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view src/g23m-fad/tcpip/rnet/rnet_rt/rnet_rt_dti.c @ 169:adae850f9857
mmiSimToolkit.c: formatting fixes
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Sun, 17 Jan 2021 23:43:19 +0000 |
parents | fa8dc04885d8 |
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/* +------------------------------------------------------------------------------ | File: rnet_rt_dti.c +------------------------------------------------------------------------------ | Copyright 2003 Texas Instruments Berlin, AG | All rights reserved. | | This file is confidential and a trade secret of Texas | Instruments Berlin, AG | The receipt of or possession of this file does not convey | any rights to reproduce or disclose its contents or to | manufacture, use, or sell anything it may describe, in | whole, or in part, without the specific written consent of | Texas Instruments Berlin, AG. +----------------------------------------------------------------------------- | Purpose : DTI-based GSM/GPRS network driver for RNET_RT (a.k.a. NexGenIP) +----------------------------------------------------------------------------- */ /* Derived from... */ /** * @file rnet_rt_atp.c * * Coding of the ATP point-to-point network interface for RNET_RT, * * @author Regis Feneon * @version 0.1 */ /* * $Id: rnet_rt_atp.c,v 1.4 2002/12/05 10:02:19 rf Exp $ * $Name: $ * * History: * * Date Author Modification * -------------------------------------------------- * 5/6/2002 Regis Feneon Create * 6/9/2002 Regis Feneon Select default route * on local interface address if no destination address * 12/5/2002 Regis Feneon Flow control handling * (C) Copyright 2002 by TI, All Rights Reserved * */ #define RNET_RT_DTI_C #define ENTITY_TCPIP #include "rnet_cfg.h" #ifdef RNET_CFG_REAL_TRANSPORT #include "typedefs.h" #include "vsi.h" #include "dti.h" #include "rnet_rt_i.h" #include "rnet_trace_i.h" #include "rnet_rt_atp_i.h" #include "atp_api.h" #include "atp_messages.h" #include "rnet_atp_info.h" #include "tcpip.h" static int tcpip_dtiOpen(NGifnet *netp) { TRACE_FUNCTION("tcpip_dtiOpen()") ; /* As the connection to the network is actually initiated by the * TCPIP_DTI_REQ from the ACI, this function is more or less a no-op. It * must mainly fulfil NexGenIP's formal requirements. The latter are only * derived from the corresponding ATP interface code for the moment. */ /* Interface already running? */ if (netp->if_flags & NG_IFF_RUNNING) { TRACE_ERROR("tcpip_dtiOpen: interface already opened") ; return NG_EALREADY ; } netp->if_flags |= NG_IFF_RUNNING ; /* Use NG_IFF_OACTIVE flag for flow control. */ netp->if_flags &= ~NG_IFF_OACTIVE ; return NG_EOK ; } static int tcpip_dtiClose (NGifnet *netp) { TRACE_FUNCTION("tcpip_dtiClose()") ; /* Interface should be running to be closed. */ if (!