/****************************************************************************** * * Copyright (C) 2010-2014 Broadcom Corporation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ******************************************************************************/ /****************************************************************************** * * This is the public interface file for NFA, Broadcom's NFC application * layer for mobile phones. * ******************************************************************************/ #ifndef NFA_API_H #define NFA_API_H #include "nfc_target.h" #include "nci_defs.h" #include "tags_defs.h" #include "nfc_api.h" #include "rw_api.h" #include "nfc_hal_api.h" #include "gki.h" /***************************************************************************** ** Constants and data types *****************************************************************************/ /* Max length of Appliction ID in 7816-4 */ #define NFA_MAX_AID_LEN NFC_MAX_AID_LEN #define NFA_MIN_AID_LEN 5 /* per NCI specification */ /* NFA API return status codes */ #define NFA_STATUS_OK NCI_STATUS_OK /* Command succeeded */ #define NFA_STATUS_REJECTED NCI_STATUS_REJECTED /* Command is rejected. */ #define NFA_STATUS_MSG_CORRUPTED NCI_STATUS_MESSAGE_CORRUPTED /* Message is corrupted */ #define NFA_STATUS_BUFFER_FULL NCI_STATUS_BUFFER_FULL /* buffer full */ #define NFA_STATUS_FAILED NCI_STATUS_FAILED /* failed */ #define NFA_STATUS_NOT_INITIALIZED NCI_STATUS_NOT_INITIALIZED /* not initialized */ #define NFA_STATUS_SYNTAX_ERROR NCI_STATUS_SYNTAX_ERROR /* Syntax error */ #define NFA_STATUS_SEMANTIC_ERROR NCI_STATUS_SEMANTIC_ERROR /* Semantic error */ #define NFA_STATUS_UNKNOWN_GID NCI_STATUS_UNKNOWN_GID /* Unknown NCI Group ID */ #define NFA_STATUS_UNKNOWN_OID NCI_STATUS_UNKNOWN_OID /* Unknown NCI Opcode */ #define NFA_STATUS_INVALID_PARAM NCI_STATUS_INVALID_PARAM /* Invalid Parameter */ #define NFA_STATUS_MSG_SIZE_TOO_BIG NCI_STATUS_MSG_SIZE_TOO_BIG /* Message size too big */ #define NFA_STATUS_ALREADY_STARTED NCI_STATUS_ALREADY_STARTED /* Already started */ #define NFA_STATUS_ACTIVATION_FAILED NCI_STATUS_ACTIVATION_FAILED /* Activation Failed */ #define NFA_STATUS_TEAR_DOWN NCI_STATUS_TEAR_DOWN /* Tear Down Error */ #define NFA_STATUS_RF_TRANSMISSION_ERR NCI_STATUS_RF_TRANSMISSION_ERR /* RF transmission error*/ #define NFA_STATUS_RF_PROTOCOL_ERR NCI_STATUS_RF_PROTOCOL_ERR /* RF protocol error */ #define NFA_STATUS_TIMEOUT NCI_STATUS_TIMEOUT /* RF Timeout */ #define NFA_STATUS_EE_INTF_ACTIVE_FAIL NCI_STATUS_EE_INTF_ACTIVE_FAIL /* EE Intf activate err */ #define NFA_STATUS_EE_TRANSMISSION_ERR NCI_STATUS_EE_TRANSMISSION_ERR /* EE transmission error*/ #define NFA_STATUS_EE_PROTOCOL_ERR NCI_STATUS_EE_PROTOCOL_ERR /* EE protocol error */ #define NFA_STATUS_EE_TIMEOUT NCI_STATUS_EE_TIMEOUT /* EE Timeout */ #define NFA_STATUS_CMD_STARTED NFC_STATUS_CMD_STARTED /* Command started successfully */ #define NFA_STATUS_HW_TIMEOUT NFC_STATUS_HW_TIMEOUT /* NFCC Timeout in responding to an NCI command */ #define NFA_STATUS_CONTINUE NFC_STATUS_CONTINUE /* More NFA_CE_GET_ROUTING_REVT to follow */ #define NFA_STATUS_REFUSED NFC_STATUS_REFUSED /* API is called to perform illegal function */ #define NFA_STATUS_BAD_RESP NFC_STATUS_BAD_RESP /* Wrong format of R-APDU, CC file or NDEF file */ #define NFA_STATUS_CMD_NOT_CMPLTD NFC_STATUS_CMD_NOT_CMPLTD /* 7816 Status Word is not command complete(0x9000) */ #define NFA_STATUS_NO_BUFFERS NFC_STATUS_NO_BUFFERS /* Out of GKI buffers */ #define NFA_STATUS_WRONG_PROTOCOL NFC_STATUS_WRONG_PROTOCOL /* Protocol mismatch between API and activated one */ #define NFA_STATUS_BUSY NFC_STATUS_BUSY /* Another Tag command is already in progress */ #define NFA_STATUS_BAD_LENGTH NFC_STATUS_BAD_LENGTH /* data len exceeds MIU */ #define NFA_STATUS_BAD_HANDLE NFC_STATUS_BAD_HANDLE /* invalid handle */ #define NFA_STATUS_CONGESTED NFC_STATUS_CONGESTED /* congested */ typedef UINT8 tNFA_STATUS; /* Handle for NFA registrations and connections */ typedef UINT16 tNFA_HANDLE; #define NFA_HANDLE_INVALID (0xFFFF) /* NFA Handle definitions */ /* The upper byte of NFA_HANDLE signifies the handle group */ #define NFA_HANDLE_GROUP_CONNECTION 0x0100 /* Connection handles */ #define NFA_HANDLE_GROUP_NDEF_HANDLER 0x0200 /* NDEF Type Handler handles */ #define NFA_HANDLE_GROUP_CE 0x0300 /* DH Card Emulation handles */ #define NFA_HANDLE_GROUP_EE 0x0400 /* Handles to identify NFCEE */ #define NFA_HANDLE_GROUP_P2P 0x0500 /* P2P handles */ #define NFA_HANDLE_GROUP_CHO 0x0600 /* Connection Handvoer handles */ #define NFA_HANDLE_GROUP_SNEP 0x0700 /* SNEP handles */ #define NFA_HANDLE_GROUP_HCI 0x0800 /* HCI handles */ #define NFA_HANDLE_GROUP_LOCAL_NDEF 0x0900 /* Local NDEF message handle */ #define NFA_HANDLE_GROUP_MASK 0xFF00 #define NFA_HANDLE_MASK 0x00FF /* NCI Parameter IDs */ typedef UINT8 tNFA_PMID; /* Definitions for tNFA_TECHNOLOGY_MASK */ #define NFA_TECHNOLOGY_MASK_A 0x01 /* NFC Technology A */ #define NFA_TECHNOLOGY_MASK_B 0x02 /* NFC Technology B */ #define NFA_TECHNOLOGY_MASK_F 0x04 /* NFC Technology F */ #define NFA_TECHNOLOGY_MASK_ISO15693 0x08 /* Proprietary Technology */ #define NFA_TECHNOLOGY_MASK_B_PRIME 0x10 /* Proprietary Technology */ #define NFA_TECHNOLOGY_MASK_KOVIO 0x20 /* Proprietary Technology */ #define NFA_TECHNOLOGY_MASK_A_ACTIVE 0x40 /* NFC Technology A active mode */ #define NFA_TECHNOLOGY_MASK_F_ACTIVE 0x80 /* NFC Technology F active mode */ #define NFA_TECHNOLOGY_MASK_ALL 0xFF /* All supported technologies */ typedef UINT8 tNFA_TECHNOLOGY_MASK; /* Definitions for NFC protocol for RW, CE and P2P APIs */ #define NFA_PROTOCOL_T1T NFC_PROTOCOL_T1T /* Type1Tag - NFC-A */ #define