CN112202820B - Automatic testing method and system for electronic product - Google Patents

Abstract

The invention discloses an automatic testing method and system of an electronic product, and relates to the field of automatic testing. The method comprises the following steps: the first testing upper computer sends a PIN code to the second equipment, the second equipment receives the PIN code, analyzes the PIN code to obtain an effective key value, converts the effective key value into a corresponding key code, adds the key code obtained by conversion into the key code corresponding to the enter key to form first data according to a first preset format, sends the first data to the second testing upper computer, inputs the received first data into a PIN input frame, and sends the PIN code to the electronic product; still include before first test host computer sends the PIN code for the second equipment: the first testing upper computer sends a PIN checking instruction to the second testing upper computer or sends a PIN code request instruction to the first testing upper computer.

Description

Automatic testing method and system for electronic product

Technical Field

The invention relates to the field of automatic testing, in particular to an automatic testing method and system for electronic products.

Background

At present, in the automatic test process of an interface or an interface, when keyboard input is required, a tester needs manual input, and only one person can be responsible for the test work of a single product, so that the error rate is high, the test efficiency is low, and therefore an automatic test method is urgently needed to solve the problems.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an automatic testing method and system of an electronic product.

The invention provides an automatic testing method of an electronic product, which comprises the following steps:

step S1: the first testing upper computer is connected with the second testing upper computer through a network, the electronic product is connected with the second testing upper computer, the second device declares the electronic product to be keyboard equipment to the second testing upper computer, the first testing upper computer is connected with the second device, and the first testing upper computer sends PIN codes to the second device;

step S2: the second equipment receives the PIN code, analyzes the PIN code to obtain an effective key value, converts the effective key value into a corresponding key code, adds the key code obtained by conversion into the key code corresponding to the enter key to form first data according to a first preset format, and sends the first data to the second test upper computer;

step S3: the second testing upper computer inputs the received first data into the PIN input box and sends the PIN code to the electronic product;

still include before first test host computer sends the PIN code for the second equipment: the first testing upper computer sends a PIN checking instruction to the second testing upper computer or the second testing upper computer sends a PIN code requesting instruction to the first testing upper computer.

The invention provides an automatic test system of electronic products, comprising: the device comprises a first test upper computer, second equipment and a second test upper computer;

the first test upper computer includes:

the first network connection module is used for establishing network connection with the second test upper computer;

the first connection module is used for establishing connection with second equipment;

the first sending module is used for sending the PIN code to the second equipment;

the second device includes:

the declaration module is used for declaring the second test upper computer as keyboard equipment;

the second connection module is used for establishing connection with the first test upper computer;

the second receiving module is used for receiving the PIN code sent by the first testing upper computer;

the analysis composition module is used for analyzing the PIN received by the second receiving module to obtain an effective key value, converting the effective key value into a corresponding key code, and adding the key code obtained through conversion into the key code corresponding to the enter key to form first data according to a first preset format;

the second sending module is used for sending the first data formed by the analysis composition module to a second test upper computer;

the second test host computer includes:

the second network connection module is used for establishing network connection with the first test upper computer;

the third receiving module is used for receiving the first data sent by the second equipment;

the third connecting module is used for connecting with an electronic product;

the input sending module is used for inputting the first data received by the third receiving module into the PIN input box and sending the PIN code to the electronic product;

in the system, a first sending module of a first testing upper computer is also used for sending a PIN checking instruction to a second testing upper computer;

or in the system, the first testing upper computer further comprises a first receiving module for receiving a PIN code request instruction sent by the second testing upper computer; the second test upper computer still includes: and the third sending module is used for sending a PIN code request instruction to the first test upper computer.

The invention also provides an automatic test method of the electronic product, which comprises the following steps:

step Q1: the first testing upper computer is connected with the second testing upper computer through a network, the electronic product is connected with the second testing upper computer, the first device declares to be a USB device to the first testing upper computer, the second device declares to be a keyboard device to the second testing upper computer, the first device is connected with the second device, and the first testing upper computer sends a PIN code to the first device;

step Q2: the first equipment receives the PIN code, analyzes the PIN code to obtain an effective key value, and sends the effective key value to the second equipment;

step Q3: the second device receives the effective key value, converts the effective key value into a corresponding key code, adds the key code obtained by conversion into the key code corresponding to the enter key to form first data according to a first preset format, and sends the first data to the second test upper computer;

step Q4: the second testing upper computer inputs the received first data into the PIN input box and sends the PIN code to the electronic product;

still include before first test host computer sends the PIN code for first equipment: the first testing upper computer sends a PIN checking instruction to the second testing upper computer or the second testing upper computer sends a PIN code requesting instruction to the first testing upper computer.

The invention also provides an automatic test system of the electronic product, which comprises: the device comprises a first test upper computer, first equipment, second equipment and a second test upper computer;

the first test upper computer includes:

the first network connection module is used for establishing network connection with the second test upper computer;

the first sending module is used for sending the PIN code to the first equipment by the first testing upper computer;

the first device includes:

the first declaration module is used for declaring the first test upper computer as the USB equipment;

the first connection module is used for establishing connection with second equipment;

the second receiving module is used for receiving the PIN code sent by the first testing upper computer;

the analysis sending module is used for analyzing the PIN received by the second receiving module to obtain an effective key value and sending the effective key value to the second equipment;

the second device includes:

the second declaration module is used for declaring the second test upper computer as keyboard equipment;

the second connection module is used for establishing connection with the first equipment;

the third receiving module is used for receiving the valid key value sent by the first equipment;

the conversion composition module is used for converting the effective key value received by the third receiving module into a corresponding key code, and adding the key code obtained by conversion into the key code corresponding to the enter key to form first data according to a first preset format;

the second sending module is used for sending the first data formed by the conversion composition module to a second test upper computer;

the second test host computer includes:

the second network connection module is used for establishing network connection with the first test upper computer;

the fourth receiving module is used for receiving the first data sent by the second equipment;

the third connecting module is used for connecting with an electronic product;

the input sending module is used for inputting the first data received by the fourth receiving module into the PIN input box and sending the PIN code to the electronic product;

in the system, a first sending module of a first testing upper computer is also used for sending a PIN checking instruction to a second testing upper computer;

or in the system, the first testing upper computer further comprises a first receiving module for receiving a PIN code request instruction sent by the second testing upper computer; the second test upper computer still includes: and the third sending module is used for sending a PIN code request instruction to the first test upper computer.

