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628 lines
22 KiB
Plaintext
628 lines
22 KiB
Plaintext
<chapter id="intro" xreflabel="1">
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<docinfo>
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<date>
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$Id$
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</date>
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</docinfo>
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<title>
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Getting Started
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</title>
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<para>
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&Gnupg; is a tool for secure communication.
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This chapter is a quick-start guide that covers the core functionality
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of &gnupg;.
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This includes keypair creation, exchanging and verifying keys, encrypting
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and decrypting documents, and making and verifying signatures.
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It does not explain in detail the concepts behind public-key cryptography,
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encryption, and digital signatures.
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This is covered in Chapter <xref linkend="concepts">.
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It also does not explain how to use &gnupg; wisely.
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This is covered in Chapters <xref linkend="management"> and
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<xref linkend="wise">.
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</para>
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<para>
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&Gnupg; uses public-key cryptography so that users may communicate securely.
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In a public-key system, each user has a public/private keypair.
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A user's private key is kept secret; it need never be revealed.
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The public key may be given to anyone with whom the user wants to
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communicate.
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&Gnupg; uses a somewhat more sophisticated scheme in which a user has
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a primary keypair and then zero or more additional subordinate keypairs.
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The primary and subordinate keypairs are bundled to facilitate key
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management and the bundle can often be considered simply as one keypair.
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</para>
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<sect1>
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<title>
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Generating a new keypair
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</title>
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<para>
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The command-line option <link linkend="gen-key"><option>--gen-key</option></link>
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is used to create a new primary keypair.
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<screen width="80">
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<prompt>alice%</prompt> <userinput>gpg --gen-key</userinput>
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gpg (GnuPG) 0.9.4; Copyright (C) 1999 Free Software Foundation, Inc.
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This program comes with ABSOLUTELY NO WARRANTY.
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This is free software, and you are welcome to redistribute it
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under certain conditions. See the file COPYING for details.
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Please select what kind of key you want:
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(1) DSA and ElGamal (default)
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(2) DSA (sign only)
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(4) ElGamal (sign and encrypt)
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Your selection?
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</screen>
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<!--
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REWRITE
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From Thomas Zander (zander@microweb.nl):
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In GPG you can create 3 type of keypairs. A keypair is the combination
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of a publ ic key and a private key, see chapter X. A DSA keypair can
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only be used to sign a message. A ElGamal subordinate keypair can be
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used for encryption as well as s igning, but is not as compatible with
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former standards.
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Option 1 creates 2 keypairs; a DSA (signing) and a ElGamal (Encryption).
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Option 2 creates a DSA keypair (Signing)
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Option 4 creates a ElGemal keypair (Signing & Encryption).
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note: option 3 xxxx
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This doesn't quite work, but I agree the following paragraph is rough.
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-->
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&Gnupg; is able to create several different types of keypairs, but a primary
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key must be capable of making signatures.
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There are therefore only three options.
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Option 1 actually creates two keypairs.
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A DSA keypair is the primary keypair usable only for making signatures.
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An ElGamal subordinate keypair is also created for encryption.
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Option 2 is similar but creates only a DSA keypair.
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Option 4<footnote><para>Option 3 is to generate an ElGamal keypair that is
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not usable for making signatures.</para></footnote> creates a single ElGamal
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keypair usable for both making signatures and performing encryption.
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In all cases it is possible to later add additional subkeys for encryption
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and signing.
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For most users the default option is fine.
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</para>
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<para>
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You must also choose a key size.
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The size of a DSA key must be between 512 and 1024 bits, and an ElGamal
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key may be of any size.
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&Gnupg;, however, requires that keys be no smaller than 768 bits.
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Therefore, if Option 1 was chosen and you choose a keysize larger than
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1024 bits, the ElGamal key will have the requested size, but the DSA
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key will be 1024 bits.
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<screen width="80">
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About to generate a new ELG-E keypair.
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minimum keysize is 768 bits
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default keysize is 1024 bits
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highest suggested keysize is 2048 bits
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What keysize do you want? (1024)
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</screen>
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The longer the key the more secure it is against brute-force attacks,
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but for almost all purposes the default keysize is adequate since
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it would be cheaper to circumvent the encryption than try to break it.
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Also, encryption and decryption will be slower as the
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key size is increased, and a larger keysize may affect signature length.
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Once selected, the keysize can never be changed.
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</para>
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<para>
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Finally, you must choose an expiration date.
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If Option 1 was chosen, the expiration date will be used for both the
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ElGamal and DSA keypairs.
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<screen width="80">
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Please specify how long the key should be valid.
