OpenSSL: Secure Communication

7.9.0.4

top ← prev up next →

OpenSSL: Secure Communication

package: base

The openssl library provides glue for the OpenSSL library with the Racket port system. It provides functions nearly identically to the standard TCP subsystem in Racket, plus a generic ports->ssl-ports interface.

To use this library, you will need OpenSSL installed on your machine, but on many platforms the necessary libraries are included with the OS or with the Racket distribution. In particular:

For Windows, openssl depends on "libeay32.dll" and "ssleay32.dll", which are included in the Racket distribution for Windows.
For Mac OS, openssl depends on "libssl.dylib" and "libcrypto.dylib". Although those libraries are provided by Mac OS 10.2 and later, their use is deprecated, so the Racket distribution for Mac OS includes newer versions.
For Unix, openssl depends on "libssl.so" and "libcrypto.so", which must be installed in a standard library location or in a directory listed by LD_LIBRARY_PATH. These libraries are included in many OS distributions.

value
ssl-available? : boolean?

A boolean value that reports whether the system OpenSSL library was successfully loaded. Calling ssl-connect, etc. when this value is #f (library not loaded) will raise an exception.

value
ssl-load-fail-reason : (or/c #f string?)

Either #f (when ssl-available? is #t) or an error string (when ssl-available? is #f).

1 TCP-like Client Procedures

Use ssl-connect or ssl-connect/enable-break to create an SSL connection over TCP. To create a secure connection, supply the result of ssl-secure-client-context or create a client context with ssl-make-client-context and configure it using the functions described in Context Procedures.

procedure
(ssl-connect hostname
port-no
[ client-protocol]) →
input-port? output-port?
  hostname : string?
  port-no : (integer-in 1 65535)
   client-protocol :
(or/c ssl-client-context?
      'secure
      'auto
      'sslv2-or-v3 'sslv2 'sslv3 'tls 'tls11 'tls12)
= 'auto

Connect to the host given by hostname, on the port given by port-no. This connection will be encrypted using SSL. The return values are as for tcp-connect: an input port and an output port.

The default 'auto protocol is insecure. Use 'secure for a secure connection. See ssl-secure-client-context for details.

The optional client-protocol argument determines which encryption protocol is used, whether the server’s certificate is checked, etc. The argument can be either a client context created by ssl-make-client-context a symbol specifying the protocol to use; see ssl-make-client-context for further details, including the meanings of the protocol symbols.

Closing the resulting output port does not send a shutdown message to the server. See also ports->ssl-ports.

If hostname verification is enabled (see ssl-set-verify-hostname!), the peer’s certificate is checked against hostname.

Changed in version 6.3.0.12 of package base: Added 'secure for client-protocol.

procedure
(ssl-connect/enable-break hostname
port-no
[ client-protocol])
→
input-port? output-port?
  hostname : string?
  port-no : (integer-in 1 65535)
   client-protocol :
(or/c ssl-client-context?
      'secure 'auto
      'sslv2-or-v3 'sslv2 'sslv3 'tls 'tls11 'tls12)
= 'auto

Like ssl-connect, but breaking is enabled while trying to connect.

procedure
(ssl-secure-client-context) → ssl-client-context?

Returns a client context that verifies certificates using the default verification sources from (ssl-default-verify-sources), verifies hostnames, and avoids using weak ciphers. The result is essentially equivalent to the following:

(let ([ctx (ssl-make-client-context 'auto)])
  ; Load default verification sources (root certificates)
  (ssl-load-default-verify-sources! ctx)
  ; Require certificate verification
  (ssl-set-verify! ctx #t)
  ; Require hostname verification
  (ssl-set-verify-hostname! ctx #t)
  ; No weak cipher suites
  (ssl-set-ciphers! ctx "DEFAULT:!aNULL:!eNULL:!LOW:!EXPORT:!SSLv2")
  ; Seal context so further changes cannot weaken it
  (ssl-seal-context! ctx)
  ctx)

The context is cached, so different calls to ssl-secure-client-context return the same context unless (ssl-default-verify-sources) has changed.

