1 /* 2 * Copyright (C) 2010 NXP Semiconductors 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 17 /*! 18 * \file phLibNfc_ndef_raw.c 19 20 * Project: NFC FRI 1.1 21 * 22 * $Date: Mon Dec 13 14:14:15 2010 $ 23 * $Author: ing02260 $ 24 * $Revision: 1.74 $ 25 * $Aliases: $ 26 * 27 */ 28 29 /* 30 ************************* Header Files **************************************** 31 */ 32 33 #include <phLibNfcStatus.h> 34 #include <phLibNfc.h> 35 #include <phHal4Nfc.h> 36 #include <phOsalNfc.h> 37 #include <phLibNfc_Internal.h> 38 #include <phLibNfc_ndef_raw.h> 39 #include <phLibNfc_initiator.h> 40 #include <phLibNfc_discovery.h> 41 #include <phFriNfc_NdefReg.h> 42 #include <phFriNfc_MifareStdMap.h> 43 44 /* 45 *************************** Macro's **************************************** 46 */ 47 48 #ifndef STATIC_DISABLE 49 #define STATIC static 50 #else 51 //#undef STATIC 52 #define STATIC 53 #endif 54 55 #define TOPAZ_NDEF_BITMASK 0x10U 56 #define TOPAZ_LEN_BITMASK 0x02U 57 #define TOPAZ_DYNAMIC_LEN 460U 58 #define TOPAZ_STATIC_CARD_LEN 128U 59 #define MIFARE_STD_BLOCK_SIZE 0x10U 60 /* 61 *************************** Global Variables ********************************** 62 */ 63 phLibNfc_Ndef_Info_t NdefInfo; 64 phFriNfc_NdefRecord_t *pNdefRecord=NULL; 65 /* 66 *************************** Static Function Declaration *********************** 67 */ 68 69 /* Response callback for Check Ndef */ 70 STATIC 71 void phLibNfc_Ndef_CheckNdef_Cb(void *pContext, NFCSTATUS status); 72 73 /* Response callback for Ndef Write */ 74 STATIC 75 void phLibNfc_Ndef_Write_Cb(void* Context,NFCSTATUS status); 76 77 /* Response callback for Ndef Read*/ 78 STATIC 79 void phLibNfc_Ndef_Read_Cb(void* Context,NFCSTATUS status); 80 81 /* Response callback forNdef Format*/ 82 STATIC 83 void phLibNfc_Ndef_format_Cb(void *Context,NFCSTATUS status); 84 85 #ifdef LIBNFC_READONLY_NDEF 86 STATIC 87 void 88 phLibNfc_Ndef_ReadOnly_Cb ( 89 void *p_context, 90 NFCSTATUS status); 91 #endif /* #ifdef LIBNFC_READONLY_NDEF */ 92 93 /* Response callback for Search Ndef Content */ 94 STATIC 95 void phLibNfc_Ndef_SrchNdefCnt_Cb(void *context, NFCSTATUS status); 96 97 /* Response callback for Ndef Record Type Discovery */ 98 STATIC 99 void phLibNfc_Ndef_Rtd_Cb( void *CallBackParam); 100 101 /* Response callback for Check Ndef timer callback */ 102 STATIC void CheckNdef_timer_cb(uint32_t timer_id, void *pContext); 103 104 /*Callback for Presence check call from Chk Ndef*/ 105 STATIC void phLibNfc_Ndef_ChkNdef_Pchk_Cb(void *pContext, 106 NFCSTATUS status 107 ); 108 /* 109 *************************** Function Definitions ****************************** 110 */ 111 112 /** 113 * This function reads an NDEF message from already connected tag. 114 * the NDEF message is read starting after the position of the 115 * last read operation of the same tag during current session. 116 */ 117 118 NFCSTATUS phLibNfc_Ndef_Read( phLibNfc_Handle hRemoteDevice, 119 phNfc_sData_t *psRd, 120 phLibNfc_Ndef_EOffset_t Offset, 121 pphLibNfc_RspCb_t pNdefRead_RspCb, 122 void* pContext 123 ) 124 { 125 NFCSTATUS RetVal = NFCSTATUS_FAILED; 126 127 if((NULL == gpphLibContext)|| 128 (gpphLibContext->LibNfcState.cur_state == eLibNfcHalStateShutdown)) 129 { 130 RetVal = NFCSTATUS_NOT_INITIALISED; 131 } 132 else if((NULL == psRd) || (NULL == pNdefRead_RspCb) 133 || (NULL == psRd->buffer) 134 || (0 == psRd->length) 135 || (NULL == pContext) 136 || (0 == hRemoteDevice)) 137 { 138 RetVal= NFCSTATUS_INVALID_PARAMETER; 139 } 140 else if(gpphLibContext->LibNfcState.next_state == eLibNfcHalStateShutdown) 141 { 142 RetVal = NFCSTATUS_SHUTDOWN; 143 } 144 else if(0 == gpphLibContext->Connected_handle) 145 { /*presently no target or tag is connected*/ 146 RetVal=NFCSTATUS_TARGET_NOT_CONNECTED; 147 } 148 else if(hRemoteDevice != gpphLibContext->Connected_handle) 149 { /*This handle of the device sent by application is not connected */ 150 RetVal=NFCSTATUS_INVALID_HANDLE; 151 } 152 else if((TRUE == gpphLibContext->status.GenCb_pending_status) 153 ||(NULL!=gpphLibContext->CBInfo.pClientRdNdefCb) 154 ||(CHK_NDEF_NOT_DONE == gpphLibContext->ndef_cntx.is_ndef)) 155 { 156 /*Previous callback is pending*/ 157 RetVal = NFCSTATUS_REJECTED; 158 } 159 else if(gpphLibContext->ndef_cntx.is_ndef == FALSE) 160 { 161 /*no Ndef Support in tag*/ 162 RetVal = NFCSTATUS_NON_NDEF_COMPLIANT; 163 } 164 else if((gpphLibContext->ndef_cntx.is_ndef == TRUE) 165 &&(0 == gpphLibContext->ndef_cntx.NdefActualSize)) 166 { 167 /*Card is empty- So Returning length as zero*/ 168 psRd->length = 0; 169 RetVal = NFCSTATUS_SUCCESS; 170 } 171 #ifdef LLCP_TRANSACT_CHANGES 172 else if ((LLCP_STATE_RESET_INIT != gpphLibContext->llcp_cntx.sLlcpContext.state) 173 && (LLCP_STATE_CHECKED != gpphLibContext->llcp_cntx.sLlcpContext.state)) 174 { 175 RetVal= NFCSTATUS_BUSY; 176 } 177 #endif /* #ifdef LLCP_TRANSACT_CHANGES */ 178 else 179 { 180 gpphLibContext->psRemoteDevList->psRemoteDevInfo->SessionOpened = SESSION_OPEN; 181 gpphLibContext->ndef_cntx.eLast_Call = NdefRd; 182 if((((phHal_sRemoteDevInformation_t*)hRemoteDevice)->RemDevType == 183 phHal_eMifare_PICC) && (((phHal_sRemoteDevInformation_t*) 184 hRemoteDevice)->RemoteDevInfo.Iso14443A_Info.Sak != 0)&& 185 ((NULL == gpphLibContext->psBufferedAuth) 186 ||(phHal_eMifareAuthentA == gpphLibContext->psBufferedAuth->cmd.MfCmd)) 187 ) 188 { 189 if(NULL != gpphLibContext->psBufferedAuth) 190 { 191 if(NULL != gpphLibContext->psBufferedAuth->sRecvData.buffer) 192 { 193 phOsalNfc_FreeMemory( 194 gpphLibContext->psBufferedAuth->sRecvData.buffer); 195 } 196 if(NULL != gpphLibContext->psBufferedAuth->sSendData.buffer) 197 { 198 phOsalNfc_FreeMemory( 199 gpphLibContext->psBufferedAuth->sSendData.buffer); 200 } 201 phOsalNfc_FreeMemory(gpphLibContext->psBufferedAuth); 202 } 203 gpphLibContext->psBufferedAuth 204 =(phLibNfc_sTransceiveInfo_t *) 205 phOsalNfc_GetMemory(sizeof(phLibNfc_sTransceiveInfo_t)); 206 gpphLibContext->psBufferedAuth->addr = 207 (uint8_t)gpphLibContext->ndef_cntx.psNdefMap 208 ->StdMifareContainer.currentBlock; 209 gpphLibContext->psBufferedAuth->cmd.MfCmd = phHal_eMifareRead16; 210 gpphLibContext->psBufferedAuth->sSendData.length 211 = 0; 212 gpphLibContext->psBufferedAuth->sRecvData.length 213 = MIFARE_STD_BLOCK_SIZE; 214 gpphLibContext->psBufferedAuth->sRecvData.buffer 215 = (uint8_t *)phOsalNfc_GetMemory(MIFARE_STD_BLOCK_SIZE); 216 gpphLibContext->psBufferedAuth->sSendData.buffer 217 = (uint8_t *)phOsalNfc_GetMemory(MIFARE_STD_BLOCK_SIZE); 218 } 219 if(eLibNfcHalStatePresenceChk != 220 gpphLibContext->LibNfcState.next_state) 221 { 222 uint8_t cr_index = 0; 223 gpphLibContext->ndef_cntx.psUpperNdefMsg = psRd; 224 for (cr_index = 0; cr_index < PH_FRINFC_NDEFMAP_CR; cr_index++) 225 { 226 RetVal= phFriNfc_NdefMap_SetCompletionRoutine( 227 gpphLibContext->ndef_cntx.psNdefMap, 228 cr_index, 229 phLibNfc_Ndef_Read_Cb, 230 (void *)gpphLibContext); 231 232 } 233 gpphLibContext->ndef_cntx.NdefContinueRead =(uint8_t) ((phLibNfc_Ndef_EBegin==Offset) ? 