WO2016019725A1 - Procédé de gestion de ressources de mise à niveau de logiciel, dispositif, système et support de stockage informatique - Google Patents

Procédé de gestion de ressources de mise à niveau de logiciel, dispositif, système et support de stockage informatique Download PDF

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Publication number
WO2016019725A1
WO2016019725A1 PCT/CN2015/074338 CN2015074338W WO2016019725A1 WO 2016019725 A1 WO2016019725 A1 WO 2016019725A1 CN 2015074338 W CN2015074338 W CN 2015074338W WO 2016019725 A1 WO2016019725 A1 WO 2016019725A1
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Prior art keywords
utilization
bandwidth
terminals
file server
terminal
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PCT/CN2015/074338
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English (en)
Chinese (zh)
Inventor
吴水生
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中兴通讯股份有限公司
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Publication of WO2016019725A1 publication Critical patent/WO2016019725A1/fr

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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F8/00Arrangements for software engineering
    • G06F8/60Software deployment
    • G06F8/65Updates
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L41/00Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks

Definitions

  • the present invention relates to network management technologies in the field of wireless communications, and in particular, to a software upgrade management method, device, system, and computer storage medium.
  • the network management system includes: a terminal, a network management server, and a file server;
  • the software upgrade function is an important function in the network management system, and the basic principle of the software upgrade function is: the network management server first sends a software upgrade download to the terminal (Download After receiving the Download command, the terminal interacts with the file server to download the upgrade file of the software, and completes the software upgrade process.
  • the network management server triggers the software upgrade in a timed manner, firstly, the download command is concurrently sent to the first terminal to the 100th terminal, and the first terminal to the 100th terminal are simultaneously activated to perform software upgrade with the file server; 100 terminals are When a terminal completes the software upgrade, the network management server sends a Download command to the 101st terminal, and starts the 101st terminal to interact with the file server to perform software upgrade.
  • the software upgrade management scheme in the existing network management system has at least the following defects:
  • the number of concurrently upgraded terminals cannot be adjusted according to the file server network load and the resource load, thereby reducing the resource utilization rate of the file server and reducing the upgrade efficiency of the terminal.
  • embodiments of the present invention are expected to provide a software upgrade management method, device, system, and computer storage medium.
  • An embodiment of the present invention provides a software upgrade management method, where the method includes:
  • the number of concurrently upgraded terminals is adjusted according to the network bandwidth information and host resource information of the received file server.
  • the network bandwidth information includes a maximum download bandwidth of each terminal connected to the file server, and a number of terminals currently concurrently upgraded by the file server;
  • the host resource information includes a memory utilization of the file server, and a central Processor CPU utilization.
  • the number of terminals that are concurrently upgraded according to the network bandwidth information and the host resource information of the received file server includes:
  • the number of concurrently upgraded terminals is adjusted according to the memory usage, CPU utilization, and bandwidth utilization of the file server.
  • the number of terminals that are concurrently upgraded according to the memory usage, CPU utilization, and bandwidth utilization of the file server includes:
  • the CPU utilization rate, the bandwidth utilization rate, and the stress test the function relationship between the memory utilization rate, the CPU utilization rate, the bandwidth utilization rate, and the number of concurrently upgraded terminals is obtained;
  • the bandwidth utilization is compared with a preset bandwidth utilization threshold. If the bandwidth utilization is greater than the bandwidth utilization threshold, the number of concurrently upgraded terminals is reduced according to the function relationship and according to a set step size. Until the bandwidth utilization is less than or equal to the bandwidth utilization threshold; or, according to the file server, the memory utilization, the CPU utilization, the bandwidth utilization, and Through the stress test, the memory utilization, CPU utilization, bandwidth utilization and the number of concurrently upgraded terminals are obtained.
