/* Notice: This file is auto generated, do not edit! See tools/asterix/README.md for details. Data source: ---{gitrev}--- */ /* packet-asterix.c * Routines for ASTERIX decoding * By Marko Hrastovec * * Wireshark - Network traffic analyzer * By Gerald Combs * Copyright 1998 Gerald Combs * * SPDX-License-Identifier: GPL-2.0-or-later */ /* * ASTERIX (All-purpose structured EUROCONTROL surveillances * information exchange) is a protocol related to air traffic control. * * The specifications can be downloaded from * http://www.eurocontrol.int/services/asterix */ #include #include #include #include #include void proto_register_asterix(void); void proto_reg_handoff_asterix(void); #define PROTO_TAG_ASTERIX "ASTERIX" #define ASTERIX_PORT 8600 #define MAX_DISSECT_STR 1024 #define MAX_BUFFER 256 static int proto_asterix = -1; static int hf_asterix_category = -1; static int hf_asterix_length = -1; static int hf_asterix_message = -1; static int hf_asterix_fspec = -1; static int hf_re_field_len = -1; static int hf_spare = -1; static int hf_counter = -1; static int hf_XXX_FX = -1; static int ett_asterix = -1; static int ett_asterix_category = -1; static int ett_asterix_length = -1; static int ett_asterix_message = -1; static int ett_asterix_subtree = -1; static dissector_handle_t asterix_handle; /* The following defines tell us how to decode the length of * fields and how to construct their display structure */ #define FIXED 1 #define REPETITIVE 2 #define FX 3 /*#define FX_1 4*/ /*#define RE 5*/ #define COMPOUND 6 /*#define SP 7*/ /*#define FX_UAP 8*/ #define EXP 9 /* Explicit (RE or SP) */ /* The following defines tell us how to * decode and display individual fields. */ #define FIELD_PART_INT 0 #define FIELD_PART_UINT 1 #define FIELD_PART_FLOAT 2 #define FIELD_PART_UFLOAT 3 #define FIELD_PART_SQUAWK 4 #define FIELD_PART_CALLSIGN 5 #define FIELD_PART_ASCII 6 #define FIELD_PART_FX 7 #define FIELD_PART_HEX 8 #define FIELD_PART_IAS_IM 9 #define FIELD_PART_IAS_ASPD 10 typedef struct FieldPart_s FieldPart; struct FieldPart_s { uint16_t bit_length; /* length of field in bits */ double scaling_factor; /* scaling factor of the field (for instance: 1/128) */ uint8_t type; /* Pre-defined type for proper presentation */ int *hf; /* Pointer to hf representing this kind of data */ const char *format_string; /* format string for showing float values */ }; DIAG_OFF_PEDANTIC typedef struct AsterixField_s AsterixField; struct AsterixField_s { uint8_t type; /* type of field */ unsigned length; /* fixed length */ unsigned repetition_counter_size; /* size of repetition counter, length of one item is in length */ unsigned header_length; /* the size is in first header_length bytes of the field */ int *hf; /* pointer to Wireshark hf_register_info */ const FieldPart **part; /* Look declaration and description of FieldPart above. */ const AsterixField *field[]; /* subfields */ }; DIAG_ON_PEDANTIC static void dissect_asterix_packet (tvbuff_t *, packet_info *pinfo, proto_tree *); static void dissect_asterix_data_block (tvbuff_t *tvb, packet_info *pinfo, unsigned, proto_tree *, uint8_t, int); static int dissect_asterix_fields (tvbuff_t *, packet_info *pinfo, unsigned, proto_tree *, uint8_t, const AsterixField *[]); static void asterix_build_subtree (tvbuff_t *, packet_info *pinfo, unsigned, proto_tree *, const AsterixField *); static void twos_complement (int64_t *, int); static uint8_t asterix_bit (uint8_t, uint8_t); static unsigned asterix_fspec_len (tvbuff_t *, unsigned); static uint8_t asterix_field_exists (tvbuff_t *, unsigned, int); static