(netp->if_flags & NG_IFF_RUNNING)) { TRACE_ERROR("tcpip_dtiClose: interface already closed") ; return NG_EALREADY ; } netp->if_flags &= ~NG_IFF_RUNNING ; return NG_EOK ; } static int tcpip_dtiOutput(NGifnet *netp, NGbuf *bufp, NGuint addr) { int err = NG_EOK ; TRACE_FUNCTION("tcpip_dtiOutput()") ; /* Interface must be up and running to send data. */ if ((netp->if_flags & (NG_IFF_RUNNING|NG_IFF_UP)) != (NG_IFF_RUNNING|NG_IFF_UP)) { TRACE_ERROR("tcpip_dtiOutput: interface isn't up and running") ; err = NG_ENETDOWN ; } else { /* Send IP packet over DTI if output is on, else discard the packet. */ if (tcpip_data->ll[0].flowstat_ul EQ TCPIP_FLOWCTL_XON) { tcpip_dti_send_data_ll(bufp->buf_datap, (U16) bufp->buf_datalen) ; } else { TRACE_ERROR("tcpip_dtiOutput(): DTI connection not ready or xoff") ; err = NG_EAGAIN ; } } ngBufOutputFree(bufp) ; return err ; } /** This function, while copied straight from the ATP support module, is * apparently unused by the DTI support. Everything it does -- handling * interfaces going up and down, arriving data, flow control -- is done * elsewhere in this DTI/GPF port of RNET. It remains to be investigated if * this is the right thing to do, so this function will be left in place for * the moment. */ static int tcpip_dtiCntl( NGifnet *netp, int cmd, int opt, void *arg) { int ret; NGbuf *bufp; UINT32 rlen, left; UINT8 tmpbuf[16]; T_RNET_RT_ATP_CUSTOM_INFO *cinfo; T_ATP_NO_COPY_INFO no_copy_info = { 0 }; /* not used */ static const T_ATP_PORT_INFO info = { DATA_CONFIG, ATP_NO_RING_TYPE, // old version received from NexGen and modified 5/Dec/2002 : 0, ATP_RX_FLOW_UNMASK | ATP_TX_FLOW_UNMASK, 0 }; // RNET_RT_SEND_TRACE("RNET_RT: in atpCntl",RV_TRACE_LEVEL_ERROR); if (opt == NG_RNETIFO_HANDLE_MSG) { /* handle ATP messages */ switch( ((T_RV_HDR *)arg)->msg_id) { case ATP_OPEN_PORT_IND: RNET_RT_SEND_TRACE("RNET_RT: receive OPEN_PORT_IND",RV_TRACE_LEVEL_ERROR); cinfo = (T_RNET_RT_ATP_CUSTOM_INFO *) ((T_ATP_OPEN_PORT_IND *) arg)->custom_info_p; /* if interface is already up, or if no associated data, open is not accepted */ if (((netp->if_flags & (NG_IFF_UP|NG_IFF_RUNNING)) != NG_IFF_RUNNING) || (cinfo == NULL)) { atp_open_port_rsp( ((T_ATP_OPEN_PORT_IND *) arg)->initiator_id, ((T_ATP_OPEN_PORT_IND *) arg)->initiator_port_nb, ((T_RNET_RT_ATP_IFNET *) netp)->atp_sw_id, ((T_RNET_RT_ATP_IFNET *) netp)->atp_port_nb, info, no_copy_info, NULL, OPEN_PORT_NOK); } else { /* send confirmation to ATP client */ ((T_RNET_RT_ATP_IFNET *) netp)->atp_client_sw_id = ((T_ATP_OPEN_PORT_IND *) arg)->initiator_id; ((T_RNET_RT_ATP_IFNET *) netp)->atp_client_port_nb = ((T_ATP_OPEN_PORT_IND *) arg)->initiator_port_nb; no_copy_info.packet_mode = NORMAL_PACKET; /* No L2CAP packet... */ no_copy_info.rx_mb = no_copy_info.tx_mb = RVF_INVALID_MB_ID; ret = atp_open_port_rsp( ((T_ATP_OPEN_PORT_IND *) arg)->initiator_id, ((T_ATP_OPEN_PORT_IND *) arg)->initiator_port_nb, ((T_RNET_RT_ATP_IFNET *) netp)->atp_sw_id, ((T_RNET_RT_ATP_IFNET *) netp)->atp_port_nb, info, no_copy_info, NULL, OPEN_PORT_OK); if (ret == RV_OK) { /* interface is ready to send and receive packets */ netp->if_flags |= NG_IFF_UP; /* set MTU */ netp->if_mtu = cinfo->mtu; /* Activating the link addresses */ ngIfGenCntl( netp, NG_CNTL_SET, NG_IFO_ADDR, &cinfo->local_addr); ngIfGenCntl( netp, NG_CNTL_SET, NG_IFO_DSTADDR, &cinfo->dest_addr); TRACE_EVENT_P2("tcpip_dtiCntl cinfo address local=%08x dest%08x", cinfo->local_addr, cinfo->dest_addr); /* set