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data_lump.c
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data_lump.c
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/*
* Copyright (C) 2001-2003 FhG Fokus
*
* This file is part of Kamailio, a free SIP server.
*
* Kamailio 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
*
* Kamailio is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
*/
/*!
* \file
* \brief Kamailio core :: Data lumps
* \ingroup core
* Module: \ref core
*/
#include "data_lump.h"
#include "dprint.h"
#include "mem/mem.h"
#include "globals.h"
#include "error.h"
#include <stdlib.h>
#include <string.h>
#ifdef DEBUG_DMALLOC
#include <dmalloc.h>
#endif
/* WARNING: all lump add/insert operations expect a pkg_malloc'ed char*
* pointer the will be DEALLOCATED when the sip_msg is destroyed! */
enum lump_dir { LD_NEXT, LD_BEFORE, LD_AFTER };
/* adds a header to the end
* returns pointer on success, 0 on error */
struct lump* append_new_lump(struct lump** list, char* new_hdr,
int len, enum _hdr_types_t type)
{
struct lump** t;
struct lump* tmp;
for (t=list;*t;t=&((*t)->next));
tmp=pkg_malloc(sizeof(struct lump));
if (tmp==0){
LM_ERR("out of memory\n");
return 0;
}
memset(tmp,0,sizeof(struct lump));
tmp->type=type;
tmp->op=LUMP_ADD;
tmp->u.value=new_hdr;
tmp->len=len;
*t=tmp;
return tmp;
}
/* adds a header right after an anchor point if exists
* returns pointer on success, 0 on error */
struct lump* add_new_lump(struct lump** list, char* new_hdr,
int len, enum _hdr_types_t type)
{
struct lump** t;
struct lump* tmp;
t = (*list) ? &((*list)->next) : list;
tmp=pkg_malloc(sizeof(struct lump));
if (tmp==0){
LM_ERR("out of memory\n");
return 0;
}
memset(tmp,0,sizeof(struct lump));
tmp->type=type;
tmp->op=LUMP_ADD;
tmp->u.value=new_hdr;
tmp->len=len;
tmp->next=*t;
*t=tmp;
return tmp;
}
/* inserts a header to the beginning
* returns pointer if success, 0 on error */
struct lump* insert_new_lump(struct lump** list, char* new_hdr,
int len, enum _hdr_types_t type)
{
struct lump* tmp;
tmp=pkg_malloc(sizeof(struct lump));
if (tmp==0){
LM_ERR("out of memory\n");
return 0;
}
memset(tmp,0,sizeof(struct lump));
tmp->next=*list;
tmp->type=type;
tmp->op=LUMP_ADD;
tmp->u.value=new_hdr;
tmp->len=len;
*list=tmp;
return tmp;
}
/* inserts a header/data lump immediately after hdr
* returns pointer on success, 0 on error */
struct lump* insert_new_lump_after( struct lump* after, char* new_hdr,
int len, enum _hdr_types_t type)
{
struct lump* tmp;
tmp=pkg_malloc(sizeof(struct lump));
if (tmp==0){
ser_error=E_OUT_OF_MEM;
LM_ERR("out of memory\n");
return 0;
}
memset(tmp,0,sizeof(struct lump));
tmp->after=after->after;
tmp->type=type;
tmp->op=LUMP_ADD;
tmp->u.value=new_hdr;
tmp->len=len;
after->after=tmp;
return tmp;
}
/* inserts a header/data lump immediately before "before"
* returns pointer on success, 0 on error */
struct lump* insert_new_lump_before( struct lump* before, char* new_hdr,
int len, enum _hdr_types_t type)
{
struct lump* tmp;
tmp=pkg_malloc(sizeof(struct lump));
if (tmp==0){
ser_error=E_OUT_OF_MEM;
LM_ERR("out of memory\n");
return 0;
}
memset(tmp,0,sizeof(struct lump));
tmp->before=before->before;
tmp->type=type;
tmp->op=LUMP_ADD;
tmp->u.value=new_hdr;
tmp->len=len;
before->before=tmp;
return tmp;
}
/* inserts a subst lump immediately after hdr
* returns pointer on success, 0 on error */
struct lump* insert_subst_lump_after( struct lump* after, enum lump_subst subst,
enum _hdr_types_t type)
{
struct lump* tmp;
tmp=pkg_malloc(sizeof(struct lump));
if (tmp==0){
ser_error=E_OUT_OF_MEM;
LM_ERR("out of memory\n");
return 0;
}
memset(tmp,0,sizeof(struct lump));
tmp->after=after->after;
tmp->type=type;
tmp->op=LUMP_ADD_SUBST;
tmp->u.subst=subst;
tmp->len=0;
after->after=tmp;
return tmp;
}
/* inserts a subst lump immediately before "before"
* returns pointer on success, 0 on error */
struct lump* insert_subst_lump_before( struct lump* before,
enum lump_subst subst,
enum _hdr_types_t type)
{
struct lump* tmp;
tmp=pkg_malloc(sizeof(struct lump));
if (tmp==0){
ser_error=E_OUT_OF_MEM;
