[squid-users] FTP: does not work !

From: Joebstl Gregor <joebstl@dont-contact.us>
Date: Fri, 10 Aug 2001 13:49:40 +0200

Yes I know that Squid is no FTP proxy, but I want to have FTP access
with my webbrowser.
My problem:
I have configured (see configuration) SQUID-2.4.STABLE 1 and compiled
(with no errors).
I am using SQUID as transparent proxy (see iptables).
All is fine (HTTP) except FTP. IE cannot make a FTP connection, although
it is possible with an other box and the binaries from SUSE (SQUID-2.3).

Do you have any idea what's wrong with my configuration ?

Thank you !
Gregor

#/bin/sh: ispell: command not found
#
# WELCOME TO SQUID 2
# ------------------
#
# This is the default Squid configuration file. You may wish
# to look at the Squid home page (http://www.squid-cache.org/)
# for the FAQ and other documentation.
#
# The default Squid config file shows what the defaults for
# various options happen to be. If you don't need to change the
# default, you shouldn't uncomment the line. Doing so may cause
# run-time problems. In some cases "none" refers to no default
# setting at all, while in other cases it refers to a valid
# option - the comments for that keyword indicate if this is the
# case.
#

# NETWORK OPTIONS
# -----------------------------------------------------------------------------

# TAG: http_port
# Usage: port
# hostname:port
# 1.2.3.4:port
#
# The socket addresses where Squid will listen for HTTP client
# requests. You may specify multiple socket addresses.
# There are three forms: port alone, hostname with port, and
# IP address with port. If you specify a hostname or IP
# address, then Squid binds the socket to that specific
# address. This replaces the old 'tcp_incoming_address'
# option. Most likely, you do not need to bind to a specific
# address, so you can use the port number alone.
#
# The default port number is 3128.
#
# If you are running Squid in accelerator mode, then you
# probably want to listen on port 80 also, or instead.
#
# The -a command line option will override the *first* port
# number listed here. That option will NOT override an IP
# address, however.
#
# You may specify multiple socket addresses on multiple lines.
#
#Default:
http_port 192.168.1.1:8080
# listening only on the internal adresse ! GJ

# TAG: icp_port
# The port number where Squid sends and receives ICP queries to
# and from neighbor caches. Default is 3130. To disable use
# "0". May be overridden with -u on the command line.
#
#Default:
icp_port 0
# no communication with other hosts GJ

# TAG: htcp_port
# Note: This option is only available if Squid is rebuilt with the
# --enable-htcp option
#
# The port number where Squid sends and receives HTCP queries to
# and from neighbor caches. Default is 4827. To disable use
# "0".
#
# To enable this option, you must use --enable-htcp with the
# configure script.
#
#Default:
# htcp_port 0

# TAG: mcast_groups
# This tag specifies a list of multicast groups which your server
# should join to receive multicasted ICP queries.
#
# NOTE! Be very careful what you put here! Be sure you
# understand the difference between an ICP _query_ and an ICP
# _reply_. This option is to be set only if you want to RECEIVE
# multicast queries. Do NOT set this option to SEND multicast
# ICP (use cache_peer for that). ICP replies are always sent via
# unicast, so this option does not affect whether or not you will
# receive replies from multicast group members.
#
# You must be very careful to NOT use a multicast address which
# is already in use by another group of caches.
#
# If you are unsure about multicast, please read the Multicast
# chapter in the Squid FAQ (http://www.squid-cache.org/FAQ/).
#
# Usage: mcast_groups 239.128.16.128 224.0.1.20
#
# By default, Squid doesn't listen on any multicast groups.
#
#Default:
# none

# TAG: tcp_outgoing_address
# TAG: udp_incoming_address
# TAG: udp_outgoing_address
# Usage: tcp_incoming_address 10.20.30.40
# udp_outgoing_address fully.qualified.domain.name
#
# tcp_outgoing_address is used for connections made to remote
# servers and other caches.
# udp_incoming_address is used for the ICP socket receiving packets
# from other caches.
# udp_outgoing_address is used for ICP packets sent out to other
# caches.
#
# The default behavior is to not bind to any specific address.
#
# A *_incoming_address value of 0.0.0.0 indicates that Squid should
# listen on all available interfaces.
#
# If udp_outgoing_address is set to 255.255.255.255 (the default)
# then it will use the same socket as udp_incoming_address. Only
# change this if you want to have ICP queries sent using another
# address than where this Squid listens for ICP queries from other
# caches.
#
# NOTE, udp_incoming_address and udp_outgoing_address can not
# have the same value since they both use port 3130.
#
# NOTE, tcp_incoming_address has been removed. You can now
# specify IP addresses on the 'http_port' line.
#
#Default:
# tcp_outgoing_address 255.255.255.255
# udp_incoming_address 0.0.0.0
# udp_outgoing_address 255.255.255.255

# OPTIONS WHICH AFFECT THE NEIGHBOR SELECTION ALGORITHM
# -----------------------------------------------------------------------------

# TAG: cache_peer
# To specify other caches in a hierarchy, use the format:
#
# cache_peer hostname type http_port icp_port
#
# For example,
#
# # proxy icp
# # hostname type port port options
# # -------------------- -------- ----- ----- -----------
# cache_peer parent.foo.net parent 3128 3130 [proxy-only]
# cache_peer sib1.foo.net sibling 3128 3130 [proxy-only]
# cache_peer sib2.foo.net sibling 3128 3130 [proxy-only]
#
# type: either 'parent', 'sibling', or 'multicast'.
#
# proxy_port: The port number where the cache listens for proxy
# requests.
#
# icp_port: Used for querying neighbor caches about
# objects. To have a non-ICP neighbor
# specify '7' for the ICP port and make sure the
# neighbor machine has the UDP echo port
# enabled in its /etc/inetd.conf file.
#
# options: proxy-only
# weight=n
# ttl=n
# no-query
# default
# round-robin
# multicast-responder
# closest-only
# no-digest
# no-netdb-exchange
# no-delay
# login=user:password
# connect-timeout=nn
# digest-url=url
# allow-miss
#
# use 'proxy-only' to specify that objects fetched
# from this cache should not be saved locally.
#
# use 'weight=n' to specify a weighted parent.
# The weight must be an integer. The default weight
# is 1, larger weights are favored more.
#
# use 'ttl=n' to specify a IP multicast TTL to use
# when sending an ICP queries to this address.
# Only useful when sending to a multicast group.
# Because we don't accept ICP replies from random
# hosts, you must configure other group members as
# peers with the 'multicast-responder' option below.
#
# use 'no-query' to NOT send ICP queries to this
# neighbor.
#
# use 'default' if this is a parent cache which can
# be used as a "last-resort." You should probably
# only use 'default' in situations where you cannot
# use ICP with your parent cache(s).
#
# use 'round-robin' to define a set of parents which
# should be used in a round-robin fashion in the
# absence of any ICP queries.
#
# 'multicast-responder' indicates that the named peer
# is a member of a multicast group. ICP queries will
# not be sent directly to the peer, but ICP replies
# will be accepted from it.
#
# 'closest-only' indicates that, for ICP_OP_MISS
# replies, we'll only forward CLOSEST_PARENT_MISSes
# and never FIRST_PARENT_MISSes.
#
# use 'no-digest' to NOT request cache digests from
# this neighbor.
#
# 'no-netdb-exchange' disables requesting ICMP
# RTT database (NetDB) from the neighbor.
#
# use 'no-delay' to prevent access to this neighbor
# from influencing the delay pools.
#
# use 'login=user:password' if this is a personal/workgroup
# proxy and your parent requires proxy authentication.
#
# use 'connect-timeout=nn' to specify a peer
# specific connect timeout (also see the
# peer_connect_timeout directive)
#
# use 'digest-url=url' to tell Squid to fetch the cache
# digest (if digests are enabled) for this host from
# the specified URL rather than the Squid default
# location.
#
# use 'allow-miss' to disable Squid's use of only-if-cached
# when forwarding requests to siblings. This is primarily
# useful when icp_hit_stale is used by the sibling. To
# extensive use of this option may result in forwarding
# loops, and you should avoid having two-way peerings
# with this option. (for example to deny peer usage on
# requests from peer by denying cache_peer_access if the
# source is a peer)
#
# NOTE: non-ICP neighbors must be specified as 'parent'.
#
#Default:
# none

# TAG: cache_peer_domain
# Use to limit the domains for which a neighbor cache will be
# queried. Usage:
#
# cache_peer_domain cache-host domain [domain ...]
# cache_peer_domain cache-host !domain
#
# For example, specifying
#
# cache_peer_domain parent.foo.net .edu
#
# has the effect such that UDP query packets are sent to
# 'bigserver' only when the requested object exists on a
# server in the .edu domain. Prefixing the domainname
# with '!' means that the cache will be queried for objects
# NOT in that domain.
#
# NOTE: * Any number of domains may be given for a cache-host,
# either on the same or separate lines.
# * When multiple domains are given for a particular
# cache-host, the first matched domain is applied.
# * Cache hosts with no domain restrictions are queried
# for all requests.
# * There are no defaults.
# * There is also a 'cache_peer_access' tag in the ACL
# section.
#
#Default:
# none

# TAG: neighbor_type_domain
# usage: neighbor_type_domain parent|sibling domain domain ...
#
# Modifying the neighbor type for specific domains is now
# possible. You can treat some domains differently than the the
# default neighbor type specified on the 'cache_peer' line.
# Normally it should only be necessary to list domains which
# should be treated differently because the default neighbor type
# applies for hostnames which do not match domains listed here.
#
#EXAMPLE:
# cache_peer parent cache.foo.org 3128 3130
# neighbor_type_domain cache.foo.org sibling .com .net
# neighbor_type_domain cache.foo.org sibling .au .de
#
#Default:
# none

# TAG: icp_query_timeout (msec)
# Normally Squid will automatically determine an optimal ICP
# query timeout value based on the round-trip-time of recent ICP
# queries. If you want to override the value determined by
# Squid, set this 'icp_query_timeout' to a non-zero value. This
# value is specified in MILLISECONDS, so, to use a 2-second
# timeout (the old default), you would write:
#
# icp_query_timeout 2000
#
#Default:
# icp_query_timeout 0

# TAG: maximum_icp_query_timeout (msec)
# Normally the ICP query timeout is determined dynamically. But
# sometimes it can lead to very large values (say 5 seconds).
# Use this option to put an upper limit on the dynamic timeout
# value. Do NOT use this option to always use a fixed (instead
# of a dynamic) timeout value. To set a fixed timeout see the
# 'icp_query_timeout' directive.
#
#Default:
# maximum_icp_query_timeout 2000

# TAG: mcast_icp_query_timeout (msec)
# For Multicast peers, Squid regularly sends out ICP "probes" to
# count how many other peers are listening on the given multicast
# address. This value specifies how long Squid should wait to
# count all the replies. The default is 2000 msec, or 2
# seconds.
#
#Default:
# mcast_icp_query_timeout 2000

# TAG: dead_peer_timeout (seconds)
# This controls how long Squid waits to declare a peer cache
# as "dead." If there are no ICP replies received in this
# amount of time, Squid will declare the peer dead and not
# expect to receive any further ICP replies. However, it
# continues to send ICP queries, and will mark the peer as
# alive upon receipt of the first subsequent ICP reply.
#
# This timeout also affects when Squid expects to receive ICP
# replies from peers. If more than 'dead_peer' seconds have
# passed since the last ICP reply was received, Squid will not
# expect to receive an ICP reply on the next query. Thus, if
# your time between requests is greater than this timeout, you
# will see a lot of requests sent DIRECT to origin servers
# instead of to your parents.
#
#Default:
# dead_peer_timeout 10 seconds

# TAG: hierarchy_stoplist
# A list of words which, if found in a URL, cause the object to
# be handled directly by this cache. In other words, use this
# to not query neighbor caches for certain objects. You may
# list this option multiple times.
#
#We recommend you to use at least the following line.
hierarchy_stoplist cgi-bin ?

# TAG: no_cache
# A list of ACL elements which, if matched, cause the reply to
# immediately removed from the cache. In other words, use this
# to force certain objects to never be cached.
#
# You must use the word 'DENY' to indicate the ACL names which should
# NOT be cached.
#
#We recommend you to use the following two lines.
acl QUERY urlpath_regex cgi-bin \?
no_cache deny QUERY

# OPTIONS WHICH AFFECT THE CACHE SIZE
# -----------------------------------------------------------------------------

# TAG: cache_mem (bytes)
# NOTE: THIS PARAMETER DOES NOT SPECIFY THE MAXIMUM PROCESS
# SIZE. IT PLACES A LIMIT ON ONE ASPECT OF SQUID'S MEMORY
# USAGE. SQUID USES MEMORY FOR OTHER THINGS AS WELL.
# YOUR PROCESS WILL PROBABLY BECOME TWICE OR THREE TIMES
# BIGGER THAN THE VALUE YOU PUT HERE
#
# 'cache_mem' specifies the ideal amount of memory to be used
# for:
# * In-Transit objects
# * Hot Objects
# * Negative-Cached objects
#
# Data for these objects are stored in 4 KB blocks. This
# parameter specifies the ideal upper limit on the total size of
# 4 KB blocks allocated. In-Transit objects take the highest
# priority.
#
# In-transit objects have priority over the others. When
# additional space is needed for incoming data, negative-cached
# and hot objects will be released. In other words, the
# negative-cached and hot objects will fill up any unused space
# not needed for in-transit objects.
#
# If circumstances require, this limit will be exceeded.
# Specifically, if your incoming request rate requires more than
# 'cache_mem' of memory to hold in-transit objects, Squid will
# exceed this limit to satisfy the new requests. When the load
# decreases, blocks will be freed until the high-water mark is
# reached. Thereafter, blocks will be used to store hot
# objects.
#
#Default:
cache_mem 256 MB

# TAG: cache_swap_low (percent, 0-100)
# TAG: cache_swap_high (percent, 0-100)
#
# The low- and high-water marks for cache object replacement.
# Replacement begins when the swap (disk) usage is above the
# low-water mark and attempts to maintain utilization near the
# low-water mark. As swap utilization gets close to high-water
# mark object eviction becomes more aggressive. If utilization is
# close to the low-water mark less replacement is done each time.
#
# Defaults are 90% and 95%. If you have a large cache, 5% could be
# hundreds of MB. If this is the case you may wish to set these
# numbers closer together.
#
#Default:
cache_swap_low 93
cache_swap_high 95

# TAG: maximum_object_size (bytes)
# Objects larger than this size will NOT be saved on disk. The
# value is specified in kilobytes, and the default is 4MB. If
# you wish to get a high BYTES hit ratio, you should probably
# increase this (one 32 MB object hit counts for 3200 10KB
# hits). If you wish to increase speed more than your want to
# save bandwidth you should leave this low.
#
# NOTE: if using the LFUDA replacement policy you should increase
# this value to maximize the byte hit rate improvement of LFUDA!
# See replacement_policy below for a discussion of this policy.
#
#Default:
maximum_object_size 32 MB

# TAG: minimum_object_size (bytes)
# Objects smaller than this size will NOT be saved on disk. The
# value is specified in kilobytes, and the default is 0 KB, which
# means there is no minimum.
#
#Default:
minimum_object_size 0 KB

# TAG: maximum_object_size_in_memory (bytes)
# Objects greater than this size will not be attempted to kept in
# the memory cache. This should be set high enough to keep objects
# accessed frequently in memory to improve performance whilst low
# enough to keep larger objects from hoarding cache_mem .
#
#Default:
maximum_object_size_in_memory 100 KB

# TAG: ipcache_size (number of entries)
# TAG: ipcache_low (percent)
# TAG: ipcache_high (percent)
# The size, low-, and high-water marks for the IP cache.
#
#Default:
ipcache_size 4096
ipcache_low 90
ipcache_high 95

# TAG: fqdncache_size (number of entries)
# Maximum number of FQDN cache entries.
#
#Default:
fqdncache_size 4096

# TAG: cache_replacement_policy
# The cache replacement policy parameter determines which
# objects are evicted (replaced) when disk space is needed.
#
# lru : Squid's original list based LRU policy
# heap GDSF : Greedy-Dual Size Frequency
# heap LFUDA: Least Frequently Used with Dynamic Aging
# heap LRU : LRU policy implemented using a heap
#
# Applies to any cache_dir lines listed below this.
#
# The LRU policies keeps recently referenced objects.
#
# The heap GDSF policy optimizes object hit rate by keeping smaller
# popular objects in cache so it has a better chance of getting a
# hit. It achieves a lower byte hit rate than LFUDA though since
# it evicts larger (possibly popular) objects.
#
# The heap LFUDA policy keeps popular objects in cache regardless of
# their size and thus optimizes byte hit rate at the expense of
# hit rate since one large, popular object will prevent many
# smaller, slightly less popular objects from being cached.
#
# Both policies utilize a dynamic aging mechanism that prevents
# cache pollution that can otherwise occur with frequency-based
# replacement policies.
#
# NOTE: if using the LFUDA replacement policy you should increase
# the value of maximum_object_size above its default of 4096 KB to
# to maximize the potential byte hit rate improvement of LFUDA.
#
# For more information about the GDSF and LFUDA cache replacement
# policies see http://www.hpl.hp.com/techreports/1999/HPL-1999-69.html
# and http://fog.hpl.external.hp.com/techreports/98/HPL-98-173.html.
#
#Default:
cache_replacement_policy heap LFUDA

