2021SC@SDUSC
nimbus是storm集群的"控制器",是storm集群的重要组成部分。我们可以通用执行bin/storm nimbus >/dev/null 2>&1 &来启动nimbus。bin/storm是一个python脚本,在这个脚本中定义了一个nimbus函数:
nimbus函数
def nimbus( klass = "backtype.storm.daemon.nimbus" ):
"""Syntax: [storm nimbus]
Launches the nimbus daemon. This command should be run under
supervision with a tool like daemontools or monit.
See Setting up a Storm cluster for more information.
(https://github.com/nathanmarz/storm/wiki/Setting-up-a-Storm-cluster)
"""
cppaths = [ STORM_DIR + "/log4j" , STORM_DIR + "/conf" ]
jvmopts = parse_args( confvalue( "nimbus.childopts" , cppaths)) + [
"-Dlogfile.name=nimbus.log" ,
"-Dlog4j.configuration=storm.log.properties" ,
]
exec_storm_class(
klass ,
jvmtype = "-server" ,
extrajars = cppaths ,
jvmopts = jvmopts)
klass参数的默认值为backtype.storm.daemon.nimbus,backtype.storm.daemon.nimbus标识一个java类。STORM_DIR标识storm的安装目录,cppaths集合存放了log4j配置文件路径和storm配置文件storm.yaml路径,jvmopts存放传递给jvm的参数,包括log4j配文件路径、storm.yaml路径、log4j日志名称和log4j配置文件名称。
exec_storm_class函数的逻辑比较简单,具体实现如下:
exec_storm_class函数
def exec_storm_class( klass , jvmtype = "-server" , jvmopts = [], extrajars = [], args = [], fork = False ):
global ConFFILE
all_args = [
"java" , jvmtype , get_config_opts (),
"-Dstorm.home=" + STORM_DIR ,
"-Djava.library.path=" + confvalue( "java.library.path" , extrajars ),
"-Dstorm.conf.file=" + ConFFILE ,
"-cp" , get_classpath( extrajars ),
] + jvmopts + [ klass ] + list( args)
print "Running: " + " " . join( all_args)
if fork :
os . spawnvp( os . P_WAIT , "java" , all_args)
else :
os . execvp( "java" , all_args) # replaces the current process and never returns
get_config_opts()获取jvm的默认配置信息,confvalue("java.library.path", extrajars)获取storm使用的本地库JZMQ加载路径,get_classpath(extrajars)获取所有依赖jar包的完整路径,然后拼接一个java -cp命令运行klass的main方法。
klass默认值为backtype.storm.daemon.nimbus,所以exec_storm_class函数最终调用backtype.storm.daemon.nimbus类的main方法。
backtype.storm.daemon.nimbus类定义在nimbus.clj文件中,定义如下:
backtype.storm.daemon.nimbus类
(ns backtype.storm.daemon.nimbus
( :import [ org.apache.thrift.server THsHaServer THsHaServer$Args ])
( :import [ org.apache.thrift.protocol TBinaryProtocol TBinaryProtocol$Factory ])
( :import [ org.apache.thrift.exception ])
( :import [ org.apache.thrift.transport TNonblockingServerTransport TNonblockingServerSocket ])
( :import [ java.nio ByteBuffer ])
( :import [ java.io FileNotFoundException ])
( :import [ java.nio.channels Channels WritableByteChannel ])
( :use [ backtype.storm.scheduler.DefaultScheduler ])
( :import [ backtype.storm.scheduler INimbus SupervisorDetails WorkerSlot TopologyDetails
Cluster Topologies SchedulerAssignment SchedulerAssignmentImpl DefaultScheduler ExecutorDetails ])
( :use [ backtype.storm bootstrap util ])
( :use [ backtype.storm.config :only [ validate-configs-with-schemas ]])
( :use [ backtype.storm.daemon common ])
( :gen-class
:methods [ ^ { :static true } [ launch [ backtype.storm.scheduler.INimbus ] void ]]))
...
;; 其他方法
...
