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8c73aeb6
编写于
2月 21, 2016
作者:
V
Viktor Dukhovni
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电子邮件补丁
差异文件
Update documentation of SSL METHODs and ciphers
Reviewed-by:
N
Kurt Roeckx
<
kurt@openssl.org
>
上级
1cb7757e
变更
6
隐藏空白更改
内联
并排
Showing
6 changed file
with
283 addition
and
213 deletion
+283
-213
doc/apps/ciphers.pod
doc/apps/ciphers.pod
+88
-75
doc/apps/s_client.pod
doc/apps/s_client.pod
+21
-11
doc/apps/s_server.pod
doc/apps/s_server.pod
+67
-60
doc/ssl/SSL_CONF_cmd.pod
doc/ssl/SSL_CONF_cmd.pod
+3
-3
doc/ssl/SSL_CTX_new.pod
doc/ssl/SSL_CTX_new.pod
+56
-54
doc/ssl/ssl.pod
doc/ssl/ssl.pod
+48
-10
未找到文件。
doc/apps/ciphers.pod
浏览文件 @
8c73aeb6
...
...
@@ -32,7 +32,7 @@ the appropriate cipherlist.
=item B<-help>
Print
out
a usage message.
Print a usage message.
=item B<-s>
...
...
@@ -53,21 +53,25 @@ L<SSL_CIPHER_description(3)>.
Like B<-v>, but include the official cipher suite values in hex.
=item B<-tls1_2>
In combination with the B<-s> option, list the ciphers which would be used if
TLSv1.2 were negotiated.
=item B<-ssl3>
List the ciphers which would be used if SSL v3 was negotiated.
In combination with the B<-s> option, list the ciphers which would be used if
SSLv3 were negotiated.
=item B<-tls1>
List the ciphers which would be used if TLS v1.0 was negotiated.
In combination with the B<-s> option, list the ciphers which would be used if
TLSv1 were negotiated.
=item B<-tls1_1>
List the ciphers which would be used if TLS v1.1 was negotiated.
=item B<-tls1_2>
List the ciphers which would be used if TLS v1.2 was negotiated.
In combination with the B<-s> option, list the ciphers which would be used if
TLSv1.1 were negotiated.
=item B<-stdname>
...
...
@@ -132,25 +136,27 @@ The following is a list of all permitted cipher strings and their meanings.
=item B<DEFAULT>
the default cipher list. This is determined at compile time and
is B<ALL:!COMPLEMENTOFDEFAULT:!eNULL>. This must be the first cipher
string specified.
The default cipher list.
This is determined at compile time and is normally
B<ALL:!COMPLEMENTOFDEFAULT:!eNULL>.
When used, this must be the first cipherstring specified.
=item B<COMPLEMENTOFDEFAULT>
t
he ciphers included in B<ALL>, but not enabled by default. Currently
T
he ciphers included in B<ALL>, but not enabled by default. Currently
this includes all RC4, DES, RC2 and anonymous ciphers. Note that this rule does
not cover B<eNULL>, which is not included by B<ALL> (use B<COMPLEMENTOFALL> if
necessary).
=item B<ALL>
all cipher suites except the B<eNULL> ciphers which must be explicitly enabled;
as of OpenSSL, the B<ALL> cipher suites are reasonably ordered by default
All cipher suites except the B<eNULL> ciphers (which must be explicitly enabled
if needed).
As of OpenSSL 1.0.0, the B<ALL> cipher suites are sensibly ordered by default.
=item B<COMPLEMENTOFALL>
the cipher suites not enabled by B<ALL>, currently being
B<eNULL>.
The cipher suites not enabled by B<ALL>, currently
B<eNULL>.
=item B<HIGH>
...
...
@@ -170,83 +176,86 @@ ciphersuites have been removed as of OpenSSL 1.1.0.
=item B<eNULL>, B<NULL>
the "NULL" ciphers that is those offering no encryption. Because these offer no
encryption at all and are a security risk they are disabled unless explicitly
included.
The "NULL" ciphers that is those offering no encryption. Because these offer no
encryption at all and are a security risk they are not enabled via either the
B<DEFAULT> or B<ALL> cipher strings.
Be careful when building cipherlists out of lower-level primitives such as
B<kRSA> or B<aECDSA> as these do overlap with the B<eNULL> ciphers. When in
doubt, include B<!eNULL> in your cipherlist.
=item B<aNULL>
t
he cipher suites offering no authentication. This is currently the anonymous
T
he cipher suites offering no authentication. This is currently the anonymous
DH algorithms and anonymous ECDH algorithms. These cipher suites are vulnerable
to a "man in the middle" attack and so their use is normally discouraged.
to "man in the middle" attacks and so their use is discouraged.
These are excluded from the B<DEFAULT> ciphers, but included in the B<ALL>
ciphers.
Be careful when building cipherlists out of lower-level primitives such as
B<kDHE> or B<AES> as these do overlap with the B<aNULL> ciphers.
When in doubt, include B<!aNULL> in your cipherlist.
=item B<kRSA>, B<aRSA>, B<RSA>
c
ipher suites using RSA key exchange, authentication or either respectively.
