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############################################################################
# omniORB (4.0 or above) configuration file #
############################################################################
############################################################################
############################################################################
############################################################################
# #
# ORB wide options #
# #
############################################################################
############################################################################
# Tracing level
# level 0 - critical errors only
# level 1 - informational messages only
# level 2 - configuration information and warnings
# level 5 - the above plus report server thread creation and
# communication socket shutdown
# level 10 - the above plus execution trace messages
# level 25 - output trace message per send or receive giop message
# level 30 - dump up to 128 bytes of a giop message
# level 40 - dump the complete giop message
#
# Valid values = (n >= 0)
#
#traceLevel = 1
############################################################################
# Trace Exceptions
# If true, then system exceptions will be logged when they are thrown.
#
# Valid values = 0 or 1
#
traceExceptions = 0
############################################################################
# Trace Invocations
# If true, then each local and remote invocation will generate a trace
# message.
#
# Valid values = 0 or 1
#
traceInvocations = 0
############################################################################
# Trace Invocation returns
# If true, then each local and remote invocation will generate a trace
# message as it returns.
#
# Valid values = 0 or 1
#
traceInvocationReturns = 0
############################################################################
# Trace thread id
# If true, all trace messages include the thread id of the thread doing
# the logging.
#
# Valid values = 0 or 1
#
traceThreadId = 0
############################################################################
# Trace time
# If true, all trace messages include the current time.
#
# Valid values = 0 or 1
#
traceTime = 0
############################################################################
# dumpConfiguration
# Set to 1 to cause the ORB to dump the current set of configuration
# parameters.
#
# Valid values = 0 or 1
#
dumpConfiguration = 0
############################################################################
# maxGIOPVersion
#
# Set the maximum GIOP version the ORB should support. The ORB tries
# to match the <major>.<minor> version as specified.
#
# Valid values = 1.0 | 1.1 | 1.2
#
maxGIOPVersion = 1.2
############################################################################
# giopMaxMsgSize
#
# This value defines the ORB-wide limit on the size of GIOP message
# (excluding the header). If this limit is exceeded, the ORB will
# refuse to send or receive the message and raise a MARSHAL exception.
#
# Valid values = (n >= 8192)
#
giopMaxMsgSize = 2097152 # 2 MBytes.
