meant to say "trusted.gpg", not "trustdb".
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|This article discusses things at a relatively high level. For details on the format of the files Debian repositories please reffer to the [[RepositoryFormat]] page. For detailed information on commands please reffer to the man pages of the tools.
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|A checksum is a method of taking a file and boiling it down to a reasonably short number that uniquely identifies the content of the file. This is a lot harder to do well than it might seem, and the most commonly used type of checksum, [[http://en.wikipedia.org/wiki/MD5|MD5]], is now a broken hash function, and should be replaced for all security-minded usages.||A secure hash function (a type of checksum) is a method of taking a file and boiling it down to a reasonably short number that will uniquely identifies the content of the file even if people are deliberately trying to create a pair of different files with the same checksum or create a new file that matches a previous checksum. APT was originally designed around [[http://en.wikipedia.org/wiki/MD5|MD5]] but people have since managed to construct collisions and so support for newer hash functions has been added.|
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|These keys are quite long numbers (at least 1024 bits, i.e. 256 or more hex digits), and to make them easier to work with they have a key id, which is a shorter, 8 or 16 digit number that can be used to refer to them.||These keys are quite long numbers (at least 1024 bits, i.e. 256 or more hex digits and prefferablly a lot more), and to make them easier to work with they have a key id, which is a shorter, 8 or 16 digit number that can be used to refer to them. However care should be taken with key IDs, especially the short 8 character ID as it is possible to generate collisions.|
All about secure apt
In recent releases, Debian has been using strong crypto to validate downloaded packages. This is commonly called "secure apt" (or "apt-secure") and was implemented in Apt version 0.6 in 2003, which Debian migrated to in 2005. Since the documentation (here and here) is fairly slim on how this all works from an administrator's point of view, this document will try to explain in detail how secure apt works and how to use it.
This article discusses things at a relatively high level. For details on the format of the files Debian repositories please reffer to the RepositoryFormat page. For detailed information on commands please reffer to the man pages of the tools.
- All about secure apt
- Basic concepts
- Secure apt groundwork: checksums
- Signed Release files
- How apt uses Release.gpg
- How to tell apt what to trust
- How to find and add a key
- How to tell if the key is safe
- Debian archive key expiry
- How to manually check for package's integrity
- Other problems
- Setting up a secure apt repository
- Comments and questions
Here are a few basic concepts that you'll need to understand for the rest of this document.
A secure hash function (a type of checksum) is a method of taking a file and boiling it down to a reasonably short number that will uniquely identifies the content of the file even if people are deliberately trying to create a pair of different files with the same checksum or create a new file that matches a previous checksum. APT was originally designed around MD5 but people have since managed to construct collisions and so support for newer hash functions has been added.
Public key cryptography is based on pairs of keys, a public key and a private key. The public key is given out to the world; the private key must be kept a secret. Anyone possessing the public key can encrypt a message so that it can only be read by someone possessing the private key. It's also possible to use a private key to sign a file, not encrypt it. If a private key is used to sign a file, then anyone who has the public key can check that the file was signed by that key. Anyone who doesn't have the private key can't forge such a signature.
These keys are quite long numbers (at least 1024 bits, i.e. 256 or more hex digits and prefferablly a lot more), and to make them easier to work with they have a key id, which is a shorter, 8 or 16 digit number that can be used to refer to them. However care should be taken with key IDs, especially the short 8 character ID as it is possible to generate collisions.
gpg is the tool used in secure apt to sign files and check their signatures.
apt-key is a program that is used to manage a keyring of gpg keys for secure apt. The keyring is kept in the file /etc/apt/trusted.gpg (not to be confused with the related but not very interesting /etc/apt/trustdb.gpg). apt-key can be used to show the keys in the keyring, and to add or remove a key. In more recent Debian GNU/Linux versions (Wheezy, for example), the keyrings are stored in specific files all located in the /etc/apt/trusted.gpg.d directory. For example, that directory could contain the following files: debian-archive-squeeze-automatic.gpg or debian-archive-wheezy-automatic.gpg. Incidentally, both files are provided by the debian-archive-keyring package.
