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- Starting the server
- Configuration parameters
- Runtime information
- Virtual hosts
- Access files
- Procedures and macros
A small web-server written in Chicken.
Spiffy is a web-server library for the Chicken Scheme system. It's quite easy to set up and use (whether as a library or a standalone server application) and it can be customized in numerous ways.
To test it out immediately, try the following command after installing:
$ csi -e "(use spiffy) (start-server)"
This starts up a spiffy server which listens on port 8080, and serves documents from the default docroot, which is a directory called web underneath the current working directory.
A typical httpd would be a more complete program which first configures a few things like the port-number and root-path parameters and set up some logging through access-log and error-log. It could also configure some extensions (like simple-directory-handler) and register some user-defined path handlers by adding them to vhost-map. Finally it could daemonize by forking and exiting. The mentioned parameters are explained below.
Starting the server[procedure] (start-server [port: port-number] [bind-address: address] [listen: listen-procedure] [accept: accept-procedure] [addresses: addresses-procedure])
This is the most convenient way to get a server up and running quickly. It starts the server to listen on the given port. Other configuration can be tweaked through SRFI-39 parameters. These are listed below. Once the server is started, server behaviour can be controlled through these parameters as well. After the listener is started, when spiffy-user and/or spiffy-group are provided, this procedure will drop privileges before starting the accept loop.
By default, Spiffy will only serve static files. On directories, it will give a "403 forbidden", unless there is an index-file. If there is, that file's contents will be shown.
All arguments directly supplied to start-server override the configuration parameter values and will be parameterized to reflect this new setting.
port-number defaults to the value of server-port (see below). bind-address defaults to the value of server-bind-address (see below). listen defaults to tcp-listen and should accept a port number, backlog and bind address. accept defaults to tcp-accept, and is passed on as-is to accept-loop. addresses-procedure defaults to a procedure which works like tcp-addresses but can also detect SSL ports and return the addresses of the underlying TCP connection.[procedure] (accept-loop listener accept [addresses])
This procedure starts the loop which accepts incoming connections and fires off threads to handle requests on those connections. You can use it if you need more control over the startup process than start-server offers.
The listener object should be an object which is accepted by the accept procedure, which should return two values; an input and an output port which represent an incoming connection from a client. The optional addresses procedure should accept the input port returned by the accept procedure and return two strings; the local and remote addresses of the server and client, respectively.
For example, you can set up an SSL context and drop privileges, and possibly load extra code before starting the accept loop (Spiffy contains the required code to detect SSL ports, and will handle those more-or-less transparently):
(use chicken-syntax) ; This must done at the very toplevel so that it is available in the interaction-environment. (use spiffy openssl) (server-port 443) (spiffy-user "www") (spiffy-group "www") ;; Bind the port as root, before we drop privileges (define listener (ssl-listen (server-port))) ;; Load the certificate files as root so we can secure their permissions (ssl-load-certificate-chain! listener "server.pem") (ssl-load-private-key! listener "server.key") ;; Drop root privileges (switch-user/group (spiffy-user) (spiffy-group)) ;; We don't want to load this extra code as root! (load "extra-code.scm") ;; Done! Start listening for connections. (accept-loop listener ssl-accept)[procedure] (switch-user/group user group)
This is a helper procedure which allows you to easily drop privileges before running the accept loop. The user and group must be either strings or UID/GID numbers which indicate the username and groupname to which you want to switch. Either is also allowed to be #f, if you don't want to switch that aspect of the process.
