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dset.c
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dset.c
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/*
* Copyright (C) 2001-2004 FhG FOKUS
*
* This file is part of opensips, a free SIP server.
*
* opensips 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
*
* opensips 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 Destination set handling functions
*/
#include <string.h>
#include "dprint.h"
#include "config.h"
#include "parser/parser_f.h"
#include "parser/msg_parser.h"
#include "ut.h"
#include "hash_func.h"
#include "error.h"
#include "context.h"
#include "dset.h"
#include "mem/mem.h"
#include "ip_addr.h"
#define CONTACT "Contact: "
#define CONTACT_LEN (sizeof(CONTACT) - 1)
#define CONTACT_DELIM ", "
#define CONTACT_DELIM_LEN (sizeof(CONTACT_DELIM) - 1)
#define Q_PARAM ";q="
#define Q_PARAM_LEN (sizeof(Q_PARAM) - 1)
#define DSET_INCREMENT 4
struct branch
{
char uri[MAX_URI_SIZE];
unsigned int len;
/* Real destination of the request */
char dst_uri[MAX_URI_SIZE];
unsigned int dst_uri_len;
/* Path vector of the request */
char path[MAX_PATH_SIZE];
unsigned int path_len;
int q; /* Preference of the contact among contact within the array */
const struct socket_info* force_send_socket;
unsigned int flags;
};
struct dset_ctx
{
int enabled;
/*! how many of them we currently have */
int nr_branches;
/*!
* Where we store URIs of additional transaction branches
* (-1 because of the default branch, #0)
*/
struct branch *branches;
};
static int dset_ctx_idx = -1;
#define get_dset_ctx() \
(!current_processing_ctx ? NULL : (struct dset_ctx *) \
context_get_ptr(CONTEXT_GLOBAL, current_processing_ctx, dset_ctx_idx))
int get_nr_branches(void)
{
struct dset_ctx *dsct = get_dset_ctx();
return !dsct ? 0 : dsct->nr_branches;
}
#define store_dset_ctx(value) \
(context_put_ptr( \
CONTEXT_GLOBAL, current_processing_ctx, dset_ctx_idx, value))
/*! Frees a destination set which used to be stored in the global context */
static void dset_destroy(void *dsct)
{
pkg_free(((struct dset_ctx *)dsct)->branches);
pkg_free(dsct);
}
int init_dset(void)
{
dset_ctx_idx = context_register_ptr(CONTEXT_GLOBAL, dset_destroy);
if (dset_ctx_idx < 0)
return -1;
return 0;
}
static inline unsigned int* get_ptr_bflags(struct sip_msg *msg, unsigned int b_idx)
{
struct dset_ctx *dsct = get_dset_ctx();
if (!dsct && b_idx != 0)
return NULL;
if (b_idx == 0) {
return &getb0flags(msg);
} else {
if (b_idx - 1 < dsct->nr_branches) {
return &dsct->branches[b_idx - 1].flags;
} else {
return 0;
}
}
}
int setbflag(struct sip_msg *msg, unsigned int b_idx, unsigned int mask)
{
unsigned int *flags;
flags = get_ptr_bflags( msg, b_idx );
#ifdef EXTRA_DEBUG
LM_DBG("bflags for %p : (%u, %u)\n", msg, mask, *flags);
#endif
if (flags==0)
return -1;
(*flags) |= mask;
return 1;
}
/*! \brief
* Tests the per branch flags
*/
int isbflagset(struct sip_msg *msg, unsigned int b_idx, unsigned int mask)
{
unsigned int *flags;
flags = get_ptr_bflags( msg, b_idx );
#ifdef EXTRA_DEBUG
LM_DBG("bflags for %p : (%u, %u)\n", msg, mask, *flags);
#endif
if (flags==0)
return -1;
return ( (*flags) & mask) ? 1 : -1;
}
/*! \brief
* Resets the per branch flags
*/
int resetbflag(struct sip_msg *msg, unsigned int b_idx, unsigned int mask)
{
unsigned int *flags;
flags = get_ptr_bflags( msg, b_idx );
