I consider this deprecated, as I ended up merging all of it's functionality into the Pandemonium Engine.
The web classes ended up in the web module, and the database classes in the database module.
Further development will happen there.
This is a c++ html framework, with a different core design than the current mainstream html frameworks.
It's more similar to Codeigniter 3, but of course it's still different, because it's a c++ app.
Since it's a normal c++ app, lots of things can be implemented in an unusual (compared to how html frameworks work) albeit lot more efficient way. Also standard app/game like optimizations can be implemented. For example it's possible to load and cache users, and only save them in a different thread when necessary (they get dirty).
I consider it's design mostly stable, it needs cleanups, and some features, but it shouldn't change that much anymore fundamentally.
For the time being I recommend looking at my other projects that use this for usage examples.
If you want to try it clone https://github.com/Relintai/rcpp_cms_project instead, it will set this up for you. Note that this needs to be updated aswell, will be done eventually.
Only works on linux for now. Eventually I'll reimplement compile on windows.
Supports SQlite (built in), MySQL, and PostgreSQL databases.
The framework itself doesn't contains a main, and an application implementation.
You will need to provide these in order to compile the project.
You can add these as command line parameters like:
scons main_file="../main.cpp" folders="../app/;../app_folder_2"
This should be handled by the project's build script though.
Check the https://github.com/Relintai/rcpp_cms_project for actual compilation instructions.
Contains core classes.
A simple HTTP server class. Create one in your main()
, set up it's application
pointer, to
actually point to a proper application instance, then you can call main_loop()
.
main_loop()
runs on the main thread, so this will be the main loop in your app.
Note: I'll add an async version later.
You can override virtual void configure()
and virtual void initialize();
to customize
the server's settings.
The core Database class contains the api for querying database backends.
These are the methods that backends implement right now:
virtual void connect(const std::string &connection_str);
virtual QueryResult *query(const std::string &query);
virtual void query_run(const std::string &query);
Use these to set up database connections, and also to query the database.
You can also grab a proper QueryBuilder
or TableBuilder
instance for the backend using:
virtual QueryBuilder *get_query_builder();
virtual TableBuilder *get_table_builder();
Can contain the active database backends. You should create one in your main, and set up any active database backends with it.
It can instance database backends, so you don't need to include them. This is so later these can be created from config files.
If you want to create an sqlite database, do it like:
DatabaseManager *dbm = DatabaseManager::get_singleton();
uint32_t index = dbm->create_database("sqlite");
Database *db = dbm->databases[index];
db->connect("database.sqlite");
The first created database will be set as default. This can be accesses using the DatabaseManager
's ddb
member variable. Like: DatabaseManager::get_singleton()->ddb;
WIP, not yet finished. Will be used to provide an abstraction layer for the different database engines.
Similar to CodeIgniter 3's query builders.
This is the base class for getting results from your database backend. The backends contain the actual implementation for this. They'll also instance the proper one for themselves.
WIP, not yet finished. Will be used to provide an abstraction layer for the different database engines, but this one will help with table creation / manipulation.
Similar to how CodeIgniter 3 handles this.
Common static utilities.
An HTTP request. It contains every information for http sessions.
Requests are pooled by default, you should now allocate them directly, instead
you should grab one from the RequestPool
like: Request *request = RequestPool::get_request();
.
It has these methods for sending data:
void send();
void send_file(const std::string &p_file_path);
void send_error(int error_code);
send()
will send the string that's set into response
's body.
If you want to set this directly do it like this: request->response->setBody("<html>...etc</html>");
After sending a request, it will automatically return to the pool.
Note: Later they'll probably be refcounted, but right now you need to make sure to call one of the send() like methods, as without it, the connection will be kept alive for quite awhile. Also it will lead to memory leaks.
It also contains a few strings to help with the handling of http pages:
std::string head;
std::string body;
std::string footer;
These can be compiled into std::string compiled_body;
with using void compile_body();
.
void Request::compile_body() {
compiled_body.reserve(body.size() + head.size() + 13 + 14 + 15);
//13
compiled_body += "<html>"
"<head>";
compiled_body += head;
//14
compiled_body += "</head>"
"<body>";
compiled_body += body;
compiled_body += footer;
//15
compiled_body += "</body>"
"</html>";
response->setBody(compiled_body);
}
You can also use void compile_and_send_body();
to both compile, and send the html.
A Request contains a few helper methods to help with URI handling. These are:
void setup_url_stack();
std::string get_path() const;
const std::string &get_path_full() const;
const std::string &get_path_segment(const uint32_t i) const;
const std::string &get_current_path_segment() const;
uint32_t get_path_segment_count() const;
uint32_t get_current_segment_index() const;
uint32_t get_remaining_segment_count() const;
void pop_path();
void push_path();
With this URI's can be thought as a stack. You can push and pop path segments.
