397 lines
14 KiB
Groff
397 lines
14 KiB
Groff
.\" $NetBSD: openssl_s_server.1,v 1.10 2003/07/24 14:16:52 itojun Exp $
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.\" ======================================================================
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.\"
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.IX Title "S_SERVER 1"
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.TH S_SERVER 1 "0.9.7b" "2003-03-21" "OpenSSL"
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.UC
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.SH "NAME"
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s_server \- \s-1SSL/TLS\s0 server program
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.SH "LIBRARY"
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libcrypto, -lcrypto
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.SH "SYNOPSIS"
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.IX Header "SYNOPSIS"
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\&\fBopenssl\fR \fBs_server\fR
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[\fB\-accept port\fR]
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[\fB\-context id\fR]
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[\fB\-verify depth\fR]
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[\fB\-Verify depth\fR]
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[\fB\-cert filename\fR]
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[\fB\-key keyfile\fR]
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[\fB\-dcert filename\fR]
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[\fB\-dkey keyfile\fR]
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[\fB\-dhparam filename\fR]
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[\fB\-nbio\fR]
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[\fB\-nbio_test\fR]
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[\fB\-crlf\fR]
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[\fB\-debug\fR]
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[\fB\-msg\fR]
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[\fB\-state\fR]
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[\fB\-CApath directory\fR]
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[\fB\-CAfile filename\fR]
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[\fB\-nocert\fR]
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[\fB\-cipher cipherlist\fR]
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[\fB\-quiet\fR]
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[\fB\-no_tmp_rsa\fR]
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[\fB\-ssl2\fR]
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[\fB\-ssl3\fR]
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[\fB\-tls1\fR]
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[\fB\-no_ssl2\fR]
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[\fB\-no_ssl3\fR]
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[\fB\-no_tls1\fR]
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[\fB\-no_dhe\fR]
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[\fB\-bugs\fR]
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[\fB\-hack\fR]
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[\fB\-www\fR]
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[\fB\-WWW\fR]
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[\fB\-HTTP\fR]
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[\fB\-engine id\fR]
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[\fB\-id_prefix arg\fR]
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[\fB\-rand \f(BIfile\fB\|(s)\fR]
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.SH "DESCRIPTION"
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.IX Header "DESCRIPTION"
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The \fBs_server\fR command implements a generic \s-1SSL/TLS\s0 server which listens
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for connections on a given port using \s-1SSL/TLS\s0.
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.SH "OPTIONS"
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.IX Header "OPTIONS"
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.Ip "\fB\-accept port\fR" 4
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.IX Item "-accept port"
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the \s-1TCP\s0 port to listen on for connections. If not specified 4433 is used.
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.Ip "\fB\-context id\fR" 4
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.IX Item "-context id"
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sets the \s-1SSL\s0 context id. It can be given any string value. If this option
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is not present a default value will be used.
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.Ip "\fB\-cert certname\fR" 4
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.IX Item "-cert certname"
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The certificate to use, most servers cipher suites require the use of a
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certificate and some require a certificate with a certain public key type:
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for example the \s-1DSS\s0 cipher suites require a certificate containing a \s-1DSS\s0
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(\s-1DSA\s0) key. If not specified then the filename \*(L"server.pem\*(R" will be used.
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.Ip "\fB\-key keyfile\fR" 4
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.IX Item "-key keyfile"
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The private key to use. If not specified then the certificate file will
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be used.
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.Ip "\fB\-dcert filename\fR, \fB\-dkey keyname\fR" 4
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.IX Item "-dcert filename, -dkey keyname"
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specify an additional certificate and private key, these behave in the
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same manner as the \fB\-cert\fR and \fB\-key\fR options except there is no default
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if they are not specified (no additional certificate and key is used). As
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noted above some cipher suites require a certificate containing a key of
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a certain type. Some cipher suites need a certificate carrying an \s-1RSA\s0 key
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and some a \s-1DSS\s0 (\s-1DSA\s0) key. By using \s-1RSA\s0 and \s-1DSS\s0 certificates and keys
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a server can support clients which only support \s-1RSA\s0 or \s-1DSS\s0 cipher suites
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by using an appropriate certificate.
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.Ip "\fB\-nocert\fR" 4
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.IX Item "-nocert"
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if this option is set then no certificate is used. This restricts the
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cipher suites available to the anonymous ones (currently just anonymous
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\&\s-1DH\s0).
