tl;dr; About the Same Origin Policy
I have a Grunt process which initiates an instance of express.js server. This was working absolutely fine up until just now when it started serving a blank page with the following appearing in the error log in the developer's console in Chrome (latest version):
XMLHttpRequest cannot load https://www.example.com/
No 'Access-Control-Allow-Origin' header is present on the requested
resource. Origin 'http://localhost:4300' is therefore not allowed access.
What is stopping me from accessing the page?
tl;dr — When you want to read data, (mostly) using client-side JS, from a different server you need the server with the data to grant explicit permission to the code that wants the data.
There's a summary at the end and headings in the answer to make it easier to find the relevant parts. Reading everything is recommended though as it provides useful background for understanding the why that makes seeing how the how applies in different circumstances easier.
About the Same Origin Policy
This is the Same Origin Policy. It is a security feature implemented by browsers.
Your particular case is showing how it is implemented for XMLHttpRequest (and you'll get identical results if you were to use fetch), but it also applies to other things (such as images loaded onto a <canvas> or documents loaded into an <iframe>), just with slightly different implementations.
The standard scenario that demonstrates the need for the SOP can be demonstrated with three characters:
Alice is a person with a web browser
Bob runs a website (https://www.example.com/ in your example)
Mallory runs a website (http://localhost:4300 in your example)
Alice is logged into Bob's site and has some confidential data there. Perhaps it is a company intranet (accessible only to browsers on the LAN), or her online banking (accessible only with a cookie you get after entering a username and password).
Alice visits Mallory's website which has some JavaScript that causes Alice's browser to make an HTTP request to Bob's website (from her IP address with her cookies, etc). This could be as simple as using XMLHttpRequest and reading the responseText.
The browser's Same Origin Policy prevents that JavaScript from reading the data returned by Bob's website (which Bob and Alice don't want Mallory to access). (Note that you can, for example, display an image using an <img> element across origins because the content of the image is not exposed to JavaScript (or Mallory) … unless you throw canvas into the mix in which case you will generate a same-origin violation error).
Why the Same Origin Policy applies when you don't think it should
For any given URL it is possible that the SOP is not needed. A couple of common scenarios where this is the case are:
Alice, Bob, and Mallory are the same person.
Bob is providing entirely public information
… but the browser has no way of knowing if either of the above is true, so trust is not automatic and the SOP is applied. Permission has to be granted explicitly before the browser will give the data it has received from Bob to some other website.
Why the Same Origin Policy applies to JavaScript in a web page but little else
Outside the web page
Browser extensions*, the Network tab in browser developer tools, and applications like Postman are installed software. They aren't passing data from one website to the JavaScript belonging to a different website just because you visited that different website. Installing software usually takes a more conscious choice.
There isn't a third party (Mallory) who is considered a risk.
* Browser extensions do need to be written carefully to avoid cross-origin issues. See the Chrome documentation for example.
Inside the webpage
Most of the time, there isn't a great deal of information leakage when just showing something on a webpage.
If you use an <img> element to load an image, then it gets shown on the page, but very little information is exposed to Mallory. JavaScript can't read the image (unless you use a crossOrigin attribute to explicitly enable request permission with CORS) and then copy it to her server.
That said, some information does leak so, to quote Domenic Denicola (of Google):
The web's fundamental security model is the same origin policy. We
have several legacy exceptions to that rule from before that security
model was in place, with script tags being one of the most egregious
and most dangerous. (See the various "JSONP" attacks.)
Many years ago, perhaps with the introduction of XHR or web fonts (I
can't recall precisely), we drew a line in the sand, and said no new
web platform features would break the same origin policy. The existing
features need to be grandfathered in and subject to carefully-honed
and oft-exploited exceptions, for the sake of not breaking the web,
but we certainly can't add any more holes to our security policy.
This is why you need CORS permission to load fonts across origins.
Why you can display data on the page without reading it with JS
There are a number of circumstances where Mallory's site can cause a browser to fetch data from a third party and display it (e.g. by adding an <img> element to display an image). It isn't possible for Mallory's JavaScript to read the data in that resource though, only Alice's browser and Bob's server can do that, so it is still secure.
CORS
The Access-Control-Allow-Origin HTTP response header referred to in the error message is part of the CORS standard which allows Bob to explicitly grant permission to Mallory's site to access the data via Alice's browser.
A basic implementation would just include:
Access-Control-Allow-Origin: *
… in the response headers to permit any website to read the data.
Access-Control-Allow-Origin: http://example.com
… would allow only a specific site to access it, and Bob can dynamically generate that based on the Origin request header to permit multiple, but not all, sites to access it.
