我知道我为什么要使用它,但我不确定将 setsockopt 放在我的套接字代码中的什么地方。
我很清楚它可以通过套接字 api 的内部机制进行修改,但是我应该在什么时候使用 setsockopt 设置 TCP_QUICKACK 选项?
我应该在创建套接字时设置它然后在每次接收和发送之后(或之前?)?还是只接收?
我应该检查该选项是否已设置?
最佳答案
When should I set the TCP_QUICKACK option?
IETF 提供 TCP Tuning for HTTP, draft-stenberg-httpbis-tcp-03 .文档第 4.4 节解释:
Delayed ACK [RFC1122] is a mechanism enabled in most TCP stacks that causes the stack to delay sending acknowledgement packets in response to data. The ACK is delayed up until a certain threshold, or until the peer has some data to send, in which case the ACK will be sent along with that data. Depending on the traffic flow and TCP stack this delay can be as long as 500ms.
This interacts poorly with peers that have Nagle's Algorithm enabled. Because Nagle's Algorithm delays sending until either one MSS of data is provided or until an ACK is received for all sent data, delaying ACKs can force Nagle's Algorithm to buffer packets when it doesn't need to (that is, when the other peer has already processed the outstanding data).
Delayed ACKs can be useful in situations where it is reasonable to assume that a data packet will almost immediately (within 500ms) cause data to be sent in the other direction. In general in both HTTP/1.1 and HTTP/2 this is unlikely: therefore, disabling Delayed ACKs can provide an improvement in latency.
However, the TLS handshake is a clear exception to this case. For the duration of the TLS handshake it is likely to be useful to keep Delayed ACKs enabled.
Additionally, for low-latency servers that can guarantee responses to requests within 500ms, on long-running connections (such as HTTP/2), and when requests are small enough to fit within a small packet, leaving delayed ACKs turned on may provide minor performance benefits.
Effective use of switching off delayed ACKs requires extensive profiling.
在文档的后面,它提供了以下内容:
On recent Linux kernels (since Linux 2.4.4), Delayed ACKs can be disabled like this:
int one = 1; setsockopt(fd, IPPROTO_TCP, TCP_QUICKACK, &one, sizeof(one));Unlike disabling Nagle’s Algorithm, disabling Delayed ACKs on Linux is not a one-time operation: processing within the TCP stack can cause Delayed ACKs to be re-enabled. As a result, to use TCP_QUICKACK effectively requires setting and unsetting the socket option during the life of the connection.
关于c - 我应该在套接字生命周期内什么时候设置 TCP_QUICKACK 选项?,我们在Stack Overflow上找到一个类似的问题: https://stackoverflow.com/questions/46587168/
类classAprivatedeffooputs:fooendpublicdefbarputs:barendprivatedefzimputs:zimendprotecteddefdibputs:dibendendA的实例a=A.new测试a.foorescueputs:faila.barrescueputs:faila.zimrescueputs:faila.dibrescueputs:faila.gazrescueputs:fail测试输出failbarfailfailfail.发送测试[:foo,:bar,:zim,:dib,:gaz].each{|m|a.send(m)resc
我有一个模型:classItem项目有一个属性“商店”基于存储的值,我希望Item对象对特定方法具有不同的行为。Rails中是否有针对此的通用设计模式?如果方法中没有大的if-else语句,这是如何干净利落地完成的? 最佳答案 通常通过Single-TableInheritance. 关于ruby-on-rails-Rails-子类化模型的设计模式是什么?,我们在StackOverflow上找到一个类似的问题: https://stackoverflow.co
我正在使用的第三方API的文档状态:"[O]urAPIonlyacceptspaddedBase64encodedstrings."什么是“填充的Base64编码字符串”以及如何在Ruby中生成它们。下面的代码是我第一次尝试创建转换为Base64的JSON格式数据。xa=Base64.encode64(a.to_json) 最佳答案 他们说的padding其实就是Base64本身的一部分。它是末尾的“=”和“==”。Base64将3个字节的数据包编码为4个编码字符。所以如果你的输入数据有长度n和n%3=1=>"=="末尾用于填充n%
我主要使用Ruby来执行此操作,但到目前为止我的攻击计划如下:使用gemsrdf、rdf-rdfa和rdf-microdata或mida来解析给定任何URI的数据。我认为最好映射到像schema.org这样的统一模式,例如使用这个yaml文件,它试图描述数据词汇表和opengraph到schema.org之间的转换:#SchemaXtoschema.orgconversion#data-vocabularyDV:name:namestreet-address:streetAddressregion:addressRegionlocality:addressLocalityphoto:i
为什么4.1%2返回0.0999999999999996?但是4.2%2==0.2。 最佳答案 参见此处:WhatEveryProgrammerShouldKnowAboutFloating-PointArithmetic实数是无限的。计算机使用的位数有限(今天是32位、64位)。因此计算机进行的浮点运算不能代表所有的实数。0.1是这些数字之一。请注意,这不是与Ruby相关的问题,而是与所有编程语言相关的问题,因为它来自计算机表示实数的方式。 关于ruby-为什么4.1%2使用Ruby返
为了将Cucumber用于命令行脚本,我按照提供的说明安装了arubagem。它在我的Gemfile中,我可以验证是否安装了正确的版本并且我已经包含了require'aruba/cucumber'在'features/env.rb'中为了确保它能正常工作,我写了以下场景:@announceScenario:Testingcucumber/arubaGivenablankslateThentheoutputfrom"ls-la"shouldcontain"drw"假设事情应该失败。它确实失败了,但失败的原因是错误的:@announceScenario:Testingcucumber/ar
它不等于主线程的binding,这个toplevel作用域是什么?此作用域与主线程中的binding有何不同?>ruby-e'putsTOPLEVEL_BINDING===binding'false 最佳答案 事实是,TOPLEVEL_BINDING始终引用Binding的预定义全局实例,而Kernel#binding创建的新实例>Binding每次封装当前执行上下文。在顶层,它们都包含相同的绑定(bind),但它们不是同一个对象,您无法使用==或===测试它们的绑定(bind)相等性。putsTOPLEVEL_BINDINGput
我可以得到Infinity和NaNn=9.0/0#=>Infinityn.class#=>Floatm=0/0.0#=>NaNm.class#=>Float但是当我想直接访问Infinity或NaN时:Infinity#=>uninitializedconstantInfinity(NameError)NaN#=>uninitializedconstantNaN(NameError)什么是Infinity和NaN?它们是对象、关键字还是其他东西? 最佳答案 您看到打印为Infinity和NaN的只是Float类的两个特殊实例的字符串
如果您尝试在Ruby中的nil对象上调用方法,则会出现NoMethodError异常并显示消息:"undefinedmethod‘...’fornil:NilClass"然而,有一个tryRails中的方法,如果它被发送到一个nil对象,它只返回nil:require'rubygems'require'active_support/all'nil.try(:nonexisting_method)#noNoMethodErrorexceptionanymore那么try如何在内部工作以防止该异常? 最佳答案 像Ruby中的所有其他对象
关闭。这个问题需要detailsorclarity.它目前不接受答案。想改进这个问题吗?通过editingthispost添加细节并澄清问题.关闭8年前。Improvethisquestion为什么SecureRandom.uuid创建一个唯一的字符串?SecureRandom.uuid#=>"35cb4e30-54e1-49f9-b5ce-4134799eb2c0"SecureRandom.uuid方法创建的字符串从不重复?