234 PH_FRINFC_NDEFMAP_SEEK_BEGIN : 235 PH_FRINFC_NDEFMAP_SEEK_CUR); 236 /* call below layer Ndef Read*/ 237 RetVal = phFriNfc_NdefMap_RdNdef(gpphLibContext->ndef_cntx.psNdefMap, 238 gpphLibContext->ndef_cntx.psUpperNdefMsg->buffer, 239 (uint32_t*)&gpphLibContext->ndef_cntx.psUpperNdefMsg->length, 240 gpphLibContext->ndef_cntx.NdefContinueRead); 241 242 RetVal = PHNFCSTATUS(RetVal); 243 if(NFCSTATUS_INSUFFICIENT_STORAGE == RetVal) 244 { 245 gpphLibContext->ndef_cntx.psUpperNdefMsg->length = 0; 246 RetVal = NFCSTATUS_SUCCESS; 247 } 248 } 249 else 250 { 251 gpphLibContext->CBInfo.pClientRdNdefCb= NULL; 252 RetVal = NFCSTATUS_PENDING; 253 } 254 if(NFCSTATUS_PENDING == RetVal) 255 { 256 gpphLibContext->CBInfo.pClientRdNdefCb = pNdefRead_RspCb; 257 gpphLibContext->CBInfo.pClientRdNdefCntx = pContext; 258 gpphLibContext->status.GenCb_pending_status=TRUE; 259 gpphLibContext->LibNfcState.next_state = eLibNfcHalStateTransaction; 260 261 } 262 else if (NFCSTATUS_SUCCESS == RetVal) 263 { 264 RetVal= NFCSTATUS_SUCCESS; 265 } 266 else 267 { 268 /*Ndef read failed*/ 269 RetVal = NFCSTATUS_FAILED; 270 } 271 } 272 return RetVal; 273 } 274 /* Response callback for phLibNfc_Ndef_Read */ 275 STATIC 276 void phLibNfc_Ndef_Read_Cb(void* Context,NFCSTATUS status) 277 { 278 NFCSTATUS RetStatus = NFCSTATUS_SUCCESS; 279 pphLibNfc_RspCb_t pClientCb=NULL; 280 phLibNfc_LibContext_t *pLibNfc_Ctxt = (phLibNfc_LibContext_t *)Context; 281 void *pUpperLayerContext=NULL; 282 phHal_sRemoteDevInformation_t *ps_rem_dev_info = NULL; 283 284 if(pLibNfc_Ctxt != gpphLibContext) 285 { 286 /*wrong context returned*/ 287 phOsalNfc_RaiseException(phOsalNfc_e_InternalErr,1); 288 } 289 else 290 { 291 if(eLibNfcHalStateShutdown == gpphLibContext->LibNfcState.next_state) 292 { /*shutdown called before completion of Ndef read allow 293 shutdown to happen */ 294 phLibNfc_Pending_Shutdown(); 295 RetStatus = NFCSTATUS_SHUTDOWN; 296 } 297 else if(eLibNfcHalStateRelease == gpphLibContext->LibNfcState.next_state) 298 { 299 RetStatus = NFCSTATUS_ABORTED; 300 } 301 else 302 { 303 gpphLibContext->status.GenCb_pending_status = FALSE; 304 if (gpphLibContext->psBufferedAuth != NULL && gpphLibContext->ndef_cntx.psNdefMap != NULL) { 305 gpphLibContext->psBufferedAuth->addr = (uint8_t) 306 gpphLibContext->ndef_cntx.psNdefMap->StdMifareContainer.currentBlock; 307 } 308 309 if(NFCSTATUS_FAILED == status ) 310 { 311 /*During Ndef read operation tag was not present in RF 312 field of reader*/ 313 RetStatus = NFCSTATUS_FAILED; 314 gpphLibContext->LastTrancvSuccess = FALSE; 315 gpphLibContext->ndef_cntx.is_ndef = FALSE; 316 ps_rem_dev_info = (phHal_sRemoteDevInformation_t *) 317 gpphLibContext->Connected_handle; 318 if ((phHal_eMifare_PICC == ps_rem_dev_info->RemDevType) && 319 (0x08 == (ps_rem_dev_info->RemoteDevInfo.Iso14443A_Info.Sak & 0x08)) || 320 (0x01 == ps_rem_dev_info->RemoteDevInfo.Iso14443A_Info.Sak)) 321 { 322 323 /* card type is mifare 1k/4k, then reconnect */ 324 RetStatus = phHal4Nfc_Connect(gpphLibContext->psHwReference, 325 ps_rem_dev_info, 326 (pphHal4Nfc_ConnectCallback_t) 327 phLibNfc_Reconnect_Mifare_Cb, 328 (void *)gpphLibContext); 329 } 330 331 } 332 else if(status == NFCSTATUS_SUCCESS) 333 { 334 gpphLibContext->LastTrancvSuccess = TRUE; 335 RetStatus = NFCSTATUS_SUCCESS; 336 } 337 else 338 { 339 gpphLibContext->LastTrancvSuccess = FALSE; 340 RetStatus = NFCSTATUS_FAILED; 341 } 342 } 343 /*update the current state as connected*/ 344 phLibNfc_UpdateCurState(status,gpphLibContext); 345 346 pClientCb = gpphLibContext->CBInfo.pClientRdNdefCb; 347 pUpperLayerContext = gpphLibContext->CBInfo.pClientRdNdefCntx; 348 349 gpphLibContext->CBInfo.pClientRdNdefCb = NULL; 350 gpphLibContext->CBInfo.pClientRdNdefCntx = NULL; 351 if(NFCSTATUS_PENDING != RetStatus) 352 { 353 if (NULL != pClientCb) 354 { 355 /*Notify to upper layer status and read bytes*/ 356 pClientCb(pUpperLayerContext,RetStatus); 357 } 358 } 359 } 360 return; 361 } 362 363 /** 364 * Write NDEF to a tag. 365 * 366 * This function allows the user to write a NDEF data to already connected NFC 367 * tag.Function writes a complete NDEF message to a tag. If a NDEF message 368 * already exists in the tag, it will be overwritten. When the transaction is 369 * complete,a notification callback is notified. 370 */ 371 NFCSTATUS phLibNfc_Ndef_Write( 372 phLibNfc_Handle hRemoteDevice, 373 phNfc_sData_t *psWr, 374 pphLibNfc_RspCb_t pNdefWrite_RspCb, 375 void* pContext 376 ) 377 { 378 NFCSTATUS RetVal = NFCSTATUS_FAILED; 379 uint8_t NdefWriteType=0xFF; 380 /*LibNfc is initilized or not */ 381 if((NULL == gpphLibContext)|| 382 (gpphLibContext->LibNfcState.cur_state 383 == eLibNfcHalStateShutdown)) 384 { 385 RetVal = NFCSTATUS_NOT_INITIALISED; 386 }/*Check for application has sent the valid parameters*/ 387 else if((NULL == psWr) || (NULL == pNdefWrite_RspCb) 388 || (NULL == psWr->buffer) 389 || (NULL == pContext) 390 || (0 ==hRemoteDevice)) 391 { 392 RetVal= NFCSTATUS_INVALID_PARAMETER; 393 } 394 else if(gpphLibContext->LibNfcState.next_state 395 == eLibNfcHalStateShutdown) 396 { /* Lib Nfc Shutdown*/ 397 RetVal= NFCSTATUS_SHUTDOWN; 398 } 399 else if(0 == gpphLibContext->Connected_handle) 400 { 401 RetVal=NFCSTATUS_TARGET_NOT_CONNECTED; 402 } 403 else if(hRemoteDevice != gpphLibContext->Connected_handle) 404 { 405 RetVal=NFCSTATUS_INVALID_HANDLE; 406 } 407 else if((TRUE == gpphLibContext->status.GenCb_pending_status)|| 408 (gpphLibContext->ndef_cntx.is_ndef == CHK_NDEF_NOT_DONE)) 409 { 410 /* Previous callback is pending or Tag is not NDEF tag*/ 411 RetVal = NFCSTATUS_REJECTED; 412 PHDBG_INFO("LIbNfc:Previous Callback is Pending"); 413 } 414 else if(FALSE == gpphLibContext->ndef_cntx.is_ndef) 415 { 416 RetVal = NFCSTATUS_NON_NDEF_COMPLIANT; 417 } 418 else if(psWr->length > gpphLibContext->ndef_cntx.NdefLength) 419 { 420 RetVal = NFCSTATUS_NOT_ENOUGH_MEMORY; 421 } 422 #ifdef LLCP_TRANSACT_CHANGES 423 else if ((LLCP_STATE_RESET_INIT != gpphLibContext->llcp_cntx.sLlcpContext.state) 424 && (LLCP_STATE_CHECKED != gpphLibContext->llcp_cntx.sLlcpContext.state)) 425 { 426 RetVal= NFCSTATUS_BUSY; 427 } 428 #endif /* #ifdef LLCP_TRANSACT_CHANGES */ 429 else 430 { 431 uint8_t cr_index = 0; 432 gpphLibContext->ndef_cntx.psUpperNdefMsg = psWr; 433 gpphLibContext->ndef_cntx.AppWrLength= psWr->length; 434 gpphLibContext->ndef_cntx.eLast_Call = NdefWr; 435 gpphLibContext->psRemoteDevList->psRemoteDevInfo->SessionOpened 436 = SESSION_OPEN; 437 if((((phHal_sRemoteDevInformation_t*)hRemoteDevice)->RemDevType == 438 phHal_eMifare_PICC) && (((phHal_sRemoteDevInformation_t*) 439 hRemoteDevice)->RemoteDevInfo.Iso14443A_Info.Sak != 0)&& 440 ((NULL == gpphLibContext->psBufferedAuth) 441 ||(phHal_eMifareAuthentA == 442 gpphLibContext->psBufferedAuth->cmd.MfCmd)) 443 ) 444 { 445 if(NULL != gpphLibContext->psBufferedAuth) 446 { 447 if(NULL != gpphLibContext->psBufferedAuth->sRecvData.buffer) 448 { 449 phOsalNfc_FreeMemory( 450 gpphLibContext->psBufferedAuth->sRecvData.buffer); 451 } 452 if(NULL != gpphLibContext->psBufferedAuth->sSendData.buffer) 453 { 454 phOsalNfc_FreeMemory( 455 gpphLibContext->psBufferedAuth->sSendData.buffer); 456 } 457 phOsalNfc_FreeMemory(gpphLibContext->psBufferedAuth); 458 } 459 gpphLibContext->psBufferedAuth 460 =(phLibNfc_sTransceiveInfo_t *) 461 phOsalNfc_GetMemory(sizeof(phLibNfc_sTransceiveInfo_t)); 462 gpphLibContext->psBufferedAuth->addr = 463 (uint8_t)gpphLibContext->ndef_cntx.psNdefMap 464 ->StdMifareContainer.currentBlock; 465 gpphLibContext->psBufferedAuth->cmd.MfCmd = phHal_eMifareRead16; 466 gpphLibContext->psBufferedAuth->sSendData.length 467 = 0; 468 gpphLibContext->psBufferedAuth->sRecvData.length 469 = MIFARE_STD_BLOCK_SIZE; 470 gpphLibContext->psBufferedAuth->sRecvData.buffer 471 = (uint8_t *)phOsalNfc_GetMemory(MIFARE_STD_BLOCK_SIZE); 472 gpphLibContext->psBufferedAuth->sSendData.buffer 473 = (uint8_t *)phOsalNfc_GetMemory(MIFARE_STD_BLOCK_SIZE); 474 } 475 if(eLibNfcHalStatePresenceChk == 476 gpphLibContext->LibNfcState.next_state) 477 { 478 gpphLibContext->CBInfo.pClientWrNdefCb = NULL; 479 RetVal = NFCSTATUS_PENDING; 480 } 481 else 482 { 483 for (cr_index = 0; cr_index < PH_FRINFC_NDEFMAP_CR; cr_index++) 484 { 485 /* Registering the Completion Routine.