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The Pound program is a reverse proxy, load balancer and HTTPS front-end for Web server(s).
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POUND - REVERSE-PROXY AND LOAD-BALANCER The Pound program is a reverse proxy, load balancer and HTTPS front-end for Web server(s). Pound was developed to enable distributing the load among several Web-servers and to allow for a convenient SSL wrapper for those Web servers that do not offer it natively. Pound is distributed under the GPL - no warranty, it's free to use, copy and give away. WHAT POUND IS: 1. a reverse-proxy: it passes requests from client browsers to one or more back-end servers. 2. a load balancer: it will distribute the requests from the client browsers among several back-end servers, while keeping session information. 3. an SSL wrapper: Pound will decrypt HTTPS requests from client browsers and pass them as plain HTTP to the back-end servers. 4. an HTTP/HTTPS sanitizer: Pound will verify requests for correctness and accept only well-formed ones. 5. a fail over-server: should a back-end server fail, Pound will take note of the fact and stop passing requests to it until it recovers. 6. a request redirector: requests may be distributed among servers according to the requested URL. Pound is a very small program, easily audited for security problems. It can run as setuid/setgid and/or in a chroot jail. Pound does not access the hard-disk at all (except for reading certificate file(s) on start, if required) and should thus pose no security threat to any machine. WHAT POUND IS NOT: 1. Pound is not a Web server: by itself, Pound serves no content - it contacts the back-end server(s) for that purpose. 2. Pound is not a Web accelerator: no caching is done - every request is passed "as is" to a back-end server. STATUS As of release 1.0 Pound is declared to be production-quality code. Quite a few people have reported using Pound successfully in production environments. The largest volume reported to date is a site with an average of about 30M requests per day, peaking at over 600 requests/sec. Pound was successfully used in production with a variety of Web servers, including Apache, IIS, Zope, WebLogic, Jakarta/Tomcat, iPlanet, etc. In general Pound passes requests and responses back and forth unchanged, so we have no reason to think that any web server would be incompatible. Client browsers that were tested: - IE 5.0/5.5 (Windows) HTTP/HTTPS - Netscape 4.7 (Windows/Linux) HTTP/HTTPS - Mozilla (Windows/Linux) HTTP/HTTPS - Konqueror (Linux) HTTP/HTTPS - Galleon (Linux) HTTP/HTTPS - Opera (Linux/Windows) HTTP/HTTPS - Lynx (Linux) HTTP Given that Pound is in production and no problems were reported, we have no reason to believe that other browsers would present a problem. A few issues were observed with problematic SSL implementations, most notably with Opera 6, but these should be OK in the present version. INSTALLATION Probably the easiest way to install Pound is to use a pre-compiled package if you can find one. While Apsis offers no such packages, they are available for quite a few systems (Suse, Debian and derivatives such as Ubuntu), as well as some private packages: - RPMs for RedHat are available at http://www.invoca.ch/pub/packages/pound/ - A nice FreeBSD live-CD distribution is available at http://www.targeted.org as http://www.targeted.org/files/fbsd62_pound23.iso.gz, including a Pound binary. Failing that you should install from sources: 1. Pound was tested on Linux, Solaris and OpenBSD, but it should work unchanged on just about any modern Unix-like system. You will require at least OpenSSL and libpthread. The PCRE package is strongly recommended. Warning: as Pound is a multi-threaded program it requires a version of OpenSSL with thread support. This is normally the case on Linux and Solaris (for example) but not on *BSD. If your system has the wrong library please download, compile and install OpenSSL (from http://www.openssl.org). If the PCRE package is available Pound will link against it. This will provide a significant performance boost. 2. Download the current version of Pound-current file and unpack it. The archive is signed. My signature is available at http://www.apsis.ch/pound/roseg.asc. Alternately see below for stable versions. Unpack. Do the usual thing: ./configure 3. The following options are available for the configure script: --with-ssl=ssl_dir -- OpenSSL home directory (default: system defined). --disable-super -- disable supervisor process (default: enabled) --with-t_rsa=nnn -- timeout of the RSA ephemeral keys regeneration (default: 1800 seconds). --with-owner=owner -- name of installed binaries owner (default is system-dependent). --with-group=group -- name of installed binaries group (default is system-dependent). 4. Check that the resulting Makefile is correct and possibly adjust flags as needed on your system. Compile: make 5. If it works, you may want to do some testing before installing. 