Note that (ssl-secure-client-context) returns a sealed context, so it is not possible to add a private key and certificate chain to it. If client credentials are required, use ssl-make-client-context instead.

procedure
(ssl-make-client-context
[ protocol
#:private-key private-key
#:certificate-chain certificate-chain])
→ ssl-client-context?
   protocol :
(or/c 'secure 'auto
      'sslv2-or-v3 'sslv2 'sslv3 'tls 'tls11 'tls12)
= 'auto
   private-key :
(or/c (list/c 'pem path-string?)
      (list/c 'der path-string?)
      #f)
= #f
  certificate-chain : (or/c path-string? #f) = #f

Creates a context to be supplied to ssl-connect. The context is insecure unless 'secure is supplied or additional steps are taken; see ssl-secure-client-context for details.

The client context identifies a communication protocol (as selected by protocol), and also holds certificate information (i.e., the client’s identity, its trusted certificate authorities, etc.). See the section Context Procedures below for more information on certificates.

The protocol should be one of the following:

'secure : Equivalent to (ssl-secure-client-context).
'auto : Automatically negotiates the protocol version from those that this library considers sufficiently secure—currently TLS versions 1.0 and higher, but subject to change.
'tls : Only TLS protocol version 1.0.
'tls11 : Only TLS protocol version 1.1.
'tls12 : Only TLS protocol version 1.2.

The following protocol symbols are deprecated but still supported:

'sslv2-or-v3 : Alias for 'auto. Note that despite the name, neither SSL 2.0 nor 3.0 are considered sufficiently secure, so this protocol no longer allows either of them.
'sslv2 : SSL protocol version 2.0. Insecure. Note that SSL 2.0 support has been removed from many platforms.
'sslv3 : SSL protocol version 3.0. Insecure.

Not all protocol versions are supported by all servers. The 'secure and 'auto options offer broad compatibility at a reasonable level of security. Note that the security of connections depends on more than the protocol version; see ssl-secure-client-context for details. See also supported-client-protocols and supported-server-protocols.

If private-key and certificate-chain are provided, they are loaded into the context using ssl-load-private-key! and ssl-load-certificate-chain!, respectively. Client credentials are rarely used with HTTPS, but they are occasionally used in other kind of servers.

Changed in version 6.1 of package base: Added 'tls11 and 'tls12.
Changed in version 6.1.1.3: Default to new 'auto and disabled SSL 2.0 and 3.0 by default.
Changed in version 6.3.0.12: Added 'secure.
Changed in version 7.3.0.10: Added #:private-key and #:certificate-chain arguments.

procedure
(supported-client-protocols)
→
(listof (or/c 'secure 'auto
'sslv2-or-v3 'sslv2 'sslv3 'tls 'tls11 'tls12))

Returns a list of symbols representing protocols that are supported for clients on the current platform.

Changed in version 6.3.0.12 of package base: Added 'secure.

procedure
(ssl-client-context? v) → boolean?
v : any/c

Returns #t if v is a value produced by ssl-make-client-context, #f otherwise.

Added in version 6.0.1.3 of package base.

procedure
(ssl-max-client-protocol)
→ (or/c 'sslv2 'sslv3 'tls 'tls11 'tls12 #f)

Returns the most recent SSL/TLS protocol version supported by the current platform for client connections.

Added in version 6.1.1.3 of package base.

2 TCP-like Server Procedures

procedure
(ssl-listen port-no
[ queue-k
reuse?
hostname-or-#f
server-protocol]) → ssl-listener?
  port-no : listen-port-number?
  queue-k : exact-nonnegative-integer? = 5
  reuse? : any/c = #f
  hostname-or-#f : (or/c string? #f) = #f
   server-protocol :
(or/c ssl-server-context?
      'secure 'auto
      'sslv2-or-v3 'sslv2 'sslv3 'tls 'tls11 'tls12)
= 'auto

Like tcp-listen, but the result is an SSL listener. The extra optional server-protocol is as for ssl-connect, except that a context must be a server context instead of a client context, and 'secure is simply an alias for 'auto.

Call ssl-load-certificate-chain! and ssl-load-private-key! to avoid a no shared cipher error on accepting connections. The file "test.pem" in the "openssl" collection is a suitable argument for both calls when testing. Since "test.pem" is public, however, such a test configuration obviously provides no security.

An SSL listener is a synchronizable value (see sync). It is ready—with itself as its value—when the underlying TCP listener is ready. At that point, however, accepting a connection with ssl-accept may not complete immediately, because further communication is needed to establish the connection.