( defn -main []
( -launch ( standalone-nimbus)))
:gen-class指示Clojure生成Java类backtype.storm.daemon.nimbus,并且声明一个静态方法launch,launch方法接收一个实现backtype.storm.scheduler.INimbus接口的实例作为参数。launch函数的参数是由standalone-nimbus函数生成的。standalone-nimbus函数定义如下:返回一个实现INimbus接口的实例。
standalone-nimbus函数
( defn standalone-nimbus []
;; 实现INimbus接口
( reify INimbus
;; prepare函数为空实现
( prepare [ this conf local-dir ]
)
;; allSlotsAvailableForScheduling获取所有可用的slot集合
( allSlotsAvailableForScheduling [ this supervisors topologies topologies-missing-assignments ]
;; supervisors标识集群所有supervisor的详细信息对象SupervisorDetails的集合
;;也就是说通过遍历Collection 类型的变量supervisors取id和meta,用来初始化WorkerSolt对象,mapcat将WorkerSolt形成集合,;;之后将这个集合作为参数传递给set,使之返回符合接口要求的Collection
( ->> supervisors
;; 遍历supervisors,为supervisor的每个port生成对应的WorkerSlot对象,WorkerSlot包含两个属性节点id和port
( mapcat ( fn [ ^ SupervisorDetails s ]
( for [p ( .getmeta s )]
( WorkerSlot. ( .getId s) p))))
set ))
( assignSlots [ this topology slots ]
)
( getForcedScheduler [ this ]
nil )
getHostName 是取主机名的接口,supervisors 的类型是Map ,node-id的类型是String。其过程是从supervisors中通过node-id去找符合条件的SupervisorDetails对象,如果找到了,就调用SupervisorDetails的getHost方法取得主机名,否者返回的是nil
;; 获取supervisor主机名
( getHostName [ this supervisors node-id ]
( if-let [ ^ SupervisorDetails supervisor ( get supervisors node-id )]
( .getHost supervisor)))
))
launch函数定义如下:
launch函数
( defn -launch [ nimbus ] ;; ;; read-storm-config函数用于读取storm集群的配置信息,参见其定义部分 ( launch-server! ( read-storm-config) nimbus)) launch-server! 函数定义如下: ( defn launch-server! [ conf nimbus ] ;; 判断是否是分布式模式,如果是本地模式则抛出IllegalArgumentException ( validate-distributed-mode! conf) ;; service-handler函数是由宏defserverfn定义的,返回一个实现了Nimbus类中的Iface接口的实例,Nimbus类是由thrift框架自动生成的,Iface接口封装了service Nimbus的全部接口。 ;; nimbus thrift server端提供的接口服务都是由这个实例实现的。service-handler函数参见其定义部分,service Nimbus参见storm.thrift ;; service-handler绑定实现了Nimbus类中的Iface接口的实例 ( let [ service-handler ( service-handler conf nimbus) options ( -> ( TNonblockingServerSocket. ( int ( conf NIMBUS-THRIFT-PORT))) ( THsHaServer$Args.) ( .workerThreads 64) ( .protocolFactory ( TBinaryProtocol$Factory. false true ( conf NIMBUS-THRIFT-MAX-BUFFER-SIZE))) ( .processor ( Nimbus$Processor. service-handler)) ) server ( THsHaServer. ( do ( set! ( . options maxReadBufferBytes)( conf NIMBUS-THRIFT-MAX-BUFFER-SIZE)) options ))] ( add-shutdown-hook-with-force-kill-in-1-sec ( fn [] ( .shutdown service-handler) ( .stop server))) ( log-message "Starting Nimbus server...") ( .serve server)))
read-storm-config定义如下:
read-storm-config函数
( defn read-storm-config
[]
;; conf绑定storm集群配置信息
( let [ conf ( clojurify-structure ( Utils/readStormConfig ))]
;; validate-configs-with-schemas函数验证配置信息的正确性并删除不正确的配置信息
( validate-configs-with-schemas conf)
conf))
read-storm-config函数调用了backtype.storm.utils.Utils类的静态方法readStormConfig,如下:
readStormConfig方法
public static Map readStormConfig() {
// 调用readDefaultConfig从defaults.yaml配置文件读取默认配置信息存入ret
Map ret = readDefaultConfig();
// 获取用户自定义配置文件路径
String confFile = System . getProperty( "storm.conf.file");
Map storm;
if ( confFile == null || confFile . equals( "")) {
storm = findAndReadConfigFile( "storm.yaml" , false);
} else {
// 读取用户自定义配置信息