6. Install the executable somewhere (it's likely that /usr/local/sbin would make a good choice), as well as the manual page (pound.8 -> /usr/local/man/man8). The supplied Makefile will do it for you. 7. Make sure Pound gets started on boot. Read the man page for available options and examples. COPYRIGHT Pound is copyrighted by Apsis GmbH and is distributed under the terms of the GNU Public License with the additional exemption that compiling, linking, and/or using OpenSSL is allowed. Basically, this means that you can use it free of charge, copy it, distribute it (provided the copyright is maintained and the full package is distributed), modify it, or line a bird-cage with it. We would be happy to hear from you if you use it and suggestions and improvements are gladly accepted. CONTACT Robert Segall, [email protected] Apsis GmbH, http://www.apsis.ch P O Box CH-8707 Uetikon am See Switzerland +41-44-920 4904 MAILING LIST Pound has its own mailing list now: please send a message with the subject "subscribe" to [email protected] in order to subscribe. You will receive confirmation and instructions in the reply. All messages are available and indexed (searcheable) in the archive http://www.apsis.ch/pound/pound_list. The mailing list is the primary support forum for Pound - please post there any questions you may have. The developpers' address is given here for information purposes only. ZOPE A special note for Zope users: the original intent on developing Pound was to allow distributing the load among several Zope servers running on top of ZEO. This it does. A special problem arises when you try using Pound as an SSL wrapper: Zope assumes that the requests are made via HTTP and insists on prepending 'http://' to the (correct) address in the replies, including in the <base> tag and the absolute URLs it generates (for images for example). This is clearly an undesirable behavior. For older Zope versions (prior to 2.7): a modified z2.py (as well as a patch) is included in the distribution. The main difference is that this z2.py allows starting an additional HTTP server via the -y flag that sets the environment HTTPS variable - thus correcting the problem. That means that in order to use Pound as an SSL wrapper you need to: - start Zope (modify the 'start' file) as: python -X -w 8080 -y 8443 ... For Zope 2.7 or later the same effect can be achieved via suitable modifications to zope.conf. VIRTUAL HOSTS (IN GENERAL) Some people asked about the possibility of redirecting requests to back-ends as per some virtual hosts definition. While I believe this is not Pound's job, it can be done. As of version 0.10, Pound supports filtering requests based not only on the request URL, but also on the presence or absence of certain headers. Let's assume that you have internal server 192.168.0.10 that is supposed to serve the needs of virtual host www.server0.com and 192.168.0.11 that serves www.server1.com. You want Pound to listen on address 1.2.3.4 and separate the requests to each host. The config file would look something like this: ListenHTTP Address 1.2.3.4 Port 80 Service HeadRequire "Host: .*www.server0.com.*" BackEnd Address 192.168.0.10 Port 80 End End Service HeadRequire "Host: .*www.server1.com.*" BackEnd Address 192.168.0.11 Port 80 End End End (add whatever else is necessary) or, if you want even safer filtering: ListenHTTP Address 1.2.3.4 Port 80 Service HeadRequire "Host: .*www.server0.com.*" HeadDeny "Host: .*www.server1.com.*" BackEnd Address 192.168.0.10 Port 80 End End Service HeadRequire "Host: .*www.server1.com.*" HeadDeny "Host: .*www.server0.com.*" BackEnd Address 192.168.0.11 Port 80 End End End This is NOT recommended (I personally believe that virtual hosts should be implemented in the back-end servers - putting this in a proxy is a major security kludge) but it works. VIRTUAL HOSTS AND HTTPS Quite often we get inquiries about Pound's ability to do virtual hosting with HTTPS. In order to lay this matter to rest, let me say: HTTPS does not allow virtual hosting! This is not a limitation of Pound, but of HTTPS - no Web server or proxy are able to do it due to the nature of the beast. In order to see why this is the case we need to look at the way HTTPS works. Basically there are three stages in any HTTPS connection: 1. Connection negotiation - the client (your browser) and the server (Web server or proxy) negotiate the basic parameters: ciphers to use, session key, etc. 2. Connection authentication: at the very least the server presents the client with a certificate that says "I am server www.encrypted.com - and certificate.authority.org will verify that". The client may also present a certificate of its own at this stage. 