new try to eliminate blue lamp bar overstay

2025-06-26 16:42:01 +08:00 · 2025-06-26 16:42:01 +08:00 · 75f39aa138
parent b033dfbd93
commit 75f39aa138
10 changed files with 89 additions and 26 deletions
--- a/Core/Inc/sts_lamp_bar.h
+++ b/Core/Inc/sts_lamp_bar.h
@ -88,19 +88,28 @@ enum sts_lamp_color {
 #define		STS_SOS_COLOR		STS_RED_BLUE
 #define		STS_FALL_NORMAL_COLOR			STS_GREEN
-#define		STS_FALL_SUSPICIOUS_COLOR		STS_YELLOW
+//#define		STS_FALL_SUSPICIOUS_COLOR		STS_YELLOW
-#define		STS_FALL_CONFIRMED_COLOR		STS_RED
+//#define		STS_FALL_CONFIRMED_COLOR		STS_RED
 #define		STS_FALL_SUSPICIOUS_COLOR		(sts_color_severity_l2_l3<<4)
 #define		STS_FALL_CONFIRMED_COLOR		(sts_color_severity_l2_l3&0x0F)
 #define		STS_HUMAN_MOVEMENT_MOTIONLESS_NORMAL			STS_GREEN
-#define		STS_HUMAN_MOVEMENT_MOTIONLESS_SHORT_COLOR		STS_YELLOW
+//#define		STS_HUMAN_MOVEMENT_MOTIONLESS_SHORT_COLOR		STS_YELLOW
-#define		STS_HUMAN_MOVEMENT_MOTIONLESS_LONG_COLOR		STS_RED
+//#define		STS_HUMAN_MOVEMENT_MOTIONLESS_LONG_COLOR		STS_RED
 #define		STS_HUMAN_MOVEMENT_MOTIONLESS_SHORT_COLOR		(sts_color_severity_l2_l3<<4)
 #define		STS_HUMAN_MOVEMENT_MOTIONLESS_LONG_COLOR		(sts_color_severity_l2_l3&0x0F)
 #define		STS_OCCUPANCY_NORMAL_COLOR			STS_GREEN
-#define		STS_OCCUPANCY_STAYLONGER_COLOR		STS_YELLOW		//NOT REALLY USED, JUST TO ALIGN FOR COLORS PATTERN
+//#define		STS_OCCUPANCY_STAYLONGER_COLOR		STS_YELLOW		//NOT REALLY USED, JUST TO ALIGN FOR COLORS PATTERN
-#define		STS_OCCUPANCY_OVERSTAY_COLOR		STS_BLUE
+//#define		STS_OCCUPANCY_OVERSTAY_COLOR		STS_BLUE
 #define		STS_OCCUPANCY_STAYLONGER_COLOR		(sts_color_severity_l2_l3<<4)
 #define		STS_OCCUPANCY_OVERSTAY_COLOR		(sts_color_severity_l2_l3&0x0F)
 #define		STS_COLOR_SEVERITY_L2			(sts_color_severity_l2_l3<<4)
 #define		STS_COLOR_SEVERITY_L3			(sts_color_severity_l2_l3&0x0F)
 #endif
 /*
 enum sts_oo_work_mode {
 	STS_NETWORK_MODE = 0,		// 0    NETWORK MODE
--- a/Core/Src/sys_app.c
+++ b/Core/Src/sys_app.c
@ -136,7 +136,7 @@ void SystemApp_Init(void)
 #if defined(STS_T6)||defined(L8)
  //STS_TOF_VL53LX_PresenceDetection_Process_Init();
-  //STS_Lamp_Bar_Self_Test_Simple();
+  STS_Lamp_Bar_Self_Test_Simple();
  //STS_Lamp_Bar_Self_Test();
  /*
  LED_GREEN_ON;HAL_Delay(50);
--- a/LoRaWAN/App/lora_app.c
+++ b/LoRaWAN/App/lora_app.c
@ -45,7 +45,7 @@
 #include "app_tof_peoplecount.h"
 #include "yunhorn_sts_prd_conf.h"
 #include "yunhorn_sts_sensors.h"
-
+#include "app_tof.h"
 #if	(defined(STS_O6)||defined(STS_T6)||defined(O1L))
 #include "sts_lamp_bar.h"
 #endif
@ -615,6 +615,7 @@ void STS_Sensor_Init(void)
 	  LED_GREEN_ON;HAL_Delay(150);