*/ 486 RetVal= phFriNfc_NdefMap_SetCompletionRoutine( 487 gpphLibContext->ndef_cntx.psNdefMap, 488 cr_index, 489 phLibNfc_Ndef_Write_Cb, 490 (void *)gpphLibContext); 491 492 } 493 if(0 == psWr->length) 494 { 495 /* Length of bytes to be written Zero- Erase the Tag */ 496 RetVal = phFriNfc_NdefMap_EraseNdef(gpphLibContext->ndef_cntx.psNdefMap); 497 } 498 else 499 { 500 /*Write from beginning or current location*/ 501 NdefWriteType = PH_FRINFC_NDEFMAP_SEEK_BEGIN; 502 /*Call FRI Ndef Write*/ 503 RetVal=phFriNfc_NdefMap_WrNdef(gpphLibContext->ndef_cntx.psNdefMap, 504 gpphLibContext->ndef_cntx.psUpperNdefMsg->buffer, 505 (uint32_t*)&gpphLibContext->ndef_cntx.psUpperNdefMsg->length, 506 NdefWriteType); 507 } 508 if(NFCSTATUS_PENDING == RetVal) 509 { 510 gpphLibContext->CBInfo.pClientWrNdefCb = pNdefWrite_RspCb; 511 gpphLibContext->CBInfo.pClientWrNdefCntx = pContext; 512 gpphLibContext->status.GenCb_pending_status=TRUE; 513 gpphLibContext->LibNfcState.next_state = eLibNfcHalStateTransaction; 514 } 515 else 516 { 517 RetVal = NFCSTATUS_FAILED; 518 } 519 } 520 } 521 return RetVal; 522 } 523 524 /* Response callback for phLibNfc_Ndef_Write */ 525 STATIC 526 void phLibNfc_Ndef_Write_Cb(void* Context,NFCSTATUS status) 527 { 528 529 pphLibNfc_RspCb_t pClientCb=NULL; 530 phLibNfc_LibContext_t *pLibNfc_Ctxt = (phLibNfc_LibContext_t *)Context; 531 void *pUpperLayerContext=NULL; 532 phHal_sRemoteDevInformation_t *ps_rem_dev_info = NULL; 533 534 if(pLibNfc_Ctxt != gpphLibContext) 535 { /*wrong context returned*/ 536 phOsalNfc_RaiseException(phOsalNfc_e_InternalErr,1); 537 } 538 else 539 { 540 if(eLibNfcHalStateShutdown == gpphLibContext->LibNfcState.next_state) 541 { /*shutdown called before completion of Ndef write allow 542 shutdown to happen */ 543 phLibNfc_Pending_Shutdown(); 544 status = NFCSTATUS_SHUTDOWN; 545 } 546 else if(eLibNfcHalStateRelease == gpphLibContext->LibNfcState.next_state) 547 { 548 status = NFCSTATUS_ABORTED; 549 } 550 else 551 { 552 gpphLibContext->status.GenCb_pending_status = FALSE; 553 if (gpphLibContext->psBufferedAuth != NULL && gpphLibContext->ndef_cntx.psNdefMap != NULL) { 554 gpphLibContext->psBufferedAuth->addr = (uint8_t) 555 gpphLibContext->ndef_cntx.psNdefMap->TLVStruct.NdefTLVBlock; 556 } 557 if(status == NFCSTATUS_FAILED ) 558 { 559 status = NFCSTATUS_FAILED; 560 gpphLibContext->LastTrancvSuccess = FALSE; 561 /*During Ndef write operation tag was not present in RF 562 field of reader*/ 563 ps_rem_dev_info = (phHal_sRemoteDevInformation_t *) 564 gpphLibContext->Connected_handle; 565 if ((phHal_eMifare_PICC == ps_rem_dev_info->RemDevType) && 566 (0x08 == (ps_rem_dev_info->RemoteDevInfo.Iso14443A_Info.Sak & 0x08))) 567 { 568 569 570 /* card type is mifare 1k/4k, then reconnect */ 571 status = phHal4Nfc_Connect(gpphLibContext->psHwReference, 572 ps_rem_dev_info, 573 (pphHal4Nfc_ConnectCallback_t) 574 phLibNfc_Reconnect_Mifare_Cb, 575 (void *)gpphLibContext); 576 } 577 } 578 else if( status== NFCSTATUS_SUCCESS) 579 { 580 gpphLibContext->LastTrancvSuccess = TRUE; 581 status = NFCSTATUS_SUCCESS; 582 if(gpphLibContext->ndef_cntx.AppWrLength > 583 gpphLibContext->ndef_cntx.NdefLength) 584 { 585 status = NFCSTATUS_NOT_ENOUGH_MEMORY; 586 } 587 else 588 { 589 pLibNfc_Ctxt->ndef_cntx.NdefActualSize = 590 pLibNfc_Ctxt->ndef_cntx.psUpperNdefMsg->length; 591 } 592 } 593 else 594 { 595 gpphLibContext->LastTrancvSuccess = FALSE; 596 status = NFCSTATUS_FAILED;; 597 } 598 } 599 phLibNfc_UpdateCurState(status,gpphLibContext); 600 601 pClientCb = gpphLibContext->CBInfo.pClientWrNdefCb; 602 pUpperLayerContext = gpphLibContext->CBInfo.pClientWrNdefCntx; 603 604 gpphLibContext->CBInfo.pClientWrNdefCb = NULL; 605 gpphLibContext->CBInfo.pClientWrNdefCntx = NULL; 606 if(NFCSTATUS_PENDING !=status) 607 { 608 if (NULL != pClientCb) 609 { 610 /*Notify to upper layer status and No. of bytes 611 actually written */ 612 pClientCb(pUpperLayerContext, status); 613 } 614 } 615 } 616 return; 617 } 618 619 620 /** 621 * Initialize structures needed for the Ndef 622 * related operation such as Check Ndef, read, write 623 * and Ndef foramt.only once allocation 624 */ 625 void phLibNfc_Ndef_Init(void) 626 { 627 if(gpphLibContext->psTransInfo==NULL) 628 { 629 /*Allocate memory for Transceiveinformation Structure*/ 630 gpphLibContext->psTransInfo = (phLibNfc_sTransceiveInfo_t *) 631 phOsalNfc_GetMemory(sizeof(phLibNfc_sTransceiveInfo_t)); 632 } 633 if(gpphLibContext->psTransInfo==NULL) 634 { 635 /*exception: Not enough memory*/ 636 phOsalNfc_RaiseException(phOsalNfc_e_NoMemory,1); 637 638 } 639 if(NULL == gpphLibContext->ndef_cntx.psNdefMap) 640 { 641 /*Allocate memory for NDEF Mapping Component Context Structure*/ 642 gpphLibContext->ndef_cntx.psNdefMap = (phFriNfc_NdefMap_t *) 643 phOsalNfc_GetMemory(sizeof(phFriNfc_NdefMap_t)); 644 } 645 if(NULL != gpphLibContext->ndef_cntx.psNdefMap) 646 { 647 /*Allocation successful*/ 648 (void)memset(gpphLibContext->ndef_cntx.psNdefMap,0,sizeof(phFriNfc_NdefMap_t)); 649 gpphLibContext->ndef_cntx.NdefSendRecvLen = NDEF_SENDRCV_BUF_LEN; 650 gpphLibContext->ndef_cntx.psNdefMap->SendRecvBuf = 651 (uint8_t*) phOsalNfc_GetMemory(gpphLibContext-> 652 ndef_cntx.NdefSendRecvLen); 653 654 if(NULL != gpphLibContext->ndef_cntx.psNdefMap->SendRecvBuf) 655 { 656 (void)memset(gpphLibContext->ndef_cntx.psNdefMap->SendRecvBuf, 657 0, 658 gpphLibContext->ndef_cntx.NdefSendRecvLen); 659 660 gpphLibContext->psOverHalCtxt =(phFriNfc_OvrHal_t *) 661 phOsalNfc_GetMemory(sizeof(phFriNfc_OvrHal_t)); 662 } 663 } 664 if(NULL == gpphLibContext->psOverHalCtxt) 665 { /*exception: Not enough memory*/ 666 phOsalNfc_RaiseException(phOsalNfc_e_NoMemory,1); 667 } 668 else 669 { 670 671 (void)memset(gpphLibContext->psOverHalCtxt,0, 672 sizeof(phFriNfc_OvrHal_t)); 673 674 /* Initialize the Overlapped hal structure*/ 675 gpphLibContext->psOverHalCtxt->psHwReference = 676 gpphLibContext->psHwReference; 677 if(NULL == gpphLibContext->psDevInputParam ) 678 { 679 gpphLibContext->psDevInputParam = (phHal_sDevInputParam_t *) 680 phOsalNfc_GetMemory(sizeof(phHal_sDevInputParam_t)); 681 } 682 gpphLibContext->ndef_cntx.is_ndef = CHK_NDEF_NOT_DONE; 683 } 684 if(NULL == gpphLibContext->ndef_cntx.ndef_fmt) 685 { 686 /*Allocate memory for Ndef format structure*/ 687 gpphLibContext->ndef_cntx.ndef_fmt = (phFriNfc_sNdefSmtCrdFmt_t *) 688 phOsalNfc_GetMemory(sizeof(phFriNfc_sNdefSmtCrdFmt_t)); 689 } 690 if(NULL != gpphLibContext->ndef_cntx.ndef_fmt) 691 { 692 (void)memset(gpphLibContext->ndef_cntx.ndef_fmt, 693 0, 694 sizeof(phFriNfc_sNdefSmtCrdFmt_t)); 695 } 696 else 697 { 698 /*exception: Not enough memory*/ 699 phOsalNfc_RaiseException(phOsalNfc_e_NoMemory,1); 700 } 701 return; 702 } 703 /** 704 * Free the allocated memory used for Ndef operations 705 */ 706 void phLibNfc_Ndef_DeInit(void) 707 { 708 /* If only allocated then only free the memory*/ 709 if(gpphLibContext->ndef_cntx.psNdefMap !=NULL) 710 { 711 if(gpphLibContext->ndef_cntx.psNdefMap->SendRecvBuf !=NULL) 712 { 713 phOsalNfc_FreeMemory(gpphLibContext->ndef_cntx.psNdefMap->SendRecvBuf); 714 gpphLibContext->ndef_cntx.psNdefMap->SendRecvBuf=NULL; 715 } 716 phOsalNfc_FreeMemory(gpphLibContext->ndef_cntx.psNdefMap); 717 gpphLibContext->ndef_cntx.psNdefMap =NULL; 718 } 719 720 if(NULL != gpphLibContext->ndef_cntx.ndef_fmt) 721 { 722 phOsalNfc_FreeMemory(gpphLibContext->ndef_cntx.ndef_fmt); 723 gpphLibContext->ndef_cntx.ndef_fmt = NULL; 724 } 725 726 if(gpphLibContext->psOverHalCtxt !=NULL) 727 { 728 phOsalNfc_FreeMemory(gpphLibContext->psOverHalCtxt); 729 gpphLibContext->psOverHalCtxt =NULL; 730 } 731 if(gpphLibContext->psDevInputParam !=NULL) 732 { 733 phOsalNfc_FreeMemory(gpphLibContext->psDevInputParam); 734 gpphLibContext->psDevInputParam = NULL; 735 } 736 if(gpphLibContext->psTransInfo!=NULL) 737 { 738 phOsalNfc_FreeMemory(gpphLibContext->psTransInfo); 739 gpphLibContext->psTransInfo= NULL; 740 } 741 } 742 743 744 /** 745 * This function allows the user to check whether a particular Remote Device 746 * is NDEF compliant or not 747 */ 748 NFCSTATUS phLibNfc_Ndef_CheckNdef(phLibNfc_Handle hRemoteDevice, 749 pphLibNfc_ChkNdefRspCb_t pCheckNdef_RspCb, 750 void* pContext) 751 { 752 NFCSTATUS RetVal = NFCSTATUS_FAILED; 753 754 755 if((NULL == gpphLibContext)|| 756 (gpphLibContext->LibNfcState.cur_state == eLibNfcHalStateShutdown)) 757 { 758 /*Lib Nfc not initialized*/ 759 RetVal = NFCSTATUS_NOT_INITIALISED; 760 } 761 else if((NULL == pCheckNdef_RspCb)|| 762 (NULL==pContext)|| 763 (hRemoteDevice == 0)) 764 { 765 /*parameter sent by upper layer are not valid */ 766 RetVal= NFCSTATUS_INVALID_PARAMETER; 767 } 768 else if(gpphLibContext->LibNfcState.next_state == eLibNfcHalStateShutdown) 769 { 770 RetVal = NFCSTATUS_SHUTDOWN; 771 } 772 else if(0 == gpphLibContext->Connected_handle) 773 { 774 RetVal=NFCSTATUS_TARGET_NOT_CONNECTED; 775 } 776 else if(hRemoteDevice != gpphLibContext->Connected_handle) 777 { 778 RetVal=NFCSTATUS_INVALID_HANDLE; 779 } 780 #ifdef LLCP_TRANSACT_CHANGES 781 else if ((LLCP_STATE_RESET_INIT != gpphLibContext->llcp_cntx.sLlcpContext.state) 782 && (LLCP_STATE_CHECKED != gpphLibContext->llcp_cntx.sLlcpContext.state)) 783 { 784 RetVal= NFCSTATUS_BUSY; 