mirror of
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902 lines
41 KiB
Markdown
902 lines
41 KiB
Markdown
---
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lang: en
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layout: doc
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permalink: /security/verifying-signatures/
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redirect_from:
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- /doc/verifying-signatures/
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- /en/doc/verifying-signatures/
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- /doc/VerifyingSignatures/
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- /wiki/VerifyingSignatures/
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ref: 211
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title: Verifying signatures
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---
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The Qubes OS Project uses [digital
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signatures](https://en.wikipedia.org/wiki/Digital_signature) to guarantee the
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authenticity and integrity of certain important assets. This page explains how
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to verify those signatures. It is extremely important for your security to
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understand and apply these practices.
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## What digital signatures can and cannot prove
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Most people --- even programmers --- are confused about the basic concepts
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underlying digital signatures. Therefore, most people should read this section,
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even if it looks trivial at first sight.
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Digital signatures can prove both **authenticity** and **integrity** to a
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reasonable degree of certainty. **Authenticity** ensures that a given file was
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indeed created by the person who signed it (i.e., that a third party did not
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forge it). **Integrity** ensures that the contents of the file have not been
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tampered with (i.e., that a third party has not undetectably altered its
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contents *en route*).
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Digital signatures **cannot** prove, e.g., that the signed file is not
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malicious. In fact, there is nothing that could stop someone from signing a
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malicious program (and it happens from time to time in reality).
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The point is that we must decide who we will trust (e.g., Linus Torvalds,
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Microsoft, or the Qubes Project) and assume that if a trusted party signed a
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given file, then it should not be malicious or negligently buggy. The decision
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of whether to trust any given party is beyond the scope of digital signatures.
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It's more of a social and political decision.
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Once we decide to trust certain parties, digital signatures are
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useful, because they make it possible for us to limit our trust only to those
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few parties we choose and not to worry about all the bad things that can happen
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between them and us, e.g., server compromises (qubes-os.org will surely be
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compromised one day, so [don't blindly trust the live version of this
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site](/faq/#should-i-trust-this-website)), dishonest IT staff at the hosting
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company, dishonest staff at the ISPs, Wi-Fi attacks, etc. We call this
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philosophy [distrusting the
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infrastructure](/faq/#what-does-it-mean-to-distrust-the-infrastructure).
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By verifying all the files we download that purport to be authored by a party
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we've chosen to trust, we eliminate concerns about the bad things discussed
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above, since we can easily detect whether any files have been tampered with
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(and subsequently choose to refrain from executing, installing, or opening
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them).
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However, for digital signatures to make sense, we must ensure that the
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public keys we use for signature verification are the original ones.
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Anybody can generate a cryptographic key that purports to belong to "The Qubes
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OS Project," but of course only the keys that we (the real Qubes developers)
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generate are the genuine ones. The rest of this page explains how to
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verify the authenticity of the various keys used in the project and how to use
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those keys to verify certain important assets.
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## OpenPGP software
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We use [PGP](https://en.wikipedia.org/wiki/Pretty_Good_Privacy) (specifically,
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the [OpenPGP](https://en.wikipedia.org/wiki/Pretty_Good_Privacy#OpenPGP)
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standard). Before we begin, you'll need software that can manage PGP keys and
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verify PGP signatures. Any program that complies with the OpenPGP standard will
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do, but here are some examples for popular operating systems:
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**Linux:** [GnuPG](https://gnupg.org/download/index.html)
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([documentation](https://www.gnupg.org/documentation/)). Open a terminal and
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use the `gpg2` command. If you don't already have GnuPG installed, install it
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via your distro's package manager or from the GnuPG website.
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**Mac:** [GPG Suite](https://gpgtools.org/)
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([documentation](https://gpgtools.tenderapp.com/kb)). Open a terminal to enter
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commands.
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**Windows:** [Gpg4win](https://gpg4win.org/download.html)
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([documentation](https://www.gpg4win.org/documentation.html)). Use the Windows
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command line (`cmd.exe`) to enter commands.
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Throughout this page, we'll use GnuPG via the `gpg2` command. If that doesn't
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work for you, try `gpg` instead. If that still doesn't work, please consult the
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documentation for your specific program (see links above) and the
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[troubleshooting FAQ](#troubleshooting-faq) below.
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## How to import and authenticate the Qubes Master Signing Key
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Many important Qubes OS Project assets (e.g., ISOs, RPMs, TGZs, and Git
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objects) are digitally signed by an official team member's key or by a release
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signing key (RSK). Each such key is, in turn, signed by the [**Qubes Master
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Signing Key
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(QMSK)**](https://keys.qubes-os.org/keys/qubes-master-signing-key.asc)
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(`0x427F11FD0FAA4B080123F01CDDFA1A3E36879494`). In this way, the QMSK is the
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ultimate root of trust for the Qubes OS Project.
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The developer signing keys are set to expire after one year, while the QMSK and
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RSKs have no expiration date. The QMSK was generated on and is kept only on a
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dedicated, air-gapped "vault" machine, and the private portion will (hopefully)
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never leave this isolated machine.
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Before we proceed, you must first complete the prerequisite step of [installing
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OpenPGP software](#openpgp-software).
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Once you have appropriate OpenPGP software installed, there are several ways to
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get the QMSK.
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- If you're on Qubes OS, it's available in every
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qube ([except dom0](https://github.com/QubesOS/qubes-issues/issues/2544)):
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```shell_session
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$ gpg2 --import /usr/share/qubes/qubes-master-key.asc
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```
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- If you're on Fedora, you can get it in the
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[distribution-gpg-keys](https://github.com/xsuchy/distribution-gpg-keys)
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package:
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```shell_session
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$ dnf install distribution-gpg-keys
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$ gpg2 --import /usr/share/distribution-gpg-keys/qubes/*
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```
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- If you’re on Debian, it may already be included in your keyring.