LM_ERR("out of memory\n");
return 0;
}
memset(tmp,0,sizeof(struct lump));
tmp->before=before->before;
tmp->type=type;
tmp->op=LUMP_ADD_SUBST;
tmp->u.subst=subst;
tmp->len=0;
before->before=tmp;
return tmp;
}
/* inserts a cond lump immediately after hdr
* returns pointer on success, 0 on error */
struct lump* insert_cond_lump_after( struct lump* after, enum lump_conditions c,
enum _hdr_types_t type)
{
struct lump* tmp;
tmp=pkg_malloc(sizeof(struct lump));
if (tmp==0){
ser_error=E_OUT_OF_MEM;
LM_ERR("out of memory\n");
return 0;
}
memset(tmp,0,sizeof(struct lump));
tmp->after=after->after;
tmp->type=type;
tmp->op=LUMP_ADD_OPT;
tmp->u.cond=c;
tmp->len=0;
after->after=tmp;
return tmp;
}
/* inserts a conditional lump immediately before "before"
* returns pointer on success, 0 on error */
struct lump* insert_cond_lump_before( struct lump* before,
enum lump_conditions c,
enum _hdr_types_t type)
{
struct lump* tmp;
tmp=pkg_malloc(sizeof(struct lump));
if (tmp==0){
ser_error=E_OUT_OF_MEM;
LM_ERR("out of memory\n");
return 0;
}
memset(tmp,0,sizeof(struct lump));
tmp->before=before->before;
tmp->type=type;
tmp->op=LUMP_ADD_OPT;
tmp->u.cond=c;
tmp->len=0;
before->before=tmp;
return tmp;
}
/* removes an already existing header/data lump */
/* WARNING: this function adds the lump either to the msg->add_rm or
* msg->body_lumps list, depending on the offset being greater than msg->eoh,
* so msg->eoh must be parsed (parse with HDR_EOH) if you think your lump
* might affect the body!! */
struct lump* del_lump(struct sip_msg* msg, int offset, int len, enum _hdr_types_t type)
{
struct lump* tmp;
struct lump* prev, *t;
struct lump** list;
/* extra checks */
if (offset>msg->len){
LM_CRIT("offset exceeds message size (%d > %d) aborting...\n",
offset, msg->len);
abort();
}
if (offset+len>msg->len){
LM_CRIT("offset + len exceeds message size (%d + %d > %d)\n",
offset, len, msg->len);
abort();
}
if (len==0){
LM_WARN("0 len (offset=%d)\n", offset);
}
tmp=pkg_malloc(sizeof(struct lump));
if (tmp==0){
LM_ERR("out of memory\n");
return 0;
}
memset(tmp,0,sizeof(struct lump));
tmp->op=LUMP_DEL;
tmp->type=type;
tmp->u.offset=offset;
tmp->len=len;
prev=0;
/* check to see whether this might be a body lump */
if ((msg->eoh) && (offset> (int)(msg->eoh-msg->buf)))
list=&msg->body_lumps;
else
list=&msg->add_rm;
for (t=*list;t; prev=t, t=t->next){
/* insert it sorted after offset */
if (((t->op==LUMP_DEL)||(t->op==LUMP_NOP))&&(t->u.offset>offset))
break;
}
tmp->next=t;
if (prev) prev->next=tmp;
else *list=tmp;
return tmp;
}
/* add an anchor
* WARNING: this function adds the lump either to the msg->add_rm or
* msg->body_lumps list, depending on the offset being greater than msg->eoh,
* so msg->eoh must be parsed (parse with HDR_EOH) if you think your lump
* might affect the body!! */
struct lump* anchor_lump(struct sip_msg* msg, int offset, int len, enum _hdr_types_t type)
{
struct lump* tmp;
struct lump* prev, *t;
struct lump** list;
/* extra checks */
if (offset>msg->len){
LM_CRIT("offset exceeds message size (%d > %d) aborting...\n",
offset, msg->len);
abort();
}
if (len){
LM_WARN("len !=0 (%d)\n", len);
if (offset+len>msg->len)
LM_WARN("offset + len exceeds message size (%d + %d > %d)\n",
offset, len, msg->len);
}
tmp=pkg_malloc(sizeof(struct lump));
if (tmp==0){
ser_error=E_OUT_OF_MEM;
LM_ERR("out of memory\n");
return 0;
}
memset(tmp,0,sizeof(struct lump));
tmp->op=LUMP_NOP;
tmp->type=type;
tmp->u.offset=offset;
tmp->len=len;
prev=0;
/* check to see whether this might be a body lump */
if ((msg->eoh) && (offset> (int)(msg->eoh-msg->buf)))
list=&msg->body_lumps;
else
list=&msg->add_rm;
for (t=*list;t; prev=t, t=t->next){
/* insert it sorted after offset */
if (((t->op==LUMP_DEL)||(t->op==LUMP_NOP))&&(t->u.offset>offset))
break;
}
tmp->next=t;
if (prev) prev->next=tmp;
else *list=tmp;
return tmp;
}
/* add an anchor
* Similar to anchor_lump() but this function checks whether or not a lump
* has already been added to the same position. If an existing lump is found
* then it is returned without adding a new one and is_ref is set to 1.