# TAG: memory_replacement_policy
# The memory replacement policy parameter determines which
# objects are purged from memory when memory space is needed.
#
# See cache_replacement_policy for details.
#
#Default:
memory_replacement_policy heap GDSF

# LOGFILE PATHNAMES AND CACHE DIRECTORIES
# -----------------------------------------------------------------------------

# TAG: cache_dir
# Usage:
#
# cache_dir Type Directory-Name Fs-specific-data [options]
#
# You can specify multiple cache_dir lines to spread the
# cache among different disk partitions.
#
# Type specifies the kind of storage system to use. Most
# everyone will want to use "ufs" as the type. If you are using
# Async I/O (--enable async-io) on Linux or Solaris, then you may
# want to try "aufs" as the type. Async IO support may be
# buggy, however, so beware.
#
# 'Directory' is a top-level directory where cache swap
# files will be stored. If you want to use an entire disk
# for caching, then this can be the mount-point directory.
# The directory must exist and be writable by the Squid
# process. Squid will NOT create this directory for you.
#
# The ufs store type:
#
# "ufs" is the old well-known Squid storage format that has always
# been there.
#
# cache_dir ufs Directory-Name Mbytes L1 L2 [options]
#
# 'Mbytes' is the amount of disk space (MB) to use under this
# directory. The default is 100 MB. Change this to suit your
# configuration.
#
# 'Level-1' is the number of first-level subdirectories which
# will be created under the 'Directory'. The default is 16.
#
# 'Level-2' is the number of second-level subdirectories which
# will be created under each first-level directory. The default
# is 256.
#
# The aufs store type:
#
# "aufs" uses the same storage format as "ufs", utilizing
# POSIX-threads to avoid blocking the main Squid process on
# disk-I/O. This was formerly known in Squid as async-io.
#
# cache_dir aufs Directory-Name Mbytes L1 L2 [options]
#
# see argument descriptions under ufs above
#
# The diskd store type:
#
# "diskd" uses the same storage format as "ufs", utilizing a
# separate process to avoid blocking the main Squid process on
# disk-I/O.
#
# cache_dir diskd Directory-Name Mbytes L1 L2 [options] [Q1=n] [Q2=n]
#
# see argument descriptions under ufs above
#
# Q1 specifies the number of unacknowledged I/O requests when Squid
# stops opening new files. If this many messages are in the queues,
# Squid won't open new files. Default is 64
#
# Q2 specifies the number of unacknowledged messages when Squid
# starts blocking. If this many messages are in the queues,
# Squid blocks until it recevies some replies. Default is 72
#
# Common options:
#
# read-only, this cache_dir is read only.
#
# max-size=n, refers to the max object size this storedir supports.
# It is used to initially choose the storedir to dump the object.
# Note: To make optimal use of the max-size limits you should order
# the cache_dir lines with the smallest max-size value first and the
# ones with no max-size specification last.
#
#Default:
cache_dir diskd /var/squid/cache 30720 32 512
# testconfiguration, maybe buggy !!!!!! GJ

# TAG: cache_access_log
# Logs the client request activity. Contains an entry for
# every HTTP and ICP queries received.
#
#Default:
cache_access_log /var/squid/logs/access.log

# TAG: cache_log
# Cache logging file. This is where general information about
# your cache's behavior goes. You can increase the amount of data
# logged to this file with the "debug_options" tag below.
#
#Default:
cache_log /var/squid/logs/cache.log

# TAG: cache_store_log
# Logs the activities of the storage manager. Shows which
# objects are ejected from the cache, and which objects are
# saved and for how long. To disable, enter "none". There are
# not really utilities to analyze this data, so you can safely
# disable it.
#
#Default:
cache_store_log /var/squid/logs/store.log

# TAG: cache_swap_log
# Location for the cache "swap.log." This log file holds the
# metadata of objects saved on disk. It is used to rebuild the
# cache during startup. Normally this file resides in each
# 'cache_dir' directory, but you may specify an alternate
# pathname here. Note you must give a full filename, not just
# a directory. Since this is the index for the whole object
# list you CANNOT periodically rotate it!
#
# If %s can be used in the file name then it will be replaced with a
# a representation of the cache_dir name where each / is replaced
# with '.'. This is needed to allow adding/removing cache_dir
# lines when cache_swap_log is being used.
#
# If have more than one 'cache_dir', and %s is not used in the name
# then these swap logs will have names such as:
#
# cache_swap_log.00
# cache_swap_log.01
# cache_swap_log.02
#
# The numbered extension (which is added automatically)
# corresponds to the order of the 'cache_dir' lines in this
# configuration file. If you change the order of the 'cache_dir'
# lines in this file, then these log files will NOT correspond to
# the correct 'cache_dir' entry (unless you manually rename
# them). We recommend that you do NOT use this option. It is
# better to keep these log files in each 'cache_dir' directory.
#
#Default:
# none

# TAG: emulate_httpd_log on|off
# The Cache can emulate the log file format which many 'httpd'
# programs use. To disable/enable this emulation, set
# emulate_httpd_log to 'off' or 'on'. The default
# is to use the native log format since it includes useful
# information that Squid-specific log analyzers use.
#
#Default:
# emulate_httpd_log off

# TAG: log_ip_on_direct on|off
# Log the destination IP address in the hierarchy log tag when going
# direct. Earlier Squid versions logged the hostname here. If you
# prefer the old way set this to off.
#
#Default:
# log_ip_on_direct on

# TAG: mime_table
# Pathname to Squid's MIME table. You shouldn't need to change
# this, but the default file contains examples and formatting
# information if you do.
#
#Default:
# mime_table /usr/squid/etc/mime.conf

# TAG: log_mime_hdrs on|off
# The Cache can record both the request and the response MIME
# headers for each HTTP transaction. The headers are encoded
# safely and will appear as two bracketed fields at the end of
# the access log (for either the native or httpd-emulated log
# formats). To enable this logging set log_mime_hdrs to 'on'.
#
#Default:
# log_mime_hdrs off

# TAG: useragent_log
# Note: This option is only available if Squid is rebuilt with the
# --enable-useragent-log option
#
# Squid will write the User-Agent field from HTTP requests
# to the filename specified here. By default useragent_log
# is disabled.
#
#Default:
# none

# TAG: referer_log
# Note: This option is only available if Squid is rebuilt with the
# --enable-referer-log option
#
# Squid will write the Referer field from HTTP requests to the
# filename specified here. By default referer_log is disabled.
#
#Default:
# none

# TAG: pid_filename
# A filename to write the process-id to. To disable, enter "none".
#
#Default:
pid_filename /var/squid/logs/squid.pid

# TAG: debug_options
# Logging options are set as section,level where each source file
# is assigned a unique section. Lower levels result in less
# output, Full debugging (level 9) can result in a very large
# log file, so be careful. The magic word "ALL" sets debugging
# levels for all sections. We recommend normally running with
# "ALL,1".
#
#Default:
debug_options ALL,1

# TAG: log_fqdn on|off
# Turn this on if you wish to log fully qualified domain names
# in the access.log. To do this Squid does a DNS lookup of all
# IP's connecting to it. This can (in some situations) increase
# latency, which makes your cache seem slower for interactive
# browsing.
#
#Default:
# log_fqdn off

# TAG: client_netmask
# A netmask for client addresses in logfiles and cachemgr output.
# Change this to protect the privacy of your cache clients.
# A netmask of 255.255.255.0 will log all IP's in that range with
# the last digit set to '0'.
#
#Default:
# client_netmask 255.255.255.255

# OPTIONS FOR EXTERNAL SUPPORT PROGRAMS
# -----------------------------------------------------------------------------

# TAG: ftp_user
# If you want the anonymous login password to be more informative
# (and enable the use of picky ftp servers), set this to something
# reasonable for your domain, like wwwuser@somewhere.net
#
# The reason why this is domainless by default is that the
# request can be made on the behalf of a user in any domain,
# depending on how the cache is used.
# Some ftp server also validate that the email address is valid
# (for example perl.com).
#
#Default:
ftp_user hallo@hallo.net

# TAG: ftp_list_width
# Sets the width of ftp listings. This should be set to fit in
# the width of a standard browser. Setting this too small
# can cut off long filenames when browsing ftp sites.
#
#Default:
ftp_list_width 32

# TAG: ftp_passive
# If your firewall does not allow Squid to use passive
# connections, then turn off this option.
#
#Default:
ftp_passive on

# TAG: cache_dns_program
# Note: This option is only available if Squid is rebuilt with the
# --disable-internal-dns option
#
# Specify the location of the executable for dnslookup process.
#
#Default:
# cache_dns_program /usr/squid/libexec/squid/

# TAG: dns_children
# Note: This option is only available if Squid is rebuilt with the
# --disable-internal-dns option
#
# The number of processes spawn to service DNS name lookups.
# For heavily loaded caches on large servers, you should
# probably increase this value to at least 10. The maximum
# is 32. The default is 5.
#
# You must have at least one dnsserver process.
#
#Default:
# dns_children 5

# TAG: dns_retransmit_interval
# Initial retransmit interval for DNS queries. The interval is
# doubled each time all configured DNS servers have been tried.
#
#
#Default:
# dns_retransmit_interval 5 seconds

# TAG: dns_timeout
# DNS Query timeout. If no response is received to a DNS query
# within this time then all DNS servers for the queried domain
# is assumed to be unavailable.
#
#Default:
# dns_timeout 5 minutes

# TAG: dns_defnames on|off
# Note: This option is only available if Squid is rebuilt with the
# --disable-internal-dns option
#
# Normally the 'dnsserver' disables the RES_DEFNAMES resolver
# option (see res_init(3)). This prevents caches in a hierarchy
# from interpreting single-component hostnames locally. To allow
# dnsserver to handle single-component names, enable this
# option.
#
#Default:
# dns_defnames off

# TAG: dns_nameservers
# Use this if you want to specify a list of DNS name servers
# (IP addresses) to use instead of those given in your
# /etc/resolv.conf file.
#
# Example: dns_nameservers 10.0.0.1 192.172.0.4
#
#Default:
dns_nameservers xxx.xxx.xxx.xxx
# to take only external DNSservers GJ

# TAG: unlinkd_program
# Specify the location of the executable for file deletion process.
#
#Default:
# unlinkd_program /usr/squid/libexec/squid/unlinkd

# TAG: pinger_program
# Note: This option is only available if Squid is rebuilt with the
# --enable-icmp option
#
# Specify the location of the executable for the pinger process.
# This is only useful if you configured Squid (during compilation)
# with the '--enable-icmp' option.
#
#Default:
# pinger_program /usr/squid/libexec/squid/

# TAG: redirect_program
# Specify the location of the executable for the URL redirector.
# Since they can perform almost any function there isn't one included.
# See the Release-Notes for information on how to write one.
# By default, a redirector is not used.
#
#Default:
redirect_program /usr/bin/squidGuard
# URL-Filtering with SquidGuard. GJ

# TAG: redirect_children
# The number of redirector processes to spawn. If you start
# too few Squid will have to wait for them to process a backlog of
# URLs, slowing it down. If you start too many they will use RAM
# and other system resources.
#
#Default:
redirect_children 5

# TAG: redirect_rewrites_host_header
# By default Squid rewrites any Host: header in redirected
# requests. If you are running a accelerator then this may
# not be a wanted effect of a redirector.
#
#Default:
# redirect_rewrites_host_header on

# TAG: redirector_access
# If defined, this access list specifies which requests are
# sent to the redirector processes. By default all requests
# are sent.
#
#Default:
# none

# TAG: authenticate_program
# Specify the command for the external authenticator. Such a
# program reads a line containing "username password" and replies
# "OK" or "ERR" in an endless loop. If you use an authenticator,
# make sure you have 1 acl of type proxy_auth. By default, the
# authenticator_program is not used.
#
# If you want to use the traditional proxy authentication,
# jump over to the ../auth_modules/NCSA directory and
# type:
# % make
# % make install
#
# Then, set this line to something like
#
# authenticate_program /usr/squid/bin/ncsa_auth /usr/squid/etc/passwd
#
#Default:
# none

# TAG: authenticate_children
# The number of authenticator processes to spawn (default 5). If you
# start too few Squid will have to wait for them to process a backlog
# of usercode/password verifications, slowing it down. When password
# verifications are done via a (slow) network you are likely to need
# lots of authenticator processes.
#
#Default:
# authenticate_children 5

# TAG: authenticate_ttl
# The time a checked username/password combination remains cached.
# If a wrong password is given for a cached user, the user gets
# removed from the username/password cache forcing a revalidation.
#
#Default:
# authenticate_ttl 1 hour

# TAG: authenticate_ip_ttl
# With this option you control how long a proxy authentication
# will be bound to a specific IP address. If a request using
# the same user name is received during this time then access
# will be denied and both users are required to reauthenticate
# them selves. The idea behind this is to make it annoying
# for people to share their password to their friends, but
# yet allow a dialup user to reconnect on a different dialup
# port.
#
# The default is 0 to disable the check. Recommended value
# if you have dialup users are no more than 60 seconds to allow
# the user to redial without hassle. If all your users are
# stationary then higher values may be used.
#
# See also authenticate_ip_ttl_is_strict
#
#Default:
# authenticate_ip_ttl 0 seconds

# TAG: authenticate_ip_ttl_is_strict
# This option makes authenticate_ip_ttl a bit stricted. With this
# enabled authenticate_ip_ttl will deny all access from other IP
# addresses until the TTL has expired, and the IP address "owning"
# the userid will not be forced to reauthenticate.
#
#Default:
# authenticate_ip_ttl_is_strict on

# OPTIONS FOR TUNING THE CACHE
# -----------------------------------------------------------------------------

# TAG: wais_relay_host
# TAG: wais_relay_port
# Relay WAIS request to host (1st arg) at port (2 arg).
#
#Default:
# wais_relay_port 0

# TAG: request_header_max_size (KB)
# This specifies the maximum size for HTTP headers in a request.
# Request headers are usually relatively small (about 512 bytes).
# Placing a limit on the request header size will catch certain
# bugs (for example with persistent connections) and possibly
# buffer-overflow or denial-of-service attacks.
#
#Default:
# request_header_max_size 10 KB

# TAG: request_body_max_size (KB)
# This specifies the maximum size for an HTTP request body.
# In other words, the maximum size of a PUT/POST request.
# A user who attempts to send a request with a body larger
# than this limit receives an "Invalid Request" error message.
# If you set this parameter to a zero, there will be no limit
# imposed.
#
#Default:
# request_body_max_size 1 MB

# TAG: reply_body_max_size (KB)
# This option specifies the maximum size of a reply body. It
# can be used to prevent users from downloading very large files,
# such as MP3's and movies. The reply size is checked twice.
# First when we get the reply headers, we check the
# content-length value. If the content length value exists and
# is larger than this parameter, the request is denied and the
# user receives an error message that says "the request or reply
# is too large." If there is no content-length, and the reply
# size exceeds this limit, the client's connection is just closed
# and they will receive a partial reply.
#
# NOTE: downstream caches probably can not detect a partial reply
# if there is no content-length header, so they will cache
# partial responses and give them out as hits. You should NOT
# use this option if you have downstream caches.
#
# If you set this parameter to zero (the default), there will be
# no limit imposed.
#
#Default:
# reply_body_max_size 0

# TAG: refresh_pattern
# usage: refresh_pattern [-i] regex min percent max [options]
#
# By default, regular expressions are CASE-SENSITIVE. To make
# them case-insensitive, use the -i option.
#
# 'Min' is the time (in minutes) an object without an explicit
# expiry time should be considered fresh. The recommended
# value is 0, any higher values may cause dynamic applications
# to be erroneously cached unless the application designer
# has taken the appropriate actions.
#
# 'Percent' is a percentage of the objects age (time since last
# modification age) an object without explicit expiry time
# will be considered fresh.
#
# 'Max' is an upper limit on how long objects without an explicit
# expiry time will be considered fresh.
#
# options: overrsde-expire
# override-lastmod
# reload-into-ims
# ignore-reload
#
# override-expire enforces min age even if the server
# sent a Expires: header. Doing this VIOLATES the HTTP
# standard. Enabling this feature could make you liable
# for problems which it causes.
#
# override-lastmod enforces min age even on objects
# that was modified recently.
#
# reload-into-ims changes client no-cache or ``reload''
# to If-Modified-Since requests. Doing this VIOLATES the
# HTTP standard. Enabling this feature could make you
# liable for problems which it causes.
#
# ignore-reload ignores a client no-cache or ``reload''
# header. Doing this VIOLATES the HTTP standard. Enabling
# this feature could make you liable for problems which
# it causes.
#
# Please see the file doc/Release-Notes-1.1.txt for a full
# description of Squid's refresh algorithm. Basically a
# cached object is: (the order is changed from 1.1.X)
#
# FRESH if expires < now, else STALE
# STALE if age > max
# FRESH if lm-factor < percent, else STALE
# FRESH if age < min
# else STALE
#
# The refresh_pattern lines are checked in the order listed here.
# The first entry which matches is used. If none of the entries
# match, then the default will be used.
#
# Note, you must uncomment all the default lines if you want
# to change one. The default setting is only active if none is
# used.
#
#Default:
# refresh_pattern ^ftp: 1440 20% 10080
# refresh_pattern ^gopher: 1440 0% 1440
# refresh_pattern . 0 20% 4320

