAsTextKeys(ti, tvb, offset, data_segment_len, end_offset, digestsActive); } else if(opcode == ISCSI_OPCODE_LOGIN_RESPONSE) { /* Login Response */ int digestsActive = 1; { gint b = tvb_get_guint8(tvb, offset + 1); if((b & CSG_MASK) == 0) { /* current stage is SecurityNegotiation, digests * are not yet turned on */ digestsActive = 0; } #if 0 proto_item *tf = proto_tree_add_uint(ti, hf_iscsi_Flags, tvb, offset + 1, 1, b); proto_tree *tt = proto_item_add_subtree(tf, ett_iscsi_Flags); #endif proto_tree_add_boolean(ti, hf_iscsi_Login_T, tvb, offset + 1, 1, b); proto_tree_add_item(ti, hf_iscsi_Login_CSG, tvb, offset + 1, 1, FALSE); proto_tree_add_item(ti, hf_iscsi_Login_NSG, tvb, offset + 1, 1, FALSE); } proto_tree_add_item(ti, hf_iscsi_VersionMax, tvb, offset + 2, 1, FALSE); proto_tree_add_item(ti, hf_iscsi_VersionActive, tvb, offset + 3, 1, FALSE); proto_tree_add_uint(ti, hf_iscsi_DataSegmentLength, tvb, offset + 5, 3, data_segment_len); proto_tree_add_item(ti, hf_iscsi_ISID, tvb, offset + 12, 2, FALSE); proto_tree_add_item(ti, hf_iscsi_TSID, tvb, offset + 14, 2, FALSE); proto_tree_add_item(ti, hf_iscsi_InitiatorTaskTag, tvb, offset + 16, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_StatSN, tvb, offset + 24, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpCmdSN, tvb, offset + 28, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_MaxCmdSN, tvb, offset + 32, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_Login_Status, tvb, offset + 36, 2, FALSE); if(digestsActive) offset = handleHeaderDigest(ti, tvb, offset, 48); else offset += 48; offset = handleDataSegmentAsTextKeys(ti, tvb, offset, data_segment_len, end_offset, digestsActive); } else if(opcode == ISCSI_OPCODE_TEXT_COMMAND) { /* Text Command */ { gint b = tvb_get_guint8(tvb, offset + 1); proto_item *tf = proto_tree_add_uint(ti, hf_iscsi_Flags, tvb, offset + 1, 1, b); proto_tree *tt = proto_item_add_subtree(tf, ett_iscsi_Flags); proto_tree_add_boolean(tt, hf_iscsi_Text_F, tvb, offset + 1, 1, b); proto_tree_add_uint(ti, hf_iscsi_DataSegmentLength, tvb, offset + 5, 3, data_segment_len); } proto_tree_add_item(ti, hf_iscsi_InitiatorTaskTag, tvb, offset + 16, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_TargetTransferTag, tvb, offset + 20, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_CmdSN, tvb, offset + 24, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpStatSN, tvb, offset + 28, 4, FALSE); offset = handleHeaderDigest(ti, tvb, offset, 48); offset = handleDataSegmentAsTextKeys(ti, tvb, offset, data_segment_len, end_offset, TRUE); } else if(opcode == ISCSI_OPCODE_TEXT_RESPONSE) { /* Text Response */ { gint b = tvb_get_guint8(tvb, offset + 1); proto_item *tf = proto_tree_add_uint(ti, hf_iscsi_Flags, tvb, offset + 1, 1, b); proto_tree *tt = proto_item_add_subtree(tf, ett_iscsi_Flags); proto_tree_add_boolean(tt, hf_iscsi_Text_F, tvb, offset + 1, 1, b); proto_tree_add_uint(ti, hf_iscsi_DataSegmentLength, tvb, offset + 5, 3, data_segment_len); } proto_tree_add_item(ti, hf_iscsi_InitiatorTaskTag, tvb, offset + 16, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_TargetTransferTag, tvb, offset + 20, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_StatSN, tvb, offset + 24, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpCmdSN, tvb, offset + 28, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_MaxCmdSN, tvb, offset + 32, 4, FALSE); offset = handleHeaderDigest(ti, tvb, offset, 48); offset = handleDataSegmentAsTextKeys(ti, tvb, offset, data_segment_len, end_offset, TRUE); } else