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434 lines
16 KiB
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434 lines
16 KiB
Plaintext
<chapter id="wise" xreflabel="4">
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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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Daily use of &Gnupg;
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</title>
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<para>
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&Gnupg; is a complex tool with technical, social, and legal issues
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surrounding it.
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Technically, it has been designed to be used in situations having
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drastically different security needs.
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This complicates key management.
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Socially, using &gnupg; is not strictly a personal decision.
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To use &gnupg effectively both parties communicating must use it.
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Finally, as of 1999, laws regarding digital encryption, and in particular
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whether or not using &gnupg; is legal, vary from country to country and
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is currently being debated by many national governments.
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</para>
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<para>
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This chapter addresses these issues.
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It gives practical advice on how to use &gnupg; to meet your security needs.
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It also suggests ways to promote the use of &gnupg; for secure
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communication between yourself and your colleagues when your colleagues
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are not currently using &gnupg;.
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Finally, the legal status of &gnupg; is outlined given the current status
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of encryption laws in the world.
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</para>
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<sect1>
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<title>
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Defining your security needs
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</title>
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<para>
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&Gnupg; is a tool you use to protect your privacy.
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Your privacy is protected if you can correspond with others without
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eavesdroppers reading those messages.
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</para>
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<para>
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How you should use &gnupg; depends on the determination and resourcefulness
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of those who might want to read your encrypted messages.
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An eavesdropper may be an unscrupulous system administrator casually
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scanning your mail, it might be an industrial spy trying to collect
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your company's secrets, or it might be a law enforcement agency trying
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to prosecute you.
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Using &gnupg; to protect against casual eavesdropping is going to be
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different than using &gnupg; to protect against a determined adversary.
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Your goal, ultimately, is to make it more expensive to recover the
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unencrypted data than that data is worth.
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</para>
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<para>
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Customizing your use of &gnupg; revolves around three issues:
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<itemizedlist spacing="compact">
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<listitem>
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<para>
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the key size of your public/private keypair,
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</para>
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</listitem>
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<listitem>
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<para>
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protecting your private key, and
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</para>
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</listitem>
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<listitem>
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<para>
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managing your web of trust.
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</para>
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</listitem>
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</itemizedlist>
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A well-chosen key size protects you against brute-force attacks on
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encrypted messages.
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Protecting your private key prevents an attacker from simply using your
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private key to decrypt encrypted messages and sign messages in your name.
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Correctly managing your web of trust prevents attackers from masquarading
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as people with whom you communicate.
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Ultimately, addressing these issues with respect to your own security
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needs is how you balance the extra work required to use &gnupg; with
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the privacy it gives you.
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</para>
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<sect2>
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<title>
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Choosing a key size
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</title>
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<para>
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Selecting a key size depends on the key.
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In OpenPGP, a public/private keypair usually has multiple keys.
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At the least it has a master signing key, and it probably has one or
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more additional subkeys for encryption.
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Using default key generation parameters with &gnupg;, the master
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key will be a DSA key, and the subkeys will be ElGamal keys.
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</para>
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<para>
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DSA allows a key size up to 1024 bits.
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This is not especially good given today's factoring technology, but
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that is what the standard specifies.
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Without question, you should use 1024 bit DSA keys.
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</para>
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<para>
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ElGamal keys, on the other hand, may be of any size.
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Since &gnupg; is a hybrid public-key system, the public key is used
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to encrypt a 128-bit session key, and the private key is used to
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decrypt it.
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Key size nevertheless affects encryption and decryption speed
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since the cost of these algorithms is exponential in the size of
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the key.
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Larger keys also take more time to generate and take more space
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to store.
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Ultimately, there are diminishing returns on the extra security
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a large key provides you.
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After all, if the key is large enough to resist a brute-force
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attack, an eavesdropper will merely switch to some other method for
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obtaining your plaintext data.
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Examples of other methods include robbing your home or office
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and mugging you.
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1024 bits is thus the recommended key size.
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If you genuinely need a larger key size then you probably already
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know this and should be consulting an expert in data security.
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</para>
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</sect2>
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<sect2>
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<title>
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Protecting your private key
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</title>
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<para>
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Protecting your private key is the most important job you have to
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use &gnupg; correctly.
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If someone obtains your private key, then all data encrypted to
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the private key can be decrypted and signatures can be made in your name.
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If you lose your private key, then you will no longer be able to
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decrypt documents encrypted to you in the future or in the past,
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and you will not be able to make signatures.
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Losing sole possession of your private key is catastrophic.
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</para>
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<para>
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Regardless of how you use &gnupg; you should store the public
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key's <link linkend="revocation">revocation certificate</link>
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and a backup of your private key on write-protected media in a safe place.
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For example, you could burn them on a CD-ROM and store them in your
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safe deposit box at the bank in a sealed envelope.