# TAG: reference_age
# As a part of normal operation, Squid performs Least Recently
# Used removal of cached objects. The LRU age for removal is
# computed dynamically, based on the amount of disk space in
# use. The dynamic value can be seen in the Cache Manager 'info'
# output.
#
# The 'reference_age' parameter defines the maximum LRU age. For
# example, setting reference_age to '1 week' will cause objects
# to be removed if they have not been accessed for a week or
# more. The default value is one year.
#
# Specify a number here, followed by units of time. For example:
# 1 week
# 3.5 days
# 4 months
# 2.2 hours
#
# NOTE: this parameter is not used when using the enhanced
# replacement policies, GDSH or LFUDA.
#
#Default:
# reference_age 1 year

# TAG: quick_abort_min (KB)
# TAG: quick_abort_max (KB)
# TAG: quick_abort_pct (percent)
# The cache can be configured to continue downloading aborted
# requests. This may be undesirable on slow (e.g. SLIP) links
# and/or very busy caches. Impatient users may tie up file
# descriptors and bandwidth by repeatedly requesting and
# immediately aborting downloads.
#
# When the user aborts a request, Squid will check the
# quick_abort values to the amount of data transfered until
# then.
#
# If the transfer has less than 'quick_abort_min' KB remaining,
# it will finish the retrieval. Setting 'quick_abort_min' to -1
# will disable the quick_abort feature.
#
# If the transfer has more than 'quick_abort_max' KB remaining,
# it will abort the retrieval.
#
# If more than 'quick_abort_pct' of the transfer has completed,
# it will finish the retrieval.
#
#Default:
# quick_abort_min 16 KB
# quick_abort_max 16 KB
quick_abort_pct 75
# testconfiguration !! GJ

# TAG: negative_ttl time-units
# Time-to-Live (TTL) for failed requests. Certain types of
# failures (such as "connection refused" and "404 Not Found") are
# negatively-cached for a configurable amount of time. The
# default is 5 minutes. Note that this is different from
# negative caching of DNS lookups.
#
#Default:
# negative_ttl 5 minutes

# TAG: positive_dns_ttl time-units
# Time-to-Live (TTL) for positive caching of successful DNS lookups.
# Default is 6 hours (360 minutes). If you want to minimize the
# use of Squid's ipcache, set this to 1, not 0.
#
#Default:
# positive_dns_ttl 6 hours

# TAG: negative_dns_ttl time-units
# Time-to-Live (TTL) for negative caching of failed DNS lookups.
#
#Default:
# negative_dns_ttl 5 minutes

# TAG: range_offset_limit (bytes)
# Sets a upper limit on how far into the the file a Range request
# may be to cause Squid to prefetch the whole file. If beyond this
# limit then Squid forwards the Range request as it is and the result
# is NOT cached.
#
# This is to stop a far ahead range request (lets say start at 17MB)
# from making Squid fetch the whole object up to that point before
# sending anything to the client.
#
# A value of -1 causes Squid to always fetch the object from the
# beginning so that it may cache the result. (2.0 style)
#
# A value of 0 causes Squid to never fetch more than the
# client requested. (default)
#
#Default:
# range_offset_limit 0 KB

# TIMEOUTS
# -----------------------------------------------------------------------------

# TAG: connect_timeout time-units
# Some systems (notably Linux) can not be relied upon to properly
# time out connect(2) requests. Therefore the Squid process
# enforces its own timeout on server connections. This parameter
# specifies how long to wait for the connect to complete. The
# default is two minutes (120 seconds).
#
#Default:
# connect_timeout 2 minutes

# TAG: peer_connect_timeout time-units
# This parameter specifies how long to wait for a pending TCP
# connection to a peer cache. The default is 30 seconds. You
# may also set different timeout values for individual neighbors
# with the 'connect-timeout' option on a 'cache_peer' line.
#
#Default:
# peer_connect_timeout 30 seconds

# TAG: siteselect_timeout time-units
# For URN to multiple URL's URL selection
#
#Default:
# siteselect_timeout 4 seconds

# TAG: read_timeout time-units
# The read_timeout is applied on server-side connections. After
# each successful read(), the timeout will be extended by this
# amount. If no data is read again after this amount of time,
# the request is aborted and logged with ERR_READ_TIMEOUT. The
# default is 15 minutes.
#
#Default:
read_timeout 15 minutes

# TAG: request_timeout
# How long to wait for an HTTP request after connection
# establishment. For persistent connections, wait this long
# after the previous request completes.
#
#Default:
request_timeout 5 minutes

# TAG: client_lifetime time-units
# The maximum amount of time that a client (browser) is allowed to
# remain connected to the cache process. This protects the Cache
# from having a lot of sockets (and hence file descriptors) tied up
# in a CLOSE_WAIT state from remote clients that go away without
# properly shutting down (either because of a network failure or
# because of a poor client implementation). The default is one
# day, 1440 minutes.
#
# NOTE: The default value is intended to be much larger than any
# client would ever need to be connected to your cache. You
# should probably change client_lifetime only as a last resort.
# If you seem to have many client connections tying up
# filedescriptors, we recommend first tuning the read_timeout,
# request_timeout, pconn_timeout and quick_abort values.
#
#Default:
# client_lifetime 1 day

# TAG: half_closed_clients
# Some clients may shutdown the sending side of their TCP
# connections, while leaving their receiving sides open. Sometimes,
# Squid can not tell the difference between a half-closed and a
# fully-closed TCP connection. By default, half-closed client
# connections are kept open until a read(2) or write(2) on the
# socket returns an error. Change this option to 'off' and Squid
# will immediately close client connections when read(2) returns
# "no more data to read."
#
#Default:
# half_closed_clients on

# TAG: pconn_timeout
# Timeout for idle persistent connections to servers and other
# proxies.
#
#Default:
# pconn_timeout 120 seconds

# TAG: ident_timeout
# Maximum time to wait for IDENT requests. If this is too high,
# and you enabled 'ident_lookup', then you might be susceptible
# to denial-of-service by having many ident requests going at
# once.
#
# Only src type ACL checks are fully supported. A src_domain
# ACL might work at times, but it will not always provide
# the correct result.
#
# This option may be disabled by using --disable-ident with
# the configure script.
#
#Default:
# ident_timeout 10 seconds

# TAG: shutdown_lifetime time-units
# When SIGTERM or SIGHUP is received, the cache is put into
# "shutdown pending" mode until all active sockets are closed.
# This value is the lifetime to set for all open descriptors
# during shutdown mode. Any active clients after this many
# seconds will receive a 'timeout' message.
#
#Default:
# shutdown_lifetime 30 seconds

# ACCESS CONTROLS
# -----------------------------------------------------------------------------

# TAG: acl
# Defining an Access List
#
# acl aclname acltype string1 ...
# acl aclname acltype "file" ...
#
# when using "file", the file should contain one item per line
#
# acltype is one of src dst srcdomain dstdomain url_pattern
# urlpath_pattern time port proto method browser user
#
# By default, regular expressions are CASE-SENSITIVE. To make
# them case-insensitive, use the -i option.
#
# acl aclname src ip-address/netmask ... (clients IP address)
# acl aclname src addr1-addr2/netmask ... (range of addresses)
# acl aclname dst ip-address/netmask ... (URL host's IP address)
# acl aclname myip ip-address/netmask ... (local socket IP address)
#
# acl aclname srcdomain .foo.com ... # reverse lookup, client IP
# acl aclname dstdomain .foo.com ... # Destination server from URL
# acl aclname srcdom_regex [-i] xxx ... # regex matching client name
# acl aclname dstdom_regex [-i] xxx ... # regex matching server
# # For dstdomain and dstdom_regex a reverse lookup is tried if a IP
# # based URL is used. The name "none" is used if the reverse lookup
# # fails.
#
# acl aclname time [day-abbrevs] [h1:m1-h2:m2]
# day-abbrevs:
# S - Sunday
# M - Monday
# T - Tuesday
# W - Wednesday
# H - Thursday
# F - Friday
# A - Saturday
# h1:m1 must be less than h2:m2
# acl aclname url_regex [-i] ^http:// ... # regex matching on whole URL
# acl aclname urlpath_regex [-i] \.gif$ ... # regex matching on URL path
# acl aclname port 80 70 21 ...
# acl aclname port 0-1024 ... # ranges allowed
# acl aclname myport 3128 ... # (local socket TCP port)
# acl aclname proto HTTP FTP ...
# acl aclname method GET POST ...
# acl aclname browser [-i] regexp
# # pattern match on User-Agent header
# acl aclname ident username ...
# acl aclname ident_regex [-i] pattern ...
# # string match on ident output.
# # use REQUIRED to accept any non-null ident.
# acl aclname src_as number ...
# acl aclname dst_as number ...
# # Except for access control, AS numbers can be used for
# # routing of requests to specific caches. Here's an
# # example for routing all requests for AS#1241 and only
# # those to mycache.mydomain.net:
# # acl asexample dst_as 1241
# # cache_peer_access mycache.mydomain.net allow asexample
# # cache_peer_access mycache_mydomain.net deny all
#
# acl aclname proxy_auth username ...
# acl aclname proxy_auth_regex [-i] pattern ...
# # list of valid usernames
# # use REQUIRED to accept any valid username.
# #
# # NOTE: when a Proxy-Authentication header is sent but it is not
# # needed during ACL checking the username is NOT logged
# # in access.log.
# #
# # NOTE: proxy_auth requires a EXTERNAL authentication program
# # to check username/password combinations (see
# # authenticate_program).
# #
# # WARNING: proxy_auth can't be used in a transparent proxy. It
# # collides with any authentication done by origin servers. It may
# # seem like it works at first, but it doesn't.
#
# acl aclname snmp_community string ...
# # A community string to limit access to your SNMP Agent
# # Example:
# #
# # acl snmppublic snmp_community public
#
# acl aclname maxconn number
# # This will be matched when the client's IP address has
# # more than <number> HTTP connections established.
#
# acl req_mime_type mime-type1 ...
# # regex match agains the mime type of the request generated
# # by the client. Can be used to detect file upload or some
# # types HTTP tunelling requests.
# # NOTE: This does NOT match the reply. You cannot use this
# # to match the returned file type.
#
#Examples:
#acl myexample dst_as 1241
#acl password proxy_auth REQUIRED
#acl fileupload req_mime_type -i ^multipart/form-data$
#
#Recommended minimum configuration:
acl all src 0.0.0.0/0.0.0.0
acl manager proto cache_object
acl localhost src 127.0.0.1/255.255.255.255
acl SSL_ports port 443 563
acl Safe_ports port 80 # http
acl Safe_ports port 21 # ftp
acl Safe_ports port 443 563 # https, snews
acl Safe_ports port 70 # gopher
acl Safe_ports port 210 # wais
acl Safe_ports port 1025-65535 # unregistered ports
acl Safe_ports port 280 # http-mgmt
acl Safe_ports port 488 # gss-http
acl Safe_ports port 591 # filemaker
acl Safe_ports port 777 # multiling http
acl CONNECT method CONNECT

# TAG: http_access
# Allowing or Denying access based on defined access lists
#
# Access to the HTTP port:
# http_access allow|deny [!]aclname ...
#
# NOTE on default values:
#
# If there are no "access" lines present, the default is to deny
# the request.
#
# If none of the "access" lines cause a match, the default is the
# opposite of the last line in the list. If the last line was
# deny, then the default is allow. Conversely, if the last line
# is allow, the default will be deny. For these reasons, it is a
# good idea to have an "deny all" or "allow all" entry at the end
# of your access lists to avoid potential confusion.
#
#Default:
#http_access allow all
#
#Recommended minimum configuration:
#
# Only allow cachemgr access from localhost
#http_access allow manager localhost
#http_access deny manager
# Deny requests to unknown ports
#http_access deny !Safe_ports
# Deny CONNECT to other than SSL ports
#http_access deny CONNECT !SSL_ports
#
# INSERT YOUR OWN RULE(S) HERE TO ALLOW ACCESS FROM YOUR CLIENTS
#
# And finally deny all other access to this proxy
http_access allow all

# TAG: icp_access
# Allowing or Denying access to the ICP port based on defined
# access lists
#
# icp_access allow|deny [!]aclname ...
#
# See http_access for details
#
#Default:
# icp_access deny all
#
#Allow ICP queries from eveyone
icp_access allow all

# TAG: miss_access
# Use to force your neighbors to use you as a sibling instead of
# a parent. For example:
#
# acl localclients src 172.16.0.0/16
# miss_access allow localclients
# miss_access deny !localclients
#
# This means that only your local clients are allowed to fetch
# MISSES and all other clients can only fetch HITS.
#
# By default, allow all clients who passed the http_access rules
# to fetch MISSES from us.
#
#Default setting:
# miss_access allow all

# TAG: cache_peer_access
# Similar to 'cache_peer_domain' but provides more flexibility by
# using ACL elements.
#
# cache_peer_access cache-host allow|deny [!]aclname ...
#
# The syntax is identical to 'http_access' and the other lists of
# ACL elements. See the comments for 'http_access' below, or
# the Squid FAQ (http://www.squid-cache.org/FAQ/FAQ-10.html).
#
#Default:
# none

# TAG: proxy_auth_realm
# Specifies the realm name which is to be reported to the client for
# proxy authentication (part of the text the user will see when
# prompted their username and password).
#
#Default:
# proxy_auth_realm Squid proxy-caching web server

# TAG: ident_lookup_access
# A list of ACL elements which, if matched, cause an ident
# (RFC 931) lookup to be performed for this request. For
# example, you might choose to always perform ident lookups
# for your main multi-user Unix boxes, but not for your Macs
# and PCs. By default, ident lookups are not performed for
# any requests.
#
# To enable ident lookups for specific client addresses, you
# can follow this example:
#
# acl ident_aware_hosts src 198.168.1.0/255.255.255.0
# ident_lookup_access allow ident_aware_hosts
# ident_lookup_access deny all
#
# This option may be disabled by using --disable-ident with
# the configure script.
#
#Default:
# ident_lookup_access deny all

# ADMINISTRATIVE PARAMETERS
# -----------------------------------------------------------------------------

# TAG: cache_mgr
# Email-address of local cache manager who will receive
# mail if the cache dies. The default is "webmaster."
#
#Default:
# cache_mgr webmaster

# TAG: cache_effective_user
# TAG: cache_effective_group
#
# If the cache is run as root, it will change its effective/real
# UID/GID to the UID/GID specified below. The default is to
# change to UID to nobody and GID to nogroup.
#
# If Squid is not started as root, the default is to keep the
# current UID/GID. Note that if Squid is not started as root then
# you cannot set http_port to a value lower than 1024.
#
#Default:
cache_effective_user nobody
cache_effective_group nogroup

# TAG: visible_hostname
# If you want to present a special hostname in error messages, etc,
# then define this. Otherwise, the return value of gethostname()
# will be used. If you have multiple caches in a cluster and
# get errors about IP-forwarding you must set them to have individual
# names with this setting.
#
#Default:
# none

# TAG: unique_hostname
# If you want to have multiple machines with the same
# 'visible_hostname' then you must give each machine a different
# 'unique_hostname' so that forwarding loops can be detected.
#
#Default:
# none

# TAG: hostname_aliases
# A list of other DNS names that your cache has.
#
#Default:
# none

# OPTIONS FOR THE CACHE REGISTRATION SERVICE
# -----------------------------------------------------------------------------
#
# This section contains parameters for the (optional) cache
# announcement service. This service is provided to help
# cache administrators locate one another in order to join or
# create cache hierarchies.
#
# An 'announcement' message is sent (via UDP) to the registration
# service by Squid. By default, the announcement message is NOT
# SENT unless you enable it with 'announce_period' below.
#
# The announcement message includes your hostname, plus the
# following information from this configuration file:
#
# http_port
# icp_port
# cache_mgr
#
# All current information is processed regularly and made
# available on the Web at http://www.ircache.net/Cache/Tracker/.

