liz/flipperzero-firmware
liz/flipperzero-firmware
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
1f236ede0e
flipperzero-firmware/lib/ST25RFAL002/source/rfal_isoDep.c
gornekich 956788c09b
[FL-2369] NFC refactoring (#1095) 
* nfc: clean up scenes
* nfc worker: remove field on from worker
* nfc worker: move full data exchange to furi hal
* nfc_device: check UID length
* nfc protocol: introduce mifare common API
* nfc: move common data to furi hal nfc
* nfc: rename emv_decoder -> emv
* nfc: move emv data structure to emv lib
* nfc: remove deactivate after detection
* nfc: rework furi hal nfc detect
* nfc: clean up CLI commands and type
* nfc: remove unused includes and function
* nfc: add TxRxType enum
* nfc: read mifare ultralight refactoring
* nfc: refactore mifare ultralight start
* rfal: fix custom data exchange
* nfc: refactor read bank card
* nfc: refactor read emv application
* nfc: refactor emv test emulation
* nfc: refactor uid emulation
* nfc: add limit to uid emulation logger
* fix source formatting
* furi_hal_nfc: fix data exchange full
* nfc: fix mifare ultralight type load

Co-authored-by: あく <alleteam@gmail.com>
2022-04-19 18:23:58 +03:00

3033 lines
122 KiB
C
Raw Blame History

/******************************************************************************
* \attention
*
* <h2><center>&copy; COPYRIGHT 2020 STMicroelectronics</center></h2>
*
* Licensed under ST MYLIBERTY SOFTWARE LICENSE AGREEMENT (the "License");
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* www.st.com/myliberty
*
* 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,
* AND SPECIFICALLY DISCLAIMING THE IMPLIED WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE, AND NON-INFRINGEMENT.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************/
/*
* PROJECT: NFCC firmware
* LANGUAGE: ISO C99
*/
/*! \file rfal_isoDep.c
*
* \author Gustavo Patricio
*
* \brief Implementation of ISO-DEP protocol
*
* This implementation was based on the following specs:
* - ISO/IEC 14443-4 2nd Edition 2008-07-15
* - NFC Forum Digital Protocol 1.1 2014-01-14
*
*/
/*
******************************************************************************
* INCLUDES
******************************************************************************
*/
#include "rfal_isoDep.h"
#include "rfal_rf.h"
#include "utils.h"
/*
******************************************************************************
* ENABLE SWITCH
******************************************************************************
*/
#if RFAL_FEATURE_ISO_DEP
#if(!RFAL_FEATURE_ISO_DEP_POLL && !RFAL_FEATURE_ISO_DEP_LISTEN)
#error \
" RFAL: Invalid ISO-DEP Configuration. Please select at least one mode: Poller and/or Listener. "
#endif
/* Check for valid I-Block length [RFAL_ISODEP_FSX_16 ; RFAL_ISODEP_FSX_4096]*/
#if((RFAL_FEATURE_ISO_DEP_IBLOCK_MAX_LEN > 4096) || (RFAL_FEATURE_ISO_DEP_IBLOCK_MAX_LEN < 16))
#error \
" RFAL: Invalid ISO-DEP IBlock Max length. Please change RFAL_FEATURE_ISO_DEP_IBLOCK_MAX_LEN. "
#endif
/* Check for valid APDU length. */
#if((RFAL_FEATURE_ISO_DEP_APDU_MAX_LEN < RFAL_FEATURE_ISO_DEP_IBLOCK_MAX_LEN))
#error " RFAL: Invalid ISO-DEP APDU Max length. Please change RFAL_FEATURE_ISO_DEP_APDU_MAX_LEN. "
#endif
/*
******************************************************************************
* DEFINES
******************************************************************************
*/
#define ISODEP_CRC_LEN RFAL_CRC_LEN /*!< ISO1443 CRC Length */
#define ISODEP_PCB_POS (0U) /*!< PCB position on message header*/
#define ISODEP_SWTX_INF_POS (1U) /*!< INF position in a S-WTX */
#define ISODEP_DID_POS (1U) /*!< DID position on message header*/
#define ISODEP_SWTX_PARAM_LEN (1U) /*!< SWTX parameter length */
#define ISODEP_DSL_MAX_LEN \
(RFAL_ISODEP_PCB_LEN + RFAL_ISODEP_DID_LEN) /*!< Deselect Req/Res length */
#define ISODEP_PCB_xBLOCK_MASK (0xC0U) /*!< Bit mask for Block type */
#define ISODEP_PCB_IBLOCK (0x00U) /*!< Bit mask indicating a I-Block */
#define ISODEP_PCB_RBLOCK (0x80U) /*!< Bit mask indicating a R-Block */
#define ISODEP_PCB_SBLOCK (0xC0U) /*!< Bit mask indicating a S-Block */
#define ISODEP_PCB_INVALID (0x40U) /*!< Bit mask of an Invalid PCB */
#define ISODEP_HDR_MAX_LEN \
(RFAL_ISODEP_PCB_LEN + RFAL_ISODEP_DID_LEN + \
RFAL_ISODEP_NAD_LEN) /*!< Max header length (PCB + DID + NAD) */
#define ISODEP_PCB_IB_VALID_MASK \
(ISODEP_PCB_B6_BIT | ISODEP_PCB_B2_BIT) /*!< Bit mask for the MUST bits on I-Block */
#define ISODEP_PCB_IB_VALID_VAL \
(ISODEP_PCB_B2_BIT) /*!< Value for the MUST bits on I-Block */
#define ISODEP_PCB_RB_VALID_MASK \
(ISODEP_PCB_B6_BIT | ISODEP_PCB_B3_BIT | \
ISODEP_PCB_B2_BIT) /*!< Bit mask for the MUST bits on R-Block */
#define ISODEP_PCB_RB_VALID_VAL \
(ISODEP_PCB_B6_BIT | ISODEP_PCB_B2_BIT) /*!< Value for the MUST bits on R-Block */
#define ISODEP_PCB_SB_VALID_MASK \
(ISODEP_PCB_B3_BIT | ISODEP_PCB_B2_BIT | \
ISODEP_PCB_B1_BIT) /*!< Bit mask for the MUST bits on I-Block */
#define ISODEP_PCB_SB_VALID_VAL \
(ISODEP_PCB_B2_BIT) /*!< Value for the MUST bits on I-Block */
#define ISODEP_PCB_B1_BIT \
(0x01U) /*!< Bit mask for the RFU S Blocks */
#define ISODEP_PCB_B2_BIT \
(0x02U) /*!< Bit mask for the RFU bit2 in I,S,R Blocks */
#define ISODEP_PCB_B3_BIT \
(0x04U) /*!< Bit mask for the RFU bit3 in R Blocks */
#define ISODEP_PCB_B6_BIT \
(0x20U) /*!< Bit mask for the RFU bit2 in R Blocks */
#define ISODEP_PCB_CHAINING_BIT \
(0x10U) /*!< Bit mask for the chaining bit of an ISO DEP I-Block in PCB. */
#define ISODEP_PCB_DID_BIT \
(0x08U) /*!< Bit mask for the DID presence bit of an ISO DEP I,S,R Blocks PCB. */
#define ISODEP_PCB_NAD_BIT \
(0x04U) /*!< Bit mask for the NAD presence bit of an ISO DEP I,S,R Blocks in PCB */
#define ISODEP_PCB_BN_MASK \
(0x01U) /*!< Bit mask for the block number of an ISO DEP I,R Block in PCB */
#define ISODEP_SWTX_PL_MASK \
(0xC0U) /*!< Bit mask for the Power Level bits of the inf byte of an WTX request or response */
#define ISODEP_SWTX_WTXM_MASK \
(0x3FU) /*!< Bit mask for the WTXM bits of the inf byte of an WTX request or response */
#define ISODEP_RBLOCK_INF_LEN (0U) /*!< INF length of R-Block Digital 1.1 15.1.3 */
#define ISODEP_SDSL_INF_LEN (0U) /*!< INF length of S(DSL) Digital 1.1 15.1.3 */
#define ISODEP_SWTX_INF_LEN (1U) /*!< INF length of S(WTX) Digital 1.1 15.2.2 */
#define ISODEP_WTXM_MIN (1U) /*!< Minimum allowed value for the WTXM, Digital 1.0 13.2.2 */
#define ISODEP_WTXM_MAX (59U) /*!< Maximum allowed value for the WTXM, Digital 1.0 13.2.2 */
#define ISODEP_PCB_Sxx_MASK (0x30U) /*!< Bit mask for the S-Block type */
#define ISODEP_PCB_DESELECT (0x00U) /*!< Bit mask for S-Block indicating Deselect */
#define ISODEP_PCB_WTX (0x30U) /*!< Bit mask for S-Block indicating Waiting Time eXtension */
#define ISODEP_PCB_Rx_MASK (0x10U) /*!< Bit mask for the R-Block type */
#define ISODEP_PCB_ACK (0x00U) /*!< Bit mask for R-Block indicating ACK */
#define ISODEP_PCB_NAK (0x10U) /*!< Bit mask for R-Block indicating NAK */
/*! Maximum length of control message (no INF) */
#define ISODEP_CONTROLMSG_BUF_LEN \
(RFAL_ISODEP_PCB_LEN + RFAL_ISODEP_DID_LEN + RFAL_ISODEP_NAD_LEN + ISODEP_SWTX_PARAM_LEN)
#define ISODEP_FWT_DEACTIVATION \
(71680U) /*!< FWT used for DESELECT Digital 2.2 B10 ISO1444-4 7.2 & 8.1 */
#define ISODEP_MAX_RERUNS (0x0FFFFFFFU) /*!< Maximum rerun retrys for a blocking protocol run*/
#define ISODEP_PCBSBLOCK \
(0x00U | ISODEP_PCB_SBLOCK | ISODEP_PCB_B2_BIT) /*!< PCB Value of a S-Block */
#define ISODEP_PCB_SDSL \
(ISODEP_PCBSBLOCK | ISODEP_PCB_DESELECT) /*!< PCB Value of a S-Block with DESELECT */
#define ISODEP_PCB_SWTX \
(ISODEP_PCBSBLOCK | ISODEP_PCB_WTX) /*!< PCB Value of a S-Block with WTX */
#define ISODEP_PCB_SPARAMETERS \
(ISODEP_PCB_SBLOCK | ISODEP_PCB_WTX) /*!< PCB Value of a S-Block with PARAMETERS */
#define ISODEP_FWI_LIS_MAX_NFC \
8U /*!< FWT Listener Max FWIT4ATmax FWIBmax Digital 1.1 A6 & A3 */
#define ISODEP_FWI_LIS_MAX_EMVCO \
7U /*!< FWT Listener Max FWIMAX EMVCo 2.6 A.5 */
#define ISODEP_FWI_LIS_MAX \
(uint8_t)( \
(gIsoDep.compMode == RFAL_COMPLIANCE_MODE_EMV) ? \
ISODEP_FWI_LIS_MAX_EMVCO : \
ISODEP_FWI_LIS_MAX_NFC) /*!< FWI Listener Max as NFC / EMVCo */
#define ISODEP_FWT_LIS_MAX \
rfalIsoDepFWI2FWT(ISODEP_FWI_LIS_MAX) /*!< FWT Listener Max */
#define ISODEP_FWI_MIN_10 (1U) /*!< Minimum value for FWI Digital 1.0 11.6.2.17 */
#define ISODEP_FWI_MIN_11 (0U) /*!< Default value for FWI Digital 1.1 13.6.2 */
#define ISODEP_FWI_MAX (14U) /*!< Maximum value for FWI Digital 1.0 11.6.2.17 */
#define ISODEP_SFGI_MIN (0U) /*!< Default value for FWI Digital 1.1 13.6.2.22 */
#define ISODEP_SFGI_MAX (14U) /*!< Maximum value for FWI Digital 1.1 13.6.2.22 */
#define RFAL_ISODEP_SPARAM_TVL_HDR_LEN (2U) /*!< S(PARAMETERS) TVL header length: Tag + Len */
#define RFAL_ISODEP_SPARAM_HDR_LEN \
(RFAL_ISODEP_PCB_LEN + \
RFAL_ISODEP_SPARAM_TVL_HDR_LEN) /*!< S(PARAMETERS) header length: PCB + Tag + Len */
/**********************************************************************************************************************/
/**********************************************************************************************************************/
#define RFAL_ISODEP_NO_PARAM (0U) /*!< No parameter flag for isoDepHandleControlMsg() */
#define RFAL_ISODEP_CMD_RATS (0xE0U) /*!< RATS command Digital 1.1 13.6.1 */
#define RFAL_ISODEP_ATS_MIN_LEN (1U) /*!< Minimum ATS length Digital 1.1 13.6.2 */
#define RFAL_ISODEP_ATS_HDR_LEN (5U) /*!< ATS headerlength Digital 1.1 13.6.2 */
#define RFAL_ISODEP_ATS_MAX_LEN \
(RFAL_ISODEP_ATS_HDR_LEN + \
RFAL_ISODEP_ATS_HB_MAX_LEN) /*!< Maximum ATS length Digital 1.1 13.6.2 */
#define RFAL_ISODEP_ATS_T0_FSCI_MASK (0x0FU) /*!< ATS T0's FSCI mask Digital 1.1 13.6.2 */
#define RFAL_ISODEP_ATS_TB_FWI_SHIFT (4U) /*!< ATS TB's FWI shift Digital 1.1 13.6.2 */
#define RFAL_ISODEP_ATS_FWI_MASK (0x0FU) /*!< ATS TB's FWI shift Digital 1.1 13.6.2 */
#define RFAL_ISODEP_ATS_TL_POS (0x00U) /*!< ATS TL's position Digital 1.1 13.6.2 */
#define RFAL_ISODEP_PPS_SB (0xD0U) /*!< PPS REQ PPSS's SB value (no CID) ISO14443-4 5.3 */
#define RFAL_ISODEP_PPS_MASK (0xF0U) /*!< PPS REQ PPSS's SB mask ISO14443-4 5.3 */
#define RFAL_ISODEP_PPS_SB_DID_MASK \
(0x0FU) /*!< PPS REQ PPSS's DID|CID mask ISO14443-4 5.3 */
#define RFAL_ISODEP_PPS_PPS0_PPS1_PRESENT \
(0x11U) /*!< PPS REQ PPS0 indicating that PPS1 is present */
#define RFAL_ISODEP_PPS_PPS1 (0x00U) /*!< PPS REQ PPS1 fixed value ISO14443-4 5.3 */
#define RFAL_ISODEP_PPS_PPS1_DSI_SHIFT \
(2U) /*!< PPS REQ PPS1 fixed value ISO14443-4 5.3 */
#define RFAL_ISODEP_PPS_PPS1_DXI_MASK \
(0x0FU) /*!< PPS REQ PPS1 fixed value ISO14443-4 5.3 */
#define RFAL_ISODEP_PPS_RES_LEN (1U) /*!< PPS Response length ISO14443-4 5.4 */
#define RFAL_ISODEP_PPS_STARTBYTE_POS \
(0U) /*!< PPS REQ PPSS's byte position ISO14443-4 5.4 */
#define RFAL_ISODEP_PPS_PPS0_POS (1U) /*!< PPS REQ PPS0's byte position ISO14443-4 5.4 */
#define RFAL_ISODEP_PPS_PPS1_POS (2U) /*!< PPS REQ PPS1's byte position ISO14443-4 5.4 */
#define RFAL_ISODEP_PPS0_VALID_MASK \
(0xEFU) /*!< PPS REQ PPS0 valid coding mask ISO14443-4 5.4 */
#define RFAL_ISODEP_CMD_ATTRIB (0x1DU) /*!< ATTRIB command Digital 1.1 14.6.1 */
#define RFAL_ISODEP_ATTRIB_PARAM2_DSI_SHIFT \
(6U) /*!< ATTRIB PARAM2 DSI shift Digital 1.1 14.6.1 */
#define RFAL_ISODEP_ATTRIB_PARAM2_DRI_SHIFT \
(4U) /*!< ATTRIB PARAM2 DRI shift Digital 1.1 14.6.1 */
#define RFAL_ISODEP_ATTRIB_PARAM2_DXI_MASK \
(0xF0U) /*!< ATTRIB PARAM2 DxI mask Digital 1.1 14.6.1 */
#define RFAL_ISODEP_ATTRIB_PARAM2_FSDI_MASK \
(0x0FU) /*!< ATTRIB PARAM2 FSDI mask Digital 1.1 14.6.1 */
#define RFAL_ISODEP_ATTRIB_PARAM4_DID_MASK \
(0x0FU) /*!< ATTRIB PARAM4 DID mask Digital 1.1 14.6.1 */
#define RFAL_ISODEP_ATTRIB_HDR_LEN (9U) /*!< ATTRIB REQ header length Digital 1.1 14.6.1 */
#define RFAL_ISODEP_ATTRIB_RES_HDR_LEN \
(1U) /*!< ATTRIB RES header length Digital 1.1 14.6.2 */
#define RFAL_ISODEP_ATTRIB_RES_MBLIDID_POS \
(0U) /*!< ATTRIB RES MBLI|DID position Digital 1.1 14.6.2 */
#define RFAL_ISODEP_ATTRIB_RES_DID_MASK \
(0x0FU) /*!< ATTRIB RES DID mask Digital 1.1 14.6.2 */
#define RFAL_ISODEP_ATTRIB_RES_MBLI_MASK \
(0x0FU) /*!< ATTRIB RES MBLI mask Digital 1.1 14.6.2 */
#define RFAL_ISODEP_ATTRIB_RES_MBLI_SHIFT \
(4U) /*!< ATTRIB RES MBLI shift Digital 1.1 14.6.2 */
#define RFAL_ISODEP_DID_MASK (0x0FU) /*!< ISODEP's DID mask */
#define RFAL_ISODEP_DID_00 (0U) /*!< ISODEP's DID value 0 */
#define RFAL_ISODEP_FSDI_MAX_NFC (8U) /*!< Max FSDI value Digital 2.0 14.6.1.9 & B7 & B8 */
#define RFAL_ISODEP_FSDI_MAX_NFC_21 \
(0x0CU) /*!< Max FSDI value Digital 2.1 14.6.1.9 & Table 72 */
#define RFAL_ISODEP_FSDI_MAX_EMV (0x0CU) /*!< Max FSDI value EMVCo 3.0 5.7.2.5 */
