Fullmoon
Fullmoon is a fast and minimalistic web framework based on Redbean -- a portable, single-file distributable web server.
Everything needed for development and distribution comes in a single file with no external dependencies and after packaging with Redbean runs on Windows, Linux, or macOS. The following is a complete example of a Fullmoon application:
local fm = require "fullmoon"
fm.setTemplate("hello", "Hello, {%& name %}")
fm.setRoute("/hello/:name", function(r)
return fm.serveContent("hello", {name = r.params.name})
end)
fm.run()
After it is packaged with Redbean, it can be launched
using ./redbean.com
, which starts a server that returns "Hello, world"
to an HTTP(S) request sent to http://localhost:8080/hello/world.
Contents
- Why Fullmoon
- Installation
- Usage
- Quick reference
- Examples
- Documentation
- Benchmark
- Status
- Author
- License
Why Fullmoon
Redbean is a single-file distributable cross-platform web server with unique and powerful qualities. While there are several Lua-based web frameworks (Lapis, Lor, Sailor, Pegasus, and others), none of them integrates with Redbean (although there is an experimental framework anpan).
Fullmoon is a lightweight and minimalistic web framework that is written from the perspective of showcasing all the capabilities that Redbean provides by extending and augmenting them in the simplest and the most efficient way. It runs fast and comes with batteries included (routes, templates, JSON generation and more).
Fullmoon follows the Lua philosophy and provides a minimal set of tools to combine as needed and use as the basis to build upon.
What Redbean provides
- Single file deployment and distribution (Linux, Windows, and macOS)
- Integrated SSL support (using MbedTLS) with SSL virtual hosting
- Integrated crypto hashing (SHA1/SHA224/256/384/512/BLAKE2B256)
- Cross-patform
fork
,socket
, shared memory, and more - Efficient serving of static and gzip encoded assets
- Integrated password-hashing (using Argon2)
- pledge/unveil sandboxing (where supported)
- unix.* module for Unix system interfaces
- HTTP/HTTPS client for external requests
- JSON and Lua serialization and parsing
- Ships with Lua 5.4 and SQLite 3.40
What Fullmoon adds
- Small package (~1700 LOC) with no external dependencies
- Simple and flexible routing with parameters and custom filters
- Template engine with JSON support and efficient memory utilization
- Optimized execution with pre-compiled routes and lazy loaded methods
- Response streaming and Server-Sent Events support
- Cookie/header/session generation and processing
- Multipart message processing for file uploads
- Parametrized URL rewrites and re-routing
- Form validation with a variety of checks
- Cron syntax for scheduling Lua functions
- DB management with schema migrations
- Custom 404 and other status pages
- Basic support to run CGI scripts
- Access to all Redbean features
Installation
Step 1: Get the latest Redbean (v2.0+)
Download a copy of Redbean by running the following commands (skip the second one if running these commands on Windows):
curl -o redbean.com https://redbean.dev/redbean-2.2.com
chmod +x redbean.com
The latest version number can be retrieved with the following request:
curl https://redbean.dev/latest.txt
Another option is to build Redbean from source by following instructions for the source build.
Step 2: Prepare Fullmoon code
- Copy
fullmoon.lua
to.lua/
directory - Save the application code to a file named
.init.lua
(for example, the Lua code shown in the description).
Another option is to place the application code into a separate file
(for example, .lua/myapp.lua
) and add require "myapp"
to .init.lua
.
This is how all included examples are presented.
Step 3: Package Fullmoon code with Redbean
zip redbean.com .init.lua .lua/fullmoon.lua
If the application code is stored in a separate Lua file, as described above,
make sure to place it inside the .lua/
directory and zip that file as well.
Step 4: Run the server
./redbean.com
If this command is executed on Linux and throws an error about not finding interpreter, it should be fixed by running the following command (although note that it may not survive a system restart):
sudo sh -c "echo ':APE:M::MZqFpD::/bin/sh:' >/proc/sys/fs/binfmt_misc/register"
If this command produces puzzling errors on WSL or WINE when using Redbean 2.x, they may be fixed by disabling binfmt_misc:
sudo sh -c 'echo -1 >/proc/sys/fs/binfmt_misc/status'
Step 5: Check the result
Launch a browser pointing at http://localhost:8080/hello/world and it should return "Hello, world" (assuming the application is using the code shown in the introduction or the one in the usage section).
Usage
The simplest example needs to (1) load the module, (2) configure one route, and (3) run the application:
local fm = require "fullmoon" -- (1)
fm.setRoute("/hello", function(r) return "Hello, world" end) -- (2)
fm.run() -- (3)
This application responds to any request for /hello
URL with returning
"Hello, world" content (and the 200 status code) and responds with the
404 status code for all other requests.
Quick reference
-
setRoute(route[, action])
: registers a route. Ifroute
is a string, then it is used as a route expression to compare the request path against. If it is a table, then its elements are strings that are used as routes and its hash values are conditions that the routes are checked against. If the second parameter is a function, then it is executed if all conditions are satisfied. If it is a string, then it is used as a route expression and the request is processed as if it is sent at the specified route (acts as an internal redirect). If any condition is not satisifed, then the next route is checked. The route expression can have multiple parameters and optional parts. The action handler accepts a request table that provides access to request and route parameters, as well as headers, cookies, and session. -
setTemplate(name, template[, parameters])
: registers a template with the specified name or a set of templates from a directory. Iftemplate
is a string, then it's compiled into a template handler. If it is a function, it is stored and called when rendering of the template is requested. If it's a table, then its first element is a template or a function and the rest are used as options. For example, specifyingContentType
as one of the options sets theContent-Type
header for the generated content. Several templates (500
,json
, and others) are provided by default and can be overwritten.parameters
is a table with template parameters stored as name/value pairs (referenced as variables in the template). -
serveResponse(status[, headers][, body])
: sends an HTTP response using providedstatus
,headers
, andbody
values.headers
is an optional table populated with HTTP header name/value pairs. If provided, this set of headers removes all other headers set earlier during handling of the same request. Header names are case-insensitive, but provided aliases for header names with dashes are case-sensitive:{ContentType = "foo"}
is an alternative form for{["Content-Type"] = "foo"}
.body
is an optional string. -
serveContent(name, parameters)
: renders a template using provided parameters.name
is a string that names the template (as set by asetTemplate
call) andparameters
is a table with template parameters stored as name/value pairs (referenced as variables in the template). -
run([options])
: runs the server using configured routes. By default the server listens on localhost and port 8080. These values can be changed by settingaddr
andport
values in theoptions
table.
Examples
Running examples requires including a require
statement in the .init.lua
file, which loads the module with each example code, so for the showcase
example implemented in showcase.lua
, .init.lua
includes the following:
-- this is the content of .init.lua
require "showcase"
-- this loads `showcase` module from `.lua/showcase.lua` file,
-- which also loads its `fullmoon` dependency from `.lua/fullmoon.lua`
Showcase example
The showcase example demonstrates several Fullmoon features:
- serving static assets (using
serveAsset
) - setting http to https redirect
- setting 404 template
- configuring internal redirect
- configuring external redirect (using
serveRedirect
) - filtering for loopback ip client addresses
- filtering based on parameter values using regex
- serving json
The following files need to be added to redbean executable/archive:
.init.lua -- require "showcase" .lua/fullmoon.lua .lua/showcase.lua
TechEmpower benchmark example
The TechEmpower example implements various test types for the web framework benchmarks using Fullmoon and an in-memory sqlite database.