  • the CPU utilization rate, the bandwidth utilization rate, and the stress test the function relationship between the memory utilization rate, the CPU utilization rate, the bandwidth utilization rate, and the number of concurrently upgraded terminals is obtained;
  • the bandwidth utilization is compared with a preset bandwidth utilization threshold. If the bandwidth utilization is less than or equal to the bandwidth utilization threshold, the CPU utilization is compared with a preset CPU utilization threshold. If the CPU utilization is less than or equal to the CPU utilization threshold, comparing the memory utilization with a preset memory utilization threshold; if the memory utilization is greater than the memory utilization threshold, maintaining the current The number of terminals that are concurrently upgraded; or,
  • the CPU utilization rate, the bandwidth utilization rate, and the stress test the function relationship between the memory utilization rate, the CPU utilization rate, the bandwidth utilization rate, and the number of concurrently upgraded terminals is obtained;
  • the bandwidth utilization is compared with a preset bandwidth utilization threshold. If the bandwidth utilization is less than or equal to the bandwidth utilization threshold, the CPU utilization is compared with a preset CPU utilization threshold. If the CPU usage is less than or equal to the CPU utilization threshold, compare the memory utilization with a preset memory utilization threshold; if the memory utilization is less than or equal to the memory utilization threshold, The function relationship increases the number of concurrently upgraded terminals according to the set step size until the memory utilization is greater than the memory utilization threshold.
  • the terminal when the software upgrade is triggered by the timing mode, the terminal is upgraded and managed according to the number of terminals that are concurrently upgraded after the adjustment, including:
  • N is a natural number
  • the software upgrade command is sent to the N+1 terminal, and the N+1 terminal is started to interact with the file server to perform software upgrade; wherein the timing period is greater than the total upgrade time of all the terminals.
  • the terminal when the software is triggered by the event triggering mode, the terminal is upgraded and managed according to the number of terminals that are concurrently upgraded after the adjustment, including:
  • the software upgrade instruction is sent to the terminal, and the software upgrade instruction is used to instruct the terminal to interact with the file server to perform software upgrade.
  • An embodiment of the present invention provides a software upgrade management method, where the method includes:
  • the network bandwidth information includes a maximum download bandwidth of each terminal connected to itself, and a number of terminals currently concurrently upgraded; the host resource information includes its own memory utilization rate and its own CPU utilization rate.
  • the method further includes:
  • the re-acquired network bandwidth information and host resource information are sent to the network management server.
  • the method further includes:
  • the maximum download bandwidth is allocated for each terminal connected to itself.
  • the embodiment of the present invention provides a network management server, where the network management server includes: an adjustment module and an upgrade management module;
  • the adjustment module is configured to adjust the number of concurrently upgraded terminals according to the network bandwidth information and the host resource information of the received file server when the software upgrade is triggered;
  • the upgrade management module is configured to perform software upgrade management on the terminal according to the number of terminals that are concurrently upgraded after the adjustment.
  • the network bandwidth information includes a maximum download bandwidth of each terminal connected to the file server, and a number of terminals currently concurrently upgraded by the file server;
  • the host resource information includes a memory utilization of the file server, and a central Processor CPU utilization.
  • the adjustment module is configured to:
  • the adjustment module is configured to:
  • the upgrade management module is configured to:
  • N is a natural number
  • the software upgrade is sent to the N+1 terminal.
  • the N+1 terminal is started to interact with the file server to perform software upgrade; wherein, the timing period is greater than the total upgrade time of all terminals.
  • the upgrade management module is configured to:
  • the software upgrade instruction is sent to the terminal, and the software upgrade instruction is used to instruct the terminal to interact with the file server to perform software upgrade.
  • An embodiment of the present invention provides a file server, where the file server includes: an obtaining module and a sending module;
  • the acquiring module is configured to acquire its own network bandwidth information and host resource information
  • the sending module is configured to send the network bandwidth information and the host resource information to a network management server, where the network bandwidth information and the host resource information are used to indicate that the network management server is configured according to the network bandwidth information. And the number of terminals that are concurrently upgraded by the host resource information.
  • the network bandwidth information includes a maximum download bandwidth of each terminal connected to itself, and a number of terminals currently concurrently upgraded; the host resource information includes its own memory utilization rate and its own CPU utilization rate.