#define RFAL_ISODEP_RATS_PARAM_FSDI_MASK \
(0xF0U) /*!< Mask bits for FSDI in RATS */
#define RFAL_ISODEP_RATS_PARAM_FSDI_SHIFT \
(4U) /*!< Shift for FSDI in RATS */
#define RFAL_ISODEP_RATS_PARAM_DID_MASK \
(0x0FU) /*!< Mask bits for DID in RATS */
#define RFAL_ISODEP_ATS_TL_OFFSET \
(0x00U) /*!< Offset of TL on ATS */
#define RFAL_ISODEP_ATS_TA_OFFSET \
(0x02U) /*!< Offset of TA if it is present on ATS */
#define RFAL_ISODEP_ATS_TB_OFFSET \
(0x03U) /*!< Offset of TB if both TA and TB is present on ATS */
#define RFAL_ISODEP_ATS_TC_OFFSET \
(0x04U) /*!< Offset of TC if both TA,TB & TC are present on ATS */
#define RFAL_ISODEP_ATS_HIST_OFFSET \
(0x05U) /*!< Offset of Historical Bytes if TA, TB & TC are present on ATS */
#define RFAL_ISODEP_ATS_TC_ADV_FEAT \
(0x10U) /*!< Bit mask indicating support for Advanced protocol features: DID & NAD */
#define RFAL_ISODEP_ATS_TC_DID (0x02U) /*!< Bit mask indicating support for DID */
#define RFAL_ISODEP_ATS_TC_NAD (0x01U) /*!< Bit mask indicating support for NAD */
#define RFAL_ISODEP_PPS0_PPS1_PRESENT \
(0x11U) /*!< PPS0 byte indicating that PPS1 is present */
#define RFAL_ISODEP_PPS0_PPS1_NOT_PRESENT \
(0x01U) /*!< PPS0 byte indicating that PPS1 is NOT present */
#define RFAL_ISODEP_PPS1_DRI_MASK \
(0x03U) /*!< PPS1 byte DRI mask bits */
#define RFAL_ISODEP_PPS1_DSI_MASK \
(0x0CU) /*!< PPS1 byte DSI mask bits */
#define RFAL_ISODEP_PPS1_DSI_SHIFT \
(2U) /*!< PPS1 byte DSI shift */
#define RFAL_ISODEP_PPS1_DxI_MASK \
(0x03U) /*!< PPS1 byte DSI/DRS mask bits */
/*! Delta Time for polling during Activation (ATS) : 20ms Digital 1.0 11.7.1.1 & A.7 */
#define RFAL_ISODEP_T4T_DTIME_POLL_10 rfalConvMsTo1fc(20)
/*! Delta Time for polling during Activation (ATS) : 16.4ms Digital 1.1 13.8.1.1 & A.6
* Use 16 ms as testcase T4AT_BI_10_03 sends a frame exactly at the border */
#define RFAL_ISODEP_T4T_DTIME_POLL_11 216960U
/*! Activation frame waiting time FWT(act) = 71680/fc (~5286us) Digital 1.1 13.8.1.1 & A.6 */
#define RFAL_ISODEP_T4T_FWT_ACTIVATION (71680U + RFAL_ISODEP_T4T_DTIME_POLL_11)
/*! Delta frame waiting time = 16/fc Digital 1.0 11.7.1.3 & A.7*/
#define RFAL_ISODEP_DFWT_10 16U
/*! Delta frame waiting time = 16/fc Digital 2.0 14.8.1.3 & B.7*/
#define RFAL_ISODEP_DFWT_20 49152U
/*
******************************************************************************
* MACROS
******************************************************************************
*/
#define isoDep_PCBisIBlock(pcb) \
(((pcb) & (ISODEP_PCB_xBLOCK_MASK | ISODEP_PCB_IB_VALID_MASK)) == \
(ISODEP_PCB_IBLOCK | ISODEP_PCB_IB_VALID_VAL)) /*!< Checks if pcb is a I-Block */
#define isoDep_PCBisRBlock(pcb) \
(((pcb) & (ISODEP_PCB_xBLOCK_MASK | ISODEP_PCB_RB_VALID_MASK)) == \
(ISODEP_PCB_RBLOCK | ISODEP_PCB_RB_VALID_VAL)) /*!< Checks if pcb is a R-Block */
#define isoDep_PCBisSBlock(pcb) \
(((pcb) & (ISODEP_PCB_xBLOCK_MASK | ISODEP_PCB_SB_VALID_MASK)) == \
(ISODEP_PCB_SBLOCK | ISODEP_PCB_SB_VALID_VAL)) /*!< Checks if pcb is a S-Block */
#define isoDep_PCBisChaining(pcb) \
(((pcb)&ISODEP_PCB_CHAINING_BIT) == \
ISODEP_PCB_CHAINING_BIT) /*!< Checks if pcb is indicating chaining */
#define isoDep_PCBisDeselect(pcb) \
(((pcb)&ISODEP_PCB_Sxx_MASK) == \
ISODEP_PCB_DESELECT) /*!< Checks if pcb is indicating DESELECT */
#define isoDep_PCBisWTX(pcb) \
(((pcb)&ISODEP_PCB_Sxx_MASK) == ISODEP_PCB_WTX) /*!< Checks if pcb is indicating WTX */
#define isoDep_PCBisACK(pcb) \
(((pcb)&ISODEP_PCB_Rx_MASK) == ISODEP_PCB_ACK) /*!< Checks if pcb is indicating ACK */
#define isoDep_PCBisNAK(pcb) \
(((pcb)&ISODEP_PCB_Rx_MASK) == ISODEP_PCB_NAK) /*!< Checks if pcb is indicating ACK */
#define isoDep_PCBhasDID(pcb) \
(((pcb)&ISODEP_PCB_DID_BIT) == ISODEP_PCB_DID_BIT) /*!< Checks if pcb is indicating DID */
#define isoDep_PCBhasNAD(pcb) \
(((pcb)&ISODEP_PCB_NAD_BIT) == ISODEP_PCB_NAD_BIT) /*!< Checks if pcb is indicating NAD */
#define isoDep_PCBisIChaining(pcb) \
(isoDep_PCBisIBlock(pcb) && \
isoDep_PCBisChaining(pcb)) /*!< Checks if pcb is I-Block indicating chaining*/
#define isoDep_PCBisSDeselect(pcb) \
(isoDep_PCBisSBlock(pcb) && \
isoDep_PCBisDeselect(pcb)) /*!< Checks if pcb is S-Block indicating DESELECT*/
#define isoDep_PCBisSWTX(pcb) \
(isoDep_PCBisSBlock(pcb) && \
isoDep_PCBisWTX(pcb)) /*!< Checks if pcb is S-Block indicating WTX */
#define isoDep_PCBisRACK(pcb) \
(isoDep_PCBisRBlock(pcb) && \
isoDep_PCBisACK(pcb)) /*!< Checks if pcb is R-Block indicating ACK */
#define isoDep_PCBisRNAK(pcb) \
(isoDep_PCBisRBlock(pcb) && \
isoDep_PCBisNAK(pcb)) /*!< Checks if pcb is R-Block indicating NAK */
#define isoDep_PCBIBlock(bn) \
((uint8_t)(0x00U | ISODEP_PCB_IBLOCK | ISODEP_PCB_B2_BIT | ((bn)&ISODEP_PCB_BN_MASK))) /*!< Returns an I-Block with the given block number (bn) */
#define isoDep_PCBIBlockChaining(bn) \
((uint8_t)(isoDep_PCBIBlock(bn) | ISODEP_PCB_CHAINING_BIT)) /*!< Returns an I-Block with the given block number (bn) indicating chaining */
#define isoDep_PCBRBlock(bn) \
((uint8_t)(0x00U | ISODEP_PCB_RBLOCK | ISODEP_PCB_B6_BIT | ISODEP_PCB_B2_BIT | ((bn)&ISODEP_PCB_BN_MASK))) /*!< Returns an R-Block with the given block number (bn) */
#define isoDep_PCBRACK(bn) \
((uint8_t)(isoDep_PCBRBlock(bn) | ISODEP_PCB_ACK)) /*!< Returns an R-Block with the given block number (bn) indicating ACK */
#define isoDep_PCBRNAK(bn) \
((uint8_t)(isoDep_PCBRBlock(bn) | ISODEP_PCB_NAK)) /*!< Returns an R-Block with the given block number (bn) indicating NAK */
#define isoDep_GetBN(pcb) \
((uint8_t)((pcb)&ISODEP_PCB_BN_MASK)) /*!< Returns the block number (bn) from the given pcb */
#define isoDep_GetWTXM(inf) \
((uint8_t)(( \
inf)&ISODEP_SWTX_WTXM_MASK)) /*!< Returns the WTX value from the given inf byte */
#define isoDep_isWTXMValid(wtxm) \
(((wtxm) >= ISODEP_WTXM_MIN) && \
((wtxm) <= ISODEP_WTXM_MAX)) /*!< Checks if the given wtxm is valid */
#define isoDep_WTXMListenerMax(fwt) \
(MIN( \
(uint8_t)(ISODEP_FWT_LIS_MAX / (fwt)), \
ISODEP_WTXM_MAX)) /*!< Calculates the Max WTXM value for the given fwt as a Listener */
#define isoDepCalcdSGFT(s) \
(384U * ((uint32_t)1U \
<< (s))) /*!< Calculates the dSFGT with given SFGI Digital 1.1 13.8.2.1 & A.6*/
#define isoDepCalcSGFT(s) \
(4096U * ((uint32_t)1U \
<< (s))) /*!< Calculates the SFGT with given SFGI Digital 1.1 13.8.2 */
#define isoDep_PCBNextBN(bn) \
(((uint8_t)(bn) ^ 0x01U) & \
ISODEP_PCB_BN_MASK) /*!< Returns the value of the next block number based on bn */
#define isoDep_PCBPrevBN(bn) \
isoDep_PCBNextBN(bn) /*!< Returns the value of the previous block number based on bn */
#define isoDep_ToggleBN(bn) \
((bn) = \
(((bn) ^ 0x01U) & \
ISODEP_PCB_BN_MASK)) /*!< Toggles the block number value of the given bn */
#define isoDep_WTXAdjust(v) \
((v) - ((v) >> 3)) /*!< Adjust WTX timer value to a percentage of the total, current 88% */
/*! ISO 14443-4 7.5.6.2 & Digital 1.1 - 15.2.6.2 The CE SHALL NOT attempt error recovery and remains in Rx mode upon Transmission or a Protocol Error */
#define isoDepReEnableRx(rxB, rxBL, rxL) \
rfalTransceiveBlockingTx(NULL, 0, rxB, rxBL, rxL, RFAL_TXRX_FLAGS_DEFAULT, RFAL_FWT_NONE)
/*! Macro used for the blocking methods */
#define rfalIsoDepRunBlocking(e, fn) \
do { \
(e) = (fn); \
rfalWorker(); \
} while((e) == ERR_BUSY)
#define isoDepTimerStart(timer, time_ms) \
do { \
platformTimerDestroy(timer); \
(timer) = platformTimerCreate((uint16_t)(time_ms)); \
} while(0) /*!< Configures and starts the WTX timer */
#define isoDepTimerisExpired(timer) \
platformTimerIsExpired(timer) /*!< Checks WTX timer has expired */
#define isoDepTimerDestroy(timer) \
platformTimerDestroy(timer) /*!< Destroys WTX timer */
/*
******************************************************************************
* LOCAL DATA TYPES
******************************************************************************
*/
/*! Internal structure to be used in handling of S(PARAMETRS) only */
typedef struct {
uint8_t pcb; /*!< PCB byte */
rfalIsoDepSParameter sParam; /*!< S(PARAMETERS) */
} rfalIsoDepControlMsgSParam;
/*! Enumeration of the possible control message types */
typedef enum {
ISODEP_R_ACK, /*!< R-ACK Acknowledge */
ISODEP_R_NAK, /*!< R-NACK Negative acknowledge */
ISODEP_S_WTX, /*!< S-WTX Waiting Time Extension */
ISODEP_S_DSL /*!< S-DSL Deselect */
} rfalIsoDepControlMsg;
/*! Enumeration of the IsoDep roles */
typedef enum {
ISODEP_ROLE_PCD, /*!< Perform as Reader/PCD */
ISODEP_ROLE_PICC /*!< Perform as Card/PICC */
} rfalIsoDepRole;
/*! ISO-DEP layer states */
typedef enum {
ISODEP_ST_IDLE, /*!< Idle State */
ISODEP_ST_PCD_TX, /*!< PCD Transmission State */
ISODEP_ST_PCD_RX, /*!< PCD Reception State */
ISODEP_ST_PCD_WAIT_DSL, /*!< PCD Wait for DSL response */
ISODEP_ST_PICC_ACT_ATS, /*!< PICC has replied to RATS (ATS) */
ISODEP_ST_PICC_ACT_ATTRIB, /*!< PICC has replied to ATTRIB */
ISODEP_ST_PICC_RX, /*!< PICC Reception State */
ISODEP_ST_PICC_SWTX, /*!< PICC Waiting Time eXtension */
ISODEP_ST_PICC_SDSL, /*!< PICC S(DSL) response ongoing */
ISODEP_ST_PICC_TX, /*!< PICC Transmission State */
ISODEP_ST_PCD_ACT_RATS, /*!< PCD activation (RATS) */
ISODEP_ST_PCD_ACT_PPS, /*!< PCD activation (PPS) */
} rfalIsoDepState;
/*! Holds all ISO-DEP data(counters, buffers, ID, timeouts, frame size) */
typedef struct {
rfalIsoDepState state; /*!< ISO-DEP module state */
rfalIsoDepRole role; /*!< Current ISO-DEP role */
uint8_t blockNumber; /*!< Current block number */
uint8_t did; /*!< Current DID */
uint8_t nad; /*!< Current DID */
uint8_t cntIRetrys; /*!< I-Block retry counter */
uint8_t cntRRetrys; /*!< R-Block retry counter */
uint8_t cntSDslRetrys; /*!< S(DESELECT) retry counter */
uint8_t cntSWtxRetrys; /*!< Overall S(WTX) retry counter */
uint8_t cntSWtxNack; /*!< R(NACK) answered with S(WTX) counter */
uint32_t fwt; /*!< Current FWT (Frame Waiting Time) */
uint32_t dFwt; /*!< Current delta FWT */
uint16_t fsx; /*!< Current FSx FSC or FSD (max Frame size) */
bool isTxChaining; /*!< Flag for chaining on Tx */
bool isRxChaining; /*!< Flag for chaining on Rx */
uint8_t* txBuf; /*!< Tx buffer pointer */
uint8_t* rxBuf; /*!< Rx buffer pointer */
uint16_t txBufLen; /*!< Tx buffer length */
uint16_t rxBufLen; /*!< Rx buffer length */
uint8_t txBufInfPos; /*!< Start of payload in txBuf */
uint8_t rxBufInfPos; /*!< Start of payload in rxBuf */
uint16_t ourFsx; /*!< Our current FSx FSC or FSD (Frame size) */
uint8_t lastPCB; /*!< Last PCB sent */
uint8_t lastWTXM; /*!< Last WTXM sent */
uint8_t atsTA; /*!< TA on ATS */
uint8_t hdrLen; /*!< Current ISO-DEP length */
rfalBitRate txBR; /*!< Current Tx Bit Rate */
rfalBitRate rxBR; /*!< Current Rx Bit Rate */
uint16_t* rxLen; /*!< Output parameter ptr to Rx length */
bool* rxChaining; /*!< Output parameter ptr to Rx chaining flag */
uint32_t WTXTimer; /*!< Timer used for WTX */
bool lastDID00; /*!< Last PCD block had DID flag (for DID = 0) */
bool isTxPending; /*!< Flag pending Block while waiting WTX Ack */
bool isWait4WTX; /*!< Flag for waiting WTX Ack */
uint8_t maxRetriesI; /*!< Number of retries for a I-Block */
uint8_t maxRetriesR; /*!< Number of retries for a R-Block */
uint8_t maxRetriesSDSL; /*!< Number of retries for S(DESELECT) errors */
uint8_t maxRetriesSWTX; /*!< Number of retries for S(WTX) errors */
uint8_t maxRetriesSnWTX; /*!< Number of retries S(WTX) replied w NACK */
uint8_t maxRetriesRATS; /*!< Number of retries for RATS */
rfalComplianceMode compMode; /*!< Compliance mode */
uint8_t ctrlBuf[ISODEP_CONTROLMSG_BUF_LEN]; /*!< Control msg buf */
uint16_t ctrlRxLen; /*!< Control msg rcvd len */
union { /* PRQA S 0750 # MISRA 19.2 - Members of the union will not be used concurrently, only one frame at a time */
#if RFAL_FEATURE_NFCA
rfalIsoDepRats ratsReq;
rfalIsoDepPpsReq ppsReq;
#endif /* RFAL_FEATURE_NFCA */
#if RFAL_FEATURE_NFCB
rfalIsoDepAttribCmd attribReq;
#endif /* RFAL_FEATURE_NFCB */
} actv; /*!< Activation buffer */
uint8_t* rxLen8; /*!< Receive length (8-bit) */
rfalIsoDepDevice* actvDev; /*!< Activation Device Info */
rfalIsoDepListenActvParam actvParam; /*!< Listen Activation context */
rfalIsoDepApduTxRxParam APDUParam; /*!< APDU TxRx params */
uint16_t APDUTxPos; /*!< APDU Tx position */
uint16_t APDURxPos; /*!< APDU Rx position */
bool isAPDURxChaining; /*!< APDU Transceive chaining flag */
} rfalIsoDep;
/*
******************************************************************************
* LOCAL VARIABLES
******************************************************************************
*/
static rfalIsoDep gIsoDep; /*!< ISO-DEP Module instance */
/*
******************************************************************************
* LOCAL FUNCTION PROTOTYPES
******************************************************************************
*/
static void isoDepClearCounters(void);