default route */ if (cinfo->dest_addr == 0) { (void)(ngProto_IP.pr_cntl_f( NG_CNTL_SET, NG_IPO_ROUTE_DEFAULT, (NGuint *) &cinfo->local_addr)); } else { (void)(ngProto_IP.pr_cntl_f( NG_CNTL_SET, NG_IPO_ROUTE_DEFAULT, (NGuint *) &cinfo->dest_addr)); } /* set DNS configuration */ (void)(ngProto_RESOLV.pr_cntl_f( NG_CNTL_SET, NG_RSLVO_SERV1_IPADDR, &cinfo->dns1)); (void)(ngProto_RESOLV.pr_cntl_f( NG_CNTL_SET, NG_RSLVO_SERV2_IPADDR, &cinfo->dns2)); } } /* release custom information buffer */ if (cinfo != NULL) { atp_free_buffer( cinfo); } break; case ATP_PORT_CLOSED: RNET_RT_SEND_TRACE("RNET_RT: receive PORT_CLOSED",RV_TRACE_LEVEL_ERROR); if ((netp->if_flags & (NG_IFF_RUNNING|NG_IFF_UP)) != (NG_IFF_RUNNING|NG_IFF_UP)) { /* interface already down */ break; } /* set interface down */ netp->if_flags &= ~NG_IFF_UP; /* call ip layer */ (void)(ngProto_IP.pr_cntl_f( NG_CNTL_SET, NG_IPO_NETDOWN, netp)); break; case ATP_DATA_RDY: /* allocate buffer for receiving new packet */ RNET_RT_SEND_TRACE("RNET_RT: receive DATA_RDY",RV_TRACE_LEVEL_ERROR); ngBufAlloc( bufp); if (bufp != NULL) { /* get new data */ bufp->buf_flags |= NG_PROTO_IP; bufp->buf_datap = ((NGubyte *) bufp) + ngBufDataOffset; ret = atp_get_data( ((T_RNET_RT_ATP_IFNET *) netp)->atp_sw_id, ((T_RNET_RT_ATP_IFNET *) netp)->atp_port_nb, (UINT8 *) bufp->buf_datap, ngBufDataMax, &rlen, &left); if ((ret != RV_OK) || (rlen == 0)) { netp->if_ierrors++; ngBufFree( bufp); } else { // rnet_debug[0] = '\0' ; // for(rnet_ind=0;rnet_ind<48;rnet_ind++) { // char tmp[3] ; // sprintf(tmp, "%.2x", bufp->buf_datap[rnet_ind]); // strcat(rnet_debug, tmp) ; // } // RNET_RT_SEND_TRACE("RNET_RT: receive content",RV_TRACE_LEVEL_ERROR); // RNET_RT_SEND_TRACE(rnet_debug, RV_TRACE_LEVEL_ERROR); // rvf_delay(RVF_MS_TO_TICKS(100)); /* get length of packet */ bufp->buf_datalen = rlen; /* start IP processing */ ngIfGenInput( netp, bufp, 1); } } else { /* skip packet */ netp->if_ierrors++; atp_get_data( ((T_RNET_RT_ATP_IFNET *) netp)->atp_sw_id, ((T_RNET_RT_ATP_IFNET *) netp)->atp_port_nb, tmpbuf, sizeof( tmpbuf), &rlen, &left); } break; case ATP_SIGNAL_CHANGED: /* handle flow control flags */ RNET_RT_SEND_TRACE("RNET_RT: receive SIGNAL_CHANGED",RV_TRACE_LEVEL_ERROR); // rvf_delay(RVF_MS_TO_TICKS(1000)); if (((T_ATP_SIGNAL_CHANGED *) arg)->mask & ATP_TX_FLOW_UNMASK) { if (((T_ATP_SIGNAL_CHANGED *) arg)->signal & ATP_TX_FLOW_ON) { /* enable transimissions */ netp->if_flags &= ~NG_IFF_OACTIVE; } else { /* disable transmissions */ netp->if_flags |= NG_IFF_OACTIVE; } } break; default: /* unknown message */ RNET_TRACE_MEDIUM_PARAM("RNET_RT: receive default ",((T_RV_HDR *)arg)->msg_id); return( NG_EINVAL); } return( NG_EOK); } else { RNET_RT_SEND_TRACE("RNET_RT: opt not handle msg", RV_TRACE_LEVEL_ERROR); return( ngIfGenCntl( netp, cmd, opt, arg)); } } /********************************************************************/ /* Driver entry point */ const NGnetdrv rnet_rt_netdrv_dti = { "DTI", NG_IFT_PPP, NG_IFF_POINTOPOINT|NG_IFF_MULTICAST, RNET_RT_DTI_MTU, 0, NULL, tcpip_dtiOpen, tcpip_dtiClose, tcpip_dtiOutput, NULL, tcpip_dtiCntl }; #endif /* ifdef RNET_CFG_REAL_TRANSPORT */