The specifics of how Bob sets that response header depend on Bob's HTTP server and/or server-side programming language. Users of Node.js/Express.js should use the well-documented CORS middleware. Users of other platforms should take a look at this collection of guides for various common configurations that might help.
NB: Some requests are complex and send a preflight OPTIONS request that the server will have to respond to before the browser will send the GET/POST/PUT/Whatever request that the JS wants to make. Implementations of CORS that only add Access-Control-Allow-Origin to specific URLs often get tripped up by this.
Obviously granting permission via CORS is something Bob would only do only if either:
The data was not private or
Mallory was trusted
How do I add these headers?
It depends on your server-side environment.
If you can, use a library designed to handle CORS as they will present you with simple options instead of having to deal with everything manually.
Enable-Cors.org has a list of documentation for specific platforms and frameworks that you might find useful.
But I'm not Bob!
There is no standard mechanism for Mallory to add this header because it has to come from Bob's website, which she does not control.
If Bob is running a public API then there might be a mechanism to turn on CORS (perhaps by formatting the request in a certain way, or a config option after logging into a Developer Portal site for Bob's site). This will have to be a mechanism implemented by Bob though. Mallory could read the documentation on Bob's site to see if something is available, or she could talk to Bob and ask him to implement CORS.
Error messages which mention "Response for preflight"
Some cross-origin requests are preflighted.
This happens when (roughly speaking) you try to make a cross-origin request that:
Includes credentials like cookies
Couldn't be generated with a regular HTML form (e.g. has custom headers or a Content-Type that you couldn't use in a form's enctype).
If you are correctly doing something that needs a preflight
In these cases then the rest of this answer still applies but you also need to make sure that the server can listen for the preflight request (which will be OPTIONS (and not GET, POST, or whatever you were trying to send) and respond to it with the right Access-Control-Allow-Origin header but also Access-Control-Allow-Methods and Access-Control-Allow-Headers to allow your specific HTTP methods or headers.
If you are triggering a preflight by mistake
Sometimes people make mistakes when trying to construct Ajax requests, and sometimes these trigger the need for a preflight. If the API is designed to allow cross-origin requests but doesn't require anything that would need a preflight, then this can break access.
Common mistakes that trigger this include:
trying to put Access-Control-Allow-Origin and other CORS response headers on the request. These don't belong on the request, don't do anything helpful (what would be the point of a permissions system where you could grant yourself permission?), and must appear only on the response.
trying to put a Content-Type: application/json header on a GET request that has no request body the content of which to describe (typically when the author confuses Content-Type and Accept).
In either of these cases, removing the extra request header will often be enough to avoid the need for a preflight (which will solve the problem when communicating with APIs that support simple requests but not preflighted requests).
Opaque responses (no-cors mode)
Sometimes you need to make an HTTP request, but you don't need to read the response. e.g. if you are posting a log message to the server for recording.
If you are using the fetch API (rather than XMLHttpRequest), then you can configure it to not try to use CORS.
Note that this won't let you do anything that you require CORS to do. You will not be able to read the response. You will not be able to make a request that requires a preflight.
It will let you make a simple request, not see the response, and not fill the Developer Console with error messages.
How to do it is explained by the Chrome error message given when you make a request using fetch and don't get permission to view the response with CORS:
Access to fetch at 'https://example.com/' from origin 'https://example.net' has been blocked by CORS policy: No 'Access-Control-Allow-Origin' header is present on the requested resource. If an opaque response serves your needs, set the request's mode to 'no-cors' to fetch the resource with CORS disabled.
Thus:
fetch("http://example.com", { mode: "no-cors" });
Alternatives to CORS
JSONP
Bob could also provide the data using a hack like JSONP which is how people did cross-origin Ajax before CORS came along.
It works by presenting the data in the form of a JavaScript program that injects the data into Mallory's page.
It requires that Mallory trust Bob not to provide malicious code.
Note the common theme: The site providing the data has to tell the browser that it is OK for a third-party site to access the data it is sending to the browser.
Since JSONP works by appending a <script> element to load the data in the form of a JavaScript program that calls a function already in the page, attempting to use the JSONP technique on a URL that returns JSON will fail — typically with a CORB error — because JSON is not JavaScript.
Move the two resources to a single Origin
If the HTML document the JS runs in and the URL being requested are on the same origin (sharing the same scheme, hostname, and port) then the Same Origin Policy grants permission by default. CORS is not needed.
A Proxy
Mallory could use server-side code to fetch the data (which she could then pass from her server to Alice's browser through HTTP as usual).
