contiki/cpu/cc26xx/dev/rfc-api/mailbox.h
2015-02-25 13:09:56 +01:00

581 lines
28 KiB
C

/******************************************************************************
* Filename: mailbox.h
* Revised: $ $
* Revision: $ $
*
* Description: Definitions for interface between system and radio CPU
*
* Copyright (C) 2015 Texas Instruments Incorporated - http://www.ti.com/
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* Neither the name of Texas Instruments Incorporated nor the names of
* its contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
******************************************************************************/
#ifndef _MAILBOX_H
#define _MAILBOX_H
#include <stdint.h>
#include <string.h>
/// Type definition for RAT
typedef uint32_t ratmr_t;
/// Type definition for a data queue
typedef struct {
uint8_t *pCurrEntry; ///< Pointer to the data queue entry to be used, NULL for an empty queue
uint8_t *pLastEntry; ///< Pointer to the last entry in the queue, NULL for a circular queue
} dataQueue_t;
/// \name CPE interrupt definitions
/// Interrupt masks for the CPE interrupt in RDBELL.
///@{
#define IRQN_COMMAND_DONE 0 ///< Radio operation command finished
#define IRQN_LAST_COMMAND_DONE 1 ///< Last radio operation command in a chain finished
#define IRQN_FG_COMMAND_DONE 2 ///< FG level Radio operation command finished
#define IRQN_LAST_FG_COMMAND_DONE 3 ///< Last FG level radio operation command in a chain finished
#define IRQN_TX_DONE 4 ///< Packet transmitted
#define IRQN_TX_ACK 5 ///< ACK packet transmitted
#define IRQN_TX_CTRL 6 ///< Control packet transmitted
#define IRQN_TX_CTRL_ACK 7 ///< Acknowledgement received on a transmitted control packet
#define IRQN_TX_CTRL_ACK_ACK 8 ///< Acknowledgement received on a transmitted control packet, and acknowledgement transmitted for that packet
#define IRQN_TX_RETRANS 9 ///< Packet retransmitted
#define IRQN_TX_ENTRY_DONE 10 ///< Tx queue data entry state changed to Finished
#define IRQN_TX_BUFFER_CHANGED 11 ///< A buffer change is complete
#define IRQN_BG_COMMAND_SUSPENDED 12 ///< A background level radio operation command has been suspended
#define IRQN_RX_OK 16 ///< Packet received with CRC OK, payload, and not to be ignored
#define IRQN_RX_NOK 17 ///< Packet received with CRC error
#define IRQN_RX_IGNORED 18 ///< Packet received with CRC OK, but to be ignored
#define IRQN_RX_EMPTY 19 ///< Packet received with CRC OK, not to be ignored, no payload
#define IRQN_RX_CTRL 20 ///< Control packet received with CRC OK, not to be ignored
#define IRQN_RX_CTRL_ACK 21 ///< Control packet received with CRC OK, not to be ignored, then ACK sent
#define IRQN_RX_BUF_FULL 22 ///< Packet received that did not fit in the Rx queue
#define IRQN_RX_ENTRY_DONE 23 ///< Rx queue data entry changing state to Finished
#define IRQN_RX_DATA_WRITTEN 24 ///< Data written to partial read Rx buffer
