+# 6.4. keep-alive-timeout
+# ========================
+#
+# Specifies:
+#
+# Number of seconds after which an open connection will no longer
+# be reused.
+#
+# Type of value:
+#
+# Time in seconds.
+#
+# Default value:
+#
+# None
+#
+# Effect if unset:
+#
+# Connections are not kept alive.
+#
+# Notes:
+#
+# This option allows clients to keep the connection to Privoxy
+# alive. If the server supports it, Privoxy will keep the
+# connection to the server alive as well. Under certain
+# circumstances this may result in speed-ups.
+#
+# By default, Privoxy will close the connection to the server if
+# the client connection gets closed, or if the specified timeout
+# has been reached without a new request coming in. This behaviour
+# can be changed with the connection-sharing option.
+#
+# This option has no effect if Privoxy has been compiled without
+# keep-alive support.
+#
+# Examples:
+#
+# keep-alive-timeout 300
+#
+keep-alive-timeout 300
+#
+#
+# 6.5. connection-sharing
+# ========================
+#
+# Specifies:
+#
+# Whether or not outgoing connections that have been kept alive
+# should be shared between different incoming connections.
+#
+# Type of value:
+#
+# 0 or 1
+#
+# Default value:
+#
+# None
+#
+# Effect if unset:
+#
+# Connections are not shared.
+#
+# Notes:
+#
+# This option has no effect if Privoxy has been compiled without
+# keep-alive support, or if it's disabled.
+#
+# Notes:
+#
+# Note that reusing connections doesn't necessary cause
+# speedups. There are also a few privacy implications you should
+# be aware of.
+#
+# If this option is effective, outgoing connections are shared
+# between clients (if there are more than one) and closing the
+# browser that initiated the outgoing connection does no longer
+# affect the connection between Privoxy and the server unless
+# the client's request hasn't been completed yet.
+#
+# If the outgoing connection is idle, it will not be closed until
+# either Privoxy's or the server's timeout is reached. While
+# it's open, the server knows that the system running Privoxy is
+# still there.
+#
+# If there are more than one client (maybe even belonging to
+# multiple users), they will be able to reuse each others
+# connections. This is potentially dangerous in case of
+# authentication schemes like NTLM where only the connection
+# is authenticated, instead of requiring authentication for
+# each request.
+#
+# If there is only a single client, and if said client can keep
+# connections alive on its own, enabling this option has next to
+# no effect. If the client doesn't support connection keep-alive,
+# enabling this option may make sense as it allows Privoxy to keep
+# outgoing connections alive even if the client itself doesn't
+# support it.
+#
+# You should also be aware that enabling this option increases
+# the likelihood of getting the "No server or forwarder data"
+# error message, especially if you are using a slow connection
+# to the Internet.
+#
+# This option should only be used by experienced users who
+# understand the risks and can weight them against the benefits.
+#
+# Examples:
+#
+# connection-sharing 1
+#
+#connection-sharing 1
+#
+#
+# 6.6. socket-timeout
+# ====================
+#
+# Specifies:
+#
+# Number of seconds after which a socket times out if no data
+# is received.
+#
+# Type of value:
+#
+# Time in seconds.
+#
+# Default value:
+#
+# None
+#
+# Effect if unset:
+#
+# A default value of 300 seconds is used.
+#
+# Notes:
+#
+# For SOCKS requests the timeout currently doesn't start until
+# the SOCKS server accepted the request. This will be fixed in
+# the next release.
+#
+# Examples:
+#
+# socket-timeout 300
+#
+socket-timeout 300
+#
+#
+# 6.7. max-client-connections
+# ============================
+#
+# Specifies:
+#
+# Maximum number of client connections that will be served.
+#
+# Type of value:
+#
+# Positive number.
+#
+# Default value:
+#
+# None
+#
+# Effect if unset:
+#
+# Connections are served until a resource limit is reached.
+#
+# Notes:
+#
+# Privoxy creates one thread (or process) for every incoming
+# client connection that isn't rejected based on the access
+# control settings.
+#
+# If the system is powerful enough, Privoxy can theoretically deal
+# with several hundred (or thousand) connections at the same time,
+# but some operating systems enforce resource limits by shutting
+# down offending processes and their default limits may be below
+# the ones Privoxy would require under heavy load.
+#
+# Configuring Privoxy to enforce a connection limit below the
+# thread or process limit used by the operating system makes
+# sure this doesn't happen. Simply increasing the operating
+# system's limit would work too, but if Privoxy isn't the only
+# application running on the system, you may actually want to
+# limit the resources used by Privoxy.
+#
+# If Privoxy is only used by a single trusted user, limiting the
+# number of client connections is probably unnecessary. If there
+# are multiple possibly untrusted users you probably still want
+# to additionally use a packet filter to limit the maximal number
+# of incoming connections per client. Otherwise a malicious user
+# could intentionally create a high number of connections to
+# prevent other users from using Privoxy.
+#
+# Obviously using this option only makes sense if you choose a
+# limit below the one enforced by the operating system.
+#
+# Examples:
+#
+# max-client-connections 256
+#
+#max-client-connections 256
+#
+#
+# 7. WINDOWS GUI OPTIONS
+# =======================