CN112559329A - Method and system for detecting energy controller system and software - Google Patents

Method and system for detecting energy controller system and software Download PDF

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Publication number
CN112559329A
CN112559329A CN202011411269.0A CN202011411269A CN112559329A CN 112559329 A CN112559329 A CN 112559329A CN 202011411269 A CN202011411269 A CN 202011411269A CN 112559329 A CN112559329 A CN 112559329A
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energy controller
software
data
container
client
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Inventor
卢继哲
刘宣
唐悦
阿辽沙·叶
窦健
郑国权
郄爽
任毅
李然
侯帅
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China Electric Power Research Institute Co Ltd CEPRI
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China Electric Power Research Institute Co Ltd CEPRI
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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F11/00Error detection; Error correction; Monitoring
    • G06F11/36Preventing errors by testing or debugging software
    • G06F11/3668Software testing
    • G06F11/3672Test management
    • G06F11/3684Test management for test design, e.g. generating new test cases

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  • Theoretical Computer Science (AREA)
  • Computer Hardware Design (AREA)
  • Quality & Reliability (AREA)
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  • General Engineering & Computer Science (AREA)
  • General Physics & Mathematics (AREA)
  • Debugging And Monitoring (AREA)

Abstract

The application discloses a method and a system for detecting a system and software of a energy controller. Wherein, the method comprises the following steps: detecting the process, the memory, the file system, the network information, the hardware information and the software information of an operating system of the energy controller according to an instruction issued by the client; according to an instruction issued by a client, configuring and modifying container resources of the energy controller, inquiring container information, controlling the running state of the containers, monitoring the abnormal state of the containers, checking communication data and interaction data among different containers, wherein one client can be provided with a plurality of containers, and one container can be provided with a plurality of software; the functionality, performance efficiency, compatibility, interoperability, interface consistency and information security of the software of the energy controller are detected.

Description

Method and system for detecting energy controller system and software
Technical Field
The present application relates to the field of power system technologies, and in particular, to a method and a system for detecting a system and software of a power controller.
Background
The energy controller is installed in a public transformer or a special transformer area, can realize flexible access of metering and sensing equipment at a client side and a power distribution side, has the functions of data acquisition, intelligent cost control, clock synchronization, accurate metering, ordered charging, energy consumption management, loop state inspection, household transformer relation identification, power failure event reporting and the like, and needs to be installed with software in the energy controller before the energy controller is put into use, but the prior art cannot effectively inspect the software in the energy controller.
Aiming at the technical problem that software needs to be installed in the energy controller before the energy controller in the prior art is put into use, but the prior art cannot effectively check the software in the energy controller, an effective solution is not provided at present.
Disclosure of Invention
The embodiment of the disclosure provides a method and a system for detecting a system and software of a power controller, so as to at least solve the technical problem that the prior art cannot effectively check the software in the power controller because the power controller needs to install the software in the power controller before being put into use.
According to an aspect of the embodiments of the present disclosure, there is provided a method for detecting a system and software of a power controller, including: detecting the process, the memory, the file system, the network information, the hardware information and the software information of an operating system of the energy controller according to an instruction issued by the client; according to an instruction issued by a client, configuring and modifying container resources of the energy controller, inquiring container information, controlling the running state of the containers, monitoring the abnormal state of the containers, checking communication data and interaction data among different containers, wherein one client can be provided with a plurality of containers, and one container can be provided with a plurality of software; the functionality, performance efficiency, compatibility, interoperability, interface consistency and information security of the software of the energy controller are detected.
According to another aspect of the embodiments of the present disclosure, there is also provided a system for detecting a system of a power controller and software, including: the detection system module is used for detecting the process, the memory, the file system, the network information, the hardware information and the software information of the operating system of the energy controller according to the instruction issued by the client; the system comprises a detection container module, a client and a server, wherein the detection container module is used for configuring and modifying container resources of the energy controller according to an instruction issued by the client, inquiring container information, controlling the operation state of a container, monitoring the abnormal state of the container, and checking communication data and interaction data among different containers; and the detection software module is used for detecting the functions, performance efficiency, compatibility, interoperation, interface consistency and information safety of the software of the energy controller.
In the invention, whether the software function in the energy controller is complete, whether the software can normally run or not and whether the software can run on different platforms can be checked, thereby avoiding the situation that the energy controller cannot normally work due to various problems of the software in the subsequent use process. The technical problem that software in the energy controller cannot be effectively checked in the prior art is solved, and software needs to be installed in the energy controller before the energy controller is put into use.
Drawings
The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the disclosure and together with the description serve to explain the disclosure and not to limit the disclosure. In the drawings:
FIG. 1 is a schematic flow chart diagram of a method for testing a system and software for a power controller according to an embodiment of the present disclosure;
FIG. 2 is a schematic flow chart of an energy controller collecting data of an electric energy meter through an RS-485 channel according to an embodiment of the disclosure;
FIG. 3 is a flow chart illustrating a software performance efficiency test of an energy controller according to an embodiment of the disclosure;
FIG. 4 is a schematic flow chart of the energy controller reading event data of the electric energy meter through an RS-485 channel according to the embodiment of the disclosure;
fig. 5 is a schematic flowchart of interface consistency of a low-voltage meter reading APP and a collection task scheduling APP according to an embodiment of the present disclosure;
FIG. 6 is a schematic diagram of a system for detecting a system and software for a energy controller according to an embodiment of the present disclosure.
