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author | wolfbeast <mcwerewolf@gmail.com> | 2018-02-23 11:04:39 +0100 |
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committer | wolfbeast <mcwerewolf@gmail.com> | 2018-06-05 22:24:08 +0200 |
commit | e10349ab8dda8a3f11be6aa19f2b6e29fe814044 (patch) | |
tree | 1a9b078b06a76af06839d407b7267880890afccc /security/nss/lib/ssl/sslexp.h | |
parent | 75b3dd4cbffb6e4534128278300ed6c8a3ab7506 (diff) | |
download | uxp-e10349ab8dda8a3f11be6aa19f2b6e29fe814044.tar.gz |
Update NSS to 3.35-RTM
Diffstat (limited to 'security/nss/lib/ssl/sslexp.h')
-rw-r--r-- | security/nss/lib/ssl/sslexp.h | 358 |
1 files changed, 358 insertions, 0 deletions
diff --git a/security/nss/lib/ssl/sslexp.h b/security/nss/lib/ssl/sslexp.h new file mode 100644 index 0000000000..569add8610 --- /dev/null +++ b/security/nss/lib/ssl/sslexp.h @@ -0,0 +1,358 @@ +/* + * This file contains prototypes for experimental SSL functions. + * + * This Source Code Form is subject to the terms of the Mozilla Public + * License, v. 2.0. If a copy of the MPL was not distributed with this + * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ + +#ifndef __sslexp_h_ +#define __sslexp_h_ + +#include "ssl.h" +#include "sslerr.h" + +SEC_BEGIN_PROTOS + +/* The functions in this header file are not guaranteed to remain available in + * future NSS versions. Code that uses these functions needs to safeguard + * against the function not being available. */ + +#define SSL_EXPERIMENTAL_API(name, arglist, args) \ + (SSL_GetExperimentalAPI(name) \ + ? ((SECStatus(*) arglist)SSL_GetExperimentalAPI(name))args \ + : SECFailure) +#define SSL_DEPRECATED_EXPERIMENTAL_API \ + (PR_SetError(SSL_ERROR_UNSUPPORTED_EXPERIMENTAL_API, 0), SECFailure) + +/* + * SSL_GetExtensionSupport() returns whether NSS supports a particular TLS + * extension. + * + * - ssl_ext_none indicates that NSS does not support the extension and + * extension hooks can be installed. + * + * - ssl_ext_native indicates that NSS supports the extension natively, but + * allows an application to override that support and install its own + * extension hooks. + * + * - ssl_ext_native_only indicates that NSS supports the extension natively + * and does not permit custom extension hooks to be installed. These + * extensions are critical to the functioning of NSS. + */ +typedef enum { + ssl_ext_none, + ssl_ext_native, + ssl_ext_native_only +} SSLExtensionSupport; + +#define SSL_GetExtensionSupport(extension, support) \ + SSL_EXPERIMENTAL_API("SSL_GetExtensionSupport", \ + (PRUint16 _extension, \ + SSLExtensionSupport * _support), \ + (extension, support)) + +/* + * Custom extension hooks. + * + * The SSL_InstallExtensionHooks() registers two callback functions for use + * with the identified extension type. + * + * Installing extension hooks disables the checks in TLS 1.3 that ensure that + * extensions are only added to the correct messages. The application is + * responsible for ensuring that extensions are only sent with the right message + * or messages. + * + * Installing an extension handler does not disable checks for whether an + * extension can be used in a message that is a response to an extension in + * another message. Extensions in ServerHello, EncryptedExtensions and the + * server Certificate messages are rejected unless the client sends an extension + * in the ClientHello. Similarly, a client Certificate message cannot contain + * extensions that don't appear in a CertificateRequest (in TLS 1.3). + * + * Setting both |writer| and |handler| to NULL removes any existing hooks for + * that extension. + * + * == SSLExtensionWriter + * + * An SSLExtensionWriter function is responsible for constructing the contents + * of an extension. This function is called during the construction of all + * handshake messages where an extension might be included. + * + * - The |fd| argument is the socket file descriptor. + * + * - The |message| argument is the TLS handshake message type. The writer will + * be called for every handshake message that NSS sends. Most extensions + * should only be sent in a subset of messages. NSS doesn’t check that + * extension writers don’t violate protocol rules regarding which message an + * extension can be sent in. + * + * - The |data| argument is a pointer to a buffer that should be written to with + * any data for the extension. + * + * - The |len| argument is an outparam indicating how many bytes were written to + * |data|. The value referenced by |len| is initialized to zero, so an + * extension that is empty does not need to write to this value. + * + * - The |maxLen| indicates the maximum number of bytes that can be written to + * |data|. + * + * - The |arg| argument is the value of the writerArg that was passed during + * installation. + * + * An SSLExtensionWriter function returns PR_TRUE if an extension should be + * written, and PR_FALSE otherwise. + * + * If there is an error, return PR_FALSE; if the error is truly fatal, the + * application can mark the connection as failed. However, recursively calling + * functions that alter the file descriptor in the callback - such as PR_Close() + * - should be avoided. + * + * Note: The ClientHello message can be sent twice in TLS 1.3. An + * SSLExtensionWriter will be called twice with the same arguments in that case; + * NSS does not distinguish between a first and second ClientHello. It is up to + * the application to track this if it needs to act differently each time. In + * most cases the correct behaviour is to provide an identical extension on each + * invocation. + * + * == SSLExtensionHandler + * + * An SSLExtensionHandler function consumes a handshake message. This function + * is called when an extension is present. + * + * - The |fd| argument is the socket file descriptor. + * + * - The |message| argument is the TLS handshake message type. This can be used + * to validate that the extension was included in the correct handshake + * message. + * + * - The |data| argument points to the contents of the extension. + * + * - The |len| argument contains the length of the extension. + * + * - The |alert| argument is an outparam that allows an application to choose + * which alert is sent in the case of a fatal error. + * + * - The |arg| argument is the value of the handlerArg that was passed during + * installation. + * + * An SSLExtensionHandler function returns SECSuccess when the extension is + * process successfully. It can return SECFailure to cause the handshake to + * fail. If the value of alert is written to, NSS will generate a fatal alert + * using the provided alert code. The value of |alert| is otherwise not used. + */ +typedef PRBool(PR_CALLBACK *SSLExtensionWriter)( + PRFileDesc *fd, SSLHandshakeType message, + PRUint8 *data, unsigned int *len, unsigned int maxLen, void *arg); + +typedef SECStatus(PR_CALLBACK *SSLExtensionHandler)( + PRFileDesc *fd, SSLHandshakeType message, + const PRUint8 *data, unsigned int len, + SSLAlertDescription *alert, void *arg); + +#define SSL_InstallExtensionHooks(fd, extension, writer, writerArg, \ + handler, handlerArg) \ + SSL_EXPERIMENTAL_API("SSL_InstallExtensionHooks", \ + (PRFileDesc * _fd, PRUint16 _extension, \ + SSLExtensionWriter _writer, void *_writerArg, \ + SSLExtensionHandler _handler, void *_handlerArg), \ + (fd, extension, writer, writerArg, \ + handler, handlerArg)) + +/* + * Setup the anti-replay buffer for supporting 0-RTT in TLS 1.3 on servers. + * + * To use 0-RTT on a server, you must call this function. Failing to call this + * function will result in all 0-RTT being rejected. Connections will complete, + * but early data will be rejected. + * + * NSS uses a Bloom filter to track the ClientHello messages that it receives + * (specifically, it uses the PSK binder). This function initializes a pair of + * Bloom filters. The two filters are alternated over time, with new + * ClientHello messages recorded in the current filter and, if they are not + * already present, being checked against the previous filter. If the + * ClientHello is found, then early data is rejected, but the handshake is + * allowed to proceed. + * + * The false-positive probability of Bloom filters means that some valid + * handshakes will be marked as potential replays. Early data will be rejected + * for a false positive. To minimize this and to allow a trade-off of space + * against accuracy, the size of the Bloom filter can be set by this function. + * + * The first tuning parameter to consider is |window|, which determines the + * window over which ClientHello messages will be tracked. This also causes + * early data to be rejected if a ClientHello contains a ticket age parameter + * that is outside of this window (see Section 4.2.10.4 of + * draft-ietf-tls-tls13-20 for details). Set |window| to account for any + * potential sources of clock error. |window| is the entire width of the + * window, which is symmetrical. Therefore to allow 5 seconds of clock error in + * both directions, set