Gas Pressure Display Updated Power control for Pressure sensor added
Dependencies: UniGraphic mbed vt100
Diff: af_utils/af_attriburtes.cpp
- Revision:
- 0:37c8ecde13c2
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/af_utils/af_attriburtes.cpp Fri Feb 16 08:27:50 2018 +0000 @@ -0,0 +1,685 @@ +#include "mbed.h" +#include <ctype.h> +#include "af_attributes.h" +#include "edge_time.h" +#include "edge_sensor.h" +#include "edge_accel.h" +#include "edge_color.h" +#include "edge_temp.h" +#include "edge_pressure.h" +#include "edge_mgr.h" +#include "edge_reset_mgr.h" +// #include "SO1602A.h" +#include <ILI9341.h> +#include "pending.h" + +// extern SO1602A *display ; +extern ILI9341 *display ; +extern pending_class *pending ; + +static const af_attribute_type af_attr[] = { +/* ID, Description, Type, Size */ + { ATTR_SENSE_VAL, "Sensor Value", ATTRIBUTE_TYPE_UTF8S, 255 }, + { ATTR_ACCEL_PRESENT, "Accel Present", ATTRIBUTE_TYPE_BOOLEAN, 1 }, + { ATTR_ACCEL_ENABLE, "Accel Enable", ATTRIBUTE_TYPE_BOOLEAN, 1 }, + { ATTR_ACCEL_INTERVAL, "Accel Interval", ATTRIBUTE_TYPE_SINT16, 2 }, + { ATTR_ACCEL_VALUE, "Accel Value", ATTRIBUTE_TYPE_FIXED_15_16, 4}, +/* first color sensor (VEML6040) and LED set */ + { ATTR_COLOR0_PRESENT, "Color1 Present", ATTRIBUTE_TYPE_BOOLEAN, 1 }, + { ATTR_COLOR0_ENABLE, "Color1 Enable", ATTRIBUTE_TYPE_BOOLEAN, 1 }, + { ATTR_COLOR0_INTERVAL, "Color1 Interval", ATTRIBUTE_TYPE_SINT16, 2 }, + { ATTR_COLOR0_TRIGMODE, "Color1 Trigger Mode", ATTRIBUTE_TYPE_SINT8, 1 }, + { ATTR_COLOR0_ITIME, "Color1 Integration Time", ATTRIBUTE_TYPE_SINT8, 1 }, + { ATTR_COLOR0_CALIBRATE, "Color1 Calibrate", ATTRIBUTE_TYPE_BOOLEAN, 1 }, + { ATTR_COLOR0_PWM_R, "Color1 PWM R", ATTRIBUTE_TYPE_SINT32, 4 }, + { ATTR_COLOR0_PWM_G, "Color1 PWM G", ATTRIBUTE_TYPE_SINT32, 4 }, + { ATTR_COLOR0_PWM_B, "Color1 PWM B", ATTRIBUTE_TYPE_SINT32, 4 }, + { ATTR_COLOR0_PWM_PERIOD, "Color1 PWM Period", ATTRIBUTE_TYPE_SINT16, 2 }, + { ATTR_COLOR0_PWM_TARGET, "Color1 PWM Target", ATTRIBUTE_TYPE_SINT16, 2 }, + { ATTR_COLOR0_R_VALUE, "Color1 R", ATTRIBUTE_TYPE_SINT16, 2 }, + { ATTR_COLOR0_G_VALUE, "Color1 G", ATTRIBUTE_TYPE_SINT16, 2 }, + { ATTR_COLOR0_B_VALUE, "Color1 B", ATTRIBUTE_TYPE_SINT16, 2 }, +/* second color sensor (VEML6040) and LED set */ + { ATTR_COLOR1_PRESENT, "Color2 Present", ATTRIBUTE_TYPE_BOOLEAN, 1 }, + { ATTR_COLOR1_ENABLE, "Color2 Enable", ATTRIBUTE_TYPE_BOOLEAN, 1 }, + { ATTR_COLOR1_INTERVAL, "Color2 Interval", ATTRIBUTE_TYPE_SINT16, 2 }, + { ATTR_COLOR1_TRIGMODE, "Color2 Trigger Mode", ATTRIBUTE_TYPE_SINT8, 1 }, + { ATTR_COLOR1_ITIME, "Color2 Integration Time", ATTRIBUTE_TYPE_SINT8, 1 }, + { ATTR_COLOR1_CALIBRATE, "Color2 Calibrate", ATTRIBUTE_TYPE_BOOLEAN, 1 }, + { ATTR_COLOR1_PWM_R, "Color2 PWM R", ATTRIBUTE_TYPE_SINT32, 4 }, + { ATTR_COLOR1_PWM_G, "Color2 PWM G", ATTRIBUTE_TYPE_SINT32, 4 }, + { ATTR_COLOR1_PWM_B, "Color2 PWM B", ATTRIBUTE_TYPE_SINT32, 4 }, + { ATTR_COLOR1_PWM_PERIOD, "Color2 PWM Period", ATTRIBUTE_TYPE_SINT16, 2 }, + { ATTR_COLOR1_PWM_TARGET, "Color2 PWM Target", ATTRIBUTE_TYPE_SINT16, 2 }, + { ATTR_COLOR1_R_VALUE, "Color2 R", ATTRIBUTE_TYPE_SINT16, 2 }, + { ATTR_COLOR1_G_VALUE, "Color2 G", ATTRIBUTE_TYPE_SINT16, 