Changed in version 6.3.0.12 of package base: Added 'secure.

procedure
(ssl-close listener) → void?
listener : ssl-listener?
procedure
(ssl-listener? v) → boolean?
v : any/c

Analogous to tcp-close and tcp-listener?.

procedure
(ssl-accept listener) →
input-port? output-port?
listener : ssl-listener?
procedure
(ssl-accept/enable-break listener) →
input-port? output-port?
listener : ssl-listener?

Analogous to tcp-accept.

Closing the resulting output port does not send a shutdown message to the client. See also ports->ssl-ports.

See also ssl-connect about the limitations of reading and writing to an SSL connection (i.e., one direction at a time).

The ssl-accept/enable-break procedure is analogous to tcp-accept/enable-break.

procedure
(ssl-abandon-port p) → void?
p : ssl-port?

Analogous to tcp-abandon-port.

procedure
(ssl-addresses p [port-numbers?])
→
(or/c (values string? string?)
      (values string? port-number? string? listen-port-number?))
  p : (or/c ssl-port? ssl-listener?)
  port-numbers? : any/c = #f

Analogous to tcp-addresses.

procedure
(ssl-port? v) → boolean?
v : any/c

Returns #t of v is an SSL port produced by ssl-connect, ssl-connect/enable-break, ssl-accept, ssl-accept/enable-break, or ports->ssl-ports.

procedure
(ssl-make-server-context
[ protocol
#:private-key private-key
#:certificate-chain certificate-chain])
→ ssl-server-context?
   protocol :
(or/c 'secure 'auto
      'sslv2-or-v3 'sslv2 'sslv3 'tls 'tls11 'tls12)
= 'auto
   private-key :
(or/c (list/c 'pem path-string?)
      (list/c 'der path-string?)
      #f)
= #f
  certificate-chain : (or/c path-string? #f) = #f

Like ssl-make-client-context, but creates a server context. For a server context, the 'secure protocol is the same as 'auto.

If private-key and certificate-chain are provided, they are loaded into the context using ssl-load-private-key! and ssl-load-certificate-chain!, respectively.

Changed in version 6.3.0.12 of package base: Added 'secure.
Changed in version 7.3.0.10: Added #:private-key and #:certificate-chain arguments.

procedure
(ssl-server-context? v) → boolean?
v : any/c

Returns #t if v is a value produced by ssl-make-server-context, #f otherwise.

procedure
(supported-server-protocols)
→
(listof (or/c 'secure 'auto
'sslv2-or-v3 'sslv2 'sslv3 'tls 'tls11 'tls12))

Returns a list of symbols representing protocols that are supported for servers on the current platform.

Added in version 6.0.1.3 of package base.
Changed in version 6.3.0.12: Added 'secure.

procedure
(ssl-max-server-protocol)
→ (or/c 'sslv2 'sslv3 'tls 'tls11 'tls12 #f)

Returns the most recent SSL/TLS protocol version supported by the current platform for server connections.

Added in version 6.1.1.3 of package base.

3 SSL-wrapper Interface

procedure
(ports->ssl-ports input-port
output-port
[ #:mode mode
#:context context
#:encrypt protocol
#:close-original? close-original?
#:shutdown-on-close? shutdown-on-close?
#:error/ssl error
#:hostname hostname])
→
input-port? output-port?
  input-port : input-port?
  output-port : output-port?
  mode : (or/c 'connect 'accept) = 'accept
   context : (or/c ssl-client-context? ssl-server-context?)
=
((if (eq? mode 'accept)
     ssl-make-server-context
     ssl-make-client-context)
protocol)
   protocol :
(or/c 'secure 'auto
      'sslv2-or-v3 'sslv2 'sslv3 'tls 'tls11 'tls12)
= 'auto
  close-original? : boolean? = #f
  shutdown-on-close? : boolean? = #f
  error : procedure? = error
  hostname : (or/c string? #f) = #f

Returns two values—an input port and an output port—that implement the SSL protocol over the given input and output port. (The given ports should be connected to another process that runs the SSL protocol.)