static ReturnCode
isoDepTx(uint8_t pcb, const uint8_t* txBuf, uint8_t* infBuf, uint16_t infLen, uint32_t fwt);
static ReturnCode isoDepHandleControlMsg(rfalIsoDepControlMsg controlMsg, uint8_t param);
static void rfalIsoDepApdu2IBLockParam(
rfalIsoDepApduTxRxParam apduParam,
rfalIsoDepTxRxParam* iBlockParam,
uint16_t txPos,
uint16_t rxPos);
#if RFAL_FEATURE_ISO_DEP_POLL
static ReturnCode isoDepDataExchangePCD(uint16_t* outActRxLen, bool* outIsChaining);
static void rfalIsoDepCalcBitRate(
rfalBitRate maxAllowedBR,
uint8_t piccBRCapability,
rfalBitRate* dsi,
rfalBitRate* dri);
static uint32_t rfalIsoDepSFGI2SFGT(uint8_t sfgi);
#if RFAL_FEATURE_NFCA
static ReturnCode
rfalIsoDepStartRATS(rfalIsoDepFSxI FSDI, uint8_t DID, rfalIsoDepAts* ats, uint8_t* atsLen);
static ReturnCode rfalIsoDepGetRATSStatus(void);
static ReturnCode
rfalIsoDepStartPPS(uint8_t DID, rfalBitRate DSI, rfalBitRate DRI, rfalIsoDepPpsRes* ppsRes);
static ReturnCode rfalIsoDepGetPPSSTatus(void);
#endif /* RFAL_FEATURE_NFCA */
#if RFAL_FEATURE_NFCB
static ReturnCode rfalIsoDepStartATTRIB(
const uint8_t* nfcid0,
uint8_t PARAM1,
rfalBitRate DSI,
rfalBitRate DRI,
rfalIsoDepFSxI FSDI,
uint8_t PARAM3,
uint8_t DID,
const uint8_t* HLInfo,
uint8_t HLInfoLen,
uint32_t fwt,
rfalIsoDepAttribRes* attribRes,
uint8_t* attribResLen);
static ReturnCode rfalIsoDepGetATTRIBStatus(void);
#endif /* RFAL_FEATURE_NFCB */
#endif /* RFAL_FEATURE_ISO_DEP_POLL */
#if RFAL_FEATURE_ISO_DEP_LISTEN
static ReturnCode isoDepDataExchangePICC(void);
static ReturnCode isoDepReSendControlMsg(void);
#endif
/*
******************************************************************************
* LOCAL FUNCTIONS
******************************************************************************
*/
/*******************************************************************************/
static void isoDepClearCounters(void) {
gIsoDep.cntIRetrys = 0;
gIsoDep.cntRRetrys = 0;
gIsoDep.cntSDslRetrys = 0;
gIsoDep.cntSWtxRetrys = 0;
gIsoDep.cntSWtxNack = 0;
}
/*******************************************************************************/
static ReturnCode
isoDepTx(uint8_t pcb, const uint8_t* txBuf, uint8_t* infBuf, uint16_t infLen, uint32_t fwt) {
uint8_t* txBlock;
uint16_t txBufLen;
uint8_t computedPcb;
rfalTransceiveContext ctx;
txBlock = infBuf; /* Point to beginning of the INF, and go backwards */
gIsoDep.lastPCB = pcb; /* Store the last PCB sent */
if(infLen > 0U) {
if(((uint32_t)infBuf - (uint32_t)txBuf) <
gIsoDep.hdrLen) /* Check that we can fit the header in the given space */
{
return ERR_NOMEM;
}
}
/*******************************************************************************/
/* Compute optional PCB bits */
computedPcb = pcb;
if((gIsoDep.did != RFAL_ISODEP_NO_DID) ||
((gIsoDep.did == RFAL_ISODEP_DID_00) && gIsoDep.lastDID00)) {
computedPcb |= ISODEP_PCB_DID_BIT;
}
if(gIsoDep.nad != RFAL_ISODEP_NO_NAD) {
computedPcb |= ISODEP_PCB_NAD_BIT;
}
if((gIsoDep.isTxChaining) && (isoDep_PCBisIBlock(computedPcb))) {
computedPcb |= ISODEP_PCB_CHAINING_BIT;
}
/*******************************************************************************/
/* Compute Payload on the given txBuf, start by the PCB | DID | NAD | before INF */
if(gIsoDep.nad != RFAL_ISODEP_NO_NAD) {
*(--txBlock) = gIsoDep.nad; /* NAD is optional */
}
if((gIsoDep.did != RFAL_ISODEP_NO_DID) ||
((gIsoDep.did == RFAL_ISODEP_DID_00) && gIsoDep.lastDID00)) {
*(--txBlock) = gIsoDep.did; /* DID is optional */
}
*(--txBlock) = computedPcb; /* PCB always present */
txBufLen =
(infLen +
(uint16_t)((uint32_t)infBuf - (uint32_t)txBlock)); /* Calculate overall buffer size */
if(txBufLen > (gIsoDep.fsx -
ISODEP_CRC_LEN)) /* Check if msg length violates the maximum frame size FSC */
{
return ERR_NOTSUPP;
}
rfalCreateByteFlagsTxRxContext(
ctx,
txBlock,
txBufLen,
gIsoDep.rxBuf,
gIsoDep.rxBufLen,
gIsoDep.rxLen,
RFAL_TXRX_FLAGS_DEFAULT,
((gIsoDep.role == ISODEP_ROLE_PICC) ? RFAL_FWT_NONE : fwt));
return rfalStartTransceive(&ctx);
}
/*******************************************************************************/
static ReturnCode isoDepHandleControlMsg(rfalIsoDepControlMsg controlMsg, uint8_t param) {
uint8_t pcb;
uint8_t infLen;
uint32_t fwtTemp;
infLen = 0;
fwtTemp = (gIsoDep.fwt + gIsoDep.dFwt);
ST_MEMSET(gIsoDep.ctrlBuf, 0x00, ISODEP_CONTROLMSG_BUF_LEN);
switch(controlMsg) {
/*******************************************************************************/
case ISODEP_R_ACK:
if(gIsoDep.cntRRetrys++ > gIsoDep.maxRetriesR) {
return ERR_TIMEOUT; /* NFC Forum mandates timeout or transmission error depending on previous errors */
}
pcb = isoDep_PCBRACK(gIsoDep.blockNumber);
break;
/*******************************************************************************/
case ISODEP_R_NAK:
if((gIsoDep.cntRRetrys++ > gIsoDep.maxRetriesR) || /* Max R Block retries reached */
(gIsoDep.cntSWtxNack >=
gIsoDep
.maxRetriesSnWTX)) /* Max number PICC is allowed to respond with S(WTX) to R(NAK) */
{
return ERR_TIMEOUT;
}
pcb = isoDep_PCBRNAK(gIsoDep.blockNumber);
break;
/*******************************************************************************/
case ISODEP_S_WTX:
if((gIsoDep.cntSWtxRetrys++ > gIsoDep.maxRetriesSWTX) &&
(gIsoDep.maxRetriesSWTX != RFAL_ISODEP_MAX_WTX_RETRYS_ULTD)) {
return ERR_PROTO;
}
/* Check if WTXM is valid */
if(!isoDep_isWTXMValid(param)) {
return ERR_PROTO;
}
if(gIsoDep.role == ISODEP_ROLE_PCD) {
/* Calculate temp Wait Time eXtension */
fwtTemp = (gIsoDep.fwt * param);
fwtTemp = MIN(RFAL_ISODEP_MAX_FWT, fwtTemp);
fwtTemp += gIsoDep.dFwt;
}
pcb = ISODEP_PCB_SWTX;
gIsoDep.ctrlBuf[RFAL_ISODEP_PCB_LEN + RFAL_ISODEP_DID_LEN + infLen++] = param;
break;
/*******************************************************************************/
case ISODEP_S_DSL:
if(gIsoDep.cntSDslRetrys++ > gIsoDep.maxRetriesSDSL) {
return ERR_TIMEOUT; /* NFC Forum mandates timeout or transmission error depending on previous errors */
}
if(gIsoDep.role == ISODEP_ROLE_PCD) {
/* Digital 1.0 - 13.2.7.3 Poller must wait fwtDEACTIVATION */
fwtTemp = ISODEP_FWT_DEACTIVATION;
gIsoDep.state = ISODEP_ST_PCD_WAIT_DSL;
}
pcb = ISODEP_PCB_SDSL;
break;
/*******************************************************************************/
default:
return ERR_INTERNAL;
}
return isoDepTx(
pcb,
gIsoDep.ctrlBuf,
&gIsoDep.ctrlBuf[RFAL_ISODEP_PCB_LEN + RFAL_ISODEP_DID_LEN],
infLen,
fwtTemp);
}
#if RFAL_FEATURE_ISO_DEP_LISTEN
/*******************************************************************************/
static ReturnCode isoDepReSendControlMsg(void) {
if(isoDep_PCBisRACK(gIsoDep.lastPCB)) {
return isoDepHandleControlMsg(ISODEP_R_ACK, RFAL_ISODEP_NO_PARAM);
}
if(isoDep_PCBisRNAK(gIsoDep.lastPCB)) {
return isoDepHandleControlMsg(ISODEP_R_NAK, RFAL_ISODEP_NO_PARAM);
}
if(isoDep_PCBisSDeselect(gIsoDep.lastPCB)) {
return isoDepHandleControlMsg(ISODEP_S_DSL, RFAL_ISODEP_NO_PARAM);
}
if(isoDep_PCBisSWTX(gIsoDep.lastPCB)) {
return isoDepHandleControlMsg(ISODEP_S_WTX, gIsoDep.lastWTXM);
}
return ERR_WRONG_STATE;
}
#endif /* RFAL_FEATURE_ISO_DEP_LISTEN */
/*
******************************************************************************
* GLOBAL FUNCTIONS
******************************************************************************
*/
/*******************************************************************************/
void rfalIsoDepInitialize(void) {
gIsoDep.state = ISODEP_ST_IDLE;
gIsoDep.role = ISODEP_ROLE_PCD;
gIsoDep.did = RFAL_ISODEP_NO_DID;
gIsoDep.nad = RFAL_ISODEP_NO_NAD;
gIsoDep.blockNumber = 0;
gIsoDep.isTxChaining = false;
gIsoDep.isRxChaining = false;
gIsoDep.lastDID00 = false;
gIsoDep.lastPCB = ISODEP_PCB_INVALID;
gIsoDep.fsx = (uint16_t)RFAL_ISODEP_FSX_16;
gIsoDep.ourFsx = (uint16_t)RFAL_ISODEP_FSX_16;
gIsoDep.hdrLen = RFAL_ISODEP_PCB_LEN;
gIsoDep.rxLen = NULL;
gIsoDep.rxBuf = NULL;
gIsoDep.rxBufInfPos = 0U;
gIsoDep.txBufInfPos = 0U;
gIsoDep.isTxPending = false;
gIsoDep.isWait4WTX = false;
gIsoDep.compMode = RFAL_COMPLIANCE_MODE_NFC;
gIsoDep.maxRetriesR = RFAL_ISODEP_MAX_R_RETRYS;
gIsoDep.maxRetriesI = RFAL_ISODEP_MAX_I_RETRYS;
gIsoDep.maxRetriesSDSL = RFAL_ISODEP_MAX_DSL_RETRYS;
gIsoDep.maxRetriesSWTX = RFAL_ISODEP_MAX_WTX_RETRYS;
gIsoDep.maxRetriesSnWTX = RFAL_ISODEP_MAX_WTX_NACK_RETRYS;
gIsoDep.maxRetriesRATS = RFAL_ISODEP_RATS_RETRIES;
gIsoDep.APDURxPos = 0;
gIsoDep.APDUTxPos = 0;
gIsoDep.APDUParam.rxLen = NULL;
gIsoDep.APDUParam.rxBuf = NULL;
gIsoDep.APDUParam.txBuf = NULL;
isoDepClearCounters();
/* Destroy any ongoing WTX timer */
isoDepTimerDestroy(gIsoDep.WTXTimer);
gIsoDep.WTXTimer = 0U;
}
/*******************************************************************************/
void rfalIsoDepInitializeWithParams(
rfalComplianceMode compMode,
uint8_t maxRetriesR,
uint8_t maxRetriesSnWTX,
uint8_t maxRetriesSWTX,
uint8_t maxRetriesSDSL,
uint8_t maxRetriesI,
uint8_t maxRetriesRATS) {
rfalIsoDepInitialize();
gIsoDep.compMode = compMode;
gIsoDep.maxRetriesR = maxRetriesR;
gIsoDep.maxRetriesSnWTX = maxRetriesSnWTX;
gIsoDep.maxRetriesSWTX = maxRetriesSWTX;
gIsoDep.maxRetriesSDSL = maxRetriesSDSL;
gIsoDep.maxRetriesI = maxRetriesI;
gIsoDep.maxRetriesRATS = maxRetriesRATS;
}
#if RFAL_FEATURE_ISO_DEP_POLL
/*******************************************************************************/
static ReturnCode isoDepDataExchangePCD(uint16_t* outActRxLen, bool* outIsChaining) {
ReturnCode ret;
uint8_t rxPCB;
/* Check out parameters */
if((outActRxLen == NULL) || (outIsChaining == NULL)) {
return ERR_PARAM;
}
*outIsChaining = false;
/* Calculate header required and check if the buffers InfPositions are suitable */
gIsoDep.hdrLen = RFAL_ISODEP_PCB_LEN;
if(gIsoDep.did != RFAL_ISODEP_NO_DID) {
gIsoDep.hdrLen += RFAL_ISODEP_DID_LEN;
}
if(gIsoDep.nad != RFAL_ISODEP_NO_NAD) {
gIsoDep.hdrLen += RFAL_ISODEP_NAD_LEN;
}
/* Check if there is enough space before the infPos to append ISO-DEP headers on rx and tx */
if((gIsoDep.rxBufInfPos < gIsoDep.hdrLen) || (gIsoDep.txBufInfPos < gIsoDep.hdrLen)) {
return ERR_PARAM;
}
/*******************************************************************************/
switch(gIsoDep.state) {
/*******************************************************************************/
case ISODEP_ST_IDLE:
return ERR_NONE;
/*******************************************************************************/
case ISODEP_ST_PCD_TX:
ret = isoDepTx(
isoDep_PCBIBlock(gIsoDep.blockNumber),
gIsoDep.txBuf,
&gIsoDep.txBuf[gIsoDep.txBufInfPos],
gIsoDep.txBufLen,
(gIsoDep.fwt + gIsoDep.dFwt));
switch(ret) {
case ERR_NONE:
gIsoDep.state = ISODEP_ST_PCD_RX;
break;
default:
return ret;
}
/* fall through */
/*******************************************************************************/
case ISODEP_ST_PCD_WAIT_DSL: /* PRQA S 2003 # MISRA 16.3 - Intentional fall through */
case ISODEP_ST_PCD_RX:
ret = rfalGetTransceiveStatus();
switch(ret) {
/* Data rcvd with error or timeout -> Send R-NAK */
case ERR_TIMEOUT:
case ERR_CRC:
case ERR_PAR:
case ERR_FRAMING: /* added to handle test cases scenario TC_POL_NFCB_T4AT_BI_82_x_y & TC_POL_NFCB_T4BT_BI_82_x_y */
case ERR_INCOMPLETE_BYTE: /* added to handle test cases scenario TC_POL_NFCB_T4AT_BI_82_x_y & TC_POL_NFCB_T4BT_BI_82_x_y */
if(gIsoDep
.isRxChaining) { /* Rule 5 - In PICC chaining when a invalid/timeout occurs -> R-ACK */
EXIT_ON_ERR(ret, isoDepHandleControlMsg(ISODEP_R_ACK, RFAL_ISODEP_NO_PARAM));
} else if(
gIsoDep.state ==
ISODEP_ST_PCD_WAIT_DSL) { /* Rule 8 - If s-Deselect response fails MAY retransmit */
EXIT_ON_ERR(ret, isoDepHandleControlMsg(ISODEP_S_DSL, RFAL_ISODEP_NO_PARAM));
} else { /* Rule 4 - When a invalid block or timeout occurs -> R-NACK */
EXIT_ON_ERR(ret, isoDepHandleControlMsg(ISODEP_R_NAK, RFAL_ISODEP_NO_PARAM));
}
return ERR_BUSY;
case ERR_NONE:
break;
case ERR_BUSY:
return ERR_BUSY; /* Debug purposes */
default:
return ret;
}
/*******************************************************************************/
/* No error, process incoming msg */
/*******************************************************************************/
(*outActRxLen) = rfalConvBitsToBytes(*outActRxLen);
/* Check rcvd msg length, cannot be less then the expected header */
if(((*outActRxLen) < gIsoDep.hdrLen) || ((*outActRxLen) >= gIsoDep.ourFsx)) {
return ERR_PROTO;
}
/* Grab rcvd PCB */
rxPCB = gIsoDep.rxBuf[ISODEP_PCB_POS];
/* EMVCo doesn't allow usage of for CID or NAD EMVCo 2.6 TAble 10.2 */
if((gIsoDep.compMode == RFAL_COMPLIANCE_MODE_EMV) &&
(isoDep_PCBhasDID(rxPCB) || isoDep_PCBhasNAD(rxPCB))) {
return ERR_PROTO;
}
/* If we are expecting DID, check if PCB signals its presence and if device ID match*/
if((gIsoDep.did != RFAL_ISODEP_NO_DID) &&
(!isoDep_PCBhasDID(rxPCB) || (gIsoDep.did != gIsoDep.rxBuf[ISODEP_DID_POS]))) {
return ERR_PROTO;
}