NFA_PROTOCOL_T2T NFC_PROTOCOL_T2T /* MIFARE/Type2Tag - NFC-A */ #define NFA_PROTOCOL_T3T NFC_PROTOCOL_T3T /* Felica/Type3Tag - NFC-F */ #define NFA_PROTOCOL_ISO_DEP NFC_PROTOCOL_ISO_DEP /* Type 4A,4B - NFC-A or NFC-B */ #define NFA_PROTOCOL_NFC_DEP NFC_PROTOCOL_NFC_DEP /* NFCDEP/LLCP - NFC-A or NFC-F */ #define NFA_PROTOCOL_ISO15693 NFC_PROTOCOL_15693 #define NFA_PROTOCOL_B_PRIME NFC_PROTOCOL_B_PRIME #define NFA_PROTOCOL_KOVIO NFC_PROTOCOL_KOVIO #define NFA_PROTOCOL_INVALID 0xFF #define NFA_MAX_NUM_PROTOCOLS 8 typedef UINT8 tNFA_NFC_PROTOCOL; /* Definitions for tNFA_PROTOCOL_MASK */ #define NFA_PROTOCOL_MASK_T1T 0x01 /* Type 1 tag */ #define NFA_PROTOCOL_MASK_T2T 0x02 /* MIFARE / Type 2 tag */ #define NFA_PROTOCOL_MASK_T3T 0x04 /* FeliCa / Type 3 tag */ #define NFA_PROTOCOL_MASK_ISO_DEP 0x08 /* ISODEP/4A,4B */ #define NFA_PROTOCOL_MASK_NFC_DEP 0x10 /* NFCDEP/LLCP */ typedef UINT8 tNFA_PROTOCOL_MASK; /* NFA_DM callback events */ #define NFA_DM_ENABLE_EVT 0 /* Result of NFA_Enable */ #define NFA_DM_DISABLE_EVT 1 /* Result of NFA_Disable */ #define NFA_DM_SET_CONFIG_EVT 2 /* Result of NFA_SetConfig */ #define NFA_DM_GET_CONFIG_EVT 3 /* Result of NFA_GetConfig */ #define NFA_DM_PWR_MODE_CHANGE_EVT 4 /* Result of NFA_PowerOffSleepMode */ #define NFA_DM_RF_FIELD_EVT 5 /* Status of RF Field */ #define NFA_DM_NFCC_TIMEOUT_EVT 6 /* NFCC is not responding */ #define NFA_DM_NFCC_TRANSPORT_ERR_EVT 7 /* NCI Tranport error */ #define NFA_T1T_HR_LEN T1T_HR_LEN /* T1T HR length */ #define NFA_MAX_UID_LEN TAG_MAX_UID_LEN /* Max UID length of T1/T2 */ #define NFA_T1T_UID_LEN T1T_UID_LEN /* T1T UID length */ #define NFA_T1T_CMD_UID_LEN T1T_CMD_UID_LEN /* UID len for T1T cmds */ #define NFA_T2T_UID_LEN T2T_UID_LEN /* T2T UID length */ #define NFA_RW_NDEF_FL_READ_ONLY RW_NDEF_FL_READ_ONLY /* Tag is read only */ #define NFA_RW_NDEF_FL_FORMATED RW_NDEF_FL_FORMATED /* Tag formated for NDEF */ #define NFA_RW_NDEF_FL_SUPPORTED RW_NDEF_FL_SUPPORTED /* NDEF supported by the tag */ #define NFA_RW_NDEF_FL_UNKNOWN RW_NDEF_FL_UNKNOWN /* Unable to find if tag is ndef capable/formated/read only */ #define NFA_RW_NDEF_FL_FORMATABLE RW_NDEF_FL_FORMATABLE /* Tag supports format operation */ #define NFA_RW_NDEF_FL_SOFT_LOCKABLE RW_NDEF_FL_SOFT_LOCKABLE /* Tag can be soft locked */ #define NFA_RW_NDEF_FL_HARD_LOCKABLE RW_NDEF_FL_HARD_LOCKABLE /* Tag can be hard locked */ #define NFA_RW_NDEF_FL_OTP RW_NDEF_FL_OTP /* Tag is one time programmable */ typedef UINT8 tNFA_RW_NDEF_FLAG; /* Data for NFA_DM_SET_CONFIG_EVT */ typedef struct { tNFA_STATUS status; /* NFA_STATUS_OK if successful */ UINT8 num_param_id; /* Number of rejected Param ID */ tNFA_PMID param_ids[NFC_MAX_NUM_IDS]; /* Rejected Param ID */ } tNFA_SET_CONFIG; /* Data for NFA_DM_GET_CONFIG_EVT */ typedef struct { tNFA_STATUS status; /* NFA_STATUS_OK if successful */ UINT16 tlv_size; /* The length of TLV */ UINT8 param_tlvs[1]; /* TLV (Parameter ID-Len-Value byte stream) */ } tNFA_GET_CONFIG; #define NFA_DM_PWR_MODE_FULL 0x04 #define NFA_DM_PWR_MODE_OFF_SLEEP 0x00 typedef UINT8 tNFA_DM_PWR_MODE; /* Data for NFA_DM_PWR_MODE_CHANGE_EVT */ typedef struct { tNFA_STATUS status; /* NFA_STATUS_OK if successful */ tNFA_DM_PWR_MODE power_mode; /* NFA_DM_PWR_MODE_FULL or NFA_DM_PWR_MODE_OFF_SLEEP */ } tNFA_DM_PWR_MODE_CHANGE; /* Data for NFA_DM_RF_FIELD_EVT */ #define NFA_DM_RF_FIELD_OFF 0x00 #define NFA_DM_RF_FIELD_ON 0x01 typedef struct { tNFA_STATUS status; /* NFA_STATUS_OK if successful */ UINT8 rf_field_status;/* NFA_DM_RF_FIELD_ON if operating field generated by remote */ } tNFA_DM_RF_FIELD; /* Union of all DM callback structures */ typedef union { tNFA_STATUS status; /* NFA_DM_ENABLE_EVT */ tNFA_SET_CONFIG set_config; /* NFA_DM_SET_CONFIG_EVT */ tNFA_GET_CONFIG get_config; /* NFA_DM_GET_CONFIG_EVT */ tNFA_DM_PWR_MODE_CHANGE power_mode; /* NFA_DM_PWR_MODE_CHANGE_EVT */ tNFA_DM_RF_FIELD rf_field; /* NFA_DM_RF_FIELD_EVT */ void *p_vs_evt_data; /* Vendor-specific evt data */ } tNFA_DM_CBACK_DATA; /* NFA_DM callback */ typedef void (tNFA_DM_CBACK) (UINT8 event, tNFA_DM_CBACK_DATA *p_data); /* NFA Connection Callback Events */ #define NFA_POLL_ENABLED_EVT 0 /* Polling enabled event */ #define NFA_POLL_DISABLED_EVT 1 /* Polling disabled event */ #define NFA_DISC_RESULT_EVT 2 /* NFC link/protocol discovery notificaiton */ #define NFA_SELECT_RESULT_EVT 3 /* NFC link/protocol discovery select response */ #define NFA_DEACTIVATE_FAIL_EVT 4 /* NFA_Deactivate failure */ #define NFA_ACTIVATED_EVT 5 /* NFC link/protocol activated */ #define NFA_DEACTIVATED_EVT 6 /* NFC link/protocol deactivated */ #define NFA_TLV_DETECT_EVT 7 /* TLV Detection complete */ #define NFA_NDEF_DETECT_EVT 8 /* NDEF Detection complete */ #define NFA_DATA_EVT 9 /* Data message received */ #define NFA_SELECT_CPLT_EVT 10 /* Select completed */ #define NFA_READ_CPLT_EVT 11 /* Read completed */ #define NFA_WRITE_CPLT_EVT 12 /* Write completed */ #define NFA_LLCP_ACTIVATED_EVT 13 /* LLCP link is activated */ #define NFA_LLCP_DEACTIVATED_EVT 14 /* LLCP link is deactivated */ #define NFA_PRESENCE_CHECK_EVT 15 /* Response to NFA_RwPresenceCheck */ #define NFA_FORMAT_CPLT_EVT 16 /* Tag Formating completed */ #define NFA_I93_CMD_CPLT_EVT 17 /* ISO 15693 command completed */ #define NFA_SET_TAG_RO_EVT 18 /* Tag set as Read only */ #define NFA_EXCLUSIVE_RF_CONTROL_STARTED_EVT 19 /* Result for NFA_RequestExclusiveRfControl */ #define NFA_EXCLUSIVE_RF_CONTROL_STOPPED_EVT 20 /* Result for NFA_ReleaseExclusiveRfControl */ #define NFA_CE_REGISTERED_EVT 21 /* DH Card emulation: AID or System code reg'd */ #define NFA_CE_DEREGISTERED_EVT 22 /* DH Card emulation: AID or System code dereg'd*/ #define NFA_CE_DATA_EVT 23 /* DH Card emulation: data received event */ #define NFA_CE_ACTIVATED_EVT 24 /* DH Card emulation: activation event */ #define NFA_CE_DEACTIVATED_EVT 25 /* DH Card emulation: deactivation event */ #define NFA_CE_LOCAL_TAG_CONFIGURED_EVT 26 /* DH Card emulation: local NDEF configured */ #define NFA_CE_NDEF_WRITE_START_EVT 27 /* DH Card emulation: NDEF write started */ #define NFA_CE_NDEF_WRITE_CPLT_EVT 28 /* DH Card emulation: NDEF write completed */ #define NFA_CE_UICC_LISTEN_CONFIGURED_EVT 29 /* UICC Listen configured */ #define NFA_RF_DISCOVERY_STARTED_EVT 30 /* RF Discovery started event */ #define NFA_RF_DISCOVERY_STOPPED_EVT 31 /* RF Discovery stopped event */ #define NFA_UPDATE_RF_PARAM_RESULT_EVT 32 /* status of updating RF communication paramters*/ #define NFA_SET_P2P_LISTEN_TECH_EVT 33 /* status of setting P2P listen technologies */ #define NFA_RW_INTF_ERROR_EVT 34 /* RF Interface error event */ #define NFA_LLCP_FIRST_PACKET_RECEIVED_EVT 35 /* First packet received over LLCP link */ #define NFA_LISTEN_ENABLED_EVT 36 /* Listening enabled event */ #define NFA_LISTEN_DISABLED_EVT 37 /* Listening disabled event */ #define NFA_P2P_PAUSED_EVT 38 /* P2P services paused event */ #define NFA_P2P_RESUMED_EVT 39 /* P2P services resumed event */ /* NFC deactivation type */ #define NFA_DEACTIVATE_TYPE_IDLE NFC_DEACTIVATE_TYPE_IDLE #define NFA_DEACTIVATE_TYPE_SLEEP NFC_DEACTIVATE_TYPE_SLEEP #define NFA_DEACTIVATE_TYPE_DISCOVERY NFC_DEACTIVATE_TYPE_DISCOVERY typedef UINT8 tNFA_DEACTIVATE_TYPE; /* Data for NFA_DISC_RESULT_EVT */ typedef struct { tNFA_STATUS status; /* NFA_STATUS_OK if successful */ tNFC_RESULT_DEVT discovery_ntf; /* RF discovery notification details */ } tNFA_DISC_RESULT; /* Data for NFA_ACTIVATED_EVT */ typedef struct { UINT8 hr[NFA_T1T_HR_LEN]; /* HR of Type 1 tag */ UINT8 uid[NFA_T1T_CMD_UID_LEN]; /* UID used in T1T Commands */ } tNFA_T1T_PARAMS; typedef struct { UINT8 uid[NFA_MAX_UID_LEN]; /* UID of T2T tag */ } tNFA_T2T_PARAMS; typedef struct { UINT8 num_system_codes; /* Number of system codes supporte by tag */ UINT16 *p_system_codes; /* Pointer to list of system codes */ } tNFA_T3T_PARAMS; typedef struct { UINT8 uid[I93_UID_BYTE_LEN]; /* UID[0]:MSB, ... UID[7]:LSB */ UINT8 info_flags; /* information flags */ UINT8 dsfid; /* DSFID if I93_INFO_FLAG_DSFID */ UINT8 afi; /* AFI if I93_INFO_FLAG_AFI */ UINT16 num_block; /* number of blocks if I93_INFO_FLAG_MEM_SIZE */ UINT8 block_size; /* block size in byte if I93_INFO_FLAG_MEM_SIZE */ UINT8 IC_reference; /* IC Reference if I93_INFO_FLAG_IC_REF */ } tNFA_I93_PARAMS; typedef union { tNFA_T1T_PARAMS t1t; /* HR and UID of T1T */ tNFA_T2T_PARAMS t2t; /* UID of T2T */ tNFA_T3T_PARAMS t3t; /* System codes */ tNFA_I93_PARAMS i93; /* System Information of ISO 15693 */ } tNFA_TAG_PARAMS; typedef struct { tNFC_ACTIVATE_DEVT activate_ntf; /* RF discovery activation details */ tNFA_TAG_PARAMS params; /* additional informaiton of tag */ } tNFA_ACTIVATED; /* Data for NFA_DEACTIVATED_EVT */ typedef struct { tNFA_DEACTIVATE_TYPE type; /* NFA_DEACTIVATE_TYPE_IDLE or NFA_DEACTIVATE_TYPE_SLEEP */ } tNFA_DEACTIVATED; /* Structure for NFA_NDEF_DETECT_EVT event data */ typedef struct { tNFA_STATUS status; /* Status of the ndef detecton */ tNFA_NFC_PROTOCOL protocol; /* protocol used to detect NDEF */ UINT32 max_size; /* max number of bytes available for NDEF data */ UINT32 cur_size; /* current size of stored NDEF data (in bytes) */ tNFA_RW_NDEF_FLAG flags; /* Flags to indicate NDEF capability, is formated, soft/hard lockable, formatable, otp and read only */ } tNFA_NDEF_DETECT; /* Structure for NFA_TLV_DETECT_EVT event data */ typedef struct { tNFA_STATUS status; /* Status of the tlv detecton */ tNFA_NFC_PROTOCOL protocol; /* protocol used to detect TLV */ UINT8 num_tlvs; /* number of tlvs present in the tag */ UINT8 num_bytes; /* number of lock/reserved bytes */ } tNFA_TLV_DETECT; /* Structure for NFA_DATA_EVT data */ typedef struct { tNFA_STATUS status; /* Status of Data received */ UINT8 *p_data; /* Data buffer */ UINT16 len; /* Length of data */ } tNFA_RX_DATA; /* Structure for NFA_CE_NDEF_WRITE_CPLT_EVT data */ typedef struct { tNFA_STATUS status; /* Status of the ndef write op */ UINT32 len; /* Update length of NDEF data */ UINT8 *p_data; /* data buffer */ } tNFA_CE_NDEF_WRITE_CPLT; /* Data for NFA_LLCP_ACTIVATED_EVT */ typedef struct { BOOLEAN is_initiator; /* TRUE if initiator */ UINT16 remote_wks; /* Well-Known service mask of peer */ UINT8 remote_lsc; /* Link Service Class of peer */ UINT16 remote_link_miu;/* Link MIU of peer */ UINT16 local_link_miu; /* Link MIU of local */ } tNFA_LLCP_ACTIVATED; /* Data for NFA_LLCP_DEACTIVATED_EVT */ typedef struct { UINT8 reason; /* reason of deactivation */ } tNFA_LLCP_DEACTIVATED; /* Data for NFA_I93_CMD_CPLT_EVT */ typedef struct { UINT8 dsfid; /* DSFID */ UINT8 uid[I93_UID_BYTE_LEN]; /* UID[0]:MSB, ... UID[7]:LSB */ } tNFA_I93_INVENTORY; typedef struct /* RW_I93_SYS_INFO_EVT */ { UINT8 info_flags; /* information flags */ UINT8 uid[I93_UID_BYTE_LEN]; /* UID */ UINT8 dsfid; /* DSFID if I93_INFO_FLAG_DSFID */ UINT8 afi; /* AFI if I93_INFO_FLAG_AFI */ UINT16 num_block; /* number of blocks if I93_INFO_FLAG_MEM_SIZE */ UINT8 block_size; /* block size in byte if I93_INFO_FLAG_MEM_SIZE */ UINT8 IC_reference; /* IC Reference if I93_INFO_FLAG_IC_REF */ } tNFA_I93_SYS_INFO; typedef struct { tNFA_STATUS status; /* Status of sending command */ UINT8 sent_command; /* sent command to tag */ union { UINT8 error_code; /* error code defined in ISO 15693 */ tNFA_I93_INVENTORY inventory; /* inventory response */ tNFA_I93_SYS_INFO sys_info; /* system information */ } params; } tNFA_I93_CMD_CPLT; /* Data