The mode argument can be 'connect or 'accept. The mode determines how the SSL protocol is initialized over the ports, either as a client or as a server. As with ssl-listen, in 'accept mode, supply a context that has been initialized with ssl-load-certificate-chain! and ssl-load-private-key! to avoid a no shared cipher error.

The context argument should be a client context for 'connect mode or a server context for 'accept mode. If it is not supplied, a context is created using the protocol specified by a protocol argument.

If the protocol argument is not supplied, it defaults to 'auto. See ssl-make-client-context for further details (including all options and the meanings of the protocol symbols). This argument is ignored if a context argument is supplied.

If close-original? is true, then when both SSL ports are closed, the given input and output ports are automatically closed.

If shutdown-on-close? is true, then when the output SSL port is closed, it sends a shutdown message to the other end of the SSL connection. When shutdown is enabled, closing the output port can fail if the given output port becomes unwritable (e.g., because the other end of the given port has been closed by another process).

The error argument is an error procedure to use for raising communication errors. The default is error, which raises exn:fail; in contrast, ssl-accept and ssl-connect use an error function that raises exn:fail:network.

See also ssl-connect about the limitations of reading and writing to an SSL connection (i.e., one direction at a time).

If hostname verification is enabled (see ssl-set-verify-hostname!), the peer’s certificate is checked against hostname.

4 Context Procedures

procedure
(ssl-load-verify-source! context
src
[ #:try? try?]) → void?
  context : (or/c ssl-client-context? ssl-server-context?)
   src :
(or/c path-string?
      (list/c 'directory path-string?)
      (list/c 'win32-store string?)
      (list/c 'macosx-keychain path-string?))
  try? : any/c = #f

Loads verification sources from src into context. Currently, only certificates are loaded; the certificates are used to verify the certificates of a connection peer. Call this procedure multiple times to load multiple sets of trusted certificates.

The following kinds of verification sources are supported:

If src is a path or string, it is treated as a PEM file containing root certificates. The file is loaded immediately.
If src is (list 'directory dir), then dir should contain PEM files with hashed symbolic links (see the openssl c_rehash utility). The directory contents are not loaded immediately; rather, they are searched only when a certificate needs verification.
If src is (list 'win32-store store), then the certificates from the store named store are loaded immediately. Only supported on Windows.
If src is (list 'macosx-keychain path), then the certificates from the keychain stored at path are loaded immediately. Only supported on Mac OS.

If try? is #f and loading src fails (for example, because the file or directory does not exist), then an exception is raised. If try? is a true value, then a load failure is ignored.

You can use the file "test.pem" of the "openssl" collection for testing purposes. Since "test.pem" is public, such a test configuration obviously provides no security.

parameter
(ssl-default-verify-sources)
→
(let ([source/c (or/c path-string?
                      (list/c 'directory path-string?)
                      (list/c 'win32-store string?)
                      (list/c 'macosx-keychain path-string?))])
  (listof source/c))
(ssl-default-verify-sources srcs) → void?
   srcs :
(let ([source/c (or/c path-string?
                      (list/c 'directory path-string?)
                      (list/c 'win32-store string?)
                      (list/c 'macosx-keychain path-string?))])
  (listof source/c))

Holds a list of verification sources, used by ssl-load-default-verify-sources!. The default sources depend on the platform:

On Linux, the default sources are determined by the SSL_CERT_FILE and SSL_CERT_DIR environment variables, if the variables are set, or the system-wide default locations otherwise.
On Mac OS, the default sources consist of the system keychain for root certificates: '(macosx-keychain "/System/Library/Keychains/SystemRootCertificates.keychain").
On Windows, the default sources consist of the system certificate store for root certificates: '(win32-store "ROOT").

procedure
(ssl-load-default-verify-sources! context) → void?
context : (or/c ssl-client-context? ssl-server-context?)

Loads the default verification sources, as determined by (ssl-default-verify-sources), into context. Load failures are ignored, since some default sources may refer to nonexistent paths.

procedure
(ssl-load-verify-root-certificates! context-or-listener
pathname)
→ void?
   context-or-listener :
(or/c ssl-client-conntext? ssl-server-context?
      ssl-listener?)
  pathname : path-string?

Deprecated; like ssl-load-verify-source!, but only supports loading certificate files in PEM format.

procedure
(ssl-set-ciphers! context cipher-spec) → void?
context : (or/c ssl-client-context? ssl-server-context?)
cipher-spec : string?