uint8_t asterix_get_active_uap (tvbuff_t *, unsigned, uint8_t); static int asterix_field_length (tvbuff_t *, unsigned, const AsterixField *); static int asterix_field_offset (tvbuff_t *, unsigned, const AsterixField *[], int); static int asterix_message_length (tvbuff_t *, unsigned, uint8_t, uint8_t); static const char AISCode[] = { ' ', 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', ' ', ' ', ' ', ' ', ' ', ' ' }; static const value_string valstr_XXX_FX[] = { { 0, "End of data item" }, { 1, "Extension into next extent" }, { 0, NULL } }; static const FieldPart IXXX_FX = { 1, 1.0, FIELD_PART_FX, &hf_XXX_FX, NULL }; static const FieldPart IXXX_1bit_spare = { 1, 1.0, FIELD_PART_UINT, NULL, NULL }; static const FieldPart IXXX_2bit_spare = { 2, 1.0, FIELD_PART_UINT, NULL, NULL }; static const FieldPart IXXX_3bit_spare = { 3, 1.0, FIELD_PART_UINT, NULL, NULL }; static const FieldPart IXXX_4bit_spare = { 4, 1.0, FIELD_PART_UINT, NULL, NULL }; static const FieldPart IXXX_5bit_spare = { 5, 1.0, FIELD_PART_UINT, NULL, NULL }; static const FieldPart IXXX_6bit_spare = { 6, 1.0, FIELD_PART_UINT, NULL, NULL }; static const FieldPart IXXX_7bit_spare = { 7, 1.0, FIELD_PART_UINT, NULL, NULL }; /* Spare Item */ DIAG_OFF_PEDANTIC static const AsterixField IX_SPARE = { FIXED, 0, 0, 0, &hf_spare, NULL, { NULL } }; /* insert1 */ ---{insert1}--- /* insert1 */ /* settings which category version to use for each ASTERIX category */ static int global_categories_version[] = { 0, /* 000 */ 0, /* 001 */ 0, /* 002 */ 0, /* 003 */ 0, /* 004 */ 0, /* 005 */ 0, /* 006 */ 0, /* 007 */ 0, /* 008 */ 0, /* 009 */ 0, /* 010 */ 0, /* 011 */ 0, /* 012 */ 0, /* 013 */ 0, /* 014 */ 0, /* 015 */ 0, /* 016 */ 0, /* 017 */ 0, /* 018 */ 0, /* 019 */ 0, /* 020 */ 0, /* 021 */ 0, /* 022 */ 0, /* 023 */ 0, /* 024 */ 0, /* 025 */ 0, /* 026 */ 0, /* 027 */ 0, /* 028 */ 0, /* 029 */ 0, /* 030 */ 0, /* 031 */ 0, /* 032 */ 0, /* 033 */ 0, /* 034 */ 0, /* 035 */ 0, /* 036 */ 0, /* 037 */ 0, /* 038 */ 0, /* 039 */ 0, /* 040 */ 0, /* 041 */ 0, /* 042 */ 0, /* 043 */ 0, /* 044 */ 0, /* 045 */ 0, /* 046 */ 0, /* 047 */ 0, /* 048 */ 0, /* 049 */ 0, /* 050 */ 0, /* 051 */ 0, /* 052 */ 0, /* 053 */ 0, /* 054 */ 0, /* 055 */ 0, /* 056 */ 0, /* 057 */ 0, /* 058 */ 0, /* 059 */ 0, /* 060 */ 0, /* 061 */ 0, /* 062 */ 0, /* 063 */ 0, /* 064 */ 0, /* 065 */ 0, /* 066 */ 0, /* 067 */ 0, /* 068 */ 0, /* 069 */ 0, /* 070 */ 0, /* 071 */ 0, /* 072 */ 0, /* 073 */ 0, /* 074 */ 0, /* 075 */ 0, /* 076 */ 0, /* 077 */ 0, /* 078 */ 0, /* 079 */ 0, /* 080 */ 0, /* 081 */ 0, /* 082 */ 0, /* 083 */ 0, /* 084 */ 0, /* 085 */ 0, /* 086 */ 0, /* 087 */ 0, /* 088 */ 0, /* 089 */ 0, /* 090 */ 0, /* 091 */ 0, /* 092 */ 0, /* 093 */ 0, /* 094 */ 0, /* 095 */ 0, /* 096 */ 0, /* 097 */ 0, /* 098 */ 0, /* 099 */ 0, /* 100 */ 0, /* 101 */ 0, /* 102 */ 0, /* 103 */ 0, /* 104 */ 0, /* 105 */ 0, /* 106 */ 0, /* 107 */ 0, /* 108 */ 0, /* 109 */ 0, /* 110 */ 0, /* 111 */ 0, /* 112 */ 0, /* 113 */ 0, /* 114 */ 0, /* 115 */ 0, /* 116 */ 0, /* 117 */ 0, /* 118 */ 0, /* 119 */ 0, /* 120 */ 0, /* 121 */ 0, /* 122 */ 0, /* 123 */ 0, /* 124 */ 0, /* 125 */ 0, /* 126 */ 0, /* 127 */ 0, /* 128 */ 0, /* 129 */ 0, /* 130 */ 0, /* 131 */ 0, /* 132 */ 0, /* 133 */ 0, /* 134 */ 0, /* 135 */ 0, /* 136 */ 0, /* 137 */ 0, /* 138 */ 0, /* 139 */ 0, /* 140 */ 0, /* 141 */ 0, /* 142 */ 0, /* 143 */ 0, /* 144 */ 0, /* 145 */ 0, /* 146 */ 0, /* 147 */ 0, /* 148 */ 0, /* 149 */ 0, /* 150 */ 0, /* 151 */ 0, /* 152 */ 0, /* 153 */ 0, /* 154 */ 0, /* 155 */ 0, /* 156 */ 0, /* 157 */ 0, /* 158 */ 0, /* 