/*******************************************************************************/
/* Process S-Block */
/*******************************************************************************/
if(isoDep_PCBisSBlock(rxPCB)) {
/* Check if is a Wait Time eXtension */
if(isoDep_PCBisSWTX(rxPCB)) {
/* Check if PICC has requested S(WTX) as response to R(NAK) EMVCo 3.0 10.3.5.5 / Digital 2.0 16.2.6.5 */
if(isoDep_PCBisRNAK(gIsoDep.lastPCB)) {
gIsoDep.cntSWtxNack++; /* Count S(WTX) upon R(NAK) */
gIsoDep.cntRRetrys = 0; /* Reset R-Block counter has PICC has responded */
} else {
gIsoDep.cntSWtxNack = 0; /* Reset R(NACK)->S(WTX) counter */
}
/* Rule 3 - respond to S-block: get 1st INF byte S(STW): Power + WTXM */
EXIT_ON_ERR(
ret,
isoDepHandleControlMsg(
ISODEP_S_WTX, isoDep_GetWTXM(gIsoDep.rxBuf[gIsoDep.hdrLen])));
return ERR_BUSY;
}
/* Check if is a deselect response */
if(isoDep_PCBisSDeselect(rxPCB)) {
if(gIsoDep.state == ISODEP_ST_PCD_WAIT_DSL) {
rfalIsoDepInitialize(); /* Session finished reInit vars */
return ERR_NONE;
}
/* Deselect response not expected */
/* fall through to PROTO error */
}
/* Unexpected S-Block */
return ERR_PROTO;
}
/*******************************************************************************/
/* Process R-Block */
/*******************************************************************************/
else if(isoDep_PCBisRBlock(rxPCB)) {
if(isoDep_PCBisRACK(rxPCB)) /* Check if is a R-ACK */
{
if(isoDep_GetBN(rxPCB) == gIsoDep.blockNumber) /* Expected block number */
{
/* Rule B - ACK with expected bn -> Increment block number */
gIsoDep.blockNumber = isoDep_PCBNextBN(gIsoDep.blockNumber);
/* R-ACK only allowed when PCD chaining */
if(!gIsoDep.isTxChaining) {
return ERR_PROTO;
}
/* Rule 7 - Chaining transaction done, continue chaining */
isoDepClearCounters();
return ERR_NONE; /* This block has been transmitted */
} else {
/* Rule 6 - R-ACK with wrong block number retransmit */
/* Digital 2.0 16.2.5.4 - Retransmit maximum two times */
/* EMVCo 3.0 10.3.4.3 - PCD may re-transmit the last I-Block or report error */
if(gIsoDep.cntIRetrys++ < gIsoDep.maxRetriesI) {
gIsoDep.cntRRetrys = 0; /* Clear R counter only */
gIsoDep.state = ISODEP_ST_PCD_TX;
return ERR_BUSY;
}
return ERR_TIMEOUT; /* NFC Forum mandates timeout or transmission error depending on previous errors */
}
} else /* Unexcpected R-Block */
{
return ERR_PROTO;
}
}
/*******************************************************************************/
/* Process I-Block */
/*******************************************************************************/
else if(isoDep_PCBisIBlock(rxPCB)) {
/*******************************************************************************/
/* is PICC performing chaining */
if(isoDep_PCBisChaining(rxPCB)) {
gIsoDep.isRxChaining = true;
*outIsChaining = true;
if(isoDep_GetBN(rxPCB) == gIsoDep.blockNumber) {
/* Rule B - ACK with correct block number -> Increase Block number */
isoDep_ToggleBN(gIsoDep.blockNumber);
isoDepClearCounters(); /* Clear counters in case R counter is already at max */
/* Rule 2 - Send ACK */
EXIT_ON_ERR(ret, isoDepHandleControlMsg(ISODEP_R_ACK, RFAL_ISODEP_NO_PARAM));
/* Received I-Block with chaining, send current data to DH */
/* remove ISO DEP header, check is necessary to move the INF data on the buffer */
*outActRxLen -= gIsoDep.hdrLen;
if((gIsoDep.hdrLen != gIsoDep.rxBufInfPos) && (*outActRxLen > 0U)) {
ST_MEMMOVE(
&gIsoDep.rxBuf[gIsoDep.rxBufInfPos],
&gIsoDep.rxBuf[gIsoDep.hdrLen],
*outActRxLen);
}
isoDepClearCounters();
return ERR_AGAIN; /* Send Again signalling to run again, but some chaining data has arrived */
} else {
/* Rule 5 - PICC chaining invalid I-Block -> R-ACK */
EXIT_ON_ERR(ret, isoDepHandleControlMsg(ISODEP_R_ACK, RFAL_ISODEP_NO_PARAM));
}
return ERR_BUSY;
}
gIsoDep.isRxChaining = false; /* clear PICC chaining flag */
if(isoDep_GetBN(rxPCB) == gIsoDep.blockNumber) {
/* Rule B - I-Block with correct block number -> Increase Block number */
isoDep_ToggleBN(gIsoDep.blockNumber);
/* I-Block transaction done successfully */
/* remove ISO DEP header, check is necessary to move the INF data on the buffer */
*outActRxLen -= gIsoDep.hdrLen;
if((gIsoDep.hdrLen != gIsoDep.rxBufInfPos) && (*outActRxLen > 0U)) {
ST_MEMMOVE(
&gIsoDep.rxBuf[gIsoDep.rxBufInfPos],
&gIsoDep.rxBuf[gIsoDep.hdrLen],
*outActRxLen);
}
gIsoDep.state = ISODEP_ST_IDLE;
isoDepClearCounters();
return ERR_NONE;
} else {
if((gIsoDep.compMode != RFAL_COMPLIANCE_MODE_ISO)) {
/* Invalid Block (not chaining) -> Raise error Digital 1.1 15.2.6.4 EMVCo 2.6 10.3.5.4 */
return ERR_PROTO;
}
/* Rule 4 - Invalid Block -> R-NAK */
EXIT_ON_ERR(ret, isoDepHandleControlMsg(ISODEP_R_NAK, RFAL_ISODEP_NO_PARAM));
return ERR_BUSY;
}
} else /* not S/R/I - Block */
{
return ERR_PROTO;
}
/* fall through */
/*******************************************************************************/
default: /* PRQA S 2003 # MISRA 16.3 - Intentional fall through */
/* MISRA 16.4: no empty default (comment will suffice) */
break;
}
return ERR_INTERNAL;
}
/*******************************************************************************/
ReturnCode rfalIsoDepDeselect(void) {
ReturnCode ret;
uint32_t cntRerun;
bool dummyB;
/*******************************************************************************/
/* Using local static vars and static config to cope with a Deselect after *
* RATS\ATTRIB without any I-Block exchanged */
gIsoDep.rxLen = &gIsoDep.ctrlRxLen;
gIsoDep.rxBuf = gIsoDep.ctrlBuf;
gIsoDep.rxBufLen = ISODEP_CONTROLMSG_BUF_LEN - (RFAL_ISODEP_PCB_LEN + RFAL_ISODEP_DID_LEN);
gIsoDep.rxBufInfPos = (RFAL_ISODEP_PCB_LEN + RFAL_ISODEP_DID_LEN);
gIsoDep.txBufInfPos = (RFAL_ISODEP_PCB_LEN + RFAL_ISODEP_DID_LEN);
/*******************************************************************************/
/* The Deselect process is being done blocking, Digital 1.0 - 13.2.7.1 MUST wait response and retry*/
/* Set the maximum reruns while we will wait for a response */
cntRerun = ISODEP_MAX_RERUNS;
/* Send DSL request and run protocol until get a response, error or "timeout" */
EXIT_ON_ERR(ret, isoDepHandleControlMsg(ISODEP_S_DSL, RFAL_ISODEP_NO_PARAM));
do {
ret = isoDepDataExchangePCD(gIsoDep.rxLen, &dummyB);
rfalWorker();
} while(((cntRerun--) != 0U) && (ret == ERR_BUSY));
rfalIsoDepInitialize();
return ((cntRerun == 0U) ? ERR_TIMEOUT : ret);
}
#endif /* RFAL_FEATURE_ISO_DEP_POLL */
/*******************************************************************************/
uint32_t rfalIsoDepFWI2FWT(uint8_t fwi) {
uint32_t result;
uint8_t tmpFWI;
tmpFWI = fwi;
/* RFU values -> take the default value
* Digital 1.0 11.6.2.17 FWI[1,14]
* Digital 1.1 7.6.2.22 FWI[0,14]
* EMVCo 2.6 Table A.5 FWI[0,14] */
if(tmpFWI > ISODEP_FWI_MAX) {
tmpFWI = RFAL_ISODEP_FWI_DEFAULT;
}
/* FWT = (256 x 16/fC) x 2^FWI => 2^(FWI+12) Digital 1.1 13.8.1 & 7.9.1 */
result = ((uint32_t)1U << (tmpFWI + 12U));
result = MIN(RFAL_ISODEP_MAX_FWT, result); /* Maximum Frame Waiting Time must be fulfilled */
return result;
}
/*******************************************************************************/
uint16_t rfalIsoDepFSxI2FSx(uint8_t FSxI) {
uint16_t fsx;
uint8_t fsi;
/* Enforce maximum FSxI/FSx allowed - NFC Forum and EMVCo differ */
fsi =
((gIsoDep.compMode == RFAL_COMPLIANCE_MODE_EMV) ? MIN(FSxI, RFAL_ISODEP_FSDI_MAX_EMV) :
MIN(FSxI, RFAL_ISODEP_FSDI_MAX_NFC));
switch(fsi) {
case(uint8_t)RFAL_ISODEP_FSXI_16:
fsx = (uint16_t)RFAL_ISODEP_FSX_16;
break;
case(uint8_t)RFAL_ISODEP_FSXI_24:
fsx = (uint16_t)RFAL_ISODEP_FSX_24;
break;
case(uint8_t)RFAL_ISODEP_FSXI_32:
fsx = (uint16_t)RFAL_ISODEP_FSX_32;
break;
case(uint8_t)RFAL_ISODEP_FSXI_40:
fsx = (uint16_t)RFAL_ISODEP_FSX_40;
break;
case(uint8_t)RFAL_ISODEP_FSXI_48:
fsx = (uint16_t)RFAL_ISODEP_FSX_48;
break;
case(uint8_t)RFAL_ISODEP_FSXI_64:
fsx = (uint16_t)RFAL_ISODEP_FSX_64;
break;
case(uint8_t)RFAL_ISODEP_FSXI_96:
fsx = (uint16_t)RFAL_ISODEP_FSX_96;
break;
case(uint8_t)RFAL_ISODEP_FSXI_128:
fsx = (uint16_t)RFAL_ISODEP_FSX_128;
break;
case(uint8_t)RFAL_ISODEP_FSXI_256:
fsx = (uint16_t)RFAL_ISODEP_FSX_256;
break;
case(uint8_t)RFAL_ISODEP_FSXI_512:
fsx = (uint16_t)RFAL_ISODEP_FSX_512;
break;
case(uint8_t)RFAL_ISODEP_FSXI_1024:
fsx = (uint16_t)RFAL_ISODEP_FSX_1024;
break;
case(uint8_t)RFAL_ISODEP_FSXI_2048:
fsx = (uint16_t)RFAL_ISODEP_FSX_2048;
break;
case(uint8_t)RFAL_ISODEP_FSXI_4096:
fsx = (uint16_t)RFAL_ISODEP_FSX_4096;
break;
default:
fsx = (uint16_t)RFAL_ISODEP_FSX_256;
break;
}
return fsx;
}
#if RFAL_FEATURE_ISO_DEP_LISTEN
/*******************************************************************************/
bool rfalIsoDepIsRats(const uint8_t* buf, uint8_t bufLen) {
if(buf != NULL) {
if((RFAL_ISODEP_CMD_RATS == (uint8_t)*buf) && (sizeof(rfalIsoDepRats) == bufLen)) {
return true;
}
}
return false;
}
/*******************************************************************************/
bool rfalIsoDepIsAttrib(const uint8_t* buf, uint8_t bufLen) {
if(buf != NULL) {
if((RFAL_ISODEP_CMD_ATTRIB == (uint8_t)*buf) &&
(RFAL_ISODEP_ATTRIB_REQ_MIN_LEN <= bufLen) &&
((RFAL_ISODEP_ATTRIB_REQ_MIN_LEN + RFAL_ISODEP_ATTRIB_HLINFO_LEN) >= bufLen)) {
return true;
}
}
return false;
}
/*******************************************************************************/
ReturnCode rfalIsoDepListenStartActivation(
rfalIsoDepAtsParam* atsParam,
const rfalIsoDepAttribResParam* attribResParam,
const uint8_t* buf,
uint16_t bufLen,
rfalIsoDepListenActvParam actParam) {
uint8_t* txBuf;
uint8_t bufIt;
const uint8_t* buffer = buf;
/*******************************************************************************/
bufIt = 0;
txBuf =
(uint8_t*)actParam
.rxBuf; /* Use the rxBuf as TxBuf as well, the struct enforces a size enough MAX( NFCA_ATS_MAX_LEN, NFCB_ATTRIB_RES_MAX_LEN ) */
gIsoDep.txBR = RFAL_BR_106;
gIsoDep.rxBR = RFAL_BR_106;
/* Check for a valid buffer pointer */
if(buffer == NULL) {
return ERR_PARAM;
}
/*******************************************************************************/
if(*buffer == RFAL_ISODEP_CMD_RATS) {
/* Check ATS parameters */
if(atsParam == NULL) {
return ERR_PARAM;
}
/* If requested copy RATS to device info */
if(actParam.isoDepDev != NULL) {
ST_MEMCPY(
(uint8_t*)&actParam.isoDepDev->activation.A.Poller.RATS,
buffer,
sizeof(rfalIsoDepRats)); /* Copy RATS' CMD + PARAM */
}
/*******************************************************************************/
/* Process RATS */
buffer++;
gIsoDep.fsx = rfalIsoDepFSxI2FSx(
(((*buffer) & RFAL_ISODEP_RATS_PARAM_FSDI_MASK) >> RFAL_ISODEP_RATS_PARAM_FSDI_SHIFT));
gIsoDep.did = (*buffer & RFAL_ISODEP_DID_MASK);
/*******************************************************************************/
/* Digital 1.1 13.6.1.8 - DID as to between 0 and 14 */
if(gIsoDep.did > RFAL_ISODEP_DID_MAX) {
return ERR_PROTO;
}
/* Check if we are configured to support DID */
if((gIsoDep.did != RFAL_ISODEP_DID_00) && (!atsParam->didSupport)) {
return ERR_NOTSUPP;
}
/*******************************************************************************/
/* Check RFAL supported bit rates */
if((!(RFAL_SUPPORT_BR_CE_A_212) &&
(((atsParam->ta & RFAL_ISODEP_ATS_TA_DPL_212) != 0U) ||
((atsParam->ta & RFAL_ISODEP_ATS_TA_DLP_212) != 0U))) ||
(!(RFAL_SUPPORT_BR_CE_A_424) &&
(((atsParam->ta & RFAL_ISODEP_ATS_TA_DPL_424) != 0U) ||
((atsParam->ta & RFAL_ISODEP_ATS_TA_DLP_424) != 0U))) ||
(!(RFAL_SUPPORT_BR_CE_A_848) &&
(((atsParam->ta & RFAL_ISODEP_ATS_TA_DPL_848) != 0U) ||
((atsParam->ta & RFAL_ISODEP_ATS_TA_DLP_848) != 0U)))) {
return ERR_NOTSUPP;
}
/* Enforce proper FWI configuration */
if(atsParam->fwi > ISODEP_FWI_LIS_MAX) {
atsParam->fwi = ISODEP_FWI_LIS_MAX;
}
gIsoDep.atsTA = atsParam->ta;
gIsoDep.fwt = rfalIsoDepFWI2FWT(atsParam->fwi);
gIsoDep.ourFsx = rfalIsoDepFSxI2FSx(atsParam->fsci);
/* Ensure proper/maximum Historical Bytes length */
atsParam->hbLen = MIN(RFAL_ISODEP_ATS_HB_MAX_LEN, atsParam->hbLen);
/*******************************************************************************/
/* Compute ATS */
txBuf[bufIt++] = (RFAL_ISODEP_ATS_HIST_OFFSET + atsParam->hbLen); /* TL */
txBuf[bufIt++] =
((RFAL_ISODEP_ATS_T0_TA_PRESENCE_MASK | RFAL_ISODEP_ATS_T0_TB_PRESENCE_MASK |
RFAL_ISODEP_ATS_T0_TC_PRESENCE_MASK) |
atsParam->fsci); /* T0 */
txBuf[bufIt++] = atsParam->ta; /* TA */
txBuf[bufIt++] =
((atsParam->fwi << RFAL_ISODEP_RATS_PARAM_FSDI_SHIFT) |
(atsParam->sfgi & RFAL_ISODEP_RATS_PARAM_FSDI_MASK)); /* TB */
txBuf[bufIt++] = (uint8_t)((atsParam->didSupport) ? RFAL_ISODEP_ATS_TC_DID : 0U); /* TC */
if(atsParam->hbLen > 0U) /* MISRA 21.18 */
{
ST_MEMCPY(&txBuf[bufIt], atsParam->hb, atsParam->hbLen); /* T1-Tk */
bufIt += atsParam->hbLen;
}
gIsoDep.state = ISODEP_ST_PICC_ACT_ATS;
}
/*******************************************************************************/
else if(*buffer == RFAL_ISODEP_CMD_ATTRIB) {
