/* * tcap-persistentdata.c * Source for lists and hash tables used in wireshark's tcap dissector * for calculation of delays in tcap-calls * Copyright 2006 Florent Drouin (based on h225-persistentdata.c from Lars Roland) * * Wireshark - Network traffic analyzer * By Gerald Combs * Copyright 1998 Gerald Combs * * $Id: tcap-persistentdata.c 27392 2009-02-07 16:01:26Z wmeier $ * * 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 #include #include #include "epan/emem.h" #include "epan/packet.h" #include "epan/asn1.h" #include "epan/tcap-persistentdata.h" #include "epan/dissectors/packet-tcap.h" #include "epan/dissectors/packet-mtp3.h" static gint tcaphash_context_equal(gconstpointer k1, gconstpointer k2); static guint tcaphash_context_calchash(gconstpointer k); static gint tcaphash_begin_equal(gconstpointer k1, gconstpointer k2); static guint tcaphash_begin_calchash(gconstpointer k); static gint tcaphash_cont_equal(gconstpointer k1, gconstpointer k2); static guint tcaphash_cont_calchash(gconstpointer k); static gint tcaphash_end_equal(gconstpointer k1, gconstpointer k2); static guint tcaphash_end_calchash(gconstpointer k); static gint tcaphash_ansi_equal(gconstpointer k1, gconstpointer k2); static guint tcaphash_ansi_calchash(gconstpointer k); static void update_tcaphash_begincall(struct tcaphash_begincall_t *p_tcaphash_begincall, packet_info *pinfo ); static struct tcaphash_begincall_t *append_tcaphash_begincall(struct tcaphash_begincall_t *prev_begincall, struct tcaphash_context_t *p_tcaphash_context, packet_info *pinfo); static struct tcaphash_begincall_t *find_tcaphash_begin(struct tcaphash_begin_info_key_t *p_tcaphash_begin_key, packet_info *pinfo, gboolean isBegin); static struct tcaphash_contcall_t *find_tcaphash_cont(struct tcaphash_cont_info_key_t *p_tcaphash_cont_key, packet_info *pinfo); static struct tcaphash_endcall_t *find_tcaphash_end(struct tcaphash_end_info_key_t *p_tcaphash_end_key, packet_info *pinfo, gboolean isEnd); /* new key */ static struct tcaphash_context_t *new_tcaphash_context(struct tcaphash_context_key_t *p_tcaphash_context_key, packet_info *pinfo); static struct tcaphash_begincall_t *new_tcaphash_begin(struct tcaphash_begin_info_key_t *p_tcaphash_begin_key, struct tcaphash_context_t *p_tcaphash_context); static struct tcaphash_contcall_t *new_tcaphash_cont(struct tcaphash_cont_info_key_t *p_tcaphash_cont_key, struct tcaphash_context_t *p_tcaphash_context); static struct tcaphash_endcall_t *new_tcaphash_end(struct tcaphash_end_info_key_t *p_tcaphash_end_key, struct tcaphash_context_t *p_tcaphash_context); static struct tcaphash_context_t *tcaphash_begin_matching(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, struct tcapsrt_info_t *p_tcapsrt_info); static struct tcaphash_context_t *tcaphash_cont_matching(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, struct tcapsrt_info_t *p_tcapsrt_info); static struct tcaphash_context_t *tcaphash_end_matching(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, struct tcapsrt_info_t *p_tcapsrt_info); static struct tcaphash_context_t *tcaphash_ansi_matching(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, struct tcapsrt_info_t *p_tcapsrt_info); struct tcapsrt_info_t *tcapsrt_razinfo(void); /* When several Tcap components are received in a single TCAP message, we have to use several buffers for the stored parameters because else this data are erased during TAP dissector call */ #define MAX_TCAP_INSTANCE 10 int tcapsrt_global_current=0; struct tcapsrt_info_t tcapsrt_global_info[MAX_TCAP_INSTANCE]; /* These two timeout (in second) are used when some message are lost, or when the same TCAP transcation identifier is reused */ guint gtcap_RepetitionTimeout = 10; guint gtcap_LostTimeout = 30; extern gboolean gtcap_HandleSRT; gboolean gtcap_PersistentSRT=FALSE; gboolean gtcap_DisplaySRT=FALSE; gboolean gtcap_StatSRT=FALSE; extern gint ett_tcap_stat; extern int hf_tcapsrt_SessionId; extern int hf_tcapsrt_Duplicate; extern int hf_tcapsrt_BeginSession; extern int hf_tcapsrt_EndSession; extern int hf_tcapsrt_SessionTime; /* Global hash tables*/ static GHashTable *tcaphash_context = NULL; static GHashTable *tcaphash_begin = NULL; static GHashTable *tcaphash_cont = NULL; static GHashTable *tcaphash_end = NULL; static GHashTable *tcaphash_ansi = NULL; guint32 tcapsrt_global_SessionId=1; /* * DEBUG fonctions */ #undef MEM_TCAPSRT /* #define MEM_TCAPSRT */ #undef DEBUG_TCAPSRT /* #define DEBUG_TCAPSRT */ #ifdef DEBUG_TCAPSRT #include #include static unsigned debug_level = 99; static void dbg(unsigned level, char* fmt, ...) { va_list ap; if (level > debug_level) return; va_start(ap,fmt); vfprintf(stderr, fmt, ap); va_end(ap); } #endif static gint tcaphash_context_equal(gconstpointer k1, gconstpointer k2) { const struct tcaphash_context_key_t *key1 = (const struct tcaphash_context_key_t *) k1; const struct tcaphash_context_key_t *key2 = (const struct tcaphash_context_key_t *) k2; return (key1->session_id == key2->session_id); } /* calculate a hash key */ static guint tcaphash_context_calchash(gconstpointer k) { const struct tcaphash_context_key_t *key = (const struct tcaphash_context_key_t *) k; return key->session_id; } static gint tcaphash_begin_equal(gconstpointer k1, gconstpointer k2) { const struct tcaphash_begin_info_key_t *key1 = (const struct tcaphash_begin_info_key_t *) k1; const struct tcaphash_begin_info_key_t *key2 = (const struct tcaphash_begin_info_key_t *) k2; if (key1->hashKey == key2->hashKey) { if ( ( (key1->opc_hash == key2->opc_hash) && (key1->dpc_hash == key2->dpc_hash) && (key1->tid == key2->tid) ) || ( (key1->opc_hash == key2->dpc_hash) && (key1->dpc_hash == key2->opc_hash) && (key1->tid == key2->tid) ) ) return TRUE; } return FALSE; } /* calculate a hash key */ static guint tcaphash_begin_calchash(gconstpointer k) { const struct tcaphash_begin_info_key_t *key = (const struct tcaphash_begin_info_key_t *) k; guint hashkey; /* hashkey = key->opc_hash<<16 + key->dpc_hash<<8 + key->src_tid; */ hashkey = key->tid; return hashkey; } static gint tcaphash_cont_equal(gconstpointer k1, gconstpointer k2) { const struct tcaphash_cont_info_key_t *key1 = (const struct tcaphash_cont_info_key_t *) k1; const struct tcaphash_cont_info_key_t *key2 = (const struct tcaphash_cont_info_key_t *) k2; if (key1->hashKey == key2->hashKey) { if ( (key1->opc_hash == key2->opc_hash) && (key1->dpc_hash == key2->dpc_hash) && (key1->src_tid == key2->src_tid) && (key1->dst_tid == key2->dst_tid) ) { return TRUE; } else if ( (key1->opc_hash == key2->dpc_hash) && (key1->dpc_hash == key2->opc_hash) && (key1->src_tid == key2->dst_tid) && (key1->dst_tid == key2->src_tid) ) { return TRUE; } } return FALSE; } /* calculate a hash key */ static guint tcaphash_cont_calchash(gconstpointer k) { const struct tcaphash_cont_info_key_t *key = (const struct tcaphash_cont_info_key_t *) k; guint hashkey; hashkey = key->src_tid + key->dst_tid; return hashkey; } static gint tcaphash_end_equal(gconstpointer k1, gconstpointer k2) { const struct tcaphash_end_info_key_t *key1 = (const struct tcaphash_end_info_key_t *) k1; const struct tcaphash_end_info_key_t *key2 = (const struct tcaphash_end_info_key_t *) k2; if (key1->hashKey == key2->hashKey) { if ( ( (key1->opc_hash == key2->opc_hash) && (key1->dpc_hash == key2->dpc_hash) && (key1->tid == key2->tid) ) || ( (key1->opc_hash == key2->dpc_hash) && (key1->dpc_hash == key2->opc_hash) && (key1->tid == key2->tid) ) ) return TRUE; } return FALSE; } /* calculate a hash key */ static guint tcaphash_end_calchash(gconstpointer k) { const struct tcaphash_end_info_key_t *key = (const struct tcaphash_end_info_key_t *) k; guint hashkey; hashkey = key->tid; return hashkey; } static gint tcaphash_ansi_equal(gconstpointer k1, gconstpointer k2) { const struct tcaphash_ansi_info_key_t *key1 = (const struct tcaphash_ansi_info_key_t *) k1; const struct tcaphash_ansi_info_key_t *key2 = (const struct tcaphash_ansi_info_key_t *) k2; if (key1->hashKey == key2->hashKey) { if ( ( (key1->opc_hash == key2->opc_hash) && (key1->dpc_hash == key2->dpc_hash) && (key1->tid == key2->tid) ) || ( (key1->opc_hash == key2->dpc_hash) && (key1->dpc_hash == key2->opc_hash) && (key1->tid == key2->tid) ) ) return TRUE; } return FALSE; } /* calculate a hash key */ static guint tcaphash_ansi_calchash(gconstpointer k) { const struct tcaphash_ansi_info_key_t *key = (const struct tcaphash_ansi_info_key_t *) k; guint hashkey; /* hashkey = key->opc_hash<<16 + key->dpc_hash<<8 + key->src_tid; */ hashkey = key->tid; return hashkey; } /* * Update a record with the data of the Request */ static void update_tcaphash_begincall(struct tcaphash_begincall_t *p_tcaphash_begincall, packet_info *pinfo) { p_tcaphash_begincall->context->first_frame = pinfo->fd->num; p_tcaphash_begincall->context->last_frame = 0; p_tcaphash_begincall->context->responded = FALSE; p_tcaphash_begincall->context->begin_time = pinfo->fd->abs_ts; } /* * Append a new dialogue, using the same Key, to the chained list * The time is stored too */ static struct tcaphash_begincall_t * append_tcaphash_begincall(struct tcaphash_begincall_t *prev_begincall, struct tcaphash_context_t *p_tcaphash_context, packet_info *pinfo) { struct tcaphash_begincall_t *p_new_tcaphash_begincall = NULL; /* Append the transaction to the list, when the same key is found This should append when the tcap-transaction Id is reused */ #ifdef MEM_TCAPSRT p_new_tcaphash_begincall = g_malloc0(sizeof(struct tcaphash_begincall_t)); #else p_new_tcaphash_begincall = se_alloc0(sizeof(struct tcaphash_begincall_t)); #endif p_new_tcaphash_begincall->context=p_tcaphash_context; p_tcaphash_context->begincall=p_new_tcaphash_begincall; p_new_tcaphash_begincall->beginkey=prev_begincall->beginkey; p_new_tcaphash_begincall->context->first_frame = pinfo->fd->num; p_new_tcaphash_begincall->next_begincall=NULL; p_new_tcaphash_begincall->previous_begincall=prev_begincall; p_new_tcaphash_begincall->father=FALSE; #ifdef DEBUG_TCAPSRT dbg(10,"+B%d ", p_new_tcaphash_begincall->context->session_id); #endif /* Insert in the chained list */ prev_begincall->next_begincall = p_new_tcaphash_begincall; if (prev_begincall->context->last_frame == 0) { #ifdef DEBUG_TCAPSRT dbg(10,"last "); #endif prev_begincall->context->last_frame = pinfo->fd->num-1; } return p_new_tcaphash_begincall; } /* * Update a record with the data of the Request */ static void update_tcaphash_ansicall(struct tcaphash_ansicall_t *p_tcaphash_ansicall, packet_info *pinfo) { p_tcaphash_ansicall->context->first_frame = pinfo->fd->num; p_tcaphash_ansicall->context->last_frame = 0; p_tcaphash_ansicall->context->responded = FALSE; p_tcaphash_ansicall->context->begin_time = pinfo->fd->abs_ts; } /* * Append a new dialogue, using the same Key, to the chained list * The time is stored too */ static struct tcaphash_ansicall_t * append_tcaphash_ansicall(struct tcaphash_ansicall_t *prev_ansicall, struct tcaphash_context_t *p_tcaphash_context, packet_info *pinfo) { struct tcaphash_ansicall_t *p_new_tcaphash_ansicall = NULL; /* Append the transaction to the list, when the same key is found This should append when the tcap-transaction Id is reused */ #ifdef MEM_TCAPSRT p_new_tcaphash_ansicall = g_malloc0(sizeof(struct tcaphash_ansicall_t)); #else p_new_tcaphash_ansicall = se_alloc0(sizeof(struct tcaphash_ansicall_t)); #endif p_new_tcaphash_ansicall->context=p_tcaphash_context; p_tcaphash_context->ansicall=p_new_tcaphash_ansicall; p_new_tcaphash_ansicall->ansikey=prev_ansicall->ansikey; p_new_tcaphash_ansicall->context->first_frame = pinfo->fd->num; p_new_tcaphash_ansicall->next_ansicall=NULL; p_new_tcaphash_ansicall->previous_ansicall=prev_ansicall; p_new_tcaphash_ansicall->father=FALSE; #ifdef DEBUG_TCAPSRT dbg(10,"+A%d ", p_new_tcaphash_ansicall->context->session_id); #endif /* Insert in the chained list */ prev_ansicall->next_ansicall = p_new_tcaphash_ansicall; if (prev_ansicall->context->last_frame == 0) { #ifdef DEBUG_TCAPSRT dbg(10,"last "); #endif prev_ansicall->context->last_frame = pinfo->fd->num-1; } return p_new_tcaphash_ansicall; } static struct tcaphash_contcall_t * append_tcaphash_contcall(struct tcaphash_contcall_t *prev_contcall, struct tcaphash_context_t *p_tcaphash_context) { struct tcaphash_contcall_t *p_new_tcaphash_contcall = NULL; /* Append the transaction to the list, when the same key is found This should append when the tcap-transaction Id is reused */ #ifdef MEM_TCAPSRT p_new_tcaphash_contcall = g_malloc0(sizeof(struct tcaphash_contcall_t)); #else p_new_tcaphash_contcall = se_alloc0(sizeof(struct tcaphash_contcall_t)); #endif p_new_tcaphash_contcall->context=p_tcaphash_context; p_tcaphash_context->contcall=p_new_tcaphash_contcall; p_new_tcaphash_contcall->contkey=prev_contcall->contkey; p_new_tcaphash_contcall->next_contcall=NULL; p_new_tcaphash_contcall->previous_contcall=prev_contcall; p_new_tcaphash_contcall->father=FALSE; #ifdef DEBUG_TCAPSRT dbg(10,"+C%d ", p_new_tcaphash_contcall->context->session_id); #endif /* Insert in the chained list */ prev_contcall->next_contcall = p_new_tcaphash_contcall; return p_new_tcaphash_contcall; } static struct tcaphash_endcall_t * append_tcaphash_endcall(struct tcaphash_endcall_t *prev_endcall, struct tcaphash_context_t *p_tcaphash_context) { struct tcaphash_endcall_t *p_new_tcaphash_endcall = NULL; /* Append the transaction to the list, when the same key is found This should append when the tcap-transaction Id is reused */ #ifdef MEM_TCAPSRT p_new_tcaphash_endcall = g_malloc0(sizeof(struct tcaphash_endcall_t)); #else p_new_tcaphash_endcall = se_alloc0(sizeof(struct tcaphash_endcall_t)); #endif p_new_tcaphash_endcall->context=p_tcaphash_context; p_tcaphash_context->endcall=p_new_tcaphash_endcall; p_new_tcaphash_endcall->endkey=prev_endcall->endkey; p_new_tcaphash_endcall->next_endcall=NULL; p_new_tcaphash_endcall->previous_endcall=prev_endcall; p_new_tcaphash_endcall->father=FALSE; #ifdef DEBUG_TCAPSRT dbg(10,"+E%d ", p_new_tcaphash_endcall->context->session_id); #endif /* Insert in the chained list */ prev_endcall->next_endcall = p_new_tcaphash_endcall; return p_new_tcaphash_endcall; } /* * Find the dialog by Key and Time */ static struct tcaphash_begincall_t * find_tcaphash_begin(struct tcaphash_begin_info_key_t *p_tcaphash_begin_key, packet_info *pinfo, gboolean isBegin) { struct tcaphash_begincall_t *p_tcaphash_begincall = NULL; p_tcaphash_begincall = (struct tcaphash_begincall_t *)g_hash_table_lookup(tcaphash_begin, p_tcaphash_begin_key); if(p_tcaphash_begincall) { do { if ( p_tcaphash_begincall->context ) { if ( ( isBegin && pinfo->fd->num == p_tcaphash_begincall->context->first_frame ) || ( !isBegin && pinfo->fd->num >= p_tcaphash_begincall->context->first_frame && ( p_tcaphash_begincall->context->last_frame?pinfo->fd->num <= p_tcaphash_begincall->context->last_frame:1 ) ) ) { /* We have a dialogue, with this key, opened before this request */ #ifdef DEBUG_TCAPSRT dbg(10,"B%d ", p_tcaphash_begincall->context->session_id); #endif return p_tcaphash_begincall; break; } #ifdef DEBUG_TCAPSRT dbg(60,"[B%d] ", p_tcaphash_begincall->context->session_id); #endif } /* Break when list end is reached */ if(p_tcaphash_begincall->next_begincall == NULL) { #ifdef DEBUG_TCAPSRT dbg(23,"End of Blist "); #endif break; } p_tcaphash_begincall = p_tcaphash_begincall->next_begincall; } while (p_tcaphash_begincall != NULL) ; } else { #ifdef DEBUG_TCAPSRT dbg(23,"Not in Bhash "); #endif } return NULL; } static struct tcaphash_contcall_t * find_tcaphash_cont(struct tcaphash_cont_info_key_t *p_tcaphash_cont_key, packet_info *pinfo) { struct tcaphash_contcall_t *p_tcaphash_contcall = NULL; p_tcaphash_contcall = (struct tcaphash_contcall_t *)g_hash_table_lookup(tcaphash_cont, p_tcaphash_cont_key); if(p_tcaphash_contcall) { do { if ( p_tcaphash_contcall->context ) { if (pinfo->fd->num >= p_tcaphash_contcall->context->first_frame && (p_tcaphash_contcall->context->last_frame?pinfo->fd->num <= p_tcaphash_contcall->context->last_frame:1) ) { /* We have a dialogue, with this key, opened before this request */ #ifdef DEBUG_TCAPSRT dbg(10,"C%d ", p_tcaphash_contcall->context->session_id); #endif return p_tcaphash_contcall; break; } #ifdef DEBUG_TCAPSRT dbg(60,"[C%d] ", p_tcaphash_contcall->context->session_id); #endif } /* Break when list end is reached */ if(p_tcaphash_contcall->next_contcall == NULL) { #ifdef DEBUG_TCAPSRT dbg(23,"End of Clist "); #endif break; } p_tcaphash_contcall = p_tcaphash_contcall->next_contcall; } while (p_tcaphash_contcall != NULL) ; } else { #ifdef DEBUG_TCAPSRT dbg(23,"Not in Chash "); #endif } return NULL; } static struct tcaphash_endcall_t * find_tcaphash_end(struct tcaphash_end_info_key_t *p_tcaphash_end_key, packet_info *pinfo, gboolean isEnd) { struct tcaphash_endcall_t *p_tcaphash_endcall = NULL; p_tcaphash_endcall = (struct tcaphash_endcall_t *)g_hash_table_lookup(tcaphash_end, p_tcaphash_end_key); if(p_tcaphash_endcall) { do { if ( p_tcaphash_endcall->context ) { if ( ( isEnd && (p_tcaphash_endcall->context->last_frame?pinfo->fd->num == p_tcaphash_endcall->context->last_frame:1) ) || ( !isEnd && pinfo->fd->num >= p_tcaphash_endcall->context->first_frame && (p_tcaphash_endcall->context->last_frame?pinfo->fd->num <= p_tcaphash_endcall->context->last_frame:1) ) ) { /* We have a dialogue, with this key, opened before this request */ #ifdef DEBUG_TCAPSRT dbg(10,"E%d ", p_tcaphash_endcall->context->session_id); #endif return p_tcaphash_endcall; break; } #ifdef DEBUG_TCAPSRT dbg(60,"[E%d] ", p_tcaphash_endcall->context->session_id); #endif } /* Break when list end is reached */ if(p_tcaphash_endcall->next_endcall == NULL) { #ifdef DEBUG_TCAPSRT dbg(23,"End of Elist "); #endif break; } p_tcaphash_endcall = p_tcaphash_endcall->next_endcall; } while (p_tcaphash_endcall != NULL) ; } else { #ifdef DEBUG_TCAPSRT dbg(23,"Not in Ehash "); #endif } return NULL; } /* * New record to create, to identify a new transaction */ static struct tcaphash_context_t * new_tcaphash_context(struct tcaphash_context_key_t *p_tcaphash_context_key, packet_info *pinfo) { struct tcaphash_context_key_t *p_new_tcaphash_context_key; struct tcaphash_context_t *p_new_tcaphash_context = NULL; /* Register the transaction in the hash table with the tcap transaction Id as Main Key Once created, this entry will be updated later */ #ifdef MEM_TCAPSRT p_new_tcaphash_context_key = g_malloc(sizeof(struct tcaphash_context_key_t)); #else p_new_tcaphash_context_key = se_alloc(sizeof(struct tcaphash_context_key_t)); #endif p_new_tcaphash_context_key->session_id = p_tcaphash_context_key->session_id; #ifdef MEM_TCAPSRT p_new_tcaphash_context = g_malloc0(sizeof(struct tcaphash_context_t)); #else p_new_tcaphash_context = se_alloc0(sizeof(struct tcaphash_context_t)); #endif p_new_tcaphash_context->key = p_new_tcaphash_context_key; p_new_tcaphash_context->session_id = p_tcaphash_context_key->session_id; p_new_tcaphash_context->first_frame = pinfo->fd->num; #ifdef DEBUG_TCAPSRT dbg(10,"S%d ", p_new_tcaphash_context->session_id); #endif /* store it */ g_hash_table_insert(tcaphash_context, p_new_tcaphash_context_key, p_new_tcaphash_context); return p_new_tcaphash_context; } /* * New record to create, to identify a new transaction */ static struct tcaphash_begincall_t * new_tcaphash_begin(struct tcaphash_begin_info_key_t *p_tcaphash_begin_key, struct tcaphash_context_t *p_tcaphash_context) { struct tcaphash_begin_info_key_t *p_new_tcaphash_begin_key; struct tcaphash_begincall_t *p_new_tcaphash_begincall = NULL; /* Register the transaction in the hash table with the tcap transaction Id as Main Key Once created, this entry will be updated later */ #ifdef MEM_TCAPSRT p_new_tcaphash_begin_key = g_malloc(sizeof(struct tcaphash_begin_info_key_t)); #else p_new_tcaphash_begin_key = se_alloc(sizeof(struct tcaphash_begin_info_key_t)); #endif p_new_tcaphash_begin_key->hashKey = p_tcaphash_begin_key->hashKey; p_new_tcaphash_begin_key->tid = p_tcaphash_begin_key->tid; p_new_tcaphash_begin_key->opc_hash = p_tcaphash_begin_key->opc_hash; p_new_tcaphash_begin_key->dpc_hash = p_tcaphash_begin_key->dpc_hash; #ifdef MEM_TCAPSRT p_new_tcaphash_begincall = g_malloc0(sizeof(struct tcaphash_begincall_t)); #else p_new_tcaphash_begincall = se_alloc0(sizeof(struct tcaphash_begincall_t)); #endif p_new_tcaphash_begincall->beginkey=p_new_tcaphash_begin_key; p_new_tcaphash_begincall->context=p_tcaphash_context; p_tcaphash_context->begincall=p_new_tcaphash_begincall; p_new_tcaphash_begincall->father=TRUE; p_new_tcaphash_begincall->next_begincall=NULL; p_new_tcaphash_begincall->previous_begincall=NULL; #ifdef DEBUG_TCAPSRT dbg(10,"B%d ", p_new_tcaphash_begincall->context->session_id); #endif /* store it */ g_hash_table_insert(tcaphash_begin, p_new_tcaphash_begin_key, p_new_tcaphash_begincall); return p_new_tcaphash_begincall; } /* * New record to create, to identify a new transaction */ static struct tcaphash_contcall_t * new_tcaphash_cont(struct tcaphash_cont_info_key_t *p_tcaphash_cont_key, struct tcaphash_context_t *p_tcaphash_context) { struct tcaphash_cont_info_key_t *p_new_tcaphash_cont_key; struct tcaphash_contcall_t *p_new_tcaphash_contcall = NULL; /* Register the transaction in the hash table with the tcap transaction Id as Main Key Once created, this entry will be updated later */ #ifdef MEM_TCAPSRT p_new_tcaphash_cont_key = g_malloc(sizeof(struct tcaphash_cont_info_key_t)); #else p_new_tcaphash_cont_key = se_alloc(sizeof(struct tcaphash_cont_info_key_t)); #endif p_new_tcaphash_cont_key->hashKey = p_tcaphash_cont_key->hashKey; p_new_tcaphash_cont_key->src_tid = p_tcaphash_cont_key->src_tid; p_new_tcaphash_cont_key->dst_tid = p_tcaphash_cont_key->dst_tid; p_new_tcaphash_cont_key->opc_hash = p_tcaphash_cont_key->opc_hash; p_new_tcaphash_cont_key->dpc_hash = p_tcaphash_cont_key->dpc_hash; #ifdef MEM_TCAPSRT p_new_tcaphash_contcall = g_malloc0(sizeof(struct tcaphash_contcall_t)); #else p_new_tcaphash_contcall = se_alloc0(sizeof(struct tcaphash_contcall_t)); #endif p_new_tcaphash_contcall->contkey=p_new_tcaphash_cont_key; p_new_tcaphash_contcall->context=p_tcaphash_context; p_tcaphash_context->contcall=p_new_tcaphash_contcall; p_new_tcaphash_contcall->father=TRUE; p_new_tcaphash_contcall->next_contcall=NULL; p_new_tcaphash_contcall->previous_contcall=NULL; #ifdef DEBUG_TCAPSRT dbg(10,"C%d ", p_new_tcaphash_contcall->context->session_id); #endif /* store it */ g_hash_table_insert(tcaphash_cont, p_new_tcaphash_cont_key, p_new_tcaphash_contcall); return p_new_tcaphash_contcall; } /* * New record to create, to identify a new transaction */ static struct tcaphash_endcall_t * new_tcaphash_end(struct tcaphash_end_info_key_t *p_tcaphash_end_key, struct tcaphash_context_t *p_tcaphash_context) { struct tcaphash_end_info_key_t *p_new_tcaphash_end_key; struct tcaphash_endcall_t *p_new_tcaphash_endcall = NULL; /* Register the transaction in the hash table with the tcap transaction Id as Main Key Once created, this entry will be updated later */ #ifdef MEM_TCAPSRT p_new_tcaphash_end_key = g_malloc(sizeof(struct tcaphash_end_info_key_t)); #else p_new_tcaphash_end_key = se_alloc(sizeof(struct tcaphash_end_info_key_t)); #endif p_new_tcaphash_end_key->hashKey = p_tcaphash_end_key->hashKey; p_new_tcaphash_end_key->tid = p_tcaphash_end_key->tid; p_new_tcaphash_end_key->opc_hash = p_tcaphash_end_key->opc_hash; p_new_tcaphash_end_key->dpc_hash = p_tcaphash_end_key->dpc_hash; #ifdef MEM_TCAPSRT p_new_tcaphash_endcall = g_malloc0(sizeof(struct tcaphash_endcall_t)); #else p_new_tcaphash_endcall = se_alloc0(sizeof(struct tcaphash_endcall_t)); #endif p_new_tcaphash_endcall->endkey=p_new_tcaphash_end_key; p_new_tcaphash_endcall->context=p_tcaphash_context; p_tcaphash_context->endcall=p_new_tcaphash_endcall; p_new_tcaphash_endcall->father=TRUE; p_new_tcaphash_endcall->next_endcall=NULL; p_new_tcaphash_endcall->previous_endcall=NULL; #ifdef DEBUG_TCAPSRT