#include <ao_tracker.h>
#endif
-__xdata struct ao_config ao_config;
-__pdata uint8_t ao_config_loaded;
-__pdata uint8_t ao_config_dirty;
-__xdata uint8_t ao_config_mutex;
+struct ao_config ao_config;
+uint8_t ao_config_loaded;
+uint8_t ao_config_dirty;
+uint8_t ao_config_mutex;
#if HAS_FORCE_FREQ
-__xdata uint8_t ao_force_freq;
+uint8_t ao_force_freq;
#endif
#ifndef AO_CONFIG_DEFAULT_APRS_INTERVAL
#if HAS_RADIO
#if HAS_RADIO_FORWARD
-__xdata uint32_t ao_send_radio_setting;
+uint32_t ao_send_radio_setting;
#endif
void
}
void
-ao_config_callsign_set(void) __reentrant
+ao_config_callsign_set(void)
{
uint8_t c;
- static __xdata char callsign[AO_MAX_CALLSIGN + 1];
+ static char callsign[AO_MAX_CALLSIGN + 1];
ao_xmemset(callsign, '\0', sizeof callsign);
ao_cmd_white();
#if HAS_RADIO
void
-ao_config_frequency_show(void) __reentrant
+ao_config_frequency_show(void)
{
printf("Frequency: %ld\n",
ao_config.frequency);
}
void
-ao_config_frequency_set(void) __reentrant
+ao_config_frequency_set(void)
{
ao_cmd_decimal();
if (ao_cmd_status != ao_cmd_success)
#if HAS_RADIO_FORWARD
void
-ao_config_send_frequency_show(void) __reentrant
+ao_config_send_frequency_show(void)
{
printf("Send frequency: %ld\n",
ao_config.send_frequency);
}
void
-ao_config_send_frequency_set(void) __reentrant
+ao_config_send_frequency_set(void)
{
ao_cmd_decimal();
if (ao_cmd_status != ao_cmd_success)
#if HAS_FLIGHT
void
-ao_config_main_deploy_show(void) __reentrant
+ao_config_main_deploy_show(void)
{
printf("Main deploy: %d meters\n",
ao_config.main_deploy);
}
void
-ao_config_main_deploy_set(void) __reentrant
+ao_config_main_deploy_set(void)
{
ao_cmd_decimal();
if (ao_cmd_status != ao_cmd_success)
#if HAS_ACCEL
void
-ao_config_accel_calibrate_show(void) __reentrant
+ao_config_accel_calibrate_show(void)
{
printf("Accel cal +1g: %d -1g: %d\n",
ao_config.accel_plus_g, ao_config.accel_minus_g);
#endif
static int16_t
-ao_config_accel_calibrate_auto(char *orientation) __reentrant
+ao_config_accel_calibrate_auto(char *orientation)
{
uint16_t i;
int32_t accel_total;
}
void
-ao_config_accel_calibrate_set(void) __reentrant
+ao_config_accel_calibrate_set(void)
{
int16_t up, down;
#if HAS_GYRO
#endif /* HAS_ACCEL */
void
-ao_config_apogee_delay_show(void) __reentrant
+ao_config_apogee_delay_show(void)
{
printf("Apogee delay: %d seconds\n",
ao_config.apogee_delay);
}
void
-ao_config_apogee_delay_set(void) __reentrant
+ao_config_apogee_delay_set(void)
{
ao_cmd_decimal();
if (ao_cmd_status != ao_cmd_success)
}
void
-ao_config_apogee_lockout_show(void) __reentrant
+ao_config_apogee_lockout_show(void)
{
printf ("Apogee lockout: %d seconds\n",
ao_config.apogee_lockout);
}
void
-ao_config_apogee_lockout_set(void) __reentrant
+ao_config_apogee_lockout_set(void)
{
ao_cmd_decimal();
if (ao_cmd_status != ao_cmd_success)
#if HAS_RADIO
void
-ao_config_radio_cal_show(void) __reentrant
+ao_config_radio_cal_show(void)
{
printf("Radio cal: %ld\n", ao_config.radio_cal);
}
void
-ao_config_radio_cal_set(void) __reentrant
+ao_config_radio_cal_set(void)
{
ao_cmd_decimal();