This example demonstrates several Fullmoon/redbean features:
- routing for various endpoints
- serving text and json content
- filtering for specific HTTP methods
- using templates with embedded Lua code
- using select/insert statements with included SQLite engine
- executing prepared SQL statements
The following files need to be added to redbean executable/archive:
.init.lua -- require "techbench" .lua/fullmoon.lua .lua/techbench.lua
htmx board example
The htmx board example demonstrates a simple application that generates HTML fragments delivered to the client using htmx library.
This example demonstrates several Fullmoon/redbean features:
- handling of GET, POST, PUT, and DELETE HTTP methods
- serving of dynamic HTML fragments and static assets
- processing of required and optional parameters
- loading of templates from a directory
- using 10+ templates of two different types
- including templates into other templates and passing parameters to templates
- serving of internal state for debugging purposes as a local-only resource
- using "fallthrough" routes to imitate "before" hook
- using internal redirects
The following files need to be added to redbean executable/archive:
.init.lua -- require "htmxboard" .lua/fullmoon.lua .lua/htmxboard.lua assets/stypes.css tmpl/* -- all files from examples/htmxboard/tmpl directory
Note 1: since all the data is stored in memory, this example is executed in the uniprocess mode.
Note 2: this examples retrieves htmx, hyperscript, and sortable libraries from external resources, but these libraries can be also stored as local assets, thus providing a completely self-sufficient portable distribution package.
htmx SSE example
The htmx SSE example demonstrates a way to generate server-sent events (SSE) that can be streamed to a client (which shows results using htmx library and its SSE extension).
This example demonstrates several Fullmoon/redbean features:
- usage of "sse" template to generate SSE content
- streaming of responses (using
streamContent
) - logging of messages
The following files need to be added to redbean executable/archive:
.init.lua -- require "htmxsse" .lua/fullmoon.lua .lua/htmxsse.lua
Documentation
Each Fullmoon application follows the same basic flow with five main components:
- configures and runs a redbean server, which
- filters each request based on specified conditions, and
- routes it to an action handler, that
- generates content (using provided template engine), and
- serves a response.
Let's look at each of the components starting from the request routing.
Routes
Fullmoon handles each HTTP request using the same process:
- takes the path URL and matches it against each route URL in the order in which routes are registered
- verifies conditions for those routes that match
- calls a specified action handler (passing a request table) for those routes that satisfy all conditions
- serves the response if anything other than
false
ornil
returned from the action handler (and continues the process otherwise)
In general, route definitions bind request URLs (and a set of conditions)
to action handlers (which are regular Lua function). All conditions are
checked in a random order for each URL that matches the route definition.
As soon as any condition fails, the route processing is aborted and the
next route is checked with one exception: any condition can set the
otherwise
value, which triggers a
response with the specified status code.
If no route matches the request, then the default 404 processing is
triggered, which can be customized by registering a custom 404 template
(fm.setTemplate("404", "My 404 page...")
).
Basic routes
Each route takes a path that matches exactly, so the route "/hello"
matches requests for /hello
and doesn't match /hell
, /hello-world
,
or /hello/world
. The route below responds with "Hello, World!" for all
requests directed at the /hello
path and returns 404 for all other
requests.
fm.setRoute("/hello", function(r) return "Hello, World!" end)
To match a path where /hello
is only a part of it,
optional parameters and splat
can be used.
Routes with parameters
In addition to fixed routes, any path may include placeholders for
parameters, which are identified by a :
followed immediately by
the parameter name:
fm.setRoute("/hello/:name",
function(r) return "Hello, "..(r.params.name) end)
Each parameter matches one or more characters except /
, so the route
"/hello/:name"
matches /hello/alice
, /hello/bob
, /hello/123
and
does not match /hello/bob/and/alice
(because of the non-matched
forward slashes) or /hello/
(because the length of the to-be-matched
fragment is zero).
Parameter names can only include alphanumeric characters and _
.
Parameters can be accessed using the request table and its params
table, such that r.params.name
can be used to get the value of the
name
parameter from the earlier example.
Optional parameters
Any specified route fragment or parameter can be declared as optional by wrapping it into parentheses:
fm.setRoute("/hello(/:name)",
function(r) return "Hello, "..(r.params.name or "World!") end)
In the example above, both /hello
and /hello/Bob
are accepted,
but not /hello/
, as the trailing slash is part of the optional
fragment and :name
still expects one or more characters.
Any unmatched optional parameter gets false
as its value, so in the
case above "Hello, World!" gets returned for the /hello
request URL.
More than one optional parameter can be specified and optional
fragments can be nested, so both "/posts(/:pid/comments(/:cid))"
and
"/posts(/:pid)/comments(/:cid)"
are valid route values.
Splat parameters
There is another kind of parameter called splat that is written as *
and matches zero or more characters, including a forward slash (/
).
The splat is also stored in the params
table under the splat
name.
For example, the route "/download/*"
matches /download/my/file.zip
and the splat gets the value of my/file.zip
. If multiple splats are
needed in the same route, then splats can be assigned names similar to
other parameters: /download/*path/*fname.zip
(although the same result
can be achieved using /download/*path/:fname.zip
, as the first splat
captures all path parts except the filename).
All parameters (including the splat) can appear in any part of the path
and can be surrounded by other text, which needs to be matched exactly.
This means that the route "/download/*/:name.:ext"
matches
/download/my/path/file.zip
and params.name
gets file
,
params.ext
gets zip
and params.splat
gets my/path
values.
Another reason to use splat is to allow multiple routes with the same path to be registered in the system. The current implementation overwrites routes with the same name and to avoid that a named splat can be used to create unique paths. For example,
fm.setRoute("/*dosomething1", function(r) return "something 1" end)
fm.setRoute("/*dosomething2", function(r) return "something 2" end)
This can be used in situations when there is a set of conditions that needs to be checked in the action handler and while it may be possible to combine both routes into one, sometimes it's cleaner to keep them separate.
Custom parameters
The default value for the parameters is all characters (except /
) of
length one or more. To specify a different set of valid characters, it
can be added at the end of the variable name; for example, using
:id[%d]
instead of :id
changes the parameter to match only digits.
fm.setRoute("/hello(/:id[%d])",
function(r) return "Hello, "..(r.params.id or "World!") end)
The following Lua character classes are supported: %w
, %d
, %a
,
%l
, %u
, and %x
; any punctuation character (including %
and ]
)
can also be escaped with %
. Negative classes (written in Lua as %W
)
are not supported, but not-in-set syntax is supported, so [^%d]
matches a parameter that doesn't include any digits.
Note that the number of repetitions can't be changed (so :id[%d]*
is not a valid way to accept zero-or-more digits), as only sets are
allowed and the values still accept one or more characters. If more
flexibility in describing acceptable formats is needed, then custom
validators can be used to extend the matching logic.
Query and Form parameters
Query and form parameters can be accessed in the same way as the path
parameters using the params
table in the request
table that is
passed to each action handler. Note that if there is a conflict between
parameter and query/form names, then parameter names take precedence.
There is one special case that may result in a table returned instead of
a string value: if the query/form parameter name ends in []
, then all
matching results (one or more) are returned as a table. For example,
for a query string a[]=10&a[]&a[]=12&a[]=
the value of params["a[]"]
is {10, false, 12, ""}
.
As writing these parameter names may require several brackets, params.a
can be used as a shortcut for params["a[]"]
with both forms returning
the same table.
Multipart parameters
Multipart parameters are also processed when requested and can be
accessed in the same way as the rest of the parameters using the params
table. For example, parameters with names simple
and more
can be
retrieved from a message with multipart/form-data
content type using
params.simple
and params.more
.
As some of the multipart content may include additional headers and
parameters within those headers, they can be accessed with multipart
field of the params
table:
fm.setRoute({"/hello", simple = "value"}, function(r)
return "Show "..r.params.simple.." "..r.params.multipart.more.data)
end)
The multipart
table includes all the parts of the multipart message
(so it can be iterated over using ipairs
), but it also allows access
using parameter names (params.multipart.more
). Each of the elements is
also a table that includes the following fields:
- data: the main field with the content. It containts a string with the content or a table in the case of recursive multipart messages.