dbg(10,"E%d ", p_new_tcaphash_endcall->context->session_id); #endif /* store it */ g_hash_table_insert(tcaphash_end, p_new_tcaphash_end_key, p_new_tcaphash_endcall); return p_new_tcaphash_endcall; } /* * New record to create, to identify a new transaction */ static struct tcaphash_ansicall_t * new_tcaphash_ansi(struct tcaphash_ansi_info_key_t *p_tcaphash_ansi_key, struct tcaphash_context_t *p_tcaphash_context) { struct tcaphash_ansi_info_key_t *p_new_tcaphash_ansi_key; struct tcaphash_ansicall_t *p_new_tcaphash_ansicall = NULL; /* Register the transaction in the hash table with the tcap transaction Id as Main Key Once created, this entry will be updated later */ #ifdef MEM_TCAPSRT p_new_tcaphash_ansi_key = g_malloc(sizeof(struct tcaphash_ansi_info_key_t)); #else p_new_tcaphash_ansi_key = se_alloc(sizeof(struct tcaphash_ansi_info_key_t)); #endif p_new_tcaphash_ansi_key->hashKey = p_tcaphash_ansi_key->hashKey; p_new_tcaphash_ansi_key->tid = p_tcaphash_ansi_key->tid; p_new_tcaphash_ansi_key->opc_hash = p_tcaphash_ansi_key->opc_hash; p_new_tcaphash_ansi_key->dpc_hash = p_tcaphash_ansi_key->dpc_hash; #ifdef MEM_TCAPSRT p_new_tcaphash_ansicall = g_malloc0(sizeof(struct tcaphash_ansicall_t)); #else p_new_tcaphash_ansicall = se_alloc0(sizeof(struct tcaphash_ansicall_t)); #endif p_new_tcaphash_ansicall->ansikey=p_new_tcaphash_ansi_key; p_new_tcaphash_ansicall->context=p_tcaphash_context; p_tcaphash_context->ansicall=p_new_tcaphash_ansicall; p_new_tcaphash_ansicall->father=TRUE; p_new_tcaphash_ansicall->next_ansicall=NULL; p_new_tcaphash_ansicall->previous_ansicall=NULL; #ifdef DEBUG_TCAPSRT dbg(10,"A%d ", p_new_tcaphash_ansicall->context->session_id); #endif /* store it */ g_hash_table_insert(tcaphash_ansi, p_new_tcaphash_ansi_key, p_new_tcaphash_ansicall); return p_new_tcaphash_ansicall; } static struct tcaphash_contcall_t * create_tcaphash_cont(struct tcaphash_cont_info_key_t *p_tcaphash_cont_key, struct tcaphash_context_t *p_tcaphash_context) { struct tcaphash_contcall_t *p_tcaphash_contcall1 = NULL; struct tcaphash_contcall_t *p_tcaphash_contcall = NULL; p_tcaphash_contcall1 = (struct tcaphash_contcall_t *) g_hash_table_lookup(tcaphash_cont, p_tcaphash_cont_key); if (p_tcaphash_contcall1) { /* Walk through list of transaction with identical keys */ /* go the the end to insert new record */ do { if (!p_tcaphash_contcall1->next_contcall) { p_tcaphash_contcall=append_tcaphash_contcall(p_tcaphash_contcall1, p_tcaphash_context); break; } p_tcaphash_contcall1 = p_tcaphash_contcall1->next_contcall; } while (p_tcaphash_contcall1 != NULL ); } else { p_tcaphash_contcall = new_tcaphash_cont(p_tcaphash_cont_key, p_tcaphash_context); } return p_tcaphash_contcall; } static struct tcaphash_endcall_t * create_tcaphash_end(struct tcaphash_end_info_key_t *p_tcaphash_end_key, struct tcaphash_context_t *p_tcaphash_context) { struct tcaphash_endcall_t *p_tcaphash_endcall1 = NULL; struct tcaphash_endcall_t *p_tcaphash_endcall = NULL; p_tcaphash_endcall1 = (struct tcaphash_endcall_t *) g_hash_table_lookup(tcaphash_end, p_tcaphash_end_key); if (p_tcaphash_endcall1) { /* Walk through list of transaction with identical keys */ /* go the the end to insert new record */ do { if (!p_tcaphash_endcall1->next_endcall) { p_tcaphash_endcall=append_tcaphash_endcall(p_tcaphash_endcall1, p_tcaphash_context); break; } p_tcaphash_endcall1 = p_tcaphash_endcall1->next_endcall; } while (p_tcaphash_endcall1 != NULL ); } else { p_tcaphash_endcall = new_tcaphash_end(p_tcaphash_end_key, p_tcaphash_context); } return p_tcaphash_endcall; } /* * Routine called when the TAP is initialized. * so hash table are (re)created */ void tcapsrt_init_routine(void) { /* free hash-tables and mem_chunks for SRT */ if (tcaphash_context != NULL) { #ifdef DEBUG_TCAPSRT dbg(16,"Destroy hash_context "); #endif g_hash_table_destroy(tcaphash_context); } if (tcaphash_begin != NULL) { #ifdef DEBUG_TCAPSRT dbg(16,"Destroy hash_begin "); #endif g_hash_table_destroy(tcaphash_begin); } if (tcaphash_cont != NULL) { #ifdef DEBUG_TCAPSRT dbg(16,"Destroy hash_cont "); #endif g_hash_table_destroy(tcaphash_cont); } if (tcaphash_end != NULL) { #ifdef DEBUG_TCAPSRT dbg(16,"Destroy hash_end "); #endif g_hash_table_destroy(tcaphash_end); } if (tcaphash_ansi != NULL) { #ifdef DEBUG_TCAPSRT dbg(16,"Destroy hash_ansi "); #endif g_hash_table_destroy(tcaphash_ansi); } #ifdef DEBUG_TCAPSRT dbg(16,"Create hash "); #endif /* create new hash-tables and mem_chunks for SRT */ tcaphash_context = g_hash_table_new(tcaphash_context_calchash, tcaphash_context_equal); tcaphash_begin = g_hash_table_new(tcaphash_begin_calchash, tcaphash_begin_equal); tcaphash_cont = g_hash_table_new(tcaphash_cont_calchash, tcaphash_cont_equal); tcaphash_end = g_hash_table_new(tcaphash_end_calchash, tcaphash_end_equal); tcaphash_ansi = g_hash_table_new(tcaphash_ansi_calchash, tcaphash_ansi_equal); /* Reset the session counter */ tcapsrt_global_SessionId=1; /* Display of SRT only if Persistent Stat */ gtcap_DisplaySRT=gtcap_PersistentSRT || gtcap_HandleSRT>cap_StatSRT; } /* * Service Response Time analyze * Called just after dissector call * Associate a TCAP context to a tcap session and display session related infomations * like the first frame, the last, the session duration, * and a uniq session identifier for the filtering * * For ETSI tcap, the TCAP context can be reached through three keys * - a key (BEGIN) identifying the session according to the tcap source identifier * - a key (CONT) identifying the established session (src_id and dst_id) * - a key (END) identifying the session according to the tcap destination identifier * * For ANSI tcap, the TCAP context is reached through a uniq key * - a key (ANSI) identifying the session according to the tcap identifier */ struct tcaphash_context_t * tcapsrt_call_matching(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, struct tcapsrt_info_t *p_tcapsrt_info) { struct tcaphash_context_t *tcap_context=NULL; /* if this packet isn't loaded because of a read filter, don't output anything */ if(pinfo == NULL || pinfo->fd->num == 0) { return NULL; } switch (p_tcapsrt_info->ope) { case TC_BEGIN: #ifdef DEBUG_TCAPSRT dbg(1,"TC_BEGIN "); #endif tcap_context=tcaphash_begin_matching(tvb, pinfo, tree, p_tcapsrt_info); break; case TC_CONT: #ifdef DEBUG_TCAPSRT dbg(1,"TC_CONT "); #endif tcap_context=tcaphash_cont_matching(tvb, pinfo, tree, p_tcapsrt_info); break; case TC_ABORT: #ifdef DEBUG_TCAPSRT dbg(1,"TC_ABORT "); #endif tcap_context=tcaphash_end_matching(tvb, pinfo, tree, p_tcapsrt_info); break; case TC_END: #ifdef DEBUG_TCAPSRT dbg(1,"TC_END "); #endif tcap_context=tcaphash_end_matching(tvb, pinfo, tree, p_tcapsrt_info); break; case TC_ANSI_ALL: case TC_ANSI_ABORT: #ifdef DEBUG_TCAPSRT dbg(1,"TC_ANSI "); #endif tcap_context=tcaphash_ansi_matching(tvb, pinfo, tree, p_tcapsrt_info); break; default: #ifdef DEBUG_TCAPSRT dbg(1,"Unknown %d ", p_tcapsrt_info->ope); #endif break; } /* switch tcapop */ #ifdef DEBUG_TCAPSRT if (tcap_context) dbg(1,"session %d ", tcap_context->session_id); #endif return tcap_context; } /* * Create the record identifiying the TCAP transaction * When the identifier for the transaction is reused, check * the following criteria before to append a new record: * - a timeout corresponding to a message retransmission is detected, * - a message hast been lost * - or the previous transaction has been be closed */ static struct tcaphash_context_t * tcaphash_begin_matching(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, struct tcapsrt_info_t *p_tcapsrt_info) { struct tcaphash_context_t *p_tcaphash_context=NULL; struct tcaphash_context_key_t tcaphash_context_key; struct tcaphash_begincall_t *p_tcaphash_begincall, *p_new_tcaphash_begincall=NULL; struct tcaphash_begin_info_key_t tcaphash_begin_key; proto_item *pi; proto_item *stat_item=NULL; proto_tree *stat_tree=NULL; /* prepare the key data */ tcaphash_begin_key.tid = p_tcapsrt_info->src_tid; if (pinfo->src.type == AT_SS7PC && pinfo->dst.type == AT_SS7PC) { /* We have MTP3 PCs (so we can safely do this cast) */ tcaphash_begin_key.opc_hash = mtp3_pc_hash((const mtp3_addr_pc_t *)pinfo->src.data); tcaphash_begin_key.dpc_hash = mtp3_pc_hash((const mtp3_addr_pc_t *)pinfo->dst.data); } else { /* Don't have MTP3 PCs (maybe we're over SUA?) */ tcaphash_begin_key.opc_hash = g_str_hash(address_to_str(&pinfo->src)); tcaphash_begin_key.dpc_hash = g_str_hash(address_to_str(&pinfo->dst)); } tcaphash_begin_key.hashKey=tcaphash_begin_calchash(&tcaphash_begin_key); /* look up the request */ #ifdef DEBUG_TCAPSRT dbg(10,"\n Hbegin #%u ", pinfo->fd->num); dbg(11,"key %lx ",tcaphash_begin_key.hashKey); dbg(51,"PC %s %s ",address_to_str(&pinfo->src), address_to_str(&pinfo->dst)); dbg(51,"Tid %lx ",tcaphash_begin_key.tid); #endif p_tcaphash_begincall = (struct tcaphash_begincall_t *) g_hash_table_lookup(tcaphash_begin, &tcaphash_begin_key); if (p_tcaphash_begincall) { /* Walk through list of transaction with identical keys */ do { /* Check if the request with this reqSeqNum has been seen, with the same Message Type */ if (pinfo->fd->num == p_tcaphash_begincall->context->first_frame) { /* We have seen this request before -> do nothing */ #ifdef DEBUG_TCAPSRT dbg(22,"Already seen "); #endif p_tcaphash_context=p_tcaphash_begincall->context; break; } /* If the last record for Tcap transaction with identifier has not been reached */ if (!p_tcaphash_begincall->next_begincall) { /* check if we have to create a new record or not */ /* if last request has been responded (response number is known) and this request appears after last response (has bigger frame number) and last request occured after the timeout for repetition, or if last request hasn't been responded (so number unknown) and this request appears after last request (has bigger frame number) and this request occured after the timeout for message lost */ if ( ( p_tcaphash_begincall->context->last_frame != 0 && pinfo->fd->num > p_tcaphash_begincall->context->first_frame && (guint) pinfo->fd->abs_ts.secs > (guint)(p_tcaphash_begincall->context->begin_time.secs + gtcap_RepetitionTimeout) ) || ( p_tcaphash_begincall->context->last_frame == 0 && pinfo->fd->num > p_tcaphash_begincall->context->first_frame && (guint)pinfo->fd->abs_ts.secs > (guint)(p_tcaphash_begincall->context->begin_time.secs + gtcap_LostTimeout) ) ) { /* we decide that we have a new request */ /* Append new record to the list */ #ifdef DEBUG_TCAPSRT dbg(12,"(timeout) Append key %lx ",tcaphash_begin_key.hashKey); dbg(12,"Frame %u rsp %u ",pinfo->fd->num,p_tcaphash_begincall->context->last_frame ); #endif tcaphash_context_key.session_id = tcapsrt_global_SessionId++; p_tcaphash_context = new_tcaphash_context(&tcaphash_context_key, pinfo); p_new_tcaphash_begincall = append_tcaphash_begincall(p_tcaphash_begincall, p_tcaphash_context, pinfo); #ifdef DEBUG_TCAPSRT dbg(12,"Update key %lx ",tcaphash_begin_key.hashKey); #endif update_tcaphash_begincall(p_new_tcaphash_begincall, pinfo); p_tcaphash_begincall=p_new_tcaphash_begincall; } else { /* timeout or message lost */ /* If the Tid is reused for a closed Transaction */ /* Or if we received an TC_BEGIN for a Transaction marked as "closed" */ /* (this is the case, for pre-arranged END, the transaction is marked as closed */ /* by the upper layer, thank to a callback method close) */ if ( p_tcaphash_begincall->context->closed) { #ifdef DEBUG_TCAPSRT dbg(12,"(closed) Append key %lu ",tcaphash_begin_key.hashKey); dbg(12,"Frame %u rsp %u ",pinfo->fd->num,p_tcaphash_begincall->context->last_frame ); #endif tcaphash_context_key.session_id = tcapsrt_global_SessionId++; p_tcaphash_context = new_tcaphash_context(&tcaphash_context_key, pinfo); p_new_tcaphash_begincall = append_tcaphash_begincall(p_tcaphash_begincall, p_tcaphash_context, pinfo); #ifdef DEBUG_TCAPSRT dbg(12,"Update key %lu ",tcaphash_begin_key.hashKey); #endif update_tcaphash_begincall(p_new_tcaphash_begincall, pinfo); p_tcaphash_begincall=p_new_tcaphash_begincall; } else { /* the TCAP session is not closed, so, either messages have been lost */ /* or it's a duplicate request. Mark it as such. */ #ifdef DEBUG_TCAPSRT dbg(21,"Display_duplicate %d ",p_tcaphash_begincall->context->first_frame); #endif p_tcaphash_context=p_tcaphash_begincall->context; if (gtcap_DisplaySRT && tree) { stat_item = proto_tree_add_text(tree, tvb, 0, -1, "Stat"); PROTO_ITEM_SET_GENERATED(stat_item); stat_tree = proto_item_add_subtree(stat_item, ett_tcap_stat); pi = proto_tree_add_uint_format(stat_tree, hf_tcapsrt_Duplicate, tvb, 0, 0, p_tcaphash_context->first_frame, "Duplicate with session %u in frame %u", p_tcaphash_context->session_id,p_tcaphash_context->first_frame); PROTO_ITEM_SET_GENERATED(pi); } return p_tcaphash_context; } /* Previous session closed */ } /* test with Timeout or message Lost */ break; } /* Next call is NULL */ /* Repeat the tests for the next record with the same transaction identifier */ p_tcaphash_begincall = p_tcaphash_begincall->next_begincall; } while (p_tcaphash_begincall != NULL ); /* * End of analyze for the list be TC_BEGIN with same transaction ID */ } else { /* p_tcaphash_begincall has not been found */ /* * Create a new TCAP context */ #ifdef DEBUG_TCAPSRT dbg(10,"New key %lx ",tcaphash_begin_key.hashKey); #endif tcaphash_context_key.session_id = tcapsrt_global_SessionId++; p_tcaphash_context = new_tcaphash_context(&tcaphash_context_key, pinfo); p_tcaphash_begincall = new_tcaphash_begin(&tcaphash_begin_key, p_tcaphash_context); #ifdef DEBUG_TCAPSRT dbg(11,"Update key %lx ",tcaphash_begin_key.hashKey); dbg(11,"Frame reqlink #%u ", pinfo->fd->num); #endif update_tcaphash_begincall(p_tcaphash_begincall, pinfo); } /* display tcap session, if available */ if ( gtcap_DisplaySRT && tree && p_tcaphash_context && p_tcaphash_context->session_id) { stat_item = proto_tree_add_text(tree, tvb, 0, 0, "Stat"); PROTO_ITEM_SET_GENERATED(stat_item); stat_tree = proto_item_add_subtree(stat_item, ett_tcap_stat); pi = proto_tree_add_uint(stat_tree, hf_tcapsrt_SessionId, tvb, 0,0, p_tcaphash_context->session_id); PROTO_ITEM_SET_GENERATED(pi); /* add link to response frame, if available */ /* p_tcaphash_begincall->context->last_frame) */ if( p_tcaphash_context->last_frame != 0 ){ #ifdef DEBUG_TCAPSRT dbg(20,"Display_frameRsplink %d ",p_tcaphash_context->last_frame); #endif pi = proto_tree_add_uint_format(stat_tree, hf_tcapsrt_BeginSession, tvb, 0, 0, p_tcaphash_context->last_frame, "End of session in frame %u", p_tcaphash_context->last_frame); PROTO_ITEM_SET_GENERATED(pi); } } return p_tcaphash_context; } /* * Try to find a TCAP session according to the source and destination * Identifier given in the TC_CONT * If nothing is found, it is probably a session in opening state, so try to find * a tcap session registered with a TC_BEGIN "key", matching the destination Id of the TC_CONT * Then associate the TC_CONT "key" to the TCAP context, and create a TC_END "key" * and display the available info for the TCAP context */ static struct tcaphash_context_t * tcaphash_cont_matching(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, struct tcapsrt_info_t *p_tcapsrt_info) { struct tcaphash_context_t *p_tcaphash_context=NULL; struct tcaphash_contcall_t *p_tcaphash_contcall; struct tcaphash_cont_info_key_t tcaphash_cont_key; struct tcaphash_begin_info_key_t tcaphash_begin_key; struct tcaphash_begincall_t *p_tcaphash_begincall; struct tcaphash_end_info_key_t tcaphash_end_key; struct tcaphash_endcall_t *p_tcaphash_endcall; proto_item *pi; proto_item *stat_item=NULL; proto_tree *stat_tree=NULL; #ifdef DEBUG_TCAPSRT dbg(10,"\n Hcont #%u ", pinfo->fd->num); #endif /* look only for matching request, if matching conversation is available. */ tcaphash_cont_key.src_tid = p_tcapsrt_info->src_tid; tcaphash_cont_key.dst_tid = p_tcapsrt_info->dst_tid; if (pinfo->src.type == AT_SS7PC && pinfo->dst.type == AT_SS7PC) { /* We have MTP3 PCs (so we can safely do