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    • 1. 发明申请
    • Break and optional hold on failure
    • 断开和可选保持失败
    • US20080184075A1
    • 2008-07-31
    • US11701122
    • 2007-01-31
    • Loren MerrimanGordon HardyCurtis AndersonMichael RobinsonDipak BoyedChristopher Callahan
    • Loren MerrimanGordon HardyCurtis AndersonMichael RobinsonDipak BoyedChristopher Callahan
    • G06F11/36
    • G06F11/3664G06F11/3688
    • Break and optional hold preserves a state of a computing environment on which a software program has failed. Being able to examine the status of the environment existing upon the occurrence of the failure, including the condition of various processes and values facilitates resolution of the cause of the failure. Upon occurrence of a failure during the execution of a first software program in a first computing environment, execution of the first software program breaks. A first state of the first computing environment existing upon the breaking in execution of the first software program is then held. A failure notification is generated to signal the failure to a monitoring system. The monitoring system accesses hold information to determine whether the first computing environment should hold its current state and whether one or more other computing environments interacting with the first computing environment should also hold their states.
    • 中断和可选保持保留软件程序失败的计算环境的状态。 能够检查发生故障时存在的环境状态,包括各种过程和值的状况有助于解决故障原因。 当在第一计算环境中执行第一软件程序期间出现故障时,第一软件程序的执行中断。 然后,在执行第一软件程序时存在的第一计算环境的第一状态被保持。 产生故障通知以将故障发信号通知监控系统。 监视系统访问保持信息以确定第一计算环境是否应当保持其当前状态以及与第一计算环境交互的一个或多个其他计算环境是否也应该保持其状态。
    • 2. 发明授权
    • Break and optional hold on failure
    • 断开和可选保持失败
    • US07673178B2
    • 2010-03-02
    • US11701122
    • 2007-01-31
    • Loren MerrimanGordon HardyCurtis AndersonMichael RobinsonDipak BoyedChristopher Callahan
    • Loren MerrimanGordon HardyCurtis AndersonMichael RobinsonDipak BoyedChristopher Callahan
    • G06F11/00
    • G06F11/3664G06F11/3688
    • Break and optional hold preserves a state of a computing environment on which a software program has failed. Being able to examine the status of the environment existing upon the occurrence of the failure, including the condition of various processes and values facilitates resolution of the cause of the failure. Upon occurrence of a failure during the execution of a first software program in a first computing environment, execution of the first software program breaks. A first state of the first computing environment existing upon the breaking in execution of the first software program is then held. A failure notification is generated to signal the failure to a monitoring system. The monitoring system accesses hold information to determine whether the first computing environment should hold its current state and whether one or more other computing environments interacting with the first computing environment should also hold their states.
    • 中断和可选保持保留软件程序失败的计算环境的状态。 能够检查发生故障时存在的环境状态,包括各种过程和值的状况有助于解决故障原因。 当在第一计算环境中执行第一软件程序期间出现故障时,第一软件程序的执行中断。 然后,在执行第一软件程序时存在的第一计算环境的第一状态被保持。 产生故障通知以将故障发信号通知监控系统。 监视系统访问保持信息以确定第一计算环境是否应当保持其当前状态以及与第一计算环境交互的一个或多个其他计算环境是否也应该保持其状态。
    • 5. 发明申请
    • Failure tagging
    • 失败标记
    • US20070245313A1
    • 2007-10-18
    • US11404679
    • 2006-04-14
    • Donald HardyAlan BrownCurtis AndersonJared WilsonLoren MerrimanRichard WrightXun Zhang
    • Donald HardyAlan BrownCurtis AndersonJared WilsonLoren MerrimanRichard WrightXun Zhang
    • G06F9/44
    • G06F11/3688
    • Failure tagging may be provided. A plurality of tests may be initiated on a program module and output resulting from the plurality of tests may be received. The output resulting from the plurality of tests may be determined to comprise at least one failure. The at least one failure may comprise an unknown failure or a known failure. Results of the plurality of tests indicating the failure may be transmitted. In addition, a request to stop one or more of a plurality of computers on a failure may be received when one of the plurality of computers encounters the failure. In addition, the program module may be transmitted to the plurality of computers configured to run tests on the program module. The one of the plurality of computers may be stopped on the failure when the one of the plurality of computers encounters the failure identified by the request.
    • 可能会提供故障标记。 可以在程序模块上启动多个测试,并且可以接收由多个测试得到的输出。 由多个测试产生的输出可以被确定为包括至少一个故障。 至少一个故障可能包括未知故障或已知故障。 可以发送指示故障的多个测试的结果。 此外,当多个计算机中的一个计算机遇到故障时,可以接收到在故障时停止多个计算机中的一个或多个的请求。 此外,程序模块可以被发送到被配置为在程序模块上运行测试的多个计算机。 当多个计算机中的一个计算机遇到由请求识别的故障时,多个计算机中的一个可以在故障时停止。
    • 7. 发明申请
    • Centralized code coverage data collection
    • 集中代码覆盖数据收集
    • US20070234309A1
    • 2007-10-04
    • US11395087
    • 2006-03-31
    • Brian DaviaCurtis AndersonCraig FleischmanLoren MerrimanVikas Singh
    • Brian DaviaCurtis AndersonCraig FleischmanLoren MerrimanVikas Singh
    • G06F9/44
    • G06F11/3676G06F11/3644
    • Code coverage data may be provided. An instrumented image may be created comprising a binary executable software module that may be populated with coverage code injected into the binary executable software module. A request for the instrumented image may be received and the instrumented image may be provided based upon the received request. In addition, the code coverage data may be received from the instrumented image. The code coverage data produced by the instrumented image may be executed during a test of the binary executable software module. The coverage code may be configured to produce the code coverage data configured to indicate what code within the binary executable software module was used during the test. The code coverage data may be analyzed and the binary executable software module may be optimized based on the code coverage data.
    • 可以提供代码覆盖数据。 可以创建包括二进制可执行软件模块的检测图像,该二进制可执行软件模块可以填充注入到二进制可执行软件模块中的覆盖代码。 可以接收对被检测图像的请求,并且可以基于接收到的请求来提供被检测的图像。 此外,可以从被检测的图像接收代码覆盖数据。 可以在二进制可执行软件模块的测试期间执行由被检测的图像产生的代码覆盖率数据。 覆盖代码可以被配置为产生代码覆盖率数据,其被配置为指示在测试期间使用二进制可执行软件模块内的什么代码。 可以分析代码覆盖率数据,并且可以基于代码覆盖数据来优化二进制可执行软件模块。