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- Fetch it with GPG:
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```shell_session
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$ gpg2 --fetch-keys https://keys.qubes-os.org/keys/qubes-master-signing-key.asc
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```
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- Get it from a public
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[keyserver](https://en.wikipedia.org/wiki/Key_server_%28cryptographic%29#Keyserver_examples)
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(specified on first use with `--keyserver <URI>` along with keyserver options
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to include key signatures), e.g.:
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```shell_session
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$ gpg2 --keyserver-options no-self-sigs-only,no-import-clean --keyserver hkp://keyserver.ubuntu.com --recv-keys 0x427F11FD0FAA4B080123F01CDDFA1A3E36879494
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```
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- Download it as a file, then import the file.
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Here are some example download locations:
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- [Qubes security pack](/security/pack/)
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- [Qubes keyserver](https://keys.qubes-os.org/keys/qubes-master-signing-key.asc)
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- [Email to qubes-devel](https://groups.google.com/d/msg/qubes-devel/RqR9WPxICwg/kaQwknZPDHkJ)
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- [Email to qubes-users](https://groups.google.com/d/msg/qubes-users/CLnB5uFu_YQ/ZjObBpz0S9UJ)
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Once you have the key as a file, import it:
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```shell_session
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$ gpg2 --import /<PATH_TO_FILE>/qubes-master-signing-key.asc
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```
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Once you've obtained the QMSK, you must verify that it's authentic rather than
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a forgery. Anyone can create a PGP key with the name "Qubes Master Signing Key"
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and the short key ID `0x36879494`, so you cannot rely on these alone. You also
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should not rely on any single website, not even over HTTPS.
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So, what *should* you do? One option is to use the PGP [Web of
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Trust](https://en.wikipedia.org/wiki/Web_of_trust). In addition, some operating
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systems include the means to acquire the QMSK securely. For example, on
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Fedora, `dnf install distribution-gpg-keys` will get you the QMSK along with
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several other Qubes keys. On Debian, your keyring may already contain the
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necessary keys.
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Perhaps the most common route is to rely on the key's fingerprint, which is a
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string of 40 alphanumeric characters, like this:
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```
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427F 11FD 0FAA 4B08 0123 F01C DDFA 1A3E 3687 9494
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```
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Every PGP key has one of these fingerprints, which uniquely identifies it among
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all PGP keys. (On the command line, you can view a key's fingerprint with the
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`gpg2 --fingerprint <KEY_ID>` command.) Therefore, if you know the genuine QMSK
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fingerprint, then you always have an easy way to confirm whether any purported
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copy of it is authentic, simply by comparing the fingerprints.
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But how do you know which fingerprint is the real one? After all, [this website
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could be compromised](/faq/#should-i-trust-this-website), so the fingerprint
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you see here may not be genuine. That's why we strongly suggest obtaining the
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fingerprint from *multiple independent sources in several different ways*, then
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comparing the strings of letters and numbers to make sure they match.
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When it comes to PGP fingerprints, spaces and capitalization don't matter. In
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other words, all of these fingerprints are considered the same:
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```
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427F 11FD 0FAA 4B08 0123 F01C DDFA 1A3E 3687 9494
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427f 11fd 0faa 4b08 0123 f01c ddfa 1a3e 3687 9494
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427F11FD0FAA4B080123F01CDDFA1A3E36879494
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427f11fd0faa4b080123f01cddfa1a3e36879494
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```
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Instead, what matters is that *all* the characters are present in *exactly* the
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same order. If even one character is different, the fingerprints do not match.
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Even if two fingerprints have all the same characters, if any of those
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characters are in a different order, sequence, or position, then the
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fingerprints do not match.
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You may also sometimes see the entire fingerprint prefixed with `0x`, as in:
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```
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0x427F11FD0FAA4B080123F01CDDFA1A3E36879494
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0x427f11fd0faa4b080123f01cddfa1a3e36879494
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```
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The `0x` prefix is sometimes used to indicate that the string following it is a
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hexadecimal value, and some PGP-related tools may require this prefix. For the
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purpose of comparing fingerprints as described here, you may safely ignore the
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`0x` prefix, as it is not part of the fingerprint. As long as the 40-character
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string after the `0x` matches exactly, the fingerprint is the same.
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The general idea of "comparing fingerprints" is to go out into the world
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(whether digitally, physically, or both) and find other 40-character strings
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purporting to be the QMSK fingerprint, then compare them to your own purported
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QMSK fingerprint to ensure that the sequence of alphanumeric characters is
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exactly the same (again, regardless of spaces or capitalization). If any of the
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characters do not match or are not in the same order, then at least one of the
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fingerprints is a forgery. Here are some ideas to get you started:
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- Check the fingerprint on various websites (e.g., [mailing
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lists](https://groups.google.com/g/qubes-devel/c/RqR9WPxICwg/m/kaQwknZPDHkJ),
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[discussion
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forums](https://forum.qubes-os.org/t/1441/9),
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[social](https://twitter.com/rootkovska/status/496976187491876864)
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[media](https://www.reddit.com/r/Qubes/comments/5bme9n/fingerprint_verification/),
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[personal websites](https://andrewdavidwong.com/fingerprints.txt)).
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- Check against PDFs, photographs, and videos in which the fingerprint appears
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(e.g., [slides from a
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talk](https://hyperelliptic.org/PSC/slides/psc2015_qubesos.pdf), on a
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[T-shirt](https://twitter.com/legind/status/813847907858337793/photo/2), or
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in the [recording of a presentation](https://youtu.be/S0TVw7U3MkE?t=2563)).
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- Ask people to post the fingerprint on various mailing lists, forums, and chat
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rooms.
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- Download old Qubes ISOs from different sources and check the included Qubes
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Master Signing Key.
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- Repeat the above over Tor.
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- Repeat the above over various VPNs and proxy servers.
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- Repeat the above on different networks (work, school, internet cafe, etc.).
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- Text, email, call, video chat, snail mail, or meet up with people you know to
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confirm the fingerprint.
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- Repeat the above from different computers and devices.
