/* ieee802154_cc2520.h - Registers definition for TI CC2520 */ /* * Copyright (c) 2016 Intel Corporation. * * SPDX-License-Identifier: Apache-2.0 */ #ifndef ZEPHYR_DRIVERS_IEEE802154_IEEE802154_CC2520_H_ #define ZEPHYR_DRIVERS_IEEE802154_IEEE802154_CC2520_H_ #include #include #include #include /* Runtime context structure *************************** */ struct cc2520_context { struct net_if *iface; /**************************/ struct cc2520_gpio_configuration *gpios; struct gpio_callback sfd_cb; struct gpio_callback fifop_cb; struct device *spi; struct spi_config spi_cfg; u8_t mac_addr[8]; /************TX************/ struct k_sem tx_sync; atomic_t tx; /************RX************/ K_THREAD_STACK_MEMBER(cc2520_rx_stack, CONFIG_IEEE802154_CC2520_RX_STACK_SIZE); struct k_thread cc2520_rx_thread; struct k_sem rx_lock; #ifdef CONFIG_IEEE802154_CC2520_CRYPTO struct k_sem access_lock; #endif bool overflow; }; #include "ieee802154_cc2520_regs.h" /* Registers useful routines *************************** */ bool _cc2520_access(struct cc2520_context *ctx, bool read, u8_t ins, u16_t addr, void *data, size_t length); #define DEFINE_SREG_READ(__reg_name, __reg_addr) \ static inline u8_t read_reg_##__reg_name(struct cc2520_context *ctx) \ { \ u8_t val; \ \ if (_cc2520_access(ctx, true, CC2520_INS_MEMRD, \ __reg_addr, &val, 1)) { \ return val; \ } \ \ return 0; \ } #define DEFINE_SREG_WRITE(__reg_name, __reg_addr) \ static inline bool write_reg_##__reg_name(struct cc2520_context *ctx, \ u8_t val) \ { \ return _cc2520_access(ctx, false, CC2520_INS_MEMWR, \ __reg_addr, &val, 1); \ } #define DEFINE_FREG_READ(__reg_name, __reg_addr) \ static inline u8_t read_reg_##__reg_name(struct cc2520_context *ctx) \ { \ u8_t val; \ \ if (_cc2520_access(ctx, true, CC2520_INS_REGRD, \ __reg_addr, &val, 1)) { \ return val; \ } \ \ return 0; \ } #define DEFINE_FREG_WRITE(__reg_name, __reg_addr) \ static inline bool write_reg_##__reg_name(struct cc2520_context *ctx, \ u8_t val) \ { \ return _cc2520_access(ctx, false, CC2520_INS_REGWR, \ __reg_addr, &val, 1); \ } DEFINE_FREG_READ(excflag0, CC2520_FREG_EXCFLAG0) DEFINE_FREG_READ(excflag1, CC2520_FREG_EXCFLAG1) DEFINE_FREG_READ(excflag2, CC2520_FREG_EXCFLAG2) DEFINE_FREG_READ(gpioctrl0, CC2520_FREG_GPIOCTRL0) DEFINE_FREG_READ(gpioctrl1, CC2520_FREG_GPIOCTRL1) DEFINE_FREG_READ(gpioctrl2, CC2520_FREG_GPIOCTRL2) DEFINE_FREG_READ(gpioctrl3, CC2520_FREG_GPIOCTRL3) DEFINE_FREG_READ(gpioctrl4, CC2520_FREG_GPIOCTRL4) DEFINE_FREG_READ(gpioctrl5, CC2520_FREG_GPIOCTRL5) DEFINE_FREG_READ(gpiopolarity, CC2520_FREG_GPIOPOLARITY) DEFINE_FREG_READ(gpioctrl, CC2520_FREG_GPIOCTRL) DEFINE_FREG_READ(txfifocnt, CC2520_FREG_TXFIFOCNT) DEFINE_FREG_READ(rxfifocnt, CC2520_FREG_RXFIFOCNT) DEFINE_FREG_READ(dpustat, CC2520_FREG_DPUSTAT) DEFINE_FREG_