785 } 786 #endif /* #ifdef LLCP_TRANSACT_CHANGES */ 787 else 788 { 789 uint8_t cr_index = 0; 790 static uint16_t data_cnt = 0; 791 /* Allocate memory for the ndef related structure */ 792 gpphLibContext->ndef_cntx.NdefSendRecvLen=300; 793 gpphLibContext->ndef_cntx.eLast_Call = ChkNdef; 794 795 /* Resets the component instance */ 796 RetVal = phFriNfc_NdefMap_Reset( gpphLibContext->ndef_cntx.psNdefMap, 797 gpphLibContext->psOverHalCtxt, 798 (phLibNfc_sRemoteDevInformation_t*)hRemoteDevice, 799 gpphLibContext->psDevInputParam, 800 gpphLibContext->ndef_cntx.psNdefMap->SendRecvBuf, 801 gpphLibContext->ndef_cntx.NdefSendRecvLen, 802 gpphLibContext->ndef_cntx.psNdefMap->SendRecvBuf, 803 &(gpphLibContext->ndef_cntx.NdefSendRecvLen), 804 &(data_cnt)); 805 806 807 for (cr_index = 0; cr_index < PH_FRINFC_NDEFMAP_CR; cr_index++) 808 { 809 /* Register the callback for the check ndef */ 810 RetVal = phFriNfc_NdefMap_SetCompletionRoutine( 811 gpphLibContext->ndef_cntx.psNdefMap, 812 cr_index, 813 phLibNfc_Ndef_CheckNdef_Cb, 814 (void *)gpphLibContext); 815 } 816 /*call below layer check Ndef function*/ 817 RetVal = phFriNfc_NdefMap_ChkNdef(gpphLibContext->ndef_cntx.psNdefMap); 818 RetVal =PHNFCSTATUS(RetVal); 819 820 if(RetVal== NFCSTATUS_PENDING) 821 { 822 RetVal = NFCSTATUS_PENDING; 823 } 824 else if((RetVal == NFCSTATUS_FAILED) || (RetVal ==(PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP, 825 NFCSTATUS_INVALID_REMOTE_DEVICE)))) 826 { 827 RetVal= NFCSTATUS_FAILED; 828 } 829 else 830 { 831 if((0x00 == gpphLibContext->ndef_cntx.Chk_Ndef_Timer_Id)|| 832 (PH_OSALNFC_INVALID_TIMER_ID == gpphLibContext->ndef_cntx.Chk_Ndef_Timer_Id)) 833 { 834 gpphLibContext->ndef_cntx.Chk_Ndef_Timer_Id = 835 phOsalNfc_Timer_Create(); 836 } 837 if((0x00 == gpphLibContext->ndef_cntx.Chk_Ndef_Timer_Id)|| 838 (PH_OSALNFC_INVALID_TIMER_ID == gpphLibContext->ndef_cntx.Chk_Ndef_Timer_Id)) 839 { 840 RetVal = NFCSTATUS_FAILED; 841 } 842 else 843 { 844 phOsalNfc_Timer_Start(gpphLibContext->ndef_cntx.Chk_Ndef_Timer_Id, 845 CHK_NDEF_TIMER_TIMEOUT,CheckNdef_timer_cb,NULL); 846 RetVal = NFCSTATUS_PENDING; 847 } 848 } 849 if(RetVal== NFCSTATUS_PENDING) 850 { 851 gpphLibContext->CBInfo.pClientCkNdefCb = pCheckNdef_RspCb; 852 gpphLibContext->CBInfo.pClientCkNdefCntx = pContext; 853 gpphLibContext->status.GenCb_pending_status=TRUE; 854 gpphLibContext->LibNfcState.next_state = eLibNfcHalStateTransaction; 855 } 856 857 } 858 return RetVal; 859 } 860 861 /* Response callback for phLibNfc_Ndef_CheckNdef */ 862 STATIC 863 void phLibNfc_Ndef_CheckNdef_Cb(void *pContext,NFCSTATUS status) 864 { 865 phLibNfc_ChkNdef_Info_t Ndef_Info; 866 NFCSTATUS RetStatus = NFCSTATUS_SUCCESS; 867 pphLibNfc_ChkNdefRspCb_t pClientCb=NULL; 868 phLibNfc_LibContext_t *pLibNfc_Ctxt = 869 (phLibNfc_LibContext_t *)pContext; 870 void *pUpperLayerContext=NULL; 871 phHal_sRemoteDevInformation_t *ps_rem_dev_info = NULL; 872 873 Ndef_Info.ActualNdefMsgLength = 0; 874 Ndef_Info.MaxNdefMsgLength = 0; 875 Ndef_Info.NdefCardState = PHLIBNFC_NDEF_CARD_INVALID; 876 if(pLibNfc_Ctxt != gpphLibContext) 877 { /*wrong context returned from below layer*/ 878 phOsalNfc_RaiseException(phOsalNfc_e_InternalErr,1); 879 } 880 else 881 { 882 ps_rem_dev_info = (phHal_sRemoteDevInformation_t *) 883 gpphLibContext->Connected_handle; 884 if(eLibNfcHalStateShutdown == gpphLibContext->LibNfcState.next_state) 885 { /*shutdown called before completion of check Ndef, allow 886 shutdown to happen */ 887 phLibNfc_Pending_Shutdown(); 888 RetStatus = NFCSTATUS_SHUTDOWN; 889 } 890 else if(eLibNfcHalStateRelease == gpphLibContext->LibNfcState.next_state) 891 { 892 RetStatus = NFCSTATUS_ABORTED; 893 } 894 else 895 { 896 if(status == NFCSTATUS_SUCCESS) 897 { 898 /*Tag is Ndef tag*/ 899 gpphLibContext->ndef_cntx.is_ndef = TRUE; 900 (void)phFriNfc_NdefMap_GetContainerSize( 901 pLibNfc_Ctxt->ndef_cntx.psNdefMap, 902 &(pLibNfc_Ctxt->ndef_cntx.NdefLength), 903 &(pLibNfc_Ctxt->ndef_cntx.NdefActualSize)); 904 /*Get the data size support by particular ndef card */ 905 Ndef_Info.ActualNdefMsgLength = pLibNfc_Ctxt->ndef_cntx.NdefActualSize; 906 Ndef_Info.MaxNdefMsgLength = pLibNfc_Ctxt->ndef_cntx.NdefLength; 907 gpphLibContext->LastTrancvSuccess = TRUE; 908 RetStatus =NFCSTATUS_SUCCESS; 909 } 910 else if (PHNFCSTATUS(status) != NFCSTATUS_MORE_INFORMATION ) 911 { 912 /*Ndef check Failed.Issue a PresenceChk to ascertain if tag is 913 still in the field*/ 914 RetStatus = phHal4Nfc_PresenceCheck( 915 gpphLibContext->psHwReference, 916 phLibNfc_Ndef_ChkNdef_Pchk_Cb, 917 (void *)gpphLibContext 918 ); 919 } 920 else 921 { 922 RetStatus = NFCSTATUS_FAILED; 923 gpphLibContext->LastTrancvSuccess = FALSE; 924 gpphLibContext->ndef_cntx.is_ndef = FALSE; 925 926 if ((phHal_eMifare_PICC == ps_rem_dev_info->RemDevType) && 927 (0x08 == (ps_rem_dev_info->RemoteDevInfo.Iso14443A_Info.Sak & 0x08))) 928 { 929 930 /* card type is mifare 1k/4k, then reconnect */ 931 RetStatus = phHal4Nfc_Connect(gpphLibContext->psHwReference, 932 ps_rem_dev_info, 933 (pphHal4Nfc_ConnectCallback_t) 934 phLibNfc_Reconnect_Mifare_Cb, 935 (void *)gpphLibContext); 936 } 937 else 938 { 939 if((phHal_eJewel_PICC == ps_rem_dev_info->RemDevType) 940 &&(TOPAZ_NDEF_BITMASK & 941 ps_rem_dev_info->RemoteDevInfo.Jewel_Info.HeaderRom0)) 942 { 943 gpphLibContext->ndef_cntx.is_ndef = TRUE; 944 RetStatus = phFriNfc_NdefMap_GetContainerSize( 945 pLibNfc_Ctxt->ndef_cntx.psNdefMap, 946 &(pLibNfc_Ctxt->ndef_cntx.NdefLength), 947 &(pLibNfc_Ctxt->ndef_cntx.NdefActualSize)); 948 /*Get the data size support by particular ndef card */ 949 Ndef_Info.ActualNdefMsgLength = 950 pLibNfc_Ctxt->ndef_cntx.NdefActualSize; 951 Ndef_Info.MaxNdefMsgLength 952 = pLibNfc_Ctxt->ndef_cntx.NdefLength 953 = (TOPAZ_LEN_BITMASK & 954 ps_rem_dev_info->RemoteDevInfo.Jewel_Info.HeaderRom0? 955 TOPAZ_DYNAMIC_LEN:TOPAZ_STATIC_CARD_LEN); 956 RetStatus = NFCSTATUS_SUCCESS; 957 } 958 } 959 } 960 gpphLibContext->LibNfcState.cur_state=eLibNfcHalStateConnect; 961 } 962 gpphLibContext->status.GenCb_pending_status = FALSE; 963 /* Update the current state */ 964 phLibNfc_UpdateCurState(RetStatus,gpphLibContext); 965 if(NFCSTATUS_PENDING != RetStatus) 966 { 967 if(((ps_rem_dev_info->RemDevType == phHal_eMifare_PICC) 968 && (ps_rem_dev_info->RemoteDevInfo.Iso14443A_Info.Sak != 0)&& 969 ((NULL == gpphLibContext->psBufferedAuth) 970 ||(phHal_eMifareAuthentA == gpphLibContext->psBufferedAuth->cmd.MfCmd))) 971 ) 972 { 973 if(NULL != gpphLibContext->psBufferedAuth) 974 { 975 if(NULL != gpphLibContext->psBufferedAuth->sRecvData.buffer) 976 { 977 phOsalNfc_FreeMemory( 978 gpphLibContext->psBufferedAuth->sRecvData.buffer); 979 } 980 if(NULL != gpphLibContext->psBufferedAuth->sSendData.buffer) 981 { 982 phOsalNfc_FreeMemory( 983 gpphLibContext->psBufferedAuth->sSendData.buffer); 984 } 985 phOsalNfc_FreeMemory(gpphLibContext->psBufferedAuth); 986 } 987 gpphLibContext->psBufferedAuth 988 =(phLibNfc_sTransceiveInfo_t *) 989 phOsalNfc_GetMemory(sizeof(phLibNfc_sTransceiveInfo_t)); 990 gpphLibContext->psBufferedAuth->addr = 991 (uint8_t)gpphLibContext->ndef_cntx.psNdefMap 992 ->StdMifareContainer.currentBlock; 993 gpphLibContext->psBufferedAuth->cmd.MfCmd = phHal_eMifareRead16; 994 gpphLibContext->psBufferedAuth->sSendData.length 995 = 0; 996 gpphLibContext->psBufferedAuth->sRecvData.length 997 = MIFARE_STD_BLOCK_SIZE; 998 gpphLibContext->psBufferedAuth->sRecvData.buffer 999 = (uint8_t *)phOsalNfc_GetMemory(MIFARE_STD_BLOCK_SIZE); 1000 gpphLibContext->psBufferedAuth->sSendData.buffer 1001 = (uint8_t *)phOsalNfc_GetMemory(MIFARE_STD_BLOCK_SIZE); 1002 } 1003 pClientCb = gpphLibContext->CBInfo.pClientCkNdefCb; 1004 pUpperLayerContext = gpphLibContext->CBInfo.pClientCkNdefCntx; 1005 gpphLibContext->CBInfo.pClientCkNdefCb = NULL; 1006 gpphLibContext->CBInfo.pClientCkNdefCntx = NULL; 1007 if(NULL != pClientCb) 1008 { 1009 if (!RetStatus) 1010 { 1011 switch (pLibNfc_Ctxt->ndef_cntx.psNdefMap->CardState) 1012 { 1013 case PH_NDEFMAP_CARD_STATE_INITIALIZED: 1014 { 1015 Ndef_Info.NdefCardState = 1016 PHLIBNFC_NDEF_CARD_INITIALISED; 1017 break; 1018 } 1019 1020 case PH_NDEFMAP_CARD_STATE_READ_ONLY: 1021 { 1022 