  • the acquiring module is configured to acquire its own network bandwidth information and host resource information according to a set time interval or a set frequency manner;
  • the sending module is further configured to send the re-acquired network bandwidth information and host resource information to the network management server.
  • the file server further includes:
  • An allocation module configured to allocate a maximum download bandwidth for each terminal connected to itself.
  • An embodiment of the present invention further provides a software upgrade management system, where the system includes: a terminal, Network management server, file server; among them,
  • the terminal is configured to perform software upgrade with the file server 102 when receiving the software upgrade instruction;
  • the network management server is configured to adjust the number of concurrently upgraded terminals according to the network bandwidth information and the host resource information of the received file server when the software upgrade is triggered; and perform software upgrade management on the terminal according to the number of concurrently upgraded terminals;
  • the file server is configured to obtain its own network bandwidth information and host resource information, and send the network bandwidth information and host resource information to the network management server.
  • the embodiment of the invention further provides a computer storage medium, the computer storage medium comprising a set of instructions, when executed, causing at least one processor to execute the software upgrade management method described above.
  • the software upgrade management method, the device, the system, and the computer storage medium provided by the embodiment of the present invention when the software upgrade is triggered, the number of concurrently upgraded terminals is adjusted according to the resource information of the received file server;
  • the terminal performs software upgrade management.
  • the embodiment of the present invention can adjust the number of concurrently upgraded terminals according to the received resource information of the file server, thereby improving resource utilization of the file server and improving the upgrade efficiency of the terminal.
  • FIG. 1 is a schematic structural diagram of a software upgrade management system according to an embodiment of the present invention.
  • FIG. 2 is a schematic flowchart of an implementation process of a software upgrade management method according to an embodiment of the present invention
  • FIG. 3 is a schematic flowchart of a method for implementing a method for adjusting a number of concurrently upgraded terminals according to resource information according to an embodiment of the present invention
  • FIG. 4 is a schematic flowchart of an implementation process of another software upgrade management method according to an embodiment of the present invention.
  • FIG. 5 is a schematic structural diagram of a network management server according to an embodiment of the present invention.
  • FIG. 6 is a schematic structural diagram of a file server according to an embodiment of the present invention.
  • the embodiment of the present invention is applied to a software upgrade management system, which mainly includes: a terminal, a network management server, and a file server; in the terminal upgrade management system, when the network management server triggers a software upgrade, according to the received file server.
  • the network bandwidth information and the host resource information adjust the number of concurrently upgraded terminals; perform software upgrade management on the terminal according to the number of concurrently upgraded terminals; thus, not only can improve the resource utilization of the file server, but also improve the upgrade efficiency of the terminal.
  • the upgrade management system includes: a terminal 100, a network management server 101, and a file server 102;
  • the terminal 100 is configured to perform software upgrade with the file server 102 when receiving the software upgrade instruction;
  • the network management server 101 is configured to adjust the number of concurrently upgraded terminals according to the network bandwidth information and the host resource information of the received file server when the software upgrade is triggered; and perform software upgrade management on the terminal according to the number of concurrently upgraded terminals. ;
  • the file server 102 is configured to acquire its own network bandwidth information and host resource information; and send the network bandwidth information and host resource information to the network management server 101;
  • the network bandwidth information includes a maximum download bandwidth of each terminal connected to the file server 102, and a number of terminals currently concurrently upgraded by the file server 102.
  • the host resource information includes memory usage of the file server 102. Rate, central processing unit (CPU, Central Processing Unit) utilization;
  • the file server 102 is further configured to allocate a maximum download bandwidth for each connected terminal.
  • step S200 how to specifically according to the network bandwidth information of the received file server and the host resource letter The number of terminals that adjust concurrent upgrades is described in detail in step S200 below.
  • step S201 how to perform software upgrade management on the terminal according to the number of terminals that are concurrently upgraded after adjustment is described in detail in step S201 below.
  • the terminal upgrade management system there is only one network management server 101, which may have multiple terminals 100 and multiple file servers 102; and multiple file servers 102 constitute a set of mutually independent computer clusters interconnected by a high-speed network.