if(opcode == ISCSI_OPCODE_SCSI_DATA_OUT) { /* SCSI Data Out (write) */ { gint b = tvb_get_guint8(tvb, offset + 1); proto_item *tf = proto_tree_add_uint(ti, hf_iscsi_Flags, tvb, offset + 1, 1, b); proto_tree *tt = proto_item_add_subtree(tf, ett_iscsi_Flags); proto_tree_add_boolean(tt, hf_iscsi_SCSIData_F, tvb, offset + 1, 1, b); } proto_tree_add_uint(ti, hf_iscsi_DataSegmentLength, tvb, offset + 5, 3, data_segment_len); proto_tree_add_item(ti, hf_iscsi_LUN, tvb, offset + 8, 8, FALSE); proto_tree_add_item(ti, hf_iscsi_InitiatorTaskTag, tvb, offset + 16, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_TargetTransferTag, tvb, offset + 20, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpStatSN, tvb, offset + 28, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_DataSN, tvb, offset + 36, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_BufferOffset, tvb, offset + 40, 4, FALSE); offset = handleHeaderDigest(ti, tvb, offset, 48); offset = handleDataSegment(ti, tvb, offset, data_segment_len, end_offset, hf_iscsi_write_data); } else if(opcode == ISCSI_OPCODE_SCSI_DATA_IN) { /* SCSI Data In (read) */ { gint b = tvb_get_guint8(tvb, offset + 1); proto_item *tf = proto_tree_add_uint(ti, hf_iscsi_Flags, tvb, offset + 1, 1, b); proto_tree *tt = proto_item_add_subtree(tf, ett_iscsi_Flags); proto_tree_add_boolean(tt, hf_iscsi_SCSIData_F, tvb, offset + 1, 1, b); proto_tree_add_boolean(tt, hf_iscsi_SCSIData_O, tvb, offset + 1, 1, b); proto_tree_add_boolean(tt, hf_iscsi_SCSIData_U, tvb, offset + 1, 1, b); proto_tree_add_boolean(tt, hf_iscsi_SCSIData_S, tvb, offset + 1, 1, b); } proto_tree_add_item(ti, hf_iscsi_SCSIResponse_Status, tvb, offset + 3, 1, FALSE); proto_tree_add_uint(ti, hf_iscsi_DataSegmentLength, tvb, offset + 5, 3, data_segment_len); proto_tree_add_item(ti, hf_iscsi_InitiatorTaskTag, tvb, offset + 16, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_SCSIData_ResidualCount, tvb, offset + 20, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_StatSN, tvb, offset + 24, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpCmdSN, tvb, offset + 28, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_MaxCmdSN, tvb, offset + 32, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_DataSN, tvb, offset + 36, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_BufferOffset, tvb, offset + 40, 4, FALSE); offset = handleHeaderDigest(ti, tvb, offset, 48); offset = handleDataSegment(ti, tvb, offset, data_segment_len, end_offset, hf_iscsi_read_data); } else if(opcode == ISCSI_OPCODE_LOGOUT_COMMAND) { /* Logout Command */ proto_tree_add_item(ti, hf_iscsi_CID, tvb, offset + 8, 2, FALSE); proto_tree_add_item(ti, hf_iscsi_Logout_Reason, tvb, offset + 11, 1, FALSE); proto_tree_add_item(ti, hf_iscsi_InitiatorTaskTag, tvb, offset + 16, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpStatSN, tvb, offset + 28, 4, FALSE); offset = handleHeaderDigest(ti, tvb, offset, 48); } else if(opcode == ISCSI_OPCODE_LOGOUT_RESPONSE) { /* Logout Response */ proto_tree_add_item(ti, hf_iscsi_Logout_Response, tvb, offset + 2, 1, FALSE); proto_tree_add_item(ti, hf_iscsi_InitiatorTaskTag, tvb, offset + 16, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpCmdSN, tvb, offset + 28, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_MaxCmdSN, tvb, offset + 32, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_Time2Wait, tvb, offset + 40, 2, FALSE); proto_tree_add_item(ti, hf_iscsi_Time2Retain, tvb, offset + 42, 2, FALSE); offset = handleHeaderDigest(ti, tvb, offset, 48); } else if(opcode == ISCSI_OPCODE_SNACK_REQUEST) { /* SNACK Request */ { gint b = tvb_get_guint8(tvb, offset + 1); #if 0 proto_item *tf = proto_tree_add_uint(ti, hf_iscsi_Flags, tvb, offset + 1, 1, b); proto_tree *tt = proto_item_add_subtree(tf, ett_iscsi_Flags); #endif proto_tree_add_item(ti, hf_iscsi_snack_type, tvb, offset + 1, 1, b); } proto_tree_add_item(ti, hf_iscsi_InitiatorTaskTag, tvb, offset + 16, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_BegRun, tvb, offset + 20, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_RunLength, tvb, offset + 24, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpStatSN, tvb, offset + 28, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpDataSN, tvb, offset + 36, 4, FALSE); offset = handleHeaderDigest(ti, tvb, offset, 48); } else if(opcode == ISCSI_OPCODE_R2T) { /* R2T */ proto_tree_add_item(ti, hf_iscsi_InitiatorTaskTag, tvb, offset + 16, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_TargetTransferTag, tvb, offset + 20, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_StatSN, tvb, offset + 24, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpCmdSN, tvb, offset + 28, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_MaxCmdSN, tvb, offset + 32, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_R2TSN, tvb, offset + 36, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_BufferOffset, tvb, offset + 40, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_DesiredDataLength, tvb, offset + 44, 4, FALSE); offset = handleHeaderDigest(ti, tvb, offset, 48); } else if(opcode == ISCSI_OPCODE_ASYNC_MESSAGE) { /* Asynchronous Message */ proto_tree_add_uint(ti, hf_iscsi_DataSegmentLength, tvb, offset + 5, 3, data_segment_len); proto_tree_add_item(ti, hf_iscsi_LUN, tvb, offset + 8, 8, FALSE); proto_tree_add_item(ti, hf_iscsi_StatSN, tvb, offset + 24, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpCmdSN, tvb, offset + 28, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_MaxCmdSN, tvb, offset + 32, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_AsyncEvent, tvb, offset + 36, 1, FALSE); proto_tree_add_item(ti, hf_iscsi_EventVendorCode, tvb, offset + 37, 1, FALSE); proto_tree_add_item(ti, hf_iscsi_Parameter1, tvb, offset + 38, 2, FALSE); proto_tree_add_item(ti, hf_iscsi_Parameter2, tvb, offset + 40, 2, FALSE); proto_tree_add_item(ti, hf_iscsi_Parameter3, tvb, offset + 42, 2, FALSE); offset = handleHeaderDigest(ti, tvb, offset, 48); } else if(opcode == ISCSI_OPCODE_REJECT) { /* Reject */ proto_tree_add_item(ti, hf_iscsi_Reject_Reason, tvb, offset + 2, 1, FALSE); proto_tree_add_uint(ti, hf_iscsi_DataSegmentLength, tvb, offset + 5, 3, data_segment_len); proto_tree_add_item(ti, hf_iscsi_StatSN, tvb, offset + 24, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_ExpCmdSN, tvb, offset + 28, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_MaxCmdSN, tvb, offset + 32, 4, FALSE); proto_tree_add_item(ti, hf_iscsi_DataSN, tvb, offset + 36, 4, FALSE); offset = handleHeaderDigest(ti, tvb, offset, 48); offset = handleDataSegment(ti, tvb, offset, data_segment_len, end_offset, hf_iscsi_error_pdu_data); } proto_item_set_len(ti, offset - original_offset); } } static gboolean dissect_iscsi(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree) { /* Set up structures needed to add the protocol subtree and manage it */ guint iSCSIPdusDissected = 0; guint offset = 0; guint32 available_bytes = tvb_length_remaining(tvb, offset); if (!proto_is_protocol_enabled(proto_iscsi)) return FALSE; /* iSCSI has been disabled */ /* quick check to see if the packet is long enough to contain the * minimum amount of information we need */ if (available_bytes < 48 && (!iscsi_desegment || available_bytes < 8)) { /* no, so give up */ return FALSE; } /* process multiple iSCSI PDUs per packet */ while(available_bytes >= 48 || (iscsi_desegment && available_bytes >= 8)) { const char *opcode_str = NULL; guint32 data_segment_len; guint8 opcode = tvb_get_guint8(tvb, offset + 0); guint8 secondPduByte = tvb_get_guint8(tvb, offset + 1); int badPdu = FALSE; if((opcode & TARGET_OPCODE_BIT) == 0) { /* initiator -> target */ /* mask out X and I bits */ opcode &= ~(X_BIT | I_BIT); } opcode_str = match_strval(opcode, iscsi_opcodes); if(opcode == ISCSI_OPCODE_SCSI_TASK_MANAGEMENT_COMMAND || opcode == ISCSI_OPCODE_SCSI_TASK_MANAGEMENT_RESPONSE || opcode == ISCSI_OPCODE_R2T || opcode == ISCSI_OPCODE_LOGOUT_COMMAND || opcode == ISCSI_OPCODE_LOGOUT_RESPONSE || opcode == ISCSI_OPCODE_SNACK_REQUEST) data_segment_len = 0; else data_segment_len = tvb_get_ntohl(tvb, offset + 4) & 0x00ffffff; if(opcode_str == NULL) { badPdu = TRUE; } else if(iscsi_port != 0 && (((opcode & TARGET_OPCODE_BIT) && pinfo->srcport != iscsi_port) || (!(opcode & TARGET_OPCODE_BIT) && pinfo->destport != iscsi_port))) { badPdu = TRUE; } else if(enable_bogosity_filter) { /* try and distinguish between data and real headers */ if(data_segment_len > bogus_pdu_data_length_threshold) { badPdu = TRUE; } else if(!(secondPduByte & 0x80) && (opcode == ISCSI_OPCODE_NOP_OUT || opcode == ISCSI_OPCODE_NOP_IN || opcode == ISCSI_OPCODE_LOGOUT_COMMAND || opcode == ISCSI_OPCODE_LOGOUT_RESPONSE || opcode == ISCSI_OPCODE_SCSI_RESPONSE || opcode == ISCSI_OPCODE_SCSI_TASK_MANAGEMENT_RESPONSE || opcode == ISCSI_OPCODE_R2T || opcode == ISCSI_OPCODE_ASYNC_MESSAGE || opcode == ISCSI_OPCODE_SNACK_REQUEST || opcode == ISCSI_OPCODE_REJECT)) { badPdu = TRUE; } } if(badPdu) { return iSCSIPdusDissected > 0; } else { guint32 pduLen = 48; int digestsActive = 1; if(opcode == ISCSI_OPCODE_LOGIN_COMMAND || opcode == ISCSI_OPCODE_LOGIN_RESPONSE) { if((secondPduByte & CSG_MASK) == 0) { /* current stage is SecurityNegotiation, digests * are not yet turned on */ digestsActive = 0; } } if(opcode == ISCSI_OPCODE_SCSI_COMMAND) { /* ahsLen */ pduLen += tvb_get_guint8(tvb, offset + 4) * 4; } pduLen += data_segment_len; if((pduLen & 3) != 0) pduLen += 4 - (pduLen & 3); if(digestsActive && enableHeaderDigests) { if(headerDigestIsCRC32) pduLen += 4; else pduLen += headerDigestSize; } if(digestsActive && data_segment_len > 0 && enableDataDigests) { if(dataDigestIsCRC32) pduLen += 4; else pduLen += dataDigestSize; } /* * Desegmentation check. */ if(iscsi_desegment && pinfo->can_desegment) { if(pduLen > available_bytes) { /* * This frame doesn't have all of the data for * this message, but we can do reassembly on it. * * Tell the TCP dissector where the data for this * message starts in the data it handed us, and * how many more bytes we need, and return. */ pinfo->desegment_offset = offset; pinfo->desegment_len = pduLen - available_bytes; return TRUE; } } dissect_iscsi_pdu(tvb, pinfo, tree, offset, opcode, opcode_str, data_segment_len); offset += pduLen; available_bytes -= pduLen; ++iSCSIPdusDissected; } } return iSCSIPdusDissected > 0; } /* Register the protocol with Ethereal */ /* * this format is require because a script is used to build the C * function that calls all the protocol registration. */ void proto_register_iscsi(void) { /* Setup list of header fields See Section 1.6.1 for details*/ static hf_register_info hf[] = { { &hf_iscsi_AHS, { "AHS", "iscsi.ahs", FT_BYTES, BASE_HEX, NULL, 0, "Additional header segment", HFILL } }, { &hf_iscsi_Padding, { "Padding", "iscsi.padding", FT_BYTES, BASE_HEX, NULL, 0, "Padding to 4 byte boundary", HFILL } }, { &hf_iscsi_ping_data, { "PingData", "iscsi.pingdata", FT_BYTES, BASE_HEX, NULL, 0, "Ping Data", HFILL } }, { &hf_iscsi_immediate_data, { "ImmediateData", "iscsi.immediatedata", FT_BYTES, BASE_HEX, NULL, 0, "Immediate Data", HFILL } }, { &hf_iscsi_sense_data, { "SenseData", "iscsi.sensedata", FT_BYTES, BASE_HEX, NULL, 0, "Sense Data", HFILL } }, { &hf_iscsi_write_data, { "WriteData", "iscsi.writedata", FT_BYTES, BASE_HEX, NULL, 0, "Write Data", HFILL } }, { &hf_iscsi_read_data, { "ReadData", "iscsi.readdata", FT_BYTES, BASE_HEX, NULL, 0, "Read Data", HFILL } }, { &hf_iscsi_error_pdu_data, { "ErrorPDUData", "iscsi.errorpdudata", FT_BYTES, BASE_HEX, NULL, 0, "Error PDU Data", HFILL } }, { &hf_iscsi_HeaderDigest, { "HeaderDigest", "iscsi.headerdigest", FT_BYTES, BASE_HEX, NULL, 0, "Header Digest", HFILL } }, { &hf_iscsi_HeaderDigest32, { "HeaderDigest", "iscsi.headerdigest32", FT_UINT32, BASE_HEX, NULL, 0, "Header Digest", HFILL } }, { &hf_iscsi_DataDigest, { "DataDigest", "iscsi.datadigest", FT_BYTES, BASE_HEX, NULL, 0, "Data Digest", HFILL } }, { &hf_iscsi_DataDigest32, { "DataDigest", "iscsi.datadigest32", FT_UINT32, BASE_HEX, NULL, 0, "Data Digest", HFILL } }, { &hf_iscsi_Opcode, { "Opcode", "iscsi.opcode", FT_UINT8, BASE_HEX, VALS(iscsi_opcodes), 0, "Opcode", HFILL } }, { &hf_iscsi_X, { "X", "iscsi.X", FT_BOOLEAN, 8, TFS(&iscsi_meaning_X), 0x80, "Command Retry", HFILL } }, { &hf_iscsi_I, { "I", "iscsi.I", FT_BOOLEAN, 8, TFS(&iscsi_meaning_I), 0x40, "Immediate delivery", HFILL } }, { &hf_iscsi_Flags, { "Flags", "iscsi.flags", FT_UINT8, BASE_HEX, NULL, 0, "Opcode specific flags", HFILL } }, { &hf_iscsi_SCSICommand_F, { "F", "iscsi.scsicommand.F", FT_BOOLEAN, 8, TFS(&iscsi_meaning_F), 0x80, "PDU completes command", HFILL } }, { &hf_iscsi_SCSICommand_R, { "R", "iscsi.scsicommand.R", FT_BOOLEAN, 8, TFS(&iscsi_meaning_R), 0x40, "Command reads from SCSI target", HFILL } }, { &hf_iscsi_SCSICommand_W, { "W", "iscsi.scsicommand.W", FT_BOOLEAN, 8, TFS(&iscsi_meaning_W), 0x20, "Command writes to SCSI target", HFILL } }, { &hf_iscsi_SCSICommand_Attr, { "Attr", "iscsi.scsicommand.attr", FT_UINT8, BASE_HEX, VALS(iscsi_scsicommand_taskattrs), 0x07, "SCSI task attributes", HFILL } }, { &hf_iscsi_SCSICommand_CRN, { "CRN", "iscsi.scsicommand.crn", FT_UINT8, BASE_HEX, NULL, 0, "SCSI command reference number", HFILL } }, { &hf_iscsi_SCSICommand_AddCDB, { "AddCDB", "iscsi.scsicommand.addcdb", FT_UINT8, BASE_HEX, NULL, 0, "Additional CDB length (in 4 byte units)", HFILL } }, { &hf_iscsi_DataSegmentLength, { "DataSegmentLength", "iscsi.datasegmentlength", FT_UINT32, BASE_HEX, NULL, 0, "Data segment length (bytes)", HFILL } }, { &hf_iscsi_TotalAHSLength, { "TotalAHSLength", "iscsi.totalahslength", FT_UINT8, BASE_HEX, NULL, 0, "Total additional header segment length (4 byte words)", HFILL } }, { &hf_iscsi_LUN, { "LUN", "iscsi.lun", FT_BYTES, BASE_HEX, NULL, 0, "Logical Unit Number", HFILL } }, { &hf_iscsi_InitiatorTaskTag, { "InitiatorTaskTag", "iscsi.initiatortasktag", FT_UINT32, BASE_HEX, NULL, 0, "Initiator's task tag", HFILL } }, { &hf_iscsi_ExpectedDataTransferLength, { "ExpectedDataTransferLength", "iscsi.scsicommand.expecteddatatransferlength", FT_UINT32, BASE_HEX, NULL, 