159 */ 0, /* 160 */ 0, /* 161 */ 0, /* 162 */ 0, /* 163 */ 0, /* 164 */ 0, /* 165 */ 0, /* 166 */ 0, /* 167 */ 0, /* 168 */ 0, /* 169 */ 0, /* 170 */ 0, /* 171 */ 0, /* 172 */ 0, /* 173 */ 0, /* 174 */ 0, /* 175 */ 0, /* 176 */ 0, /* 177 */ 0, /* 178 */ 0, /* 179 */ 0, /* 180 */ 0, /* 181 */ 0, /* 182 */ 0, /* 183 */ 0, /* 184 */ 0, /* 185 */ 0, /* 186 */ 0, /* 187 */ 0, /* 188 */ 0, /* 189 */ 0, /* 190 */ 0, /* 191 */ 0, /* 192 */ 0, /* 193 */ 0, /* 194 */ 0, /* 195 */ 0, /* 196 */ 0, /* 197 */ 0, /* 198 */ 0, /* 199 */ 0, /* 200 */ 0, /* 201 */ 0, /* 202 */ 0, /* 203 */ 0, /* 204 */ 0, /* 205 */ 0, /* 206 */ 0, /* 207 */ 0, /* 208 */ 0, /* 209 */ 0, /* 210 */ 0, /* 211 */ 0, /* 212 */ 0, /* 213 */ 0, /* 214 */ 0, /* 215 */ 0, /* 216 */ 0, /* 217 */ 0, /* 218 */ 0, /* 219 */ 0, /* 220 */ 0, /* 221 */ 0, /* 222 */ 0, /* 223 */ 0, /* 224 */ 0, /* 225 */ 0, /* 226 */ 0, /* 227 */ 0, /* 228 */ 0, /* 229 */ 0, /* 230 */ 0, /* 231 */ 0, /* 232 */ 0, /* 233 */ 0, /* 234 */ 0, /* 235 */ 0, /* 236 */ 0, /* 237 */ 0, /* 238 */ 0, /* 239 */ 0, /* 240 */ 0, /* 241 */ 0, /* 242 */ 0, /* 243 */ 0, /* 244 */ 0, /* 245 */ 0, /* 246 */ 0, /* 247 */ 0, /* 248 */ 0, /* 249 */ 0, /* 250 */ 0, /* 251 */ 0, /* 252 */ 0, /* 253 */ 0, /* 254 */ 0 /* 255 */ }; static int dissect_asterix (tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void* data _U_) { col_set_str (pinfo->cinfo, COL_PROTOCOL, "ASTERIX"); col_clear (pinfo->cinfo, COL_INFO); if (tree) { /* we are being asked for details */ dissect_asterix_packet (tvb, pinfo, tree); } return tvb_captured_length(tvb); } static void dissect_asterix_packet (tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree) { unsigned i; uint8_t category; uint16_t length; proto_item *asterix_packet_item; proto_tree *asterix_packet_tree; for (i = 0; i < tvb_reported_length (tvb); i += length + 3) { /* all ASTERIX messages have the same structure: * * header: * * 1 byte category even though a category is referenced as I019, * this is just stored as decimal 19 (i.e. 0x13) * 2 bytes length the total length of this ASTERIX message, the * length includes the size of the header. * * Note that the there was a structural change at * one point that changes whether multiple * records can occur after the header or not * (each category specifies this explicitly. All * of the currently supported categories can have * multiple records so this implementation just * assumes that is always the case) * * record (multiple records can exists): * * n bytes FSPEC the field specifier is a bit mask where the * lowest bit of each byte is called the FX bit. * When the FX bit is set this indicates that * the FSPEC extends into the next byte. * Any other bit indicates the presence of the * field that owns that bit (as per the User * Application Profile (UAP)). * X bytes Field Y X is as per the specification for field Y. * etc. * * The User Application Profile (UAP) is simply a mapping from the * FSPEC to fields. Each category has its own UAP. */ category = tvb_get_guint8 (tvb, i); length = (tvb_get_guint8 (tvb, i + 1) << 8) + tvb_get_guint8 (tvb, i + 2) - 3; /* -3 for category and length */ asterix_packet_item = proto_tree_add_item (tree, proto_asterix, tvb, i, length + 3, ENC_NA); proto_item_append_text (asterix_packet_item, ", Category %03d", category); asterix_packet_tree = proto_item_add_subtree (asterix_packet_item, ett_asterix); proto_tree_add_item (asterix_packet_tree, hf_asterix_category, tvb, i, 1, ENC_BIG_ENDIAN); proto_tree_add_item (asterix_packet_tree, hf_asterix_length, tvb, i + 1, 