/* packet-mtp3.c * Routines for Message Transfer Part Level 3 dissection * * It is (hopefully) compliant to: * ANSI T1.111.4-1996 * ITU-T Q.704 7/1996 * GF 001-9001 (Chinese ITU variant) * JT-Q704 and NTT-Q704 (Japan) * * Note that the division of the Japan SLS into the SLC and A/B bit (for * management messages) is not done. * * Copyright 2001, Michael Tuexen * Updated for ANSI, Chinese ITU, and Japan support by * Jeff Morriss * * Wireshark - Network traffic analyzer * By Gerald Combs * Copyright 1998 Gerald Combs * * Copied from README.developer * * 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include "config.h" #include #include #include #include #include #include #include #include "packet-q708.h" #include "packet-sccp.h" #include "packet-frame.h" void proto_register_mtp3(void); void proto_reg_handoff_mtp3(void); /* Initialize the protocol and registered fields */ static int proto_mtp3 = -1; static int mtp3_tap = -1; static dissector_handle_t mtp3_handle; static module_t *mtp3_module; static int hf_mtp3_service_indicator = -1; static int hf_mtp3_network_indicator = -1; static int hf_mtp3_itu_spare = -1; static int hf_mtp3_itu_priority = -1; static int hf_mtp3_ansi_priority = -1; static int hf_mtp3_itu_pc = -1; static int hf_mtp3_24bit_pc = -1; static int hf_mtp3_itu_opc = -1; static int hf_mtp3_24bit_opc = -1; static int hf_mtp3_ansi_opc = -1; static int hf_mtp3_chinese_opc = -1; static int hf_mtp3_opc_network = -1; static int hf_mtp3_opc_cluster = -1; static int hf_mtp3_opc_member = -1; static int hf_mtp3_itu_dpc = -1; static int hf_mtp3_24bit_dpc = -1; static int hf_mtp3_ansi_dpc = -1; static int hf_mtp3_chinese_dpc = -1; static int hf_mtp3_dpc_network = -1; static int hf_mtp3_dpc_cluster = -1; static int hf_mtp3_dpc_member = -1; static int hf_mtp3_itu_sls = -1; static int hf_mtp3_ansi_5_bit_sls = -1; static int hf_mtp3_ansi_8_bit_sls = -1; static int hf_mtp3_chinese_itu_sls = -1; static int hf_mtp3_japan_dpc = -1; static int hf_mtp3_japan_opc = -1; static int hf_mtp3_japan_pc = -1; static int hf_mtp3_japan_4_bit_sls = -1; static int hf_mtp3_japan_4_bit_sls_spare = -1; static int hf_mtp3_japan_5_bit_sls = -1; static int hf_mtp3_japan_5_bit_sls_spare = -1; static int hf_mtp3_heuristic_standard = -1; /* Initialize the subtree pointers */ static gint ett_mtp3 = -1; static gint ett_mtp3_sio = -1; static gint ett_mtp3_label = -1; static gint ett_mtp3_label_dpc = -1; static gint ett_mtp3_label_opc = -1; static dissector_table_t mtp3_sio_dissector_table; static int mtp3_address_type = -1; typedef enum { ITU_PC_STRUCTURE_NONE = 1, ITU_PC_STRUCTURE_3_8_3 = 2, ITU_PC_STRUCTURE_4_3_4_3 = 3 } ITU_PC_Structure_Type; typedef enum { JAPAN_PC_STRUCTURE_NONE = 1, JAPAN_PC_STRUCTURE_7_4_5 = 2, JAPAN_PC_STRUCTURE_3_4_4_5 = 3 } JAPAN_PC_Structure_Type; static gint itu_pc_structure = ITU_PC_STRUCTURE_NONE; static gint japan_pc_structure = JAPAN_PC_STRUCTURE_NONE; #include "packet-mtp3.h" gint mtp3_standard = ITU_STANDARD; gboolean mtp3_heuristic_standard = FALSE; static gint pref_mtp3_standard; const value_string mtp3_standard_vals[] = { { ITU_STANDARD, "ITU_STANDARD" }, { ANSI_STANDARD, "ANSI_STANDARD" }, { CHINESE_ITU_STANDARD, "CHINESE_ITU_STANDARD" }, { JAPAN_STANDARD, "JAPAN_STANDARD" }, { 0, NULL } }; static gboolean mtp3_use_ansi_5_bit_sls = FALSE; static gboolean mtp3_use_japan_5_bit_sls = FALSE; static gboolean mtp3_show_itu_priority = FALSE; static gint mtp3_addr_fmt = MTP3_ADDR_FMT_DASHED; #define SIO_LENGTH 1 #define SLS_LENGTH 1 #define SIO_OFFSET 0 #define ROUTING_LABEL_OFFSET (SIO_OFFSET + SIO_LENGTH) #define ITU_ROUTING_LABEL_LENGTH 4 #define ITU_HEADER_LENGTH (SIO_LENGTH + ITU_ROUTING_LABEL_LENGTH) #define ITU_SLS_OFFSET (SIO_OFFSET + ITU_HEADER_LENGTH - SLS_LENGTH) #define ITU_MTP_PAYLOAD_OFFSET (SIO_OFFSET + ITU_HEADER_LENGTH) #define ANSI_ROUTING_LABEL_LENGTH (ANSI_PC_LENGTH + ANSI_PC_LENGTH + SLS_LENGTH) #define ANSI_HEADER_LENGTH (SIO_LENGTH + ANSI_ROUTING_LABEL_LENGTH) #define ANSI_DPC_OFFSET ROUTING_LABEL_OFFSET #define ANSI_OPC_OFFSET (ANSI_DPC_OFFSET + ANSI_PC_LENGTH) #define ANSI_SLS_OFFSET (ANSI_OPC_OFFSET + ANSI_PC_LENGTH) #define ANSI_MTP_PAYLOAD_OFFSET (SIO_OFFSET + ANSI_HEADER_LENGTH) #define JAPAN_SLS_SPARE_LENGTH 1 #define JAPAN_ROUTING_LABEL_LENGTH (JAPAN_PC_LENGTH + JAPAN_PC_LENGTH + JAPAN_SLS_SPARE_LENGTH) #define JAPAN_HEADER_LENGTH (SIO_LENGTH + JAPAN_ROUTING_LABEL_LENGTH) #define JAPAN_OPC_OFFSET (ROUTING_LABEL_OFFSET + JAPAN_PC_LENGTH) #define JAPAN_SLS_OFFSET (JAPAN_OPC_OFFSET + JAPAN_PC_LENGTH) #define JAPAN_SPARE_OFFSET (ROUTING_LABEL_OFFSET + JAPAN_ROUTING_LABEL_LENGTH) #define JAPAN_MTP_PAYLOAD_OFFSET (SIO_OFFSET + JAPAN_HEADER_LENGTH) #define SERVICE_INDICATOR_MASK 0x0F #define SPARE_MASK 0x30 #define ANSI_PRIORITY_MASK SPARE_MASK #define NETWORK_INDICATOR_MASK 0xC0 #define ITU_DPC_MASK 0x00003FFF #define