############################################################################
# strictIIOP flag
# Enable vigorous check on incoming IIOP messages
#
# In some (sloppy) IIOP implementations, the message size value in
# the header can be larger than the actual body size, i.e. there is
# garbage at the end. As the spec does not say the message size
# must match the body size exactly, this is not a clear violation
# of the spec.
#
# If this flag is non-zero, the incoming message is expected to
# be well-behaved. Any messages that have garbage at the end will
# be rejected.
#
# The default value of this flag is true, so invalid messages are
# rejected. If you set it to zero, the ORB will silently skip the
# unread part. The problem with this behaviour is that the header
# message size may actually be garbage, caused by a bug in the
# sender's code. The receiving thread may block forever on the
# strand as it tries to read more data from it. In this case the
# sender won't send any more as it thinks it has marshalled in all
# the data.
#
# Valid values = 0 or 1
#
strictIIOP = 1
############################################################################
# lcdMode
#
# Set to 1 to enable 'Lowest Common Denominator' Mode.
# This will disable various features of IIOP and GIOP which are
# poorly supported by some ORBs, and disable warnings/errors when
# certain types of erroneous message are received on the wire.
#
# Valid values = 0 or 1
#
lcdMode = 0
############################################################################
# tcAliasExpand flag
#
# This flag is used to indicate whether TypeCodes associated with Anys
# should have aliases removed. This functionality is included because
# some ORBs will not recognise an Any containing a TypeCode with
# aliases to be the same as the actual type contained in the Any. Note
# that omniORB will always remove top-level aliases, but will not remove
# aliases from TypeCodes that are members of other TypeCodes (e.g.
# TypeCodes for members of structs etc.), unless tcAliasExpand is set to 1.
# There is a performance penalty when inserting into an Any if
# tcAliasExpand is set to 1. The default value is 0 (i.e. aliases of
# member TypeCodes are not expanded). Note that aliases won't be expanded
# when one of the non-type-safe methods of inserting into an Any is
# used (i.e. when the replace() member function or non - type-safe Any
# constructor is used. )
#
# Valid values = 0 or 1
#
tcAliasExpand = 0
############################################################################
# useTypeCodeIndirections
#
# If true (the default), typecode indirections will be used. Set
# this to false to disable that. Setting this to false might be
# useful to interoperate with another ORB implementation that cannot
# handle indirections properly.
#
# Valid values = 0 or 1
useTypeCodeIndirections = 1
############################################################################
# acceptMisalignedTcIndirections
#
# If true, try to fix a mis-aligned indirection in a typecode. This
# is used to work around a bug in some versions of Visibroker's Java
# ORB.
#
# Valid values = 0 or 1
acceptMisalignedTcIndirections = 0
############################################################################
# scanGranularity
#
# The granularity at which the ORB scans for idle connections.
# This value determines the minimum value that inConScanPeriod or
# outConScanPeriod can be.
#
# Valid values = (n >= 0 in seconds)
# 0 --> do not scan for idle connections.
#
scanGranularity = 5
############################################################################
# nativeCharCodeSet
#
# set the native code set for char and string
#
nativeCharCodeSet = UTF-8
############################################################################
# nativeWCharCodeSet
#
# set the native code set for wchar and wstring
#
nativeWCharCodeSet = UTF-16
############################################################################
# abortOnInternalError
#
# If the value of this variable is TRUE then the ORB will abort
# instead of throwing an exception when a fatal internal error is
# detected. This is useful for debuging the ORB -- as the stack will
# not be unwound by the exception handler, so a stack trace can be
# obtained.
# It is hoped that this will not often be needed by users of omniORB!
#
# Valid values = 0 or 1
#
abortOnInternalError = 0
############################################################################
# abortOnNativeException
#
# On Windows, "native" exceptions such as segmentation faults and
# divide by zero appear as C++ exceptions that can be caught with
# catch (...). Setting this parameter to TRUE causes such exceptions
# to abort the process instead.
#
# This parameter has no effect on other platforms.
#
# Valid values = 0 or 1
#
abortOnNativeException = 0
############################################################################
# maxSocketSend
# maxSocketRecv
#
# On some platforms, calls to send() and recv() have a limit on the
# buffer size that can be used. These parameters set the limits in
# bytes that omniORB uses when sending / receiving bulk data.
#
# The default values are platform specific. It is unlikely that you
# will need to change the values from the defaults.
#
# The minimum valid limit is 8KB, 8192 bytes.
#
# e.g. to limit to 64KB sends / receives:
#
# maxSocketSend = 65536
# maxSocketRecv = 65536
############################################################################