Secure apt groundwork: checksums
A Debian archive contains a Release file, which is updated each time any of the packages in the archive change. Among other things, the Release file contains some checksums of other files in the archive. An excerpt of an example Release file:
MD5Sum: 6b05b392f792ba5a436d590c129de21f 3453 Packages 1356479a23edda7a69f24eb8d6f4a14b 1131 Packages.gz 2a5167881adc9ad1a8864f281b1eb959 1715 Sources 88de3533bf6e054d1799f8e49b6aed8b 658 Sources.gz
Now if we look inside a Packages file, we'll find more checksums, one for each package listed in it. For example:
Package: uqm Priority: optional ... Filename: unstable/uqm_0.4.0-1_i386.deb Size: 580558 MD5sum: 864ec6157c1eea88acfef44d0f34d219
These two checksums allow apt to verify that it has downloaded a correct copy of the Packages file, with a checksum that matches the one in the Release file. And when it downloads an individual package, it can also check its checksum against the content of the Packages file. If apt fails at either of these steps, it will abort.
None of this is new in secure apt, but it does provide the foundation. Notice that so far there is one file that apt doesn't have a way to check: The Release file. Secure apt is all about making apt verify the Release file before it does anything else with it, and plugging this hole, so that there is a chain of verification from the package that you are going to install all the way back to the provider of the package.
Signed Release files
To plug the hole, secure apt adds a gpg signature for the Release file. This is put in a file named Release.gpg that's shipped alongside the Release file. It looks something like this, although only gpg actually looks at its contents normally:
-----BEGIN PGP SIGNATURE----- Version: GnuPG v1.4.1 (GNU/Linux) iD8DBQBCqKO1nukh8wJbxY8RAsfHAJ9hu8oGNRAl2MSmP5+z2RZb6FJ8kACfWvEx UBGPVc7jbHHsg78EhMBlV/U= =x6og -----END PGP SIGNATURE-----
(Technically speaking, this is an ascii-armored detached gpg signature.)
How apt uses Release.gpg
Secure apt always downloads Release.gpg files when it's downloading Release files, and if it cannot download the Release.gpg, or if the signature is bad, it will complain, and will make note that the Packages files that the Release file points to, and all the packages listed therein, are from an untrusted source. Here's how it looks during an apt-get update:
W: GPG error: http://ftp.us.debian.org testing Release: The following signatures couldn't be verified because the public key is not available: NO_PUBKEY 010908312D230C5F
Note that the second half of the long number is the key id of the key that apt doesn't know about, in this case that's 2D230C5F.
If you ignore that warning and try to install a package later, apt will warn again:
WARNING: The following packages cannot be authenticated! libglib-perl libgtk2-perl Install these packages without verification [y/N]?
If you say Y here you have no way to know if the file you're getting is the package you're supposed to install, or if it's something else entirely that a black hat has arranged for you, containing a nasty suprise.
Note that you can disable these checks by running apt with --allow-unauthenticated.
It's also worth noting that newer versions of the Debian installer use the same signed Release file mechanism during their debootstrap of the Debian base system, before apt is available, and that the installer even uses this system to verify pieces of itself that it downloads from the net. Also, Debian does not currently sign the Release files on its CDs; apt can be configured to always trust packages from CDs so this is not a large problem.
How to tell apt what to trust
So the security of the whole system depends on there being a Release.gpg file, which signs a Release file, and of apt checking that signature using gpg. To check the signature, it has to know the public key of the person who signed the file. These keys are kept in apt's own keyring (/etc/apt/trusted.gpg), and managing the keys is where secure apt comes in.
By default, Debian systems come preconfigured with the Debian archive key in the keyring.
joey@dragon:~>sudo apt-key list /etc/apt/trusted.gpg -------------------- pub 4096R/55BE302B 2009-01-27 [verfällt: 2012-12-31] uid Debian Archive Automatic Signing Key (5.0/lenny) <email@example.com>
Here 55BE302B is the key id, and notice that this key is only valid for a limited period. Debian occasionally rotates these keys as a last line of defense against some sort of security breach breaking a key.
That will make apt trust the official Debian archive, but if you add some other apt repository to /etc/apt/sources.list, you'll also have to give apt its key if you want apt to trust it. Once you have the key and have verified it, it's a simple matter of "apt-key add file" to add it. Getting the key and verifying it are the trickier part.
How to find and add a key
The debian-archive-keyring package is used to distribute keys to apt. Upgrades to this package can add (or remove) gpg keys for the main Debian archive.
For other archives, there is not yet a standard location where you can find the key for a given apt repository. There's a rough standard of putting the key up on the web page for the repository or as a file in the repository itself, but no real standard, so you might have to hunt for it.