#define IRQN_RX_N_DATA_WRITTEN 25 ///< Specified number of bytes written to partial read Rx buffer
#define IRQN_RX_ABORTED 26 ///< Packet reception stopped before packet was done
#define IRQN_SYNTH_NO_LOCK 28 ///< The synth has gone out of lock after calibration
#define IRQN_MODULES_UNLOCKED 29 ///< As part of the boot process, the CM0 has opened access to RF core modules and memories
#define IRQN_BOOT_DONE 30 ///< The RF core CPU boot is finished
#define IRQN_INTERNAL_ERROR 31 ///< Internal error observed
#define IRQ_COMMAND_DONE (1U << IRQN_COMMAND_DONE)
#define IRQ_LAST_COMMAND_DONE (1U << IRQN_LAST_COMMAND_DONE)
#define IRQ_FG_COMMAND_DONE (1U << IRQN_FG_COMMAND_DONE)
#define IRQ_LAST_FG_COMMAND_DONE (1U << IRQN_LAST_FG_COMMAND_DONE)
#define IRQ_TX_DONE (1U << IRQN_TX_DONE)
#define IRQ_TX_ACK (1U << IRQN_TX_ACK)
#define IRQ_TX_CTRL (1U << IRQN_TX_CTRL)
#define IRQ_TX_CTRL_ACK (1U << IRQN_TX_CTRL_ACK)
#define IRQ_TX_CTRL_ACK_ACK (1U << IRQN_TX_CTRL_ACK_ACK)
#define IRQ_TX_RETRANS (1U << IRQN_TX_RETRANS)
#define IRQ_TX_ENTRY_DONE (1U << IRQN_TX_ENTRY_DONE)
#define IRQ_TX_BUFFER_CHANGED (1U << IRQN_TX_BUFFER_CHANGED)
#define IRQ_BG_COMMAND_SUSPENDED (1U << IRQN_BG_COMMAND_SUSPENDED)
#define IRQ_RX_OK (1U << IRQN_RX_OK)
#define IRQ_RX_NOK (1U << IRQN_RX_NOK)
#define IRQ_RX_IGNORED (1U << IRQN_RX_IGNORED)
#define IRQ_RX_EMPTY (1U << IRQN_RX_EMPTY)
#define IRQ_RX_CTRL (1U << IRQN_RX_CTRL)
#define IRQ_RX_CTRL_ACK (1U << IRQN_RX_CTRL_ACK)
#define IRQ_RX_BUF_FULL (1U << IRQN_RX_BUF_FULL)
#define IRQ_RX_ENTRY_DONE (1U << IRQN_RX_ENTRY_DONE)
#define IRQ_RX_DATA_WRITTEN (1U << IRQN_RX_DATA_WRITTEN)
#define IRQ_RX_N_DATA_WRITTEN (1U << IRQN_RX_N_DATA_WRITTEN)
#define IRQ_RX_ABORTED (1U << IRQN_RX_ABORTED)
#define IRQ_SYNTH_NO_LOCK (1U << IRQN_SYNTH_NO_LOCK)
#define IRQ_MODULES_UNLOCKED (1U << IRQN_MODULES_UNLOCKED)
#define IRQ_BOOT_DONE (1U << IRQN_BOOT_DONE)
#define IRQ_INTERNAL_ERROR (1U << IRQN_INTERNAL_ERROR)
///@}
/// \name CMDSTA values
/// Values returned in result byte of CMDSTA
///@{
#define CMDSTA_Pending 0x00 ///< The command has not yet been parsed
#define CMDSTA_Done 0x01 ///< Command successfully parsed
#define CMDSTA_IllegalPointer 0x81 ///< The pointer signaled in CMDR is not valid
#define CMDSTA_UnknownCommand 0x82 ///< The command number in the command structure is unknown
#define CMDSTA_UnknownDirCommand 0x83 ///< The command number for a direct command is unknown, or the
///< command is not a direct command
#define CMDSTA_ContextError 0x85 ///< An immediate or direct command was issued in a context
///< where it is not supported
#define CMDSTA_SchedulingError 0x86 ///< A radio operation command was attempted to be scheduled
///< while another operation was already running in the RF core
#define CMDSTA_ParError 0x87 ///< There were errors in the command parameters that are parsed
///< on submission.