# sslCAFile
# sslKeyFile
# sslKeyPassword
# sslVerifyMode
#
# SSL transport options
#
# sslCAFile specifies the file containing the SSL Certificate
# Authority certificate.
#
# sslKeyFile specifies the file containing the SSL key.
#
# sslKeyPassword specifies the password to unlock the key.
#
# sslVerifyMode specifies the verify mode, as given to
# SSL_CTX_set_verify. Valid values are "none", representing
# SSL_VERIFY_NONE, and "peer", representing SSL_VERIFY_PEER. If peer
# is selected, additional options "fail" and "once" can also be
# specified, corresponding to SSL_VERIFY_FAIL_IF_NO_PEER_CERT and
# SSL_VERIFY_CLIENT_ONCE respectively. e.g.
#
# sslVerifyMode = peer,fail
#
# These options are only available if the SSL transport is linked.
############################################################################
############################################################################
############################################################################
# #
# Client Side Options #
# #
############################################################################
############################################################################
# InitRef
#
# Specify the objects the ORB should return in response to calls to
# resolve_initial_references.
#
# There can be more than one configuration line defining InitRef.
# Each line adds one initial reference to the ORB.
#
# Here are some valid examples:
#
# Specify the root context of the Naming Service. (Notice the end of line
# continuation marker '\'
#
# InitRef = NameService=IOR:010000002800000049444c3a6f6d672e6f72672f436f734\
#e616d696e672f4e616d696e67436f6e746578743a312e300001000000000000002c000000010\
#102000c0000003139322e3136382e312e3000f90a00000c000000349568c45cb1e6780000000\
#100000000
#
# Alternatively, and more cleanly, specify the Naming service with a
# corbaname URI:
#
# InitRef = NameService=corbaname::my.host.name
#
#
# Specify the Trading service and the interface repository using corbaloc:
#
# InitRef = TradingService=corbaloc:iiop:marrow:5009/MyObjectKey
# = InterfaceRepository=corbaloc::1.2@marrow:5009/Intf
#
# The default for the set of initial references is empty.
InitRef = NameService=corbaname::127.0.0.1:2810
############################################################################
# DefaultInitRef
#
# DefaultInitRef provides a prefix string which is used to resolve
# otherwise unknown names. When resolve_initial_references() is unable to
# resolve a name which has been specifically configured (with InitRef),
# it constructs a string consisting of the default prefix, a `/' character,
# and the name requested. The string is then fed to string_to_object().
# For example, if DefaultInitRef is set up like this:
# DefaultInitRef = corbaloc::myhost.example.com
# A call to resolve_initial_references("MyService") will return the object
# reference denoted by `corbaloc::myhost.example.com/MyService'.
#
# The default is empty.
############################################################################
# clientTransportRule
#
# When the client receives an IOR that defines 1 or more ways to contact
# the server, the rules in clientTransportRule filter and prioritise
# the order in which the transports are used.
#
# There can be more than one configuration line of this type.
# Each line adds one rule to the selection process. The rules are applied
# in the order they are defined. The relative positions of the rules define
# the relative priority. The first rule has the highest priority.
#
# The syntax of a rule is as follows:
# clientTransportRule = [^]<address mask> [action]+
#
# <address mask> can be:
# 1. localhost the address is this machine
# 2. w.x.y.z/m1.m2.m3.m4 IPv4 address with the bits selected by
# the mask. e.g. 172.16.0.0/255.240.0.0
# 3. * the wildcard that matches any address
#
# <action>+ can be one or more of the following:
# 1. none Do not use this address
# 2. tcp,ssl,unix Use the 3 transports in the specified order
# if any or all of them are available
# 3. bidir Any connection to this address should be
# used bidirectionally.
#
# The optional prefix ^ before <address mask>, if present, causes
# the ORB to remove previously declared clientTransportRules from
# its internal store before adding the current rule.
#
# By default, no rule is defined. The ORB implicitly uses the following
# rule:
# clientTransportRule = * unix,tcp,ssl
# If any rule is specified, no implicit rule will be applied.
#
# Given an IOR, for each of the addresses within it, the ORB matches the
# address to the rules. If one is found, the position of the matched rule
# and the action is noted. If the action is none, the address is discarded.
# If the action does not contain the transport the address is specified for,
# e.g. the action is "ssl" but the address is "tcp", the address is
# discarded. Otherwise, the address and action is entered as one of the
# candidates to use. Having gone through all the addresses, the candidiates
# available are then ordered based on the priority of the matching rules and
# used accordingly.
#
# Here are some example usages:
#
# A) Restrict to only contacting server on the same host:
# clientTransportRule = localhost unix,tcp
# = * none
# B) Use tcp to contact servers in the intranet and must use bidirectional
# ssl otherwise.
# clientTransportRule = 172.16.0.0/255.240.0.0 unix,tcp
# = * bidir,ssl
# C) When a fast network (192.168.1.0) exists in the cluster, use it in
# preference to the external network.
# clientTransportRule = 192.168.1.0/255.255.255.0 unix,tcp
# clientTransportRule = 172.16.0.0/255.240.0.0 unix,tcp
# = * none
#
#
############################################################################