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.Ip "\fB\-dhparam filename\fR" 4
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.IX Item "-dhparam filename"
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the \s-1DH\s0 parameter file to use. The ephemeral \s-1DH\s0 cipher suites generate keys
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using a set of \s-1DH\s0 parameters. If not specified then an attempt is made to
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load the parameters from the server certificate file. If this fails then
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a static set of parameters hard coded into the s_server program will be used.
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.Ip "\fB\-no_dhe\fR" 4
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.IX Item "-no_dhe"
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if this option is set then no \s-1DH\s0 parameters will be loaded effectively
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disabling the ephemeral \s-1DH\s0 cipher suites.
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.Ip "\fB\-no_tmp_rsa\fR" 4
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.IX Item "-no_tmp_rsa"
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certain export cipher suites sometimes use a temporary \s-1RSA\s0 key, this option
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disables temporary \s-1RSA\s0 key generation.
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.Ip "\fB\-verify depth\fR, \fB\-Verify depth\fR" 4
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.IX Item "-verify depth, -Verify depth"
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The verify depth to use. This specifies the maximum length of the
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client certificate chain and makes the server request a certificate from
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the client. With the \fB\-verify\fR option a certificate is requested but the
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client does not have to send one, with the \fB\-Verify\fR option the client
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must supply a certificate or an error occurs.
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.Ip "\fB\-CApath directory\fR" 4
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.IX Item "-CApath directory"
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The directory to use for client certificate verification. This directory
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must be in \*(L"hash format\*(R", see \fBverify\fR for more information. These are
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also used when building the server certificate chain.
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.Ip "\fB\-CAfile file\fR" 4
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.IX Item "-CAfile file"
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A file containing trusted certificates to use during client authentication
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and to use when attempting to build the server certificate chain. The list
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is also used in the list of acceptable client CAs passed to the client when
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a certificate is requested.
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.Ip "\fB\-state\fR" 4
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.IX Item "-state"
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prints out the \s-1SSL\s0 session states.
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.Ip "\fB\-debug\fR" 4
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.IX Item "-debug"
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print extensive debugging information including a hex dump of all traffic.
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.Ip "\fB\-msg\fR" 4
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.IX Item "-msg"
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show all protocol messages with hex dump.
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.Ip "\fB\-nbio_test\fR" 4
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.IX Item "-nbio_test"
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tests non blocking I/O
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.Ip "\fB\-nbio\fR" 4
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.IX Item "-nbio"
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turns on non blocking I/O
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.Ip "\fB\-crlf\fR" 4
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.IX Item "-crlf"
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this option translated a line feed from the terminal into \s-1CR+LF\s0.
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.Ip "\fB\-quiet\fR" 4
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.IX Item "-quiet"
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inhibit printing of session and certificate information.
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.Ip "\fB\-ssl2\fR, \fB\-ssl3\fR, \fB\-tls1\fR, \fB\-no_ssl2\fR, \fB\-no_ssl3\fR, \fB\-no_tls1\fR" 4
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.IX Item "-ssl2, -ssl3, -tls1, -no_ssl2, -no_ssl3, -no_tls1"
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these options disable the use of certain \s-1SSL\s0 or \s-1TLS\s0 protocols. By default
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the initial handshake uses a method which should be compatible with all
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servers and permit them to use \s-1SSL\s0 v3, \s-1SSL\s0 v2 or \s-1TLS\s0 as appropriate.
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.Ip "\fB\-bugs\fR" 4
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.IX Item "-bugs"
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there are several known bug in \s-1SSL\s0 and \s-1TLS\s0 implementations. Adding this
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option enables various workarounds.
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.Ip "\fB\-hack\fR" 4
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.IX Item "-hack"
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this option enables a further workaround for some some early Netscape
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\&\s-1SSL\s0 code (?).
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.Ip "\fB\-cipher cipherlist\fR" 4
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.IX Item "-cipher cipherlist"
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this allows the cipher list used by the server to be modified. When
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the client sends a list of supported ciphers the first client cipher
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also included in the server list is used. Because the client specifies
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the preference order, the order of the server cipherlist irrelevant. See
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the \fBciphers\fR command for more information.
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.Ip "\fB\-www\fR" 4
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.IX Item "-www"
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sends a status message back to the client when it connects. This includes
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lots of information about the ciphers used and various session parameters.
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The output is in \s-1HTML\s0 format so this option will normally be used with a
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web browser.
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.Ip "\fB\-WWW\fR" 4
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.IX Item "-WWW"
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emulates a simple web server. Pages will be resolved relative to the
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current directory, for example if the \s-1URL\s0 https://myhost/page.html is
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requested the file ./page.html will be loaded.
