Workshop o mikrokontrolérech na SKSP 2024.
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/** @addtogroup radio_file RADIO peripheral API
*
* @brief <b>Access functions for the 2.4 GHz Radio </b>
*
* @ingroup peripheral_apis
* LGPL License Terms @ref lgpl_license
* @author @htmlonly &copy; @endhtmlonly 2016
* Maxim Sloyko <maxims@google.com>
*
*/
/*
* This file is part of the libopencm3 project.
*
* Copyright (C) 2017-2018 Unicore MX project<dev(at)lists(dot)unicore-mx(dot)org>
* Copyright (C) 2021 Eduard Drusa <ventyl86(at)netkosice(dot)sk>
*
* This library is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this library. If not, see <http://www.gnu.org/licenses/>.
*/
#include <libopencm3/nrf/ficr.h>
#include <libopencm3/nrf/radio.h>
/**@{*/
/** @brief Set radio transmission power.
*
* @details Note, not all supported power levels are BLE compliant.
*
* @param[in] txpower enum radio_txpower
* */
void radio_set_txpower(enum radio_txpower txpower)
{
RADIO_TXPOWER = txpower;
}
/** @brief Set bit transmission order to LSB first. */
void radio_set_lsbfirst(void)
{
RADIO_PCNF1 &= ~RADIO_PCNF1_ENDIAN_BIG;
}
/** @brief Set bit transmission order to MSB first. */
void radio_set_msbfirst(void)
{
RADIO_PCNF1 |= RADIO_PCNF1_ENDIAN_BIG;
}
/** @brief Enable on the air data whitening
*
* @details the in-memory data will remain unwhitened.
* */
void radio_enable_whitening(void)
{
RADIO_PCNF1 |= RADIO_PCNF1_WHITEEN;
}
/** @brief Disable on the air data whitening. */
void radio_disable_whitening(void)
{
RADIO_PCNF1 &= ~RADIO_PCNF1_WHITEEN;
}
/** @brief Set CRC length in number of bytes.
*
* @param[in] crc_len uint8_t CRC length in number of bytes (1-3), 0 = CRC disabled.
*/
void radio_set_crclen(uint8_t crc_len)
{
uint32_t reg_crc = RADIO_CRCCNF;
reg_crc &= ~RADIO_CRCCNF_LEN_MASK;
RADIO_CRCCNF = reg_crc | RADIO_CRCCNF_LEN_MASKED(crc_len);
}
/** @brief Disable CRC calculation. */
void radio_disable_crc(void)
{
RADIO_CRCCNF &= ~RADIO_CRCCNF_LEN_MASK;
}
/** @brief Enable the peripheral. */
void radio_enable(void)
{
RADIO_POWER = RADIO_POWER_ENABLED;
}
/** @brief Disable the peripheral. */
void radio_disable(void)
{
RADIO_POWER = RADIO_POWER_DISABLED;
}
/** @brief Set Base Address length.
*
* @param[in] ba_len uint8_t Base Address length in number of bytes (2-4).
*/
void radio_set_balen(uint8_t ba_len)
{
uint32_t reg_pcnf1 = RADIO_PCNF1;
reg_pcnf1 &= ~RADIO_PCNF1_BALEN_MASK;
RADIO_PCNF1 = reg_pcnf1 | RADIO_PCNF1_BALEN_MASKED(ba_len);
}
/** @brief Set maximum transmission length in number of bytes.
*
* @param[in] maxlen uint8_t maximum transmission length.
*/
void radio_set_maxlen(uint8_t maxlen)
{
uint32_t reg_pcnf1 = RADIO_PCNF1;
reg_pcnf1 &= ~RADIO_PCNF1_MAXLEN_MASK;
RADIO_PCNF1 = reg_pcnf1 | RADIO_PCNF1_MAXLEN_MASKED(maxlen);
}
/** @brief Exclude access address from CRC calculation.
*
* @param[in] is_skip_addr bool If true, CRC will be calculated over PDU only,
* if false, it will also include the Access Address.
