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mate: fix Match edge cases, improve documentation 

Use strcmp to sort AVPs in an AVPL and for matching instead of comparing
pointer addresses. Pointers can only be used for (in)equality, there is
no ordering in them. Matching of attributes however requires a better
ordering to know whether the operator (condition) or whether the operand
(data) can be skipped. Otherwise it is possible that condition (b)
randomly fails to match data (a,b).

User-visible changes (mainly edge cases):

 - Loose (a=1, a?) on data (a=0, a=1) would previously fail to return
   (a=0,a=1) because the a? condition is not tried for data a=0. Now it
   tries all compatible conditions for a data AVP.
 - Any Match condition like (a=1, a^1) would previously be treated the
   same as (a=1) while (a^1, a=1) would still be seen as (a^1, a=1). The
   first case is now fixed to match (a=1, a^1). (Via a fix in insert_avp
   to ensure that (a=1) is not considered the same as (a^1).)
 - Every (a=1, a=2) on data (a=1, b=1) previously failed, but the
   comment "it will not create a list if there is not a match for every
   attribute in op" suggests that it should return (a=1).
 - Every (a=1) on data (a=2) previously succeeded (bug) while it would
   fail on (a=2, b=1). This is fixed now by checking whether any of the
   conditions really have matching data for the attribute.

Other changes: optimize merge_avpl and new_avpl_*_match to insert in
linear time instead of quadratic, rewrite and add comments in an attempt
to make it easier to understand. Merge the new_avpl_every_match and
new_avpl_exact_match functions and rename it to new_avpl_pairs_match to
reflects its actual implemented functionality.

Not addressed in this patch is the quasi-randomness of the returned
data AVPL. AVPLs are unordered, so the condition Strict (a?) on data
(a=1, a=2) could in theory return either (a=1) or (a=2). In practice
this returns (a=1) because of alphabetical ordering, but this cannot
really be relied on. It gets worse for conditions like Strict (a?, a>1),
these are considered undefined behavior (without warnings for now).

Ping-Bug: 12184
Change-Id: I0008448ffcb96183f106cb937c4f488e26a82f92
Reviewed-on: https://code.wireshark.org/review/17777
Petri-Dish: Alexis La Goutte <alexis.lagoutte@gmail.com>
Tested-by: Petri Dish Buildbot <buildbot-no-reply@wireshark.org>
Reviewed-by: Michael Mann <mmann78@netscape.net>
Reviewed-by: Alexis La Goutte <alexis.lagoutte@gmail.com>
Reviewed-by: Anders Broman <a.broman58@gmail.com>
This commit is contained in:
Peter Wu 2016-09-18 16:19:58 +02:00 committed by Anders Broman
parent 064f4d18db
commit b6a2915d0d
3 changed files with 183 additions and 279 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

14
plugins/mate/mate_runtime.c
View File

@ -333,7 +333,7 @@ static void reanalyze_gop(mate_gop* gop) {
while (( curr_gogkey = get_next_avpl(gog_keys,&cookie) )) {
gop_cfg = (mate_cfg_gop *)g_hash_table_lookup(mc->gopcfgs,curr_gogkey->name);
if (( gogkey_match = new_avpl_exact_match(gop_cfg->name,gog->avpl,curr_gogkey,FALSE) )) {
if (( gogkey_match = new_avpl_pairs_match(gop_cfg->name, gog->avpl, curr_gogkey, TRUE, FALSE) )) {
gog_key = (gogkey *)g_malloc(sizeof(gogkey));
@ -397,7 +397,7 @@ static void analyze_gop(mate_gop* gop) {
dbg_print (dbg_gog,1,dbg_facility,"analyze_gop: got gog_keys: %s",gog_keys->name) ;