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0 = key does not expire
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<n> = key expires in n days
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<n>w = key expires in n weeks
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<n>m = key expires in n months
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<n>y = key expires in n years
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Key is valid for? (0)
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</screen>
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For most users a key that does not expire is adequate.
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The expiration time should be chosen with care, however,
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since although it is possible to change the expiration date after the key
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is created, it may be difficult to communicate a change
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to users who have your public key.
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</para>
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<para>
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You must provide a user ID in addition to the key parameters.
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The user ID is used to associate the key being created with a real
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person.
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<screen width="80">
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You need a User-ID to identify your key; the software constructs the user id
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from Real Name, Comment and Email Address in this form:
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"Heinrich Heine (Der Dichter) <heinrichh@duesseldorf.de>"
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Real name:
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</screen>
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Only one user ID is created when a key is created, but it is possible
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to create additional user IDs if you want to use the key in two or
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more contexts, ⪚, as an employee at work and a political activist
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on the side.
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A user ID should be created carefully since it cannot be edited after
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it is created.
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</para>
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<para>
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&Gnupg; needs a passphrase to protect the primary and subordinate
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private keys that you keep in your possession.
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<screen width="80">
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You need a Passphrase to protect your private key.
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Enter passphrase:
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</screen>
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There is no limit on the length of a passphrase, and it should be
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carefully chosen.
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From the perspective of security, the passphrase to unlock the private
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key is one of the weakest points in &gnupg; (and other public-key
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encryption systems as well) since it is the only protection you
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have if another individual gets your private key.
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Ideally, the passphrase should not use words from a dictionary and
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should mix the case of alphabetic characters as well as use
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non-alphabetic characters.
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A good passphrase is crucial to the secure use of &gnupg;.
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</para>
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<sect2 id="revocation">
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<title>
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Generating a revocation certificate
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</title>
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<para>
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After your keypair is created you should immediately generate a revocation
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certificate for the primary public key using the option
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<link linkend="gen-revoke"><option>--gen-revoke</option></link>.
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If you forget your passphrase or if your private key is compromised
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or lost, this revocation certificate may be published to notify others
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that the public key should no longer be used.
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A revoked public key can still be used to verify signatures made
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by you in the past, but it cannot be used to encrypt future messages
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to you.
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It also does not affect your ability to decrypt messages sent to
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you in the past if you still do have access to the private key.
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<screen width="80">
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<prompt>alice%</prompt> <userinput>gpg --output revoke.asc --gen-revoke mykey</userinput>
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[...]
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</screen>
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The argument <userinput>mykey</userinput> must be a <emphasis>key
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specifier</emphasis>,
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either the key ID of your primary keypair or any part of a user ID
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that identifies your keypair.
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The generated certificate will be left in the file
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<parameter>revoke.asc</parameter>.
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If the <link linkend="output"><option>--output</option></link> option is
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omitted, the result will be placed on standard output.
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Since the certificate is short, you may wish to print a hardcopy of
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the certificate to store somewhere safe such as your safe deposit box.
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The certificate should not be stored where others can access it since
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anybody can publish the revocation certificate and render the
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corresponding public key useless.
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</para>
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</sect2>
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</sect1>
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<sect1>
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<title>
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Exchanging keys
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</title>
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<para>
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To communicate with others you must exchange public keys.
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To list the keys on your public keyring use the command-line
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option <link linkend="list-keys"><option>--list-keys</option></link>.
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</para>
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<screen width="80">
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<prompt>alice%</prompt> <userinput>gpg --list-keys</userinput>
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/users/alice/.gnupg/pubring.gpg
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---------------------------------------
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pub 1024D/BB7576AC 1999-06-04 Alice (Judge) <alice@cyb.org>
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sub 1024g/78E9A8FA 1999-06-04
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</screen>
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<sect2>
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<title>
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Exporting a public key
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</title>
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<para>
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To send your public key to a correspondent you must first export it.
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The command-line option <link linkend="export"><option>--export</option></link>
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is used to do this.
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It takes an additional argument identifying the public key to export.
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As with the <option>--gen-revoke</option> option, either the key ID or any part of
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the user ID may be used to identify the key to export.
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</para>
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<screen width="80">
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<prompt>alice%</prompt> <userinput>gpg --output alice.gpg --export alice@cyb.org</userinput>
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</screen>
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<para>
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The key is exported in a binary format, but this can be inconvenient
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when the key is to be sent though email or published on a web page.
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&Gnupg; therefore supports a command-line option
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<link linkend="armor"><option>--armor</option></link><footnote>
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<para>Many
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command-line options that are frequently used can also be set in a
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<link linkend="optionsfile">configuration file</link>.