# clientCallTimeOutPeriod
#
# Call timeout. On the client side, if a remote call takes longer
# than the timeout value, the ORB will shutdown the connection and
# raise a COMM_FAILURE.
#
# Valid values = (n >= 0 in milliseconds)
# 0 --> no timeout. Block till a reply comes back
#
clientCallTimeOutPeriod = 0
############################################################################
# clientConnectTimeOutPeriod
#
# Connect timeout. When a client has no existing connection to
# communicate with a server, it must open a new connection before
# performing the call. If this parameter is non-zero, it sets a
# timeout specifically for establishing the connection. If the
# timeout specified here is shorter than the overall timeout for
# the call (set with clientCallTimeOutPeriod or per-object or
# per-thread timeouts), the connect timeout is used for
# establishing the connection, then additional time is permitted
# for the call to complete. If the connect timeout is longer than
# the normal call timeout, the deadline for the entire call is
# extended to match the connect timeout.
#
# If this parameter is zero, the normal call timeout applies to the
# total time taken to perform the connect and the subsequent call.
#
# Valid values = (n >= 0 in milliseconds)
# 0 --> same timeout (if any) as other calls
clientConnectTimeOutPeriod = 0
############################################################################
# supportPerThreadTimeOut
#
# If true, each client thread may have its own timeout. This adds
# some overhead to each call, so it is off by default.
#
# Valid values = 0 or 1
#
supportPerThreadTimeOut = 0
############################################################################
# outConScanPeriod
#
# Idle connections shutdown. The ORB periodically scans all the
# outgoing connections to detect if they are idle.
# If no operation has passed through a connection for a scan period,
# the ORB would treat this connection idle and shut it down.
#
# Valid values = (n >= 0 in seconds)
# 0 --> do not close idle connections.
#
outConScanPeriod = 120
############################################################################
# maxGIOPConnectionPerServer
#
# The ORB could open more than one connection to a server
# depending on the number of concurrent invocations to the same
# server. This variable decides the maximum number of connections
# to use per server. This variable is read only once at ORB_init.
# If the number of concurrent invocations exceeds this number, the
# extra invocations are blocked until the the outstanding ones
# return.
#
# Valid values = (n >= 1)
#
maxGIOPConnectionPerServer = 5
############################################################################
# oneCallPerConnection
#
# 1 means only one call can be in progress at any time per connection.
#
# Valid values = 0 or 1
#
oneCallPerConnection = 1
############################################################################
# offerBiDirectionalGIOP
#
# Applies to the client side. Set to 1 to indicate that the
# ORB may choose to use a connection to do bidirectional GIOP
# calls. Set to 0 means the ORB should never do bidirectional.
#
# Valid values = 0 or 1
#
offerBiDirectionalGIOP = 0
############################################################################
# diiThrowsSysExceptions
#
# If the value of this variable is 1 then the Dynamic Invocation Interface
# functions (Request::invoke, send_oneway, send_deferred, get_response,
# poll_response) will throw system exceptions as appropriate. Otherwise
# the exception will be stored in the Environment pseudo object associated
# with the Request. By default system exceptions are passed through the
# Environment object.
#
# Valid values = 0 or 1
#
diiThrowsSysExceptions = 0
############################################################################
# verifyObjectExistsAndType
#
# If the value of this variable is 0 then the ORB will not
# send a GIOP LOCATE_REQUEST message to verify the existence of
# the object prior to the first invocation. Set this variable
# if the other end is a buggy ORB that cannot handle GIOP
# LOCATE_REQUEST.
#
# Valid values = 0 or 1
#
verifyObjectExistsAndType = 1
############################################################################
# giopTargetAddressMode
#
# On the client side, if it is to use GIOP 1.2 or above to talk to a
# server, use this Target Address Mode.
#
# Valid values = 0 (GIOP::KeyAddr)
# 1 (GIOP::ProfileAddr)
# 2 (GIOP::ReferenceAddr)
#
giopTargetAddressMode = 0
############################################################################
# bootstrapAgentHostname
#
# Applies to the client side. Non-zero enables the use of Sun's bootstrap
# agent protocol to resolve initial references. The value is the host name
# where requests for initial references should be sent. Only use this
# option to interoperate with Sun's javaIDL.
#
#bootstrapAgentHostname = localhost
############################################################################
# bootstrapAgentPort
#
# Applies to the client side. Use this port no. to contact the bootstrap
# agent.
#
bootstrapAgentPort = 900
############################################################################
# principal
#
# The value of the principal field in GIOP 1.0 and 1.1 requests
#
# principal = me
############################################################################
############################################################################