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Once you've observed enough matching fingerprints from enough independent
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sources in enough different ways that you feel confident that you have the
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genuine fingerprint, keep it in a safe place. Every time you need to check
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whether a key claiming to be the QMSK is authentic, compare that key's
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fingerprint to your trusted copy and confirm they match.
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Now that you've imported the authentic QMSK, set its trust level to "ultimate"
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so that it can be used to automatically verify all the keys signed by the QMSK
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(in particular, RSKs).
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```shell_session
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$ gpg2 --edit-key 0x427F11FD0FAA4B080123F01CDDFA1A3E36879494
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gpg (GnuPG) 1.4.18; Copyright (C) 2014 Free Software Foundation, Inc.
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This is free software: you are free to change and redistribute it.
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There is NO WARRANTY, to the extent permitted by law.
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pub 4096R/36879494 created: 2010-04-01 expires: never usage: SC
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trust: unknown validity: unknown
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[ unknown] (1). Qubes Master Signing Key
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gpg> fpr
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pub 4096R/36879494 2010-04-01 Qubes Master Signing Key
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Primary key fingerprint: 427F 11FD 0FAA 4B08 0123 F01C DDFA 1A3E 3687 9494
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gpg> trust
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pub 4096R/36879494 created: 2010-04-01 expires: never usage: SC
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trust: unknown validity: unknown
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[ unknown] (1). Qubes Master Signing Key
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Please decide how far you trust this user to correctly verify other users' keys
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(by looking at passports, checking fingerprints from different sources, etc.)
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1 = I don't know or won't say
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2 = I do NOT trust
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3 = I trust marginally
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4 = I trust fully
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5 = I trust ultimately
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m = back to the main menu
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Your decision? 5
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Do you really want to set this key to ultimate trust? (y/N) y
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pub 4096R/36879494 created: 2010-04-01 expires: never usage: SC
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trust: ultimate validity: unknown
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[ unknown] (1). Qubes Master Signing Key
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Please note that the shown key validity is not necessarily correct
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unless you restart the program.
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gpg> q
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```
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Now, when you import any of the release signing keys and many Qubes team member
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keys, they will already be trusted in virtue of being signed by the QMSK.
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As a final sanity check, make sure the QMSK is in your keyring with the correct
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trust level.
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```
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$ gpg2 -k "Qubes Master Signing Key"
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pub rsa4096 2010-04-01 [SC]
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427F11FD0FAA4B080123F01CDDFA1A3E36879494
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uid [ultimate] Qubes Master Signing Key
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```
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If you don't see the QMSK here with a trust level of "ultimate," go back and
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follow the instructions in this section carefully and consult the
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[troubleshooting FAQ](#troubleshooting-faq) below.
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## How to import and authenticate release signing keys
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Every Qubes OS release is signed by a **release signing key (RSK)**, which is,
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in turn, signed by the Qubes Master Signing Key (QMSK).
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Before we proceed, you must first complete the following prerequisite steps:
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1. [Install OpenPGP software.](#openpgp-software)
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2. [Import and authenticate the QMSK.](#how-to-import-and-authenticate-the-qubes-master-signing-key)
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After you have completed these two prerequisite steps, the next step is to
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obtain the correct RSK. The filename pattern for RSKs is
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`qubes-release-X-signing-key.asc`, where `X` is either a major or minor Qubes
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release number, such as `4` or `4.2`. There are several ways to get the RSK for
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your Qubes release.
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- If you have access to an existing Qubes installation, the release keys are
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available in dom0 in `/etc/pki/rpm-gpg/RPM-GPG-KEY-qubes-*`. These can be
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[copied](/doc/how-to-copy-from-dom0/#copying-from-dom0) into other qubes for
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further use. In addition, every other qube contains the release key
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corresponding to that installation's release in
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`/etc/pki/rpm-gpg/RPM-GPG-KEY-qubes-*`. If you wish to use one of these keys,
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make sure to import it into your keyring, e.g.:
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```shell_session
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$ gpg2 --import /etc/pki/rpm-gpg/RPM-GPG-KEY-qubes-*
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```
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- Fetch it with GPG:
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```shell_session
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$ gpg2 --keyserver-options no-self-sigs-only,no-import-clean --fetch-keys https://keys.qubes-os.org/keys/qubes-release-X-signing-key.asc
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```
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- Download it as a file. You can find the RSK for your Qubes
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release on the [downloads](/downloads/) page. You can also download all the
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currently used developers' signing keys, RSKs, and the Qubes
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Master Signing Key from the [Qubes security pack](/security/pack/) and the
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[Qubes keyserver](https://keys.qubes-os.org/keys/). Once you've downloaded
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your RSK, import it with GPG:
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```shell_session
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$ gpg2 --keyserver-options no-self-sigs-only,no-import-clean --import ./qubes-release-X-signing-key.asc
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```
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Now that you have the correct RSK, you simply need to verify that it is signed
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by the QMSK:
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```shell_session
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$ gpg2 --check-signatures "Qubes OS Release X Signing Key"
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pub rsa4096 2017-03-06 [SC]
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5817A43B283DE5A9181A522E1848792F9E2795E9
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uid [ full ] Qubes OS Release X Signing Key
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sig!3 1848792F9E2795E9 2017-03-06 Qubes OS Release X Signing Key
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sig! DDFA1A3E36879494 2017-03-08 Qubes Master Signing Key
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gpg: 2 good signatures
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```
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This is just an example, so the output you receive may not look exactly the
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same. What matters is the line with a `sig!` prefix showing that the QMSK has
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signed this key. This verifies the authenticity of the RSK. Note that the `!`
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flag after the `sig` tag is important because it means that the key signature
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is valid. A `sig-` prefix would indicate a bad signature, and `sig%` would mean
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that gpg encountered an error while verifying the signature. It is not
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necessary to independently verify the authenticity of the RSK, since you
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already verified the authenticity of the QMSK.
