/*
* Copyright (C) 2010 NXP Semiconductors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* \file phFriNfc_LlcpTransport_Connection.c
* \brief
*
* Project: NFC-FRI
*
*/
/*include files*/
#define LOG_TAG "NFC"
#include <cutils/log.h>
#include <phOsalNfc.h>
#include <phLibNfcStatus.h>
#include <phLibNfc.h>
#include <phNfcLlcpTypes.h>
#include <phFriNfc_LlcpTransport.h>
#include <phFriNfc_LlcpTransport_Connection.h>
#include <phFriNfc_Llcp.h>
#include <phFriNfc_LlcpUtils.h>
/* Function definition */
static NFCSTATUS phFriNfc_Llcp_Send_ReceiveReady_Frame(phFriNfc_LlcpTransport_Socket_t* pLlcpSocket);
static NFCSTATUS phFriNfc_Llcp_Send_ReceiveNotReady_Frame(phFriNfc_LlcpTransport_Socket_t* pLlcpSocket);
static NFCSTATUS static_performSendInfo(phFriNfc_LlcpTransport_Socket_t * psLlcpSocket);
/********** End Function definition ***********/
/* TODO: comment functionphFriNfc_LlcpTransport_ConnectionOriented_SendLlcp_CB */
static void phFriNfc_LlcpTransport_ConnectionOriented_SendLlcp_CB(void* pContext,
uint8_t socketIndex,
NFCSTATUS status)
{
phFriNfc_LlcpTransport_t *psTransport;
phFriNfc_LlcpTransport_Socket_t psTempLlcpSocket;
phFriNfc_LlcpTransport_Socket_t *psLocalLlcpSocket = NULL;
phNfc_sData_t sFrmrBuffer;
uint8_t index;
uint8_t socketFound = FALSE;
NFCSTATUS result;
/* Get Send CB context */
psTransport = (phFriNfc_LlcpTransport_t*)pContext;
if(status == NFCSTATUS_SUCCESS)
{
/* Test the socket */
switch(psTransport->pSocketTable[socketIndex].eSocket_State)
{
case phFriNfc_LlcpTransportSocket_eSocketAccepted:
{
/* Set socket state to Connected */
psTransport->pSocketTable[socketIndex].eSocket_State = phFriNfc_LlcpTransportSocket_eSocketConnected;
/* Call the Accept Callback */
psTransport->pSocketTable[socketIndex].pfSocketAccept_Cb(psTransport->pSocketTable[socketIndex].pAcceptContext,status);
psTransport->pSocketTable[socketIndex].pfSocketAccept_Cb = NULL;
psTransport->pSocketTable[socketIndex].pAcceptContext = NULL;
}break;
case phFriNfc_LlcpTransportSocket_eSocketRejected:
{
/* Store the Llcp socket in a local Llcp socket */
psTempLlcpSocket = psTransport->pSocketTable[socketIndex];
/* Reset the socket and set the socket state to default */
result = phFriNfc_LlcpTransport_Close(&psTransport->pSocketTable[socketIndex]);
/* Call the Reject Callback */
psTempLlcpSocket.pfSocketSend_Cb(psTempLlcpSocket.pRejectContext,status);
psTempLlcpSocket.pfSocketSend_Cb = NULL;
}break;
case phFriNfc_LlcpTransportSocket_eSocketConnected:
{
if(!psTransport->pSocketTable[socketIndex].bSocketSendPending && psTransport->pSocketTable[socketIndex].pfSocketSend_Cb != NULL)
{
psTransport->pSocketTable[socketIndex].pfSocketSend_Cb(psTransport->pSocketTable[socketIndex].pSendContext,status);
psTransport->pSocketTable[socketIndex].pfSocketSend_Cb = NULL;
}
}break;
default:
/* Nothing to do */
break;
}
}
else
{
/* Send CB error */
if(!psTransport->pSocketTable[socketIndex].bSocketSendPending && psTransport->pSocketTable[socketIndex].pfSocketSend_Cb != NULL)
{
psTransport->pSocketTable[socketIndex].pfSocketSend_Cb(psTransport->pSocketTable[socketIndex].pSendContext,status);
psTransport->pSocketTable[socketIndex].pfSocketSend_Cb = NULL;
}
}
}
NFCSTATUS phFriNfc_LlcpTransport_ConnectionOriented_HandlePendingOperations(phFriNfc_LlcpTransport_Socket_t *pSocket)
{
NFCSTATUS result = NFCSTATUS_FAILED;
phFriNfc_LlcpTransport_t *psTransport = pSocket->psTransport;
/* I FRAME */
if(pSocket->bSocketSendPending == TRUE)
{
/* Test the RW window */
if(CHECK_SEND_RW(pSocket))
{
if (!testAndSetSendPending(psTransport)) {
result = static_performSendInfo(pSocket);
if (result != NFCSTATUS_SUCCESS && result != NFCSTATUS_PENDING) {
clearSendPending(psTransport);
}
}
}
}
/* RR FRAME */
else if(pSocket->bSocketRRPending == TRUE)
{
/* Reset RR pending */
pSocket->bSocketRRPending = FALSE;
/* Send RR Frame */
result = phFriNfc_Llcp_Send_ReceiveReady_Frame(pSocket);
}
/* RNR Frame */
else if(pSocket->bSocketRNRPending == TRUE)
{
/* Reset RNR pending */
pSocket->bSocketRNRPending = FALSE;
/* Send RNR Frame */
result = phFriNfc_Llcp_Send_ReceiveNotReady_Frame(pSocket);
}
/* CC Frame */
else if(pSocket->bSocketAcceptPending == TRUE)
{
if (!testAndSetSendPending(psTransport))
{
/* Reset Accept pending */
pSocket->bSocketAcceptPending = FALSE;
/* Fill the psLlcpHeader stuture with the DSAP,CC PTYPE and the SSAP */
pSocket->sLlcpHeader.dsap = pSocket->socket_dSap;
pSocket->sLlcpHeader.ptype = PHFRINFC_LLCP_PTYPE_CC;
pSocket->sLlcpHeader.ssap = pSocket->socket_sSap;
/* Set the socket state to accepted */
pSocket->eSocket_State = phFriNfc_LlcpTransportSocket_eSocketAccepted;
/* Send a CC Frame */
result = phFriNfc_LlcpTransport_LinkSend(psTransport,
&pSocket->sLlcpHeader,
NULL,
&pSocket->sSocketSendBuffer,
phFriNfc_LlcpTransport_ConnectionOriented_SendLlcp_CB,
pSocket->index,
psTransport);
if (result != NFCSTATUS_SUCCESS && result != NFCSTATUS_PENDING) {
clearSendPending(psTransport);
}
}
}
/* CONNECT FRAME */
else if(pSocket->bSocketConnectPending == TRUE)
{
if (!testAndSetSendPending(psTransport))
{
/* Reset Accept pending */
pSocket->bSocketConnectPending = FALSE;
/* Set the socket in connecting state */
pSocket->eSocket_State = phFriNfc_LlcpTransportSocket_eSocketConnecting;
/* send CONNECT */
result = phFriNfc_LlcpTransport_LinkSend(psTransport,
&pSocket->sLlcpHeader,
NULL,
&pSocket->sSocketSendBuffer,
phFriNfc_LlcpTransport_ConnectionOriented_SendLlcp_CB,
pSocket->index,
psTransport);
if (result != NFCSTATUS_SUCCESS && result != NFCSTATUS_PENDING) {
clearSendPending(psTransport);
}
}
}
/* DISC FRAME */
else if(pSocket->bSocketDiscPending == TRUE)
{
if (!testAndSetSendPending(psTransport))
{
/* Reset Disc Pending */
pSocket->bSocketDiscPending = FALSE;
/* Set the socket in connecting state */
pSocket->eSocket_State = phFriNfc_LlcpTransportSocket_eSocketDisconnecting;
/* Send DISC */
result = phFriNfc_LlcpTransport_LinkSend(psTransport,
&pSocket->sLlcpHeader,
NULL,
&pSocket->sSocketSendBuffer,
phFriNfc_LlcpTransport_ConnectionOriented_SendLlcp_CB,
pSocket->index,
psTransport);
if (result != NFCSTATUS_SUCCESS && result != NFCSTATUS_PENDING) {
clearSendPending(psTransport);
}
/* Call ErrCB due to a DISC */
pSocket->pSocketErrCb(pSocket->pContext, PHFRINFC_LLCP_ERR_DISCONNECTED);
}
}
return result;
}
static NFCSTATUS static_performSendInfo(phFriNfc_LlcpTransport_Socket_t * psLlcpSocket)
{
phFriNfc_LlcpTransport_t *psTransport = psLlcpSocket->psTransport;
NFCSTATUS status;
/* Set the Header */
psLlcpSocket->sLlcpHeader.dsap = psLlcpSocket->socket_dSap;
psLlcpSocket->sLlcpHeader.ptype = PHFRINFC_LLCP_PTYPE_I;
psLlcpSocket->sLlcpHeader.ssap = psLlcpSocket->socket_sSap;
/* Set Sequence Numbers */
psLlcpSocket->sSequence.ns = psLlcpSocket->socket_VS;
psLlcpSocket->sSequence.nr = psLlcpSocket->socket_VR;
/* Update the VRA */
psLlcpSocket->socket_VRA = psLlcpSocket->socket_VR;
/* Send I_PDU */
status = phFriNfc_LlcpTransport_LinkSend(psTransport,
&psLlcpSocket->sLlcpHeader,
&psLlcpSocket->sSequence,
&psLlcpSocket->sSocketSendBuffer,
phFriNfc_LlcpTransport_ConnectionOriented_SendLlcp_CB,
psLlcpSocket->index,
psLlcpSocket->psTransport);
if (status == NFCSTATUS_SUCCESS || status == NFCSTATUS_PENDING) {
/* Update VS */
psLlcpSocket->socket_VS = (psLlcpSocket->socket_VS+1)%16;
/* Reset Send Pending */
psLlcpSocket->bSocketSendPending = FALSE;
}
return status;
}
static void phFriNfc_LlcpTransport_ConnectionOriented_Abort(phFriNfc_LlcpTransport_Socket_t * pLlcpSocket)
{
if (pLlcpSocket->pfSocketSend_Cb != NULL)
{
pLlcpSocket->pfSocketSend_Cb(pLlcpSocket->pSendContext, NFCSTATUS_ABORTED);
pLlcpSocket->pfSocketSend_Cb = NULL;
}
pLlcpSocket->pSendContext = NULL;
if (pLlcpSocket->pfSocketRecv_Cb != NULL)
{
pLlcpSocket->pfSocketRecv_Cb(pLlcpSocket->pRecvContext, NFCSTATUS_ABORTED);
pLlcpSocket->pfSocketRecv_Cb = NULL;
}
pLlcpSocket->pRecvContext = NULL;
if (pLlcpSocket->pfSocketAccept_Cb != NULL)
{
pLlcpSocket->pfSocketAccept_Cb(pLlcpSocket->pAcceptContext, NFCSTATUS_ABORTED);
pLlcpSocket->pfSocketAccept_Cb = NULL;
}
pLlcpSocket->pAcceptContext = NULL;
if (pLlcpSocket->pfSocketConnect_Cb != NULL)
{
pLlcpSocket->pfSocketConnect_Cb(pLlcpSocket->pConnectContext, 0, NFCSTATUS_ABORTED);
pLlcpSocket->pfSocketConnect_Cb = NULL;
}
pLlcpSocket->pConnectContext = NULL;
if (pLlcpSocket->pfSocketDisconnect_Cb != NULL)
{
pLlcpSocket->pfSocketDisconnect_Cb(pLlcpSocket->pDisconnectContext, NFCSTATUS_ABORTED);
pLlcpSocket->pfSocketDisconnect_Cb = NULL;
}
pLlcpSocket->pDisconnectContext = NULL;
pLlcpSocket->pfSocketRecvFrom_Cb = NULL;
pLlcpSocket->pfSocketListen_Cb = NULL;
pLlcpSocket->pListenContext = NULL;
}
static NFCSTATUS phFriNfc_Llcp_Send_ReceiveReady_Frame(phFriNfc_LlcpTransport_Socket_t* pLlcpSocket)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
/* Test if a send is pending */