############################################################################
# #
# Server Side Options #
# #
############################################################################
############################################################################
# endPoint
# endPointNoPublish
#
# These options cause the server to listen on specific endpoints,
# and provide endpoints to be published in IORs..
#
# There are two possible ways to specify the endpoints a server
# should create.
#
# The two forms differ in the following ways:
# endPoint - create, listen on the connection and publish it in IORs
# endPointNoPublish - same as endPoint but do not publish it in IORs
#
# See the endPointPublish parameter for further options about
# details to publish in IORs.
#
# There can be more than one configuration line defining endPoints.
# Each line adds one endpoint to the server.
#
# Each configuration line can start with the keyword 'endPoint', e.g.
# endPoint = giop:tcp:neem:12345
# endPoint = giop:ssl:neem:23456
#
# Or a short hand form can be used, like this:
#
# endPoint = giop:tcp:neem:12345
# = giop:ssl:neem:23456
#
# The value of an endPoint configuration is a transport specific string.
# The transport strings recongised by the ORB and its supported transports
# are:
# 1. giop:tcp:[<host>]:[<port>]
# The <host> and <port> parameter are optional. If either or
# both are missing, the ORB fills in the blank. For example,
# "giop:tcp::" will cause the ORB to pick an arbitrary tcp port
# as the endpoint and it will pick one IP address of the host
# as the host address.
#
# 2. giop:ssl:[<host>]:[<port>]
# Similar to the tcp transport except that SSL is run on top
# of the tcp connection.
#
# 3. giop:unix:[<filename>]
# Create a unix domain socket and bind to the file with pathname
# <filename>. If <filename> is not specified, e.g. "giop:unix:",
# the ORB picks a file name based on the process ID and the
# current timestamp.
# Therefore, if one wants to write an application that always
# restarts using the same file to bind to its unix domain
# socket, a filename should be specified in the transport string.
#
# It is possible to use the ORB's transport extension framework to add
# a new transport to the ORB. In that case, the transport must define its
# own transport string format and must obey the colon separation rule.
# For example, if one is to create a transport which executes an arbitrary
# shell script and let the ORB use its stdin and stdout for sending and
# receiving giop messages, a transport string could look like this:
# giop:shell:magic_gw
# ^ ^
# | +--------- transport specific part
# +--------------- transport name
#
# By default, no endPoint configuration is defined. In this case the ORB
# will create just 1 tcp endpoint as if the line:
# endPoint = giop:tcp::
# is specified in the configuration file
#
# Other than tcp, none of the transports are guaranteed to be available
# on all platforms. If one specifies say:
# endPoint = giop:ssl::
# and the ORB cannot initialise an ssl endpoint, the INITIALIZE exception
# will be raised. Even though ssl is supported on a platform, its transport
# is implemented as a separate shared library and must be linked with the
# application for the ORB to initialise the endpoint.
#
# Here are some examples of valid endPoint configurations:
#
# endPoint = giop:tcp::
# endPoint = giop:unix:
# = giop:ssl::
#
# endPointNoPublish = giop:tcp::
# = giop:unix:
# = giop:ssl::
#
############################################################################
# endPointPublish
#
# Servers listen on a number of endpoints, controlled by the
# endPoint and endPointNoPublish parameters. For clients to be able
# to connect to the server, details about the endpoints must be
# published in the server's IORs. Endpoints to be published are
# chosen according to the endPointPublish parameter.
#
# endPointPublish contains a comma-separated list of publish rules.
# The rules are applied in turn to each of the configured
# endpoints; if a rule matches an endpoint, it causes one or more
# endpoints to be published.
#
# The following core rules are supported:
#
# addr -- the first natural address of the endpoint
# ipv4 -- the first IPv4 address of a TCP or SSL endpoint
# ipv6 -- the first IPv6 address of a TCP or SSL endpoint
# name -- the first address that can be resolved to a name
# hostname -- the result of the gethostname() system call
# fqdn -- the fully-qualified domain name
#
# The core rules can be combined using the vertical bar operator to
# try several rules in turn until one succeeds. e.g:
#
# name|ipv6|ipv4
# -- the name of the endpoint if it has one;
# failing that, its first IPv6 address;
# failing that, its first IPv4 address.
#
# Multiple rules can be combined using the comma operator to
# publish more than one endpoint. e.g.
#
# name,addr -- the name of the endpoint (if it has one),
# followed by its first address.
#
# For endpoints with multiple addresses (e.g. TCP endpoints on
# multi-homed machines), the all() manipulator causes all addresses
# to be published. e.g.:
#
# all(addr) -- all addresses are published
# all(name) -- all addresses that resolve to names are published
#
# all(name|addr)
# -- all addresses are published by name if they have
# one, address otherwise.
#
# all(name,addr)
# -- all addresses are published by name (if they
# have one), and by address.
#
# all(name),all(addr)
# -- first the names of all addresses are published,
# followed by all the addresses.
#
# A specific endpoint can be published by giving its endpoint URI,
# even if the server is not listening on that endpoint. e.g.:
#
# giop:tcp:not.my.host:12345
# giop:unix:/not/my/socket-file
#
# If the host or port number for a TCP or SSL URI are missed out,
# they are filled in with the details from each listening TCP/SSL
# endpoint. This can be used to publish a different name for a
# TCP/SSL endpoint that is using an ephemeral port.
############################################################################