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As a final sanity check, make sure the RSK is in your keyring with the correct
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trust level:
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```shell_session
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$ gpg2 -k "Qubes OS Release"
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pub rsa4096 2017-03-06 [SC]
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5817A43B283DE5A9181A522E1848792F9E2795E9
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uid [ full ] Qubes OS Release X Signing Key
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```
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If you don't see the correct RSK here with a trust level of "full" or higher,
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go back and follow the instructions in this section carefully, and consult the
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[troubleshooting FAQ](#troubleshooting-faq) below.
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## How to obtain and authenticate other signing keys
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Please see the [Qubes security pack](/security/pack/) documentation.
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## How to verify the cryptographic hash values of Qubes ISOs
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There are two ways to verify Qubes ISOs: cryptographic hash values and detached
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PGP signatures. Both methods are equally secure. Using just one method is
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sufficient to verify your Qubes ISO. Using both methods is not necessary, but
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you can do so if you like. One method might be more convenient than another in
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certain circumstances, so we provide both. This section covers cryptographic
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hash values. For the other method, see [how to verify detached PGP signatures
|
||
on Qubes ISOs](#how-to-verify-detached-pgp-signatures-on-qubes-isos).
|
||
|
||
Before we proceed, you must first complete the following prerequisite steps:
|
||
|
||
1. [Install OpenPGP software.](#openpgp-software)
|
||
2. [Import and authenticate the Qubes Master Signing Key.](#how-to-import-and-authenticate-the-qubes-master-signing-key)
|
||
3. [Import and authenticate your release signing key.](#how-to-import-and-authenticate-release-signing-keys)
|
||
|
||
Each Qubes ISO is accompanied by a set of **cryptographic hash values**
|
||
contained in a plain text file ending in `.DIGESTS`, which can find on the
|
||
[downloads](/downloads/) page alongside the ISO. This file contains the output
|
||
of running several different cryptographic hash functions on the ISO (a process
|
||
known as "hashing") to obtain alphanumeric outputs known as "hash values" or
|
||
"digests."
|
||
|
||
One convenient property of hash values is that they can be generated on any
|
||
computer. This means, for example, that you can download a Qubes ISO on one
|
||
computer, hash it, then visually compare that hash value to the one you
|
||
generated or have saved on a different computer.
|
||
|
||
In addition to the `.DIGESTS` files on the [downloads](/downloads/) page
|
||
alongside each ISO, and you can always find all the digest files for every
|
||
Qubes ISO in the [Qubes security pack](/security/pack/).
|
||
|
||
If the filename of your ISO is `Qubes-RX-x86_64.iso`, then the name of the
|
||
digest file for that ISO is `Qubes-RX-x86_64.iso.DIGESTS`, where `X` is a
|
||
specific release of Qubes. The digest filename is always the same as the ISO
|
||
filename followed by `.DIGESTS`. Since the digest file is a plain text file,
|
||
you can open it with any text editor. Inside, you should find text that looks
|
||
similar to this:
|
||
|
||
```shell_session
|
||
-----BEGIN PGP SIGNED MESSAGE-----
|
||
Hash: SHA256
|
||
|
||
3c951138b8b9867d8657f173c1b58b82 *Qubes-RX-x86_64.iso
|
||
1fc9508160d7c4cba6cacc3025165b0f996c843f *Qubes-RX-x86_64.iso
|
||
6b998045a513dcdd45c1c6e61ace4f1b4e7eff799f381dccb9eb0170c80f678a *Qubes-RX-x86_64.iso
|
||
de1eb2e76bdb48559906f6fe344027ece20658d4a7f04ba00d4e40c63723171c62bdcc869375e7a4a4499d7bff484d7a621c3acfe9c2b221baee497d13cd02fe *Qubes-RX-x86_64.iso
|
||
-----BEGIN PGP SIGNATURE-----
|
||
Version: GnuPG v2
|
||
|
||
iQIcBAEBCAAGBQJX4XO/AAoJEMsRyh0D+lCCL9sP/jlZ26zhvlDEX/eaA/ANa/6b
|
||
Dpsh/sqZEpz1SWoUxdm0gS+anc8nSDoCQSMBxnafuBbmwTChdHI/P7NvNirCULma
|
||
9nw+EYCsCiNZ9+WCeroR8XDFSiDjvfkve0R8nwfma1XDqu1bN2ed4n/zNoGgQ8w0
|
||
t5LEVDKCVJ+65pI7RzOSMbWaw+uWfGehbgumD7a6rfEOqOTONoZOjJJTnM0+NFJF
|
||
Qz5yBg+0FQYc7FmfX+tY801AwSyevj3LKGqZN1GVcU9hhoHH7f2BcbdNk9I5WHHq
|
||
doKMnZtcdyadQGwMNB68Wu9+0CWsXvk6E00QfW69M4d6w0gbyoJyUL1uzxgixb5O
|
||
qodxrqeitXQSZZvU4kom5zlSjqZs4dGK+Ueplpkr8voT8TSWer0Nbh/VMfrNSt1z
|
||
0/j+e/KMjor7XxehR+XhNWa2YLjA5l5H9rP+Ct/LAfVFp4uhsAnYf0rUskhCStxf
|
||
Zmtqz4FOw/iSz0Os+IVcnRcyTYWh3e9XaW56b9J/ou0wlwmJ7oJuEikOHBDjrUph
|
||
2a8AM+QzNmnc0tDBWTtT2frXcotqL+Evp/kQr5G5pJM/mTR5EQm7+LKSl7yCPoCj
|
||
g8JqGYYptgkxjQdX3YAy9VDsCJ/6EkFc2lkQHbgZxjXqyrEMbgeSXtMltZ7cCqw1
|
||
3N/6YZw1gSuvBlTquP27
|
||
=e9oD
|
||
-----END PGP SIGNATURE-----
|
||
```
|
||
|
||
Four digests have been computed for this ISO. The hash functions used, in order
|
||
from top to bottom, are MD5, SHA-1, SHA-256, and SHA-512. One way to verify
|
||
that the ISO you downloaded matches any of these hash values is by using the
|
||
respective `*sum` command:
|
||
|
||
```shell_session
|
||
$ md5sum -c Qubes-RX-x86_64.iso.DIGESTS
|
||
Qubes-RX-x86_64.iso: OK
|
||
md5sum: WARNING: 23 lines are improperly formatted
|
||
$ sha1sum -c Qubes-RX-x86_64.iso.DIGESTS
|
||
Qubes-RX-x86_64.iso: OK
|
||
sha1sum: WARNING: 23 lines are improperly formatted
|
||
$ sha256sum -c Qubes-RX-x86_64.iso.DIGESTS
|
||
Qubes-RX-x86_64.iso: OK
|
||
sha256sum: WARNING: 23 lines are improperly formatted
|
||
$ sha512sum -c Qubes-RX-x86_64.iso.DIGESTS
|
||
Qubes-RX-x86_64.iso: OK
|
||
sha512sum: WARNING: 23 lines are improperly formatted
|
||
```
|
||
|
||
The `OK` response tells us that the hash value for that particular hash
|
||
function matches. The program also warns us that there are 23 improperly
|
||
formatted lines, but this is expected. This is because each file contains
|
||
lines for several different hash values (as mentioned above), but each `*sum`
|
||
program verifies only the line for its own hash function. In addition, there
|
||
are lines for the PGP signature that the `*sum` programs do not know how to
|
||
read. Therefore, it is safe to ignore these warning lines.
