Maxim Integrated Bluetooth LE Library
Dependents: BLE_Thermometer MAXWSNENV_demo
exactLE/stack/include/dm_api.h
- Committer:
- enginerd
- Date:
- 2016-10-06
- Revision:
- 5:5b87f64ce81e
- Parent:
- 0:b562096246b3
File content as of revision 5:5b87f64ce81e:
/*************************************************************************************************/ /*! * \file dm_api.h * * \brief Device Manager subsystem API. * * $Date: 2012-09-11 16:18:57 -0700 (Tue, 11 Sep 2012) $ * $Revision: 349 $ * * Copyright (c) 2009-2016 ARM Limited. All rights reserved. * * SPDX-License-Identifier: LicenseRef-PBL * * Licensed under the Permissive Binary License, Version 1.0 (the "License"); you may not use * this file except in compliance with the License. You may obtain a copy of the License at * * https://www.mbed.com/licenses/PBL-1.0 * * See the License for the specific language governing permissions and limitations under the License. */ /*************************************************************************************************/ #ifndef DM_API_H #define DM_API_H #include "hci_api.h" #include "cfg_stack.h" #include "smp_defs.h" #ifdef __cplusplus extern "C" { #endif /************************************************************************************************** Macros **************************************************************************************************/ /*! Device role */ #define DM_ROLE_MASTER HCI_ROLE_MASTER /*! Role is master */ #define DM_ROLE_SLAVE HCI_ROLE_SLAVE /*! Role is slave */ /*! The GAP discovery mode */ #define DM_DISC_MODE_NONE 0 /*! GAP non-discoverable */ #define DM_DISC_MODE_LIMITED 1 /*! GAP limited discoverable mode */ #define DM_DISC_MODE_GENERAL 2 /*! GAP general discoverable mode */ /*! The type of connectable or discoverable of advertising */ #define DM_ADV_CONN_UNDIRECT 0 /*! Connectable undirected advertising */ #define DM_ADV_CONN_DIRECT 1 /*! Connectable directed advertising */ #define DM_ADV_DISC_UNDIRECT 2 /*! Discoverable undirected advertising */ #define DM_ADV_NONCONN_UNDIRECT 3 /*! Non-connectable undirected advertising */ #define DM_ADV_SCAN_RESPONSE 4 /*! Scan response */ #define DM_ADV_NONE 255 /*! For internal use only */ /*! Whether data is located in the advertising data or the scan response data */ #define DM_DATA_LOC_ADV 0 /*! Locate data in the advertising data */ #define DM_DATA_LOC_SCAN 1 /*! Locate data in the scan response data */ /*! The scan type */ #define DM_SCAN_TYPE_PASSIVE 0 /*! Passive scan */ #define DM_SCAN_TYPE_ACTIVE 1 /*! Active scan */ /*! Advertising channel map */ #define DM_ADV_CHAN_37 HCI_ADV_CHAN_37 /*! Advertising channel 37 */ #define DM_ADV_CHAN_38 HCI_ADV_CHAN_38 /*! Advertising channel 38 */ #define DM_ADV_CHAN_39 HCI_ADV_CHAN_39 /*! Advertising channel 39 */ #define DM_ADV_CHAN_ALL (HCI_ADV_CHAN_37 | HCI_ADV_CHAN_38 | HCI_ADV_CHAN_39) /*! The client ID parameter to function DmConnRegister() */ #define DM_CLIENT_ID_ATT 0 /*! Identifier for attribute protocol, for internal use only */ #define DM_CLIENT_ID_SMP 1 /*! Identifier for security manager protocol, for internal use only */ #define DM_CLIENT_ID_DM 2 /*! Identifier for device manager, for internal use only */ #define DM_CLIENT_ID_APP 3 /*! Identifier for the application */ #define DM_CLIENT_ID_MAX 4 /*! For internal use only */ /*! Unknown connection ID or other error */ #define DM_CONN_ID_NONE 0 /*! The address type */ #define DM_ADDR_PUBLIC 0 /*! Public address */ #define DM_ADDR_RANDOM 1 /*! Random address */ /*! Advertising data types */ #define DM_ADV_TYPE_FLAGS 0x01 /*! Flag bits */ #define DM_ADV_TYPE_16_UUID_PART 0x02 /*! Partial list of 16 bit UUIDs */ #define DM_ADV_TYPE_16_UUID 0x03 /*! Complete list of 16 bit UUIDs */ #define DM_ADV_TYPE_128_UUID_PART 0x06 /*! Partial list of 128 bit UUIDs */ #define DM_ADV_TYPE_128_UUID 0x07 /*! Complete list of 128 bit UUIDs */ #define DM_ADV_TYPE_SHORT_NAME 0x08 /*! Shortened local name */ #define DM_ADV_TYPE_LOCAL_NAME 0x09 /*! Complete local name */ #define DM_ADV_TYPE_TX_POWER 0x0A /*! TX power level */ #define DM_ADV_TYPE_CONN_INTERVAL 0x12 /*! Slave preferred connection interval */ #define DM_ADV_TYPE_SIGNED_DATA 0x13 /*! Signed data */ #define DM_ADV_TYPE_16_SOLICIT 0x14 /*! Service soliticiation list of 16 bit UUIDs */ #define DM_ADV_TYPE_128_SOLICIT 0x15 /*! Service soliticiation list of 128 bit UUIDs */ #define DM_ADV_TYPE_SERVICE_DATA 0x16 /*! Service data */ #define DM_ADV_TYPE_PUBLIC_TARGET 0x17 /*! Public target address */ #define DM_ADV_TYPE_RANDOM_TARGET 0x18 /*! Random target address */ #define DM_ADV_TYPE_APPEARANCE 0x19 /*! Device appearance */ #define DM_ADV_TYPE_MANUFACTURER 0xFF /*! Manufacturer specific data */ /*! Bit mask for flags advertising data type */ #define DM_FLAG_LE_LIMITED_DISC 0x01 /*! Limited discoverable flag */ #define DM_FLAG_LE_GENERAL_DISC 0x02 /*! General discoverable flag */ #define DM_FLAG_LE_BREDR_NOT_SUP 0x04 /*! BR/EDR not supported flag */ /*! Advertising data element indexes */ #define DM_AD_LEN_IDX 0 /*! Advertising data element len */ #define DM_AD_TYPE_IDX 1 /*! Advertising data element type */ #define DM_AD_DATA_IDX 2 /*! Advertising data element data */ /*! Timeouts defined by the GAP specification; in units of milliseconds */ #define DM_GAP_LIM_ADV_TIMEOUT 180000 /*! Maximum advertising duration in limited discoverable mode */ #define DM_GAP_GEN_DISC_SCAN_MIN 10240 /*! Minimum scan duration for general discovery */ #define DM_GAP_LIM_DISC_SCAN_MIN 10240 /*! Minimum scan duration for limited discovery */ #define DM_GAP_CONN_PARAM_TIMEOUT 30000 /*! Connection parameter update timeout */ #define DM_GAP_SCAN_FAST_PERIOD 30720 /*! Minimum time to perform scanning when user initiated */ #define DM_GAP_ADV_FAST_PERIOD 30000 /*! Minimum time to perform advertising when user initiated */ /*! * Advertising, scanning, and connection parameters defined in the GAP specification. * In units of 625 microseconds. */ #define DM_GAP_SCAN_FAST_INT_MIN 48 /*! Minimum scan interval when user initiated */ #define DM_GAP_SCAN_FAST_INT_MAX 96 /*! Maximum scan interval when user initiated */ #define DM_GAP_SCAN_FAST_WINDOW 48 /*! Scan window when user initiated */ #define DM_GAP_SCAN_SLOW_INT_1 2048 /*! Scan interval 1 when background scannning */ #define DM_GAP_SCAN_SLOW_WINDOW_1 18 /*! Scan window 1 when background scanning */ #define DM_GAP_SCAN_SLOW_INT_2 4096 /*! Scan interval 2 when background scannning */ #define DM_GAP_SCAN_SLOW_WINDOW_2 18 /*! Scan window 2 when background scanning */ #define DM_GAP_ADV_FAST_INT_MIN 48 /*! Minimum advertising interval when user initiated */ #define DM_GAP_ADV_FAST_INT_MAX 96 /*! Maximum advertising interval when user initiated */ #define DM_GAP_ADV_SLOW_INT_MIN 1600 /*! Minimum advertising interval when background advertising */ #define DM_GAP_ADV_SLOW_INT_MAX 1920 /*! Maximum advertising interval when background advertising */ /*! GAP connection establishment latency */ #define DM_GAP_CONN_EST_LATENCY 0 /*! GAP connection intervals in 1.25ms units */ #define DM_GAP_INITIAL_CONN_INT_MIN 24 /*! Minimum initial connection interval */ #define DM_GAP_INITIAL_CONN_INT_MAX 40 /*! Maximum initial onnection interval */ /*! GAP connection establishment minimum and maximum connection event lengths */ #define DM_GAP_CONN_EST_MIN_CE_LEN 0 #define DM_GAP_CONN_EST_MAX_CE_LEN 0 /*! GAP peripheral privacy flag characteristic values */ #define DM_GAP_PRIV_DISABLED 0 #define DM_GAP_PRIV_ENABLED 1 /*! Connection establishment supervision timeout default, in 10ms units */ #define DM_DEFAULT_EST_SUP_TIMEOUT 2000 /*! Pairing authentication/security properties bit mask */ #define DM_AUTH_BOND_FLAG SMP_AUTH_BOND_FLAG /*! Bonding requested */ #define DM_AUTH_MITM_FLAG SMP_AUTH_MITM_FLAG /*! MITM (authenticated pairing) requested */ /*! Key distribution bit mask */ #define DM_KEY_DIST_LTK SMP_KEY_DIST_ENC /*! Distribute LTK used for encryption */ #define DM_KEY_DIST_IRK SMP_KEY_DIST_ID /*! Distribute IRK used for privacy */ #define DM_KEY_DIST_CSRK SMP_KEY_DIST_SIGN /*! Distribute CSRK used for signed data */ /*! Key type used in DM_SEC_KEY_IND */ #define DM_KEY_LOCAL_LTK 0x01 /*! LTK generated locally for this device */ #define DM_KEY_PEER_LTK 0x02 /*! LTK received from peer device */ #define DM_KEY_IRK 0x04 /*! IRK and identity info of peer device */ #define DM_KEY_CSRK 0x08 /*! CSRK of peer device */ /*! Base value for HCI error status values for DM_SEC_PAIR_CMPL_IND */ #define DM_SEC_HCI_ERR_BASE 0x20 #define DM_SEC_LEVEL_NONE 0 /*! Connection has no security */ #define DM_SEC_LEVEL_ENC 1 /*! Connection is encrypted with unauthenticated key */ #define DM_SEC_LEVEL_ENC_AUTH 2 /*! Connection is encrypted with authenticated key */ /*! Random address types */ #define DM_RAND_ADDR_STATIC 0xC0 /*! Static address */ #define DM_RAND_ADDR_RESOLV 0x80 /*! Resolvable private address */ #define DM_RAND_ADDR_NONRESOLV 0x00 /*! Non-resolvable private address */ /*! Get the type of random address */ #define DM_RAND_ADDR_GET(addr) ((addr)[5] & 0xC0) /*! Set the type of random address */ #define DM_RAND_ADDR_SET(addr, type) {(addr)[5] = ((addr)[5] & 0x3F) | (type);} /*! Connection busy/idle state */ #define DM_CONN_IDLE 0 /*! Connection is idle */ #define DM_CONN_BUSY 1 /*! Connection is busy */ /*! Connection busy/idle state bitmask */ #define DM_IDLE_SMP_PAIR 0x0001 /*! SMP pairing in progress */ #define DM_IDLE_DM_ENC 0x0002 /*! DM Encryption setup in progress */ #define DM_IDLE_ATTS_DISC 0x0004 /*! ATTS service discovery in progress */ #define DM_IDLE_APP_DISC 0x0008 /*! App framework service discovery in progress */ #define DM_IDLE_USER_1 0x0010 /*! For use by user application */ #define DM_IDLE_USER_2 0x0020 /*! For use by user application */ #define DM_IDLE_USER_3 0x0040 /*! For use by user application */ #define DM_IDLE_USER_4 0x0080 /*! For use by user application */ /*! DM callback events */ #define DM_CBACK_START 0x20 /*! DM callback event starting value */ enum { DM_RESET_CMPL_IND = DM_CBACK_START, /*! Reset complete */ DM_ADV_START_IND, /*! Advertising started */ DM_ADV_STOP_IND, /*! Advertising stopped */ DM_ADV_NEW_ADDR_IND, /*! New resolvable address has been generated */ DM_SCAN_START_IND, /*! Scanning started */ DM_SCAN_STOP_IND, /*! Scanning stopped */ DM_SCAN_REPORT_IND, /*! Scan data received from peer device */ DM_CONN_OPEN_IND, /*! Connection opened */ DM_CONN_CLOSE_IND, /*! Connection closed */ DM_CONN_UPDATE_IND, /*! Connection update complete */ DM_SEC_PAIR_CMPL_IND, /*! Pairing completed successfully */ DM_SEC_PAIR_FAIL_IND, /*! Pairing failed or other security failure */ DM_SEC_ENCRYPT_IND, /*! Connection encrypted */ DM_SEC_ENCRYPT_FAIL_IND, /*! Encryption failed */ DM_SEC_AUTH_REQ_IND, /*! PIN or OOB data requested for pairing */ DM_SEC_KEY_IND, /*! Security key indication */ DM_SEC_LTK_REQ_IND, /*! LTK requested for encyption */ DM_SEC_PAIR_IND, /*! Incoming pairing request from master */ DM_SEC_SLAVE_REQ_IND, /*! Incoming security request from slave */ DM_PRIV_RESOLVED_ADDR_IND, /*! Private address resolved */ DM_HW_ERROR_IND, /*! Hardware Error */ DM_VENDOR_SPEC_IND, /*! Vendor specific event */ }; #define DM_CBACK_END DM_VENDOR_SPEC_IND /*! DM callback event ending value */ /************************************************************************************************** Data Types **************************************************************************************************/ /*! Connection identifier */ typedef uint8_t dmConnId_t; /*! Configuration structure */ typedef struct { uint8_t dummy; } dmCfg_t; /*! LTK data type */ typedef struct { uint8_t key[SMP_KEY_LEN]; uint8_t rand[SMP_RAND8_LEN]; uint16_t ediv; } dmSecLtk_t; /*! IRK data type */ typedef struct { uint8_t key[SMP_KEY_LEN]; bdAddr_t bdAddr; uint8_t addrType; } dmSecIrk_t; /*! CSRK data type */ typedef struct { uint8_t key[SMP_KEY_LEN]; } dmSecCsrk_t; /*! union of key types */ typedef union { dmSecLtk_t ltk; dmSecIrk_t irk; dmSecCsrk_t csrk; } dmSecKey_t; /*! Data type for DM_SEC_PAIR_CMPL_IND */ typedef struct { wsfMsgHdr_t hdr; /*! Header */ uint8_t auth; /*! Authentication and bonding flags */ } dmSecPairCmplIndEvt_t; /*! Data type for DM_SEC_ENCRYPT_IND */ typedef struct { wsfMsgHdr_t hdr; /*! Header */ bool_t usingLtk; /*! TRUE if connection encrypted with LTK */ } dmSecEncryptIndEvt_t; /*! Data type for DM_SEC_AUTH_REQ_IND */ typedef struct { wsfMsgHdr_t hdr; /*! Header */ bool_t oob; /*! Out-of-band data requested */ bool_t display; /*! TRUE if pin is to be displayed */ } dmSecAuthReqIndEvt_t; /*! Data type for DM_SEC_PAIR_IND */ typedef struct { wsfMsgHdr_t hdr; /*! Header */ uint8_t auth; /*! Authentication and bonding flags */ bool_t oob; /*! Out-of-band pairing data present or not present */ uint8_t iKeyDist; /*! Initiator key distribution flags */ uint8_t rKeyDist; /*! Responder key distribution flags */ } dmSecPairIndEvt_t; /*! Data type for DM_SEC_SLAVE_REQ_IND */ typedef struct { wsfMsgHdr_t hdr; /*! Header */ uint8_t auth; /*! Authentication and bonding flags */ } dmSecSlaveIndEvt_t; /*! Data type for DM_SEC_KEY_IND */ typedef struct { wsfMsgHdr_t hdr; /*! Header */ dmSecKey_t keyData; /*! Key data */ uint8_t type; /*! Key type */ uint8_t secLevel; /*! Security level of pairing when key was exchanged */ uint8_t encKeyLen; /*! Length of encryption key used when data was transferred */ } dmSecKeyIndEvt_t; /*! Data type for DM_ADV_NEW_ADDR_IND */ typedef struct { wsfMsgHdr_t hdr; /*! Header */ bdAddr_t addr; /*! New resolvable private address */ bool_t firstTime; /*! TRUE when address is generated for the first time */ } dmAdvNewAddrIndEvt_t; /*! Union of DM callback event data types */ typedef union { wsfMsgHdr_t hdr; hciLeAdvReportEvt_t scanReport; hciLeConnCmplEvt_t connOpen; hciLeConnUpdateCmplEvt_t connUpdate; hciDisconnectCmplEvt_t connClose; dmSecPairCmplIndEvt_t pairCmpl; dmSecEncryptIndEvt_t encryptInd; dmSecAuthReqIndEvt_t authReq; dmSecPairIndEvt_t pairInd; dmSecSlaveIndEvt_t slaveInd; dmSecKeyIndEvt_t keyInd; hciLeLtkReqEvt_t ltkReqInd; hciVendorSpecEvt_t vendorSpec; dmAdvNewAddrIndEvt_t advNewAddr; } dmEvt_t; /*! Callback type */ typedef void (*dmCback_t)(dmEvt_t *pDmEvt); /************************************************************************************************** Function Declarations **************************************************************************************************/ /*************************************************************************************************/ /*! * \fn DmRegister * * \brief Register a callback with DM for scan and advertising events. * * \param cback Client callback function. * * \return None. */ /*************************************************************************************************/ void DmRegister(dmCback_t cback); /*************************************************************************************************/ /*! * \fn DmFindAdType * * \brief Find an advertising data element in the given advertising or scan response data. * * \param adType Advertising data element type to find. * \param dataLen Data length. * \param pData Pointer to advertising or scan response data. * * \return Pointer to the advertising data element byte array or NULL if not found. */ /*************************************************************************************************/ uint8_t *DmFindAdType(uint8_t adType, uint8_t dataLen, uint8_t *pData); /*************************************************************************************************/ /*! * \fn DmAdvInit * * \brief Initialize DM advertising. * * \return None. */ /*************************************************************************************************/ void DmAdvInit(void); /*************************************************************************************************/ /*! * \fn DmAdvStart * * \brief Start advertising using the given advertising type and duration. * * \param advType Advertising type. * \param duration The advertising duration, in milliseconds. * * \return None. */ /*************************************************************************************************/ void DmAdvStart(uint8_t advType, uint16_t duration); /*************************************************************************************************/ /*! * \fn DmAdvStop * * \brief Stop advertising. * * \return None. */ /*************************************************************************************************/ void DmAdvStop(void); /*************************************************************************************************/ /*! * \fn DmAdvSetInterval * * \brief Set the minimum and maximum advertising intervals. * * \param intervalMin Minimum advertising interval. * \param intervalMax Maximum advertising interval. * * \return None. */ /*************************************************************************************************/ void DmAdvSetInterval(uint16_t intervalMin, uint16_t intervalMax); /*************************************************************************************************/ /*! * \fn DmAdvSetChannelMap * * \brief Include or exclude certain channels from the advertising channel map. * * \param channelMap Advertising channel map. * * \return None. */ /*************************************************************************************************/ void DmAdvSetChannelMap(uint8_t channelMap); /*************************************************************************************************/ /*! * \fn DmAdvSetData * * \brief Set the advertising or scan response data to the given data. * * \param location Data location. * \param len Length of the data. Maximum length is 31 bytes. * \param pData Pointer to the data. * * \return None. */ /*************************************************************************************************/ void DmAdvSetData(uint8_t location, uint8_t len, uint8_t *pData); /*************************************************************************************************/ /*! * \fn DmAdvSetAddrType * * \brief Set the local address type used while advertising. This function can be used to * configure advertising to use a random address. * * \param addrType Address type. * * \return None. */ /*************************************************************************************************/ void DmAdvSetAddrType(uint8_t addrType); /*************************************************************************************************/ /*! * \fn DmAdvSetAdValue * * \brief Set the value of an advertising data element in the given advertising or * scan response data. If the element already exists in the data then it is replaced * with the new value. If the element does not exist in the data it is appended * to it, space permitting. * * \param adType Advertising data element type. * \param len Length of the value. Maximum length is 29 bytes. * \param pValue Pointer to the value. * \param pAdvDataLen Advertising or scan response data length. The new length is returned * in this parameter. * \param pAdvData Pointer to advertising or scan response data. * * \return TRUE if the element was successfully added to the data, FALSE otherwise. */ /*************************************************************************************************/ bool_t DmAdvSetAdValue(uint8_t adType, uint8_t len, uint8_t *pValue, uint8_t *pAdvDataLen, uint8_t *pAdvData); /*************************************************************************************************/ /*! * \fn DmAdvSetName * * \brief Set the device name in the given advertising or scan response data. If the * name can only fit in the data if it is shortened, the name is shortened * and the AD type is changed to DM_ADV_TYPE_SHORT_NAME. * * \param len Length of the name. Maximum length is 29 bytes. * \param pValue Pointer to the name in UTF-8 format. * \param pAdvDataLen Advertising or scan response data length. The new length is returned * in this parameter. * \param pAdvData Pointer to advertising or scan response data. * * \return TRUE if the element was successfully added to the data, FALSE otherwise. */ /*************************************************************************************************/ bool_t DmAdvSetName(uint8_t len, uint8_t *pValue, uint8_t *pAdvDataLen, uint8_t *pAdvData); /*************************************************************************************************/ /*! * \fn DmAdvPrivInit * * \brief Initialize private advertising. * * \return None. */ /*************************************************************************************************/ void DmAdvPrivInit(void); /*************************************************************************************************/ /*! * \fn DmAdvPrivStart * * \brief Start using a private resolvable address. * * \param changeInterval Interval between automatic address changes, in seconds. * * \return None. */ /*************************************************************************************************/ void DmAdvPrivStart(uint16_t changeInterval); /*************************************************************************************************/ /*! * \fn DmAdvPrivStop * * \brief Stop using a private resolvable address. * * \return None. */ /*************************************************************************************************/ void DmAdvPrivStop(void); /*************************************************************************************************/ /*! * \fn DmScanInit * * \brief Initialize DM scanning. * * \return None. */ /*************************************************************************************************/ void DmScanInit(void); /*************************************************************************************************/ /*! * \fn DmScanStart * * \brief Start scanning. * * \param mode Discoverability mode. * \param scanType Scan type. * \param filterDup Filter duplicates. Set to TRUE to filter duplicate responses received * from the same device. Set to FALSE to receive all responses. * \param duration The scan duration, in milliseconds. If set to zero, scanning will * continue until