while (( curr_gogkey = get_next_avpl(gog_keys,&cookie) )) {
if (( gogkey_match = new_avpl_exact_match(gop->cfg->name,gop->avpl,curr_gogkey,TRUE) )) {
if (( gogkey_match = new_avpl_pairs_match(gop->cfg->name, gop->avpl, curr_gogkey, TRUE, TRUE) )) {
key = avpl_to_str(gogkey_match);
@ -484,7 +484,7 @@ static void analyze_pdu(mate_pdu* pdu) {
if (! (cfg = (mate_cfg_gop *)g_hash_table_lookup(mc->gops_by_pduname,pdu->cfg->name)) )
return;
if ((gopkey_match = new_avpl_exact_match("gop_key_match",pdu->avpl,cfg->key, TRUE))) {
if ((gopkey_match = new_avpl_pairs_match("gop_key_match", pdu->avpl, cfg->key, TRUE, TRUE))) {
gop_key = avpl_to_str(gopkey_match);
g_hash_table_lookup_extended(cfg->gop_index,(gconstpointer)gop_key,(gpointer *)&orig_gop_key,(gpointer *)&gop);
@ -512,7 +512,7 @@ static void analyze_pdu(mate_pdu* pdu) {
dbg_print (dbg_gop,2,dbg_facility,"analyze_pdu: got candidate start");
if (( is_start = new_avpl_exact_match("",pdu->avpl, candidate_start, FALSE) )) {
if (( is_start = new_avpl_pairs_match("", pdu->avpl, candidate_start, TRUE, FALSE) )) {
delete_avpl(is_start,FALSE);
if ( gop->released ) {
dbg_print (dbg_gop,3,dbg_facility,"analyze_pdu: start on released gop, let's create a new gop");
@ -551,7 +551,7 @@ static void analyze_pdu(mate_pdu* pdu) {
if (gog_keys) {
while (( curr_gogkey = get_next_avpl(gog_keys,&cookie) )) {
if (( gogkey_match = new_avpl_exact_match(cfg->name,gopkey_match,curr_gogkey,FALSE) )) {
if (( gogkey_match = new_avpl_pairs_match(cfg->name, gopkey_match, curr_gogkey, TRUE, FALSE) )) {
gogkey_str = avpl_to_str(gogkey_match);
if (g_hash_table_lookup(cfg->gog_index,gogkey_str)) {
@ -582,7 +582,7 @@ static void analyze_pdu(mate_pdu* pdu) {
} else {
candidate_start = cfg->start;
if (( is_start = new_avpl_exact_match("",pdu->avpl, candidate_start, FALSE) )) {
if (( is_start = new_avpl_pairs_match("", pdu->avpl, candidate_start, TRUE, FALSE) )) {
delete_avpl(is_start,FALSE);
gop = new_gop(cfg,pdu,gop_key);
} else {
@ -618,7 +618,7 @@ static void analyze_pdu(mate_pdu* pdu) {
candidate_stop = cfg->stop;
if (candidate_stop) {
is_stop = new_avpl_exact_match("",pdu->avpl, candidate_stop,FALSE);
is_stop = new_avpl_pairs_match("", pdu->avpl, candidate_stop, TRUE, FALSE);
} else {
is_stop = new_avpl("");
}

436
plugins/mate/mate_util.c
View File

@ -28,15 +28,6 @@
#include <wsutil/file_util.h>
#include <wsutil/ws_printf.h> /* ws_g_warning */
/***************************************************************************
* ADDRDIFF
***************************************************************************
* This is a macro that computes the difference between the raw address
* values of two pointers (rather than the difference between the pointers)
* as a ptrdiff_t.
***************************************************************************/
#define ADDRDIFF(p,q) (((char *)(void *)(p)) - ((char *)(void *)(q)))
/***************************************************************************
* dbg_print
@ -438,6 +429,38 @@ extern void rename_avpl(AVPL* avpl, gchar* name) {
avpl->name = scs_subscribe(avp_strings,name);
}
/**
* insert_avp_before_node:
* @param avpl the avpl in which to insert.
* @param next_node the next node before which the new avpn has to be inserted.
* @param avp the avp to be inserted.
* @param copy_avp whether the original AVP or a copy thereof must be inserted.
*
* Pre-condition: the avp is sorted before before_avp and does not already exist
* in the avpl.