this cast) */ tcaphash_cont_key.opc_hash = mtp3_pc_hash((const mtp3_addr_pc_t *)pinfo->src.data); tcaphash_cont_key.dpc_hash = mtp3_pc_hash((const mtp3_addr_pc_t *)pinfo->dst.data); } else { /* Don't have MTP3 PCs (maybe we're over SUA?) */ tcaphash_cont_key.opc_hash = g_str_hash(address_to_str(&pinfo->src)); tcaphash_cont_key.dpc_hash = g_str_hash(address_to_str(&pinfo->dst)); } tcaphash_cont_key.hashKey=tcaphash_cont_calchash(&tcaphash_cont_key); #ifdef DEBUG_TCAPSRT dbg(11,"Ckey %lx ", tcaphash_cont_key.hashKey); dbg(51,"PC %s %s ",address_to_str(&pinfo->src), address_to_str(&pinfo->dst)); dbg(51,"Tid %lx %lx ",tcaphash_cont_key.src_tid, tcaphash_cont_key.dst_tid); #endif p_tcaphash_contcall = find_tcaphash_cont(&tcaphash_cont_key, pinfo); if(p_tcaphash_contcall) { #ifdef DEBUG_TCAPSRT dbg(12,"CFound "); #endif p_tcaphash_context=p_tcaphash_contcall->context; } else { /* cont not found */ #ifdef DEBUG_TCAPSRT dbg(12,"CnotFound "); #endif /* Find the TCAP transaction according to the TC_BEGIN */ tcaphash_begin_key.tid = p_tcapsrt_info->dst_tid; if (pinfo->src.type == AT_SS7PC && pinfo->dst.type == AT_SS7PC) { /* We have MTP3 PCs (so we can safely do this cast) */ tcaphash_begin_key.opc_hash = mtp3_pc_hash((const mtp3_addr_pc_t *)pinfo->src.data); tcaphash_begin_key.dpc_hash = mtp3_pc_hash((const mtp3_addr_pc_t *)pinfo->dst.data); } else { /* Don't have MTP3 PCs (maybe we're over SUA?) */ tcaphash_begin_key.opc_hash = g_str_hash(address_to_str(&pinfo->src)); tcaphash_begin_key.dpc_hash = g_str_hash(address_to_str(&pinfo->dst)); } tcaphash_begin_key.hashKey=tcaphash_begin_calchash(&tcaphash_begin_key); #ifdef DEBUG_TCAPSRT dbg(11,"Bkey %lx ", tcaphash_begin_key.hashKey); dbg(51,"PC %s %s ",address_to_str(&pinfo->src), address_to_str(&pinfo->dst)); dbg(51,"Tid %lx ",tcaphash_begin_key.tid); #endif p_tcaphash_begincall = find_tcaphash_begin(&tcaphash_begin_key, pinfo,FALSE); if(p_tcaphash_begincall && !p_tcaphash_begincall->context->contcall ) { #ifdef DEBUG_TCAPSRT dbg(12,"BFound "); #endif p_tcaphash_context=p_tcaphash_begincall->context; p_tcaphash_context->responded=TRUE; #ifdef DEBUG_TCAPSRT dbg(10,"New Ckey %lx ",tcaphash_cont_key.hashKey); dbg(11,"Frame reqlink #%u ", pinfo->fd->num); #endif p_tcaphash_contcall = create_tcaphash_cont(&tcaphash_cont_key, p_tcaphash_begincall->context); tcaphash_end_key.tid = p_tcapsrt_info->src_tid; if (pinfo->src.type == AT_SS7PC && pinfo->dst.type == AT_SS7PC) { /* We have MTP3 PCs (so we can safely do this cast) */ tcaphash_end_key.opc_hash = mtp3_pc_hash((const mtp3_addr_pc_t *)pinfo->src.data); tcaphash_end_key.dpc_hash = mtp3_pc_hash((const mtp3_addr_pc_t *)pinfo->dst.data); } else { /* Don't have MTP3 PCs (maybe we're over SUA?) */ tcaphash_end_key.opc_hash = g_str_hash(address_to_str(&pinfo->src)); tcaphash_end_key.dpc_hash = g_str_hash(address_to_str(&pinfo->dst)); } tcaphash_end_key.hashKey=tcaphash_end_calchash(&tcaphash_end_key); #ifdef DEBUG_TCAPSRT dbg(10,"New Ekey %lx ",tcaphash_end_key.hashKey); dbg(11,"Frame reqlink #%u ", pinfo->fd->num); #endif p_tcaphash_endcall = create_tcaphash_end(&tcaphash_end_key, p_tcaphash_begincall->context); } else { /* Begin not found */ #ifdef DEBUG_TCAPSRT dbg(12,"BnotFound "); #endif } /* begin found */ } /* cont found */ /* display tcap session, if available */ if (gtcap_DisplaySRT && tree && p_tcaphash_context && p_tcaphash_context->session_id) { stat_item = proto_tree_add_text(tree, tvb, 0, -1, "Stat"); PROTO_ITEM_SET_GENERATED(stat_item); stat_tree = proto_item_add_subtree(stat_item, ett_tcap_stat); pi = proto_tree_add_uint(stat_tree, hf_tcapsrt_SessionId, tvb, 0,0, p_tcaphash_context->session_id); PROTO_ITEM_SET_GENERATED(pi); } return p_tcaphash_context; } /* * Try to find a TCAP session according to the destination Identifier given in the TC_END/TC_ABORT * If nothing is found, * - either it is a session in opening state, * - or the session is closed/aborted by the remote, ( so we switch the src and dst tid ) * so try to find a tcap session registered with a TC_BEGIN "key", * matching the destination Id of the TC_END * Then associate the TC_CONT "key" to the TCAP context * and display the available info for the TCAP context */ static struct tcaphash_context_t * tcaphash_end_matching(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, struct tcapsrt_info_t *p_tcapsrt_info) { struct tcaphash_context_t *p_tcaphash_context=NULL; struct tcaphash_end_info_key_t tcaphash_end_key; struct tcaphash_endcall_t *p_tcaphash_endcall=NULL; struct tcaphash_begin_info_key_t tcaphash_begin_key; struct tcaphash_begincall_t *p_tcaphash_begincall=NULL; proto_item *pi; nstime_t delta; proto_item *stat_item=NULL; proto_tree *stat_tree=NULL; #ifdef DEBUG_TCAPSRT dbg(10,"\n Hend #%u ", pinfo->fd->num); #endif /* look only for matching request, if matching conversation is available. */ tcaphash_end_key.tid = p_tcapsrt_info->dst_tid; if (pinfo->src.type == AT_SS7PC && pinfo->dst.type == AT_SS7PC) { /* We have MTP3 PCs (so we can safely do this cast) */ tcaphash_end_key.opc_hash = mtp3_pc_hash((const mtp3_addr_pc_t *)pinfo->src.data); tcaphash_end_key.dpc_hash = mtp3_pc_hash((const mtp3_addr_pc_t *)pinfo->dst.data); } else { /* Don't have MTP3 PCs (maybe we're over SUA?) */ tcaphash_end_key.opc_hash = g_str_hash(address_to_str(&pinfo->src)); tcaphash_end_key.dpc_hash = g_str_hash(address_to_str(&pinfo->dst)); } tcaphash_end_key.hashKey=tcaphash_end_calchash(&tcaphash_end_key); #ifdef DEBUG_TCAPSRT dbg(11,"Ekey %lx ",tcaphash_end_key.hashKey); dbg(11,"PC %s %s ",address_to_str(&pinfo->src), address_to_str(&pinfo->dst)); dbg(51,"Tid %lx ",tcaphash_end_key.tid); #endif p_tcaphash_endcall = find_tcaphash_end(&tcaphash_end_key, pinfo,TRUE); if(!p_tcaphash_endcall) { #ifdef DEBUG_TCAPSRT dbg(12,"EnotFound "); #endif tcaphash_begin_key.tid = p_tcapsrt_info->dst_tid; if (pinfo->src.type == AT_SS7PC && pinfo->dst.type == AT_SS7PC) { /* We have MTP3 PCs (so we can safely do this cast) */ tcaphash_begin_key.opc_hash = mtp3_pc_hash((const mtp3_addr_pc_t *)pinfo->src.data); tcaphash_begin_key.dpc_hash = mtp3_pc_hash((const mtp3_addr_pc_t *)pinfo->dst.data); } else { /* Don't have MTP3 PCs (maybe we're over SUA?) */ tcaphash_begin_key.opc_hash = g_str_hash(address_to_str(&pinfo->src)); tcaphash_begin_key.dpc_hash = g_str_hash(address_to_str(&pinfo->dst)); } tcaphash_begin_key.hashKey=tcaphash_begin_calchash(&tcaphash_begin_key); #ifdef DEBUG_TCAPSRT dbg(11,"Bkey %lx ", tcaphash_begin_key.hashKey); dbg(51,"PC %s %s ",address_to_str(&pinfo->src), address_to_str(&pinfo->dst)); dbg(51,"Tid %lx ",tcaphash_begin_key.tid); #endif p_tcaphash_begincall = find_tcaphash_begin(&tcaphash_begin_key, pinfo,FALSE); if(!p_tcaphash_begincall) { #ifdef DEBUG_TCAPSRT dbg(12,"BnotFound "); #endif } } if (p_tcaphash_endcall) { /* Use the TC_BEGIN Destination reference */ p_tcaphash_context=p_tcaphash_endcall->context; } else if (p_tcaphash_begincall) { /* Use the TC_BEGIN Source reference */ p_tcaphash_context=p_tcaphash_begincall->context; } if (p_tcaphash_context) { #ifdef DEBUG_TCAPSRT dbg(12,"Found, req=%d ",p_tcaphash_context->first_frame); #endif if (gtcap_DisplaySRT && tree) { stat_item = proto_tree_add_text(tree, tvb, 0, -1, "Stat"); PROTO_ITEM_SET_GENERATED(stat_item); stat_tree = proto_item_add_subtree(stat_item, ett_tcap_stat); pi = proto_tree_add_uint(stat_tree, hf_tcapsrt_SessionId, tvb, 0,0, p_tcaphash_context->session_id); PROTO_ITEM_SET_GENERATED(pi); } #ifdef DEBUG_TCAPSRT dbg(20,"Display framereqlink %d ",p_tcaphash_context->first_frame); #endif /* Indicate the frame to which this is a reply. */ if (gtcap_DisplaySRT && stat_tree) { pi = proto_tree_add_uint_format(stat_tree, hf_tcapsrt_EndSession, tvb, 0, 0, p_tcaphash_context->first_frame, "Begin of session in frame %u", p_tcaphash_context->first_frame); PROTO_ITEM_SET_GENERATED(pi); /* Calculate Service Response Time */ nstime_delta(&delta, &pinfo->fd->abs_ts, &p_tcaphash_context->begin_time); /* display