DmScanStop() is called. * * \return None. */ /*************************************************************************************************/ void DmScanStart(uint8_t mode, uint8_t scanType, bool_t filterDup, uint16_t duration); /*************************************************************************************************/ /*! * \fn DmScanStop * * \brief Stop scanning. * * \return None. */ /*************************************************************************************************/ void DmScanStop(void); /*************************************************************************************************/ /*! * \fn DmScanSetInterval * * \brief Set the scan interval and window. * * \param scanInterval The scan interval. * \param scanWindow The scan window. * * \return None. */ /*************************************************************************************************/ void DmScanSetInterval(uint16_t scanInterval, uint16_t scanWindow); /*************************************************************************************************/ /*! * \fn DmScanSetAddrType * * \brief Set the local address type used while scanning. This function can be used to * configure scanning to use a random address. * * \param addrType Address type. * * \return None. */ /*************************************************************************************************/ void DmScanSetAddrType(uint8_t addrType); /*************************************************************************************************/ /*! * \fn DmConnInit * * \brief Initialize DM connection manager. * * \return None. */ /*************************************************************************************************/ void DmConnInit(void); /*************************************************************************************************/ /*! * \fn DmConnMasterInit * * \brief Initialize DM connection manager for operation as master. * * \return None. */ /*************************************************************************************************/ void DmConnMasterInit(void); /*************************************************************************************************/ /*! * \fn DmConnSlaveInit * * \brief Initialize DM connection manager for operation as slave. * * \return None. */ /*************************************************************************************************/ void DmConnSlaveInit(void); /*************************************************************************************************/ /*! * \fn DmConnRegister * * \brief Register with the DM connection manager. * * \param clientId The client identifier. * \param cback Client callback function. * * \return None. */ /*************************************************************************************************/ void DmConnRegister(uint8_t clientId, dmCback_t cback); /*************************************************************************************************/ /*! * \fn DmConnOpen * * \brief Open a connection to a peer device with the given address. * * \param clientId The client identifier. * \param addrType Address type. * \param pAddr Peer device address. * * \return Connection identifier. */ /*************************************************************************************************/ dmConnId_t DmConnOpen(uint8_t clientId, uint8_t addrType, uint8_t *pAddr); /*************************************************************************************************/ /*! * \fn DmConnClose * * \brief Close the connection with the give connection identifier. * * \param clientId The client identifier. * \param connId Connection identifier. * \param reason Reason connection is being closed. * * \return None. */ /*************************************************************************************************/ void DmConnClose(uint8_t clientId, dmConnId_t connId, uint8_t reason); /*************************************************************************************************/ /*! * \fn DmConnAccept * * \brief Accept a connection from the given peer device by initiating directed advertising. * * \param clientId The client identifier. * \param addrType Address type. * \param pAddr Peer device address. * * \return Connection identifier. */ /*************************************************************************************************/ dmConnId_t DmConnAccept(uint8_t clientId, uint8_t addrType, uint8_t *pAddr); /*************************************************************************************************/ /*! * \fn DmConnUpdate * * \brief Update the connection parameters of an open connection * * \param connId Connection identifier. * \param pConnSpec Connection specification. * * \return None. */ /*************************************************************************************************/ void DmConnUpdate(dmConnId_t connId, hciConnSpec_t *pConnSpec); /*************************************************************************************************/ /*! * \fn DmConnSetScanInterval * * \brief Set the scan interval and window for created connections created with DmConnOpen(). * * \param scanInterval The scan interval. * \param scanWindow The scan window. * * \return None. */ /*************************************************************************************************/ void DmConnSetScanInterval(uint16_t scanInterval, uint16_t scanWindow); /*************************************************************************************************/ /*! * \fn DmConnSetConnSpec * * \brief Set