*/
static void insert_avp_before_node(AVPL* avpl, AVPN* next_node, AVP *avp, gboolean copy_avp) {
AVPN* new_avp_val = (AVPN*)g_slice_new(any_avp_type);
new_avp_val->avp = copy_avp ? avp_copy(avp) : avp;
#ifdef _AVP_DEBUGGING
dbg_print(dbg_avpl_op,7,dbg_fp,"new_avpn: %p",new_avp_val);
dbg_print(dbg_avpl,5,dbg_fp,"insert_avp: inserting %p in %p before %p;",avp,avpl,next_node);
#endif
new_avp_val->next = next_node;
new_avp_val->prev = next_node->prev;
next_node->prev->next = new_avp_val;
next_node->prev = new_avp_val;
avpl->len++;
#ifdef _AVP_DEBUGGING
dbg_print(dbg_avpl,4,dbg_fp,"avpl: %p new len: %i",avpl,avpl->len);
#endif
}
/**
* insert_avp:
* @param avpl the avpl in which to insert.
@ -451,55 +474,40 @@ extern void rename_avpl(AVPL* avpl, gchar* name) {
* it is not inserted.
**/
extern gboolean insert_avp(AVPL* avpl, AVP* avp) {
AVPN* new_avp_val = (AVPN*)g_slice_new(any_avp_type);
AVPN* c;
new_avp_val->avp = avp;
#ifdef _AVP_DEBUGGING
dbg_print(dbg_avpl_op,7,dbg_fp,"new_avpn: %X",new_avp_val);
dbg_print(dbg_avpl_op,4,dbg_fp,"insert_avp: %X %X %s%c%s;",avpl,avp,avp->n,avp->o,avp->v);
#endif
/* get to the insertion point */
for(c=avpl->null.next; c->avp; c = c->next) {
for (c=avpl->null.next; c->avp; c = c->next) {
int name_diff = strcmp(avp->n, c->avp->n);
if ( avp->n == c->avp->n ) {
if (name_diff == 0) {
int value_diff = strcmp(avp->v, c->avp->v);
if (avp->v > c->avp->v) {
if (value_diff < 0) {
break;
}
if (avp->v == c->avp->v) {
if (avp->o == AVP_OP_EQUAL) {
#ifdef _AVP_DEBUGGING
dbg_print(dbg_avpl_op,7,dbg_fp,"delete_avpn: %X",new_avp_val);
#endif
g_slice_free(any_avp_type,(any_avp_type*)new_avp_val);
if (value_diff == 0) {
// ignore duplicate values, prevents (a=1, a=1)
// note that this is also used to insert
// conditions AVPs, so really check if the name,
// value and operator are all equal.
if (c->avp->o == avp->o && avp->o == AVP_OP_EQUAL) {
return FALSE;
}
}
}
if (avp->n > c->avp->n) {
if (name_diff < 0) {
break;
}
}
#ifdef _AVP_DEBUGGING
dbg_print(dbg_avpl,5,dbg_fp,"insert_avp: inserting %X in %X before %X;",avp,avpl,c);
#endif
new_avp_val->next = c;
new_avp_val->prev = c->prev;
c->prev->next = new_avp_val;
c->prev = new_avp_val;
avpl->len++;
#ifdef _AVP_DEBUGGING
dbg_print(dbg_avpl,4,dbg_fp,"avpl: %X new len: %i",avpl,avpl->len);
#endif
insert_avp_before_node(avpl, c, avp, FALSE);
return TRUE;
}
@ -786,14 +794,10 @@ extern gchar* avpl_to_dotstr(AVPL* avpl) {
*
* Adds the avps of src that are not existent in dst into dst.
*
* Return value: a pointer to the newly allocated string.
