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When sending data over HTTPS, I know the content is encrypted, however I hear mixed answers about whether the headers are encrypted, or how much of the header is encrypted.

How much of HTTPS headers are encrypted?

Including GET/POST request URLs, Cookies, etc.

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  • 16
    HTTP Headers over HTTPS are encrypted, and also not HTTP-Compressed (even if the body is). This makes them less vulnerable to compression-related attacks like BEAST Mar 18, 2015 at 18:11

9 Answers 9

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The whole lot is encrypted - all the headers. That's why SSL on vhosts doesn't work too well - you need a dedicated IP address because the Host header is encrypted.

The Server Name Identification (SNI) standard means that the hostname may not be encrypted if you're using TLS. Also, whether you're using SNI or not, the TCP and IP headers are never encrypted. (If they were, your packets would not be routable.)

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    @Greg, Since the vhost gateway is authorized, Couldn't the gateway unencrypt them, observe the Host header, then determine which host to send the packets to?
    – Pacerier
    Dec 12, 2014 at 3:31
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    Afaik URL itself is not encrypted.
    – Teddy
    Nov 16, 2015 at 7:54
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    @Teddu what do you mean by "URL itself is not encrypted.". It's encrypted, as it's part of the header. Feb 2, 2017 at 15:43
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    If Fiddler is used to capture https communication, it still display some headers, why? Especially, when the internet connection is via a proxy which requires authentication, it displays the Proxy-Authorization header when the request is resent after it gets 407 at the first send.
    – Bochen Lin
    Jan 9, 2018 at 21:57
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    @Bochen same way Pegasus does. If you are on either end of the HTTPS tunnel then you can see everything. Same way I can see anything in browser devtools.
    – Nux
    Dec 5, 2019 at 0:52
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The headers are entirely encrypted. The only information going over the network 'in the clear' is related to the SSL setup and D/H key exchange. This exchange is carefully designed not to yield any useful information to eavesdroppers, and once it has taken place, all data is encrypted.

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    Not all SSL setup involves DH
    – Dori
    May 6, 2016 at 20:25
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    To be a little pedantic: The IP address of the client and server, the server's hostname, and signals about their SSL implementations are useful to eavesdroppers and are visible.
    – poolie
    Nov 26, 2016 at 22:17
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New answer to old question, sorry. I thought I'd add my $.02

The OP asked if the headers were encrypted.

They are: in transit.

They are NOT: when not in transit.

So, your browser's URL (and title, in some cases) can display the querystring (which usually contain the most sensitive details) and some details in the header; the browser knows some header information (content type, unicode, etc); and browser history, password management, favorites/bookmarks, and cached pages will all contain the querystring. Server logs on the remote end can also contain querystring as well as some content details.

Also, the URL isn't always secure: the domain, protocol, and port are visible - otherwise routers don't know where to send your requests.

Also, if you've got an HTTP proxy, the proxy server knows the address, usually they don't know the full querystring.

So if the data is moving, it's generally protected. If it's not in transit, it's not encrypted.

Not to nit pick, but data at the end is also decrypted, and can be parsed, read, saved, forwarded, or discarded at will. And, malware at either end can take snapshots of data entering (or exiting) the SSL protocol - such as (bad) Javascript inside a page inside HTTPS which can surreptitiously make http (or https) calls to logging websites (since access to local harddrive is often restricted and not useful).

Also, cookies are not encrypted under the HTTPS protocol, either. Developers wanting to store sensitive data in cookies (or anywhere else for that matter) need to use their own encryption mechanism.

As to cache, most modern browsers won't cache HTTPS pages, but that fact is not defined by the HTTPS protocol, it is entirely dependent on the developer of a browser to be sure not to cache pages received through HTTPS.

So if you're worried about packet sniffing, you're probably okay. But if you're worried about malware or someone poking through your history, bookmarks, cookies, or cache, you are not out of the water yet.