*
* WARNING: this function adds the lump either to the msg->add_rm or
* msg->body_lumps list, depending on the offset being greater than msg->eoh,
* so msg->eoh must be parsed (parse with HDR_EOH) if you think your lump
* might affect the body!! */
struct lump* anchor_lump2(struct sip_msg* msg, int offset, int len, enum _hdr_types_t type,
int *is_ref)
{
struct lump* tmp;
struct lump* prev, *t;
struct lump** list;
/* extra checks */
if (offset>msg->len){
LM_CRIT("offset exceeds message size (%d > %d) aborting...\n",
offset, msg->len);
abort();
}
if (len){
LM_WARN("len !=0 (%d)\n", len);
if (offset+len>msg->len)
LM_WARN("offset + len exceeds message size (%d + %d > %d)\n",
offset, len, msg->len);
}
prev=0;
/* check to see whether this might be a body lump */
if ((msg->eoh) && (offset> (int)(msg->eoh-msg->buf)))
list=&msg->body_lumps;
else
list=&msg->add_rm;
for (t=*list;t; prev=t, t=t->next){
/* insert it sorted after offset */
if (((t->op==LUMP_DEL)||(t->op==LUMP_NOP))&&(t->u.offset>=offset))
break;
}
if (t && (t->u.offset==offset)) {
/* A lump with the same offset is found */
*is_ref=1;
return t;
}
tmp=pkg_malloc(sizeof(struct lump));
if (tmp==0){
ser_error=E_OUT_OF_MEM;
LM_ERR("out of memory\n");
return 0;
}
memset(tmp,0,sizeof(struct lump));
tmp->op=LUMP_NOP;
tmp->type=type;
tmp->u.offset=offset;
tmp->len=len;
tmp->next=t;
if (prev) prev->next=tmp;
else *list=tmp;
*is_ref=0;
return tmp;
}
void free_lump(struct lump* lmp)
{
if (lmp && (lmp->op==LUMP_ADD)){
if (lmp->u.value){
if (lmp->flags &(LUMPFLAG_DUPED|LUMPFLAG_SHMEM)){
LM_CRIT("non free-able lump: %p flags=%x\n", lmp, lmp->flags);
abort();
}else{
pkg_free(lmp->u.value);
lmp->u.value=0;
lmp->len=0;
}
}
}
}
void free_lump_list(struct lump* l)
{
struct lump* t, *r, *foo,*crt;
t=l;
while(t){
crt=t;
t=t->next;
/*
dangerous recursive clean
if (crt->before) free_lump_list(crt->before);
if (crt->after) free_lump_list(crt->after);
*/
/* no more recursion, clean after and before and that's it */
r=crt->before;
while(r){
foo=r; r=r->before;
free_lump(foo);
pkg_free(foo);
}
r=crt->after;
while(r){
foo=r; r=r->after;
free_lump(foo);
pkg_free(foo);
}
/*clean current elem*/
free_lump(crt);
pkg_free(crt);
}
}
/* free (shallow-ly) a lump and its after/before lists */
static void free_shallow_lump( struct lump *l )
{
struct lump *r, *foo;
r=l->before;
while(r){
foo=r; r=r->before;
pkg_free(foo);
}
r=l->after;
while(r){
foo=r; r=r->after;
pkg_free(foo);
}
pkg_free(l);
}
/* duplicate (shallow-ly) a lump list into pkg memory */
static struct lump *dup_lump_list_r( struct lump *l,
enum lump_dir dir, int *error)
{
int deep_error;
struct lump *new_lump;
deep_error=0; /* optimist: assume success in recursion */
/* if at list end, terminate recursion successfully */
if (!l) { *error=0; return 0; }
/* otherwise duplicate current element */
new_lump=pkg_malloc(sizeof(struct lump));
if (!new_lump) { *error=1; return 0; }
memcpy(new_lump, l, sizeof(struct lump));
new_lump->flags=LUMPFLAG_DUPED;
new_lump->next=new_lump->before=new_lump->after=0;
switch(dir) {
case LD_NEXT:
new_lump->before=dup_lump_list_r(l->before,
LD_BEFORE, &deep_error);
if (deep_error) goto deeperror;
new_lump->after=dup_lump_list_r(l->after,
