/* * Copyright (C) 2015 Freie Universität Berlin * 2016 Inria * * This file is subject to the terms and conditions of the GNU Lesser * General Public License v2.1. See the file LICENSE in the top level * directory for more details. */ /** * @ingroup drivers_cc2420 * @{ * * @file * @brief Netdev adaption for the cc2420 driver * * @author Hauke Petersen * @author Francisco Acosta * * @} */ #include #include #include #include "net/eui64.h" #include "net/ieee802154.h" #include "net/netdev.h" #include "net/netdev/ieee802154.h" #include "xtimer.h" #include "cc2420.h" #include "cc2420_netdev.h" #include "cc2420_internal.h" #include "cc2420_registers.h" #define ENABLE_DEBUG (0) #include "debug.h" static int _send(netdev_t *netdev, const struct iovec *vector, unsigned count); static int _recv(netdev_t *netdev, void *buf, size_t len, void *info); static int _init(netdev_t *netdev); static void _isr(netdev_t *netdev); static int _get(netdev_t *netdev, netopt_t opt, void *val, size_t max_len); static int _set(netdev_t *netdev, netopt_t opt, const void *val, size_t len); const netdev_driver_t cc2420_driver = { .send = _send, .recv = _recv, .init = _init, .isr = _isr, .get = _get, .set = _set, }; static void _irq_handler(void *arg) { netdev_t *dev = (netdev_t *)arg; if(dev->event_callback) { dev->event_callback(dev, NETDEV_EVENT_ISR); } } static inline uint16_t to_u16(const void *buf) { return *((const uint16_t *)buf); } static inline int16_t to_i16(const void *buf) { return *((const int16_t *)buf); } static inline bool to_bool(const void *buf) { return *((const bool *)buf); } static inline int w_u16(void *buf, uint16_t val) { memcpy(buf, &val, sizeof(uint16_t)); return sizeof(uint16_t); } static inline int w_i16(void *buf, int16_t val) { memcpy(buf, &val, sizeof(int16_t)); return sizeof(int16_t); } static inline int opt_state(void *buf, bool cond) { *((netopt_enable_t *)buf) = !!(cond); return sizeof(netopt_enable_t); } static int _init(netdev_t *netdev) { cc2420_t *dev = (cc2420_t *)netdev; uint16_t reg; /* initialize power and reset pins -> put the device into reset state */ gpio_init(dev->params.pin_reset, GPIO_OUT); gpio_set(dev->params.pin_reset); gpio_init(dev->params.pin_vrefen, GPIO_OUT); gpio_clear(dev->params.pin_vrefen); /* initialize the input lines */ gpio_init(dev->params.pin_cca, GPIO_IN); gpio_init(dev->params.pin_sfd, GPIO_IN); gpio_init(dev->params.pin_fifo, GPIO_IN); gpio_init_int(dev->params.pin_fifop, GPIO_IN, GPIO_RISING, _irq_handler, dev); /* initialize the chip select line and the SPI bus */ spi_init_cs(dev->params.spi, dev->params.pin_cs); /* power on and toggle reset */ gpio_set(dev->params.pin_vrefen); gpio_clear(dev->params.pin_reset); xtimer_usleep(CC2420_RESET_DELAY); gpio_set(dev->params.pin_reset); /* test the connection to the device by reading MANFIDL register */ reg = cc2420_reg_read(dev, CC2420_REG_MANFIDL); if (reg != CC2420_MANFIDL_VAL) { DEBUG("cc2420: init: unable to communicate with device\n"); return -1; } /* turn on the oscillator and wait for it to be stable */ cc2420_en_xosc(dev); if (!