Compared with the prior art, the invention has the following advantages:

the invention provides an automatic testing method of an electronic product, which can replace manual input and improve the testing efficiency.

Drawings

Fig. 1 is a flowchart of an automated testing method for electronic products according to an embodiment of the present invention;

fig. 2 is a flowchart of an automated testing method for electronic products according to a fifth embodiment of the present invention;

fig. 3 is a block diagram of an electronic product automation test system according to a tenth embodiment of the present invention;

fig. 4 is a block diagram of an electronic product automation test system according to an eleventh embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

An embodiment of the present invention provides an automated testing method for an electronic product, as shown in fig. 1, including:

step S1: the first testing upper computer is connected with the second testing upper computer through a network, the electronic product is connected with the second testing upper computer, the second device declares the electronic product to be keyboard equipment to the second testing upper computer, the first testing upper computer is connected with the second device, and the first testing upper computer sends PIN codes to the second device;

step S2: the second equipment receives the PIN code, analyzes the PIN code to obtain an effective key value, converts the effective key value into a corresponding key code, adds the key code obtained by conversion into the key code corresponding to the enter key to form first data according to a first preset format, and sends the first data to the second test upper computer;

step S3: the second testing upper computer inputs the received first data into the PIN input box and sends the PIN code to the electronic product;

still include before first test host computer sends the PIN code for the second equipment: the first testing upper computer sends a PIN checking instruction to the second testing upper computer or the second testing upper computer sends a PIN code requesting instruction to the first testing upper computer.

Optionally, in this embodiment, the connection between the first test upper computer and the second device is established in a wireless manner.

Optionally, in this embodiment, the connection between the first test upper computer and the second device is established by bluetooth connection; the connection establishment of the first test upper computer and the second equipment specifically comprises the following steps:

step A1: the first test upper computer judges whether the second equipment is scanned, if so, the first test upper computer sends a connection request to the second equipment, and the step A2 is executed, otherwise, the first test upper computer continues to scan and executes the step A1;

step A2: and the second equipment starts to pair when receiving the connection request, judges whether the pairing is successful, if so, the first test upper computer and the second equipment can carry out data transmission, and if not, the data transmission is finished.

Optionally, in this embodiment, converting the valid key value into the corresponding key code specifically includes: and the second equipment queries a preset data table to convert the effective key value into a corresponding key code.

Optionally, in this embodiment, the number of the second devices is multiple, the number of the second testing upper computers is multiple, the second devices are connected with the second testing upper computers in a one-to-one correspondence manner, each second testing upper computer is connected with an electronic product, the second devices perform data transmission with the first testing upper computer, and the electronic products connected with the second testing upper computers correspondingly connected with the second devices are tested.

Example two

The second embodiment of the invention provides an automatic testing method of an electronic product, which comprises the following steps:

step 101: the first testing upper computer sends a PIN checking instruction to the second testing upper computer;

specifically, step 101 further includes: the first test upper computer and the second test upper computer establish network connection, and the network connection mode is TCP/IP connection or WiFi connection; the electronic product is connected with the second test upper computer in a USB (universal serial bus) connection or Bluetooth connection mode; the first test upper computer is connected with the second equipment in a WiFi connection or Bluetooth connection mode; the second equipment declares the second test upper computer as keyboard equipment;

step 102: popping up a PIN input box when the second test upper computer receives the PIN checking instruction, waiting for data input, and executing step 103;

step 103: the first test upper computer sends the PIN code to the second equipment;

step 104: when the second equipment receives the PIN code, the PIN code is analyzed to obtain an effective key value;

step 105: the second equipment queries a preset data table to convert the effective key values into corresponding key codes;

step 106: the second equipment adds the key code obtained by conversion into the key code corresponding to the enter key to form first data according to a first preset format;

step 107: the second equipment sends the first data to a second test upper computer;

step 108: the second testing upper computer inputs the received first data into the PIN input box, and the second testing upper computer sends the PIN code to the electronic product.

Optionally, in this embodiment, the number of the second devices is multiple, the number of the second testing upper computers is multiple, the second devices are connected with the second testing upper computers in a one-to-one correspondence manner, each second testing upper computer is connected with an electronic product, and the first testing upper computer can perform data transmission with the multiple second devices and the second testing upper computers to test the electronic products connected to the second testing upper computers;

the first testing upper computer sends a PIN checking instruction to the second testing upper computer, the first testing upper computer sends a PIN code to the second equipment connected with the second testing upper computer, and the subsequent operation is as above and is not repeated.

EXAMPLE III

The third embodiment of the invention provides an automatic testing method of an electronic product, which comprises the following steps:

step 201: the second testing upper computer sends a PIN code request instruction to the first testing upper computer;

specifically, step 201 further includes: the first test upper computer and the second test upper computer establish network connection, and the network connection mode is TCP/IP connection or WiFi connection; the electronic product is connected with the second test upper computer in a USB (universal serial bus) connection or Bluetooth connection mode; the first test upper computer is connected with the second equipment in a WiFi connection or Bluetooth connection mode; the second equipment declares the second test upper computer as keyboard equipment;

specifically, the request PIN code instruction is 01075553455250494E, where 01 represents the calling device type: simulating a keyboard, 07 representing command word length, 5553455250494E representing USER PIN;

step 202: the first test upper computer sends the PIN code to the second equipment;

step 203: when the second equipment receives the PIN code, the PIN code is analyzed to obtain an effective key value;

specifically, the effective key value obtained by analysis is 303132333435;

step 204: the second equipment queries a preset data table to convert the effective key values into corresponding key codes;

specifically, the preset data table is as follows:

valid key value	Key code
		0x30	0x27
0x31	0x1e
		0x32	0x1f
0x33	0x20
		0x34	0x21
0x35	0x22
		……	……