- headers: a table with headers (as keys, all lowercase) and their content as values. This table is always present, but may be empty.
- name: the name of the parameter (if specified);
nil
if not. - filename: the filename of the parameter (if specified);
nil
if not.
This multipart processing consumes any multipart sub-types and handles
recursive multipart messages. It also inserts a part with Content-ID
value matching the start
parameter into the first position.
Multiple routes
Despite all earlier examples showing a single route, it's rarely the case in real applications; when multiple routes are present, they are always evaluated in the order in which they are registered.
One setRoute
call can also set multiple routes when they have the same
set of conditions and share the same action handler:
fm.setRoute({"/route1", "/route2"}, handler)
This is equivalent to two calls setting each route individually:
fm.setRoute("/route1", handler)
fm.setRoute("/route2", handler)
Given that routes are evaluated in the order in which they are set, more selective routes need to be set first, otherwise they may not get a chance to be evaluated:
fm.setRoute("/user/bob", handlerBob)
fm.setRoute("/user/:name", handlerName)
If the routes are set in the opposite order, /user/bob
may never be
checked as long as the "/user/:name"
action handler returns some
non-false
result.
As described earlier, if none of the routes match, a response with a 404
status code is returned. There may be cases when this is not desirable;
for example, when the application includes Lua scripts to handle requests
that are not explicitly registered as routes. In those cases, a catch-all
route can be added that implements the default redbean processing (the name
of the splat parameter is only used to disambiguate this route against
other /*
routes that may be used elsewhere):
fm.setRoute("/*catchall", fm.servePath)
Named routes
Each route can be provided with an optional name, which is useful in
referencing that route when its URL needs to be generated based on
specific parameter values. Provided makePath
function accepts either
a route name or a route URL itself as well as the parameter table and
returns a path with populated parameter placeholders:
fm.setRoute("/user/:name", handlerName)
fm.setRoute({"/post/:id", routeName = "post"}, handlerPost)
fm.makePath("/user/:name", {name = "Bob"}) --> /user/Bob
fm.makePath("/post/:id", {id = 123}) --> /post/123
fm.makePath("post", {id = 123}) --> /post/123, same as the previous one
If two routes use the same name, then the name is associated with the one that was registered last, but both routes are still present.
The route name can also be used with external/static routes that are only used for URL generation.
External routes
If the route is only used for path generation, then it doesn't even need to have a route handler:
fm.setRoute({"https://youtu.be/:videoid", routeName = "youtube"})
fm.makePath("youtube", {videoid = "abc"}) --> https://youtu.be/abc
A route without any action handler is skiped during the route matching process.
Internal routes
Internal routes allow redirecting of one set of URLs to a different one.
The target URL can point to a static resource or a .lua
script. For example,
if requests for one location need to be redirected to another, the following
configuration redirects requests for any resources under /blog/
URL to those
under /new-blog/
URL as long as the target resource exists:
fm.setRoute("/blog/*", "/new-blog/*")
This route accepts a request for /blog/post1
and serves /new-blog/post1
as its reponse, as long as /new-blog/post1
asset exists.
If the asset doesn't exist, then the next route is checked. Similarly,
using fm.setRoute("/static/*", "/*")
causes requests for /static/help.txt
to be served resource /help.txt
.
Both URLs can include parameters that are filled in if resolved:
fm.setRoute("/blog/:file", "/new-blog/:file.html") --<<-- serve "nice" URLs
fm.setRoute("/new-blog/:file.html", fm.serveAsset) --<<-- serve original URLs
This example resolves "nice" URLs serving their "html" versions. Note that this
doesn't trigger the client-side redirect by returning the 3xx
status code,
but instead handles the re-routing internally.
Also note that the second rule is needed to serve the "original" URLs,
as they are not handled by the first rule, because if the request is for
/blog/mylink.html
, then the redirected URL is /new-blog/mylink.html.html
,
which is not likely exist, so the route is skipped and the next one is checked.
If handling of path separators is required as well, then *path
can be used
instead of :file
, as *
allows path separators.
Conditions
If an application needs to execute different functions depending on
specific values of request attributes (for example, a method), this
library provides two main options: (1) check for the attribute value an
action handler (for example, using request.method == "GET"
check) and
(2) add a condition that filters out requests such that only requests
using the specified attribute value reach the action handler. This
section describes the second option in more detail.
Handling of HTTP methods
Each registered route by default responds to all HTTP methods (GET, PUT, POST, etc.), but it's possible to configure each route to only respond to specific HTTP methods:
fm.setRoute(fm.GET"/hello(/:name)",
function(r) return "Hello, "..(r.params.name or "World!") end)
In this case, the syntax fm.GET"/hello(/:name)"
configures the route
to only accept GET
requests. This syntax is equivalent to passing a
table with the route and any additional filtering conditions:
fm.setRoute({"/hello(/:name)", method = "GET"},
function(r) return "Hello, "..(r.params.name or "World!") end)
If more than one method needs to be specified, then a table with a list of methods can be passed instead of one string value:
fm.setRoute({"/hello(/:name)", method = {"GET", "POST"}},
function(r) return "Hello, "..(r.params.name or "World!") end)
Every route that allows a GET
request also (implicitly) allows a
HEAD
request and that request is handled by returning all headers
without sending the body itself. If for some reason this implicit
handling is not desirable, then adding HEAD = false
to the method
table disables it (as in method = {"GET", "POST", HEAD = false}
).
Note that requests with non-matching methods don't get rejected, but rather fall through to be checked by other routes and trigger the 404 status code returned if they don't get matched (with one exception).
Conditional routes
In addition to method
, other conditions can be applied using host
,
clientAddr
, serverAddr
, scheme
, request headers, and parameters.
For example, specifying name = "Bob"
as one of the conditions ensures
the value of the name
parameter to be "Bob" for the action handler to
be called.
Any request header can be checked using the header name as the key, so
ContentType = "multipart/form-data"
is satisfied if the value of the
Content-Type
header is multipart/form-data
. Note that the header
value may include other elements (a boundary or a charset as part of
the Content-Type
value) and only the actual media type is compared.
Since names for headers, parameters and properties can overlap, they are checked in the following order:
- request headers that consist of multiple words, like
ContentType
, - request parameters,
- request properties (
method
,port
,host
, etc.), and - request headers again.
Host
header is also checked first (despite being a single word), so
referencing Host
filters based on the header Host
, while referencing
host
filters based on the property host
.
Custom validators
String values are not the only values that can be used in conditional
routes. If more than one value is acceptable, passing a table allows to
provide a list of acceptable values. For example, if Bob
and Alice
are acceptable values, then name = {Bob = true, Alice = true}
expresses this as a condition.
Two special values passed in a table allow to apply a regex or a pattern validation:
regex
: accepts a string that has a regular expression. For example,name = {regex = "^(Bob|Alice)$"}
has the same result as the hash check shown earlier in this sectionpattern
: accepts a string with a Lua patern expression. For example,name = {pattern = "^%u%l+$"}
accepts values that start with an uppercase character followed by one or more lowercase characters.
These two checks can be combined with the table existence check:
name = {Bob = true, regex = "^Alice$"}
accepts both Bob
and Alice
values. If the first table-existence check fails, then the results of
the regex
or pattern
expression is returned.