if(testAndSetSendPending(pLlcpSocket->psTransport))
{
pLlcpSocket->bSocketRRPending = TRUE;
status = NFCSTATUS_PENDING;
}
else
{
/* Set the header of the RR frame */
pLlcpSocket->sLlcpHeader.dsap = pLlcpSocket->socket_dSap;
pLlcpSocket->sLlcpHeader.ptype = PHFRINFC_LLCP_PTYPE_RR;
pLlcpSocket->sLlcpHeader.ssap = pLlcpSocket->socket_sSap;
/* Set sequence number for RR Frame */
pLlcpSocket->sSequence.ns = 0;
pLlcpSocket->sSequence.nr = pLlcpSocket->socket_VR;
/* Update VRA */
pLlcpSocket->socket_VRA = (uint8_t)pLlcpSocket->sSequence.nr;
/* Send RR frame */
status = phFriNfc_LlcpTransport_LinkSend(pLlcpSocket->psTransport,
&pLlcpSocket->sLlcpHeader,
&pLlcpSocket->sSequence,
NULL,
phFriNfc_LlcpTransport_ConnectionOriented_SendLlcp_CB,
pLlcpSocket->index,
pLlcpSocket->psTransport);
if (status != NFCSTATUS_SUCCESS && status != NFCSTATUS_PENDING) {
clearSendPending(pLlcpSocket->psTransport);
}
}
return status;
}
static NFCSTATUS phFriNfc_Llcp_Send_ReceiveNotReady_Frame(phFriNfc_LlcpTransport_Socket_t* pLlcpSocket)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
/* Test if a send is pending */
if(testAndSetSendPending(pLlcpSocket->psTransport))
{
pLlcpSocket->bSocketRNRPending = TRUE;
status = NFCSTATUS_PENDING;
}
else
{
/* Set the header of the RNR frame */
pLlcpSocket->sLlcpHeader.dsap = pLlcpSocket->socket_dSap;
pLlcpSocket->sLlcpHeader.ptype = PHFRINFC_LLCP_PTYPE_RNR;
pLlcpSocket->sLlcpHeader.ssap = pLlcpSocket->socket_sSap;
/* Set sequence number for RNR Frame */
pLlcpSocket->sSequence.ns = 0x00;
pLlcpSocket->sSequence.nr = pLlcpSocket->socket_VR;
/* Update VRA */
pLlcpSocket->socket_VRA = (uint8_t)pLlcpSocket->sSequence.nr;
/* Send RNR frame */
status = phFriNfc_LlcpTransport_LinkSend(pLlcpSocket->psTransport,
&pLlcpSocket->sLlcpHeader,
&pLlcpSocket->sSequence,
NULL,
phFriNfc_LlcpTransport_ConnectionOriented_SendLlcp_CB,
pLlcpSocket->index,
pLlcpSocket->psTransport);
if (status != NFCSTATUS_SUCCESS && status != NFCSTATUS_PENDING) {
clearSendPending(pLlcpSocket->psTransport);
}
}
return status;
}
static NFCSTATUS phFriNfc_Llcp_GetSocket_Params(phNfc_sData_t *psParamsTLV,
phNfc_sData_t *psServiceName,
uint8_t *pRemoteRW_Size,
uint16_t *pRemoteMIU)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
phNfc_sData_t sValueBuffer;
uint32_t offset = 0;
uint8_t type;
/* Check for NULL pointers */
if ((psParamsTLV == NULL) || (pRemoteRW_Size == NULL) || (pRemoteMIU == NULL))
{
return PHNFCSTVAL(CID_FRI_NFC_LLCP, NFCSTATUS_INVALID_PARAMETER);
}
else
{
/* Decode TLV */
while (offset < psParamsTLV->length)
{
status = phFriNfc_Llcp_DecodeTLV(psParamsTLV, &offset, &type,&sValueBuffer);
if (status != NFCSTATUS_SUCCESS)
{
/* Error: Ill-formed TLV */
return status;
}
switch(type)
{
case PHFRINFC_LLCP_TLV_TYPE_SN:
{
/* Test if a SN is present in the TLV */
if(sValueBuffer.length == 0)
{
/* Error : Ill-formed SN parameter TLV */
break;
}
/* Get the Service Name */
*psServiceName = sValueBuffer;
}break;
case PHFRINFC_LLCP_TLV_TYPE_RW:
{
/* Check length */
if (sValueBuffer.length != PHFRINFC_LLCP_TLV_LENGTH_RW)
{
/* Error : Ill-formed MIUX parameter TLV */
break;
}
*pRemoteRW_Size = sValueBuffer.buffer[0];
}break;
case PHFRINFC_LLCP_TLV_TYPE_MIUX:
{
/* Check length */
if (sValueBuffer.length != PHFRINFC_LLCP_TLV_LENGTH_MIUX)
{
/* Error : Ill-formed MIUX parameter TLV */
break;
}
*pRemoteMIU = PHFRINFC_LLCP_MIU_DEFAULT + (((sValueBuffer.buffer[0] << 8) | sValueBuffer.buffer[1]) & PHFRINFC_LLCP_TLV_MIUX_MASK);
}break;
default:
{
/* Error : Unknown type */
break;
}
}
}
}
return status;
}
/* TODO: comment function Handle_ConnectFrame */
static void Handle_ConnectionFrame(phFriNfc_LlcpTransport_t *psTransport,
phNfc_sData_t *psData,
uint8_t dsap,
uint8_t ssap)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
uint8_t index;
uint8_t socketFound = FALSE;
phFriNfc_LlcpTransport_Socket_t *pLlcpSocket = NULL;
phFriNfc_LlcpTransport_Socket_t *psLocalLlcpSocket = NULL;
pphFriNfc_LlcpTransportSocketListenCb_t pListen_Cb = NULL;
void *pListenContext = NULL;
phNfc_sData_t sServiceName;
uint8_t remoteRW = PHFRINFC_LLCP_RW_DEFAULT;
uint16_t remoteMIU = PHFRINFC_LLCP_MIU_DEFAULT;
status = phFriNfc_Llcp_GetSocket_Params(psData,
&sServiceName,
&remoteRW,
&remoteMIU);
if(status != NFCSTATUS_SUCCESS)
{
/* Incorrect TLV */
/* send FRMR */
status = phFriNfc_LlcpTransport_SendFrameReject(psTransport,
dsap,
PHFRINFC_LLCP_PTYPE_CONNECT,
ssap,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00);
}
else
{
if(dsap == PHFRINFC_LLCP_SAP_SDP)
{
/* Search a socket with the SN */
for(index=0;index<PHFRINFC_LLCP_NB_SOCKET_MAX;index++)
{
/* Test if the socket is in Listen state and if its SN is the good one */
if(psTransport->pSocketTable[index].bSocketListenPending
&& (sServiceName.length == psTransport->pSocketTable[index].sServiceName.length)
&& !memcmp(sServiceName.buffer,psTransport->pSocketTable[index].sServiceName.buffer,sServiceName.length))
{
/* socket with the SN found */
socketFound = TRUE;
psLocalLlcpSocket = &psTransport->pSocketTable[index];
/* Get the new ssap number, it is the ssap number of the socket found */
dsap = psLocalLlcpSocket->socket_sSap;
/* Get the ListenCB of the socket */
pListen_Cb = psLocalLlcpSocket->pfSocketListen_Cb;
pListenContext = psLocalLlcpSocket->pListenContext;
break;
}
}
}
else
{
/* Search a socket with the DSAP */
for(index=0;index<PHFRINFC_LLCP_NB_SOCKET_MAX;index++)
{
/* Test if the socket is in Listen state and if its port number is the good one */
if(psTransport->pSocketTable[index].bSocketListenPending && psTransport->pSocketTable[index].socket_sSap == dsap)
{
/* socket with the SN found */
socketFound = TRUE;
psLocalLlcpSocket = &psTransport->pSocketTable[index];
/* Get the Listen CB and the Context of the socket */
pListen_Cb = psLocalLlcpSocket->pfSocketListen_Cb;
pListenContext = psLocalLlcpSocket->pListenContext;
break;
}
}
}
}
/* Test if a socket has beeen found */
if(socketFound)
{
/* Reset the FLAG socketFound*/
socketFound = FALSE;
/* Search a socket free and no socket connect on this DSAP*/
for(index=0;index<PHFRINFC_LLCP_NB_SOCKET_MAX;index++)
{
if(psTransport->pSocketTable[index].eSocket_State == phFriNfc_LlcpTransportSocket_eSocketDefault && socketFound != TRUE)
{
socketFound = TRUE;
psTransport->pSocketTable[index].index = index;
/* Create a communication socket */
pLlcpSocket = &psTransport->pSocketTable[index];
/* Set the communication option of the Remote Socket */
pLlcpSocket->remoteMIU = remoteMIU;
pLlcpSocket->remoteRW = remoteRW;
/* Set SSAP/DSAP of the new socket created for the communication with the remote */
pLlcpSocket->socket_dSap = ssap;
pLlcpSocket->socket_sSap = dsap;
/* Set the state and the type of the new socket */
pLlcpSocket->eSocket_State = phFriNfc_LlcpTransportSocket_eSocketBound;
pLlcpSocket->eSocket_Type = phFriNfc_LlcpTransport_eConnectionOriented;
}
else if(((psTransport->pSocketTable[index].eSocket_State == phFriNfc_LlcpTransportSocket_eSocketConnected)
|| (psTransport->pSocketTable[index].eSocket_State == phFriNfc_LlcpTransportSocket_eSocketAccepted))
&& ((psTransport->pSocketTable[index].socket_sSap == ssap)&&(psTransport->pSocketTable[index].socket_dSap == dsap)))
{
socketFound = FALSE;
if(pLlcpSocket != NULL)
{
/* Reset Socket Information */
pLlcpSocket->remoteMIU = 0;
pLlcpSocket->remoteRW = 0;
/* Set SSAP/DSAP of the new socket created for the communication with the remote */
pLlcpSocket->socket_dSap = 0;
pLlcpSocket->socket_sSap = 0;
/* Set the state and the type of the new socket */
pLlcpSocket->eSocket_State = phFriNfc_LlcpTransportSocket_eSocketDefault;
pLlcpSocket->eSocket_Type = phFriNfc_LlcpTransport_eDefaultType;
break;
}
}
}
/* Test if a socket has been found */
if(socketFound)
{
/* Call the Listen CB */
pListen_Cb(pListenContext,pLlcpSocket);
}
else
{
/* No more socket are available */
/* Send a DM (0x21) */
status = phFriNfc_LlcpTransport_SendDisconnectMode (psTransport,
ssap,
dsap,
PHFRINFC_LLCP_DM_OPCODE_SOCKET_NOT_AVAILABLE);
}
}
else
{
/* Service Name not found or Port number not found */
/* Send a DM (0x02) */
status = phFriNfc_LlcpTransport_SendDisconnectMode (psTransport,
ssap,
dsap,
PHFRINFC_LLCP_DM_OPCODE_SAP_NOT_FOUND);
}
}
/* TODO: comment function Handle_ConnectFrame */
static void Handle_ConnectionCompleteFrame(phFriNfc_LlcpTransport_t *psTransport,
phNfc_sData_t *psData,
uint8_t dsap,
uint8_t ssap)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
uint8_t index;
uint8_t remoteRW = PHFRINFC_LLCP_RW_DEFAULT;
uint16_t remoteMIU = PHFRINFC_LLCP_MIU_DEFAULT;
uint8_t socketFound = FALSE;
phFriNfc_LlcpTransport_Socket_t* psLocalLlcpSocket = NULL;
status = phFriNfc_Llcp_GetSocket_Params(psData,
NULL,
&remoteRW,
&remoteMIU);
if(status != NFCSTATUS_SUCCESS)
{
/* Incorrect TLV */
/* send FRMR */