Step 205: the second equipment adds the key code obtained by conversion into the key code corresponding to the enter key to form first data according to a first preset format;

specifically, the first data is 000027000000000001000 b 000000000000000000000000000000000001000 b 00010000000000000000001 e 0000000000010002000000000000000000000000000000000001000200010000000000000000001 f 0000000000010003000000000000000000000000000000000001000300010000000000000000002000000000000100040000000000000000000000000000000000010004000100000000000000000021000000000001000500000000000000000000000000000000000100050001000000000000000000220000000000010006000000000000000000000000000000000001000600010000000000000028000 d 0000000000;

wherein 000027000000000001000 b 000000000000000000000000000000000001000 b 000100000000000000 corresponds to a valid key value of 0x 30;

00001 e 00000000000100020000000000000000000000000000000000010002000100000000000000 corresponds to a valid key value of 0x 31;

00001 f 00000000000100030000000000000000000000000000000000010003000100000000000000 corresponds to a valid key value of 0x 32;

00002000000000000100040000000000000000000000000000000000010004000100000000000000 correspond to a valid key value of 0x 33;

00002100000000000100050000000000000000000000000000000000010005000100000000000000 correspond to a valid key value of 0x 34;

00002200000000000100060000000000000000000000000000000000010006000100000000000000 correspond to a valid key value of 0x 35;

28000 d 0000000000 represents the enter key;

step 206: the second equipment sends the first data to a second test upper computer;

step 207: the second testing upper computer inputs the received first data into the PIN input box, and the second testing upper computer sends the PIN code to the electronic product.

Optionally, in this embodiment, the number of the second devices is multiple, the number of the second testing upper computers is multiple, the second devices are connected with the second testing upper computers in a one-to-one correspondence manner, each second testing upper computer is connected with an electronic product, and the first testing upper computer can perform data transmission with the multiple second devices and the multiple second testing upper computers to test the electronic products connected to the second testing upper computers;

the second testing upper computer sends a PIN code request instruction to the first testing upper computer;

specifically, the request PIN code instruction comprises an IP address of the second test upper computer, a called device type, a command length and a command;

the first testing upper computer sends the PIN code to second equipment connected with the second testing upper computer according to the IP address in the received PIN code request instruction;

the subsequent operations are as above and will not be described again.

Example four

The fourth embodiment of the invention provides an automatic test method of an electronic product, which is applied to second equipment and comprises the following steps:

step 301: initializing the second equipment;

specifically, in this embodiment, step 301 specifically includes:

step 301-1: initializing a USB module and a WiFi module system of the second equipment;

step 301-2: the USB module and the WiFi module of the second device carry out UART initialization and execute handshake operation;

step 301-3: initializing a USB module of the second device into an HID keyboard device;

step 302: a WiFi module of the second device receives a PIN code sent by the first test upper computer;

specifically, the first test upper computer is provided with a wireless communication module;

specifically, test software is arranged in the first test upper computer;

step 303: the WiFi module of the second device judges whether the received PIN code is complete, if so, the WiFi module of the second device sends the PIN code to the USB module, and the step 304 is executed, otherwise, the step 302 is executed;

step 304: a USB module of the second device receives the PIN code sent by the WiFi module;

step 305: the USB module of the second device judges whether the received PIN code is complete, if so, step 306 is executed, otherwise, step 304 is executed;

step 306: the USB module of the second device analyzes the received PIN code to obtain an effective key value;

specifically, the effective key values obtained by the analysis are as follows: 303132333435, respectively;

step 307: the USB module of the second device analyzes the effective key values to generate first data, the first data is sent to the second test upper computer, and step 304 is executed;

specifically, the second testing upper computer is provided with testing software and is connected with the electronic product to be tested, and the testing software pops up a PIN input box when accessing the electronic product to be tested;

optionally, in this embodiment, step 307 specifically includes:

step 307-1: the USB module of the second device reads and saves the state of the current function key of the second test upper computer;

step 307-2: the USB module of the second device inquires a preset data table to convert the received effective key value into a corresponding key code;

valid key value	Key code
		0x30	0x27
0x31	0x1e
		0x32	0x1f
0x33	0x20
		0x34	0x21
0x35	0x22
		……	……

Step 307-3: the USB module of the second device adds the key code obtained by conversion into the key code corresponding to the enter key to form first data according to a first preset format;

specifically, the first data is 000027000000000001000 b 000000000000000000000000000000000001000 b 00010000000000000000001 e 0000000000010002000000000000000000000000000000000001000200010000000000000000001 f 0000000000010003000000000000000000000000000000000001000300010000000000000000002000000000000100040000000000000000000000000000000000010004000100000000000000000021000000000001000500000000000000000000000000000000000100050001000000000000000000220000000000010006000000000000000000000000000000000001000600010000000000000028000 d 0000000000;

wherein 000027000000000001000 b 000000000000000000000000000000000001000 b 000100000000000000 corresponds to a valid key value of 0x 30;

00001 e 00000000000100020000000000000000000000000000000000010002000100000000000000 corresponds to a valid key value of 0x 31;

00001 f 00000000000100030000000000000000000000000000000000010003000100000000000000 corresponds to a valid key value of 0x 32;

00002000000000000100040000000000000000000000000000000000010004000100000000000000 correspond to a valid key value of 0x 33;

00002100000000000100050000000000000000000000000000000000010005000100000000000000 correspond to a valid key value of 0x 34;

00002200000000000100060000000000000000000000000000000000010006000100000000000000 correspond to a valid key value of 0x 35;

28000 d 0000000000 represents the enter key;

step 307-4: the USB module of the second device sends the first data to a second test upper computer;

step 307-5: the USB module of the second device restores the state of the current function key of the second test upper computer to the stored function key state;

specifically, the second testing upper computer is provided with testing software and is connected with the electronic product to be tested, and the testing software pops up a PIN input box when accessing the electronic product to be tested.