C
ipher suites using RSA key exchange, authentication or either respectively.
=item B<kDHr>, B<kDHd>, B<kDH>
cipher suites using DH key agreement and DH certificates signed by CAs with RSA
and DSS keys or either respectively.
Cipher suites using static DH key agreement and DH certificates signed by CAs
with RSA and DSS keys or either respectively.
All these cipher suites have been removed in OpenSSL 1.1.0.
=item B<kDHE>, B<kEDH>
=item B<kDHE>, B<kEDH>
, B<DH>
c
ipher suites using ephemeral DH key agreement, including anonymous cipher
C
ipher suites using ephemeral DH key agreement, including anonymous cipher
suites.
=item B<DHE>, B<EDH>
c
ipher suites using authenticated ephemeral DH key agreement.
C
ipher suites using authenticated ephemeral DH key agreement.
=item B<ADH>
a
nonymous DH cipher suites, note that this does not include anonymous Elliptic
A
nonymous DH cipher suites, note that this does not include anonymous Elliptic
Curve DH (ECDH) cipher suites.
=item B<DH>
=item B<
kEECDH>, B<kECDHE>, B<EC
DH>
cipher suites using DH, including anonymous DH, ephemeral DH and fixed DH.
=item B<kEECDH>, B<kECDHE>
cipher suites using ephemeral ECDH key agreement, including anonymous
Cipher suites using ephemeral ECDH key agreement, including anonymous
cipher suites.
=item B<ECDHE>, B<EECDH>
c
ipher suites using authenticated ephemeral ECDH key agreement.
C
ipher suites using authenticated ephemeral ECDH key agreement.
=item B<AECDH>
anonymous Elliptic Curve Diffie Hellman cipher suites.
=item B<ECDH>
cipher suites using ECDH key exchange, including anonymous and ephemeral.
Anonymous Elliptic Curve Diffie Hellman cipher suites.
=item B<aDSS>, B<DSS>
c
ipher suites using DSS authentication, i.e. the certificates carry DSS keys.
C
ipher suites using DSS authentication, i.e. the certificates carry DSS keys.
=item B<aDH>
c
ipher suites effectively using DH authentication, i.e. the certificates carry
C
ipher suites effectively using DH authentication, i.e. the certificates carry
DH keys.
All these cipher suites have been removed in OpenSSL 1.1.0.
=item B<aECDSA>, B<ECDSA>
c
ipher suites using ECDSA authentication, i.e. the certificates carry ECDSA
C
ipher suites using ECDSA authentication, i.e. the certificates carry ECDSA
keys.
=item B<TLSv1.2>, B<TLSv1.0>, B<SSLv3>
Lists ciphersuites which are only supported in at least TLS v1.2, TLS v1.0
or SSL v3.0 respectively. Note: there are no ciphersuites specific to TLS v1.1.
Since this is only the minimum version if, for example, TLS v1.0 is supported
then both TLS v1.0 and SSL v3.0 ciphersuites are included.
Lists ciphersuites which are only supported in at least TLS v1.2, TLS v1.0 or
SSL v3.0 respectively.
Note: there are no ciphersuites specific to TLS v1.1.
Since this is only the minimum version, if, for example, TLSv1.0 is negotiated
then both TLSv1.0 and SSLv3.0 ciphersuites are available.
Note: these cipher strings B<do not> change the negotiated version of SSL or
TLS
only the list of
cipher suites.
TLS
, they only affect the list of available
cipher suites.
=item B<AES128>, B<AES256>, B<AES>
...
...
@@ -279,81 +288,85 @@ cipher suites using triple DES.
=item B<DES>
cipher suites using DES (not triple DES).
Cipher suites using DES (not triple DES).
All these cipher suites have been removed in OpenSSL 1.1.0.
=item B<RC4>
c
ipher suites using RC4.
C
ipher suites using RC4.
=item B<RC2>
c
ipher suites using RC2.
C
ipher suites using RC2.
=item B<IDEA>
c
ipher suites using IDEA.
C
ipher suites using IDEA.
=item B<SEED>
c
ipher suites using SEED.
C
ipher suites using SEED.
=item B<MD5>
c
ipher suites using MD5.
C
ipher suites using MD5.
=item B<SHA1>, B<SHA>
c
ipher suites using SHA1.
C
ipher suites using SHA1.
=item B<SHA256>, B<SHA384>
c
iphersuites using SHA256 or SHA384.
C
iphersuites using SHA256 or SHA384.
=item B<aGOST>
=item B<aGOST>
c
ipher suites using GOST R 34.10 (either 2001 or 94) for authentication
(needs an engine supporting GOST algorithms).
C
ipher suites using GOST R 34.10 (either 2001 or 94) for authentication
(needs an engine supporting GOST algorithms).
=item B<aGOST01>
c
ipher suites using GOST R 34.10-2001 authentication.
C
ipher suites using GOST R 34.10-2001 authentication.
=item B<kGOST>
c
ipher suites, using VKO 34.10 key exchange, specified in the RFC 4357.
