Merge branch 'master' of git.linphone.org:linphone

[linphone] / coreapi / sal.c

/*
linphone
Copyright (C) 2010  Simon MORLAT (simon.morlat@free.fr)

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.
*/

/** 
 This header files defines the Signaling Abstraction Layer.
 The purpose of this layer is too allow experiment different call signaling 
 protocols and implementations under linphone, for example SIP, JINGLE...
**/

#include "sal.h"
const char* sal_transport_to_string(SalTransport transport) {
        switch (transport) {
                case SalTransportUDP:return "udp";
                case SalTransportTCP: return "tcp";
                case SalTransportTLS:return "tls";
                case SalTransportDTLS:return "dtls";
                default: {
                        ms_fatal("Unexpected transport [%i]",transport);
                        return NULL;
                }    
        }
}

SalTransport sal_transport_parse(const char* param) {
        if (strcasecmp("udp",param)==0) return SalTransportUDP;
        if (strcasecmp("tcp",param)==0) return SalTransportTCP;
        if (strcasecmp("tls",param)==0) return SalTransportTLS;
        if (strcasecmp("dtls",param)==0) return SalTransportDTLS;
        ms_error("Unknown transport type[%s], returning UDP", param);
        return SalTransportUDP;
}

SalMediaDescription *sal_media_description_new(){
        SalMediaDescription *md=ms_new0(SalMediaDescription,1);
        md->refcount=1;
        return md;
}

static void sal_media_description_destroy(SalMediaDescription *md){
        int i;
        for(i=0;i<SAL_MEDIA_DESCRIPTION_MAX_STREAMS;i++){
                ms_list_for_each(md->streams[i].payloads,(void (*)(void *))payload_type_destroy);
                ms_list_free(md->streams[i].payloads);
                md->streams[i].payloads=NULL;
        }
        ms_free(md);
}

void sal_media_description_ref(SalMediaDescription *md){
        md->refcount++;
}

void sal_media_description_unref(SalMediaDescription *md){
        md->refcount--;
        if (md->refcount==0){
                sal_media_description_destroy (md);
        }
}

SalStreamDescription *sal_media_description_find_stream(SalMediaDescription *md,
    SalMediaProto proto, SalStreamType type){
        int i;
        for(i=0;i<md->nstreams;++i){
                SalStreamDescription *ss=&md->streams[i];
                if (ss->proto==proto && ss->type==type) return ss;
        }
        return NULL;
}

bool_t sal_media_description_empty(const SalMediaDescription *md){
        int i;
        for(i=0;i<md->nstreams;++i){
                const SalStreamDescription *ss=&md->streams[i];
                if (ss->rtp_port!=0) return FALSE;
        }
        return TRUE;
}

void sal_media_description_set_dir(SalMediaDescription *md, SalStreamDir stream_dir){
        int i;
        for(i=0;i<md->nstreams;++i){
                SalStreamDescription *ss=&md->streams[i];
                ss->dir=stream_dir;
        }
}


static bool_t is_null_address(const char *addr){
        return strcmp(addr,"0.0.0.0")==0 || strcmp(addr,"::0")==0;
}

/*check for the presence of at least one stream with requested direction */
static bool_t has_dir(const SalMediaDescription *md, SalStreamDir stream_dir){
        int i;

        /* we are looking for at least one stream with requested direction, inactive streams are ignored*/
        for(i=0;i<md->nstreams;++i){
                const SalStreamDescription *ss=&md->streams[i];
                if (ss->dir==stream_dir) return TRUE;
                /*compatibility check for phones that only used the null address and no attributes */
                if (ss->dir==SalStreamSendRecv && stream_dir==SalStreamSendOnly && (is_null_address(md->addr) || is_null_address(ss->rtp_addr)))
                        return TRUE;
        }
        return FALSE;
}

bool_t sal_media_description_has_dir(const SalMediaDescription *md, SalStreamDir stream_dir){
        if (stream_dir==SalStreamRecvOnly){
                if (has_dir(md,SalStreamSendOnly) || has_dir(md,SalStreamSendRecv)) return FALSE;
                else return TRUE;
        }else if (stream_dir==SalStreamSendOnly){
                if (has_dir(md,SalStreamRecvOnly) || has_dir(md,SalStreamSendRecv)) return FALSE;
                else return TRUE;
        }else if (stream_dir==SalStreamSendRecv){
                return has_dir(md,SalStreamSendRecv);
        }else{
                /*SalStreamInactive*/
                if (has_dir(md,SalStreamSendOnly) || has_dir(md,SalStreamSendRecv)  || has_dir(md,SalStreamRecvOnly))
                        return FALSE;
                else return TRUE;
        }
        return FALSE;
}