*
**/
extern void merge_avpl(AVPL* dst, AVPL* src, gboolean copy_avps) {
AVPN* cd = NULL;
AVPN* cs = NULL;
ptrdiff_t c;
AVP* copy;
#ifdef _AVP_DEBUGGING
dbg_print(dbg_avpl_op,3,dbg_fp,"merge_avpl: %X %X",dst,src);
@ -802,43 +806,43 @@ extern void merge_avpl(AVPL* dst, AVPL* src, gboolean copy_avps) {
cs = src->null.next;
cd = dst->null.next;
while(cs->avp) {
while (cs->avp && cd->avp) {
if(cd->avp) {
c = ADDRDIFF(cd->avp->n,cs->avp->n);
int name_diff = strcmp(cd->avp->n, cs->avp->n);
if (name_diff < 0) {
// dest < source, advance dest to find a better place to insert
cd = cd->next;
} else if (name_diff > 0) {
// dest > source, so it can be definitely inserted here.
insert_avp_before_node(dst, cd, cs->avp, copy_avps);
cs = cs->next;
} else {
c = -1;
}
// attribute names are equal. Ignore duplicate values but ensure that other values are sorted.
int value_diff = strcmp(cd->avp->v, cs->avp->v);
if (c > 0) {
if (cd->avp) cd = cd->next;
} else if (c < 0) {
if (copy_avps) {
copy = avp_copy(cs->avp);
if ( ! insert_avp(dst,copy) ) {
delete_avp(copy);
}
if (value_diff < 0) {
// dest < source, do not insert it yet
cd = cd->next;
} else if (value_diff > 0) {
// dest > source, insert AVP before the current dest AVP
insert_avp_before_node(dst, cd, cs->avp, copy_avps);
cs = cs->next;
} else {
insert_avp(dst,cs->avp);
// identical AVPs, do not create a duplicate.
cs = cs->next;
}
cs = cs->next;
} else {
if ( ! cd->avp || ! (cd->avp->v == cs->avp->v) ) {
if (copy_avps) {
copy = avp_copy(cs->avp);
if ( ! insert_avp(dst,copy) ) {
delete_avp(copy);
}
} else {
insert_avp(dst,cs->avp);
}
}
cs = cs->next;
if (cd->avp) cd = cd->next;
}
}
// if there are remaing source AVPs while there are no more destination
// AVPs (cd now represents the NULL item, after the last item), append
// all remaining source AVPs to the end
while (cs->avp) {
insert_avp_before_node(dst, cd, cs->avp, copy_avps);
cs = cs->next;
}
#ifdef _AVP_DEBUGGING
dbg_print(dbg_avpl_op,8,dbg_fp,"merge_avpl: done");
#endif
@ -848,7 +852,7 @@ extern void merge_avpl(AVPL* dst, AVPL* src, gboolean copy_avps) {
/**
* merge_avpl:
* new_avpl_from_avpl:
* @param name the name of the new avpl.
* @param avpl the avpl from which to get the avps.
* @param copy_avps whether avps should be copied instead of referenced.
@ -975,20 +979,19 @@ extern AVP* match_avp(AVP* src, AVP* op) {
/* TODO: rename me */
/**
* new_avpl_loose_match:
* @param name the name of the resulting avpl
* @param src avpl to be matched agains an "op" avpl
* @param op the "op" avpl that will be matched against the src avpl
* @param src the data AVPL to be matched against a condition AVPL
* @param op the conditions AVPL that will be matched against the data AVPL
* @param copy_avps whether the avps in the resulting avpl should be copied
*
* creates an avp list containing any avps in src matching any avps in op
* it will eventually create an empty list in none match
* Creates a new AVP list containing all data AVPs that matched any of the
* conditions AVPs. If there are no matches, an empty list will be returned.
*
* Return value: a pointer to the newly created avpl containing the
* matching avps.
**/
* Note: Loose will always be considered a successful match, it matches zero or
* more conditions.