Detailed Description
The exemplary embodiments of the present invention will now be described with reference to the accompanying drawings, however, the present invention may be embodied in many different forms and is not limited to the embodiments described herein, which are provided for complete and complete disclosure of the present invention and to fully convey the scope of the present invention to those skilled in the art. The terminology used in the exemplary embodiments illustrated in the accompanying drawings is not intended to be limiting of the invention. In the drawings, the same units/elements are denoted by the same reference numerals.
Unless otherwise defined, terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Further, it will be understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense.
According to a first aspect of the present embodiment, a method of detecting a system and software of a power controller is provided. Fig. 1 shows a schematic flow diagram of the method, which, with reference to fig. 1, comprises:
s102: detecting the process, the memory, the file system, the network information, the hardware information and the software information of an operating system of the energy controller according to an instruction issued by the client;
s104: according to an instruction issued by a client, configuring and modifying container resources of the energy controller, inquiring container information, controlling the running state of the containers, monitoring the abnormal state of the containers, checking communication data and interaction data among different containers, wherein one client can be provided with a plurality of containers, and one container can be provided with a plurality of software;
s106: the functionality, performance efficiency, compatibility, interoperability, interface consistency and information security of the software of the energy controller are detected.
Specifically, the invention provides a method for detecting a system and software of a energy controller, which comprises the following steps:
s1, checking the function of the operating system:
s101, process management: checking and terminating the system process by issuing an instruction through the client;
the tested system is required to display all running processes, and normal running of other processes is not influenced after a certain process is stopped.
S102, memory management: checking the memory by issuing an instruction through the client;
the tested system is required to display all the running memory use conditions in real time.
S103, file system: checking the file system by issuing an instruction through the client;
requiring the tested system to completely display the whole situation of the file system.
S104, network management: the client sends an instruction to check, configure, transmit and the like the network;
requiring that the system under test should support PING commands and that the IP address be available for viewing and modification.
S105, inquiring hardware information: checking the hardware information by issuing an instruction through a client;
the information required to be displayed by the tested system at least comprises equipment name, hardware version information, MAC address, memory information and storage information.
S106, inquiring software information: checking the software information by issuing an instruction through a client;
the information required to be displayed by the tested system at least comprises an operating system, a container, an APP, equipment states, equipment starting time and equipment current time.
S2, container inspection:
s201, multi-container multi-application: a plurality of containers are installed through a client issuing instruction;
it is required that the installation is successful not less than 5 containers each having a different application installed therein.
S202, single-container multi-application: a container is installed through a client-side issuing instruction, and an application is installed in the container;
the container is required to be successfully installed for at least three applications after successful installation;
s203, container resource configuration and modification: the method comprises the steps that a client side issues an instruction to configure and modify container resources including the number of CPU cores, internal memory, storage and interfaces;
s204, container information query: the method comprises the steps that a client sends an instruction to inquire container information, wherein the container information comprises a container list, container version information and a container running state;
the container information is required to be displayed completely and correctly.
S205, vessel operation control: the method comprises the steps of starting, stopping, installing and unloading a container through a client issuing instruction;
s206, monitoring container abnormity: setting an alarm threshold of the container by issuing an instruction through a client, and simulating and triggering an alarm through an abnormal state simulation tool;
and (4) the conditions of storage resources, CPU occupancy rate, memory occupancy rate and the like are required to be checked, and the alarm should be reported when the storage resources, the CPU occupancy rate and the memory occupancy rate are out of limit.
S207, inter-container communication and data interaction: a plurality of containers are installed through a client issuing instruction;
the different containers are required to be capable of communicating with each other, respective private data cannot influence each other, and the other side cannot check the private data.
S3, advanced APP test: the method comprises an acquisition task scheduling APP, a low-voltage centralized reading APP, a special transformer acquisition APP and a transformer area intelligent monitoring APP.
S301, testing functionality;
s302, testing performance efficiency;
(1) response time: in the test period, under the condition that the energy controller is started, the response time for starting the advanced application APP is not more than 1 min;
(2) storage occupancy rate: in the test period, recording the storage occupancy rate, and avoiding the application APP restart or container restart and other abnormalities caused by overhigh storage occupancy rate;
(3) CPU occupancy rate: in the test period, the CPU occupancy rate is recorded, and the application APP restart or container restart and other abnormalities caused by overhigh CPU occupancy rate are avoided;
(4) memory occupancy rate: and in the test period, recording the memory occupancy rate, and avoiding the application APP restart or container restart and other abnormalities caused by overhigh memory occupancy rate.
S303, testing compatibility;
(1) and (3) carrying out coexistence test: when a plurality of applications APP operate at the same time, the application APP to be tested can be normally installed, started, operated, stopped, uninstalled and upgraded without influencing other applications APP;
(2) and (3) interoperation testing: the application APP is compatible with a terminal software platform interface, can be normally installed, started, operated, stopped, uninstalled and upgraded at terminals of different manufacturers, and can realize functions of software.
S304, testing the interface consistency;
and the message interfaces between the APP to be tested and the APPs of the energy controller meet the specification requirements.
