/* * ESG parser * * Copyright (C) 2006 Stephane Este-Gracias (sestegra@free.fr) * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #include struct esg_session_partition_declaration *esg_session_partition_declaration_decode(uint8_t *buffer, uint32_t size) { uint32_t pos; struct esg_session_partition_declaration *partition; struct esg_session_field *field; struct esg_session_field *last_field; uint8_t field_index; struct esg_session_ip_stream *ip_stream; struct esg_session_ip_stream *last_ip_stream; uint8_t ip_stream_index; uint8_t ip_index; struct esg_session_ip_stream_field *ip_stream_field; struct esg_session_ip_stream_field *last_ip_stream_field; uint8_t *field_buffer; uint32_t field_length; union esg_session_ip_stream_field_value *field_value; if ((buffer == NULL) || (size <= 2)) { return NULL; } pos = 0; partition = (struct esg_session_partition_declaration *) malloc(sizeof(struct esg_session_partition_declaration)); memset(partition, 0, sizeof(struct esg_session_partition_declaration)); partition->field_list = NULL; partition->ip_stream_list = NULL; partition->num_fields = buffer[pos]; pos += 1; partition->overlapping = (buffer[pos] & 0x80) ? 1 : 0; pos += 1; if (size < (pos + 5*(partition->num_fields))) { esg_session_partition_declaration_free(partition); return NULL; } last_field = NULL; for (field_index = 0; field_index < partition->num_fields; field_index++) { field = (struct esg_session_field *) malloc(sizeof(struct esg_session_field)); memset(field, 0, sizeof(struct esg_session_field)); field->_next = NULL; if (last_field == NULL) { partition->field_list = field; } else { last_field->_next = field; } last_field = field; field->identifier = (buffer[pos] << 8) | buffer[pos+1]; pos += 2; field->encoding = (buffer[pos] << 8) | buffer[pos+1]; pos += 2; field->length = buffer[pos]; pos += 1; } partition->n_o_ip_streams = buffer[pos]; pos += 1; partition->ip_version_6 = (buffer[pos] & 0x80) ? 1 : 0; pos += 1; last_ip_stream = NULL; for (ip_stream_index = 0; ip_stream_index < partition->n_o_ip_streams; ip_stream_index++) { ip_stream = (struct esg_session_ip_stream *) malloc(sizeof(struct esg_session_ip_stream)); memset(ip_stream, 0, sizeof(struct esg_session_ip_stream)); ip_stream->_next = NULL; if (last_ip_stream == NULL) { partition->ip_stream_list = ip_stream; } else { last_ip_stream->_next = ip_stream; } last_ip_stream = ip_stream; ip_stream->id = buffer[pos]; pos += 1; if (partition->ip_version_6) { for (ip_index = 0; ip_index < 16; ip_index++) { ip_stream->source_ip.ipv6[ip_index] = buffer[pos+ip_index]; ip_stream->destination_ip.ipv6[ip_index] = buffer[pos+16+ip_index]; } pos += 32; } else { for (ip_index = 0; ip_index < 4; ip_index++) { ip_stream->source_ip.ipv4[ip_index] = buffer[pos+ip_index]; ip_stream->destination_ip.ipv4[ip_index] = buffer[pos+4+ip_index]; } pos += 8; } ip_stream->port = (buffer[pos] << 8) | buffer[pos+1]; pos += 2; ip_stream->session_id = (buffer[pos] << 8) | buffer[pos+1]; pos += 2; last_ip_stream_field = NULL; esg_session_partition_declaration_field_list_for_each(partition, field) { ip_stream_field = (struct esg_session_ip_stream_field *) malloc(sizeof(struct esg_session_ip_stream_field)); memset(ip_stream_field, 0, sizeof(struct esg_session_ip_stream_field)); ip_stream_field->_next = NULL; ip_stream_field->start_field_value = NULL; ip_stream_field->end_field_value = NULL; if (last_ip_stream_field == NULL) { ip_stream->field_list = ip_stream_field; } else { last_ip_stream_field->_next = ip_stream_field; } last_ip_stream_field = ip_stream_field; field_length = field->length; if (field->length != 0) { field_length = field->length; } else { pos += vluimsbf8(buffer + pos, size - pos, &field_length); } switch (field->encoding) { case 0x0000: { if (partition->overlapping == 1) { field_value = (union esg_session_ip_stream_field_value *) malloc(sizeof(union esg_session_ip_stream_field_value)); memset(field_value, 0, sizeof(union esg_session_ip_stream_field_value)); ip_stream_field->start_field_value = field_value; field_buffer = (uint8_t *) malloc(field_length); memset(field_buffer, 0, field_length); memcpy(field_buffer, buffer + pos, field_length); ip_stream_field->start_field_value->string = field_buffer; pos += field_length; } field_value = (union esg_session_ip_stream_field_value *) malloc(sizeof(union esg_session_ip_stream_field_value)); memset(field_value, 0, sizeof(union esg_session_ip_stream_field_value)); ip_stream_field->end_field_value = field_value; field_buffer = (uint8_t *) malloc(field_length); memset(field_buffer, 0, field_length); memcpy(field_buffer, buffer + pos, field_length); ip_stream_field->end_field_value->string = field_buffer; pos += field_length; break; } case 0x0101: { if (partition->overlapping == 1) { field_value = (union esg_session_ip_stream_field_value *) malloc(sizeof(union esg_session_ip_stream_field_value)); memset(field_value, 0, sizeof(union esg_session_ip_stream_field_value)); ip_stream_field->start_field_value = field_value; ip_stream_field->start_field_value->unsigned_short = (buffer[pos] << 8) | buffer[pos+1]; pos += field_length; } field_value = (union esg_session_ip_stream_field_value *) malloc(sizeof(union esg_session_ip_stream_field_value)); memset(field_value, 0, sizeof(union esg_session_ip_stream_field_value)); ip_stream_field->end_field_value = field_value; ip_stream_field->end_field_value->unsigned_short = (buffer[pos] << 8) | buffer[pos+1]; pos += field_length; break; } default: { esg_session_partition_declaration_free(partition); return NULL; } } } } return partition; } void esg_session_partition_declaration_free(struct esg_session_partition_declaration *partition) { struct esg_session_field *field; struct esg_session_field *next_field; struct esg_session_ip_stream *ip_stream; struct esg_session_ip_stream *next_ip_stream; struct esg_session_ip_stream_field *ip_stream_field; struct esg_session_ip_stream_field *next_ip_stream_field; if (partition == NULL) { return; } for(ip_stream = partition->ip_stream_list; ip_stream; ip_stream = next_ip_stream) { next_ip_stream = ip_stream->_next; field = partition->field_list; for(ip_stream_field = next_ip_stream->field_list; ip_stream_field; ip_stream_field = next_ip_stream_field) { next_ip_stream_field = ip_stream_field->_next; switch (field->encoding) { case 0x0000: { if (ip_stream_field->start_field_value != NULL) { free(ip_stream_field->start_field_value->string); } free(ip_stream_field->end_field_value->string); break; } case 0x0101: { // Nothing to free break; } } free(ip_stream_field); field = field->_next; } free(ip_stream); } for(field = partition->field_list; field; field = next_field) { next_field = field->_next; free(field); } free(partition); } 30'>130 131 132 133 134 135 136 137 138 139 140 141 142