(cc2420_status(dev) & CC2420_STATUS_XOSC_STABLE)) { DEBUG("cc2420: init: oscillator did not stabilize\n"); return -1; } #ifdef MODULE_NETSTATS_L2 memset(&netdev->stats, 0, sizeof(netstats_t)); #endif return cc2420_init((cc2420_t *)dev); } static void _isr(netdev_t *netdev) { netdev->event_callback(netdev, NETDEV_EVENT_RX_COMPLETE); } static int _send(netdev_t *netdev, const struct iovec *vector, unsigned count) { cc2420_t *dev = (cc2420_t *)netdev; return (int)cc2420_send(dev, vector, count); } static int _recv(netdev_t *netdev, void *buf, size_t len, void *info) { cc2420_t *dev = (cc2420_t *)netdev; return (int)cc2420_rx(dev, buf, len, info); } static int _get(netdev_t *netdev, netopt_t opt, void *val, size_t max_len) { if (netdev == NULL) { return -ENODEV; } cc2420_t *dev = (cc2420_t *)netdev; int ext = netdev_ieee802154_get(&dev->netdev, opt, val, max_len); if (ext > 0) { return ext; } switch (opt) { case NETOPT_ADDRESS: assert(max_len >= sizeof(uint16_t)); cc2420_get_addr_short(dev, val); return sizeof(uint16_t); case NETOPT_ADDRESS_LONG: assert(max_len >= 8); cc2420_get_addr_long(dev, val); return 8; case NETOPT_NID: assert(max_len >= sizeof(uint16_t)); return w_u16(val, cc2420_get_pan(dev)); case NETOPT_CHANNEL: assert(max_len >= sizeof(uint16_t)); return w_u16(val, cc2420_get_chan(dev)); case NETOPT_TX_POWER: assert(max_len >= sizeof(int16_t)); return w_i16(val, cc2420_get_txpower(dev)); case NETOPT_STATE: assert(max_len >= sizeof(netopt_state_t)); *((netopt_state_t *)val) = cc2420_get_state(dev); return sizeof(netopt_state_t); case NETOPT_IS_CHANNEL_CLR: return opt_state(val, cc2420_cca(dev)); case NETOPT_AUTOACK: return opt_state(val, (dev->options & CC2420_OPT_AUTOACK)); case NETOPT_CSMA: return opt_state(val, (dev->options & CC2420_OPT_CSMA)); case NETOPT_PRELOADING: return opt_state(val, (dev->options & CC2420_OPT_PRELOADING)); case NETOPT_PROMISCUOUSMODE: return opt_state(val, (dev->options & CC2420_OPT_PROMISCUOUS)); case NETOPT_RX_START_IRQ: return opt_state(val, (dev->options & CC2420_OPT_TELL_RX_START)); case NETOPT_RX_END_IRQ: return opt_state(val, (dev->options & CC2420_OPT_TELL_TX_END)); case NETOPT_TX_START_IRQ: return opt_state(val, (dev->options & CC2420_OPT_TELL_RX_START)); case NETOPT_TX_END_IRQ: return opt_state(val, (dev->options & CC2420_OPT_TELL_RX_END)); default: return -ENOTSUP; } } static int _set(netdev_t *netdev, netopt_t opt, const void *val, size_t val_len) { if (netdev == NULL) { return -ENODEV; } cc2420_t *dev = (cc2420_t *)netdev; int ext = netdev_ieee802154_set(&dev->netdev, opt, val, val_len); switch (opt) { case NETOPT_ADDRESS: assert(val_len == 2); cc2420_set_addr_short(dev, val); return 2; case NETOPT_ADDRESS_LONG: assert(val_len == 8); cc2420_set_addr_long(dev, val); return 8; case NETOPT_NID: assert(val_len == sizeof(uint16_t)); cc2420_set_pan(dev, to_u16(val)); return sizeof(uint16_t); case NETOPT_CHANNEL: assert(val_len == sizeof(uint16_t)); return cc2420_set_chan(dev, to_u16(val)); case NETOPT_TX_POWER: assert(val_len == sizeof(int16_t)); cc2420_set_txpower(dev, to_i16(val)); return sizeof(int16_t); case NETOPT_STATE: assert(val_len == sizeof(netopt_state_t)); return cc2420_set_state(dev, *((netopt_state_t *)val)); case NETOPT_AUTOACK: return cc2420_set_option(dev, CC2420_OPT_AUTOACK, to_bool(val)); case NETOPT_CSMA: return cc2420_set_option(dev, CC2420_OPT_CSMA, to_bool(val)); case NETOPT_PRELOADING: return cc2420_set_option(dev, CC2420_OPT_PRELOADING, to_bool(val)); case NETOPT_PROMISCUOUSMODE: return cc2420_set_option(dev, CC2420_OPT_PROMISCUOUS, to_bool(val)); case NETOPT_RX_START_IRQ: return cc2420_set_option(dev, CC2420_OPT_TELL_RX_START, to_bool(val)); case NETOPT_RX_END_IRQ: return cc2420_set_option(dev, CC2420_OPT_TELL_RX_END, to_bool(val)); case NETOPT_TX_START_IRQ: return cc2420_set_option(dev, CC2420_OPT_TELL_TX_START, to_bool(val)); case NETOPT_TX_END_IRQ: return cc2420_set_option(dev, CC2420_OPT_TELL_TX_END, to_bool(val)); default: return ext; } return 0; }