#define CMDSTA_QueueError 0x88 ///< An operation on a data entry queue was attempted that was
///< not supported by the queue in its current state
#define CMDSTA_QueueBusy 0x89 ///< An operation on a data entry was attempted while that entry
///< was busy
///@}
/// \name Macros for use with command definition files
/// The script create_command.pl generates header files from command and structure definitions in the
/// *_def.txt files. These are the macros to access the definitions
///@{
/// Get a field from a structure
//
/// Gets a field from a structure defined in a _def.txt file. This may be used both in assignments and
/// references (e.g. GET_FIELD(pCmd1, CMD_TEST, testParam) = GET_FIELD(pCmd2, CMD_DUMMY, dummyParam);)
/// \param[in] ptr
/// Pointer to the structure
/// \param[in] cmd
/// Name of the command or structure as defined in the _def.txt file
/// \param[in] field
/// Name of the accessed field as defined in the _def.txt file
///
#define GET_FIELD(ptr, cmd, field) \
(*((_TYPE_##cmd##_##field *) (((uint8_t *)(ptr)) + (_POSITION_##cmd##_##field))))
/// Get a field from a structure, reading as volatile
//
/// Gets a field from a structure defined in a _def.txt file, reading it as a volatile parameter, which
/// takes into account that it may be changed by the other side. This may be used both in assignments and
/// references (e.g. GET_FIELD(pCmd1, CMD_TEST, testParam) = GET_FIELD(pCmd2, CMD_DUMMY, dummyParam);)
/// \param[in] ptr
/// Pointer to the structure
/// \param[in] cmd
/// Name of the command or structure as defined in the _def.txt file
/// \param[in] field
/// Name of the accessed field as defined in the _def.txt file
///
#define GET_FIELD_V(ptr, cmd, field) \
(*((volatile _TYPE_##cmd##_##field *) (((uint8_t *)(ptr)) + (_POSITION_##cmd##_##field))))
/// Get the pointer to a field from a structure
//
/// Gets the pointer to a field from a structure defined in a _def.txt file.
/// \param[in] ptr
/// Pointer to the structure
/// \param[in] cmd
/// Name of the command or structure as defined in the _def.txt file
/// \param[in] field
/// Name of the accessed field as defined in the _def.txt file
///
#define GET_FIELD_PTR(ptr, cmd, field) \
((_TYPE_##cmd##_##field *) (((uint8_t *)(ptr)) + (_POSITION_##cmd##_##field)))
/// Get the volatile pointer to a field from a structure
//
/// Gets the volatile pointer to a field from a structure defined in a _def.txt file.
/// \param[in] ptr
/// Pointer to the structure
/// \param[in] cmd
/// Name of the command or structure as defined in the _def.txt file
/// \param[in] field
/// Name of the accessed field as defined in the _def.txt file
///
#define GET_FIELD_VPTR(ptr, cmd, field) \
((volatile _TYPE_##cmd##_##field *) (((uint8_t *)(ptr)) + (_POSITION_##cmd##_##field)))
/// Get bits from a bit field
//
/// Returns bits from a bit field defined in a _def.txt file.
/// \param[in] value
/// The value of the entire field that contains the bit field
/// \param[in] cmd
/// Name of the command or structure as defined in the _def.txt file
/// \param[in] field
/// Name of the field that contains the bit field definition as defined in the _def.txt file
/// \param[in] bitfield
/// Name of the bitfield as defined in the _def.txt file
///
#define GET_BITS(value, cmd, field, bitfield) \
(((value) >> (_BITPOS_##cmd##_##field##_##bitfield)) & \
((1U << (_NBITS_##cmd##_##field##_##bitfield)) - 1))
/// Get bits from a bit field as a signed value
//
/// Returns sign extended bits from a bit field defined in a _def.txt file.