The following parameters can be used to control spiffy's behaviour. Besides these parameters, you can also influence spiffy's behaviour by tweaking the intarweb parameters.[parameter] (server-software [product])
The server software product description. This should be a valid product value as used in the server and user-agent headers by intarweb; this is a list of lists. The inner lists contain the product name, the product version and a comment, all either a string or #f. Default: (("Spiffy" "a.b" "Running on Chicken x.y")), with a.b being the Spiffy major/minor version and x.y being Chicken's.[parameter] (root-path [path])
The path to the document root, for the current vhost. Defaults to "./web".[parameter] (server-port [port-number])
The port number on which to listen. Defaults to 8080.[parameter] (server-bind-address [address])
The IP address on which to listen, or all addresses if #f. Defaults to #f.[parameter] (max-connections [number])
The maximum number of simultaneously active connections. Defaults to 1024.
Any new connection that comes in when this number is reached must wait until one of the active connections is closed.[parameter] (spiffy-user [name-or-uid])
The name or UID of a user to switch to just after binding the port. This only works if you start Spiffy as root, so it can bind port 80 and then drop privileges. If #f, no switch will occur. Defaults to #f.[parameter] (spiffy-group [name-or-gid])
The name or GID of a group to switch to just after binding the port. This only works if you start Spiffy as root, so it can bind port 80 and then drop privileges. If #f, it will be set to the primary group of spiffy-user if the user was selected. Otherwise, no change will occur. Defaults to #f.[parameter] (index-files [file-list])
A list of filenames which are to be used as index files to serve when the requested URL identifies a directory. Defaults to '("index.html" "index.xhtml")[parameter] (mime-type-map [extension->mimetype-list])
An alist of extensions (strings) to mime-types (symbols), to use for the content-type header when serving up a static file. Defaults to
See also file-extension->mime-type for a procedure which can look up file extensions for you.[parameter] (default-mime-type [mime-type])
The mime-type (a symbol) to use if none was found in the mime-type-map. Defaults to 'application/octet-stream[parameter] (default-host [hostname])
The host name to use when no virtual host could be determined from the request. See the section on virtual hosts below.[parameter] (vhost-map [host-regex->vhost-handler])
A mapping of virtual hosts (regex) to handlers (procedures of one argument; a continuation thunk). See the section on virtual hosts below. Defaults to `((".*" . ,(lambda (continue) (continue))))[parameter] (file-extension-handlers [extension->handler-list])
An alist mapping file extensions (strings) to handler procedures (lambdas of one argument; the file name relative to the webroot). Defaults to '(). If no handler was found, defaults to just sending a static file.[parameter] (access-log [log-file-or-port])
Filename (string) or port to append access log output to. Default: #f (disabled)[parameter] (error-log [log-file-or-port])
Filename (string) or port to which error messages from evaluated code should be output. Default: (current-error-port)[parameter] (debug-log [log-file-or-port])
Filename (string) or port to write debugging messages to. Default: #f (disabled)[parameter] (access-file [string])
The name of an access file, or #f if not applicable. This file is read when the directory is entered by the directory traversal system, and allows you to write dynamic handlers that can assign new values for parameters only for resources below that directory, very much like adding parameters in code before calling a procedure. See the section "Access files" for more information.[parameter] (trusted-proxies [list-of-strings])
When an incoming request is first accepted, the remote-address is initialized to the IP address of the remote peer. When this peer is a reverse proxy in an internal network, that value is not so useful because all requests would seem to come from there.
If you want to have a more meaningful value, you can add the IP addresses of proxies to this list, and X-Forwarded-For entries from these proxies will be stripped, and the first entry just before the most-distant trusted proxy will be used.
Be careful: all IP addresses in this list will be trusted on their word.