# serverTransportRule
#
# When the server sees a connection request from a client, it looks at the
# client's address and uses the rules in serverTransportRule to determine
# if the connection should be accepted.
#
# There can be more than one configuration line of this type.
# Each line adds one rule to the selection process. The rules are applied
# in the order they are defined until one matching rule is found.
#
# The syntax of a rule is as follows:
# serverTransportRule = [^]<address mask> [action]+
#
# <address mask> can be:
# 1. localhost if the address is this machine
# 2. w.x.y.z/m1.m2.m3.m4 IPv4 address with the bits selected by
# the mask. e.g. 172.16.0.0/255.240.0.0
# 3. * the wildcard that matches any address
#
# <action>+ can be one or more of the following:
# 1. none Do not accept this connection.
# 2. tcp,ssl,unix Accept if the transport is any of the
# 3 specified.
# 3. bidir Allow bidirectional requests if the
# client requests it.
#
# The optional prefix ^ before <address mask>, if present, causes
# the ORB to remove previously declared clientTransportRules from
# its internal store before adding the current rule.
#
# By default, no rule is defined. The ORB implicitly uses the following
# rule:
# serverTransportRule = * unix,tcp,ssl
# If any rule is specified, the implicit rule will not be applied.
#
# Here are some example usages:
#
# A) Only accept connections from our intranet
# serverTransportRule = localhost unix,tcp,ssl
# = 172.16.0.0/255.240.0.0 tcp,ssl
# = * none
#
# B) Only accept ssl connections if the client is not on our intranet
# serverTransportRule = localhost unix,tcp,ssl
# = 172.16.0.0/255.240.0.0 tcp,ssl
# = * bidir,ssl
############################################################################
# serverCallTimeOutPeriod
#
# Call timeout. On the server side, if the ORB cannot completely
# unmarshal a call's arguments in the defined timeout, it shutdown the
# connection.
#
# Valid values = (n >= 0 in milliseconds)
# 0 --> no timeout.
#
serverCallTimeOutPeriod = 0
############################################################################
# inConScanPeriod
#
# Idle connections shutdown. The ORB periodically scans all the
# incoming connections to detect if they are idle.
# If no operation has passed through a connection for a scan period,
# the ORB would treat this connection idle and shut it down.
#
# Valid values = (n >= 0 in seconds)
# 0 --> do not close idle connections.
#
inConScanPeriod = 180
############################################################################
# threadPerConnectionPolicy
#
# 1 means the ORB should dedicate one thread per connection on the
# server side. 0 means the ORB should dispatch a thread from a pool
# to a connection only when a request has arrived.
#
# Valid values = 0 or 1
#
threadPerConnectionPolicy = 1
############################################################################
# maxServerThreadPerConnection
#
# The max. no. of threads the server will dispatch to serve the
# requests coming from one connection.
#
# Valid values = (n >= 1)
#
maxServerThreadPerConnection = 100
############################################################################
# maxServerThreadPoolSize
# The max. no. of threads the server will allocate to do various
# ORB tasks. This number does not include the dedicated thread
# per connection when the threadPerConnectionPolicy is in effect
#
# Valid values = (n >= 1)
#
maxServerThreadPoolSize = 100
############################################################################
# threadPerConnectionUpperLimit
#
# If the one thread per connection is in effect, this number is
# the max. no. of connections the server will allow before it
# switch off the one thread per connection policy and move to
# the thread pool policy.
#
# Valid values = (n >= 1)
#
threadPerConnectionUpperLimit = 10000
############################################################################
# threadPerConnectionLowerLimit
#
# If the one thread per connection was in effect and was switched
# off because threadPerConnectionUpperLimit has been exceeded
# previously, this number tells when the policy should be restored
# when the number of connections drop.
#
# Valid values = (n >= 1 && n < threadPerConnectionUpperLimit)
#
threadPerConnectionLowerLimit = 9000
############################################################################
# threadPoolWatchConnection
#
# After dispatching an upcall in thread pool mode, the thread that
# has just performed the call can watch the connection for a short
# time before returning to the pool. This leads to less thread
# switching for a series of calls from a single client, but is less
# fair if there are concurrent clients. The connection is watched
# if the number of threads concurrently handling the connection is
# <= the value of this parameter. i.e. if the parameter is zero,
# the connection is never watched; if it is 1, the last thread
# managing a connection watches it; if 2, the connection is still
# watched if there is one other thread still in an upcall for the
# connection, and so on.
threadPoolWatchConnection = 1