3. Request/response cycle: normal HTTP is sent (through the encrypted channel) back and forth. The vital point to notice here is that connection authentication takes place BEFORE any request was issued. On the other hand, the way virtual hosting works is for the client to specify in the request to which server it would like to talk. This is accomplished via a Host header: GET /index.html HTTP/1.1 Host: http://www.virthost.com Combining the two we get to an impasse: on connection setup the server will reply with the certificate for "www.realhost.com", but the request is really for "www.virthost.com" - and most browsers will scream blue murder (as well they should) if the two do not match. There is a new twist on this however: some of the newer browsers will accept so-called "wild-card certificates". This is a specially crafted certificate that is not issued to a host, but rather to a domain. The result is that on setting-up a new SSL connection, the server replies not with "I am www.encrypted.com", but with "I am *.encrypted.com". If the browser is capable of processing this type of certificate then the connection is set up and normal HTTPS (with www.encrypted.com or special.encrypted.com or even some.other.server.encrypted.com or whatever other name matches) proceeds as usual. Pound supports these certificates and you can use virtual hosts in the normal way. VIRTUAL HOSTS IN ZOPE For reasons I can't quite grasp, it seems that a lot of Zope users are convinced that virtual hosts are only possible through the Apache/VHM combination and that it requires some kind of magic incantation at midnight in order to work (I won't even start on the virgin sacrifices). The simple fact is that VHM and the Apache VirtualHost directives (as well as various tricks through mod_rewrite and mod_proxy) are (almost) mutually exclusive: they perform exactly the same functions and, leaving aside the logging issues, are used independently of each other. Let me repeat that: you may use the VHM without Apache - just click on the VHM mappings tab and add whatever virtual host you wish. From this moment on any request to that host will be mapped back and forth by Zope to the required URL. This works weather you access Zope directly or via any number of proxies on the way, Pound included. To test: add a new host name to your /etc/hosts file, making it an alias for localhost - something like:: 127.0.0.1 localhost www.testhost.mine Add a mapping in VHM from www.testhost.mine to some Zope folder (Examples is already there). Point your browser to http://localhost and you get the normal Zope start page; point it to http://www.testhost.mine and you'll see the Examples starting page. All requests are mapped correctly, and the URLs in the pages (such as base or absoluteURL) are translated correctly in the response. SESSIONS Pound has the ability to keep track of sessions between a client browser and a back-end server. Unfortunately, HTTP is defined as a stateless protocol, which complicates matters: many schemes have been invented to allow keeping track of sessions, none of which works perfectly. Even worse, sessions are critical in order to allow web-based applications to function correctly - it is vital that once a session is established all subsequent requests from the same browser be directed to the same back-end server. Six possible ways of detecting a session have been implemented in Pound (hopefully the most useful ones): by client address, by Basic authentication (user id/password), by URL parameter, by cookie, by HTTP parameter and by header value. - by client address: in this scheme Pound directs all requests from the same client IP address to the same back-end server. Put the lines Session Type IP TTL 300 End in the configuration file to achieve this effect. The value indicates what period of inactivity is allowed before the session is discarded. - by Basic Authentication: in this scheme Pound directs all requests from the same user (as identified in the Basic Authentication header) to the same back-end server. Put the lines Session Type Basic TTL 300 End in configuration file to achieve this effect. The value indicates what period of inactivity is allowed before the session is discarded. WARNING: given the constraints of the HTTP protocol it may very well be that the authenticated request will go to a different back-end server than the one originally requesting it. Make sure all your servers support the same authentication scheme! - by URL parameter: quite often session information is passed through URL parameters (the browser is pointed to something like http://xxx?id=123). Put the lines Session Type URL ID "id" TTL 300 End to support this scheme and the sessions will be tracked based on the value of the "id" parameter. - by cookie value: applications that use this method pass a certain cookie back and forth. Add the lines Session Type Cookie ID "sess" TTL 300 End to your configuration file - the sessions will be tracked by the value of the "sess" cookie. - by HTTP parameter value: applications that use this method pass an HTTP parameter (http://x.y/z;parameter) back and forth. Add the lines Session Type PARM TTL 300 End to your configuration file - the sessions will be tracked by the value of the parameter. - by header value: applications that use this method pass a certain header back and forth. Add the lines Session Type Header ID "X-sess" TTL 300 End to your configuration file - the sessions will be tracked by the value of the "X-sess" header. Please note the following restrictions on session tracking: - session tracking is always associated with a certain Service. Thus each group may have other methods and parameters. - there