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Libesphttpd intro

Libesphttpd is a HTTP server library for the ESP8266. It supports integration in projects running under the non-os and FreeRTOS-based SDK. Its core is clean and small, but it provides an extensible architecture with plugins to handle a flash-based compressed read-only filesystem for static files, a tiny template engine, websockets, a captive portal, and more.

Examples

There are two example projects that integrate this code, both a non-os as well as a FreeRTOS-based example. They show how to use libesphttpd to serve files from an ESP8266 and illustrate a way to make an user associate the ESP8266 with an access point from a standard webbrowser on a PC or mobile phone.

Programming guide

Programming libesphttpd will require some knowledge of HTTP. Knowledge of the exact RFCs isn't needed, but it helps if you know the difference between a GET and a POST request, how HTTP headers work, what an mime-type is and so on. Furthermore, libesphttpd is written in the C language and uses the libraries available on the ESP8266 SDK. It is assumed the developer knows C and has some experience with the SDK.

Initializing libesphttpd

Initializing libesphttpd is usually done in the user_main() of your project, but it is not mandatory to place the call here. Initialization is done by the httpdInit(builtInUrls, port) call. The port is the TCP port the webserver will listen on; the builtInUrls is the CGI list. Only call the httpdInit once, calling it multiple times leads to undefined behaviour.

(As an aside: CGI actually is an abbreviation for Common Gateway Interface, which is a specification to allow external processes to interface with a non-embedded webserver. The CGI functions mentioned here have nothing to do with the CGI protocol specification; the term 'CGI' is just used as a quick handle for a function interpreting headers and generating data to send to the web client.)

The CGI list is an array of the HttpdBuiltInUrl type. Here's an example:

HttpdBuiltInUrl builtInUrls[]={
	{"/", cgiRedirect, "/index.cgi"},
	{"/index.cgi", cgiMyFunction, NULL},
	{"*", cgiEspFsHook, NULL},
	{NULL, NULL, NULL}
};

As you can see, the array consists of a number of entries, with the last entry filled with NULLs. When the webserver gets a request, it will run down the list and try to match the URL the browser sent to the pattern specified in the first argument in the list. If a match is detected, the corresponding CGI function is called. This function gets the opportunity to handle the request, but it also can pass on handling it; if this happens, the webserver will keep going down the list to look for a CGI with a matching pattern willing to handle the request; if there is none on the list, it will generate a 404 page itself.

The patterns can also have wildcards: a * at the end of the pattern matches any text. For instance, the pattern /wifi/* will match requests for /wifi/index.cgi and /wifi/picture.jpg, but not for example /settings/wifi/. The cgiEspFsHook is used like that in the example: it will be called on any request that is not handled by the cgi functions earlier in the list.

There also is a third entry in the list. This is an optional argument for the CGI function; its purpose differs per specific function. If this is not needed, it's okay to put NULL there instead.

Sidenote: About the cgiEspFsHook call

While cgiEspFsHook isn't handled any different than any other cgi function, it may be useful to shortly elaborate what its function is. cgiEspFsHook is responsible, on most implementations, for serving up the static files that are included in the project: static HTML pages, images, Javascript code etc. Esphttpd doesn't have a built-in method to serve static files: the code responsible for doing it is plugged into it the same way as any cgi function is. This allows the developer to leave away the ability to serve static files if it isn't needed, or use a different implementation that serves e.g. files off the FAT-partition of a SD-card.

Built-in CGI functions

The webserver provides a fair amount of general-use CGI functions. Because of the structure of libesphttpd works and some linker magic in the Makefiles of the SDKs, the compiler will only include them in the output binary if they're actually used.

  • cgiRedirect (arg: URL to redirect to) This is a convenience function to redirect the browser requesting this URL to a different URL. For example, an entry like {"/google", cgiRedirect, "http://google.com"} would redirect all browsers requesting /google to the website of the search giant.

  • cgiRedirectToHostname (arg: hostname to redirect to) If the host as requested by the browser isn't the hostname in the argument, the webserver will do a redirect to the host instead. If the hostname does match, it will pass on the request.

  • cgiRedirectApClientToHostname (arg: hostname to redirect to) This does the same as cgiRedirectToHostname but only to clients connected to the SoftAP of the ESP8266. This and the former function are used with the captive portal mode. The captive portal consists of a DNS-server (started by calling captdnsInit()) resolving all hostnames into the IP of the ESP8266. These redirect functions can then be used to further redirect the client to the hostname of the ESP8266.

  • cgiReadFlash (arg: none) Will serve up the SPI flash of the ESP8266 as a binary file.

  • cgiGetFirmwareNext (arg: CgiUploadFlashDef flash description data) For OTA firmware upgrade: indicates if the user1 or user2 firmware needs to be sent to the ESP to do an OTA upgrade

  • cgiUploadFirmware (arg: CgiUploadFlashDef flash description data) Accepts a POST request containing the user1 or user2 firmware binary and flashes it to the SPI flash

  • cgiRebootFirmware (arg: none) Reboots the ESP8266 to the newly uploaded code after a firmware upload.

