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#############################################
# Akka Remote Testing Reference Config File #
#############################################

# This is the reference config file that contains all the default settings.
# Make your edits/overrides in your application.conf.

akka {
  testconductor {

    # Timeout for joining a barrier: this is the maximum time any participants
    # waits for everybody else to join a named barrier.
    barrier-timeout = 30s
    
    # Timeout for interrogation of TestConductor’s Controller actor
    query-timeout = 10s
    
    # Threshold for packet size in time unit above which the failure injector will
    # split the packet and deliver in smaller portions; do not give value smaller
    # than HashedWheelTimer resolution (would not make sense)
    packet-split-threshold = 100ms
    
    # amount of time for the ClientFSM to wait for the connection to the conductor
    # to be successful
    connect-timeout = 20s
    
    # Number of connect attempts to be made to the conductor controller
    client-reconnects = 30
    
    # minimum time interval which is to be inserted between reconnect attempts
    reconnect-backoff = 1s

    netty {
      # (I&O) Used to configure the number of I/O worker threads on server sockets
      server-socket-worker-pool {
        # Min number of threads to cap factor-based number to
        pool-size-min = 1

        # The pool size factor is used to determine thread pool size
        # using the following formula: ceil(available processors * factor).
        # Resulting size is then bounded by the pool-size-min and
        # pool-size-max values.
        pool-size-factor = 1.0

        # Max number of threads to cap factor-based number to
        pool-size-max = 2
      }

      # (I&O) Used to configure the number of I/O worker threads on client sockets
      client-socket-worker-pool {
        # Min number of threads to cap factor-based number to
        pool-size-min = 1

        # The pool size factor is used to determine thread pool size
        # using the following formula: ceil(available processors * factor).
        # Resulting size is then bounded by the pool-size-min and
        # pool-size-max values.
        pool-size-factor = 1.0

        # Max number of threads to cap factor-based number to
        pool-size-max = 2
      }
    }
  }
}




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