/*
static bool_t fmtp_equals(const char *p1, const char *p2){
        if (p1 && p2 && strcmp(p1,p2)==0) return TRUE;
        if (p1==NULL && p2==NULL) return TRUE;
        return FALSE;
}
*/

static bool_t payload_type_equals(const PayloadType *p1, const PayloadType *p2){
        if (p1->type!=p2->type) return FALSE;
        if (strcmp(p1->mime_type,p2->mime_type)!=0) return FALSE;
        if (p1->clock_rate!=p2->clock_rate) return FALSE;
        if (p1->channels!=p2->channels) return FALSE;
        /*
         Do not compare fmtp right now: they are modified internally when the call is started
        */
        /*
        if (!fmtp_equals(p1->recv_fmtp,p2->recv_fmtp) ||
            !fmtp_equals(p1->send_fmtp,p2->send_fmtp))
                return FALSE;
        */
        return TRUE;
}

static bool_t is_recv_only(PayloadType *p){
        return (p->flags & PAYLOAD_TYPE_FLAG_CAN_RECV) && ! (p->flags & PAYLOAD_TYPE_FLAG_CAN_SEND);
}

static bool_t payload_list_equals(const MSList *l1, const MSList *l2){
        const MSList *e1,*e2;
        for(e1=l1,e2=l2;e1!=NULL && e2!=NULL; e1=e1->next,e2=e2->next){
                PayloadType *p1=(PayloadType*)e1->data;
                PayloadType *p2=(PayloadType*)e2->data;
                if (!payload_type_equals(p1,p2))
                        return FALSE;
        }
        if (e1!=NULL){
                /*skip possible recv-only payloads*/
                for(;e1!=NULL && is_recv_only((PayloadType*)e1->data);e1=e1->next){
                        ms_message("Skipping recv-only payload type...");
                }
        }
        if (e1!=NULL || e2!=NULL){
                /*means one list is longer than the other*/
                return FALSE;
        }
        return TRUE;
}

int sal_stream_description_equals(const SalStreamDescription *sd1, const SalStreamDescription *sd2) {
        int result = SAL_MEDIA_DESCRIPTION_UNCHANGED;

        /* A different proto should result in SAL_MEDIA_DESCRIPTION_NETWORK_CHANGED but the encryption change
           needs a stream restart for now, so use SAL_MEDIA_DESCRIPTION_CODEC_CHANGED */
        if (sd1->proto != sd2->proto) result |= SAL_MEDIA_DESCRIPTION_CODEC_CHANGED;

        if (sd1->type != sd2->type) result |= SAL_MEDIA_DESCRIPTION_CODEC_CHANGED;
        if (strcmp(sd1->rtp_addr, sd2->rtp_addr) != 0) result |= SAL_MEDIA_DESCRIPTION_NETWORK_CHANGED;
        if (sd1->rtp_port != sd2->rtp_port) {
                if ((sd1->rtp_port == 0) || (sd2->rtp_port == 0)) result |= SAL_MEDIA_DESCRIPTION_CODEC_CHANGED;
                else result |= SAL_MEDIA_DESCRIPTION_NETWORK_CHANGED;
        }
        if (strcmp(sd1->rtcp_addr, sd2->rtcp_addr) != 0) result |= SAL_MEDIA_DESCRIPTION_NETWORK_CHANGED;
        if (sd1->rtcp_port != sd2->rtcp_port) result |= SAL_MEDIA_DESCRIPTION_NETWORK_CHANGED;
        if (!payload_list_equals(sd1->payloads, sd2->payloads)) result |= SAL_MEDIA_DESCRIPTION_CODEC_CHANGED;
        if (sd1->bandwidth != sd2->bandwidth) result |= SAL_MEDIA_DESCRIPTION_CODEC_CHANGED;
        if (sd1->ptime != sd2->ptime) result |= SAL_MEDIA_DESCRIPTION_CODEC_CHANGED;
        if (sd1->dir != sd2->dir) result |= SAL_MEDIA_DESCRIPTION_CODEC_CHANGED;

        return result;
}

int sal_media_description_equals(const SalMediaDescription *md1, const SalMediaDescription *md2) {
        int result = SAL_MEDIA_DESCRIPTION_UNCHANGED;
        int i;