Ndef_Info.NdefCardState = 1023 PHLIBNFC_NDEF_CARD_READ_ONLY; 1024 break; 1025 } 1026 1027 case PH_NDEFMAP_CARD_STATE_READ_WRITE: 1028 { 1029 Ndef_Info.NdefCardState = 1030 PHLIBNFC_NDEF_CARD_READ_WRITE; 1031 break; 1032 } 1033 1034 default: 1035 { 1036 Ndef_Info.NdefCardState = 1037 PHLIBNFC_NDEF_CARD_INVALID; 1038 break; 1039 } 1040 } 1041 } 1042 /* call the upper check ndef callback */ 1043 pClientCb(pUpperLayerContext,Ndef_Info,RetStatus); 1044 } 1045 } 1046 } 1047 return; 1048 } 1049 1050 /*Callback for Presence check call from Chk Ndef*/ 1051 STATIC void phLibNfc_Ndef_ChkNdef_Pchk_Cb(void *pContext, 1052 NFCSTATUS status 1053 ) 1054 { 1055 phLibNfc_ChkNdef_Info_t Ndef_Info = {0,0,0}; 1056 NFCSTATUS RetStatus = NFCSTATUS_SUCCESS; 1057 pphLibNfc_ChkNdefRspCb_t pClientCb=NULL; 1058 phLibNfc_LibContext_t *pLibNfc_Ctxt = 1059 (phLibNfc_LibContext_t *)pContext; 1060 void *pUpperLayerContext=NULL; 1061 phHal_sRemoteDevInformation_t *ps_rem_dev_info = NULL; 1062 if(NFCSTATUS_SUCCESS == status) 1063 { 1064 RetStatus = NFCSTATUS_FAILED; 1065 gpphLibContext->ndef_cntx.is_ndef = FALSE; 1066 } 1067 else 1068 { 1069 RetStatus = NFCSTATUS_TARGET_LOST; 1070 } 1071 if(pLibNfc_Ctxt != gpphLibContext) 1072 { /*wrong context returned from below layer*/ 1073 phOsalNfc_RaiseException(phOsalNfc_e_InternalErr,1); 1074 } 1075 else 1076 { 1077 ps_rem_dev_info = (phHal_sRemoteDevInformation_t *) 1078 gpphLibContext->Connected_handle; 1079 if(((ps_rem_dev_info->RemDevType == phHal_eMifare_PICC) 1080 && (ps_rem_dev_info->RemoteDevInfo.Iso14443A_Info.Sak != 0)&& 1081 ((NULL == gpphLibContext->psBufferedAuth) 1082 ||(phHal_eMifareAuthentA == gpphLibContext->psBufferedAuth->cmd.MfCmd))) 1083 ) 1084 { 1085 if(NULL != gpphLibContext->psBufferedAuth) 1086 { 1087 if(NULL != gpphLibContext->psBufferedAuth->sRecvData.buffer) 1088 { 1089 phOsalNfc_FreeMemory( 1090 gpphLibContext->psBufferedAuth->sRecvData.buffer); 1091 } 1092 if(NULL != gpphLibContext->psBufferedAuth->sSendData.buffer) 1093 { 1094 phOsalNfc_FreeMemory( 1095 gpphLibContext->psBufferedAuth->sSendData.buffer); 1096 } 1097 phOsalNfc_FreeMemory(gpphLibContext->psBufferedAuth); 1098 } 1099 gpphLibContext->psBufferedAuth 1100 =(phLibNfc_sTransceiveInfo_t *) 1101 phOsalNfc_GetMemory(sizeof(phLibNfc_sTransceiveInfo_t)); 1102 gpphLibContext->psBufferedAuth->addr = 1103 (uint8_t)gpphLibContext->ndef_cntx.psNdefMap 1104 ->StdMifareContainer.currentBlock; 1105 gpphLibContext->psBufferedAuth->cmd.MfCmd = phHal_eMifareRead16; 1106 gpphLibContext->psBufferedAuth->sSendData.length 1107 = 0; 1108 gpphLibContext->psBufferedAuth->sRecvData.length 1109 = MIFARE_STD_BLOCK_SIZE; 1110 gpphLibContext->psBufferedAuth->sRecvData.buffer 1111 = (uint8_t *)phOsalNfc_GetMemory(MIFARE_STD_BLOCK_SIZE); 1112 gpphLibContext->psBufferedAuth->sSendData.buffer 1113 = (uint8_t *)phOsalNfc_GetMemory(MIFARE_STD_BLOCK_SIZE); 1114 } 1115 pClientCb = gpphLibContext->CBInfo.pClientCkNdefCb; 1116 pUpperLayerContext = gpphLibContext->CBInfo.pClientCkNdefCntx; 1117 gpphLibContext->CBInfo.pClientCkNdefCb = NULL; 1118 gpphLibContext->CBInfo.pClientCkNdefCntx = NULL; 1119 if(NULL != pClientCb) 1120 { 1121 Ndef_Info.NdefCardState = PHLIBNFC_NDEF_CARD_INVALID; 1122 /* call the upper check ndef callback */ 1123 pClientCb(pUpperLayerContext,Ndef_Info,RetStatus); 1124 } 1125 } 1126 return; 1127 } 1128 /* Check Ndef Timer Callback*/ 1129 STATIC void CheckNdef_timer_cb(uint32_t timer_id, void *pContext) 1130 { 1131 PHNFC_UNUSED_VARIABLE(pContext); 1132 phOsalNfc_Timer_Stop(timer_id); 1133 phOsalNfc_Timer_Delete(gpphLibContext->ndef_cntx.Chk_Ndef_Timer_Id); 1134 gpphLibContext->ndef_cntx.Chk_Ndef_Timer_Id = 0x00; 1135 phLibNfc_Ndef_CheckNdef_Cb((void *)gpphLibContext,NFCSTATUS_MORE_INFORMATION); 1136 } 1137 1138 void phLibNfc_Reconnect_Mifare_Cb ( 1139 void *pContext, 1140 phHal_sRemoteDevInformation_t *psRemoteDevInfo, 1141 NFCSTATUS status) 1142 { 1143 phLibNfc_ChkNdef_Info_t Ndef_Info; 1144 phLibNfc_LibContext_t *pLibNfc_Ctxt = 1145 (phLibNfc_LibContext_t *)pContext; 1146 void *pUpperLayerContext = NULL; 1147 switch(gpphLibContext->ndef_cntx.eLast_Call) 1148 { 1149 case ChkNdef: 1150 { 1151 pphLibNfc_ChkNdefRspCb_t pClientCb=NULL; 1152 pClientCb = pLibNfc_Ctxt->CBInfo.pClientCkNdefCb; 1153 pUpperLayerContext = pLibNfc_Ctxt->CBInfo.pClientCkNdefCntx; 1154 pLibNfc_Ctxt->CBInfo.pClientCkNdefCb = NULL; 1155 pLibNfc_Ctxt->CBInfo.pClientCkNdefCntx = NULL; 1156 if (NULL != pClientCb) 1157 { 1158 status = (NFCSTATUS_SUCCESS == status? 1159 NFCSTATUS_FAILED:NFCSTATUS_TARGET_LOST); 1160 Ndef_Info.ActualNdefMsgLength = 0; 1161 Ndef_Info.MaxNdefMsgLength = 0; 1162 /* call the upper check ndef callback */ 1163 pClientCb(pUpperLayerContext,Ndef_Info,status); 1164 } 1165 } 1166 break; 1167 case NdefRd: 1168 { 1169 pphLibNfc_RspCb_t pClientCb = pLibNfc_Ctxt->CBInfo.pClientRdNdefCb; 1170 pUpperLayerContext = pLibNfc_Ctxt->CBInfo.pClientRdNdefCntx; 1171 pLibNfc_Ctxt->CBInfo.pClientRdNdefCb = NULL; 1172 pLibNfc_Ctxt->CBInfo.pClientRdNdefCntx = NULL; 1173 if (NULL != pClientCb) 1174 { 1175 status = (NFCSTATUS_SUCCESS == status? 1176 NFCSTATUS_FAILED:NFCSTATUS_TARGET_LOST); 1177 /* call the upper ndef read callback */ 1178 pClientCb(pUpperLayerContext,status); 1179 } 1180 } 1181 break; 1182 case NdefWr: 1183 { 1184 pphLibNfc_RspCb_t pClientCb = pLibNfc_Ctxt->CBInfo.pClientWrNdefCb; 1185 pUpperLayerContext = pLibNfc_Ctxt->CBInfo.pClientWrNdefCntx; 1186 pLibNfc_Ctxt->CBInfo.pClientWrNdefCb = NULL; 1187 pLibNfc_Ctxt->CBInfo.pClientWrNdefCntx = NULL; 1188 if (NULL != pClientCb) 1189 { 1190 status = (NFCSTATUS_SUCCESS == status? 1191 NFCSTATUS_FAILED:NFCSTATUS_TARGET_LOST); 1192 /* call the upper ndef write callback */ 1193 pClientCb(pUpperLayerContext,status); 1194 } 1195 } 1196 break; 1197 case NdefFmt: 1198 #ifdef LIBNFC_READONLY_NDEF 1199 case NdefReadOnly: 1200 #endif /* #ifdef LIBNFC_READONLY_NDEF */ 1201 { 1202 pphLibNfc_RspCb_t pClientCb = 1203 pLibNfc_Ctxt->ndef_cntx.pClientNdefFmtCb; 1204 pUpperLayerContext= pLibNfc_Ctxt->ndef_cntx.pClientNdefFmtCntx; 1205 pLibNfc_Ctxt->ndef_cntx.pClientNdefFmtCb = NULL; 1206 pLibNfc_Ctxt->ndef_cntx.pClientNdefFmtCntx = NULL; 1207 if (NULL != pClientCb) 1208 { 1209 status = (NFCSTATUS_SUCCESS == status? 1210 NFCSTATUS_FAILED:NFCSTATUS_TARGET_LOST); 1211 /* call the upper ndef format callback */ 1212 pClientCb(pUpperLayerContext,status); 1213 } 1214 } 1215 break; 1216 case RawTrans: 1217 { 1218 phNfc_sData_t trans_resp; 1219 pphLibNfc_TransceiveCallback_t pClientCb = 1220 pLibNfc_Ctxt->CBInfo.pClientTransceiveCb; 1221 trans_resp.length = 0; 1222 pUpperLayerContext = pLibNfc_Ctxt->CBInfo.pClientTranseCntx; 1223 pLibNfc_Ctxt->CBInfo.pClientTranseCntx= NULL; 1224 pLibNfc_Ctxt->CBInfo.pClientTransceiveCb= NULL; 1225 if (NULL != pClientCb) 1226 { 1227 status = (NFCSTATUS_SUCCESS == status? 1228 NFCSTATUS_FAILED:NFCSTATUS_TARGET_LOST); 1229 /* call the upper transceive callback */ 1230 pClientCb(pUpperLayerContext, 1231 (uint32_t)psRemoteDevInfo, 1232 & trans_resp, 1233 status); 1234 } 1235 } 1236 break; 1237 default: 1238 { 1239 } 1240 break; 1241 } 1242 1243 } 1244 /** 1245 * Target format to make it NDEF compliant 1246 */ 1247 NFCSTATUS phLibNfc_RemoteDev_FormatNdef(phLibNfc_Handle hRemoteDevice, 1248 phNfc_sData_t* pScrtKey, 1249 pphLibNfc_RspCb_t pNdefformat_RspCb, 1250 void* pContext 1251 ) 1252 { 1253 NFCSTATUS RetVal = NFCSTATUS_FAILED; 1254 1255 static uint8_t mif_std_key[6] ={0}, 1256 Index = 0; 1257 if((NULL == gpphLibContext) 1258 ||(gpphLibContext->LibNfcState.cur_state 1259 == eLibNfcHalStateShutdown)) 1260 { 1261 /*Lib Nfc not initialized*/ 1262 RetVal = NFCSTATUS_NOT_INITIALISED; 1263 } 1264 else if((NULL == pContext) 1265 || (NULL == pNdefformat_RspCb) 1266 ||(NULL == pScrtKey) 1267 ||(0 == hRemoteDevice)) 1268 { 1269 RetVal= NFCSTATUS_INVALID_PARAMETER; 1270 } 1271 else if(gpphLibContext->LibNfcState.next_state 1272 == eLibNfcHalStateShutdown) 1273 { 1274 RetVal= NFCSTATUS_SHUTDOWN; 1275 } 1276 else if(0 == gpphLibContext->Connected_handle) 1277 { 1278 RetVal=NFCSTATUS_TARGET_NOT_CONNECTED; 1279 } 1280 else if(hRemoteDevice != gpphLibContext->Connected_handle) 