ITU_OPC_MASK 0x0FFFC000 #define ITU_SLS_MASK 0xF0000000 #define ANSI_5BIT_SLS_MASK 0x1F #define ANSI_8BIT_SLS_MASK 0xFF #define CHINESE_ITU_SLS_MASK 0xF #define JAPAN_4_BIT_SLS_MASK 0xF #define JAPAN_4_BIT_SLS_SPARE_MASK 0xF0 #define JAPAN_5_BIT_SLS_MASK 0x1F #define JAPAN_5_BIT_SLS_SPARE_MASK 0xE0 /* the higher values are taken from the M3UA RFC */ static const value_string mtp3_service_indicator_code_vals[] = { { MTP_SI_SNM, "Signalling Network Management Message (SNM)" }, { MTP_SI_MTN, "Maintenance Regular Message (MTN)" }, { MTP_SI_MTNS, "Maintenance Special Message (MTNS)" }, { MTP_SI_SCCP, "SCCP" }, { MTP_SI_TUP, "TUP" }, { MTP_SI_ISUP, "ISUP" }, { MTP_SI_DUP_CC, "DUP (call and circuit related messages)" }, { MTP_SI_DUP_FAC, "DUP (facility registration and cancellation message)" }, { MTP_SI_MTP_TEST, "MTP testing user part" }, { MTP_SI_ISUP_B, "Broadband ISUP" }, { MTP_SI_ISUP_S, "Satellite ISUP" }, { 0xb, "Spare" }, { MTP_SI_AAL2, "AAL type2 Signaling" }, { MTP_SI_BICC, "Bearer Independent Call Control (BICC)" }, { MTP_SI_GCP, "Gateway Control Protocol" }, { 0xf, "Spare" }, { 0, NULL } }; const value_string mtp3_service_indicator_code_short_vals[] = { { MTP_SI_SNM, "SNM" }, { MTP_SI_MTN, "MTN" }, { MTP_SI_MTNS, "MTNS" }, { MTP_SI_SCCP, "SCCP" }, { MTP_SI_TUP, "TUP" }, { MTP_SI_ISUP, "ISUP" }, { MTP_SI_DUP_CC, "DUP (CC)" }, { MTP_SI_DUP_FAC, "DUP (FAC/CANC)" }, { MTP_SI_MTP_TEST, "MTP Test" }, { MTP_SI_ISUP_B, "ISUP-b" }, { MTP_SI_ISUP_S, "ISUP-s" }, { MTP_SI_AAL2, "AAL type 2" }, { MTP_SI_BICC, "BICC" }, { MTP_SI_GCP, "GCP" }, { 0, NULL } }; const value_string mtp3_network_indicator_vals[] = { { MTP3_NI_INT0, "International network" }, { MTP3_NI_INT1, "Spare (for international use only)" }, { MTP3_NI_NAT0, "National network" }, { MTP3_NI_NAT1, "Reserved for national use" }, { 0, NULL } }; /* * helper routine to format a point code in structured form */ static void mtp3_pc_to_str_buf(const guint32 pc, gchar *buf, int buf_len) { switch (mtp3_standard) { case ITU_STANDARD: switch (itu_pc_structure) { case ITU_PC_STRUCTURE_NONE: g_snprintf(buf, buf_len, "%u", pc); break; case ITU_PC_STRUCTURE_3_8_3: /* this format is used in international ITU networks */ g_snprintf(buf, buf_len, "%u-%u-%u", (pc & 0x3800)>>11, (pc & 0x7f8) >> 3, (pc & 0x07) >> 0); break; case ITU_PC_STRUCTURE_4_3_4_3: /* this format is used in some national ITU networks, the German one for example. */ g_snprintf(buf, buf_len, "%u-%u-%u-%u", (pc & 0x3c00) >>10, (pc & 0x0380) >> 7, (pc & 0x0078) >> 3, (pc & 0x0007) >> 0); break; default: DISSECTOR_ASSERT_NOT_REACHED(); } break; case ANSI_STANDARD: case CHINESE_ITU_STANDARD: g_snprintf(buf, buf_len, "%u-%u-%u", (pc & ANSI_NETWORK_MASK) >> 16, (pc & ANSI_CLUSTER_MASK) >> 8, (pc & ANSI_MEMBER_MASK)); break; case JAPAN_STANDARD: switch (japan_pc_structure) { case JAPAN_PC_STRUCTURE_NONE: g_snprintf(buf, buf_len, "%u", pc); break; case JAPAN_PC_STRUCTURE_7_4_5: /* This format is specified by NTT */ g_snprintf(buf, buf_len, "%u-%u-%u", (pc & 0xfe00)>>9, (pc & 0x1e0)>>5, (pc & 0x1f)); break; case JAPAN_PC_STRUCTURE_3_4_4_5: /* Where does this format come from? */ g_snprintf(buf, buf_len, "%u-%u-%u-%u", (pc & 0xe000)>>13, (pc & 0x1e00)>>9, (pc & 0x1e0)>>5, (pc & 0x1f)); break; default: DISSECTOR_ASSERT_NOT_REACHED(); } break; default: DISSECTOR_ASSERT_NOT_REACHED(); } } #define MAX_STRUCTURED_PC_LENGTH 20 gchar * mtp3_pc_to_str(const guint32 pc) { gchar *str; str=(gchar *)wmem_alloc(wmem_packet_scope(), MAX_STRUCTURED_PC_LENGTH); mtp3_pc_to_str_buf(pc, str, MAX_STRUCTURED_PC_LENGTH); return str; } gboolean mtp3_pc_structured(void) { if ((mtp3_standard == ITU_STANDARD) && (itu_pc_structure == ITU_PC_STRUCTURE_NONE)) return FALSE; else if ((mtp3_standard == JAPAN_STANDARD) && (japan_pc_structure == JAPAN_PC_STRUCTURE_NONE)) return FALSE; else return TRUE; } /* * helper routine to format address to string */ static void mtp3_addr_to_str_buf(const mtp3_addr_pc_t *addr_pc_p, gchar *buf, int buf_len) { switch (mtp3_addr_fmt) { case MTP3_ADDR_FMT_DEC: switch (addr_pc_p->type) { case ITU_STANDARD: g_snprintf(buf, buf_len, "%u", addr_pc_p->pc & ITU_PC_MASK); break; case JAPAN_STANDARD: g_snprintf(buf, buf_len, "%u", addr_pc_p->pc & JAPAN_PC_MASK); break; default: /* assuming 24-bit */ g_snprintf(buf, buf_len, "%u", addr_pc_p->pc & ANSI_PC_MASK); break; } break; case MTP3_ADDR_FMT_HEX: switch (addr_pc_p->type) { case ITU_STANDARD: g_snprintf(buf, buf_len, "%x", addr_pc_p->pc & ITU_PC_MASK); break; case JAPAN_STANDARD: g_snprintf(buf, buf_len, "%x", addr_pc_p->pc & JAPAN_PC_MASK); break; default: /* assuming 24-bit */ g_snprintf(buf, buf_len, "%x", addr_pc_p->pc & ANSI_PC_MASK); break; } break; case MTP3_ADDR_FMT_NI_DEC: switch (addr_pc_p->type) { case ITU_STANDARD: g_snprintf(buf, buf_len, "%u:%u", addr_pc_p->ni, addr_pc_p->pc & ITU_PC_MASK); break; case