storm = findAndReadConfigFile( confFile , true);
}
// 将用户自定义的配置信息覆盖更新到ret中
ret . putAll( storm);
// 将命令行方式提供的配置信息覆盖更新到ret中
ret . putAll( readCommandLineOpts());
// 返回覆盖更新后的配置信息ret
return ret;
}
service-handler函数定义如下:
defserverfn是一个宏,(defserverfn service-handler [conf inimbus] ... )返回一个名字为service-handler函数。宏扩展是在编译时进行的
service-handler函数
( defserverfn service-handler [ conf inimbus ]
;; 调用inimbus的prepare方法,inimbus是standalone-nimbus函数返回的实现INimbus接口的实例,当前版本prepare方法为空实现
( .prepare inimbus conf ( master-inimbus-dir conf))
;; 打印日志信息
( log-message "Starting Nimbus with conf " conf)
;; nimbus绑定了一个map,这个map保存了nimbus端所必需的"属性",详见nimbus-data函数定义部分
( let [ nimbus ( nimbus-data conf inimbus )]
;; 调用nimbus这个map中保存的backtype.storm.nimbus.DefaultTopologyValidator对象的prepare方法,通过查看backtype.storm.nimbus.DefaultTopologyValidator类,我们可以发现prepare默认为空实现
( .prepare ^ backtype.storm.nimbus.ITopologyValidator ( :validator nimbus) conf)
;; cleanup-corrupt-topologies!函数的主要功能就是将在nimbus服务器{storm.local.dir}/nimbus/stormdist/路径中不存在的topology id从zookeeper的/storms/路径中删除,即删除在nimbus服务器上缺失jar包、topology信息和配置信息的当前正在运行的topology,
;; cleanup-corrupt-topologies!函数参见其定义部分
( cleanup-corrupt-topologies! nimbus)
;; 更新当前storm集群上topology的状态
( doseq [ storm-id ( .active-storms ( :storm-cluster-state nimbus ))]
;; transition!函数主要功能就是负责topology状态转换,规定了当topology由一种状态转换成另一种新状态时,需要做哪些处理 *** 作,参见其定义部分
( transition! nimbus storm-id :startup))
;; 通过schedule-recurring函数向storm定时器添加了一个"周期任务"检查心跳,重新分配任务,清理不活跃的topology,mk-assignments函数的主要功能就是检查心跳和重新分配任务。关于storm定时器详细分析请见"storm定时器timer源码分析";关于mk-assignments函数请见"storm任务分配源码分析"
;; do-cleanup函数主要功能就是清理不活跃的topology,请参加其定义部分
( schedule-recurring ( :timer nimbus)
0
( conf NIMBUS-MONITOR-FREQ-SECS)
( fn []
( when ( conf NIMBUS-REASSIGN)
( locking ( :submit-lock nimbus)
( mk-assignments nimbus)))
( do-cleanup nimbus)
))
;; Schedule Nimbus inbox cleaner
;; 通过schedule-recurring函数向storm定时器添加一个"周期任务"删除nimbus服务器上的过期jar包
( schedule-recurring ( :timer nimbus)
0
( conf NIMBUS-CLEANUP-INBOX-FREQ-SECS)
( fn []
( clean-inbox ( inbox nimbus) ( conf NIMBUS-INBOX-JAR-EXPIRATION-SECS))
))
( reify Nimbus$Iface
;; submitTopologyWithOpts函数负责topology的提交,有关该函数的详细分析请参见"storm源码分析之topology提交过程"
( ^ void submitTopologyWithOpts
[ this ^ String storm-name ^ String uploadedJarLocation ^ String serializedConf ^ StormTopology topology
^ SubmitOptions submitOptions ]
( try
( assert ( not-nil? submitOptions))
( validate-topology-name! storm-name)
( check-storm-active! nimbus storm-name false)
( let [ topo-conf ( from-json serializedConf )]
( try
( validate-configs-with-schemas topo-conf)
( catch IllegalArgumentException ex
( throw ( InvalidTopologyException. ( .getMessage ex)))))
( .validate ^ backtype.storm.nimbus.ITopologyValidator ( :validator nimbus)
storm-name
topo-conf
topology))
( swap! ( :submitted-count nimbus) inc)
( let [ storm-id ( str storm-name "-" @( :submitted-count nimbus) "-" ( current-time-secs))
storm-conf ( normalize-conf
conf
( -> serializedConf
from-json
( assoc STORM-ID storm-id)
( assoc TOPOLOGY-NAME storm-name))
topology)
total-storm-conf ( merge conf storm-conf)
topology ( normalize-topology total-storm-conf topology)