1281 { 1282 RetVal=NFCSTATUS_INVALID_HANDLE; 1283 } 1284 else if((TRUE == gpphLibContext->status.GenCb_pending_status)|| 1285 (NULL != gpphLibContext->ndef_cntx.pClientNdefFmtCb) 1286 ||(gpphLibContext->ndef_cntx.is_ndef == TRUE)) 1287 { 1288 /*Previous Callback is Pending*/ 1289 RetVal = NFCSTATUS_REJECTED; 1290 PHDBG_INFO("LIbNfc:Previous Callback is Pending"); 1291 } 1292 #ifdef LLCP_TRANSACT_CHANGES 1293 else if ((LLCP_STATE_RESET_INIT != gpphLibContext->llcp_cntx.sLlcpContext.state) 1294 && (LLCP_STATE_CHECKED != gpphLibContext->llcp_cntx.sLlcpContext.state)) 1295 { 1296 RetVal= NFCSTATUS_BUSY; 1297 } 1298 #endif /* #ifdef LLCP_TRANSACT_CHANGES */ 1299 else 1300 { 1301 uint8_t fun_id; 1302 gpphLibContext->ndef_cntx.eLast_Call = NdefFmt; 1303 gpphLibContext->ndef_cntx.NdefSendRecvLen = NDEF_SENDRCV_BUF_LEN; 1304 1305 /* Call ndef format reset, this will initialize the ndef 1306 format structure, and appropriate values are filled */ 1307 RetVal = phFriNfc_NdefSmtCrd_Reset(gpphLibContext->ndef_cntx.ndef_fmt, 1308 gpphLibContext->psOverHalCtxt, 1309 (phHal_sRemoteDevInformation_t*)hRemoteDevice, 1310 gpphLibContext->psDevInputParam, 1311 gpphLibContext->ndef_cntx.psNdefMap->SendRecvBuf, 1312 &(gpphLibContext->ndef_cntx.NdefSendRecvLen)); 1313 for(fun_id = 0; fun_id < PH_FRINFC_SMTCRDFMT_CR; fun_id++) 1314 { 1315 /* Register for all the callbacks */ 1316 RetVal = phFriNfc_NdefSmtCrd_SetCR(gpphLibContext->ndef_cntx.ndef_fmt, 1317 fun_id, 1318 phLibNfc_Ndef_format_Cb, 1319 gpphLibContext); 1320 } 1321 /* mif_std_key is required to format the mifare 1k/4k card */ 1322 for (Index =0 ;Index < (pScrtKey->length); Index++ ) 1323 { 1324 mif_std_key[Index] = *(pScrtKey->buffer++); 1325 } 1326 /* Start smart card formatting function */ 1327 RetVal = phFriNfc_NdefSmtCrd_Format(gpphLibContext->ndef_cntx.ndef_fmt, 1328 mif_std_key); 1329 RetVal = PHNFCSTATUS(RetVal); 1330 if(RetVal== NFCSTATUS_PENDING) 1331 { 1332 gpphLibContext->ndef_cntx.pClientNdefFmtCb = pNdefformat_RspCb; 1333 gpphLibContext->ndef_cntx.pClientNdefFmtCntx = pContext; 1334 gpphLibContext->status.GenCb_pending_status=TRUE; 1335 gpphLibContext->LibNfcState.next_state = eLibNfcHalStateTransaction; 1336 } 1337 else 1338 { 1339 RetVal = NFCSTATUS_FAILED; 1340 } 1341 } 1342 return RetVal; 1343 } 1344 1345 #ifdef LIBNFC_READONLY_NDEF 1346 1347 NFCSTATUS 1348 phLibNfc_ConvertToReadOnlyNdef ( 1349 phLibNfc_Handle hRemoteDevice, 1350 phNfc_sData_t* pScrtKey, 1351 pphLibNfc_RspCb_t pNdefReadOnly_RspCb, 1352 void* pContext 1353 ) 1354 { 1355 NFCSTATUS ret_val = NFCSTATUS_FAILED; 1356 static uint8_t mif_std_key[6] ={0}, 1357 Index = 0; 1358 1359 if ((NULL == gpphLibContext) 1360 || (gpphLibContext->LibNfcState.cur_state 1361 == eLibNfcHalStateShutdown)) 1362 { 1363 /* LibNfc not initialized */ 1364 ret_val = NFCSTATUS_NOT_INITIALISED; 1365 } 1366 else if ((NULL == pContext) 1367 || (NULL == pNdefReadOnly_RspCb) 1368 || (0 == hRemoteDevice)) 1369 { 1370 ret_val = NFCSTATUS_INVALID_PARAMETER; 1371 } 1372 else if (gpphLibContext->LibNfcState.next_state 1373 == eLibNfcHalStateShutdown) 1374 { 1375 ret_val = NFCSTATUS_SHUTDOWN; 1376 } 1377 else if (0 == gpphLibContext->Connected_handle) 1378 { 1379 ret_val = NFCSTATUS_TARGET_NOT_CONNECTED; 1380 } 1381 else if (hRemoteDevice != gpphLibContext->Connected_handle) 1382 { 1383 ret_val = NFCSTATUS_INVALID_HANDLE; 1384 } 1385 else if ((TRUE == gpphLibContext->status.GenCb_pending_status) 1386 || (NULL != gpphLibContext->ndef_cntx.pClientNdefFmtCb) 1387 || (FALSE == gpphLibContext->ndef_cntx.is_ndef)) 1388 { 1389 /* Previous Callback is Pending */ 1390 ret_val = NFCSTATUS_REJECTED; 1391 PHDBG_INFO("LIbNfc:Previous Callback is Pending"); 1392 } 1393 else 1394 { 1395 gpphLibContext->ndef_cntx.eLast_Call = NdefReadOnly; 1396 1397 if(eLibNfcHalStatePresenceChk != gpphLibContext->LibNfcState.next_state) 1398 { 1399 phHal_sRemoteDevInformation_t *ps_rem_dev_info = 1400 (phHal_sRemoteDevInformation_t *)hRemoteDevice; 1401 uint8_t fun_id; 1402 1403 switch (ps_rem_dev_info->RemDevType) 1404 { 1405 case phHal_eMifare_PICC: 1406 case phHal_eISO14443_A_PICC: 1407 { 1408 if ((phHal_eMifare_PICC == ps_rem_dev_info->RemDevType) 1409 && (0x00 != ps_rem_dev_info->RemoteDevInfo.Iso14443A_Info.Sak)) 1410 { 1411 for (fun_id = 0; fun_id < PH_FRINFC_NDEFMAP_CR; fun_id++) 1412 { 1413 /* Register the callback for the check ndef */ 1414 ret_val = phFriNfc_NdefMap_SetCompletionRoutine ( 1415 gpphLibContext->ndef_cntx.psNdefMap, 1416 fun_id, phLibNfc_Ndef_ReadOnly_Cb, 1417 (void *)gpphLibContext); 1418 } 1419 1420 /* Start mifare NFC read only function */ 1421 /* mif_std_key is required to format the mifare 1k/4k card */ 1422 if(pScrtKey != NULL && pScrtKey->length == MIFARE_STD_KEY_LEN) 1423 { 1424 for (Index =0 ;Index < (pScrtKey->length); Index++ ) 1425 { 1426 mif_std_key[Index] = *(pScrtKey->buffer++); 1427 } 1428 1429 ret_val = phFriNfc_MifareStdMap_ConvertToReadOnly ( 1430 gpphLibContext->ndef_cntx.psNdefMap, mif_std_key); 1431 ret_val = PHNFCSTATUS(ret_val); 1432 } 1433 } 1434 else 1435 { 1436 gpphLibContext->ndef_cntx.NdefSendRecvLen = NDEF_SENDRCV_BUF_LEN; 1437 1438 /* Call ndef format reset, this will initialize the ndef 1439 format structure, and appropriate values are filled */ 1440 ret_val = phFriNfc_NdefSmtCrd_Reset (gpphLibContext->ndef_cntx.ndef_fmt, 1441 gpphLibContext->psOverHalCtxt, 1442 (phHal_sRemoteDevInformation_t*)hRemoteDevice, 1443 gpphLibContext->psDevInputParam, 1444 gpphLibContext->ndef_cntx.psNdefMap->SendRecvBuf, 1445 &(gpphLibContext->ndef_cntx.NdefSendRecvLen)); 1446 1447 for(fun_id = 0; fun_id < PH_FRINFC_SMTCRDFMT_CR; fun_id++) 1448 { 1449 /* Register for all the callbacks */ 1450 ret_val = phFriNfc_NdefSmtCrd_SetCR (gpphLibContext->ndef_cntx.ndef_fmt, 1451 fun_id, phLibNfc_Ndef_ReadOnly_Cb, 1452 gpphLibContext); 1453 } 1454 1455 /* Start smart card formatting function */ 1456 ret_val = phFriNfc_NdefSmtCrd_ConvertToReadOnly ( 1457 gpphLibContext->ndef_cntx.ndef_fmt); 1458 ret_val = PHNFCSTATUS(ret_val); 1459 } 1460 break; 1461 } 1462 1463 case phHal_eJewel_PICC: 1464 case phHal_eISO15693_PICC: 1465 { 1466 // MC: Got the feedback this was #if 0'd because it was resetting the lock bits 1467 // read in check NDEF, and these should not be reset here already. 1468 #if 0 1469 static uint16_t data_cnt = 0; 1470 1471 /* Resets the component instance */ 1472 ret_val = phFriNfc_NdefMap_Reset (gpphLibContext->ndef_cntx.psNdefMap, 1473 gpphLibContext->psOverHalCtxt, 1474 (phLibNfc_sRemoteDevInformation_t*)hRemoteDevice, 1475 gpphLibContext->psDevInputParam, 1476 gpphLibContext->ndef_cntx.psNdefMap->SendRecvBuf, 1477 gpphLibContext->ndef_cntx.NdefSendRecvLen, 1478 gpphLibContext->ndef_cntx.psNdefMap->SendRecvBuf, 1479 &(gpphLibContext->ndef_cntx.NdefSendRecvLen), 1480 &(data_cnt)); 1481 #endif /* #if 0 */ 1482 1483 1484 for (fun_id = 0; fun_id < PH_FRINFC_NDEFMAP_CR; fun_id++) 1485 { 1486 /* Register the callback for the check ndef */ 1487 ret_val = phFriNfc_NdefMap_SetCompletionRoutine ( 1488 gpphLibContext->ndef_cntx.psNdefMap, 1489 fun_id, phLibNfc_Ndef_ReadOnly_Cb, 1490 (void *)gpphLibContext); 1491 } 1492 1493 /* call below layer check Ndef function */ 1494 ret_val = phFriNfc_NdefMap_ConvertToReadOnly ( 1495 gpphLibContext->ndef_cntx.psNdefMap); 1496 ret_val = PHNFCSTATUS(ret_val); 1497 break; 1498 } 1499 1500 default: 1501 { 1502 /* Tag not supported */ 1503 ret_val = NFCSTATUS_REJECTED; 1504 break; 1505 } 1506 } 1507 } 1508 else 1509 { 1510 gpphLibContext->ndef_cntx.pClientNdefFmtCb= NULL; 1511 ret_val = NFCSTATUS_PENDING; 1512 } 1513 1514 if (NFCSTATUS_PENDING == ret_val) 1515 { 1516 gpphLibContext->ndef_cntx.pClientNdefFmtCb = pNdefReadOnly_RspCb; 1517 gpphLibContext->ndef_cntx.pClientNdefFmtCntx = pContext; 1518 1519 gpphLibContext->status.GenCb_pending_status = TRUE; 1520 gpphLibContext->LibNfcState.next_state = eLibNfcHalStateTransaction; 1521 } 1522 else 1523 { 1524 ret_val = NFCSTATUS_FAILED; 1525 } 1526 } 1527 return ret_val; 1528 } 1529 1530 #endif /* #ifdef LIBNFC_READONLY_NDEF */ 1531 1532 /** 1533 * Response callback for NDEF format. 