EXAMPLE five

An embodiment of the present invention provides an automated testing method for an electronic product, as shown in fig. 2, including:

step Q1: the first testing upper computer is connected with the second testing upper computer through a network, the electronic product is connected with the second testing upper computer, the first device declares to be a USB device to the first testing upper computer, the second device declares to be a keyboard device to the second testing upper computer, the first device is connected with the second device, and the first testing upper computer sends a PIN code to the first device;

step Q2: the first equipment receives the PIN code, analyzes the PIN code to obtain an effective key value, and sends the effective key value to the second equipment;

step Q3: the second device receives the effective key value, converts the effective key value into a corresponding key code, forms first data by the key code obtained through conversion according to a first preset format, and sends the first data to the second test upper computer;

step Q4: the second testing upper computer inputs the received first data into the PIN input box and sends the PIN code to the electronic product;

still include before first test host computer sends the PIN code for first equipment: the first testing upper computer sends a PIN checking instruction to the second testing upper computer or the second testing upper computer sends a PIN code requesting instruction to the first testing upper computer.

Optionally, in this embodiment, the connection between the first device and the second device is established in a wireless manner.

Optionally, in this embodiment, the connection between the first device and the second device is established by bluetooth connection; the establishing of the connection between the first device and the second device specifically includes:

step A1: the first device judges whether the second device is scanned, if so, the first device sends a connection request to the second device, and the step A2 is executed, otherwise, the scanning is continued, and the step A1 is executed;

step A2: and the second equipment starts pairing when receiving the connection request, judges whether the pairing is successful, if so, the first equipment and the second equipment can carry out data transmission, and if not, the data transmission is finished.

Optionally, in this embodiment, converting the valid key value into the corresponding key code specifically includes: and the second equipment queries a preset data table to convert the effective key value into a corresponding key code.

Optionally, in this embodiment, the number of the second devices is multiple, the number of the second testing upper computers is multiple, the second devices are connected with the second testing upper computers in a one-to-one correspondence manner, each second testing upper computer is connected with an electronic product, the second devices perform data transmission with the first devices, and the electronic products connected with the second testing upper computers correspondingly connected with the second devices are tested.

EXAMPLE six

The sixth embodiment of the invention provides an automatic test method of an electronic product, which comprises the following steps:

step 401: the first testing upper computer sends a PIN checking instruction to the second testing upper computer;

specifically, step 401 further includes: the first test upper computer and the second test upper computer establish network connection, and the network connection mode is TCP/IP connection or WiFi connection; the electronic product is connected with the second test upper computer in a USB (universal serial bus) connection or Bluetooth connection mode; the first equipment declares to the first test upper computer that the first equipment is USB equipment, and the second equipment declares to the second test upper computer that the second equipment is keyboard equipment; the first equipment and the second equipment are connected in a WiFi connection or Bluetooth connection mode;

step 402: popping up a PIN input box by the second test upper computer, waiting for data input, and executing step 403;

step 403: the first test upper computer sends a PIN code to the first equipment;

step 404: the first equipment receives the PIN code, analyzes the PIN code to obtain an effective key value, and sends the effective key value to the second equipment;

step 405: the second equipment receives the effective key value, inquires a preset data table and converts the effective key value into a corresponding key code;

step 406: the second equipment adds the key code obtained by conversion into the key code corresponding to the enter key to form first data according to a first preset format;

step 407: the second equipment sends the first data to a second test upper computer;

step 408: the second testing upper computer inputs the received first data into the PIN input box, and the second testing upper computer sends the PIN code to the electronic product.

Optionally, in this embodiment, the number of the second devices is multiple, the number of the second testing upper computers is multiple, the second devices are connected with the second testing upper computers in a one-to-one correspondence manner, each second testing upper computer is connected with an electronic product, and the first testing upper computer can perform data transmission with the multiple second devices and the second testing upper computers to test the electronic products connected to the second testing upper computers;

the first testing upper computer sends a PIN checking instruction to the second testing upper computer, the first testing upper computer sends a PIN code with the IP address to the first equipment, the first equipment analyzes the PIN code to obtain an effective key value, the effective key value is sent to the second equipment according to the IP address, and follow-up operation is repeated as above.

EXAMPLE seven

The seventh embodiment of the invention provides an automatic testing method of an electronic product, which comprises the following steps:

step 501: the second testing upper computer sends a PIN code request instruction to the first testing upper computer;

specifically, step 501 further includes: the first test upper computer and the second test upper computer establish network connection, and the network connection mode is TCP/IP connection or WiFi connection; the electronic product is connected with the second test upper computer in a USB (universal serial bus) connection or Bluetooth connection mode; the first equipment declares to the first test upper computer that the first equipment is USB equipment, and the second equipment declares to the second test upper computer that the second equipment is keyboard equipment; the first equipment and the second equipment are connected in a WiFi connection or Bluetooth connection mode;

specifically, the request PIN code instruction is 01075553455250494E, where 01 represents the calling device type: simulating a keyboard, 07 representing command word length, 5553455250494E representing USER PIN;

step 502: the first test upper computer sends a PIN code to the first equipment;

step 503: when the first equipment receives the PIN code, the PIN code is analyzed to obtain an effective key value, and the effective key value is sent to the second equipment;

specifically, the effective key value obtained by analysis is 303132333435;

step 504: the second equipment receives the effective key value, inquires a preset data table and converts the effective key value into a corresponding key code;

specifically, the preset data table is as follows:

valid key value	Key code
		0x30	0x27
0x31	0x1e
		0x32	0x1f
0x33	0x20
		0x34	0x21
0x35	0x22
		……	……