2 }, + { ATTR_COLOR1_B_VALUE, "Color2 B", ATTRIBUTE_TYPE_SINT16, 2 }, +/* first temperature sensor (LM75B) */ + { ATTR_TEMP0_PRESENT, "Temp0 Present", ATTRIBUTE_TYPE_BOOLEAN, 1 }, + { ATTR_TEMP0_ENABLE, "Temp0 Enable", ATTRIBUTE_TYPE_BOOLEAN, 1 }, + { ATTR_TEMP0_INTERVAL, "Temp0 Interval", ATTRIBUTE_TYPE_SINT16, 2 }, + { ATTR_TEMP0_VALUE, "Temp0 Value", ATTRIBUTE_TYPE_FIXED_15_16, 4}, +/* second temperature sensor (SMTC502AT/Before) */ + { ATTR_TEMP1_PRESENT, "Temp1 Present", ATTRIBUTE_TYPE_BOOLEAN, 1 }, + { ATTR_TEMP1_ENABLE, "Temp1 Enable", ATTRIBUTE_TYPE_BOOLEAN, 1 }, + { ATTR_TEMP1_INTERVAL, "Temp1 Interval", ATTRIBUTE_TYPE_SINT16, 2 }, + { ATTR_TEMP1_VALUE, "Temp1 Value", ATTRIBUTE_TYPE_FIXED_15_16, 4}, +/* third temperature sensor (SMTC502AT/After) */ + { ATTR_TEMP2_PRESENT, "Temp2 Present", ATTRIBUTE_TYPE_BOOLEAN, 1 }, + { ATTR_TEMP2_ENABLE, "Temp2 Enable", ATTRIBUTE_TYPE_BOOLEAN, 1 }, + { ATTR_TEMP2_INTERVAL, "Temp2 Interval", ATTRIBUTE_TYPE_SINT16, 2 }, + { ATTR_TEMP2_VALUE, "Temp2 Value", ATTRIBUTE_TYPE_FIXED_15_16, 4}, +/* fouth temperateure sensor (LM75B) */ + { ATTR_TEMP3_PRESENT, "Temp3 Present", ATTRIBUTE_TYPE_BOOLEAN, 1 }, + { ATTR_TEMP3_ENABLE, "Temp3 Enable", ATTRIBUTE_TYPE_BOOLEAN, 1 }, + { ATTR_TEMP3_INTERVAL, "Temp3 Interval", ATTRIBUTE_TYPE_SINT16, 2 }, + { ATTR_TEMP3_VALUE, "Temp3 Value", ATTRIBUTE_TYPE_FIXED_15_16, 4}, +/* Gas Pressure sensor (PSE530) */ + { ATTR_GAS_PRESENT, "Gas Pressure Present", ATTRIBUTE_TYPE_BOOLEAN, 1 }, + { ATTR_GAS_ENABLE, "Gas Pressure Enable", ATTRIBUTE_TYPE_BOOLEAN, 1 }, + { ATTR_GAS_INTERVAL, "Gas Pressure Interval", ATTRIBUTE_TYPE_SINT16, 2 }, + { ATTR_GAS_VALUE, "Gas Pressure Value", ATTRIBUTE_TYPE_FIXED_15_16, 4}, + { ATTR_GAS_THR_MODE, "Gas Press Threshold Mode", ATTRIBUTE_TYPE_SINT8, 1 }, + { ATTR_GAS_THR_HIGH, "Gas Press High Thresh", ATTRIBUTE_TYPE_SINT16, 2 }, + { ATTR_GAS_THR_LOW, "Gas Press Low Thresh", ATTRIBUTE_TYPE_SINT16, 2 }, +/* Software Reset Request */ + { ATTR_SOFTWARE_RESET, "Software Reset", ATTRIBUTE_TYPE_BOOLEAN, 1 }, + { ATTR_DISPLAY_MODE, "Display Mode", ATTRIBUTE_TYPE_SINT8, 1 }, + { ATTR_MCU_RESET_REASON, "MCU Reset Reason", ATTRIBUTE_TYPE_UTF8S, 64 }, + + { ATTR_LED, "LED", ATTRIBUTE_TYPE_SINT16, 2 }, + { ATTR_IO0, "I/O 0", ATTRIBUTE_TYPE_SINT64, 8 }, + { ATTR_IO1, "I/O 1", ATTRIBUTE_TYPE_SINT64, 8 }, + { ATTR_IO2, "I/O 2", ATTRIBUTE_TYPE_SINT64, 8 }, + { ATTR_BUTTON, "BUTTON", ATTRIBUTE_TYPE_BOOLEAN, 2 }, + { ATTR_IO3, "I/O 3", ATTRIBUTE_TYPE_SINT64, 8 }, + { ATTR_BOOT_LOADER_VER, "Bootloader Version", ATTRIBUTE_TYPE_SINT64, 8 }, + { ATTR_BLE_STACK_VER, "BLE Stack Version", ATTRIBUTE_TYPE_SINT64, 8 }, + { ATTR_FW_APP_VER, "FW Application Version", ATTRIBUTE_TYPE_SINT64, 8 }, + { ATTR_DEVICE_DESC, "Device Description", ATTRIBUTE_TYPE_SINT64, 8 }, + { ATTR_WIFI_VER, "Wi-Fi chip", ATTRIBUTE_TYPE_SINT64, 8 }, + { ATTR_OFFLINE_SCHED, "Offline Schedules enable", ATTRIBUTE_TYPE_SINT16, 2 }, + { ATTR_SECURITY_ENABLED, "Security Enabled", ATTRIBUTE_TYPE_SINT8, 1 }, /* ? */ + { ATTR_UTC_OFFSET, "UTC offset data", ATTRIBUTE_TYPE_BYTES, 8 }, + { ATTR_CONFIGURES_SSID, "Configured SSID", ATTRIBUTE_TYPE_UTF8S, 10 }, /* ? */ + { ATTR_WIFI_BARS, "Wi-Fi Bars", ATTRIBUTE_TYPE_SINT8, 1 }, + { ATTR_WIFI_STDY_STATE, "Wi-Fi Steady State", ATTRIBUTE_TYPE_SINT8, 1 }, + { ATTR_COMMAND, "Command", ATTRIBUTE_TYPE_BYTES, 8 }, /* ? */ + { ATTR_ASR_STATE, "ASR State", ATTRIBUTE_TYPE_SINT8, 1 }, + { ATTR_LOW_BATTERY, "Low Battery Warning", ATTRIBUTE_TYPE_SINT8, 1 }, + { ATTR_LINKED_TIMESTAMP, "Linked Timestamp", ATTRIBUTE_TYPE_SINT32, 4 }, + { ATTR_ATTR_ACK, "Attribute ACK", ATTRIBUTE_TYPE_SINT16, 8 }, + { ATTR_REBOOT_REASON, "Reboot Reason", ATTRIBUTE_TYPE_UTF8S, 100 }, + { ATTR_BLE_COMMS, "BLE Comms", ATTRIBUTE_TYPE_BYTES, 12 }, + { ATTR_MCU_INTERFACE, "MCU Interface", ATTRIBUTE_TYPE_SINT8, 1 }, + { 0, 0, 0, 0 } +} ; + +int get_af_attr(uint16_t id) +{ + int i ; + for (i = 0 ; af_attr[i].id != 0 ; i++ ) { + if (id == af_attr[i].id) { + break ; + } + } + return (i) ; +} + +void print_af_error(int resultCode) +{ + switch(resultCode) { + case afSUCCESS: + printf("Operation completed successfully\n") ; + break ; + case afERROR_NO_SUCH_ATTRIBUTE: + printf("Request was made for unknown attribute id\n") ; + break ; + case afERROR_BUSY: + printf("Request already in progress, try again\n") ; + break ; + case afERROR_INVALID_COMMAND: + printf("Command could not be parsed\n") ; + break ; + case afERROR_QUEUE_OVERFLOW: + printf("Queue is full\n") ; + break ; + case afERROR_QUEUE_UNDERFLOW: + printf("Queue is empty\n") ; + break ; + case afERROR_INVALID_PARAM: + printf("Bad input parameter\n") ; + break ; + default: + printf("Unknown error code %d\n", resultCode) ; + break ; + } +} + +void af_print_values( + const uint8_t requestId, + const uint16_t attributeId, + const uint16_t valueLen, + const uint8_t *value +) +{ + int i, id ; + + id = get_af_attr(attributeId) ; + + if (af_attr[id].id != 0) { + printf(af_attr[id].description) ; + printf(" : ") ; + switch(af_attr[id].attribute_type) { + case ATTRIBUTE_TYPE_BOOLEAN: + case ATTRIBUTE_TYPE_SINT8: + if (valueLen >= 1) { + printf("%02X\n", value[0]) ; + } + break ; + case ATTRIBUTE_TYPE_SINT16: + if (valueLen >= 2) { + printf("%02X%02X\n", value[1], value[0]) ; + } + break ; + case ATTRIBUTE_TYPE_SINT32: + if (valueLen >= 4) { + printf("%02X%02X%02X%02X\n", + value[3],value[2],value[1],value[0]) ; + } + break ; + case ATTRIBUTE_TYPE_SINT64: + if (valueLen >= 8) { + printf("%02X%02X %02X%02X %02X%02X %02X%02X\n", + value[7], value[6], value[5], value[4], + value[3], value[2], value[1], value[0]) ; + } + break ; + case ATTRIBUTE_TYPE_UTF8S: + if (valueLen > 0) { + for (i = 0 ; i < valueLen ; i++) { + if (isprint(value[i])) { + printf("%c", value[i]) ; + } else if (value[i] == 0) { /* string terminator NULL */ + break ; + } else { + printf("\'%02X\'",value[i]) ; + } + } + printf("\n") ; + } + break ; + case ATTRIBUTE_TYPE_BYTES: + default: + if (valueLen > 0) { + for (i = 0 ; i < valueLen ; i++ ) { + printf("%02X ", value[i]) ; + } + printf("\n") ; + } + break ; + } + } else { + if (valueLen > 0) { + for (i = 0 ; i < valueLen ; i++ ) { + printf("%02X ", value[i]) ; + } + printf("\n") ; + } + } +// printf("\n") ; +} + +void assignAttribute( + const uint8_t requestId, + const uint16_t attributeId, + const uint16_t valueLen, + const uint8_t *value, + bool fromRequest +) +{ + switch(attributeId) { + case ATTR_LINKED_TIMESTAMP: /* timestamp */ + set_time(valueLen, value) ; /* 68 us */ + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + printf("timestampe = ") ; + print_date_wd(¤t_time) ; +// print_time(¤t_time) ; + printf("\n") ; + break ; + case ATTR_SOFTWARE_RESET: /* software reset requested! */ + if (value[0]) { + reset_watch_dog() ; + printf("Software Reset Requested!