# TAG: announce_period
# This is how frequently to send cache announcements. The
# default is `0' which disables sending the announcement
# messages.
#
# To enable announcing your cache, just uncomment the line
# below.
#
#Default:
# announce_period 0
#
#To enable announcing your cache, just uncomment the line below.
#announce_period 1 day

# TAG: announce_host
# TAG: announce_file
# TAG: announce_port
# announce_host and announce_port set the hostname and port
# number where the registration message will be sent.
#
# Hostname will default to 'tracker.ircache.net' and port will
# default default to 3131. If the 'filename' argument is given,
# the contents of that file will be included in the announce
# message.
#
#Default:
# announce_host tracker.ircache.net
# announce_port 3131

# HTTPD-ACCELERATOR OPTIONS
# -----------------------------------------------------------------------------

# TAG: httpd_accel_host
# TAG: httpd_accel_port
# If you want to run Squid as an httpd accelerator, define the
# host name and port number where the real HTTP server is.
#
# If you want virtual host support then specify the hostname
# as "virtual".
#
# If you want virtual port support then specify the port as "0".
#
# NOTE: enabling httpd_accel_host disables proxy-caching and
# ICP. If you want these features enabled also, then set
# the 'httpd_accel_with_proxy' option.
#
#Default:
httpd_accel_host virtual
httpd_accel_port 80

# TAG: httpd_accel_single_host on|off
# If you are running Squid as a accelerator and have a single backend
# server then set this to on. This causes Squid to forward the request
# to this server irregardles of what any redirectors or Host headers
# says.
#
# Leave this at off if you have multiple backend servers, and use a
# redirector (or host table or private DNS) to map the requests to the
# appropriate backend servers. Note that the mapping needs to be a
# 1-1 mapping between requested and backend (from redirector) domain
# names or caching will fail, as cacing is performed using the
# URL returned from the redirector.
#
# See also redirect_rewrites_host_header.
#
#Default:
httpd_accel_single_host off

# TAG: httpd_accel_with_proxy on|off
# If you want to use Squid as both a local httpd accelerator
# and as a proxy, change this to 'on'. Note however that your
# proxy users may have trouble to reach the accelerated domains
# unless their browsers are configured not to use this proxy for
# those domains (for example via the no_proxy browser configuration
# setting)
#
#Default:
httpd_accel_with_proxy on

# TAG: httpd_accel_uses_host_header on|off
# HTTP/1.1 requests include a Host: header which is basically the
# hostname from the URL. Squid can be an accelerator for
# different HTTP servers by looking at this header. However,
# Squid does NOT check the value of the Host header, so it opens
# a big security hole. We recommend that this option remain
# disabled unless you are sure of what you are doing.
#
# However, you will need to enable this option if you run Squid
# as a transparent proxy. Otherwise, virtual servers which
# require the Host: header will not be properly cached.
#
#Default:
httpd_accel_uses_host_header on

# MISCELLANEOUS
# -----------------------------------------------------------------------------

# TAG: dns_testnames
# The DNS tests exit as soon as the first site is successfully looked up
#
# This test can be disabled with the -D command line option.
#
#Default:
# dns_testnames netscape.com internic.net nlanr.net microsoft.com

# TAG: logfile_rotate
# Specifies the number of logfile rotations to make when you
# type 'squid -k rotate'. The default is 10, which will rotate
# with extensions 0 through 9. Setting logfile_rotate to 0 will
# disable the rotation, but the logfiles are still closed and
# re-opened. This will enable you to rename the logfiles
# yourself just before sending the rotate signal.
#
# Note, the 'squid -k rotate' command normally sends a USR1
# signal to the running squid process. In certain situations
# (e.g. on Linux with Async I/O), USR1 is used for other
# purposes, so -k rotate uses another signal. It is best to get
# in the habit of using 'squid -k rotate' instead of 'kill -USR1
# <pid>'.
#
#Default:
# logfile_rotate 10

# TAG: append_domain
# Appends local domain name to hostnames without any dots in
# them. append_domain must begin with a period.
#
#Example:
# append_domain .yourdomain.com
#
#Default:
# none

# TAG: tcp_recv_bufsize (bytes)
# Size of receive buffer to set for TCP sockets. Probably just
# as easy to change your kernel's default. Set to zero to use
# the default buffer size.
#
#Default:
# tcp_recv_bufsize 0 bytes

# TAG: err_html_text
# HTML text to include in error messages. Make this a "mailto"
# URL to your admin address, or maybe just a link to your
# organizations Web page.
#
# To include this in your error messages, you must rewrite
# the error template files (found in the "errors" directory).
# Wherever you want the 'err_html_text' line to appear,
# insert a %L tag in the error template file.
#
#Default:
# none

# TAG: deny_info
# Usage: deny_info err_page_name acl
# Example: deny_info ERR_CUSTOM_ACCESS_DENIED bad_guys
#
# This can be used to return a ERR_ page for requests which
# do not pass the 'http_access' rules. A single ACL will cause
# the http_access check to fail. If a 'deny_info' line exists
# for that ACL then Squid returns a corresponding error page.
#
# You may use ERR_ pages that come with Squid or create your own pages
# and put them into the configured errors/ directory.
#
#Default:
# none

# TAG: memory_pools on|off
# If set, Squid will keep pools of allocated (but unused) memory
# available for future use. If memory is a premium on your
# system and you believe your malloc library outperforms Squid
# routines, disable this.
#
#Default:
# memory_pools on

# TAG: memory_pools_limit (bytes)
# Used only with memory_pools on:
# memory_pools_limit 50 MB
#
# If set to a non-zero value, Squid will keep at most the specified
# limit of allocated (but unused) memory in memory pools. All free()
# requests that exceed this limit will be handled by your malloc
# library. Squid does not pre-allocate any memory, just safe-keeps
# objects that otherwise would be free()d. Thus, it is safe to set
# memory_pools_limit to a reasonably high value even if your
# configuration will use less memory.
#
# If not set (default) or set to zero, Squid will keep all memory it
# can. That is, there will be no limit on the total amount of memory
# used for safe-keeping.
#
# To disable memory allocation optimization, do not set
# memory_pools_limit to 0. Set memory_pools to "off" instead.
#
# An overhead for maintaining memory pools is not taken into account
# when the limit is checked. This overhead is close to four bytes per
# object kept. However, pools may actually _save_ memory because of
# reduced memory thrashing in your malloc library.
#
#Default:
# none

# TAG: forwarded_for on|off
# If set, Squid will include your system's IP address or name
# in the HTTP requests it forwards. By default it looks like
# this:
#
# X-Forwarded-For: 192.1.2.3
#
# If you disable this, it will appear as
#
# X-Forwarded-For: unknown
#
#Default:
# forwarded_for on

# TAG: log_icp_queries on|off
# If set, ICP queries are logged to access.log. You may wish
# do disable this if your ICP load is VERY high to speed things
# up or to simplify log analysis.
#
#Default:
# log_icp_queries on

# TAG: icp_hit_stale on|off
# If you want to return ICP_HIT for stale cache objects, set this
# option to 'on'. If you have sibling relationships with caches
# in other administrative domains, this should be 'off'. If you only
# have sibling relationships with caches under your control, then
# it is probably okay to set this to 'on'.
#
#Default:
# icp_hit_stale off

# TAG: minimum_direct_hops
# If using the ICMP pinging stuff, do direct fetches for sites
# which are no more than this many hops away.
#
#Default:
# minimum_direct_hops 4

# TAG: minimum_direct_rtt
# If using the ICMP pinging stuff, do direct fetches for sites
# which are no more than this many rtt milliseconds away.
#
#Default:
# minimum_direct_rtt 400

# TAG: cachemgr_passwd
# Specify passwords for cachemgr operations.
#
# Usage: cachemgr_passwd password action action ...
#
# Some valid actions are (see cache manager menu for a full list):
# 5min
# 60min
# asndb
# authenticator
# cbdata
# client_list
# comm_incoming
# config *
# counters
# delay
# digest_stats
# dns
# events
# filedescriptors
# fqdncache
# histograms
# http_headers
# info
# io
# ipcache
# mem
# menu
# netdb
# non_peers
# objects
# pconn
# peer_select
# redirector
# refresh
# server_list
# shutdown *
# store_digest
# storedir
# utilization
# via_headers
# vm_objects
#
# * Indicates actions which will not be performed without a
# valid password, others can be performed if not listed here.
#
# To disable an action, set the password to "disable".
# To allow performing an action without a password, set the
# password to "none".
#
# Use the keyword "all" to set the same password for all actions.
#
#Example:
# cachemgr_passwd secret shutdown
# cachemgr_passwd lesssssssecret info stats/objects
# cachemgr_passwd disable all
#
#Default:
# none

# TAG: store_avg_object_size (kbytes)
# Average object size, used to estimate number of objects your
# cache can hold. See doc/Release-Notes-1.1.txt. The default is
# 13 KB.
#
#Default:
# store_avg_object_size 13 KB

# TAG: store_objects_per_bucket
# Target number of objects per bucket in the store hash table.
# Lowering this value increases the total number of buckets and
# also the storage maintenance rate. The default is 50.
#
#Default:
# store_objects_per_bucket 20

# TAG: client_db on|off
# If you want to disable collecting per-client statistics, then
# turn off client_db here.
#
#Default:
# client_db on

# TAG: netdb_low
# TAG: netdb_high
# The low and high water marks for the ICMP measurement
# database. These are counts, not percents. The defaults are
# 900 and 1000. When the high water mark is reached, database
# entries will be deleted until the low mark is reached.
#
#Default:
# netdb_low 900
# netdb_high 1000

# TAG: netdb_ping_period
# The minimum period for measuring a site. There will be at
# least this much delay between successive pings to the same
# network. The default is five minutes.
#
#Default:
# netdb_ping_period 5 minutes

# TAG: query_icmp on|off
# If you want to ask your peers to include ICMP data in their ICP
# replies, enable this option.
#
# If your peer has configured Squid (during compilation) with
# '--enable-icmp' then that peer will send ICMP pings to origin server
# sites of the URLs it receives. If you enable this option then the
# ICP replies from that peer will include the ICMP data (if available).
# Then, when choosing a parent cache, Squid will choose the parent with
# the minimal RTT to the origin server. When this happens, the
# hierarchy field of the access.log will be
# "CLOSEST_PARENT_MISS". This option is off by default.
#
#Default:
# query_icmp off

# TAG: test_reachability on|off
# When this is 'on', ICP MISS replies will be ICP_MISS_NOFETCH
# instead of ICP_MISS if the target host is NOT in the ICMP
# database, or has a zero RTT.
#
#Default:
# test_reachability off

# TAG: buffered_logs on|off
# Some log files (cache.log, useragent.log) are written with
# stdio functions, and as such they can be buffered or
# unbuffered. By default they will be unbuffered. Buffering them
# can speed up the writing slightly (though you are unlikely to
# need to worry).
#
#Default:
# buffered_logs off

# TAG: reload_into_ims on|off
# When you enable this option, client no-cache or ``reload''
# requests will be changed to If-Modified-Since requests.
# Doing this VIOLATES the HTTP standard. Enabling this
# feature could make you liable for problems which it
# causes.
#
# see also refresh_pattern for a more selective approach.
#
# This option may be disabled by using --disable-http-violations
# with the configure script.
#
#Default:
# reload_into_ims off

# TAG: always_direct
# Usage: always_direct allow|deny [!]aclname ...
#
# Here you can use ACL elements to specify requests which should
# ALWAYS be forwarded directly to origin servers. For example,
# to always directly forward requests for local servers use
# something like:
#
# acl local-servers dstdomain my.domain.net
# always_direct allow local-servers
#
# To always forward FTP requests directly, use
#
# acl FTP proto FTP
# always_direct allow FTP
#
# NOTE: There is a similar, but opposite option named
# 'never_direct'. You need to be aware that "always_direct deny
# foo" is NOT the same thing as "never_direct allow foo". You
# may need to use a deny rule to exclude a more-specific case of
# some other rule. Example:
#
# acl local-external dstdomain external.foo.net
# acl local-servers dstdomain foo.net
# always_direct deny local-external
# always_direct allow local-servers
#
# This option replaces some v1.1 options such as local_domain
# and local_ip.
#
#Default:
# none

# TAG: never_direct
# Usage: never_direct allow|deny [!]aclname ...
#
# never_direct is the opposite of always_direct. Please read
# the description for always_direct if you have not already.
#
# With 'never_direct' you can use ACL elements to specify
# requests which should NEVER be forwarded directly to origin
# servers. For example, to force the use of a proxy for all
# requests, except those in your local domain use something like:
#
# acl local-servers dstdomain foo.net
# acl all src 0.0.0.0/0.0.0.0
# never_direct deny local-servers
# never_direct allow all
#
# or if squid is inside a firewall and there is local intranet
# servers inside the firewall then use something like:
#
# acl local-intranet dstdomain foo.net
# acl local-external dstdomain external.foo.net
# always_direct deny local-external
# always_direct allow local-intranet
# never_direct allow all
#
# This option replaces some v1.1 options such as inside_firewall
# and firewall_ip.
#
#Default:
# none

# TAG: anonymize_headers
# Usage: anonymize_headers allow|deny header_name ...
#
# This option replaces the old 'http_anonymizer' option with
# something that is much more configurable. You may now
# specify exactly which headers are to be allowed, or which
# are to be removed from outgoing requests.
#
# There are two methods of using this option. You may either
# allow specific headers (thus denying all others), or you
# may deny specific headers (thus allowing all others).
#
# For example, to achieve the same behavior as the old
# 'http_anonymizer standard' option, you should use:
#
# anonymize_headers deny From Referer Server
# anonymize_headers deny User-Agent WWW-Authenticate Link
#
# Or, to reproduce the old 'http_anonymizer paranoid' feature
# you should use:
#
# anonymize_headers allow Allow Authorization Cache-Control
# anonymize_headers allow Content-Encoding Content-Length
# anonymize_headers allow Content-Type Date Expires Host
# anonymize_headers allow If-Modified-Since Last-Modified
# anonymize_headers allow Location Pragma Accept
# anonymize_headers allow Accept-Encoding Accept-Language
# anonymize_headers allow Content-Language Mime-Version
# anonymize_headers allow Retry-After Title Connection
# anonymize_headers allow Proxy-Connection
#
# NOTE: You can not mix "allow" and "deny". All 'anonymize_headers'
# lines must have the same second argument.
#
# By default, all headers are allowed (no anonymizing is
# performed).
#
#Default:
# none

# TAG: fake_user_agent
# If you filter the User-Agent header with 'anonymize_headers' it
# may cause some Web servers to refuse your request. Use this to
# fake one up. For example:
#
# fake_user_agent Nutscrape/1.0 (CP/M; 8-bit)
# (credit to Paul Southworth pauls@etext.org for this one!)
#
#Default:
# none

# TAG: icon_directory
# Where the icons are stored. These are normally kept in
# /usr/squid/etc/icons
#
#Default:
# icon_directory /usr/squid/etc/icons

# TAG: error_directory
# If you wish to create your own versions of the default
# (English) error files, either to customize them to suit your
# language or company copy the template English files to another
# directory and point this tag at them.
#
#Default:
# error_directory /usr/squid/etc/errors

# TAG: minimum_retry_timeout (seconds)
# This specifies the minimum connect timeout, for when the
# connect timeout is reduced to compensate for the availability
# of multiple IP addresses.
#
# When a connection to a host is initiated, and that host has
# several IP addresses, the default connection timeout is reduced
# by dividing it by the number of addresses. So, a site with 15
# addresses would then have a timeout of 8 seconds for each
# address attempted. To avoid having the timeout reduced to the
# point where even a working host would not have a chance to
# respond, this setting is provided. The default, and the
# minimum value, is five seconds, and the maximum value is sixty
# seconds, or half of connect_timeout, whichever is greater and
# less than connect_timeout.
#
#Default:
# minimum_retry_timeout 5 seconds

# TAG: maximum_single_addr_tries
# This sets the maximum number of connection attempts for a
# host that only has one address (for multiple-address hosts,
# each address is tried once).
#
# The default value is three tries, the (not recommended)
# maximum is 255 tries. A warning message will be generated
# if it is set to a value greater than ten.
#
#Default:
# maximum_single_addr_tries 3

# TAG: snmp_port
# Note: This option is only available if Squid is rebuilt with the
# --enable-snmp option
#
# Squid can now serve statistics and status information via SNMP.
# By default it listens to port 3401 on the machine. If you don't
# wish to use SNMP, set this to "0".
#
# NOTE: SNMP support requires use the --enable-snmp configure
# command line option.
#
#Default:
# snmp_port 3401

# TAG: snmp_access
# Note: This option is only available if Squid is rebuilt with the
# --enable-snmp option
#
# Allowing or denying access to the SNMP port.
#
# All access to the agent is denied by default.
# usage:
#
# snmp_access allow|deny [!]aclname ...
#
#Example:
# snmp_access allow snmppublic localhost
# snmp_access deny all
#
#Default:
# snmp_access deny all

# TAG: snmp_incoming_address
# Note: This option is only available if Squid is rebuilt with the
# --enable-snmp option
#
# TAG: snmp_outgoing_address
# Note: This option is only available if Squid is rebuilt with the
# --enable-snmp option
#
# Just like 'udp_incoming_address' above, but for the SNMP port.
#
# snmp_incoming_address is used for the SNMP socket receiving
# messages from SNMP agents.
# snmp_outgoing_address is used for SNMP packets returned to SNMP
# agents.
#
# The default snmp_incoming_address (0.0.0.0) is to listen on all
# available network interfaces.
#
# If snmp_outgoing_address is set to 255.255.255.255 (the default)
# then it will use the same socket as snmp_incoming_address. Only
# change this if you want to have SNMP replies sent using another
# address than where this Squid listens for SNMP queries.
#
# NOTE, snmp_incoming_address and snmp_outgoing_address can not have
# the same value since they both use port 3401.
#
#Default:
# snmp_incoming_address 0.0.0.0
# snmp_outgoing_address 255.255.255.255

# TAG: as_whois_server
# WHOIS server to query for AS numbers. NOTE: AS numbers are
# queried only when Squid starts up, not for every request.
#
#Default:
# as_whois_server whois.ra.net
# as_whois_server whois.ra.net

# TAG: wccp_router
# Use this option to define your WCCP ``home'' router for
# Squid. Setting the 'wccp_router' to 0.0.0.0 (the default)
# disables WCCP.
#
#Default:
# wccp_router 0.0.0.0

# TAG: wccp_version
# According to some users, Cisco IOS 11.2 only supports WCCP
# version 3. If you're using that version of IOS, change
# this value to 3.
#
#Default:
# wccp_version 4

# TAG: wccp_incoming_address
# TAG: wccp_outgoing_address
# wccp_incoming_address Use this option if you require WCCP
# messages to be received on only one
# interface. Do NOT use this option if
# you're unsure how many interfaces you
# have, or if you know you have only one
# interface.
#
# wccp_outgoing_address Use this option if you require WCCP
# messages to be sent out on only one
# interface. Do NOT use this option if
# you're unsure how many interfaces you
# have, or if you know you have only one
# interface.
#
# The default behavior is to not bind to any specific address.
#
# NOTE, wccp_incoming_address and wccp_outgoing_address can not have
# the same value since they both use port 2048.
#
#Default:
# wccp_incoming_address 0.0.0.0
# wccp_outgoing_address 255.255.255.255