status = phFriNfc_LlcpTransport_SendFrameReject(psTransport,
dsap,
PHFRINFC_LLCP_PTYPE_CC,
ssap,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00);
}
else
{
/* Search a socket in connecting state and with the good SSAP */
for(index=0;index<PHFRINFC_LLCP_NB_SOCKET_MAX;index++)
{
/* Test if the socket is in Connecting state and if its SSAP number is the good one */
if(psTransport->pSocketTable[index].eSocket_State == phFriNfc_LlcpTransportSocket_eSocketConnecting
&& psTransport->pSocketTable[index].socket_sSap == dsap)
{
/* socket with the SN found */
socketFound = TRUE;
/* Update the DSAP value with the incomming Socket sSap */
psTransport->pSocketTable[index].socket_dSap = ssap;
/* Store a pointer to the socket found */
psLocalLlcpSocket = &psTransport->pSocketTable[index];
break;
}
}
/* Test if a socket has been found */
if(socketFound)
{
/* Set the socket state to connected */
psLocalLlcpSocket->eSocket_State = phFriNfc_LlcpTransportSocket_eSocketConnected;
/* Reset the socket_VS,socket_VR,socket_VSA and socket_VRA variables */
psLocalLlcpSocket->socket_VR = 0;
psLocalLlcpSocket->socket_VRA = 0;
psLocalLlcpSocket->socket_VS = 0;
psLocalLlcpSocket->socket_VSA = 0;
/* Store the Remote parameters (MIU,RW) */
psLocalLlcpSocket->remoteMIU = remoteMIU;
psLocalLlcpSocket->remoteRW = remoteRW;
/* Call the Connect CB and reset callback info */
psLocalLlcpSocket->pfSocketConnect_Cb(psLocalLlcpSocket->pConnectContext,0x00,NFCSTATUS_SUCCESS);
psLocalLlcpSocket->pfSocketConnect_Cb = NULL;
psLocalLlcpSocket->pConnectContext = NULL;
}
else
{
/* No socket Active */
/* CC Frame not handled */
}
}
}
/* TODO: comment function Handle_DisconnectFrame */
static void Handle_DisconnectFrame(phFriNfc_LlcpTransport_t *psTransport,
uint8_t dsap,
uint8_t ssap)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
uint8_t index;
uint8_t socketFound = FALSE;
phFriNfc_LlcpTransport_Socket_t* psLocalLlcpSocket = NULL;
/* Search a socket in connected state and the good SSAP */
for(index=0;index<PHFRINFC_LLCP_NB_SOCKET_MAX;index++)
{
/* Test if the socket is in Connected state and if its SSAP number is the good one */
if(psTransport->pSocketTable[index].eSocket_State == phFriNfc_LlcpTransportSocket_eSocketConnected
&& psTransport->pSocketTable[index].socket_sSap == dsap)
{
/* socket found */
socketFound = TRUE;
/* Store a pointer to the socket found */
psLocalLlcpSocket = &psTransport->pSocketTable[index];
break;
}
}
/* Test if a socket has been found */
if(socketFound)
{
/* Test if a send IFRAME is pending with this socket */
if((psLocalLlcpSocket->bSocketSendPending == TRUE) || (psLocalLlcpSocket->bSocketRecvPending == TRUE))
{
/* Call the send CB, a disconnect abort the send request */
if (psLocalLlcpSocket->pfSocketSend_Cb != NULL && psLocalLlcpSocket->bSocketSendPending == TRUE)
{
/* Copy CB + context in local variables */
pphFriNfc_LlcpTransportSocketSendCb_t pfSendCb = psLocalLlcpSocket->pfSocketSend_Cb;
void* pSendContext = psLocalLlcpSocket->pSendContext;
/* Reset CB + context */
psLocalLlcpSocket->pfSocketSend_Cb = NULL;
psLocalLlcpSocket->pSendContext = NULL;
/* Perform callback */
pfSendCb(pSendContext, NFCSTATUS_FAILED);
}
/* Call the send CB, a disconnect abort the receive request */
if (psLocalLlcpSocket->pfSocketRecv_Cb != NULL && psLocalLlcpSocket->bSocketRecvPending == TRUE)
{
/* Copy CB + context in local variables */
pphFriNfc_LlcpTransportSocketRecvCb_t pfRecvCb = psLocalLlcpSocket->pfSocketRecv_Cb;
void* pRecvContext = psLocalLlcpSocket->pRecvContext;
/* Reset CB + context */
psLocalLlcpSocket->pfSocketRecv_Cb = NULL;
psLocalLlcpSocket->pRecvContext = NULL;
/* Perform callback */
pfRecvCb(pRecvContext, NFCSTATUS_FAILED);
}
psLocalLlcpSocket->bSocketRecvPending = FALSE;
psLocalLlcpSocket->bSocketSendPending = FALSE;
}
/* Update the socket state */
psLocalLlcpSocket->eSocket_State = phFriNfc_LlcpTransportSocket_eSocketDisconnecting;
/* Send a DM*/
/* TODO: use a socket internal flag to save */
status = phFriNfc_LlcpTransport_SendDisconnectMode(psTransport,
ssap,
dsap,
PHFRINFC_LLCP_DM_OPCODE_DISCONNECTED);
/* Call ErrCB due to a DISC */
psTransport->pSocketTable[index].pSocketErrCb(psTransport->pSocketTable[index].pContext, PHFRINFC_LLCP_ERR_DISCONNECTED);
}
else
{
/* No socket Active */
/* DISC Frame not handled */
}
}
/* TODO: comment function Handle_ConnectFrame */
static void Handle_DisconnetModeFrame(phFriNfc_LlcpTransport_t *psTransport,
phNfc_sData_t *psData,
uint8_t dsap,
uint8_t ssap)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
uint8_t index;
uint8_t socketFound = FALSE;
uint8_t dmOpCode;
phFriNfc_LlcpTransport_Socket_t *psLocalLlcpSocket = NULL;
/* Test if the DM buffer is correct */
if(psData->length != PHFRINFC_LLCP_DM_LENGTH)
{
/* send FRMR */
status = phFriNfc_LlcpTransport_SendFrameReject(psTransport,
dsap,
PHFRINFC_LLCP_PTYPE_DM,
ssap,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00);
}
else
{
/* Search a socket waiting for a DM (Disconnecting State) */
for(index=0;index<PHFRINFC_LLCP_NB_SOCKET_MAX;index++)
{
/* Test if the socket is in Disconnecting or connecting state and if its SSAP number is the good one */
if((psTransport->pSocketTable[index].eSocket_State == phFriNfc_LlcpTransportSocket_eSocketDisconnecting
|| psTransport->pSocketTable[index].eSocket_State == phFriNfc_LlcpTransportSocket_eSocketConnecting)
&& psTransport->pSocketTable[index].socket_sSap == dsap)
{
/* socket found */
socketFound = TRUE;
/* Store a pointer to the socket found */
psLocalLlcpSocket = &psTransport->pSocketTable[index];
break;
}
}
/* Test if a socket has been found */
if(socketFound)
{
/* Set dmOpcode */
dmOpCode = psData->buffer[0];
switch(dmOpCode)
{
case PHFRINFC_LLCP_DM_OPCODE_DISCONNECTED:
{
/* Set the socket state to disconnected */
psLocalLlcpSocket->eSocket_State = phFriNfc_LlcpTransportSocket_eSocketCreated;
/* Call Disconnect CB */
if (psLocalLlcpSocket->pfSocketDisconnect_Cb != NULL)
{
psLocalLlcpSocket->pfSocketDisconnect_Cb(psLocalLlcpSocket->pDisconnectContext,NFCSTATUS_SUCCESS);
psLocalLlcpSocket->pfSocketDisconnect_Cb = NULL;
}
}break;
case PHFRINFC_LLCP_DM_OPCODE_CONNECT_REJECTED:
case PHFRINFC_LLCP_DM_OPCODE_CONNECT_NOT_ACCEPTED:
case PHFRINFC_LLCP_DM_OPCODE_SAP_NOT_ACTIVE:
case PHFRINFC_LLCP_DM_OPCODE_SAP_NOT_FOUND:
case PHFRINFC_LLCP_DM_OPCODE_SOCKET_NOT_AVAILABLE:
{
/* Set the socket state to bound */
psLocalLlcpSocket->eSocket_State = phFriNfc_LlcpTransportSocket_eSocketCreated;
if(psLocalLlcpSocket->pfSocketConnect_Cb != NULL)
{
/* Call Connect CB */
psLocalLlcpSocket->pfSocketConnect_Cb(psLocalLlcpSocket->pConnectContext,dmOpCode,NFCSTATUS_FAILED);
psLocalLlcpSocket->pfSocketConnect_Cb = NULL;
}
}break;
}
}
}
}
/* TODO: comment function Handle_Receive_IFrame */
static void Handle_Receive_IFrame(phFriNfc_LlcpTransport_t *psTransport,
phNfc_sData_t *psData,
uint8_t dsap,
uint8_t ssap)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
phFriNfc_LlcpTransport_Socket_t* psLocalLlcpSocket = NULL;
phFriNfc_Llcp_sPacketSequence_t sLlcpLocalSequence;
uint32_t dataLengthAvailable = 0;
uint32_t dataLengthWrite = 0;
uint8_t index;
uint8_t socketFound = FALSE;
uint8_t WFlag = 0;
uint8_t IFlag = 0;
uint8_t RFlag = 0;
uint8_t SFlag = 0;
uint8_t nr_val;
uint32_t offset = 0;
uint32_t rw_offset;
/* Get NS and NR Value of the I Frame*/
phFriNfc_Llcp_Buffer2Sequence( psData->buffer, offset, &sLlcpLocalSequence);
/* Update the buffer pointer */
psData->buffer = psData->buffer + PHFRINFC_LLCP_PACKET_SEQUENCE_SIZE;
/* Update the length value (without the header length) */
psData->length = psData->length - PHFRINFC_LLCP_PACKET_SEQUENCE_SIZE;
/* Search a socket waiting for an I FRAME (Connected State) */
for(index=0;index<PHFRINFC_LLCP_NB_SOCKET_MAX;index++)
{
/* Test if the socket is in connected state and if its SSAP and DSAP are valid */
if(( (psTransport->pSocketTable[index].eSocket_State == phFriNfc_LlcpTransportSocket_eSocketConnected)
|| (psTransport->pSocketTable[index].eSocket_State == phFriNfc_LlcpTransportSocket_eSocketAccepted))
&& psTransport->pSocketTable[index].socket_sSap == dsap
&& psTransport->pSocketTable[index].socket_dSap == ssap)
{
/* socket found */
socketFound = TRUE;
/* Store a pointer to the socket found */
psLocalLlcpSocket = &psTransport->pSocketTable[index];
break;
}
}
/* Test if a socket has been found */
if(socketFound)
{
/* Test NS */
/*if(sLlcpLocalSequence.ns != psLocalLlcpSocket->socket_VR)
{
SFlag = TRUE;
}*/
/* Calculate offset of current frame in RW, and check validity */
if(sLlcpLocalSequence.ns >= psLocalLlcpSocket->socket_VRA)
{
rw_offset = sLlcpLocalSequence.ns - psLocalLlcpSocket->socket_VRA;
}
else
{
rw_offset = 16 - (psLocalLlcpSocket->socket_VRA - sLlcpLocalSequence.ns);
}
if(rw_offset >= psLocalLlcpSocket->localRW)
{
/* FRMR 0x01 */
SFlag = TRUE;
}
/* Check Info length */
