/* Stack runs from above the allocated __data space to 0xfe, which avoids
* writing to 0xff as that triggers the stack overflow indicator
*/
-#define AO_STACK_START 0x4b
+#define AO_STACK_START 0x80
#define AO_STACK_END 0xfe
#define AO_STACK_SIZE (AO_STACK_END - AO_STACK_START + 1)
struct ao_task {
__xdata void *wchan; /* current wait channel (NULL if running) */
uint8_t stack_count; /* amount of saved stack */
+ uint8_t task_id; /* index in the task array */
+ __code char *name; /* task name */
uint8_t stack[AO_STACK_SIZE]; /* saved stack */
};
+extern __xdata struct ao_task *__data ao_cur_task;
+
#define AO_NUM_TASKS 10 /* maximum number of tasks */
+#define AO_NO_TASK 0 /* no task id */
/*
ao_task.c
*/
/* Suspend the current task until wchan is awoken */
-int
+void
ao_sleep(__xdata void *wchan);
/* Wake all tasks sleeping on wchan */
-int
+void
ao_wakeup(__xdata void *wchan);
/* Yield the processor to another task */
/* Add a task to the run queue */
void
-ao_add_task(__xdata struct ao_task * task, void (*start)(void));
+ao_add_task(__xdata struct ao_task * task, void (*start)(void), __code char *name) __reentrant;
+
+/* Dump task info to console */
+void
+ao_task_info(void);
/* Start the scheduler. This will not return */
void
*/
#define AO_PANIC_NO_TASK 1 /* AO_NUM_TASKS is not large enough */
+#define AO_PANIC_DMA 2 /* Attempt to start DMA while active */
+#define AO_PANIC_MUTEX 3 /* Mis-using mutex API */
+#define AO_PANIC_EE 4 /* Mis-using eeprom API */
+#define AO_PANIC_LOG 5 /* Failing to read/write log data */
+#define AO_PANIC_CMD 6 /* Too many command sets registered */
/* Stop the operating system, beeping and blinking the reason */
void
void
ao_delay(uint16_t ticks);
+/* Set the ADC interval */
+void
+ao_timer_set_adc_interval(uint8_t interval) __critical;
+
/* Timer interrupt */
void
ao_timer_isr(void) interrupt 9;
* ao_adc.c
*/
-#define ADC_RING 128
+#define AO_ADC_RING 64
+#define ao_adc_ring_next(n) (((n) + 1) & (AO_ADC_RING - 1))
+#define ao_adc_ring_prev(n) (((n) - 1) & (AO_ADC_RING - 1))
/*
* One set of samples read from the A/D converter
* A/D data is stored in a ring, with the next sample to be written
* at ao_adc_head
*/
-extern volatile __xdata struct ao_adc ao_adc_ring[ADC_RING];
+extern volatile __xdata struct ao_adc ao_adc_ring[AO_ADC_RING];
extern volatile __data uint8_t ao_adc_head;
/* Trigger a conversion sequence (called from the timer interrupt) */
void
ao_adc_poll(void);
-
+
/* Suspend the current task until another A/D sample is converted */
void
ao_adc_sleep(void);
ao_adc_get(__xdata struct ao_adc *packet);
/* The A/D interrupt handler */
+#if !AO_NO_ADC_ISR
void
ao_adc_isr(void) interrupt 1;
+#endif
/* Initialize the A/D converter */
void
/* Turn on the beeper for the specified time */
void
-ao_beep_for(uint8_t beep, uint16_t ticks);
+ao_beep_for(uint8_t beep, uint16_t ticks) __reentrant;
/* Initialize the beeper */
void
void
ao_led_set(uint8_t colors);
+/* Toggle the specified LEDs */
+void
+ao_led_toggle(uint8_t colors);
+
/* Turn on the specified LEDs for the indicated interval */
void
-ao_led_for(uint8_t colors, uint16_t ticks);
+ao_led_for(uint8_t colors, uint16_t ticks) __reentrant;
/* Initialize the LEDs */