# DELAY POOL PARAMETERS (all require DELAY_POOLS compilation option)
# -----------------------------------------------------------------------------

# TAG: delay_pools
# Note: This option is only available if Squid is rebuilt with the
# --enable-delay-pools option
#
# This represents the number of delay pools to be used. For example,
# if you have one class 2 delay pool and one class 3 delays pool, you
# have a total of 2 delay pools.
#
# To enable this option, you must use --enable-delay-pools with the
# configure script.
#
#Default:
# delay_pools 0

# TAG: delay_class
# Note: This option is only available if Squid is rebuilt with the
# --enable-delay-pools option
#
# This defines the class of each delay pool. There must be exactly one
# delay_class line for each delay pool. For example, to define two
# delay pools, one of class 2 and one of class 3, the settings above
# and here would be:
#
#Example:
# delay_pools 2 # 2 delay pools
# delay_class 1 2 # pool 1 is a class 2 pool
# delay_class 2 3 # pool 2 is a class 3 pool
#
# The delay pool classes are:
#
# class 1 Everything is limited by a single aggregate
# bucket.
#
# class 2 Everything is limited by a single aggregate
# bucket as well as an "individual" bucket chosen
# from bits 25 through 32 of the IP address.
#
# class 3 Everything is limited by a single aggregate
# bucket as well as a "network" bucket chosen
# from bits 17 through 24 of the IP address and a
# "individual" bucket chosen from bits 17 through
# 32 of the IP address.
#
# NOTE: If an IP address is a.b.c.d
# -> bits 25 through 32 are "d"
# -> bits 17 through 24 are "c"
# -> bits 17 through 32 are "c * 256 + d"
#
#Default:
# none

# TAG: delay_access
# Note: This option is only available if Squid is rebuilt with the
# --enable-delay-pools option
#
# This is used to determine which delay pool a request falls into.
# The first matched delay pool is always used, i.e., if a request falls
# into delay pool number one, no more delay are checked, otherwise the
# rest are checked in order of their delay pool number until they have
# all been checked. For example, if you want some_big_clients in delay
# pool 1 and lotsa_little_clients in delay pool 2:
#
#Example:
# delay_access 1 allow some_big_clients
# delay_access 1 deny all
# delay_access 2 allow lotsa_little_clients
# delay_access 2 deny all
#
#Default:
# none

# TAG: delay_parameters
# Note: This option is only available if Squid is rebuilt with the
# --enable-delay-pools option
#
# This defines the parameters for a delay pool. Each delay pool has
# a number of "buckets" associated with it, as explained in the
# description of delay_class. For a class 1 delay pool, the syntax is:
#
#delay_parameters pool aggregate
#
# For a class 2 delay pool:
#
#delay_parameters pool aggregate individual
#
# For a class 3 delay pool:
#
#delay_parameters pool aggregate network individual
#
# The variables here are:
#
# pool a pool number - ie, a number between 1 and the
# number specified in delay_pools as used in
# delay_class lines.
#
# aggregate the "delay parameters" for the aggregate bucket
# (class 1, 2, 3).
#
# individual the "delay parameters" for the individual
# buckets (class 2, 3).
#
# network the "delay parameters" for the network buckets
# (class 3).
#
# A pair of delay parameters is written restore/maximum, where restore is
# the number of bytes (not bits - modem and network speeds are usually
# quoted in bits) per second placed into the bucket, and maximum is the
# maximum number of bytes which can be in the bucket at any time.
#
# For example, if delay pool number 1 is a class 2 delay pool as in the
# above example, and is being used to strictly limit each host to 64kbps
# (plus overheads), with no overall limit, the line is:
#
#delay_parameters 1 -1/-1 8000/8000
#
# Note that the figure -1 is used to represent "unlimited".
#
# And, if delay pool number 2 is a class 3 delay pool as in the above
# example, and you want to limit it to a total of 256kbps (strict limit)
# with each 8-bit network permitted 64kbps (strict limit) and each
# individual host permitted 4800bps with a bucket maximum size of 64kb
# to permit a decent web page to be downloaded at a decent speed
# (if the network is not being limited due to overuse) but slow down
# large downloads more significantly:
#
#delay_parameters 2 32000/32000 8000/8000 600/64000
#
# There must be one delay_parameters line for each delay pool.
#
#Default:
# none

# TAG: delay_initial_bucket_level (percent, 0-100)
# Note: This option is only available if Squid is rebuilt with the
# --enable-delay-pools option
#
# The initial bucket percentage is used to determine how much is put
# in each bucket when squid starts, is reconfigured, or first notices
# a host accessing it (in class 2 and class 3, individual hosts and
# networks only have buckets associated with them once they have been
# "seen" by squid).
#
#Default:
# delay_initial_bucket_level 50

# TAG: incoming_icp_average
# TAG: incoming_http_average
# TAG: incoming_dns_average
# TAG: min_icp_poll_cnt
# TAG: min_dns_poll_cnt
# TAG: min_http_poll_cnt
# Heavy voodoo here. I can't even believe you are reading this.
# Are you crazy? Don't even think about adjusting these unless
# you understand the algorithms in comm_select.c first!
#
#Default:
# incoming_icp_average 6
# incoming_http_average 4
# incoming_dns_average 4
# min_icp_poll_cnt 8
# min_dns_poll_cnt 8
# min_http_poll_cnt 8

# TAG: max_open_disk_fds
# To avoid having disk as the I/O bottleneck Squid can optionally
# bypass the on-disk cache if more than this amount of disk file
# descriptors are open.
#
# A value of 0 indicates no limit.
#
#Default:
# max_open_disk_fds 0

# TAG: offline_mode
# Enable this option and Squid will never try to validate cached
# objects.
#
#Default:
# offline_mode off

# TAG: uri_whitespace
# What to do with requests that have whitespace characters in the
# URI. Options:
#
# strip: The whitespace characters are stripped out of the URL.
# This is the behavior recommended by RFC2616.
# deny: The request is denied. The user receives an "Invalid
# Request" message.
# allow: The request is allowed and the URI is not changed. The
# whitespace characters remain in the URI. Note the
# whitespace is passed to redirector processes if they
# are in use.
# encode: The request is allowed and the whitespace characters are
# encoded according to RFC1738. This could be considered
# a violation of the HTTP/1.1
# RFC because proxies are not allowed to rewrite URI's.
# chop: The request is allowed and the URI is chopped at the
# first whitespace. This might also be considered a
# violation.
#
#Default:
# uri_whitespace strip

# TAG: broken_posts
# A list of ACL elements which, if matched, causes Squid to send
# a extra CRLF pair after the body of a PUT/POST request.
#
# Some HTTP servers has broken implementations of PUT/POST,
# and rely on a extra CRLF pair sent by some WWW clients.
#
# Quote from RFC 2068 section 4.1 on this matter:
#
# Note: certain buggy HTTP/1.0 client implementations generate an
# extra CRLF's after a POST request. To restate what is explicitly
# forbidden by the BNF, an HTTP/1.1 client must not preface or follow
# a request with an extra CRLF.
#
#Example:
# acl buggy_server url_regex ^http://....
# broken_posts allow buggy_server
#
#Default:
# none

# TAG: mcast_miss_addr
# Note: This option is only available if Squid is rebuilt with the
# -DMULTICAST_MISS_STREAM option
#
# If you enable this option, every "cache miss" URL will
# be sent out on the specified multicast address.
#
# Do not enable this option unless you are are absolutely
# certain you understand what you are doing.
#
#Default:
# mcast_miss_addr 255.255.255.255

# TAG: mcast_miss_ttl
# Note: This option is only available if Squid is rebuilt with the
# -DMULTICAST_MISS_TTL option
#
# This is the time-to-live value for packets multicasted
# when multicasting off cache miss URLs is enabled. By
# default this is set to 'site scope', i.e. 16.
#
#Default:
# mcast_miss_ttl 16

# TAG: mcast_miss_port
# Note: This option is only available if Squid is rebuilt with the
# -DMULTICAST_MISS_STREAM option
#
# This is the port number to be used in conjunction with
# 'mcast_miss_addr'.
#
#Default:
# mcast_miss_port 3135

# TAG: mcast_miss_encode_key
# Note: This option is only available if Squid is rebuilt with the
# -DMULTICAST_MISS_STREAM option
#
# The URLs that are sent in the multicast miss stream are
# encrypted. This is the encryption key.
#
#Default:
# mcast_miss_encode_key XXXXXXXXXXXXXXXX

# TAG: nonhierarchical_direct
# By default, Squid will send any non-hierarchical requests
# (matching hierarchy_stoplist or not cachable request type) direct
# to origin servers.
#
# If you set this to off, then Squid will prefer to send these
# requests to parents.
#
# Note that in most configurations, by turning this off you will only
# add latency to these request without any improvement in global hit
# ratio.
#
# If you are inside an firewall then see never_direct instead of
# this directive.
#
#Default:
# nonhierarchical_direct on

# TAG: prefer_direct
# Normally Squid tries to use parents for most requests. If you by some
# reason like it to first try going direct and only use a parent if
# going direct fails then set this to off.
#
# By combining nonhierarchical_direct off and prefer_direct on you
# can set up Squid to use a parent as a backup path if going direct
# fails.
#
#Default:
# prefer_direct off

# TAG: strip_query_terms
# By default, Squid strips query terms from requested URLs before
# logging. This protects your user's privacy.
#
#Default:
# strip_query_terms on

# TAG: coredump_dir
# By default Squid leaves core files in the first cache_dir
# directory. If you set 'coredump_dir' to a directory
# that exists, Squid will chdir() to that directory at startup
# and coredump files will be left there.
#
#Default:
# none

# TAG: redirector_bypass
# When this is 'on', a request will not go through the
# redirector if all redirectors are busy. If this is 'off'
# and the redirector queue grows too large, Squid will exit
# with a FATAL error and ask you to increase the number of
# redirectors. You should only enable this if the redirectors
# are not critical to your caching system. If you use
# redirectors for access control, and you enable this option,
# then users may have access to pages that they should not
# be allowed to request.
#
#Default:
# redirector_bypass off

# TAG: ignore_unknown_nameservers
# By default Squid checks that DNS responses are received
# from the same IP addresses that they are sent to. If they
# don't match, Squid ignores the response and writes a warning
# message to cache.log. You can allow responses from unknown
# nameservers by setting this option to 'off'.
#
#Default:
# ignore_unknown_nameservers on

# TAG: digest_generation
# Note: This option is only available if Squid is rebuilt with the
# --enable-cache-digests option
#
# This controls whether the server will generate a Cache Digest
# of its contents. By default, Cache Digest generation is
# enabled if Squid is compiled with USE_CACHE_DIGESTS defined.
#
#Default:
# digest_generation on

# TAG: digest_bits_per_entry
# Note: This option is only available if Squid is rebuilt with the
# --enable-cache-digests option
#
# This is the number of bits of the server's Cache Digest which
# will be associated with the Digest entry for a given HTTP
# Method and URL (public key) combination. The default is 5.
#
#Default:
# digest_bits_per_entry 5

# TAG: digest_rebuild_period (seconds)
# Note: This option is only available if Squid is rebuilt with the
# --enable-cache-digests option
#
# This is the number of seconds between Cache Digest rebuilds.
#
#Default:
# digest_rebuild_period 1 hour

# TAG: digest_rewrite_period (seconds)
# Note: This option is only available if Squid is rebuilt with the
# --enable-cache-digests option
#
# This is the number of seconds between Cache Digest writes to
# disk.
#
#Default:
# digest_rewrite_period 1 hour

# TAG: digest_swapout_chunk_size (bytes)
# Note: This option is only available if Squid is rebuilt with the
# --enable-cache-digests option
#
# This is the number of bytes of the Cache Digest to write to
# disk at a time. It defaults to 4096 bytes (4KB), the Squid
# default swap page.
#
#Default:
# digest_swapout_chunk_size 4096 bytes

# TAG: digest_rebuild_chunk_percentage (percent, 0-100)
# Note: This option is only available if Squid is rebuilt with the
# --enable-cache-digests option
#
# This is the percentage of the Cache Digest to be scanned at a
# time. By default it is set to 10% of the Cache Digest.
#
#Default:
# digest_rebuild_chunk_percentage 10

# TAG: chroot
# Use this to have Squid do a chroot() while initializing. This
# also causes Squid to fully drop root privileges after
# initializing. This means, for example, that if you use a HTTP
# port less than 1024 and try to reconfigure, you will get an
# error.
#
#Default:
# none

# TAG: client_persistent_connections
# TAG: server_persistent_connections
# Persistent connection support for clients and servers. By
# default, Squid uses persistent connections (when allowed)
# with its clients and servers. You can use these options to
# disable persistent connections with clients and/or servers.
#
#Default:
# client_persistent_connections on
# server_persistent_connections on

# TAG: pipeline_prefetch
# To boost the performance of pipelined requests to closer
# match that of a non-proxied environment Squid tries to fetch
# up to two requests in parallell from a pipeline.
#
#Default:
# pipeline_prefetch on

# TAG: extension_methods
# Squid only knows about standardized HTTP request methods.
# You can add up to 20 additional "extension" methods here.
#
#Default:
# none

# TAG: high_response_time_warning (msec)
# If the one-minute median response time exceeds this value,
# Squid prints a WARNING with debug level 0 to get the
# administrators attention. The value is in milliseconds.
#
#Default:
# high_response_time_warning 0

# TAG: high_page_fault_warning
# If the one-minute average page fault rate exceeds this
# value, Squid prints a WARNING with debug level 0 to get
# the administrators attention. The value is in page faults
# per second.
#
#Default:
# high_page_fault_warning 0

# TAG: high_memory_warning
# If the memory usage (as determined by mallinfo) exceeds
# value, Squid prints a WARNING with debug level 0 to get
# the administrators attention.
#
#Default:
# high_memory_warning 0

# TAG: store_dir_select_algorithm
# Set this to 'round-robin' as an alternative.
#
#Default:
# store_dir_select_algorithm least-load

# TAG: forward_log
# Note: This option is only available if Squid is rebuilt with the
# -DWIP_FWD_LOG option
#
# Logs the server-side requests.
#
# This is currently work in progress.
#
#Default:
# none

# TAG: ie_refresh on|off
# Microsoft Internet Explorer up until version 5.5 Service
# Pack 1 has an issue with transparent proxies, wherein it
# is impossible to force a refresh. Turning this on provides
# a partial fix to the problem, by causing all IMS-REFRESH
# requests from older IE versions to check the origin server
# for fresh content. This reduces hit ratio by some amount
# (~10% in my experience), but allows users to actually get
# fresh content when they want it. Note that because Squid
# cannot tell if the user is using 5.5 or 5.5SP1, the behavior
# of 5.5 is unchanged from old versions of Squid (i.e. a
# forced refresh is impossible). Newer versions of IE will,
# hopefully, continue to have the new behavior and will be
# handled based on that assumption. This option defaults to
# the old Squid behavior, which is better for hit ratios but
# worse for clients using IE, if they need to be able to
# force fresh content.
#
#Default:
#ie_refresh off

 

# special ports
squidports="80,81,20,21,443"
# without FTP
# packets from/to ext
#/usr/sbin/iptables -A OUTPUT -p tcp -m multiport --dport $squidports -s $extip -m state --state NEW,ESTABLISHED,RELATED -j ACCEPT
/usr/sbin/iptables -A OUTPUT -p tcp -s $extip -m state --state NEW,ESTABLISHED,RELATED -j ACCEPT
# packets from/to intnet
/usr/sbin/iptables -A INPUT -p tcp --dport 8080 -i $intdev -s $intnet -j ACCEPT
/usr/sbin/iptables -A OUTPUT -p tcp --sport 8080 -d $intnet -j ACCEPT
# transparent proxying
/usr/sbin/iptables -t nat -A PREROUTING -p tcp -m multiport --dport $squidports -i $intdev -j REDIRECT --to-port 8080

#! /bin/sh
# Generated automatically by configure.
# Run this file to recreate the current configuration.
# This directory was configured as follows,
# on host gargamel:
#
# ./configure --enable-storeio=diskd,ufs --enable-removal-policies --prefix=/usr/squid --enable-linux-netfilter
#
# Compiler output produced by configure, useful for debugging
# configure, is in ./config.log if it exists.

ac_cs_usage="Usage: ./config.status [--recheck] [--version] [--help]"
for ac_option
do
  case "$ac_option" in
  -recheck | --recheck | --rechec | --reche | --rech | --rec | --re | --r)
    echo "running ${CONFIG_SHELL-/bin/sh} ./configure --enable-storeio=diskd,ufs --enable-removal-policies --prefix=/usr/squid --enable-linux-netfilter --no-create --no-recursion"
    exec ${CONFIG_SHELL-/bin/sh} ./configure --enable-storeio=diskd,ufs --enable-removal-policies --prefix=/usr/squid --enable-linux-netfilter --no-create --no-recursion ;;
  -version | --version | --versio | --versi | --vers | --ver | --ve | --v)
    echo "./config.status generated by autoconf version 2.13"
    exit 0 ;;
  -help | --help | --hel | --he | --h)
    echo "$ac_cs_usage"; exit 0 ;;
  *) echo "$ac_cs_usage"; exit 1 ;;
  esac
done

ac_given_srcdir=.
ac_given_INSTALL="/usr/bin/install -c"

trap 'rm -fr ./makefile ./lib/Makefile ./include/config.h ./scripts/Makefile ./scripts/RunCache ./scripts/RunAccel ./src/Makefile ./src/fs/Makefile ./src/fs/diskd/Makefile ./src/fs/ufs/Makefile ./src/repl/Makefile ./src/repl/heap/Makefile ./src/repl/lru/Makefile ./contrib/Makefile ./icons/Makefile ./errors/Makefile ./auth_modules/Makefile ./auth_modules/LDAP/Makefile ./auth_modules/MSNT/Makefile ./auth_modules/NCSA/Makefile ./auth_modules/PAM/Makefile ./auth_modules/SMB/Makefile ./auth_modules/YP/Makefile ./auth_modules/getpwnam/Makefile include/autoconf.h conftest*; exit 1' 1 2 15