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</para>
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</footnote>
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that that
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causes output to be generated in an ASCII-armored format similar to
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uuencoded documents.
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In general, any output from &gnupg;, ⪚, keys, encrypted documents, and
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signatures, can be ASCII-armored by adding the <option>--armor</option> option.
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</para>
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<screen width="80">
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<prompt>alice%</prompt> <userinput>gpg --armor --export alice@cyb.org</userinput>
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-----BEGIN PGP PUBLIC KEY BLOCK-----
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Version: GnuPG v0.9.7 (GNU/Linux)
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Comment: For info see http://www.gnupg.org
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[...]
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-----END PGP PUBLIC KEY BLOCK-----
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</screen>
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</sect2>
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<sect2>
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<title>
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Importing a public key
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</title>
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<para>
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A public key may be added to your public keyring with the
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<link linkend="import"><option>--import</option></link> option.
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</para>
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<screen width="80">
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<prompt>alice%</prompt> <userinput>gpg --import blake.gpg</userinput>
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gpg: key 9E98BC16: public key imported
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gpg: Total number processed: 1
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gpg: imported: 1
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<prompt>alice%</prompt> <userinput>gpg --list-keys</userinput>
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/users/alice/.gnupg/pubring.gpg
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---------------------------------------
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pub 1024D/BB7576AC 1999-06-04 Alice (Judge) <alice@cyb.org>
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sub 1024g/78E9A8FA 1999-06-04
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pub 1024D/9E98BC16 1999-06-04 Blake (Executioner) <blake@cyb.org>
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sub 1024g/5C8CBD41 1999-06-04
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</screen>
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<para>
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Once a key is imported it should be validated.
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&Gnupg; uses a powerful and flexible trust model that does not require
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you to personally validate each key you import.
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Some keys may need to be personally validated, however.
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A key is validated by verifying the key's fingerprint and then signing
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the key to certify it as a valid key.
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A key's fingerprint can be quickly viewed with the
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<link linkend="fingerprint"><option>--fingerprint</option></link>
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command-line option, but in order to certify the key you must edit it.
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<screen width="80">
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<prompt>alice%</prompt> <userinput>gpg --edit-key blake@cyb.org</userinput>
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pub 1024D/9E98BC16 created: 1999-06-04 expires: never trust: -/q
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sub 1024g/5C8CBD41 created: 1999-06-04 expires: never
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(1) Blake (Executioner) <blake@cyb.org>
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<prompt>Command></prompt> <userinput>fpr</userinput>
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pub 1024D/9E98BC16 1999-06-04 Blake (Executioner) <blake@cyb.org>
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Fingerprint: 268F 448F CCD7 AF34 183E 52D8 9BDE 1A08 9E98 BC16
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</screen>
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Key verification is a weak point in public-key cryptography, so you
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must be sure that the fingerprint is correct.
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The fingerprint displayed should be checked with the key's owner.
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This may be done in person or over the phone or through any other means
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as long as you can guarantee that you are communicating with the key's
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true owner.
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Once verified you may sign the key to validate it.
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</para>
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<screen width="80">
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<prompt>Command></prompt> <userinput>sign</userinput>
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pub 1024D/9E98BC16 created: 1999-06-04 expires: never trust: -/q
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Fingerprint: 268F 448F CCD7 AF34 183E 52D8 9BDE 1A08 9E98 BC16
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Blake (Executioner) <blake@cyb.org>
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Are you really sure that you want to sign this key
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with your key: "Alice (Judge) <alice@cyb.org>"
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Really sign?
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</screen>
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<para>
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Once signed you can check the key to list the signatures on it and
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see the signature that you have added.
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Every user ID on the key will have one or more self-signatures as well
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as a signature for each user that has validated the key.
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</para>
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<screen width="80">
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<prompt>Command></prompt> <userinput>check</userinput>
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uid Blake (Executioner) <blake@cyb.org>
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sig! 9E98BC16 1999-06-04 [self-signature]
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sig! BB7576AC 1999-06-04 Alice (Judge) <alice@cyb.org>
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</screen>
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</sect2>
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</sect1>
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<sect1>
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<title>
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Encrypting and decrypting documents
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</title>
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<para>
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To encrypt a document the option
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<link linkend="encrypt"><option>--encrypt</option></link> is used.
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You must have the public keys of the intended recipients.
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The software expects the name of the document to encrypt as input or, if
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omitted, on standard input.
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The encrypted result is placed on standard output or as specified using
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the option <option>--output</option>.
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The document is compressed for additional security in addition to
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encrypting it.