LD_AFTER, &deep_error);
if (deep_error) goto deeperror;
new_lump->next=dup_lump_list_r(l->next,
LD_NEXT, &deep_error);
break;
case LD_BEFORE:
new_lump->before=dup_lump_list_r(l->before,
LD_BEFORE, &deep_error);
break;
case LD_AFTER:
new_lump->after=dup_lump_list_r(l->after,
LD_AFTER, &deep_error);
break;
default:
LM_CRIT("unknown dir: %d\n", dir );
deep_error=1;
}
if (deep_error) goto deeperror;
*error=0;
return new_lump;
deeperror:
LM_ERR("out of mem\n");
free_shallow_lump(new_lump);
*error=1;
return 0;
}
/* shallow pkg copy of a lump list
*
* if either original list empty or error occur returns, 0
* is returned, pointer to the copy otherwise
*/
struct lump* dup_lump_list( struct lump *l )
{
int deep_error;
deep_error=0;
return dup_lump_list_r(l, LD_NEXT, &deep_error);
}
void free_duped_lump_list(struct lump* l)
{
struct lump *r, *foo,*crt;
while(l){
crt=l;
l=l->next;
r=crt->before;
while(r){
foo=r; r=r->before;
/* (+): if a new item was introduced to the shallow-ly
* duped list, remove it completely, preserve it
* otherwise (it is still referred by original list)
*/
if (foo->flags!=LUMPFLAG_DUPED)
free_lump(foo);
pkg_free(foo);
}
r=crt->after;
while(r){
foo=r; r=r->after;
if (foo->flags!=LUMPFLAG_DUPED) /* (+) ... see above */
free_lump(foo);
pkg_free(foo);
}
/*clean current elem*/
if (crt->flags!=LUMPFLAG_DUPED) /* (+) ... see above */
free_lump(crt);
pkg_free(crt);
}
}
void del_nonshm_lump( struct lump** lump_list )
{
struct lump *r, *foo, *crt, **prev, *prev_r;
prev = lump_list;
crt = *lump_list;
while (crt) {
if (!(crt->flags&LUMPFLAG_SHMEM)) {
/* unlink it */
foo = crt;
crt = crt->next;
foo->next = 0;
/* update the 'next' link of the previous lump */
*prev = crt;
/* entire before/after list must be removed */
free_lump_list( foo );
} else {
/* check on before and prev list for non-shmem lumps */
r = crt->after;
prev_r = crt;
while(r){
foo=r; r=r->after;
if (!(foo->flags&LUMPFLAG_SHMEM)) {
prev_r->after = r;
free_lump(foo);
pkg_free(foo);
} else {
prev_r = foo;
}
}
/* before */
r = crt->before;
prev_r = crt;
while(r){
foo=r; r=r->before;
if (!(foo->flags&LUMPFLAG_SHMEM)) {
prev_r->before = r;
free_lump(foo);
pkg_free(foo);
} else {
prev_r = foo;
}
}
/* go to next lump */
prev = &(crt->next);
crt = crt->next;
}
}
}
unsigned int count_applied_lumps(struct lump *ll, int type)
{
unsigned int n = 0;
struct lump *l = 0;
for(l=ll; l; l=l->next) {
if (l->op==LUMP_NOP && l->type==type) {
if (l->after && l->after->op==LUMP_ADD_OPT) {
if (LUMP_IS_COND_TRUE(l->after)) {
n++;
}
} else {
n++;
}
}
}
return n;
}
/**
* remove a lump in a root list
* - it doesn't look for lumps added as before/after rule
* - destroys the entire lump, with associated before/after rules
*/
int remove_lump(sip_msg_t *msg, struct lump *l)
{
struct lump *t = NULL;
struct lump *prev = NULL;
struct lump **list = NULL;
list=&msg->add_rm;
for (t=*list; t; prev=t, t=t->next) {
if(t==l)
break;
}
if(t==NULL) {
list=&msg->body_lumps;
for (t=*list; t; prev=t, t=t->next) {
if(t==l)
break;
}
}
if(t!=NULL) {
if(prev==NULL) {
*list = t->next;
} else {
prev->next = t->next;
}
/* detach and free all its content */
t->next = NULL;
free_lump_list(t);
return 1;
}
return 0;
}