# Protect against being on the right side of a sed subst in config.status.
sed 's/%@/@@/; s/@%/@@/; s/%g$/@g/; /@g$/s/[\\&%]/\\&/g;
 s/@@/%@/; s/@@/@%/; s/@g$/%g/' > conftest.subs <<\CEOF
/^[ ]*VPATH[ ]*=[^:]*$/d

s%@SHELL@%/bin/sh%g
s%@CFLAGS@%-g -Wall%g
s%@CPPFLAGS@%%g
s%@CXXFLAGS@%%g
s%@FFLAGS@%%g
s%@DEFS@%-DHAVE_CONFIG_H%g
s%@LDFLAGS@%-g%g
s%@LIBS@%%g
s%@exec_prefix@%${prefix}%g
s%@prefix@%/usr/squid%g
s%@program_transform_name@%s,x,x,%g
s%@bindir@%${exec_prefix}/bin%g
s%@sbindir@%${exec_prefix}/sbin%g
s%@libexecdir@%${prefix}/libexec/squid%g
s%@datadir@%${prefix}/share%g
s%@sysconfdir@%${prefix}/etc%g
s%@sharedstatedir@%${prefix}/com%g
s%@localstatedir@%${prefix}%g
s%@libdir@%${exec_prefix}/lib%g
s%@includedir@%${prefix}/include%g
s%@oldincludedir@%/usr/include%g
s%@infodir@%${prefix}/info%g
s%@mandir@%${prefix}/man%g
s%@host@%i686-pc-linux-gnu%g
s%@host_alias@%i686-pc-linux-gnu%g
s%@host_cpu@%i686%g
s%@host_vendor@%pc%g
s%@host_os@%linux-gnu%g
s%@exec_suffix@%%g
s%@cgi_suffix@%.cgi%g
s%@CACHE_HTTP_PORT@%3128%g
s%@CACHE_ICP_PORT@%3130%g
s%@CC@%gcc%g
s%@LIBDLMALLOC@%%g
s%@LIB_MALLOC@%%g
s%@SQUID_PTHREAD_LIB@%%g
s%@STORE_MODULES@%diskd ufs%g
s%@STORE_OBJS@%fs/diskd.a fs/ufs.a%g
s%@STORE_LIBS@%diskd.a ufs.a%g
s%@REPL_POLICIES@% heap lru%g
s%@REPL_OBJS@%repl/heap.a repl/lru.a%g
s%@REPL_LIBS@%heap.a lru.a%g
s%@OPT_PINGER_EXE@%%g
s%@DELAY_OBJS@%%g
s%@SNMPLIB@%%g
s%@SNMP_OBJS@%%g
s%@makesnmplib@%%g
s%@HTCP_OBJS@%%g
s%@ERR_LANGUAGE@%English%g
s%@LEAKFINDER_OBJS@%%g
s%@OPT_DNSSERVER_EXE@%%g
s%@DNS_OBJS@%dns_internal.o%g
s%@AUTH_MODULES@%%g
s%@OPT_UNLINKD_EXE@%$(OPT_UNLINKD_EXE)%g
s%@UNLINKD_OBJS@%unlinkd.o%g
s%@CPP@%gcc -E%g
s%@INSTALL_PROGRAM@%${INSTALL}%g
s%@INSTALL_SCRIPT@%${INSTALL_PROGRAM}%g
s%@INSTALL_DATA@%${INSTALL} -m 644%g
s%@RANLIB@%ranlib%g
s%@LN_S@%ln -s%g
s%@SH@%/bin/sh%g
s%@FALSE@%/bin/false%g
s%@TRUE@%/bin/true%g
s%@RM@%/bin/rm%g
s%@MV@%/bin/mv%g
s%@MKDIR@%/bin/mkdir%g
s%@LN@%/bin/ln%g
s%@PERL@%/usr/bin/perl%g
s%@MAKEDEPEND@%/bin/true%g
s%@AR@%/usr/bin/ar%g
s%@AR_R@%/usr/bin/ar r%g
s%@ALLOCA@%%g
s%@CRYPTLIB@%-lcrypt%g
s%@DLLIB@%-ldl%g
s%@PTHREADLIB@%-lpthread%g
s%@REGEXLIB@%%g
s%@LIBREGEX@%%g
s%@LIBOBJS@%%g
s%@XTRA_OBJS@%%g
s%@XTRA_LIBS@%-lm -lresolv -lnsl%g

CEOF

# Split the substitutions into bite-sized pieces for seds with
# small command number limits, like on Digital OSF/1 and HP-UX.
ac_max_sed_cmds=90 # Maximum number of lines to put in a sed script.
ac_file=1 # Number of current file.
ac_beg=1 # First line for current file.
ac_end=$ac_max_sed_cmds # Line after last line for current file.
ac_more_lines=:
ac_sed_cmds=""
while $ac_more_lines; do
  if test $ac_beg -gt 1; then
    sed "1,${ac_beg}d; ${ac_end}q" conftest.subs > conftest.s$ac_file
  else
    sed "${ac_end}q" conftest.subs > conftest.s$ac_file
  fi
  if test ! -s conftest.s$ac_file; then
    ac_more_lines=false
    rm -f conftest.s$ac_file
  else
    if test -z "$ac_sed_cmds"; then
      ac_sed_cmds="sed -f conftest.s$ac_file"
    else
      ac_sed_cmds="$ac_sed_cmds | sed -f conftest.s$ac_file"
    fi
    ac_file=`expr $ac_file + 1`
    ac_beg=$ac_end
    ac_end=`expr $ac_end + $ac_max_sed_cmds`
  fi
done
if test -z "$ac_sed_cmds"; then
  ac_sed_cmds=cat
fi

CONFIG_FILES=${CONFIG_FILES-" ./makefile ./lib/Makefile ./include/config.h ./scripts/Makefile ./scripts/RunCache ./scripts/RunAccel ./src/Makefile ./src/fs/Makefile ./src/fs/diskd/Makefile ./src/fs/ufs/Makefile ./src/repl/Makefile ./src/repl/heap/Makefile ./src/repl/lru/Makefile ./contrib/Makefile ./icons/Makefile ./errors/Makefile ./auth_modules/Makefile ./auth_modules/LDAP/Makefile ./auth_modules/MSNT/Makefile ./auth_modules/NCSA/Makefile ./auth_modules/PAM/Makefile ./auth_modules/SMB/Makefile ./auth_modules/YP/Makefile ./auth_modules/getpwnam/Makefile "}
for ac_file in .. $CONFIG_FILES; do if test "x$ac_file" != x..; then
  # Support "outfile[:infile[:infile...]]", defaulting infile="outfile.in".
  case "$ac_file" in
  *:*) ac_file_in=`echo "$ac_file"|sed 's%[^:]*:%%'`
       ac_file=`echo "$ac_file"|sed 's%:.*%%'` ;;
  *) ac_file_in="${ac_file}.in" ;;
  esac

  # Adjust a relative srcdir, top_srcdir, and INSTALL for subdirectories.

  # Remove last slash and all that follows it. Not all systems have dirname.
  ac_dir=`echo $ac_file|sed 's%/[^/][^/]*$%%'`
  if test "$ac_dir" != "$ac_file" && test "$ac_dir" != .; then
    # The file is in a subdirectory.
    test ! -d "$ac_dir" && mkdir "$ac_dir"
    ac_dir_suffix="/`echo $ac_dir|sed 's%^\./%%'`"
    # A "../" for each directory in $ac_dir_suffix.
    ac_dots=`echo $ac_dir_suffix|sed 's%/[^/]*%../%g'`
  else
    ac_dir_suffix= ac_dots=
  fi

  case "$ac_given_srcdir" in
  .) srcdir=.
      if test -z "$ac_dots"; then top_srcdir=.
      else top_srcdir=`echo $ac_dots|sed 's%/$%%'`; fi ;;
  /*) srcdir="$ac_given_srcdir$ac_dir_suffix"; top_srcdir="$ac_given_srcdir" ;;
  *) # Relative path.
    srcdir="$ac_dots$ac_given_srcdir$ac_dir_suffix"
    top_srcdir="$ac_dots$ac_given_srcdir" ;;
  esac

  case "$ac_given_INSTALL" in
  [/$]*) INSTALL="$ac_given_INSTALL" ;;
  *) INSTALL="$ac_dots$ac_given_INSTALL" ;;
  esac

  echo creating "$ac_file"
  rm -f "$ac_file"
  configure_input="Generated automatically from `echo $ac_file_in|sed 's%.*/%%'` by configure."
  case "$ac_file" in
  *Makefile*) ac_comsub="1i\\
# $configure_input" ;;
  *) ac_comsub= ;;
  esac

  ac_file_inputs=`echo $ac_file_in|sed -e "s%^%$ac_given_srcdir/%" -e "s%:% $ac_given_srcdir/%g"`
  sed -e "$ac_comsub
s%@configure_input@%$configure_input%g
s%@srcdir@%$srcdir%g
s%@top_srcdir@%$top_srcdir%g
s%@INSTALL@%$INSTALL%g
" $ac_file_inputs | (eval "$ac_sed_cmds") > $ac_file
fi; done
rm -f conftest.s*

# These sed commands are passed to sed as "A NAME B NAME C VALUE D", where
# NAME is the cpp macro being defined and VALUE is the value it is being given.
#
# ac_d sets the value in "#define NAME VALUE" lines.
ac_dA='s%^\([ ]*\)#\([ ]*define[ ][ ]*\)'
ac_dB='\([ ][ ]*\)[^ ]*%\1#\2'
ac_dC='\3'
ac_dD='%g'
# ac_u turns "#undef NAME" with trailing blanks into "#define NAME VALUE".
ac_uA='s%^\([ ]*\)#\([ ]*\)undef\([ ][ ]*\)'
ac_uB='\([ ]\)%\1#\2define\3'
ac_uC=' '
ac_uD='\4%g'
# ac_e turns "#undef NAME" without trailing blanks into "#define NAME VALUE".
ac_eA='s%^\([ ]*\)#\([ ]*\)undef\([ ][ ]*\)'
ac_eB='$%\1#\2define\3'
ac_eC=' '
ac_eD='%g'

if test "${CONFIG_HEADERS+set}" != set; then
  CONFIG_HEADERS="include/autoconf.h"
fi
for ac_file in .. $CONFIG_HEADERS; do if test "x$ac_file" != x..; then
  # Support "outfile[:infile[:infile...]]", defaulting infile="outfile.in".
  case "$ac_file" in
  *:*) ac_file_in=`echo "$ac_file"|sed 's%[^:]*:%%'`
       ac_file=`echo "$ac_file"|sed 's%:.*%%'` ;;
  *) ac_file_in="${ac_file}.in" ;;
  esac