Service Response Time and make it filterable */ pi = proto_tree_add_time(stat_tree, hf_tcapsrt_SessionTime, tvb, 0, 0, &delta); PROTO_ITEM_SET_GENERATED(pi); } /* Close the context and remove it (if needed) */ tcapsrt_close(p_tcaphash_context,pinfo); } else {/* context present */ #ifdef DEBUG_TCAPSRT dbg(12,"Context notFound "); #endif } return p_tcaphash_context; } /* * ANSI PART * Create the record identifiying the TCAP transaction * When the identifier for the transaction is reused, check * the following criteria before to append a new record: * - a timeout corresponding to a message retransmission is detected, * - a message hast been lost * - or the previous transaction has been be closed */ static struct tcaphash_context_t * tcaphash_ansi_matching(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, struct tcapsrt_info_t *p_tcapsrt_info) { struct tcaphash_context_t *p_tcaphash_context=NULL; struct tcaphash_context_key_t tcaphash_context_key; struct tcaphash_ansicall_t *p_tcaphash_ansicall, *p_new_tcaphash_ansicall; struct tcaphash_ansi_info_key_t tcaphash_ansi_key; proto_item *pi; nstime_t delta; gboolean isResponse=FALSE; proto_tree * stat_tree=NULL; proto_item * stat_item=NULL; /* prepare the key data */ tcaphash_ansi_key.tid = p_tcapsrt_info->src_tid; if (pinfo->src.type == AT_SS7PC && pinfo->dst.type == AT_SS7PC) { /* We have MTP3 PCs (so we can safely do this cast) */ tcaphash_ansi_key.opc_hash = mtp3_pc_hash((const mtp3_addr_pc_t *)pinfo->src.data); tcaphash_ansi_key.dpc_hash = mtp3_pc_hash((const mtp3_addr_pc_t *)pinfo->dst.data); } else { /* Don't have MTP3 PCs (maybe we're over SUA?) */ tcaphash_ansi_key.opc_hash = g_str_hash(address_to_str(&pinfo->src)); tcaphash_ansi_key.dpc_hash = g_str_hash(address_to_str(&pinfo->dst)); } tcaphash_ansi_key.hashKey=tcaphash_ansi_calchash(&tcaphash_ansi_key); /* look up the request */ #ifdef DEBUG_TCAPSRT dbg(10,"\n Hansi #%u ", pinfo->fd->num); dbg(11,"key %lx ",tcaphash_ansi_key.hashKey); dbg(51,"PC %s %s ",address_to_str(&pinfo->src), address_to_str(&pinfo->dst)); dbg(51,"Tid %lx ",tcaphash_ansi_key.tid); #endif p_tcaphash_ansicall = (struct tcaphash_ansicall_t *) g_hash_table_lookup(tcaphash_ansi, &tcaphash_ansi_key); if (p_tcaphash_ansicall) { /* Walk through list of transaction with identical keys */ do { /* Check if the request with this reqSeqNum has been seen */ if (pinfo->fd->num == p_tcaphash_ansicall->context->first_frame) { /* We have seen this request before -> do nothing */ #ifdef DEBUG_TCAPSRT dbg(22,"Request already seen "); #endif isResponse=FALSE; p_tcaphash_context=p_tcaphash_ansicall->context; break; } /* Check if the reponse with this reqSeqNum has been seen */ if (pinfo->fd->num == p_tcaphash_ansicall->context->last_frame) { /* We have seen this response before -> do nothing */ #ifdef DEBUG_TCAPSRT dbg(22,"Response already seen "); #endif isResponse=TRUE; p_tcaphash_context=p_tcaphash_ansicall->context; break; } /* Check for the first Request without Response received before this frame */ if ( pinfo->fd->num > p_tcaphash_ansicall->context->first_frame && p_tcaphash_ansicall->context->last_frame==0 ) { /* Take it, and update the context */ #ifdef DEBUG_TCAPSRT dbg(12,"Update key %lx ",tcaphash_ansi_key.hashKey); #endif p_tcaphash_ansicall->context->last_frame = pinfo->fd->num; p_tcaphash_ansicall->context->responded = TRUE; p_tcaphash_ansicall->context->closed = TRUE; p_tcaphash_context=p_tcaphash_ansicall->context; isResponse=TRUE; if (gtcap_DisplaySRT && tree) { stat_item = proto_tree_add_text(tree, tvb, 0, -1, "Stat"); PROTO_ITEM_SET_GENERATED(stat_item); stat_tree = proto_item_add_subtree(stat_item, ett_tcap_stat); pi = proto_tree_add_uint(stat_tree, hf_tcapsrt_SessionId, tvb, 0,0, p_tcaphash_context->session_id); PROTO_ITEM_SET_GENERATED(pi); #ifdef DEBUG_TCAPSRT dbg(20,"Display framereqlink %d ",p_tcaphash_context->first_frame); #endif /* Indicate the frame to which this is a reply. */ pi = proto_tree_add_uint_format(stat_tree, hf_tcapsrt_EndSession, tvb, 0, 0, p_tcaphash_context->first_frame, "Begin of session in frame %u", p_tcaphash_context->first_frame); PROTO_ITEM_SET_GENERATED(pi); /* Calculate Service Response Time */ nstime_delta(&delta, &pinfo->fd->abs_ts, &p_tcaphash_context->begin_time); /* display Service Response Time and make it filterable */ pi = proto_tree_add_time(stat_tree, hf_tcapsrt_SessionTime, tvb, 0, 0, &delta); PROTO_ITEM_SET_GENERATED(pi); } break; } /* Lastframe=0, so take it */ /* If the last record for Tcap transaction with identifier has been reached */ if (!p_tcaphash_ansicall->next_ansicall) { /* check if we have to create a new record or not */ /* if last request has been responded (response number in known) and this request appears after last response (has bigger frame number) and last request occured after the timeout for repetition, or if last request hasn't been responded (so number unknown) and this request appears after last request (has bigger frame number) and this request occured after the timeout for message lost */ if ( ( p_tcaphash_ansicall->context->last_frame != 0 && pinfo->fd->num > p_tcaphash_ansicall->context->first_frame && (guint) pinfo->fd->abs_ts.secs > (guint)(p_tcaphash_ansicall->context->begin_time.secs + gtcap_RepetitionTimeout) ) || ( p_tcaphash_ansicall->context->last_frame == 0 && pinfo->fd->num > p_tcaphash_ansicall->context->first_frame && (guint)pinfo->fd->abs_ts.secs > (guint)(p_tcaphash_ansicall->context->begin_time.secs + gtcap_LostTimeout) ) ) { /* we decide that we have a new request */ /* Append new record to the list */ #ifdef DEBUG_TCAPSRT dbg(12,"(timeout) Append key %lx ",tcaphash_ansi_key.hashKey); dbg(12,"Frame %u rsp %u ",pinfo->fd->num,p_tcaphash_ansicall->context->last_frame ); #endif tcaphash_context_key.session_id = tcapsrt_global_SessionId++; p_tcaphash_context = new_tcaphash_context(&tcaphash_context_key, pinfo); p_new_tcaphash_ansicall = append_tcaphash_ansicall(p_tcaphash_ansicall, p_tcaphash_context, pinfo); #ifdef DEBUG_TCAPSRT dbg(12,"Update key %lx ",tcaphash_ansi_key.hashKey); #endif update_tcaphash_ansicall(p_new_tcaphash_ansicall, pinfo); p_tcaphash_ansicall=p_new_tcaphash_ansicall; } else { /* If the Tid is reused for a closed Transaction */ if ( p_tcaphash_ansicall->context->closed) { #ifdef DEBUG_TCAPSRT dbg(12,"(closed) Append key %lu ",tcaphash_ansi_key.hashKey); dbg(12,"Frame %u rsp %u ",pinfo->fd->num,p_tcaphash_ansicall->context->last_frame ); #endif tcaphash_context_key.session_id = tcapsrt_global_SessionId++; p_tcaphash_context = new_tcaphash_context(&tcaphash_context_key, pinfo); p_new_tcaphash_ansicall = append_tcaphash_ansicall(p_tcaphash_ansicall, p_tcaphash_context, pinfo); #ifdef DEBUG_TCAPSRT dbg(12,"Update key %lu ",tcaphash_ansi_key.hashKey); #endif update_tcaphash_ansicall(p_new_tcaphash_ansicall, pinfo); p_tcaphash_ansicall=p_new_tcaphash_ansicall; } else { /* the Tid is reused for an opened Transaction */ /* so, this is the reply to the request of our context */ p_tcaphash_context=p_tcaphash_ansicall->context; #ifdef DEBUG_TCAPSRT dbg(12,"Found, req=%d ",p_tcaphash_context->first_frame); #endif if (gtcap_DisplaySRT && tree) { stat_item = proto_tree_add_text(tree, tvb, 0, -1, "Stat"); PROTO_ITEM_SET_GENERATED(stat_item); stat_tree = proto_item_add_subtree(stat_item, ett_tcap_stat); pi = proto_tree_add_uint(stat_tree, hf_tcapsrt_SessionId, tvb, 0,0, p_tcaphash_context->session_id); PROTO_ITEM_SET_GENERATED(pi); #ifdef DEBUG_TCAPSRT dbg(20,"Display framereqlink %d ",p_tcaphash_context->first_frame); #endif /* Indicate the frame to which this is a reply. */ pi = proto_tree_add_uint_format(stat_tree, hf_tcapsrt_EndSession, tvb, 0, 0, p_tcaphash_context->first_frame, "Begin of session in frame %u", p_tcaphash_context->first_frame); PROTO_ITEM_SET_GENERATED(pi); /* Calculate Service Response Time */ nstime_delta(&delta, &pinfo->fd->abs_ts, &p_tcaphash_context->begin_time); /* display Service Response Time and make