/// \param[in] value
/// The value of the entire field that contains the bit field
/// \param[in] cmd
/// Name of the command or structure as defined in the _def.txt file
/// \param[in] field
/// Name of the field that contains the bit field definition as defined in the _def.txt file
/// \param[in] bitfield
/// Name of the bitfield as defined in the _def.txt file
///
#define GET_BITS_S(value, cmd, field, bitfield) \
(((int)(value) << (32 - ((_BITPOS_##cmd##_##field##_##bitfield) + (_NBITS_##cmd##_##field##_##bitfield)))) >> \
(32 - (_NBITS_##cmd##_##field##_##bitfield)))
/// Set bits in a bit field
//
/// Modifies a bit field defined in a _def.txt file.
/// \param[in,out] value
/// The value of the entire field that contains the bit field
/// \param[in] cmd
/// Name of the command or structure as defined in the _def.txt file
/// \param[in] field
/// Name of the field that contains the bit field definition as defined in the _def.txt file
/// \param[in] bitfield
/// Name of the bitfield as defined in the _def.txt file
/// \param[in] bvalue
/// The value to set in the bitfield
///
#define SET_BITS(value, cmd, field, bitfield, bvalue) \
(((value) = ((value) & \
(~(((1U << (_NBITS_##cmd##_##field##_##bitfield)) - 1) << (_BITPOS_##cmd##_##field##_##bitfield))) | \
((bvalue) << (_BITPOS_##cmd##_##field##_##bitfield)))))
/// Get bits from a bit field in a structure
//
/// Returns bits from a bit field in a structure defined in a _def.txt file.
/// \param[in] ptr
/// Pointer to the structure
/// \param[in] cmd
/// Name of the command or structure as defined in the _def.txt file
/// \param[in] field
/// Name of the field that contains the bit field definition as defined in the _def.txt file
/// \param[in] bitfield
/// Name of the bitfield as defined in the _def.txt file
///
#define GET_BITFIELD(ptr, cmd, field, bitfield) \
((*((_TYPE_##cmd##_##field *) ((((uint8_t *)(ptr)) + (_POSITION_##cmd##_##field)))) >> \
((_BITPOS_##cmd##_##field##_##bitfield))) & \
((1U << (_NBITS_##cmd##_##field##_##bitfield)) - 1))
/// Get bits from a bit field in a structure, reading as volatile
//
/// Returns bits from a bit field in a structure defined in a _def.txt file, reading it as a
/// volatile parameter.
/// \param[in] ptr
/// Pointer to the structure
/// \param[in] cmd
/// Name of the command or structure as defined in the _def.txt file
/// \param[in] field
/// Name of the field that contains the bit field definition as defined in the _def.txt file
/// \param[in] bitfield
/// Name of the bitfield as defined in the _def.txt file
///
#define GET_BITFIELD_V(ptr, cmd, field, bitfield) \
((*((volatile _TYPE_##cmd##_##field *) ((((uint8_t *)(ptr)) + (_POSITION_##cmd##_##field)))) >> \
((_BITPOS_##cmd##_##field##_##bitfield))) & \
((1U << (_NBITS_##cmd##_##field##_##bitfield)) - 1))
/// Set bits in a bit field in a structure
//
/// Modifies a bit field in a field in a structure defined in a _def.txt file.
/// \param[in] ptr
/// Pointer to the structure
/// \param[in] cmd
/// Name of the command or structure as defined in the _def.txt file
/// \param[in] field
/// Name of the field that contains the bit field definition as defined in the _def.txt file
/// \param[in] bitfield
/// Name of the bitfield as defined in the _def.txt file
/// \param[in] value
/// The value to set in the bitfield
///
#define SET_BITFIELD(ptr, cmd, field, bitfield, value) \
((*((_TYPE_##cmd##_##field *) (((uint8_t *)(ptr)) + (_POSITION_##cmd##_##field)))) = \
((*((_TYPE_##cmd##_##field *) (((uint8_t *)(ptr)) + (_POSITION_##cmd##_##field)))) & \
(~(((1U << (_NBITS_##cmd##_##field##_##bitfield)) - 1) << (_BITPOS_##cmd##_##field##_##bitfield))) | \
(((uint32_t)(value)) << (_BITPOS_##cmd##_##field##_##bitfield))))
/// Set bits in a bit field in a structure, reading and writing as volatile
//
/// Modifies a bit field in a field in a structure defined in a _def.txt file, accessing it as a volatile
/// parameter.