 	  LED_RED_ON;HAL_Delay(150);
 	  LED_GREEN_OFF;HAL_Delay(150);
 #if 0
 	  LED_RED_OFF;HAL_Delay(150);
 	  LED_GREEN_ON;HAL_Delay(50);
@ -654,6 +655,8 @@ void STS_Sensor_Init(void)
 	  UTIL_TIMER_Start(&YunhornSTSWakeUpScanTimer);
 	#endif
 	  sts_lamp_bar_color = HALL1_STATE==0? STS_RED:STS_GREEN;	// DOOR CLOSED=0, RED, DOOR OPEN=1
 	  UTIL_TIMER_Start(&STSLampBarColorTimer);
 	  UTIL_TIMER_Start(&STSDurationCheckTimer);
@ -1491,6 +1494,7 @@ static void OnRxTimerLedEvent(void *context)
 static void OnJoinTimerLedEvent(void *context)
 {
  HAL_GPIO_TogglePin(LED3_GPIO_Port, LED3_Pin); /* LED_RED */
  UTIL_SEQ_SetTask((1 << CFG_SEQ_Task_YunhornSTSEventP3), CFG_SEQ_Prio_0);
 }
 /* USER CODE END PrFD_LedEvents */
--- a/STM32CubeIDE/.settings/language.settings.xml
+++ b/STM32CubeIDE/.settings/language.settings.xml
@ -5,7 +5,7 @@
 			<provider copy-of="extension" id="org.eclipse.cdt.ui.UserLanguageSettingsProvider"/>
 			<provider-reference id="org.eclipse.cdt.core.ReferencedProjectsLanguageSettingsProvider" ref="shared-provider"/>
 			<provider-reference id="org.eclipse.cdt.managedbuilder.core.MBSLanguageSettingsProvider" ref="shared-provider"/>
-			<provider class="com.st.stm32cube.ide.mcu.toolchain.armnone.setup.CrossBuiltinSpecsDetector" console="false" env-hash="-1364498518074211444" id="com.st.stm32cube.ide.mcu.toolchain.armnone.setup.CrossBuiltinSpecsDetector" keep-relative-paths="false" name="MCU ARM GCC Built-in Compiler Settings" parameter="${COMMAND} ${FLAGS} -E -P -v -dD &quot;${INPUTS}&quot;" prefer-non-shared="true">
+			<provider class="com.st.stm32cube.ide.mcu.toolchain.armnone.setup.CrossBuiltinSpecsDetector" console="false" env-hash="-898298991057946541" id="com.st.stm32cube.ide.mcu.toolchain.armnone.setup.CrossBuiltinSpecsDetector" keep-relative-paths="false" name="MCU ARM GCC Built-in Compiler Settings" parameter="${COMMAND} ${FLAGS} -E -P -v -dD &quot;${INPUTS}&quot;" prefer-non-shared="true">
 				<language-scope id="org.eclipse.cdt.core.gcc"/>
 				<language-scope id="org.eclipse.cdt.core.g++"/>
 			</provider>
@ -16,7 +16,7 @@
 			<provider copy-of="extension" id="org.eclipse.cdt.ui.UserLanguageSettingsProvider"/>
 			<provider-reference id="org.eclipse.cdt.core.ReferencedProjectsLanguageSettingsProvider" ref="shared-provider"/>
 			<provider-reference id="org.eclipse.cdt.managedbuilder.core.MBSLanguageSettingsProvider" ref="shared-provider"/>
-			<provider class="com.st.stm32cube.ide.mcu.toolchain.armnone.setup.CrossBuiltinSpecsDetector" console="false" env-hash="-1364498518074211444" id="com.st.stm32cube.ide.mcu.toolchain.armnone.setup.CrossBuiltinSpecsDetector" keep-relative-paths="false" name="MCU ARM GCC Built-in Compiler Settings" parameter="${COMMAND} ${FLAGS} -E -P -v -dD &quot;${INPUTS}&quot;" prefer-non-shared="true">