for NFA_CE_REGISTERED_EVT */ typedef struct { tNFA_STATUS status; /* NFA_STATUS_OK if successful */ tNFA_HANDLE handle; /* handle for NFA_CeRegisterFelicaSystemCodeOnDH () */ /* NFA_CeRegisterT4tAidOnDH () */ } tNFA_CE_REGISTERED; /* Data for NFA_CE_DEREGISTERED_EVT */ typedef struct { tNFA_HANDLE handle; /* handle from NFA_CE_REGISTERED_EVT */ } tNFA_CE_DEREGISTERED; /* Data for NFA_CE_ACTIVATED_EVT */ typedef struct { tNFA_STATUS status; /* NFA_STATUS_OK if successful */ tNFA_HANDLE handle; /* handle from NFA_CE_REGISTERED_EVT */ tNFC_ACTIVATE_DEVT activate_ntf; /* RF discovery activation details */ } tNFA_CE_ACTIVATED; /* Data for NFA_CE_DEACTIVATED_EVT */ typedef struct { tNFA_HANDLE handle; /* handle from NFA_CE_REGISTERED_EVT */ tNFA_DEACTIVATE_TYPE type; /* NFA_DEACTIVATE_TYPE_IDLE or NFA_DEACTIVATE_TYPE_SLEEP */ } tNFA_CE_DEACTIVATED; /* Structure for NFA_CE_DATA_EVT data */ typedef struct { tNFA_STATUS status; /* NFA_STATUS_OK if complete packet */ tNFA_HANDLE handle; /* handle from NFA_CE_REGISTERED_EVT */ UINT8 *p_data; /* Data buffer */ UINT16 len; /* Length of data */ } tNFA_CE_DATA; /* Union of all connection callback structures */ typedef union { tNFA_STATUS status; /* NFA_POLL_ENABLED_EVT */ /* NFA_POLL_DISABLED_EVT */ /* NFA_CE_UICC_LISTEN_CONFIGURED_EVT */ /* NFA_EXCLUSIVE_RF_CONTROL_STARTED_EVT */ /* NFA_EXCLUSIVE_RF_CONTROL_STOPPED_EVT */ /* NFA_SELECT_RESULT_EVT */ /* NFA_DEACTIVATE_FAIL_EVT */ /* NFA_CE_NDEF_WRITE_START_EVT */ /* NFA_SELECT_CPLT_EVT */ /* NFA_READ_CPLT_EVT */ /* NFA_WRITE_CPLT_EVT */ /* NFA_PRESENCE_CHECK_EVT */ /* NFA_FORMAT_CPLT_EVT */ /* NFA_SET_TAG_RO_EVT */ /* NFA_UPDATE_RF_PARAM_RESULT_EVT */ /* NFA_RW_INTF_ERROR_EVT */ tNFA_DISC_RESULT disc_result; /* NFA_DISC_RESULT_EVT */ tNFA_ACTIVATED activated; /* NFA_ACTIVATED_EVT */ tNFA_DEACTIVATED deactivated; /* NFA_DEACTIVATED_EVT */ tNFA_NDEF_DETECT ndef_detect; /* NFA_NDEF_DETECT_EVT */ tNFA_TLV_DETECT tlv_detect; /* NFA_TLV_DETECT_EVT */ tNFA_RX_DATA data; /* NFA_DATA_EVT */ tNFA_CE_NDEF_WRITE_CPLT ndef_write_cplt; /* NFA_CE_NDEF_WRITE_CPLT_EVT */ tNFA_LLCP_ACTIVATED llcp_activated; /* NFA_LLCP_ACTIVATED_EVT */ tNFA_LLCP_DEACTIVATED llcp_deactivated; /* NFA_LLCP_DEACTIVATED_EVT */ tNFA_I93_CMD_CPLT i93_cmd_cplt; /* NFA_I93_CMD_CPLT_EVT */ tNFA_CE_REGISTERED ce_registered; /* NFA_CE_REGISTERED_EVT */ tNFA_CE_DEREGISTERED ce_deregistered; /* NFA_CE_DEREGISTERED_EVT */ tNFA_CE_ACTIVATED ce_activated; /* NFA_CE_ACTIVATED_EVT */ tNFA_CE_DEACTIVATED ce_deactivated; /* NFA_CE_DEACTIVATED_EVT */ tNFA_CE_DATA ce_data; /* NFA_CE_DATA_EVT */ } tNFA_CONN_EVT_DATA; /* NFA Connection Callback */ typedef void (tNFA_CONN_CBACK) (UINT8 event, tNFA_CONN_EVT_DATA *p_data); #ifndef NFA_DM_NUM_INTERFACE_MAP #define NFA_DM_NUM_INTERFACE_MAP 3 #endif /* compile-time configuration structure for the RF Discovery Frequency for each technology */ typedef struct { UINT8 pa; /* Frequency for NFC Technology A */ UINT8 pb; /* Frequency for NFC Technology B */ UINT8 pf; /* Frequency for NFC Technology F */ UINT8 pi93; /* Frequency for Proprietary Technology/15693 */ UINT8 pbp; /* Frequency for Proprietary Technology/B-Prime */ UINT8 pk; /* Frequency for Proprietary Technology/Kovio */ UINT8 paa; /* Frequency for NFC Technology A active mode */ UINT8 pfa; /* Frequency for NFC Technology F active mode */ } tNFA_DM_DISC_FREQ_CFG; /* definitions for tNFA_DM_CFG.presence_check_option */ #define NFA_DM_PCO_ISO_SLEEP_WAKE 0x01 /* if NDEF is not supported by the tag, use sleep/wake(last interface) */ #define NFA_DM_PCO_EMPTY_I_BLOCK 0x02 /* NFA_SendRawFrame() has been used, use empty I block for presence check * if this bit is not set, use read-binary on channel 3 for presence check */ /* compile-time configuration structure */ typedef struct { BOOLEAN auto_detect_ndef; /* Automatic NDEF detection (when not in exclusive RF mode) */ BOOLEAN auto_read_ndef; /* Automatic NDEF read (when not in exclusive RF mode) */ BOOLEAN auto_presence_check; /* Automatic presence check */ UINT8 presence_check_option; /* Use sleep/wake(last interface) for ISODEP presence check */ UINT16 presence_check_timeout; /* Maximum time to wait for presence check response */ } tNFA_DM_CFG; /* compile-time configuration structure for HCI */ typedef struct { UINT16 hci_netwk_enable_timeout; /* Maximum idle(no HCP Pkt) time to wait for EE DISC REQ Ntf(s) */ UINT16 hcp_response_timeout; /* Maximum time to wait for EE DISC REQ NTF(s) after HOT PLUG EVT(s) */ UINT8 num_whitelist_host; /* Number of host in the whitelist of Terminal host */ UINT8 *p_whitelist; /* Whitelist of Terminal Host */ } tNFA_HCI_CFG; /* ** Exclusive RF mode listen configuration */ #define NFA_LB_MAX_NFCID0_LEN 4 #define NFA_LF_MAX_SC_NFCID2 1 #define NFA_LA_MAX_HIST_BYTES 15 #define NFA_LB_MAX_H_INFO_LEN 15 typedef struct { /* ** Discovery Configuration Parameters for Listen A */ BOOLEAN la_enable; /* TRUE if listening A */ UINT8 la_bit_frame_sdd; /* Bit Frame SDD in Byte 1 of SENS_RES */ UINT8 la_platform_config; /* Platform Config in Byte 2 of SENS_RES */ UINT8 la_sel_info; /* Byte of SEL_RES */ UINT8 la_nfcid1_len; /* NFCID1 (0, 4, 7 or 10 bytes) */ UINT8 la_nfcid1[NCI_NFCID1_MAX_LEN]; /* if empty, NFCC will decide */ /* ** Discovery Configuration Parameters for Listen B */ BOOLEAN lb_enable; /* TRUE if listening B */ UINT8 lb_sensb_info; /* Byte 2 of Protocol Info within SENSB_RES */ UINT8 lb_nfcid0_len; /* NFCID0 (0, 1 or 4 bytes) */ UINT8 lb_nfcid0[NFA_LB_MAX_NFCID0_LEN]; /* if empty, NFCC will decide */ UINT8 lb_app_data[NCI_PARAM_LEN_LB_APPDATA];/* Bytes 6 - 9 in SENSB_RES */ UINT8 lb_sfgi; /* Start-Up Frame Guard Time */ UINT8 lb_adc_fo; /* Byte 12 in SENSB_RES */ /* ** Discovery