C
ipher suites, using VKO 34.10 key exchange, specified in the RFC 4357.
=item B<GOST94>
c
ipher suites, using HMAC based on GOST R 34.11-94.
C
ipher suites, using HMAC based on GOST R 34.11-94.
=item B<GOST89MAC>
c
ipher suites using GOST 28147-89 MAC B<instead of> HMAC.
C
ipher suites using GOST 28147-89 MAC B<instead of> HMAC.
=item B<PSK>
a
ll cipher suites using pre-shared keys (PSK).
A
ll cipher suites using pre-shared keys (PSK).
=item B<kPSK>, B<kECDHEPSK>, B<kDHEPSK>, B<kRSAPSK>
c
ipher suites using PSK key exchange, ECDHE_PSK, DHE_PSK or RSA_PSK.
C
ipher suites using PSK key exchange, ECDHE_PSK, DHE_PSK or RSA_PSK.
=item B<aPSK>
c
ipher suites using PSK authentication (currently all PSK modes apart from
C
ipher suites using PSK authentication (currently all PSK modes apart from
RSA_PSK).
=item B<SUITEB128>, B<SUITEB128ONLY>, B<SUITEB192>
enables suite B mode
operation using 128 (permitting 192 bit mode by peer)
Enables suite B mode of
operation using 128 (permitting 192 bit mode by peer)
128 bit (not permitting 192 bit by peer) or 192 bit level of security
respectively. If used these cipherstrings should appear first in the cipher
list and anything after them is ignored. Setting Suite B mode has additional
consequences required to comply with RFC6460. In particular the supported
signature algorithms is reduced to support only ECDSA and SHA256 or SHA384,
only the elliptic curves P-256 and P-384 can be used and only the two suite B
compliant ciphersuites (ECDHE-ECDSA-AES128-GCM-SHA256 and
ECDHE-ECDSA-AES256-GCM-SHA384) are permissible.
respectively.
If used these cipherstrings should appear first in the cipher
list and anything after them is ignored.
Setting Suite B mode has additional consequences required to comply with
RFC6460.
In particular the supported signature algorithms is reduced to support only
ECDSA and SHA256 or SHA384, only the elliptic curves P-256 and P-384 can be
used and only the two suite B compliant ciphersuites
(ECDHE-ECDSA-AES128-GCM-SHA256 and ECDHE-ECDSA-AES256-GCM-SHA384) are
permissible.
=back
...
...
@@ -473,13 +486,13 @@ Note: these ciphers can also be used in SSL v3.
TLS_ECDHE_RSA_WITH_3DES_EDE_CBC_SHA ECDHE-RSA-DES-CBC3-SHA
TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA ECDHE-RSA-AES128-SHA
TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA ECDHE-RSA-AES256-SHA
TLS_ECDHE_ECDSA_WITH_NULL_SHA ECDHE-ECDSA-NULL-SHA
TLS_ECDHE_ECDSA_WITH_RC4_128_SHA ECDHE-ECDSA-RC4-SHA
TLS_ECDHE_ECDSA_WITH_3DES_EDE_CBC_SHA ECDHE-ECDSA-DES-CBC3-SHA
TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA ECDHE-ECDSA-AES128-SHA
TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA ECDHE-ECDSA-AES256-SHA
TLS_ECDH_anon_WITH_NULL_SHA AECDH-NULL-SHA
TLS_ECDH_anon_WITH_RC4_128_SHA AECDH-RC4-SHA
TLS_ECDH_anon_WITH_3DES_EDE_CBC_SHA AECDH-DES-CBC3-SHA
...
...
doc/apps/s_client.pod
浏览文件 @
8c73aeb6
...
...
@@ -64,10 +64,15 @@ B<openssl> B<s_client>
[B<-quiet>]
[B<-ssl3>]
[B<-tls1>]
[B<-tls1_1>]
[B<-tls1_2>]
[B<-no_ssl3>]
[B<-no_tls1>]
[B<-no_tls1_1>]
[B<-no_tls1_2>]
[B<-dtls>]
[B<-dtls1>]
[B<-dtls1_2>]
[B<-fallback_scsv>]
[B<-async>]
[B<-bugs>]
...
...
@@ -305,15 +310,20 @@ Use the PSK key B<key> when using a PSK cipher suite. The key is
given as a hexadecimal number without leading 0x, for example -psk
1a2b3c4d.
=item B<-ssl3>, B<-tls1>, B<-no_ssl3>, B<-no_tls1>, B<-no_tls1_1>, B<-no_tls1_2>
=item B<-ssl3>, B<-tls1>, B<-
tls1_1>, B<-tls1_2>, B<-
no_ssl3>, B<-no_tls1>, B<-no_tls1_1>, B<-no_tls1_2>
these options disable the use of certain SSL or TLS protocols. By default
the initial handshake uses a method which should be compatible with all
servers and permit them to use SSL v3 or TLS as appropriate.
These options require or disable the use of the specified SSL or TLS protocols.
By default B<s_client> will negotiate the highest mutually supported protocol
version.
When a specific TLS version is required, only that version will be offered to
and accepted from the server.