is no default session: if you have not defined any sessions no session tracking will be done. - only one session definition is allowed per Service. If your application has alternative methods for sessions you will have to define a separate Service for each method. A note on cookie injection: some applications have no session-tracking mechanism at all but would still like to have the client always directed to the same back-end time after time. Some reverse proxies use a mechanism called "cookie injection" in order to achieve this: a cookie is added to the back-end responses and tracked by the reverse proxy. Pound was designed to be as transparent as possible, and this mechanism is not supported. If you really need this sort of persistent mapping use the client address session mechanism (Session Type IP), which achieves the same result without changing the contents in any way. REQUEST LOGGING As a general rule, Pound passes all headers as they arrive from the client browser to the back-end server(s). There are two exceptions to this rule: Pound may add information about the SSL client certificate (as described below), and it will add an X-Forwarded-For header. The general format is: X-Forwarded-for: client-IP-address The back-end server(s) may use this extra information in order to create their log-files with the real client address (otherwise all requests will appear to originate from Pound itself, which is rather useless). In addition, Pound logs requests and replies to the system log. This is controlled by the LogLevel configuration variable (0 - no logging, 1 - normal log, 2 - full log, 3 - Apache combined log format, 4 - Apache combined log format without virtual host). By default the messages go to the LOG_DAEMON facility, but you can change this in the configuration file. If you don't want to, you can just do a: fgrep pound /var/log/messages to get all the messages generated by Pound. HTTPS CERTIFICATES If a client browser connects via HTTPS and if it presents a certificate and if HTTPSHeaders is set, Pound will obtain the certificate data and add the following HTTP headers to the request it makes to the server: - X-SSL-Subject: information about the certificate owner - X-SSL-Issuer: information about the certificate issuer (CA) - X-SSL-notBefore: begin validity date for the certificate - X-SSL-notAfter: end validity date for the certificate - X-SSL-serial: certificate serial number (in decimal) - X-SSL-cipher: the cipher currently in use - X-SSL-certificate: the full client certificate (multi-line) It is the application's responsibility to actually use these headers - Pound just passes this information without checking it in any way (except for signature and encryption correctness). Please note that this mechanism allows forgeries: a client may (maliciously) send these headers to Pound in order to masquerade as an SSL client with a specific certificate. If this is a problem for your application make sure to deny these requests. Add: HeadDeny "X-SSL-Subject:.*" HeadDeny "X-SSL-Issuer:.*" HeadDeny "X-SSL-notBefore:.*" HeadDeny "X-SSL-notAfter:.*" HeadDeny "X-SSL-serial:.*" HeadDeny "X-SSL-cipher:.*" within the Service(s). THREADS AND LIMITS A few people ran into problems when installing Pound because of the various threading models and how they interact with system-imposed limits. Please keep in mind the following requirements: - on most System V derived Unices (of which Linux up to 2.4 is one), a thread is a process. This means that when doing a 'ps' you will see as many processes with the name 'pound' as there are active threads. Each such process uses only two file descriptors, but the system needs to support the required number of processes, both in total and per user (possibly also per process group). In bash, this is 'ulimit -u', in csh this is 'limit maxproc'. - on BSD style systems all threads run in the same process space. Do a ps and you see a single 'pound' process. The process needs two file descriptors per active request (bash: 'ulimit -n', csh 'limit maxfiles'/'limit openfiles'). - on most systems the thread library comes with a built-in limit on the maximal number of concurrent threads allowed - on older systems it usually is 1024, on newer systems quite a bit higher. In very rare cases (very high load and long response times) you may run into this limitation - the symptom is log messages saying "can't create thread". Your only solution is to recompile the system threads library (and possibly the kernel itself) with a higher limit. Please note that your kernel needs to be configured to support the required resources - the above are just the shell commands. SIMILAR SYSTEMS Quite a few people asked "What is wrong with Apache/Squid/ stunnel/your_favorite? Do we really need another proxy system?". The simple answer is that there is nothing wrong - they are all excellent systems that do their jobs very well. The reasoning behind Pound is however slightly different: - In my experience, a load-balancer may easily become a bottle-neck in itself. If you have a heavily loaded site, there are few things more depressing than seeing your "load-balancer" slow down the entire network. This means that the load-balancer should be kept as light-weight as possible. - Security: auditing a large system for security issues is a major undertaking for anybody (ask Bill Gates about it). This implies that in order to avoid introducing new vulnerabilities into a system (after all, your installation is only as secure as its weakest component) the proxy/load-balancer should be kept as small as possible. - Protection: I assume Pound will be the only component exposed to the Internet - your back-end servers will run in a protected network behind it. This means that Pound should filter requests and make sure only valid, correctly formed ones are passed to the back-end servers, thus protecting them from malicious clients. Taking these criteria into consideration, it is easy to see why the other systems mentioned above do not fit: - Apache (with mod_proxy and mod_backhand): great system, but very large. Imposes a significant load on the system, complex set-up procedure (and it is so easy to get it wrong: check how many Apache servers allow proxying from and to external hosts). While Apache has proven remarkably exploit free, I wouldn't wish to go into a security audit for the tens of thousands of lines of code involved, not to mention all the additional modules. - Squid: great caching proxy, but even should load-balancing features become available in the future, do you really need caching on the load-balancer? After all, Pound can easily run on a disk-less system, whereas with Squid you'd better prepare a high throughput RAID. Squid is still perfectly usable as a caching proxy between Pound and the actual Web server, should it lack its own cache (which Zope happily has). - stunnel: probably comes closest to my understanding of software design (does one job only and does it very well). However, it lacks the load balancing and HTTP filtering features that I considered necessary. Using stunnel in front of Pound (for HTTPS) would have made sense, except that integrating HTTPS into Pound proved to be so simple that it was not worth the trouble. - your favourite system: let me know how it looks in light of the above criteria - I am always interested in new ideas. DEDICATED SERVERS Some people asked about the possibility of dedicating specific back-end servers to some clients - in other words, if a request originates from a certain IP address or group of addresses then it should be sent to a specific group of back-end servers. Given the ease with which IP addresses can be forged I am personally doubtful of the utility of such a feature. Even should you think it desirable, it is probably best implemented via the packet filter, rather than a proxy server. Assuming that requests from x.com are to go to s1.local, requests from y.com to s2.local and everything else to s3.local and s4.local, here is how to do it: - make sure your firewall blocks requests to port 8080, 8081 and 8082 - configure Pound as follows: ListenHTTP Address 127.0.0.1 Port 8080 Service BackEnd Address s1.local Port 80 End End End ListenHTTP Address 127.0.0.1 Port 8081 Service BackEnd Address s2.local Port 80 End End End ListenHTTP Address 127.0.0.1 Port 8082 Service BackEnd Address s3.local Port 80 End BackEnd Address s4.local Port 80 End End End - have your packet filter redirect requests to the right local ports based on the origin address. In OpenBSD pf syntax this would be something like: rdr on rl0 from x.com to myhost.com port 80 -> localhost port 8080 rdr on rl0 from y.com to myhost.com port 80 -> localhost port 8081 rdr on rl0 from any to myhost.com port 80 -> localhost port 8082 or in Linux iptables:: iptables -t nat -A PREROUTING -p tcp -s x.com --dport 80 -i eth0 \ -j DNAT --to 127.0.0.1:8080 iptables -t nat -A PREROUTING -p tcp -s y.com --dport 80 -i eth0 \ -j DNAT --to 127.0.0.1:8081 iptables -t nat -A PREROUTING -p tcp --dport 80 -i eth0 -j DNAT \ --to 127.0.0.1:8082 This would give you the desired effect and probably better performance than a purely proxy-based solution (though the performance improvement is debatable, at least on Linux). WebDAV As of version 1.0 Pound supports the full WebDAV command-set. In fact, it has been tested and is known to (almost) work with the Microsoft Outlook Web Gateway, which is quite remarkable given that Microsoft's own proxy does not. Regrettably, Microsoft adherence to standards leaves something to be desired: they decided to add some characters to their URLs - thus breaking a whole set of RFC's. Rather then change Pound to accept these characters (which could create some serious issues with security on other systems) we have made this behaviour dependent on a configuration switch: xHTTP (see the man page for details). If you also use the SSL wrapper feature in front of a Microsoft server you should probably also add 'AddHeader "Front-End-Https: on"'. These changes are also required to access a Subversion server via Pound. OTHER ISSUES The following problems were reported by various people who use pound: - delays in loading pages when the client browser is IE 5.5 (possibly limited to W2K/XP). It