Configuration Parameters for Listen F */ BOOLEAN lf_enable; /* TRUE if listening F */ UINT8 lf_con_bitr_f; /* bit rate to listen */ UINT8 lf_protocol_type; /* Supported Protocols */ UINT16 lf_t3t_flags; /* bit field indicating which lf_t3t_identifier are enabled */ UINT8 lf_t3t_identifier[NFA_LF_MAX_SC_NFCID2][NCI_SYSTEMCODE_LEN + NCI_NFCID2_LEN]; /* System Code and NFCID2 */ UINT8 lf_t3t_pmm[NCI_T3T_PMM_LEN]; /* Bytes 10 - 17 in SENSF_RES */ /* ** Discovery Configuration Parameters for Listen ISO-DEP */ BOOLEAN li_enable; /* TRUE if listening ISO-DEP */ UINT8 li_fwi; /* Frame Waiting Time Integer */ UINT8 la_hist_bytes_len; /* historical bytes for Listen-A */ UINT8 la_hist_bytes[NFA_LA_MAX_HIST_BYTES]; UINT8 lb_h_info_resp_len; /* higher layer response for Listen-B */ UINT8 lb_h_info_resp[NFA_LB_MAX_H_INFO_LEN]; /* ** Discovery Configuration Parameters for Listen NFC-DEP */ BOOLEAN ln_enable; /* TRUE if listening NFC-DEP */ UINT8 ln_wt; /* Waiting Time Integer */ UINT8 ln_atr_res_gen_bytes_len; /* General bytes in ATR_RES */ UINT8 ln_atr_res_gen_bytes[NCI_MAX_GEN_BYTES_LEN]; UINT8 ln_atr_res_config; /* Optional parameters (PPt) in ATR_RES */ } tNFA_LISTEN_CFG; /* Data for NFA_UpdateRFCommParams () */ typedef tNFC_RF_COMM_PARAMS tNFA_RF_COMM_PARAMS; /* RF Interface type */ #define NFA_INTERFACE_FRAME NFC_INTERFACE_FRAME #define NFA_INTERFACE_ISO_DEP NFC_INTERFACE_ISO_DEP #define NFA_INTERFACE_NFC_DEP NFC_INTERFACE_NFC_DEP typedef tNFC_INTF_TYPE tNFA_INTF_TYPE; /******************************************************************************* ** NDEF Definitions *******************************************************************************/ /* Definitions for tNFA_TNF (NDEF type name format ID) */ #define NFA_TNF_EMPTY NDEF_TNF_EMPTY /* Empty or no type specified */ #define NFA_TNF_WKT NDEF_TNF_WKT /* NFC Forum well-known type [NFC RTD] */ #define NFA_TNF_RFC2046_MEDIA NDEF_TNF_MEDIA /* Media-type as defined in RFC 2046 [RFC 2046] */ #define NFA_TNF_RFC3986_URI NDEF_TNF_URI /* Absolute URI as defined in RFC 3986 [RFC 3986] */ #define NFA_TNF_EXTERNAL NDEF_TNF_EXT /* NFC Forum external type [NFC RTD] */ #define NFA_TNF_UNKNOWN NDEF_TNF_UNKNOWN /* Unknown */ #define NFA_TNF_UNCHANGED NDEF_TNF_UNCHANGED /* Unchanged */ #define NFA_TNF_RESERVED NDEF_TNF_RESERVED /* Reserved */ #define NFA_TNF_DEFAULT 0xFF /* Used to register default NDEF type handler */ typedef UINT8 tNFA_TNF; /* Definitions for tNFA_NDEF_URI_ID (Frequently used prefixes. For additional values, see [NFC RTD URI] */ #define NFA_NDEF_URI_ID_ABSOLUTE 0x00 /* Unabridged URI. */ #define NFA_NDEF_URI_ID_HTTP 0x03 /* http:// */ #define NFA_NDEF_URI_ID_HTTPS 0x04 /* https:// */ #define NFA_NDEF_URI_ID_TEL 0x05 /* tel: */ #define NFA_NDEF_URI_ID_MAILTO 0x06 /* mailto: */ #define NFA_NDEF_URI_ID_FTP 0x0D /* ftp:// */ #define NFA_NDEF_URI_ID_FILE 0x1D /* file:// */ typedef UINT8 tNFA_NDEF_URI_ID; /* Events for tNFA_NDEF_CBACK */ #define NFA_NDEF_REGISTER_EVT 0 /* NDEF record type registered. (In response to NFA_RegisterNDefTypeHandler) */ #define NFA_NDEF_DATA_EVT 1 /* Received an NDEF message with the registered type. See [tNFA_NDEF_DATA] */ typedef UINT8 tNFA_NDEF_EVT; /* Structure for NFA_NDEF_REGISTER_EVT event data */ typedef struct { tNFA_STATUS status; /* Status of the registration */ tNFA_HANDLE ndef_type_handle; /* Handle for this NDEF type registration. */ } tNFA_NDEF_REGISTER; /* Structure for NFA_NDEF_DATA_EVT event data */ typedef struct { tNFA_HANDLE ndef_type_handle; /* Handle for NDEF type registration. */ UINT8 *p_data; /* Data buffer */ UINT32 len; /* Length of data */ } tNFA_NDEF_DATA; /* Union of all NDEF callback structures */ typedef union { tNFA_NDEF_REGISTER ndef_reg; /* Structure for NFA_NDEF_REGISTER_EVT event data */ tNFA_NDEF_DATA ndef_data; /* Structure for NFA_NDEF_DATA_EVT event data */ } tNFA_NDEF_EVT_DATA; /* NFA_NDEF callback */ typedef void (tNFA_NDEF_CBACK) (tNFA_NDEF_EVT event, tNFA_NDEF_EVT_DATA *p_data); /* NFA VSC Callback */ typedef void (tNFA_VSC_CBACK)(UINT8 event, UINT16 param_len, UINT8 *p_param); /***************************************************************************** ** External Function Declarations *****************************************************************************/ #ifdef __cplusplus extern "C" { #endif /******************************************************************************* ** ** Function NFA_Init ** ** Description This function initializes control blocks for NFA ** ** p_hal_entry_tbl points to a table of HAL entry points ** ** NOTE: the buffer that p_hal_entry_tbl points must be ** persistent until NFA is disabled. ** ** ** Returns none ** *******************************************************************************/ NFC_API extern void NFA_Init (tHAL_NFC_ENTRY *p_hal_entry_tbl); /******************************************************************************* ** ** Function NFA_Enable ** ** Description This function enables NFC. Prior to calling NFA_Enable, ** the NFCC must be powered up, and ready to receive commands. ** This function enables the tasks needed by NFC, opens the NCI ** transport, resets the NFC controller, downloads patches to ** the NFCC (if necessary), and initializes the NFC subsystems. ** ** This function should only be called once - typically when NFC ** is enabled during boot-up, or when NFC is enabled from a ** settings UI. Subsequent calls to NFA_Enable while NFA is ** enabling or enabled will be ignored. When the NFC startup ** procedure is completed, an NFA_DM_ENABLE_EVT is returned to the ** application using the tNFA_DM_CBACK. ** ** The tNFA_CONN_CBACK parameter is used to register a callback ** for polling, p2p and card emulation events. ** ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_Enable (tNFA_DM_CBACK *p_dm_cback, tNFA_CONN_CBACK *p_conn_cback); /******************************************************************************* ** ** Function NFA_Disable ** ** Description This function is called to shutdown NFC. The tasks for NFC ** are terminated, and clean up routines are performed. This ** function is typically called during platform shut-down, or ** when NFC is disabled from a settings UI. When the NFC ** shutdown procedure is completed, an NFA_DM_DISABLE_EVT is ** returned to the application using the tNFA_DM_CBACK. ** ** The platform should wait until the NFC_DISABLE_REVT is ** received before powering down the NFC chip and NCI transport. ** This is required to so that NFA can gracefully shut down any ** open connections. ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_Disable (BOOLEAN graceful); /******************************************************************************* ** ** Function NFA_SetConfig ** ** Description Set the configuration parameters to NFCC. The result is ** reported with an NFA_DM_SET_CONFIG_EVT in the tNFA_DM_CBACK ** callback. ** ** Note: If RF discovery is started, NFA_StopRfDiscovery()/NFA_RF_DISCOVERY_STOPPED_EVT ** should happen before calling this function. Most Configuration ** parameters are related to RF discovery. ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_BUSY if previous setting is on-going ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_SetConfig (tNFA_PMID param_id, UINT8 length, UINT8 *p_data); /******************************************************************************* ** ** Function NFA_GetConfig ** ** Description Get the configuration parameters from NFCC. The result is ** reported with an NFA_DM_GET_CONFIG_EVT in the tNFA_DM_CBACK ** callback. ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_GetConfig (UINT8 num_ids, tNFA_PMID *p_param_ids); /******************************************************************************* ** ** Function NFA_RequestExclusiveRfControl ** ** Description Request exclusive control of NFC. ** - Previous behavior (polling/tag reading, DH card emulation) ** will be suspended . ** - Polling and listening will be done based on the specified ** params ** ** The NFA_EXCLUSIVE_RF_CONTROL_STARTED_EVT event of ** tNFA_CONN_CBACK indicates the status of the operation. ** ** NFA_ACTIVATED_EVT and NFA_DEACTIVATED_EVT indicates link ** activation/deactivation. ** ** NFA_SendRawFrame is used to send data to the peer. NFA_DATA_EVT ** indicates data from the peer. ** ** If a tag is activated, then the NFA_RW APIs may be used to ** send commands to the tag. Incoming NDEF messages are sent to ** the NDEF callback. ** ** Once exclusive RF control has started, NFA will not activate ** LLCP internally. The application has exclusive control of ** the link. ** ** Note: If RF discovery is started, NFA_StopRfDiscovery()/NFA_RF_DISCOVERY_STOPPED_EVT ** should happen before calling this function ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_RequestExclusiveRfControl (tNFA_TECHNOLOGY_MASK poll_mask, tNFA_LISTEN_CFG *p_listen_cfg, tNFA_CONN_CBACK *p_conn_cback, tNFA_NDEF_CBACK *p_ndef_cback); /******************************************************************************* ** ** Function NFA_ReleaseExclusiveRfControl ** ** Description Release exclusive control of NFC. Once released, behavior ** prior to obtaining exclusive RF control will resume. ** Note?? ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_ReleaseExclusiveRfControl (void); /******************************************************************************* ** ** Function NFA_EnablePolling ** ** Description Enable polling for technologies specified by poll_mask. ** ** The following events (notified using the connection ** callback registered with NFA_Enable) are generated during ** polling: ** ** - NFA_POLL_ENABLED_EVT indicates whether or not polling ** successfully enabled. ** - NFA_DISC_RESULT_EVT indicates there are more than one devices, ** so application must select one of tags by calling NFA_Select(). ** - NFA_SELECT_RESULT_EVT indicates whether previous selection was ** successful or not. If it was failed then application must select ** again or deactivate by calling NFA_Deactivate(). ** - NFA_ACTIVATED_EVT is generated when an NFC link is activated. ** - NFA_NDEF_DETECT_EVT is generated if tag is activated ** - NFA_LLCP_ACTIVATED_EVT/NFA_LLCP_DEACTIVATED_EVT is generated ** if NFC-DEP is activated ** - NFA_DEACTIVATED_EVT will be returned after deactivating NFC link. ** ** Note: If RF discovery is started, NFA_StopRfDiscovery()/NFA_RF_DISCOVERY_STOPPED_EVT ** should happen before calling this function ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_EnablePolling (tNFA_TECHNOLOGY_MASK poll_mask); /******************************************************************************* ** ** Function NFA_DisablePolling ** ** Description Disable polling ** NFA_POLL_DISABLED_EVT will be returned after stopping polling. ** ** Note: If RF discovery is started, NFA_StopRfDiscovery()/NFA_RF_DISCOVERY_STOPPED_EVT ** should happen before calling this function ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_DisablePolling (void); /******************************************************************************* ** ** Function NFA_EnableListening ** ** Description Enable listening. ** NFA_LISTEN_ENABLED_EVT will be returned after listening is allowed. ** ** The actual listening technologies are specified by other NFA ** API functions. Such functions include (but not limited to) ** NFA_CeConfigureUiccListenTech. ** If