  echo creating $ac_file

  rm -f conftest.frag conftest.in conftest.out
  ac_file_inputs=`echo $ac_file_in|sed -e "s%^%$ac_given_srcdir/%" -e "s%:% $ac_given_srcdir/%g"`
  cat $ac_file_inputs > conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}CONFIG_HOST_TYPE${ac_dB}CONFIG_HOST_TYPE${ac_dC}"i686-pc-linux-gnu"${ac_dD}
${ac_uA}CONFIG_HOST_TYPE${ac_uB}CONFIG_HOST_TYPE${ac_uC}"i686-pc-linux-gnu"${ac_uD}
${ac_eA}CONFIG_HOST_TYPE${ac_eB}CONFIG_HOST_TYPE${ac_eC}"i686-pc-linux-gnu"${ac_eD}
${ac_dA}LINUX_NETFILTER${ac_dB}LINUX_NETFILTER${ac_dC}1${ac_dD}
${ac_uA}LINUX_NETFILTER${ac_uB}LINUX_NETFILTER${ac_uC}1${ac_uD}
${ac_eA}LINUX_NETFILTER${ac_eB}LINUX_NETFILTER${ac_eC}1${ac_eD}
${ac_dA}USE_UNLINKD${ac_dB}USE_UNLINKD${ac_dC}1${ac_dD}
${ac_uA}USE_UNLINKD${ac_uB}USE_UNLINKD${ac_uC}1${ac_uD}
${ac_eA}USE_UNLINKD${ac_eB}USE_UNLINKD${ac_eC}1${ac_eD}
${ac_dA}HAVE_DIRENT_H${ac_dB}HAVE_DIRENT_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_DIRENT_H${ac_uB}HAVE_DIRENT_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_DIRENT_H${ac_eB}HAVE_DIRENT_H${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}STDC_HEADERS${ac_dB}STDC_HEADERS${ac_dC}1${ac_dD}
${ac_uA}STDC_HEADERS${ac_uB}STDC_HEADERS${ac_uC}1${ac_uD}
${ac_eA}STDC_HEADERS${ac_eB}STDC_HEADERS${ac_eC}1${ac_eD}
${ac_dA}HAVE_ARPA_INET_H${ac_dB}HAVE_ARPA_INET_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_ARPA_INET_H${ac_uB}HAVE_ARPA_INET_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_ARPA_INET_H${ac_eB}HAVE_ARPA_INET_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_ARPA_NAMESER_H${ac_dB}HAVE_ARPA_NAMESER_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_ARPA_NAMESER_H${ac_uB}HAVE_ARPA_NAMESER_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_ARPA_NAMESER_H${ac_eB}HAVE_ARPA_NAMESER_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_ASSERT_H${ac_dB}HAVE_ASSERT_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_ASSERT_H${ac_uB}HAVE_ASSERT_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_ASSERT_H${ac_eB}HAVE_ASSERT_H${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_CRYPT_H${ac_dB}HAVE_CRYPT_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_CRYPT_H${ac_uB}HAVE_CRYPT_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_CRYPT_H${ac_eB}HAVE_CRYPT_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_CTYPE_H${ac_dB}HAVE_CTYPE_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_CTYPE_H${ac_uB}HAVE_CTYPE_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_CTYPE_H${ac_eB}HAVE_CTYPE_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_ERRNO_H${ac_dB}HAVE_ERRNO_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_ERRNO_H${ac_uB}HAVE_ERRNO_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_ERRNO_H${ac_eB}HAVE_ERRNO_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_EXECINFO_H${ac_dB}HAVE_EXECINFO_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_EXECINFO_H${ac_uB}HAVE_EXECINFO_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_EXECINFO_H${ac_eB}HAVE_EXECINFO_H${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_FCNTL_H${ac_dB}HAVE_FCNTL_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_FCNTL_H${ac_uB}HAVE_FCNTL_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_FCNTL_H${ac_eB}HAVE_FCNTL_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_GETOPT_H${ac_dB}HAVE_GETOPT_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_GETOPT_H${ac_uB}HAVE_GETOPT_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_GETOPT_H${ac_eB}HAVE_GETOPT_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_GRP_H${ac_dB}HAVE_GRP_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_GRP_H${ac_uB}HAVE_GRP_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_GRP_H${ac_eB}HAVE_GRP_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_LIMITS_H${ac_dB}HAVE_LIMITS_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_LIMITS_H${ac_uB}HAVE_LIMITS_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_LIMITS_H${ac_eB}HAVE_LIMITS_H${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_LINUX_NETFILTER_IPV4_H${ac_dB}HAVE_LINUX_NETFILTER_IPV4_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_LINUX_NETFILTER_IPV4_H${ac_uB}HAVE_LINUX_NETFILTER_IPV4_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_LINUX_NETFILTER_IPV4_H${ac_eB}HAVE_LINUX_NETFILTER_IPV4_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_MALLOC_H${ac_dB}HAVE_MALLOC_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_MALLOC_H${ac_uB}HAVE_MALLOC_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_MALLOC_H${ac_eB}HAVE_MALLOC_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_MATH_H${ac_dB}HAVE_MATH_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_MATH_H${ac_uB}HAVE_MATH_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_MATH_H${ac_eB}HAVE_MATH_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_MEMORY_H${ac_dB}HAVE_MEMORY_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_MEMORY_H${ac_uB}HAVE_MEMORY_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_MEMORY_H${ac_eB}HAVE_MEMORY_H${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_NET_IF_H${ac_dB}HAVE_NET_IF_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_NET_IF_H${ac_uB}HAVE_NET_IF_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_NET_IF_H${ac_eB}HAVE_NET_IF_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_NETDB_H${ac_dB}HAVE_NETDB_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_NETDB_H${ac_uB}HAVE_NETDB_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_NETDB_H${ac_eB}HAVE_NETDB_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_NETINET_IF_ETHER_H${ac_dB}HAVE_NETINET_IF_ETHER_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_NETINET_IF_ETHER_H${ac_uB}HAVE_NETINET_IF_ETHER_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_NETINET_IF_ETHER_H${ac_eB}HAVE_NETINET_IF_ETHER_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_NETINET_IN_H${ac_dB}HAVE_NETINET_IN_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_NETINET_IN_H${ac_uB}HAVE_NETINET_IN_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_NETINET_IN_H${ac_eB}HAVE_NETINET_IN_H${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_NETINET_TCP_H${ac_dB}HAVE_NETINET_TCP_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_NETINET_TCP_H${ac_uB}HAVE_NETINET_TCP_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_NETINET_TCP_H${ac_eB}HAVE_NETINET_TCP_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_POLL_H${ac_dB}HAVE_POLL_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_POLL_H${ac_uB}HAVE_POLL_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_POLL_H${ac_eB}HAVE_POLL_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_PWD_H${ac_dB}HAVE_PWD_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_PWD_H${ac_uB}HAVE_PWD_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_PWD_H${ac_eB}HAVE_PWD_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_REGEX_H${ac_dB}HAVE_REGEX_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_REGEX_H${ac_uB}HAVE_REGEX_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_REGEX_H${ac_eB}HAVE_REGEX_H${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_RESOLV_H${ac_dB}HAVE_RESOLV_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_RESOLV_H${ac_uB}HAVE_RESOLV_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_RESOLV_H${ac_eB}HAVE_RESOLV_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_SCHED_H${ac_dB}HAVE_SCHED_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SCHED_H${ac_uB}HAVE_SCHED_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SCHED_H${ac_eB}HAVE_SCHED_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_SIGNAL_H${ac_dB}HAVE_SIGNAL_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SIGNAL_H${ac_uB}HAVE_SIGNAL_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SIGNAL_H${ac_eB}HAVE_SIGNAL_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_STDARG_H${ac_dB}HAVE_STDARG_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_STDARG_H${ac_uB}HAVE_STDARG_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_STDARG_H${ac_eB}HAVE_STDARG_H${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_STDDEF_H${ac_dB}HAVE_STDDEF_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_STDDEF_H${ac_uB}HAVE_STDDEF_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_STDDEF_H${ac_eB}HAVE_STDDEF_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_STDIO_H${ac_dB}HAVE_STDIO_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_STDIO_H${ac_uB}HAVE_STDIO_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_STDIO_H${ac_eB}HAVE_STDIO_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_STDLIB_H${ac_dB}HAVE_STDLIB_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_STDLIB_H${ac_uB}HAVE_STDLIB_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_STDLIB_H${ac_eB}HAVE_STDLIB_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_STRING_H${ac_dB}HAVE_STRING_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_STRING_H${ac_uB}HAVE_STRING_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_STRING_H${ac_eB}HAVE_STRING_H${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_STRINGS_H${ac_dB}HAVE_STRINGS_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_STRINGS_H${ac_uB}HAVE_STRINGS_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_STRINGS_H${ac_eB}HAVE_STRINGS_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_SYS_FILE_H${ac_dB}HAVE_SYS_FILE_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYS_FILE_H${ac_uB}HAVE_SYS_FILE_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYS_FILE_H${ac_eB}HAVE_SYS_FILE_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_SYS_IOCTL_H${ac_dB}HAVE_SYS_IOCTL_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYS_IOCTL_H${ac_uB}HAVE_SYS_IOCTL_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYS_IOCTL_H${ac_eB}HAVE_SYS_IOCTL_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_SYS_MOUNT_H${ac_dB}HAVE_SYS_MOUNT_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYS_MOUNT_H${ac_uB}HAVE_SYS_MOUNT_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYS_MOUNT_H${ac_eB}HAVE_SYS_MOUNT_H${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_SYS_MSG_H${ac_dB}HAVE_SYS_MSG_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYS_MSG_H${ac_uB}HAVE_SYS_MSG_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYS_MSG_H${ac_eB}HAVE_SYS_MSG_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_SYS_PARAM_H${ac_dB}HAVE_SYS_PARAM_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYS_PARAM_H${ac_uB}HAVE_SYS_PARAM_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYS_PARAM_H${ac_eB}HAVE_SYS_PARAM_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_SYS_RESOURCE_H${ac_dB}HAVE_SYS_RESOURCE_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYS_RESOURCE_H${ac_uB}HAVE_SYS_RESOURCE_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYS_RESOURCE_H${ac_eB}HAVE_SYS_RESOURCE_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_SYS_SELECT_H${ac_dB}HAVE_SYS_SELECT_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYS_SELECT_H${ac_uB}HAVE_SYS_SELECT_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYS_SELECT_H${ac_eB}HAVE_SYS_SELECT_H${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_SYS_SOCKET_H${ac_dB}HAVE_SYS_SOCKET_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYS_SOCKET_H${ac_uB}HAVE_SYS_SOCKET_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYS_SOCKET_H${ac_eB}HAVE_SYS_SOCKET_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_SYS_STAT_H${ac_dB}HAVE_SYS_STAT_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYS_STAT_H${ac_uB}HAVE_SYS_STAT_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYS_STAT_H${ac_eB}HAVE_SYS_STAT_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_SYS_STATVFS_H${ac_dB}HAVE_SYS_STATVFS_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYS_STATVFS_H${ac_uB}HAVE_SYS_STATVFS_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYS_STATVFS_H${ac_eB}HAVE_SYS_STATVFS_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_SYS_VFS_H${ac_dB}HAVE_SYS_VFS_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYS_VFS_H${ac_uB}HAVE_SYS_VFS_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYS_VFS_H${ac_eB}HAVE_SYS_VFS_H${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_SYS_SYSCALL_H${ac_dB}HAVE_SYS_SYSCALL_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYS_SYSCALL_H${ac_uB}HAVE_SYS_SYSCALL_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYS_SYSCALL_H${ac_eB}HAVE_SYS_SYSCALL_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_SYS_TIME_H${ac_dB}HAVE_SYS_TIME_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYS_TIME_H${ac_uB}HAVE_SYS_TIME_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYS_TIME_H${ac_eB}HAVE_SYS_TIME_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_SYS_TYPES_H${ac_dB}HAVE_SYS_TYPES_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYS_TYPES_H${ac_uB}HAVE_SYS_TYPES_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYS_TYPES_H${ac_eB}HAVE_SYS_TYPES_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_SYS_UN_H${ac_dB}HAVE_SYS_UN_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYS_UN_H${ac_uB}HAVE_SYS_UN_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYS_UN_H${ac_eB}HAVE_SYS_UN_H${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_SYS_VFS_H${ac_dB}HAVE_SYS_VFS_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYS_VFS_H${ac_uB}HAVE_SYS_VFS_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYS_VFS_H${ac_eB}HAVE_SYS_VFS_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_SYS_WAIT_H${ac_dB}HAVE_SYS_WAIT_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYS_WAIT_H${ac_uB}HAVE_SYS_WAIT_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYS_WAIT_H${ac_eB}HAVE_SYS_WAIT_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_SYSLOG_H${ac_dB}HAVE_SYSLOG_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYSLOG_H${ac_uB}HAVE_SYSLOG_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYSLOG_H${ac_eB}HAVE_SYSLOG_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_TIME_H${ac_dB}HAVE_TIME_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_TIME_H${ac_uB}HAVE_TIME_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_TIME_H${ac_eB}HAVE_TIME_H${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_UNISTD_H${ac_dB}HAVE_UNISTD_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_UNISTD_H${ac_uB}HAVE_UNISTD_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_UNISTD_H${ac_eB}HAVE_UNISTD_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_VARARGS_H${ac_dB}HAVE_VARARGS_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_VARARGS_H${ac_uB}HAVE_VARARGS_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_VARARGS_H${ac_eB}HAVE_VARARGS_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_ANSI_PROTOTYPES${ac_dB}HAVE_ANSI_PROTOTYPES${ac_dC}1${ac_dD}