The last type of a custom validator is a function. The provided function
receives the value to validate and its result is evaluated as false
or
true
. For example, passing id = tonumber
ensures that the id
value
is a number. As another example, clientAddr = fm.isLoopbackIp
ensures
that the client address is a loopback ip address.
fm.setRoute({"/local-only", clientAddr = fm.isLoopbackIp},
function(r) return "Local content" end)
As the validator function can be generated dynamically, this works too:
local function isLessThan(n)
return function(l) return tonumber(l) < n end
end
fm.setRoute(fm.POST{"/upload", ContentLength = isLessThan(100000)},
function(r) ...handle the upload... end)
It's important to keep in mind that the validator function actually returns a function that is called during a request to apply the check. In the previous example, the returned function accepts a header value and compares it with the limit passed during its creation.
Responding on failed conditions
In some cases, failing to satisfy a condition is a sufficient reason to
return some response back to the client without checking other routes.
In a case like this, setting otherwise
value to a number or a function
returns either a response with the specified status or the result of the
function:
local function isLessThan(n)
return function(l) return tonumber(l) < n end
end
fm.setRoute(fm.POST{"/upload",
ContentLength = isLessThan(100000), otherwise = 413
}, function(r) ...handle the upload... end)
In this example the routing engine matches the route and then validates
the two conditions comparing the method value with POST
and the value
of the Content-Length
header with the result of the isLessThan
function. If one of the conditions doesn't match, the status code
specified by the otherwise
value is returned with the rest of the
response.
If the otherwise
condition needs to only apply to the ContentLength
check, then the otherwise
value along with the validator function can
be moved to a table associated with the ContentLength
check:
fm.setRoute(fm.POST{"/upload",
ContentLength = {isLessThan(100000), otherwise = 413}
}, function(r) ...handle the upload... end)
The difference between the last two examples is that in this example
only the ContentLength
check failure triggers the 413 response (and
all other methods fall through to other routes), while in the previous
one both method
and ContentLength
check failures trigger the same
413 response.
Note that when the checked value is nil
, the check against a table is
deemed to be valid and the route is accepted. For example, a check for an
optional parameter made against a string (name = "Bo"
) fails if the
value of params.name
is nil
, but passes if the same check is made
against a table (name = {Bo=true, Mo=true}
), including regex/pattern checks.
If this is not desirable, then a custom validator function can explicitly
check for the expected value.
Consider the following example:
fm.setRoute({"/hello(/:name)",
method = {"GET", "POST", otherwise = 405}},
function(r) return "Hello, "..(r.params.name or "World!") end)
In this case, if this endpoint is accessed with the PUT
method, then
instead of checking other routes (because the method
condition is not
satisfied), the 405 status code is returned, as configured with the
specified otherwise
value. As documented elsewhere,
this route accepts a HEAD
request too (even when not listed), as a
GET
request is accepted.
When the 405 (Bad method) status code is returned and the Allow
header
is not set, it is set to the list of methods allowed by the route. In
the case above it is set to GET, POST, HEAD, OPTIONS
values, as those
are the methods allowed by this configuration. If the otherwise
value
is a function (rather than a number), then returning a proper result and
setting the Allow
header is the responsibility of this function.
The otherwise
value can also be set to a function, which provides more
flexibility than just setting a status code. For example, setting
otherwise = fm.serveResponse(413, "Payload Too Large")
triggers a
response with the specified status code and message.
Form validation
Handling form validation often requires specifying a set of conditions
for the same parameter and a custom error message that may need to be
returned when the conditions are not satisfied and these are provided
by special validators returned by makeValidator
function:
local validator = fm.makeValidator{
{"name", minlen = 5, maxlen = 64, msg = "Invalid %s format"},
{"password", minlen = 5, maxlen = 128, msg = "Invalid %s format"},
}
fm.setRoute(fm.POST{"/signin", _ = validator}, function(r)
-- do something useful with name and password
return fm.serveRedirect(307, "/")
end)
In this example, the validator is configured to check two parameters -- "name" and "password" -- for their min and max lengths and return a message when one of the parameters fails the check.
Since the failing check causes the route to be skipped, providing the
otherwise
value allows the error to be returned as part of the
response:
local validator = fm.makeValidator{
{"name", minlen = 5, maxlen = 64, msg = "Invalid %s format"},
{"password", minlen = 5, maxlen = 128, msg = "Invalid %s format"},
otherwise = function(error)
return fm.serveContent("signin", {error = error})
end,
}
In this case the otherwise
handler receives the error message (or a table
with messages if requested by passing the all
option covered below) that
can be then provided as a template parameter and returned to the client.
Another option is to call the validator function directly in an action handler and return its results:
local validator = fm.makeValidator{
{"name", minlen = 5, maxlen = 64, msg = "Invalid %s format"},
{"password", minlen = 5, maxlen = 128, msg = "Invalid %s format"},
}
fm.setRoute(fm.POST{"/signin"}, function(r)
local valid, error = validator(r.params)
if valid then
return fm.serveRedirect("/") -- status code is optional
else
return fm.serveContent("signin", {error = error})
end
end)
In this example the validator is called directly and is passed a table
(r.params
) with all parameter values to allow the validator function
to check the values against the specified rules.
The validator function then returns true
to signal success or
nil,error
to signal a failure to check one of the rules. This allows
the validator call to be wrapped into an assert
if the script needs
to return an error right away:
assert(validator(r.params)) -- throw an error if validation fails
return fm.serveRedirect(307, "/") -- return redirect in other cases
The following validator checks are available:
minlen
: (integer) checks minimal length of a string.maxlen
: (integer) checks maximal length of a string.test
: (function) calls a function that is passed one parameter and is expected to returntrue
ornil | false [,error]
.oneof
: (value | { table of values to be compared against }
) checks if the parameter matches one of the provided values.pattern
: (string) checks if the parameter matches a Lua patern expression.
In addition to the checks, the rules may include options:
optional
: (bool) makes a parameter optional when it'snil
. All the parameters are required by default, so this option allows the rules to be skipped when the parameter is not provided. All the rules are still applied if parameter is not nil.msg
: (string) adds a customer message for this if one of its checks fails, which overwrites messages from individual checks. The message may include a placeholder (%s
), which is going to be replaced by a parameter name.
The validator itself also accepts several options that modify how the generated errors are returned or handled:
otherwise
: (function) sets an error handler that is called when one of the checks fails. The function receives the error(s) triggered by the checks.all
: (bool) configures the validator to return all errors instead of just the first one. By default only one (first) error is returned as a string, so if all errors are requested, they are returned as a table with each error being a separate item.key
: (bool) configures the validator to return error(s) as values in a hash table (instead of element) where the keys are parameter names. This is useful to pass the table with errors to a template that can then displayerrors.name
anderrors.password
error messages next to their input fields.
Actions
An action handler receives all incoming HTTP requests filtered for a
particular route. Each of the examples shown so far includes an action
handler, which is passed as a second parameter to the setRoute
method.
Multiple action handlers can be executed in the course of handling one
request and as soon as one handler returns a result that is evaluated as
a non-false
value, the route handling process ends. Returning false
or nil
from an action handler continues the processing, which allows
implementing some common processing that applies to multiple routes
(similar to what is done using "before" filters in other frameworks):
local uroute = "/user/:id"
fm.setRoute({uroute.."/*", method = {"GET", "POST", otherwise = 405}},
function(r)
-- retrieve user information based on r.params.id
-- and store in r.user (as one of the options);
-- return error if user is not found
return false -- continue handling
end)
fm.setRoute(fm.GET(uroute.."/view"), function(r) ... end)
fm.setRoute(fm.GET(uroute.."/edit"), function(r) ... end)
fm.setRoute(fm.POST(uroute.."/edit"), function(r) ... end)
In this example, the first route can generate three outcomes:
- if the route is not matched, then other routes set later are checked.