Unfortunately there are still ancient and broken servers in use which
cannot handle this technique and will fail to connect. Some servers only
work if TLS is turned off.
=item B<-dtls>, B<-dtls1>, B<-dtls1_2>
These options make B<s_client> use DTLS protocols instead of TLS.
With B<-dtls>, B<s_client> will negotiate any supported DTLS protcol version,
whilst B<-dtls1> and B<-dtls1_2> will only support DTLS1.0 and DTLS1.2
respectively.
=item B<-fallback_scsv>
...
...
@@ -479,10 +489,10 @@ option: any verify errors are then returned aborting the handshake.
=head1 BUGS
Because this program has a lot of options and also because some of
t
he techniques used are rather old, the C source of s_client is rather
hard to read and not a model of how things should be done. A typical
SSL client program would be much simpler.
Because this program has a lot of options and also because some of
the
t
echniques used are rather old, the C source of B<s_client> is rather hard to
read and not a model of how things should be done.
A typical
SSL client program would be much simpler.
The B<-prexit> option is a bit of a hack. We should really report
information whenever a session is renegotiated.
...
...
doc/apps/s_server.pod
浏览文件 @
8c73aeb6
...
...
@@ -75,6 +75,8 @@ B<openssl> B<s_server>
[B<-async>]
[B<-no_ssl3>]
[B<-no_tls1>]
[B<-no_tls1_1>]
[B<-no_tls1_2>]
[B<-no_dhe>]
[B<-bugs>]
[B<-comp>]
...
...
@@ -116,15 +118,15 @@ Print out a usage message.
=item B<-accept port>
t
he TCP port to listen on for connections. If not specified 4433 is used.
T
he TCP port to listen on for connections. If not specified 4433 is used.
=item B<-naccept count>
The server will exit after receiving B<number> connections, default unlimited.
The server will exit after receiving B<number> connections, default unlimited.
=item B<-context id>
s
ets the SSL context id. It can be given any string value. If this option
S
ets the SSL context id. It can be given any string value. If this option
is not present a default value will be used.
=item B<-cert certname>
...
...
@@ -149,12 +151,12 @@ The private format to use: DER or PEM. PEM is the default.
=item B<-pass arg>
t
he private key password source. For more information about the format of B<arg>
T
he private key password source. For more information about the format of B<arg>
see the B<PASS PHRASE ARGUMENTS> section in L<openssl(1)>.
=item B<-dcert filename>, B<-dkey keyname>
s
pecify an additional certificate and private key, these behave in the
S
pecify an additional certificate and private key, these behave in the
same manner as the B<-cert> and B<-key> options except there is no default
if they are not specified (no additional certificate and key is used). As
noted above some cipher suites require a certificate containing a key of
...
...
@@ -165,24 +167,25 @@ by using an appropriate certificate.
=item B<-dcertform format>, B<-dkeyform format>, B<-dpass arg>
a
dditional certificate and private key format and passphrase respectively.
A
dditional certificate and private key format and passphrase respectively.
=item B<-nocert>
i
f this option is set then no certificate is used. This restricts the
I
f this option is set then no certificate is used. This restricts the
cipher suites available to the anonymous ones (currently just anonymous
DH).
=item B<-dhparam filename>
t
he DH parameter file to use. The ephemeral DH cipher suites generate keys
T
he DH parameter file to use. The ephemeral DH cipher suites generate keys
using a set of DH parameters. If not specified then an attempt is made to
load the parameters from the server certificate file. If this fails then
a static set of parameters hard coded into the s_server program will be used.
load the parameters from the server certificate file.
If this fails then a static set of parameters hard coded into the B<s_server>
program will be used.
=item B<-no_dhe>
i
f this option is set then no DH parameters will be loaded effectively
I
f this option is set then no DH parameters will be loaded effectively
disabling the ephemeral DH cipher suites.
=item B<-crl_check>, B<-crl_check_all>
...
...
@@ -242,40 +245,40 @@ If this option is used, then verification errors close the connection.
=item B<-state>
prints out
the SSL session states.
Prints
the SSL session states.
=item B<-debug>
p
rint extensive debugging information including a hex dump of all traffic.
P
rint extensive debugging information including a hex dump of all traffic.
=item B<-msg>
s
how all protocol messages with hex dump.
S
how all protocol messages with hex dump.
=item B<-trace>
s
how verbose trace output of protocol messages. OpenSSL needs to be compiled
S
how verbose trace output of protocol messages. OpenSSL needs to be compiled
with B<enable-ssl-trace> for this option to work.
=item B<-msgfile>
f
ile to send output of B<-msg> or B<-trace> to, default standard output.
F
ile to send output of B<-msg> or B<-trace> to, default standard output.
=item B<-nbio_test>
t
ests non blocking I/O
T
ests non blocking I/O
=item B<-nbio>
t
urns on non blocking I/O
T
urns on non blocking I/O
=item B<-crlf>
t
his option translated a line feed from the terminal into CR+LF.
T
his option translated a line feed from the terminal into CR+LF.
=item B<-quiet>
i
nhibit printing of session and certificate information.