void
-ao_led_init(void);
+ao_led_init(uint8_t enable);
/*
* ao_usb.c
/* Put one character to the USB output queue */
void
-ao_usb_putchar(uint8_t c);
+ao_usb_putchar(char c);
/* Get one character from the USB input queue */
-uint8_t
+char
ao_usb_getchar(void);
/* Flush the USB output queue */
void
ao_usb_isr(void) interrupt 6;
+/* Enable the USB controller */
+void
+ao_usb_enable(void);
+
+/* Disable the USB controller */
+void
+ao_usb_disable(void);
+
/* Initialize the USB system */
void
ao_usb_init(void);
/*
* ao_cmd.c
*/
+
+enum ao_cmd_status {
+ ao_cmd_success = 0,
+ ao_cmd_lex_error = 1,
+ ao_cmd_syntax_error = 2,
+};
+
+extern __xdata uint16_t ao_cmd_lex_i;
+extern __xdata char ao_cmd_lex_c;
+extern __xdata enum ao_cmd_status ao_cmd_status;
+
+void
+ao_cmd_lex(void);
+
+void
+ao_cmd_put8(uint8_t v);
+
+void
+ao_cmd_put16(uint16_t v);
+
+void
+ao_cmd_white(void);
+
+void
+ao_cmd_hex(void);
+
+void
+ao_cmd_decimal(void);
+
+struct ao_cmds {
+ char cmd;
+ void (*func)(void);
+ const char *help;
+};
+
+void
+ao_cmd_register(__code struct ao_cmds *cmds);
+
void
ao_cmd_init(void);
+/*
+ * ao_dma.c
+ */
+
+/* Allocate a DMA channel. the 'done' parameter will be set to 1
+ * when the dma is finished and will be used to wakeup any waiters
+ */
+uint8_t
+ao_dma_alloc(__xdata uint8_t * done);
+
+/* Setup a DMA channel */
+void
+ao_dma_set_transfer(uint8_t id,
+ void __xdata *srcaddr,
+ void __xdata *dstaddr,
+ uint16_t count,
+ uint8_t cfg0,
+ uint8_t cfg1);
+
+/* Start a DMA channel */
+void
+ao_dma_start(uint8_t id);
+
+/* Manually trigger a DMA channel */
+void
+ao_dma_trigger(uint8_t id);
+
+/* Abort a running DMA transfer */
+void
+ao_dma_abort(uint8_t id);
+
+/* DMA interrupt routine */
+void
+ao_dma_isr(void) interrupt 8;
+
+/*
+ * ao_mutex.c
+ */
+
+void
+ao_mutex_get(__xdata uint8_t *ao_mutex) __reentrant;
+
+void
+ao_mutex_put(__xdata uint8_t *ao_mutex) __reentrant;
+
+/*
+ * ao_ee.c
+ */
+
+/*
+ * We reserve the last block on the device for
+ * configuration space. Writes and reads in this
+ * area return errors.
+ */
+
+#define AO_EE_BLOCK_SIZE ((uint16_t) (256))
+#define AO_EE_DEVICE_SIZE ((uint32_t) 128 * (uint32_t) 1024)
+#define AO_EE_DATA_SIZE (AO_EE_DEVICE_SIZE - (uint32_t) AO_EE_BLOCK_SIZE)
+#define AO_EE_CONFIG_BLOCK ((uint16_t) (AO_EE_DATA_SIZE / AO_EE_BLOCK_SIZE))
+
+void
+ao_ee_flush(void) __reentrant;
+
+/* Write to the eeprom */
+uint8_t
+ao_ee_write(uint32_t pos, uint8_t *buf, uint16_t len) __reentrant;
+
+/* Read from the eeprom */
+uint8_t
+ao_ee_read(uint32_t pos, uint8_t *buf, uint16_t len) __reentrant;
+
+/* Write the config block (at the end of the eeprom) */
+uint8_t
+ao_ee_write_config(uint8_t *buf, uint16_t len) __reentrant;
+
+/* Read the config block (at the end of the eeprom) */
+uint8_t
+ao_ee_read_config(uint8_t *buf, uint16_t len) __reentrant;
+
+/* Initialize the EEPROM code */
+void
+ao_ee_init(void);
+
+/*
+ * ao_log.c
+ */
+
+/* Structure containing GPS position, either lat or lon */
+
+struct ao_gps_pos {
+ uint8_t degrees;
+ uint8_t minutes;
+ uint16_t minutes_fraction; /* in units of 1/10000 minutes */
+};
+
+/*
+ * The data log is recorded in the eeprom as a sequence
+ * of data packets.