#ifdef EXTRA_DEBUG
LM_DBG("bflags for %p : (%u, %u)\n", msg, mask, *flags);
#endif
if (flags==0)
return -1;
(*flags) &= ~mask;
return 1;
}
/*! \brief Disable/Enables parallel branch usage (read and write)
*/
void set_dset_state(unsigned char enable)
{
struct dset_ctx *dsct = get_dset_ctx();
static unsigned int bk_nr_branches;
if (!dsct)
return;
if (enable) {
/* enable dset usage */
if (dsct->enabled) return; /* already enabled */
/* enable read */
dsct->nr_branches = bk_nr_branches;
bk_nr_branches = 0;
/* enable write */
dsct->enabled = 1;
} else {
/* disable dset usage */
if (!dsct->enabled) return; /* already disabled */
/* disable read */
bk_nr_branches = dsct->nr_branches;
dsct->nr_branches = 0;
/* disabel write */
dsct->enabled = 0;
}
}
/*! \brief Find the next brand from the destination set
* \return Return the next branch from the dset
* array, 0 is returned if there are no
* more branches
*/
char* get_branch(unsigned int idx, int* len, qvalue_t* q, str* dst_uri,
str* path, unsigned int *flags, const struct socket_info** force_socket)
{
struct dset_ctx *dsct = get_dset_ctx();
struct branch *branches;
if (dsct && idx < dsct->nr_branches) {
branches = dsct->branches;
*len = branches[idx].len;
*q = branches[idx].q;
if (dst_uri) {
dst_uri->len = branches[idx].dst_uri_len;
dst_uri->s = (dst_uri->len)?branches[idx].dst_uri : NULL;
}
if (path) {
path->len = branches[idx].path_len;
path->s = (path->len)?branches[idx].path : NULL;
}
if (force_socket)
*force_socket = branches[idx].force_send_socket;
if (flags)
*flags = branches[idx].flags;
return branches[idx].uri;
} else {
*len = 0;
*q = Q_UNSPECIFIED;
if (dst_uri) {
dst_uri->s = NULL;
dst_uri->len = 0;
}
if (force_socket)
*force_socket = NULL;
if (flags)
*flags = 0;
return NULL;
}
}
/*! \brief
* Empty the dset array
*/
void clear_branches(void)
{
struct dset_ctx *dsct = get_dset_ctx();
if (dsct)
dsct->nr_branches = 0;
}
/* ! \brief
* Add a new branch to current transaction
*/
int append_branch(struct sip_msg* msg, str* uri, str* dst_uri, str* path,
qvalue_t q, unsigned int flags, const struct socket_info* force_socket)
{
str luri;
int nr_branches;
struct branch *branches, *new_br;
struct dset_ctx *dsct = get_dset_ctx();
if (dsct && !dsct->enabled)
return -1;
if (!dsct) {
dsct = pkg_malloc(sizeof *dsct);
if (!dsct) {
LM_ERR("oom 1\n");
return E_OUT_OF_MEM;
}
memset(dsct, 0, sizeof *dsct);
dsct->enabled = 1;
store_dset_ctx(dsct);
}
nr_branches = dsct->nr_branches;
/* if we have already set up the maximum number
* of branches, don't try new ones
*/
if (nr_branches == MAX_BRANCHES - 1) {
LM_ERR("max nr of branches exceeded\n");
ser_error = E_TOO_MANY_BRANCHES;
return -1;
}
if (nr_branches % DSET_INCREMENT == 0) {
new_br = pkg_realloc(dsct->branches,
(nr_branches + DSET_INCREMENT) * sizeof *dsct->branches);
if (!new_br) {
LM_ERR("oom 2\n");
return E_OUT_OF_MEM;
}
dsct->branches = new_br;
}
/* if not parameterized, take current uri */
if (ZSTRP(uri)) {
if (msg->new_uri.s)
luri = msg->new_uri;
else
luri = msg->first_line.u.request.uri;
} else {
luri = *uri;
}
if (luri.len > MAX_URI_SIZE - 1) {
LM_ERR("too long uri: %.*s\n", luri.len, luri.s);
return -1;
}
branches = dsct->branches;
/* copy the dst_uri */
if (ZSTRP(dst_uri)) {
branches[nr_branches].dst_uri[0] = '\0';
branches[nr_branches].dst_uri_len = 0;
} else {
if (dst_uri->len > MAX_URI_SIZE - 1) {