if(psData->length > (uint32_t)(psLocalLlcpSocket->localMIUX + PHFRINFC_LLCP_MIU_DEFAULT))
{
IFlag = TRUE;
}
/* Test NR */
nr_val = (uint8_t)sLlcpLocalSequence.nr;
do
{
if(nr_val == psLocalLlcpSocket->socket_VS)
{
break;
}
nr_val = (nr_val+1)%16;
if(nr_val == psLocalLlcpSocket->socket_VSA)
{
/* FRMR 0x02 */
RFlag = TRUE;
break;
}
}while(nr_val != sLlcpLocalSequence.nr);
if( WFlag != 0 || IFlag != 0 || RFlag != 0 || SFlag != 0)
{
/* Send FRMR */
status = phFriNfc_LlcpTransport_SendFrameReject(psTransport,
dsap,
PHFRINFC_LLCP_PTYPE_I,
ssap,
&sLlcpLocalSequence,
WFlag,
IFlag,
RFlag,
SFlag,
psLocalLlcpSocket->socket_VS,
psLocalLlcpSocket->socket_VSA,
psLocalLlcpSocket->socket_VR,
psLocalLlcpSocket->socket_VRA);
}
else
{
/* Update VSA */
psLocalLlcpSocket->socket_VSA = (uint8_t)sLlcpLocalSequence.nr;
/* Test if the Linear Buffer length is null */
if(psLocalLlcpSocket->bufferLinearLength == 0)
{
/* Test if a Receive is pending and RW empty */
if(psLocalLlcpSocket->bSocketRecvPending == TRUE && (psLocalLlcpSocket->indexRwWrite == psLocalLlcpSocket->indexRwRead))
{
/* Reset Flag */
psLocalLlcpSocket->bSocketRecvPending = FALSE;
/* Save I_FRAME into the Receive Buffer */
memcpy(psLocalLlcpSocket->sSocketRecvBuffer->buffer,psData->buffer,psData->length);
psLocalLlcpSocket->sSocketRecvBuffer->length = psData->length;
/* Update VR */
psLocalLlcpSocket->socket_VR = (psLocalLlcpSocket->socket_VR+1)%16;
/* Call the Receive CB */
psLocalLlcpSocket->pfSocketRecv_Cb(psLocalLlcpSocket->pRecvContext, NFCSTATUS_SUCCESS);
psLocalLlcpSocket->pfSocketRecv_Cb = NULL;
/* Test if a send is pending with this socket */
if(psLocalLlcpSocket->bSocketSendPending == TRUE && CHECK_SEND_RW(psLocalLlcpSocket))
{
/* Test if a send is pending at LLC layer */
if(!testAndSetSendPending(psLocalLlcpSocket->psTransport))
{
status = static_performSendInfo(psLocalLlcpSocket);
if (status != NFCSTATUS_SUCCESS && status != NFCSTATUS_PENDING) {
clearSendPending(psTransport);
}
}
}
else
{
/* RR */
status = phFriNfc_Llcp_Send_ReceiveReady_Frame(psLocalLlcpSocket);
}
}
else
{
/* Test if RW is full */
if((psLocalLlcpSocket->indexRwWrite - psLocalLlcpSocket->indexRwRead)<psLocalLlcpSocket->localRW)
{
if(psLocalLlcpSocket->sSocketRwBufferTable[(psLocalLlcpSocket->indexRwWrite%psLocalLlcpSocket->localRW)].length == 0)
{
/* Save I_FRAME into the RW Buffers */
memcpy(psLocalLlcpSocket->sSocketRwBufferTable[(psLocalLlcpSocket->indexRwWrite%psLocalLlcpSocket->localRW)].buffer,psData->buffer,psData->length);
psLocalLlcpSocket->sSocketRwBufferTable[(psLocalLlcpSocket->indexRwWrite%psLocalLlcpSocket->localRW)].length = psData->length;
if(psLocalLlcpSocket->ReceiverBusyCondition != TRUE)
{
/* Receiver Busy condition */
psLocalLlcpSocket->ReceiverBusyCondition = TRUE;
/* Send RNR */
status = phFriNfc_Llcp_Send_ReceiveNotReady_Frame(psLocalLlcpSocket);
}
/* Update the RW write index */
psLocalLlcpSocket->indexRwWrite++;
}
}
}
}
else
{
/* Copy the buffer into the RW buffer */
memcpy(psLocalLlcpSocket->sSocketRwBufferTable[(psLocalLlcpSocket->indexRwWrite%psLocalLlcpSocket->localRW)].buffer,psData->buffer,psData->length);
/* Update the length */
psLocalLlcpSocket->sSocketRwBufferTable[(psLocalLlcpSocket->indexRwWrite%psLocalLlcpSocket->localRW)].length = psData->length;
/* Test the length of the available place in the linear buffer */
dataLengthAvailable = phFriNfc_Llcp_CyclicFifoAvailable(&psLocalLlcpSocket->sCyclicFifoBuffer);
if(dataLengthAvailable >= psLocalLlcpSocket->sSocketRwBufferTable[(psLocalLlcpSocket->indexRwWrite%psLocalLlcpSocket->localRW)].length)
{
/* Store Data into the linear buffer */
dataLengthWrite = phFriNfc_Llcp_CyclicFifoWrite(&psLocalLlcpSocket->sCyclicFifoBuffer,
psLocalLlcpSocket->sSocketRwBufferTable[(psLocalLlcpSocket->indexRwWrite%psLocalLlcpSocket->localRW)].buffer,
psLocalLlcpSocket->sSocketRwBufferTable[(psLocalLlcpSocket->indexRwWrite%psLocalLlcpSocket->localRW)].length);
/* Update VR */
psLocalLlcpSocket->socket_VR = (psLocalLlcpSocket->socket_VR+1)%16;
/* Update the length */
psLocalLlcpSocket->sSocketRwBufferTable[(psLocalLlcpSocket->indexRwWrite%psLocalLlcpSocket->localRW)].length = 0x00;
/* Test if a Receive Pending*/
if(psLocalLlcpSocket->bSocketRecvPending == TRUE)
{
/* Reset Flag */
psLocalLlcpSocket->bSocketRecvPending = FALSE;
phFriNfc_LlcpTransport_ConnectionOriented_Recv(psLocalLlcpSocket,
psLocalLlcpSocket->sSocketRecvBuffer,
psLocalLlcpSocket->pfSocketRecv_Cb,
psLocalLlcpSocket->pRecvContext);
}
/* Test if a send is pending with this socket */
if((psLocalLlcpSocket->bSocketSendPending == TRUE) && CHECK_SEND_RW(psLocalLlcpSocket))
{
/* Test if a send is pending at LLC layer */
if(!testAndSetSendPending(psLocalLlcpSocket->psTransport))
{
status = static_performSendInfo(psLocalLlcpSocket);
if (status != NFCSTATUS_SUCCESS && status != NFCSTATUS_PENDING) {
clearSendPending(psTransport);
}
}
}
else
{
/* RR */
status = phFriNfc_Llcp_Send_ReceiveReady_Frame(psLocalLlcpSocket);
}
}
else
{
if(psLocalLlcpSocket->ReceiverBusyCondition != TRUE)
{
/* Receiver Busy condition */
psLocalLlcpSocket->ReceiverBusyCondition = TRUE;
/* Send RNR */
status = phFriNfc_Llcp_Send_ReceiveNotReady_Frame(psLocalLlcpSocket);
}
/* Update the RW write index */
psLocalLlcpSocket->indexRwWrite++;
}
}
}
}
else
{
/* No active socket*/
/* I FRAME not Handled */
}
}
static void Handle_ReceiveReady_Frame(phFriNfc_LlcpTransport_t *psTransport,
phNfc_sData_t *psData,
uint8_t dsap,
uint8_t ssap)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
uint8_t index;
uint8_t socketFound = FALSE;
uint8_t WFlag = 0;
uint8_t IFlag = 0;
uint8_t RFlag = 0;
uint8_t SFlag = 0;
uint32_t offset = 0;
uint8_t nr_val;
phFriNfc_LlcpTransport_Socket_t* psLocalLlcpSocket = NULL;
phFriNfc_Llcp_sPacketSequence_t sLlcpLocalSequence;
/* Get NS and NR Value of the I Frame*/
phFriNfc_Llcp_Buffer2Sequence( psData->buffer, offset, &sLlcpLocalSequence);
/* Search a socket waiting for an RR FRAME (Connected State) */
for(index=0;index<PHFRINFC_LLCP_NB_SOCKET_MAX;index++)
{
/* Test if the socket is in connected state and if its SSAP and DSAP are valid */
if(psTransport->pSocketTable[index].eSocket_State == phFriNfc_LlcpTransportSocket_eSocketConnected
&& psTransport->pSocketTable[index].socket_sSap == dsap
&& psTransport->pSocketTable[index].socket_dSap == ssap)
{
/* socket found */
socketFound = TRUE;
/* Store a pointer to the socket found */
psLocalLlcpSocket = &psTransport->pSocketTable[index];
psLocalLlcpSocket->index = psTransport->pSocketTable[index].index;
break;
}
}
/* Test if a socket has been found */
if(socketFound)
{
/* Test NR */
nr_val = (uint8_t)sLlcpLocalSequence.nr;
do
{
if(nr_val == psLocalLlcpSocket->socket_VS)
{
break;
}
nr_val = (nr_val+1)%16;
if(nr_val == psLocalLlcpSocket->socket_VSA)
{
RFlag = TRUE;
break;
}
}while(nr_val != sLlcpLocalSequence.nr);
/* Test if Info field present */
if(psData->length > 1)
{
WFlag = TRUE;
IFlag = TRUE;
}
if (WFlag || IFlag || RFlag || SFlag)
{
/* Send FRMR */
status = phFriNfc_LlcpTransport_SendFrameReject(psTransport,
dsap, PHFRINFC_LLCP_PTYPE_RR, ssap,
&sLlcpLocalSequence,
WFlag, IFlag, RFlag, SFlag,
psLocalLlcpSocket->socket_VS,
psLocalLlcpSocket->socket_VSA,
psLocalLlcpSocket->socket_VR,
psLocalLlcpSocket->socket_VRA);
}
else
{
/* Test Receiver Busy condition */
if(psLocalLlcpSocket->RemoteBusyConditionInfo == TRUE)
{
/* Notify the upper layer */
psLocalLlcpSocket->pSocketErrCb(psLocalLlcpSocket->pContext,PHFRINFC_LLCP_ERR_NOT_BUSY_CONDITION);
psLocalLlcpSocket->RemoteBusyConditionInfo = FALSE;
}
/* Update VSA */
psLocalLlcpSocket->socket_VSA = (uint8_t)sLlcpLocalSequence.nr;
/* Test if a send is pendind */
if(psLocalLlcpSocket->bSocketSendPending == TRUE)
{
/* Test the RW window */
if(CHECK_SEND_RW(psLocalLlcpSocket))
{
/* Test if a send is pending at LLC layer */
if(!testAndSetSendPending(psLocalLlcpSocket->psTransport))
{
status = static_performSendInfo(psLocalLlcpSocket);
if (status != NFCSTATUS_SUCCESS && status != NFCSTATUS_PENDING) {
clearSendPending(psTransport);
}
}
}
}
}
}
else
{
/* No active socket*/
/* RR Frame not handled*/
}
}
static void Handle_ReceiveNotReady_Frame(phFriNfc_LlcpTransport_t *psTransport,
phNfc_sData_t *psData,
uint8_t dsap,
uint8_t ssap)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
uint8_t index;
uint8_t socketFound = FALSE;
bool_t bWFlag = 0;
bool_t bIFlag = 0;
bool_t bRFlag = 0;
bool_t bSFlag = 0;
uint32_t offset = 0;
uint8_t nr_val;
phFriNfc_LlcpTransport_Socket_t* psLocalLlcpSocket = NULL;
phFriNfc_Llcp_sPacketSequence_t sLlcpLocalSequence;
/* Get NS and NR Value of the I Frame*/
phFriNfc_Llcp_Buffer2Sequence( psData->buffer, offset, &sLlcpLocalSequence);
/* Search a socket waiting for an RNR FRAME (Connected State) */
for(index=0;index<PHFRINFC_LLCP_NB_SOCKET_MAX;index++)
{