JAPAN_STANDARD: g_snprintf(buf, buf_len, "%u:%u", addr_pc_p->ni, addr_pc_p->pc & JAPAN_PC_MASK); break; default: /* assuming 24-bit */ g_snprintf(buf, buf_len, "%u:%u", addr_pc_p->ni, addr_pc_p->pc & ANSI_PC_MASK); break; } break; case MTP3_ADDR_FMT_NI_HEX: switch (addr_pc_p->type) { case ITU_STANDARD: g_snprintf(buf, buf_len, "%u:%x", addr_pc_p->ni, addr_pc_p->pc & ITU_PC_MASK); break; case JAPAN_STANDARD: g_snprintf(buf, buf_len, "%u:%x", addr_pc_p->ni, addr_pc_p->pc & JAPAN_PC_MASK); break; default: /* assuming 24-bit */ g_snprintf(buf, buf_len, "%u:%x", addr_pc_p->ni, addr_pc_p->pc & ANSI_PC_MASK); break; } break; default: /* FALLTHRU */ case MTP3_ADDR_FMT_DASHED: mtp3_pc_to_str_buf(addr_pc_p->pc, buf, buf_len); break; } } guint32 mtp3_pc_hash(const mtp3_addr_pc_t *addr_pc_p) { guint32 pc; switch (addr_pc_p->type) { case ITU_STANDARD: pc = (addr_pc_p->pc & ITU_PC_MASK) | ((addr_pc_p->ni % 4) << 14) ; break; default: /* assuming 24-bit */ pc = (addr_pc_p->pc & ANSI_PC_MASK) | ((addr_pc_p->ni) << 24) ; break; } return pc; } static int mtp3_addr_to_str(const address* addr, gchar *buf, int buf_len) { mtp3_addr_to_str_buf((const mtp3_addr_pc_t *)addr->data, buf, buf_len); return (int)(strlen(buf)+1); } static int mtp3_str_addr_len(const address* addr _U_) { return 50; } int mtp3_addr_len(void) { return sizeof(mtp3_addr_pc_t); } static const gchar* mtp3_addr_name_res_str(const address* addr) { const mtp3_addr_pc_t *mtp3_addr = (const mtp3_addr_pc_t *)addr->data; const gchar *tmp; tmp = get_hostname_ss7pc(mtp3_addr->ni, mtp3_addr->pc); if (tmp[0] == '\0') { gchar* str; str = (gchar *)wmem_alloc(NULL, MAXNAMELEN); mtp3_addr_to_str_buf(mtp3_addr, str, MAXNAMELEN); fill_unresolved_ss7pc(str, mtp3_addr->ni, mtp3_addr->pc); wmem_free(NULL, str); return get_hostname_ss7pc(mtp3_addr->ni, mtp3_addr->pc); } return tmp; } static int mtp3_addr_name_res_len(void) { return MAXNAMELEN; } /* Common function for dissecting 3-byte (ANSI or China) PCs. */ void dissect_mtp3_3byte_pc(tvbuff_t *tvb, guint offset, proto_tree *tree, gint ett_pc, int hf_pc_string, int hf_pc_network, int hf_pc_cluster, int hf_pc_member, int hf_dpc, int hf_pc) { guint32 pc; proto_item *pc_item, *hidden_item; proto_tree *pc_tree; char pc_string[MAX_STRUCTURED_PC_LENGTH]; pc = tvb_get_letoh24(tvb, offset); mtp3_pc_to_str_buf(pc, pc_string, sizeof(pc_string)); pc_item = proto_tree_add_string(tree, hf_pc_string, tvb, offset, ANSI_PC_LENGTH, pc_string); /* Add alternate formats of the PC * NOTE: each of these formats is shown to the user, * so I think that using hidden fields in this case is OK. */ g_snprintf(pc_string, sizeof(pc_string), "%u", pc); proto_item_append_text(pc_item, " (%s)", pc_string); hidden_item = proto_tree_add_string(tree, hf_pc_string, tvb, offset, ANSI_PC_LENGTH, pc_string); PROTO_ITEM_SET_HIDDEN(hidden_item); g_snprintf(pc_string, sizeof(pc_string), "0x%x", pc); proto_item_append_text(pc_item, " (%s)", pc_string); hidden_item = proto_tree_add_string(tree, hf_pc_string, tvb, offset, ANSI_PC_LENGTH, pc_string); PROTO_ITEM_SET_HIDDEN(hidden_item); pc_tree = proto_item_add_subtree(pc_item, ett_pc); proto_tree_add_uint(pc_tree, hf_pc_network, tvb, offset + ANSI_NETWORK_OFFSET, ANSI_NCM_LENGTH, pc); proto_tree_add_uint(pc_tree, hf_pc_cluster, tvb, offset + ANSI_CLUSTER_OFFSET, ANSI_NCM_LENGTH, pc); proto_tree_add_uint(pc_tree, hf_pc_member, tvb, offset + ANSI_MEMBER_OFFSET, ANSI_NCM_LENGTH, pc); /* add full integer values of DPC as hidden for filtering purposes */ if (hf_dpc) { hidden_item = proto_tree_add_uint(pc_tree, hf_dpc, tvb, offset, ANSI_PC_LENGTH, pc); PROTO_ITEM_SET_HIDDEN(hidden_item); } if (hf_pc) { hidden_item = proto_tree_add_uint(pc_tree, hf_pc, tvb, offset, ANSI_PC_LENGTH, pc); PROTO_ITEM_SET_HIDDEN(hidden_item); } } static void dissect_mtp3_sio(tvbuff_t *tvb, proto_tree *mtp3_tree, mtp3_addr_pc_t *mtp3_addr_opc, mtp3_addr_pc_t *mtp3_addr_dpc) { guint8 sio; proto_tree *sio_tree; sio_tree = proto_tree_add_subtree(mtp3_tree, tvb, SIO_OFFSET, SIO_LENGTH, ett_mtp3_sio, NULL, "Service information octet"); sio = tvb_get_guint8(tvb, SIO_OFFSET); proto_tree_add_uint(sio_tree, hf_mtp3_network_indicator, tvb, SIO_OFFSET, SIO_LENGTH, sio); mtp3_addr_opc->ni = (sio & NETWORK_INDICATOR_MASK) >> 6; mtp3_addr_dpc->ni = (sio & NETWORK_INDICATOR_MASK) >> 6; switch(mtp3_standard){ case ANSI_STANDARD: proto_tree_add_uint(sio_tree, hf_mtp3_ansi_priority, tvb, SIO_OFFSET, SIO_LENGTH, sio); break; case ITU_STANDARD: case CHINESE_ITU_STANDARD: if (mtp3_show_itu_priority) proto_tree_add_uint(sio_tree, hf_mtp3_itu_priority, tvb, SIO_OFFSET, SIO_LENGTH, sio); else proto_tree_add_uint(sio_tree, hf_mtp3_itu_spare, tvb, SIO_OFFSET, SIO_LENGTH, sio); break; case JAPAN_STANDARD: /* The Japan variant has priority but it's on the LI which belongs to * layer 2. Not sure what we can do