S305, information security testing;
the method comprises the following steps of security vulnerability detection: after the APP is installed and operated, the high-risk security holes of the system cannot be increased.
Therefore, whether the software function in the energy controller is complete, whether the software can normally run or not and whether the software can run on different platforms can be checked, and the situation that the energy controller cannot normally work due to various problems of the software in the subsequent use process is avoided. The technical problem that software in the energy controller cannot be effectively checked in the prior art is solved, and software needs to be installed in the energy controller before the energy controller is put into use.
Optionally, detecting a process, a memory, a file system, network information, hardware information, and software information of an operating system of the energy controller according to an instruction issued by the client includes: checking and terminating the process of the operating system of the energy controller according to the instruction issued by the client; according to the client-side issued instruction, checking the memory of the operating system of the energy controller; according to the client-side issued instruction, checking the file system of the operating system of the energy controller; checking, configuring and transmitting the network information of the operating system of the energy controller according to the instruction issued by the client; checking hardware information of an operating system of the energy controller according to the instruction issued by the client; and checking the software information of the operating system of the energy controller according to the instruction issued by the client.
Optionally, according to an instruction issued by the client, configuring and modifying a container resource of the energy controller, querying container information, controlling a container running state, monitoring an abnormal state of the container, and checking communication data and interaction data between different containers, including: according to an instruction issued by a client, configuring and modifying container resources of the energy controller, wherein the container resources comprise the number of CPU cores, a memory, a storage and an interface; inquiring container information according to an instruction issued by a client, wherein the container information comprises a container list, container version information and a container running state; according to the instruction issued by the client, the container is controlled to start, stop, install and uninstall; setting an alarm threshold of the container according to an instruction issued by a client, and simulating and triggering an alarm through an abnormal state simulation tool; and according to the instruction issued by the client, a plurality of containers are installed through the instruction issued by the client, and communication data and interactive data among different containers are checked.
Optionally, detecting the function of the software of the energy controller, the performance efficiency, the compatibility, the interoperability, the interface consistency, and the information security, includes: the method comprises the steps that data of the electric energy meter are collected through an RS-485 channel, and the detection of the function of software of the energy controller is achieved; detecting the performance efficiency of the software of the energy controller by detecting the starting time, the CPU occupancy rate, the memory occupancy rate and the storage occupancy rate of the software of the energy controller; reading the data of the electric energy meter through an RS-485 channel to realize the detection of the compatibility of the software of the energy controller; and detecting the interface consistency of the low-voltage centralized meter reading software of the energy controller and the interface consistency of the collected task scheduling software.
Optionally, the electric energy meter data is collected through an RS-485 channel, so as to realize detection of the function of the software of the energy controller, including: setting a hardware virtual module type, and configuring the hardware virtual module type to be RS-485; sending 698 commands to clear ammeter files, meter reading schemes and meter reading tasks, and clearing collected data according to the type of the hardware virtual module; configuring simulation table data, 698 commanding the simulation table to support reading sub-item data; the method comprises the steps that an ammeter file is encapsulated into a file message according to a standard data structure and then is directly sent to an energy controller, wherein the ammeter file is divided into a local carrier port, a port 485-1, a port 485-2, a port 485-3 and a port 485-4 according to ports, and 1 block of 07 protocol table and 1 block of 698 protocol table are connected below all the ports; encapsulating a meter reading scheme into a scheme message according to a standard data structure and then directly issuing the scheme message to the energy controller, wherein the meter reading scheme comprises reading positive and reverse active and reactive electric energy, A phase voltage, current and demand data, and MS sets in the meter reading scheme are all user addresses; the meter reading task is encapsulated into a meter reading message according to a standard data structure and then is directly issued to the energy controller; and reading the meter reading results of all the electric meters, and verifying the correctness of the meter reading results.
Specifically, fig. 2 is a flow for implementing functionality test of an APP of an advanced service of an energy controller, where a flow for acquiring data of an electric energy meter (real-time data of the electric energy meter) through an RS-485 channel is mainly introduced, and a specific flow is shown in fig. 2. The detection software sets the type of the virtual module, and the type of the virtual module is set to be RS-485. The detection software sends 698 commands to clear files, schemes, task parameters, and clear collected data according to types. And configuring the data of the simulation table, and supporting reading of the branch data by the 698 simulation table. And encapsulating the electric meter file into a message according to a standard data structure and then directly transmitting the message to the energy controller, wherein the electric meter file is divided into a local carrier port, a port 485-1, a port 485-2, a port 485-3 and a port 485-4 according to ports, and 1 block 07 protocol table and 1 block 698 protocol table are connected below all the ports. The detection software encapsulates a meter reading scheme into a message according to a standard data structure and then directly issues the message to the energy controller, the meter reading scheme comprises reading positive and reverse active and reactive electric energy, A phase voltage, current and demand data, and MS sets in the meter reading scheme are all user addresses. And the detection software encapsulates the meter reading task into a message according to a standard data structure and then directly issues the message to the energy controller. And the detection software reads all the electric meter real-time data. And detecting the correctness of the software verification data.