/* Test if the socket is in connected state and if its SSAP and DSAP are valid */
if(psTransport->pSocketTable[index].eSocket_State == phFriNfc_LlcpTransportSocket_eSocketConnected
&& psTransport->pSocketTable[index].socket_sSap == dsap
&& psTransport->pSocketTable[index].socket_dSap == ssap)
{
/* socket found */
socketFound = TRUE;
/* Store a pointer to the socket found */
psLocalLlcpSocket = &psTransport->pSocketTable[index];
break;
}
}
/* Test if a socket has been found */
if(socketFound)
{
/* Test NR */
nr_val = (uint8_t)sLlcpLocalSequence.nr;
do
{
if(nr_val == psLocalLlcpSocket->socket_VS)
{
break;
}
nr_val = (nr_val+1)%16;
if(nr_val == psLocalLlcpSocket->socket_VSA)
{
/* FRMR 0x02 */
bRFlag = TRUE;
break;
}
}while(nr_val != sLlcpLocalSequence.nr);
/* Test if Info field present */
if(psData->length > 1)
{
/* Send FRMR */
bWFlag = TRUE;
bIFlag = TRUE;
}
if( bWFlag != 0 || bIFlag != 0 || bRFlag != 0 || bSFlag != 0)
{
/* Send FRMR */
status = phFriNfc_LlcpTransport_SendFrameReject(psTransport,
dsap, PHFRINFC_LLCP_PTYPE_RNR, ssap,
&sLlcpLocalSequence,
bWFlag, bIFlag, bRFlag, bSFlag,
psLocalLlcpSocket->socket_VS,
psLocalLlcpSocket->socket_VSA,
psLocalLlcpSocket->socket_VR,
psLocalLlcpSocket->socket_VRA);
}
else
{
/* Notify the upper layer */
psLocalLlcpSocket->pSocketErrCb(psTransport->pSocketTable[index].pContext,PHFRINFC_LLCP_ERR_BUSY_CONDITION);
psLocalLlcpSocket->RemoteBusyConditionInfo = TRUE;
/* Update VSA */
psLocalLlcpSocket->socket_VSA = (uint8_t)sLlcpLocalSequence.nr;
/* Test if a send is pendind */
if(psLocalLlcpSocket->bSocketSendPending == TRUE && CHECK_SEND_RW(psLocalLlcpSocket))
{
/* Test if a send is pending at LLC layer */
if(!testAndSetSendPending(psLocalLlcpSocket->psTransport))
{
status = static_performSendInfo(psLocalLlcpSocket);
if (status != NFCSTATUS_SUCCESS && status != NFCSTATUS_PENDING) {
clearSendPending(psTransport);
}
}
}
}
}
else
{
/* No active socket*/
/* RNR Frame not handled*/
}
}
static void Handle_FrameReject_Frame(phFriNfc_LlcpTransport_t *psTransport,
uint8_t dsap,
uint8_t ssap)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
uint8_t index;
uint8_t socketFound = FALSE;
/* Search a socket waiting for a FRAME */
for(index=0;index<PHFRINFC_LLCP_NB_SOCKET_MAX;index++)
{
/* Test if the socket is in connected state and if its SSAP and DSAP are valid */
if(psTransport->pSocketTable[index].socket_sSap == dsap
&& psTransport->pSocketTable[index].socket_dSap == ssap)
{
/* socket found */
socketFound = TRUE;
break;
}
}
/* Test if a socket has been found */
if(socketFound)
{
/* Set socket state to disconnected */
psTransport->pSocketTable[index].eSocket_State = phFriNfc_LlcpTransportSocket_eSocketDisconnected;
/* Call ErrCB due to a FRMR*/
psTransport->pSocketTable[index].pSocketErrCb( psTransport->pSocketTable[index].pContext,PHFRINFC_LLCP_ERR_FRAME_REJECTED);
/* Close the socket */
status = phFriNfc_LlcpTransport_ConnectionOriented_Close(&psTransport->pSocketTable[index]);
}
else
{
/* No active socket*/
/* FRMR Frame not handled*/
}
}
/* TODO: comment function Handle_ConnectionOriented_IncommingFrame */
void Handle_ConnectionOriented_IncommingFrame(phFriNfc_LlcpTransport_t *psTransport,
phNfc_sData_t *psData,
uint8_t dsap,
uint8_t ptype,
uint8_t ssap)
{
phFriNfc_Llcp_sPacketSequence_t sSequence = {0,0};
switch(ptype)
{
case PHFRINFC_LLCP_PTYPE_CONNECT:
{
Handle_ConnectionFrame(psTransport,
psData,
dsap,
ssap);
}break;
case PHFRINFC_LLCP_PTYPE_DISC:
{
Handle_DisconnectFrame(psTransport,
dsap,
ssap);
}break;
case PHFRINFC_LLCP_PTYPE_CC:
{
Handle_ConnectionCompleteFrame(psTransport,
psData,
dsap,
ssap);
}break;
case PHFRINFC_LLCP_PTYPE_DM:
{
Handle_DisconnetModeFrame(psTransport,
psData,
dsap,
ssap);
}break;
case PHFRINFC_LLCP_PTYPE_FRMR:
{
Handle_FrameReject_Frame(psTransport,
dsap,
ssap);
}break;
case PHFRINFC_LLCP_PTYPE_I:
{
Handle_Receive_IFrame(psTransport,
psData,
dsap,
ssap);
}break;
case PHFRINFC_LLCP_PTYPE_RR:
{
Handle_ReceiveReady_Frame(psTransport,
psData,
dsap,
ssap);
}break;
case PHFRINFC_LLCP_PTYPE_RNR:
{
Handle_ReceiveNotReady_Frame(psTransport,
psData,
dsap,
ssap);
}break;
case PHFRINFC_LLCP_PTYPE_RESERVED1:
case PHFRINFC_LLCP_PTYPE_RESERVED2:
case PHFRINFC_LLCP_PTYPE_RESERVED3:
{
phFriNfc_LlcpTransport_SendFrameReject( psTransport,
dsap, ptype, ssap,
&sSequence,
TRUE, FALSE, FALSE, FALSE,
0, 0, 0, 0);
}break;
}
}
/**
* \ingroup grp_lib_nfc
* \brief <b>Get the local options of a socket</b>.
*
* This function returns the local options (maximum packet size and receive window size) used
* for a given connection-oriented socket. This function shall not be used with connectionless
* sockets.
*
* \param[out] pLlcpSocket A pointer to a phFriNfc_LlcpTransport_Socket_t.
* \param[in] psLocalOptions A pointer to be filled with the local options of the socket.
*
* \retval NFCSTATUS_SUCCESS Operation successful.
* \retval NFCSTATUS_INVALID_PARAMETER One or more of the supplied parameters
* could not be properly interpreted.
* \retval NFCSTATUS_INVALID_STATE The socket is not in a valid state, or not of
* a valid type to perform the requsted operation.
* \retval NFCSTATUS_NOT_INITIALISED Indicates stack is not yet initialized.
* \retval NFCSTATUS_SHUTDOWN Shutdown in progress.
* \retval NFCSTATUS_FAILED Operation failed.
*/
NFCSTATUS phFriNfc_LlcpTransport_ConnectionOriented_SocketGetLocalOptions(phFriNfc_LlcpTransport_Socket_t *pLlcpSocket,
phLibNfc_Llcp_sSocketOptions_t *psLocalOptions)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
/* Get Local MIUX */
psLocalOptions->miu = pLlcpSocket->sSocketOption.miu;
/* Get Local Receive Window */
psLocalOptions->rw = pLlcpSocket->sSocketOption.rw;
return status;
}
/**
* \ingroup grp_lib_nfc
* \brief <b>Get the local options of a socket</b>.
*
* This function returns the remote options (maximum packet size and receive window size) used
* for a given connection-oriented socket. This function shall not be used with connectionless
* sockets.
*
* \param[out] pLlcpSocket A pointer to a phFriNfc_LlcpTransport_Socket_t.
* \param[in] psRemoteOptions A pointer to be filled with the remote options of the socket.
*
* \retval NFCSTATUS_SUCCESS Operation successful.
* \retval NFCSTATUS_INVALID_PARAMETER One or more of the supplied parameters
* could not be properly interpreted.
* \retval NFCSTATUS_INVALID_STATE The socket is not in a valid state, or not of
* a valid type to perform the requsted operation.
* \retval NFCSTATUS_NOT_INITIALISED Indicates stack is not yet initialized.
* \retval NFCSTATUS_SHUTDOWN Shutdown in progress.
* \retval NFCSTATUS_FAILED Operation failed.
*/
NFCSTATUS phFriNfc_LlcpTransport_ConnectionOriented_SocketGetRemoteOptions(phFriNfc_LlcpTransport_Socket_t* pLlcpSocket,
phLibNfc_Llcp_sSocketOptions_t* psRemoteOptions)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
/* Get Remote MIUX */
psRemoteOptions->miu = pLlcpSocket->remoteMIU;
/* Get Remote Receive Window */
psRemoteOptions->rw = pLlcpSocket->remoteRW;
return status;
}
/**
* \ingroup grp_fri_nfc
* \brief <b>Listen for incoming connection requests on a socket</b>.
*
* This function switches a socket into a listening state and registers a callback on
* incoming connection requests. In this state, the socket is not able to communicate
* directly. The listening state is only available for connection-oriented sockets
* which are still not connected. The socket keeps listening until it is closed, and
* thus can trigger several times the pListen_Cb callback.
*
*
* \param[in] pLlcpSocket A pointer to a phFriNfc_LlcpTransport_Socket_t.
* \param[in] pListen_Cb The callback to be called each time the
* socket receive a connection request.
* \param[in] pContext Upper layer context to be returned in
* the callback.
*
* \retval NFCSTATUS_SUCCESS Operation successful.
* \retval NFCSTATUS_INVALID_PARAMETER One or more of the supplied parameters
* could not be properly interpreted.
* \retval NFCSTATUS_INVALID_STATE The socket is not in a valid state to switch
* to listening state.
* \retval NFCSTATUS_FAILED Operation failed.
*/
NFCSTATUS phFriNfc_LlcpTransport_ConnectionOriented_Listen(phFriNfc_LlcpTransport_Socket_t* pLlcpSocket,
pphFriNfc_LlcpTransportSocketListenCb_t pListen_Cb,
void* pContext)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
uint8_t index;
/* Store the listen callback */
pLlcpSocket->pfSocketListen_Cb = pListen_Cb;
/* store the context */
pLlcpSocket->pListenContext = pContext;
/* Set RecvPending to TRUE */
pLlcpSocket->bSocketListenPending = TRUE;
/* Set the socket state*/
pLlcpSocket->eSocket_State = phFriNfc_LlcpTransportSocket_eSocketRegistered;
return status;
}
/**
* \ingroup grp_fri_nfc
* \brief <b>Accept an incoming connection request for a socket</b>.
*
* This functions allows the client to accept an incoming connection request.