  • the computer cluster can be thought of as a stand-alone file server 102 and managed in a single system mode, providing software download services for large-scale terminal groups.
  • the file server 102 may be an external device independent of the network management server 101, that is, the file server 102 is deployed separately from the network management server 101, such that the file server 102 is configured only as
  • the terminal 100 provides a software download service, which does not affect the function of the network management server 101 and is not affected by the network management server 101; that is, the independent file server 102 allocates a fixed network bandwidth and does not occupy network management.
  • the network bandwidth of the server 101 when the terminal 100 interacts with the independent file server 102 for software upgrade, does not affect the normal interaction between the network management server 101 and other devices; the file server 102 may also be operated by the network management server 101.
  • the low-level software system of the system that is, the logical function module inside the network management server 101, the internal logical function module may be referred to as a download service providing module.
  • the network management server 101 may trigger a software upgrade of the terminal in a timed manner, or may trigger a software upgrade of the terminal 100 by waiting for the terminal 100 to report the user terminal device WAN management protocol (TR069) event triggering manner;
  • TR069 user terminal device WAN management protocol
  • the software upgrade download command is sent to the terminal 100 that needs to be upgraded, and the download command is used to instruct the terminal 100 to interact with the file server 102. software upgrade.
  • the file server 102 obtains its own network bandwidth information and host resource information, and sends the network bandwidth information and the host resource information to the network management server 101;
  • the network management server 101 first presets the number of terminals that are initially concurrently upgraded according to the actual situation; then, according to the received network bandwidth information and the host resource information, the number of concurrently upgraded terminals is adjusted according to the number of terminals that are concurrently upgraded after the adjustment.
  • the terminal performs software upgrade management. Specifically, two implementation methods are available:
  • the number of concurrently upgraded terminals is adjusted according to the received network bandwidth information and the host resource information, and then, according to the adjusted number of concurrently upgraded terminals N, the Download command is concurrently issued.
  • the first terminal 100 to the Nth terminal 100 are activated, and the first terminal 100 to the Nth terminal 100 are simultaneously interacted with the file server 102 to perform software upgrade; wherein N is a natural number; when one of the N terminals completes the software upgrade And sending a Download command to the N+1 terminal 100, and initiating the N+1 terminal 100 to interact with the file server 102 to perform software upgrade; wherein, the timing period is greater than a total upgrade time of all terminals in the upgrade management system;
  • the number of concurrently upgraded terminals is adjusted according to the received network bandwidth information and the host resource information, and then the file server 102 is currently concurrently upgraded. The number is compared with the number of terminals that are concurrently upgraded after the adjustment. If the number of terminals that are concurrently upgraded by the file server 102 is less than or equal to the number of terminals that are concurrently upgraded, the download command is sent to the terminal 100 to indicate the terminal 100. The software server is upgraded with the file server 102. If the number of concurrently upgraded terminals of the file server 102 is greater than the threshold number of the concurrently upgraded terminals, the process ends.
  • a software upgrade management method provided by an embodiment of the present invention is applied to a network management server, and specific implementation steps include:
  • Step S200 When the network management server triggers the software upgrade, according to the received file server
  • the network bandwidth information and the host resource information adjust the number of concurrently upgraded terminals
  • the network management server presets the terminal range to be upgraded, the download path of the target software version, and the software upgrade triggering mode; wherein the terminal range may be a set of terminal devices conforming to a set of rules, and the download of the target software version
  • the path is a download path to a target software version on the file server
  • the software upgrade trigger mode may trigger a software upgrade in an active manner.
  • the network management server triggers the software upgrade of the terminal in a timed manner;
  • the mode triggers the software upgrade.
  • the network management server triggers the software upgrade of the terminal by using an event triggering manner of waiting for the terminal to send an Inform message.
  • the network bandwidth information includes a maximum download bandwidth of each terminal connected to the file server, and a number of terminals currently concurrently upgraded by the file server;
  • the host resource information includes memory utilization and CPU utilization of the file server.