+ *
+ * Each packet starts with a 4-byte header that has the
+ * packet type, the packet checksum and the tick count. Then
+ * they all contain 2 16 bit values which hold packet-specific
+ * data.
+ *
+ * For each flight, the first packet
+ * is FLIGHT packet, indicating the serial number of the
+ * device and a unique number marking the number of flights
+ * recorded by this device.
+ *
+ * During flight, data from the accelerometer and barometer
+ * are recorded in SENSOR packets, using the raw 16-bit values
+ * read from the A/D converter.
+ *
+ * Also during flight, but at a lower rate, the deployment
+ * sensors are recorded in DEPLOY packets. The goal here is to
+ * detect failure in the deployment circuits.
+ *
+ * STATE packets hold state transitions as the flight computer
+ * transitions through different stages of the flight.
+ */
+#define AO_LOG_FLIGHT 'F'
+#define AO_LOG_SENSOR 'A'
+#define AO_LOG_TEMP_VOLT 'T'
+#define AO_LOG_DEPLOY 'D'
+#define AO_LOG_STATE 'S'
+#define AO_LOG_GPS_TIME 'G'
+#define AO_LOG_GPS_LAT 'N'
+#define AO_LOG_GPS_LON 'W'
+#define AO_LOG_GPS_ALT 'H'
+
+#define AO_LOG_POS_NONE (~0UL)
+
+struct ao_log_record {
+ char type;
+ uint8_t csum;
+ uint16_t tick;
+ union {
+ struct {
+ int16_t ground_accel;
+ uint16_t flight;
+ } flight;
+ struct {
+ int16_t accel;
+ int16_t pres;
+ } sensor;
+ struct {
+ int16_t temp;
+ int16_t v_batt;
+ } temp_volt;
+ struct {
+ int16_t drogue;
+ int16_t main;
+ } deploy;
+ struct {
+ uint16_t state;
+ uint16_t reason;
+ } state;
+ struct {
+ uint8_t hour;
+ uint8_t minute;
+ uint8_t second;
+ uint8_t flags;
+ } gps_time;
+ struct ao_gps_pos gps_latitude;
+ struct ao_gps_pos gps_longitude;
+ struct {
+ int16_t altitude;
+ uint16_t unused;
+ } gps_altitude;
+ struct {
+ uint16_t d0;
+ uint16_t d1;
+ } anon;
+ } u;
+};
+
+/* Write a record to the eeprom log */
+void
+ao_log_data(struct ao_log_record *log);
+
+/* Flush the log */
+void
+ao_log_flush(void);
+
+/* Log dumping API:
+ * ao_log_dump_first() - get first log record
+ * ao_log_dump_next() - get next log record
+ */
+extern __xdata struct ao_log_record ao_log_dump;
+
+/* Retrieve first log record for the current flight */
+uint8_t
+ao_log_dump_first(void);
+
+/* return next log record for the current flight */
+uint8_t
+ao_log_dump_next(void);
+
+/* Logging thread main routine */
+void
+ao_log(void);
+
+/* Start logging to eeprom */
+void
+ao_log_start(void);
+
+/* Stop logging */
+void
+ao_log_stop(void);
+
+/* Initialize the logging system */
+void
+ao_log_init(void);
+
+/*
+ * ao_flight.c
+ */
+
+enum ao_flight_state {
+ ao_flight_startup = 0,