Optionally, detecting the performance efficiency of the software of the energy controller by detecting the start time, the CPU occupancy, the memory occupancy, and the storage occupancy of the software of the energy controller includes: establishing an SSH link with software of the energy controller; sending a restart command to the energy controller, and recording first start time; sending a time reading terminal command to the energy controller, and recording the code returning time of the first command; receiving first average time and second average time sent by the energy controller, wherein the first average time is the average time of the third first starting time, and the second time is the average time of the third first command code returning time; configuring a fully loaded acquisition ammeter file, a meter reading scheme and a meter reading task; sending a restarting command to the energy controller again, and recording a second starting time; sending a terminal time reading command to the energy controller again, and recording the code returning time of a second command; receiving a third average time and a fourth average time sent by the energy controller, wherein the third average time is the average time of the third second starting time, and the fourth average time is the average time of the third second command code returning time; monitoring the CPU, the memory and the storage occupancy rate of the energy controller, and determining a monitoring result; and judging whether the energy controller meets the standard requirement or not according to the first average time, the second average time, the third average time, the fourth average time and the monitoring result.
Specifically, referring to fig. 3, fig. 3 is a flow for implementing performance efficiency of an APP of an advanced service of an energy controller. The detection software establishes an SSH link; sending an APP restart command to be tested, and recording start time t 1; sending a time reading terminal command, and recording the command code returning time t 2; and counting the average starting time of the three APP to be tested, and returning to the detection software. Configuring a full-load acquisition file and scheme, sending an APP to be tested to a downloading task, restarting and recording start time T1; sending a time reading terminal command, and recording the command code returning time T2; counting the average starting time of the three APP to be tested, and monitoring the occupancy rates of a CPU, a memory and a storage; and the detection test software judges whether the performance efficiency meets the standard requirement according to the returned result.
Optionally, the method for detecting the compatibility of the software of the energy controller by reading the data of the electric energy meter through the RS-485 channel includes: setting a hardware virtual module type, and configuring the hardware virtual module type to be RS-485; sending 698 commands to clear ammeter files, meter reading schemes and meter reading tasks, and clearing collected data according to the type of the hardware virtual module; configuring simulation table data, 698 commanding the simulation table to support reading sub-item data; sending the relevant parameters of the event acquisition scheme to the energy controller; receiving electric energy meter event data sent by an analog meter, wherein the electric energy meter event data is determined according to a meter reading event; receiving and storing the electric energy meter event by using the energy controller; sending a 698 message for reading the collection task data record table to obtain an event record of the electric energy meter; it is determined whether the result of the read event and the software of the energy controller are restarted.
Specifically, referring to fig. 4, this section describes a process for implementing APP compatibility test of the advanced service of the energy controller, and here, a process for reading event data of the electric energy meter through an RS-485 channel is mainly described, and a specific process is shown in fig. 3. The detection software sets the type of the virtual module to be RS-485; the detection software sends 698 commands to clear files, schemes and task parameters, and collected data are cleared according to types; configuring simulation table data, and supporting reading of the subentry data by the 698 simulation table; detecting relevant parameters of an event acquisition scheme issued by software to an energy controller; the analog meter receives the reading event request message and returns the event data of the electric energy meter; the energy controller receives the electric energy meter event and stores the electric energy meter event in the data center; the detection software sends and reads 698 message of the task data recording table of acquisition, obtain the event record of the electric energy meter; and the detection software judges whether the reading event result and the related APP are restarted.
Optionally, the detecting the interface consistency of the low-voltage centralized meter reading software of the energy controller and the interface consistency of the collection task scheduling software includes: reading the data item of the RS-485 table through the transparent transmission agent, monitoring the transparent forwarding message IOP (0 x 0010), and verifying whether the message format and the content are correct; reading the data item of the RS-485 table by an agent, monitoring the IOP of the agent message as 0x0011, and verifying whether the message format and the content are correct; sending a command 60027F00 to start table search, monitoring the table search message IOP being 0x0012, and verifying whether the message format and content are correct.
Specifically, referring to fig. 5, fig. 5 is a flow for implementing interface consistency test of an advanced service APP of an energy controller, where interface consistency of a low-voltage centralized meter reading APP and an acquisition task scheduling APP of the energy controller is mainly described here. The detection software reads the data item of the RS485 table through the transparent transmission agent, monitors the transparent forwarding message IOP (0 x 0010), and verifies whether the message format and the content are correct. The detection software reads the data item of the RS485 table through the proxy, monitors the proxy message IOP (0 x 0011) and verifies whether the message format and the content are correct. The detection software sends a command 60027F00 for starting table search, and the detection software monitors that the table search message IOP is 0x0012, and verifies whether the message format and the content are correct.
Therefore, according to the method for detecting the system and the software of the energy controller, whether the software function in the energy controller is complete, whether the software can normally run and whether the software can run on different platforms can be detected, so that the situation that the energy controller cannot normally work due to various problems of the software in the subsequent use process is avoided. The technical problem that software in the energy controller cannot be effectively checked in the prior art is solved, and software needs to be installed in the energy controller before the energy controller is put into use.
According to another aspect of the present embodiment, a system 600 for detecting a system and software of a power controller is provided. Referring to fig. 6, the system 600 includes: the detection system module 610 is configured to detect a process, a memory, a file system, network information, hardware information, and software information of an operating system of the energy controller according to an instruction issued by the client; the detection container module 620 is configured to configure and modify container resources of the energy controller according to an instruction issued by the client, query container information, control a container running state, monitor an abnormal state of the container, and check communication data and interaction data between different containers, where one client may install a plurality of containers, and one container may install a plurality of software; a detection software module 630, configured to detect functions, performance efficiency, compatibility, interoperability, interface consistency, and information security of the software of the energy controller.