LM_ERR("too long dst_uri: %.*s\n", dst_uri->len, dst_uri->s);
return -1;
}
memcpy(branches[nr_branches].dst_uri, dst_uri->s, dst_uri->len);
branches[nr_branches].dst_uri[dst_uri->len] = '\0';
branches[nr_branches].dst_uri_len = dst_uri->len;
}
/* copy the path string */
if (ZSTRP(path)) {
branches[nr_branches].path[0] = '\0';
branches[nr_branches].path_len = 0;
} else {
if (path->len > MAX_PATH_SIZE - 1) {
LM_ERR("too long path: %.*s\n", path->len, path->s);
return -1;
}
memcpy(branches[nr_branches].path, path->s, path->len);
branches[nr_branches].path[path->len] = 0;
branches[nr_branches].path_len = path->len;
}
/* copy the ruri */
memcpy(branches[nr_branches].uri, luri.s, luri.len);
branches[nr_branches].uri[luri.len] = '\0';
branches[nr_branches].len = luri.len;
branches[nr_branches].q = q;
branches[nr_branches].force_send_socket = force_socket;
branches[nr_branches].flags = flags;
dsct->nr_branches++;
return 1;
}
/* ! \brief
* Updates one or more fields of an already appended branch
*/
int update_branch(unsigned int idx, str** uri, str** dst_uri, str** path,
qvalue_t* q, unsigned int* flags, const struct socket_info** force_socket)
{
struct dset_ctx *dsct = get_dset_ctx();
struct branch *branches;
if (!dsct || !dsct->enabled || idx >= dsct->nr_branches)
return -1;
branches = dsct->branches;
/* uri ? */
if (uri) {
/* set uri */
if (*uri==NULL || (*uri)->len>MAX_URI_SIZE-1) {
LM_ERR("empty or too long uri\n");
return -1;
}
memcpy(branches[idx].uri, (*uri)->s, (*uri)->len);
branches[idx].uri[(*uri)->len] = '\0';
branches[idx].len = (*uri)->len;
}
/* duri ? */
if (dst_uri) {
if (ZSTRP(*dst_uri)) {
branches[idx].dst_uri[0] = '\0';
branches[idx].dst_uri_len = 0;
} else {
if ((*dst_uri)->len > MAX_URI_SIZE - 1) {
LM_ERR("too long dst_uri: %.*s\n",
(*dst_uri)->len, (*dst_uri)->s);
return -1;
}
memcpy(branches[idx].dst_uri, (*dst_uri)->s, (*dst_uri)->len);
branches[idx].dst_uri[(*dst_uri)->len] = '\0';
branches[idx].dst_uri_len = (*dst_uri)->len;
}
}
/* path ? */
if (path) {
if (ZSTRP(*path)) {
branches[idx].path[0] = '\0';
branches[idx].path_len = 0;
} else {
if ((*path)->len > MAX_PATH_SIZE - 1) {
LM_ERR("too long path: %.*s\n", (*path)->len, (*path)->s);
return -1;
}
memcpy(branches[idx].path, (*path)->s, (*path)->len);
branches[idx].path[(*path)->len] = '\0';
branches[idx].path_len = (*path)->len;
}
}
/* Q value ? */
if (q)
branches[idx].q = *q;
/* flags ? */
if (flags)
branches[idx].flags = *flags;
/* socket ? */
if (force_socket)
branches[idx].force_send_socket = *force_socket;
return 0;
}
int remove_branch(unsigned int idx)
{
struct dset_ctx *dsct = get_dset_ctx();
if (!dsct || !dsct->enabled || idx >= dsct->nr_branches)
return -1;
/* not last branch? */
if (idx + 1 != dsct->nr_branches)
memmove(dsct->branches + idx, dsct->branches + idx + 1,
(dsct->nr_branches - idx - 1) * sizeof *dsct->branches);
dsct->nr_branches--;
return 0;
}
/*! \brief
* Create a Contact header field from the dset
* array
*/
char* print_dset(struct sip_msg* msg, int* len)
{
int cnt, i, idx;
unsigned int qlen;
qvalue_t q;
str uri;
char* p, *qbuf;
static char *dset = NULL;
static unsigned int dset_len = 0;
if (msg->new_uri.s) {
cnt = 1;
*len = msg->new_uri.len+2 /*for <>*/;
if (get_ruri_q(msg) != Q_UNSPECIFIED) {
*len += Q_PARAM_LEN + len_q(get_ruri_q(msg));
}
} else {
cnt = 0;
*len = 0;
}