For example let's take this path: 'Test/Data/Id/2'.
By default get_path()
will return the full string, and get_current_path_segment()
will return Test
.
However if we now use push_path();
get_path()
will return 'Data/Id/2', and get_current_path_segment()
will return Data
.
pop_path();
is the opposite of push_path();
.
WIP, not yet finished.
Will store all existing files from a directory, so you don't have to constantly check the existence of files using the kernel.
If you pass true to it's constructor like FileCache(true);
that instance will get set as a singleton.
You can evaluate a directory structure using void wwwroot_evaluate_dir(const char *path, const bool should_exist = true);
.
It's a wip class. Doesn't work yet.
Helps with creating htmls.
It has methods for all standard html tags, and has methods for all closing tags aswell.
A little example:
HTMLBuilder b;
//Add a div, with the class content: <div class="content">
b.div()->cls("content");
//header html tag: <header>
b.header();
//just write the string "My webpage"
b.w("My webpage");
//Add a span tag, with the class header_link: <span class="header_link">
b.span()->cls("header_link");
//Add a [ into the html: [
b.w(" [ ");
//Add a link: <a href="https://github.com/Relintai">
b.a()->href("https://github.com/Relintai");
//just write the Github string: Github
b.w("Github");
//Close the a tag: </a>
b.ca();
//Add a ] into the html: ]
b.w(" ]");
//close the header tag </header>
b.cheader();
//close the content div: </div>
b.cdiv();
//Finish the currently open tag:
b.write_tag();
//print the resulting string
printf("%s\n", b.result.c_str());
The resulting html should look like this: (Note that the generated string doesn't actually have newlines!)
<div class="content">
<header>
My webpage<span class="header_link"> [ <a href="https://github.com/Relintai">Github</a> ]
</header>
</div>
Think about this class as a complete web application.
It contains helpers for basic routing, and has support for middlewares.
Inherit from this, and create one in your main.cpp.
The virtual methods should be called in this order after creation:
app->load_settings();
app->setup_routes();
app->setup_middleware();
The HTTP server will turn an http request into a Request
, then it will call the
void handle_request(Request *request);
of it's set Application
instance.
The handle_request
method will set up request's middleware stack, and then
it will call request->next_stage();
.
Note: the middleware stack might be removed later, as Request now contains a pointer to it's owner application.
Set up your middlewares in the setup_middleware
method.
A middleware can be any method with this signature: void middleware(Object *instance, Request *request);
.
Any methods added to the middlewares
vector is considered a middleware.
Every request will go through all middlewares in order, until they gets sent. For example with the send()
method.
If a request doesn't gets sent, that connection will remain open, until a timeout occurs!
Example middleware addition using a lambda:
void Application::setup_middleware() {
middlewares.push_back(HandlerInstance([this](Object *instance, Request *request){ this->default_routing_middleware(instance, request); }));
}
Set up your routes in the setup_routes
method.
By default routing is handled by the default_routing_middleware
method in Application
.
It will look if a file exists in the main wwwroot first using the current path. If found it will send back that file.
Then it checks if it just needs to call the index method. If so it will just call that.
If there are multiple segments in the uri, it will grab the first, check if there is a handler
for that segment, if so it will call that handler, after a request->push_path();
.
As you can see this middleware is simple, it will not handle slugs, and complex url patterns. This is by design, you should implement those by hand in the actual handlers.
Set up your error handlers in the setup_routes
method.
Set your default fallback error handler method into the default_error_handler_func
like:
default_error_handler_func = Application::default_fallback_error_handler;
With the error_handler_map
you can set different error handler methods for different
error codes like:
error_handler_map[404] = Application::default_404_error_handler;
Sometimes Request
s need updates, for example while sending big files. As files gets sent in chunks.
This is necessary, because loading lots big files into the memory is probably not a good idea.
So when a request needs to get updated from time to time like this, they can be registered into
the Application
instance using void register_request_update(Request *request);
.
When finished they can be removed with void unregister_request_update(Request *request);
.
Note Application::update();
will get called by the http server.
Note: Eventually you will be able to disable these one by one even if they can be compiled.
The framework contains an sqlite implementation, so you should always have this available.
Install MySQL or MariaDB for your linux distro, you should also get a package which contains the development headers.
It should be picked up by default if present.
Install PostgreSQL for your linux distro, you should also get a package which contains the development headers.
It should be picked up by default if present.
Note that helper classes are not yet implemented for this backend right now.
Don't forget to check the libraries in the libs folder, they can be directly included and used.