- if the route is matched, but the condition (the
method
check) is not matched, then the 405 status code is returned. - if the route is matched and the action handler is executed, it either
retrieves the user and returns
false
, which continues processing with other routes, or fails to retrieve the user and returns an error.
In general, an action handler can return any of the following values:
true
: this stops any further processing, sets the headers that have been specified so far, and returns the generated or set response body.false
ornil
: this stops the processing of the current route and proceeds to the next one.- a string value: this sends a response with 200 as the status code and
the returned string as its body. The
Content-Type
is set based on the body content (using a primitive heuristic) if not set explicitly. - a function value (most likely as a call to one of
serve*
methods): this executes the requested method and returns an empty string ortrue
to signal the end of the processing. - any other returned value is ignored and interpreted as if
true
is returned (and a warning is logged).
Throwing errors
Normally any processing that results in a Lua error is returned to the
client as a server error response (with the 500 status code). To assist
with local debugging, the error message includes a stack trace, but only
if the request is sent from a loopback or private IP (or if redbean is
launched with the -E
command line option).
It may be desirable to return a specific response through multiple
layers of function calls, in which case the error may be triggered with
a function value instead of a string value. For example, executing
error(fm.serve404)
results in returning the 404 status code, which is
similar to using return fm.serve404
, but can be executed in a function
called from an action handler (and only from inside an action handler).
Here is a more complex example that returns the 404 status code if no
record is fetched (assuming there is a table test
with a field id
):
local function AnyOr404(res, err)
if not res then error(err) end
-- serve 404 when no record is returned
if res == db.NONE then error(fm.serve404) end
return res, err
end
fm.setRoute("/", function(r)
local row = AnyOr404(dbm:fetchOne("SELECT id FROM test"))
return row.id
end)
This example uses the serve404
function, but any other serve*
method can also be used.
Requests
Each action handler accepts a request table that includes the following attributes:
method
: request HTTP method (GET, POST, and others).host
: request host (if provided) or the bind address.serverAddr
: address to which listening server socket is bound.remoteAddr
: client ip4 address encoded as a number. This takes into consideration reverse proxy scenarios. UseformatIp
function to convert to a string representing the address.scheme
: request URL scheme (if any).path
: request URL path that is guaranteed to begin with/
.authority
: request URL with scheme, host, and port present.url
: request URL as an ASCII string with illegal characters percent encoded.body
: request message body (if present) or an empty string.date
: request date as a Unix timestamp.time
: current time as a Unix timestamp with 0.0001s precision.
The request table also has several utility functions, as well as headers, cookies, and session tables that allow retrieving request headers, cookies, and session and setting of headers and cookies that are included with the response.
The same request table is given as a parameter to all (matched) action handlers, so it can be used as a mechanism to pass values between those action handlers, as any value assigned as a field in one handler is available in all other action handlers.
Headers
The headers
table provides access to the request headers. For example,
r.headers["Content-Type"]
returns the value of the Content-Type
header. This form of header access is case-insensitive. A shorter form
is also available (r.headers.ContentType
), but only for registered
headers and is case-sensitive with the capitalization preserved.
The request headers can also be set using the same syntax. For example,
r.headers.MyHeader = "value"
sets MyHeader: value
response header.
As the headers are set at the end of the action handler processing,
headers set earlier can also be removed by assigning a nil
value.
Repeatable headers can also be assigned with values separated by commas:
r.headers.Allow = "GET, POST"
.
Cookies
The cookies
table provides access to the request cookies. For example,
r.cookies.token
returns the value of the token
cookie.
The cookies can also be set using the same syntax. For example,
r.cookies.token = "new value"
sets token
cookie to new value
.
If the cookie needs to have its attributes set as well, then the value
and the attributes need to be passed as a table:
r.cookies.token = {"new value", secure = true, httponly = true}
.
The following cookie attributes are supported:
expires
: sets the maximum lifetime of the cookie as an HTTP-date timestamp. Can be specified as a date in the RFC1123 (string) format or as a UNIX timestamp (number of seconds).maxage
: sets number of seconds until the cookie expires. A zero or negative number expires the cookie immediately. If bothexpires
andmaxage
are set,maxage
has precedence.domain
: sets the host to which the cookie is going to be sent.path
: sets the path that must be present in the request URL, or the client is not going to send the Cookie header.secure
: (bool) requests the cookie to be only send to the server when a request is made with the https: scheme.httponly
: (bool) forbids JavaScript from accessing the cookie.samesite
: (Strict
,Lax
, orNone
) controls whether a cookie is sent with cross-origin requests, providing some protection against cross-site request forgery attacks.
Note that httponly
and samesite="Strict"
are set by default;
a different set of defaults can be provided using cookieOptions
passed to the run method. Any attributes set
with a table overwrite the default, so if Secure
needs to
be enabled, make sure to also pass httponly
and samesite
options.
To delete a cookie, set its value to false
: for example,
r.cookies.token = false
deletes the value of the token
cookie.
Session
The session
table provides access to the session table that can
be used to set or retrieve session values. For example,
r.session.counter
returns the counter
value set previously.
The session values can also be set using the same syntax. For example,
r.session.counter = 2
sets the counter
value to 2
.
The session allows storing of nested values and other Lua values.
If the session needs to be removed, it can be set to an empty table
or a nil
value. Each session is signed with an application secret,
which is assigned a random string by default and can be changed by
setting session options.
Utility functions
The following functions are available as both request functions (as fields in the request table) and as library functions:
makePath(route[, parameters])
: creates a path from either a route name or a path string by populating its parameters using values from the parameters table (when provided). The path doesn't need to be just a path component of a URL and can be a full URL as well. Optional parts are removed if they include parameters that are not provided.makeUrl([url,] options)
: creates a URL using the provided value and a set of URL parameters provided in theoptions
table: scheme, user, pass, host, port, path, and fragment. Theurl
parameter is optional; the current request URL is used ifurl
is not specified. Any of the options can be provided or removed (usingfalse
as the value). For example,makeUrl({scheme="https"})
sets the scheme for the current URL tohttps
.escapeHtml(string)
: escapes HTML entities (&><"'
) by replacing them with their HTML entity counterparts (&><"'
).escapePath(path)
: applies URL encoding (%XX
) escaping path unsafe characters (anything other than-.~_@:!$&'()*+,;=0-9A-Za-z/
).formatHttpDateTime(seconds)
: converts UNIX timestamp (in seconds) to an RFC1123 string (Mon, 21 Feb 2022 15:37:13 GMT
).
Templates
Templates provide a simple and convenient way to return a predefined and parametrized content instead of generating it piece by piece.
The included template engine supports mixing an arbitrary text with Lua
statements/expressions wrapped into {% %}
tags. All the code in templates
uses a regular Lua syntax, so there is no new syntax to learn. There are
three ways to include some Lua code:
{% statement %}
: used for Lua statements. For example,{% if true then %}Hello{% end %}
rendersHello
.{%& expression %}
: used for Lua expressions rendered as HTML-safe text. For example,{%& '2 & 2' %}
renders2 & 2
.{%= expression %}
: used for Lua expressions rendered as-is (without escaping). For example,{%= 2 + 2 %}
renders4
. Be careful, as HTML is not escaped with{%= }
, this should be used carefully due to the potential for XSS attacks.
The template engine provides two main functions to use with templates:
setTemplate(name, text[, parameters])
: registers a template with the provided name and text (and usesparameters
as its default parameters). There are special cases wherename
ortext
parameters may not be strings, with some of those cases covered in the Loading templates section.parameters
is a table with template parameters as name/value pairs (referenced as variables in the template).render(name, parameters)
: renders a registered template using theparameters
table to set values in the template (with key/value in the table assigned to name/value in the template).
