Test Report

12:02:10.837		Running procedure: 8.19.2.2
12:02:10.842		This procedure is enabled because the following options:
12:02:10.842		- supports.analogChangeEvents == true
12:02:10.843		step: 1
12:02:10.843		- Generate a stable analog input to the device that exceeds the current input value by the configured deadband value (e.g. cause an event to be generated)
12:02:10.843		Updated AI 1024: value=100.0, flags=1, timestamp=DNPTime(1586534530843)
12:02:10.844		Updated AI 65535: value=100.0, flags=1, timestamp=DNPTime(1586534530843)
12:02:10.844		Updated AI 41: value=100.0, flags=1, timestamp=DNPTime(1586534530844)
12:02:10.845		step: 2
12:02:10.845		- Read(0x01) fir: 1 fin: 1 con: 0 uns: 0 seq: 0x00
12:02:10.845		- g32v0, All Objects
12:02:10.846	--A->	Read(0x01) fir: 1 fin: 1 con: 0 uns: 0 seq: 0x00
12:02:10.846		g32v0, All Objects
12:02:10.846	--T->	fir: 1 fin: 1 seq: 0
12:02:10.847	--L->	master: 1 pri: 1 fcb: 0 fcv: 0 func: UNCONFIRMED_USER_DATA(0x04) 0xC4 length: 11 dest: 1024 src: 1
12:02:10.847	--P->	05 64 0B C4 00 04 01 00 CA 8A
12:02:10.847		C0 C0 01 20 00 06 68 86
12:02:10.849		steps: 3 to 6
12:02:10.849		- Read a single fragment response w/ sequence(0x00)
12:02:10.849		- Verify that the device responds with only Set(g32v1, g32v2)
12:02:10.849		- Verify that the data is reported using 8 bit indexing (qualifier 0x17) or 16 bit indexing (qualifier 0x28)
12:02:10.849		- Validate that the device responded with a value representing the input applied
12:02:10.849		- Verify that flag behavior complies with Section 2, Note #5.
12:02:10.849		- Verify that an application layer confirmation is requested.
12:02:10.850	<-P--	05 64 24 44 01 00 00 04 E0 88
12:02:10.850		C0 E0 81 90 00 20 01 28 03 00 00 04 01 64 00 00 4C D6
12:02:10.850		00 FF FF 01 64 00 00 00 29 00 01 64 00 00 00 A9 10
12:02:10.851	<-L--	master: 0 pri: 1 fcb: 0 fcv: 0 func: UNCONFIRMED_USER_DATA(0x04) 0x44 length: 36 dest: 1 src: 1024
12:02:10.851	<-T--	fir: 1 fin: 1 seq: 0
12:02:10.852	<-A--	Response(0x81) fir: 1 fin: 1 con: 1 uns: 0 seq: 0x00 IIN(DeviceRestart, NeedTime)
12:02:10.852		g32v1, 2-Byte Count and Index, count: 3
12:02:10.852		[1024] - flags: 0x01 value: 100
12:02:10.852		[65535] - flags: 0x01 value: 100
12:02:10.852		[41] - flags: 0x01 value: 100
12:02:10.853		steps: 7 to 8
12:02:10.853		- Expect no response.
12:02:13.053		step: 9
12:02:13.053		- Generate a stable analog input to the device that exceeds the current input value by the configured deadband value (e.g. cause an event to be generated)
12:02:13.054		Updated AI 65535: value=200.0, flags=1, timestamp=DNPTime(1586534533053)
12:02:13.054		Updated AI 65535: value=300.0, flags=1, timestamp=DNPTime(1586534533054)
12:02:13.055		Updated AI 0: value=100.0, flags=1, timestamp=DNPTime(1586534533054)
12:02:13.055		step: 10
12:02:13.055		- Read(0x01) fir: 1 fin: 1 con: 0 uns: 0 seq: 0x01
12:02:13.055		- g32v0, All Objects
12:02:13.056	--A->	Read(0x01) fir: 1 fin: 1 con: 0 uns: 0 seq: 0x01
12:02:13.056		g32v0, All Objects
12:02:13.056	--T->	fir: 1 fin: 1 seq: 0
12:02:13.057	--L->	master: 1 pri: 1 fcb: 0 fcv: 0 func: UNCONFIRMED_USER_DATA(0x04) 0xC4 length: 11 dest: 1024 src: 1
12:02:13.057	--P->	05 64 0B C4 00 04 01 00 CA 8A
12:02:13.057		C0 C1 01 20 00 06 6E A5
12:02:13.059		steps: 11 to 14
12:02:13.059		- Read a single fragment response w/ sequence(0x01)
12:02:13.059		- Verify that the device responds with only Set(g32v1, g32v2)
12:02:13.059		- Verify that the data is reported using 8 bit indexing (qualifier 0x17) or 16 bit indexing (qualifier 0x28)
12:02:13.059		- Validate that the device responded with a value representing the input applied
12:02:13.059		- Optionally, the device can report the previous state of the input applied in the first step followed by a value representing the current state of the input applied previously.