Default: () (trust no one)
Besides "static" configuration, Spiffy also has several handlers for when something is to be served.[parameter] (handle-directory [proc])
The handler for directory entries. If the requested URL points to a directory which has no index file, this handler is invoked. It is a procedure of one argument, the path (a string) relative to the webroot. Defaults to a procedure which returns a "403 forbidden".[parameter] (handle-file [proc])
The handler for files. If the requested URL points to a file, this handler is invoked to serve the file. It is a procedure of one argument, the path (a string) relative to the webroot. Defaults to a procedure which sets the content-type and determines a handler based on the file-extension-handlers, or send-static-file if none was found and the method was HEAD or GET (otherwise it replies with 405 "Method Not Allowed").[parameter] (handle-not-found [proc])
The handler for nonexistent files. If the requested URL does not point to an existing file or directory, this procedure is called. It is a procedure of one argument, the path (a string) to the first missing file in the request path. This path should be interpreted as being relative to the webroot (even though it points to no existing file). Defaults to a procedure which returns a "404 Not found".[parameter] (handle-exception [proc])
The handler for when an exception occurs. This defaults to a procedure that logs the error to the error log. While debugging or developing, it may be more convenient to use a procedure that sends the error back to the client:
(handle-exception (lambda (exn chain) (send-status 'internal-server-error (build-error-message exn chain))))[parameter] (handle-access-logging [proc])
The handler for access logging. This is a procedure of zero arguments which should write a line to the access log. Defaults to a procedure which writes a line to access-log which looks like this:
127.0.0.1 [Sun Nov 16 15:16:01 2008] "GET http://localhost:8080/foo?bar HTTP/1.1" 200 "http://localhost:8080/referer" "Links (2.2; NetBSD 5.99.01 macppc; x)"
During the handling of a request, Spiffy adds more information to the environment by parameterizing the following parameters whenever the information becomes available:[parameter] (current-request [request])
An intarweb request-object that defines the current request. Available from the moment the request comes in and is parsed. Contains, among other things, the query parameters and the request-headers, in fully parsed form (as intarweb returns them).
The URI is automatically augmented with the host, scheme and port if it is not an absolute URI.[parameter] (current-response [response])
An intarweb response-object that defines the current response. Available from the same time current-request is available. This keeps getting updated along the way, while the response data is being refined (like when headers are being added).[parameter] (current-file [path])
The path to the requested file (a string). Available from the moment Spiffy determined the requested URL points to a file (just before the handle-file procedure is called). This file is relative to the root-path.[parameter] (current-pathinfo [path])
The trailing path fragments (a list of strings) that were passed in the URL after the requested filename. Available from the moment Spiffy determined the requested URL points to a file (just before the handle-file procedure is called).[parameter] (remote-address [address])
The IP address (a string) of the user-agent performing the current request. See also trusted-proxies.[parameter] (local-address [address])
The IP address (a string) on which the current request came in.[parameter] (secure-connection? [boolean])
#t when the current connection is a secure one (SSL), #f if it isn't (regular HTTP). This pertains only to the direct connection itself, so if Spiffy is behind a proxy this will be #f even if the proxy itself is connected to the client over SSL.
One way to get around this is to always add a custom header to your reverse proxy's configuration file. Then you can read this out in Spiffy and set secure-connection? to #t or #f, as well as updating the request URI's scheme. There is no standardized header for this, so the default Spiffy won't do this.
An easier way around this is to set up two spiffies listening on different ports and configure one to have secure-connection? set to #t, which you redirect incoming HTTPS requests to.
This parameter may disappear or change in the future, when there are more smart people using Spiffy who know how to deal with this or the Spiffy maintainer has a moment of clarity and decides how to do this cleanly.
Spiffy has support for virtual hosting, using the HTTP/1.1 Host header. This allows you to use one Spiffy instance running on one IP address/port number to serve multiple webpages, as determined by the hostname that was requested.