/* Check ATTRIB parameters */
if(attribResParam == NULL) {
return ERR_PARAM;
}
/* REMARK: ATTRIB handling */
NO_WARNING(attribResParam);
NO_WARNING(bufLen);
return ERR_NOT_IMPLEMENTED;
} else {
return ERR_PARAM;
}
gIsoDep.actvParam = actParam;
/*******************************************************************************/
/* If requested copy to ISO-DEP device info */
if(actParam.isoDepDev != NULL) {
actParam.isoDepDev->info.DID = gIsoDep.did;
actParam.isoDepDev->info.FSx = gIsoDep.fsx;
actParam.isoDepDev->info.FWT = gIsoDep.fwt;
actParam.isoDepDev->info.dFWT = 0;
actParam.isoDepDev->info.DSI = gIsoDep.txBR;
actParam.isoDepDev->info.DRI = gIsoDep.rxBR;
}
return rfalTransceiveBlockingTx(
txBuf,
bufIt,
(uint8_t*)actParam.rxBuf,
sizeof(rfalIsoDepBufFormat),
actParam.rxLen,
RFAL_TXRX_FLAGS_DEFAULT,
RFAL_FWT_NONE);
}
/*******************************************************************************/
ReturnCode rfalIsoDepListenGetActivationStatus(void) {
ReturnCode err;
uint8_t* txBuf;
uint8_t bufIt;
rfalBitRate dsi;
rfalBitRate dri;
/* Check if Activation is running */
if(gIsoDep.state < ISODEP_ST_PICC_ACT_ATS) {
return ERR_WRONG_STATE;
}
/* Check if Activation has finished already */
if(gIsoDep.state >= ISODEP_ST_PICC_RX) {
return ERR_NONE;
}
/*******************************************************************************/
/* Check for incoming msg */
err = rfalGetTransceiveStatus();
switch(err) {
/*******************************************************************************/
case ERR_NONE:
break;
/*******************************************************************************/
case ERR_LINK_LOSS:
case ERR_BUSY:
return err;
/*******************************************************************************/
case ERR_CRC:
case ERR_PAR:
case ERR_FRAMING:
/* ISO14443 4 5.6.2.2 2 If ATS has been replied upon a invalid block, PICC disables the PPS responses */
if(gIsoDep.state == ISODEP_ST_PICC_ACT_ATS) {
gIsoDep.state = ISODEP_ST_PICC_RX;
break;
}
/* fall through */
/*******************************************************************************/
default: /* PRQA S 2003 # MISRA 16.3 - Intentional fall through */
/* ReEnable the receiver and wait for another frame */
isoDepReEnableRx(
(uint8_t*)gIsoDep.actvParam.rxBuf,
sizeof(rfalIsoDepBufFormat),
gIsoDep.actvParam.rxLen);
return ERR_BUSY;
}
txBuf =
(uint8_t*)gIsoDep.actvParam
.rxBuf; /* Use the rxBuf as TxBuf as well, the struct enforces a size enough MAX(NFCA_PPS_RES_LEN, ISODEP_DSL_MAX_LEN) */
dri = RFAL_BR_KEEP; /* The RFAL_BR_KEEP is used to check if PPS with BR change was requested */
dsi = RFAL_BR_KEEP; /* MISRA 9.1 */
bufIt = 0;
/*******************************************************************************/
gIsoDep.role = ISODEP_ROLE_PICC;
/*******************************************************************************/
if(gIsoDep.state == ISODEP_ST_PICC_ACT_ATS) {
/* Check for a PPS ISO 14443-4 5.3 */
if((((uint8_t*)gIsoDep.actvParam.rxBuf)[RFAL_ISODEP_PPS_STARTBYTE_POS] &
RFAL_ISODEP_PPS_MASK) == RFAL_ISODEP_PPS_SB) {
/* ISO 14443-4 5.3.1 Check if the we are the addressed DID/CID */
/* ISO 14443-4 5.3.2 Check for a valid PPS0 */
if(((((uint8_t*)gIsoDep.actvParam.rxBuf)[RFAL_ISODEP_PPS_STARTBYTE_POS] &
RFAL_ISODEP_DID_MASK) != gIsoDep.did) ||
((((uint8_t*)gIsoDep.actvParam.rxBuf)[RFAL_ISODEP_PPS_PPS0_POS] &
RFAL_ISODEP_PPS0_VALID_MASK) != RFAL_ISODEP_PPS0_PPS1_NOT_PRESENT)) {
/* Invalid DID on PPS request or Invalid PPS0, reEnable the receiver and wait another frame */
isoDepReEnableRx(
(uint8_t*)gIsoDep.actvParam.rxBuf,
sizeof(rfalIsoDepBufFormat),
gIsoDep.actvParam.rxLen);
return ERR_BUSY;
}
/*******************************************************************************/
/* Check PPS1 presence */
if(((uint8_t*)gIsoDep.actvParam.rxBuf)[RFAL_ISODEP_PPS_PPS0_POS] ==
RFAL_ISODEP_PPS0_PPS1_PRESENT) {
uint8_t newdri = ((uint8_t*)gIsoDep.actvParam.rxBuf)[RFAL_ISODEP_PPS_PPS1_POS] &
RFAL_ISODEP_PPS1_DxI_MASK; /* MISRA 10.8 */
uint8_t newdsi = (((uint8_t*)gIsoDep.actvParam.rxBuf)[RFAL_ISODEP_PPS_PPS1_POS] >>
RFAL_ISODEP_PPS1_DSI_SHIFT) &
RFAL_ISODEP_PPS1_DxI_MASK; /* MISRA 10.8 */
/* PRQA S 4342 2 # MISRA 10.5 - Layout of enum rfalBitRate and above masks guarantee no invalid enum values to be created */
dri = (rfalBitRate)(newdri);
dsi = (rfalBitRate)(newdsi);
if((!(RFAL_SUPPORT_BR_CE_A_106) &&
((dsi == RFAL_BR_106) || (dri == RFAL_BR_106))) ||
(!(RFAL_SUPPORT_BR_CE_A_212) &&
((dsi == RFAL_BR_212) || (dri == RFAL_BR_212))) ||
(!(RFAL_SUPPORT_BR_CE_A_424) &&
((dsi == RFAL_BR_424) || (dri == RFAL_BR_424))) ||
(!(RFAL_SUPPORT_BR_CE_A_848) &&
((dsi == RFAL_BR_848) || (dri == RFAL_BR_848)))) {
return ERR_PROTO;
}
}
/*******************************************************************************/
/* Compute and send PPS RES / Ack */
txBuf[bufIt++] = ((uint8_t*)gIsoDep.actvParam.rxBuf)[RFAL_ISODEP_PPS_STARTBYTE_POS];
rfalTransceiveBlockingTx(
txBuf,
bufIt,
(uint8_t*)gIsoDep.actvParam.rxBuf,
sizeof(rfalIsoDepBufFormat),
gIsoDep.actvParam.rxLen,
RFAL_TXRX_FLAGS_DEFAULT,
RFAL_FWT_NONE);
/*******************************************************************************/
/* Exchange the bit rates if requested */
if(dri != RFAL_BR_KEEP) {
rfalSetBitRate(
dsi,
dri); /* PRQA S 2880 # MISRA 2.1 - Unreachable code due to configuration option being set/unset above (RFAL_SUPPORT_BR_CE_A_xxx) */
gIsoDep.txBR = dsi; /* DSI codes the divisor from PICC to PCD */
gIsoDep.rxBR = dri; /* DRI codes the divisor from PCD to PICC */
if(gIsoDep.actvParam.isoDepDev != NULL) {
gIsoDep.actvParam.isoDepDev->info.DSI = dsi;
gIsoDep.actvParam.isoDepDev->info.DRI = dri;
}
}
}
/* Check for a S-Deselect is done on Data Exchange Activity */
}
/*******************************************************************************/
gIsoDep.hdrLen = RFAL_ISODEP_PCB_LEN;
gIsoDep.hdrLen +=
RFAL_ISODEP_DID_LEN; /* Always assume DID to be aligned with Digital 1.1 15.1.2 and ISO14443 4 5.6.3 #454 */
gIsoDep.hdrLen += (uint8_t)((gIsoDep.nad != RFAL_ISODEP_NO_NAD) ? RFAL_ISODEP_NAD_LEN : 0U);
/*******************************************************************************/
/* Rule C - The PICC block number shall be initialized to 1 at activation */
gIsoDep.blockNumber = 1;
/* Activation done, keep the rcvd data in, reMap the activation buffer to the global to be retrieved by the DEP method */
gIsoDep.rxBuf = (uint8_t*)gIsoDep.actvParam.rxBuf;
gIsoDep.rxBufLen = sizeof(rfalIsoDepBufFormat);
gIsoDep.rxBufInfPos =
(uint8_t)((uint32_t)gIsoDep.actvParam.rxBuf->inf - (uint32_t)gIsoDep.actvParam.rxBuf->prologue);
gIsoDep.rxLen = gIsoDep.actvParam.rxLen;
gIsoDep.rxChaining = gIsoDep.actvParam.isRxChaining;
gIsoDep.state = ISODEP_ST_PICC_RX;
return ERR_NONE;
}
#endif /* RFAL_FEATURE_ISO_DEP_LISTEN */
/*******************************************************************************/
uint16_t rfalIsoDepGetMaxInfLen(void) {
/* Check whether all parameters are valid, otherwise return minimum default value */
if((gIsoDep.fsx < (uint16_t)RFAL_ISODEP_FSX_16) ||
(gIsoDep.fsx > (uint16_t)RFAL_ISODEP_FSX_4096) || (gIsoDep.hdrLen > ISODEP_HDR_MAX_LEN)) {
uint16_t isodepFsx16 = (uint16_t)RFAL_ISODEP_FSX_16; /* MISRA 10.1 */
return (isodepFsx16 - RFAL_ISODEP_PCB_LEN - ISODEP_CRC_LEN);
}
return (gIsoDep.fsx - gIsoDep.hdrLen - ISODEP_CRC_LEN);
}
/*******************************************************************************/
ReturnCode rfalIsoDepStartTransceive(rfalIsoDepTxRxParam param) {
gIsoDep.txBuf = param.txBuf->prologue;
gIsoDep.txBufInfPos = (uint8_t)((uint32_t)param.txBuf->inf - (uint32_t)param.txBuf->prologue);
gIsoDep.txBufLen = param.txBufLen;
gIsoDep.isTxChaining = param.isTxChaining;
gIsoDep.rxBuf = param.rxBuf->prologue;
gIsoDep.rxBufInfPos = (uint8_t)((uint32_t)param.rxBuf->inf - (uint32_t)param.rxBuf->prologue);
gIsoDep.rxBufLen = sizeof(rfalIsoDepBufFormat);
gIsoDep.rxLen = param.rxLen;
gIsoDep.rxChaining = param.isRxChaining;
gIsoDep.fwt = param.FWT;
gIsoDep.dFwt = param.dFWT;
gIsoDep.fsx = param.FSx;
gIsoDep.did = param.DID;
/* Only change the FSx from activation if no to Keep */
gIsoDep.ourFsx = ((param.ourFSx != RFAL_ISODEP_FSX_KEEP) ? param.ourFSx : gIsoDep.ourFsx);
/* Clear inner control params for next dataExchange */
gIsoDep.isRxChaining = false;
isoDepClearCounters();
if(gIsoDep.role == ISODEP_ROLE_PICC) {
if(gIsoDep.txBufLen > 0U) {
/* Ensure that an RTOX Ack is not being expected at moment */
if(!gIsoDep.isWait4WTX) {
gIsoDep.state = ISODEP_ST_PICC_TX;
return ERR_NONE;
} else {
/* If RTOX Ack is expected, signal a pending Tx to be transmitted right after */
gIsoDep.isTxPending = true;
}
}
/* Digital 1.1 15.2.5.1 The first block SHALL be sent by the Reader/Writer */
gIsoDep.state = ISODEP_ST_PICC_RX;
return ERR_NONE;
}
gIsoDep.state = ISODEP_ST_PCD_TX;
return ERR_NONE;
}
/*******************************************************************************/
ReturnCode rfalIsoDepGetTransceiveStatus(void) {
if(gIsoDep.role == ISODEP_ROLE_PICC) {
#if RFAL_FEATURE_ISO_DEP_LISTEN
return isoDepDataExchangePICC();
#else
return ERR_NOTSUPP;
#endif /* RFAL_FEATURE_ISO_DEP_LISTEN */
} else {
#if RFAL_FEATURE_ISO_DEP_POLL
return isoDepDataExchangePCD(gIsoDep.rxLen, gIsoDep.rxChaining);
#else
return ERR_NOTSUPP;
#endif /* RFAL_FEATURE_ISO_DEP_POLL */
}
}
#if RFAL_FEATURE_ISO_DEP_LISTEN
/*******************************************************************************/
static ReturnCode isoDepDataExchangePICC(void) {
uint8_t rxPCB;
ReturnCode ret;
switch(gIsoDep.state) {
/*******************************************************************************/
case ISODEP_ST_IDLE:
return ERR_NONE;
/*******************************************************************************/
case ISODEP_ST_PICC_TX:
ret = isoDepTx(
isoDep_PCBIBlock(gIsoDep.blockNumber),
gIsoDep.txBuf,
&gIsoDep.txBuf[gIsoDep.txBufInfPos],
gIsoDep.txBufLen,
RFAL_FWT_NONE);
/* Clear pending Tx flag */
gIsoDep.isTxPending = false;
switch(ret) {
case ERR_NONE:
gIsoDep.state = ISODEP_ST_PICC_RX;
return ERR_BUSY;
default:
/* MISRA 16.4: no empty default statement (a comment being enough) */
break;
}
return ret;
/*******************************************************************************/
case ISODEP_ST_PICC_RX:
ret = rfalGetTransceiveStatus();
switch(ret) {
/*******************************************************************************/
/* Data rcvd with error or timeout -> mute */
case ERR_TIMEOUT:
case ERR_CRC:
case ERR_PAR:
case ERR_FRAMING:
/* Digital 1.1 - 15.2.6.2 The CE SHALL NOT attempt error recovery and remains in Rx mode upon Transmission or a Protocol Error */
isoDepReEnableRx((uint8_t*)gIsoDep.rxBuf, sizeof(rfalIsoDepBufFormat), gIsoDep.rxLen);
return ERR_BUSY;
/*******************************************************************************/
case ERR_LINK_LOSS:
return ret; /* Debug purposes */
case ERR_BUSY:
return ret; /* Debug purposes */
/*******************************************************************************/
case ERR_NONE:
*gIsoDep.rxLen = rfalConvBitsToBytes(*gIsoDep.rxLen);
break;
/*******************************************************************************/
default:
return ret;
}
break;
/*******************************************************************************/
case ISODEP_ST_PICC_SWTX:
if(!isoDepTimerisExpired(gIsoDep.WTXTimer)) /* Do nothing until WTX timer has expired */
{
return ERR_BUSY;
}
/* Set waiting for WTX Ack Flag */
gIsoDep.isWait4WTX = true;
/* Digital 1.1 15.2.2.9 - Calculate the WTXM such that FWTtemp <= FWTmax */
gIsoDep.lastWTXM = (uint8_t)isoDep_WTXMListenerMax(gIsoDep.fwt);
EXIT_ON_ERR(ret, isoDepHandleControlMsg(ISODEP_S_WTX, gIsoDep.lastWTXM));
gIsoDep.state = ISODEP_ST_PICC_RX; /* Go back to Rx to process WTX ack */
return ERR_BUSY;
/*******************************************************************************/
case ISODEP_ST_PICC_SDSL:
if(rfalIsTransceiveInRx()) /* Wait until DSL response has been sent */
{
rfalIsoDepInitialize(); /* Session finished reInit vars */
return ERR_SLEEP_REQ; /* Notify Deselect request */
}
return ERR_BUSY;
/*******************************************************************************/
default:
return ERR_INTERNAL;
}
/* ISO 14443-4 7.5.6.2 CE SHALL NOT attempt error recovery -> clear counters */
isoDepClearCounters();
/*******************************************************************************/
/* No error, process incoming msg */
/*******************************************************************************/
/* Grab rcvd PCB */
rxPCB = gIsoDep.rxBuf[ISODEP_PCB_POS];
/*******************************************************************************/
/* When DID=0 PCD may or may not use DID, therefore check whether current PCD request
* has DID present to be reflected on max INF length #454 */
