/****************************************************************************** * * Copyright (C) 2014 The Android Open Source Project * Copyright 2002 - 2004 Open Interface North America, Inc. All rights reserved. * * 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. * ******************************************************************************/ #ifndef _OI_BT_SPEC_H #define _OI_BT_SPEC_H /** * @file * * This file contains common definitions from the Bluetooth specification. * */ /********************************************************************************** $Revision: #1 $ ***********************************************************************************/ #include "oi_stddefs.h" /** \addtogroup Misc Miscellaneous APIs */ /**@{*/ #ifdef __cplusplus extern "C" { #endif /** The maximum number of active slaves in a piconet. */ #define OI_BT_MAX_ACTIVE_SLAVES 7 /** the number of bytes in a Bluetooth device address (BD_ADDR) */ #define OI_BD_ADDR_BYTE_SIZE 6 /** * 48-bit Bluetooth device address * * Because 48-bit integers may not be supported on all platforms, the * address is defined as an array of bytes. This array is big-endian, * meaning that * - array[0] contains bits 47-40, * - array[1] contains bits 39-32, * - array[2] contains bits 31-24, * - array[3] contains bits 23-16, * - array[4] contains bits 15-8, and * - array[5] contains bits 7-0. */ typedef struct { OI_UINT8 addr[OI_BD_ADDR_BYTE_SIZE] ; /**< Bluetooth device address represented as an array of 8-bit values */ } OI_BD_ADDR ; /** * @name Data types for working with UUIDs * UUIDs are 16 bytes (128 bits). * * To avoid having to pass around 128-bit values all the time, 32-bit and 16-bit * UUIDs are defined, along with a mapping from the shorter versions to the full * version. * * @{ */ /** * 16-bit representation of a 128-bit UUID */ typedef OI_UINT16 OI_UUID16; /** * 32-bit representation of a 128-bit UUID */ typedef OI_UINT32 OI_UUID32; /** * number of bytes in a 128 bit UUID */ #define OI_BT_UUID128_SIZE 16 /** * number of bytes in IPv6 style addresses */ #define OI_BT_IPV6ADDR_SIZE 16 /** * type definition for a 128-bit UUID * * To simplify conversion between 128-bit UUIDs and 16-bit and 32-bit UUIDs, * the most significant 32 bits are stored with the same endian-ness as is * native on the target (local) device. The remainder of the 128-bit UUID is * stored as bytes in big-endian order. */ typedef struct { OI_UINT32 ms32bits; /**< most significant 32 bits of 128-bit UUID */ OI_UINT8 base[OI_BT_UUID128_SIZE - sizeof(OI_UINT32)]; /**< remainder of 128-bit UUID, array of 8-bit values */ } OI_UUID128; /** @} */ /** number of bytes in a link key */ #define OI_BT_LINK_KEY_SIZE 16 /** * type definition for a baseband link key * * Because 128-bit integers may not be supported on all platforms, we define * link keys as an array of bytes. Unlike the Bluetooth device address, * the link key is stored in little-endian order, meaning that * - array[0] contains bits 0 - 7, * - array[1] contains bits 8 - 15, * - array[2] contains bits 16 - 23, * - array[3] contains bits 24 - 31, * - array[4] contains bits 32 - 39, * - array[5] contains bits 40 - 47, * - array[6] contains bits 48 - 55, * - array[7] contains bits 56 - 63, * - array[8] contains bits 64 - 71, * - array[9] contains bits 72 - 79, * - array[10] contains bits 80 - 87, * - array[11] contains bits 88 - 95, * - array[12] contains bits 96 - 103, * - array[13] contains bits 104- 111, * - array[14] contains bits 112- 119, and * - array[15] contains bits 120- 127. */ typedef struct { OI_UINT8 key[OI_BT_LINK_KEY_SIZE] ; /**< link key represented as an array of 8-bit values */ } OI_LINK_KEY ; /** Out-of-band data size - C and R values are 16-bytes each */ #define OI_BT_OOB_NUM_BYTES 16 typedef struct { OI_UINT8 value[OI_BT_OOB_NUM_BYTES] ; /**< same struct used for C and R values */ } OI_OOB_DATA ; /** * link key types */ typedef enum { OI_LINK_KEY_TYPE_COMBO = 0, /**< combination key */ OI_LINK_KEY_TYPE_LOCAL_UNIT = 1, /**< local unit key */ OI_LINK_KEY_TYPE_REMOTE_UNIT = 2, /**< remote unit key */ OI_LINK_KEY_TYPE_DEBUG_COMBO = 3, /**< debug combination key */ OI_LINK_KEY_TYPE_UNAUTHENTICATED = 4, /**< Unauthenticated */ OI_LINK_KEY_TYPE_AUTHENTICATED = 5, /**< Authenticated */ OI_LINK_KEY_TYPE_CHANGED_COMBO = 6 /**< Changed */ } OI_BT_LINK_KEY_TYPE ; /** amount of space allocated for a PIN (personal indentification number) in bytes */ #define OI_BT_PIN_CODE_SIZE 16 /** data type for a PIN (PINs are treated as strings, so endianness does not apply.) */ typedef struct { OI_UINT8 pin[OI_BT_PIN_CODE_SIZE] ; /**< PIN represented as an array of 8-bit values */ } OI_PIN_CODE ; /** maximum number of SCO connections per device, which is 3 as of version 2.0+EDR of the Bluetooth specification (see sec 4.3 of vol 2 part B) */ #define OI_BT_MAX_SCO_CONNECTIONS 3 /** data type for clock offset */ typedef OI_UINT16 OI_BT_CLOCK_OFFSET ; /** data type for a LM handle */ typedef OI_UINT16 OI_HCI_LM_HANDLE; /** opaque data type for a SCO or ACL connection handle */ typedef struct _OI_HCI_CONNECTION *OI_HCI_CONNECTION_HANDLE; /** data type for HCI Error Code, as defined in oi_hcispec.h */ typedef OI_UINT8 OI_HCI_ERROR_CODE ; /** * The Bluetooth device type is indicated by a 24-bit bitfield, represented as a * 32-bit number in the stack. The bit layout and values for device class are specified * in the file oi_bt_assigned_nos.h and in the Bluetooth "Assigned Numbers" specification * at http://www.bluetooth.org/assigned-numbers/. */ typedef OI_UINT32 OI_BT_DEVICE_CLASS ; #define OI_BT_DEV_CLASS_FORMAT_MASK 0x000003 /**< Bits 0-1 contain format type. */ #define OI_BT_DEV_CLASS_MINOR_DEVICE_MASK 0x0000FC /**< Bits 2-7 contain minor device class value. */ #define OI_BT_DEV_CLASS_MAJOR_DEVICE_MASK 0x001F00 /**< Bits 8-12 contain major device class value. */ #define OI_BT_DEV_CLASS_MAJOR_SERVICE_MASK 0xFFE000 /**< Bits 13-23 contain major service class value. */ /** There is currently only one device class format defined, type 00. */ #define OI_BT_DEV_CLASS_FORMAT_TYPE 00 /** Bit 13 in device class indicates limited discoverability mode (GAP v2.0+EDR, section 4.1.2.2) */ #define OI_BT_DEV_CLASS_LIMITED_DISCO_BIT BIT13 /** macro to test validity of the Device Class Format */ #define OI_BT_VALID_DEVICE_CLASS_FORMAT(class) (OI_BT_DEV_CLASS_FORMAT_TYPE == ((class) & OI_BT_DEV_CLASS_FORMAT_MASK)) /** the time between baseband clock ticks, currently 625 microseconds (one slot) */ #define OI_BT_TICK 625 /** some macros to convert to/from baseband clock ticks - use no floating point! */ #define OI_SECONDS_TO_BT_TICKS(secs) ((secs)*1600) #define OI_BT_TICKS_TO_SECONDS(ticks) ((ticks)/1600) #define OI_MSECS_TO_BT_TICKS(msecs) (((msecs)*8)/5) #define OI_BT_TICKS_TO_MSECS(ticks) (((ticks)*5)/8) /** EIR byte order */ #define OI_EIR_BYTE_ORDER OI_LITTLE_ENDIAN_BYTE_ORDER #ifdef __cplusplus } #endif /**@}*/ /*****************************************************************************/ #endif /* _OI_BT_SPEC_H */