1534 */ 1535 STATIC 1536 void phLibNfc_Ndef_format_Cb(void *Context,NFCSTATUS status) 1537 { 1538 NFCSTATUS RetStatus = NFCSTATUS_SUCCESS; 1539 pphLibNfc_RspCb_t pClientCb=NULL; 1540 phLibNfc_LibContext_t *pLibNfc_Ctxt = (phLibNfc_LibContext_t *)Context; 1541 void *pUpperLayerContext=NULL; 1542 phHal_sRemoteDevInformation_t *ps_rem_dev_info = NULL; 1543 if(pLibNfc_Ctxt != gpphLibContext) 1544 { /*wrong context returned*/ 1545 phOsalNfc_RaiseException(phOsalNfc_e_InternalErr,1); 1546 } 1547 else 1548 { 1549 if(eLibNfcHalStateShutdown == gpphLibContext->LibNfcState.next_state) 1550 { 1551 /*shutdown is pending so issue shutdown*/ 1552 phLibNfc_Pending_Shutdown(); 1553 RetStatus = NFCSTATUS_SHUTDOWN; 1554 } 1555 else if(eLibNfcHalStateRelease == gpphLibContext->LibNfcState.next_state) 1556 { 1557 RetStatus = NFCSTATUS_ABORTED; 1558 } 1559 else 1560 { 1561 gpphLibContext->status.GenCb_pending_status = FALSE; 1562 if(NFCSTATUS_SUCCESS == status) 1563 { 1564 RetStatus = NFCSTATUS_SUCCESS; 1565 } 1566 else if(PHNFCSTATUS(status)==NFCSTATUS_FAILED) 1567 { 1568 RetStatus = NFCSTATUS_FAILED; 1569 ps_rem_dev_info = (phHal_sRemoteDevInformation_t *) 1570 gpphLibContext->Connected_handle; 1571 if ((phHal_eMifare_PICC == ps_rem_dev_info->RemDevType) && 1572 (0x08 == (ps_rem_dev_info->RemoteDevInfo.Iso14443A_Info.Sak & 0x08))) 1573 { 1574 1575 /* card type is mifare 1k/4k, then reconnect */ 1576 RetStatus = phHal4Nfc_Connect(gpphLibContext->psHwReference, 1577 (phHal_sRemoteDevInformation_t *) 1578 gpphLibContext->Connected_handle, 1579 (pphHal4Nfc_ConnectCallback_t) 1580 phLibNfc_Reconnect_Mifare_Cb, 1581 (void *)gpphLibContext); 1582 } 1583 } 1584 else 1585 { 1586 /*Target was removed during transaction*/ 1587 RetStatus = NFCSTATUS_FAILED; 1588 } 1589 gpphLibContext->LibNfcState.cur_state =eLibNfcHalStateConnect; 1590 } 1591 phLibNfc_UpdateCurState(status,gpphLibContext); 1592 1593 pClientCb = gpphLibContext->ndef_cntx.pClientNdefFmtCb; 1594 pUpperLayerContext= gpphLibContext->ndef_cntx.pClientNdefFmtCntx; 1595 gpphLibContext->ndef_cntx.pClientNdefFmtCb = NULL; 1596 gpphLibContext->ndef_cntx.pClientNdefFmtCntx = NULL; 1597 if(NFCSTATUS_PENDING != RetStatus) 1598 { 1599 if (NULL != pClientCb) 1600 { 1601 /* Call the tag format upper layer callback */ 1602 pClientCb(pUpperLayerContext,RetStatus); 1603 } 1604 } 1605 } 1606 return; 1607 } 1608 1609 #ifdef LIBNFC_READONLY_NDEF 1610 STATIC 1611 void 1612 phLibNfc_Ndef_ReadOnly_Cb ( 1613 void *p_context, 1614 NFCSTATUS status) 1615 { 1616 NFCSTATUS ret_status = NFCSTATUS_SUCCESS; 1617 pphLibNfc_RspCb_t p_client_cb = NULL; 1618 phLibNfc_LibContext_t *pLibNfc_Ctxt = (phLibNfc_LibContext_t *)p_context; 1619 void *p_upper_layer_ctxt = NULL; 1620 1621 if(pLibNfc_Ctxt != gpphLibContext) 1622 { 1623 /*wrong context returned*/ 1624 phOsalNfc_RaiseException(phOsalNfc_e_InternalErr,1); 1625 } 1626 else 1627 { 1628 if(eLibNfcHalStateShutdown == gpphLibContext->LibNfcState.next_state) 1629 { 1630 /*shutdown is pending so issue shutdown*/ 1631 phLibNfc_Pending_Shutdown(); 1632 ret_status = NFCSTATUS_SHUTDOWN; 1633 } 1634 else if(eLibNfcHalStateRelease == gpphLibContext->LibNfcState.next_state) 1635 { 1636 ret_status = NFCSTATUS_ABORTED; 1637 } 1638 else 1639 { 1640 gpphLibContext->status.GenCb_pending_status = FALSE; 1641 if(NFCSTATUS_SUCCESS == status) 1642 { 1643 gpphLibContext->ndef_cntx.psNdefMap->CardState = 1644 PH_NDEFMAP_CARD_STATE_READ_ONLY; 1645 ret_status = NFCSTATUS_SUCCESS; 1646 } 1647 else 1648 { 1649 ret_status = NFCSTATUS_FAILED; 1650 } 1651 gpphLibContext->LibNfcState.cur_state =eLibNfcHalStateConnect; 1652 } 1653 1654 phLibNfc_UpdateCurState(status, gpphLibContext); 1655 1656 p_client_cb = gpphLibContext->ndef_cntx.pClientNdefFmtCb; 1657 p_upper_layer_ctxt = gpphLibContext->ndef_cntx.pClientNdefFmtCntx; 1658 gpphLibContext->ndef_cntx.pClientNdefFmtCb = NULL; 1659 gpphLibContext->ndef_cntx.pClientNdefFmtCntx = NULL; 1660 if(NFCSTATUS_PENDING != ret_status) 1661 { 1662 if (NULL != p_client_cb) 1663 { 1664 /* Call the tag format upper layer callback */ 1665 p_client_cb (p_upper_layer_ctxt, ret_status); 1666 } 1667 } 1668 } 1669 } 1670 #endif /* #ifdef LIBNFC_READONLY_NDEF */ 1671 1672 STATIC 1673 void phLibNfc_Ndef_SrchNdefCnt_Cb(void *context, NFCSTATUS status) 1674 { 1675 static NFCSTATUS RegPrSt=FALSE; 1676 uint8_t RegStatus=0; 1677 NFCSTATUS RetVal = NFCSTATUS_SUCCESS ; 1678 uint32_t Index=0; 1679 1680 1681 PHNFC_UNUSED_VARIABLE(context); 1682 if(eLibNfcHalStateShutdown == gpphLibContext->LibNfcState.next_state) 1683 { /*shutdown called before completion of Ndef read allow 1684 shutdown to happen */ 1685 phLibNfc_Pending_Shutdown(); 1686 RetVal = NFCSTATUS_SHUTDOWN; 1687 } 1688 else if(eLibNfcHalStateRelease == gpphLibContext->LibNfcState.next_state) 1689 { 1690 RetVal = NFCSTATUS_ABORTED; 1691 } 1692 else if(NFCSTATUS_SUCCESS != status) 1693 { 1694 RetVal = status; 1695 } 1696 else 1697 { 1698 /* This conditional branch is for QMORE fix */ 1699 } 1700 gpphLibContext->status.GenCb_pending_status = FALSE; 1701 1702 phLibNfc_UpdateCurState(status,gpphLibContext); 1703 /* Read is not success send failed to upperlayer Call back*/ 1704 if( RetVal!= NFCSTATUS_SUCCESS ) 1705 { 1706 if((RetVal!=NFCSTATUS_SHUTDOWN)&& (RetVal!=NFCSTATUS_ABORTED)) 1707 { 1708 RetVal= NFCSTATUS_FAILED; 1709 } 1710 gpphLibContext->CBInfo.pClientNdefNtfRespCb( 1711 gpphLibContext->CBInfo.pClientNdefNtfRespCntx, 1712 NULL, 1713 gpphLibContext->Connected_handle, 1714 RetVal); 1715 gpphLibContext->CBInfo.pClientNdefNtfRespCb = NULL; 1716 gpphLibContext->CBInfo.pClientNdefNtfRespCntx = NULL; 1717 return; 1718 } 1719 1720 /*Get the Number of records ( If Raw record parameter is null then API gives number of Records*/ 1721 RetVal = phFriNfc_NdefRecord_GetRecords( 1722 gpphLibContext->phLib_NdefRecCntx.ndef_message.buffer, 1723 gpphLibContext->phLib_NdefRecCntx.ndef_message.length, 1724 NULL, 1725 gpphLibContext->phLib_NdefRecCntx.IsChunked, 1726 &(gpphLibContext->phLib_NdefRecCntx.NumberOfRawRecords)); 1727 1728 NdefInfo.pNdefMessage = gpphLibContext->phLib_NdefRecCntx.ndef_message.buffer; 1729 NdefInfo.NdefMessageLengthActual = gpphLibContext->ndef_cntx.NdefActualSize; 1730 NdefInfo.NdefMessageLengthMaximum = gpphLibContext->ndef_cntx.NdefLength; 1731 NdefInfo.NdefRecordCount =0; 1732 1733 /*Allocate memory to hold the records Read*/ 1734 NdefInfo.pNdefRecord = phOsalNfc_GetMemory 1735 (sizeof(phFriNfc_NdefRecord_t)* gpphLibContext->phLib_NdefRecCntx.NumberOfRawRecords ); 1736 if(NULL==NdefInfo.pNdefRecord) 1737 { 1738 gpphLibContext->CBInfo.pClientNdefNtfRespCb( 1739 gpphLibContext->CBInfo.pClientNdefNtfRespCntx, 1740 NULL, 1741 gpphLibContext->Connected_handle, 1742 NFCSTATUS_FAILED); 1743 gpphLibContext->CBInfo.pClientNdefNtfRespCb = NULL; 1744 gpphLibContext->CBInfo.pClientNdefNtfRespCntx = NULL; 1745 return; 1746 } 1747 1748 pNdefRecord=NdefInfo.pNdefRecord; 1749 /*If phLibNfc_Ndef_SearchNdefContent Reg type is NULL return all the Records*/ 1750 if(gpphLibContext->ndef_cntx.pNdef_NtfSrch_Type==NULL) 1751 { 1752 RetVal = phFriNfc_NdefRecord_GetRecords( 1753 gpphLibContext->phLib_NdefRecCntx.ndef_message.buffer, 1754 gpphLibContext->phLib_NdefRecCntx.ndef_message.length, 1755 gpphLibContext->phLib_NdefRecCntx.RawRecords, 1756 gpphLibContext->phLib_NdefRecCntx.IsChunked, 1757 &(gpphLibContext->phLib_NdefRecCntx.NumberOfRawRecords)); 1758 1759 for (Index = 0; Index < gpphLibContext->phLib_NdefRecCntx.NumberOfRawRecords; Index++) 1760 { 1761 RetVal = phFriNfc_NdefRecord_Parse( 1762 pNdefRecord, 1763 gpphLibContext->phLib_NdefRecCntx.RawRecords[Index]); 1764 pNdefRecord++; 1765 NdefInfo.NdefRecordCount++; 1766 } 1767 } 1768 else 1769 { 1770 1771 /* Look for registerd TNF */ 1772 RetVal = phFriNfc_NdefReg_DispatchPacket( 1773 &(gpphLibContext->phLib_NdefRecCntx.NdefReg), 1774 gpphLibContext->phLib_NdefRecCntx.ndef_message.buffer, 1775 (uint16_t)gpphLibContext->phLib_NdefRecCntx.ndef_message.length); 1776 if(NFCSTATUS_SUCCESS != RetVal) 1777 { 1778 /*phFriNfc_NdefReg_DispatchPacket is failed call upper layer*/ 1779 gpphLibContext->CBInfo.pClientNdefNtfRespCb(gpphLibContext->CBInfo.pClientNdefNtfRespCntx, 