/* ReCalculate Header Length */
gIsoDep.hdrLen = RFAL_ISODEP_PCB_LEN;
gIsoDep.hdrLen += (uint8_t)((isoDep_PCBhasDID(rxPCB)) ? RFAL_ISODEP_DID_LEN : 0U);
gIsoDep.hdrLen += (uint8_t)((isoDep_PCBhasNAD(rxPCB)) ? RFAL_ISODEP_NAD_LEN : 0U);
/* Store whether last PCD block had DID. for PICC special handling of DID = 0 */
if(gIsoDep.did == RFAL_ISODEP_DID_00) {
gIsoDep.lastDID00 = ((isoDep_PCBhasDID(rxPCB)) ? true : false);
}
/*******************************************************************************/
/* Check rcvd msg length, cannot be less then the expected header OR *
* if the rcvd msg exceeds our announced frame size (FSD) */
if(((*gIsoDep.rxLen) < gIsoDep.hdrLen) ||
((*gIsoDep.rxLen) > (gIsoDep.ourFsx - ISODEP_CRC_LEN))) {
isoDepReEnableRx(
(uint8_t*)gIsoDep.actvParam.rxBuf,
sizeof(rfalIsoDepBufFormat),
gIsoDep.actvParam.rxLen);
return ERR_BUSY; /* ERR_PROTO Ignore this protocol request */
}
/* If we are expecting DID, check if PCB signals its presence and if device ID match OR
* If our DID=0 and DID is sent but with an incorrect value */
if(((gIsoDep.did != RFAL_ISODEP_DID_00) &&
(!isoDep_PCBhasDID(rxPCB) || (gIsoDep.did != gIsoDep.rxBuf[ISODEP_DID_POS]))) ||
((gIsoDep.did == RFAL_ISODEP_DID_00) && isoDep_PCBhasDID(rxPCB) &&
(RFAL_ISODEP_DID_00 != gIsoDep.rxBuf[ISODEP_DID_POS]))) {
isoDepReEnableRx(
(uint8_t*)gIsoDep.actvParam.rxBuf,
sizeof(rfalIsoDepBufFormat),
gIsoDep.actvParam.rxLen);
return ERR_BUSY; /* Ignore a wrong DID request */
}
/* If we aren't expecting NAD and it's received */
if((gIsoDep.nad == RFAL_ISODEP_NO_NAD) && isoDep_PCBhasNAD(rxPCB)) {
isoDepReEnableRx(
(uint8_t*)gIsoDep.actvParam.rxBuf,
sizeof(rfalIsoDepBufFormat),
gIsoDep.actvParam.rxLen);
return ERR_BUSY; /* Ignore a unexpected NAD request */
}
/*******************************************************************************/
/* Process S-Block */
/*******************************************************************************/
if(isoDep_PCBisSBlock(rxPCB)) {
/* Check if is a Wait Time eXtension */
if(isoDep_PCBisSWTX(rxPCB)) {
/* Check if we're expecting a S-WTX */
if(isoDep_PCBisWTX(gIsoDep.lastPCB)) {
/* Digital 1.1 15.2.2.11 S(WTX) Ack with different WTXM -> Protocol Error *
* Power level indication also should be set to 0 */
if((gIsoDep.rxBuf[gIsoDep.hdrLen] == gIsoDep.lastWTXM) &&
((*gIsoDep.rxLen - gIsoDep.hdrLen) == ISODEP_SWTX_INF_LEN)) {
/* Clear waiting for RTOX Ack Flag */
gIsoDep.isWait4WTX = false;
/* Check if a Tx is already pending */
if(gIsoDep.isTxPending) {
/* Has a pending Tx, go immediately to TX */
gIsoDep.state = ISODEP_ST_PICC_TX;
return ERR_BUSY;
}
/* Set WTX timer */
isoDepTimerStart(
gIsoDep.WTXTimer,
isoDep_WTXAdjust((gIsoDep.lastWTXM * rfalConv1fcToMs(gIsoDep.fwt))));
gIsoDep.state = ISODEP_ST_PICC_SWTX;
return ERR_BUSY;
}
}
/* Unexpected/Incorrect S-WTX, fall into reRenable */
}
/* Check if is a Deselect request */
if(isoDep_PCBisSDeselect(rxPCB) &&
((*gIsoDep.rxLen - gIsoDep.hdrLen) == ISODEP_SDSL_INF_LEN)) {
EXIT_ON_ERR(ret, isoDepHandleControlMsg(ISODEP_S_DSL, RFAL_ISODEP_NO_PARAM));
/* S-DSL transmission ongoing, wait until complete */
gIsoDep.state = ISODEP_ST_PICC_SDSL;
return ERR_BUSY;
}
/* Unexpected S-Block, fall into reRenable */
}
/*******************************************************************************/
/* Process R-Block */
/*******************************************************************************/
else if(isoDep_PCBisRBlock(rxPCB) && ((*gIsoDep.rxLen - gIsoDep.hdrLen) == ISODEP_RBLOCK_INF_LEN)) {
if(isoDep_PCBisRACK(rxPCB)) /* Check if is a R-ACK */
{
if(isoDep_GetBN(rxPCB) == gIsoDep.blockNumber) /* Check block number */
{
/* Rule 11 - R(ACK) with current bn -> re-transmit */
if(!isoDep_PCBisIBlock(gIsoDep.lastPCB)) {
isoDepReSendControlMsg();
} else {
gIsoDep.state = ISODEP_ST_PICC_TX;
}
return ERR_BUSY;
} else {
if(!gIsoDep.isTxChaining) {
/* Rule 13 violation R(ACK) without performing chaining */
isoDepReEnableRx(
(uint8_t*)gIsoDep.rxBuf, sizeof(rfalIsoDepBufFormat), gIsoDep.rxLen);
return ERR_BUSY;
}
/* Rule E - R(ACK) with not current bn -> toogle bn */
isoDep_ToggleBN(gIsoDep.blockNumber);
/* This block has been transmitted and acknowledged, perform WTX until next data is provided */
/* Rule 9 - PICC is allowed to send an S(WTX) instead of an I-block or an R(ACK) */
isoDepTimerStart(gIsoDep.WTXTimer, isoDep_WTXAdjust(rfalConv1fcToMs(gIsoDep.fwt)));
gIsoDep.state = ISODEP_ST_PICC_SWTX;
/* Rule 13 - R(ACK) with not current bn -> continue chaining */
return ERR_NONE; /* This block has been transmitted */
}
} else if(isoDep_PCBisRNAK(rxPCB)) /* Check if is a R-NACK */
{
if(isoDep_GetBN(rxPCB) == gIsoDep.blockNumber) /* Check block number */
{
/* Rule 11 - R(NAK) with current bn -> re-transmit last x-Block */
if(!isoDep_PCBisIBlock(gIsoDep.lastPCB)) {
isoDepReSendControlMsg();
} else {
gIsoDep.state = ISODEP_ST_PICC_TX;
}
return ERR_BUSY;
} else {
/* Rule 12 - R(NAK) with not current bn -> R(ACK) */
EXIT_ON_ERR(ret, isoDepHandleControlMsg(ISODEP_R_ACK, RFAL_ISODEP_NO_PARAM));
return ERR_BUSY;
}
} else {
/* MISRA 15.7 - Empty else */
}
/* Unexpected R-Block, fall into reRenable */
}
/*******************************************************************************/
/* Process I-Block */
/*******************************************************************************/
else if(isoDep_PCBisIBlock(rxPCB)) {
/* Rule D - When an I-block is received, the PICC shall toggle its block number before sending a block */
isoDep_ToggleBN(gIsoDep.blockNumber);
/*******************************************************************************/
/* Check if the block number is the one expected */
/* Check if PCD sent an I-Block instead ACK/NACK when we are chaining */
if((isoDep_GetBN(rxPCB) != gIsoDep.blockNumber) || (gIsoDep.isTxChaining)) {
/* Remain in the same Block Number */
isoDep_ToggleBN(gIsoDep.blockNumber);
/* ISO 14443-4 7.5.6.2 & Digital 1.1 - 15.2.6.2 The CE SHALL NOT attempt error recovery and remains in Rx mode upon Transmission or a Protocol Error */
isoDepReEnableRx((uint8_t*)gIsoDep.rxBuf, sizeof(rfalIsoDepBufFormat), gIsoDep.rxLen);
return ERR_BUSY;
}
/*******************************************************************************/
/* is PCD performing chaining ? */
if(isoDep_PCBisChaining(rxPCB)) {
gIsoDep.isRxChaining = true;
*gIsoDep.rxChaining = true; /* Output Parameter*/
EXIT_ON_ERR(ret, isoDepHandleControlMsg(ISODEP_R_ACK, RFAL_ISODEP_NO_PARAM));
/* Received I-Block with chaining, send current data to DH */
/* remove ISO DEP header, check is necessary to move the INF data on the buffer */
*gIsoDep.rxLen -= gIsoDep.hdrLen;
if((gIsoDep.hdrLen != gIsoDep.rxBufInfPos) && (*gIsoDep.rxLen > 0U)) {
ST_MEMMOVE(
&gIsoDep.rxBuf[gIsoDep.rxBufInfPos],
&gIsoDep.rxBuf[gIsoDep.hdrLen],
*gIsoDep.rxLen);
}
return ERR_AGAIN; /* Send Again signalling to run again, but some chaining data has arrived*/
}
/*******************************************************************************/
/* PCD is not performing chaining */
gIsoDep.isRxChaining = false; /* clear PCD chaining flag */
*gIsoDep.rxChaining = false; /* Output Parameter */
/* remove ISO DEP header, check is necessary to move the INF data on the buffer */
*gIsoDep.rxLen -= gIsoDep.hdrLen;
if((gIsoDep.hdrLen != gIsoDep.rxBufInfPos) && (*gIsoDep.rxLen > 0U)) {
ST_MEMMOVE(
&gIsoDep.rxBuf[gIsoDep.rxBufInfPos],
&gIsoDep.rxBuf[gIsoDep.hdrLen],
*gIsoDep.rxLen);
}
/*******************************************************************************/
/* Reception done, send data back and start WTX timer */
isoDepTimerStart(gIsoDep.WTXTimer, isoDep_WTXAdjust(rfalConv1fcToMs(gIsoDep.fwt)));
gIsoDep.state = ISODEP_ST_PICC_SWTX;
return ERR_NONE;
} else {
/* MISRA 15.7 - Empty else */
}
/* Unexpected/Unknown Block */
/* ISO 14443-4 7.5.6.2 & Digital 1.1 - 15.2.6.2 The CE SHALL NOT attempt error recovery and remains in Rx mode upon Transmission or a Protocol Error */
isoDepReEnableRx((uint8_t*)gIsoDep.rxBuf, sizeof(rfalIsoDepBufFormat), gIsoDep.rxLen);
return ERR_BUSY;
}
#endif /* RFAL_FEATURE_ISO_DEP_LISTEN */
#if RFAL_FEATURE_ISO_DEP_POLL
#if RFAL_FEATURE_NFCA
/*******************************************************************************/
static ReturnCode
rfalIsoDepStartRATS(rfalIsoDepFSxI FSDI, uint8_t DID, rfalIsoDepAts* ats, uint8_t* atsLen) {
rfalTransceiveContext ctx;
if(ats == NULL) {
return ERR_PARAM;
}
gIsoDep.rxBuf = (uint8_t*)ats;
gIsoDep.rxLen8 = atsLen;
gIsoDep.did = DID;
/*******************************************************************************/
/* Compose RATS */
gIsoDep.actv.ratsReq.CMD = RFAL_ISODEP_CMD_RATS;
gIsoDep.actv.ratsReq.PARAM =
(((uint8_t)FSDI << RFAL_ISODEP_RATS_PARAM_FSDI_SHIFT) & RFAL_ISODEP_RATS_PARAM_FSDI_MASK) |
(DID & RFAL_ISODEP_RATS_PARAM_DID_MASK);
rfalCreateByteFlagsTxRxContext(
ctx,
(uint8_t*)&gIsoDep.actv.ratsReq,
sizeof(rfalIsoDepRats),
(uint8_t*)ats,
sizeof(rfalIsoDepAts),
&gIsoDep.rxBufLen,
RFAL_TXRX_FLAGS_DEFAULT,
RFAL_ISODEP_T4T_FWT_ACTIVATION);
return rfalStartTransceive(&ctx);
}
/*******************************************************************************/
static ReturnCode rfalIsoDepGetRATSStatus(void) {
ReturnCode ret;
ret = rfalGetTransceiveStatus();
if(ret == ERR_NONE) {
gIsoDep.rxBufLen = rfalConvBitsToBytes(gIsoDep.rxBufLen);
/* Check for valid ATS length Digital 1.1 13.6.2.1 & 13.6.2.3 */
if((gIsoDep.rxBufLen < RFAL_ISODEP_ATS_MIN_LEN) ||
(gIsoDep.rxBufLen > RFAL_ISODEP_ATS_MAX_LEN) ||
(gIsoDep.rxBuf[RFAL_ISODEP_ATS_TL_POS] != gIsoDep.rxBufLen)) {
return ERR_PROTO;
}
/* Assign our FSx, in case the a Deselect is send without Transceive */
gIsoDep.ourFsx = rfalIsoDepFSxI2FSx(
(uint8_t)(gIsoDep.actv.ratsReq.PARAM >> RFAL_ISODEP_RATS_PARAM_FSDI_SHIFT));
/* Check and assign if ATS length was requested (length also available on TL) */
if(gIsoDep.rxLen8 != NULL) {
*gIsoDep.rxLen8 = (uint8_t)gIsoDep.rxBufLen;
}
}
return ret;
}
/*******************************************************************************/
ReturnCode rfalIsoDepRATS(rfalIsoDepFSxI FSDI, uint8_t DID, rfalIsoDepAts* ats, uint8_t* atsLen) {
ReturnCode ret;
EXIT_ON_ERR(ret, rfalIsoDepStartRATS(FSDI, DID, ats, atsLen));
rfalIsoDepRunBlocking(ret, rfalIsoDepGetRATSStatus());
return ret;
}
/*******************************************************************************/
static ReturnCode
rfalIsoDepStartPPS(uint8_t DID, rfalBitRate DSI, rfalBitRate DRI, rfalIsoDepPpsRes* ppsRes) {
rfalTransceiveContext ctx;
if((ppsRes == NULL) || (DSI > RFAL_BR_848) || (DRI > RFAL_BR_848) ||
(DID > RFAL_ISODEP_DID_MAX)) {
return ERR_PARAM;
}
gIsoDep.rxBuf = (uint8_t*)ppsRes;
/*******************************************************************************/
/* Compose PPS Request */
gIsoDep.actv.ppsReq.PPSS = (RFAL_ISODEP_PPS_SB | (DID & RFAL_ISODEP_PPS_SB_DID_MASK));
gIsoDep.actv.ppsReq.PPS0 = RFAL_ISODEP_PPS_PPS0_PPS1_PRESENT;
gIsoDep.actv.ppsReq.PPS1 =
(RFAL_ISODEP_PPS_PPS1 |
((((uint8_t)DSI << RFAL_ISODEP_PPS_PPS1_DSI_SHIFT) | (uint8_t)DRI) &
RFAL_ISODEP_PPS_PPS1_DXI_MASK));
rfalCreateByteFlagsTxRxContext(
ctx,
(uint8_t*)&gIsoDep.actv.ppsReq,
sizeof(rfalIsoDepPpsReq),
(uint8_t*)ppsRes,
sizeof(rfalIsoDepPpsRes),
&gIsoDep.rxBufLen,
RFAL_TXRX_FLAGS_DEFAULT,
RFAL_ISODEP_T4T_FWT_ACTIVATION);
return rfalStartTransceive(&ctx);
}
/*******************************************************************************/
static ReturnCode rfalIsoDepGetPPSSTatus(void) {
ReturnCode ret;
ret = rfalGetTransceiveStatus();
if(ret == ERR_NONE) {
gIsoDep.rxBufLen = rfalConvBitsToBytes(gIsoDep.rxBufLen);
/* Check for valid PPS Response */
if((gIsoDep.rxBufLen != RFAL_ISODEP_PPS_RES_LEN) ||
(*gIsoDep.rxBuf != gIsoDep.actv.ppsReq.PPSS)) {
return ERR_PROTO;
}
}
return ret;
}
/*******************************************************************************/
ReturnCode rfalIsoDepPPS(uint8_t DID, rfalBitRate DSI, rfalBitRate DRI, rfalIsoDepPpsRes* ppsRes) {
ReturnCode ret;
EXIT_ON_ERR(ret, rfalIsoDepStartPPS(DID, DSI, DRI, ppsRes));
rfalIsoDepRunBlocking(ret, rfalIsoDepGetPPSSTatus());
return ret;
}
#endif /* RFAL_FEATURE_NFCA */
#if RFAL_FEATURE_NFCB
static ReturnCode rfalIsoDepStartATTRIB(
const uint8_t* nfcid0,
uint8_t PARAM1,
rfalBitRate DSI,
rfalBitRate DRI,
rfalIsoDepFSxI FSDI,
uint8_t PARAM3,
uint8_t DID,
const uint8_t* HLInfo,
uint8_t HLInfoLen,
uint32_t fwt,
rfalIsoDepAttribRes* attribRes,
uint8_t* attribResLen) {
rfalTransceiveContext ctx;
if((attribRes == NULL) || (attribResLen == NULL) || (DSI > RFAL_BR_848) ||
(DRI > RFAL_BR_848) || (DID > RFAL_ISODEP_DID_MAX)) {
return ERR_NONE;
}
gIsoDep.rxBuf = (uint8_t*)attribRes;
gIsoDep.rxLen8 = attribResLen;
gIsoDep.did = DID;
/*******************************************************************************/