|
||
|
||
Another way is to use `openssl` to compute each hash value, then compare them
|
||
to the contents of the digest file:
|
||
|
||
```shell_session
|
||
$ openssl dgst -md5 Qubes-RX-x86_64.iso
|
||
MD5(Qubes-RX-x86_64.iso)= 3c951138b8b9867d8657f173c1b58b82
|
||
$ openssl dgst -sha1 Qubes-RX-x86_64.iso
|
||
SHA1(Qubes-RX-x86_64.iso)= 1fc9508160d7c4cba6cacc3025165b0f996c843f
|
||
$ openssl dgst -sha256 Qubes-RX-x86_64.iso
|
||
SHA256(Qubes-RX-x86_64.iso)= 6b998045a513dcdd45c1c6e61ace4f1b4e7eff799f381dccb9eb0170c80f678a
|
||
$ openssl dgst -sha512 Qubes-RX-x86_64.iso
|
||
SHA512(Qubes-RX-x86_64.iso)= de1eb2e76bdb48559906f6fe344027ece20658d4a7f04ba00d4e40c63723171c62bdcc869375e7a4a4499d7bff484d7a621c3acfe9c2b221baee497d13cd02fe
|
||
```
|
||
|
||
(Notice that the outputs match the values from the digest file.)
|
||
|
||
However, it is possible that an attacker replaced `Qubes-RX-x86_64.iso` with a
|
||
malicious ISO, computed the hash values for that malicious ISO, and replaced
|
||
the values in `Qubes-RX-x86_64.iso.DIGESTS` with his own set of values.
|
||
Therefore, we should also verify the authenticity of the listed hash values.
|
||
Since `Qubes-RX-x86_64.iso.DIGESTS` is a clearsigned PGP file, we can use GPG
|
||
to verify the signature in the digest file:
|
||
|
||
```shell_session
|
||
$ gpg2 -v --verify Qubes-RX-x86_64.iso.DIGESTS
|
||
gpg: armor header: Hash: SHA256
|
||
gpg: armor header: Version: GnuPG v2
|
||
gpg: original file name=''
|
||
gpg: Signature made Tue 20 Sep 2016 10:37:03 AM PDT using RSA key ID 03FA5082
|
||
gpg: using PGP trust model
|
||
gpg: Good signature from "Qubes OS Release X Signing Key"
|
||
gpg: textmode signature, digest algorithm SHA256
|
||
```
|
||
|
||
This is just an example, so the output you receive will not look exactly the
|
||
same. What matters is the line that says `Good signature from "Qubes OS Release
|
||
X Signing Key"`. This confirms that the signature on the digest file is good.
|
||
|
||
If you don't see a good signature here, go back and follow the instructions in
|
||
this section carefully, and consult the [troubleshooting
|
||
FAQ](#troubleshooting-faq) below.
|
||
|
||
## How to verify detached PGP signatures on Qubes ISOs
|
||
|
||
There are two ways to verify Qubes ISOs: cryptographic hash values and detached
|
||
PGP signatures. Both methods are equally secure. Using just one method is
|
||
sufficient to verify your Qubes ISO. Using both methods is not necessary, but
|
||
you can do so if you like. One method might be more convenient than another in
|
||
certain circumstances, so we provide both. This section covers detached PGP
|
||
signatures. For the other method, see [how to verify the cryptographic hash
|
||
values of Qubes
|
||
ISOs](#how-to-verify-the-cryptographic-hash-values-of-qubes-isos).
|
||
|
||
Before we proceed, you must first complete the following prerequisite steps:
|
||
|
||
1. [Install OpenPGP software.](#openpgp-software)
|
||
2. [Import and authenticate the Qubes Master Signing Key.](#how-to-import-and-authenticate-the-qubes-master-signing-key)
|
||
3. [Import and authenticate your release signing key.](#how-to-import-and-authenticate-release-signing-keys)
|
||
|
||
Every Qubes ISO is released with a **detached PGP signature** file, which you
|
||
can find on the [downloads](/downloads/) page alongside the ISO. If the
|
||
filename of your ISO is `Qubes-RX-x86_64.iso`, then the name of the signature
|
||
file for that ISO is `Qubes-RX-x86_64.iso.asc`, where `X` is a specific release
|
||
of Qubes. The signature filename is always the same as the ISO filename
|
||
followed by `.asc`.