about that... */ proto_tree_add_uint(sio_tree, hf_mtp3_itu_spare, tvb, SIO_OFFSET, SIO_LENGTH, sio); break; } proto_tree_add_uint(sio_tree, hf_mtp3_service_indicator, tvb, SIO_OFFSET, SIO_LENGTH, sio); } static void dissect_mtp3_routing_label(tvbuff_t *tvb, packet_info *pinfo, proto_tree *mtp3_tree, mtp3_addr_pc_t *mtp3_addr_opc, mtp3_addr_pc_t *mtp3_addr_dpc) { guint32 label, dpc, opc; proto_item *label_dpc_item, *label_opc_item; proto_item *hidden_item; proto_tree *label_tree; proto_tree *pc_subtree; int hf_dpc_string; int hf_opc_string; switch (mtp3_standard) { case ITU_STANDARD: label_tree = proto_tree_add_subtree(mtp3_tree, tvb, ROUTING_LABEL_OFFSET, ITU_ROUTING_LABEL_LENGTH, ett_mtp3_label, NULL, "Routing label"); label = tvb_get_letohl(tvb, ROUTING_LABEL_OFFSET); opc = (label & ITU_OPC_MASK) >> 14; dpc = label & ITU_DPC_MASK; hidden_item = proto_tree_add_uint(label_tree, hf_mtp3_itu_pc, tvb, ROUTING_LABEL_OFFSET, ITU_ROUTING_LABEL_LENGTH, opc); PROTO_ITEM_SET_HIDDEN(hidden_item); hidden_item = proto_tree_add_uint(label_tree, hf_mtp3_itu_pc, tvb, ROUTING_LABEL_OFFSET, ITU_ROUTING_LABEL_LENGTH, dpc); PROTO_ITEM_SET_HIDDEN(hidden_item); label_dpc_item = proto_tree_add_uint(label_tree, hf_mtp3_itu_dpc, tvb, ROUTING_LABEL_OFFSET, ITU_ROUTING_LABEL_LENGTH, label); if (mtp3_pc_structured()) proto_item_append_text(label_dpc_item, " (%s)", mtp3_pc_to_str(dpc)); if(mtp3_addr_dpc->ni == MTP3_NI_INT0) { pc_subtree = proto_item_add_subtree(label_dpc_item, ett_mtp3_label_dpc); analyze_q708_ispc(tvb, pc_subtree, ROUTING_LABEL_OFFSET, ITU_ROUTING_LABEL_LENGTH, dpc); } label_opc_item = proto_tree_add_uint(label_tree, hf_mtp3_itu_opc, tvb, ROUTING_LABEL_OFFSET, ITU_ROUTING_LABEL_LENGTH, label); if (mtp3_pc_structured()) proto_item_append_text(label_opc_item, " (%s)", mtp3_pc_to_str(opc)); if(mtp3_addr_opc->ni == MTP3_NI_INT0) { pc_subtree = proto_item_add_subtree(label_opc_item, ett_mtp3_label_opc); analyze_q708_ispc(tvb, pc_subtree, ROUTING_LABEL_OFFSET, ITU_ROUTING_LABEL_LENGTH, opc); } proto_tree_add_uint(label_tree, hf_mtp3_itu_sls, tvb, ROUTING_LABEL_OFFSET, ITU_ROUTING_LABEL_LENGTH, label); break; case ANSI_STANDARD: case CHINESE_ITU_STANDARD: if (mtp3_standard == ANSI_STANDARD) { hf_dpc_string = hf_mtp3_ansi_dpc; hf_opc_string = hf_mtp3_ansi_opc; } else /* CHINESE_ITU_STANDARD */ { hf_dpc_string = hf_mtp3_chinese_dpc; hf_opc_string = hf_mtp3_chinese_opc; } /* Create the Routing Label Tree */ label_tree = proto_tree_add_subtree(mtp3_tree, tvb, ROUTING_LABEL_OFFSET, ANSI_ROUTING_LABEL_LENGTH, ett_mtp3_label, NULL, "Routing label"); /* create and fill the DPC tree */ dissect_mtp3_3byte_pc(tvb, ANSI_DPC_OFFSET, label_tree, ett_mtp3_label_dpc, hf_dpc_string, hf_mtp3_dpc_network, hf_mtp3_dpc_cluster, hf_mtp3_dpc_member, hf_mtp3_24bit_dpc, hf_mtp3_24bit_pc); /* Store dpc for mtp3_addr below */ dpc = tvb_get_letoh24(tvb, ANSI_DPC_OFFSET); /* create and fill the OPC tree */ dissect_mtp3_3byte_pc(tvb, ANSI_OPC_OFFSET, label_tree, ett_mtp3_label_opc, hf_opc_string, hf_mtp3_opc_network, hf_mtp3_opc_cluster, hf_mtp3_opc_member, hf_mtp3_24bit_opc, hf_mtp3_24bit_pc); /* Store opc for mtp3_addr below */ opc = tvb_get_letoh24(tvb, ANSI_OPC_OFFSET); /* SLS */ if (mtp3_standard == ANSI_STANDARD) { if (mtp3_use_ansi_5_bit_sls) proto_tree_add_item(label_tree, hf_mtp3_ansi_5_bit_sls, tvb, ANSI_SLS_OFFSET, SLS_LENGTH, ENC_LITTLE_ENDIAN); else proto_tree_add_item(label_tree, hf_mtp3_ansi_8_bit_sls, tvb, ANSI_SLS_OFFSET, SLS_LENGTH, ENC_LITTLE_ENDIAN); } else /* CHINESE_ITU_STANDARD */ { proto_tree_add_item(label_tree, hf_mtp3_chinese_itu_sls, tvb, ANSI_SLS_OFFSET, SLS_LENGTH, ENC_LITTLE_ENDIAN); } break; case JAPAN_STANDARD: label_tree = proto_tree_add_subtree(mtp3_tree, tvb, ROUTING_LABEL_OFFSET, JAPAN_ROUTING_LABEL_LENGTH, ett_mtp3_label, NULL, "Routing label"); label_dpc_item = proto_tree_add_item(label_tree, hf_mtp3_japan_dpc, tvb, ROUTING_LABEL_OFFSET, JAPAN_PC_LENGTH, ENC_LITTLE_ENDIAN); dpc = tvb_get_letohs(tvb, ROUTING_LABEL_OFFSET); if (mtp3_pc_structured()) { proto_item_append_text(label_dpc_item, " (%s)", mtp3_pc_to_str(dpc)); } label_opc_item = proto_tree_add_item(label_tree, hf_mtp3_japan_opc, tvb, JAPAN_OPC_OFFSET, JAPAN_PC_LENGTH, ENC_LITTLE_ENDIAN); opc = tvb_get_letohs(tvb, JAPAN_OPC_OFFSET); if (mtp3_pc_structured()) { proto_item_append_text(label_opc_item, " (%s)", mtp3_pc_to_str(opc)); } hidden_item = proto_tree_add_item(label_tree, hf_mtp3_japan_pc, tvb, ROUTING_LABEL_OFFSET, JAPAN_PC_LENGTH, ENC_LITTLE_ENDIAN); PROTO_ITEM_SET_HIDDEN(hidden_item); hidden_item = proto_tree_add_item(label_tree, hf_mtp3_japan_pc, tvb, JAPAN_OPC_OFFSET, JAPAN_PC_LENGTH, ENC_LITTLE_ENDIAN); PROTO_ITEM_SET_HIDDEN(hidden_item); if (mtp3_use_japan_5_bit_sls) { proto_tree_add_item(label_tree, hf_mtp3_japan_5_bit_sls, tvb, JAPAN_SLS_OFFSET, JAPAN_SLS_SPARE_LENGTH, ENC_LITTLE_ENDIAN); proto_tree_add_item(label_tree, hf_mtp3_japan_5_bit_sls_spare, tvb, JAPAN_SLS_OFFSET, JAPAN_SLS_SPARE_LENGTH, ENC_LITTLE_ENDIAN); } else { proto_tree_add_item(label_tree, hf_mtp3_japan_4_bit_sls, tvb, JAPAN_SLS_OFFSET, JAPAN_SLS_SPARE_LENGTH, ENC_LITTLE_ENDIAN); proto_tree_add_item(label_tree, hf_mtp3_japan_4_bit_sls_spare, tvb, JAPAN_SLS_OFFSET, JAPAN_SLS_SPARE_LENGTH, ENC_LITTLE_ENDIAN); } break; default: DISSECTOR_ASSERT_NOT_REACHED(); } mtp3_addr_opc->type = (Standard_Type)mtp3_standard; mtp3_addr_opc->pc = opc; set_address(&pinfo->src, mtp3_address_type, mtp3_addr_len(), (guint8 *) mtp3_addr_opc); mtp3_addr_dpc->type = (Standard_Type)mtp3_standard; mtp3_addr_dpc->pc = dpc; set_address(&pinfo->dst, mtp3_address_type, mtp3_addr_len(), (guint8 *) mtp3_addr_dpc); } static void dissect_mtp3_payload(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree) { guint8 sio; guint8 service_indicator; tvbuff_t *payload_tvb = NULL; sio = tvb_get_guint8(tvb, SIO_OFFSET); service_indicator = sio & SERVICE_INDICATOR_MASK; switch (mtp3_standard) { case ITU_STANDARD: payload_tvb = tvb_new_subset_remaining(tvb, ITU_MTP_PAYLOAD_OFFSET); break; case ANSI_STANDARD: case CHINESE_ITU_STANDARD: payload_tvb = tvb_new_subset_remaining(tvb, ANSI_MTP_PAYLOAD_OFFSET); break; case JAPAN_STANDARD: payload_tvb = tvb_new_subset_remaining(tvb, JAPAN_MTP_PAYLOAD_OFFSET); break; default: DISSECTOR_ASSERT_NOT_REACHED(); } col_set_str(pinfo->cinfo, COL_INFO, "DATA "); if (!dissector_try_uint(mtp3_sio_dissector_table, service_indicator, payload_tvb, pinfo, tree)) call_data_dissector(payload_tvb, pinfo, tree); } static guint heur_mtp3_standard(tvbuff_t *tvb, packet_info *pinfo, guint8 si) { tvbuff_t *payload; switch (si) { case MTP_SI_SCCP: { payload = tvb_new_subset_remaining(tvb, ITU_HEADER_LENGTH); if (looks_like_valid_sccp(pinfo->num, payload, ITU_STANDARD)) { return ITU_STANDARD; } payload = tvb_new_subset_remaining(tvb, ANSI_HEADER_LENGTH); if (looks_like_valid_sccp(pinfo->num, payload, ANSI_STANDARD)) { return ANSI_STANDARD; } payload = tvb_new_subset_remaining(tvb, ANSI_HEADER_LENGTH); if (looks_like_valid_sccp(pinfo->num, payload, CHINESE_ITU_STANDARD)) { return CHINESE_ITU_STANDARD; } payload = tvb_new_subset_remaining(tvb, JAPAN_HEADER_LENGTH); if (looks_like_valid_sccp(pinfo->num, payload, JAPAN_STANDARD)) { return JAPAN_STANDARD; } return HEURISTIC_FAILED_STANDARD; } default: return HEURISTIC_FAILED_STANDARD; } } static void reset_mtp3_standard(void) { mtp3_standard = pref_mtp3_standard; } /* Code to actually dissect the packets */ static int dissect_mtp3(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void* data _U_) { mtp3_tap_rec_t* tap_rec = wmem_new0(wmem_packet_scope(), mtp3_tap_rec_t); gint heuristic_standard; guint8 si; mtp3_addr_pc_t* mtp3_addr_dpc; mtp3_addr_pc_t* mtp3_addr_opc; /* Set up structures needed to add the protocol subtree and manage it */ proto_item *mtp3_item = NULL, *gen_item; proto_tree *mtp3_tree; pref_mtp3_standard = mtp3_standard; mtp3_item = proto_tree_add_item(tree, proto_mtp3, tvb, 0, 0, ENC_NA); si = tvb_get_guint8(tvb, SIO_OFFSET) & SERVICE_INDICATOR_MASK; if (mtp3_heuristic_standard) { heuristic_standard = heur_mtp3_standard(tvb, pinfo, si); if (heuristic_standard == HEURISTIC_FAILED_STANDARD) { gen_item = proto_tree_add_uint_format(tree, hf_mtp3_heuristic_standard, tvb, 0, 0, mtp3_standard, "Could not determine Heuristic using %s", val_to_str_const(mtp3_standard, mtp3_standard_vals, "unknown")); } else { gen_item = proto_tree_add_uint_format(tree, hf_mtp3_heuristic_standard, tvb, 0, 0, heuristic_standard, "%s", val_to_str_const(heuristic_standard, mtp3_standard_vals, "unknown")); mtp3_standard = heuristic_standard; /* Register a frame-end routine to ensure mtp3_standard is set * back even if an exception is thrown. */ register_frame_end_routine(pinfo, reset_mtp3_standard); } PROTO_ITEM_SET_GENERATED(gen_item); } /* Make entries in Protocol column on summary display */ switch(mtp3_standard) { case ITU_STANDARD: col_set_str(pinfo->cinfo, COL_PROTOCOL, "MTP3 (Int. ITU)"); proto_item_set_len(mtp3_item, ITU_HEADER_LENGTH); break; case ANSI_STANDARD: col_set_str(pinfo->cinfo, COL_PROTOCOL, "MTP3 (ANSI)"); proto_item_set_len(mtp3_item, ANSI_HEADER_LENGTH); break; case CHINESE_ITU_STANDARD: col_set_str(pinfo->cinfo, COL_PROTOCOL, "MTP3 (Chin. ITU)"); proto_item_set_len(mtp3_item, ANSI_HEADER_LENGTH); break; case JAPAN_STANDARD: col_set_str(pinfo->cinfo, COL_PROTOCOL, "MTP3 (Japan)"); proto_item_set_len(mtp3_item, JAPAN_HEADER_LENGTH); break; }; /* create display subtree for the protocol */ mtp3_tree = proto_item_add_subtree(mtp3_item, ett_mtp3); mtp3_addr_opc = (mtp3_addr_pc_t *)wmem_alloc0(pinfo->pool, sizeof(mtp3_addr_pc_t)); mtp3_addr_dpc = (mtp3_addr_pc_t *)wmem_alloc0(pinfo->pool, sizeof(mtp3_addr_pc_t)); /* Dissect the packet (even if !tree so can call sub-dissectors and update * the source and destination address columns) */ dissect_mtp3_sio(tvb, mtp3_tree, mtp3_addr_opc, mtp3_addr_dpc); dissect_mtp3_routing_label(tvb, pinfo, mtp3_tree, mtp3_addr_opc, mtp3_addr_dpc); memcpy(&(tap_rec->addr_opc), mtp3_addr_opc, sizeof(mtp3_addr_pc_t)); memcpy(&(tap_rec->addr_dpc), mtp3_addr_dpc, sizeof(mtp3_addr_pc_t)); tap_rec->mtp3_si_code = (tvb_get_guint8(tvb, SIO_OFFSET) & SERVICE_INDICATOR_MASK); tap_rec->size = tvb_reported_length(tvb); tap_queue_packet(mtp3_tap, pinfo, tap_rec); dissect_mtp3_payload(tvb, pinfo, tree); mtp3_standard = pref_mtp3_standard; return tvb_captured_length(tvb); } /* TAP STAT INFO */ typedef enum { OPC_COLUMN, DPC_COLUMN, SI_COLUMN, NUM_MSUS_COLUMN, NUM_BYTES_COLUMN, AVG_BYTES_COLUMN } mtp3_stat_columns; static stat_tap_table_item mtp3_stat_fields[] = { {TABLE_ITEM_STRING, TAP_ALIGN_LEFT, "OPC", "%-25s"}, {TABLE_ITEM_STRING, TAP_ALIGN_LEFT, "DPC", "%-25s"}, {TABLE_ITEM_STRING, TAP_ALIGN_LEFT, "SI", "%-25s"}, {TABLE_ITEM_UINT, TAP_ALIGN_RIGHT, "MSUs", "%d"}, {TABLE_ITEM_UINT, TAP_ALIGN_RIGHT, "Bytes", "%d"}, {TABLE_ITEM_FLOAT, TAP_ALIGN_RIGHT, "Avg Bytes", "%f"}, }; static void mtp3_stat_init(stat_tap_table_ui* new_stat, new_stat_tap_gui_init_cb gui_callback, void* gui_data) { int num_fields = sizeof(mtp3_stat_fields)/sizeof(stat_tap_table_item); stat_tap_table* table; table = new_stat_tap_init_table("MTP3 Statistics", num_fields, 0, NULL, gui_callback, gui_data); new_stat_tap_add_table(new_stat, table); } static gboolean mtp3_stat_packet(void *tapdata, packet_info *pinfo _U_, epan_dissect_t *edt _U_, const void *m3tr_ptr) { new_stat_data_t* stat_data = (new_stat_data_t*)tapdata; const mtp3_tap_rec_t *m3tr = (const mtp3_tap_rec_t *)m3tr_ptr; gboolean found = FALSE; guint element; stat_tap_table* table; stat_tap_table_item_type* item_data; guint msu_count; guint byte_count; double avg_bytes = 0.0; if (m3tr->mtp3_si_code >= MTP3_NUM_SI_CODE) { /* * we thought this si_code was not used ? * is MTP3_NUM_SI_CODE out of date ? */ return(FALSE); } /* * look for opc/dpc pair */ table = g_array_index(stat_data->stat_tap_data->tables, stat_tap_table*, 0); for (element = 0; element < table->num_elements; element++) { stat_tap_table_item_type *opc_data, *dpc_data, *si_data; opc_data = new_stat_tap_get_field_data(table, element, OPC_COLUMN); dpc_data = new_stat_tap_get_field_data(table, element, DPC_COLUMN); si_data = new_stat_tap_get_field_data(table, element, SI_COLUMN); if (memcmp(&m3tr->addr_opc, opc_data->user_data.ptr_value, sizeof(mtp3_addr_pc_t)) == 0) { if (memcmp(&m3tr->addr_dpc, dpc_data->user_data.ptr_value, sizeof(mtp3_addr_pc_t)) == 0) { if (m3tr->mtp3_si_code == si_data->user_data.uint_value) { found = TRUE; break; } } } } if (!found) { /* Add a new row */ /* XXX The old version added a row per SI. */ int num_fields = sizeof(mtp3_stat_fields)/sizeof(stat_tap_table_item); stat_tap_table_item_type items[sizeof(mtp3_stat_fields)/sizeof(stat_tap_table_item)]; char str[256]; const char *sis; char *col_str; memset(items, 0, sizeof(items)); items[OPC_COLUMN].type = TABLE_ITEM_STRING; items[DPC_COLUMN].type = TABLE_ITEM_STRING; items[SI_COLUMN].type = TABLE_ITEM_STRING; items[NUM_MSUS_COLUMN].type = TABLE_ITEM_UINT; items[NUM_BYTES_COLUMN].type = TABLE_ITEM_UINT; items[AVG_BYTES_COLUMN].type = TABLE_ITEM_FLOAT; new_stat_tap_init_table_row(table, element, num_fields, items); item_data = new_stat_tap_get_field_data(table, element, OPC_COLUMN); mtp3_addr_to_str_buf(&m3tr->addr_opc, str, 256); item_data->value.string_value = g_strdup(str); item_data->user_data.ptr_value = g_memdup(&m3tr->addr_opc, sizeof(mtp3_tap_rec_t)); new_stat_tap_set_field_data(table, element, OPC_COLUMN, item_data); item_data = new_stat_tap_get_field_data(table, element, DPC_COLUMN); mtp3_addr_to_str_buf(&m3tr->addr_dpc, str, 256); item_data->value.string_value = g_strdup(str); item_data->user_data.ptr_value = g_memdup(&m3tr->addr_dpc, sizeof(mtp3_tap_rec_t)); new_stat_tap_set_field_data(table, element, DPC_COLUMN, item_data); sis = try_val_to_str(m3tr->mtp3_si_code, mtp3_service_indicator_code_short_vals); if (sis) { col_str = g_strdup(sis); } else { col_str = g_strdup_printf("Unknown service indicator %d", m3tr->mtp3_si_code); } item_data = new_stat_tap_get_field_data(table, element, SI_COLUMN); item_data->value.string_value = col_str; item_data->user_data.uint_value = m3tr->mtp3_si_code; new_stat_tap_set_field_data(table, element, SI_COLUMN, item_data); } item_data = new_stat_tap_get_field_data(table, element, NUM_MSUS_COLUMN); item_data->value.uint_value++; msu_count = item_data->value.uint_value; new_stat_tap_set_field_data(table, element, NUM_MSUS_COLUMN, item_data); item_data = new_stat_tap_get_field_data(table, element, NUM_BYTES_COLUMN); item_data->value.uint_value += m3tr->size; byte_count = item_data->value.uint_value; new_stat_tap_set_field_data(table, element, NUM_BYTES_COLUMN, item_data); if (msu_count > 0) { avg_bytes = (double) byte_count / msu_count; } item_data = new_stat_tap_get_field_data(table, element, AVG_BYTES_COLUMN); item_data->value.float_value = avg_bytes; new_stat_tap_set_field_data(table, element, AVG_BYTES_COLUMN, item_data); return TRUE; } static void mtp3_stat_reset(stat_tap_table* table) { guint element; stat_tap_table_item_type* item_data; for (element = 0; element < table->num_elements; element++) { item_data = new_stat_tap_get_field_data(table, element, NUM_MSUS_COLUMN); item_data->value.uint_value = 0; new_stat_tap_set_field_data(table, element, NUM_MSUS_COLUMN, item_data); item_data = new_stat_tap_get_field_data(table, element, NUM_BYTES_COLUMN); item_data->value.uint_value = 0; new_stat_tap_set_field_data(table, element, NUM_BYTES_COLUMN, item_data); } } static void mtp3_stat_free_table_item(stat_tap_table* table _U_, guint row _U_, guint column, stat_tap_table_item_type* field_data) { switch(column) { case OPC_COLUMN: case DPC_COLUMN: g_free((char*)field_data->user_data.ptr_value); /* Fall through */ case SI_COLUMN: g_free((char*)field_data->value.string_value); break; default: break; } } void proto_register_mtp3(void) { /* Setup list of header fields See Section 1.6.1 for details*/ static hf_register_info hf[] = { { &hf_mtp3_service_indicator, { "Service indicator", "mtp3.service_indicator", FT_UINT8, BASE_HEX, VALS(mtp3_service_indicator_code_vals), SERVICE_INDICATOR_MASK, NULL, HFILL }}, { &hf_mtp3_network_indicator, { "Network indicator", "mtp3.network_indicator", FT_UINT8, BASE_HEX, VALS(mtp3_network_indicator_vals), NETWORK_INDICATOR_MASK, NULL, HFILL }}, { &hf_mtp3_itu_spare, { "Spare", "mtp3.spare", FT_UINT8, BASE_HEX, NULL, SPARE_MASK, NULL, HFILL }}, { &hf_mtp3_itu_priority, { "ITU priority", "mtp3.priority", FT_UINT8, BASE_DEC, NULL, SPARE_MASK, NULL, HFILL }}, { &hf_mtp3_ansi_priority, { "ANSI Priority", "mtp3.priority", FT_UINT8, BASE_DEC, NULL, ANSI_PRIORITY_MASK, NULL, HFILL }}, { &hf_mtp3_itu_opc, { "OPC", "mtp3.opc", FT_UINT32, BASE_DEC, NULL, ITU_OPC_MASK, NULL, HFILL }}, { &hf_mtp3_itu_pc, { "PC", "mtp3.pc", FT_UINT32, BASE_DEC, NULL, 0x0, NULL, HFILL }}, { &hf_mtp3_24bit_pc, { "PC", "mtp3.pc", FT_UINT32, BASE_DEC, NULL, ANSI_PC_MASK, NULL, HFILL }}, { &hf_mtp3_24bit_opc, { "OPC", "mtp3.opc", FT_UINT32, BASE_DEC, NULL, ANSI_PC_MASK, NULL, HFILL }}, { &hf_mtp3_ansi_opc, { "OPC", "mtp3.ansi_opc", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL }}, { &hf_mtp3_chinese_opc, { "OPC", "mtp3.chinese_opc", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL }}, { &hf_mtp3_opc_network, { "OPC Network", "mtp3.opc.network", FT_UINT24, BASE_DEC, NULL, ANSI_NETWORK_MASK, NULL, HFILL }}, { &hf_mtp3_opc_cluster, { "OPC Cluster", "mtp3.opc.cluster", FT_UINT24, BASE_DEC, NULL, ANSI_CLUSTER_MASK, NULL, HFILL }}, { &hf_mtp3_opc_member, { "OPC Member", "mtp3.opc.member", FT_UINT24, BASE_DEC, NULL, ANSI_MEMBER_MASK, NULL, HFILL }}, { &hf_mtp3_japan_opc, { "OPC", "mtp3.opc", FT_UINT16, BASE_DEC, NULL, JAPAN_PC_MASK, NULL, HFILL }}, { &hf_mtp3_japan_pc, { "PC", "mtp3.pc", FT_UINT16, BASE_DEC, NULL, JAPAN_PC_MASK, NULL, HFILL }}, { &hf_mtp3_itu_dpc, { "DPC", "mtp3.dpc", FT_UINT32, BASE_DEC, NULL, ITU_DPC_MASK, NULL, HFILL }}, { &hf_mtp3_24bit_dpc, { "DPC", "mtp3.dpc", FT_UINT32, BASE_DEC, NULL, ANSI_PC_MASK, NULL, HFILL }}, { &hf_mtp3_ansi_dpc, { "DPC", "mtp3.ansi_dpc", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL }}, { &hf_mtp3_chinese_dpc, { "DPC", "mtp3.chinese_dpc", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL }}, { &hf_mtp3_dpc_network, { "DPC Network", "mtp3.dpc.network", FT_UINT24, BASE_DEC, NULL, ANSI_NETWORK_MASK, NULL, HFILL }}, { &hf_mtp3_dpc_cluster, { "DPC Cluster", "mtp3.dpc.cluster", FT_UINT24, BASE_DEC, NULL, ANSI_CLUSTER_MASK, NULL, HFILL }}, { &hf_mtp3_dpc_member, { "DPC Member", "mtp3.dpc.member", FT_UINT24, BASE_DEC, NULL, ANSI_MEMBER_MASK, NULL, HFILL }}, { &hf_mtp3_japan_dpc, { "DPC", "mtp3.dpc", FT_UINT16, BASE_DEC, NULL, JAPAN_PC_MASK, NULL, HFILL }}, { &hf_mtp3_itu_sls, { "Signalling Link Selector", "mtp3.sls", FT_UINT32, BASE_DEC, NULL, ITU_SLS_MASK, NULL, HFILL }}, { &hf_mtp3_japan_4_bit_sls, { "Signalling Link Selector", "mtp3.sls", FT_UINT8, BASE_DEC, NULL, JAPAN_4_BIT_SLS_MASK, NULL, HFILL }}, { &hf_mtp3_japan_4_bit_sls_spare, { "SLS Spare", "mtp3.sls_spare", FT_UINT8, BASE_HEX, NULL, JAPAN_4_BIT_SLS_SPARE_MASK, NULL, HFILL }}, { &hf_mtp3_japan_5_bit_sls, { "Signalling Link Selector", "mtp3.sls", FT_UINT8, BASE_DEC, NULL, JAPAN_5_BIT_SLS_MASK, NULL, HFILL }}, { &hf_mtp3_japan_5_bit_sls_spare, { "SLS Spare", "mtp3.sls_spare", FT_UINT8, BASE_HEX, NULL, JAPAN_5_BIT_SLS_SPARE_MASK, NULL, HFILL }}, { &hf_mtp3_ansi_5_bit_sls, { "Signalling Link