\n") ; + if (display != 0) { + display->cls() ; + display->locate(0,0) ; + display->printf("System Rebooting!") ; + } + reset_watch_dog() ; + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + wait(0.5) ; + reset_watch_dog() ; + reboot_edge() ; + } + break ; + case ATTR_DISPLAY_MODE: + if (display_mode != value[0]) { + display_mode = value[0] ; + if (display) { + display->BusEnable(true) ; + display->cls() ; + display->BusEnable(false) ; + } + } + reset_watch_dog() ; + switch(value[0]) { + case DISPLAY_MODE_GAS: /* gas pressure monitor only */ + break ; + case DISPLAY_MODE_SUMMARY: /* summary */ + break ; + case DISPLAY_MODE_CHART: /* chart mode */ + if (display) { + draw_all_chart_frame() ; + } + break ; + case DISPLAY_MODE_OFF: /* display off */ + default: + display_mode = DISPLAY_MODE_OFF ; + break ; + } + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + break ; + case ATTR_ACCEL_ENABLE: /* accel enable */ + if (sensor[0]) { + if (value[0]) { + sensor[0]->reset() ; + sensor[0]->enable() ; + } else if (sensor[0]){ + sensor[0]->disable() ; + } + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; + case ATTR_ACCEL_INTERVAL: + if (sensor[0]) { + sensor[0]->setInterval((value[1] << 8) | value[0]) ; + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; + case ATTR_COLOR0_ENABLE: /* color0 enable */ + if (sensor[1]) { + if (value[0]) { + sensor[1]->reset() ; + sensor[1]->enable() ; + } else { + sensor[1]->disable() ; + } + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; + case ATTR_COLOR0_INTERVAL: + if (sensor[1]) { + sensor[1]->setInterval((value[1] << 8) | value[0]) ; + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; + case ATTR_COLOR0_TRIGMODE: /* color0 config */ + if (sensor[1]) { + uint8_t config = ((edge_color*)sensor[1])->getConfig() & 0x70 ; + if (value[0]) { + config = config | 0x06 ; + } + ((edge_color*)sensor[1])->setConfig(config) ; + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; + case ATTR_COLOR0_ITIME: /* color0 config */ + if (sensor[1]) { + uint8_t config = ((edge_color*)sensor[1])->getConfig() & 0x07 ; + config = (value[0] << 4) | config ; + ((edge_color*)sensor[1])->setConfig(config) ; + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; + case ATTR_COLOR0_PWM_PERIOD: /* color0 pwm period */ + if (sensor[1]) { + ((edge_color*)sensor[1])->set_pwm_period((value[1] << 8) | value[0]) ; + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; + case ATTR_COLOR0_PWM_TARGET: /* color0 pwm calibration target */ + if (sensor[1]) { + color0_target[0] = (value[1] << 8) | value[0] ; + color0_target[1] = color0_target[0] ; + color0_target[2] = color0_target[1] ; + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; +#if 