############################################################################
# connectionWatchPeriod
#
# For each endpoint, the ORB allocates a thread to watch for new
# connections and to monitor existing connections for calls that
# should be handed by the thread pool. The thread blocks in select()
# or similar for a period, after which it re-scans the lists of
# connections it should watch. This parameter is specified in
# microseconds.
#
# Valid values = (n >= 0 in microseconds)
#
connectionWatchPeriod = 50000
############################################################################
# connectionWatchImmediate
#
# When a thread handles an incoming call, it unmarshals the
# arguments then marks the connection as watchable by the connection
# watching thread, in case the client sends a concurrent call on the
# same connection. If this parameter is set to the default false,
# the connection is not actually watched until the next connection
# watch period (determined by the connectionWatchPeriod parameter).
# If connectionWatchImmediate is set true, the connection watching
# thread is immediately signalled to watch the connection. That
# leads to faster interactive response to clients that multiplex
# calls, but adds significant overhead along the call chain.
#
# Note that this setting has no effect on Windows, since it has no
# mechanism for signalling the connection watching thread.
#
# Valid values = 0 or 1
#
connectionWatchImmediate = 0
############################################################################
# acceptBiDirectionalGIOP
#
# Applies to the server side. Set to 1 to indicate that the
# ORB may choose to accept a client's offer to use bidirectional
# GIOP calls on a connection. Set to 0 means the ORB should
# never accept any bidirectional offer and should stick to normal
# GIOP.
#
# Valid values = 0 or 1
#
acceptBiDirectionalGIOP = 0
############################################################################
# unixTransportDirectory
#
# Applies to the server side. Determine the directory in which
# the unix domain socket is to be created.
#
# Valid values = a valid pathname for a directory
#
unixTransportDirectory = /tmp/omni-%u
# %u is expanded into user name.
############################################################################
# unixTransportPermission
#
# Applies to the server side. Determine the permission mode bits
# the unix domain socket is set to.
#
# Valid values = unix permission mode bits in octal radix (e.g. 0755)
#
unixTransportPermission = 0777
############################################################################
# supportCurrent
#
# If the value of this variable is TRUE, per-thread information is
# made available through the Current interfaces, e.g.
# PortableServer::Current. If you do not need this information, you
# can set the value to FALSE, resulting in a small performance
# improvement.
#
supportCurrent = 1
############################################################################
# copyValuesInLocalCalls
#
# If the value of this variable is TRUE, valuetypes used in local
# calls are properly copied, to retain local/remote transparency.
# This involves copying all operation parameters / return values,
# and is thus quite time consuming. If this parameter is set to
# FALSE, valuetypes in local calls are not copied.
#
copyValuesInLocalCalls = 1
############################################################################
# objectTableSize
#
# Hash table size of the Active Object Map. If this is zero, the ORB
# uses a dynamically resized open hash table. This is normally the
# best option, but it leads to less predictable performance since
# any operation which adds or removes a table entry may trigger a
# resize. If you set this to a non-zero value, the hash table has
# the specified number of entries, and is never resized. Note that
# the hash table is open, so this does not limit the number of
# active objects, just how efficiently they can be located.
#
# Valid values = (n >= 0)
# 0 --> use a dynamically resized table.
#
objectTableSize = 0
############################################################################
# poaHoldRequestTimeout
#
# This variable can be used to set a time-out for calls being held
# in a POA which is in the HOLDING state. It gives the time in
# milliseconds after which a TRANSIENT exception will be thrown if the
# POA is not transitioned to a different state.
#
# Valid values = (n >= 0 in milliseconds)
# 0 --> no time-out.
#
poaHoldRequestTimeout = 0
############################################################################
# poaUniquePersistentSystemIds
#
# The POA specification requires that object ids in POAs with the
# PERSISTENT and SYSTEM_ID policies are unique between
# instantiations of the POA. Older versions of omniORB did not
# comply with that, and reused object ids. With this value true, the
# POA has the correct behaviour; with false, the POA uses the old
# scheme for compatibility.
#
# Valid values = 0 or 1
#
poaUniquePersistentSystemIds = 1
############################################################################
# supportBootstrapAgent
#
# Applies to the server side. 1 means enable the support for Sun's
# bootstrap agent protocol. This enables interoperability between omniORB
# servers and Sun's javaIDL clients. When this option is enabled, an
# omniORB server will respond to a bootstrap agent request.
supportBootstrapAgent = 0