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<screen width="80">
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<prompt>alice%</prompt> <userinput>gpg --output doc.gpg --encrypt --recipient blake@cyb.org doc</userinput>
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</screen>
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The <link linkend="recipient"><option>--recipient</option></link> option
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is used once for each recipient and takes an extra argument specifying
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the public key to which the document should be encrypted.
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The encrypted document can only be decrypted by someone with a private
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key that complements one of the recipients' public keys.
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In particular, you cannot decrypt a document encrypted by you unless
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you included your own public key in the recipient list.
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</para>
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<para>
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To decrypt a message the option
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<link linkend="decrypt"><option>--decrypt</option></link> is used.
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You need the private key to which the message was encrypted.
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Similar to the encryption process, the document to decrypt is
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input, and the decrypted result is output.
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</para>
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<screen width="80">
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<prompt>blake%</prompt> <userinput>gpg --output doc --decrypt doc.gpg</userinput>
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You need a passphrase to unlock the secret key for
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user: "Blake (Executioner) <blake@cyb.org>"
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1024-bit ELG-E key, ID 5C8CBD41, created 1999-06-04 (main key ID 9E98BC16)
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Enter passphrase:
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</screen>
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<para>
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Documents may also be encrypted without using public-key cryptography.
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Instead, only a symmetric cipher is used to encrypt the document.
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The key used to drive the symmetric cipher is derived from a passphrase
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supplied when the document is encrypted, and for good security, it
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should not be the same passphrase that you use to protect your private key.
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Symmetric encryption is useful for securing documents when the
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passphrase does not need to be communicated to others.
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A document can be encrypted with a symmetric cipher by using the
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<link linkend="symmetric"><option>--symmetric</option></link> option.
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</para>
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<screen width="80">
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<prompt>alice%</prompt> <userinput>gpg --output doc.gpg --symmetric doc</userinput>
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Enter passphrase:
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</screen>
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</sect1>
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<sect1>
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<title>
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Making and verifying signatures
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</title>
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<para>
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A digital signature certifies and timestamps a document.
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If the document is subsequently modified in any way, a verification
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of the signature will fail.
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A digital signature can serve the same purpose as a hand-written signature
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with the additional benefit of being tamper-resistant.
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The &gnupg; source distribution, for example, is signed so that users can
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verify that the source code has not been modified since it was packaged.
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</para>
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<para>
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Creating and verifying signatures uses the public/private keypair
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in an operation different from encryption and decryption.
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A signature is created using the private key of the signer.
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The signature is verified using the corresponding public key.
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A consequence is that it is difficult to deny that you made a digital
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signature since that would imply your private key had been compromised.
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</para>
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<para>
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The command-line option <link linkend="sign"><option>--sign</option></link> is
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used to make a digital signature.
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The document to sign is input, and the signed document is output.
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<screen width="80">
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<prompt>alice%</prompt> <userinput>gpg --output doc.sig --sign doc</userinput>
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You need a passphrase to unlock the private key for
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user: "Alice (Judge) <alice@cyb.org>"
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1024-bit DSA key, ID BB7576AC, created 1999-06-04
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Enter passphrase:
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</screen>
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The document is compressed before signed, and the output is in binary
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format.
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</para>
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<para>
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Given a signed document, you can either check the signature or
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check the signature and recover the original document.
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To check the signature use the
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<link linkend="verify"><option>--verify</option></link> option.
|
|
To verify the signature and extract the document use the
|
|
<option>--decrypt</option>
|
|
option.
|
|
The signed document to verify and recover is input and the recovered
|
|
document is output.
|
|
</para>
|
|
|
|
<screen width="80">
|
|
<prompt>blake%</prompt> <userinput>gpg --output doc --decrypt doc.sig</userinput>
|
|
gpg: Signature made Fri Jun 4 12:02:38 1999 CDT using DSA key ID BB7576AC
|
|
gpg: Good signature from "Alice (Judge) <alice@cyb.org>"
|
|
</screen>
|
|
|
|
<sect2>
|
|
<title>
|
|
Clearsigned documents
|
|
</title>
|
|
|
|
<para>
|
|
A common use of digital signatures is to sign usenet postings or
|
|
email messages.
|
|
In such situations it is undesirable to compress the document while
|
|
signing it.
|
|
The option
|
|
<link linkend="clearsign"><option>--clearsign</option></link>
|
|
causes the document to be wrapped in an ASCII-armored signature but
|
|
otherwise does not modify the document.
|
|
</para>
|
|
|
|
<screen width="80">
|
|
<prompt>alice%</prompt> <userinput>gpg --clearsign doc</userinput>
|
|
|
|
You need a passphrase to unlock the secret key for
|
|
user: "Alice (Judge) <alice@cyb.org>"
|
|
1024-bit DSA key, ID BB7576AC, created 1999-06-04
|
|
|
|
-----BEGIN PGP SIGNED MESSAGE-----
|
|
Hash: SHA1
|
|
|
|
[...]