the connection specification parameters for connections created with DmConnOpen(). * * \param pConnSpec Connection spec parameters. * * \return None. */ /*************************************************************************************************/ void DmConnSetConnSpec(hciConnSpec_t *pConnSpec); /*************************************************************************************************/ /*! * \fn DmConnSetAddrType * * \brief Set the local address type used for connections created with DmConnOpen(). * * \param addrType Address type. * * \return None. */ /*************************************************************************************************/ void DmConnSetAddrType(uint8_t addrType); /*************************************************************************************************/ /*! * \fn DmConnSetIdle * * \brief Configure a bit in the connection idle state mask as busy or idle. * * \param connId Connection identifier. * \param idleMask Bit in the idle state mask to configure. * \param idle DM_CONN_BUSY or DM_CONN_IDLE. * * \return None. */ /*************************************************************************************************/ void DmConnSetIdle(dmConnId_t connId, uint16_t idleMask, uint8_t idle); /*************************************************************************************************/ /*! * \fn DmConnCheckIdle * * \brief Check if a connection is idle. * * \param connId Connection identifier. * * \return Zero if connection is idle, nonzero if busy. */ /*************************************************************************************************/ uint16_t DmConnCheckIdle(dmConnId_t connId); /*************************************************************************************************/ /*! * \fn DmDevReset * * \brief Reset the device. * * \return None. */ /*************************************************************************************************/ void DmDevReset(void); /*************************************************************************************************/ /*! * \fn DmDevRole * * \brief Return the device role indicating master or slave. * * \return Device role. */ /*************************************************************************************************/ uint8_t DmDevRole(void); /*************************************************************************************************/ /*! * \fn DmDevSetRandAddr * * \brief Set the random address to be used by the local device. * * \param pAddr Random address. * * \return None. */ /*************************************************************************************************/ void DmDevSetRandAddr(uint8_t *pAddr); /*************************************************************************************************/ /*! * \fn DmDevWhiteListAdd * * \brief Add a peer device to the white list. Note that this function cannot be called * while advertising, scanning, or connecting with white list filtering active. * * \param addrType Address type. * \param pAddr Peer device address. * * \return None. */ /*************************************************************************************************/ void DmDevWhiteListAdd(uint8_t addrType, uint8_t *pAddr); /*************************************************************************************************/ /*! * \fn DmDevWhiteListRemove * * \brief Remove a peer device from the white list. Note that this function cannot be called * while advertising, scanning, or connecting with white list filtering active. * * \param addrType Address type. * \param pAddr Peer device address. * * \return None. */ /*************************************************************************************************/ void DmDevWhiteListRemove(uint8_t addrType, uint8_t *pAddr); /*************************************************************************************************/ /*! * \fn DmDevWhiteListClear * * \brief Clear the white list. Note that this function cannot be called while * advertising, scanning, or connecting with white list filtering active. * * \return None. */ /*************************************************************************************************/ void DmDevWhiteListClear(void); /*************************************************************************************************/ /*! * \fn DmDevVsInit * * \brief Vendor-specific controller initialization function. * * \param param Vendor-specific parameter. * * \return None. */ /*************************************************************************************************/ void DmDevVsInit(uint8_t param); /*************************************************************************************************/ /*! * \fn DmSecInit * * \brief Initialize DM security. * * \return None. */ /*************************************************************************************************/ void DmSecInit(void); /*************************************************************************************************/ /*! * \fn DmSecPairReq * * \brief This function is called by a master device to initiate pairing. * * \param connId DM connection ID. * \param oob Out-of-band pairing data present or not present. * \param auth Authentication and bonding flags. * \param iKeyDist Initiator key distribution flags. * \param rKeyDist Responder key distribution flags. * * \return None. */ /*************************************************************************************************/ void DmSecPairReq(dmConnId_t connId, bool_t oob, uint8_t auth, uint8_t