it filterable */ pi = proto_tree_add_time(stat_tree, hf_tcapsrt_SessionTime, tvb, 0, 0, &delta); PROTO_ITEM_SET_GENERATED(pi); } p_tcaphash_context=p_tcaphash_ansicall->context; } /* test with Timeout */ } /* closed */ break; } /* Next call is NULL */ p_tcaphash_ansicall = p_tcaphash_ansicall->next_ansicall; } while (p_tcaphash_ansicall != NULL ); /* * New TCAP context */ } else { /* p_tcaphash_ansicall has not been found */ #ifdef DEBUG_TCAPSRT dbg(10,"New key %lx ",tcaphash_ansi_key.hashKey); #endif tcaphash_context_key.session_id = tcapsrt_global_SessionId++; p_tcaphash_context = new_tcaphash_context(&tcaphash_context_key, pinfo); p_tcaphash_ansicall = new_tcaphash_ansi(&tcaphash_ansi_key, p_tcaphash_context); #ifdef DEBUG_TCAPSRT dbg(11,"Update key %lx ",tcaphash_ansi_key.hashKey); dbg(11,"Frame reqlink #%u ", pinfo->fd->num); #endif update_tcaphash_ansicall(p_tcaphash_ansicall, pinfo); } /* display tcap session, if available */ if ( gtcap_DisplaySRT && tree && p_tcaphash_context && p_tcaphash_context->session_id) { stat_item = proto_tree_add_text(tree, tvb, 0, -1, "Stat"); PROTO_ITEM_SET_GENERATED(stat_item); stat_tree = proto_item_add_subtree(stat_item, ett_tcap_stat); pi = proto_tree_add_uint(stat_tree, hf_tcapsrt_SessionId, tvb, 0,0, p_tcaphash_context->session_id); PROTO_ITEM_SET_GENERATED(pi); } /* add link to response frame, if available */ if( gtcap_DisplaySRT && stat_tree && p_tcaphash_ansicall->context->last_frame != 0){ if (!isResponse) { /* Request */ #ifdef DEBUG_TCAPSRT dbg(20,"Display_frameRsplink %d ",p_tcaphash_ansicall->context->last_frame); #endif pi = proto_tree_add_uint_format(stat_tree, hf_tcapsrt_BeginSession, tvb, 0, 0, p_tcaphash_ansicall->context->last_frame, "End of session in frame %u", p_tcaphash_ansicall->context->last_frame); PROTO_ITEM_SET_GENERATED(pi); } else { /* Response */ #ifdef DEBUG_TCAPSRT dbg(20,"Display framereqlink %d ",p_tcaphash_context->first_frame); #endif /* Indicate the frame to which this is a reply. */ if (gtcap_DisplaySRT) { pi = proto_tree_add_uint_format(stat_tree, hf_tcapsrt_EndSession, tvb, 0, 0, p_tcaphash_context->first_frame, "Begin of session in frame %u", p_tcaphash_context->first_frame); PROTO_ITEM_SET_GENERATED(pi); /* Calculate Service Response Time */ nstime_delta(&delta, &pinfo->fd->abs_ts, &p_tcaphash_context->begin_time); /* display Service Response Time and make it filterable */ pi = proto_tree_add_time(stat_tree, hf_tcapsrt_SessionTime, tvb, 0, 0, &delta); PROTO_ITEM_SET_GENERATED(pi); } } /* Request or Response */ } return p_tcaphash_context; } /* * Initialize the Message Info used by the main dissector * Data are linked to a TCAP transaction */ struct tcapsrt_info_t * tcapsrt_razinfo(void) { struct tcapsrt_info_t *p_tcapsrt_info ; /* Global buffer for packet extraction */ tcapsrt_global_current++; if(tcapsrt_global_current==MAX_TCAP_INSTANCE){ tcapsrt_global_current=0; } p_tcapsrt_info=&tcapsrt_global_info[tcapsrt_global_current]; memset(p_tcapsrt_info,0,sizeof(struct tcapsrt_info_t)); return p_tcapsrt_info; } void tcapsrt_close(struct tcaphash_context_t *p_tcaphash_context, packet_info *pinfo) { #ifdef DEBUG_TCAPSRT dbg(60,"Force close "); #endif if (p_tcaphash_context) { p_tcaphash_context->responded=TRUE; p_tcaphash_context->last_frame = pinfo->fd->num; p_tcaphash_context->end_time = pinfo->fd->abs_ts; p_tcaphash_context->closed=TRUE; /* If the endkey is present */ if (p_tcaphash_context->endcall && !gtcap_PersistentSRT) { if (p_tcaphash_context->endcall->next_endcall) { if (p_tcaphash_context->endcall->previous_endcall ) { #ifdef DEBUG_TCAPSRT dbg(20,"deplace Ehash "); #endif p_tcaphash_context->endcall->previous_endcall->next_endcall = p_tcaphash_context->endcall->next_endcall; p_tcaphash_context->endcall->next_endcall->previous_endcall = p_tcaphash_context->endcall->previous_endcall; g_hash_table_remove(tcaphash_end, p_tcaphash_context->endcall->endkey); #ifdef MEM_TCAPSRT g_free(p_tcaphash_context->endcall); #endif } else { /* cannot remove the father */ #ifdef DEBUG_TCAPSRT dbg(20,"father Ehash "); #endif } /* no previous link, so father */ } else if (!gtcap_PersistentSRT) { #ifdef DEBUG_TCAPSRT dbg(20,"remove Ehash "); #endif g_hash_table_remove(tcaphash_end, p_tcaphash_context->endcall->endkey); #ifdef MEM_TCAPSRT g_free(p_tcaphash_context->endcall->endkey); g_free(p_tcaphash_context->endcall); #endif } /* endcall without chained string */ } /* no endcall */ /* If the contkey is present */ if (p_tcaphash_context->contcall && !gtcap_PersistentSRT) { if (p_tcaphash_context->contcall->next_contcall) { if (p_tcaphash_context->contcall->previous_contcall ) { #ifdef DEBUG_TCAPSRT dbg(20,"deplace Chash "); #endif p_tcaphash_context->contcall->previous_contcall->next_contcall = p_tcaphash_context->contcall->next_contcall; p_tcaphash_context->contcall->next_contcall->previous_contcall = p_tcaphash_context->contcall->previous_contcall; g_hash_table_remove(tcaphash_cont, p_tcaphash_context->contcall->contkey); #ifdef MEM_TCAPSRT g_free(p_tcaphash_context->contcall); #endif } else { /* cannot remove the father */ #ifdef DEBUG_TCAPSRT dbg(20,"father Chash "); #endif } /* no previous link, so father */ } else if (!gtcap_PersistentSRT) { #ifdef DEBUG_TCAPSRT dbg(20,"remove Chash "); #endif g_hash_table_remove(tcaphash_cont, p_tcaphash_context->contcall->contkey); #ifdef MEM_TCAPSRT g_free(p_tcaphash_context->contcall->contkey); g_free(p_tcaphash_context->contcall); #endif } /* contcall without chained string */ } /* no contcall */ /* If the beginkey is present */ if (p_tcaphash_context->begincall && !gtcap_PersistentSRT) { if (p_tcaphash_context->begincall->next_begincall) { if (p_tcaphash_context->begincall->previous_begincall ) { #ifdef DEBUG_TCAPSRT dbg(20,"deplace Bhash "); #endif p_tcaphash_context->begincall->previous_begincall->next_begincall = p_tcaphash_context->begincall->next_begincall; p_tcaphash_context->begincall->next_begincall->previous_begincall = p_tcaphash_context->begincall->previous_begincall; g_hash_table_remove(tcaphash_begin, p_tcaphash_context->begincall->beginkey); #ifdef MEM_TCAPSRT g_free(p_tcaphash_context->begincall); #endif } else { /* cannot remove the father */ #ifdef DEBUG_TCAPSRT dbg(20,"father Bhash "); #endif } } else if (!gtcap_PersistentSRT) { #ifdef DEBUG_TCAPSRT dbg(20,"remove Bhash "); #endif g_hash_table_remove(tcaphash_begin, p_tcaphash_context->begincall->beginkey); #ifdef MEM_TCAPSRT g_free(p_tcaphash_context->begincall->beginkey); g_free(p_tcaphash_context->begincall); #endif } /* begincall without chained string */ } /* no begincall */ /* If the ansikey is present */ if (p_tcaphash_context->ansicall && !gtcap_PersistentSRT) { if (p_tcaphash_context->ansicall->next_ansicall) { if (p_tcaphash_context->ansicall->previous_ansicall ) { #ifdef DEBUG_TCAPSRT dbg(20,"deplace Ahash "); #endif p_tcaphash_context->ansicall->previous_ansicall->next_ansicall = p_tcaphash_context->ansicall->next_ansicall; p_tcaphash_context->ansicall->next_ansicall->previous_ansicall = p_tcaphash_context->ansicall->previous_ansicall; g_hash_table_remove(tcaphash_ansi, p_tcaphash_context->ansicall->ansikey); #ifdef MEM_TCAPSRT g_free(p_tcaphash_context->ansicall); #endif } else { /* cannot remove the father */ #ifdef DEBUG_TCAPSRT dbg(20,"father Ahash "); #endif } } else if (!gtcap_PersistentSRT) { #ifdef DEBUG_TCAPSRT dbg(20,"remove Ahash "); #endif g_hash_table_remove(tcaphash_ansi, p_tcaphash_context->ansicall->ansikey); #ifdef MEM_TCAPSRT g_free(p_tcaphash_context->ansicall->ansikey); g_free(p_tcaphash_context->ansicall); #endif } /* ansicall without chained string */ } /* no ansicall */ if (!gtcap_PersistentSRT) { #ifdef DEBUG_TCAPSRT dbg(20,"remove context "); #endif g_hash_table_remove(tcaphash_context, p_tcaphash_context->key); #ifdef MEM_TCAPSRT g_free(p_tcaphash_context->key); g_free(p_tcaphash_context); #endif } } else { /* no context */ #ifdef DEBUG_TCAPSRT dbg(20,"No context to remove "); #endif } }