The virtual host is defined by a procedure, which can set arbitrary parameters on-the-fly. It is passed a continuation thunk, which it should explicitly call if it wants the processing to continue. The most used parameter in virtual host setups is the root-path parameter, so that another docroot can be selected based on the requested hostname, showing different websites for different hosts:
(vhost-map `(("foo\\.bar\\.com" . ,(lambda (continue) (parameterize ((file-extension-handlers `(("ssp" . ,ssp-handler) ("ws" . ,web-scheme-handler))) (root-path "/var/www/domains/foo.bar.com")) (continue)))) (,(glob->regexp "*.domain.com") . ,(lambda (continue) (parameterize ((file-extension-handlers `(("php" . ,(cgi-handler* "/usr/pkg/libexec/cgi-bin/php")))) ;; You can also change PHP's arg_separator.input ;; to be ";&" instead of this parameter (form-urlencoded-separator "&") (root-path "/var/www/domains/domain.com")) (continue))))))
In this example, if a client accesses foo.bar.com/mumble/blah.html, the file /var/www/domains/foo.bar.com/mumble/blah.html will be served. Any files ending in .ssp or .ws will be served by the corresponding file type handler. If there's any PHP file, its source will simply be displayed. In case of my.domain.com/something/bar.html, the file /var/www/domains/domain.com/something/bar.html will be served. If there's a .ssp or .ws file there, it will not be interpreted. Its source will be displayed instead. A .php file, on the other hand, will be passed via CGI to the program /usr/pkg/bin/php.
Domain names are mapped to a lambda that sets up any parameters it wants to override from the defaults. The host names are matched using string-match. If the host name is not yet a regexp, it will be converted to a case-insensitive regexp.
Fine-grained access-control can be implemented by using so-called access files. When a request for a specific file is made and a file with the name given in the access-file parameter exists in any directory between the root-path of that vhost and the directory in which the file resides, then the access file is loaded as an s-expression containing a function and is evaluated with a single argument, the function that should be called to continue processing the request.
This works just like vhosting. The function that gets called can call parameterize to set additional constraints on the code that handles deeper directories.
For example, if we evaluate (access-file ".access") before starting the server, and we put the following code in a file named .access into the root-directory, then all accesses to any file in the root-directory or any subdirectory will be denied unless the request comes from localhost:
(lambda (continue) (if (string=? (remote-address) "127.0.0.1") (continue) (send-status 'forbidden "Sorry, you're not allowed here")))
If we only want to deny access to files that start with an X, put this in the .access file:
(lambda (continue) (let ((old-handler (handle-file))) (parameterize ((handle-file (lambda (path) (if (not (string-prefix? "X" (pathname-file path))) (send-status 'forbidden "No X-files allowed!") (old-handler path))))) (continue))))
Of course, access files can be used for much more than just access checks. One can put anything in them that could be put in vhost configuration or in top-level configuration.
They are very useful for making deployable web applications, so you can just drop a directory on your server which has its own configuration embedded in an access file in the root directory of the application, without having to edit the server's main configuration files.
Procedures and macros
The following procedures and macros can be used in dynamic web programs, or dynamic server configuration:[procedure] (with-headers new-headers thunk)
Call thunk with the header list new-headers. This parameterizes the current response to contain the new headers. The existing headers are extended with new-headers through intarweb's headers procedure.[procedure] (write-logged-response)
This procedure simply writes current-response after calling handle-access-logging. Responses should always go through this procedure instead of directly using write-response from intarweb.[procedure] (log-to log format . rest)
Write a printf-style format string to the specified log (one of access-log, error-log or debug-log). format is a printf-style format string, and rest arguments should match the arguments one would pass to printf. A newline is appended to the end of the log message automatically.[procedure] (send-response #!key status code reason body headers)
Easy way to send string data to the client, with additional headers. It will add appropriate headers and will automatically detect HEAD requests. If BODY is #f, no body is sent and the content-length header is set to zero.
The status is a symbol describing the response status, which is looked up in intarweb's http-status-code parameter. If code and/or reason are supplied, these take precedence. If status and code are missing, the default status is ok.[procedure] (send-status code reason [message])
[procedure] (send-status status [message])
Easy way to send a page and a status code to the client. The optional message is a string containing HTML to add in the body of the response. Some structure will be added around the message, so message should only be the actual message you want to send.
This can be called either with a numeric code, string reason and optional message or with a symbolic status and optional message.