/// \param[in] ptr
/// Pointer to the structure
/// \param[in] cmd
/// Name of the command or structure as defined in the _def.txt file
/// \param[in] field
/// Name of the field that contains the bit field definition as defined in the _def.txt file
/// \param[in] bitfield
/// Name of the bitfield as defined in the _def.txt file
/// \param[in] value
/// The value to set in the bitfield
///
#define SET_BITFIELD_V(ptr, cmd, field, bitfield, value) \
((*((volatile _TYPE_##cmd##_##field *) (((uint8_t *)(ptr)) + (_POSITION_##cmd##_##field)))) = \
((*((volatile _TYPE_##cmd##_##field *) (((uint8_t *)(ptr)) + (_POSITION_##cmd##_##field)))) & \
(~(((1U << (_NBITS_##cmd##_##field##_##bitfield)) - 1) << (_BITPOS_##cmd##_##field##_##bitfield))) | \
(((uint32_t)(value)) << (_BITPOS_##cmd##_##field##_##bitfield))))
/// Get the value of specific bifield in a field with the remaining bits set to 0
//
/// Returns a bitfield so that the value of the full field can be obtained by bitwise
/// OR between these
/// \param[in] cmd
/// Name of the command or structure as defined in the _def.txt file
/// \param[in] field
/// Name of the field that contains the bit field definition as defined in the _def.txt file
/// \param[in] bitfield
/// Name of the bitfield as defined in the _def.txt file
/// \param[in] value
/// The value to use in the bitfield
///
#define BITVALUE(cmd, field, bitfield, value) \
((((uint32_t)(value)) & ((1U << (_NBITS_##cmd##_##field##_##bitfield)) - 1)) << \
(_BITPOS_##cmd##_##field##_##bitfield))
/// Get the size of a structure
//
/// Gets the size of a structure defined in a _def.txt file.
///
/// \param[in] cmd
/// Name of the command or structure as defined in the _def.txt file
///
#define SIZEOF_STRUCT(cmd) \
(_SIZEOF_##cmd)
/// Get the size of a radio operation command structure
//
/// Gets the size of a radio operation command structure defined in a _def.txt file. The difference from
/// SIZEOF_STRUCT is for legacy reasons only.
///
/// \param[in] cmd
/// Name of the command or structure as defined in the _def.txt file
///
#define SIZEOF_RADIO_OP(cmd) \
(_SIZEOF_##cmd)
/// Initializes a structure to an initialization set
//
/// Sets the value of a structure to its given initialization values
/// \param[in] ptr
/// Pointer to the structure, must be word aligned
/// \param[in] cmd
/// Name of the command or structure as defined in the _def.txt file
/// \param[in] set
/// Index of the set of initializations to use
///
#define INIT_STRUCT(ptr, cmd, set) \
(memcpy(((uint32_t *)(ptr)) + (_START_INIT_WIDX_##cmd), (__init_##cmd[(set)]), \
(_N_INIT_WORDS_##cmd) * sizeof(uint32_t)))
///@}
/// \name Macros for sending direct commands
///@{
/// Direct command with no parameter
#define CMDR_DIR_CMD(cmdId) (((cmdId) << 16) | 1)
/// Direct command with 1-byte parameter
#define CMDR_DIR_CMD_1BYTE(cmdId, par) (((cmdId) << 16) | ((par) << 8) | 1)
/// Direct command with 2-byte parameter
#define CMDR_DIR_CMD_2BYTE(cmdId, par) (((cmdId) << 16) | ((par) & 0xFFFC) | 1)
///@}
/// \name Definitions for trigger types
///@{