The current and the retired Debian archive "signing" keys are available from https://ftp-master.debian.org/keys.html.
gpg itself has a standard way to distribute keys, using a keyserver that gpg can download a key from and add it to its keyring. For example:
joerg@vorlon:~>gpg --keyserver subkeys.pgp.net --recv-keys 55BE302B gpg: requesting key 55BE302B from hkp server subkeys.pgp.net gpg: key 55BE302B: public key "Debian Archive Automatic Signing Key (5.0/lenny) <firstname.lastname@example.org>" imported gpg: Total number processed: 1 gpg: imported: 1 (RSA: 1)
You can then export that key from your own keyring and feed it to apt-key:
joey@dragon:~>gpg -a --export 55BE302B | sudo apt-key add - gpg: no ultimately trusted keys found OK
(What does the "gpg: no ultimately trusted keys found" warning mean? --> The Warning: "no ultimately trusted keys found" means that gpg was not configured to ultimately trust a specific key. Trust settings are part of OpenPGPs Web-of-Trust which does not apply here. So there is no problem with this warning. In usual setups the users own key is ultimately trusted.)
How to tell if the key is safe
By adding a key to apt's keyring, you're telling apt to trust everything signed by the key, and this lets you know for sure that apt won't install anything not signed by the person who possesses the private key. But if you're sufficiently paranoid, you can see that this just pushes things up a level, now instead of having to worry if a package, or a Release file is valid, you can worry about whether you've actually gotten the right key. Is the information on http://ftp-master.debian.org/keys.html mentioned above correct or is this all some clever trap?
It's good to be paranoid in security, but verifying things from here is harder. gpg has the concept of a chain of trust, which can start at someone you're sure of, who signs someone's key, who signs some other key, etc., until you get to the archive key. If you're sufficiently paranoid you'll want to check that your archive key is signed by a key that you can trust, with a trust chain that goes back to someone you know personally. If you want to do this, visit a Debian conference or perhaps a local LUG for a key signing.
(Note: Not all apt repository keys are signed at all by another key. Maybe the person setting up the repository doesn't have another key, or maybe they don't feel comfortable signing such a role key with their main key.)
If you can't afford this level of paranoia, do whatever feels appropriate to you when adding a new apt source and a new key. Maybe you'll want to mail the person providing the key and verify it, or maybe you're willing to take your chances with downloading it and assuming you got the real thing. The important thing is that by reducing the problem to what archive keys to trust, secure apt lets you be as careful and secure as it suits you to be.
Debian archive key expiry
Since secure apt was introduced, the keys used to sign the main Debian archive have changed a couple of times. Since secure apt is young, we don't have a great deal of experience with changing the key and there are still rough spots.
In January 2006, a new key for 2006 was made and the Release file began to be signed by it, but to try to avoid breaking systems that had the old 2005 key, the Release file was signed by that as well. The intent was that apt would accept one signature or the other depending on the key it had, but apt turned out to be buggy and refused to trust the file unless it had both keys and was able to check both signatures. This was fixed in apt version 0.6.43.1. There was also confusion about how the key was distributed to users who already had systems using secure apt; initially it was uploaded to the web site with no announcement and no real way to verify it and users were forced to download it by hand. This was fixed by the introduction of the debian-archive-keyring package, which manages apt keyring updates.
In late 2006, a new key was created that will be used to sign the archive for the lifetime of the Debian 4.0 release (until 2009-07-01). The archive began to be signed by this new key in addition to the yearly signing key for 2006. That was a bit confusing, because the key began to be used before it was announced and before debian-archive-keyring was updated to include it! Apt's warning message in this situation is slightly opaque to end users. There's obviously still room for improvement in how we roll out new keys. This new key does answer the question of how users of the 4.0 (etch) release will be able to validate their software for the lifetime of that release. This new key is also being used to sign other versions of debian (like unstable).
On February 7th 2007, the 2006 key expired. Currently the only known breakage of this is that it broke rc1 of the etch installer, since the installer images only know about the 2006 key. Daily builds of the installer have the 2007 key and continue to work.
Most recently, a new Etch stable release key has been added. This key is an offline key that will be used to sign releases of Etch (including point releases).
How to manually check for package's integrity
There are sometimes you want to manually check that a package hasn't been tampered since the time it was uploaded to the archive and the time you downloaded it. The apt system will take care of this procedure automatically, but in this section we will describe how to perform this safety tests manually.