Optionally, the detection system module 610 includes: the view process submodule is used for viewing and terminating the process of the operating system of the energy controller according to the instruction issued by the client; the checking memory submodule is used for checking the memory of the operating system of the energy controller according to the instruction issued by the client; the checking file system submodule is used for checking the file system of the operating system of the energy controller according to the instruction issued by the client; the network information checking submodule is used for checking, configuring and transmitting the network information of the operating system of the energy controller according to the instruction issued by the client; the hardware information checking sub-module is used for performing checking operation on the hardware information of the operating system of the energy controller according to the instruction issued by the client; and the software information viewing submodule is used for viewing the software information of the operating system of the energy controller according to the instruction issued by the client.
Optionally, the detection container module 620 comprises: the configuration modification container resource submodule is used for configuring and modifying container resources of the energy controller according to an instruction issued by the client, and the container resources comprise the number of CPU cores, a memory, a storage and an interface; the query container information submodule is used for querying container information according to an instruction issued by the client, and the container information comprises a container list, container version information and a container running state; the control container submodule is used for carrying out starting, stopping, mounting and unloading control on the container according to an instruction issued by the client; the alarm container submodule is used for setting an alarm threshold of the container according to an instruction issued by the client and simulating and triggering an alarm through an abnormal state simulation tool; and the checking container interaction submodule is used for installing a plurality of containers through the instructions issued by the client according to the instructions issued by the client, and checking communication data and interaction data among different containers.
Optionally, the detection software module 630 includes: the function detection submodule is used for collecting data of the electric energy meter through an RS-485 channel and detecting the function of the software of the energy controller; the performance efficiency submodule is used for detecting the performance efficiency of the software of the energy controller by detecting the starting time, the CPU occupancy rate, the memory occupancy rate and the storage occupancy rate of the software of the energy controller; the compatibility detection submodule is used for reading the data of the electric energy meter through the RS-485 channel and detecting the compatibility of the software of the energy controller; and the interface consistency detection submodule is used for detecting the interface consistency of the low-voltage centralized meter reading software of the energy controller and the interface consistency of the acquisition task scheduling software.
Optionally, the function detection sub-module includes: the first setting unit is used for setting the type of the hardware virtual module and configuring the type of the hardware virtual module to be RS-485; the first data clearing and collecting unit is used for sending 698 commands to clear ammeter files, meter reading schemes and meter reading tasks and clearing collected data according to the type of the hardware virtual module; the first configuration simulation table data unit is used for configuring simulation table data, and 698 commands the simulation table to support reading sub-item data; the system comprises an electric meter file issuing unit, a power controller and a data processing unit, wherein the electric meter file issuing unit is used for packaging an electric meter file into a file message according to a standard data structure and then directly issuing the file message to the power controller, the electric meter file is divided into a local carrier port, a port 485-1, a port 485-2, a port 485-3 and a port 485-4 according to ports, and 1 07 protocol table and 1 698 protocol table are connected below all the ports; the system comprises a transmitting and reading scheme unit, a power supply controller and a power supply controller, wherein the transmitting and reading scheme unit is used for encapsulating a meter reading scheme into scheme information according to a standard data structure and then directly transmitting the scheme information to the power supply controller, the meter reading scheme comprises reading positive and reverse reactive electric energy, A phase voltage, current and demand data, and MS sets in the meter reading scheme are all user addresses; the down-sending task unit is used for encapsulating the meter reading task into a meter reading message according to a standard data structure and then directly sending the meter reading message to the energy controller; and the verification meter reading result unit is used for reading the meter reading results of all the electric meters and verifying the correctness of the meter reading results.
Optionally, a performance efficiency sub-module comprising: the link unit is used for establishing SSH link with the software of the energy controller; the device comprises a recording first starting time unit, a recording second starting time unit and a power supply controller, wherein the recording first starting time unit is used for sending a restarting command to the power supply controller and recording first starting time; the first command code returning time recording unit is used for sending a reading terminal time command to the energy controller and recording the first command code returning time; the first receiving average time unit is used for receiving a first average time and a second average time which are sent by the energy controller, wherein the first average time is the average time of the third first starting time, and the second time is the average time of the third first command code returning time; configuring a full-load unit for configuring a full-load acquisition ammeter file, a meter reading scheme and a meter reading task; the second starting time recording unit is used for sending the restarting command to the energy controller again and recording the second starting time; the second command code returning time recording unit is used for sending the reading terminal time command to the energy controller again and recording the second command code returning time; the second receiving average time unit is used for receiving third average time and fourth average time sent by the energy controller, wherein the third average time is the average time of third second starting start time, and the fourth average time is the average time of third second command code returning time; a monitoring result determining unit for monitoring the CPU, memory and storage occupancy rate of the energy controller and determining a monitoring result; and the judging whether the energy controller meets the standard requirement or not according to the first average time, the second average time, the third average time, the fourth average time and the monitoring result.