Specifies the cipher suites that can be used in connections created with context. The meaning of cipher-spec is the same as for the openssl ciphers command.

procedure
(ssl-seal-context! context) → void?
context : (or/c ssl-client-context? ssl-server-context?)

Seals context, preventing further modifications. After a context is sealed, passing it to functions such as ssl-set-verify! and ssl-load-verify-root-certificates! results in an error.

procedure
(ssl-load-certificate-chain! context-or-listener
pathname) → void?
   context-or-listener :
(or/c ssl-client-context? ssl-server-context?
      ssl-listener?)
  pathname : path-string?

Loads a PEM-format certification chain file for connections to made with the given server context (created by ssl-make-server-context) or listener (created by ssl-listen). A certificate chain can also be loaded into a client context (created by ssl-make-client-context) when connecting to a server requiring client credentials, but that situation is uncommon.

This chain is used to identify the client or server when it connects or accepts connections. Loading a chain overwrites the old chain. Also call ssl-load-private-key! to load the certificate’s corresponding key.

You can use the file "test.pem" of the "openssl" collection for testing purposes. Since "test.pem" is public, such a test configuration obviously provides no security.

procedure
(ssl-load-private-key! context-or-listener
pathname
[ rsa?
asn1?]) → void?
   context-or-listener :
(or/c ssl-client-context? ssl-server-context?
      ssl-listener?)
  pathname : path-string?
  rsa? : boolean? = #t
  asn1? : boolean? = #f

Loads the first private key from pathname for the given context or listener. The key goes with the certificate that identifies the client or server. Like ssl-load-certificate-chain!, this procedure is usually used with server contexts or listeners, seldom with client contexts.

If rsa? is #t (the default), the first RSA key is read (i.e., non-RSA keys are skipped). If asn1? is #t, the file is parsed as ASN1 format instead of PEM.

You can use the file "test.pem" of the "openssl" collection for testing purposes. Since "test.pem" is public, such a test configuration obviously provides no security.

procedure
(ssl-load-suggested-certificate-authorities!
context-or-listener
pathname)
→ void?
   context-or-listener :
(or/c ssl-client-context? ssl-server-context?
      ssl-listener?)
  pathname : path-string?

Loads a PEM-format file containing certificates that are used by a server. The certificate list is sent to a client when the server requests a certificate as an indication of which certificates the server trusts.

Loading the suggested certificates does not imply trust, however; any certificate presented by the client will be checked using the trusted roots loaded by ssl-load-verify-root-certificates!.

You can use the file "test.pem" of the "openssl" collection for testing purposes where the peer identifies itself using "test.pem".

procedure
(ssl-server-context-enable-dhe! context
[ dh-param]) → void?
  context : ssl-server-context?
  dh-param : (or/c path-string? bytes?) = ssl-dh4096-param-bytes
procedure
(ssl-server-context-enable-ecdhe! context
[ curve-name]) → void?
  context : ssl-server-context?
  curve-name : symbol? = 'secp521r1

Enables cipher suites that provide perfect forward secrecy via ephemeral Diffie-Hellman (DHE) or ephemeral elliptic-curve Diffie-Hellman (ECDHE) key exchange, respectively.

For DHE, the dh-param must be a path to a ".pem" file containing DH parameters or the content of such a file as a byte string.

For ECDHE, the curve-name must be one of the following symbols naming a standard elliptic curve: 'sect163k1, 'sect163r1, 'sect163r2, 'sect193r1, 'sect193r2, 'sect233k1, 'sect233r1, 'sect239k1, 'sect283k1, 'sect283r1, 'sect409k1, 'sect409r1, 'sect571k1, 'sect571r1, 'secp160k1, 'secp160r1, 'secp160r2, 'secp192k1, 'secp224k1, 'secp224r1, 'secp256k1, 'secp384r1, 'secp521r1, 'prime192v, 'prime256v.

Changed in version 7.7.0.4 of package base: Allow a byte string as the dh-param argument to ssl-server-context-enable-dhe!.

value
ssl-dh4096-param-bytes : bytes?

Byte string describing 4096-bit Diffie-Hellman parameters in ".pem" format.