storm-cluster-state ( :storm-cluster-state nimbus )]
( system-topology! total-storm-conf topology) ;; this validates the structure of the topology
( log-message "Received topology submission for " storm-name " with conf " storm-conf)
;; lock protects against multiple topologies being submitted at once and
;; cleanup thread killing topology in b/w assignment and starting the topology
( locking ( :submit-lock nimbus)
( setup-storm-code conf storm-id uploadedJarLocation storm-conf topology)
( .setup-heartbeats! storm-cluster-state storm-id)
( let [ thrift-status->kw-status { TopologyInitialStatus/INACTIVE :inactive
TopologyInitialStatus/ACTIVE :active }]
( start-storm nimbus storm-name storm-id ( thrift-status->kw-status ( .get_initial_status submitOptions))))
( mk-assignments nimbus)))
( catch Throwable e
( log-warn-error e "Topology submission exception. (topology name='" storm-name "')")
( throw e))))
;; submitTopology函数调用了submitTopologyWithOpts函数
( ^ void submitTopology
[ this ^ String storm-name ^ String uploadedJarLocation ^ String serializedConf ^ StormTopology topology ]
( .submitTopologyWithOpts this storm-name uploadedJarLocation serializedConf topology
( SubmitOptions. TopologyInitialStatus/ACTIVE)))
;; killTopology函数见名知意,调用了killTopologyWithOpts函数
( ^ void killTopology [ this ^ String name ]
( .killTopologyWithOpts this name ( KillOptions.)))
;; storm-name绑定kill的topology名称,KillOptions是一个thrift数据结构,只有个属性wait_secs,表示延迟多长时间执行kill
( ^ void killTopologyWithOpts [ this ^ String storm-name ^ KillOptions options ]
;; check-storm-active!检查topology是否是"active",如果不活跃则抛出异常
( check-storm-active! nimbus storm-name true)
;; 如果设置了延迟时间,wait-amt绑定延迟时间
( let [ wait-amt ( if ( .is_set_wait_secs options)
( .get_wait_secs options)
)]
;; transition-name!函数主要功能就是根据storm-name获取topology id,然后调用transition!函数,topology由当前状态转换到:kill状态,:kill状态是一个"临时状态",最终修改topology状态为:killed,:killed状态为"持久状态"
;; 通过state-transitions函数我们可以知道无论从哪种状态转换到:kill状态,都将调用kill-transition函数,kill-transition通过调用delay-event向storm定时器添加一个定时任务,这个定时任务的主要功能就是负责topology由:killed状态
;; 转换到:remove状态,这时将调用remove-storm!函数清理topology
( transition-name! nimbus storm-name [ :kill wait-amt ] true)
))
;; rebalance函数可以重新设置topology的进程数和各个component的并行度,RebalanceOptions是thirft数据结构,有三个属性rebalance的延迟时间、新的进程数,新的并行度
( ^ void rebalance [ this ^ String storm-name ^ RebalanceOptions options ]
;; check-storm-active!检查topology是否是"active",如果不活跃则抛出异常
( check-storm-active! nimbus storm-name true)
;; 如果设置了延迟时间,wait-amt绑定延迟时间
( let [ wait-amt ( if ( .is_set_wait_secs options)
( .get_wait_secs options))
;; 如果设置了新的进程数,num-workers绑定新进程数
num-workers ( if ( .is_set_num_workers options)
( .get_num_workers options))
;; 如果设置了新的组件并行度,executor-overrides绑定新组件并行度
executor-overrides ( if ( .is_set_num_executors options)
( .get_num_executors options)
{})]
( doseq [[ c num-executors ] executor-overrides ]
( when ( <= num-executors 0)
( throw ( InvalidTopologyException. "Number of executors must be greater than 0"))
))
;; transition-name!函数主要功能就是根据storm-name获取topology id,然后调用transition!函数,topology由当前状态转换到:rebalance状态,:rebalance状态是一个"临时状态",最终修改topology状态为:rebalancing,:rebalancing状态为"持久状态"