Step 505: the second equipment adds the key code obtained by conversion into the key code corresponding to the enter key to form first data according to a first preset format;

specifically, the first data is 000027000000000001000 b 000000000000000000000000000000000001000 b 00010000000000000000001 e 0000000000010002000000000000000000000000000000000001000200010000000000000000001 f 0000000000010003000000000000000000000000000000000001000300010000000000000000002000000000000100040000000000000000000000000000000000010004000100000000000000000021000000000001000500000000000000000000000000000000000100050001000000000000000000220000000000010006000000000000000000000000000000000001000600010000000000000028000 d 0000000000;

wherein 000027000000000001000 b 000000000000000000000000000000000001000 b 000100000000000000 corresponds to a valid key value of 0x 30;

00001 e 00000000000100020000000000000000000000000000000000010002000100000000000000 corresponds to a valid key value of 0x 31;

00001 f 00000000000100030000000000000000000000000000000000010003000100000000000000 corresponds to a valid key value of 0x 32;

00002000000000000100040000000000000000000000000000000000010004000100000000000000 correspond to a valid key value of 0x 33;

00002100000000000100050000000000000000000000000000000000010005000100000000000000 correspond to a valid key value of 0x 34;

00002200000000000100060000000000000000000000000000000000010006000100000000000000 correspond to a valid key value of 0x 35;

28000 d 0000000000 represents the enter key;

step 505: the second equipment sends the first data to a second test upper computer;

step 506: the second testing upper computer inputs the received first data into the PIN input box, and the second testing upper computer sends the PIN code to the electronic product.

Optionally, in this embodiment, the number of the second devices is multiple, the number of the second testing upper computers is multiple, the second devices are connected with the second testing upper computers in a one-to-one correspondence manner, each second testing upper computer is connected with an electronic product, and the first testing upper computer can perform data transmission with the multiple second devices and the multiple second testing upper computers to test the electronic products connected to the second testing upper computers;

the second testing upper computer sends a PIN code request instruction to the first testing upper computer;

specifically, the request PIN code instruction comprises an IP address of the second test upper computer, a called device type, a command length and a command;

the first testing upper computer sends the PIN code to second equipment connected with the second testing upper computer according to the IP address in the received PIN code request instruction;

the subsequent operations are as above and will not be described again.

Example eight

The eighth embodiment of the present invention provides an automated testing method for an electronic product, which is applied to a first device, and includes:

step 601: initializing a first device;

specifically, in this embodiment, step 601 specifically includes:

step 601-1: initializing a USB module and a BLE module system of a first device;

step 601-2: the USB module and the BLE module of the first device carry out UART initialization and execute handshake operation;

step 601-3: the USB module of the first device is initialized to be a CCID device, and the BLE module is initialized to be a central device;

step 602: the first equipment executes scanning connection operation;

specifically, in this implementation, step 602 specifically includes:

step 602-1: the first device starts scanning;

step 602-2: the first device judges whether the second device is scanned, if so, step 202-3 is executed, otherwise, the scanning is continued, and step 602-2 is executed;

optionally, in this embodiment, step 602-2 specifically includes: the first device matches the scanned universal unique identification code of the Bluetooth device with the stored universal unique identification code of the second device, if the matching is successful, the step 602-3 is executed, and if the matching is failed, the scanning is continued, and the step 602-2 is executed;

step 602-3: the first device sends a connection request to the second device, and judges whether the connection is successful, if so, step 603 is executed, otherwise, the scanning is continued, and step 602-2 is executed;

step 603: the first device queries the USB receiving state, judges whether the USB data receiving is finished, if so, executes step 604, otherwise executes step 603;

step 604: the USB module of the first device analyzes the received USB data to obtain effective key values;

specifically, the received USB data is an instruction sent by a first test upper computer;

specifically, test software is arranged in the first test upper computer;

specifically, the USB module of the first device parses the received USB data according to an agreed protocol;

specifically, the received USB data is 6B 06000000000000303132333435;

specifically, the effective key values obtained by the analysis are as follows: 303132333435, respectively;

step 605: the USB module of the first device sends the analyzed effective key value to the BLE module through the peripheral interface;

step 606: the USB module of the first device determines whether the sending of the valid key value is completed, if yes, step 607 is executed, otherwise step 605 is executed;

step 607: a BLE module of the first device receives a valid key value sent by a USB module;

step 608: the BLE module of the first device determines whether the received valid key value is complete, if so, performs step 609, otherwise, performs step 607;

step 609: the BLE module of the first device sends the valid key value to the second device through wireless communication, and step 607 is executed.

Example nine

The ninth embodiment of the present invention provides an automated testing method for an electronic product, which is applied to a second device, and includes:

step 701: initializing the second equipment;

specifically, in this embodiment, step 701 specifically includes:

step 701-1: initializing a USB module and a BLE module system of the second device;

step 701-2: the USB module and the BLE module of the second device carry out UART initialization and execute handshake operation;

step 701-3: initializing a USB module of the second device to be HID keyboard equipment, and initializing BLE to be peripheral equipment;

step 702: the second device performs broadcast pairing operation;

specifically, in this embodiment, step 702 specifically includes:

step 702-1: the second device starts broadcasting;

step 702-2: when the second device receives the connection request, starting pairing, and determining whether the pairing is successful, if so, executing step 703, otherwise, executing step 702-2:

step 703: the BLE module of the second device receives a valid key value sent by the BLE module of the first device;

step 704: the BLE module of the second device determines whether the received valid key value is complete, if so, the BLE module of the second device sends the valid key value to the USB module, and step 705 is executed, otherwise, step 703 is executed;

step 705: a USB module of the second device receives the valid key value sent by the BLE module;

step 706: the USB module of the second device determines whether the received valid key value is complete, if yes, step 707 is executed, otherwise step 705 is executed;

step 707: the USB module of the second device analyzes the received valid key values to generate first data, sends the first data to a second test upper computer, and executes step 705;

optionally, in this embodiment, step 707 specifically includes:

step 707-1: the USB module of the second device reads and saves the state of the current function key of the second test upper computer;

step 707-2: the USB module of the second device inquires a preset data table to convert the received effective key value into a corresponding key code;

specifically, the preset data table is as follows:

valid key value	Key code
		0x30	0x27
0x31	0x1e
		0x32	0x1f
0x33	0x20
		0x34	0x21
0x35	0x22
		……	……