Selector", "mtp3.sls", FT_UINT8, BASE_DEC, NULL, ANSI_5BIT_SLS_MASK, NULL, HFILL }}, { &hf_mtp3_ansi_8_bit_sls, { "Signalling Link Selector", "mtp3.sls", FT_UINT8, BASE_DEC, NULL, ANSI_8BIT_SLS_MASK, NULL, HFILL }}, { &hf_mtp3_chinese_itu_sls, { "Signalling Link Selector", "mtp3.sls", FT_UINT8, BASE_DEC, NULL, CHINESE_ITU_SLS_MASK, NULL, HFILL }}, { &hf_mtp3_heuristic_standard, { "Heuristic standard", "mtp3.heuristic_standard",FT_UINT32, BASE_DEC, NULL, 0x0, NULL, HFILL }}, }; /* Setup protocol subtree array */ static gint *ett[] = { &ett_mtp3, &ett_mtp3_sio, &ett_mtp3_label, &ett_mtp3_label_dpc, &ett_mtp3_label_opc }; static const enum_val_t mtp3_options[] = { { "itu", "ITU", ITU_STANDARD }, { "ansi", "ANSI", ANSI_STANDARD }, { "chinese-itu", "Chinese ITU", CHINESE_ITU_STANDARD }, { "japan", "Japan", JAPAN_STANDARD }, { NULL, NULL, 0 } }; static const enum_val_t mtp3_addr_fmt_str_e[] = { { "decimal", "Decimal", MTP3_ADDR_FMT_DEC }, { "hexadecimal", "Hexadecimal", MTP3_ADDR_FMT_HEX }, { "ni-decimal", "NI-Decimal", MTP3_ADDR_FMT_NI_DEC }, { "ni-hexadecimal", "NI-Hexadecimal", MTP3_ADDR_FMT_NI_HEX }, { "dashed", "Dashed", MTP3_ADDR_FMT_DASHED }, { NULL, NULL, 0 } }; static const enum_val_t itu_pc_structures[] = { { "unstructured", "Unstructured", ITU_PC_STRUCTURE_NONE}, { "3-8-3", "3-8-3", ITU_PC_STRUCTURE_3_8_3 }, { "4-3-4-3", "4-3-4-3", ITU_PC_STRUCTURE_4_3_4_3 }, { NULL, NULL, 0 } }; static const enum_val_t japan_pc_structures[] = { { "unstructured", "Unstructured", JAPAN_PC_STRUCTURE_NONE}, { "7-4-5", "7-4-5", JAPAN_PC_STRUCTURE_7_4_5 }, { "3-4-4-5", "3-4-4-5", JAPAN_PC_STRUCTURE_3_4_4_5 }, { NULL, NULL, 0 } }; static tap_param mtp3_stat_params[] = { { PARAM_FILTER, "filter", "Filter", NULL, TRUE } }; static stat_tap_table_ui mtp3_stat_table = { REGISTER_STAT_GROUP_TELEPHONY_MTP3, "MTP3 Statistics", "mtp3", "mtp3,msus", mtp3_stat_init, mtp3_stat_packet, mtp3_stat_reset, mtp3_stat_free_table_item, NULL, sizeof(mtp3_stat_fields)/sizeof(stat_tap_table_item), mtp3_stat_fields, sizeof(mtp3_stat_params)/sizeof(tap_param), mtp3_stat_params, NULL, 0 }; /* Register the protocol name and description */ proto_mtp3 = proto_register_protocol("Message Transfer Part Level 3", "MTP3", "mtp3"); mtp3_handle = register_dissector("mtp3", dissect_mtp3, proto_mtp3); /* Required function calls to register the header fields and subtrees used */ proto_register_field_array(proto_mtp3, hf, array_length(hf)); proto_register_subtree_array(ett, array_length(ett)); mtp3_sio_dissector_table = register_dissector_table("mtp3.service_indicator", "MTP3 Service indicator", proto_mtp3, FT_UINT8, BASE_HEX); mtp3_address_type = address_type_dissector_register("AT_SS7PC", "SS7 Point Code", mtp3_addr_to_str, mtp3_str_addr_len, NULL, NULL, mtp3_addr_len, mtp3_addr_name_res_str, mtp3_addr_name_res_len); mtp3_tap = register_tap("mtp3"); mtp3_module = prefs_register_protocol(proto_mtp3, NULL); prefs_register_bool_preference(mtp3_module, "heuristic_standard", "Try to determine the MTP3 standard heuristically", "This only works for SCCP traffic for now", &mtp3_heuristic_standard); prefs_register_enum_preference(mtp3_module, "standard", "MTP3 standard", "The SS7 standard used in MTP3 packets", &mtp3_standard, mtp3_options, FALSE); prefs_register_enum_preference(mtp3_module, "itu_pc_structure", "ITU Pointcode structure", "The structure of the pointcodes in ITU networks", &itu_pc_structure, itu_pc_structures, FALSE); prefs_register_enum_preference(mtp3_module, "japan_pc_structure", "Japan Pointcode structure", "The structure of the pointcodes in Japan networks", &japan_pc_structure, japan_pc_structures, FALSE); prefs_register_bool_preference(mtp3_module, "ansi_5_bit_sls", "Use 5-bit SLS (ANSI only)", "Use 5-bit (instead of 8-bit) SLS in ANSI MTP3 packets", &mtp3_use_ansi_5_bit_sls); prefs_register_bool_preference(mtp3_module, "japan_5_bit_sls", "Use 5-bit SLS (Japan only)", "Use 5-bit (instead of 4-bit) SLS in Japan MTP3 packets", &mtp3_use_japan_5_bit_sls); prefs_register_enum_preference(mtp3_module, "addr_format", "Address Format", "Format for point code in the address columns", &mtp3_addr_fmt, mtp3_addr_fmt_str_e, FALSE); prefs_register_bool_preference(mtp3_module, "itu_priority", "Show MSU priority (national option, ITU and China ITU only)", "Decode the spare bits of the SIO as the MSU priority (a national option in ITU)", &mtp3_show_itu_priority); register_stat_tap_table_ui(&mtp3_stat_table); } void proto_reg_handoff_mtp3(void) { dissector_add_uint("wtap_encap", WTAP_ENCAP_MTP3, mtp3_handle); dissector_add_string("tali.opcode", "mtp3", mtp3_handle); } /* * Editor modelines - http://www.wireshark.org/tools/modelines.html * * Local Variables: * c-basic-offset: 2 * tab-width: 8 * indent-tabs-mode: nil * End: * * ex: set shiftwidth=2 tabstop=8 expandtab: * :indentSize=2:tabSize=8:noTabs=true: */