* It must be used with the socket provided within the listen callback. The socket
* is implicitly switched to the connected state when the function is called.
*
* \param[in] pLlcpSocket A pointer to a phFriNfc_LlcpTransport_Socket_t.
* \param[in] psOptions The options to be used with the socket.
* \param[in] psWorkingBuffer A working buffer to be used by the library.
* \param[in] pErr_Cb The callback to be called each time the accepted socket
* is in error.
* \param[in] pAccept_RspCb The callback to be called when the Accept operation is completed
* \param[in] pContext Upper layer context to be returned in the callback.
*
* \retval NFCSTATUS_SUCCESS Operation successful.
* \retval NFCSTATUS_INVALID_PARAMETER One or more of the supplied parameters
* could not be properly interpreted.
* \retval NFCSTATUS_BUFFER_TOO_SMALL The working buffer is too small for the MIU and RW
* declared in the options.
* \retval NFCSTATUS_FAILED Operation failed.
*/
NFCSTATUS phFriNfc_LlcpTransport_ConnectionOriented_Accept(phFriNfc_LlcpTransport_Socket_t* pLlcpSocket,
phFriNfc_LlcpTransport_sSocketOptions_t* psOptions,
phNfc_sData_t* psWorkingBuffer,
pphFriNfc_LlcpTransportSocketErrCb_t pErr_Cb,
pphFriNfc_LlcpTransportSocketAcceptCb_t pAccept_RspCb,
void* pContext)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
uint32_t offset = 0;
uint8_t miux[2];
uint8_t i;
/* Store the options in the socket */
memcpy(&pLlcpSocket->sSocketOption, psOptions, sizeof(phFriNfc_LlcpTransport_sSocketOptions_t));
/* Set socket local params (MIUX & RW) */
pLlcpSocket ->localMIUX = (pLlcpSocket->sSocketOption.miu - PHFRINFC_LLCP_MIU_DEFAULT) & PHFRINFC_LLCP_TLV_MIUX_MASK;
pLlcpSocket ->localRW = pLlcpSocket->sSocketOption.rw & PHFRINFC_LLCP_TLV_RW_MASK;
/* Set the pointer and the length for the Receive Window Buffer */
for(i=0;i<pLlcpSocket->localRW;i++)
{
pLlcpSocket->sSocketRwBufferTable[i].buffer = psWorkingBuffer->buffer + (i*pLlcpSocket->sSocketOption.miu);
pLlcpSocket->sSocketRwBufferTable[i].length = 0;
}
/* Set the pointer and the length for the Send Buffer */
pLlcpSocket->sSocketSendBuffer.buffer = psWorkingBuffer->buffer + pLlcpSocket->bufferRwMaxLength;
pLlcpSocket->sSocketSendBuffer.length = pLlcpSocket->bufferSendMaxLength;
/* Set the pointer and the length for the Linear Buffer */
pLlcpSocket->sSocketLinearBuffer.buffer = psWorkingBuffer->buffer + pLlcpSocket->bufferRwMaxLength + pLlcpSocket->bufferSendMaxLength;
pLlcpSocket->sSocketLinearBuffer.length = pLlcpSocket->bufferLinearLength;
if(pLlcpSocket->sSocketLinearBuffer.length != 0)
{
/* Init Cyclic Fifo */
phFriNfc_Llcp_CyclicFifoInit(&pLlcpSocket->sCyclicFifoBuffer,
pLlcpSocket->sSocketLinearBuffer.buffer,
pLlcpSocket->sSocketLinearBuffer.length);
}
pLlcpSocket->pSocketErrCb = pErr_Cb;
pLlcpSocket->pContext = pContext;
/* store the pointer to the Accept callback */
pLlcpSocket->pfSocketAccept_Cb = pAccept_RspCb;
pLlcpSocket->pAcceptContext = pContext;
/* Reset the socket_VS,socket_VR,socket_VSA and socket_VRA variables */
pLlcpSocket->socket_VR = 0;
pLlcpSocket->socket_VRA = 0;
pLlcpSocket->socket_VS = 0;
pLlcpSocket->socket_VSA = 0;
/* MIUX */
if(pLlcpSocket->localMIUX != PHFRINFC_LLCP_MIUX_DEFAULT)
{
/* Encode MIUX value */
phFriNfc_Llcp_EncodeMIUX(pLlcpSocket->localMIUX,
miux);
/* Encode MIUX in TLV format */
status = phFriNfc_Llcp_EncodeTLV(&pLlcpSocket->sSocketSendBuffer,
&offset,
PHFRINFC_LLCP_TLV_TYPE_MIUX,
PHFRINFC_LLCP_TLV_LENGTH_MIUX,
miux);
if(status != NFCSTATUS_SUCCESS)
{
/* Call the CB */
status = PHNFCSTVAL(CID_FRI_NFC_LLCP_TRANSPORT, NFCSTATUS_FAILED);
goto clean_and_return;
}
}
/* Receive Window */
if(pLlcpSocket->sSocketOption.rw != PHFRINFC_LLCP_RW_DEFAULT)
{
/* Encode RW value */
phFriNfc_Llcp_EncodeRW(&pLlcpSocket->sSocketOption.rw);
/* Encode RW in TLV format */
status = phFriNfc_Llcp_EncodeTLV(&pLlcpSocket->sSocketSendBuffer,
&offset,
PHFRINFC_LLCP_TLV_TYPE_RW,
PHFRINFC_LLCP_TLV_LENGTH_RW,
&pLlcpSocket->sSocketOption.rw);
if(status != NFCSTATUS_SUCCESS)
{
/* Call the CB */
status = PHNFCSTVAL(CID_FRI_NFC_LLCP_TRANSPORT, NFCSTATUS_FAILED);
goto clean_and_return;
}
}
/* Test if a send is pending */
if(testAndSetSendPending(pLlcpSocket->psTransport))
{
pLlcpSocket->bSocketAcceptPending = TRUE;
/* Update Send Buffer length value */
pLlcpSocket->sSocketSendBuffer.length = offset;
status = NFCSTATUS_PENDING;
}
else
{
/* Fill the psLlcpHeader stuture with the DSAP,CC PTYPE and the SSAP */
pLlcpSocket->sLlcpHeader.dsap = pLlcpSocket->socket_dSap;
pLlcpSocket->sLlcpHeader.ptype = PHFRINFC_LLCP_PTYPE_CC;
pLlcpSocket->sLlcpHeader.ssap = pLlcpSocket->socket_sSap;
/* Set the socket state to accepted */
pLlcpSocket->eSocket_State = phFriNfc_LlcpTransportSocket_eSocketAccepted;
/* Update Send Buffer length value */
pLlcpSocket->sSocketSendBuffer.length = offset;
/* Send a CC Frame */
status = phFriNfc_LlcpTransport_LinkSend(pLlcpSocket->psTransport,
&pLlcpSocket->sLlcpHeader,
NULL,
&pLlcpSocket->sSocketSendBuffer,
phFriNfc_LlcpTransport_ConnectionOriented_SendLlcp_CB,
pLlcpSocket->index,
pLlcpSocket->psTransport);
if (status != NFCSTATUS_SUCCESS && status != NFCSTATUS_PENDING) {
clearSendPending(pLlcpSocket->psTransport);
}
}
clean_and_return:
if(status != NFCSTATUS_PENDING)
{
LLCP_PRINT("Release Accept callback");
pLlcpSocket->pfSocketAccept_Cb = NULL;
pLlcpSocket->pAcceptContext = NULL;
}
return status;
}
/**
* \ingroup grp_fri_nfc
* \brief <b>Reject an incoming connection request for a socket</b>.
*
* This functions allows the client to reject an incoming connection request.
* It must be used with the socket provided within the listen callback. The socket
* is implicitly closed when the function is called.
*
* \param[in] pLlcpSocket A pointer to a phFriNfc_LlcpTransport_Socket_t.
*
* \retval NFCSTATUS_SUCCESS Operation successful.
* \retval NFCSTATUS_INVALID_PARAMETER One or more of the supplied parameters
* could not be properly interpreted.
* \retval NFCSTATUS_FAILED Operation failed.
*/
NFCSTATUS phLibNfc_LlcpTransport_ConnectionOriented_Reject( phFriNfc_LlcpTransport_Socket_t* pLlcpSocket,
pphFriNfc_LlcpTransportSocketRejectCb_t pReject_RspCb,
void *pContext)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
/* Set the state of the socket */
pLlcpSocket->eSocket_State = phFriNfc_LlcpTransportSocket_eSocketRejected;
/* Store the Reject callback */
pLlcpSocket->pfSocketSend_Cb = pReject_RspCb;
pLlcpSocket->pRejectContext = pContext;
/* Send a DM*/
status = phFriNfc_LlcpTransport_SendDisconnectMode(pLlcpSocket->psTransport,
pLlcpSocket->socket_dSap,
pLlcpSocket->socket_sSap,
PHFRINFC_LLCP_DM_OPCODE_CONNECT_REJECTED);
return status;
}
/**
* \ingroup grp_fri_nfc
* \brief <b>Try to establish connection with a socket on a remote SAP</b>.
*
* This function tries to connect to a given SAP on the remote peer. If the
* socket is not bound to a local SAP, it is implicitly bound to a free SAP.
*
* \param[in] pLlcpSocket A pointer to a phFriNfc_LlcpTransport_Socket_t.
* \param[in] nSap The destination SAP to connect to.
* \param[in] psUri The URI corresponding to the destination SAP to connect to.
* \param[in] pConnect_RspCb The callback to be called when the connection
* operation is completed.
* \param[in] pContext Upper layer context to be returned in
* the callback.
*
* \retval NFCSTATUS_SUCCESS Operation successful.
* \retval NFCSTATUS_INVALID_PARAMETER One or more of the supplied parameters
* could not be properly interpreted.
* \retval NFCSTATUS_PENDING Connection operation is in progress,
* pConnect_RspCb will be called upon completion.
* \retval NFCSTATUS_INVALID_STATE The socket is not in a valid state, or not of
* a valid type to perform the requsted operation.
* \retval NFCSTATUS_FAILED Operation failed.
