X-Git-Url: https://git.gag.com/?p=fw%2Faltos;a=blobdiff_plain;f=src%2Fdrivers%2Fao_cc1120.c;h=8068740f91782483e6f83329a4f439d2c778b5a5;hp=9470fa878ea74c01978f6cee1bd7e382546e8ac6;hb=1ed6b13e87c1cc2d6618b6ba3a293ea6e3b5752e;hpb=bbf31b8591f89e2a1fcc7dac5f42d730a81473d2 diff --git a/src/drivers/ao_cc1120.c b/src/drivers/ao_cc1120.c index 9470fa87..8068740f 100644 --- a/src/drivers/ao_cc1120.c +++ b/src/drivers/ao_cc1120.c @@ -16,10 +16,1280 @@ */ #include +#include +#include +#include +#include -uint32_t ao_radio_cal = 1186611; +#define AO_RADIO_MAX_RECV sizeof(struct ao_packet) +#define AO_RADIO_MAX_SEND sizeof(struct ao_packet) + +static uint8_t ao_radio_mutex; + +static uint8_t ao_radio_wake; /* radio ready. Also used as sleep address */ +static uint8_t ao_radio_abort; /* radio operation should abort */ +static uint8_t ao_radio_mcu_wake; /* MARC status change */ +static uint8_t ao_radio_marc_status; /* Last read MARC status value */ + +#define CC1120_DEBUG AO_FEC_DEBUG +#define CC1120_TRACE 0 + +extern const uint32_t ao_radio_cal; + +#define FOSC 32000000 + +#define ao_radio_select() ao_spi_get_mask(AO_CC1120_SPI_CS_PORT,(1 << AO_CC1120_SPI_CS_PIN),AO_CC1120_SPI_BUS,AO_SPI_SPEED_1MHz) +#define ao_radio_deselect() ao_spi_put_mask(AO_CC1120_SPI_CS_PORT,(1 << AO_CC1120_SPI_CS_PIN),AO_CC1120_SPI_BUS) +#define ao_radio_spi_send(d,l) ao_spi_send((d), (l), AO_CC1120_SPI_BUS) +#define ao_radio_spi_send_fixed(d,l) ao_spi_send_fixed((d), (l), AO_CC1120_SPI_BUS) +#define ao_radio_spi_recv(d,l) ao_spi_recv((d), (l), AO_CC1120_SPI_BUS) +#define ao_radio_duplex(o,i,l) ao_spi_duplex((o), (i), (l), AO_CC1120_SPI_BUS) + +static uint8_t +ao_radio_reg_read(uint16_t addr) +{ + uint8_t data[2]; + uint8_t d; + +#if CC1120_TRACE + printf("\t\tao_radio_reg_read (%04x): ", addr); flush(); +#endif + if (CC1120_IS_EXTENDED(addr)) { + data[0] = ((1 << CC1120_READ) | + (0 << CC1120_BURST) | + CC1120_EXTENDED); + data[1] = addr; + d = 2; + } else { + data[0] = ((1 << CC1120_READ) | + (0 << CC1120_BURST) | + addr); + d = 1; + } + ao_radio_select(); + ao_radio_spi_send(data, d); + ao_radio_spi_recv(data, 1); + ao_radio_deselect(); +#if CC1120_TRACE + printf (" %02x\n", data[0]); +#endif + return data[0]; +} + +static void +ao_radio_reg_write(uint16_t addr, uint8_t value) +{ + uint8_t data[3]; + uint8_t d; + +#if CC1120_TRACE + printf("\t\tao_radio_reg_write (%04x): %02x\n", addr, value); +#endif + if (CC1120_IS_EXTENDED(addr)) { + data[0] = ((0 << CC1120_READ) | + (0 << CC1120_BURST) | + CC1120_EXTENDED); + data[1] = addr; + d = 2; + } else { + data[0] = ((0 << CC1120_READ) | + (0 << CC1120_BURST) | + addr); + d = 1; + } + data[d] = value; + ao_radio_select(); + ao_radio_spi_send(data, d+1); + ao_radio_deselect(); +} + +static void +ao_radio_burst_read_start (uint16_t addr) +{ + uint8_t data[2]; + uint8_t d; + + if (CC1120_IS_EXTENDED(addr)) { + data[0] = ((1 << CC1120_READ) | + (1 << CC1120_BURST) | + CC1120_EXTENDED); + data[1] = addr; + d = 2; + } else { + data[0] = ((1 << CC1120_READ) | + (1 << CC1120_BURST) | + addr); + d = 1; + } + ao_radio_select(); + ao_radio_spi_send(data, d); +} + +static void +ao_radio_burst_read_stop (void) +{ + ao_radio_deselect(); +} + + +static uint8_t +ao_radio_strobe(uint8_t addr) +{ + uint8_t in; + +#if CC1120_TRACE + printf("\t\tao_radio_strobe (%02x): ", addr); flush(); +#endif + ao_radio_select(); + ao_radio_duplex(&addr, &in, 1); + ao_radio_deselect(); +#if CC1120_TRACE + printf("%02x\n", in); flush(); +#endif + return in; +} + +static uint8_t +ao_radio_fifo_read(uint8_t *data, uint8_t len) +{ + uint8_t addr = ((1 << CC1120_READ) | + (1 << CC1120_BURST) | + CC1120_FIFO); + uint8_t status; + + ao_radio_select(); + ao_radio_duplex(&addr, &status, 1); + ao_radio_spi_recv(data, len); + ao_radio_deselect(); + return status; +} + +static uint8_t +ao_radio_fifo_write_start(void) +{ + uint8_t addr = ((0 << CC1120_READ) | + (1 << CC1120_BURST) | + CC1120_FIFO); + uint8_t status; + + ao_radio_select(); + ao_radio_duplex(&addr, &status, 1); + return status; +} + +static inline uint8_t ao_radio_fifo_write_stop(uint8_t status) { + ao_radio_deselect(); + return status; +} + +static uint8_t +ao_radio_fifo_write(uint8_t *data, uint8_t len) +{ + uint8_t status = ao_radio_fifo_write_start(); + ao_radio_spi_send(data, len); + return ao_radio_fifo_write_stop(status); +} + +static uint8_t +ao_radio_fifo_write_fixed(uint8_t data, uint8_t len) +{ + uint8_t status = ao_radio_fifo_write_start(); + ao_radio_spi_send_fixed(data, len); + return ao_radio_fifo_write_stop(status); +} + +static uint8_t +ao_radio_tx_fifo_space(void) +{ + return CC1120_FIFO_SIZE - ao_radio_reg_read(CC1120_NUM_TXBYTES); +} + +static uint8_t +ao_radio_status(void) +{ + return ao_radio_strobe (CC1120_SNOP); +} void ao_radio_recv_abort(void) { + ao_radio_abort = 1; + ao_wakeup(&ao_radio_wake); +} + +#define ao_radio_rdf_value 0x55 + +static uint8_t +ao_radio_get_marc_status(void) +{ + return ao_radio_reg_read(CC1120_MARC_STATUS1); +} + +static void +ao_radio_mcu_wakeup_isr(void) +{ + ao_radio_mcu_wake = 1; + ao_wakeup(&ao_radio_wake); +} + + +static void +ao_radio_check_marc_status(void) +{ + ao_radio_mcu_wake = 0; + ao_radio_marc_status = ao_radio_get_marc_status(); + + /* Anyt other than 'tx/rx finished' means an error occurred */ + if (ao_radio_marc_status & ~(CC1120_MARC_STATUS1_TX_FINISHED|CC1120_MARC_STATUS1_RX_FINISHED)) + ao_radio_abort = 1; +} + +static void +ao_radio_isr(void) +{ + ao_exti_disable(AO_CC1120_INT_PORT, AO_CC1120_INT_PIN); + ao_radio_wake = 1; + ao_wakeup(&ao_radio_wake); +} + +static void +ao_radio_start_tx(void) +{ + ao_exti_set_callback(AO_CC1120_INT_PORT, AO_CC1120_INT_PIN, ao_radio_isr); + ao_exti_enable(AO_CC1120_INT_PORT, AO_CC1120_INT_PIN); + ao_exti_enable(AO_CC1120_MCU_WAKEUP_PORT, AO_CC1120_MCU_WAKEUP_PIN); + ao_radio_strobe(CC1120_STX); +} + +static void +ao_radio_idle(void) +{ + for (;;) { + uint8_t state = ao_radio_strobe(CC1120_SIDLE); + if ((state >> CC1120_STATUS_STATE) == CC1120_STATUS_STATE_IDLE) + break; + } + /* Flush any pending TX bytes */ + ao_radio_strobe(CC1120_SFTX); +} + +/* + * Packet deviation is 20.5kHz + * + * fdev = fosc >> 24 * (256 + dev_m) << dev_e + * + * 32e6Hz / (2 ** 24) * (256 + 80) * (2 ** 5) = 20508Hz + */ + +#define PACKET_DEV_E 5 +#define PACKET_DEV_M 80 + +/* + * For our packet data, set the symbol rate to 38400 Baud + * + * (2**20 + DATARATE_M) * 2 ** DATARATE_E + * Rdata = -------------------------------------- * fosc + * 2 ** 39 + * + * + * DATARATE_M = 239914 + * DATARATE_E = 9 + */ +#define PACKET_DRATE_E 9 +#define PACKET_DRATE_M 239914 + +static const uint16_t packet_setup[] = { + CC1120_DEVIATION_M, PACKET_DEV_M, + CC1120_MODCFG_DEV_E, ((CC1120_MODCFG_DEV_E_MODEM_MODE_NORMAL << CC1120_MODCFG_DEV_E_MODEM_MODE) | + (CC1120_MODCFG_DEV_E_MOD_FORMAT_2_GFSK << CC1120_MODCFG_DEV_E_MOD_FORMAT) | + (PACKET_DEV_E << CC1120_MODCFG_DEV_E_DEV_E)), + CC1120_DRATE2, ((PACKET_DRATE_E << CC1120_DRATE2_DATARATE_E) | + (((PACKET_DRATE_M >> 16) & CC1120_DRATE2_DATARATE_M_19_16_MASK) << CC1120_DRATE2_DATARATE_M_19_16)), + CC1120_DRATE1, ((PACKET_DRATE_M >> 8) & 0xff), + CC1120_DRATE0, ((PACKET_DRATE_M >> 0) & 0xff), + CC1120_PKT_CFG2, ((CC1120_PKT_CFG2_CCA_MODE_ALWAYS_CLEAR << CC1120_PKT_CFG2_CCA_MODE) | + (CC1120_PKT_CFG2_PKT_FORMAT_NORMAL << CC1120_PKT_CFG2_PKT_FORMAT)), + CC1120_PKT_CFG1, ((0 << CC1120_PKT_CFG1_WHITE_DATA) | + (CC1120_PKT_CFG1_ADDR_CHECK_CFG_NONE << CC1120_PKT_CFG1_ADDR_CHECK_CFG) | + (CC1120_PKT_CFG1_CRC_CFG_DISABLED << CC1120_PKT_CFG1_CRC_CFG) | + (0 << CC1120_PKT_CFG1_APPEND_STATUS)), + CC1120_PKT_CFG0, ((0 << CC1120_PKT_CFG0_RESERVED7) | + (CC1120_PKT_CFG0_LENGTH_CONFIG_FIXED << CC1120_PKT_CFG0_LENGTH_CONFIG) | + (0 << CC1120_PKT_CFG0_PKG_BIT_LEN) | + (0 << CC1120_PKT_CFG0_UART_MODE_EN) | + (0 << CC1120_PKT_CFG0_UART_SWAP_EN)), + AO_CC1120_MARC_GPIO_IOCFG, CC1120_IOCFG_GPIO_CFG_MARC_MCU_WAKEUP, +}; + +static const uint16_t packet_tx_setup[] = { + CC1120_PKT_CFG2, ((CC1120_PKT_CFG2_CCA_MODE_ALWAYS_CLEAR << CC1120_PKT_CFG2_CCA_MODE) | + (CC1120_PKT_CFG2_PKT_FORMAT_NORMAL << CC1120_PKT_CFG2_PKT_FORMAT)), + AO_CC1120_INT_GPIO_IOCFG, CC1120_IOCFG_GPIO_CFG_RX0TX1_CFG, +}; + +static const uint16_t packet_rx_setup[] = { + CC1120_PKT_CFG2, ((CC1120_PKT_CFG2_CCA_MODE_ALWAYS_CLEAR << CC1120_PKT_CFG2_CCA_MODE) | + (CC1120_PKT_CFG2_PKT_FORMAT_SYNCHRONOUS_SERIAL << CC1120_PKT_CFG2_PKT_FORMAT)), + AO_CC1120_INT_GPIO_IOCFG, CC1120_IOCFG_GPIO_CFG_CLKEN_SOFT, +}; + +/* + * RDF deviation is 5kHz + * + * fdev = fosc >> 24 * (256 + dev_m) << dev_e + * + * 32e6Hz / (2 ** 24) * (256 + 71) * (2 ** 3) = 4989 + */ + +#define RDF_DEV_E 3 +#define RDF_DEV_M 71 +#define RDF_PACKET_LEN 50 + +/* + * For our RDF beacon, set the symbol rate to 2kBaud (for a 1kHz tone) + * + * (2**20 + DATARATE_M) * 2 ** DATARATE_E + * Rdata = -------------------------------------- * fosc + * 2 ** 39 + * + * DATARATE_M = 25166 + * DATARATE_E = 5 + * + * To make the tone last for 200ms, we need 2000 * .2 = 400 bits or 50 bytes + */ +#define RDF_DRATE_E 5 +#define RDF_DRATE_M 25166 +#define RDF_PACKET_LEN 50 + +static const uint16_t rdf_setup[] = { + CC1120_DEVIATION_M, RDF_DEV_M, + CC1120_MODCFG_DEV_E, ((CC1120_MODCFG_DEV_E_MODEM_MODE_NORMAL << CC1120_MODCFG_DEV_E_MODEM_MODE) | + (CC1120_MODCFG_DEV_E_MOD_FORMAT_2_GFSK << CC1120_MODCFG_DEV_E_MOD_FORMAT) | + (RDF_DEV_E << CC1120_MODCFG_DEV_E_DEV_E)), + CC1120_DRATE2, ((RDF_DRATE_E << CC1120_DRATE2_DATARATE_E) | + (((RDF_DRATE_M >> 