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@@ -5326,22 +5326,73 @@ int dsa_import(const unsigned char *in,
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This will import the DSA key from the buffer \textit{in} of length \textit{inlen} to the \textit{key}. If the process fails the function
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will automatically free all of the heap allocated in the process (you don't have to call dsa\_free()).
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-\subsection{Other DSA Functions}
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+\mysection{Other DSA Functions}
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-XXX-TODO
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+The following functions allow to create a DSA key in 2 steps:
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-\begin{small}
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+\begin{enumerate}
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+ \item Load or generate \textit{p}, \textit{q}, \textit{g} part of the key via \textit{dsa\_set\_pqg()}, \textit{dsa\_set\_pqg\_dsaparam()} or \textit{dsa\_generate\_pqg()}.
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+ \item Load or generate the actual DSA key -- private (\textit{x} and \textit{y} values) or public (\textit{y} value).
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+\end{enumerate}
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+
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+\index{dsa\_set\_pqg()}
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\begin{verbatim}
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int dsa_set_pqg(const unsigned char *p, unsigned long plen,
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const unsigned char *q, unsigned long qlen,
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const unsigned char *g, unsigned long glen,
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dsa_key *key);
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-int dsa_set_pqg_dsaparam(const unsigned char *dsaparam, unsigned long dsaparamlen, dsa_key *key);
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-int dsa_generate_pqg(prng_state *prng, int wprng, int group_size, int modulus_size, dsa_key *key);
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-int dsa_set_key(const unsigned char *in, unsigned long inlen, int type, dsa_key *key);
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-int dsa_generate_key(prng_state *prng, int wprng, dsa_key *key);
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\end{verbatim}
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-\end{small}
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+
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+This will initialise the \textit{p}, \textit{q} and \textit{g} part of \textit{key} structure by directly loading binary
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+representation of \textit{p} (with length of \textit{plen}), \textit{q} (with length of \textit{qlen}) and \textit{g} (with length of \textit{glen}).
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+A simple DSA key validity check (without primality testing) is performed at the end of this function.
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+
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+\index{dsa\_set\_pqg\_dsaparam()}
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+\begin{verbatim}
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+int dsa_set_pqg_dsaparam(const unsigned char *dsaparam,
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+ unsigned long dsaparamlen,
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+ dsa_key *key);
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+\end{verbatim}
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+
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+This will initialise the \textit{p}, \textit{q} and \textit{g} part of \textit{key} structure by directly loading binary representation
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+of DSA parameters stored as a binary data in a buffer \textit{dsaparam} (with length of \textit{dsaparamlen}). A simple DSA key validity
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+check (without primality testing) is performed at the end of this function. The \textit{dsaparam} can be generated via:
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+\begin{verbatim}
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+ openssl dsaparam 2048 -outform DER -out dsaparam.der
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+\end{verbatim}
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+
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+\index{dsa\_generate\_pqg()}
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+\begin{verbatim}
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+int dsa_generate_pqg(prng_state *prng,
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+ int wprng,
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+ int group_size,
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+ int modulus_size,
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+ dsa_key *key);
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+\end{verbatim}
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+
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+This will initialise the \textit{p}, \textit{q} and \textit{g} part of \textit{key} structure with newly generated random values.
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+As for the parameters they are the same as by \textit{dsa\_make\_key}.
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+
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+\index{dsa\_set\_key()}
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+\begin{verbatim}
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+int dsa_set_key(const unsigned char *in,
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+ unsigned long inlen,
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+ int type,
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+ dsa_key *key);
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+\end{verbatim}
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+
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+This function can be used for setting the actual DSA key. If \textit{type} is \textit{PK\_PRIVATE} then the buffer \textit{in}
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+(with length of \textit{inlen}) contains a binary representation of \textit{x} part of the key (the public part \textit{y} is computed).
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+If \textit{type} is \textit{PK\_PUBLIC} then the buffer \textit{in} contains a binary representation of \textit{y} part of the key.
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+
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+\index{dsa\_generate\_key()}
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+\begin{verbatim}
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+int dsa_generate_key(prng_state *prng,
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+ int wprng,
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+ dsa_key *key);
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+\end{verbatim}
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+
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+This function generates a private DSA key containing both \textit{x} and \textit{y} parts.
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\chapter{Standards Support}
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\mysection{ASN.1 Formats}
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@@ -6294,16 +6345,18 @@ The characters used in the mappings are:
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ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-_
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\end{verbatim}
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Those characters are sometimes also called URL and filename safe alphabet.
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-
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-XXX-TODO
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+The interface is analogous to \textit{base64\_xxxx} functions in previous chapter.
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\begin{verbatim}
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int base64url_encode(const unsigned char *in, unsigned long len,
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unsigned char *out, unsigned long *outlen);
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+
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int base64url_strict_encode(const unsigned char *in, unsigned long inlen,
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unsigned char *out, unsigned long *outlen);
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+
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int base64url_decode(const unsigned char *in, unsigned long len,
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unsigned char *out, unsigned long *outlen);
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+
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int base64url_strict_decode(const unsigned char *in, unsigned long len,
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unsigned char *out, unsigned long *outlen);
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\end{verbatim}
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Karel Miko