First, we're assuming you have downloaded the Release information from a trusted source (official Debian servers and mirrors). You'll need to check the Release file as the first step, for that you'll use the signature Release.gpg file, as in the following example.
Note: You will have to import the public key for the archive if isn't in your keyring; and use your current distribution instead of "sid".
cd /var/lib/apt/lists gpgv --keyring /etc/apt/trusted.gpg ftp.us.debian.org_debian_dists_sid_Release.gpg \ ftp.us.debian.org_debian_dists_sid_Release
After that you check the md5sums of the Packages file for each of the components. For example:
# Print the md5sum of the Packages file which is listed in the Release file. sed -n "s,main/binary-i386/Packages$,,p" ftp.us.debian.org_debian_dists_sid_Release # Print the md5sum of the Packages file itself. md5sum ftp.us.debian.org_debian_dists_sid_main_binary-i386_Packages
Finally, we check the MD5 or SHA checksum of the package itself.
apt-cache show <package_name> | sed -n "s/MD5sum: //p" # Grab the checksum from the APT cache. md5sum <binary_package_name>.deb # Compare it against the binary package's checksum.
This section is far for complete, but we expect is a good introductory material for digging into the Debian packages' trust chain.
TODO: Add signature verification: dscverify quick introduction.
- One not so obvious gotcha is that if your clock is very far off, secure apt will not work. If it's set to a date in the past, such as 1999, apt will fail with an unhelpful message such as this:
W: GPG error: http://archive.progeny.com sid Release: Unknown error executing gpgAlthough apt-key list will make the problem plain:
gpg: key 2D230C5F was created 192324901 seconds in the future (time warp or clock problem) gpg: key 2D230C5F was created 192324901 seconds in the future (time warp or clock problem) pub 1024D/2D230C5F 2006-01-03 uid Debian Archive Automatic Signing Key (2006) <email@example.com>If it's set to a date too far in the future, apt will treat the keys as expired.
- Another problem you may encounter if using testing or unstable is that if you have not run apt-get update lately and apt-get install a package, apt might complain that it cannot be authenticated (why does it do this?). apt-get update will fix this.
- If apt gives a warning like this:
W: There are no public key available for the following key IDs: A70DAF536070D3A1
- This means that the archive has begun to be signed by a new key, which your system does not know about. In this example, the new key is a dedicated key that will be used to sign the release of Debian 4.0. Since the archive was still signed by another key that apt knows about, this is just a warning, and once the system is fed the new key (by upgrading the debian-archive-keyring package), the warning will go away.
- If you have the debsig-verify package installed, you might run into errors like this one:
dpkg: error processing /var/cache/apt/archives/anjuta-common_1.2.4a-2_all.deb (--unpack): Verification on package /var/cache/apt/archives/anjuta-common_1.2.4a-2_all.deb failed! Authenticating /var/cache/apt/archives/anjuta_1.2.4a-2_i386.deb ... debsig: Origin Signature check failed. This deb might not be signed.This actually has nothing to do with secure apt. debsig-verify checks for signatures embedded inside individual Debian packages. Since such signatures are not widely used (we use secure apt instead), it doesn't work very well to install this, and removing the debsig-verify package will fix the problem.
- If apt-get update outputs this
W: GPG error: http://non-us.debian.org stable/non-US Release: The following signatures couldn't be verified because the public key is not available: NO_PUBKEY F1D53D8C4F368D5D W: You may want to run apt-get update to correct these problemsremove non-us from /etc/apt/sources.
Setting up a secure apt repository
From man apt-secure
If you want to provide archive signatures in an archive under your maintenance you have to:
- Create a toplevel Release file. if it does not exist already. You can do this by running apt-ftparchive release (provided inftp apt-utils).
- Sign it. You can do this by running gpg -abs -o Release.gpg Release.
- Publish the key fingerprint, that way your users will know what key they need to import in order to authenticate the files in the archive.
Whenever the contents of the archive changes (new packages are added or removed) the archive maintainer has to follow the first two steps previously outlined.
Conectiva implemented something similar in their fork of APT. Debian Developers Colin Walters and Isaac Jones implemented APT Secure for Debian in 2003. Around Christmas 2003, Matt Zimmerman(?) integrated this patch into APT 0.6. In February 2005, Debian started migrating to apt-secure.
Comments and questions
(Add any here.)