I
nhibit printing of session and certificate information.
=item B<-psk_hint hint>
...
...
@@ -287,37 +290,41 @@ Use the PSK key B<key> when using a PSK cipher suite. The key is
given as a hexadecimal number without leading 0x, for example -psk
1a2b3c4d.
=item B<-ssl
3>, B<-tls1>, B<-no_ssl3>, B<-no_tls1
>
=item B<-ssl
2>, B<-ssl3>, B<-tls1>, B<-tls1_1>, B<-tls1_2>, B<-no_ssl2>, B<-no_ssl3>, B<-no_tls1>, B<-no_tls1_1>, B<-no_tls1_2
>
these options disable the use of certain SSL or TLS protocols. By default
the initial handshake uses a method which should be compatible with all
servers and permit them to use SSL v3 or TLS as appropriate.
These options require or disable the use of the specified SSL or TLS protocols.
By default B<s_server> will negotiate the highest mutually supported protocol
version.
When a specific TLS version is required, only that version will be accepted
from the client.
=item B<-dtls>, B<-dtls1>, B<-dtls1_2>
these options make s_server use DTLS protocols instead of TLS. With B<-dtls>
s_server will negotiate any supported DTLS protcol version, whilst B<-dtls1> and
B<-dtls1_2> will only support DTLS1.0 and DTLS1.2 respectively.
These options make B<s_server> use DTLS protocols instead of TLS.
With B<-dtls>, B<s_server> will negotiate any supported DTLS protcol version,
whilst B<-dtls1> and B<-dtls1_2> will only support DTLSv1.0 and DTLSv1.2
respectively.
=item B<-listen>
t
his option can only be used in conjunction with one of the DTLS options above.
With this option
s_server
will listen on a UDP port for incoming connections.
T
his option can only be used in conjunction with one of the DTLS options above.
With this option
B<s_server>
will listen on a UDP port for incoming connections.
Any ClientHellos that arrive will be checked to see if they have a cookie in
them or not. Any without a cookie will be responded to with a
HelloVerifyRequest. If a ClientHello with a cookie is received then s_server
will connect to that peer and complete the handshake.
them or not.
Any without a cookie will be responded to with a HelloVerifyRequest.
If a ClientHello with a cookie is received then B<s_server> will connect to
that peer and complete the handshake.
=item B<-async>
s
witch on asynchronous mode. Cryptographic operations will be performed
S
witch on asynchronous mode. Cryptographic operations will be performed
asynchronously. This will only have an effect if an asynchronous capable engine
is also used via the B<-engine> option. For test purposes the dummy async engine
(dasync) can be used (if available).
=item B<-bugs>
t
here are several known bug in SSL and TLS implementations. Adding this
T
here are several known bug in SSL and TLS implementations. Adding this
option enables various workarounds.
=item B<-comp>
...
...
@@ -335,12 +342,12 @@ OpenSSL 1.1.0.
=item B<-brief>
only provide a brief summary of connection parameters instead of th
e
normal verbose
output.
Provide a brief summary of connection parameters instead of the normal verbos
e
output.
=item B<-cipher cipherlist>
t
his allows the cipher list used by the server to be modified. When
T
his allows the cipher list used by the server to be modified. When
the client sends a list of supported ciphers the first client cipher
also included in the server list is used. Because the client specifies
the preference order, the order of the server cipherlist irrelevant. See
...
...
@@ -348,32 +355,32 @@ the B<ciphers> command for more information.
=item B<-serverpref>
u
se the server's cipher preferences, rather than the client's preferences.
U
se the server's cipher preferences, rather than the client's preferences.
=item B<-tlsextdebug>
print ou
t a hex dump of any TLS extensions received from the server.
Prin
t a hex dump of any TLS extensions received from the server.
=item B<-no_ticket>
disable RFC4507bis session ticket support.
Disable RFC4507bis session ticket support.
=item B<-www>
s
ends a status message back to the client when it connects. This includes
lots of
information about the ciphers used and various session parameters.
S
ends a status message back to the client when it connects. This includes
information about the ciphers used and various session parameters.
The output is in HTML format so this option will normally be used with a
web browser.
=item B<-WWW>
e
mulates a simple web server. Pages will be resolved relative to the
E
mulates a simple web server. Pages will be resolved relative to the
current directory, for example if the URL https://myhost/page.html is
requested the file ./page.html will be loaded.
=item B<-HTTP>
e
mulates a simple web server. Pages will be resolved relative to the
E
mulates a simple web server. Pages will be resolved relative to the
current directory, for example if the URL https://myhost/page.html is
requested the file ./page.html will be loaded. The files loaded are
assumed to contain a complete and correct HTTP response (lines that
...
...
@@ -381,26 +388,26 @@ are part of the HTTP response line and headers must end with CRLF).
=item B<-rev>
s
imple test server which just reverses the text received from the client
S
imple test server which just reverses the text received from the client
and sends it back to the server. Also sets B<-brief>.