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.Ip "\fB\-HTTP\fR" 4
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.IX Item "-HTTP"
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emulates a simple web server. Pages will be resolved relative to the
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current directory, for example if the \s-1URL\s0 https://myhost/page.html is
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requested the file ./page.html will be loaded. The files loaded are
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assumed to contain a complete and correct \s-1HTTP\s0 response (lines that
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are part of the \s-1HTTP\s0 response line and headers must end with \s-1CRLF\s0).
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.Ip "\fB\-engine id\fR" 4
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.IX Item "-engine id"
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specifying an engine (by it's unique \fBid\fR string) will cause \fBs_server\fR
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to attempt to obtain a functional reference to the specified engine,
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thus initialising it if needed. The engine will then be set as the default
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for all available algorithms.
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.Ip "\fB\-id_prefix arg\fR" 4
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.IX Item "-id_prefix arg"
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generate \s-1SSL/TLS\s0 session IDs prefixed by \fBarg\fR. This is mostly useful
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for testing any \s-1SSL/TLS\s0 code (eg. proxies) that wish to deal with multiple
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servers, when each of which might be generating a unique range of session
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IDs (eg. with a certain prefix).
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.Ip "\fB\-rand \f(BIfile\fB\|(s)\fR" 4
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.IX Item "-rand file"
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a file or files containing random data used to seed the random number
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generator, or an \s-1EGD\s0 socket (see RAND_egd(3)).
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Multiple files can be specified separated by a OS-dependent character.
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The separator is \fB;\fR for MS-Windows, \fB,\fR for OpenVMS, and \fB:\fR for
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all others.
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.SH "CONNECTED COMMANDS"
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.IX Header "CONNECTED COMMANDS"
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If a connection request is established with an \s-1SSL\s0 client and neither the
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\&\fB\-www\fR nor the \fB\-WWW\fR option has been used then normally any data received
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from the client is displayed and any key presses will be sent to the client.
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.PP
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Certain single letter commands are also recognized which perform special
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operations: these are listed below.
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.Ip "\fBq\fR" 4
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.IX Item "q"
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end the current \s-1SSL\s0 connection but still accept new connections.
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.Ip "\fBQ\fR" 4
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.IX Item "Q"
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end the current \s-1SSL\s0 connection and exit.
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.Ip "\fBr\fR" 4
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.IX Item "r"
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renegotiate the \s-1SSL\s0 session.
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.Ip "\fBR\fR" 4
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.IX Item "R"
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renegotiate the \s-1SSL\s0 session and request a client certificate.
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.Ip "\fBP\fR" 4
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.IX Item "P"
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send some plain text down the underlying \s-1TCP\s0 connection: this should
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cause the client to disconnect due to a protocol violation.
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.Ip "\fBS\fR" 4
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.IX Item "S"
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print out some session cache status information.
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.SH "NOTES"
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.IX Header "NOTES"
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\&\fBs_server\fR can be used to debug \s-1SSL\s0 clients. To accept connections from
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a web browser the command:
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.PP
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.Vb 1
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\& openssl s_server -accept 443 -www
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.Ve
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can be used for example.
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.PP
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Most web browsers (in particular Netscape and \s-1MSIE\s0) only support \s-1RSA\s0 cipher
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suites, so they cannot connect to servers which don't use a certificate
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carrying an \s-1RSA\s0 key or a version of OpenSSL with \s-1RSA\s0 disabled.
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.PP
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Although specifying an empty list of CAs when requesting a client certificate
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is strictly speaking a protocol violation, some \s-1SSL\s0 clients interpret this to
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mean any \s-1CA\s0 is acceptable. This is useful for debugging purposes.
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.PP
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The session parameters can printed out using the \fBsess_id\fR program.
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.SH "BUGS"
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.IX Header "BUGS"
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Because this program has a lot of options and also because some of
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the techniques used are rather old, the C source of s_server is rather
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hard to read and not a model of how things should be done. A typical
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\&\s-1SSL\s0 server program would be much simpler.
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.PP
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The output of common ciphers is wrong: it just gives the list of ciphers that
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OpenSSL recognizes and the client supports.
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.PP
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There should be a way for the \fBs_server\fR program to print out details of any
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unknown cipher suites a client says it supports.
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.SH "SEE ALSO"
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.IX Header "SEE ALSO"
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openssl_sess_id(1), openssl_s_client(1), openssl_ciphers(1)
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