Debian isn't Ubuntu and won't have sudo installed by default. It might be worth changing the usage of sudo, and making the examples use the root account explicitly -- SteveKemp
Given the failure modes I've seen from gpg --recv-keys, suggesting that a user run it as root doesn't seem wise to me. But I've never actually audited it either.. Despite sudo not being installed by default (in sarge), I think that most of the audience of this page are familiar with it, or can skip over it. -- JoeyHess
Does it make any sense to pre-install debian-server-keyring on every debian system? At least the user should be asked if s/he trusts this key. Until now (2006-01-07) the Debian Archive Automatic Signing Key is not in the strong set of keys. Thus is it not possible to test via pathfinders if there is a trust path from my key to the Debian Archive Automatic Signing Key. (See http://pgp.cs.uu.nl/ or http://www.lysator.liu.se/~jc/wotsap/search.html)
Yes, the debian-archive-keyring package will be our key upgrade path for all Debian systems, so it should be installed on all of them, and I assume will be in standard. -- JoeyHess
I tried making a local repository using apt-move, serving machines running testing and stable. I could not use the same repository for both stable and testing due to incopatibilities between apt v5 and v6. You might highlight this when you get around to writing the bit about crating a repository. I could get v6 working for testing but not for sarge. --?MartinHodges
What does it mean for md5sum to be broken? Since it's a checksum, I thought the only way it can be broken is that it fail to compute the proper checksum. I have a feeling some other meaning is intended. --?RossBoylan
**it is broken as people were able to actually create a fake certificate that could sign anything and was trusted, they did this by finding a collision, they created a certificate that had the same md5 sum as the certificate they were issued, and where thereby able to give themselves right other than they were granted.--Scientes
***apt has supported sha256 checksums since version 0.7.7, so these will be used in lenny and future releases. --JoeyHess
The idea is that generating a checksum from a file is easy, but recreating a file from a checksum (or making another file generate the same checksum) is very hard (ideally, it would be impossible). "md5sum is being broken" means that that "very hard" path becomes quite possible. In other words, it is becoming (or maybe even has become) feasible to create a "rogue" Debian package that still generates the same checksum as the original true package. --JohnZaitseff
I'd say "theoretically possible in certian cases which may or may not include the Debian Packages files", not "quite possible" --JoeyHess
Does Secure APT cover the possibility that the archive machine itself is broken into? What is there to stop someone "inserting" a rogue version of a Debian package and simply regenerating the Packages and Release/Release.gpg files? I strongly suspect this has been considered, but this document does not mention it. Perhaps a link to appropriate documentation, if such exists? --JohnZaitseff
If someone has root access to your machine they already have everything, they do not need to break apt. Detecting if your machine has been broken into is another topic and something extremely difficult, although there are certainly some things debian could do better. --Scientes
Yes, if this happens we can revoke the archive key, and introduce a new key for the new install of ftp-master and rollback of the archive to its last known good state that we'd have to do after such an incident. --JoeyHess
It might be worth linking to http://www.debian.org/doc/manuals/securing-debian-howto/ch7.en.html#s-check-non-debian-releases as it explains briefly how to create the Release and Release.gpg files for repositories. --?JohnLamb
I had a problem where apt gave the dreaded "WARNING: The following packages cannot be authenticated" message despite having debian-archive-keyring installed and having run "apt-get update". It turned out that my sources list contained deb http://security.debian.org/ stable updates/main instead of deb http://security.debian.org/ stable/updates main Apt found the packages file and could find all the debs, but it was not locating the Releases and Releases.gpg files. --AlexKing
Would you add an explanation of why apt-get, apt-key, etc. might run into the GnuPG "resource limit" and how to fix it? This seems to result in the "NO_PUBKEY" warnings even if the respective keys are in the trustdb trusted.gpg. E.g.:
$ sudo apt-key update gpg: keyblock resource `/etc/apt/trusted.gpg.d//webupd8team-java.gpg': resource limit gpg: keyblock resource `/etc/apt/trusted.gpg.d//webupd8team-y-ppa-manager.gpg': resource limit gpg: key 437D05B5: "Ubuntu Archive Automatic Signing Key <firstname.lastname@example.org>" not changed gpg: key FBB75451: "Ubuntu CD Image Automatic Signing Key <email@example.com>" not changed gpg: key C0B21F32: "Ubuntu Archive Automatic Signing Key (2012) <firstname.lastname@example.org>" not changed gpg: key EFE21092: "Ubuntu CD Image Automatic Signing Key (2012) <email@example.com>" not changed gpg: Total number processed: 4 gpg: unchanged: 4