${ac_uA}HAVE_ANSI_PROTOTYPES${ac_uB}HAVE_ANSI_PROTOTYPES${ac_uC}1${ac_uD}
${ac_eA}HAVE_ANSI_PROTOTYPES${ac_eB}HAVE_ANSI_PROTOTYPES${ac_eC}1${ac_eD}
${ac_dA}HAVE_TM_GMTOFF${ac_dB}HAVE_TM_GMTOFF${ac_dC}1${ac_dD}
${ac_uA}HAVE_TM_GMTOFF${ac_uB}HAVE_TM_GMTOFF${ac_uC}1${ac_uD}
${ac_eA}HAVE_TM_GMTOFF${ac_eB}HAVE_TM_GMTOFF${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_STRUCT_MALLINFO${ac_dB}HAVE_STRUCT_MALLINFO${ac_dC}1${ac_dD}
${ac_uA}HAVE_STRUCT_MALLINFO${ac_uB}HAVE_STRUCT_MALLINFO${ac_uC}1${ac_uD}
${ac_eA}HAVE_STRUCT_MALLINFO${ac_eB}HAVE_STRUCT_MALLINFO${ac_eC}1${ac_eD}
${ac_dA}HAVE_STRUCT_RUSAGE${ac_dB}HAVE_STRUCT_RUSAGE${ac_dC}1${ac_dD}
${ac_uA}HAVE_STRUCT_RUSAGE${ac_uB}HAVE_STRUCT_RUSAGE${ac_uC}1${ac_uD}
${ac_eA}HAVE_STRUCT_RUSAGE${ac_eB}HAVE_STRUCT_RUSAGE${ac_eC}1${ac_eD}
${ac_dA}HAVE_IP_HL${ac_dB}HAVE_IP_HL${ac_dC}1${ac_dD}
${ac_uA}HAVE_IP_HL${ac_uB}HAVE_IP_HL${ac_uC}1${ac_uD}
${ac_eA}HAVE_IP_HL${ac_eB}HAVE_IP_HL${ac_eC}1${ac_eD}
${ac_dA}SIZEOF_INT${ac_dB}SIZEOF_INT${ac_dC}4${ac_dD}
${ac_uA}SIZEOF_INT${ac_uB}SIZEOF_INT${ac_uC}4${ac_uD}
${ac_eA}SIZEOF_INT${ac_eB}SIZEOF_INT${ac_eC}4${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}SIZEOF_LONG${ac_dB}SIZEOF_LONG${ac_dC}4${ac_dD}
${ac_uA}SIZEOF_LONG${ac_uB}SIZEOF_LONG${ac_uC}4${ac_uD}
${ac_eA}SIZEOF_LONG${ac_eB}SIZEOF_LONG${ac_eC}4${ac_eD}
${ac_dA}SIZEOF_VOID_P${ac_dB}SIZEOF_VOID_P${ac_dC}4${ac_dD}
${ac_uA}SIZEOF_VOID_P${ac_uB}SIZEOF_VOID_P${ac_uC}4${ac_uD}
${ac_eA}SIZEOF_VOID_P${ac_eB}SIZEOF_VOID_P${ac_eC}4${ac_eD}
${ac_dA}HAVE_ALLOCA_H${ac_dB}HAVE_ALLOCA_H${ac_dC}1${ac_dD}
${ac_uA}HAVE_ALLOCA_H${ac_uB}HAVE_ALLOCA_H${ac_uC}1${ac_uD}
${ac_eA}HAVE_ALLOCA_H${ac_eB}HAVE_ALLOCA_H${ac_eC}1${ac_eD}
${ac_dA}HAVE_ALLOCA${ac_dB}HAVE_ALLOCA${ac_dC}1${ac_dD}
${ac_uA}HAVE_ALLOCA${ac_uB}HAVE_ALLOCA${ac_uC}1${ac_uD}
${ac_eA}HAVE_ALLOCA${ac_eB}HAVE_ALLOCA${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}mtyp_t${ac_dB}mtyp_t${ac_dC}long${ac_dD}
${ac_uA}mtyp_t${ac_uB}mtyp_t${ac_uC}long${ac_uD}
${ac_eA}mtyp_t${ac_eB}mtyp_t${ac_eC}long${ac_eD}
${ac_dA}HAVE_LIBNSL${ac_dB}HAVE_LIBNSL${ac_dC}1${ac_dD}
${ac_uA}HAVE_LIBNSL${ac_uB}HAVE_LIBNSL${ac_uC}1${ac_uD}
${ac_eA}HAVE_LIBNSL${ac_eB}HAVE_LIBNSL${ac_eC}1${ac_eD}
${ac_dA}HAVE_LIBRESOLV${ac_dB}HAVE_LIBRESOLV${ac_dC}1${ac_dD}
${ac_uA}HAVE_LIBRESOLV${ac_uB}HAVE_LIBRESOLV${ac_uC}1${ac_uD}
${ac_eA}HAVE_LIBRESOLV${ac_eB}HAVE_LIBRESOLV${ac_eC}1${ac_eD}
${ac_dA}HAVE_LIBM${ac_dB}HAVE_LIBM${ac_dC}1${ac_dD}
${ac_uA}HAVE_LIBM${ac_uB}HAVE_LIBM${ac_uC}1${ac_uD}
${ac_eA}HAVE_LIBM${ac_eB}HAVE_LIBM${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_BCOPY${ac_dB}HAVE_BCOPY${ac_dC}1${ac_dD}
${ac_uA}HAVE_BCOPY${ac_uB}HAVE_BCOPY${ac_uC}1${ac_uD}
${ac_eA}HAVE_BCOPY${ac_eB}HAVE_BCOPY${ac_eC}1${ac_eD}
${ac_dA}HAVE_BACKTRACE_SYMBOLS_FD${ac_dB}HAVE_BACKTRACE_SYMBOLS_FD${ac_dC}1${ac_dD}
${ac_uA}HAVE_BACKTRACE_SYMBOLS_FD${ac_uB}HAVE_BACKTRACE_SYMBOLS_FD${ac_uC}1${ac_uD}
${ac_eA}HAVE_BACKTRACE_SYMBOLS_FD${ac_eB}HAVE_BACKTRACE_SYMBOLS_FD${ac_eC}1${ac_eD}
${ac_dA}HAVE_FCHMOD${ac_dB}HAVE_FCHMOD${ac_dC}1${ac_dD}
${ac_uA}HAVE_FCHMOD${ac_uB}HAVE_FCHMOD${ac_uC}1${ac_uD}
${ac_eA}HAVE_FCHMOD${ac_eB}HAVE_FCHMOD${ac_eC}1${ac_eD}
${ac_dA}HAVE_GETDTABLESIZE${ac_dB}HAVE_GETDTABLESIZE${ac_dC}1${ac_dD}
${ac_uA}HAVE_GETDTABLESIZE${ac_uB}HAVE_GETDTABLESIZE${ac_uC}1${ac_uD}
${ac_eA}HAVE_GETDTABLESIZE${ac_eB}HAVE_GETDTABLESIZE${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_GETPAGESIZE${ac_dB}HAVE_GETPAGESIZE${ac_dC}1${ac_dD}
${ac_uA}HAVE_GETPAGESIZE${ac_uB}HAVE_GETPAGESIZE${ac_uC}1${ac_uD}
${ac_eA}HAVE_GETPAGESIZE${ac_eB}HAVE_GETPAGESIZE${ac_eC}1${ac_eD}
${ac_dA}HAVE_GETRUSAGE${ac_dB}HAVE_GETRUSAGE${ac_dC}1${ac_dD}
${ac_uA}HAVE_GETRUSAGE${ac_uB}HAVE_GETRUSAGE${ac_uC}1${ac_uD}
${ac_eA}HAVE_GETRUSAGE${ac_eB}HAVE_GETRUSAGE${ac_eC}1${ac_eD}
${ac_dA}HAVE_GETSPNAM${ac_dB}HAVE_GETSPNAM${ac_dC}1${ac_dD}
${ac_uA}HAVE_GETSPNAM${ac_uB}HAVE_GETSPNAM${ac_uC}1${ac_uD}
${ac_eA}HAVE_GETSPNAM${ac_eB}HAVE_GETSPNAM${ac_eC}1${ac_eD}
${ac_dA}HAVE_LRAND48${ac_dB}HAVE_LRAND48${ac_dC}1${ac_dD}
${ac_uA}HAVE_LRAND48${ac_uB}HAVE_LRAND48${ac_uC}1${ac_uD}
${ac_eA}HAVE_LRAND48${ac_eB}HAVE_LRAND48${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_MALLINFO${ac_dB}HAVE_MALLINFO${ac_dC}1${ac_dD}
${ac_uA}HAVE_MALLINFO${ac_uB}HAVE_MALLINFO${ac_uC}1${ac_uD}
${ac_eA}HAVE_MALLINFO${ac_eB}HAVE_MALLINFO${ac_eC}1${ac_eD}
${ac_dA}HAVE_MALLOPT${ac_dB}HAVE_MALLOPT${ac_dC}1${ac_dD}
${ac_uA}HAVE_MALLOPT${ac_uB}HAVE_MALLOPT${ac_uC}1${ac_uD}
${ac_eA}HAVE_MALLOPT${ac_eB}HAVE_MALLOPT${ac_eC}1${ac_eD}
${ac_dA}HAVE_MEMCPY${ac_dB}HAVE_MEMCPY${ac_dC}1${ac_dD}
${ac_uA}HAVE_MEMCPY${ac_uB}HAVE_MEMCPY${ac_uC}1${ac_uD}
${ac_eA}HAVE_MEMCPY${ac_eB}HAVE_MEMCPY${ac_eC}1${ac_eD}
${ac_dA}HAVE_MEMMOVE${ac_dB}HAVE_MEMMOVE${ac_dC}1${ac_dD}
${ac_uA}HAVE_MEMMOVE${ac_uB}HAVE_MEMMOVE${ac_uC}1${ac_uD}
${ac_eA}HAVE_MEMMOVE${ac_eB}HAVE_MEMMOVE${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_MEMSET${ac_dB}HAVE_MEMSET${ac_dC}1${ac_dD}
${ac_uA}HAVE_MEMSET${ac_uB}HAVE_MEMSET${ac_uC}1${ac_uD}
${ac_eA}HAVE_MEMSET${ac_eB}HAVE_MEMSET${ac_eC}1${ac_eD}
${ac_dA}HAVE_MKSTEMP${ac_dB}HAVE_MKSTEMP${ac_dC}1${ac_dD}
${ac_uA}HAVE_MKSTEMP${ac_uB}HAVE_MKSTEMP${ac_uC}1${ac_uD}
${ac_eA}HAVE_MKSTEMP${ac_eB}HAVE_MKSTEMP${ac_eC}1${ac_eD}
${ac_dA}HAVE_MKTIME${ac_dB}HAVE_MKTIME${ac_dC}1${ac_dD}
${ac_uA}HAVE_MKTIME${ac_uB}HAVE_MKTIME${ac_uC}1${ac_uD}
${ac_eA}HAVE_MKTIME${ac_eB}HAVE_MKTIME${ac_eC}1${ac_eD}
${ac_dA}HAVE_POLL${ac_dB}HAVE_POLL${ac_dC}1${ac_dD}
${ac_uA}HAVE_POLL${ac_uB}HAVE_POLL${ac_uC}1${ac_uD}
${ac_eA}HAVE_POLL${ac_eB}HAVE_POLL${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_PTHREAD_ATTR_SETSCOPE${ac_dB}HAVE_PTHREAD_ATTR_SETSCOPE${ac_dC}1${ac_dD}
${ac_uA}HAVE_PTHREAD_ATTR_SETSCOPE${ac_uB}HAVE_PTHREAD_ATTR_SETSCOPE${ac_uC}1${ac_uD}
${ac_eA}HAVE_PTHREAD_ATTR_SETSCOPE${ac_eB}HAVE_PTHREAD_ATTR_SETSCOPE${ac_eC}1${ac_eD}
${ac_dA}HAVE_PTHREAD_SETSCHEDPARAM${ac_dB}HAVE_PTHREAD_SETSCHEDPARAM${ac_dC}1${ac_dD}
${ac_uA}HAVE_PTHREAD_SETSCHEDPARAM${ac_uB}HAVE_PTHREAD_SETSCHEDPARAM${ac_uC}1${ac_uD}
${ac_eA}HAVE_PTHREAD_SETSCHEDPARAM${ac_eB}HAVE_PTHREAD_SETSCHEDPARAM${ac_eC}1${ac_eD}
${ac_dA}HAVE_PTHREAD_ATTR_SETSCHEDPARAM${ac_dB}HAVE_PTHREAD_ATTR_SETSCHEDPARAM${ac_dC}1${ac_dD}
${ac_uA}HAVE_PTHREAD_ATTR_SETSCHEDPARAM${ac_uB}HAVE_PTHREAD_ATTR_SETSCHEDPARAM${ac_uC}1${ac_uD}
${ac_eA}HAVE_PTHREAD_ATTR_SETSCHEDPARAM${ac_eB}HAVE_PTHREAD_ATTR_SETSCHEDPARAM${ac_eC}1${ac_eD}
${ac_dA}HAVE_PUTENV${ac_dB}HAVE_PUTENV${ac_dC}1${ac_dD}
${ac_uA}HAVE_PUTENV${ac_uB}HAVE_PUTENV${ac_uC}1${ac_uD}
${ac_eA}HAVE_PUTENV${ac_eB}HAVE_PUTENV${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_RANDOM${ac_dB}HAVE_RANDOM${ac_dC}1${ac_dD}
${ac_uA}HAVE_RANDOM${ac_uB}HAVE_RANDOM${ac_uC}1${ac_uD}
${ac_eA}HAVE_RANDOM${ac_eB}HAVE_RANDOM${ac_eC}1${ac_eD}
${ac_dA}HAVE_REGCOMP${ac_dB}HAVE_REGCOMP${ac_dC}1${ac_dD}
${ac_uA}HAVE_REGCOMP${ac_uB}HAVE_REGCOMP${ac_uC}1${ac_uD}
${ac_eA}HAVE_REGCOMP${ac_eB}HAVE_REGCOMP${ac_eC}1${ac_eD}
${ac_dA}HAVE_REGEXEC${ac_dB}HAVE_REGEXEC${ac_dC}1${ac_dD}
${ac_uA}HAVE_REGEXEC${ac_uB}HAVE_REGEXEC${ac_uC}1${ac_uD}
${ac_eA}HAVE_REGEXEC${ac_eB}HAVE_REGEXEC${ac_eC}1${ac_eD}
${ac_dA}HAVE_REGFREE${ac_dB}HAVE_REGFREE${ac_dC}1${ac_dD}
${ac_uA}HAVE_REGFREE${ac_uB}HAVE_REGFREE${ac_uC}1${ac_uD}
${ac_eA}HAVE_REGFREE${ac_eB}HAVE_REGFREE${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_RES_INIT${ac_dB}HAVE_RES_INIT${ac_dC}1${ac_dD}
${ac_uA}HAVE_RES_INIT${ac_uB}HAVE_RES_INIT${ac_uC}1${ac_uD}
${ac_eA}HAVE_RES_INIT${ac_eB}HAVE_RES_INIT${ac_eC}1${ac_eD}
${ac_dA}HAVE_RINT${ac_dB}HAVE_RINT${ac_dC}1${ac_dD}
${ac_uA}HAVE_RINT${ac_uB}HAVE_RINT${ac_uC}1${ac_uD}
${ac_eA}HAVE_RINT${ac_eB}HAVE_RINT${ac_eC}1${ac_eD}
${ac_dA}HAVE_SETEUID${ac_dB}HAVE_SETEUID${ac_dC}1${ac_dD}
${ac_uA}HAVE_SETEUID${ac_uB}HAVE_SETEUID${ac_uC}1${ac_uD}
${ac_eA}HAVE_SETEUID${ac_eB}HAVE_SETEUID${ac_eC}1${ac_eD}
${ac_dA}HAVE_SETGROUPS${ac_dB}HAVE_SETGROUPS${ac_dC}1${ac_dD}
${ac_uA}HAVE_SETGROUPS${ac_uB}HAVE_SETGROUPS${ac_uC}1${ac_uD}
${ac_eA}HAVE_SETGROUPS${ac_eB}HAVE_SETGROUPS${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_SETPGRP${ac_dB}HAVE_SETPGRP${ac_dC}1${ac_dD}
${ac_uA}HAVE_SETPGRP${ac_uB}HAVE_SETPGRP${ac_uC}1${ac_uD}
${ac_eA}HAVE_SETPGRP${ac_eB}HAVE_SETPGRP${ac_eC}1${ac_eD}
${ac_dA}HAVE_SETRLIMIT${ac_dB}HAVE_SETRLIMIT${ac_dC}1${ac_dD}
${ac_uA}HAVE_SETRLIMIT${ac_uB}HAVE_SETRLIMIT${ac_uC}1${ac_uD}
${ac_eA}HAVE_SETRLIMIT${ac_eB}HAVE_SETRLIMIT${ac_eC}1${ac_eD}
${ac_dA}HAVE_GETRLIMIT${ac_dB}HAVE_GETRLIMIT${ac_dC}1${ac_dD}
${ac_uA}HAVE_GETRLIMIT${ac_uB}HAVE_GETRLIMIT${ac_uC}1${ac_uD}
${ac_eA}HAVE_GETRLIMIT${ac_eB}HAVE_GETRLIMIT${ac_eC}1${ac_eD}
${ac_dA}HAVE_SETSID${ac_dB}HAVE_SETSID${ac_dC}1${ac_dD}
${ac_uA}HAVE_SETSID${ac_uB}HAVE_SETSID${ac_uC}1${ac_uD}
${ac_eA}HAVE_SETSID${ac_eB}HAVE_SETSID${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_SIGACTION${ac_dB}HAVE_SIGACTION${ac_dC}1${ac_dD}
${ac_uA}HAVE_SIGACTION${ac_uB}HAVE_SIGACTION${ac_uC}1${ac_uD}
${ac_eA}HAVE_SIGACTION${ac_eB}HAVE_SIGACTION${ac_eC}1${ac_eD}
${ac_dA}HAVE_SNPRINTF${ac_dB}HAVE_SNPRINTF${ac_dC}1${ac_dD}
${ac_uA}HAVE_SNPRINTF${ac_uB}HAVE_SNPRINTF${ac_uC}1${ac_uD}
${ac_eA}HAVE_SNPRINTF${ac_eB}HAVE_SNPRINTF${ac_eC}1${ac_eD}
${ac_dA}HAVE_SRAND48${ac_dB}HAVE_SRAND48${ac_dC}1${ac_dD}
${ac_uA}HAVE_SRAND48${ac_uB}HAVE_SRAND48${ac_uC}1${ac_uD}
${ac_eA}HAVE_SRAND48${ac_eB}HAVE_SRAND48${ac_eC}1${ac_eD}
${ac_dA}HAVE_SRANDOM${ac_dB}HAVE_SRANDOM${ac_dC}1${ac_dD}
${ac_uA}HAVE_SRANDOM${ac_uB}HAVE_SRANDOM${ac_uC}1${ac_uD}
${ac_eA}HAVE_SRANDOM${ac_eB}HAVE_SRANDOM${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_STATFS${ac_dB}HAVE_STATFS${ac_dC}1${ac_dD}
${ac_uA}HAVE_STATFS${ac_uB}HAVE_STATFS${ac_uC}1${ac_uD}
${ac_eA}HAVE_STATFS${ac_eB}HAVE_STATFS${ac_eC}1${ac_eD}
${ac_dA}HAVE_SYSCONF${ac_dB}HAVE_SYSCONF${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYSCONF${ac_uB}HAVE_SYSCONF${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYSCONF${ac_eB}HAVE_SYSCONF${ac_eC}1${ac_eD}
${ac_dA}HAVE_SYSLOG${ac_dB}HAVE_SYSLOG${ac_dC}1${ac_dD}
${ac_uA}HAVE_SYSLOG${ac_uB}HAVE_SYSLOG${ac_uC}1${ac_uD}
${ac_eA}HAVE_SYSLOG${ac_eB}HAVE_SYSLOG${ac_eC}1${ac_eD}
${ac_dA}HAVE_TIMEGM${ac_dB}HAVE_TIMEGM${ac_dC}1${ac_dD}
${ac_uA}HAVE_TIMEGM${ac_uB}HAVE_TIMEGM${ac_uC}1${ac_uD}
${ac_eA}HAVE_TIMEGM${ac_eB}HAVE_TIMEGM${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_VSNPRINTF${ac_dB}HAVE_VSNPRINTF${ac_dC}1${ac_dD}
${ac_uA}HAVE_VSNPRINTF${ac_uB}HAVE_VSNPRINTF${ac_uC}1${ac_uD}
${ac_eA}HAVE_VSNPRINTF${ac_eB}HAVE_VSNPRINTF${ac_eC}1${ac_eD}
${ac_dA}HAVE_SETRESUID${ac_dB}HAVE_SETRESUID${ac_dC}1${ac_dD}
${ac_uA}HAVE_SETRESUID${ac_uB}HAVE_SETRESUID${ac_uC}1${ac_uD}
${ac_eA}HAVE_SETRESUID${ac_eB}HAVE_SETRESUID${ac_eC}1${ac_eD}
${ac_dA}LINUX_NETFILTER${ac_dB}LINUX_NETFILTER${ac_dC}1${ac_dD}
${ac_uA}LINUX_NETFILTER${ac_uB}LINUX_NETFILTER${ac_uC}1${ac_uD}
${ac_eA}LINUX_NETFILTER${ac_eB}LINUX_NETFILTER${ac_eC}1${ac_eD}
${ac_dA}HAVE_DRAND48${ac_dB}HAVE_DRAND48${ac_dC}1${ac_dD}
${ac_uA}HAVE_DRAND48${ac_uB}HAVE_DRAND48${ac_uC}1${ac_uD}
${ac_eA}HAVE_DRAND48${ac_eB}HAVE_DRAND48${ac_eC}1${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_TEMPNAM${ac_dB}HAVE_TEMPNAM${ac_dC}1${ac_dD}
${ac_uA}HAVE_TEMPNAM${ac_uB}HAVE_TEMPNAM${ac_uC}1${ac_uD}
${ac_eA}HAVE_TEMPNAM${ac_eB}HAVE_TEMPNAM${ac_eC}1${ac_eD}
${ac_dA}HAVE_STRERROR${ac_dB}HAVE_STRERROR${ac_dC}1${ac_dD}
${ac_uA}HAVE_STRERROR${ac_uB}HAVE_STRERROR${ac_uC}1${ac_uD}
${ac_eA}HAVE_STRERROR${ac_eB}HAVE_STRERROR${ac_eC}1${ac_eD}
${ac_dA}DEFAULT_FD_SETSIZE${ac_dB}DEFAULT_FD_SETSIZE${ac_dC}1024${ac_dD}
${ac_uA}DEFAULT_FD_SETSIZE${ac_uB}DEFAULT_FD_SETSIZE${ac_uC}1024${ac_uD}
${ac_eA}DEFAULT_FD_SETSIZE${ac_eB}DEFAULT_FD_SETSIZE${ac_eC}1024${ac_eD}
${ac_dA}SQUID_MAXFD${ac_dB}SQUID_MAXFD${ac_dC}1024${ac_dD}
${ac_uA}SQUID_MAXFD${ac_uB}SQUID_MAXFD${ac_uC}1024${ac_uD}
${ac_eA}SQUID_MAXFD${ac_eB}SQUID_MAXFD${ac_eC}1024${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}SQUID_UDP_SO_SNDBUF${ac_dB}SQUID_UDP_SO_SNDBUF${ac_dC}65535${ac_dD}
${ac_uA}SQUID_UDP_SO_SNDBUF${ac_uB}SQUID_UDP_SO_SNDBUF${ac_uC}65535${ac_uD}
${ac_eA}SQUID_UDP_SO_SNDBUF${ac_eB}SQUID_UDP_SO_SNDBUF${ac_eC}65535${ac_eD}
${ac_dA}SQUID_UDP_SO_RCVBUF${ac_dB}SQUID_UDP_SO_RCVBUF${ac_dC}65535${ac_dD}
${ac_uA}SQUID_UDP_SO_RCVBUF${ac_uB}SQUID_UDP_SO_RCVBUF${ac_uC}65535${ac_uD}
${ac_eA}SQUID_UDP_SO_RCVBUF${ac_eB}SQUID_UDP_SO_RCVBUF${ac_eC}65535${ac_eD}
${ac_dA}SQUID_TCP_SO_SNDBUF${ac_dB}SQUID_TCP_SO_SNDBUF${ac_dC}16384${ac_dD}
${ac_uA}SQUID_TCP_SO_SNDBUF${ac_uB}SQUID_TCP_SO_SNDBUF${ac_uC}16384${ac_uD}
${ac_eA}SQUID_TCP_SO_SNDBUF${ac_eB}SQUID_TCP_SO_SNDBUF${ac_eC}16384${ac_eD}
${ac_dA}SQUID_TCP_SO_RCVBUF${ac_dB}SQUID_TCP_SO_RCVBUF${ac_dC}87380${ac_dD}
${ac_uA}SQUID_TCP_SO_RCVBUF${ac_uB}SQUID_TCP_SO_RCVBUF${ac_uC}87380${ac_uD}
${ac_eA}SQUID_TCP_SO_RCVBUF${ac_eB}SQUID_TCP_SO_RCVBUF${ac_eC}87380${ac_eD}
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  cat > conftest.frag <<CEOF
${ac_dA}HAVE_STATVFS${ac_dB}HAVE_STATVFS${ac_dC}1${ac_dD}
${ac_uA}HAVE_STATVFS${ac_uB}HAVE_STATVFS${ac_uC}1${ac_uD}
${ac_eA}HAVE_STATVFS${ac_eB}HAVE_STATVFS${ac_eC}1${ac_eD}
${ac_dA}HAVE_RES_NSADDR_LIST${ac_dB}HAVE_RES_NSADDR_LIST${ac_dC}1${ac_dD}
${ac_uA}HAVE_RES_NSADDR_LIST${ac_uB}HAVE_RES_NSADDR_LIST${ac_uC}1${ac_uD}
${ac_eA}HAVE_RES_NSADDR_LIST${ac_eB}HAVE_RES_NSADDR_LIST${ac_eC}1${ac_eD}
s%^[ ]*#[ ]*undef[ ][ ]*[a-zA-Z_][a-zA-Z_0-9]*%/* & */%
CEOF
  sed -f conftest.frag conftest.in > conftest.out
  rm -f conftest.in
  mv conftest.out conftest.in

  rm -f conftest.frag conftest.h
  echo "/* $ac_file. Generated automatically by configure. */" > conftest.h
  cat conftest.in >> conftest.h
  rm -f conftest.in
  if cmp -s $ac_file conftest.h 2>/dev/null; then
    echo "$ac_file is unchanged"
    rm -f conftest.h
  else
    # Remove last slash and all that follows it. Not all systems have dirname.
      ac_dir=`echo $ac_file|sed 's%/[^/][^/]*$%%'`
      if test "$ac_dir" != "$ac_file" && test "$ac_dir" != .; then
      # The file is in a subdirectory.
      test ! -d "$ac_dir" && mkdir "$ac_dir"
    fi
    rm -f $ac_file
    mv conftest.h $ac_file
  fi
fi; done

exit 0
Received on Fri Aug 10 2001 - 05:49:36 MDT

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