Optionally, the compatibility detection sub-module includes: the second setting unit is used for setting the type of the hardware virtual module and configuring the type of the hardware virtual module to be RS-485; the second data clearing and collecting sub-module is used for sending 698 commands to clear ammeter files, meter reading schemes and meter reading tasks, and clearing collected data according to the type of the hardware virtual module; a second configuration simulation table data unit, configured to configure simulation table data, 698 command simulation table supports reading sub-item data; the sending parameter unit is used for sending the relevant parameters of the event acquisition scheme to the energy controller; the electric energy meter event data receiving unit is used for receiving electric energy meter event data sent by the analog meter, and the electric energy meter event data is determined according to a meter reading event; the electric energy meter event storage unit is used for receiving and storing the electric energy meter event by using the energy controller; a sending 698 message unit, configured to send a 698 message for reading the collection task data record table, and obtain an event record of the electric energy meter; and the restarting judging unit is used for judging whether the software of the reading event result and the energy controller is restarted.
Optionally, the interface consistency detection sub-module includes: the monitoring transparent forwarding message unit is used for reading the data item of the RS-485 table through the transparent transmission agent, monitoring the transparent forwarding message IOP (intrinsic pressure) being 0x0010 and verifying whether the message format and the content are correct or not; the monitoring agent message unit is used for reading the data item of the RS-485 table through an agent, monitoring the agent message IOP (0 x 0011), and verifying whether the message format and the content are correct; and the table searching monitoring message unit is used for sending a table searching starting command 60027F00, monitoring the table searching message IOP being 0x0012 and verifying whether the message format and the content are correct.
The system 600 for detecting the system and software of the energy controller according to the embodiment of the present invention corresponds to the method 100 for detecting the system and software of the energy controller according to another embodiment of the present invention, and will not be described herein again.
As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein. The scheme in the embodiment of the application can be implemented by adopting various computer languages, such as object-oriented programming language Java and transliterated scripting language JavaScript.
The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.
These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
While the preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all alterations and modifications as fall within the scope of the application.
It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (16)

1. A method of testing a system and software for a power controller, comprising:
detecting the process, the memory, the file system, the network information, the hardware information and the software information of an operating system of the energy controller according to an instruction issued by the client;
according to an instruction issued by a client, configuring and modifying container resources of the energy controller, inquiring container information, controlling the running state of the containers, monitoring the abnormal state of the containers, checking communication data and interaction data among different containers, wherein one client can be provided with a plurality of containers, and one container can be provided with a plurality of software;
the functionality, performance efficiency, compatibility, interoperability, interface consistency and information security of the software of the energy controller are detected.
2. The method of claim 1, wherein detecting processes, memory, file systems, network information, hardware information, and software information of an operating system of the energy controller according to the instructions issued by the client comprises:
checking and terminating the process of the operating system of the energy controller according to the instruction issued by the client;
according to the client-side issued instruction, checking the memory of the operating system of the energy controller;
according to the client-side issued instruction, checking the file system of the operating system of the energy controller;
checking, configuring and transmitting the network information of the operating system of the energy controller according to the instruction issued by the client;
checking hardware information of an operating system of the energy controller according to the instruction issued by the client;
and checking the software information of the operating system of the energy controller according to the instruction issued by the client.
3. The method of claim 1, wherein configuring and modifying container resources of the energy controller according to an instruction issued by the client, querying container information, controlling a container operation state, monitoring an abnormal state of the container, and checking communication data and interaction data between different containers comprises:
according to an instruction issued by a client, configuring and modifying container resources of the energy controller, wherein the container resources comprise the number of CPU cores, a memory, a storage and an interface;
inquiring container information according to an instruction issued by a client, wherein the container information comprises a container list, container version information and a container running state;
according to the instruction issued by the client, the container is controlled to start, stop, install and uninstall;
setting an alarm threshold of the container according to an instruction issued by a client, and simulating and triggering an alarm through an abnormal state simulation tool;
and according to the instruction issued by the client, a plurality of containers are installed through the instruction issued by the client, and communication data and interactive data among different containers are checked.
4. The method of claim 1, wherein detecting functionality, performance efficiency, compatibility, interoperability, interface consistency, and information security of software of the energy controller comprises:
the method comprises the steps that data of the electric energy meter are collected through an RS-485 channel, and the detection of the function of software of the energy controller is achieved;
detecting the performance efficiency of the software of the energy controller by detecting the starting time, the CPU occupancy rate, the memory occupancy rate and the storage occupancy rate of the software of the energy controller;
reading the data of the electric energy meter through an RS-485 channel to realize the detection of the compatibility of the software of the energy controller;
and detecting the interface consistency of the low-voltage centralized meter reading software of the energy controller and the interface consistency of the collected task scheduling software.
5. The method of claim 4, wherein the detecting the function of the software of the energy controller by collecting the electric energy meter data through the RS-485 channel comprises:
setting a hardware virtual module type, and configuring the hardware virtual module type to be RS-485;
sending 698 commands to clear ammeter files, meter reading schemes and meter reading tasks, and clearing collected data according to the type of the hardware virtual module;
configuring simulation table data, 698 commanding the simulation table to support reading sub-item data;
the electric meter files are encapsulated into file information according to a standard data structure and then are directly sent to the energy controller, wherein the electric meter files are divided into a local carrier port, a port 485-1, a port 485-2, a port 485-3 and a port 485-4 according to ports, and 1 07 protocol table and 1 698 protocol table are connected below all the ports;
the meter reading scheme is encapsulated into scheme information according to a standard data structure and then is directly issued to the energy controller, the meter reading scheme comprises reading positive and reverse reactive electric energy, A phase voltage, current and demand data, and MS sets in the meter reading scheme are all user addresses;
the meter reading task is encapsulated into a meter reading message according to a standard data structure and then is directly issued to the energy controller;
reading the meter reading results of all the electric meters, and verifying the correctness of the meter reading results.