WRITE(frmctrl0, CC2520_FREG_FRMCTRL0) DEFINE_FREG_WRITE(frmctrl1, CC2520_FREG_FRMCTRL1) DEFINE_FREG_WRITE(excflag0, CC2520_FREG_EXCFLAG0) DEFINE_FREG_WRITE(excflag1, CC2520_FREG_EXCFLAG1) DEFINE_FREG_WRITE(excflag2, CC2520_FREG_EXCFLAG2) DEFINE_FREG_WRITE(frmfilt0, CC2520_FREG_FRMFILT0) DEFINE_FREG_WRITE(frmfilt1, CC2520_FREG_FRMFILT1) DEFINE_FREG_WRITE(srcmatch, CC2520_FREG_SRCMATCH) DEFINE_FREG_WRITE(fifopctrl, CC2520_FREG_FIFOPCTRL) DEFINE_FREG_WRITE(freqctrl, CC2520_FREG_FREQCTRL) DEFINE_FREG_WRITE(txpower, CC2520_FREG_TXPOWER) DEFINE_FREG_WRITE(ccactrl0, CC2520_FREG_CCACTRL0) DEFINE_SREG_WRITE(mdmctrl0, CC2520_SREG_MDMCTRL0) DEFINE_SREG_WRITE(mdmctrl1, CC2520_SREG_MDMCTRL1) DEFINE_SREG_WRITE(rxctrl, CC2520_SREG_RXCTRL) DEFINE_SREG_WRITE(fsctrl, CC2520_SREG_FSCTRL) DEFINE_SREG_WRITE(fscal1, CC2520_SREG_FSCAL1) DEFINE_SREG_WRITE(agcctrl1, CC2520_SREG_AGCCTRL1) DEFINE_SREG_WRITE(adctest0, CC2520_SREG_ADCTEST0) DEFINE_SREG_WRITE(adctest1, CC2520_SREG_ADCTEST1) DEFINE_SREG_WRITE(adctest2, CC2520_SREG_ADCTEST2) DEFINE_SREG_WRITE(extclock, CC2520_SREG_EXTCLOCK) /* Memory useful routines ************************ */ #define DEFINE_MEM_WRITE(__mem_name, __addr, __sz) \ static inline bool write_mem_##__mem_name(struct cc2520_context *ctx, \ u8_t *buf) \ { \ return _cc2520_access(ctx, false, CC2520_INS_MEMWR, \ __addr, buf, __sz); \ } DEFINE_MEM_WRITE(short_addr, CC2520_MEM_SHORT_ADDR, 2) DEFINE_MEM_WRITE(pan_id, CC2520_MEM_PAN_ID, 2) DEFINE_MEM_WRITE(ext_addr, CC2520_MEM_EXT_ADDR, 8) /* Instructions useful routines ****************************** */ static inline bool _cc2520_command_strobe(struct cc2520_context *ctx, u8_t instruction) { return _cc2520_access(ctx, false, instruction, 0, NULL, 0); } static inline bool _cc2520_command_strobe_snop(struct cc2520_context *ctx, u8_t instruction) { u8_t snop[1] = { CC2520_INS_SNOP }; return _cc2520_access(ctx, false, instruction, 0, snop, 1); } #define DEFINE_STROBE_INSTRUCTION(__ins_name, __ins) \ static inline bool instruct_##__ins_name(struct cc2520_context *ctx) \ { \ return _cc2520_command_strobe(ctx, __ins); \ } #define DEFINE_STROBE_SNOP_INSTRUCTION(__ins_name, __ins) \ static inline bool instruct_##__ins_name(struct cc2520_context *ctx) \ { \ return _cc2520_command_strobe_snop(ctx, __ins); \ } DEFINE_STROBE_INSTRUCTION(srxon, CC2520_INS_SRXON) DEFINE_STROBE_INSTRUCTION(srfoff, CC2520_INS_SRFOFF) DEFINE_STROBE_INSTRUCTION(stxon, CC2520_INS_STXON) DEFINE_STROBE_INSTRUCTION(stxoncca, CC2520_INS_STXONCCA) DEFINE_STROBE_INSTRUCTION(sflushrx, CC2520_INS_SFLUSHRX) DEFINE_STROBE_INSTRUCTION(sflushtx, CC2520_INS_SFLUSHTX) DEFINE_STROBE_INSTRUCTION(sxoscoff, CC2520_INS_SXOSCOFF) DEFINE_STROBE_SNOP_INSTRUCTION(sxoscon, CC2520_INS_SXOSCON) #endif /* ZEPHYR_DRIVERS_IEEE802154_IEEE802154_CC2520_H_ */