;; 通过state-transitions函数我们可以知道只允许从:active和:inactive状态转换到:rebalance状态,并调用rebalance-transition函数,rebalance-transition通过调用delay-event向storm定时器添加一个定时任务,这个定时任务的主要功能就是负责topology由:rebalancing状态
;; 转换到:do-rebalance状态,并调用do-rebalance函数(重新设置topology的进程数和组件并行度,然后调用mk-assignments函数重新进行任务分配),然后将topology状态修改成:rebalancing的前一个状态
( transition-name! nimbus storm-name [ :rebalance wait-amt num-workers executor-overrides ] true)
))
;; 激活topology,将topology状态修改成:active,处理过程与killTopologyWithOpts、rebalance相似
( activate [ this storm-name ]
( transition-name! nimbus storm-name :activate true)
)
;; 将topology状态修改成:inactive,deactivate处理过程与activate相似
( deactivate [ this storm-name ]
( transition-name! nimbus storm-name :inactivate true))
;; beginFileUpload()函数获取nimbus存放jar的目录
( beginFileUpload [ this ]
( let [ fileloc ( str ( inbox nimbus) "/stormjar-" ( uuid) ".jar" )]
( .put ( :uploaders nimbus)
fileloc
( Channels/newChannel ( FileOutputStream. fileloc)))
( log-message "Uploading file from client to " fileloc)
fileloc
))
;; 上传jar包文件
( ^ void uploadChunk [ this ^ String location ^ ByteBuffer chunk ]
( let [ uploaders ( :uploaders nimbus)
^ WritableByteChannel channel ( .get uploaders location )]
( when-not channel
( throw ( RuntimeException.
"File for that location does not exist (or timed out)")))
( .write channel chunk)
( .put uploaders location channel)
))
;; 上传jar包完成,关闭Channel
( ^ void finishFileUpload [ this ^ String location ]
( let [ uploaders ( :uploaders nimbus)
^ WritableByteChannel channel ( .get uploaders location )]
( when-not channel
( throw ( RuntimeException.
"File for that location does not exist (or timed out)")))
( .close channel)
( log-message "Finished uploading file from client: " location)
( .remove uploaders location)
))
;; 获取文件输入流
( ^ String beginFileDownload [ this ^ String file ]
( let [ is ( BufferFileInputStream. file)
id ( uuid )]
( .put ( :downloaders nimbus) id is)
id
))
;; 读取文件
( ^ ByteBuffer downloadChunk [ this ^ String id ]
( let [ downloaders ( :downloaders nimbus)
^ BufferFileInputStream is ( .get downloaders id )]
( when-not is
( throw ( RuntimeException.
"Could not find input stream for that id")))
( let [ ret ( .read is )]
( .put downloaders id is)
( when ( empty? ret)
( .remove downloaders id))
( ByteBuffer/wrap ret)
)))
;; 获取storm集群配置信息
( ^ String getNimbusConf [ this ]
( to-json ( :conf nimbus)))
;; 获取topology配置信息
( ^ String getTopologyConf [ this ^ String id ]
( to-json ( try-read-storm-conf conf id)))
;; 获取StormTopology
( ^ StormTopology getTopology [ this ^ String id ]
( system-topology! ( try-read-storm-conf conf id) ( try-read-storm-topology conf id)))
( ^ StormTopology getUserTopology [ this ^ String id ]
( try-read-storm-topology conf id))
;; 获取当前集群的汇总信息包括supervisor汇总信息,nimbus启动时间,所有活跃topology汇总信息
( ^ ClusterSummary getClusterInfo [ this ]
( let [ storm-cluster-state ( :storm-cluster-state nimbus)
;; supervisor-infos绑定supervisor id->SupervisorInfo对象键值对的map
;; SupervisorInfo定义:(defrecord SupervisorInfo [time-secs hostname assignment-id used-ports meta scheduler-meta uptime-secs])
supervisor-infos ( all-supervisor-info storm-cluster-state)
;; TODO: need to get the port info about supervisors...