*/
NFCSTATUS phFriNfc_LlcpTransport_ConnectionOriented_Connect( phFriNfc_LlcpTransport_Socket_t* pLlcpSocket,
uint8_t nSap,
phNfc_sData_t* psUri,
pphFriNfc_LlcpTransportSocketConnectCb_t pConnect_RspCb,
void* pContext)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
uint32_t offset = 0;
uint8_t miux[2];
/* Test if a nSap is present */
if(nSap != PHFRINFC_LLCP_SAP_DEFAULT)
{
/* Set DSAP port number with the nSap value */
pLlcpSocket->socket_dSap = nSap;
}
else
{
/* Set DSAP port number with the SDP port number */
pLlcpSocket->socket_dSap = PHFRINFC_LLCP_SAP_SDP;
}
/* Store the Connect callback and context */
pLlcpSocket->pfSocketConnect_Cb = pConnect_RspCb;
pLlcpSocket->pConnectContext = pContext;
/* Set the socket Header */
pLlcpSocket->sLlcpHeader.dsap = pLlcpSocket->socket_dSap;
pLlcpSocket->sLlcpHeader.ptype = PHFRINFC_LLCP_PTYPE_CONNECT;
pLlcpSocket->sLlcpHeader.ssap = pLlcpSocket->socket_sSap;
/* MIUX */
if(pLlcpSocket->localMIUX != PHFRINFC_LLCP_MIUX_DEFAULT)
{
/* Encode MIUX value */
phFriNfc_Llcp_EncodeMIUX(pLlcpSocket->localMIUX,
miux);
/* Encode MIUX in TLV format */
status = phFriNfc_Llcp_EncodeTLV(&pLlcpSocket->sSocketSendBuffer,
&offset,
PHFRINFC_LLCP_TLV_TYPE_MIUX,
PHFRINFC_LLCP_TLV_LENGTH_MIUX,
miux);
if(status != NFCSTATUS_SUCCESS)
{
status = PHNFCSTVAL(CID_FRI_NFC_LLCP_TRANSPORT, NFCSTATUS_FAILED);
goto clean_and_return;
}
}
/* Receive Window */
if(pLlcpSocket->sSocketOption.rw != PHFRINFC_LLCP_RW_DEFAULT)
{
/* Encode RW value */
phFriNfc_Llcp_EncodeRW(&pLlcpSocket->sSocketOption.rw);
/* Encode RW in TLV format */
status = phFriNfc_Llcp_EncodeTLV(&pLlcpSocket->sSocketSendBuffer,
&offset,
PHFRINFC_LLCP_TLV_TYPE_RW,
PHFRINFC_LLCP_TLV_LENGTH_RW,
&pLlcpSocket->sSocketOption.rw);
if(status != NFCSTATUS_SUCCESS)
{
status = PHNFCSTVAL(CID_FRI_NFC_LLCP_TRANSPORT, NFCSTATUS_FAILED);
goto clean_and_return;
}
}
/* Test if a Service Name is present */
if(psUri != NULL)
{
/* Encode SN in TLV format */
status = phFriNfc_Llcp_EncodeTLV(&pLlcpSocket->sSocketSendBuffer,
&offset,
PHFRINFC_LLCP_TLV_TYPE_SN,
(uint8_t)psUri->length,
psUri->buffer);
if(status != NFCSTATUS_SUCCESS)
{
status = PHNFCSTVAL(CID_FRI_NFC_LLCP_TRANSPORT, NFCSTATUS_FAILED);
goto clean_and_return;
}
}
/* Test if a send is pending */
if(testAndSetSendPending(pLlcpSocket->psTransport))
{
pLlcpSocket->bSocketConnectPending = TRUE;
/* Update Send Buffer length value */
pLlcpSocket->sSocketSendBuffer.length = offset;
status = NFCSTATUS_PENDING;
}
else
{
/* Update Send Buffer length value */
pLlcpSocket->sSocketSendBuffer.length = offset;
/* Set the socket in connecting state */
pLlcpSocket->eSocket_State = phFriNfc_LlcpTransportSocket_eSocketConnecting;
status = phFriNfc_LlcpTransport_LinkSend(pLlcpSocket->psTransport,
&pLlcpSocket->sLlcpHeader,
NULL,
&pLlcpSocket->sSocketSendBuffer,
phFriNfc_LlcpTransport_ConnectionOriented_SendLlcp_CB,
pLlcpSocket->index,
pLlcpSocket->psTransport);
if (status != NFCSTATUS_SUCCESS && status != NFCSTATUS_PENDING) {
clearSendPending(pLlcpSocket->psTransport);
}
}
clean_and_return:
if(status != NFCSTATUS_PENDING)
{
LLCP_PRINT("Release Connect callback");
pLlcpSocket->pfSocketConnect_Cb = NULL;
pLlcpSocket->pConnectContext = NULL;
}
return status;
}
/**
* \ingroup grp_lib_nfc
* \brief <b>Disconnect a currently connected socket</b>.
*
* This function initiates the disconnection of a previously connected socket.
*
* \param[in] pLlcpSocket A pointer to a phFriNfc_LlcpTransport_Socket_t.
* \param[in] pDisconnect_RspCb The callback to be called when the
* operation is completed.
* \param[in] pContext Upper layer context to be returned in
* the callback.
*
* \retval NFCSTATUS_SUCCESS Operation successful.
* \retval NFCSTATUS_INVALID_PARAMETER One or more of the supplied parameters
* could not be properly interpreted.
* \retval NFCSTATUS_PENDING Disconnection operation is in progress,
* pDisconnect_RspCb will be called upon completion.
* \retval NFCSTATUS_INVALID_STATE The socket is not in a valid state, or not of
* a valid type to perform the requsted operation.
* \retval NFCSTATUS_NOT_INITIALISED Indicates stack is not yet initialized.
* \retval NFCSTATUS_SHUTDOWN Shutdown in progress.
* \retval NFCSTATUS_FAILED Operation failed.
*/
NFCSTATUS phLibNfc_LlcpTransport_ConnectionOriented_Disconnect(phFriNfc_LlcpTransport_Socket_t* pLlcpSocket,
pphLibNfc_LlcpSocketDisconnectCb_t pDisconnect_RspCb,
void* pContext)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
/* Store the Disconnect callback and context*/
pLlcpSocket->pfSocketDisconnect_Cb = pDisconnect_RspCb;
pLlcpSocket->pDisconnectContext = pContext;
/* Set the socket in connecting state */
pLlcpSocket->eSocket_State = phFriNfc_LlcpTransportSocket_eSocketDisconnecting;
/* Test if a send IFRAME is pending with this socket */
if((pLlcpSocket->bSocketSendPending == TRUE) || (pLlcpSocket->bSocketRecvPending == TRUE))
{
pLlcpSocket->bSocketSendPending = FALSE;
pLlcpSocket->bSocketRecvPending = FALSE;
/* Call the send CB, a disconnect abort the send request */
if (pLlcpSocket->pfSocketSend_Cb != NULL)
{
/* Copy CB + context in local variables */
pphFriNfc_LlcpTransportSocketSendCb_t pfSendCb = pLlcpSocket->pfSocketSend_Cb;
void* pSendContext = pLlcpSocket->pSendContext;
/* Reset CB + context */
pLlcpSocket->pfSocketSend_Cb = NULL;
pLlcpSocket->pSendContext = NULL;
/* Perform callback */
pfSendCb(pSendContext, NFCSTATUS_FAILED);
}
/* Call the send CB, a disconnect abort the receive request */
if (pLlcpSocket->pfSocketRecv_Cb != NULL)
{
/* Copy CB + context in local variables */
pphFriNfc_LlcpTransportSocketRecvCb_t pfRecvCb = pLlcpSocket->pfSocketRecv_Cb;
void* pRecvContext = pLlcpSocket->pRecvContext;
/* Reset CB + context */
pLlcpSocket->pfSocketRecv_Cb = NULL;
pLlcpSocket->pRecvContext = NULL;
/* Perform callback */
pfRecvCb(pRecvContext, NFCSTATUS_FAILED);
}
}
/* Test if a send is pending */
if( testAndSetSendPending(pLlcpSocket->psTransport))
{
pLlcpSocket->bSocketDiscPending = TRUE;
status = NFCSTATUS_PENDING;
}
else
{
/* Set the socket Header */
pLlcpSocket->sLlcpHeader.dsap = pLlcpSocket->socket_dSap;
pLlcpSocket->sLlcpHeader.ptype = PHFRINFC_LLCP_PTYPE_DISC;
pLlcpSocket->sLlcpHeader.ssap = pLlcpSocket->socket_sSap;
status = phFriNfc_LlcpTransport_LinkSend(pLlcpSocket->psTransport,
&pLlcpSocket->sLlcpHeader,
NULL,
NULL,
phFriNfc_LlcpTransport_ConnectionOriented_SendLlcp_CB,
pLlcpSocket->index,
pLlcpSocket->psTransport);
if(status != NFCSTATUS_SUCCESS && status != NFCSTATUS_PENDING)
{
clearSendPending(pLlcpSocket->psTransport);
LLCP_PRINT("Release Disconnect callback");
pLlcpSocket->pfSocketDisconnect_Cb = NULL;
pLlcpSocket->pDisconnectContext = NULL;
}
}
return status;
}
/* TODO: comment function phFriNfc_LlcpTransport_Connectionless_SendTo_CB */
static void phFriNfc_LlcpTransport_ConnectionOriented_DisconnectClose_CB(void* pContext,
NFCSTATUS status)
{
phFriNfc_LlcpTransport_Socket_t *pLlcpSocket = (phFriNfc_LlcpTransport_Socket_t*)pContext;
if(status == NFCSTATUS_SUCCESS)
{
/* Reset the pointer to the socket closed */
pLlcpSocket->eSocket_State = phFriNfc_LlcpTransportSocket_eSocketDefault;
pLlcpSocket->eSocket_Type = phFriNfc_LlcpTransport_eDefaultType;
pLlcpSocket->pContext = NULL;
pLlcpSocket->pSocketErrCb = NULL;
pLlcpSocket->socket_sSap = PHFRINFC_LLCP_SAP_DEFAULT;
pLlcpSocket->socket_dSap = PHFRINFC_LLCP_SAP_DEFAULT;
pLlcpSocket->bSocketRecvPending = FALSE;
pLlcpSocket->bSocketSendPending = FALSE;
pLlcpSocket->bSocketListenPending = FALSE;
pLlcpSocket->bSocketDiscPending = FALSE;
pLlcpSocket->socket_VS = 0;
pLlcpSocket->socket_VSA = 0;
pLlcpSocket->socket_VR = 0;
pLlcpSocket->socket_VRA = 0;
pLlcpSocket->indexRwRead = 0;
pLlcpSocket->indexRwWrite = 0;
phFriNfc_LlcpTransport_ConnectionOriented_Abort(pLlcpSocket);
memset(&pLlcpSocket->sSocketOption, 0x00, sizeof(phFriNfc_LlcpTransport_sSocketOptions_t));
if (pLlcpSocket->sServiceName.buffer != NULL) {
phOsalNfc_FreeMemory(pLlcpSocket->sServiceName.buffer);
}
pLlcpSocket->sServiceName.buffer = NULL;
pLlcpSocket->sServiceName.length = 0;
}
else
{
/* Disconnect close Error */
}
}
/**
* \ingroup grp_fri_nfc
* \brief <b>Close a socket on a LLCP-connected device</b>.
*
* This function closes a LLCP socket previously created using phFriNfc_LlcpTransport_Socket.
* If the socket was connected, it is first disconnected, and then closed.
*
* \param[in] pLlcpSocket A pointer to a phFriNfc_LlcpTransport_Socket_t.
* \retval NFCSTATUS_SUCCESS Operation successful.
* \retval NFCSTATUS_INVALID_PARAMETER One or more of the supplied parameters
* could not be properly interpreted.
* \retval NFCSTATUS_FAILED Operation failed.
*/
NFCSTATUS phFriNfc_LlcpTransport_ConnectionOriented_Close(phFriNfc_LlcpTransport_Socket_t* pLlcpSocket)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
if(pLlcpSocket->eSocket_State == phFriNfc_LlcpTransportSocket_eSocketConnected)
{
status = phLibNfc_LlcpTransport_ConnectionOriented_Disconnect(pLlcpSocket,
phFriNfc_LlcpTransport_ConnectionOriented_DisconnectClose_CB,
pLlcpSocket);
}
else
{
LLCP_PRINT("Socket not connected, no need to disconnect");
/* Reset the pointer to the socket closed */
pLlcpSocket->eSocket_State = phFriNfc_LlcpTransportSocket_eSocketDefault;
pLlcpSocket->eSocket_Type = phFriNfc_LlcpTransport_eDefaultType;
pLlcpSocket->pContext = NULL;
pLlcpSocket->pSocketErrCb = NULL;
pLlcpSocket->socket_sSap = PHFRINFC_LLCP_SAP_DEFAULT;
pLlcpSocket->socket_dSap = PHFRINFC_LLCP_SAP_DEFAULT;
pLlcpSocket->bSocketRecvPending = FALSE;
pLlcpSocket->bSocketSendPending = FALSE;
pLlcpSocket->bSocketListenPending = FALSE;
pLlcpSocket->bSocketDiscPending = FALSE;
pLlcpSocket->RemoteBusyConditionInfo = FALSE;
pLlcpSocket->ReceiverBusyCondition = FALSE;
pLlcpSocket->socket_VS = 0;
pLlcpSocket->socket_VSA = 0;
pLlcpSocket->socket_VR = 0;
pLlcpSocket->socket_VRA = 0;
pLlcpSocket->indexRwRead = 0;
pLlcpSocket->indexRwWrite = 0;
phFriNfc_LlcpTransport_ConnectionOriented_Abort(pLlcpSocket);
memset(&pLlcpSocket->sSocketOption, 0x00, sizeof(phFriNfc_LlcpTransport_sSocketOptions_t));
if (pLlcpSocket->sServiceName.buffer != NULL) {
phOsalNfc_FreeMemory(pLlcpSocket->sServiceName.buffer);
}
pLlcpSocket->sServiceName.buffer = NULL;
pLlcpSocket->sServiceName.length = 0;
}
return NFCSTATUS_SUCCESS;
}
/**
* \ingroup grp_fri_nfc
* \brief <b>Send data on a socket</b>.