if (ao_cmd_status != ao_cmd_success)
#endif
void
-ao_config_radio_rate_show(void) __reentrant
+ao_config_radio_rate_show(void)
{
printf("Telemetry rate: %d\n", ao_config.radio_rate);
}
void
-ao_config_radio_rate_set(void) __reentrant
+ao_config_radio_rate_set(void)
{
ao_cmd_decimal();
if (ao_cmd_status != ao_cmd_success)
#if HAS_LOG
void
-ao_config_log_show(void) __reentrant
+ao_config_log_show(void)
{
printf("Max flight log: %d kB\n", (int16_t) (ao_config.flight_log_max >> 10));
#if FLIGHT_LOG_APPEND
#endif
void
-ao_config_log_set(void) __reentrant
+ao_config_log_set(void)
{
#if FLIGHT_LOG_APPEND
printf("Flight log fixed size %d kB\n", ao_storage_log_max >> 10);
#if HAS_IGNITE
void
-ao_config_ignite_mode_show(void) __reentrant
+ao_config_ignite_mode_show(void)
{
printf("Ignite mode: %d\n", ao_config.ignite_mode);
}
void
-ao_config_ignite_mode_set(void) __reentrant
+ao_config_ignite_mode_set(void)
{
ao_cmd_decimal();
if (ao_cmd_status != ao_cmd_success)
#if HAS_ACCEL
void
-ao_config_pad_orientation_show(void) __reentrant
+ao_config_pad_orientation_show(void)
{
printf("Pad orientation: %d\n", ao_config.pad_orientation);
}
#endif
void
-ao_config_pad_orientation_set(void) __reentrant
+ao_config_pad_orientation_set(void)
{
ao_cmd_decimal();
if (ao_cmd_status != ao_cmd_success)
#if HAS_RADIO
void
-ao_config_radio_enable_show(void) __reentrant
+ao_config_radio_enable_show(void)
{
printf("Radio enable: %d\n", ao_config.radio_enable);
}
void
-ao_config_radio_enable_set(void) __reentrant
+ao_config_radio_enable_set(void)
{
ao_cmd_decimal();
if (ao_cmd_status != ao_cmd_success)
#if HAS_AES
-__xdata uint8_t ao_config_aes_seq = 1;
+uint8_t ao_config_aes_seq = 1;
void
-ao_config_key_show(void) __reentrant
+ao_config_key_show(void)
{
uint8_t i;
printf("AES key: ");
}
void
-ao_config_key_set(void) __reentrant
+ao_config_key_set(void)
{
uint8_t i;
#endif
struct ao_config_var {
- __code char *str;
- void (*set)(void) __reentrant;
- void (*show)(void) __reentrant;
+ const char *str;
+ void (*set)(void);
+ void (*show)(void);
};
static void
-ao_config_help(void) __reentrant;
+ao_config_help(void);
static void
-ao_config_show(void) __reentrant;
+ao_config_show(void);
#if HAS_EEPROM
static void
-ao_config_save(void) __reentrant;
+ao_config_save(void);
#endif
-__code struct ao_config_var ao_config_vars[] = {
+const struct ao_config_var ao_config_vars[] = {
#if HAS_FLIGHT
{ "m <meters>\0Main deploy (m)",
ao_config_main_deploy_set, ao_config_main_deploy_show, },
}
static void
-ao_config_help(void) __reentrant
+ao_config_help(void)
{
uint8_t cmd;
for (cmd = 0; ao_config_vars[cmd].str != NULL; cmd++)
}
static void
-ao_config_show(void) __reentrant
+ao_config_show(void)
{
uint8_t cmd;
ao_config_get();
#if HAS_EEPROM
static void
-ao_config_save(void) __reentrant
+ao_config_save(void)
{
uint8_t saved = 0;
ao_mutex_get(&ao_config_mutex);
}
#endif
-__code struct ao_cmds ao_config_cmds[] = {
+const struct ao_cmds ao_config_cmds[] = {
{ ao_config_set, "c <var> <value>\0Set config (? for help, s to show)" },
{ 0, NULL },
};