NFA_DisableListening () is called to ignore the listening technologies, ** NFA_EnableListening () is called to restore the listening technologies ** set by these functions. ** ** Note: If RF discovery is started, NFA_StopRfDiscovery()/NFA_RF_DISCOVERY_STOPPED_EVT ** should happen before calling this function ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_EnableListening (void); /******************************************************************************* ** ** Function NFA_DisableListening ** ** Description Disable listening ** NFA_LISTEN_DISABLED_EVT will be returned after stopping listening. ** This function is called to exclude listen at RF discovery. ** ** Note: If RF discovery is started, NFA_StopRfDiscovery()/NFA_RF_DISCOVERY_STOPPED_EVT ** should happen before calling this function ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_DisableListening (void); /******************************************************************************* ** ** Function NFA_PauseP2p ** ** Description Pause P2P services. ** NFA_P2P_PAUSED_EVT will be returned after P2P services are ** disabled. ** ** The P2P services enabled by NFA_P2p* API functions are not ** available. NFA_ResumeP2p() is called to resume the P2P ** services. ** ** Note: If RF discovery is started, NFA_StopRfDiscovery()/NFA_RF_DISCOVERY_STOPPED_EVT ** should happen before calling this function ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_PauseP2p (void); /******************************************************************************* ** ** Function NFA_ResumeP2p ** ** Description Resume P2P services. ** NFA_P2P_RESUMED_EVT will be returned after P2P services are. ** enables again. ** ** Note: If RF discovery is started, NFA_StopRfDiscovery()/NFA_RF_DISCOVERY_STOPPED_EVT ** should happen before calling this function ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_ResumeP2p (void); /******************************************************************************* ** ** Function NFA_SetP2pListenTech ** ** Description This function is called to set listen technology for NFC-DEP. ** This funtion may be called before or after starting any server ** on NFA P2P/CHO/SNEP. ** If there is no technology for NFC-DEP, P2P listening will be ** stopped. ** ** NFA_SET_P2P_LISTEN_TECH_EVT without data will be returned. ** ** Note: If RF discovery is started, NFA_StopRfDiscovery()/NFA_RF_DISCOVERY_STOPPED_EVT ** should happen before calling this function ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_SetP2pListenTech (tNFA_TECHNOLOGY_MASK tech_mask); /******************************************************************************* ** ** Function NFA_StartRfDiscovery ** ** Description Start RF discovery ** RF discovery parameters shall be set by other APIs. ** ** An NFA_RF_DISCOVERY_STARTED_EVT indicates whether starting was successful or not. ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_StartRfDiscovery (void); /******************************************************************************* ** ** Function NFA_StopRfDiscovery ** ** Description Stop RF discovery ** ** An NFA_RF_DISCOVERY_STOPPED_EVT indicates whether stopping was successful or not. ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_StopRfDiscovery (void); /******************************************************************************* ** ** Function NFA_SetRfDiscoveryDuration ** ** Description Set the duration of the single discovery period in [ms]. ** Allowable range: 0 ms to 0xFFFF ms. ** ** Note: If discovery is already started, the application should ** call NFA_StopRfDiscovery prior to calling ** NFA_SetRfDiscoveryDuration, and then call ** NFA_StartRfDiscovery afterwards to restart discovery using ** the new duration. ** ** Returns: ** NFA_STATUS_OK, if command accepted ** NFA_STATUS_FAILED: otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_SetRfDiscoveryDuration (UINT16 discovery_period_ms); /******************************************************************************* ** ** Function NFA_Select ** ** Description Select one from detected devices by NFA_DISC_RESULT_EVT after the ** last discovery result is received. ** An NFA_SELECT_RESULT_EVT indicates whether selection was successful or not. ** If failed then application must select again or deactivate by NFA_Deactivate (). ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_INVALID_PARAM if RF interface is not matched protocol ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_Select (UINT8 rf_disc_id, tNFA_NFC_PROTOCOL protocol, tNFA_INTF_TYPE rf_interface); /******************************************************************************* ** ** Function NFA_UpdateRFCommParams ** ** Description This function is called to update RF Communication parameters ** once the Frame RF Interface has been activated. ** ** An NFA_UPDATE_RF_PARAM_RESULT_EVT indicates whether updating ** was successful or not. ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_UpdateRFCommParams (tNFA_RF_COMM_PARAMS *p_params); /******************************************************************************* ** ** Function NFA_Deactivate ** ** Description ** If sleep_mode=TRUE: ** Deselect the activated device by deactivating into sleep mode. ** ** An NFA_DEACTIVATE_FAIL_EVT indicates that selection was not successful. ** Application can select another discovered device or deactivate by NFA_Deactivate () ** after receiving NFA_DEACTIVATED_EVT. ** ** Deactivating to sleep mode is not allowed when NFCC is in wait-for-host-select ** mode, or in listen-sleep states; NFA will deactivate to idle or discovery state ** for these cases respectively. ** ** ** If sleep_mode=FALSE: ** Deactivate the connection (e.g. as a result of presence check failure) ** NFA_DEACTIVATED_EVT will indicate that link is deactivated. ** Polling/listening will resume (unless the nfcc is in wait_for-all-discoveries state) ** ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_Deactivate (BOOLEAN sleep_mode); /******************************************************************************* ** ** Function NFA_SendRawFrame ** ** Description Send a raw frame over the activated interface with the NFCC. ** This function can only be called after NFC link is activated. ** ** If the activated interface is a tag and auto-presence check is ** enabled then presence_check_start_delay can be used to indicate ** the delay in msec after which the next auto presence check ** command can be sent. NFA_DM_DEFAULT_PRESENCE_CHECK_START_DELAY ** can be used as the default value for the delay. ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_SendRawFrame (UINT8 *p_raw_data, UINT16 data_len, UINT16 presence_check_start_delay); /******************************************************************************* ** NDEF APIs *******************************************************************************/ /******************************************************************************* ** ** Function NFA_RegisterNDefTypeHandler ** ** Description This function allows the applications to register for ** specific types of NDEF records. When NDEF records are ** received, NFA will parse the record-type field, and pass ** the record to the registered tNFA_NDEF_CBACK. ** ** For records types which were not registered, the record will ** be sent to the default handler. A default type-handler may ** be registered by calling this NFA_RegisterNDefTypeHandler ** with tnf=NFA_TNF_DEFAULT. In this case, all un-registered ** record types will be sent to the callback. Only one default ** handler may be registered at a time. ** ** An NFA_NDEF_REGISTER_EVT will be sent to the tNFA_NDEF_CBACK ** to indicate that registration was successful, and provide a ** handle for this record type. ** ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_RegisterNDefTypeHandler (BOOLEAN handle_whole_message, tNFA_TNF tnf, UINT8 *p_type_name, UINT8 type_name_len, tNFA_NDEF_CBACK *p_ndef_cback); /******************************************************************************* ** ** Function NFA_RegisterNDefUriHandler ** ** Description This API is a special-case of NFA_RegisterNDefTypeHandler ** with TNF=NFA_TNF_WKT, and type_name='U' (URI record); and allows ** registering for specific URI types (e.g. 'tel:' or 'mailto:'). ** ** An NFA_NDEF_REGISTER_EVT will be sent to the tNFA_NDEF_CBACK ** to indicate that registration was successful, and provide a ** handle for this registration. ** ** If uri_id=NFA_NDEF_URI_ID_ABSOLUTE, then p_abs_uri contains the ** unabridged URI. For all other uri_id values, the p_abs_uri ** parameter is ignored (i.e the URI prefix is implied by uri_id). ** See [NFC RTD URI] for more information. ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_RegisterNDefUriHandler (BOOLEAN handle_whole_message, tNFA_NDEF_URI_ID uri_id, UINT8 *p_abs_uri, UINT8 uri_id_len, tNFA_NDEF_CBACK *p_ndef_cback); /******************************************************************************* ** ** Function NFA_DeregisterNDefTypeHandler ** ** Description Deregister NDEF record type handler. ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_DeregisterNDefTypeHandler (tNFA_HANDLE ndef_type_handle); /******************************************************************************* ** ** Function NFA_PowerOffSleepMode ** ** Description This function is called to enter or leave NFCC Power Off Sleep mode ** NFA_DM_PWR_MODE_CHANGE_EVT will be sent to indicate status. ** ** start_stop : TRUE if entering Power Off Sleep mode ** FALSE if leaving Power Off Sleep mode ** Note?? ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_PowerOffSleepMode (BOOLEAN start_stop); /******************************************************************************* ** ** Function NFA_RegVSCback ** ** Description This function is called to register or de-register a callback ** function to receive Proprietary NCI response and notification ** events. ** The maximum number of callback functions allowed is NFC_NUM_VS_CBACKS ** ** Returns tNFC_STATUS ** *******************************************************************************/ NFC_API extern tNFC_STATUS NFA_RegVSCback (BOOLEAN is_register, tNFA_VSC_CBACK *p_cback); /******************************************************************************* ** ** Function NFA_SendVsCommand ** ** Description This function is called to send an NCI Vendor Specific ** command to NFCC. ** ** oid - The opcode of the VS command. ** cmd_params_len - The command parameter len ** p_cmd_params - The command parameter ** p_cback - The callback function to receive the command ** status ** ** Returns NFA_STATUS_OK if successfully initiated ** NFA_STATUS_FAILED otherwise ** *******************************************************************************/ NFC_API extern tNFA_STATUS NFA_SendVsCommand (UINT8 oid, UINT8 cmd_params_len, UINT8 *p_cmd_params, tNFA_VSC_CBACK *p_cback); /******************************************************************************* ** ** Function NFA_SetTraceLevel ** ** Description This function sets the trace level for NFA. If called with ** a value of 0xFF, it simply returns the current trace level. ** ** Returns The new or current trace level ** *******************************************************************************/ NFC_API extern UINT8 NFA_SetTraceLevel (UINT8 new_level); #ifdef __cplusplus } #endif #endif /* NFA_API_H */