(send-status 404 "Not found" "Sorry, page not found! Please try <a href='/search.ws'>our search page</a>") ;; Alternative way of doing this: (send-status 'not-found "Sorry, page not found! Please try <a href='/search.ws'>our search page</a>")[procedure] (send-static-file filename)
Send a file to the client. This sets the content-length header and tries to send the file as quickly as possible to the client. The filename is interpreted relative to root-path.[procedure] (file-extension->mime-type EXT)
Looks up the file extension EXT (without a trailing dot) in mime-type-map, or uses default-mime-type when the extension can't be found.
If EXT is #f, it'll look up the extension that is the empty string.
This returns a symbol which indicates the mime-type which is matched to the extension (for example text/html).[procedure] (restart-request request)
Restart the entire request-handling starting at the point where the request was just parsed. The argument is the new request to use. Be careful, this makes it very easy to introduce unwanted endless loops![procedure] (htmlize string) => string
Encode "special" html symbols like tag and attribute characters so they will not be interpreted by the browser.[procedure] (build-error-message exn chain [raw-output])
Build an error message for the exception exn, with call chain chain. Defaults to HTML output, unless raw-output is given and nonfalse.
This section will describe what the various modules that come with Spiffy are and how they work.
Note: ssp-handler is deprecated for two reasons.
First, it's ugly in that it is presentation-first (code needs to be "escaped" into) and thereby encourages mixing code and presentation.
Second, it's a potential security hazard as it requires you to put code in your documentroot which often needs to be writable in order to store user-uploaded assets. Protecting only those directories is tricky and easily forgotten.
This will be removed in a future release of Spiffy. It might get moved into a separate egg if enough people are still relying on this.
SSP, or Scheme Server Pages, are a way to embed Scheme in HTML pages. Files with an extension of .ssp are handled specifically, by replacing occurrences of certain reserved tags with Scheme code. There are two possible forms, either the long version, where all output is redirected to the HTTP response port, or the short, where the result of the embedded expression is displayed in the response. The tags default to <?scheme and <?, see Configuration for how to change them.
<html><body> <ol><?scheme (for-each (lambda (i) (printf "<li>~S~%" i)) (iota 5))?></ol> <br /> <b><?(call-with-values (lambda () (user-information (current-user-id))) (lambda (name . _) name))?><b> </body></html>
would generate for example something like this:
1. 0 2. 1 3. 2 4. 3 5. 4
(felix x 500 100 /home/felix /bin/bash)
When a .ssp file is loaded the first time, or when it has been modified, then a translation takes place that generates a loadable Scheme source file (with the extension .sspx, in the same directory as the original file) from the original data, so in the above example something like this would be generated:
(let () (display "<html><body>\n<ol>") (for-each (lambda (i) (printf "<li>~S~%" i)) (iota 5)) (display "</ol>\n<br />\n<b>") (display (call-with-values (lambda () (user-information (current-user-id))) (lambda (name . _) name))) (display "<b>\n</body></html>\n") )
Note that the body is evaluated in a (let () ...) form.
Note: each request runs in a separate thread, so code in .ssp pages should take care when using global variables.
The SSP handler can be configured with the following options:[parameter] (ssp-short-open-tag [tag-regexp])
The opening tag for short fragments. Default: <?[parameter] (ssp-long-open-tag [tag-regexp])
The opening tag for long fragments. Default: <?scheme[parameter] (ssp-close-tag [tag-regexp])
The closing tag for Scheme fragments in .ssp files. Default: ?>[parameter] (ssp-eval-environment [environment])
The environment passed to eval when evaluating Scheme code inside .ssp-pages. Default: interaction-environment[parameter] (ssp-cache-dir [directory-name])
The directory under which to store cached .ssp files (these end in .sspx and are pure Scheme files). Useful if you want to block write access to the webserver under your docroot. Default: "."