  • Step S200a According to the memory utilization, CPU utilization, and bandwidth utilization of the file server, and through a stress test, the function relationship between the memory utilization, the CPU utilization, the bandwidth utilization, and the number of concurrently upgraded terminals is obtained;
  • Step S200b determining whether the bandwidth utilization is greater than the bandwidth utilization threshold, and if the bandwidth utilization is greater than the bandwidth utilization threshold, proceeding to step S200c; if the bandwidth utilization is less than or equal to the bandwidth utilization Rate threshold, then proceeds to step S200d;
  • the bandwidth utilization threshold, the memory utilization threshold, and the CPU utilization threshold may be preset according to the actual network load of the file server and the host resource load;
  • Step S200c End the processing flow according to the function relationship and reduce the number of concurrently upgraded terminals according to the set step size until the bandwidth utilization ratio is less than or equal to the bandwidth utilization threshold.
  • Step S200d determining whether the CPU utilization is greater than the CPU utilization threshold. If the CPU utilization is greater than the CPU utilization threshold, proceeding to step S200g; if the CPU utilization is less than or equal to the CPU utilization Rate threshold, then proceeds to step S200e;
  • Step S200e determining whether the memory utilization is greater than the memory utilization threshold, and if the memory utilization is greater than the memory utilization threshold, proceeding to step S200g; if the memory utilization is less than or equal to the memory utilization Rate threshold, then step S200f;
  • Step S200f increasing the number of concurrently upgraded terminals according to the function relationship and according to the set step size until the memory utilization is greater than the memory utilization threshold;
  • Step S200g The number of terminals currently concurrently upgraded is maintained, and the process flow is ended.
  • the adjusted step size can be preset according to the actual network load of the file server or the host resource load.
  • the comparison order of the memory utilization, the CPU utilization, and the bandwidth utilization of the file server is not performed. Specifically limited.
  • Step S201 Perform software upgrade management on the terminal according to the number of terminals that are concurrently upgraded after the adjustment.
  • the terminal is upgraded and managed according to the number of terminals that are concurrently upgraded after the adjustment.
  • the specific implementation manner is as follows:
  • the N software upgrade instructions are sent to the first terminal to the Nth terminal respectively, and the first terminal to the Nth terminal are started to interact with the file server 102 to perform software upgrade;
  • N is a natural number;
  • the software upgrade instruction is sent to the N+1 terminal, and the N+1 terminal is started to interact with the file server to perform software upgrade; wherein, the timing period is greater than all the terminals. Upgrade time.
  • the terminal is upgraded and managed according to the number of concurrently upgraded terminals.
  • the specific implementation manner is as follows:
  • the download command is sent to the terminal, where the download command is used to instruct the terminal to receive the Download command.
  • the network management server a response to the Download Response message, and performing software upgrade with the file server; after the terminal software upgrade is completed, returning a download completion TransferComplete message to the network management server, so that the network management server is configured according to the The TransferComplete message determines that the terminal has completed a software upgrade;
  • the embodiment of the present invention is applicable to a scenario in which a large number of terminals need to be upgraded and the upgrade time is limited, and the software management of the large-scale terminal group can be quickly and efficiently performed.
  • the network management server triggers the software upgrade, according to the received The number of terminals that are currently concurrently upgraded by the file server, the maximum download bandwidth allocated by each terminal, the memory utilization rate, and the number of terminals that are upgraded and upgraded by the CPU utilization are upgraded according to the number of terminals that are concurrently upgraded.
  • the resource utilization of the file server reduces the high failure rate of the terminal due to waiting for the software upgrade.
  • the network management server takes into account the CPU utilization and memory utilization of the file server, and can effectively solve the problem.
  • the file server is down due to excessive CPU utilization or excessive memory utilization of the file server.
  • a software upgrade management method is also provided in the file server, and the specific implementation steps include:
  • Step S400 Obtaining own network bandwidth information and host resource information
  • the network bandwidth information includes a maximum download bandwidth of each terminal connected to itself, and a number of terminals currently concurrently upgraded;
  • the host resource information includes a memory of the file server Utilization rate, CPU utilization;
  • the network bandwidth information and the host resource information can be obtained according to the set time interval or the set frequency mode, so as to monitor the network bandwidth information and the host resource information in real time; if the file server is a cluster, the average value is obtained.