|
||
|
||
Download both the ISO and its signature file. Put both of them in the same
|
||
directory, then navigate to that directory. Now, you can verify the ISO by
|
||
executing this GPG command in the directory that contains both files:
|
||
|
||
```shell_session
|
||
$ gpg2 -v --verify Qubes-RX-x86_64.iso.asc Qubes-RX-x86_64.iso
|
||
gpg: armor header: Version: GnuPG v1
|
||
gpg: Signature made Tue 08 Mar 2016 07:40:56 PM PST using RSA key ID 03FA5082
|
||
gpg: using PGP trust model
|
||
gpg: Good signature from "Qubes OS Release X Signing Key"
|
||
gpg: binary signature, digest algorithm SHA256
|
||
```
|
||
|
||
This is just an example, so the output you receive will not look exactly the
|
||
same. What matters is the line that says `Good signature from "Qubes OS Release
|
||
X Signing Key"`. This confirms that the signature on the ISO is good.
|
||
|
||
If you don't see a good signature here, go back and follow the instructions in
|
||
this section carefully, and consult the [troubleshooting
|
||
FAQ](#troubleshooting-faq) below.
|
||
|
||
## How to re-verify installation media after writing
|
||
|
||
_This is an optional section intended for advanced users._
|
||
|
||
After you have authenticated your Qubes ISO and written it onto your desired
|
||
medium (such as a USB drive or optical disc), you can re-verify the data that
|
||
has been written to your medium. Why would you want to do this when you've
|
||
already verified the original ISO? Well, it's conceivable that a sufficiently
|
||
sophisticated adversary might allow your initial ISO verification to succeed
|
||
(so as not to alert you that your machine has been compromised, for example),
|
||
then surreptitiously modify the data as it is being written onto your
|
||
installation medium, resulting in a compromised Qubes installer. This might
|
||
increase the odds that the attack goes undetected. One way to mitigate this
|
||
risk is to re-verify the installer after writing it onto an installation medium
|
||
that cannot be altered, such as a USB drive with a properly-implemented
|
||
physical write-protect switch and firmware that is either unflashable or
|
||
cryptographically-signed (or both), as discussed in our [installation security
|
||
considerations](/doc/install-security/).
|
||
|
||
This section will walk through an example of re-verifying the installer on such
|
||
a device. We begin by assuming that you have just [written your desired Qubes
|
||
ISO onto the USB
|
||
drive](/doc/installation-guide/#copying-the-iso-onto-the-installation-medium).
|
||
First, unplug your USB drive and flip the write protect switch so that the data
|
||
on the drive can no longer be altered. If you have a different computer from
|
||
the one you used to create the installation medium, consider using that
|
||
computer. If not, try to at least use a fresh VM (e.g., if it's a Qubes
|
||
system). The idea is that the original machine may have been compromised, and
|
||
using a different one for re-verification forces your hypothetical adversary to
|
||
compromise an additional machine in order to succeed.
|
||
|
||
Now, our goal is to perform the same verification steps as we did with the
|
||
original ISO, except, this time, we'll be reading the installer data directly
|
||
from the write-protected USB drive instead of from the original ISO file.
|
||
First, let's compute the SHA-256 hash value of the data on the drive. (This
|
||
assumes you're already familiar with [how to verify the cryptographic hash
|
||
values of Qubes
|
||
ISOs](#how-to-verify-the-cryptographic-hash-values-of-qubes-isos).) In order to
|
||
do this, we have to know the exact size, in bytes, of the original ISO. There
|
||
are two ways to get this information: from the ISO itself and from the Qubes
|
||
website. Here's an example of the first way:
|
||
|
||
```shell_session
|
||
$ dd if=/dev/sdX bs=1M count=$(stat -c %s /path/to/iso) iflag=count_bytes | sha256sum
|
||
```
|
||
|
||
(Where `/dev/sdX` is your USB drive and `/path/to/iso` is the path to your Qubes
|
||
ISO.)
|
||
|
||
This command reads exactly the number of bytes of your Qubes ISO (obtained with
|
||
`stat -c %s /path/to/iso`) from the USB drive and pipes them into `sha256sum`.
|
||
The output should look something like this:
|
||
|
||
```shell_session
|
||
0e68dd3347b68618d9e5f3ddb580bf7ecdd2166747630859b3582803f1ca8801 -
|
||
5523+0 records in
|
||
5523+0 records out
|
||
5791285248 bytes (5.8 GB, 5.4 GiB) copied, 76.3369 s, 75.9 MB/s
|
||
```
|
||
|
||
Note that your actual SHA-256 hash value and byte number will depend on which
|
||
Qubes ISO you're using. This is just an example. Your SHA-256 hash value should
|
||
match the hash value of your genuine original Qubes ISO.
|
||
|
||
Now, reading the number of bytes directly from the ISO is fine, but you may be
|
||
concerned that a sufficiently sophisticated adversary may have compromised the
|
||
machine on which you're performing this re-verification and may therefore be
|
||
capable of feeding you a false success result. After all, if your adversary
|
||
knows the answer you're looking for --- namely, a match to the genuine ISO ---
|
||
and has access to that very ISO in the same re-verification environment, then
|
||
there is little to prevent him from simply hashing the original ISO and feeding
|
||
you that result (perhaps while also reading from the USB drive and piping it
|
||
into `/dev/null` so that you see the light on the USB drive blinking to support
|
||
the illusion that the data is being read from the USB drive).
|
||
|
||
Therefore, in order to make things a bit more difficult for your hypothetical
|
||
adversary, you may instead wish to perform the re-verification in an
|
||
environment that has never seen the original ISO, e.g., a separate offline
|
||
computer or a fresh VM the storage space of which is too small to hold the ISO.
|
||
(Note: If you're doing this in Qubes, you can attach the block device from
|
||
sys-usb to a separate new qube. You don't have to perform the re-verification
|
||
directly in sys-usb.) In that case, you'll have to obtain the size of the ISO
|
||
in bytes and enter it into the above command manually. You can, of course,
|
||
obtain the size by simply using the `stat -c %s /path/to/iso` command from
|
||
above on the machine that has the ISO. You can also obtain it from the Qubes
|
||
website by hovering over any ISO download button on the [downloads
|
||
page](/downloads/). (You can also view these values directly in the downloads
|
||
page's [source
|
||
data](https://github.com/QubesOS/qubesos.github.io/blob/master/_data/downloads.yml).)