=item B<-engine id>
s
pecifying an engine (by its unique B<id> string) will cause B<s_server>
S
pecifying an engine (by its unique B<id> string) will cause B<s_server>
to attempt to obtain a functional reference to the specified engine,
thus initialising it if needed. The engine will then be set as the default
for all available algorithms.
=item B<-id_prefix arg>
g
enerate SSL/TLS session IDs prefixed by B<arg>. This is mostly useful
G
enerate SSL/TLS session IDs prefixed by B<arg>. This is mostly useful
for testing any SSL/TLS code (eg. proxies) that wish to deal with multiple
servers, when each of which might be generating a unique range of session
IDs (eg. with a certain prefix).
=item B<-rand file(s)>
a
file or files containing random data used to seed the random number
A
file or files containing random data used to seed the random number
generator, or an EGD socket (see L<RAND_egd(3)>).
Multiple files can be specified separated by a OS-dependent character.
The separator is B<;> for MS-Windows, B<,> for OpenVMS, and B<:> for
...
...
@@ -408,7 +415,7 @@ all others.
=item B<-serverinfo file>
a
file containing one or more blocks of PEM data. Each PEM block
A
file containing one or more blocks of PEM data. Each PEM block
must encode a TLS ServerHello extension (2 bytes type, 2 bytes length,
followed by "length" bytes of extension data). If the client sends
an empty TLS ClientHello extension matching the type, the corresponding
...
...
@@ -416,30 +423,30 @@ ServerHello extension will be returned.
=item B<-no_resumption_on_reneg>
set SSL_OP_NO_SESSION_RESUMPTION_ON_RENEGOTIATION flag
.
Set the B<SSL_OP_NO_SESSION_RESUMPTION_ON_RENEGOTIATION> option
.
=item B<-status>
e
nables certificate status request support (aka OCSP stapling).
E
nables certificate status request support (aka OCSP stapling).
=item B<-status_verbose>
e
nables certificate status request support (aka OCSP stapling) and gives
E
nables certificate status request support (aka OCSP stapling) and gives
a verbose printout of the OCSP response.
=item B<-status_timeout nsec>
s
ets the timeout for OCSP response to B<nsec> seconds.
S
ets the timeout for OCSP response to B<nsec> seconds.
=item B<-status_url url>
s
ets a fallback responder URL to use if no responder URL is present in the
S
ets a fallback responder URL to use if no responder URL is present in the
server certificate. Without this option an error is returned if the server
certificate does not contain a responder address.
=item B<-nextprotoneg protocols>
e
nable Next Protocol Negotiation TLS extension and provide a
E
nable Next Protocol Negotiation TLS extension and provide a
comma-separated list of supported protocol names.
The list should contain most wanted protocols first.
Protocol names are printable ASCII strings, for example "http/1.1" or
...
...
@@ -451,7 +458,7 @@ Protocol names are printable ASCII strings, for example "http/1.1" or
If a connection request is established with an SSL client and neither the
B<-www> nor the B<-WWW> option has been used then normally any data received
from the client is displayed and any key presses will be sent to the client.
from the client is displayed and any key presses will be sent to the client.
Certain single letter commands are also recognized which perform special
operations: these are listed below.
...
...
@@ -506,10 +513,10 @@ The session parameters can printed out using the B<sess_id> program.
=head1 BUGS
Because this program has a lot of options and also because some of
t
he techniques used are rather old, the C source of s_server is rather
hard to read and not a model of how things should be done. A typical
SSL server program would be much simpler.
Because this program has a lot of options and also because some of
the
t
echniques used are rather old, the C source of B<s_server> is rather hard to
read and not a model of how things should be done.
A typical
SSL server program would be much simpler.
The output of common ciphers is wrong: it just gives the list of ciphers that
OpenSSL recognizes and the client supports.
...
...
doc/ssl/SSL_CONF_cmd.pod
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...
...
@@ -122,9 +122,9 @@ than the deprecated alternative commands below.
=item B<-no_ssl3>, B<-no_tls1>, B<-no_tls1_1>, B<-no_tls1_2>
Disables protocol support for SSLv3, TLS
1.0, TLS 1.1 or TLS 1.2
by setting the corresponding options B<SSL_OP_NO_SSL3>, B<SSL_OP_NO_TLS1>,
B<SSL_OP_NO_TLS1_1>
and B<SSL_OP_NO_TLS1_2> respectively.
Disables protocol support for SSLv3, TLS
v1.0, TLSv1.1 or TLSv1.2 by setting the
corresponding options B<SSL_OP_NO_SSL3>, B<SSL_OP_NO_TLS1>, B<SSL_OP_NO_TLS1_1>
and B<SSL_OP_NO_TLS1_2> respectively.
These options are deprecated, instead use B<-min_protocol> and B<-max_protocol>.
=item B<-bugs>
...
...
doc/ssl/SSL_CTX_new.pod
浏览文件 @
8c73aeb6
...
...
@@ -76,85 +76,88 @@ B<method> can be of the following types:
=over 4
=item SSLv3_method(), SSLv3_server_method(), SSLv3_client_method()
An SSL connection established with these methods will only understand
the SSLv3 protocol.