Step 707-3: the USB module of the second device adds the key code obtained by conversion into the key code corresponding to the enter key to form first data according to a first preset format;

specifically, the first data is 000027000000000001000 b 000000000000000000000000000000000001000 b 00010000000000000000001 e 0000000000010002000000000000000000000000000000000001000200010000000000000000001 f 0000000000010003000000000000000000000000000000000001000300010000000000000000002000000000000100040000000000000000000000000000000000010004000100000000000000000021000000000001000500000000000000000000000000000000000100050001000000000000000000220000000000010006000000000000000000000000000000000001000600010000000000000028000 d 0000000000;

wherein 000027000000000001000 b 000000000000000000000000000000000001000 b 000100000000000000 corresponds to a valid key value of 0x 30;

00001 e 00000000000100020000000000000000000000000000000000010002000100000000000000 corresponds to a valid key value of 0x 31;

00001 f 00000000000100030000000000000000000000000000000000010003000100000000000000 corresponds to a valid key value of 0x 32;

00002000000000000100040000000000000000000000000000000000010004000100000000000000 correspond to a valid key value of 0x 33;

00002100000000000100050000000000000000000000000000000000010005000100000000000000 correspond to a valid key value of 0x 34;

00002200000000000100060000000000000000000000000000000000010006000100000000000000 correspond to a valid key value of 0x 35;

28000 d 0000000000 for carriage return;

step 707-4: the USB module of the second device sends the first data to a second test upper computer;

specifically, the second testing upper computer is provided with testing software and is connected with the electronic product to be tested, and the testing software pops up a PIN input box when accessing the electronic product to be tested;

step 707-5: and the USB module of the second device restores the state of the current function key of the second test upper computer into the stored function key state.

Example ten

An embodiment of the present invention provides an automated testing system for electronic products, as shown in fig. 3, including: the device comprises a first test upper computer, second equipment and a second test upper computer;

the first test upper computer includes:

the first network connection module 11 is used for establishing network connection with the second test upper computer;

a first connection module 13, configured to establish a connection with a second device;

a first sending module 12, configured to send the PIN code to the second device;

the second device includes:

the declaration module 21 is used for declaring the second test upper computer as keyboard equipment;

the second connection module 22 is used for establishing connection with the first test upper computer;

the second receiving module 23 is configured to receive the PIN code sent by the first test upper computer;

the analysis composition module 24 is configured to analyze the PIN code received by the second receiving module 23 to obtain an effective key value, convert the effective key value into a corresponding key code, and compose the key code obtained through conversion into first data according to a first preset format;

the second sending module 25 is used for sending the first data formed by the analysis forming module 24 to a second test upper computer;

the second test host computer includes:

the second network connection module 31 is used for establishing network connection with the first test upper computer;

a third receiving module 32, configured to receive the first data sent by the second device;

the third connecting module 35 is used for connecting with an electronic product;

the input sending module 33 is configured to input the first data received by the third receiving module 32 into the PIN input box, and send the PIN code to the electronic product;

in the system, a first sending module 12 of a first testing upper computer is also used for sending a PIN checking instruction to a second testing upper computer;

or, in the system, the first testing upper computer further comprises a first receiving module 14, which is used for receiving a PIN code request instruction sent by the second testing upper computer; the second test upper computer still includes: and the third sending module 34 is configured to send a PIN code request instruction to the first test upper computer.

Optionally, in this embodiment, the first connection module 13 is configured to establish a wireless connection with the second device; the second connection module 22 is used for establishing wireless connection with the first test upper computer.

Optionally, in this embodiment, the first connection module 13 is configured to establish a bluetooth connection with the second device; the second connection module 22 is used for establishing Bluetooth connection with the first test upper computer;

the first connection module 13 is specifically used for the first test upper computer to judge whether the second device is scanned, if so, the first test upper computer sends a connection request to the second device, and if not, the first test upper computer continues to scan;

the second connection module 22 is specifically configured to start pairing when the second device receives the connection request, determine whether the pairing is successful, if so, enable the first test upper computer and the second device to perform data transmission, and otherwise, end the pairing.

Optionally, in this embodiment, the parsing component module 24 converts the valid key value into a corresponding key code according to a preset data table.

Optionally, in this embodiment, the system includes a plurality of second devices, including a plurality of second test host computers, and the second device is connected with the second test host computer one-to-one, and every second test host computer is connected with the electronic product, and the second device carries out data transmission with first test host computer, tests the electronic product of being connected on the second test host computer that the second device corresponds to and connects.

EXAMPLE eleven

An eleventh embodiment of the present invention provides an automated testing system for electronic products, as shown in fig. 4, including: the device comprises a first test upper computer, first equipment, second equipment and a second test upper computer;

the first test upper computer includes:

the first network connection module 101 is used for establishing network connection with the second test upper computer;

the first sending module 102 is used for sending the PIN code to the first equipment by the first test upper computer;

the first device includes:

the first declaration module 201 is used for declaring the first test upper computer to be a USB device;

a first connection module 202, configured to establish a connection with a second device;

the second receiving module 203 is configured to receive a PIN code sent by the first test upper computer;

the analyzing and sending module 204 is configured to analyze the PIN code received by the second receiving module 203 to obtain an effective key value, and send the effective key value to the second device;

the second device includes:

the second declaration module 301 is used for declaring the second test upper computer as keyboard equipment;

a second connection module 302, configured to establish a connection with a first device;

a third receiving module 303, configured to receive a valid key value sent by the first device;