If it's a relative path, it is relative to root-path, if absolute it's taken to be relative to the filesystem root. A directory structure similar to the docroot will be created underneath this path, so for example if the file /foo/bar/qux.ssp exists, and the cache dir is set to /cache, it will create the file /cache/foo/bar/qux.sspx.
For the duration of evaluating a SSP page, the following parameters will have a value assigned to them:[parameter] (current-workdir [path])
During execution, the current working directory of the SSP handler. Any of the "include" procedures (ssp-include, ssp-stringize) will interpret their file arguments to be relative to this directory.[parameter] (ssp-exit-handler [handler])
During execution of an ssp page, ssp-exit-handler is bound to a procedure that will finish the current page, ignoring any further content or code.
The ssp-handler module adds the following procedures to the environment:[procedure] (ssp-handler filename)
The handler itself, which should be used in the file-extension-handlers parameter list.[procedure] (ssp-include filename)
Translates the file filename into Scheme by replacing <?scheme ... ?> and <? ... ?> sequences (if needed) and writes the translated contents to the current output-port.[procedure] (ssp-stringize FILENAME)
Similar to ssp-include, but instead of writing the translated text, the text is returned as a string.
Note: This extension is deprecated for one of the reasons the ssp-handler is deprecated; it requires you to put code in your document root, which often needs to be (partially) writable by the webserver, thereby promoting insecure practices. Please drop me a line if you're using it so I know whether it's worth putting into an egg.
Another way of executing Scheme code to produce content are .ws files: these should contain a Scheme expression that is expected to evaluate to a string which will be directly written as the response to the current request. This facility is intended for Scheme code that uses the web-scheme extension.
You can use the web-scheme-handler for any Scheme file which returns HTML as a string or which has a side-effect of outputting the HTML. If it's the latter, make sure the final statement in your file does not return a string or it will be appended to the output (just like in the csi REPL).
Tip This handler type is perfect not only for web-scheme but also for when you're using SRV:send-reply with SXML or for example a wiki-to-string translator.
Note: each request runs in a separate thread, so code in .ws pages should take care when using global variables.
Note: web-scheme-handler is a separate extension and must be imported as such.
The Web-scheme handler can be configured with the following options:[parameter] (web-scheme-eval-environment [environment])
The environment passed to eval when evaluating Scheme code inside .ws-pages. Default: interaction-environment
The Web-scheme handler adds only one procedure to the environment:[procedure] (web-scheme-handler filename)
The handler itself, which should be used in the file-extension-handlers parameter list.
Spiffy supports CGI/1.1 as specified by RFC 3875.
All request headers will be passed as environment variables to the CGI program, prefixed with "HTTP_", and converted to uppercase, with hyphens ("-") replaced by an underscore ("_"). The CGI program will receive the request body in unparsed form from stdin and should write a complete HTTP response to stdout. Any headers that are missing but required for HTTP will be added by Spiffy. For more info on how a CGI script is called, consult the spec.
The AUTH_TYPE and REMOTE_USER environment variables are currently not set during invocation of CGI subprocesses. The REMOTE_IDENT environment variable is not and never will be supported.
CGI handler can be configured with the following parameters:[procedure] (cgi-default-environment [env-alist])
The environment variables that should be in the default environnment of every CGI program. Variables like SCRIPT_NAME will be added dynamically to the end of this alist.
(("GATEWAY_INTERFACE" . "CGI/1.1"))
CGI-handler adds two procedures to the environment:[procedure] (cgi-handler filename [interpreter])
The cgi handler simply calls CGI scripts. It is assumed the requested file is executable if no interpreter is given. (If used as a regular handler, it will only receive the filename). If the filename is a relative path, it is assumed to be relative to (root-path). It's safer to store your scripts outside the docroot, though![procedure] (cgi-handler* [interpreter])
The cgi-handler* procedure is usually more useful. It allows you to define an interpreter to use for files and returns a new handler. See the example above for file-extension-handlers.