#define TRIG_NOW 0 ///< Triggers immediately
#define TRIG_NEVER 1 ///< Never trigs
#define TRIG_ABSTIME 2 ///< Trigs at an absolute time
#define TRIG_REL_SUBMIT 3 ///< Trigs at a time relative to the command was submitted
#define TRIG_REL_START 4 ///< Trigs at a time relative to the command started
#define TRIG_REL_PREVSTART 5 ///< Trigs at a time relative to the previous command in the chain started
#define TRIG_REL_FIRSTSTART 6 ///< Trigs at a time relative to the first command in the chain started
#define TRIG_REL_PREVEND 7 ///< Trigs at a time relative to the previous command in the chain ended
#define TRIG_REL_EVT1 8 ///< Trigs at a time relative to the context defined "Event 1"
#define TRIG_REL_EVT2 9 ///< Trigs at a time relative to the context defined "Event 2"
#define TRIG_EXTERNAL 10 ///< Trigs at an external event to the radio timer
#define TRIG_PAST_BM 0x80 ///< Bitmask for setting pastTrig bit in order to trig immediately if
///< trigger happened in the past
///@}
/// \name Definitions for conditional execution
///@{
#define COND_ALWAYS 0 ///< Always run next command (except in case of Abort)
#define COND_NEVER 1 ///< Never run next command
#define COND_STOP_ON_FALSE 2 ///< Run next command if this command returned True, stop if it returned
///< False
#define COND_STOP_ON_TRUE 3 ///< Stop if this command returned True, run next command if it returned
///< False
#define COND_SKIP_ON_FALSE 4 ///< Run next command if this command returned True, skip a number of
///< commands if it returned False
#define COND_SKIP_ON_TRUE 5 ///< Skip a number of commands if this command returned True, run next
///< command if it returned False
///@}
/// \name Radio operation status
/// Radio operation status format:
///@{
/// \name Operation not finished
///@{
#define IDLE 0x0000 ///< Operation not started
#define PENDING 0x0001 ///< Start of command is pending
#define ACTIVE 0x0002 ///< Running
#define SKIPPED 0x0003 ///< Operation skipped due to condition in another command
///@}
/// \name Operation finished normally
///@{
#define DONE_OK 0x0400 ///< Operation ended normally
#define DONE_COUNTDOWN 0x0401 ///< Counter reached zero
#define DONE_RXERR 0x0402 ///< Operation ended with CRC error
#define DONE_TIMEOUT 0x0403 ///< Operation ended with timeout
#define DONE_STOPPED 0x0404 ///< Operation stopped after CMD_STOP command
#define DONE_ABORT 0x0405 ///< Operation aborted by CMD_ABORT command
#define DONE_FAILED 0x0406 ///< Scheduled immediate command failed
///@}
/// \name Operation finished with error
///@{
#define ERROR_PAST_START 0x0800 ///< The start trigger occurred in the past
#define ERROR_START_TRIG 0x0801 ///< Illegal start trigger parameter
#define ERROR_CONDITION 0x0802 ///< Illegal condition for next operation
#define ERROR_PAR 0x0803 ///< Error in a command specific parameter
#define ERROR_POINTER 0x0804 ///< Invalid pointer to next operation
#define ERROR_CMDID 0x0805 ///< Next operation has a command ID that is undefined or not a radio
///< operation command
#define ERROR_WRONG_BG 0x0806 ///< FG level command not compatible with running BG level command