*/
extern AVPL* new_avpl_loose_match(const gchar* name,
AVPL* src,
AVPL* op,
@ -997,9 +1000,6 @@ extern AVPL* new_avpl_loose_match(const gchar* name,
AVPL* newavpl = new_avpl(scs_subscribe(avp_strings, name));
AVPN* co = NULL;
AVPN* cs = NULL;
ptrdiff_t c;
AVP* m;
AVP* copy;
#ifdef _AVP_DEBUGGING
dbg_print(dbg_avpl_op,3,dbg_fp,"new_avpl_loose_match: %X src=%X op=%X name='%s'",newavpl,src,op,name);
@ -1008,241 +1008,147 @@ extern AVPL* new_avpl_loose_match(const gchar* name,
cs = src->null.next;
co = op->null.next;
while(1) {
while (cs->avp && co->avp) {
int name_diff = strcmp(co->avp->n, cs->avp->n);
if (!co->avp) {
return newavpl;
}
if (!cs->avp) {
return newavpl;
}
c = ADDRDIFF(co->avp->n, cs->avp->n);
if ( c > 0 ) {
if (co->avp) co = co->next;
} else if (c < 0) {
if (cs->avp) cs = cs->next;
if (name_diff < 0) {
// op < source, op is not matching
co = co->next;
} else if (name_diff > 0) {
// op > source, source is not matching
cs = cs->next;
} else {
m = match_avp(cs->avp,co->avp);
if(m) {
if (copy_avps) {
copy = avp_copy(m);
if ( ! insert_avp(newavpl,copy) ) {
delete_avp(copy);
}
} else {
insert_avp(newavpl,m);
// attribute match found, let's see if there is any condition (op) that accepts this data AVP.
AVPN *cond = co;
do {
if (match_avp(cs->avp, cond->avp)) {
insert_avp_before_node(newavpl, newavpl->null.prev, cs->avp, copy_avps);
break;
}
}
if (cs->avp) cs = cs->next;
cond = cond->next;
} while (cond->avp && cond->avp->n == cs->avp->n);
cs = cs->next;
}
}
#ifdef _AVP_DEBUGGING
dbg_print(dbg_avpl_op,6,dbg_fp,"new_avpl_loose_match: done!");
#endif
return NULL;
// return matches (possible none)
return newavpl;
}
/* TODO: rename me */
/**
* new_avpl_every_match:
* new_avpl_pairs_match:
* @param name the name of the resulting avpl
* @param src avpl to be matched agains an "op" avpl
* @param op the "op" avpl that will be matched against the src avpl
* @param src the data AVPL to be matched against a condition AVPL
* @param op the conditions AVPL that will be matched against the data AVPL
* @param strict TRUE if every condition must have a matching data AVP, FALSE if
* it is also acceptable that only one of the condition AVPs for the same
* attribute is matching.
* @param copy_avps whether the avps in the resulting avpl should be copied
*
* creates an avp list containing any avps in src matching every avp in op
* it will not create a list if there is not a match for every attribute in op
* Creates an AVP list by matching pairs of conditions and data AVPs, returning
* the data AVPs. If strict is TRUE, then each condition must be paired with a
* matching data AVP. If strict is FALSE, then some conditions are allowed to
* fail when other conditions for the same attribute do have a match. Note that
* if the condition AVPL is empty, the result will be a match (an empty list).
*
* Return value: a pointer to the newly created avpl containing the
* matching avps.
**/
extern AVPL* new_avpl_every_match(const gchar* name, AVPL* src, AVPL* op, gboolean copy_avps) {
* matching avps or NULL if there is no match.
*/
extern AVPL* new_avpl_pairs_match(const gchar* name, AVPL* src, AVPL* op, gboolean strict, gboolean copy_avps) {
AVPL* newavpl;
AVPN* co = NULL;
AVPN* cs = NULL;
ptrdiff_t c;
AVP* m;
AVP* copy;
gboolean matches;
const gchar *last_match = NULL;
gboolean matched = TRUE;
#ifdef _AVP_DEBUGGING
dbg_print(dbg_avpl_op,3,dbg_fp,"new_avpl_every_match: %X src=%X op=%X name='%s'",newavpl,src,op,name);
dbg_print(dbg_avpl_op,3,dbg_fp,"%s: %p src=%p op=%p name='%s'",G_STRFUNC,newavpl,src,op,name);
#endif
if (src->len == 0) return NULL;
newavpl = new_avpl(scs_subscribe(avp_strings, name));
if (op->len == 0)
return newavpl;
matches = TRUE;
cs = src->null.next;
co = op->null.next;
while(1) {
while (cs->avp && co->avp) {
int name_diff = strcmp(co->avp->n, cs->avp->n);
const gchar *failed_match = NULL;
if (!co->avp) {
break;
}
if (!cs->avp) {
break;
}
c = ADDRDIFF(co->avp->n,cs->avp->n);
if ( c > 0 ) {
delete_avpl(newavpl,TRUE);
return NULL;
} else if (c < 0) {
if (name_diff < 0) {
// op < source, op has no data avp with same attribute.