In order to get directory listings, you can use simple-directory-handler. Just parameterize handle-directory's value with the simple-directory-handler procedure and you're set.
The simple directory handler has a few configuration options:[procedure] (simple-directory-dotfiles? [dotfiles?])
Determines if dotfiles should show up in the directory listings. Default: #f[procedure] (simple-directory-display-file [displayer])
A lambda that accepts three arguments: the remote filename, the local filename and a boolean that says if the file is a directory. This lambda should output a table row with the desired information. Defaults to a lambda that prints the name, size and date when the file was last modified.
The simple-directory handler adds only one procedure to the environment:[procedure] (simple-directory-handler pathname)
The handler itself, which should be used in the handle-directory parameter.
Spiffy is very easy to use for simple cases:
(use spiffy) (server-port 80) (root-path "/var/www") (start-server)
One could also use parameterize:
(use spiffy) (parameterize ((server-port 80) (root-path "/var/www")) (start-server))
Spiffy does not activate Chicken's TCP buffering, which results in extra traffic: one packet sent per header line. With a TCP buffer size greater than the total header length, all headers will be coalesced into a single write; generally the response body will be coalesced as well. For example:
(tcp-buffer-size 2048) ; from unit tcp (start-server)
- 4.15 Disallow non-GET/HEAD requests for normal files in handle-file. Remove dependencies on matchable and regex eggs. Allow request-uri overrides in user lambdas to affect the default handler (Thanks to Mario).
- 4.14 Fix ssp-handler's pathname construction so it doesn't error on files in the rootdirectory. Fix incompatibility with version 1.6.1 of the OpenSSL egg [Thanks to Mario and Thomas.]
- 4.13 Add trusted-proxies parameter so remote-address can have a meaningful value in the presence of reverse proxies [thanks to John J Foerch]. Allow cgi scripts to be outside the docroot. Pass on query-strings to CGI scripts as-is, if possible, to avoid breaking scripts that rely on a particular variable-separator (reported by Felix Winkelmann). Refactor to use symbolic response codes from Intarweb.
- 4.12 Make Spiffy optionally fully independent of Unit tcp [thanks to Jim Ursetto] Tests now also work with Chickens greater than 4.6.0 (removed deprecated getenv calls)
- 4.11 Drop openssl requirement (suggested by Felix Winkelmann); split up listening and accept loop invocation to allow loading code after dropping root privileges (suggested by Mario Goulart).
- 4.10 Fix serious bug which caused Spiffy to exit after handling N requests. Fix handling of empty path components now that uri-generic preserves them.
- 4.9 Export file-extension->mime-type. Add more info about exceptional situations to the debugging logs when enabled.
- 4.8 Fix ssl support. Get rid of spiffy-root-uri. Add timestamp and request info to error log.
- 4.7 Fix redirects for directories again (thanks to Mario). NO TESTCASE (possibly to be fixed in uri-generic)
- 4.6 Fix redirects for directories with special URI characters in them (thanks to Felix)
- 4.5 Add send-response procedure; flush output after request is handled; use proper IANA-assigned MIME types in default mime-type-map; fix server-root-uri when spiffy is behind a proxy [thanks to zbigniew]
- 4.4 Fix a problem with 304 "not modified", for which Safari incorrectly tries to read a content-body when a content-length is present.
- 4.3 Fix crash with extensionless files and nonempty extension handlers
- 4.2 Add support for caching headers and proper If-Modified-Since support
- 4.1 Make cgi-handler cope with missing pathinfo. Fix statuscode related crash in cgi-handler. Make ssp handler's open/close tags parameters, so it actually matches what the documentation says. Add ssp-cache-dir. Update for latest intarweb changes (0.2)
- 4.0 Rewrite from scratch, using Intarweb
- pre-4.0 See the changelog for the old spiffy
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