12:02:13.059		- Verify that an application layer confirmation is requested.
12:02:13.061	<-P--	05 64 39 44 01 00 00 04 74 92
12:02:13.061		C1 E1 81 90 00 20 01 28 06 00 00 04 01 64 00 00 82 BB
12:02:13.061		00 FF FF 01 64 00 00 00 29 00 01 64 00 00 00 FF D4 B9
12:02:13.061		FF 01 C8 00 00 00 FF FF 01 2C 01 00 00 00 00 01 D1 D8
12:02:13.061		64 00 00 00 8D 26
12:02:13.061	<-L--	master: 0 pri: 1 fcb: 0 fcv: 0 func: UNCONFIRMED_USER_DATA(0x04) 0x44 length: 57 dest: 1 src: 1024
12:02:13.062	<-T--	fir: 1 fin: 1 seq: 1
12:02:13.064	<-A--	Response(0x81) fir: 1 fin: 1 con: 1 uns: 0 seq: 0x01 IIN(DeviceRestart, NeedTime)
12:02:13.064		g32v1, 2-Byte Count and Index, count: 6
12:02:13.064		[1024] - flags: 0x01 value: 100
12:02:13.064		[65535] - flags: 0x01 value: 100
12:02:13.064		[41] - flags: 0x01 value: 100
12:02:13.064		[65535] - flags: 0x01 value: 200
12:02:13.064		[65535] - flags: 0x01 value: 300
12:02:13.064		[0] - flags: 0x01 value: 100
12:02:13.064	--A->	Confirm(0x00) fir: 1 fin: 1 con: 0 uns: 0 seq: 0x01
12:02:13.064	--T->	fir: 1 fin: 1 seq: 0
12:02:13.065	--L->	master: 1 pri: 1 fcb: 0 fcv: 0 func: UNCONFIRMED_USER_DATA(0x04) 0xC4 length: 8 dest: 1024 src: 1
12:02:13.065	--P->	05 64 08 C4 00 04 01 00 9A 19
12:02:13.065		C0 C1 00 7D 3D
12:02:13.068		step: 15
12:02:13.068		- Read(0x01) fir: 1 fin: 1 con: 0 uns: 0 seq: 0x02
12:02:13.068		- g32v0, All Objects
12:02:13.068	--A->	Read(0x01) fir: 1 fin: 1 con: 0 uns: 0 seq: 0x02
12:02:13.068		g32v0, All Objects
12:02:13.068	--T->	fir: 1 fin: 1 seq: 0
12:02:13.069	--L->	master: 1 pri: 1 fcb: 0 fcv: 0 func: UNCONFIRMED_USER_DATA(0x04) 0xC4 length: 11 dest: 1024 src: 1
12:02:13.069	--P->	05 64 0B C4 00 04 01 00 CA 8A
12:02:13.069		C0 C2 01 20 00 06 64 C0
12:02:13.070		step: 16
12:02:13.070		- Read a single fragment response w/ sequence(0x02)
12:02:13.070		- Verify that the response is empty
12:02:13.071	<-P--	05 64 0A 44 01 00 00 04 67 88
12:02:13.071		C2 C2 81 90 00 3E A2
12:02:13.071	<-L--	master: 0 pri: 1 fcb: 0 fcv: 0 func: UNCONFIRMED_USER_DATA(0x04) 0x44 length: 10 dest: 1 src: 1024
12:02:13.071	<-T--	fir: 1 fin: 1 seq: 2
12:02:13.072	<-A--	Response(0x81) fir: 1 fin: 1 con: 0 uns: 0 seq: 0x02 IIN(DeviceRestart, NeedTime)
12:02:13.072		Passed procedure: 8.19.2.2