failed_match = co->avp->n;
co = co->next;
} else if (name_diff > 0) {
// op > source, the source avp is not matched by any condition
cs = cs->next;
if (! cs->avp ) {
break;
}
} else {
m = match_avp(cs->avp,co->avp);
if(m) {
matches++;
// Matching attributes found, now try to find a matching data AVP for the condition.
if (match_avp(cs->avp, co->avp)) {
insert_avp_before_node(newavpl, newavpl->null.prev, cs->avp, copy_avps);
last_match = co->avp->n;
cs = cs->next;
co = co->next;
if (copy_avps) {
copy = avp_copy(m);
if ( ! insert_avp(newavpl,copy) ) {
delete_avp(copy);
}
} else {
insert_avp(newavpl,m);
}
} else {
cs = cs->next;
failed_match = co->avp->n;
}
co = co->next;
}
// condition did not match, check if we can continue matching.
if (failed_match) {
if (strict) {
matched = FALSE;
break;
} else if (last_match != failed_match) {
// None of the conditions so far matched the attribute, check for other candidates
if (!co->avp || co->avp->n != last_match) {
matched = FALSE;
break;
}
}
}
}
if (matches) {
// if there are any conditions remaining, then those could not be matched
if (matched && strict && co->avp) {
matched = FALSE;
}
if (matched) {
// there was a match, accept it
return newavpl;
} else {
delete_avpl(newavpl,TRUE);
// no match, only delete AVPs too if they were copied
delete_avpl(newavpl, copy_avps);
return NULL;
}
}
/* TODO: rename me */
/**
* new_avpl_exact_match:
* new_avpl_from_match:
* @param mode The matching method, one of AVPL_STRICT, AVPL_LOOSE, AVPL_EVERY.
* @param name the name of the resulting avpl
* @param src avpl to be matched agains an "op" avpl
* @param op the "op" avpl that will be matched against the src avpl
* @param copy_avps whether the avps in the resulting avpl should be copied
* @param src the data AVPL to be matched agains a condition AVPL
* @param op the conditions AVPL that will be matched against the data AVPL
*
* creates an avp list containing every avp in src matching every avp in op
* it will not create a list unless every avp in op is matched only once
* to every avp in op.
*
* Return value: a pointer to the newly created avpl containing the
* matching avps.
**/
extern AVPL* new_avpl_exact_match(const gchar* name,AVPL* src, AVPL* op, gboolean copy_avps) {
AVPL* newavpl = new_avpl(name);
AVPN* co = NULL;
AVPN* cs = NULL;
ptrdiff_t c;
AVP* m;
AVP* copy;
#ifdef _AVP_DEBUGGING
dbg_print(dbg_avpl_op,3,dbg_fp,"new_avpl_every_match: %X src=%X op=%X name='%s'",newavpl,src,op,name);
#endif
if (op->len == 0)
return newavpl;
if (src->len == 0) {
delete_avpl(newavpl,FALSE);
return NULL;
}
cs = src->null.next;
co = op->null.next;
while(1) {
c = ADDRDIFF(co->avp->n,cs->avp->n);
if ( c > 0 ) {
delete_avpl(newavpl,TRUE);
return NULL;
} else if (c < 0) {
cs = cs->next;
if (! cs->avp ) {
delete_avpl(newavpl,TRUE);
return NULL;
}
} else {
m = match_avp(cs->avp,co->avp);
if(m) {
cs = cs->next;
co = co->next;
if (copy_avps) {
copy = avp_copy(m);
if ( ! insert_avp(newavpl,copy) ) {
delete_avp(copy);
}
} else {
insert_avp(newavpl,m);
}
if (!co->avp) {
return newavpl;
}
if (!cs->avp) {
delete_avpl(newavpl,TRUE);
return NULL;
}
} else {
delete_avpl(newavpl,TRUE);
return NULL;
}
}
}
/* should never be reached */
return NULL;
}
* Matches the conditions AVPL against the original AVPL according to the mode.