6. The method of claim 4, wherein detecting performance efficiency of the software of the energy controller by detecting a boot time, a CPU occupancy, a memory occupancy, and a storage occupancy of the software of the energy controller comprises:
establishing an SSH link with software of the energy controller;
sending a restart command to the energy controller, and recording first start time;
sending a time reading terminal command to the energy controller, and recording the code returning time of a first command;
receiving a first average time and a second average time sent by the energy controller, wherein the first average time is the average time of the first starting time for three times, and the second time is the average time of the first command code returning time for three times;
configuring a fully loaded acquisition ammeter file, a meter reading scheme and a meter reading task;
sending a restarting command to the energy controller again, and recording a second starting time;
sending a terminal time reading command to the energy controller again, and recording the code returning time of a second command;
receiving a third average time and a fourth average time sent by the energy controller, wherein the third average time is the average time of the second starting time of three times, and the fourth average time is the average time of the second command code returning time of three times;
monitoring the CPU, the memory and the storage occupancy rate of the energy controller, and determining a monitoring result;
and judging whether the energy controller meets the specification requirements or not according to the first average time, the second average time, the third average time, the fourth average time and the monitoring result.
7. The method of claim 4, wherein the detecting compatibility of the software of the energy controller by reading the power meter data over the RS-485 channel comprises:
setting a hardware virtual module type, and configuring the hardware virtual module type to be RS-485;
sending 698 commands to clear ammeter files, meter reading schemes and meter reading tasks, and clearing collected data according to the type of the hardware virtual module;
configuring simulation table data, 698 commanding the simulation table to support reading sub-item data;
sending the relevant parameters of the event acquisition scheme to the energy controller;
receiving electric energy meter event data sent by the analog meter, wherein the electric energy meter event data is determined according to a meter reading event;
receiving and storing the electric energy meter event by using the energy controller;
sending a 698 message for reading the collection task data record table to obtain an event record of the electric energy meter;
it is determined whether the result of the read event and the software of the energy controller are restarted.
8. The method of claim 4, wherein detecting the interface consistency of the energy controller low-voltage meter reading software and the interface consistency of the collection task scheduling software comprises:
reading the data item of the RS-485 table through the transparent transmission agent, monitoring the transparent forwarding message IOP (0 x 0010), and verifying whether the message format and the content are correct;
reading the data item of the RS-485 table by an agent, monitoring the IOP of the agent message as 0x0011, and verifying whether the message format and the content are correct;
sending a command 60027F00 to start table search, monitoring the table search message IOP being 0x0012, and verifying whether the message format and content are correct.
9. A system for testing a system and software for a power controller, comprising:
the detection system module is used for detecting the process, the memory, the file system, the network information, the hardware information and the software information of the operating system of the energy controller according to the instruction issued by the client;
the system comprises a detection container module, a client and a server, wherein the detection container module is used for configuring and modifying container resources of the energy controller according to an instruction issued by the client, inquiring container information, controlling the operation state of a container, monitoring the abnormal state of the container, and checking communication data and interaction data among different containers;
and the detection software module is used for detecting the functions, performance efficiency, compatibility, interoperation, interface consistency and information safety of the software of the energy controller.
10. The system of claim 9, wherein the detection system module comprises:
the view process submodule is used for viewing and terminating the process of the operating system of the energy controller according to the instruction issued by the client;
the checking memory submodule is used for checking the memory of the operating system of the energy controller according to the instruction issued by the client;
the checking file system submodule is used for checking the file system of the operating system of the energy controller according to the instruction issued by the client;
the network information checking submodule is used for checking, configuring and transmitting the network information of the operating system of the energy controller according to the instruction issued by the client;
the hardware information checking sub-module is used for performing checking operation on the hardware information of the operating system of the energy controller according to the instruction issued by the client;
and the software information viewing submodule is used for viewing the software information of the operating system of the energy controller according to the instruction issued by the client.
11. The system of claim 9, wherein the detection container module comprises:
the configuration modification container resource submodule is used for configuring and modifying container resources of the energy controller according to an instruction issued by the client, and the container resources comprise the number of CPU cores, a memory, a storage and an interface;
the query container information submodule is used for querying container information according to an instruction issued by the client, and the container information comprises a container list, container version information and a container running state;
the control container submodule is used for carrying out starting, stopping, mounting and unloading control on the container according to an instruction issued by the client;
the alarm container submodule is used for setting an alarm threshold of the container according to an instruction issued by the client and simulating and triggering an alarm through an abnormal state simulation tool;
and the checking container interaction submodule is used for installing a plurality of containers through the instructions issued by the client according to the instructions issued by the client, and checking communication data and interaction data among different containers.