A client will send out a SSLv3 client hello messages and will
indicate that it supports SSLv3.
A server will only understand SSLv3 client hello message and only
support the SSLv3 protocol.
=item TLSv1_method(), TLSv1_server_method(), TLSv1_client_method()
=item TLS_method(), TLS_server_method(), TLS_client_method()
A TLS connection established with these methods will only understand
the TLS 1.0 protocol.
These are the general-purpose I<version-flexible> SSL/TLS methods.
The actual protocol version used will be negotiated to the highest version
mutually supported by the client and the server.
The supported protocols are SSLv3, TLSv1, TLSv1.1 and TLSv1.2.
Most applications should use these method, and avoid the version specific
methods described below.
=item
TLSv1_1_method(), TLSv1_1_server_method(), TLSv1_1
_client_method()
=item
SSLv23_method(), SSLv23_server_method(), SSLv23
_client_method()
A TLS connection established with these methods will only understand
the TLS 1.1 protocol.
Use of these functions is deprecated. They have been replaced with the above
TLS_method(), TLS_server_method() and TLS_client_method() respectively. New
code should use those functions instead.
=item TLSv1_2_method(), TLSv1_2_server_method(), TLSv1_2_client_method()
A TLS
connection established with these methods will only understand
the TLS
1.2 protocol.
A TLS
/SSL connection established with these methods will only understand the
TLSv
1.2 protocol.
=item TLS
_method(), TLS_server_method(), TLS
_client_method()
=item TLS
v1_1_method(), TLSv1_1_server_method(), TLSv1_1
_client_method()
A TLS/SSL connection established with these methods
may understand
the SSLv3, TLSv1, TLSv1.1 and TLSv1.2 protocols
.
A TLS/SSL connection established with these methods
will only understand the
TLSv1.1 protocol
.
If extensions are required (for example server name)
a client will send out TLSv1 client hello messages including extensions and
will indicate that it also understands TLSv1.1, TLSv1.2 and permits a
fallback to SSLv3. A server will support SSLv3, TLSv1, TLSv1.1 and TLSv1.2
protocols. This is the best choice when compatibility is a concern.
=item TLSv1_method(), TLSv1_server_method(), TLSv1_client_method()
=item SSLv23_method(), SSLv23_server_method(), SSLv23_client_method()
A TLS/SSL connection established with these methods will only understand the
TLSv1 protocol.
Use of these functions is deprecated. They have been replaced with TLS_method(),
TLS_server_method() and TLS_client_method() respectively. New code should use
those functions instead.
=item SSLv3_method(), SSLv3_server_method(), SSLv3_client_method()
A TLS/SSL connection established with these methods will only understand the
SSLv3 protocol.
The SSLv3 protocol is deprecated and should not be used.
=item DTLS_method(), DTLS_server_method(), DTLS_client_method()
A DTLS connection established with those methods understands all
supported DTLS protocols.
These are the version-flexible DTLS methods.
Currently supported protocols are DTLS 1.0 and DTLS 1.2.
=item DTLSv1_
method(), DTLSv1_server_method(), DTLSv1
_client_method()
=item DTLSv1_
2_method(), DTLSv1_2_server_method(), DTLSv1_2
_client_method()
A DTLS connection established with these methods will only understand
the DTLS 1.0 protocol.
These are the version-specific methods for DTLSv1.2.
=item DTLSv1_
2_method(), DTLSv1_2_server_method(), DTLSv1_2
_client_method()
=item DTLSv1_
method(), DTLSv1_server_method(), DTLSv1
_client_method()
A DTLS connection established with these methods will only understand
the DTLS 1.2 protocol.
These are the version-specific methods for DTLSv1.
=back
SSL_CTX_new() initializes the list of ciphers, the session cache setting, the
callbacks, the keys and certificates and the options to their default values.
TLS_method(), TLS_server_method(), TLS_client_method(), DTLS_method(),
DTLS_server_method() and DTLS_client_method() are the
version
flexible
methods.
DTLS_server_method() and DTLS_client_method() are the
I<version-flexible>
methods.
All other methods only support one specific protocol version.
Use the
se methods instead of the other
version specific methods.
Use the
I<version-flexible> methods instead of the
version specific methods.
If you want to limit the supported protocols for the version flexible
methods you can use SSL_CTX_set_min_proto_version(),
SSL_set_min_proto_version(), SSL_CTX_set_max_proto_version() and
SSL_set_max_proto_version() functions.
They can also be limited by setting an option like B<SSL_OP_NO_SSLv3>
via the L<SSL_CTX_set_options(3)> or L<SSL_set_options(3)> functions,
but that's not recommended.
methods you can use L<SSL_CTX_set_min_proto_version(3)>,
L<SSL_set_min_proto_version(3)>, L<SSL_CTX_set_max_proto_version(3)> and
LSSL_set_max_proto_version(3)> functions.
Using these functions it is possible to choose e.g. TLS_server_method()
and be able to negotiate with all possible clients, but to only
allow newer protocols like TLS 1.0, TLS 1.1 or TLS 1.2.