#define ERROR_NO_SETUP 0x0807 ///< Operation using Rx or Tx attemted without CMD_RADIO_SETUP
#define ERROR_NO_FS 0x0808 ///< Operation using Rx or Tx attemted without frequency synth configured
#define ERROR_SYNTH_PROG 0x0809 ///< Synthesizer calibration failed
#define ERROR_TXUNF 0x080A ///< Tx underflow observed
#define ERROR_RXOVF 0x080B ///< Rx overflow observed
#define ERROR_NO_RX 0x080C ///< Attempted to access data from Rx when no such data was yet received
#define ERROR_PENDING 0x080D ///< Command submitted in the future with another command at different level pending
///@}
///@}
/// \name Data entry types
///@{
#define DATA_ENTRY_TYPE_GEN 0 ///< General type: Tx entry or single element Rx entry
#define DATA_ENTRY_TYPE_MULTI 1 ///< Multi-element Rx entry type
#define DATA_ENTRY_TYPE_PTR 2 ///< Pointer entry type
#define DATA_ENTRY_TYPE_PARTIAL 3 ///< Partial read entry type
///@
/// \name Data entry statuses
///@{
#define DATA_ENTRY_PENDING 0 ///< Entry not yet used
#define DATA_ENTRY_ACTIVE 1 ///< Entry in use by radio CPU
#define DATA_ENTRY_BUSY 2 ///< Entry being updated
#define DATA_ENTRY_FINISHED 3 ///< Radio CPU is finished accessing the entry
#define DATA_ENTRY_UNFINISHED 4 ///< Radio CPU is finished accessing the entry, but packet could not be finished
///@}
/// Difference between length and size of rxData field in multi-element Rx entry
#define DATA_ENTRY_MULTI_LEN_OFFSET (_POSITION_dataEntry_rxData - _POSITION_dataEntry_data)
/// \name Macros for RF register override
///@{
/// Macro for ADI half-size value-mask combination
#define ADI_VAL_MASK(addr, mask, value) \
(((addr) & 1) ? (((mask) & 0x0F) | (((value) & 0x0F) << 4)) : \
((((mask) & 0x0F) << 4) | ((value) & 0x0F)))
/// 32-bit write of 16-bit value
#define HW_REG_OVERRIDE(addr, val) ((((uintptr_t) (addr)) & 0xFFFC) | ((uint32_t)(val) << 16))
/// ADI register, full-size write
#define ADI_REG_OVERRIDE(adiNo, addr, val) (2 | ((uint32_t)(val) << 16) | \
(((addr) & 0x3F) << 24) | (((adiNo) ? 1U : 0) << 31))
/// 2 ADI registers, full-size write
#define ADI_2REG_OVERRIDE(adiNo, addr, val, addr2, val2) \
(2 | ((uint32_t)(val2) << 2) | (((addr2) & 0x3F) << 10) | ((uint32_t)(val) << 16) | \
(((addr) & 0x3F) << 24) | (((adiNo) ? 1U : 0) << 31))
/// ADI register, half-size read-modify-write
#define ADI_HALFREG_OVERRIDE(adiNo, addr, mask, val) (2 | (ADI_VAL_MASK(addr, mask, val) << 16) | \
(((addr) & 0x3F) << 24) | (1U << 30) | (((adiNo) ? 1U : 0) << 31))
/// 2 ADI registers, half-size read-modify-write
#define ADI_2HALFREG_OVERRIDE(adiNo, addr, mask, val, addr2, mask2, val2) \
(2 | (ADI_VAL_MASK(addr2, mask2, val2) << 2) | (((addr2) & 0x3F) << 10) | \
(ADI_VAL_MASK(addr, mask, val) << 16) | (((addr) & 0x3F) << 24) | (1U << 30) | (((adiNo) ? 1U : 0) << 31))
/// 16-bit SW register as defined in radio_par_def.txt
#define SW_REG_OVERRIDE(cmd, field, val) (3 | ((_POSITION_##cmd##_##field) << 4) | ((uint32_t)(val) << 16))
/// SW register as defined in radio_par_def.txt with added index (for use with registers > 16 bits).