iKeyDist, uint8_t rKeyDist); /*************************************************************************************************/ /*! * \fn DmSecPairRsp * * \brief This function is called by a slave device to proceed with pairing after a * DM_SEC_PAIR_IND event is received. * * \param connId DM connection ID. * \param oob Out-of-band pairing data present or not present. * \param auth Authentication and bonding flags. * \param iKeyDist Initiator key distribution flags. * \param rKeyDist Responder key distribution flags. * * \return None. */ /*************************************************************************************************/ void DmSecPairRsp(dmConnId_t connId, bool_t oob, uint8_t auth, uint8_t iKeyDist, uint8_t rKeyDist); /*************************************************************************************************/ /*! * \fn DmSecCancelReq * * \brief This function is called to cancel the pairing process. * * \param connId DM connection ID. * \param reason Failure reason. * * \return None. */ /*************************************************************************************************/ void DmSecCancelReq(dmConnId_t connId, uint8_t reason); /*************************************************************************************************/ /*! * \fn DmSecAuthRsp * * \brief This function is called in response to a DM_SEC_AUTH_REQ_IND event to provide * PIN or OOB data during pairing. * * \param connId DM connection ID. * \param authDataLen Length of PIN or OOB data. * \param pAuthData pointer to PIN or OOB data. * * \return None. */ /*************************************************************************************************/ void DmSecAuthRsp(dmConnId_t connId, uint8_t authDataLen, uint8_t *pAuthData); /*************************************************************************************************/ /*! * \fn DmSecSlaveReq * * \brief This function is called by a slave device to request that the master initiates * pairing or link encryption. * * \param connId DM connection ID. * \param auth Authentication flags. * * \return None. */ /*************************************************************************************************/ void DmSecSlaveReq(dmConnId_t connId, uint8_t auth); /*************************************************************************************************/ /*! * \fn DmSecEncryptReq * * \brief This function is called by a master device to initiate link encryption. * * \param connId DM connection ID. * \param secLevel Security level of pairing when LTK was exchanged. * \param pLtk Pointer to LTK parameter structure. * * \return None. */ /*************************************************************************************************/ void DmSecEncryptReq(dmConnId_t connId, uint8_t secLevel, dmSecLtk_t *pLtk); /*************************************************************************************************/ /*! * \fn DmSecLtkRsp * * \brief This function is called by a slave in response to a DM_SEC_LTK_REQ_IND event * to provide the long term key used for encryption. * * \param connId DM connection ID. * \param keyFound TRUE if key found. * \param secLevel Security level of pairing when key was exchanged. * \param pKey Pointer to the key, if found. * * \return None. */ /*************************************************************************************************/ void DmSecLtkRsp(dmConnId_t connId, bool_t keyFound, uint8_t secLevel, uint8_t *pKey); /*************************************************************************************************/ /*! * \fn DmSecSetLocalCsrk * * \brief This function sets the local CSRK used by the device. * * \param pCsrk Pointer to CSRK. * * \return None. */ /*************************************************************************************************/ void DmSecSetLocalCsrk(uint8_t *pCsrk); /*************************************************************************************************/ /*! * \fn DmSecSetLocalIrk * * \brief This function sets the local IRK used by the device. * * \param pCsrk Pointer to IRK. * * \return None. */ /*************************************************************************************************/ void DmSecSetLocalIrk(uint8_t *pIrk); /*************************************************************************************************/ /*! * \fn DmPrivInit * * \brief Initialize DM privacy module. * * \return None. */ /*************************************************************************************************/ void DmPrivInit(void); /*************************************************************************************************/ /*! * \fn DmPrivResolveAddr * * \brief Resolve a private resolvable address. When complete the client's callback function * is called with a DM_PRIV_RESOLVED_ADDR_IND event. The client must wait to receive * this event before executing this function again. * * \param pAddr Peer device address. * \param pIrk The peer's identity resolving key. * \param param Client-defined parameter returned with callback event. * * \return None. */ /*************************************************************************************************/ void DmPrivResolveAddr(uint8_t *pAddr, uint8_t *pIrk, uint16_t param); /*************************************************************************************************/ /*! * \fn DmL2cConnUpdateCnf * * \brief For internal use only. L2C calls this function to send the result of an L2CAP * connection update response to DM. * * \param handle Connection