  • cgiWiFi* functions (arg: various) These are used to change WiFi mode, scan for access points, associate to an access point etcetera. See the example projects for an implementation that uses these function calls.

  • cgiWebsocket (arg: connect function) This CGI is used to set up a websocket. Websockets are described later in this document.

  • cgiEspFsHook (arg: none) Serves files from the espfs filesystem. The espFsInit function should be called first, with as argument a pointer to the start of the espfs binary data in flash. The binary data can be both flashed separately to a free bit of SPI flash, as well as linked in with the binary. The nonos example project can be configured to do either.

  • cgiEspFsTemplate (arg: template function) The espfs code comes with a small but efficient template routine, which can fill a template file stored on the espfs filesystem with user-defined data.

Writing a CGI function

A CGI function, in principle, is called when the HTTP headers have come in and the client is waiting for the response of the webserver. The CGI function is responsible for generating this response, including the correct headers and an appropriate body. To decide what response to generate and what other actions to take, the CGI function can inspect various information sources, like data passed as GET- or POST-arguments.

A simple CGI function may, for example, greet the user with a name given as a GET argument:

int ICACHE_FLASH_ATTR cgiGreetUser(HttpdConnData *connData) {
	int len;			//length of user name
	char name[128];		//Temporary buffer for name
	char output[256];	//Temporary buffer for HTML output
	
	//If the browser unexpectedly closes the connection, the CGI will be called 
	//with connData->conn=NULL. We can use this to clean up any data. It's not really
	//used in this simple CGI function.
	if (connData->conn==NULL) {
		//Connection aborted. Clean up.
		return HTTPD_CGI_DONE;
	}

	if (connData->requestType!=HTTPD_METHOD_GET) {
		//Sorry, we only accept GET requests.
		httpdStartResponse(connData, 406);  //http error code 'unacceptable'
		httpdEndHeaders(connData);
		return HTTPD_CGI_DONE;
	}

	//Look for the 'name' GET value. If found, urldecode it and return it into the 'name' var.
	len=httpdFindArg(connData->getArgs, "name", name, sizeof(name));
	if (len==-1) {
		//If the result of httpdFindArg is -1, the variable isn't found in the data.
		strcpy(name, "unknown person");
	} else {
		//If len isn't -1, the variable is found and is copied to the 'name' variable
	}
	
	//Generate the header
	//We want the header to start with HTTP code 200, which means the document is found.
	httpdStartResponse(connData, 200); 
	//We are going to send some HTML.
	httpdHeader(connData, "Content-Type", "text/html");
	//No more headers.
	httpdEndHeaders(connData);
	
	//We're going to send the HTML as two pieces: a head and a body. We could've also done
	//it in one go, but this demonstrates multiple ways of calling httpdSend.
	//Send the HTML head. Using -1 as the length will make httpdSend take the length
	//of the zero-terminated string it's passed as the amount of data to send.
	httpdSend(connData, "<html><head><title>Page</title></head>", -1)
	//Generate the HTML body. 
	len=sprintf(output, "<body><p>Hello, %s!</p></body></html>", name);
	//Send HTML body to webbrowser. We use the length as calculated by sprintf here.
	//Using -1 again would also have worked, but this is more efficient.
	httpdSend(connData, output, len);

	//All done.
	return HTTPD_CGI_DONE;
}

Putting this CGI function into the HttpdBuiltInUrl array, for example with pattern "/hello.cgi", would allow an user to request the page "http://192.168.4.1/hello.cgi?name=John+Doe" and get a document saying "Hello, John Doe!".

A word of warning: while it may look like you could forego the entire httpdStartResponse/httpdHeader/httpdEndHeader structure and send all the HTTP headers using httpdSend, this will break a few things that need to know when the headers are finished, for example the HTTP 1.1 chunked transfer mode.

The approach of parsing the arguments, building up a response and then sending it in one go is pretty simple and works just fine for small bits of data. The gotcha here is that all http data sent during the CGI function (headers and data) are temporarily stored in a buffer, which is sent to the client when the function returns. The size of this buffer is typically about 2K; if the CGI tries to send more than this, data will be lost.