*/
void radio_set_crc_skipaddr(bool is_skip_addr)
{
if (is_skip_addr) {
RADIO_CRCCNF |= RADIO_CRCCNF_SKIPADDR;
} else {
RADIO_CRCCNF &= ~RADIO_CRCCNF_SKIPADDR;
}
}
/** @brief Configure the radio to be used in BLE mode.
*
* @details This needs to be called before the radio can be used in BLE mode.
* It will set som BLE standard parameters, like Inter-Frame Spacing time,
* LSB first, enable whitening, properly configure CRC (for advertising) and address length.
*/
void radio_configure_ble(void)
{
#ifdef NRF51
radio_set_mode(RADIO_MODE_BLE_1MBIT);
#endif
RADIO_TIFS = RADIO_BLE_TIFS;
radio_set_lsbfirst();
radio_enable_whitening();
radio_set_crclen(RADIO_BLE_CRCLEN);
RADIO_CRCPOLY = RADIO_BLE_CRCPOLY;
RADIO_CRCINIT = RADIO_BLE_CRCINIT;
radio_set_crc_skipaddr(true);
radio_set_balen(3);
}
/** @brief Configure the packet.
*
* @details See the data sheet for details.
*/
void radio_configure_packet(uint8_t lf_len_bits, uint8_t s0_len_bytes, uint8_t s1_len_bits)
{
RADIO_PCNF0 = RADIO_PCNF0_LFLEN_MASKED(lf_len_bits)
| RADIO_PCNF0_S0LEN_MASKED(s0_len_bytes)
| RADIO_PCNF0_S1LEN_MASKED(s1_len_bits);
}
/** @brief Set radio frequency.
*
* @param[in] freq uint8_t Frequency offset from 2.4GHz in MHz, for example "29" will
* tune the radio to 2429MHz
*/
void radio_set_frequency(uint8_t freq)
{
RADIO_FREQUENCY = freq;
}
/** @brief Set Data Whitening Initialization Vector.
*
* @param[in] iv uint8_t Initialization Vector. For BLE, this is channel index.
*/
void radio_set_datawhiteiv(uint8_t iv)
{
RADIO_DATAWHITEIV = iv;
}
/* @brief Set Address (base and prefix)
*
* @details Note that bases are shared between addresses 1-7,
* so changing one of them will change others too.
*
* @param[in] addr_index uint8_t address index (0-7)
* @param[in] base uint32_t base part of the address. If balen < 4, appropriate number
* of LSBs will be thrown away.
* @param[in] prefix uint8_t Address prefix.
*/
void radio_set_addr(uint8_t addr_index, uint32_t base, uint8_t prefix)
{
if (addr_index == 0) {
RADIO_BASE0 = base;
} else {
RADIO_BASE1 = base;
}
uint32_t reg_prefix = RADIO_PREFIX_AP(addr_index);
reg_prefix &= ~RADIO_PREFIX_AP_MASK(addr_index);
RADIO_PREFIX_AP_SET(addr_index, reg_prefix | RADIO_PREFIX_AP_MASKED(addr_index, prefix));
}
/* @brief Set TX address index
*
* @details The address needs to be previously configured with radio_set_addr()
*
* @param[in] address_index uint8_t address index (0-7)
*/
void radio_set_tx_address(uint8_t addr_index)
{
RADIO_TXADDRESS = addr_index;
}
/* @brief Set pointer for RX/TX data
*
* @param[in] packet_ptr uint8_t* packet buffer address.
*/
void radio_set_packet_ptr(uint8_t *packet_ptr)
{
RADIO_PACKETPTR = (uint32_t)packet_ptr;
}
/* @brief Enable radio Transmitter */
void radio_enable_tx(void)
{
PERIPH_TRIGGER_TASK(RADIO_TASK_TXEN);
}
/* @brief Enable radio Receiver */
void radio_enable_rx(void)
{
PERIPH_TRIGGER_TASK(RADIO_TASK_RXEN);
}
/**@}*/