* If there is no match, NULL is returned. If there is actually a match, then
* the matching AVPs (a subset of the data) are returned.
*/
extern AVPL* new_avpl_from_match(avpl_match_mode mode, const gchar* name,AVPL* src, AVPL* op, gboolean copy_avps) {
AVPL* avpl = NULL;
switch (mode) {
case AVPL_STRICT:
avpl = new_avpl_exact_match(name,src,op,copy_avps);
avpl = new_avpl_pairs_match(name, src, op, TRUE, copy_avps);
break;
case AVPL_LOOSE:
avpl = new_avpl_loose_match(name,src,op,copy_avps);
break;
case AVPL_EVERY:
avpl = new_avpl_every_match(name,src,op,copy_avps);
avpl = new_avpl_pairs_match(name, src, op, FALSE, copy_avps);
break;
case AVPL_NO_MATCH:
// XXX this seems unused
avpl = new_avpl_from_avpl(name,src,copy_avps);
merge_avpl(avpl, op, copy_avps);
break;
@ -1317,8 +1223,10 @@ extern void avpl_transform(AVPL* src, AVPL_Transf* op) {
case AVPL_REPLACE:
cs = src->null.next;
cm = avpl->null.next;
while(cs->avp) {
if (cm->avp && cs->avp->n == cm->avp->n && cs->avp->v == cm->avp->v) {
// Removes AVPs from the source which are in the matched data.
// Assume that the matched set is a subset of the source.
while (cs->avp && cm->avp) {
if (cs->avp->n == cm->avp->n && cs->avp->v == cm->avp->v) {
n = cs->next;
cs->prev->next = cs->next;
@ -1328,6 +1236,10 @@ extern void avpl_transform(AVPL* src, AVPL_Transf* op) {
cs = n;
cm = cm->next;
} else {
// Current matched AVP is not equal to the current
// source AVP. Since there must be a source AVP for
// each matched AVP, advance current source and not
// the match AVP.
cs = cs->next;
}
}

12
plugins/mate/mate_util.h
View File

@ -179,17 +179,9 @@ extern AVPL* new_avpl(const gchar* name);
/* creates a copy of an avp list */
extern AVPL* new_avpl_from_avpl(const gchar* name, AVPL* avpl, gboolean copy_avps);
/* creates an avp list containing any avps in src matching any avps in op
it will eventually create an empty list in none match */
extern AVPL* new_avpl_loose_match(const gchar* name,AVPL* src, AVPL* op, gboolean copy_avps);
extern AVPL* new_avpl_loose_match(const gchar* name, AVPL* src, AVPL* op, gboolean copy_avps);
/* creates an avp list containing any avps in src matching every avp in op
it will not create a list if there is not a match for every attribute in op */
extern AVPL* new_avpl_every_match(const gchar* name,AVPL* src, AVPL* op, gboolean copy_avps);
/* creates an avp list containing every avp in src matching every avp in op
it will not create a list unless every avp in op is matched only once to avery avp in op */
extern AVPL* new_avpl_exact_match(const gchar* name,AVPL* src, AVPL* op, gboolean copy_avps);
extern AVPL* new_avpl_pairs_match(const gchar* name, AVPL* src, AVPL* op, gboolean strict, gboolean copy_avps);
/* uses mode to call one of the former matches. NO_MATCH = merge(merge(copy(src),op)) */
extern AVPL* new_avpl_from_match(avpl_match_mode mode, const gchar* name,AVPL* src, AVPL* op, gboolean copy_avps);