/* Compose ATTRIB command */
gIsoDep.actv.attribReq.cmd = RFAL_ISODEP_CMD_ATTRIB;
gIsoDep.actv.attribReq.Param.PARAM1 = PARAM1;
gIsoDep.actv.attribReq.Param.PARAM2 =
(((((uint8_t)DSI << RFAL_ISODEP_ATTRIB_PARAM2_DSI_SHIFT) |
((uint8_t)DRI << RFAL_ISODEP_ATTRIB_PARAM2_DRI_SHIFT)) &
RFAL_ISODEP_ATTRIB_PARAM2_DXI_MASK) |
((uint8_t)FSDI & RFAL_ISODEP_ATTRIB_PARAM2_FSDI_MASK));
gIsoDep.actv.attribReq.Param.PARAM3 = PARAM3;
gIsoDep.actv.attribReq.Param.PARAM4 = (DID & RFAL_ISODEP_ATTRIB_PARAM4_DID_MASK);
ST_MEMCPY(gIsoDep.actv.attribReq.nfcid0, nfcid0, RFAL_NFCB_NFCID0_LEN);
/* Append the Higher layer Info if provided */
if((HLInfo != NULL) && (HLInfoLen > 0U)) {
ST_MEMCPY(
gIsoDep.actv.attribReq.HLInfo, HLInfo, MIN(HLInfoLen, RFAL_ISODEP_ATTRIB_HLINFO_LEN));
}
rfalCreateByteFlagsTxRxContext(
ctx,
(uint8_t*)&gIsoDep.actv.attribReq,
(uint16_t)(RFAL_ISODEP_ATTRIB_HDR_LEN + MIN((uint16_t)HLInfoLen, RFAL_ISODEP_ATTRIB_HLINFO_LEN)),
(uint8_t*)gIsoDep.rxBuf,
sizeof(rfalIsoDepAttribRes),
&gIsoDep.rxBufLen,
RFAL_TXRX_FLAGS_DEFAULT,
fwt);
return rfalStartTransceive(&ctx);
}
/*******************************************************************************/
static ReturnCode rfalIsoDepGetATTRIBStatus(void) {
ReturnCode ret;
ret = rfalGetTransceiveStatus();
if(ret == ERR_NONE) {
gIsoDep.rxBufLen = rfalConvBitsToBytes(gIsoDep.rxBufLen);
/* Check a for valid ATTRIB Response Digital 1.1 15.6.2.1 */
if((gIsoDep.rxBufLen < RFAL_ISODEP_ATTRIB_RES_HDR_LEN) ||
((gIsoDep.rxBuf[RFAL_ISODEP_ATTRIB_RES_MBLIDID_POS] &
RFAL_ISODEP_ATTRIB_RES_DID_MASK) != gIsoDep.did)) {
return ERR_PROTO;
}
if(gIsoDep.rxLen8 != NULL) {
*gIsoDep.rxLen8 = (uint8_t)gIsoDep.rxBufLen;
}
gIsoDep.ourFsx = rfalIsoDepFSxI2FSx(
(uint8_t)(gIsoDep.actv.attribReq.Param.PARAM2 & RFAL_ISODEP_ATTRIB_PARAM2_FSDI_MASK));
}
return ret;
}
/*******************************************************************************/
ReturnCode rfalIsoDepATTRIB(
const uint8_t* nfcid0,
uint8_t PARAM1,
rfalBitRate DSI,
rfalBitRate DRI,
rfalIsoDepFSxI FSDI,
uint8_t PARAM3,
uint8_t DID,
const uint8_t* HLInfo,
uint8_t HLInfoLen,
uint32_t fwt,
rfalIsoDepAttribRes* attribRes,
uint8_t* attribResLen) {
ReturnCode ret;
EXIT_ON_ERR(
ret,
rfalIsoDepStartATTRIB(
nfcid0,
PARAM1,
DSI,
DRI,
FSDI,
PARAM3,
DID,
HLInfo,
HLInfoLen,
fwt,
attribRes,
attribResLen));
rfalIsoDepRunBlocking(ret, rfalIsoDepGetATTRIBStatus());
return ret;
}
#endif /* RFAL_FEATURE_NFCB */
#if RFAL_FEATURE_NFCA
/*******************************************************************************/
ReturnCode rfalIsoDepPollAHandleActivation(
rfalIsoDepFSxI FSDI,
uint8_t DID,
rfalBitRate maxBR,
rfalIsoDepDevice* isoDepDev) {
ReturnCode ret;
EXIT_ON_ERR(ret, rfalIsoDepPollAStartActivation(FSDI, DID, maxBR, isoDepDev));
rfalIsoDepRunBlocking(ret, rfalIsoDepPollAGetActivationStatus());
return ret;
}
/*******************************************************************************/
ReturnCode rfalIsoDepPollAStartActivation(
rfalIsoDepFSxI FSDI,
uint8_t DID,
rfalBitRate maxBR,
rfalIsoDepDevice* isoDepDev) {
ReturnCode ret;
if(isoDepDev == NULL) {
return ERR_PARAM;
}
/* Enable EMD handling according Digital 1.1 4.1.1.1 ; EMVCo 2.6 4.9.2 */
rfalSetErrorHandling(RFAL_ERRORHANDLING_EMVCO);
/* Start RATS Transceive */
EXIT_ON_ERR(
ret,
rfalIsoDepStartRATS(
FSDI,
DID,
&isoDepDev->activation.A.Listener.ATS,
&isoDepDev->activation.A.Listener.ATSLen));
isoDepDev->info.DSI = maxBR;
gIsoDep.actvDev = isoDepDev;
gIsoDep.cntRRetrys = gIsoDep.maxRetriesRATS;
gIsoDep.state = ISODEP_ST_PCD_ACT_RATS;
return ret;
}
/*******************************************************************************/
ReturnCode rfalIsoDepPollAGetActivationStatus(void) {
ReturnCode ret;
uint8_t msgIt;
rfalBitRate maxBR;
switch(gIsoDep.state) {
/*******************************************************************************/
case ISODEP_ST_PCD_ACT_RATS:
ret = rfalIsoDepGetRATSStatus();
if(ret != ERR_BUSY) {
if(ret != ERR_NONE) {
/* EMVCo 2.6 9.6.1.1 & 9.6.1.2 If a timeout error is detected retransmit, on transmission error abort */
if((gIsoDep.compMode == RFAL_COMPLIANCE_MODE_EMV) && (ret != ERR_TIMEOUT)) {
break;
}
if(gIsoDep.cntRRetrys != 0U) {
/* Ensure FDT before retransmission (reuse RFAL GT timer) */
rfalSetGT(rfalGetFDTPoll());
rfalFieldOnAndStartGT();
/* Send RATS retransmission */ /* PRQA S 4342 1 # MISRA 10.5 - Layout of enum rfalIsoDepFSxI is guaranteed whithin 4bit range */
EXIT_ON_ERR(
ret,
rfalIsoDepStartRATS(
(rfalIsoDepFSxI)(uint8_t)(gIsoDep.actv.ratsReq.PARAM >> RFAL_ISODEP_RATS_PARAM_FSDI_SHIFT),
gIsoDep.did,
&gIsoDep.actvDev->activation.A.Listener.ATS,
&gIsoDep.actvDev->activation.A.Listener.ATSLen));
gIsoDep.cntRRetrys--;
ret = ERR_BUSY;
}
/* Switch between NFC Forum and ISO14443-4 behaviour #595
* ISO14443-4 5.6.1 If RATS fails, a Deactivation sequence should be performed as defined on clause 8
* Activity 1.1 9.6 Device Deactivation Activity is to be only performed when there's an active device */
else if(gIsoDep.compMode == RFAL_COMPLIANCE_MODE_ISO) {
rfalIsoDepDeselect();
} else {
/* MISRA 15.7 - Empty else */
}
} else /* ATS received */
{
maxBR = gIsoDep.actvDev->info.DSI; /* Retrieve requested max bitrate */
/*******************************************************************************/
/* Process ATS Response */
gIsoDep.actvDev->info.FWI =
RFAL_ISODEP_FWI_DEFAULT; /* Default value EMVCo 2.6 5.7.2.6 */
gIsoDep.actvDev->info.SFGI = 0U;
gIsoDep.actvDev->info.MBL = 0U;
gIsoDep.actvDev->info.DSI = RFAL_BR_106;
gIsoDep.actvDev->info.DRI = RFAL_BR_106;
gIsoDep.actvDev->info.FSxI = (uint8_t)
RFAL_ISODEP_FSXI_32; /* FSC default value is 32 bytes ISO14443-A 5.2.3 */
/*******************************************************************************/
/* Check for ATS optional fields */
if(gIsoDep.actvDev->activation.A.Listener.ATS.TL > RFAL_ISODEP_ATS_MIN_LEN) {
msgIt = RFAL_ISODEP_ATS_MIN_LEN;
/* Format byte T0 is optional, if present assign FSDI */
gIsoDep.actvDev->info.FSxI =
(gIsoDep.actvDev->activation.A.Listener.ATS.T0 &
RFAL_ISODEP_ATS_T0_FSCI_MASK);
/* T0 has already been processed, always the same position */
msgIt++;
/* Check if TA is present */
if((gIsoDep.actvDev->activation.A.Listener.ATS.T0 &
RFAL_ISODEP_ATS_T0_TA_PRESENCE_MASK) != 0U) {
rfalIsoDepCalcBitRate(
maxBR,
((uint8_t*)&gIsoDep.actvDev->activation.A.Listener.ATS)[msgIt++],
&gIsoDep.actvDev->info.DSI,
&gIsoDep.actvDev->info.DRI);
}
/* Check if TB is present */
if((gIsoDep.actvDev->activation.A.Listener.ATS.T0 &
RFAL_ISODEP_ATS_T0_TB_PRESENCE_MASK) != 0U) {
gIsoDep.actvDev->info.SFGI =
((uint8_t*)&gIsoDep.actvDev->activation.A.Listener.ATS)[msgIt++];
gIsoDep.actvDev->info.FWI =
(uint8_t)((gIsoDep.actvDev->info.SFGI >> RFAL_ISODEP_ATS_TB_FWI_SHIFT) & RFAL_ISODEP_ATS_FWI_MASK);
gIsoDep.actvDev->info.SFGI &= RFAL_ISODEP_ATS_TB_SFGI_MASK;
}
/* Check if TC is present */
if((gIsoDep.actvDev->activation.A.Listener.ATS.T0 &
RFAL_ISODEP_ATS_T0_TC_PRESENCE_MASK) != 0U) {
/* Check for Protocol features support */
/* Advanced protocol features defined on Digital 1.0 Table 69, removed after */
gIsoDep.actvDev->info.supAdFt =
(((((uint8_t*)&gIsoDep.actvDev->activation.A.Listener.ATS)[msgIt] &
RFAL_ISODEP_ATS_TC_ADV_FEAT) != 0U) ?
true :
false);
gIsoDep.actvDev->info.supDID =
(((((uint8_t*)&gIsoDep.actvDev->activation.A.Listener.ATS)[msgIt] &
RFAL_ISODEP_ATS_TC_DID) != 0U) ?
true :
false);
gIsoDep.actvDev->info.supNAD =
(((((uint8_t*)&gIsoDep.actvDev->activation.A.Listener.ATS)[msgIt++] &
RFAL_ISODEP_ATS_TC_NAD) != 0U) ?
true :
false);
}
}
gIsoDep.actvDev->info.FSx = rfalIsoDepFSxI2FSx(gIsoDep.actvDev->info.FSxI);
gIsoDep.fsx = gIsoDep.actvDev->info.FSx;
gIsoDep.actvDev->info.SFGT =
rfalIsoDepSFGI2SFGT((uint8_t)gIsoDep.actvDev->info.SFGI);
/* Ensure SFGT before following frame (reuse RFAL GT timer) */
rfalSetGT(rfalConvMsTo1fc(gIsoDep.actvDev->info.SFGT));
rfalFieldOnAndStartGT();
gIsoDep.actvDev->info.FWT = rfalIsoDepFWI2FWT(gIsoDep.actvDev->info.FWI);
gIsoDep.actvDev->info.dFWT = RFAL_ISODEP_DFWT_20;
gIsoDep.actvDev->info.DID =
((gIsoDep.actvDev->info.supDID) ? gIsoDep.did : RFAL_ISODEP_NO_DID);
gIsoDep.actvDev->info.NAD = RFAL_ISODEP_NO_NAD;
/*******************************************************************************/
/* If higher bit rates are supported by both devices, send PPS */
if((gIsoDep.actvDev->info.DSI != RFAL_BR_106) ||
(gIsoDep.actvDev->info.DRI != RFAL_BR_106)) {
/* Send PPS */ /* PRQA S 0310 1 # MISRA 11.3 - Intentional safe cast to avoiding buffer duplication */
EXIT_ON_ERR(
ret,
rfalIsoDepStartPPS(
gIsoDep.actvDev->info.DID,
gIsoDep.actvDev->info.DSI,
gIsoDep.actvDev->info.DRI,
(rfalIsoDepPpsRes*)&gIsoDep.ctrlBuf));
gIsoDep.state = ISODEP_ST_PCD_ACT_PPS;
return ERR_BUSY;
}
return ERR_NONE;
}
}
break;
/*******************************************************************************/
case ISODEP_ST_PCD_ACT_PPS:
ret = rfalIsoDepGetPPSSTatus();
if(ret != ERR_BUSY) {
/* Check whether PPS has been acknowledge */
if(ret == ERR_NONE) {
/* DSI code the divisor from PICC to PCD */
/* DRI code the divisor from PCD to PICC */
rfalSetBitRate(gIsoDep.actvDev->info.DRI, gIsoDep.actvDev->info.DSI);
} else {
/* If PPS has faled keep activation bit rate */
gIsoDep.actvDev->info.DSI = RFAL_BR_106;
gIsoDep.actvDev->info.DRI = RFAL_BR_106;
}
}
break;
/*******************************************************************************/
default:
ret = ERR_WRONG_STATE;
break;
}
return ret;
}
#endif /* RFAL_FEATURE_NFCA */
#if RFAL_FEATURE_NFCB
/*******************************************************************************/
ReturnCode rfalIsoDepPollBHandleActivation(
rfalIsoDepFSxI FSDI,
uint8_t DID,
rfalBitRate maxBR,
uint8_t PARAM1,
const rfalNfcbListenDevice* nfcbDev,
const uint8_t* HLInfo,
uint8_t HLInfoLen,
rfalIsoDepDevice* isoDepDev) {
ReturnCode ret;
EXIT_ON_ERR(
ret,
rfalIsoDepPollBStartActivation(
FSDI, DID, maxBR, PARAM1, nfcbDev, HLInfo, HLInfoLen, isoDepDev));
rfalIsoDepRunBlocking(ret, rfalIsoDepPollBGetActivationStatus());
return ret;
}
/*******************************************************************************/
ReturnCode rfalIsoDepPollBStartActivation(
rfalIsoDepFSxI FSDI,
uint8_t DID,
rfalBitRate maxBR,
uint8_t PARAM1,
const rfalNfcbListenDevice* nfcbDev,
const uint8_t* HLInfo,
uint8_t HLInfoLen,
rfalIsoDepDevice* isoDepDev) {
ReturnCode ret;
/***************************************************************************/
/* Initialize ISO-DEP Device with info from SENSB_RES */
isoDepDev->info.FWI =
((nfcbDev->sensbRes.protInfo.FwiAdcFo >> RFAL_NFCB_SENSB_RES_FWI_SHIFT) &
RFAL_NFCB_SENSB_RES_FWI_MASK);
isoDepDev->info.FWT = rfalIsoDepFWI2FWT(isoDepDev->info.FWI);
isoDepDev->info.dFWT = RFAL_NFCB_DFWT;
isoDepDev->info.SFGI =
(((uint32_t)nfcbDev->sensbRes.protInfo.SFGI >> RFAL_NFCB_SENSB_RES_SFGI_SHIFT) &
RFAL_NFCB_SENSB_RES_SFGI_MASK);
isoDepDev->info.SFGT = rfalIsoDepSFGI2SFGT((uint8_t)isoDepDev->info.SFGI);
isoDepDev->info.FSxI =
((nfcbDev->sensbRes.protInfo.FsciProType >> RFAL_NFCB_SENSB_RES_FSCI_SHIFT) &
RFAL_NFCB_SENSB_RES_FSCI_MASK);
isoDepDev->info.FSx = rfalIsoDepFSxI2FSx(isoDepDev->info.FSxI);
isoDepDev->info.DID = DID;
isoDepDev->info.supDID =
(((nfcbDev->sensbRes.protInfo.FwiAdcFo & RFAL_NFCB_SENSB_RES_FO_DID_MASK) != 0U) ? true :
false);
isoDepDev->info.supNAD =
(((nfcbDev->sensbRes.protInfo.FwiAdcFo & RFAL_NFCB_SENSB_RES_FO_NAD_MASK) != 0U) ? true :
false);
/* Check if DID requested is supported by PICC */
if((DID != RFAL_ISODEP_NO_DID) && (!isoDepDev->info.supDID)) {
return ERR_PARAM;
}
/* Enable EMD handling according Digital 2.1 4.1.1.1 ; EMVCo 3.0 4.9.2 */
rfalSetErrorHandling(RFAL_ERRORHANDLING_EMVCO);
/***************************************************************************/
/* Set FDT Poll to be used on upcoming communications */
if(gIsoDep.compMode == RFAL_COMPLIANCE_MODE_EMV) {
/* Disregard Minimum TR2 returned by PICC, always use FDTb MIN EMVCo 3.0 6.3.2.10 */
rfalSetFDTPoll(RFAL_FDT_POLL_NFCB_POLLER);
} else {
/* Apply minimum TR2 from SENSB_RES Digital 2.1 7.6.2.23 */
rfalSetFDTPoll(rfalNfcbTR2ToFDT(
((nfcbDev->sensbRes.protInfo.FsciProType >> RFAL_NFCB_SENSB_RES_PROTO_TR2_SHIFT) &
RFAL_NFCB_SENSB_RES_PROTO_TR2_MASK)));
}
/* Calculate max Bit Rate */
rfalIsoDepCalcBitRate(
maxBR, nfcbDev->sensbRes.protInfo.BRC, &isoDepDev->info.DSI, &isoDepDev->info.DRI);
/***************************************************************************/
/* Send ATTRIB Command */
EXIT_ON_ERR(
ret,
rfalIsoDepStartATTRIB(
(const uint8_t*)&nfcbDev->sensbRes.nfcid0,
(((nfcbDev->sensbRes.protInfo.FwiAdcFo & RFAL_NFCB_SENSB_RES_ADC_ADV_FEATURE_MASK) !=
0U) ?
PARAM1 :
RFAL_ISODEP_ATTRIB_REQ_PARAM1_DEFAULT),
isoDepDev->info.DSI,
isoDepDev->info.DRI,
FSDI,
(gIsoDep.compMode == RFAL_COMPLIANCE_MODE_EMV) ?