2, ENC_BIG_ENDIAN); dissect_asterix_data_block (tvb, pinfo, i + 3, asterix_packet_tree, category, length); } } static void dissect_asterix_data_block (tvbuff_t *tvb, packet_info *pinfo, unsigned offset, proto_tree *tree, uint8_t category, int length) { uint8_t active_uap; int fspec_len, inner_offset, size, counter; proto_item *asterix_message_item = NULL; proto_tree *asterix_message_tree = NULL; for (counter = 1, inner_offset = 0; inner_offset < length; counter++) { /* This loop handles parsing of each ASTERIX record */ active_uap = asterix_get_active_uap (tvb, offset + inner_offset, category); size = asterix_message_length (tvb, offset + inner_offset, category, active_uap); if (size > 0) { asterix_message_item = proto_tree_add_item (tree, hf_asterix_message, tvb, offset + inner_offset, size, ENC_NA); proto_item_append_text (asterix_message_item, ", #%02d, length: %d", counter, size); asterix_message_tree = proto_item_add_subtree (asterix_message_item, ett_asterix_message); fspec_len = asterix_fspec_len (tvb, offset + inner_offset); /*show_fspec (tvb, asterix_message_tree, offset + inner_offset, fspec_len);*/ proto_tree_add_item (asterix_message_tree, hf_asterix_fspec, tvb, offset + inner_offset, fspec_len, ENC_NA); size = dissect_asterix_fields (tvb, pinfo, offset + inner_offset, asterix_message_tree, category, categories[category][global_categories_version[category]][active_uap]); inner_offset += size + fspec_len; } else { inner_offset = length; } } } static int dissect_asterix_fields (tvbuff_t *tvb, packet_info *pinfo, unsigned offset, proto_tree *tree, uint8_t category, const AsterixField *current_uap[]) { unsigned i, j, size, start, len, inner_offset, fspec_len; uint64_t counter; proto_item *asterix_field_item = NULL; proto_tree *asterix_field_tree = NULL; proto_item *asterix_field_item2 = NULL; proto_tree *asterix_field_tree2 = NULL; if (current_uap == NULL) return 0; for (i = 0, size = 0; current_uap[i] != NULL; i++) { start = asterix_field_offset (tvb, offset, current_uap, i); if (start > 0) { len = asterix_field_length (tvb, offset + start, current_uap[i]); size += len; switch(current_uap[i]->type) { case COMPOUND: asterix_field_item = proto_tree_add_item (tree, *current_uap[i]->hf, tvb, offset + start, len, ENC_NA); asterix_field_tree = proto_item_add_subtree (asterix_field_item, ett_asterix_subtree); fspec_len = asterix_fspec_len (tvb, offset + start); proto_tree_add_item (asterix_field_tree, hf_asterix_fspec, tvb, offset + start, fspec_len, ENC_NA); dissect_asterix_fields (tvb, pinfo, offset + start, asterix_field_tree, category, (const AsterixField **)current_uap[i]->field); break; case REPETITIVE: asterix_field_item = proto_tree_add_item (tree, *current_uap[i]->hf, tvb, offset + start, len, ENC_NA); asterix_field_tree = proto_item_add_subtree (asterix_field_item, ett_asterix_subtree); for (j = 0, counter = 0; j < current_uap[i]->repetition_counter_size; j++) { counter = (counter << 8) + tvb_get_guint8 (tvb, offset + start + j); } proto_tree_add_item (asterix_field_tree, hf_counter, tvb, offset + start, current_uap[i]->repetition_counter_size, ENC_BIG_ENDIAN); for (j = 0, inner_offset = 0; j < counter; j++, inner_offset += current_uap[i]->length) { asterix_field_item2 = proto_tree_add_item (asterix_field_tree, *current_uap[i]->hf, tvb, offset + start + current_uap[i]->repetition_counter_size + inner_offset, current_uap[i]->length, ENC_NA); asterix_field_tree2 = proto_item_add_subtree (asterix_field_item2, ett_asterix_subtree); asterix_build_subtree (tvb, pinfo, offset + start + current_uap[i]->repetition_counter_size + inner_offset, asterix_field_tree2, current_uap[i]); } break; /* currently not generated from asterix-spec*/ /*case EXP: asterix_field_item = proto_tree_add_item (tree, *current_uap[i]->hf, tvb, offset + start, len, ENC_NA); asterix_field_tree = proto_item_add_subtree (asterix_field_item, ett_asterix_subtree); proto_tree_add_item (asterix_field_tree, hf_re_field_len, tvb, offset + start, 1, ENC_BIG_ENDIAN); start++; fspec_len = asterix_fspec_len (tvb, offset + start); proto_tree_add_item (asterix_field_tree, hf_asterix_fspec, tvb, offset + start, fspec_len, ENC_NA); dissect_asterix_fields (tvb, pinfo, offset + start, asterix_field_tree, category, (const AsterixField **)current_uap[i]->field); break;*/ default: /* FIXED, FX, FX_1, FX_UAP */ asterix_field_item = proto_tree_add_item (tree, *current_uap[i]->hf, tvb, offset + start, len, ENC_NA); asterix_field_tree = proto_item_add_subtree (asterix_field_item, ett_asterix_subtree); asterix_build_subtree (tvb, pinfo, offset + start, asterix_field_tree, current_uap[i]); break; } } } return size; } static void asterix_build_subtree (tvbuff_t *tvb, packet_info *pinfo, unsigned offset, proto_tree *parent, const AsterixField *field) { header_field_info* hfi; int bytes_in_type, byte_offset_of_mask; int i, inner_offset, offset_in_tvb, length_in_tvb; uint8_t go_on; int64_t value; char *str_buffer = NULL; double scaling_factor = 1.0; uint8_t *air_speed_im_bit; if (field->part != NULL) { for (i = 0, inner_offset = 0, go_on = 1; go_on && field->part[i] != NULL; i++) { value = tvb_get_bits64 (tvb, offset * 8 + inner_offset, field->part[i]->bit_length, ENC_BIG_ENDIAN); if (field->part[i]->hf != NULL) { offset_in_tvb = offset + inner_offset / 8; length_in_tvb = (inner_offset % 8 + field->part[i]->bit_length + 7) / 8; switch (field->part[i]->type) { case FIELD_PART_FX: if (!value) go_on = 0; /* Fall through */ case FIELD_PART_INT: case FIELD_PART_UINT: case FIELD_PART_HEX: case FIELD_PART_ASCII: case FIELD_PART_SQUAWK: hfi = proto_registrar_get_nth (*field->part[i]->hf); if (hfi->bitmask) { // for a small bit field to decode correctly with // a mask that belongs to a large(r) one we need to // re-adjust offset_in_tvb and length_in_tvb to // correctly align with the given hf mask. // // E.g. the following would not decode correctly: // { &hf_020_050_V, ... FT_UINT16, ... 0x8000, ... // instead one would have to use // { &hf_020_050_V, ... FT_UINT8, ... 0x80, ... // bytes_in_type = ftype_wire_size(hfi->type); if (bytes_in_type > 1) { byte_offset_of_mask = bytes_in_type - (ws_ilog2 (hfi->bitmask) + 8)/8; if (byte_offset_of_mask >= 0) { offset_in_tvb -= byte_offset_of_mask; length_in_tvb = bytes_in_type; } } } proto_tree_add_item (parent, *field->part[i]->hf, tvb, offset_in_tvb, length_in_tvb, ENC_BIG_ENDIAN); break; case FIELD_PART_FLOAT: twos_complement (&value, field->part[i]->bit_length); /* Fall through */ case FIELD_PART_UFLOAT: scaling_factor = field->part[i]->scaling_factor; if (field->part[i]->format_string != NULL) proto_tree_add_double_format_value (parent, *field->part[i]->hf, tvb, offset_in_tvb, length_in_tvb, value * scaling_factor, field->part[i]->format_string, value * scaling_factor); else proto_tree_add_double (parent, *field->part[i]->hf, tvb, offset_in_tvb, length_in_tvb, value * scaling_factor); break; case FIELD_PART_CALLSIGN: str_buffer = wmem_strdup_printf( pinfo->pool, "%c%c%c%c%c%c%c%c", AISCode[(value >> 42) & 63], AISCode[(value >> 36) & 63], AISCode[(value >> 30) & 63], AISCode[(value >> 24) & 63], AISCode[(value >> 18) & 