+			<provider class="com.st.stm32cube.ide.mcu.toolchain.armnone.setup.CrossBuiltinSpecsDetector" console="false" env-hash="-898298991057946541" id="com.st.stm32cube.ide.mcu.toolchain.armnone.setup.CrossBuiltinSpecsDetector" keep-relative-paths="false" name="MCU ARM GCC Built-in Compiler Settings" parameter="${COMMAND} ${FLAGS} -E -P -v -dD &quot;${INPUTS}&quot;" prefer-non-shared="true">
 				<language-scope id="org.eclipse.cdt.core.gcc"/>
 				<language-scope id="org.eclipse.cdt.core.g++"/>
 			</provider>
--- a/STM32CubeIDE/Release/WLE5CC_NODE_STS.bin
+++ b/STM32CubeIDE/Release/WLE5CC_NODE_STS.bin
--- a/STM32CubeIDE/Release/WLE5CC_NODE_STS.elf
+++ b/STM32CubeIDE/Release/WLE5CC_NODE_STS.elf
--- a/STS/Core/Inc/yunhorn_sts_prd_conf.h
+++ b/STS/Core/Inc/yunhorn_sts_prd_conf.h
@ -186,8 +186,8 @@
 /*		General Settings							*/
 #define MajorVer									25U
-#define MinorVer									5U
+#define MinorVer									6U
-#define SubMinorVer 								19U
+#define SubMinorVer 								25U
 #define FirmwareVersion								3U
 #define	YUNHORN_STS_MAX_NVM_CFG_SIZE				64U
 #define YUNHORN_STS_AC_CODE_SIZE					20U
--- a/STS/Core/Inc/yunhorn_sts_sensors.h
+++ b/STS/Core/Inc/yunhorn_sts_sensors.h
@ -190,8 +190,9 @@ typedef	struct sts_cfg_nvm {
 	uint8_t length;				// length of following parameters except  AC CODE(20bytes)
 	uint8_t p[STS_CFG_PCFG_SIZE];
-	uint8_t reserve02;
+	uint8_t color_occupy_vacant;						// occupy color and vacant color define, C_OCCUPY<<4|C_VACANT
-	uint8_t reserve03;
+	uint8_t color_severity_l2_l3;						// over stay, motionless, fall down severity level 2 and level 3 color define
 														// (C_S_L2<<4)|(C_S_L3&0x0F)
 	uint8_t sensor_install_height_in_10cm;
 	uint8_t alarm_parameter05;
 #ifdef L8
--- a/STS/Core/Src/yunhorn_sts_process.c
+++ b/STS/Core/Src/yunhorn_sts_process.c
@ -72,7 +72,7 @@ volatile uint8_t sts_cloud_netcolor = STS_BLUE;		//netColor
 extern volatile uint8_t sts_occupancy_status;
 extern volatile sts_fhmos_sensor_config_t fhmos_cfg;
 extern volatile sts_fhmos_sensor_cmd_t fhmos_cmd;
-extern volatile uint8_t sts_status_color, sts_lamp_bar_color;//puColor
+extern volatile uint8_t sts_status_color, sts_lamp_bar_color, sts_color_occupy_vacant, sts_color_severity_l2_l3;//puColor
 extern uint8_t luminance_level;
 volatile uint8_t sts_fhmos_state_changed=0;
 volatile uint8_t sts_head_level_low =0, last_head_level_low_state=0;
@ -128,8 +128,8 @@ volatile sts_cfg_nvm_t sts_cfg_nvm = {