The way to get around this is to send part of the data using httpdSend and then return with HTTPD_CGI_MORE instead of HTTPD_CGI_DONE. The webserver will send the partial data and will call the CGI function again so it can send another part of the data, until the CGI function finally returns with HTTPD_CGI_DONE. The CGI can store it's state in connData->cgiData, which is a freely usable pointer that will persist across all calls in the request. It is NULL on the first call, and the standard way of doing things is to allocate a pointer to a struct that stores state here. Here's an example:

typedef struct {
	char *stringPos;
} LongStringState;

static char *longString="Please assume this is a very long string, way too long to be sent"\
		"in one time because it won't fit in the send buffer in it's entirety; we have to"\
		"break up sending it in multiple parts."

int ICACHE_FLASH_ATTR cgiSendLongString(HttpdConnData *connData) {
	LongStringState *state=connData->cgiData;
	int len;
	
	//If the browser unexpectedly closes the connection, the CGI will be called 
	//with connData->conn=NULL. We can use this to clean up any data. It's pretty relevant
	//here because otherwise we may leak memory when the browser aborts the connection.
	if (connData->conn==NULL) {
		//Connection aborted. Clean up.
		if (state!=NULL) free(state);
		return HTTPD_CGI_DONE;
	}

	if (state==NULL) {
		//This is the first call to the CGI for this webbrowser request.
		//Allocate a state structure.
		state=malloc(sizeof(LongStringState);
		//Save the ptr in connData so we get it passed the next time as well.
		connData->cgiData=state;
		//Set initial pointer to start of string
		state->stringPos=longString;
		//We need to send the headers before sending any data. Do that now.
		httpdStartResponse(connData, 200); 
		httpdHeader(connData, "Content-Type", "text/plain");
		httpdEndHeaders(connData);
	}

	//Figure out length of string to send. We will never send more than 128 bytes in this example.
	len=strlen(state->stringPos); //Get remaining length
	if (len>128) len=128; //Never send more than 128 bytes
	
	//Send that amount of data
	httpdSend(connData, state->stringPos, len);
	//Adjust stringPos to first byte we haven't sent yet
	state->stringPos+=len;
	//See if we need to send more
	if (strlen(state->stringPos)!=0) {
		//we have more to send; let the webserver call this function again.
		return HTTPD_CGI_MORE;
	} else {
		//We're done. Clean up here as well: if the CGI function returns HTTPD_CGI_DONE, it will
		//not be called again.
		free(state);
		return HTTPD_CGI_DONE;
	}
}

In this case, the CGI is called again after each chunk of data has been sent over the socket. If you need to suspend the HTTP response and resume it asynchronously for some other reason, you may save the HttpdConnData pointer, return HTTPD_CGI_MORE, then later call httpdContinue with the saved connection pointer. For example, if you need to communicate with another device over a different connection, you could send data to that device in the initial CGI call, then return HTTPD_CGI_MORE, then, in the espconn_recv_callback for the response, you can call httpdContinue to resume the HTTP response with data retrieved from the other device.

For POST data, a similar technique is used. For small amounts of POST data (smaller than MAX_POST, typically 1024 bytes) the entire thing will be stored in connData->post->buff and is accessible in its entirely on the first call to the CGI function. For example, when using POST to send form data, if the amount of expected data is low, it is acceptable to do a call like len=httpdFindArg(connData->post->buff, "varname", buff, sizeof(buff)); to get the data for the individual form elements.

In all cases, connData->post->len will contain the length of the entirety of the POST data, while connData->post->buffLen contains the length of the data in connData->post->buff. In the case where the total POST data is larger than the POST buffer, the latter will be less than the former. In this case, the CGI function is expected to not send any headers or data out yet, but to process the incoming bit of POST data and return with HTTPD_CGI_MORE. The next call will contain the next chunk of POST data. connData->post->received will always contain the total amount of POST data received for the request, including the data passed to the CGI. When that number equals connData->post->len, it means no more POST data is expected and the CGI function is free to send out the reply headers and data for the request.

The template engine

The espfs driver comes with a tiny template engine, which allows for runtime-calculated value changes in a static html page. It can be included in the builtInUrls variable like this:

	{"/showname.tpl", cgiEspFsTemplate, tplShowName}

It requires two things. First of all, the template is needed, which specifically is a file on the espfs with the same name as the first argument of the builtInUrls value, in this case showname.tpl. It is a standard HTML file containing a number of %name% entries. For example:

<html>
<head><title>Welcome</title></head>
<body>
<h1>Welcome, %username%, to the %thing%!</h1>
</body>
</html>

When this URL is requested, the words between percent characters will invoke the tplShowName function, allowing it to output specific data. For example:

int ICACHE_FLASH_ATTR tplShowName(HttpdConnData *connData, char *token, void **arg) {
	if (token==NULL) return HTTPD_CGI_DONE;

	if (os_strcmp(token, "username")==0) httpdSend(connData, "John Doe", -1);
	if (os_strcmp(token, "thing")==0) httpdSend(connData, "ESP8266 webserver", -1);

	return HTTPD_CGI_DONE;
}

This will result in a page stating Welcome, John Doe, to the ESP8266 webserver!.

Websocket functionality

ToDo: document this

About

NOTE: THIS CODE IS UNMAINTAINED. Please take a look at https://github.com/chmorgan/libesphttpd instead.

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