for( idx=0 ; (uri.s=get_branch(idx,&uri.len,&q,0,0,0,0))!=0 ; idx++ ) {
cnt++;
*len += uri.len+2 /*for <>*/ ;
if (q != Q_UNSPECIFIED) {
*len += Q_PARAM_LEN + len_q(q);
}
}
if (cnt == 0) return 0;
*len += CONTACT_LEN + CRLF_LEN + (cnt - 1) * CONTACT_DELIM_LEN;
/* does the current buffer fit the new dset ? */
if (*len + 1 > dset_len) {
/* need to resize */
dset = pkg_realloc(dset, *len + 1);
if (!dset) {
dset_len = 0;
LM_ERR("failed to allocate redirect buffer for %d bytes\n", *len + 1);
return NULL;
}
dset_len = *len + 1;
}
memcpy(dset, CONTACT, CONTACT_LEN);
p = dset + CONTACT_LEN;
if (msg->new_uri.s) {
*p++ = '<';
memcpy(p, msg->new_uri.s, msg->new_uri.len);
p += msg->new_uri.len;
*p++ = '>';
if (get_ruri_q(msg) != Q_UNSPECIFIED) {
memcpy(p, Q_PARAM, Q_PARAM_LEN);
p += Q_PARAM_LEN;
qbuf = q2str(get_ruri_q(msg), &qlen);
memcpy(p, qbuf, qlen);
p += qlen;
}
i = 1;
} else {
i = 0;
}
for( idx=0 ; (uri.s=get_branch(idx,&uri.len,&q,0,0,0,0))!=0 ; idx++ ) {
if (i) {
memcpy(p, CONTACT_DELIM, CONTACT_DELIM_LEN);
p += CONTACT_DELIM_LEN;
}
*p++ = '<';
memcpy(p, uri.s, uri.len);
p += uri.len;
*p++ = '>';
if (q != Q_UNSPECIFIED) {
memcpy(p, Q_PARAM, Q_PARAM_LEN);
p += Q_PARAM_LEN;
qbuf = q2str(q, &qlen);
memcpy(p, qbuf, qlen);
p += qlen;
}
i++;
}
memcpy(p, CRLF " ", CRLF_LEN + 1);
return dset;
}
/*! \brief moves the uri to destination for all branches and
* all uris are set to given uri */
int branch_uri2dset( str *new_uri )
{
struct dset_ctx *dsct = get_dset_ctx();
struct branch *branches;
unsigned int b;
/* no branches have been added yet */
if (!dsct)
return 0;
branches = dsct->branches;
if (new_uri->len+1 > MAX_URI_SIZE) {
LM_ERR("new uri too long (%d)\n",new_uri->len);
return -1;
}
for (b = 0; b < dsct->nr_branches; b++) {
/* move uri to dst */
memcpy(branches[b].dst_uri, branches[b].uri, branches[b].len + 1);
branches[b].dst_uri_len = branches[b].len;
/* set new uri */
memcpy(branches[b].uri, new_uri->s, new_uri->len);
branches[b].len = new_uri->len;
branches[b].uri[new_uri->len] = '\0';
}
return 0;
}
int move_branch_to_ruri(int idx, struct sip_msg *msg)
{
struct dset_ctx *dsct = get_dset_ctx();
struct branch *branch;
str s;
/* no branches have been added yet */
if (!dsct) {
LM_DBG("no branches found\n");
return -1;
}
/* */
if (idx >= dsct->nr_branches) {
LM_DBG("trying to move inexisting branch idx %d, out of %d\n",
idx, dsct->nr_branches);
return -1;
}
branch = &dsct->branches[idx];
/* move RURI */
s.s = branch->uri;
s.len = branch->len;
if (set_ruri( msg, &s)<0) {
LM_ERR("failed to set new RURI\n");
return -1;
}
/* move DURI (empty is accepted as reset) */
s.s = branch->dst_uri;
s.len = branch->dst_uri_len;
if (set_dst_uri( msg, &s)<0) {
LM_ERR("failed to set DST URI\n");
return -1;
}
/* move PATH (empty is accepted as reset) */
s.s = branch->path;
s.len = branch->path_len;
if (set_path_vector( msg, &s)<0) {
LM_ERR("failed to set PATH\n");
return -1;
}
/* Qval */
set_ruri_q( msg, branch->q );
/* BFLAGS */
setb0flags( msg, branch->flags );
/* socket info */
msg->force_send_socket = branch->force_send_socket;
return 0;
}
static inline int _branch_2_msg(struct branch *br, struct sip_msg *msg)
{
str s;
s.s = br->uri;
s.len = br->len;
if (set_ruri( msg, &s))
return -1;
s.s = br->dst_uri;
s.len = br->dst_uri_len;
if (set_dst_uri( msg, &s))
return -1;
s.s = br->path;
s.len = br->path_len;
if (set_path_vector( msg, &s))
return -1;