a conversion composing module 304, configured to convert the valid key value received by the third receiving module 303 into a corresponding key code, and compose the key code obtained through conversion into first data according to a first preset format;

a second sending module 305, configured to send the first data composed by the conversion composition module 304 to a second test upper computer;

the second test host computer includes:

the second network connection module 401 is used for establishing network connection with the first test upper computer;

a fourth receiving module 402, configured to receive the first data sent by the second device;

a third connecting module 405, configured to connect with an electronic product;

an input sending module 403, configured to input the first data received by the fourth receiving module 402 into a PIN entry box, and send a PIN code to the electronic product;

in the system, a first sending module 102 of a first testing upper computer is also used for sending a PIN checking instruction to a second testing upper computer;

or, in the system, the first testing upper computer further comprises a first receiving module 103, which is used for receiving a PIN code request instruction sent by the second testing upper computer; the second test upper computer still includes: and a third sending module 404, configured to send a PIN code request instruction to the first test upper computer.

Optionally, in this embodiment, the first connection module 202 is configured to establish a wireless connection with a second device; the second connection module 302 is configured to establish a wireless connection with the first device.

Optionally, in this embodiment, the first connection module 202 is configured to establish a bluetooth connection with a second device; the second connection module 302 is configured to establish a bluetooth connection with the first device;

the first connection module 202 is specifically configured to determine whether the first device scans the second device, send a connection request to the second device if the first device determines that the second device is scanned, and continue scanning if the second device is scanned;

the second connection module 302 is specifically configured to start pairing when the second device receives the connection request, determine whether the pairing is successful, if so, the first device and the second device may perform data transmission, and otherwise, end the pairing.

Optionally, in this embodiment, the conversion composition module 304 specifically converts the valid key value into a corresponding key code according to a preset data table.

Optionally, in this embodiment, the system includes a plurality of second devices, and includes a plurality of second test host computers, and the second device is connected with the second test host computer one-to-one, and every second test host computer is connected with the electronic product, and the second device carries out data transmission with first equipment, tests the electronic product on the second test host computer that the second device corresponds to and connects.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (20)

1. An automated testing method for electronic products, comprising:

step S1: the method comprises the following steps that a first test upper computer is connected with a second test upper computer through a network, an electronic product is connected with the second test upper computer, second equipment declares the electronic product to be keyboard equipment to the second test upper computer, the first test upper computer is connected with the second equipment, and the first test upper computer sends a PIN code to the second equipment;

step S2: the second device receives the PIN code, analyzes the PIN code to obtain an effective key value, converts the effective key value into a corresponding key code, adds the key code obtained by conversion into the key code corresponding to the enter key to form first data according to a first preset format, and sends the first data to the second test upper computer;

step S3: the second testing upper computer inputs the received first data into the PIN input box and sends the PIN code to the electronic product;

the first test upper computer sends the PIN code to the second equipment, and the method further comprises the following steps: the first testing upper computer sends a PIN checking instruction to a second testing upper computer or the second testing upper computer sends a PIN code requesting instruction to the first testing upper computer.

2. The method of claim 1, wherein the first test upper computer establishes the connection with the second device in a wireless manner.

3. The method of claim 1, wherein the first test upper computer establishes a connection with the second device in a bluetooth connection; the connection establishment between the first test upper computer and the second equipment specifically comprises the following steps:

step A1: the first testing upper computer judges whether the second equipment is scanned or not, if so, a connection request is sent to the second equipment, and the step A2 is executed, otherwise, the scanning is continued, and the step A1 is executed;

step A2: and the second equipment starts to pair when receiving the connection request, judges whether the pairing is successful, if so, the first test upper computer and the second equipment can carry out data transmission, and if not, the data transmission is finished.

4. The method of claim 1, wherein converting the valid key value into a corresponding key code specifically comprises: and the second equipment queries a preset data table to convert the effective key value into a corresponding key code.

5. The method of claim 1, wherein the number of the second devices is multiple, the number of the second testing upper computers is multiple, the second devices are connected with the second testing upper computers in a one-to-one correspondence manner, each second testing upper computer is connected with an electronic product, the second devices perform data transmission with the first testing upper computer, and the electronic products connected with the second testing upper computers correspondingly connected with the second devices are tested.

6. An automated testing method for electronic products, comprising:

step Q1: the method comprises the following steps that a first test upper computer is connected with a second test upper computer through a network, an electronic product is connected with the second test upper computer, a first device declares to be a USB device to the first test upper computer, a second device declares to be a keyboard device to the second test upper computer, the first device is connected with the second device, and the first test upper computer sends a PIN code to the first device;

step Q2: the first equipment receives the PIN code, analyzes the PIN code to obtain an effective key value, and sends the effective key value to the second equipment;

step Q3: the second device receives the effective key value, converts the effective key value into a corresponding key code, adds the key code obtained by conversion into the key code corresponding to the enter key to form first data according to a first preset format, and sends the first data to the second test upper computer;

step Q4: the second testing upper computer inputs the received first data into the PIN input box, and sends the PIN code to the electronic product;

the first test upper computer sends the PIN code to the first equipment, and the method further comprises the following steps: the first testing upper computer sends a PIN checking instruction to a second testing upper computer or the second testing upper computer sends a PIN code requesting instruction to the first testing upper computer.

7. The method of claim 6, wherein the first device establishes the connection with the second device by a wireless connection.

8. The method of claim 6, wherein the first device establishes the connection with the second device in a bluetooth connection; the establishing of the connection between the first device and the second device specifically includes:

step A1: the first device judges whether the second device is scanned, if so, a connection request is sent to the second device, and the step A2 is executed, otherwise, the scanning is continued, and the step A1 is executed;

step A2: and the second equipment starts pairing when receiving the connection request, judges whether the pairing is successful, if so, the first equipment and the second equipment can carry out data transmission, and if not, the data transmission is finished.