 		0x00,		//reserve --P[18]
 		0x00,		//reserve --P[19]
 		},			// above  20 bytes
-		0x00,		//reserve2
+		0x21,		//reserve2
-		0x00,		//reserve3
+		0x11,		//reserve3
 		0x20,		//sensor install height in dm =10 cm, default 32*10=320cm, 3.2meter
 		0x00,		//reserve5	alarm_parameter05
@ -237,7 +237,16 @@ volatile uint8_t sts_fhmos_result=STS_FHMOS_FALL_STATE_NO_OCCUPY;
 volatile uint8_t sts_fhmos_bitmap_pending=FHMOS_BITMAP_BLANK;
 #endif
 #define 	STS_COLOR_DEFAULT_VACANT		(sts_color_occupy_vacant&0x0f)
 #define 	STS_COLOR_DEFAULT_OCCUPY		((sts_color_occupy_vacant>>4)&0x0f)
 #ifdef	SERCO_PWH
 volatile uint8_t sts_color_occupy_vacant = (STS_RED<<4)|(STS_GREEN&0x0f);
 volatile uint8_t sts_color_severity_l2_l3 = (STS_RED<<4)|((STS_RED)&0x0F);
 #else
 volatile uint8_t sts_color_occupy_vacant = (STS_RED<<4)|(STS_GREEN&0x0f);
 volatile uint8_t sts_color_severity_l2_l3 = (STS_YELLOW<<4)|((STS_BLUE)&0x0F);
 #endif
 #if (defined(YUNHORN_STS_O6_ENABLED) && defined(USE_ACCONEER_A111))
 extern volatile STS_OO_RSS_SensorTuneDataTypeDef sts_presence_rss_config;
@ -761,6 +770,29 @@ void USER_APP_Parse_CMD_P(uint8_t *parse_buffer, uint8_t parse_buffer_size)
 	case 5:
 		break;
 	case 6:			// switch lamp bar color of occupy and vacant
 					// P 1 1 L O V  --> P11L21 --> RED:2 for occupy, GREEN:1 for vacant
 					// P 1 1 S L2 L3 ---> P11S43 ---> YELLOW:4 ofr severity L2, BLUE:3 for severity L3
 		if ((parse_buffer[CFG_CMD5]>='0')&& (parse_buffer[CFG_CMD5]<='9')&&(parse_buffer[CFG_CMD6]>='0')&& (parse_buffer[CFG_CMD6]<='9'))
 		{
 			if ((parse_buffer[CFG_CMD4] == 'L')){
 				sts_cfg_nvm.color_occupy_vacant = ((uint8_t)(parse_buffer[CFG_CMD5]-0x30)<<4)|((uint8_t)(parse_buffer[CFG_CMD6]-0x30));
 				sts_color_occupy_vacant = sts_cfg_nvm.color_occupy_vacant;
 				APP_LOG(TS_OFF, VLEVEL_M, "\r\n Workmode=%d  Color Occupy=%02X  Vacant=%02X \r\n", sts_work_mode, STS_COLOR_DEFAULT_OCCUPY, STS_COLOR_DEFAULT_VACANT);
 				OnStoreSTSCFGContextRequest();
 			} else if ((parse_buffer[CFG_CMD4] == 'S')){
 				sts_cfg_nvm.color_severity_l2_l3 = ((uint8_t)(parse_buffer[CFG_CMD5]-0x30)<<4)|((uint8_t)(parse_buffer[CFG_CMD6]-0x30));
 				sts_color_severity_l2_l3 = sts_cfg_nvm.color_severity_l2_l3;
 				APP_LOG(TS_OFF, VLEVEL_M, "\r\n Workmode=%d  Severity Color L2 =%02X  L3=%02X \r\n", sts_work_mode, STS_COLOR_SEVERITY_L2, STS_COLOR_SEVERITY_L3);
 				OnStoreSTSCFGContextRequest();
 			}
 		}
 		break;
 	// P11T XYYY for fall down, human movement, occupancy, SOS
 	case 8:
 		if ((parse_buffer[CFG_CMD4]=='T') && (parse_buffer[CFG_CMD5]>='0')&& (parse_buffer[CFG_CMD5]<='9'))