;; in standalone just look at metadata, otherwise just say N/A?
;; 根据SupervisorInfo数据创建SupervisorSummary数据
supervisor-summaries ( dofor [[ id info ] supervisor-infos ]
( let [ ports ( set ( :meta info)) ;;TODO: this is only true for standalone
]
( SupervisorSummary. ( :hostname info)
( :uptime-secs info)
( count ports)
( count ( :used-ports info))
id )
))
;; nimbus-uptime绑定nimbus启动时间
nimbus-uptime (( :uptime nimbus))
;; bases绑定集群上所有活跃topology的Stormbase数据集合
bases ( topology-bases storm-cluster-state)
;; topology-summaries绑定活跃topology的TopologySummary数据
topology-summaries ( dofor [[ id base ] bases ]
( let [ assignment ( .assignment-info storm-cluster-state id nil )]
( TopologySummary. id
( :storm-name base)
( ->> ( :executor->node+port assignment)
keys
( mapcat executor-id->tasks)
count)
( ->> ( :executor->node+port assignment)
keys
count)
( ->> ( :executor->node+port assignment)
vals
set
count)
( time-delta ( :launch-time-secs base))
( extract-status-str base))
))]
;; 创建ClusterSummary数据
( ClusterSummary. supervisor-summaries
nimbus-uptime
topology-summaries)
))
;; 获取指定storm-id的topology的TopologyInfo数据
( ^ TopologyInfo getTopologyInfo [ this ^ String storm-id ]
;; storm-cluster-state绑定StormClusterState对象
( let [ storm-cluster-state ( :storm-cluster-state nimbus)
;; task->component绑定任务id->组件名称键值对的map,形如:{1 "boltA", 2 "boltA", 3 "boltA", 4 "boltA", 5 "boltB", 6 "boltB"}
task->component ( storm-task-info ( try-read-storm-topology conf storm-id) ( try-read-storm-conf conf storm-id))
;; bases绑storm-id的Stormbase
base ( .storm-base storm-cluster-state storm-id nil)
;; assignment绑定该topology的AssignmentInfo信息,(defrecord Assignment [master-code-dir node->host executor->node+port executor->start-time-secs])
assignment ( .assignment-info storm-cluster-state storm-id nil)
;; beats绑定该topology所有executor-id->心跳信息的map
beats ( .executor-beats storm-cluster-state storm-id ( :executor->node+port assignment))
;; all-components绑定该topology所有component-id集合
all-components ( -> task->component reverse-map keys)
;; errors绑定component-id->组件错误信息的map
errors ( ->> all-components
( map ( fn [ c ] [ c ( get-errors storm-cluster-state storm-id c )]))
( into {}))
;; executor-summaries绑定ExecutorSummary集合
executor-summaries ( dofor [[ executor [ node port ]] ( :executor->node+port assignment )]
( let [ host ( -> assignment :node->host ( get node))
heartbeat ( get beats executor)
stats ( :stats heartbeat)
stats ( if stats
( stats/thriftify-executor-stats stats ))]
( doto
( ExecutorSummary. ( thriftify-executor-id executor)
( -> executor first task->component)
host
port
( nil-to-zero ( :uptime heartbeat)))
( .set_stats stats))
))
]
;; 创建TopologyInfo对象
( TopologyInfo. storm-id
( :storm-name base)
( time-delta ( :launch-time-secs base))
executor-summaries
( extract-status-str base)
errors
)
))
Shutdownable
( shutdown [ this ]
( log-message "Shutting down master")
( cancel-timer ( :timer nimbus))
( .disconnect ( :storm-cluster-state nimbus))
( .cleanup ( :downloaders nimbus))
( .cleanup ( :uploaders nimbus))
( log-message "Shut down master")
)
DaemonCommon
( waiting? [ this ]
( timer-waiting? ( :timer nimbus))))))
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