1 /* do not handle calibration twice */ + case ATTR_COLOR0_CALIBRATE: /* calibrate color0 */ + if (sensor[1] && value[0] && fromRequest) { /* do calibration */ + ((edge_color*)sensor[1])->request_calibration() ; + } + break ; +#endif + case ATTR_COLOR0_PWM_R: + if (sensor[1]) { + ((edge_color*)sensor[1])->setPwmR( (value[1] << 8) | value[0] ) ; +// color0_pwm[0] = (value[1] << 8) | value[0] ; + } + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + break ; + case ATTR_COLOR0_PWM_G: + if (sensor[1]) { + ((edge_color*)sensor[1])->setPwmG( (value[1] << 8) | value[0] ) ; +// color0_pwm[1] = (value[1] << 8) | value[0] ; + } + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + break ; + case ATTR_COLOR0_PWM_B: + if (sensor[1]) { + ((edge_color*)sensor[1])->setPwmB( (value[1] << 8) | value[0] ) ; +// color0_pwm[2] = (value[1] << 8) | value[0] ; + } + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + break ; + case ATTR_COLOR1_ENABLE: /* color1 enable */ + if (sensor[2]) { + if (value[0]) { + sensor[2]->reset() ; + sensor[2]->enable() ; + } else { + sensor[2]->disable() ; + } + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; + case ATTR_COLOR1_INTERVAL: + if (sensor[2]) { + sensor[2]->setInterval((value[1] << 8) | value[0]) ; + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; + case ATTR_COLOR1_TRIGMODE: /* color0 config */ + if (sensor[2]) { + uint8_t config = ((edge_color*)sensor[2])->getConfig() & 0x70 ; + if (value[0]) { + config = config | 0x06 ; + } + ((edge_color*)sensor[2])->setConfig(config) ; + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; + case ATTR_COLOR1_ITIME: /* color0 config */ + if (sensor[2]) { + uint8_t config = ((edge_color*)sensor[2])->getConfig() & 0x07 ; + config = (value[0] << 4) | config ; + ((edge_color*)sensor[2])->setConfig(config) ; + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; + case ATTR_COLOR1_PWM_PERIOD: /* color0 pwm period */ + if (sensor[2]) { + ((edge_color*)sensor[2])->set_pwm_period((value[1] << 8) | value[0]) ; + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; + case ATTR_COLOR1_PWM_TARGET: /* color0 pwm calibration target */ + if (sensor[2]) { + color1_target[0] = (value[1] << 8) | value[0] ; + color1_target[1] = color1_target[0] ; + color1_target[2] = color1_target[1] ; + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; +#if 1 /* do not handle calibration twice */ + case ATTR_COLOR1_CALIBRATE: /* calibrate color1 */ + if (sensor[2] && value[0] && fromRequest) { /* do calibration! */ + ((edge_color*)sensor[2])->request_calibration() ; + } + break ; +#endif + case ATTR_COLOR1_PWM_R: + if (sensor[2]) { + ((edge_color*)sensor[2])->setPwmR( (value[1] << 8) | value[0] ) ; +// color1_pwm[0] = (value[1] << 8) | value[0] ; + } + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + break ; + case ATTR_COLOR1_PWM_G: + if (sensor[2]) { + ((edge_color*)sensor[2])->setPwmG( (value[1] << 8) | value[0] ) ; +// color1_pwm[1] = (value[1] << 8) | value[0] ; + } + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + break ; + case ATTR_COLOR1_PWM_B: + if (sensor[2]) { + ((edge_color*)sensor[2])->setPwmB( (value[1] << 