It will either:
add CORS headers
convert the response to JSONP
exist on the same origin as the HTML document
That server-side code could be written & hosted by a third party (such as CORS Anywhere). Note the privacy implications of this: The third party can monitor who proxies what across their servers.
Bob wouldn't need to grant any permissions for that to happen.
There are no security implications here since that is just between Mallory and Bob. There is no way for Bob to think that Mallory is Alice and to provide Mallory with data that should be kept confidential between Alice and Bob.
Consequently, Mallory can only use this technique to read public data.
Do note, however, that taking content from someone else's website and displaying it on your own might be a violation of copyright and open you up to legal action.
Writing something other than a web app
As noted in the section "Why the Same Origin Policy only applies to JavaScript in a web page", you can avoid the SOP by not writing JavaScript in a webpage.
That doesn't mean you can't continue to use JavaScript and HTML, but you could distribute it using some other mechanism, such as Node-WebKit or PhoneGap.
Browser extensions
It is possible for a browser extension to inject the CORS headers in the response before the Same Origin Policy is applied.
These can be useful for development but are not practical for a production site (asking every user of your site to install a browser extension that disables a security feature of their browser is unreasonable).
They also tend to work only with simple requests (failing when handling preflight OPTIONS requests).
Having a proper development environment with a local development server
is usually a better approach.
Other security risks
Note that SOP / CORS do not mitigate XSS, CSRF, or SQL Injection attacks which need to be handled independently.
Summary
There is nothing you can do in your client-side code that will enable CORS access to someone else's server.
If you control the server the request is being made to: Add CORS permissions to it.
If you are friendly with the person who controls it: Get them to add CORS permissions to it.
If it is a public service:
Read their API documentation to see what they say about accessing it with client-side JavaScript:
They might tell you to use specific URLs
They might support JSONP
They might not support cross-origin access from client-side code at all (this might be a deliberate decision on security grounds, especially if you have to pass a personalized API Key in each request).
Make sure you aren't triggering a preflight request you don't need. The API might grant permission for simple requests but not preflighted requests.
If none of the above apply: Get the browser to talk to your server instead, and then have your server fetch the data from the other server and pass it on. (There are also third-party hosted services that attach CORS headers to publically accessible resources that you could use).
Target server must allowed cross-origin request. In order to allow it through express, simply handle http options request :
app.options('/url...', function(req, res, next){
res.header('Access-Control-Allow-Origin', "*");
res.header('Access-Control-Allow-Methods', 'POST');
res.header("Access-Control-Allow-Headers", "accept, content-type");
res.header("Access-Control-Max-Age", "1728000");
return res.sendStatus(200);
});
As this isn't mentioned in the accepted answer.
This is not the case for this exact question, but might help others that search for that problem
This is something you can do in your client-code to prevent CORS errors in some cases.
You can make use of Simple Requests.
In order to perform a 'Simple Requests' the request needs to meet several conditions. E.g. only allowing POST, GET and HEAD method, as well as only allowing some given Headers (you can find all conditions here).
If your client code does not explicit set affected Headers (e.g. "Accept") with a fix value in the request it might occur that some clients do set these Headers automatically with some "non-standard" values causing the server to not accept it as Simple Request - which will give you a CORS error.
This is happening because of the CORS error. CORS stands for Cross Origin Resource Sharing. In simple words, this error occurs when we try to access a domain/resource from another domain.
Read More about it here: CORS error with jquery
To fix this, if you have access to the other domain, you will have to allow Access-Control-Allow-Origin in the server. This can be added in the headers. You can enable this for all the requests/domains or a specific domain.
How to get a cross-origin resource sharing (CORS) post request working
These links may help
This CORS issue wasn't further elaborated (for other causes).
I'm having this issue currently under different reason.
My front end is returning 'Access-Control-Allow-Origin' header error as well.
Just that I've pointed the wrong URL so this header wasn't reflected properly (in which i kept presume it did). localhost (front end) -> call to non secured http (supposed to be https), make sure the API end point from front end is pointing to the correct protocol.
I got the same error in Chrome console.
My problem was, I was trying to go to the site using http:// instead of https://. So there was nothing to fix, just had to go to the same site using https.
This bug cost me 2 days. I checked my Server log, the Preflight Option request/response between browser Chrome/Edge and Server was ok. The main reason is that GET/POST/PUT/DELETE server response for XHTMLRequest must also have the following header:
access-control-allow-origin: origin
"origin" is in the request header (Browser will add it to request for you). for example:
Origin: http://localhost:4221
you can add response header like the following to accept for all:
access-control-allow-origin: *
or response header for a specific request like:
access-control-allow-origin: http://localhost:4221
The message in browsers is not clear to understand: "...The requested resource"
note that:
CORS works well for localhost. different port means different Domain.
if you get error message, check the CORS config on the server side.