+ ao_flight_idle = 1,
+ ao_flight_launchpad = 2,
+ ao_flight_boost = 3,
+ ao_flight_coast = 4,
+ ao_flight_apogee = 5,
+ ao_flight_drogue = 6,
+ ao_flight_main = 7,
+ ao_flight_landed = 8,
+ ao_flight_invalid = 9
+};
+
+extern __xdata struct ao_adc ao_flight_data;
+extern __pdata enum ao_flight_state ao_flight_state;
+extern __pdata uint16_t ao_flight_tick;
+extern __pdata int16_t ao_flight_accel;
+extern __pdata int16_t ao_flight_pres;
+extern __pdata int16_t ao_ground_pres;
+extern __pdata int16_t ao_ground_accel;
+extern __pdata int16_t ao_min_pres;
+extern __pdata uint16_t ao_launch_time;
+
+/* Flight thread */
+void
+ao_flight(void);
+
+/* Initialize flight thread */
+void
+ao_flight_init(void);
+
+/*
+ * ao_report.c
+ */
+
+void
+ao_report_init(void);
+
+/*
+ * ao_convert.c
+ *
+ * Given raw data, convert to SI units
+ */
+
+/* pressure from the sensor to altitude in meters */
+int16_t
+ao_pres_to_altitude(int16_t pres) __reentrant;
+
+int16_t
+ao_altitude_to_pres(int16_t alt) __reentrant;
+
+int16_t
+ao_temp_to_dC(int16_t temp) __reentrant;
+
+/*
+ * ao_dbg.c
+ *
+ * debug another telemetrum board
+ */
+
+/* Send a byte to the dbg target */
+void
+ao_dbg_send_byte(uint8_t byte);
+
+/* Receive a byte from the dbg target */
+uint8_t
+ao_dbg_recv_byte(void);
+
+/* Start a bulk transfer to/from dbg target memory */
+void
+ao_dbg_start_transfer(uint16_t addr);
+
+/* End a bulk transfer to/from dbg target memory */
+void
+ao_dbg_end_transfer(void);
+
+/* Write a byte to dbg target memory */
+void
+ao_dbg_write_byte(uint8_t byte);
+
+/* Read a byte from dbg target memory */
+uint8_t
+ao_dbg_read_byte(void);
+
+/* Enable dbg mode, switching use of the pins */
+void
+ao_dbg_debug_mode(void);
+
+/* Reset the dbg target */
+void
+ao_dbg_reset(void);
+
+void
+ao_dbg_init(void);
+
+/*
+ * ao_serial.c
+ */
+
+#if !AO_NO_SERIAL_ISR
+void
+ao_serial_rx1_isr(void) interrupt 3;
+
+void
+ao_serial_tx1_isr(void) interrupt 14;
+#endif
+
+char
+ao_serial_getchar(void) __critical;
+
+void
+ao_serial_putchar(char c) __critical;
+
+void
+ao_serial_init(void);
+
+/*
+ * ao_gps.c
+ */
+
+#define AO_GPS_NUM_SAT_MASK (0xf << 0)
+#define AO_GPS_NUM_SAT_SHIFT (0)
+
+#define AO_GPS_VALID (1 << 4)
+#define AO_GPS_LONGITUDE_MASK (1 << 5)
+#define AO_GPS_LONGITUDE_EAST (0 << 5)
+#define AO_GPS_LONGITUDE_WEST (1 << 5)
+
+#define AO_GPS_LATITUDE_MASK (1 << 6)
+#define AO_GPS_LATITUDE_NORTH (0 << 6)
+#define AO_GPS_LATITUDE_SOUTH (1 << 6)
+
+struct ao_gps_data {
+ uint8_t hour;
+ uint8_t minute;
+ uint8_t second;
+ uint8_t flags;
+ struct ao_gps_pos latitude;
+ struct ao_gps_pos longitude;