  • Memory utilization CPU utilization.
  • the maximum download bandwidth can be allocated to each terminal connected to itself according to the minimum network bandwidth of the terminal connected to itself and the support capability of the terminal, so as to limit the speed of each terminal connected to itself.
  • Step S401 Send the network bandwidth information and the host resource information to the network management server, where the network bandwidth information and the host resource information are used to indicate that the network management server is based on the network bandwidth information and the host Resource information adjusts the number of terminals that are concurrently upgraded.
  • the re-acquired network bandwidth information and the host resource information are sent to the network management server.
  • the file server allocates a maximum download bandwidth to each terminal connected to itself according to the minimum network bandwidth of the terminal connected to the terminal and the support capability of the terminal, so that each terminal connected to the terminal can be performed. And the file server can dynamically monitor the network load and the host resource load, and acquire the maximum download bandwidth, the number of concurrently upgraded terminals, the memory utilization rate, and the CPU utilization rate of each terminal connected to the terminal in real time. And each terminal connected to itself is allocated a maximum download bandwidth, the number of terminals that are currently concurrently upgraded, the memory utilization, and the CPU utilization are sent to the network management server according to the set time interval or the set frequency, so that the network management is performed. The server allocates the maximum number of downloading bandwidths, the number of terminals that are currently concurrently upgraded, the memory utilization rate, and the CPU utilization to the number of concurrently upgraded terminals according to the terminal connected to the file server.
  • an embodiment of the present invention provides a network management server and a file service. Because the network management server and the file server solve the problem in principle and method, the implementation of the device can be referred to the implementation of the foregoing method, and the repeated description is not repeated.
  • the network management server provided by the embodiment of the present invention includes: an adjustment module 500, an upgrade management module 501, where
  • the adjustment module 500 is configured to adjust the number of concurrently upgraded terminals according to the network bandwidth information and the host resource information of the received file server when the software upgrade is triggered.
  • the network bandwidth information includes a maximum download bandwidth of each terminal connected to the file server, and a number of terminals currently concurrently upgraded by the file server;
  • the host resource information includes a memory usage of the file server, and a CPU. Utilization rate.
  • the upgrade management module 501 is configured to perform software upgrade management on the terminal according to the number of terminals that are concurrently upgraded after the adjustment.
  • the adjustment module 500 is specifically configured to:
  • the number of concurrently upgraded terminals is adjusted according to the memory usage, CPU utilization, and bandwidth utilization of the file server.
  • the adjustment module 500 is specifically configured to:
  • Preset bandwidth utilization threshold, memory utilization threshold, and CPU utilization threshold are preset bandwidth utilization threshold, memory utilization threshold, and CPU utilization threshold
  • the CPU utilization rate, the bandwidth utilization rate, and the stress test the function relationship between the memory utilization rate, the CPU utilization rate, the bandwidth utilization rate, and the number of concurrently upgraded terminals is obtained;
  • the CPU utilization is greater than the CPU utilization threshold, the number of terminals that are currently concurrently upgraded is maintained; if the CPU utilization is less than or equal to the CPU utilization threshold, the memory utilization and the memory utilization are used. Rate threshold for comparison;
  • the number of terminals that are currently concurrently upgraded is maintained; if the memory utilization is less than or equal to the memory utilization threshold, according to the function relationship and according to the set step size Increase the number of concurrently upgraded terminals until the memory utilization is greater than the memory utilization threshold.
  • the upgrade management module 501 is specifically configured to:
  • N is a natural number
  • the software upgrade command is sent to the N+1 terminal, and the N+1 terminal is started to interact with the file server to perform software upgrade; wherein the timing period is greater than the total upgrade time of all the terminals.
  • the upgrade management module 501 is specifically configured to:
  • the software upgrade instruction is sent to the terminal, and the software upgrade instruction is used to instruct the terminal to interact with the file server to perform software upgrade.