In most housing services just add in the .htaccess on the target server folder this:
Header set Access-Control-Allow-Origin 'https://your.site.folder'
I had the same issue. In my case i fixed it by adding addition parameter of timestamp to my URL. Even this was not required by the server I was accessing.
Example yoururl.com/yourdocument?timestamp=1234567
Note: I used epos timestamp
"Get" request with appending headers transform to "Options" request. So Cors policy problems occur. You have to implement "Options" request to your server. Cors Policy about server side and you need to allow Cors Policy on your server side. For Nodejs server:details
app.use(cors)
For Java to integrate with Angular:details
#CrossOrigin(origins = "http://localhost:4200")
You should enable CORS to get it working.
I'm sure I'm not the only one who have used/uses CORS plugins for browsers or --disable-web-security flag while making API calls to external (or even internal) API endpoints. I used this plugin to make Google Maps related API calls. But within the same application, ParseSDK API calls needed no CORS or --disable-web-security flag.
My question is : Why are these endpoints acting differently and how does CORS plugin solve the problem (even though we don't have control over those APIs)?
Thanks in advance.
Well, what that plugin does is highly irresponsible; It actually disables the same origin policy, which enforces that a website on a specific origin can only make requests to that origin.
The same origin policy actually just prevents a website from reading the response of a GET/POST request, the request itself is made, because it's considered safe.
Over time this good security feature became a burden and people used workarounds like JSONP.
So we got a new, standardized way to access foreign origins:
CORS (Cross-Origin Resource Sharing) is a mechanism that allows a web server to specify that another origin is allowed to access its content. This is done with Access-Control-Allow-Origin: example.com which allows example.com to access the response even if the response is from a different origin.
The Access-Control-Allow-Credentials: true would also allow the credentials, which includes cookies and HTTP Basic authentication to be sent within the request.
You can also specify a wildcard for Access-Control-Allow-Origin: *, which allows all websites to access this response. However when you do this you have to specify Access-Control-Allow-Credentials: false, so no credentials are exposed.
This is the only correct way to implement a public accessible AJAX API in the internet.
However this plugin just simply disables the same origin policy completely which is extremely dangerous.
The link you posted (did you read the description?) specifies exactly what the extension does - it adds the Access-Control-Allow-Origin: * header to all responses. This is a CORS header that normally the server sends to notify the browser that you are allowed to make requests from arbitrary origins.
Parse SDK probably supports CORS on their server end.
Just for your information, when most people say CORS they are not referring to a browser extension. They're referring to the web standard called CORS. Documentation below.
https://developer.mozilla.org/en-US/docs/Web/HTTP/Access_control_CORS
As far as I understand CORS cannot exactly protect you in the way that you can really be sure who the caller is. Because the caller can send any ORIGIN header he wants. Actually I read somewhere you cannot set the origin header via javascript as it is a restricted header - but I'm not quite sure of that. Anyway.. if you were to implement your own HttpClient you could easily forge your origin header and therefore consume services which you are not supposed to consume.
Secondly if no Origin header is specified the request works as well. For example I use Google Chrome's Postman Extension and it doesn't send any origin headers. In fact if you try to add one manually it doesn't send it over the wire.
Therefore...
...question 1 is: Should my application deny requests without any Origin header? And...
...question 2: How exactly does make CORS my REST service more secure?
There are browsers supporting CORS and not supporting CORS. (We are at the early stage of CORS, the implementations of the CORS specification across browsers are not consistent).
Not supporting CORS means when the browser detects a cross-origin request, the request is blocked and not sent to the server.
Supporting CORS means the browser applies the CORS policy: appends the Origin header before sending requests to the server and after receiving the response, the browser checks the Access-Control-Allow-Origin the decide whether to discard the response.
The same-origin policy is intended to reduce the risks of XSS attacks, this attack mostly happens on browsers, not likely to happen in HttpClient. The CORS policy is for relaxing the same-origin policy so that if you are the owner of both sites, you can leverage this policy to allow communications between your 2 sites.
Tip Supporting CORS means that the browser has to apply the
cross-origin security policy after it has contacted the server and has
obtained the response header, meaning that the request is made even if
the response is discarded because the required header is missing or
specified a different domain. This is a very different approach from
browsers that don’t implement CORS and that simply block the request,
never contacting the server.
Extracted from this book
The point of CORS is to prevent (or allow) Javascript running on a different domain from sending AJAX requests to your API and using the user's authenticated session cookie.
CORS cannot replace proper authentication; all does is prevent the browser from acting as a confused deputy against your existing authentication scheme.