@ -1736,8 +1768,8 @@ void OnStoreSTSCFGContextRequest(void)
 		to_store__value[i++] = (sts_cfg_nvm.p[j]);
 	}
 #endif
-	to_store__value[i++] = sts_cfg_nvm.reserve02;
+	to_store__value[i++] = sts_cfg_nvm.color_occupy_vacant;
-	to_store__value[i++] = sts_cfg_nvm.reserve03;
+	to_store__value[i++] = sts_cfg_nvm.color_severity_l2_l3;
 	to_store__value[i++] = sts_cfg_nvm.sensor_install_height_in_10cm;
 	to_store__value[i++] = sts_cfg_nvm.alarm_parameter05;
 #ifdef L8
@ -1850,8 +1882,11 @@ void STS_REBOOT_CONFIG_Init(void)
 			APP_LOG(TS_OFF, VLEVEL_M, "%2d ", fhmos_bg.maskoff[j]);
 		}
 #endif
-		sts_cfg_nvm.reserve02			=(uint8_t)nvm_store_value[NVM_RESERVE02];
+//		sts_cfg_nvm.reserve02			=(uint8_t)nvm_store_value[NVM_RESERVE02];
-		sts_cfg_nvm.reserve03			=(uint8_t)nvm_store_value[NVM_RESERVE03];
+//		sts_cfg_nvm.reserve03			=(uint8_t)nvm_store_value[NVM_RESERVE03];
 		sts_cfg_nvm.color_occupy_vacant			=(uint8_t)nvm_store_value[NVM_RESERVE02];
 		sts_cfg_nvm.color_severity_l2_l3		=(uint8_t)nvm_store_value[NVM_RESERVE03];
 		sts_cfg_nvm.sensor_install_height_in_10cm			=(uint8_t)nvm_store_value[NVM_SENSOR_INSTALL_HEIGHT];
 		sts_cfg_nvm.alarm_parameter05			=(uint8_t)nvm_store_value[NVM_ALARM_PARAMETER05];
 #ifdef L8
@ -1949,6 +1984,11 @@ void OnRestoreSTSCFGContextProcess(void)
 	sts_work_mode	= sts_cfg_nvm.work_mode;
 	sts_service_mask = sts_cfg_nvm.sts_service_mask;
 	sts_sensor_install_height = sts_cfg_nvm.sensor_install_height_in_10cm*100;
 	APP_LOG(TS_OFF, VLEVEL_M, "\r\n Color Severity L2L3=0x%02x   Occupy Vacant=0x%02x \r\n", sts_color_severity_l2_l3, sts_color_occupy_vacant);
 	sts_color_severity_l2_l3	= sts_cfg_nvm.color_severity_l2_l3;
 	sts_color_occupy_vacant		= sts_cfg_nvm.color_occupy_vacant;
 	APP_LOG(TS_OFF, VLEVEL_M, "\r\n After restore from NVM ---> #### Color Severity L2L3=0x%02x   Occupy Vacant=0x%02x \r\n", sts_color_severity_l2_l3, sts_color_occupy_vacant);
 #ifdef YUNHORN_STS_O6_ENABLED
 	sts_lamp_bar_color = STS_GREEN;
@ -2430,10 +2470,11 @@ void YunhornSTSDurationCheckTimer(void)
 #endif
 			LED_RED_ON;
 			APP_LOG(TS_OFF, VLEVEL_M, "\r\nSensor1 overstay process: sts_color_severity_l2_l3=0x%02x, STS_OCCUPANCY_OVERSTAY_COLOR = 0x%02x \r\n", sts_color_severity_l2_l3, STS_OCCUPANCY_OVERSTAY_COLOR);
 			sts_lamp_bar_color = STS_OCCUPANCY_OVERSTAY_COLOR;
-//			APP_LOG(TS_OFF, VLEVEL_M, "\r\nSensor1 overstay set color to %d  color:%s\r\n",sts_lamp_bar_color, (char*)code2color[sts_lamp_bar_color]);
+			APP_LOG(TS_OFF, VLEVEL_M, "\r\nSensor1 overstay set color to 0x%02x  color:%s\r\n",sts_lamp_bar_color, (char*)code2color[sts_lamp_bar_color]);
 			over_threshold |= 1<<0;