8) | value[0] ) ; +// color1_pwm[2] = (value[1] << 8) | value[0] ; + } + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + break ; + case ATTR_TEMP0_ENABLE: /* temp0 is used to control temp-sensors */ + if (sensor[3]) { + if (value[0]) { + sensor[3]->reset() ; + sensor[3]->enable() ; + } else { + sensor[3]->disable() ; + } + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; + case ATTR_TEMP0_INTERVAL: + if (sensor[3]) { + sensor[3]->setInterval((value[1] << 8) | value[0]) ; + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; + case ATTR_TEMP3_ENABLE: /* temp3 enable */ + break ; + case ATTR_GAS_ENABLE: /* pressure enable */ + if (sensor[4]) { + if (value[0]) { + sensor[4]->reset() ; + sensor[4]->enable() ; + } else { + sensor[4]->disable() ; + } + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; + case ATTR_GAS_INTERVAL: + if (sensor[4]) { + sensor[4]->setInterval((value[1] << 8) | value[0]) ; + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; + case ATTR_GAS_THR_MODE: + if (sensor[4]) { + ((edge_pressure*)sensor[4])->set_thr_mode(value[0]) ; + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; + case ATTR_GAS_THR_HIGH: + if (sensor[4]) { + ((edge_pressure*)sensor[4])->set_thr_high((value[1] << 8) | value[0]) ; + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; + case ATTR_GAS_THR_LOW: + if (sensor[4]) { + ((edge_pressure*)sensor[4])->set_thr_low((value[1] << 8) | value[0]) ; + if (fromRequest) afero->setAttributeComplete(requestId, attributeId, valueLen, value) ; + } + break ; + default: + break ; + } +} + +/* + * Callback that allows ASR to request an MCU attribute be changed. + * You should define this function in your MCU firmware to perform application-specific actions + * your code must take (e.g., updating the state of the hardware), + * in light of the attribute value change. +*/ +void attributeChangeRequest( + const uint8_t requestId, + const uint16_t attributeId, + const uint16_t valueLen, + const uint8_t *value +) +{ + uint32_t timestamp = edge_time ; + if ((pending != 0)&&(pending->request->requestId == requestId)) { + pending->replied_time = timestamp ; + + } + ts2time(timestamp, ¤t_time) ; /* 12 us */ + if (verbos) { + print_time(¤t_time) ; + printf(" %5d ASR requested [%d] : ", attributeId, requestId) ; + af_print_values(requestId, attributeId, valueLen, value) ; + } + + assignAttribute(requestId, attributeId, valueLen, value, true) ; + +// af_print_values(requestId, attributeId, valueLen, value) ; + if ((pending != 0)&&(pending->request->requestId == requestId)) { + printf("Request [%d] replied in %d sec!\n", requestId, pending->replied_time - pending->submit_time) ; + delete pending ; + pending = 0 ; + } +} + +/* + * Application callback that allows afLib to notify that an attribute has changed. + * This method will be called in response to a getAttribute call from the application + * and whenever a ASR module attribute changes. + */ +void attributeUpdatedReport( + const uint8_t requestId, + const uint16_t attributeId, + const uint16_t valueLen, + const uint8_t *value +) +{ + uint32_t timestamp = edge_time ; + int result ; + if ((pending != 0)&&(pending->request->requestId == requestId)) { + pending->replied_time = timestamp ; + } + ts2time(timestamp, ¤t_time) ; /* 12us */ + if (verbos) { + print_time(¤t_time) ; + printf(" %5d ASR reported [%d]: ", attributeId, requestId) ; + af_print_values(requestId, attributeId, valueLen, value) ; + } + + switch(attributeId) { + case ATTR_LINKED_TIMESTAMP: + set_time(valueLen, value) ; /* 68 us */ + printf("timestampe = ") ; + print_date_wd(¤t_time) ; +// print_time(¤t_time) ; + printf("\n") ; + break ; + case ATTR_WIFI_STDY_STATE: + gConnected = false ; + printf("WiFi Steady State: ") ; + switch(value[0]) { + case 0: printf("Not Connected\n") ; break ; + case 1: printf("Pending\n") ; break ; + case 2: + printf("Connected\n") ; + gConnected = true ; // the only case Connected state is OK + break ; + case 3: printf("Unknown Failure\n") ; break ; + case 4: printf("Association Failed\n") ; break ; + case 5: printf("Handshake Failed\n") ; break ; + case 6: printf("Echo Failed\n") ; break ; + case 7: printf("SSID Not Found\n") ; break ; + case 8: printf("NTP Failed\n") ; break ; + default: printf("Unknown [%d]\n", value[0]) ; break ; + } + break ; + case ATTR_REBOOT_REASON: + printf("Reboot Reason: ") ; + switch(value[0]) { + case 1: printf("Reset pin asserted\n") ; break ; + case 2: printf("Watchdog reset\n") ; break ; + case 4: printf("Software reset\n") ; break ; + case 8: printf("CPU Lock up\n") ; break ; + default: printf("Unknown [%d]\n", value[0]) ; break ; + } + break ; + case ATTR_MCU_INTERFACE: + printf("MCU Interface: ") ; + switch(value[0]) { + case 0: printf("No MCU\n") ; break ; + case 1: printf("SPI Slave\n") ; break ; + case 2: printf("UART\n") ; break ; + default: printf("Unknown\n") ; break ; + } + break ; + case AF_SYSTEM_ASR_STATE: + printf("ASR state: ") ; + switch(value[0]) { + case MODULE_STATE_REBOOTED: + gLinked = false ; + printf("Rebooted\n") ; + wait_ms(100) ; + if (edge_mgr_status == EDGE_MGR_RUNNING) { + reboot_edge() ; + } + break ; + case MODULE_STATE_LINKED: + if (gLinked == false) { /* new link established */ + result = afero->getAttribute(ATTR_LINKED_TIMESTAMP) ; + if (result != afSUCCESS) { + printf("getAttriute for ATTR_LINKED_TIMESTAMP failed\n") ; + } + } + gLinked = true ; + printf("Linked\n") ; + break ; + case MODULE_STATE_UPDATING: + gLinked = true ; + printf("Updating\n") ; + if (display) { + display->cls() ; + display->locate(5, 5) ; + display->printf("FW Updating...") ; + } + break ; + case MOUDLE_STATE_UPDATE_READY: + gLinked = false ; + printf("Update ready - rebooting\n") ; + if (display) { + display->cls() ; + display->locate(5, 5) ; + display->printf("Rebooting...") ; + } + while(afero->setAttribute32(AF_SYSTEM_COMMAND, MODULE_COMMAND_REBOOT) != afSUCCESS) { + afero->loop() ; + wait_us(100) ; + } + reboot_edge() ; + break ; + default: + break ; + } + break ; + default: + assignAttribute(requestId, attributeId, valueLen, value, false) ; + break ; + } + if ((pending != 0)&&(pending->request->requestId == requestId)) { + printf("Request [%d] replied in %d sec!\n", requestId, pending->replied_time - pending->submit_time) ; + delete pending ; + pending = 0 ; + } +} \ No newline at end of file