16) & CC1120_DRATE2_DATARATE_M_19_16_MASK) << CC1120_DRATE2_DATARATE_M_19_16)), + CC1120_DRATE1, ((RDF_DRATE_M >> 8) & 0xff), + CC1120_DRATE0, ((RDF_DRATE_M >> 0) & 0xff), + CC1120_PKT_CFG2, ((CC1120_PKT_CFG2_CCA_MODE_ALWAYS_CLEAR << CC1120_PKT_CFG2_CCA_MODE) | + (CC1120_PKT_CFG2_PKT_FORMAT_NORMAL << CC1120_PKT_CFG2_PKT_FORMAT)), + CC1120_PKT_CFG1, ((0 << CC1120_PKT_CFG1_WHITE_DATA) | + (CC1120_PKT_CFG1_ADDR_CHECK_CFG_NONE << CC1120_PKT_CFG1_ADDR_CHECK_CFG) | + (CC1120_PKT_CFG1_CRC_CFG_DISABLED << CC1120_PKT_CFG1_CRC_CFG) | + (0 << CC1120_PKT_CFG1_APPEND_STATUS)), + CC1120_PKT_CFG0, ((0 << CC1120_PKT_CFG0_RESERVED7) | + (CC1120_PKT_CFG0_LENGTH_CONFIG_FIXED << CC1120_PKT_CFG0_LENGTH_CONFIG) | + (0 << CC1120_PKT_CFG0_PKG_BIT_LEN) | + (0 << CC1120_PKT_CFG0_UART_MODE_EN) | + (0 << CC1120_PKT_CFG0_UART_SWAP_EN)), +}; + +/* + * APRS deviation is 5kHz + * + * fdev = fosc >> 24 * (256 + dev_m) << dev_e + * + * 32e6Hz / (2 ** 24) * (256 + 71) * (2 ** 3) = 4989 + */ + +#define APRS_DEV_E 3 +#define APRS_DEV_M 71 +#define APRS_PACKET_LEN 50 + +/* + * For our APRS beacon, set the symbol rate to 9.6kBaud (8x oversampling for 1200 baud data rate) + * + * (2**20 + DATARATE_M) * 2 ** DATARATE_E + * Rdata = -------------------------------------- * fosc + * 2 ** 39 + * + * DATARATE_M = 239914 + * DATARATE_E = 7 + * + * Rdata = 9599.998593330383301 + * + */ +#define APRS_DRATE_E 7 +#define APRS_DRATE_M 239914 + +static const uint16_t aprs_setup[] = { + CC1120_DEVIATION_M, APRS_DEV_M, + CC1120_MODCFG_DEV_E, ((CC1120_MODCFG_DEV_E_MODEM_MODE_NORMAL << CC1120_MODCFG_DEV_E_MODEM_MODE) | + (CC1120_MODCFG_DEV_E_MOD_FORMAT_2_GFSK << CC1120_MODCFG_DEV_E_MOD_FORMAT) | + (APRS_DEV_E << CC1120_MODCFG_DEV_E_DEV_E)), + CC1120_DRATE2, ((APRS_DRATE_E << CC1120_DRATE2_DATARATE_E) | + (((APRS_DRATE_M >> 16) & CC1120_DRATE2_DATARATE_M_19_16_MASK) << CC1120_DRATE2_DATARATE_M_19_16)), + CC1120_DRATE1, ((APRS_DRATE_M >> 8) & 0xff), + CC1120_DRATE0, ((APRS_DRATE_M >> 0) & 0xff), + CC1120_PKT_CFG2, ((CC1120_PKT_CFG2_CCA_MODE_ALWAYS_CLEAR << CC1120_PKT_CFG2_CCA_MODE) | + (CC1120_PKT_CFG2_PKT_FORMAT_NORMAL << CC1120_PKT_CFG2_PKT_FORMAT)), + CC1120_PKT_CFG1, ((0 << CC1120_PKT_CFG1_WHITE_DATA) | + (CC1120_PKT_CFG1_ADDR_CHECK_CFG_NONE << CC1120_PKT_CFG1_ADDR_CHECK_CFG) | + (CC1120_PKT_CFG1_CRC_CFG_DISABLED << CC1120_PKT_CFG1_CRC_CFG) | + (0 << CC1120_PKT_CFG1_APPEND_STATUS)), +}; + +#define AO_PKT_CFG0_INFINITE ((0 << CC1120_PKT_CFG0_RESERVED7) | \ + (CC1120_PKT_CFG0_LENGTH_CONFIG_INFINITE << CC1120_PKT_CFG0_LENGTH_CONFIG) | \ + (0 << CC1120_PKT_CFG0_PKG_BIT_LEN) | \ + (0 << CC1120_PKT_CFG0_UART_MODE_EN) | \ + (0 << CC1120_PKT_CFG0_UART_SWAP_EN)) + +#define AO_PKT_CFG0_FIXED ((0 << CC1120_PKT_CFG0_RESERVED7) | \ + (CC1120_PKT_CFG0_LENGTH_CONFIG_FIXED << CC1120_PKT_CFG0_LENGTH_CONFIG) | \ + (0 << CC1120_PKT_CFG0_PKG_BIT_LEN) | \ + (0 << CC1120_PKT_CFG0_UART_MODE_EN) | \ + (0 << CC1120_PKT_CFG0_UART_SWAP_EN)) + +static uint16_t ao_radio_mode; + +#define AO_RADIO_MODE_BITS_PACKET 1 +#define AO_RADIO_MODE_BITS_PACKET_TX 2 +#define AO_RADIO_MODE_BITS_TX_BUF 4 +#define AO_RADIO_MODE_BITS_TX_FINISH 8 +#define AO_RADIO_MODE_BITS_PACKET_RX 16 +#define AO_RADIO_MODE_BITS_RDF 32 +#define AO_RADIO_MODE_BITS_APRS 64 +#define AO_RADIO_MODE_BITS_INFINITE 128 +#define AO_RADIO_MODE_BITS_FIXED 256 + +#define AO_RADIO_MODE_NONE 0 +#define AO_RADIO_MODE_PACKET_TX_BUF (AO_RADIO_MODE_BITS_PACKET | AO_RADIO_MODE_BITS_PACKET_TX | AO_RADIO_MODE_BITS_TX_BUF) +#define AO_RADIO_MODE_PACKET_TX_FINISH (AO_RADIO_MODE_BITS_PACKET | AO_RADIO_MODE_BITS_PACKET_TX | AO_RADIO_MODE_BITS_TX_FINISH) +#define AO_RADIO_MODE_PACKET_RX (AO_RADIO_MODE_BITS_PACKET | AO_RADIO_MODE_BITS_PACKET_RX) +#define AO_RADIO_MODE_RDF (AO_RADIO_MODE_BITS_RDF | AO_RADIO_MODE_BITS_TX_FINISH) +#define AO_RADIO_MODE_APRS_BUF (AO_RADIO_MODE_BITS_APRS | AO_RADIO_MODE_BITS_INFINITE | AO_RADIO_MODE_BITS_TX_BUF) +#define AO_RADIO_MODE_APRS_LAST_BUF (AO_RADIO_MODE_BITS_APRS | AO_RADIO_MODE_BITS_FIXED | AO_RADIO_MODE_BITS_TX_BUF) +#define AO_RADIO_MODE_APRS_FINISH (AO_RADIO_MODE_BITS_APRS | AO_RADIO_MODE_BITS_FIXED | AO_RADIO_MODE_BITS_TX_FINISH) + +static void +ao_radio_set_mode(uint16_t new_mode) +{ + uint16_t changes; + int i; + + if (new_mode == ao_radio_mode) + return; + + changes = new_mode & (~ao_radio_mode); + if (changes & AO_RADIO_MODE_BITS_PACKET) + for (i = 0; i < sizeof (packet_setup) / sizeof (packet_setup[0]); i += 2) + ao_radio_reg_write(packet_setup[i], packet_setup[i+1]); + + if (changes & AO_RADIO_MODE_BITS_PACKET_TX) + for (i = 0; i < sizeof (packet_tx_setup) / sizeof (packet_tx_setup[0]); i += 2) + ao_radio_reg_write(packet_tx_setup[i], packet_tx_setup[i+1]); + + if (changes & AO_RADIO_MODE_BITS_TX_BUF) + ao_radio_reg_write(AO_CC1120_INT_GPIO_IOCFG, CC1120_IOCFG_GPIO_CFG_TXFIFO_THR); + + if (changes & AO_RADIO_MODE_BITS_TX_FINISH) + ao_radio_reg_write(AO_CC1120_INT_GPIO_IOCFG, CC1120_IOCFG_GPIO_CFG_RX0TX1_CFG); + + if (changes & AO_RADIO_MODE_BITS_PACKET_RX) + for (i = 0; i < sizeof (packet_rx_setup) / sizeof (packet_rx_setup[0]); i += 2) + ao_radio_reg_write(packet_rx_setup[i], packet_rx_setup[i+1]); + + if (changes & AO_RADIO_MODE_BITS_RDF) + for (i = 0; i < sizeof (rdf_setup) / sizeof (rdf_setup[0]); i += 2) + ao_radio_reg_write(rdf_setup[i], rdf_setup[i+1]); + + if (changes & AO_RADIO_MODE_BITS_APRS) + for (i = 0; i < sizeof (aprs_setup) / sizeof (aprs_setup[0]); i += 2) + ao_radio_reg_write(aprs_setup[i], aprs_setup[i+1]); + + if (changes & AO_RADIO_MODE_BITS_INFINITE) + ao_radio_reg_write(CC1120_PKT_CFG0, AO_PKT_CFG0_INFINITE); + + if (changes & AO_RADIO_MODE_BITS_FIXED) + ao_radio_reg_write(CC1120_PKT_CFG0, AO_PKT_CFG0_FIXED); + + ao_radio_mode = new_mode; +} + +static const uint16_t radio_setup[] = { +#include "ao_cc1120_CC1120.h" +}; + +static uint8_t ao_radio_configured = 0; + +static void +ao_radio_setup(void) +{ + int i; + + ao_radio_strobe(CC1120_SRES); + + for (i = 0; i < sizeof (radio_setup) / sizeof (radio_setup[0]); i += 2) + ao_radio_reg_write(radio_setup[i], radio_setup[i+1]); + + ao_radio_mode = 0; + + ao_config_get(); + + ao_radio_configured = 1; +} + +static void +ao_radio_set_len(uint8_t len) +{ + static uint8_t last_len; + + if (len != last_len) { + ao_radio_reg_write(CC1120_PKT_LEN, len); + last_len = len; + } +} + +static void +ao_radio_get(uint8_t len) +{ + static uint32_t last_radio_setting; + + ao_mutex_get(&ao_radio_mutex); + if (!ao_radio_configured) + ao_radio_setup(); + if (ao_config.radio_setting != last_radio_setting) { + ao_radio_reg_write(CC1120_FREQ2, ao_config.radio_setting >> 16); + ao_radio_reg_write(CC1120_FREQ1, ao_config.radio_setting >> 8); + ao_radio_reg_write(CC1120_FREQ0, ao_config.radio_setting); + last_radio_setting = ao_config.radio_setting; + } + ao_radio_set_len(len); +} + +#define ao_radio_put() ao_mutex_put(&ao_radio_mutex) + +static void +ao_rdf_start(uint8_t len) +{ + ao_radio_abort = 0; + ao_radio_get(len); + + ao_radio_set_mode(AO_RADIO_MODE_RDF); + ao_radio_wake = 0; + +} + +static void +ao_rdf_run(void) +{ + ao_radio_start_tx(); + + ao_arch_block_interrupts(); + while (!ao_radio_wake && !ao_radio_abort && !ao_radio_mcu_wake) + ao_sleep(&ao_radio_wake); + ao_arch_release_interrupts(); + if (ao_radio_mcu_wake) + ao_radio_check_marc_status(); + if (!ao_radio_wake) + ao_radio_idle(); + ao_radio_put(); +} + +void +ao_radio_rdf(void) +{ + ao_rdf_start(AO_RADIO_RDF_LEN); + + ao_radio_fifo_write_fixed(ao_radio_rdf_value, AO_RADIO_RDF_LEN); + + ao_rdf_run(); +} + +void +ao_radio_continuity(uint8_t c) +{ + uint8_t i; + uint8_t status; + + ao_rdf_start(AO_RADIO_CONT_TOTAL_LEN); + + status = ao_radio_fifo_write_start(); + for (i = 0; i < 3; i++) { + ao_radio_spi_send_fixed(0x00, AO_RADIO_CONT_PAUSE_LEN); + if (i < c) + ao_radio_spi_send_fixed(ao_radio_rdf_value, AO_RADIO_CONT_TONE_LEN); + else + ao_radio_spi_send_fixed(0x00, AO_RADIO_CONT_TONE_LEN); + } + ao_radio_spi_send_fixed(0x00, AO_RADIO_CONT_PAUSE_LEN); + status = ao_radio_fifo_write_stop(status); + (void) status; + ao_rdf_run(); +} + +void +ao_radio_rdf_abort(void) +{ + ao_radio_abort = 1; + ao_wakeup(&ao_radio_wake); +} + +static void +ao_radio_test_cmd(void) +{ + uint8_t mode = 2; + static uint8_t radio_on; + ao_cmd_white(); + if (ao_cmd_lex_c != '\n') { + ao_cmd_decimal(); + mode = (uint8_t) ao_cmd_lex_u32; + } + mode++; + if ((mode & 2) && !radio_on) { +#if HAS_MONITOR + ao_monitor_disable(); +#endif +#if PACKET_HAS_SLAVE + ao_packet_slave_stop(); +#endif + ao_radio_get(0xff); + ao_radio_strobe(CC1120_STX); +#if CC1120_TRACE + { int t; + for (t = 0; t < 10; t++) { + printf ("status: %02x\n", ao_radio_status()); + ao_delay(AO_MS_TO_TICKS(100)); + } + } +#endif + radio_on = 1; + } + if (mode == 3) { + printf ("Hit a character to stop..."); flush(); + getchar(); + putchar('\n'); + } + if ((mode & 1) && radio_on) { + ao_radio_idle(); + ao_radio_put(); + radio_on = 0; +#if HAS_MONITOR + ao_monitor_enable(); +#endif + } +} + +static void +ao_radio_wait_isr(void) +{ + ao_arch_block_interrupts(); + while (!ao_radio_wake && !ao_radio_mcu_wake && !ao_radio_abort) + ao_sleep(&ao_radio_wake); + ao_arch_release_interrupts(); + if (ao_radio_mcu_wake) + ao_radio_check_marc_status(); +} + +static uint8_t +ao_radio_wait_tx(uint8_t wait_fifo) +{ + uint8_t fifo_space = 0; + + do { + ao_radio_wait_isr(); + if (!wait_fifo) + return 0; + fifo_space = ao_radio_tx_fifo_space(); + } while (!fifo_space && !ao_radio_abort); + return fifo_space; +} + +static uint8_t tx_data[(AO_RADIO_MAX_SEND + 4) * 2]; + +void +ao_radio_send(const void *d, uint8_t size) +{ + uint8_t marc_status; + uint8_t *e = tx_data; + uint8_t encode_len; + uint8_t this_len; + uint8_t started = 0; + uint8_t fifo_space; + + encode_len = ao_fec_encode(d, size, tx_data); + + ao_radio_get(encode_len); + + started = 0; + fifo_space = CC1120_FIFO_SIZE; + while (encode_len) { + this_len = encode_len; + + ao_radio_wake = 0; + if (this_len > fifo_space) { + this_len = fifo_space; + ao_radio_set_mode(AO_RADIO_MODE_PACKET_TX_BUF); + } else { + ao_radio_set_mode(AO_RADIO_MODE_PACKET_TX_FINISH); + } + + ao_radio_fifo_write(e, this_len); + e += this_len; + encode_len -= this_len; + + if (!started) { + ao_radio_start_tx(); + started = 1; + } else { + ao_exti_enable(AO_CC1120_INT_PORT, AO_CC1120_INT_PIN); + } + + fifo_space = ao_radio_wait_tx(encode_len != 0); + if (ao_radio_abort) { + ao_radio_idle(); + break; + } + } + ao_radio_put(); +} + +#define AO_RADIO_LOTS 64 + +void +ao_radio_send_lots(ao_radio_fill_func fill) +{ + uint8_t buf[AO_RADIO_LOTS], *b; + int cnt; + int total = 0; + uint8_t done = 0; + uint8_t started = 0; + uint8_t fifo_space; + + ao_radio_get(0xff); + fifo_space = CC1120_FIFO_SIZE; + while (!done) { + cnt = (*fill)(buf, sizeof(buf)); + if (cnt < 0) { + done = 1; + cnt = -cnt; + } + total += cnt; + + /* At the last buffer, set the total length */ + if (done) + ao_radio_set_len(total & 0xff); + + b = buf; + while (cnt) { + uint8_t this_len = cnt; + + /* Wait for some space in the fifo */ + while (!ao_radio_abort && (fifo_space = ao_radio_tx_fifo_space()) == 0) { + ao_radio_wake = 0; + ao_radio_wait_isr(); + } + if (ao_radio_abort) + break; + if (this_len > fifo_space) + this_len = fifo_space; + + cnt -= this_len; + + if (done) { + if (cnt) + ao_radio_set_mode(AO_RADIO_MODE_APRS_LAST_BUF); + else + ao_radio_set_mode(AO_RADIO_MODE_APRS_FINISH); + } else + ao_radio_set_mode(AO_RADIO_MODE_APRS_BUF); + + ao_radio_fifo_write(b, this_len); + b += this_len; + + if (!started) { + ao_radio_start_tx(); + started = 1; + } else + ao_exti_enable(AO_CC1120_INT_PORT, AO_CC1120_INT_PIN); + } + if (ao_radio_abort) { + ao_radio_idle(); + break; + } + /* Wait for the transmitter to go idle */ + ao_radio_wake = 0; + ao_radio_wait_isr(); + } + ao_radio_put(); +} + +static uint8_t rx_data[(AO_RADIO_MAX_RECV + 4) * 2 * 8]; +static uint16_t rx_data_count; +static uint16_t rx_data_consumed; +static uint16_t rx_data_cur; +static uint8_t rx_ignore; +static uint8_t rx_waiting; + +#if AO_PROFILE +static uint32_t rx_start_tick, rx_packet_tick, rx_done_tick, rx_last_done_tick; + +uint32_t ao_rx_start_tick, ao_rx_packet_tick, ao_rx_done_tick, ao_rx_last_done_tick; + +#include +#endif + +static void +ao_radio_rx_isr(void) +{ + uint8_t d; + + d = AO_CC1120_SPI.dr; + AO_CC1120_SPI.dr = 0; + if (rx_ignore == 0) { + if (rx_data_cur >= rx_data_count) + ao_exti_disable(AO_CC1120_INT_PORT, AO_CC1120_INT_PIN); + else + rx_data[rx_data_cur++] = d; + if (rx_waiting && rx_data_cur - rx_data_consumed >= AO_FEC_DECODE_BLOCK) { +#if AO_PROFILE + if (!rx_packet_tick) + rx_packet_tick = ao_profile_tick(); + if (rx_data_cur < rx_data_count) + return; +#endif + rx_waiting = 0; + ao_wakeup(&ao_radio_wake); + } + } else { + --rx_ignore; + } +} + +static uint16_t +ao_radio_rx_wait(void) +{ + do { + if (ao_radio_mcu_wake) + ao_radio_check_marc_status(); + ao_alarm(AO_MS_TO_TICKS(100)); + ao_arch_block_interrupts(); + rx_waiting = 1; + while (rx_data_cur - rx_data_consumed < AO_FEC_DECODE_BLOCK && + !ao_radio_abort && + !ao_radio_mcu_wake) + { + if (ao_sleep(&ao_radio_wake)) + ao_radio_abort = 1; + } + rx_waiting = 0; + ao_arch_release_interrupts(); + ao_clear_alarm(); + } while (ao_radio_mcu_wake); + if (ao_radio_abort) + return 0; + rx_data_consumed += AO_FEC_DECODE_BLOCK; +#if AO_PROFILE + return rx_data_cur - rx_data_consumed; +#endif + return AO_FEC_DECODE_BLOCK; +} + +uint8_t +ao_radio_recv(__xdata void *d, uint8_t size) +{ + uint8_t len; + uint16_t i; + uint8_t rssi; + uint8_t ret; + static int been_here = 0; + + size -= 2; /* status bytes */ + if (size > AO_RADIO_MAX_RECV) { + ao_delay(AO_SEC_TO_TICKS(1)); + return 0; + } +#if AO_PROFILE + rx_start_tick = ao_profile_tick(); + rx_packet_tick = 0; +#endif + len = size + 2; /* CRC bytes */ + len += 1 + ~(len & 1); /* 1 or two pad bytes */ + len *= 2; /* 1/2 rate convolution */ + rx_data_count = len * 8; /* bytes to bits */ + rx_data_cur = 0; + rx_data_consumed = 0; + rx_ignore = 2; + + /* Must be set before changing the frequency; any abort + * after the frequency is set needs to terminate the read + * so that the registers can be reprogrammed + */ + ao_radio_abort = 0; + + /* configure interrupt pin */ + ao_radio_get(len); + ao_radio_set_mode(AO_RADIO_MODE_PACKET_RX); + + ao_radio_wake = 0; + ao_radio_mcu_wake = 