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Alternatively, you could store them on a floppy and hide it in your
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house.
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Whatever you do, they should be put on media that is safe to store
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for as long as you expect to keep the key, and you should store
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them more carefully than the copy of your private key you use daily.
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</para>
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<para>
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To help safeguard your key, &Gnupg; does not store your raw
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private key on disk.
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Instead it encrypts it using a symmetric encryption algorithm.
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That is why you need a passphrase to access the key.
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Thus there are two barriers an attacker must cross to access your private
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key: (1) he must actually acquire the key, and (2) he must get past
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the encryption.
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</para>
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<para>
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Safely storing your private key is important, but there is a cost.
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Ideally, you would keep the private key on a removable, write-protected disk
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such as a floppy disk, and you would use it on a single-user machine
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not connected to a network.
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This may be inconvenient or impossible for you to do.
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For example, you may not own your own machine and must use a computer
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at work or school, or it may mean you have to physically disconnect
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your computer from your cable modem every time you want to use &gnupg;
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</para>
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<para>
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This does not mean you cannot or should not use &gnupg;.
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It means only that you have decided that the data you are protecting is
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important enough to encrypt but not so important as to take extra
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steps to make the first barrier stronger.
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It is your choice.
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</para>
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<para>
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A good passphrase is absolutely critical when using &gnupg;.
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Any attacker who gains access to your private key must bypass the
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encryption on the private key.
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Instead of brute-force guessing the key, an attacker will almost
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certainly instead try to guess the passphrase.
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</para>
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<para>
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The motivation for trying passphrases is that most people choose
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a passphrase that is easier to guess than a random 128-bit key.
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If the passphrase is a word, it is much cheaper to try all the
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words in the dictionaries of the world's languages.
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Even if the word is permuted, &eg, k3wldood, it is still easier
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to try dictionary words with a catalog of permutations.
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The same problem applies to quotations.
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In general, passphrases based on natural-language utterances
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are poor passphrases since there is little randomness and lots
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of redundancy in natural language.
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You should avoid natural language passphrases if you can.
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</para>
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<para>
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A good passphrase is one that you can remember but is hard for
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someone to guess.
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It should include characters from the whole range of printable characters
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on your keyboard.
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This includes uppercase alphabetics characters, numbers, and special
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characters such as <literal>}</literal> and <literal>|</literal>.
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Be creative and spend a little time considering your passphrase; a
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good choice is important to ensure your privacy.
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</para>
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</sect2>
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<!--
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<sect2>
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<title>
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Reacting to a compromised private key
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</title>
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<para>
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Despite your precautions you may lose sole access to your private key.
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For example, you may forget the passphrase, or someone who you think
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can bypass the encryption gets access to it.
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In that case then you need to spread the word that your key is no
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longer valid.
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To do that you use the key revocation certificate you should have generated
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when you created the key.
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Importing it onto your public keyring will revoke the public key
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of the keypair you no longer wish to use.
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It is then up to you to distribute the revoked public key to all
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those who may encrypt documents to you.
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</para>
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<para>
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A revoked public key only prevents future use of the private key.
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Others will neither be able to encrypt documents to the key nor will
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they be able to check signatures made with the private key.
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Documents signed in the past can still be checked, however, and
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documents encrypted in the past can still be decrypted.
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</para>
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<para>
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It is important that you protect the revocation certificate carefully.
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Anybody can add the certificate to your public key and distribute it,
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and there is no way to revoke a revocation certificate.
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Therefore, you should store the revocation certificate in a safe
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place such as with the backup of your private key.
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</para>
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</sect2>
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-->
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<sect2>
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<title>
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Managing your web of trust
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</title>
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<para>
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As with protecting your private key, managing your web of trust is
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another aspect of using &gnupg; that requires balancing security against
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ease of use.
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If you are using &gnupg; to protect against casual eavesdropping and
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forgeries then you can afford to be relatively trusting of other
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people's signatures.
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On the other hand, if you are concerned that there may be a determined
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attacker interested in invading your privacy, then
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you should be much less trusting of other signatures and spend more time
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personally verifying signatures.
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</para>
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<para>
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Regardless of your own security needs, through, you should
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<emphasis>always be careful</emphasis> when signing other keys.
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It is selfish to sign a key with just enough confidence in the key's
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validity to satisfy your own security needs.
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Others, with more stringent security needs, may want to depend on
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your signature.
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If they cannot depend on you then that weakens the web of trust
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and makes it more difficult for all &gnupg; users to communicate.
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Use the same care in signing keys that you would like others to use when
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you depend on their signatures.
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</para>
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<para>
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In practice, managing your web of trust reduces to assigning trust to
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others and tuning the options
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<link linkend="marginals-needed"><option>--marginals-needed</option></link>
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and
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<link linkend="completes-needed"><option>--completes-needed</option></link>.