There is only one template with a given name, so registering a template with an existing name replaces this previously registered template. This is probably rarely needed, but can be used to overwrite default templates.
Here is an example that renders Hello, World!
to the output buffer:
fm.setTemplate("hello", "Hello, {%& title %}!")
fm.render("hello", {title = "World"})
Rendering statements using the expression syntax or expressions using the statement syntax is a syntax error that is reported when the template is registered. Function calls can be used with either syntax.
Any template error (syntax or run-time) includes a template name and a line
number within the template. For example, calling
fm.setTemplate("hello", "Hello, {%& if title then end %}!")
results in
throwing hello:1: unexpected symbol near 'if'
error (as it inserts a Lua
statement using the expression syntax).
Templates can also be loaded from a file or a directory using the same
setTemplate
function, which is described later in
the Loading templates section.
There are several aspects worth noting, as they may differ from how templates are processed in other frameworks:
- Templates render directly to the output buffer. This is done primarily for simplicity and performance reasons to delegate the output management to redbean. This means that template rendering doesn't return the output, although there are alternative ways to access it if needed.
- Templates only have access to a restricted environment. Every value a template is using needs to be explicitly registered or passed as a parameter to be accessible (although there are several utility functions available).
- Each template is parsed during registration and is converted to function that gets executed when a template is rendered. This allows to handle all the parsing and related processing once (during the initialization) and then call generated functions during rendering.
- As all templates are converted to functions, it is also possible to
pass a function directly (instead of a template), which provides a
convenient extension mechanism that reuses the rest of the library. For
example,
json
andsse
templates are implemented using this approach. - There is no whitespace control or escaping provided (mostly for simplicity, as the same effect can be achieved with some reformatting).
Passing parameters to templates
Each template accepts parameters that then can be used in its rendering logic. Parameters can be passed in two ways: (1) when the template is registered and (2) when the template is rendered. Passing parameters during registration allows to set default values that are used if no parameter is provided during rendering. For example,
fm.setTemplate("hello", "Hello, {%& title %}!", {title = "World"})
fm.render("hello") -- renders `Hello, World!`
fm.render("hello", {title = "All"}) -- renders `Hello, All!`
nil
or false
values are rendered as empty strings without throwing any
error, but any operation on a nil
value is likely to result in a Lua
error. For example, doing {%& title .. '!' %}
(without title
set)
results in attempt to concatenate a nil value (global 'title')
error.
There is no constraint on what values can be passed to a template, so any Lua value can be passed and then used inside a template.
In addition to the values that can be passed to templates, there are two special tables that provide access to cross-template values:
vars
: provides access to values registered withsetTemplateVar
, andblock
: provides access to template fragments that can be overwritten by other templates.
Any value registered with setTemplateVar
becomes accessible from any
template through the vars
table. In the following example, the
vars.title
value is set by the earlier setTemplateVar('title', 'World')
call:
fm.setTemplateVar('title', 'World')
fm.setTemplate("hello", "Hello, {%& vars.title %}!")
fm.render("hello") -- renders `Hello, World!`
Including templates in other templates
Templates can be also rendered from other templates by using the render
function, which is available in every template:
fm.setTemplate("hello", "Hello, {%& title %}!")
fm.setTemplate("header", "<h1>{% render('hello', {title = title}) %}</h1>")
---------------------------------└──────────────────────────────┘----------
fm.render("header", {title = 'World'}) -- renders `<h1>Hello, World!</h1>`
There are no limits on how templates can be rendered from other templates, but no checks for loops are made either, so having circular references in template rendering (when a template A renders a template B, which in turn renders A again) is going to cause a Lua error.
It's worth noting that the render
function doesn't return the value of
the template it renders, but instead puts it directly into the output
buffer.
Using layouts and blocks
This ability to render templates from other templates allows producing layouts of any complexity. There are two ways to go about it:
- to use dynamic template selection or
- to use blocks.
Dynamic template selection
To dynamically choose the template to use at render time, the template name itself can be passed as a parameter:
fm.setTemplate("hello", "Hello, {%& title %}!")
fm.setTemplate("bye", "Bye, {%& title %}!")
fm.setTemplate("header", "<h1>{% render(content, {title = title}) %}</h1>")
fm.render("header", {title = 'World', content = 'hello'})
This example renders either <h1>Hello, World!</h1>
or
<h1>Bye, World!</h1>
depending on the value of the content
parameter.
Blocks
Using blocks allows defining template fragments that can (optionally) be overwritten from other templates (usually called "child" or "inherited" templates). The following example demonstrates this approach:
fm.setTemplate("header", [[
<h1>
{% function block.greet() %} -- define a (default) block
Hi
{% end %}
{% block.greet() %}, -- render the block
{%& title %}!
</h1>
]])
fm.setTemplate("hello", [[
{% function block.greet() %} -- overwrite the `header` block (if any)
Hello
{% end %}
{% render('header', {title=title}) %}!
]])
fm.setTemplate("bye", [[
{% function block.greet() %} -- overwrite the `header` block (if any)
Bye
{% end %}
{% render('header', {title=title}) %}!
]])
-- normally only one of the three `render` calls is needed,
-- so all three are shown for illustrative purposes only
fm.render("hello", {title = 'World'}) -- renders <h1>Hello, World!</h1>
fm.render("bye", {title = 'World'}) -- renders `<h1>Bye, World!</h1>`
fm.render("header", {title = 'World'}) -- renders `<h1>Hi, World!</h1>`
In this example the header
template becomes the "layout" and defines the
greet
block with Hi
as its content. The block is defined as a function
in the block
table with the content it needs to produce. It's followed by
a call to the block.greet
function to include its content in the template.
This is important to emphasize, as in addition to defining a block, it also needs to be called from the base/layout template at the point where it is expected to be rendered.
The hello
template also defines block.greet
function with a different
content and then renders the header
template. When the header
template
is rendered, it uses the content of the block.greet
function as defined in
the hello
template. In this way, the child template "redefines" the greet
block with its own content, inserting it into the appropriate place into
the parent template.
It works the same way for the bye
and header
templates. There is
nothing special about these "block" functions other than the fact that
they are defined in the block
table.
This concepts is useful for template composition at any depth. For example, let's define a modal template with a header and a footer with action buttons:
fm.setTemplate("modal", [[
<div class="modal">
<div class="modal-title">
{% function block.modal_title() %}
Details
{% end %}
{% block.modal_title() %}
</div>
<div class="modal-content">
{% block.modal_content() %}
</div>
<div class="modal-actions">
{% function block.modal_actions() %}
<button>Cancel</button>
<button>Save</button>
{% end %}
{% block.modal_actions() %}
</div>
</div>
]])
Now, in a template that renders the modal, the blocks can be overwritten to customize the content:
fm.setTemplate("page", [[
{% function block.modal_title() %}
Insert photo
{% end %}
{% function block.modal_content() %}
<div class="photo-dropzone">Upload photo here</div>
{% end %}
{% render('modal') %}
]])
This enables easily building composable layouts and components, such as headers and footers, cards, modals, or anything else that requires the ability to dynamically customize sections in other templates.
Here is an example to illustrate how nested blocks work together:
-- base/layout template
{% function block.greet() %} -- 1. defines default "greet" block
Hi
{% end %}
{% block.greet() %} -- 2. calls "greet" block
-- child template
{% function block.greet() %} -- 3. defines "greet" block
Hello
{% end %}
{% render('base') %} -- 4. renders "base" template
-- grandchild template
{% function block.greet() %} -- 5. defines "greet" block
Bye
{% end %}
{% render('child') %} -- 6. renders "child" template
In this example the "child" template "extends" the base template and any
block.greet
content defined in the child template is rendered inside
the "base" template (when and where the block.greet()
function is
called). The default block.greet
block doesn't need to be defined in
the base template, but when it is present (step 1), it sets the content
to be rendered (step 2) if the block is not overwritten in a child
template and needs to be defined before block.greet
function is called.