0; + + AO_CC1120_SPI.cr2 = 0; + + /* clear any RXNE */ + (void) AO_CC1120_SPI.dr; + + /* Have the radio signal when the preamble quality goes high */ + ao_radio_reg_write(AO_CC1120_INT_GPIO_IOCFG, CC1120_IOCFG_GPIO_CFG_PQT_REACHED); + ao_exti_set_mode(AO_CC1120_INT_PORT, AO_CC1120_INT_PIN, + AO_EXTI_MODE_RISING|AO_EXTI_PRIORITY_HIGH); + ao_exti_set_callback(AO_CC1120_INT_PORT, AO_CC1120_INT_PIN, ao_radio_isr); + ao_exti_enable(AO_CC1120_INT_PORT, AO_CC1120_INT_PIN); + ao_exti_enable(AO_CC1120_MCU_WAKEUP_PORT, AO_CC1120_MCU_WAKEUP_PIN); + + ao_radio_strobe(CC1120_SRX); + + /* Wait for the preamble to appear */ + ao_radio_wait_isr(); + if (ao_radio_abort) + goto abort; + + ao_radio_reg_write(AO_CC1120_INT_GPIO_IOCFG, CC1120_IOCFG_GPIO_CFG_CLKEN_SOFT); + ao_exti_set_mode(AO_CC1120_INT_PORT, AO_CC1120_INT_PIN, + AO_EXTI_MODE_FALLING|AO_EXTI_PRIORITY_HIGH); + + ao_exti_set_callback(AO_CC1120_INT_PORT, AO_CC1120_INT_PIN, ao_radio_rx_isr); + ao_exti_enable(AO_CC1120_INT_PORT, AO_CC1120_INT_PIN); + + ao_radio_burst_read_start(CC1120_SOFT_RX_DATA_OUT); + + ret = ao_fec_decode(rx_data, rx_data_count, d, size + 2, ao_radio_rx_wait); + + ao_radio_burst_read_stop(); + +abort: + ao_radio_strobe(CC1120_SIDLE); + + /* Convert from 'real' rssi to cc1111-style values */ + + rssi = AO_RADIO_FROM_RSSI(ao_radio_reg_read(CC1120_RSSI1)); + + ao_radio_put(); + + /* Store the received RSSI value; the crc-OK byte is already done */ + + ((uint8_t *) d)[size] = (uint8_t) rssi; + +#if AO_PROFILE + rx_last_done_tick = rx_done_tick; + rx_done_tick = ao_profile_tick(); + + ao_rx_start_tick = rx_start_tick; + ao_rx_packet_tick = rx_packet_tick; + ao_rx_done_tick = rx_done_tick; + ao_rx_last_done_tick = rx_last_done_tick; +#endif + + return ret; +} + + +#if CC1120_DEBUG +static char *cc1120_state_name[] = { + [CC1120_STATUS_STATE_IDLE] = "IDLE", + [CC1120_STATUS_STATE_RX] = "RX", + [CC1120_STATUS_STATE_TX] = "TX", + [CC1120_STATUS_STATE_FSTXON] = "FSTXON", + [CC1120_STATUS_STATE_CALIBRATE] = "CALIBRATE", + [CC1120_STATUS_STATE_SETTLING] = "SETTLING", + [CC1120_STATUS_STATE_RX_FIFO_ERROR] = "RX_FIFO_ERROR", + [CC1120_STATUS_STATE_TX_FIFO_ERROR] = "TX_FIFO_ERROR", +}; + +struct ao_cc1120_reg { + uint16_t addr; + char *name; +}; + +const static struct ao_cc1120_reg ao_cc1120_reg[] = { + { .addr = CC1120_IOCFG3, .name = "IOCFG3" }, + { .addr = CC1120_IOCFG2, .name = "IOCFG2" }, + { .addr = CC1120_IOCFG1, .name = "IOCFG1" }, + { .addr = CC1120_IOCFG0, .name = "IOCFG0" }, + { .addr = CC1120_SYNC3, .name = "SYNC3" }, + { .addr = CC1120_SYNC2, .name = "SYNC2" }, + { .addr = CC1120_SYNC1, .name = "SYNC1" }, + { .addr = CC1120_SYNC0, .name = "SYNC0" }, + { .addr = CC1120_SYNC_CFG1, .name = "SYNC_CFG1" }, + { .addr = CC1120_SYNC_CFG0, .name = "SYNC_CFG0" }, + { .addr = CC1120_DEVIATION_M, .name = "DEVIATION_M" }, + { .addr = CC1120_MODCFG_DEV_E, .name = "MODCFG_DEV_E" }, + { .addr = CC1120_DCFILT_CFG, .name = "DCFILT_CFG" }, + { .addr = CC1120_PREAMBLE_CFG1, .name = "PREAMBLE_CFG1" }, + { .addr = CC1120_PREAMBLE_CFG0, .name = "PREAMBLE_CFG0" }, + { .addr = CC1120_FREQ_IF_CFG, .name = "FREQ_IF_CFG" }, + { .addr = CC1120_IQIC, .name = "IQIC" }, + { .addr = CC1120_CHAN_BW, .name = "CHAN_BW" }, + { .addr = CC1120_MDMCFG1, .name = "MDMCFG1" }, + { .addr = CC1120_MDMCFG0, .name = "MDMCFG0" }, + { .addr = CC1120_DRATE2, .name = "DRATE2" }, + { .addr = CC1120_DRATE1, .name = "DRATE1" }, + { .addr = CC1120_DRATE0, .name = "DRATE0" }, + { .addr = CC1120_AGC_REF, .name = "AGC_REF" }, + { .addr = CC1120_AGC_CS_THR, .name = "AGC_CS_THR" }, + { .addr = CC1120_AGC_GAIN_ADJUST, .name = "AGC_GAIN_ADJUST" }, + { .addr = CC1120_AGC_CFG3, .name = "AGC_CFG3" }, + { .addr = CC1120_AGC_CFG2, .name = "AGC_CFG2" }, + { .addr = CC1120_AGC_CFG1, .name = "AGC_CFG1" }, + { .addr = CC1120_AGC_CFG0, .name = "AGC_CFG0" }, + { .addr = CC1120_FIFO_CFG, .name = "FIFO_CFG" }, + { .addr = CC1120_DEV_ADDR, .name = "DEV_ADDR" }, + { .addr = CC1120_SETTLING_CFG, .name = "SETTLING_CFG" }, + { .addr = CC1120_FS_CFG, .name = "FS_CFG" }, + { .addr = CC1120_WOR_CFG1, .name = "WOR_CFG1" }, + { .addr = CC1120_WOR_CFG0, .name = "WOR_CFG0" }, + { .addr = CC1120_WOR_EVENT0_MSB, .name = "WOR_EVENT0_MSB" }, + { .addr = CC1120_WOR_EVENT0_LSB, .name = "WOR_EVENT0_LSB" }, + { .addr = CC1120_PKT_CFG2, .name = "PKT_CFG2" }, + { .addr = CC1120_PKT_CFG1, .name = "PKT_CFG1" }, + { .addr = CC1120_PKT_CFG0, .name = "PKT_CFG0" }, + { .addr = CC1120_RFEND_CFG1, .name = "RFEND_CFG1" }, + { .addr = CC1120_RFEND_CFG0, .name = "RFEND_CFG0" }, + { .addr = CC1120_PA_CFG2, .name = "PA_CFG2" }, + { .addr = CC1120_PA_CFG1, .name = "PA_CFG1" }, + { .addr = CC1120_PA_CFG0, .name = "PA_CFG0" }, + { .addr = CC1120_PKT_LEN, .name = "PKT_LEN" }, + { .addr = CC1120_IF_MIX_CFG, .name = "IF_MIX_CFG" }, + { .addr = CC1120_FREQOFF_CFG, .name = "FREQOFF_CFG" }, + { .addr = CC1120_TOC_CFG, .name = "TOC_CFG" }, + { .addr = CC1120_MARC_SPARE, .name = "MARC_SPARE" }, + { .addr = CC1120_ECG_CFG, .name = "ECG_CFG" }, + { .addr = CC1120_SOFT_TX_DATA_CFG, .name = "SOFT_TX_DATA_CFG" }, + { .addr = CC1120_EXT_CTRL, .name = "EXT_CTRL" }, + { .addr = CC1120_RCCAL_FINE, .name = "RCCAL_FINE" }, + { .addr = CC1120_RCCAL_COARSE, .name = "RCCAL_COARSE" }, + { .addr = CC1120_RCCAL_OFFSET, .name = "RCCAL_OFFSET" }, + { .addr = CC1120_FREQOFF1, .name = "FREQOFF1" }, + { .addr = CC1120_FREQOFF0, .name = "FREQOFF0" }, + { .addr = CC1120_FREQ2, .name = "FREQ2" }, + { .addr = CC1120_FREQ1, .name = "FREQ1" }, + { .addr = CC1120_FREQ0, .name = "FREQ0" }, + { .addr = CC1120_IF_ADC2, .name = "IF_ADC2" }, + { .addr = CC1120_IF_ADC1, .name = "IF_ADC1" }, + { .addr = CC1120_IF_ADC0, .name = "IF_ADC0" }, + { .addr = CC1120_FS_DIG1, .name = "FS_DIG1" }, + { .addr = CC1120_FS_DIG0, .name = "FS_DIG0" }, + { .addr = CC1120_FS_CAL3, .name = "FS_CAL3" }, + { .addr = CC1120_FS_CAL2, .name = "FS_CAL2" }, + { .addr = CC1120_FS_CAL1, .name = "FS_CAL1" }, + { .addr = CC1120_FS_CAL0, .name = "FS_CAL0" }, + { .addr = CC1120_FS_CHP, .name = "FS_CHP" }, + { .addr = CC1120_FS_DIVTWO, .name = "FS_DIVTWO" }, + { .addr = CC1120_FS_DSM1, .name = "FS_DSM1" }, + { .addr = CC1120_FS_DSM0, .name = "FS_DSM0" }, + { .addr = CC1120_FS_DVC1, .name = "FS_DVC1" }, + { .addr = CC1120_FS_DVC0, .name = "FS_DVC0" }, + { .addr = CC1120_FS_LBI, .name = "FS_LBI" }, + { .addr = CC1120_FS_PFD, .name = "FS_PFD" }, + { .addr = CC1120_FS_PRE, .name = "FS_PRE" }, + { .addr = CC1120_FS_REG_DIV_CML, .name = "FS_REG_DIV_CML" }, + { .addr = CC1120_FS_SPARE, .name = "FS_SPARE" }, + { .addr = CC1120_FS_VCO4, .name = "FS_VCO4" }, + { .addr = CC1120_FS_VCO3, .name = "FS_VCO3" }, + { .addr = CC1120_FS_VCO2, .name = "FS_VCO2" }, + { .addr = CC1120_FS_VCO1, .name = "FS_VCO1" }, + { .addr = CC1120_FS_VCO0, .name = "FS_VCO0" }, + { .addr = CC1120_GBIAS6, .name = "GBIAS6" }, + { .addr = CC1120_GBIAS5, .name = "GBIAS5" }, + { .addr = CC1120_GBIAS4, .name = "GBIAS4" }, + { .addr = CC1120_GBIAS3, .name = "GBIAS3" }, + { .addr = CC1120_GBIAS2, .name = "GBIAS2" }, + { .addr = CC1120_GBIAS1, .name = "GBIAS1" }, + { .addr = CC1120_GBIAS0, .name = "GBIAS0" }, + { .addr = CC1120_IFAMP, .name = "IFAMP" }, + { .addr = CC1120_LNA, .name = "LNA" }, + { .addr = CC1120_RXMIX, .name = "RXMIX" }, + { .addr = CC1120_XOSC5, .name = "XOSC5" }, + { .addr = CC1120_XOSC4, .name = "XOSC4" }, + { .addr = CC1120_XOSC3, .name = "XOSC3" }, + { .addr = CC1120_XOSC2, .name = "XOSC2" }, + { .addr = CC1120_XOSC1, .name = "XOSC1" }, + { .addr = CC1120_XOSC0, .name = "XOSC0" }, + { .addr = CC1120_ANALOG_SPARE, .name = "ANALOG_SPARE" }, + { .addr = CC1120_PA_CFG3, .name = "PA_CFG3" }, + { .addr = CC1120_WOR_TIME1, .name = "WOR_TIME1" }, + { .addr = CC1120_WOR_TIME0, .name = "WOR_TIME0" }, + { .addr = CC1120_WOR_CAPTURE1, .name = "WOR_CAPTURE1" }, + { .addr = CC1120_WOR_CAPTURE0, .name = "WOR_CAPTURE0" }, + { .addr = CC1120_BIST, .name = "BIST" }, + { .addr = CC1120_DCFILTOFFSET_I1, .name = "DCFILTOFFSET_I1" }, + { .addr = CC1120_DCFILTOFFSET_I0, .name = "DCFILTOFFSET_I0" }, + { .addr = CC1120_DCFILTOFFSET_Q1, .name = "DCFILTOFFSET_Q1" }, + { .addr = CC1120_DCFILTOFFSET_Q0, .name = "DCFILTOFFSET_Q0" }, + { .addr = CC1120_IQIE_I1, .name = "IQIE_I1" }, + { .addr = CC1120_IQIE_I0, .name = "IQIE_I0" }, + { .addr = CC1120_IQIE_Q1, .name = "IQIE_Q1" }, + { .addr = CC1120_IQIE_Q0, .name = "IQIE_Q0" }, + { .addr = CC1120_RSSI1, .name = "RSSI1" }, + { .addr = CC1120_RSSI0, .name = "RSSI0" }, + { .addr = CC1120_MARCSTATE, .name = "MARCSTATE" }, + { .addr = CC1120_LQI_VAL, .name = "LQI_VAL" }, + { .addr = CC1120_PQT_SYNC_ERR, .name = "PQT_SYNC_ERR" }, + { .addr = CC1120_DEM_STATUS, .name = "DEM_STATUS" }, + { .addr = CC1120_FREQOFF_EST1, .name = "FREQOFF_EST1" }, + { .addr = CC1120_FREQOFF_EST0, .name = "FREQOFF_EST0" }, + { .addr = CC1120_AGC_GAIN3, .name = "AGC_GAIN3" }, + { .addr = CC1120_AGC_GAIN2, .name = "AGC_GAIN2" }, + { .addr = CC1120_AGC_GAIN1, .name = "AGC_GAIN1" }, + { .addr = CC1120_AGC_GAIN0, .name = "AGC_GAIN0" }, + { .addr = CC1120_SOFT_RX_DATA_OUT, .name = "SOFT_RX_DATA_OUT" }, + { .addr = CC1120_SOFT_TX_DATA_IN, .name = "SOFT_TX_DATA_IN" }, + { .addr = CC1120_ASK_SOFT_RX_DATA, .name = "ASK_SOFT_RX_DATA" }, + { .addr = CC1120_RNDGEN, .name = "RNDGEN" }, + { .addr = CC1120_MAGN2, .name = "MAGN2" }, + { .addr = CC1120_MAGN1, .name = "MAGN1" }, + { .addr = CC1120_MAGN0, .name = "MAGN0" }, + { .addr = CC1120_ANG1, .name = "ANG1" }, + { .addr = CC1120_ANG0, .name = "ANG0" }, + { .addr = CC1120_CHFILT_I2, .name = "CHFILT_I2" }, + { .addr = CC1120_CHFILT_I1, .name = "CHFILT_I1" }, + { .addr = CC1120_CHFILT_I0, .name = "CHFILT_I0" }, + { .addr = CC1120_CHFILT_Q2, .name = "CHFILT_Q2" }, + { .addr = CC1120_CHFILT_Q1, .name = "CHFILT_Q1" }, + { .addr = CC1120_CHFILT_Q0, .name = "CHFILT_Q0" }, + { .addr = CC1120_GPIO_STATUS, .name = "GPIO_STATUS" }, + { .addr = CC1120_FSCAL_CTRL, .name = "FSCAL_CTRL" }, + { .addr = CC1120_PHASE_ADJUST, .name = "PHASE_ADJUST" }, + { .addr = CC1120_PARTNUMBER, .name = "PARTNUMBER" }, + { .addr = CC1120_PARTVERSION, .name = "PARTVERSION" }, + { .addr = CC1120_SERIAL_STATUS, .name = "SERIAL_STATUS" }, + { .addr = CC1120_RX_STATUS, .name = "RX_STATUS" }, + { .addr = CC1120_TX_STATUS, .name = "TX_STATUS" }, + { .addr = CC1120_MARC_STATUS1, .name = "MARC_STATUS1" }, + { .addr = CC1120_MARC_STATUS0, .name = "MARC_STATUS0" }, + { .addr = CC1120_PA_IFAMP_TEST, .name = "PA_IFAMP_TEST" }, + { .addr = CC1120_FSRF_TEST, .name = "FSRF_TEST" }, + { .addr = CC1120_PRE_TEST, .name = "PRE_TEST" }, + { .addr = CC1120_PRE_OVR, .name = "PRE_OVR" }, + { .addr = CC1120_ADC_TEST, .name = "ADC_TEST" }, + { .addr = CC1120_DVC_TEST, .name = "DVC_TEST" }, + { .addr = CC1120_ATEST, .name = "ATEST" }, + { .addr = CC1120_ATEST_LVDS, .name = "ATEST_LVDS" }, + { .addr = CC1120_ATEST_MODE, .name = "ATEST_MODE" }, + { .addr = CC1120_XOSC_TEST1, .name = "XOSC_TEST1" }, + { .addr = CC1120_XOSC_TEST0, .name = "XOSC_TEST0" }, + { .addr = CC1120_RXFIRST, .name = "RXFIRST" }, + { .addr = CC1120_TXFIRST, .name = "TXFIRST" }, + { .addr = CC1120_RXLAST, .name = "RXLAST" }, + { .addr = CC1120_TXLAST, .name = "TXLAST" }, + { .addr = CC1120_NUM_TXBYTES, .name = "NUM_TXBYTES" }, + { .addr = CC1120_NUM_RXBYTES, .name = "NUM_RXBYTES" }, + { .addr = CC1120_FIFO_NUM_TXBYTES, .name = "FIFO_NUM_TXBYTES" }, + { .addr = CC1120_FIFO_NUM_RXBYTES, .name = "FIFO_NUM_RXBYTES" }, +}; + +#define AO_NUM_CC1120_REG (sizeof ao_cc1120_reg / sizeof ao_cc1120_reg[0]) + +static void ao_radio_show(void) { + uint8_t status = ao_radio_status(); + int i; + + ao_radio_get(0xff); + status = ao_radio_status(); + printf ("Status: %02x\n", status); + printf ("CHIP_RDY: %d\n", (status >> CC1120_STATUS_CHIP_RDY) & 1); + printf ("STATE: %s\n", cc1120_state_name[(status >> CC1120_STATUS_STATE) & CC1120_STATUS_STATE_MASK]); + printf ("MARC: %02x\n", ao_radio_get_marc_status()); + + for (i = 0; i < AO_NUM_CC1120_REG; i++) + printf ("\t%02x %-20.20s\n", ao_radio_reg_read(ao_cc1120_reg[i].addr), ao_cc1120_reg[i].name); + ao_radio_put(); +} + +static void ao_radio_beep(void) { + ao_radio_rdf(); +} + +static void ao_radio_packet(void) { + static const uint8_t packet[] = { +#if 1 + 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, + 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, + 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, + 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, +#else + 3, 1, 2, 3 +#endif + }; + + ao_radio_send(packet, sizeof (packet)); +} + +void +ao_radio_test_recv() +{ + uint8_t bytes[34]; + uint8_t b; + + if (ao_radio_recv(bytes, 34)) { + if (bytes[33] & 0x80) + printf ("CRC OK"); + else + printf ("CRC BAD"); + printf (" RSSI %d", AO_RSSI_FROM_RADIO(bytes[32])); + for (b = 0; b < 32; b++) + printf (" %02x", bytes[b]); + printf ("\n"); + } +} + +#if HAS_APRS +#include + +static void +ao_radio_aprs() +{ + ao_packet_slave_stop(); + ao_aprs_send(); +} +#endif + +#endif + +static const struct ao_cmds ao_radio_cmds[] = { + { ao_radio_test_cmd, "C <1 start, 0 stop, none both>\0Radio carrier test" }, +#if CC1120_DEBUG +#if HAS_APRS + { ao_radio_aprs, "G\0Send APRS packet" }, +#endif + { ao_radio_show, "R\0Show CC1120 status" }, + { ao_radio_beep, "b\0Emit an RDF beacon" }, + { ao_radio_packet, "p\0Send a test packet" }, + { ao_radio_test_recv, "q\0Recv a test packet" }, +#endif + { 0, NULL } +}; + +void +ao_radio_init(void) +{ + int i; + + ao_radio_configured = 0; + ao_spi_init_cs (AO_CC1120_SPI_CS_PORT, (1 << AO_CC1120_SPI_CS_PIN)); + +#if 0 + AO_CC1120_SPI_CS_PORT->bsrr = ((uint32_t) (1 << AO_CC1120_SPI_CS_PIN)); + for (i = 0; i < 10000; i++) { + if ((SPI_2_PORT->idr & (1 << SPI_2_MISO_PIN)) == 0) + break; + } + AO_CC1120_SPI_CS_PORT->bsrr = (1 << AO_CC1120_SPI_CS_PIN); + if (i == 10000) + ao_panic(AO_PANIC_SELF_TEST_CC1120); +#endif + + /* Enable the EXTI interrupt for the appropriate pin */ + ao_enable_port(AO_CC1120_INT_PORT); + ao_exti_setup(AO_CC1120_INT_PORT, AO_CC1120_INT_PIN, + AO_EXTI_MODE_FALLING|AO_EXTI_PRIORITY_HIGH, + ao_radio_isr); + + /* Enable the hacked up GPIO3 pin */ + ao_enable_port(AO_CC1120_MCU_WAKEUP_PORT); + ao_exti_setup(AO_CC1120_MCU_WAKEUP_PORT, AO_CC1120_MCU_WAKEUP_PIN, + AO_EXTI_MODE_FALLING|AO_EXTI_PRIORITY_MED, + ao_radio_mcu_wakeup_isr); + + ao_cmd_register(&ao_radio_cmds[0]); }