I have a form on my homepage that is set up to submit via XHR POST to the URL https://mydomain.com/send_sms.
When I visit the non-SSL version of the homepage in Internet Explorer (http://mydomain.com) & submit the form, nothing happens. In Webkit console, I receive a helpful error stating Origin http://mydomain.com is not allowed by Access-Control-Allow-Origin.
In Firefox 13 however, the request clearly submits & a returns a 200 OK, though the response body is blank. Furthermore, the server-side action (sending an SMS) is in fact triggered by the Firefox request but not the other browsers.
I always thought the same-origin policy denied even the sending of the request, but perhaps it's the browser receiving data from the response that's disallowed?
Anyone know if this is a purposeful difference in implementation (or possibly even an oversight) by Mozilla?
First of all, http://example.com and https://example.com are different origins. For XHR Level 1 this would mean, cross-origin requests are not allowed.
But for the current XHR (Level 2), which supports cross-origin requests when CORS is supported (by both server and client!), a cross-origin request can either be
a simple cross-orgin request, if
the request method is GET, HEAD, or POST, and
none of the request header fields is one other than Accept, Accept-Language, Content-Language, or Content-Type, and
the preflight flag is not set
or
a cross-origin request that requires a preflight, otherwise.
For simple cross-origin requests, the browser is allowed to send the request. But when the response is received, it needs to check whether the server allows to share the resource. This is where the Access-Control-Allow-Origin header field and other Access-Control-* response header fields are checked. And only if this check is passed, the browser allows the script to read the response.
For other cross-origin requests, a preflight is required to negotiate with the server what information is allowed to be sent in the actual request. This preflight request is basically a OPTIONS request telling the server what the actual request will contain (request method and header fields). Then the server can decide whether it allows such request or not.
In your case, the observed behavior can have multiple reasons. I guess your send_sms script just doesn’t support the server side part for CORS.
The sending of data should be prohibited just as much as receiving e.g. what if there was some malicious JS on this page and it was submitting each keystroke to some random server? In this instance, the sending is more nefarious than the receiving (as an aside, this can actually be achieved by requesting resources like images or scripts, with a query string, as they aren't subject to the same origin policy).
I have encountered slight differences in the past but that's usually been with legacy IE.
To me, the firefox discrepancy is a bug (providing a vanilla install has this trait). A different protocol (HTTP vs HTTPS) is equivalent to a different origin, even sub-domains on the same protocol are considered to be of different origin, so FF13 should definitely not be making the AJAX request.
You don't happen to have CORS (Cross-Origin Resource Sharing) set up, and FF13 is the only browser you've tested to support it?
I've read that setting document.domain = "example.com" lets me access the parent domain from a subdomain.
Will the same work the other way around?
Let's say my main site is running under http://example.com. All API functions that I want to access via AJAX (GET & POST) are hosted on http://api.example.com.
Will I be able to access api.example.com from example.com?
EDIT: Looking at document.domain again, I don't think that this will solve the problem. The result from calls to api.example.com are not necessary HTML, but output from a PHP script running on the API server. It can be JSON, plain text, etc. so there's no way to set document.domain for that (since it's not an iframe).
You need to set document.domain on BOTH pages
Alternatively set CORS headers on your server:
http://hacks.mozilla.org/2009/07/cross-site-xmlhttprequest-with-cors/
A Quick Overview of CORS
Firefox 3.5 and Safari 4 implement the
CORS specification, using
XMLHttpRequest as an “API container”
that sends and receives the
appropriate headers on behalf of the
web developer, thus allowing
cross-site requests. IE8 implements
part of the CORS specification, using
XDomainRequest as a similar “API
container” for CORS, enabling simple
cross-site GET and POST requests.
Notably, these browsers send the
ORIGIN header, which provides the
scheme (http:// or https://) and the
domain of the page that is making the
cross-site request. Server developers
have to ensure that they send the
right headers back, notably the
Access-Control-Allow-Origin header for
the ORIGIN in question (or ” * ” for
all domains, if the resource is
public) .
The CORS standard works by adding new
HTTP headers that allow servers to
serve resources to permitted origin
domains. Browsers support these
headers and enforce the restrictions
they establish. Additionally, for HTTP
request methods that can cause
side-effects on user data (in
particular, for HTTP methods other
than GET, or for POST usage with
certain MIME types), the specification
mandates that browsers “preflight” the
request, soliciting supported methods
from the server with an HTTP OPTIONS
request header, and then, upon
“approval” from the server, sending
the actual request with the actual
HTTP request method. Servers can also
notify clients whether “credentials”
(including Cookies and HTTP
Authentication data) should be sent
with requests.