SSL_CTX_new() initializes the list of ciphers, the session cache
setting, the callbacks, the keys and certificates and the options
to its default values.
The list of protocols available can also be limited using the
B<SSL_OP_NO_SSLv3>, B<SSL_OP_NO_TLSv1>, B<SSL_OP_NO_TLSv1_1> and
B<SSL_OP_NO_TLSv1_2> options of the L<SSL_CTX_set_options(3)> or
L<SSL_set_options(3)> functions, but this approach is not recommended.
Clients should avoid creating "holes" in the set of protocols they support.
When disabling a protocol, make sure that you also disable either all previous
or all subsequent protocol versions.
In clients, when a protocol version is disabled without disabling I<all>
previous protocol versions, the effect is to also disable all subsequent
protocol versions.
The SSLv3 protocol is deprecated and should generally not be used.
Applications should typically use L<SSL_CTX_set_min_proto_version(3)> to set
the minimum protocol to at least B<TLS1_VERSION>.
=head1 RETURN VALUES
...
...
@@ -164,8 +167,8 @@ The following return values can occur:
=item NULL
The creation of a new SSL_CTX object failed. Check the error stack to
find out
the reason.
The creation of a new SSL_CTX object failed. Check the error stack to
find out
the reason.
=item Pointer to an SSL_CTX object
...
...
@@ -185,8 +188,7 @@ and TLS_client_method() functions were introduced in OpenSSL 1.1.0.
=head1 SEE ALSO
L<SSL_CTX_free(3)>, L<SSL_accept(3)>,
L<SSL_CTX_set_min_proto_version(3)>,
L<ssl(3)>, L<SSL_set_connect_state(3)>
L<SSL_CTX_set_options(3)>, L<SSL_CTX_free(3)>, L<SSL_accept(3)>,
L<SSL_CTX_set_min_proto_version(3)>, L<ssl(3)>, L<SSL_set_connect_state(3)>
=cut
doc/ssl/ssl.pod
浏览文件 @
8c73aeb6
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...
@@ -118,29 +118,67 @@ protocol methods defined in B<SSL_METHOD> structures.
=over 4
=item const SSL_METHOD *B<
SSLv3_client
_method>(void);
=item const SSL_METHOD *B<
TLS
_method>(void);
Constructor for the SSLv3 SSL_METHOD structure for a dedicated client.
Constructor for the I<version-flexible> SSL_METHOD structure for clients,
servers or both.
See L<SSL_CTX_new(3)> for details.
=item const SSL_METHOD *B<
SSLv3_server
_method>(void);
=item const SSL_METHOD *B<
TLS_client
_method>(void);
Constructor for the
SSLv3 SSL_METHOD structure for a dedicated server
.
Constructor for the
I<version-flexible> SSL_METHOD structure for clients
.
=item const SSL_METHOD *B<SSLv3_method>(void);
=item const SSL_METHOD *B<TLS_server_method>(void);
Constructor for the I<version-flexible> SSL_METHOD structure for servers.
=item const SSL_METHOD *B<TLSv1_2_method>(void);
Constructor for the TLSv1.2 SSL_METHOD structure for clients, servers or both.
=item const SSL_METHOD *B<TLSv1_2_client_method>(void);
Constructor for the TLSv1.2 SSL_METHOD structure for clients.
=item const SSL_METHOD *B<TLSv1_2_server_method>(void);
Constructor for the TLSv1.2 SSL_METHOD structure for servers.
=item const SSL_METHOD *B<TLSv1_1_method>(void);
Constructor for the TLSv1.1 SSL_METHOD structure for clients, servers or both.
=item const SSL_METHOD *B<TLSv1_1_client_method>(void);
Constructor for the SSLv3 SSL_METHOD structure for combined client and server.
Constructor for the TLSv1.1 SSL_METHOD structure for clients.
=item const SSL_METHOD *B<TLSv1_1_server_method>(void);
Constructor for the TLSv1.1 SSL_METHOD structure for servers.
=item const SSL_METHOD *B<TLSv1_method>(void);
Constructor for the TLSv1 SSL_METHOD structure for clients, servers or both.
=item const SSL_METHOD *B<TLSv1_client_method>(void);
Constructor for the TLSv1 SSL_METHOD structure for
a dedicated client
.
Constructor for the TLSv1 SSL_METHOD structure for
clients
.
=item const SSL_METHOD *B<TLSv1_server_method>(void);
Constructor for the TLSv1 SSL_METHOD structure for
a dedicated server
.
Constructor for the TLSv1 SSL_METHOD structure for
servers
.
=item const SSL_METHOD *B<TLSv1_method>(void);
=item const SSL_METHOD *B<SSLv3_method>(void);
Constructor for the SSLv3 SSL_METHOD structure for clients, servers or both.
=item const SSL_METHOD *B<SSLv3_client_method>(void);
Constructor for the SSLv3 SSL_METHOD structure for clients.
=item const SSL_METHOD *B<SSLv3_server_method>(void);
Constructor for the
TLSv1 SSL_METHOD structure for combined client and server
.
Constructor for the
SSLv3 SSL_METHOD structure for servers
.
=back
...
...
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