  • the adjustment module 500 and the upgrade management module 501 may each be a central processing unit (CPU), a microprocessor (MPU), and a digital signal processor located in the network management server. (DSP), or field programmable gate array (FPGA) implementation.
  • CPU central processing unit
  • MPU microprocessor
  • DSP digital signal processor located in the network management server.
  • FPGA field programmable gate array
  • the file server provided by the embodiment of the present invention includes: an obtaining module 600 and a sending module 601;
  • the obtaining module 600 is configured to obtain its own network bandwidth information and host resource information.
  • the sending module 601 is configured to send the network bandwidth information and the host resource information to a network management server, where the network bandwidth information and the host resource information are used to indicate that the network management server is configured according to the network bandwidth.
  • the network bandwidth information includes a maximum download bandwidth of each terminal connected to itself, and a number of terminals currently concurrently upgraded; the host resource information includes a self memory utilization rate and a self CPU usage.
  • the acquiring module 600 is configured to acquire network bandwidth information and host resource information according to a set time interval or a set frequency manner.
  • the sending module 601 is further configured to send the re-acquired network bandwidth information and host resource information to the network management server.
  • the file server further includes:
  • the allocation module 602 is configured to allocate a maximum download bandwidth for each terminal connected to itself.
  • the obtaining module 600, the sending module 601, and the allocating module 602 may all be programmable by a central processing unit (CPU), a microprocessor (MPU), a digital signal processor (DSP), or a field processor located in a file server.
  • CPU central processing unit
  • MPU microprocessor
  • DSP digital signal processor
  • FPGA Gate array
  • embodiments of the present invention can be provided as a method, system, or computer program product. Accordingly, the present invention can take the form of a hardware embodiment, a software embodiment, or a combination of software and hardware. Moreover, the invention can take the form of a computer program product embodied on one or more computer-usable storage media (including but not limited to disk storage and optical storage, etc.) including computer usable program code.
  • the computer program instructions can also be stored in a computer readable memory that can direct a computer or other programmable data processing device to operate in a particular manner, such that the instructions stored in the computer readable memory produce an article of manufacture comprising the instruction device.
  • the apparatus implements the functions specified in one or more blocks of a flow or a flow and/or block diagram of the flowchart.
  • These computer program instructions can also be loaded onto a computer or other programmable data processing device such that a series of operational steps are performed on a computer or other programmable device to produce computer-implemented processing for execution on a computer or other programmable device.
  • the instructions provide steps for implementing the functions specified in one or more of the flow or in a block or blocks of a flow diagram.
  • an embodiment of the present invention further provides a computer storage medium, where the computer storage medium includes a set of instructions, when executed, causing at least one processor to perform software upgrade management applied to the network management server. Method, or perform the above application to the file Software upgrade management method in the server.

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Abstract

La présente invention concerne un procédé de gestion de mise à niveau de logiciel consistant : lorsque la mise à niveau de logiciel est déclenchée, à régler le nombre de terminaux de mise à jour concurrents selon les informations de bande passante de réseau et les informations de ressource hôte d'un serveur de fichiers reçues ; à effectuer la gestion de mise à niveau de logiciel sur les terminaux selon le nombre réglé de terminaux de mise à niveau concurrents. La présente invention concerne également un procédé de gestion de mise à niveau de logiciel, un serveur de gestion de réseau, un serveur de fichiers, un système de gestion de mise à niveau de logiciel et un support de stockage informatique en même temps.
PCT/CN2015/074338 2014-08-04 2015-03-16 Procédé de gestion de ressources de mise à niveau de logiciel, dispositif, système et support de stockage informatique WO2016019725A1 (fr)

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CN201410380692.7 2014-08-04
CN201410380692.7A CN105323106B (zh) 2014-08-04 2014-08-04 一种软件升级管理方法、设备及系统

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CN113127021A (zh) * 2019-12-30 2021-07-16 深圳Tcl新技术有限公司 一种应用升级的方法和计算机设备
CN114422486A (zh) * 2022-03-14 2022-04-29 潍柴动力股份有限公司 一种终端的软件版本升级方法、系统以及车辆
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