+ int16_t altitude;
+};
+
+extern __xdata uint8_t ao_gps_mutex;
+extern __xdata struct ao_gps_data ao_gps_data;
+
+void
+ao_gps(void);
+
+void
+ao_gps_print(__xdata struct ao_gps_data *gps_data);
+
+void
+ao_gps_init(void);
+
+/*
+ * ao_gps_report.c
+ */
+
+void
+ao_gps_report(void);
+
+void
+ao_gps_report_init(void);
+
+/*
+ * ao_telemetry.c
+ */
+
+#define AO_MAX_CALLSIGN 8
+
+struct ao_telemetry {
+ uint8_t addr;
+ uint8_t flight_state;
+ struct ao_adc adc;
+ struct ao_gps_data gps;
+ char callsign[AO_MAX_CALLSIGN];
+};
+
+/* Set delay between telemetry reports (0 to disable) */
+
+#define AO_TELEMETRY_INTERVAL_PAD AO_MS_TO_TICKS(1000)
+#define AO_TELEMETRY_INTERVAL_FLIGHT AO_MS_TO_TICKS(50)
+#define AO_TELEMETRY_INTERVAL_RECOVER AO_MS_TO_TICKS(1000)
+
+void
+ao_telemetry_set_interval(uint16_t interval);
+
+void
+ao_rdf_set(uint8_t rdf);
+
+void
+ao_telemetry_init(void);
+
+/*
+ * ao_radio.c
+ */
+
+void
+ao_radio_send(__xdata struct ao_telemetry *telemetry) __reentrant;
+
+struct ao_radio_recv {
+ struct ao_telemetry telemetry;
+ int8_t rssi;
+ uint8_t status;
+};
+
+void
+ao_radio_recv(__xdata struct ao_radio_recv *recv) __reentrant;
+
+void
+ao_radio_rdf(void);
+
+void
+ao_radio_rdf_abort(void);
+
+void
+ao_radio_init(void);
+
+/*
+ * ao_monitor.c
+ */
+
+extern const char const * const ao_state_names[];
+
+void
+ao_monitor(void);
+
+void
+ao_monitor_init(uint8_t led);
+
+/*
+ * ao_stdio.c
+ */
+
+void
+flush(void);
+
+/*
+ * ao_ignite.c
+ */
+
+enum ao_igniter {
+ ao_igniter_drogue = 0,
+ ao_igniter_main = 1
+};
+
+void
+ao_ignite(enum ao_igniter igniter);
+
+enum ao_igniter_status {
+ ao_igniter_unknown, /* unknown status (ambiguous voltage) */
+ ao_igniter_ready, /* continuity detected */
+ ao_igniter_active, /* igniter firing */
+ ao_igniter_open, /* open circuit detected */
+};
+
+enum ao_igniter_status
+ao_igniter_status(enum ao_igniter igniter);
+
+void
+ao_igniter_init(void);
+
+/*
+ * ao_config.c
+ */
+
+#define AO_CONFIG_MAJOR 1
+#define AO_CONFIG_MINOR 0
+
+struct ao_config {
+ uint8_t major;
+ uint8_t minor;
+ uint16_t main_deploy;
+ int16_t accel_zero_g;
+ uint8_t radio_channel;
+ char callsign[AO_MAX_CALLSIGN + 1];
+};
+
+extern __xdata struct ao_config ao_config;
+
+void
+ao_config_get(void);
+
+void
+ao_config_init(void);
+
+/*
+ * ao_product.c
+ *
+ * values which need to be defined for
+ * each instance of a product
+ */
+
+extern const uint8_t ao_usb_descriptors [];
+extern const uint16_t ao_serial_number;
+extern const char ao_version[];
+extern const char ao_manufacturer[];
+extern const char ao_product[];
+
#endif /* _AO_H_ */