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Any key you personally sign will be considered valid, but except for small
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groups, it will not be practical to personally sign the key of every person
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with whom you communicate.
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You will therefore have to assign trust to others.
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</para>
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<para>
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It is probably wise to be accurate when assigning trust and then
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use the options to tune how careful &gnupg; is with key validation.
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As a concrete example, you may fully trust a few close friends that
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you know are careful with key signing and then marginally
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trust all others on your keyring.
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From there, you may set <option>--completes-needed</option> to
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<literal>1</literal> and <option>--marginals-needed</option> to
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<literal>2</literal>.
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If you are more concerned with security you might choose values of
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<literal>1</literal> and <literal>3</literal> or <literal>2</literal>
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and <literal>3</literal> respectively.
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If you are less concerned with privacy attacks and just want some
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reasonable confidence about validity, set the values to <literal>1</literal>
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and <literal>1</literal>.
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In general, higher numbers for these options imply that more people
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would be needed to conspire against you in order to have a key validated
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that does not actually belong to the person whom you think it does.
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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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Building your web of trust
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</title>
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<para>
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Wanting to use &gnupg; yourself is not enough.
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In order to use to communicate securely with others you must have
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a web of trust.
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At first glance, however, building a web of trust is a daunting task.
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The people with whom you communicate need to use
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&gnupg;<footnote><para>In this section, &gnupg; refers to the
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&gnupg; implementation of OpenPGP as well as other implementations
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such as NAI's PGP product.</para></footnote>, and there needs to be enough
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key signing so that keys can be considered valid.
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These are not technical problems; they are social problems.
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Nevertheless, you must overcome these problems if you want to
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use &gnupg;.
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</para>
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<para>
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When getting started using &gnupg; it is important to realize that you
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need not securely communicate with every one of your correspondents.
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Start with a small circle of people, perhaps just yourself and
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one or two others who also want to exercise their right
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to privacy.
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Generate your keys and sign each other's public keys.
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This is your initial web of trust.
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By doing this you will appreciate the value of a small, robust
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web of trust and will be more cautious as you grow your web
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in the future.
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</para>
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<para>
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In addition to those in your initial web of trust, you may want to
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communicate securely with others who are also using &gnupg;.
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Doing so, however, can be awkward for two reasons:
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(1) you do not always know when someone uses or is willing to use
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&gnupg;, and (2) if you do know of someone who uses it, you may still have
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trouble validating their key.
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The first reason occurs because people do not always advertise that
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they use &gnupg;.
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The way to change this behavior is to set the example and advertise
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that you use &gnupg;.
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There are at least three ways to do this: you can sign messages you mail
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to others or post to message boards, you can put your public key on your
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web page, or, if you put your key on a keyserver, you can put your key
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ID in your email signature.
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If you advertise your key then you make it that much more acceptable
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for others to advertise their keys.
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Furthermore, you make it easier for others to start communicating
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with you securely since you have taken the initiative and made it clear
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that you use &gnupg;.
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</para>
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<para>
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Key validation is more difficult.
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If you do not personally know the person whose key you want to sign,
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then it is not possible to sign the key yourself.
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You must rely on the signatures of others and hope to find a chain
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of signatures leading from the key in question back to your own.
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To have any chance of finding a chain, you must take the intitive
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and get your key signed by others outside of your intitial web of trust.
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An effective way to accomplish this is to participate in key
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signing parties.
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If you are going to a conference look ahead of time for a key
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signing party, and if you do not see one being held, offer to
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<ulink url="http://www.herrons.com/kb2nsx/keysign.html">hold one</ulink>.
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You can also be more passive and carry your fingerprint with you
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for impromptu key exchanges.
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In such a situation the person to whom you gave the fingerprint
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would verify it and sign your public key once he returned home.
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</para>
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<para>
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Keep in mind, though, that this is optional.
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You have no obligation to either publically advertise your key or
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sign other people's keys.
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The power of &gnupg; is that it is flexible enough to adapt to your
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security needs whatever they may be.
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The social reality, however, is that you will need to take the initiative
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if you want to grow your web of trust and use &gnupg; for as much of
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your communication as possible.
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</para>
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</sect1>
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<sect1>
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<title>
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Using &Gnupg; legally
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</title>
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<para>
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The legal status of encryption software varies from country to country,
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and law regarding encryption software is rapidly evolving.
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<ulink url="http://cwis.kub.nl/~frw/people/koops/bertjaap.htm">Bert-Japp
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Koops</ulink> has an excellent
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<ulink url="http://cwis.kub.nl/~frw/people/koops/lawsurvy.htm">Crypto
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Law Survey</ulink> to which you should refer for the legal status of
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encryption software in your country.
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</para>
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</sect1>
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</chapter>
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