*
* This function is used to write data on a socket. This function
* can only be called on a connection-oriented socket which is already
* in a connected state.
*
*
* \param[in] pLlcpSocket A pointer to a phFriNfc_LlcpTransport_Socket_t.
* \param[in] psBuffer The buffer containing the data to send.
* \param[in] pSend_RspCb The callback to be called when the
* operation is completed.
* \param[in] pContext Upper layer context to be returned in
* the callback.
*
* \retval NFCSTATUS_SUCCESS Operation successful.
* \retval NFCSTATUS_INVALID_PARAMETER One or more of the supplied parameters
* could not be properly interpreted.
* \retval NFCSTATUS_PENDING Reception operation is in progress,
* pSend_RspCb will be called upon completion.
* \retval NFCSTATUS_INVALID_STATE The socket is not in a valid state, or not of
* a valid type to perform the requsted operation.
* \retval NFCSTATUS_FAILED Operation failed.
*/
NFCSTATUS phFriNfc_LlcpTransport_ConnectionOriented_Send(phFriNfc_LlcpTransport_Socket_t* pLlcpSocket,
phNfc_sData_t* psBuffer,
pphFriNfc_LlcpTransportSocketSendCb_t pSend_RspCb,
void* pContext)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
/* Test the RW window */
if(!CHECK_SEND_RW(pLlcpSocket))
{
/* Store the Send CB and context */
pLlcpSocket->pfSocketSend_Cb = pSend_RspCb;
pLlcpSocket->pSendContext = pContext;
/* Set Send pending */
pLlcpSocket->bSocketSendPending = TRUE;
/* Store send buffer pointer */
pLlcpSocket->sSocketSendBuffer = *psBuffer;
/* Set status */
status = NFCSTATUS_PENDING;
}
else
{
/* Store send buffer pointer */
pLlcpSocket->sSocketSendBuffer = *psBuffer;
/* Store the Send CB and context */
pLlcpSocket->pfSocketSend_Cb = pSend_RspCb;
pLlcpSocket->pSendContext = pContext;
/* Test if a send is pending */
if(testAndSetSendPending(pLlcpSocket->psTransport))
{
/* Set Send pending */
pLlcpSocket->bSocketSendPending = TRUE;
/* Set status */
status = NFCSTATUS_PENDING;
}
else
{
/* Store the Send CB and context */
pLlcpSocket->pfSocketSend_Cb = pSend_RspCb;
pLlcpSocket->pSendContext = pContext;
status = static_performSendInfo(pLlcpSocket);
if(status != NFCSTATUS_SUCCESS && status != NFCSTATUS_PENDING)
{
clearSendPending(pLlcpSocket->psTransport);
LLCP_PRINT("Release Send callback");
pLlcpSocket->pfSocketSend_Cb = NULL;
pLlcpSocket->pSendContext = NULL;
}
}
}
return status;
}
/**
* \ingroup grp_fri_nfc
* \brief <b>Read data on a socket</b>.
*
* This function is used to read data from a socket. It reads at most the
* size of the reception buffer, but can also return less bytes if less bytes
* are available. If no data is available, the function will be pending until
* more data comes, and the response will be sent by the callback. This function
* can only be called on a connection-oriented socket.
*
*
* \param[in] pLlcpSocket A pointer to a phFriNfc_LlcpTransport_Socket_t.
* \param[in] psBuffer The buffer receiving the data.
* \param[in] pRecv_RspCb The callback to be called when the
* operation is completed.
* \param[in] pContext Upper layer context to be returned in
* the callback.
*
* \retval NFCSTATUS_SUCCESS Operation successful.
* \retval NFCSTATUS_INVALID_PARAMETER One or more of the supplied parameters
* could not be properly interpreted.
* \retval NFCSTATUS_PENDING Reception operation is in progress,
* pRecv_RspCb will be called upon completion.
* \retval NFCSTATUS_INVALID_STATE The socket is not in a valid state, or not of
* a valid type to perform the requsted operation.
* \retval NFCSTATUS_FAILED Operation failed.
*/
NFCSTATUS phFriNfc_LlcpTransport_ConnectionOriented_Recv( phFriNfc_LlcpTransport_Socket_t* pLlcpSocket,
phNfc_sData_t* psBuffer,
pphFriNfc_LlcpTransportSocketRecvCb_t pRecv_RspCb,
void* pContext)
{
NFCSTATUS status = NFCSTATUS_SUCCESS;
uint32_t dataLengthStored = 0;
uint32_t dataLengthAvailable = 0;
uint32_t dataLengthRead = 0;
uint32_t dataLengthWrite = 0;
bool_t dataBufferized = FALSE;
/* Test if the WorkingBuffer Length is null */
if(pLlcpSocket->bufferLinearLength == 0)
{
if (pLlcpSocket->eSocket_State != phFriNfc_LlcpTransportSocket_eSocketConnected)
{
return NFCSTATUS_FAILED;
}
/* Test If data is present in the RW Buffer */
if(pLlcpSocket->indexRwRead != pLlcpSocket->indexRwWrite)
{
if(pLlcpSocket->sSocketRwBufferTable[(pLlcpSocket->indexRwRead%pLlcpSocket->localRW)].length != 0)
{
/* Save I_FRAME into the Receive Buffer */
memcpy(psBuffer->buffer,pLlcpSocket->sSocketRwBufferTable[(pLlcpSocket->indexRwRead%pLlcpSocket->localRW)].buffer,pLlcpSocket->sSocketRwBufferTable[(pLlcpSocket->indexRwRead%pLlcpSocket->localRW)].length);
psBuffer->length = pLlcpSocket->sSocketRwBufferTable[(pLlcpSocket->indexRwRead%pLlcpSocket->localRW)].length;
dataBufferized = TRUE;
/* Update VR */
pLlcpSocket->socket_VR = (pLlcpSocket->socket_VR+1)%16;
/* Update RW Buffer length */
pLlcpSocket->sSocketRwBufferTable[(pLlcpSocket->indexRwRead%pLlcpSocket->localRW)].length = 0;
/* Update Value Rw Read Index*/
pLlcpSocket->indexRwRead++;
}
}
if(dataBufferized == TRUE)
{
/* Call the Receive CB */
pRecv_RspCb(pContext,NFCSTATUS_SUCCESS);
if(pLlcpSocket->ReceiverBusyCondition == TRUE)
{
/* Reset the ReceiverBusyCondition Flag */
pLlcpSocket->ReceiverBusyCondition = FALSE;
/* RR */
/* TODO: report status? */
phFriNfc_Llcp_Send_ReceiveReady_Frame(pLlcpSocket);
}
}
else
{
/* Set Receive pending */
pLlcpSocket->bSocketRecvPending = TRUE;
/* Store the buffer pointer */
pLlcpSocket->sSocketRecvBuffer = psBuffer;
/* Store the Recv CB and context */
pLlcpSocket->pfSocketRecv_Cb = pRecv_RspCb;
pLlcpSocket->pRecvContext = pContext;
/* Set status */
status = NFCSTATUS_PENDING;
}
}
else
{
/* Test if data is present in the linear buffer*/
dataLengthStored = phFriNfc_Llcp_CyclicFifoUsage(&pLlcpSocket->sCyclicFifoBuffer);
if(dataLengthStored != 0)
{
if(psBuffer->length > dataLengthStored)
{
psBuffer->length = dataLengthStored;
}
/* Read data from the linear buffer */
dataLengthRead = phFriNfc_Llcp_CyclicFifoFifoRead(&pLlcpSocket->sCyclicFifoBuffer,
psBuffer->buffer,
psBuffer->length);
if(dataLengthRead != 0)
{
/* Test If data is present in the RW Buffer */
while(pLlcpSocket->indexRwRead != pLlcpSocket->indexRwWrite)
{
/* Get the data length available in the linear buffer */
dataLengthAvailable = phFriNfc_Llcp_CyclicFifoAvailable(&pLlcpSocket->sCyclicFifoBuffer);
/* Exit if not enough memory available in linear buffer */
if(dataLengthAvailable < pLlcpSocket->sSocketRwBufferTable[(pLlcpSocket->indexRwRead%pLlcpSocket->localRW)].length)
{
break;
}
/* Write data into the linear buffer */
dataLengthWrite = phFriNfc_Llcp_CyclicFifoWrite(&pLlcpSocket->sCyclicFifoBuffer,
pLlcpSocket->sSocketRwBufferTable[(pLlcpSocket->indexRwRead%pLlcpSocket->localRW)].buffer,
pLlcpSocket->sSocketRwBufferTable[(pLlcpSocket->indexRwRead%pLlcpSocket->localRW)].length);
/* Update VR */
pLlcpSocket->socket_VR = (pLlcpSocket->socket_VR+1)%16;
/* Set flag bufferized to TRUE */
dataBufferized = TRUE;
/* Update RW Buffer length */
pLlcpSocket->sSocketRwBufferTable[(pLlcpSocket->indexRwRead%pLlcpSocket->localRW)].length = 0;
/* Update Value Rw Read Index*/
pLlcpSocket->indexRwRead++;
}
/* Test if data has been bufferized after a read access */
if(dataBufferized == TRUE)
{
/* Get the data length available in the linear buffer */
dataLengthAvailable = phFriNfc_Llcp_CyclicFifoAvailable(&pLlcpSocket->sCyclicFifoBuffer);
if((dataLengthAvailable >= pLlcpSocket->sSocketOption.miu) && (pLlcpSocket->ReceiverBusyCondition == TRUE))
{
/* Reset the ReceiverBusyCondition Flag */
pLlcpSocket->ReceiverBusyCondition = FALSE;
/* RR */
/* TODO: report status? */
phFriNfc_Llcp_Send_ReceiveReady_Frame(pLlcpSocket);
}
}
/* Call the Receive CB */
pRecv_RspCb(pContext,NFCSTATUS_SUCCESS);
}
else
{
/* Call the Receive CB */
status = NFCSTATUS_FAILED;
}
}
else
{
if (pLlcpSocket->eSocket_State != phFriNfc_LlcpTransportSocket_eSocketConnected)
{
status = NFCSTATUS_FAILED;
}
else
{
/* Set Receive pending */
pLlcpSocket->bSocketRecvPending = TRUE;
/* Store the buffer pointer */
pLlcpSocket->sSocketRecvBuffer = psBuffer;
/* Store the Recv CB and context */
pLlcpSocket->pfSocketRecv_Cb = pRecv_RspCb;
pLlcpSocket->pRecvContext = pContext;
/* Set status */
status = NFCSTATUS_PENDING;
}
}
}
if(status != NFCSTATUS_PENDING)
{
/* Note: The receive callback must be released to avoid being called at abort */
LLCP_PRINT("Release Receive callback");
pLlcpSocket->pfSocketRecv_Cb = NULL;
pLlcpSocket->pRecvContext = NULL;
}
return status;
}