12. The system of claim 9, wherein the detection software module comprises:
the function detection submodule is used for collecting data of the electric energy meter through an RS-485 channel and detecting the function of the software of the energy controller;
the performance efficiency submodule is used for detecting the performance efficiency of the software of the energy controller by detecting the starting time, the CPU occupancy rate, the memory occupancy rate and the storage occupancy rate of the software of the energy controller;
the compatibility detection submodule is used for reading the data of the electric energy meter through the RS-485 channel and detecting the compatibility of the software of the energy controller;
and the interface consistency detection submodule is used for detecting the interface consistency of the low-voltage centralized meter reading software of the energy controller and the interface consistency of the acquisition task scheduling software.
13. The system of claim 12, wherein the function detection sub-module,
the first setting unit is used for setting the type of the hardware virtual module and configuring the type of the hardware virtual module to be RS-485;
the first data clearing and collecting unit is used for sending 698 commands to clear ammeter files, meter reading schemes and meter reading tasks, and clearing collected data according to the type of the hardware virtual module;
the first configuration simulation table data unit is used for configuring simulation table data, and 698 commands the simulation table to support reading sub-item data;
the system comprises an electric meter file issuing unit, a power controller and a data processing unit, wherein the electric meter file issuing unit is used for packaging an electric meter file into a file message according to a standard data structure and then directly issuing the file message to the power controller, the electric meter file is divided into a local carrier port, a port 485-1, a port 485-2, a port 485-3 and a port 485-4 according to ports, and 1 07 protocol table and 1 698 protocol table are connected below all the ports;
the system comprises a meter reading scheme unit, a data processing unit and a data processing unit, wherein the meter reading scheme unit is used for encapsulating a meter reading scheme into a scheme message according to a standard data structure and then directly issuing the scheme message to an energy controller, the meter reading scheme comprises reading positive and reverse active and reactive electric energy, A phase voltage, current and demand data, and MS sets in the meter reading scheme are all user addresses;
the down-sending task unit is used for encapsulating the meter reading task into a meter reading message according to a standard data structure and then directly sending the meter reading message to the energy controller;
and the verification meter reading result unit is used for reading the meter reading results of all the electric meters and verifying the correctness of the meter reading results.
14. The system of claim 12, wherein the performance efficiency sub-module comprises:
the link unit is used for establishing SSH link with the software of the energy controller;
the device comprises a recording first starting time unit, a restarting command unit and a starting time unit, wherein the recording first starting time unit is used for sending the restarting command to the energy controller and recording first starting time;
the first command code returning time recording unit is used for sending a reading terminal time command to the energy controller and recording first command code returning time;
a first receiving average time unit, configured to receive a first average time and a second average time that are sent by the energy controller, where the first average time is an average time of the first start starting time three times, and the second time is an average time of the first command back code time three times;
configuring a full-load unit for configuring a full-load acquisition ammeter file, a meter reading scheme and a meter reading task;
a second start time recording unit, configured to send a restart command to the energy controller again, and record a second start time;
a second command code returning time recording unit, configured to send a time reading terminal time command to the energy controller again, and record second command code returning time;
a second receiving average time unit, configured to receive a third average time and a fourth average time that are sent by the energy controller, where the third average time is an average time of the second start starting time three times, and the fourth average time is an average time of the second command code returning time three times;
a monitoring result determining unit for monitoring the CPU, memory and storage occupancy rate of the energy controller and determining a monitoring result;
and the judging whether the energy controller meets the standard requirement or not according to the first average time, the second average time, the third average time, the fourth average time and the monitoring result.
15. The system of claim 12, wherein the compatibility detection sub-module comprises:
the second setting unit is used for setting the type of the hardware virtual module and configuring the type of the hardware virtual module to be RS-485;
the second data clearing and collecting sub-module is used for sending 698 commands to clear ammeter files, meter reading schemes and meter reading tasks, and clearing collected data according to the type of the hardware virtual module;
a second configuration simulation table data unit, configured to configure simulation table data, 698 command simulation table supports reading sub-item data;
the sending parameter unit is used for sending the relevant parameters of the event acquisition scheme to the energy controller;
the electric energy meter event data receiving unit is used for receiving electric energy meter event data sent by the analog meter, and the electric energy meter event data is determined according to a meter reading event;
the electric energy meter event storage unit is used for receiving and storing the electric energy meter event by using the energy controller;
a sending 698 message unit, configured to send a 698 message for reading the collection task data record table, and obtain an event record of the electric energy meter;
and the restarting judging unit is used for judging whether the software of the reading event result and the energy controller is restarted.
16. The system of claim 12, wherein the interface conformance detection sub-module comprises:
the monitoring transparent forwarding message unit is used for reading the data item of the RS-485 table through the transparent transmission agent, monitoring the transparent forwarding message IOP (intrinsic pressure) being 0x0010 and verifying whether the message format and the content are correct or not;
the monitoring agent message unit is used for reading the data item of the RS-485 table through an agent, monitoring the agent message IOP (0 x 0011), and verifying whether the message format and the content are correct;
and the table searching monitoring message unit is used for sending a table searching starting command 60027F00, monitoring the table searching message IOP being 0x0012 and verifying whether the message format and the content are correct.
CN202011411269.0A 2020-12-04 2020-12-04 Method and system for detecting energy controller system and software Pending CN112559329A (en)

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