|
||
Once you have the exact size of the ISO in bytes, simply insert it into the
|
||
same command, for example:
|
||
|
||
```shell_session
|
||
$ dd if=/dev/sdX bs=1M count=5791285248 iflag=count_bytes | sha256sum
|
||
```
|
||
|
||
If you wish to compute the values of other hash functions, you can replace
|
||
`sha256sum`, e.g., with `md5sum`, `sha1sum`, or `sha512sum`.
|
||
|
||
In addition to checking hash values, you can also use GnuPG to verify the
|
||
detached PGP signature directly against the data on the USB drive. (This
|
||
assumes you're already familiar with [how to verify detached PGP signatures on
|
||
Qubes ISOs](#how-to-verify-detached-pgp-signatures-on-qubes-isos).)
|
||
|
||
```shell_session
|
||
$ dd if=/dev/sdX bs=1M count=<ISO_SIZE> iflag=count_bytes | gpg -v --verify Qubes-RX-x86_64.iso.asc -
|
||
gpg: Signature made Thu 14 Jul 2022 08:49:38 PM PDT
|
||
gpg: using RSA key 5817A43B283DE5A9181A522E1848792F9E2795E9
|
||
gpg: using pgp trust model
|
||
gpg: Good signature from "Qubes OS Release X Signing Key" [full]
|
||
gpg: binary signature, digest algorithm SHA256, key algorithm rsa4096
|
||
5523+0 records in
|
||
5523+0 records out
|
||
5791285248 bytes (5.8 GB, 5.4 GiB) copied, 76.6013 s, 75.6 MB/s
|
||
```
|
||
|
||
(Where `/dev/sdX` is your USB drive, `<ISO_SIZE>` is the size of the original
|
||
ISO in bytes, and `Qubes-RX-x86_64.iso.asc` is the detached signature file of
|
||
the original ISO.)
|
||
|
||
This command reads the exact number of bytes from your USB drive as the size of
|
||
the original ISO and pipes them into `gpg`. The usual form of a `gpg`
|
||
verification command is `gpg --verify <SIGNATURE> <SIGNED_DATA>`. Our command
|
||
is using shell redirection in order to use data from your USB drive as the
|
||
`<SIGNED_DATA>`, which is why the `-` at the end of the command is required.
|
||
Remember that you still must have properly imported and trusted the
|
||
[QMSK](#how-to-import-and-authenticate-the-qubes-master-signing-key) and
|
||
appropriate [RSK](#how-to-import-and-authenticate-release-signing-keys) in
|
||
order for this to work. You should receive a `Good signature` message for the
|
||
appropriate RSK, which should be signed by a copy of the QMSK that you
|
||
previously confirmed to be genuine.
|
||
|
||
## How to verify signatures on Git repository tags and commits
|
||
|
||
Before we proceed, you must first complete the following prerequisite steps:
|
||
|
||
1. [Install OpenPGP software.](#openpgp-software)
|
||
2. [Import and authenticate the Qubes Master Signing
|
||
Key.](#how-to-import-and-authenticate-the-qubes-master-signing-key)
|
||
3. [Import and authenticate keys from the Qubes security pack
|
||
(qubes-secpack).](/security/pack/) Please see our [PGP key
|
||
policies](/security/pack/#pgp-key-policies) for important information about
|
||
these keys.
|
||
|
||
Whenever you use one of the [Qubes repositories](https://github.com/QubesOS),
|
||
you should use Git to verify the PGP signature in a tag on the latest commit or
|
||
on the latest commit itself. (One or both may be present, but only one is
|
||
required.) If there is no trusted signed tag or commit on top, any commits
|
||
after the latest trusted signed tag or commit should **not** be trusted. If you
|
||
come across a repo with any unsigned commits, you should not add any of your
|
||
own signed tags or commits on top of them unless you personally vouch for the
|
||
trustworthiness of the unsigned commits. Instead, ask the person who pushed the
|
||
unsigned commits to sign them.
|
||
|
||
You should always perform this verification on a trusted local machine with
|
||
properly authenticated keys rather than relying on a third party, such as
|
||
GitHub. While the GitHub interface may claim that a commit has a verified
|
||
signature from a member of the Qubes team, this is only trustworthy if GitHub
|
||
has performed the signature check correctly, the account identity is authentic,
|
||
an admin has not replaced the user's key, GitHub's servers have not
|
||
been compromised, and so on. Since there's no way for you to be certain that
|
||
all such conditions hold, you're much better off verifying signatures yourself.
|
||
(Also see: [distrusting the
|
||
infrastructure](/faq/#what-does-it-mean-to-distrust-the-infrastructure).)
|
||
|
||
### How to verify a signature on a Git tag
|
||
|
||
```shell_session
|
||
$ git tag -v <tag name>
|
||
```
|
||
|
||
or
|
||
|
||
```shell_session
|
||
$ git verify-tag <tag name>
|
||
```
|
||
|
||
### How to verify a signature on a Git commit
|
||
|
||
```shell_session
|
||
$ git log --show-signature <commit ID>
|
||
```
|
||
|
||
or
|
||
|
||
```shell_session
|
||
$ git verify-commit <commit ID>
|
||
```
|
||
|
||
## Troubleshooting FAQ
|
||
|
||
### Why am I getting "Can't check signature: public key not found"?
|
||
|
||
You don't have the correct [release signing
|
||
key](#how-to-import-and-authenticate-release-signing-keys).
|
||
|
||
### Why am I getting "BAD signature from 'Qubes OS Release X Signing Key'"?
|
||
|
||
The problem could be one or more of the following:
|
||
|
||
- You're trying to verify the wrong file(s). Reread this page carefully.
|
||
- You're using the wrong GPG command. Follow the provided examples carefully,
|
||
or try using `gpg` instead of `gpg2` (or vice versa).