1780 NULL,gpphLibContext->Connected_handle,NFCSTATUS_FAILED); 1781 gpphLibContext->CBInfo.pClientNdefNtfRespCb = NULL; 1782 gpphLibContext->CBInfo.pClientNdefNtfRespCntx = NULL; 1783 return; 1784 } 1785 1786 while(1 != RegStatus) 1787 { 1788 /* Process the NDEF records, If match FOUND we will get Call back*/ 1789 RegStatus = phFriNfc_NdefReg_Process( &(gpphLibContext->phLib_NdefRecCntx.NdefReg), 1790 &RegPrSt); 1791 if(RegPrSt == TRUE) 1792 { 1793 /* Processing Done */ 1794 break; 1795 } 1796 /*If match found the CbParam will be updated by lower layer, copy the record info*/ 1797 for(Index=0;Index<gpphLibContext->phLib_NdefRecCntx.CbParam.Count;Index++) 1798 { 1799 pNdefRecord->Tnf = gpphLibContext->phLib_NdefRecCntx.CbParam.Records[Index].Tnf; 1800 pNdefRecord->TypeLength = 1801 gpphLibContext->phLib_NdefRecCntx.CbParam.Records[Index].TypeLength; 1802 pNdefRecord->PayloadLength = 1803 gpphLibContext->phLib_NdefRecCntx.CbParam.Records[Index].PayloadLength; 1804 pNdefRecord->IdLength = 1805 gpphLibContext->phLib_NdefRecCntx.CbParam.Records[Index].IdLength; 1806 pNdefRecord->Flags = 1807 gpphLibContext->phLib_NdefRecCntx.CbParam.Records[Index].Flags; 1808 1809 pNdefRecord->Id = phOsalNfc_GetMemory(pNdefRecord->IdLength); 1810 pNdefRecord->Type = phOsalNfc_GetMemory(pNdefRecord->TypeLength); 1811 pNdefRecord->PayloadData = phOsalNfc_GetMemory(pNdefRecord->PayloadLength); 1812 1813 (void)memcpy(pNdefRecord->Id, 1814 gpphLibContext->phLib_NdefRecCntx.CbParam.Records[Index].Id, 1815 pNdefRecord->IdLength); 1816 (void)memcpy(pNdefRecord->PayloadData, 1817 gpphLibContext->phLib_NdefRecCntx.CbParam.Records[Index].PayloadData, 1818 pNdefRecord->PayloadLength); 1819 (void)memcpy(pNdefRecord->Type, 1820 gpphLibContext->phLib_NdefRecCntx.CbParam.Records[Index].Type, 1821 pNdefRecord->TypeLength); 1822 1823 pNdefRecord++; 1824 NdefInfo.NdefRecordCount++; 1825 } 1826 } 1827 } 1828 /* If no record found call upper layer with failed status*/ 1829 if(pNdefRecord == NdefInfo.pNdefRecord) 1830 { 1831 NdefInfo.NdefRecordCount =0; 1832 gpphLibContext->CBInfo.pClientNdefNtfRespCb( 1833 gpphLibContext->CBInfo.pClientNdefNtfRespCntx, 1834 &NdefInfo,gpphLibContext->Connected_handle, 1835 NFCSTATUS_SUCCESS); 1836 1837 } 1838 else 1839 { 1840 /*Call upperlayer Call back with match records*/ 1841 1842 gpphLibContext->CBInfo.pClientNdefNtfRespCb( 1843 gpphLibContext->CBInfo.pClientNdefNtfRespCntx, 1844 &NdefInfo,gpphLibContext->Connected_handle, 1845 NFCSTATUS_SUCCESS); 1846 /*Remove entry from FRI*/ 1847 RetVal = phFriNfc_NdefReg_RmCb( 1848 &(gpphLibContext->phLib_NdefRecCntx.NdefReg), 1849 gpphLibContext->phLib_NdefRecCntx.NdefCb ); 1850 /*Free the memory*/ 1851 if(gpphLibContext->ndef_cntx.pNdef_NtfSrch_Type!=NULL) 1852 { 1853 pNdefRecord=NdefInfo.pNdefRecord; 1854 for(Index=0;Index<gpphLibContext->phLib_NdefRecCntx.CbParam.Count;Index++) 1855 { 1856 phOsalNfc_FreeMemory(pNdefRecord->Id); 1857 phOsalNfc_FreeMemory(pNdefRecord->PayloadData); 1858 phOsalNfc_FreeMemory(pNdefRecord->Type); 1859 pNdefRecord++; 1860 } 1861 } 1862 } 1863 1864 gpphLibContext->CBInfo.pClientNdefNtfRespCb = NULL; 1865 gpphLibContext->CBInfo.pClientNdefNtfRespCntx = NULL; 1866 1867 } 1868 1869 STATIC 1870 void phLibNfc_Ndef_Rtd_Cb( void *CallBackParam) 1871 { 1872 /*There will be single call back given to all match 1873 It's processed in phLibNfc_Ndef_SrchNdefCnt_Cb*/ 1874 PHNFC_UNUSED_VARIABLE(CallBackParam); 1875 } 1876 1877 NFCSTATUS phLibNfc_Ndef_SearchNdefContent( 1878 phLibNfc_Handle hRemoteDevice, 1879 phLibNfc_Ndef_SrchType_t* psSrchTypeList, 1880 uint8_t uNoSrchRecords, 1881 pphLibNfc_Ndef_Search_RspCb_t pNdefNtfRspCb, 1882 void * pContext 1883 ) 1884 { 1885 1886 NFCSTATUS RetVal =NFCSTATUS_SUCCESS; 1887 uint32_t Index=0; 1888 uint8_t cr_index = 0; 1889 1890 1891 if((NULL == gpphLibContext) || 1892 (gpphLibContext->LibNfcState.cur_state 1893 == eLibNfcHalStateShutdown)) 1894 { 1895 RetVal = NFCSTATUS_NOT_INITIALISED; 1896 } 1897 /* Check the state for DeInit is called or not,if yes return NFCSTATUS_SHUTDOWN*/ 1898 else if(gpphLibContext->LibNfcState.next_state 1899 == eLibNfcHalStateShutdown) 1900 { 1901 RetVal= NFCSTATUS_SHUTDOWN; 1902 } 1903 else if( (NULL == pNdefNtfRspCb) || 1904 (NULL == pContext ) || 1905 (0 == hRemoteDevice)) 1906 { 1907 RetVal= NFCSTATUS_INVALID_PARAMETER; 1908 } 1909 else if( (NULL != psSrchTypeList) && (0==uNoSrchRecords)) 1910 { 1911 RetVal= NFCSTATUS_INVALID_PARAMETER; 1912 } 1913 else if(0 == gpphLibContext->Connected_handle) 1914 { /*presently no target or tag is connected*/ 1915 RetVal=NFCSTATUS_TARGET_NOT_CONNECTED; 1916 } 1917 else if(hRemoteDevice != gpphLibContext->Connected_handle) 1918 { /*This handle of the device sent by application is not connected */ 1919 RetVal=NFCSTATUS_INVALID_HANDLE; 1920 } 1921 else if((TRUE == gpphLibContext->status.GenCb_pending_status) 1922 ||(NULL!=gpphLibContext->CBInfo.pClientNdefNtfRespCb)) 1923 { 1924 /*Previous callback is pending*/ 1925 RetVal = NFCSTATUS_REJECTED; 1926 } 1927 else 1928 { 1929 gpphLibContext->ndef_cntx.pNdef_NtfSrch_Type = psSrchTypeList; 1930 1931 if(psSrchTypeList!=NULL) 1932 { 1933 /*Maximum records supported*/ 1934 gpphLibContext->phLib_NdefRecCntx.NumberOfRecords = 255; 1935 /*Reset the FRI component to add the Reg type*/ 1936 RetVal = phFriNfc_NdefReg_Reset( 1937 &(gpphLibContext->phLib_NdefRecCntx.NdefReg), 1938 gpphLibContext->phLib_NdefRecCntx.NdefTypes_array, 1939 &(gpphLibContext->phLib_NdefRecCntx.RecordsExtracted), 1940 &(gpphLibContext->phLib_NdefRecCntx.CbParam), 1941 gpphLibContext->phLib_NdefRecCntx.ChunkedRecordsarray, 1942 gpphLibContext->phLib_NdefRecCntx.NumberOfRecords); 1943 1944 gpphLibContext->phLib_NdefRecCntx.NdefCb = phOsalNfc_GetMemory(sizeof(phFriNfc_NdefReg_Cb_t)); 1945 if(gpphLibContext->phLib_NdefRecCntx.NdefCb==NULL) 1946 { 1947 /*exception: Not enough memory*/ 1948 phOsalNfc_RaiseException(phOsalNfc_e_NoMemory,1); 1949 } 1950 gpphLibContext->phLib_NdefRecCntx.NdefCb->NdefCallback = phLibNfc_Ndef_Rtd_Cb; 1951 /*Copy the TNF types to search in global structure*/ 1952 gpphLibContext->phLib_NdefRecCntx.NdefCb->NumberOfRTDs = uNoSrchRecords; 1953 for(Index=0;Index<uNoSrchRecords;Index++) 1954 { 1955 gpphLibContext->phLib_NdefRecCntx.NdefCb->NdefType[Index] = psSrchTypeList->Type; 1956 gpphLibContext->phLib_NdefRecCntx.NdefCb->Tnf[Index] = psSrchTypeList->Tnf ; 1957 gpphLibContext->phLib_NdefRecCntx.NdefCb->NdeftypeLength[Index] = psSrchTypeList->TypeLength; 1958 psSrchTypeList++; 1959 } 1960 /* Add the TNF type to FRI component*/ 1961 1962 RetVal = phFriNfc_NdefReg_AddCb(&(gpphLibContext->phLib_NdefRecCntx.NdefReg), 1963 gpphLibContext->phLib_NdefRecCntx.NdefCb ); 1964 1965 } 1966 gpphLibContext->phLib_NdefRecCntx.ndef_message.buffer = 1967 phOsalNfc_GetMemory(gpphLibContext->ndef_cntx.NdefActualSize); 1968 gpphLibContext->phLib_NdefRecCntx.ndef_message.length = 1969 gpphLibContext->ndef_cntx.NdefActualSize; 1970 /*Set Complete routine for NDEF Read*/ 1971 for (cr_index = 0; cr_index < PH_FRINFC_NDEFMAP_CR; cr_index++) 1972 { 1973 RetVal= phFriNfc_NdefMap_SetCompletionRoutine( 1974 gpphLibContext->ndef_cntx.psNdefMap, 1975 cr_index, 1976 phLibNfc_Ndef_SrchNdefCnt_Cb, 1977 (void *)gpphLibContext); 1978 1979 } 1980 gpphLibContext->ndef_cntx.NdefContinueRead = PH_FRINFC_NDEFMAP_SEEK_BEGIN; 1981 /* call below layer Ndef Read*/ 1982 RetVal = phFriNfc_NdefMap_RdNdef(gpphLibContext->ndef_cntx.psNdefMap, 1983 gpphLibContext->phLib_NdefRecCntx.ndef_message.buffer, 1984 (uint32_t*)&gpphLibContext->phLib_NdefRecCntx.ndef_message.length, 1985 PH_FRINFC_NDEFMAP_SEEK_BEGIN); 1986 1987 if(NFCSTATUS_PENDING == RetVal) 1988 { 1989 gpphLibContext->CBInfo.pClientNdefNtfRespCb = pNdefNtfRspCb; 1990 gpphLibContext->CBInfo.pClientNdefNtfRespCntx = pContext; 1991 gpphLibContext->status.GenCb_pending_status=TRUE; 1992 gpphLibContext->LibNfcState.next_state = eLibNfcHalStateTransaction; 1993 } 1994 else if (NFCSTATUS_SUCCESS == RetVal) 1995 { 1996 RetVal= NFCSTATUS_SUCCESS; 1997 } 1998 else 1999 { 2000 /*Ndef read failed*/ 2001 RetVal = NFCSTATUS_FAILED; 2002 } 2003 } 2004 return RetVal; 2005 2006 } 2007 2008