-//			APP_LOG(TS_OFF, VLEVEL_M, "\r\n 1<<1 Over Threshold =0x%02x \r\n", over_threshold);
+			APP_LOG(TS_OFF, VLEVEL_M, "\r\n 1<<1 Over Threshold =0x%02x \r\n", over_threshold);
 		}
@ -3135,7 +3176,7 @@ void OnSensorL8AStateChanged(void)
 			fhmos_data.head_low_level_start_time 					= sensor_event_time.Seconds;
 			fhmos_data.state_fall_released = 0;
-			APP_LOG(TS_OFF, VLEVEL_L, "\r\n Head Level Low --------  state =%d  last =%d \r\n", sts_head_level_low, last_head_level_low_state);
+			APP_LOG(TS_OFF, VLEVEL_M, "\r\n Head Level Low --------  state =%d  last =%d \r\n", sts_head_level_low, last_head_level_low_state);
 			sts_o7_sensorData.event_sensor3_fall_start_time			= sensor_event_time.Seconds;
@ -3145,7 +3186,7 @@ void OnSensorL8AStateChanged(void)
 		{
 			fhmos_data.head_low_level_stop_time = sensor_event_time.Seconds;
 			fhmos_data.state_fall = STS_FHMOS_FALL_STATE_NORMAL;
-			APP_LOG(TS_OFF, VLEVEL_L, "\r\n Head Level Rise up or Out of Focus Area  ++++++++++ \r\n");
+			APP_LOG(TS_OFF, VLEVEL_M, "\r\n Head Level Rise up or Out of Focus Area  ++++++++++ \r\n");
 			sts_fhmos_state_changed = 1;
 			fhmos_data.state_fall_released = 1;
 		} //else {
--- a/STS/TOF/App/app_tof.c
+++ b/STS/TOF/App/app_tof.c
@ -57,7 +57,7 @@ extern volatile uint8_t sts_fhmos_bitmap_pending;
 #include "stm32wlxx_nucleo.h"
 //static int to_confirm = 0;
 static uint8_t yes_count=0, no_count=0;
-#define TIME_C	2
+#define TIME_C	4
 static uint32_t STS_Get_Center_Range_Distance(RANGING_SENSOR_Result_t *Result);
 uint16_t bg_distance[64]={0};
 uint8_t idx[64]={0};
@ -831,15 +831,20 @@ static void print_result(RANGING_SENSOR_Result_t *Result)
 	  	  if (yes_count < TIME_C)
 	  	  {
 	  		  yes_count ++;
 	  		  APP_LOG(TS_OFF, VLEVEL_M, "\r\n YES++ %d\r\n", yes_count);
 	  	  } else {
 	  		  no_count =0;
 	  	  }
 	} else if ((head_distance_from_ceiling_mm < (factor2_head_level_from_floor_mm - 150))) // TODO XXX  50mm gap to avoid flapping back and forth
 	{
 		if (no_count < TIME_C)
 		{
 			no_count ++;
 			APP_LOG(TS_OFF, VLEVEL_M, "\r\n NO++ %d\r\n", no_count);
 		} else {
 			yes_count =0;
 		}
@ -849,10 +854,13 @@ static void print_result(RANGING_SENSOR_Result_t *Result)
  	  {
  		  sts_head_level_low = 1;
  		  APP_LOG(TS_OFF, VLEVEL_M, "\r\n lead low = 1\r\n");
  	  } else if (no_count > (TIME_C -1))
  	  {
 			  sts_head_level_low = 0;
 			  APP_LOG(TS_OFF, VLEVEL_M, "\r\n lead low = 0\r\n");
 			  sts_fhmos_bitmap_pending = FHMOS_BITMAP_BLANK;
 			  APP_LOG(TS_OFF, VLEVEL_M, "\r\n return zero statues, bitmap status=%d \r\n", sts_fhmos_bitmap_pending);
  	  }