|
||
- The ISO or [detached PGP signature
|
||
file](#how-to-verify-detached-pgp-signatures-on-qubes-isos) is bad (e.g.,
|
||
incomplete or corrupt download). Try downloading the signature file again
|
||
from a different source, then try verifying again. If you still get the same
|
||
result, try downloading the ISO again from a different source, then try
|
||
verifying again.
|
||
|
||
### Why am I getting "bash: gpg2: command not found"?
|
||
|
||
You don't have `gpg2` installed. Please install it using the method appropriate
|
||
for your environment (e.g., via your package manager), or try using `gpg`
|
||
instead.
|
||
|
||
### Why am I getting "No such file or directory"?
|
||
|
||
Your working directory does not contain the required files. Go back and follow
|
||
the instructions more carefully, making sure that you put all required files in
|
||
the same directory *and* navigate to that directory.
|
||
|
||
### Why am I getting "can't open signed data 'Qubes-RX-x86\_64.iso' / can't hash datafile: file open error"?
|
||
|
||
The correct ISO is not in your working directory.
|
||
|
||
### Why am I getting "can't open 'Qubes-RX-x86\_64.iso.asc' / verify signatures failed: file open error"?
|
||
|
||
The correct [detached PGP signature
|
||
file](#how-to-verify-detached-pgp-signatures-on-qubes-isos) is not in your
|
||
working directory.
|
||
|
||
### Why am I getting "no valid OpenPGP data found"?
|
||
|
||
Either you don't have the correct [detached PGP signature
|
||
file](#how-to-verify-detached-pgp-signatures-on-qubes-isos), or you inverted
|
||
the arguments to `gpg2`. (The signature file goes first.)
|
||
|
||
### Why am I getting "WARNING: This key is not certified with a trusted signature! There is no indication that the signature belongs to the owner."?
|
||
|
||
There are several possibilities:
|
||
- You don't have the [Qubes Master Signing
|
||
Key](#how-to-import-and-authenticate-the-qubes-master-signing-key).
|
||
- You have not [set the Qubes Master Signing Key's trust level
|
||
correctly.](#how-to-import-and-authenticate-the-qubes-master-signing-key)
|
||
- In the case of a key that is not directly signed by the Qubes Master Signing
|
||
Key, you have not [set that key's trust level
|
||
correctly.](#how-to-verify-signatures-on-git-repository-tags-and-commits)
|
||
|
||
### Why am I getting "X signature not checked due to a missing key"?
|
||
|
||
You don't have the keys that created those signatures in your keyring. For the
|
||
purpose of verifying a Qubes ISO, you don't need them as long as you have the
|
||
[Qubes Master Signing
|
||
Key](#how-to-import-and-authenticate-the-qubes-master-signing-key) and the
|
||
[release signing key](#how-to-import-and-authenticate-release-signing-keys) for
|
||
your Qubes release.
|
||
|
||
### Why am I seeing additional signatures on a key with "[User ID not found]" or from a revoked key?
|
||
|
||
This is just a fundamental part of how OpenPGP works. Anyone can sign anyone else's
|
||
public key and upload the signed public key to keyservers. Everyone is also
|
||
free to revoke their own keys at any time (assuming they possess or can create
|
||
a revocation certificate). This has no impact on verifying Qubes ISOs, code, or
|
||
keys.
|
||
|
||
### Why am I getting "verify signatures failed: unexpected data"?
|
||
|
||
You're not verifying against the correct [detached PGP signature
|
||
file](#how-to-verify-detached-pgp-signatures-on-qubes-isos).
|
||
|
||
### Why am I getting "not a detached signature"?
|
||
|
||
You're not verifying against the correct [detached PGP signature
|
||
file](#how-to-verify-detached-pgp-signatures-on-qubes-isos).
|
||
|
||
### Why am I getting "CRC error; [...] no signature found [...]"?
|
||
|
||
You're not verifying against the correct [detached PGP signature
|
||
file](#how-to-verify-detached-pgp-signatures-on-qubes-isos), or the signature
|
||
file has been modified. Try downloading it again or from a different source.
|
||
|
||
### Do I have to verify both the [detached PGP signature file](#how-to-verify-detached-pgp-signatures-on-qubes-isos) and the [cryptographic hash values](#how-to-verify-the-cryptographic-hash-values-of-qubes-isos)?
|
||
|
||
No, either method is sufficient by itself, but you can do both if you like.
|
||
|
||
### Why am I getting "no properly formatted X checksum lines found"?
|
||
|
||
You're not checking the correct [cryptographic hash
|
||
values](#how-to-verify-the-cryptographic-hash-values-of-qubes-isos).
|
||
|
||
### Why am I getting "WARNING: X lines are improperly formatted"?
|
||
|
||
Read [how to verify the cryptographic hash values of Qubes
|
||
ISOs](#how-to-verify-the-cryptographic-hash-values-of-qubes-isos) again.
|
||
|
||
### Why am I getting "WARNING: 1 listed file could not be read"?
|
||
|
||
The correct ISO is not in your working directory.
|
||
|
||
### I have another problem that isn't mentioned here.
|
||
|
||
Carefully reread this page to be certain that you didn't skip any steps. In
|
||
particular, make sure you have the [Qubes Master Signing
|
||
Key](#how-to-import-and-authenticate-the-qubes-master-signing-key), the
|
||
[release signing key](#how-to-import-and-authenticate-release-signing-keys) for
|
||
your Qubes release, *and* the [cryptographic hash
|
||
values](#how-to-verify-the-cryptographic-hash-values-of-qubes-isos) and/or
|
||
[detached PGP signature
|
||
file](#how-to-verify-detached-pgp-signatures-on-qubes-isos), all for the
|
||
*correct* Qubes OS release. If your question is about GPG, please see the
|
||
[GnuPG documentation](https://www.gnupg.org/documentation/). Still have
|
||
question? Please see [help, support, mailing lists, and forum](/support/) for
|
||
places where you can ask!
|