#define SW_REG_IND_OVERRIDE(cmd, field, offset, val) (3 | \
(((_POSITION_##cmd##_##field) + ((offset) << 1)) << 4) | ((uint32_t)(val) << 16))
/// 8-bit SW register as defined in radio_par_def.txt
#define SW_REG_BYTE_OVERRIDE(cmd, field, val) (0x8003 | ((_POSITION_##cmd##_##field) << 4) | \
((uint32_t)(val) << 16))
/// Two 8-bit SW registers as defined in radio_par_def.txt; the one given by field and the next byte.
#define SW_REG_2BYTE_OVERRIDE(cmd, field, val0, val1) (3 | (((_POSITION_##cmd##_##field) & 0xFFFE) << 4) | \
(((uint32_t)(val0) << 16) & 0x00FF0000) | ((uint32_t)(val1) << 24))
#define HW16_ARRAY_OVERRIDE(addr, length) (1 | (((uintptr_t) (addr)) & 0xFFFC) | ((uint32_t)(length) << 16))
#define HW32_ARRAY_OVERRIDE(addr, length) (1 | (((uintptr_t) (addr)) & 0xFFFC) | \
((uint32_t)(length) << 16) | (1U << 30))
#define ADI_ARRAY_OVERRIDE(adiNo, addr, bHalfSize, length) (1 | ((((addr) & 0x3F) << 2)) | \
((!!(bHalfSize)) << 8) | ((!!(adiNo)) << 9) | ((uint32_t)(length) << 16) | (2U << 30))
#define SW_ARRAY_OVERRIDE(cmd, firstfield, length) (1 | (((_POSITION_##cmd##_##firstfield)) << 2) | \
((uint32_t)(length) << 16) | (3U << 30))
#define MCE_RFE_OVERRIDE(bMceRam, mceRomBank, mceMode, bRfeRam, rfeRomBank, rfeMode) \
(7 | ((!!(bMceRam)) << 8) | (((mceRomBank) & 0x07) << 9) | ((!!(bRfeRam)) << 12) | (((rfeRomBank) & 0x07) << 13) | \
(((mceMode) & 0x00FF) << 16) | (((rfeMode) & 0x00FF) << 24))
#define BAW_OVERRIDE(freqOffset) (0x000B | ((freqOffset) << 16))
#define NEW_OVERRIDE_SEGMENT(address) (((((uintptr_t)(address)) & 0x03FFFFFC) << 6) | 0x000F | \
(((((uintptr_t)(address) >> 24) == 0x20) ? 0x01 : \
(((uintptr_t)(address) >> 24) == 0x21) ? 0x02 : \
(((uintptr_t)(address) >> 24) == 0xA0) ? 0x03 : \
(((uintptr_t)(address) >> 24) == 0x00) ? 0x04 : \
(((uintptr_t)(address) >> 24) == 0x10) ? 0x05 : \
(((uintptr_t)(address) >> 24) == 0x11) ? 0x06 : \
(((uintptr_t)(address) >> 24) == 0x40) ? 0x07 : \
(((uintptr_t)(address) >> 24) == 0x50) ? 0x08 : \
0x09) << 4)) // Use illegal value for illegal address range
/// End of string for override register
#define END_OVERRIDE 0xFFFFFFFF
#define FWPAR_8BIT_ADDR(cmd, field) (0x1800 | (_POSITION_##cmd##_##field))
#define FWPAR_16BIT_ADDR(cmd, field) (0x1000 | (_POSITION_##cmd##_##field))
#define FWPAR_32BIT_ADDR(cmd, field) (0x0000 | (_POSITION_##cmd##_##field))
/// ADI address-value pair
#define ADI_ADDR_VAL(addr, value) ((((addr) & 0x7F) << 8) | ((value) & 0xFF))
#define ADI_ADDR_VAL_MASK(addr, mask, value) ((((addr) & 0x7F) << 8) | ADI_VAL_MASK(addr, mask, value))
/// Low half-word
#define LOWORD(value) ((value) & 0xFFFF)
/// High half-word
#define HIWORD(value) ((value) >> 16)
///@}
#endif