|
|
-----BEGIN PGP SIGNATURE-----
|
|
Version: GnuPG v0.9.7 (GNU/Linux)
|
|
Comment: For info see http://www.gnupg.org
|
|
|
|
iEYEARECAAYFAjdYCQoACgkQJ9S6ULt1dqz6IwCfQ7wP6i/i8HhbcOSKF4ELyQB1
|
|
oCoAoOuqpRqEzr4kOkQqHRLE/b8/Rw2k
|
|
=y6kj
|
|
-----END PGP SIGNATURE-----
|
|
</screen>
|
|
</sect2>
|
|
|
|
<sect2>
|
|
<title>
|
|
Detached signatures
|
|
</title>
|
|
|
|
<para>
|
|
A signed document has limited usefulness.
|
|
Other users must recover the original document from the signed
|
|
version, and even with clearsigned documents, the signed document
|
|
must be edited to recover the original.
|
|
Therefore, there is a third method for signing a document that
|
|
creates a detached signature.
|
|
A detached signature is created using the
|
|
<link linkend="detach-sig"><option>--detach-sig</option></link>
|
|
option.
|
|
</para>
|
|
|
|
<screen width="80">
|
|
<prompt>alice%</prompt> <userinput>gpg --output doc.sig --detach-sig doc</userinput>
|
|
|
|
You need a passphrase to unlock the secret key for
|
|
user: "Alice (Judge) <alice@cyb.org>"
|
|
1024-bit DSA key, ID BB7576AC, created 1999-06-04
|
|
|
|
Enter passphrase:
|
|
</screen>
|
|
|
|
<para>
|
|
Both the document and detached signature are needed to verify
|
|
the signature.
|
|
The <option>--verify</option> option can be to check the
|
|
signature.
|
|
</para>
|
|
|
|
<screen width="80">
|
|
<prompt>blake%</prompt> <userinput>gpg --verify doc.sig doc</userinput>
|
|
gpg: Signature made Fri Jun 4 12:38:46 1999 CDT using DSA key ID BB7576AC
|
|
gpg: Good signature from "Alice (Judge) <alice@cyb.org>"
|
|
</screen>
|
|
</sect2>
|
|
</sect1>
|
|
</chapter>
|
|
|
|
<!--
|
|
In the "Getting Started" chapter, it would be interesting to provide
|
|
a checklist of assumptions that the reader can consult to determine
|
|
whether or not she fits the "most users" profile. Perhaps put this
|
|
at the end of the chapter (perhaps w/ forward pointer?). You could
|
|
include cross references for each item on the list. For example:
|
|
|
|
23. Your use of public key encryption has property X with attribute Y.
|
|
(see Section 3.4.1 for a more detailed discussion of other
|
|
attributes of property X)
|
|
|
|
What prompted this was wondering, as I read through the generating keypair
|
|
section, "under what circumstances would these defaults be inappropriate?"
|
|
|
|
The notion of using the same key with different user IDs "as an employee at
|
|
work and a political activist on the side" is interesting. Knowing one,
|
|
could you be traced to the other? (Are they separate numeric ids, and is
|
|
that enough?) (seems someone could just match the public keys)
|
|
|
|
It's a very nice touch that you don't cover every single prompt that the
|
|
system throws at you, but instead treat them functionally. For example,
|
|
I can imagine other books going through the "Comment:" and "Email Address:"
|
|
prompts.
|
|
-->
|
|
|
|
<!--
|
|
"Key verification is a weak point in public-key cryptography ..."
|
|
Saying "weak point" makes it sound like a slam on public key stuff.
|
|
Although we've talked about weaknesses of the trust model, I'm guessing
|
|
the point here is that communication is only secure if you verify the
|
|
identity of the key's owner.
|
|
|
|
Key verification can be done through any means "as long as you can
|
|
guarantee that you are communicating with the key's true owner".
|
|
I suspect we'd also like to prevent leaking information that an
|
|
interceptor could use to pose as us in a key verification step with
|
|
another party. I suppose the notion of bootstrapping may not be widely
|
|
appreciated as an analogy.
|
|
|
|
I'm almost inclined to want to see a section in the Getting Started
|
|
guide called "Why you should read the rest of this book". Failing
|
|
that, or perhaps better yet, maybe it would work to have some margin
|
|
notes that point to other sections of the book for more information
|
|
("a discussion of trust models begins on p. 95").
|
|
-->
|
|
|