        if (strcmp(md1->addr, md2->addr) != 0) result |= SAL_MEDIA_DESCRIPTION_NETWORK_CHANGED;
        if (md1->nstreams != md2->nstreams) result |= SAL_MEDIA_DESCRIPTION_CODEC_CHANGED;
        if (md1->bandwidth != md2->bandwidth) result |= SAL_MEDIA_DESCRIPTION_CODEC_CHANGED;
        for(i = 0; i < md1->nstreams; ++i){
                result |= sal_stream_description_equals(&md1->streams[i], &md2->streams[i]);
        }
        return result;
}

static void assign_string(char **str, const char *arg){
        if (*str){
                ms_free(*str);
                *str=NULL;
        }
        if (arg)
                *str=ms_strdup(arg);
}

void sal_op_set_contact(SalOp *op, const char *contact){
        assign_string(&((SalOpBase*)op)->contact,contact);
}

void sal_op_set_route(SalOp *op, const char *route){
        assign_string(&((SalOpBase*)op)->route,route);
}

void sal_op_set_from(SalOp *op, const char *from){
        assign_string(&((SalOpBase*)op)->from,from);
}

void sal_op_set_to(SalOp *op, const char *to){
        assign_string(&((SalOpBase*)op)->to,to);
}

void sal_op_set_user_pointer(SalOp *op, void *up){
        ((SalOpBase*)op)->user_pointer=up;
}

Sal *sal_op_get_sal(const SalOp *op){
        return ((SalOpBase*)op)->root;
}

const char *sal_op_get_from(const SalOp *op){
        return ((SalOpBase*)op)->from;
}

const char *sal_op_get_to(const SalOp *op){
        return ((SalOpBase*)op)->to;
}

const char *sal_op_get_contact(const SalOp *op){
        return ((SalOpBase*)op)->contact;
}

const char *sal_op_get_route(const SalOp *op){
        return ((SalOpBase*)op)->route;
}

const char *sal_op_get_remote_ua(const SalOp *op){
        return ((SalOpBase*)op)->remote_ua;
}

void *sal_op_get_user_pointer(const SalOp *op){
        return ((SalOpBase*)op)->user_pointer;
}

const char *sal_op_get_proxy(const SalOp *op){
        return ((SalOpBase*)op)->route;
}

const char *sal_op_get_network_origin(const SalOp *op){
        return ((SalOpBase*)op)->origin;
}
const char* sal_op_get_call_id(const SalOp *op) {
        return  ((SalOpBase*)op)->call_id;
}
void __sal_op_init(SalOp *b, Sal *sal){
        memset(b,0,sizeof(SalOpBase));
        ((SalOpBase*)b)->root=sal;
}

void __sal_op_set_network_origin(SalOp *op, const char *origin){
        assign_string(&((SalOpBase*)op)->origin,origin);
}


void __sal_op_free(SalOp *op){
        SalOpBase *b=(SalOpBase *)op;
        if (b->from) {
                ms_free(b->from);
                b->from=NULL;
        }
        if (b->to) {
                ms_free(b->to);
                b->to=NULL;
        }
        if (b->route) {
                ms_free(b->route);
                b->route=NULL;
        }
        if (b->contact) {
                ms_free(b->contact);
                b->contact=NULL;
        }
        if (b->origin){
                ms_free(b->origin);
                b->origin=NULL;
        }
        if (b->remote_ua){
                ms_free(b->remote_ua);
                b->remote_ua=NULL;
        }
        if (b->local_media)
                sal_media_description_unref(b->local_media);
        if (b->remote_media)
                sal_media_description_unref(b->remote_media);
        if (b->call_id)
                ms_free((void*)b->call_id);
        ms_free(op);
}

SalAuthInfo* sal_auth_info_new() {
        return ms_new0(SalAuthInfo,1);
}

SalAuthInfo* sal_auth_info_clone(const SalAuthInfo* auth_info) {
        SalAuthInfo* new_auth_info=sal_auth_info_new();
        new_auth_info->username=auth_info->username?ms_strdup(auth_info->username):NULL;
        new_auth_info->userid=auth_info->userid?ms_strdup(auth_info->userid):NULL;
        new_auth_info->realm=auth_info->realm?ms_strdup(auth_info->realm):NULL;
        new_auth_info->password=auth_info->password?ms_strdup(auth_info->password):NULL;
        return new_auth_info;
}

void sal_auth_info_delete(const SalAuthInfo* auth_info) {
        if (auth_info->username) ms_free(auth_info->username);
        if (auth_info->userid) ms_free(auth_info->userid);
        if (auth_info->realm) ms_free(auth_info->realm);
        if (auth_info->password) ms_free(auth_info->password);
        ms_free((void*)auth_info);
}