Similarly, block.greet
in the child template needs to be defined
before (step 3) the base template is rendered (step 4) to have
a desired effect.
If one of the templates in the current render tree doesn't define the
block, then the later defined block is going to be used. For example,
if the grandchild template doesn't define the block in step 5, then
the greet
block from the child template is going to be used when the
grandchild template is rendered.
If none of the block.greet
functions is defined, then block.greet()
fails (in the base
template). To make the block optional, just
check the function before calling. For example,
block.greet and block.greet()
.
In those cases where the "overwritten" block may still need to be rendered, it's possible to reference that block directly from the template that defines it, as shown in the following example:
fm.setTemplate("header", [[
<h1>
{% function block.greet() %}
Hi
{% end %}
{% block.greet() %}, {%& title %}!
</h1>
]])
fm.setTemplate("bye", [[
{% block.header.greet() %},
{% function block.greet() %}
Bye
{% end %}
{% render('header', {title=title}) %}!
]])
fm.render("bye", {title = 'World'}) -- renders `<h1>Hi, Bye, World!</h1>`
In this case, {% block.header.greet() %}
in the bye
template renders
the greet
block from the header
template. This only works with the
templates that are currently being rendered and is intended to simulate the
"super" reference (albeit with explicit template references). The general syntax
of this call is block.<templatename>.<blockname>()
.
As blocks are simply regular Lua functions, there are no restrictions on how blocks can be nested into other blocks or how blocks are defined relative to template fragments or other Lua statements included in the templates.
Loading templates
In addition to registering templates from a string, the templates can be
loaded and registered from a file or a directory using the same
setTemplate
function, but passing a table with the directory and a list
of mappings from file extensions to template types to load. For example,
calling fm.setTemplate({"/views/", tmpl = "fmt"})
loads all *.tmpl
files from the /views/
directory (and its subdirectories) and
registers each of them as the fmt
template, which is the default
template type. Only those files that match the extension are loaded
and multiple extension mappings can be specified in one call.
Each loaded template gets its name based on the full path starting
from the specified directory: the file /views/hello.tmpl
is registered
as a template with the name "hello" (without the extension), whereas the
file /views/greet/bye.tmpl
is registered as a template with the name
"greet/bye" (and this is the exact name to use to load the template).
There are two caveats worth mentioning, both related to the directory
processing. The first one is related to the trailing slash in the
directory name passed to setTemplate
. It's recommended to provide
one, as the specified value is used as a prefix, so if /view
is
specified, it's going to match both /view/
and /views/
directories
(if present), which may or may not be the intended result.
The second caveat is related to how external directories are used during
template search. Since redbean allows access to external directories when
configured using the -D
option or directory
option
(see Running application for details), there may
be multiple locations for the same template available. The search for the
template follows these steps:
- the internal (zip archive) is used to get the list of files matching
a certain prefix (as specified in a
setTemplate
call); - the external directories are checked (in the order in which they are specified) to load the file;
- the internal (zip archive) directory is checked to load the file.
This allows to have a working copy of a template to be modified and
processed from the file system (assuming the -D
option is used) during
development without modifying its copy in the archive.
Serving template output
Even though using fm.render
is sufficient to get a template rendered,
for consistency with other serve* functions, the library
provides the serveContent
function, which is
similar to fm.render
, but allows the action handler to complete after
serving the content:
fm.setTemplate("hello", "Hello, {%& name %}")
fm.setRoute("/hello/:name", function(r)
return fm.serveContent("hello", {name = r.params.name})
end)
There is also one subtle difference between render
and serveContent
methods that comes into play when serving static templates. It may be
tempting to directly render a static template in response to a route
with something like this:
fm.setTemplate("hello", "Hello, World!")
-- option 1:
fm.setRoute("/hello", fm.render("hello"))
-------------------------└─────┘-------- not going to work
-- option 2:
fm.setRoute("/hello", fm.serveContent("hello"))
-------------------------└───────────┘-- works as expected
The first aproach is not going to work, as the call to fm.render
is
going to be made when setRoute
is called (and the route is only being
set up) and not when a request is being handled. When the serveContent
method is using (the second option), it's implemented in a way that delays
the processing until the request is handled, thus avoiding the issue.
If the template content depends on some values in the request, then the
serverContent
call has to be wrapped into a function to accept and pass
those variables (as shown in the earlier /hello/:name
route example).
Special templates
Schedules
Most of the time, the library configuration is focused on handling of
incoming requests, but in some cases it may be desirable to trigger
and handle internal events. The library supports job scheduling using
cron syntax, with configured jobs executed at the scheduled time (as
long as the redbean instance is running). A new schedule can be
registered using the setSchedule
method:
--------------- ┌─────────── minute (0-59)
--------------- │ ┌───────── hour (0-23)
--------------- │ │ ┌─────── day of the month (1-31)
--------------- │ │ │ ┌───── month (1-12 or Jan-Dec)
--------------- │ │ │ │ ┌─── day of the week (0-6 or Sun-Mon)
--------------- │ │ │ │ │ --
--------------- │ │ │ │ │ --
fm.setSchedule("* * * * *", function() fm.logInfo("every minute") end)
All the standard and some non-standard cron expressions are supported:
*
: describes any values in the allowed range.,
: uses to form a list of items, for example,1,2,3
.-
: creates an (inclusive) range; for example,1-3
is equivalent to1,2,3
. Open ranges are allowed as well, so-3
is equivalent to1-3
for months and0-3
for minutes and hours./
: describes a step for ranges. It selects a subset of the values in the range, using the step value; for example,2-9/3
is equivalent to2,5,8
(it starts with 2, then adds a step value to get 5 and 8).
Non-numeric values are supported for months (Jan-Dec
) and days of week
(Sun-Mon
) in any capitalization. Using 7
for Sun
is supported too.
By default all functions are executed in a separate (forked) process.
If the execution within the same process is needed, then setSchedule
can be passed a third parameter (a table) to set sameProc
value
as one of the options: {sameProc = true}
.
Some of the caveats to be aware of:
- using schedules relies on
OnServerHeartbeat
hook, so a version of Redbean that provides that (v2.0.16+) should be used. - all schedule entries are interpreted as specified in GMT.
- day-of-month and day-of-week are combined with an
and
(instead of anor
), so when both are specified, the job is executed when both are satisfied (and not when both or either are specified). In other words,* * 13 * Fri
is only valid on Friday the 13th and not on any Friday. If theor
behavior is needed, then the schedule can be split into two to handle each condition separately. - each function is executed in a process forked from the main process;
as noted above, set
sameProc = true
option to avoid forking. - some schedules can be executed twice if redbean instance is restarted within the same minute, as the implementation is stateless.
- day-of-week makes
Sun
available on both ends (as 0 or 7), so it's better to use closed ranges in this case to avoid ambiguity. - all parsing errors (on incorrect formats or expressions) are reported
as fatal errors, but incorrect ranges are silently corrected into
proper ones, so using
6-100
for months is corrected to6-12
.
Responses
Each action handler generates some sort of response to send back to the client. In addition to strings, the application can return the following results:
- general responses (
serveResponse
), - templates (
serveContent
), - redirects (
serveRedirect
), - static assets (
serveAsset
), - errors (
serveError
), - directory index (
serveIndex
), and - internal redirects/resources (
servePath
).