seems that IE opens exactly 4 connections (sockets) to the server and keeps them open until some time-out or until the server closes the connection. This works fine, unless you redirect IE to another server - given that all 4 sockets are used IE waits for a while before the redirect is actually performed. Solution: use the directive "Client 1" to ensure that Pound closes sockets very early, thus freeing the necessary resources. Experiment with the time-out - as it may cause problems with slow connections. - Pound fails to start; HTTPS is enabled and the message "can't read private key from file xxx" appears in the log. Solution: make sure that the certificate file includes: - (optional) a chain of certificates from a known certificate authority to your server certificate - the server certificate - the private key; the key may NOT be password-protected The file should be in PEM format. The OpenSSL command to generate a self-signed certificate in the correct format would be something like:: openssl req -x509 -newkey rsa:1024 -keyout test.pem -out test.pem \ -days 365 -nodes Note the '-nodes' flag - it's important! - Pound fails to operate correctly with SSL when RootJail is specified. Solution: OpenSSL requires access to /dev/urandom, so make sure such a device is accessible from the root jail directory. Thus if your root jail is something like /var/pound: mkdir /var/pound/dev mknod /var/pound/dev/urandom c 1 9 or whatever major/minor number are appropriate for your system. - In chroot mode logging may stop functioning. Solution: make sure /dev and the root jail are on the same filesystem and create a hard link in the root jail to /dev/log: mkdir /chroot/jail/dev ln /dev/log /chroot/jail/dev/log Alternately you can have syslog (or syslog-ng) listen on another socket - see the man page for details. - In chroot mode name resolution (and especially redirects) may stop functioning. Solution: make sure your resolver works correctly in the jail. You probably need copies of /etc/resolv.conf and (at least part) of /etc/hosts. Depending on your system additional files may be required check your resolver man page for details. Should name resolution fail the translation of host names to IP addresses would fail, thereby defeating the mechanism Pound uses to identify when should a Redirect be rewritten. - IE 5.x fails to work (correctly or at all) with Pound in HTTPS mode. Solution: define the supported OpenSSL ciphers for IE compatibility (this is really a work-around for a known IE bug): Ciphers "ALL:!ADH:!EXPORT56:RC4+RSA:+HIGH:+MEDIUM:+LOW:+SSLv2:+EXP:+eNULL" (Thanks to Andi Roedl for the tip). - Linux-specific: some people use various redundant Pound solutions for Linux which require Pound instances on separate machines to bind to the same address. The default configuration of Linux does not allow a program to bind() to non-local addresses, which may cause a problem. Solution: add echo 1 > /proc/sys/net/ipv4/ip_nonlocal_bind in your start-up script, or just set net.ipv4.ip_nonlocal_bind = 1 in /etc/sysctl.conf (if you have one). (Thanks to RUne Saetre for the suggestion). ACKNOWLEDGMENTS Albert (of Alacra) for investigating and writing the TCP_NODELAY code. Luuk de Boer did some serious testing and debugging of the WebDAV code for Microsoft servers. Alession Cervellin packages and makes available Solaris packages for various Pound versions. David Couture found some nasty, lurking bugs, as well as contributing some serious testing on big hardware. Frank Denis contributed a few excellent code patches and some good ideas. Dmitriy Dvoinikov makes available a live-CD FreeBSD distribution that includes a Pound binary. Abner G. Jacobsen did a lot of testing in a production environment and contributed some very nice ideas. Akira Higuchi found a significant security issue in Pound and contributed the code to fix it. Ken Lalonde contributed very useful remarks and suggestions, as well as correcting a few code errors. Phil Lodwick contributed essential parts of the high-availability code and came up with some good ideas. In addition, did some serious testing under heavy loads. Simon Matter packages and makes available RPMs for various Pound versions. Jan-Piet Mens raised some interesting security points about the HTTPS implementation and brought the original idea for SSL header filtering. Andreas Roedl for testing and some ideas about logging in root jails. Gurkan Sengun tested Pound on Solaris, contributed the Solaris cc flags and makes a Solaris pre-compiled version available on his Web-site (www.linuks.mine.nu) Shinji Tanaka contributed a patch for controlling logging to disk files. This is available at http://www.hatena-inc.co.jp/~stanaka/pound/ Jim Washington contributed the code for WebDAV and tested it. Maxime Yve discovered a nasty bug in the session tracking code and contributed the patch to fix it. All the others who tested Pound and told me about their results.
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The Pound program is a reverse proxy, load balancer and HTTPS front-end for Web server(s).
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