Changed in version 7.7.0.4 of package base: Added as a replacement for ssl-dh4096-param-path.

procedure
(ssl-set-server-name-identification-callback! context
callback) → void?
context : ssl-server-context?
callback : (string? . -> . (or/c ssl-server-context? #f))

Provides an SSL server context with a procedure it can use for switching to alternative contexts on a per-connection basis. The procedure is given the hostname the client was attempting to connect to, to use as the basis for its decision.

The client sends this information via the TLS Server Name Identification extension, which was created to allow virtual hosting for secure servers.

The suggested use it to prepare the appropriate server contexts, define a single callback which can dispatch between them, and then apply it to all the contexts before sealing them. A minimal example:

(define ctx-a (ssl-make-server-context 'tls))
(define ctx-b (ssl-make-server-context 'tls))
...
(ssl-load-certificate-chain! ctx-a "cert-a.pem")
(ssl-load-certificate-chain! ctx-b "cert-b.pem")
...
(ssl-load-private-key! ctx-a "key-a.pem")
(ssl-load-private-key! ctx-b "key-b.pem")
...
(define (callback hostname)
  (cond [(equal? hostname "a") ctx-a]
        [(equal? hostname "b") ctx-b]
        ...
        [else #f]))
(ssl-set-server-name-identification-callback! ctx-a callback)
(ssl-set-server-name-identification-callback! ctx-b callback)
...
(ssl-seal-context! ctx-a)
(ssl-seal-context! ctx-b)
...
(ssl-listen 443 5 #t #f ctx-a)

If the callback returns #f, the connection attempt will continue, using the original server context.

5 Peer Verification

procedure
(ssl-set-verify! clp on?) → void?
   clp :
(or/c ssl-client-context? ssl-server-context?
      ssl-listener? ssl-port?)
  on? : any/c

Requires certificate verification on the peer SSL connection when on? is #t. If clp is an SSL port, then the connection is immediately renegotiated, and an exception is raised immediately if certificate verification fails. If clp is a context or listener, certification verification happens on each subsequent connection using the context or listener.

Enabling verification also requires, at a minimum, designating trusted certificate authorities with ssl-load-verify-source!.

Verifying the certificate is not sufficient to prevent attacks by active adversaries, such as man-in-the-middle attacks. See also ssl-set-verify-hostname!.

procedure
(ssl-try-verify! clp on?) → void?
   clp :
(or/c ssl-client-context? ssl-server-context?
      ssl-listener? ssl-port?)
  on? : any/c

Like ssl-set-verify!, but when peer certificate verification fails, then connection continues to work. Use ssl-peer-verified? to determine whether verification succeeded.

procedure
(ssl-peer-verified? p) → boolean?
p : ssl-port?

Returns #t if the peer of SSL port p has presented a valid and verified certificate, #f otherwise.

procedure
(ssl-set-verify-hostname! ctx on?) → void?
ctx : (or/c ssl-client-context? ssl-server-context?)
on? : any/c

Requires hostname verification of SSL peers of connections made using ctx when on? is #t. When hostname verification is enabled, the hostname associated with a connection (see ssl-connect or ports->ssl-ports) is checked against the hostnames listed in the peer’s certificate. If the peer certificate does not contain an entry matching the hostname, or if the peer does not present a certificate, the connection is rejected and an exception is raised.

Hostname verification does not imply certificate verification. To verify the certificate itself, also call ssl-set-verify!.

procedure
(ssl-peer-certificate-hostnames p) → (listof string?)
p : ssl-port?

Returns the list of hostnames for which the certificate of p’s peer is valid according to RFC 2818. If the peer has not presented a certificate, '() is returned.

The result list may contain both hostnames such as "www.racket-lang.org" and hostname patterns such as "*.racket-lang.org".

procedure
(ssl-peer-check-hostname p hostname) → boolean?
p : ssl-port?
hostname : string?

Returns #t if the peer certificate of p is valid for hostname according to RFC 2818.

procedure
(ssl-peer-subject-name p) → (or/c bytes? #f)
p : ssl-port?

If ssl-peer-verified? would return #t for p, the result is a byte string for the subject field of the certificate presented by the SSL port’s peer, otherwise the result is #f.

Use ssl-peer-check-hostname or ssl-peer-certificate-hostnames instead to check the validity of an SSL connection.

procedure
(ssl-peer-issuer-name p) → (or/c bytes? #f)
p : ssl-port?