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    I know the good answers are on top, but this once again inserts faulty information. Domain is not visible, unless SNI is used. Protocol, other than IP and TCP are not visible. You cannot tell if I'm using HTTP 1.1, SPDY or HTTP2. What is visible on the two endpoints is irrelevant, as the goal of encryption is not to make things invisible but to make things only visible to trusted parties. So the endpoints are implied in the question and about 2/3 of your answer can be removed. The proxy information should be: if you use an HTTPS proxy, then it does have access to everything.
    – user1600649
    Dec 22, 2016 at 16:45
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    Your link says specifically that cookies are encrypted: "The visitor’s connection is encrypted, obscuring URLs, cookies, and other sensitive metadata."
    – DylanYoung
    Nov 30, 2017 at 17:14
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    Yes, that is correct. Cookies are encrypted while in transit, but once they reach the browser, they are not encrypted by the SSL protocol. It is possible for a developer to encrypt the cookie data, but that is out of scope for SSL.
    – Andrew Jay
    Dec 1, 2017 at 15:44
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    @DylanYoung SSL = secure socket layer; TLS = transport layer security. Encryption is at the socket (connection) level or to put it another way at the transport level not while stored in the browser per domain database.
    – curiousguy
    Jul 18, 2018 at 14:33
  • @Wigwam Security sensitive HTTP cookies are almost always opaque references (usually it's a cryptographically strong random number) to a record in the server database of authenticated sessions. As such encrypting this meaningless identifier would mostly bring additional complexity.
    – curiousguy
    Jul 18, 2018 at 14:43
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HTTP version 1.1 added a special HTTP method, CONNECT - intended to create the SSL tunnel, including the necessary protocol handshake and cryptographic setup.
The regular requests thereafter all get sent wrapped in the SSL tunnel, headers and body inclusive.

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With SSL the encryption is at the transport level, so it takes place before a request is sent.

So everything in the request is encrypted.

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  • Since SSL takes place in transport layer and assignment of destination address in packets (in header) takes place in network layer (which is below transport ), then how the headers are encrypted? Feb 10, 2017 at 9:26
  • @PrateekJoshi Because HTTP headers live on the application layer and so are, by default, encrypted due to a lower/ancestor layer being encrypted.
    – Aquarelle
    Apr 26, 2017 at 3:53
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HTTPS (HTTP over SSL) sends all HTTP content over a SSL tunel, so HTTP content and headers are encrypted as well.

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Yes, headers are encrypted. It's written here.

Everything in the HTTPS message is encrypted, including the headers, and the request/response load.

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    Wikipedia is not the spec, which is what you should be quoting. Oct 10, 2017 at 13:53
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the URL is also encrypted, you really only have the IP, Port and if SNI, the host name that are unencrypted.

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  • Even if SNI is not supported, an intermediary capable of intercepting HTTP connections will often be capable of monitoring DNS questions too (most interception is done near the client, like on a pirated user router). So they will be able to see the DNS names.
    – curiousguy
    Jul 18, 2018 at 14:45
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To understand, what is encrypted and what not, you need to know that SSL/TLS is the layer between the transport-layer and the application-layer.

in the case of HTTPS, HTTP is the application-layer, and TCP the transport-layer. That means, all Headers below the SSL-Level are unencrypted. Also, SSL itself may expose data. The exposed data includes(for each layer's Header):

NOTE: Additional Data might be exposed too, but this data is pretty sure to be exposed.

MAC:

  1. Source MAC address(Current Hop)
  2. Destination MAC address(Next Hop)

IP(assuming IPv4):

  1. Destination IP address
  2. Source IP address
  3. IP Options(if set)
  4. Type-Of-Service(TOS)
  5. The number of hops the current packet passed, if TTL is set to 64

TCP:

  1. Source Port
  2. Destination Port
  3. TCP-Options

Theoretically, you can encrypt the TCP-Headers, but that is hard to implement.

SSL:

  1. Hostname(if SNI is being used)

Usually, a browser won't just connect to the destination host by IP immediantely using HTTPS, there are some earlier requests, that might expose the following information(if your client is not a browser, it might behave differently, but the DNS request is pretty common):

DNS: This request is being sent to get the correct IP address of a server. It will include the hostname, and its result will include all IP addresses belonging to the server.

HTTP: the first request to your server. A browser will only use SSL/TLS if instructed to, unencrypted HTTP is used first. Usually, this will result in a redirect to the seucre site. However, some headers might be included here already:

  1. User-Agent(Specification of the client)
  2. Host (Hostname)
  3. Accept-Language (User-Language)
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  • MAC addresses aren't really "exposed", only the local router sees the client's MAC address (which it will always be able to do so), and the destination MAC address isn't related to the final server at all, conversely, only the server's router see the server MAC address, and the source MAC address there isn't related to the client.
    – Martheen
    Jun 2 at 4:17
  • @Martheen the source address is set to the current hop's mac address, and the destination is set to the one of the next hop. they depend on where the packet was captured, and do not provide any useful information. Jun 3 at 13:39

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