63], AISCode[(value >> 12) & 63], AISCode[(value >> 6) & 63], AISCode[value & 63]); proto_tree_add_string (parent, *field->part[i]->hf, tvb, offset_in_tvb, length_in_tvb, str_buffer); break; case FIELD_PART_IAS_IM: /* special processing for I021/150 and I062/380#4 because Air Speed depends on IM subfield */ air_speed_im_bit = wmem_new (pinfo->pool, uint8_t); *air_speed_im_bit = (tvb_get_guint8 (tvb, offset_in_tvb) & 0x80) >> 7; /* Save IM info for the packet. key = 21150. */ p_add_proto_data (pinfo->pool, pinfo, proto_asterix, 21150, air_speed_im_bit); proto_tree_add_item (parent, *field->part[i]->hf, tvb, offset_in_tvb, length_in_tvb, ENC_BIG_ENDIAN); break; case FIELD_PART_IAS_ASPD: /* special processing for I021/150 and I062/380#4 because Air Speed depends on IM subfield */ air_speed_im_bit = (uint8_t *)p_get_proto_data (pinfo->pool, pinfo, proto_asterix, 21150); if (!air_speed_im_bit || *air_speed_im_bit == 0) scaling_factor = 1.0/16384.0; else scaling_factor = 0.001; proto_tree_add_double (parent, *field->part[i]->hf, tvb, offset_in_tvb, length_in_tvb, value * scaling_factor); break; } } inner_offset += field->part[i]->bit_length; } } /* if not null */ } static uint8_t asterix_bit (uint8_t b, uint8_t bitNo) { return bitNo < 8 && (b & (0x80 >> bitNo)) > 0; } /* Function makes int64_t two's complement. * Only the bit_len bit are set in int64_t. All more significant * bits need to be set to have proper two's complement. * If the number is negative, all other bits must be set to 1. * If the number is positive, all other bits must remain 0. */ static void twos_complement (int64_t *v, int bit_len) { if (*v & (G_GUINT64_CONSTANT(1) << (bit_len - 1))) { *v |= (G_GUINT64_CONSTANT(0xffffffffffffffff) << bit_len); } } static unsigned asterix_fspec_len (tvbuff_t *tvb, unsigned offset) { unsigned i; unsigned max_length = tvb_reported_length (tvb) - offset; for (i = 0; (tvb_get_guint8 (tvb, offset + i) & 1) && i < max_length; i++); return i + 1; } static uint8_t asterix_field_exists (tvbuff_t *tvb, unsigned offset, int bitIndex) { uint8_t bitNo, i; bitNo = bitIndex + bitIndex / 7; for (i = 0; i < bitNo / 8; i++) { if (!(tvb_get_guint8 (tvb, offset + i) & 1)) return 0; } return asterix_bit (tvb_get_guint8 (tvb, offset + i), bitNo % 8); } static int asterix_field_length (tvbuff_t *tvb, unsigned offset, const AsterixField *field) { unsigned size; uint64_t count; uint8_t i; size = 0; switch(field->type) { case FIXED: size = field->length; break; case REPETITIVE: for (i = 0, count = 0; i < field->repetition_counter_size && i < sizeof (count); i++) count = (count << 8) + tvb_get_guint8 (tvb, offset + i); size = (unsigned)(field->repetition_counter_size + count * field->length); break; case FX: for (size = field->length + field->header_length; tvb_get_guint8 (tvb, offset + size - 1) & 1; size += field->length); break; case EXP: for (i = 0, size = 0; i < field->header_length; i++) { size = (size << 8) + tvb_get_guint8 (tvb, offset + i); } break; case COMPOUND: /* FSPEC */ for (size = 0; tvb_get_guint8 (tvb, offset + size) & 1; size++); size++; for (i = 0; field->field[i] != NULL; i++) { if (asterix_field_exists (tvb, offset, i)) size += asterix_field_length (tvb, offset + size, field->field[i]); } break; } return size; } /* This works for category 001. For other it may require changes. */ static uint8_t asterix_get_active_uap (tvbuff_t *tvb, unsigned offset, uint8_t category) { int i, inner_offset; AsterixField **current_uap; if ((category == 1) && (categories[category] != NULL)) { /* if category is supported */ if (categories[category][global_categories_version[category]][1] != NULL) { /* if exists another uap */ current_uap = (AsterixField **)categories[category][global_categories_version[category]][0]; if (current_uap != NULL) { inner_offset = asterix_fspec_len (tvb, offset); for (i = 0; current_uap[i] != NULL; i++) { if (asterix_field_exists (tvb, offset, i)) { if (i == 1) { /* uap selector (I001/020) is always at index '1' */ return tvb_get_guint8 (tvb, offset + inner_offset) >> 7; } inner_offset += asterix_field_length (tvb, offset + inner_offset, current_uap[i]); } } } } } return 0; } static int asterix_field_offset (tvbuff_t *tvb, unsigned offset, const AsterixField *current_uap[], int field_index) { int i, inner_offset; inner_offset = 0; if (asterix_field_exists (tvb, offset, field_index)) { inner_offset = asterix_fspec_len (tvb, offset); for (i = 0; i < field_index; i++) { if (asterix_field_exists (tvb, offset, i)) inner_offset += asterix_field_length (tvb, offset + inner_offset, current_uap[i]); } } return inner_offset; } static int asterix_message_length (tvbuff_t *tvb, unsigned offset, uint8_t category, uint8_t active_uap) { int i, size; AsterixField **current_uap; if (categories[category] != NULL) { /* if category is supported */ current_uap = (AsterixField **)categories[category][global_categories_version[category]][active_uap]; if (current_uap != NULL) { size = asterix_fspec_len (tvb, offset); for (i = 0; current_uap[i] != NULL; i++) { if (asterix_field_exists (tvb, offset, i)) { size += asterix_field_length (tvb, offset + size, current_uap[i]); } } return size; } } return 0; } void proto_register_asterix (void) { static hf_register_info hf[] = { { &hf_asterix_category, { "Category", "asterix.category", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_asterix_length, { "Length", "asterix.length", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_asterix_message, { "Asterix message", "asterix.message", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_asterix_fspec, { "FSPEC", "asterix.fspec", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_re_field_len, { "RE LEN", "asterix.re_field_len", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_spare, { "Spare", "asterix.spare", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_counter, { "Counter", "asterix.counter", FT_UINT32, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_XXX_FX, { "FX", "asterix.FX", FT_UINT8, BASE_DEC, VALS (valstr_XXX_FX), 0x01, "Extension into next extent", HFILL } }, /* insert2 */ ---{insert2}--- /* insert2 */ }; /* Setup protocol subtree array */ static int *ett[] = { &ett_asterix, &ett_asterix_category, &ett_asterix_length, &ett_asterix_message, &ett_asterix_subtree }; module_t *asterix_prefs_module; proto_asterix = proto_register_protocol ( "ASTERIX packet", /* name */ "ASTERIX", /* short name */ "asterix" /* abbrev */ ); proto_register_field_array (proto_asterix, hf, array_length (hf)); proto_register_subtree_array (ett, array_length (ett)); asterix_handle = register_dissector ("asterix", dissect_asterix, proto_asterix); asterix_prefs_module = prefs_register_protocol (proto_asterix, NULL); /* insert3 */ ---{insert3}--- /* insert3 */ } void proto_reg_handoff_asterix (void) { dissector_add_uint_with_preference("udp.port", ASTERIX_PORT, asterix_handle); } /* * Editor modelines - https://www.wireshark.org/tools/modelines.html * * Local variables: * c-basic-offset: 4 * tab-width: 8 * indent-tabs-mode: nil * End: * * vi: set shiftwidth=4 tabstop=8 expandtab: * :indentSize=4:tabSize=8:noTabs=true: */