handle. * \param reason Connection update response reason code. * \return None. */ /*************************************************************************************************/ void DmL2cConnUpdateCnf(uint16_t handle, uint16_t reason); /*************************************************************************************************/ /*! * \fn DmL2cConnUpdateInd * * \brief For internal use only. L2C calls this function when it receives a connection update * request from a peer device. * * \param identifier Identifier value. * \param handle Connection handle. * \param pConnSpec Connection spec parameters. * \return None. */ /*************************************************************************************************/ void DmL2cConnUpdateInd(uint8_t identifier, uint16_t handle, hciConnSpec_t *pConnSpec); /*************************************************************************************************/ /*! * \fn DmConnIdByHandle * * \brief For internal use only. Find the connection ID with matching handle. * * \param handle Handle to find. * * \return Connection ID or DM_CONN_ID_NONE if error. */ /*************************************************************************************************/ dmConnId_t DmConnIdByHandle(uint16_t handle); /*************************************************************************************************/ /*! * \fn DmConnInUse * * \brief For internal use only. Return TRUE if the connection is in use. * * \param connId Connection ID. * * \return TRUE if the connection is in use, FALSE otherwise. */ /*************************************************************************************************/ bool_t DmConnInUse(dmConnId_t connId); /*************************************************************************************************/ /*! * \fn DmConnPeerAddrType * * \brief For internal use only. Return the peer address type. * * \param connId Connection ID. * * \return Peer address type. */ /*************************************************************************************************/ uint8_t DmConnPeerAddrType(dmConnId_t connId); /*************************************************************************************************/ /*! * \fn DmConnPeerAddr * * \brief For internal use only. Return the peer device address. * * \param connId Connection ID. * * \return Pointer to peer device address. */ /*************************************************************************************************/ uint8_t *DmConnPeerAddr(dmConnId_t connId); /*************************************************************************************************/ /*! * \fn DmConnLocalAddrType * * \brief For internal use only. Return the local address type. * * \param connId Connection ID. * * \return Local address type. */ /*************************************************************************************************/ uint8_t DmConnLocalAddrType(dmConnId_t connId); /*************************************************************************************************/ /*! * \fn DmConnLocalAddr * * \brief For internal use only. Return the local address. * * \param connId Connection ID. * * \return Pointer to local address. */ /*************************************************************************************************/ uint8_t *DmConnLocalAddr(dmConnId_t connId); /*************************************************************************************************/ /*! * \fn DmConnSecLevel * * \brief For internal use only. Return the security level of the connection. * * \param connId Connection ID. * * \return Security level of the connection. */ /*************************************************************************************************/ uint8_t DmConnSecLevel(dmConnId_t connId); /*************************************************************************************************/ /*! * \fn DmSmpEncryptReq * * \brief For internal use only. This function is called by SMP to request encryption. * * \param connId DM connection ID. * \param secLevel Security level of pairing when key was exchanged. * \param pKey Pointer to key. * * \return None. */ /*************************************************************************************************/ void DmSmpEncryptReq(dmConnId_t connId, uint8_t secLevel, uint8_t *pKey); /*************************************************************************************************/ /*! * \fn DmSmpCbackExec * * \brief For internal use only. Execute DM callback from SMP procedures. * * \param pDmEvt Pointer to callback event data. * * \return None. */ /*************************************************************************************************/ void DmSmpCbackExec(dmEvt_t *pDmEvt); /*************************************************************************************************/ /*! * \fn DmSecGetLocalCsrk * * \brief For internal use only. This function gets the local CSRK used by the device. * * \return Pointer to CSRK. */ /*************************************************************************************************/ uint8_t *DmSecGetLocalCsrk(void); /*************************************************************************************************/ /*! * \fn DmSecGetLocalIrk * * \brief For internal use only. This function gets the local IRK used by the device. * * \return Pointer to IRK. */ /*************************************************************************************************/ uint8_t *DmSecGetLocalIrk(void); #ifdef __cplusplus }; #endif #endif /* DM_API_H */