9. The method of claim 6, wherein converting the valid key value to a corresponding key code specifically comprises: and the second equipment queries a preset data table to convert the effective key value into a corresponding key code.

10. The method of claim 6, wherein the number of the second devices is multiple, the number of the second testing upper computers is multiple, the second devices are connected with the second testing upper computers in a one-to-one correspondence mode, each second testing upper computer is connected with an electronic product, the second devices and the first devices perform data transmission, and the electronic products connected to the second testing upper computers correspondingly connected with the second devices are tested.

11. An automatic test system of an electronic product is characterized by comprising a first test upper computer, second equipment and a second test upper computer;

the first test upper computer comprises:

the first network connection module is used for establishing network connection with the second test upper computer;

the first connection module is used for establishing connection with the second equipment;

the first sending module is used for sending the PIN code to the second equipment;

the second device includes:

the declaration module is used for declaring the second test upper computer as keyboard equipment;

the second connection module is used for establishing connection with the first test upper computer;

the second receiving module is used for receiving the PIN code sent by the first testing upper computer;

the analysis composition module is used for analyzing the PIN received by the second receiving module to obtain an effective key value, converting the effective key value into a corresponding key code, and adding the converted key code into the key code corresponding to the enter key to form first data according to a first preset format;

the second sending module is used for sending the first data formed by the analysis composition module to the second test upper computer;

the second test upper computer includes:

the second network connection module is used for establishing network connection with the first test upper computer;

a third receiving module, configured to receive the first data sent by the second device;

the third connecting module is used for connecting with an electronic product;

the input sending module is used for inputting the first data received by the third receiving module into a PIN input box and sending a PIN code to an electronic product;

in the system, the first sending module of the first testing upper computer is also used for sending a PIN checking instruction to the second testing upper computer;

or, in the system, the first testing upper computer further comprises a first receiving module for receiving a PIN code request instruction sent by the second testing upper computer; the second test upper computer further comprises: and the third sending module is used for sending a PIN code request instruction to the first test upper computer.

12. The system of claim 11, wherein the first connection module is to establish a wireless connection with the second device; the second connection module is used for establishing wireless connection with the first test upper computer.

13. The system of claim 11, wherein the first connection module is to establish a bluetooth connection with the second device; the second connection module is used for establishing Bluetooth connection with the first test upper computer;

the first connection module is specifically used for the first test upper computer to judge whether the second equipment is scanned, if so, a connection request is sent to the second equipment, and if not, the first test upper computer continues to scan;

the second connection module is specifically configured to start pairing when the second device receives the connection request, determine whether the pairing is successful, if so, enable the first test upper computer and the second device to perform data transmission, and otherwise, end the pairing.

14. The system of claim 11, wherein the parsing component module converts the valid key value to a corresponding key code in response to querying a pre-set data table.

15. The system of claim 11, wherein the system comprises a plurality of second devices, and a plurality of second testing upper computers, the second devices are connected with the second testing upper computers in a one-to-one correspondence manner, each second testing upper computer is connected with an electronic product, the second devices perform data transmission with the first testing upper computers, and the electronic products connected with the second testing upper computers correspondingly connected with the second devices are tested.

16. An automatic test system of an electronic product is characterized by comprising a first test upper computer, first equipment, second equipment and a second test upper computer;

the first test upper computer comprises:

the first network connection module is used for establishing network connection with the second test upper computer;

the first sending module is used for sending the PIN code to the first equipment by the first testing upper computer;

the first device includes:

the first declaration module is used for declaring the first test upper computer as a USB device;

the first connection module is used for establishing connection with the second equipment;

the second receiving module is used for receiving the PIN code sent by the first testing upper computer;

the analysis sending module is used for analyzing the PIN received by the second receiving module to obtain an effective key value and sending the effective key value to the second equipment;

the second device includes:

the second declaration module is used for declaring the second test upper computer as keyboard equipment;

the second connection module is used for establishing connection with the first equipment;

a third receiving module, configured to receive a valid key value sent by the first device;

the conversion composition module is used for converting the effective key value received by the third receiving module into a corresponding key code, and adding the key code obtained by conversion into the key code of the enter key to form first data according to a first preset format;

the second sending module is used for sending the first data formed by the conversion composition module to the second test upper computer;

the second test upper computer includes:

the second network connection module is used for establishing network connection with the first test upper computer;

a fourth receiving module, configured to receive the first data sent by the second device;

the third connecting module is used for connecting with an electronic product;

the input sending module is used for inputting the first data received by the fourth receiving module into a PIN input box and sending a PIN code to an electronic product;

in the system, the first sending module of the first testing upper computer is also used for sending a PIN checking instruction to the second testing upper computer;

or, in the system, the first testing upper computer further comprises a first receiving module for receiving a PIN code request instruction sent by the second testing upper computer; the second test upper computer further comprises: and the third sending module is used for sending a PIN code request instruction to the first test upper computer.

17. The system of claim 16, wherein the first connection module is to establish a wireless connection with the second device; the second connection module is used for establishing wireless connection with the first equipment.

18. The system of claim 16, wherein the first connection module is to establish a bluetooth connection with the second device; the second connection module is used for establishing Bluetooth connection with the first equipment;

the first connection module is specifically configured to determine whether the first device scans the second device, and if so, send a connection request to the second device, otherwise, continue scanning;

the second connection module is specifically configured to start pairing when the second device receives the connection request, determine whether the pairing is successful, if so, enable data transmission between the first device and the second device, and otherwise, end the pairing.

19. The system of claim 16, wherein the conversion component module converts the valid key value to a corresponding key code in response to querying a pre-set data table.

20. The system of claim 16, wherein the system comprises a plurality of second devices, and a plurality of second testing upper computers, the second devices are connected with the second testing upper computers in a one-to-one correspondence manner, each second testing upper computer is connected with an electronic product, the second devices perform data transmission with the first devices, and the electronic products on the second testing upper computers connected with the second devices in a corresponding manner are tested.

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