RFAL_NFCB_SENSB_RES_PROTO_ISO_MASK :
(nfcbDev->sensbRes.protInfo.FsciProType &
((RFAL_NFCB_SENSB_RES_PROTO_TR2_MASK << RFAL_NFCB_SENSB_RES_PROTO_TR2_SHIFT) |
RFAL_NFCB_SENSB_RES_PROTO_ISO_MASK)), /* EMVCo 2.6 6.4.1.9 */
DID,
HLInfo,
HLInfoLen,
(isoDepDev->info.FWT + isoDepDev->info.dFWT),
&isoDepDev->activation.B.Listener.ATTRIB_RES,
&isoDepDev->activation.B.Listener.ATTRIB_RESLen));
gIsoDep.actvDev = isoDepDev;
return ret;
}
/*******************************************************************************/
ReturnCode rfalIsoDepPollBGetActivationStatus(void) {
ReturnCode ret;
uint8_t mbli;
/***************************************************************************/
/* Process ATTRIB Response */
ret = rfalIsoDepGetATTRIBStatus();
if(ret != ERR_BUSY) {
if(ret == ERR_NONE) {
/* Digital 1.1 14.6.2.3 - Check if received DID match */
if((gIsoDep.actvDev->activation.B.Listener.ATTRIB_RES.mbliDid &
RFAL_ISODEP_ATTRIB_RES_DID_MASK) != gIsoDep.did) {
return ERR_PROTO;
}
/* Retrieve MBLI and calculate new FDS/MBL (Maximum Buffer Length) */
mbli =
((gIsoDep.actvDev->activation.B.Listener.ATTRIB_RES.mbliDid >>
RFAL_ISODEP_ATTRIB_RES_MBLI_SHIFT) &
RFAL_ISODEP_ATTRIB_RES_MBLI_MASK);
if(mbli > 0U) {
/* Digital 1.1 14.6.2 Calculate Maximum Buffer Length MBL = FSC x 2^(MBLI-1) */
gIsoDep.actvDev->info.MBL =
(gIsoDep.actvDev->info.FSx * ((uint32_t)1U << (mbli - 1U)));
}
/* DSI code the divisor from PICC to PCD */
/* DRI code the divisor from PCD to PICC */
rfalSetBitRate(gIsoDep.actvDev->info.DRI, gIsoDep.actvDev->info.DSI);
/* REMARK: SoF EoF TR0 and TR1 are not passed on to RF layer */
/* Start the SFGT timer (reuse RFAL GT timer) */
rfalSetGT(rfalConvMsTo1fc(gIsoDep.actvDev->info.SFGT));
rfalFieldOnAndStartGT();
} else {
gIsoDep.actvDev->info.DSI = RFAL_BR_106;
gIsoDep.actvDev->info.DRI = RFAL_BR_106;
}
/*******************************************************************************/
/* Store already FS info, rfalIsoDepGetMaxInfLen() may be called before setting TxRx params */
gIsoDep.fsx = gIsoDep.actvDev->info.FSx;
}
return ret;
}
#endif /* RFAL_FEATURE_NFCB */
/*******************************************************************************/
ReturnCode rfalIsoDepPollHandleSParameters(
rfalIsoDepDevice* isoDepDev,
rfalBitRate maxTxBR,
rfalBitRate maxRxBR) {
uint8_t it;
uint8_t supPCD2PICC;
uint8_t supPICC2PCD;
uint8_t currenttxBR;
uint8_t currentrxBR;
rfalBitRate txBR;
rfalBitRate rxBR;
uint16_t rcvLen;
ReturnCode ret;
rfalIsoDepControlMsgSParam sParam;
if((isoDepDev == NULL) || (maxTxBR > RFAL_BR_13560) || (maxRxBR > RFAL_BR_13560)) {
return ERR_PARAM;
}
it = 0;
supPICC2PCD = 0x00;
supPCD2PICC = 0x00;
txBR = RFAL_BR_106;
rxBR = RFAL_BR_106;
sParam.pcb = ISODEP_PCB_SPARAMETERS;
/*******************************************************************************/
/* Send S(PARAMETERS) - Block Info */
sParam.sParam.tag = RFAL_ISODEP_SPARAM_TAG_BLOCKINFO;
sParam.sParam.value[it++] = RFAL_ISODEP_SPARAM_TAG_BRREQ;
sParam.sParam.value[it++] = RFAL_ISODEP_SPARAM_TAG_BRREQ_LEN;
sParam.sParam.length = it;
/* Send S(PARAMETERS). Use a fixed FWI of 4 ISO14443-4 2016 7.2 */
EXIT_ON_ERR(
ret,
rfalTransceiveBlockingTxRx(
(uint8_t*)&sParam,
(RFAL_ISODEP_SPARAM_HDR_LEN + (uint16_t)it),
(uint8_t*)&sParam,
sizeof(rfalIsoDepControlMsgSParam),
&rcvLen,
RFAL_TXRX_FLAGS_DEFAULT,
ISODEP_FWT_DEACTIVATION));
it = 0;
/*******************************************************************************/
/* Check S(PARAMETERS) response */
if((sParam.pcb != ISODEP_PCB_SPARAMETERS) ||
(sParam.sParam.tag != RFAL_ISODEP_SPARAM_TAG_BLOCKINFO) ||
(sParam.sParam.value[it] != RFAL_ISODEP_SPARAM_TAG_BRIND) ||
(rcvLen < RFAL_ISODEP_SPARAM_HDR_LEN) ||
(rcvLen != ((uint16_t)sParam.sParam.length + RFAL_ISODEP_SPARAM_HDR_LEN))) {
return ERR_PROTO;
}
/* Retrieve PICC's bit rate PICC capabilities */
for(it = 0; it < (rcvLen - (uint16_t)RFAL_ISODEP_SPARAM_TAG_LEN); it++) {
if((sParam.sParam.value[it] == RFAL_ISODEP_SPARAM_TAG_SUP_PCD2PICC) &&
(sParam.sParam.value[it + (uint16_t)RFAL_ISODEP_SPARAM_TAG_LEN] ==
RFAL_ISODEP_SPARAM_TAG_PCD2PICC_LEN)) {
supPCD2PICC = sParam.sParam.value[it + RFAL_ISODEP_SPARAM_TAG_PCD2PICC_LEN];
}
if((sParam.sParam.value[it] == RFAL_ISODEP_SPARAM_TAG_SUP_PICC2PCD) &&
(sParam.sParam.value[it + (uint16_t)RFAL_ISODEP_SPARAM_TAG_LEN] ==
RFAL_ISODEP_SPARAM_TAG_PICC2PCD_LEN)) {
supPICC2PCD = sParam.sParam.value[it + RFAL_ISODEP_SPARAM_TAG_PICC2PCD_LEN];
}
}
/*******************************************************************************/
/* Check if requested bit rates are supported by PICC */
if((supPICC2PCD == 0x00U) || (supPCD2PICC == 0x00U)) {
return ERR_PROTO;
}
for(it = 0; it <= (uint8_t)maxTxBR; it++) {
if((supPCD2PICC & (0x01U << it)) != 0U) {
txBR = (rfalBitRate)
it; /* PRQA S 4342 # MISRA 10.5 - Layout of enum rfalBitRate and above clamping of maxTxBR guarantee no invalid enum values to be created */
}
}
for(it = 0; it <= (uint8_t)maxRxBR; it++) {
if((supPICC2PCD & (0x01U << it)) != 0U) {
rxBR = (rfalBitRate)
it; /* PRQA S 4342 # MISRA 10.5 - Layout of enum rfalBitRate and above clamping of maxTxBR guarantee no invalid enum values to be created */
}
}
it = 0;
currenttxBR = (uint8_t)txBR;
currentrxBR = (uint8_t)rxBR;
/*******************************************************************************/
/* Send S(PARAMETERS) - Bit rates Activation */
sParam.sParam.tag = RFAL_ISODEP_SPARAM_TAG_BLOCKINFO;
sParam.sParam.value[it++] = RFAL_ISODEP_SPARAM_TAG_BRACT;
sParam.sParam.value[it++] =
(RFAL_ISODEP_SPARAM_TVL_HDR_LEN + RFAL_ISODEP_SPARAM_TAG_PCD2PICC_LEN +
RFAL_ISODEP_SPARAM_TVL_HDR_LEN + RFAL_ISODEP_SPARAM_TAG_PICC2PCD_LEN);
sParam.sParam.value[it++] = RFAL_ISODEP_SPARAM_TAG_SEL_PCD2PICC;
sParam.sParam.value[it++] = RFAL_ISODEP_SPARAM_TAG_PCD2PICC_LEN;
sParam.sParam.value[it++] = ((uint8_t)0x01U << currenttxBR);
sParam.sParam.value[it++] = 0x00U;
sParam.sParam.value[it++] = RFAL_ISODEP_SPARAM_TAG_SEL_PICC2PCD;
sParam.sParam.value[it++] = RFAL_ISODEP_SPARAM_TAG_PICC2PCD_LEN;
sParam.sParam.value[it++] = ((uint8_t)0x01U << currentrxBR);
sParam.sParam.value[it++] = 0x00U;
sParam.sParam.length = it;
EXIT_ON_ERR(
ret,
rfalTransceiveBlockingTxRx(
(uint8_t*)&sParam,
(RFAL_ISODEP_SPARAM_HDR_LEN + (uint16_t)it),
(uint8_t*)&sParam,
sizeof(rfalIsoDepControlMsgSParam),
&rcvLen,
RFAL_TXRX_FLAGS_DEFAULT,
(isoDepDev->info.FWT + isoDepDev->info.dFWT)));
it = 0;
/*******************************************************************************/
/* Check S(PARAMETERS) Acknowledge */
if((sParam.pcb != ISODEP_PCB_SPARAMETERS) ||
(sParam.sParam.tag != RFAL_ISODEP_SPARAM_TAG_BLOCKINFO) ||
(sParam.sParam.value[it] != RFAL_ISODEP_SPARAM_TAG_BRACK) ||
(rcvLen < RFAL_ISODEP_SPARAM_HDR_LEN)) {
return ERR_PROTO;
}
EXIT_ON_ERR(ret, rfalSetBitRate(txBR, rxBR));
isoDepDev->info.DRI = txBR;
isoDepDev->info.DSI = rxBR;
return ERR_NONE;
}
/*******************************************************************************/
static void rfalIsoDepCalcBitRate(
rfalBitRate maxAllowedBR,
uint8_t piccBRCapability,
rfalBitRate* dsi,
rfalBitRate* dri) {
uint8_t driMask;
uint8_t dsiMask;
int8_t i;
bool bitrateFound;
rfalBitRate curMaxBR;
curMaxBR = maxAllowedBR;
do {
bitrateFound = true;
(*dsi) = RFAL_BR_106;
(*dri) = RFAL_BR_106;
/* Digital 1.0 5.6.2.5 & 11.6.2.14: A received RFU value of b4 = 1b MUST be interpreted as if b7 to b1 ? 0000000b (only 106 kbits/s in both direction) */
if(((RFAL_ISODEP_BITRATE_RFU_MASK & piccBRCapability) != 0U) || (curMaxBR > RFAL_BR_848) ||
(curMaxBR == RFAL_BR_KEEP)) {
return;
}
/***************************************************************************/
/* Determine Listen->Poll bit rate */
dsiMask = (piccBRCapability & RFAL_ISODEP_BSI_MASK);
for(i = 2; i >= 0; i--) // Check supported bit rate from the highest
{
if(((dsiMask & (0x10U << (uint8_t)i)) != 0U) &&
(((uint8_t)i + 1U) <= (uint8_t)curMaxBR)) {
uint8_t newdsi = ((uint8_t)i) + 1U;
(*dsi) = (rfalBitRate)
newdsi; /* PRQA S 4342 # MISRA 10.5 - Layout of enum rfalBitRate and range of loop variable guarantee no invalid enum values to be created */
break;
}
}
/***************************************************************************/
/* Determine Poll->Listen bit rate */
driMask = (piccBRCapability & RFAL_ISODEP_BRI_MASK);
for(i = 2; i >= 0; i--) /* Check supported bit rate from the highest */
{
if(((driMask & (0x01U << (uint8_t)i)) != 0U) &&
(((uint8_t)i + 1U) <= (uint8_t)curMaxBR)) {
uint8_t newdri = ((uint8_t)i) + 1U;
(*dri) = (rfalBitRate)
newdri; /* PRQA S 4342 # MISRA 10.5 - Layout of enum rfalBitRate and range of loop variable guarantee no invalid enum values to be created */
break;
}
}
/***************************************************************************/
/* Check if different bit rate is supported */
/* Digital 1.0 Table 67: if b8=1b, then only the same bit rate divisor for both directions is supported */
if((piccBRCapability & RFAL_ISODEP_SAME_BITRATE_MASK) != 0U) {
(*dsi) = MIN((*dsi), (*dri));
(*dri) = (*dsi);
/* Check that the baudrate is supported */
if((RFAL_BR_106 != (*dsi)) &&
(!(((dsiMask & (0x10U << ((uint8_t)(*dsi) - 1U))) != 0U) &&
((driMask & (0x01U << ((uint8_t)(*dri) - 1U))) != 0U)))) {
bitrateFound = false;
curMaxBR =
(*dsi); /* set allowed bitrate to be lowest and determine bit rate again */
}
}
} while(!(bitrateFound));
}
/*******************************************************************************/
static uint32_t rfalIsoDepSFGI2SFGT(uint8_t sfgi) {
uint32_t sfgt;
uint8_t tmpSFGI;
tmpSFGI = sfgi;
if(tmpSFGI > ISODEP_SFGI_MAX) {
tmpSFGI = ISODEP_SFGI_MIN;
}
if(tmpSFGI != ISODEP_SFGI_MIN) {
/* If sfgi != 0 wait SFGT + dSFGT Digital 1.1 13.8.2.1 */
sfgt = isoDepCalcSGFT(sfgi) + isoDepCalcdSGFT(sfgi);
}
/* Otherwise use FDTPoll min Digital 1.1 13.8.2.3*/
else {
sfgt = RFAL_FDT_POLL_NFCA_POLLER;
}
/* Convert carrier cycles to milli seconds */
return (rfalConv1fcToMs(sfgt) + 1U);
}
#endif /* RFAL_FEATURE_ISO_DEP_POLL */
/*******************************************************************************/
static void rfalIsoDepApdu2IBLockParam(
rfalIsoDepApduTxRxParam apduParam,
rfalIsoDepTxRxParam* iBlockParam,
uint16_t txPos,
uint16_t rxPos) {
NO_WARNING(rxPos); /* Keep this param for future use */
iBlockParam->DID = apduParam.DID;
iBlockParam->FSx = apduParam.FSx;
iBlockParam->ourFSx = apduParam.ourFSx;
iBlockParam->FWT = apduParam.FWT;
iBlockParam->dFWT = apduParam.dFWT;
if((apduParam.txBufLen - txPos) > rfalIsoDepGetMaxInfLen()) {
iBlockParam->isTxChaining = true;
iBlockParam->txBufLen = rfalIsoDepGetMaxInfLen();
} else {
iBlockParam->isTxChaining = false;
iBlockParam->txBufLen = (apduParam.txBufLen - txPos);
}
/* TxBuf is moved to the beginning for every I-Block */
iBlockParam->txBuf =
(rfalIsoDepBufFormat*)apduParam
.txBuf; /* PRQA S 0310 # MISRA 11.3 - Intentional safe cast to avoiding large buffer duplication */
iBlockParam->rxBuf =
apduParam
.tmpBuf; /* Simply using the apdu buffer is not possible because of current ACK handling */
iBlockParam->isRxChaining = &gIsoDep.isAPDURxChaining;
iBlockParam->rxLen = apduParam.rxLen;
}
/*******************************************************************************/
ReturnCode rfalIsoDepStartApduTransceive(rfalIsoDepApduTxRxParam param) {
rfalIsoDepTxRxParam txRxParam;
/* Initialize and store APDU context */
gIsoDep.APDUParam = param;
gIsoDep.APDUTxPos = 0;
gIsoDep.APDURxPos = 0;
/* Assign current FSx to calculate INF length (only change the FSx from activation if no to Keep) */
gIsoDep.ourFsx = ((param.ourFSx != RFAL_ISODEP_FSX_KEEP) ? param.ourFSx : gIsoDep.ourFsx);
gIsoDep.fsx = param.FSx;
/* Convert APDU TxRxParams to I-Block TxRxParams */
rfalIsoDepApdu2IBLockParam(
gIsoDep.APDUParam, &txRxParam, gIsoDep.APDUTxPos, gIsoDep.APDURxPos);
return rfalIsoDepStartTransceive(txRxParam);
}
/*******************************************************************************/
ReturnCode rfalIsoDepGetApduTransceiveStatus(void) {
ReturnCode ret;
rfalIsoDepTxRxParam txRxParam;
ret = rfalIsoDepGetTransceiveStatus();
switch(ret) {
/*******************************************************************************/
case ERR_NONE:
/* Check if we are still doing chaining on Tx */
if(gIsoDep.isTxChaining) {
/* Add already Tx bytes */
gIsoDep.APDUTxPos += gIsoDep.txBufLen;
/* Convert APDU TxRxParams to I-Block TxRxParams */
rfalIsoDepApdu2IBLockParam(
gIsoDep.APDUParam, &txRxParam, gIsoDep.APDUTxPos, gIsoDep.APDURxPos);
if(txRxParam.txBufLen > 0U) /* MISRA 21.18 */
{
/* Move next I-Block to beginning of APDU Tx buffer */
ST_MEMCPY(
gIsoDep.APDUParam.txBuf->apdu,
&gIsoDep.APDUParam.txBuf->apdu[gIsoDep.APDUTxPos],
txRxParam.txBufLen);
}
EXIT_ON_ERR(ret, rfalIsoDepStartTransceive(txRxParam));
return ERR_BUSY;
}
/* APDU TxRx is done */
/* fall through */
/*******************************************************************************/
case ERR_AGAIN: /* PRQA S 2003 # MISRA 16.3 - Intentional fall through */
/* Check if no APDU transceive has been started before (data from rfalIsoDepListenStartActivation) */
if(gIsoDep.APDUParam.rxLen == NULL) {
if(ret == ERR_AGAIN) {
/* In Listen mode first chained packet cannot be retrieved via APDU interface */
return ERR_NOTSUPP;
}
/* TxRx is complete and full data is already available */
return ERR_NONE;
}
if(*gIsoDep.APDUParam.rxLen > 0U) /* MISRA 21.18 */
{
/* Ensure that data in tmpBuf still fits into APDU buffer */
if((gIsoDep.APDURxPos + (*gIsoDep.APDUParam.rxLen)) >
(uint16_t)RFAL_FEATURE_ISO_DEP_APDU_MAX_LEN) {
return ERR_NOMEM;
}
/* Copy chained packet from tmp buffer to APDU buffer */
ST_MEMCPY(
&gIsoDep.APDUParam.rxBuf->apdu[gIsoDep.APDURxPos],
gIsoDep.APDUParam.tmpBuf->inf,
*gIsoDep.APDUParam.rxLen);
gIsoDep.APDURxPos += *gIsoDep.APDUParam.rxLen;
}
/* Update output param rxLen */
*gIsoDep.APDUParam.rxLen = gIsoDep.APDURxPos * 8;
/* Wait for following I-Block or APDU TxRx has finished */
return ((ret == ERR_AGAIN) ? ERR_BUSY : ERR_NONE);
/*******************************************************************************/
default:
/* MISRA 16.4: no empty default statement (a comment being enough) */
break;
}
return ret;
}
#endif /* RFAL_FEATURE_ISO_DEP */
Reference in New Issue View Git Blame Copy Permalink