msg->ruri_q = br->q;
msg->force_send_socket = br->force_send_socket;
msg->ruri_bflags = br->flags;
return 0;
}
static inline int _msg_2_branch(struct sip_msg *msg, struct branch *br)
{
str *ruri;
/* run tests first */
ruri = GET_RURI(msg);
if (ruri->len > MAX_URI_SIZE - 1) {
LM_ERR("too long ruri: %.*s\n", ruri->len, ruri->s);
return -1;
}
if (msg->dst_uri.len > MAX_URI_SIZE - 1) {
LM_ERR("too long dst_uri: %.*s\n", msg->dst_uri.len, msg->dst_uri.s);
return -1;
}
if (msg->path_vec.len > MAX_PATH_SIZE - 1) {
LM_ERR("too long path: %.*s\n", msg->path_vec.len, msg->path_vec.s);
return -1;
}
/* we are all good, start copying */
memset( br, 0, sizeof(struct branch));
// this will make all strings NULL terminated
memcpy( br->uri, ruri->s, ruri->len);
br->len = ruri->len;
if (!ZSTR(msg->dst_uri)) {
memcpy( br->dst_uri, msg->dst_uri.s, msg->dst_uri.len);
br->dst_uri_len = msg->dst_uri.len;
}
if (!ZSTR(msg->path_vec)) {
memcpy( br->path, msg->path_vec.s, msg->path_vec.len);
br->path_len = msg->path_vec.len;
}
br->q = msg->ruri_q;
br->force_send_socket = msg->force_send_socket;
br->flags = msg->ruri_bflags;
return 0;
}
static inline int _copy_branch(struct sip_msg *msg, struct branch *branches,
int src_idx, int dst_idx)
{
int ret = 0;
if (dst_idx>=0) {
/* we copy into a branch */
if (src_idx>=0) {
/* we copy from a branch */
branches[dst_idx] = branches[src_idx];
} else {
/* we copy from msg */
ret = _msg_2_branch( msg, &branches[dst_idx]);
}
} else {
/* we copy into msg */
if (src_idx>=0) {
/* we copy from a branch */
ret = _branch_2_msg( &branches[src_idx], msg);
} else {
/* this should not happen, it is a NOP */
}
}
return ret;
}
int swap_branches(struct sip_msg *msg, int src_idx, int dst_idx)
{
struct dset_ctx *dsct = get_dset_ctx();
struct branch *branches;
struct branch bk;
if (src_idx==dst_idx)
/* this is a NOP */
return 0;
/* no branches have been added yet */
if (!dsct)
return -1;
if ( (src_idx>0 && src_idx>=dsct->nr_branches)
|| (dst_idx>0 && dst_idx>=dsct->nr_branches) ) {
LM_ERR("overflow in src [%d] or dst [%d] indexes (having %d)\n",
src_idx, dst_idx, dsct->nr_branches);
return -1;
}
branches = dsct->branches;
/* backup the info from dst branch, so we can write into it */
if (dst_idx>=0) {
/* backup the dst branch */
bk = branches[dst_idx];
} else {
/* backup the msg branch */
if (_msg_2_branch( msg, &bk)<0)
return -1;
}
/* copy dst over src */
if (_copy_branch( msg, branches, src_idx, dst_idx)<0)
return -1;
/* now copy the original dst (from bk) into src */
if (src_idx>=0) {
/* copy bk into a branch */
branches[src_idx] = bk;
} else {
/* copy bk in msg */
if (_branch_2_msg( &bk, msg)<0)
return -1; //we may have an inconsistent msg branch :(
}
return 0;
}
int move_branch(struct sip_msg *msg, int src_idx, int dst_idx, int keep_src)
{
struct dset_ctx *dsct = get_dset_ctx();
struct branch *branches;
if (src_idx==dst_idx)
/* this is a NOP */
return 0;
/* no branches have been added yet */
if (!dsct)
return -1;
if ( (src_idx>0 && src_idx>=dsct->nr_branches)
|| (dst_idx>0 && dst_idx>=dsct->nr_branches) ) {
LM_ERR("overflow in src [%d] or dst [%d] indexes (having %d)\n",
src_idx, dst_idx, dsct->nr_branches);
return -1;
}
branches = dsct->branches;
/* copy dst over src */
if (_copy_branch( msg, branches, src_idx, dst_idx)<0)
return -1;
if (!keep_src && src_idx>0)
remove_branch(src_idx);
return 0;
}