If ssl-peer-verified? would return #t for p, the result is a byte string for the issuer field of the certificate presented by the SSL port’s peer, otherwise the result is #f.

procedure
(ssl-channel-binding p type) → bytes?
p : ssl-port?
type : (or/c 'tls-unique 'tls-server-end-point)

Returns channel binding information for the TLS connection of p. An authentication protocol run over TLS can incorporate information identifying the TLS connection ('tls-unique) or server certificate ('tls-server-end-point) into the authentication process, thus preventing the authentication steps from being replayed on another channel. Channel binding is described in general in RFC 5056; channel binding for TLS is described in RFC 5929.

If the channel binding cannot be retrieved (for example, if the connection is closed), an exception is raised.

Added in version 7.7.0.9 of package base.

6 SHA-1 Hashing

(require openssl/sha1)

package: base

The openssl/sha1 library provides a Racket wrapper for the OpenSSL library’s SHA-1 hashing functions. If the OpenSSL library cannot be opened, this library logs a warning and falls back to the implementation in file/sha1.

procedure
(sha1 in) → string?
in : input-port?

Returns a 40-character string that represents the SHA-1 hash (in hexadecimal notation) of the content from in, consuming all of the input from in until an end-of-file.

The sha1 function composes bytes->hex-string with sha1-bytes.

procedure
(sha1-bytes in) → bytes?
in : input-port?

Returns a 20-byte byte string that represents the SHA-1 hash of the content from in, consuming all of the input from in until an end-of-file.

The sha1-bytes function from racket/base computes the same result and is only slightly slower.

procedure
(bytes->hex-string bstr) → string?
bstr : bytes?

Converts the given byte string to a string representation, where each byte in bstr is converted to its two-digit hexadecimal representation in the resulting string.

procedure
(hex-string->bytes str) → bytes?
str : string?

The inverse of bytes->hex-string.

7 MD5 Hashing

(require openssl/md5)

package: base

The openssl/md5 library provides a Racket wrapper for the OpenSSL library’s MD5 hashing functions. If the OpenSSL library cannot be opened, this library logs a warning and falls back to the implementation in file/md5.

Added in version 6.0.0.3 of package base.

procedure
(md5 in) → string?
in : input-port?

Returns a 32-character string that represents the MD5 hash (in hexadecimal notation) of the content from in, consuming all of the input from in until an end-of-file.

The md5 function composes bytes->hex-string with md5-bytes.

procedure
(md5-bytes in) → bytes?
in : input-port?

Returns a 16-byte byte string that represents the MD5 hash of the content from in, consuming all of the input from in until an end-of-file.

8 The "libcrypto" Shared Library

(require openssl/libcrypto)

package: base

The openssl/libcrypto library provides a foreign-library value for the "libcrypto" shared library.

value
libcrypto : (or/c #f ffi-lib?)

Returns a foreign-library value for "libcrypto", or #f if the library could not be found or loaded. The load attempt uses the versions specified by openssl-lib-versions.

value
libcrypto-load-fail-reason : (or/c #f string?)

Either #f when libcrypto is non-#f, or a string when libcrypto is #f. In the latter case, the string provides an error message for the attempt to load "libcrypto".

value
openssl-lib-versions : (listof string?)

A list of versions that are tried for loading "libcrypto". The list of version strings is suitable as a second argument to ffi-lib.

9 The "libssl" Shared Library

(require openssl/libssl)

package: base

The openssl/libssl library provides a foreign-library value for the "libssl" shared library.

value
libssl : (or/c #f ffi-lib?)

Returns a foreign-library value for "libssl", or #f if the library could not be found or loaded. The load attempt uses the versions specified by openssl-lib-versions.

value
libssl-load-fail-reason : (or/c #f string?)

Either #f when libssl is non-#f, or a string when libssl is #f. In the latter case, the string provides an error message for the attempt to load "libssl".

top ← prev up next →

1	TCP-like Client Procedures
2	TCP-like Server Procedures
3	SSL-wrapper Interface
4	Context Procedures
5	Peer Verification
6	SHA-1 Hashing
7	MD5 Hashing
8	The "libcrypto" Shared Library
9	The "libssl" Shared Library