0, "Expected length of data transfer", HFILL } }, { &hf_iscsi_CmdSN, { "CmdSN", "iscsi.cmdsn", FT_UINT32, BASE_HEX, NULL, 0, "Sequence number for this command (0 == immediate)", HFILL } }, { &hf_iscsi_ExpStatSN, { "ExpStatSN", "iscsi.expstatsn", FT_UINT32, BASE_HEX, NULL, 0, "Next expected status sequence number", HFILL } }, { &hf_iscsi_SCSICommand_CDB, { "CDB", "iscsi.scsicommand.cdb", FT_BYTES, BASE_HEX, NULL, 0, "SCSI CDB", HFILL } }, { &hf_iscsi_SCSICommand_CDB0, { "CDB", "iscsi.scsicommand.cdb0", FT_UINT8, BASE_HEX, VALS(iscsi_scsi_cdb0), 0, "SCSI CDB[0]", HFILL } }, { &hf_iscsi_SCSIResponse_ResidualCount, { "ResidualCount", "iscsi.scsiresponse.residualcount", FT_UINT32, BASE_HEX, NULL, 0, "Residual count", HFILL } }, { &hf_iscsi_StatSN, { "StatSN", "iscsi.statsn", FT_UINT32, BASE_HEX, NULL, 0, "Status sequence number", HFILL } }, { &hf_iscsi_ExpCmdSN, { "ExpCmdSN", "iscsi.expcmdsn", FT_UINT32, BASE_HEX, NULL, 0, "Next expected command sequence number", HFILL } }, { &hf_iscsi_MaxCmdSN, { "MaxCmdSN", "iscsi.maxcmdsn", FT_UINT32, BASE_HEX, NULL, 0, "Maximum acceptable command sequence number", HFILL } }, { &hf_iscsi_SCSIResponse_o, { "o", "iscsi.scsiresponse.o", FT_BOOLEAN, 8, TFS(&iscsi_meaning_o), 0x10, "Bi-directional read residual overflow", HFILL } }, { &hf_iscsi_SCSIResponse_u, { "u", "iscsi.scsiresponse.u", FT_BOOLEAN, 8, TFS(&iscsi_meaning_u), 0x08, "Bi-directional read residual underflow", HFILL } }, { &hf_iscsi_SCSIResponse_O, { "O", "iscsi.scsiresponse.O", FT_BOOLEAN, 8, TFS(&iscsi_meaning_O), 0x04, "Residual overflow", HFILL } }, { &hf_iscsi_SCSIResponse_U, { "U", "iscsi.scsiresponse.U", FT_BOOLEAN, 8, TFS(&iscsi_meaning_U), 0x02, "Residual underflow", HFILL } }, { &hf_iscsi_SCSIResponse_Status, { "Status", "iscsi.scsiresponse.status", FT_UINT8, BASE_HEX, VALS(iscsi_scsi_statuses), 0, "SCSI command status value", HFILL } }, { &hf_iscsi_SCSIResponse_Response, { "Response", "iscsi.scsiresponse.response", FT_UINT8, BASE_HEX, VALS(iscsi_scsi_responses), 0, "SCSI command response value", HFILL } }, { &hf_iscsi_SCSIResponse_BidiReadResidualCount, { "BidiReadResidualCount", "iscsi.scsiresponse.bidireadresidualcount", FT_UINT32, BASE_HEX, NULL, 0, "Bi-directional read residual count", HFILL } }, { &hf_iscsi_SCSIData_F, { "F", "iscsi.scsidata.F", FT_BOOLEAN, 8, TFS(&iscsi_meaning_F), 0x80, "Final PDU", HFILL } }, { &hf_iscsi_SCSIData_S, { "S", "iscsi.scsidata.S", FT_BOOLEAN, 8, TFS(&iscsi_meaning_S), 0x01, "PDU Contains SCSI command status", HFILL } }, { &hf_iscsi_SCSIData_U, { "U", "iscsi.scsidata.U", FT_BOOLEAN, 8, TFS(&iscsi_meaning_U), 0x02, "Residual underflow", HFILL } }, { &hf_iscsi_SCSIData_O, { "O", "iscsi.scsidata.O", FT_BOOLEAN, 8, TFS(&iscsi_meaning_O), 0x04, "Residual overflow", HFILL } }, { &hf_iscsi_TargetTransferTag, { "TargetTransferTag", "iscsi.targettransfertag", FT_UINT32, BASE_HEX, NULL, 0, "Target transfer tag", HFILL } }, { &hf_iscsi_BufferOffset, { "BufferOffset", "iscsi.bufferOffset", FT_UINT32, BASE_HEX, NULL, 0, "Buffer offset", HFILL } }, { &hf_iscsi_SCSIData_ResidualCount, { "ResidualCount", "iscsi.scsidata.readresidualcount", FT_UINT32, BASE_HEX, NULL, 0, "Residual count", HFILL } }, { &hf_iscsi_DataSN, { "DataSN", "iscsi.datasn", FT_UINT32, BASE_HEX, NULL, 0, "Data sequence number", HFILL } }, { &hf_iscsi_VersionMax, { "VersionMax", "iscsi.versionmax", FT_UINT8, BASE_HEX, NULL, 0, "Maximum supported protocol version", HFILL } }, { &hf_iscsi_VersionMin, { "VersionMin", "iscsi.versionmin", FT_UINT8, BASE_HEX, NULL, 0, "Minimum supported protocol version", HFILL } }, { &hf_iscsi_VersionActive, { "VersionActive", "iscsi.versionactive", FT_UINT8, BASE_HEX, NULL, 0, "Negotiated protocol version", HFILL } }, { &hf_iscsi_CID, { "CID", "iscsi.cid", FT_UINT16, BASE_HEX, NULL, 0, "Connection identifier", HFILL } }, { &hf_iscsi_ISID, { "ISID", "iscsi.isid", FT_UINT16, BASE_HEX, NULL, 0, "Initiator part of session identifier", HFILL } }, { &hf_iscsi_TSID, { "TSID", "iscsi.tsid", FT_UINT16, BASE_HEX, NULL, 0, "Target part of session identifier", HFILL } }, { &hf_iscsi_InitStatSN, { "InitStatSN", "iscsi.initstatsn", FT_UINT32, BASE_HEX, NULL, 0, "Initial status sequence number", HFILL } }, { &hf_iscsi_InitCmdSN, { "InitCmdSN", "iscsi.initcmdsn", FT_UINT32, BASE_HEX, NULL, 0, "Initial command sequence number", HFILL } }, { &hf_iscsi_Login_T, { "T", "iscsi.login.T", FT_BOOLEAN, 8, TFS(&iscsi_meaning_T), 0x80, "Transit to next login stage", HFILL } }, { &hf_iscsi_Login_CSG, { "CSG", "iscsi.login.csg", FT_UINT8, BASE_HEX, VALS(iscsi_login_stage), CSG_MASK, "Current stage", HFILL } }, { &hf_iscsi_Login_NSG, { "NSG", "iscsi.login.nsg", FT_UINT8, BASE_HEX, VALS(iscsi_login_stage), 0x03, "Next stage", HFILL } }, { &hf_iscsi_Login_Status, { "Status", "iscsi.login.status", FT_UINT16, BASE_HEX, VALS(iscsi_login_status), 0, "Status class and detail", HFILL } }, { &hf_iscsi_KeyValue, { "KeyValue", "iscsi.keyvalue", FT_STRING, 0, NULL, 0, "Key/value pair", HFILL } }, { &hf_iscsi_Text_F, { "F", "iscsi.text.F", FT_BOOLEAN, 8, TFS(&iscsi_meaning_F), 0x80, "Final PDU in text sequence", HFILL } }, { &hf_iscsi_ExpDataSN, { "ExpDataSN", "iscsi.expdatasn", FT_UINT32, BASE_HEX, NULL, 0, "Next expected data sequence number", HFILL } }, { &hf_iscsi_R2TSN, { "R2TSN", "iscsi.r2tsn", FT_UINT32, BASE_HEX, NULL, 0, "R2T PDU Number", HFILL } }, { &hf_iscsi_SCSITask_Response, { "Response", "iscsi.scsitask.response", FT_UINT8, BASE_HEX, VALS(iscsi_task_responses), 0, "Response", HFILL } }, { &hf_iscsi_SCSITask_ReferencedTaskTag, { "InitiatorTaskTag", "iscsi.scsitask.referencedtasktag", FT_UINT32, BASE_HEX, NULL, 0, "Task's initiator task tag", HFILL } }, { &hf_iscsi_RefCmdSN, { "RefCmdSN", "iscsi.refcmdsn", FT_UINT32, BASE_HEX, NULL, 0, "Command sequence number for command to be aborted", HFILL } }, { &hf_iscsi_SCSITask_Function, { "Function", "iscsi.scsitask.function", FT_UINT8, BASE_HEX, VALS(iscsi_task_functions), 0x7F, "Requested task function", HFILL } }, { &hf_iscsi_Logout_Reason, { "Reason", "iscsi.logout.reason", FT_UINT8, BASE_HEX, VALS(iscsi_logout_reasons), 0, "Reason for logout", HFILL } }, { &hf_iscsi_Logout_Response, { "Response", "iscsi.logout.response", FT_UINT8, BASE_HEX, VALS(iscsi_logout_response), 0, "Logout response", HFILL } }, { &hf_iscsi_Time2Wait, { "Time2Wait", "iscsi.time2wait", FT_UINT16, BASE_HEX, NULL, 0, "Time2Wait", HFILL } }, { &hf_iscsi_Time2Retain, { "Time2Retain", "iscsi.time2retain", FT_UINT16, BASE_HEX, NULL, 0, "Time2Retain", HFILL } }, { &hf_iscsi_DesiredDataLength, { "DesiredDataLength", "iscsi.desireddatalength", FT_UINT32, BASE_HEX, NULL, 0, "Desired data length (bytes)", HFILL } }, { &hf_iscsi_AsyncEvent, { "AsyncEvent", "iscsi.asyncevent", FT_UINT8, BASE_HEX, VALS(iscsi_asyncevents), 0, "Async event type", HFILL } }, { &hf_iscsi_EventVendorCode, { "EventVendorCode", "iscsi.eventvendorcode", FT_UINT8, BASE_HEX, NULL, 0, "Event vendor code", HFILL } }, { &hf_iscsi_Parameter1, { "Parameter1", "iscsi.parameter1", FT_UINT16, BASE_HEX, NULL, 0, "Parameter 1", HFILL } }, { &hf_iscsi_Parameter2, { "Parameter2", "iscsi.parameter2", FT_UINT16, BASE_HEX, NULL, 0, "Parameter 2", HFILL } }, { &hf_iscsi_Parameter3, { "Parameter3", "iscsi.parameter3", FT_UINT16, BASE_HEX, NULL, 0, "Parameter 3", HFILL } }, { &hf_iscsi_Reject_Reason, { "Reason", "iscsi.reject.reason", FT_UINT8, BASE_HEX, VALS(iscsi_reject_reasons), 0, "Reason for command rejection", HFILL } }, { &hf_iscsi_snack_type, { "S", "iscsi.snack.type", FT_UINT8, BASE_DEC, VALS(iscsi_snack_types), 0x0f, "Type of SNACK requested", HFILL } }, { &hf_iscsi_BegRun, { "BegRun", "iscsi.snack.begrun", FT_UINT32, BASE_HEX, NULL, 0, "First missed DataSN or StatSN", HFILL } }, { &hf_iscsi_RunLength, { "RunLength", "iscsi.snack.runlength", FT_UINT32, BASE_HEX, NULL, 0, "Number of additional missing status PDUs in this run", HFILL } }, }; /* Setup protocol subtree array */ static gint *ett[] = { &ett_iscsi_KeyValues, &ett_iscsi_CDB, &ett_iscsi_Flags, }; /* Register the protocol name and description */ proto_iscsi = proto_register_protocol("iSCSI", "ISCSI", "iscsi"); /* Required function calls to register the header fields and * subtrees used */ proto_register_field_array(proto_iscsi, hf, array_length(hf)); proto_register_subtree_array(ett, array_length(ett)); { module_t *iscsi_module = prefs_register_protocol(proto_iscsi, NULL); prefs_register_bool_preference(iscsi_module, "desegment_iscsi_messages", "Desegment iSCSI messages", "When enabled, iSCSI messages that span multiple TCP segments are desegmented", &iscsi_desegment); prefs_register_bool_preference(iscsi_module, "bogus_pdu_filter", "Enable bogus pdu filter", "When enabled, packets that appear bogus are ignored", &enable_bogosity_filter); prefs_register_uint_preference(iscsi_module, "bogus_pdu_max_data_len", "Bogus pdu max data length threshold", "Treat packets whose data segment length is greater than this value as bogus", 10, &bogus_pdu_data_length_threshold); prefs_register_uint_preference(iscsi_module, "iscsi_port", "Target port", "Port number of iSCSI target", 10, &iscsi_port); prefs_register_bool_preference(iscsi_module, "enable_header_digests", "Enable header digests", "When enabled, pdus are assumed to contain a header digest", &enableHeaderDigests); prefs_register_bool_preference(iscsi_module, "enable_data_digests", "Enable data digests", "When enabled, pdus are assumed to contain a data digest", &enableDataDigests); prefs_register_bool_preference(iscsi_module, "header_digest_is_crc32c", "Header digest is CRC32C", "When enabled, header digests are assumed to be CRC32C", &headerDigestIsCRC32); prefs_register_bool_preference(iscsi_module, "data_digest_is_crc32c", "Data digest is CRC32C", "When enabled, data digests are assumed to be CRC32C", &dataDigestIsCRC32); prefs_register_uint_preference(iscsi_module, "header_digest_size", "Header digest size", "The size of a header digest (bytes)", 10, &headerDigestSize); prefs_register_uint_preference(iscsi_module, "data_digest_size", "Data digest size", "The size of a data digest (bytes)", 10, &dataDigestSize); } } /* * If this dissector uses sub-dissector registration add a * registration routine. */ /* * This format is required because a script is used to find these * routines and create the code that calls these routines. */ void proto_reg_handoff_iscsi(void) { heur_dissector_add("tcp", dissect_iscsi, proto_iscsi); }
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