Each of these methods can be used as the return value from an action
handler. serveAsset
, servePath
, and serveIndex
methods can also
be used as action handlers directly:
fm.setRoute("/static/*", fm.serveAsset)
fm.setRoute("/blog/", fm.serveIndex("/new-blog/"))
The first route configures all existing assets to be served from
/static/*
location; the second route configures /blog/
URL to return
the index (index.lua
or index.html
resource) from /new-blog/
directory.
Serving response
serveResponse(status[, headers][, body])
: sends an HTTP response using
provided status
, headers
, and body
values.
headers
is an optional table populated with HTTP header name/value
pairs. If provided, this set of headers removes all other headers set
earlier during the handling of the same request. Similar to the headers set
using the request.headers
field, the names are case-insensitive, but
provided aliases for header names with dashes are case-sensitive:
{ContentType = "foo"}
is an alternative form for
{["Content-Type"] = "foo"}
. body
is an optional string.
Consider the following example:
return fm.serveResponse(413, "Payload Too Large")
This returns the 413 status code and sets the body of the returned
message to Payload Too Large
(with the header table not specified).
If only the status code needs to be set, the library provides a short
form using the serve###
syntax:
return fm.serve413
It can also be used as the action handler itself:
fm.setRoute(fm.PUT"/status", fm.serve402)
Serving content
serveContent(name, parameters)
renders a template using provided
parameters. name
is a string that names the template (as set by a
setTemplate
call) and parameters
is a table with template parameters
(referenced as variables in the template).
Serving redirect
Serving static asset
Serving error
Serving directory index
Serving path (internal redirect)
Database management
Fullmoon's function makeStorage
is a way to connect to, and use a SQLite3
database. makeStorage
returns a database management table which contains
a rich set of functions to use with the connected database.
Running application
The run
method executes the configured application. By default the server
is launched listening on localhost and port 8080. Both of these
values can be changed by passing addr
and port
options:
fm.run({addr = "localhost", port = 8080})
The following options are supported; the default values are shown in
parentheses and options marked with mult
can set multiple values by
passing a table:
addr
: sets the address to listen on (mult)brand
: sets theServer
header value ("redbean/v# fullmoon/v#"
)cache
: configuresCache-Control
andExpires
headers (in seconds) for all static assets served. A negative value disables the headers. Zero value means no cache.certificate
: sets the TLS certificate value (mult)directory
: sets local directory to serve assets from in addition to serving them from the archive within the executable itself (mult)headers
: sets default headers added to each response by passing a table with HTTP header name/value pairslogMessages
: enables logging of response headerslogBodies
: enables logging of request bodies (POST/PUT/etc.)logPath
: sets the log file path on the local file systempidPath
: sets the pid file path on the local file systemport
: sets the port number to listen on (8080)privateKey
: sets the TLS private key value (mult)sslTicketLifetime
: sets the duration (in seconds) of the ssl ticket (86400)trustedIp
: configures IP address to trust (mult). This option accepts two values (IP and CIDR values), so they need to be passed as a table within a table specifying multiple parameters:trustedIp = {{ParseIp("103.31.4.0"), 22}, {ParseIp("104.16.0.0"), 13}}
tokenBucket
: enables DDOS protection. This option accepts zero to 5 values (passed as a table within a table); an empty table can be passed to use default values:tokenBucket = {{}}
Each option can accept a simple value (port = 80
), a list of values
(port = {8080, 8081}
) or a list of parameters. Since both the list of
values and the list of parameters are passed as tables, the list of values
takes precedence, so if a list of parameters needs to be passed to an option
(like trustedIp
), it has to be wrapped into a table:
trustedIp = {{ParseIp("103.31.4.0"), 22}}
.
If only one parameter needs to be passed, then both
trustedIp = {ParseIp("103.31.4.0")}
and trustedIp = ParseIp("103.31.4.0")
can work.
The key
and certificate
string values can be populated using the
getAsset
method that can access both assets packaged within the
webserver archive and those stored in the file system.
There are also default cookie and session options that can be assigned
using cookieOptions
and sessionOptions
tables described below.
Cookie options
cookieOptions
sets default options for all cookie values
assigned using request.cookie.name = value
syntax ({httponly=true, samesite="Strict"}
). It is still possible to overwrite default values
using table assignment: request.cookie.name = {value, secure=false}
.
Session options
sessionOptions
sets default options for the session value
assigned using request.session.attribute = value
syntax
({name="fullmoon_session", hash="SHA256", secret=true, format="lua"}
).
If the secret
value is set to true
, then a random key is assigned
each time the server is started; if verbose logging is enabled (by either
adding -v
option for Redbean or by using fm.setLogLevel(fm.kLogVerbose)
call), then a message is logged explaining how to apply the current random
value to make it permanent.
Setting this value to false
or an empty string applies hashing without a
secret key.
Logging
Benchmark
The results shown are from runs in the same environment and on the same hardware as the published redbean benchmark (thanks to @jart for executing the tests!). Even though these tests are using pre-1.5 version of redbean and 0.10 version of Fullmoon, the current versions of redbean/Fullmoon are expected to deliver similar performance.
The tests are using exactly the same code that is shown in the
introduction with one small change: using {%= name %}
instead of
{%& name %}
in the template, which skips HTML escaping.
This code demonstrates routing, parameter handling and template processing.
$ wrk -t 12 -c 120 http://127.0.0.1:8080/user/paul Running 10s test @ http://127.0.0.1:8080/user/paul 12 threads and 120 connections Thread Stats Avg Stdev Max +/- Stdev Latency 312.06us 4.39ms 207.16ms 99.85% Req/Sec 32.48k 6.69k 71.37k 82.25% 3913229 requests in 10.10s, 783.71MB read Requests/sec: 387477.76 Transfer/sec: 77.60MB
The following test is using the same configuration, but redbean is compiled
with MODE=optlinux
option:
$ wrk -t 12 -c 120 http://127.0.0.1:8080/user/paul Running 10s test @ http://127.0.0.1:8080/user/paul 12 threads and 120 connections Thread Stats Avg Stdev Max +/- Stdev Latency 346.31us 5.13ms 207.31ms 99.81% Req/Sec 36.18k 6.70k 90.47k 80.92% 4359909 requests in 10.10s, 0.85GB read Requests/sec: 431684.80 Transfer/sec: 86.45MB
The following two tests demonstrate the latency of the request handling by Fullmoon and by redbean serving a static asset (no concurrency):
$ wrk -t 1 -c 1 http://127.0.0.1:8080/user/paul Running 10s test @ http://127.0.0.1:8080/user/paul 1 threads and 1 connections Thread Stats Avg Stdev Max +/- Stdev Latency 15.75us 7.64us 272.00us 93.32% Req/Sec 65.54k 589.15 66.58k 74.26% 658897 requests in 10.10s, 131.96MB read Requests/sec: 65241.45 Transfer/sec: 13.07MB
The following are the results from redbean itself on static compressed assets:
$ wrk -H 'Accept-Encoding: gzip' -t 1 -c 1 htt://10.10.10.124:8080/tool/net/demo/index.html Running 10s test @ htt://10.10.10.124:8080/tool/net/demo/index.html 1 threads and 1 connections Thread Stats Avg Stdev Max +/- Stdev Latency 7.40us 1.95us 252.00us 97.05% Req/Sec 129.66k 3.20k 135.98k 64.36% 1302424 requests in 10.10s, 1.01GB read Requests/sec: 128963.75 Transfer/sec: 102.70MB
Status
Highly experimental with everything being subject to change.
The core components are more stable and have been rarely updated since v0.3.
Usually, the documented interfaces are much more stable than undocumented
ones. Those commits that modified some of the interfaces are marked with
COMPAT
label, so can be easily identified to review for any compatibility
issues.
Some of the obsolete methods are still present (with a warning logged when used) to be removed later.
Author
Paul Kulchenko ([email protected])
License
See LICENSE.