the value to 10 seconds (i.e., 10 * PR_USEC_PER_SEC). + * + * After calling this function, early data will be rejected until |window| + * elapses. This prevents replay across crashes and restarts. Only call this + * function once to avoid inadvertently disabling 0-RTT (use PR_CallOnce() to + * avoid this problem). + * + * The primary tuning parameter is |bits| which determines the amount of memory + * allocated to each Bloom filter. NSS will allocate two Bloom filters, each + * |2^(bits - 3)| octets in size. The value of |bits| is primarily driven by + * the number of connections that are expected in any time window. Note that + * this needs to account for there being two filters both of which have + * (presumably) independent false positive rates. The following formulae can be + * used to find a value of |bits| and |k| given a chosen false positive + * probability |p| and the number of requests expected in a given window |n|: + * + * bits = log2(n) + log2(-ln(1 - sqrt(1 - p))) + 1.0575327458897952 + * k = -log2(p) + * + * ... where log2 and ln are base 2 and e logarithms respectively. For a target + * false positive rate of 1% and 1000 handshake attempts, this produces bits=14 + * and k=7. This results in two Bloom filters that are 2kB each in size. Note + * that rounding |k| and |bits| up causes the false positive probability for + * these values to be a much lower 0.123%. + * + * IMPORTANT: This anti-replay scheme has several weaknesses. See the TLS 1.3 + * specification for the details of the generic problems with this technique. + * + * In addition to the generic anti-replay weaknesses, the state that the server + * maintains is in local memory only. Servers that operate in a cluster, even + * those that use shared memory for tickets, will not share anti-replay state. + * Early data can be replayed at least once with every server instance that will + * accept tickets that are encrypted with the same key. + */ +#define SSL_SetupAntiReplay(window, k, bits) \ + SSL_EXPERIMENTAL_API("SSL_SetupAntiReplay", \ + (PRTime _window, unsigned int _k, unsigned int _bits), \ + (window, k, bits)) + +/* + * This function allows a server application to generate a session ticket that + * will embed the provided token. + * + * This function will cause a NewSessionTicket message to be sent by a server. + * This happens even if SSL_ENABLE_SESSION_TICKETS is disabled. This allows a + * server to suppress the usually automatic generation of a session ticket at + * the completion of the handshake - which do not include any token - and to + * control when session tickets are transmitted. + * + * This function will fail unless the socket has an active TLS 1.3 session. + * Earlier versions of TLS do not support the spontaneous sending of the + * NewSessionTicket message. + */ +#define SSL_SendSessionTicket(fd, appToken, appTokenLen) \ + SSL_EXPERIMENTAL_API("SSL_SendSessionTicket", \ + (PRFileDesc * _fd, const PRUint8 *_appToken, \ + unsigned int _appTokenLen), \ + (fd, appToken, appTokenLen)) + +/* + * A stateless retry handler gives an application some control over NSS handling + * of ClientHello messages. + * + * SSL_HelloRetryRequestCallback() installs a callback that allows an + * application to control how NSS sends HelloRetryRequest messages. This + * handler is only used on servers and will only be called if the server selects + * TLS 1.3. Support for older TLS versions could be added in other releases. + * + * The SSLHelloRetryRequestCallback is invoked during the processing of a + * TLS 1.3 ClientHello message. It takes the following arguments: + * + * - |firstHello| indicates if the NSS believes that this is an initial + * ClientHello. An initial ClientHello will never include a cookie extension, + * though it may contain a session ticket. + * + * - |clientToken| includes a token previously provided by the application. If + * |clientTokenLen| is 0, then |clientToken| may be NULL. + * + * - If |firstHello| is PR_FALSE, the value that was provided in the + * |retryToken| outparam of previous invocations of this callback will be + * present here. + * + * - If |firstHello| is PR_TRUE, and the handshake is resuming a session, then + * this will contain any value that was passed in the |token| parameter of + * SSL_SendNewSessionTicket() method (see below). If this is not resuming a + * session, then the token will be empty (and this value could be NULL). + * + * - |clientTokenLen| is the length of |clientToken|. + * + * - |retryToken| is an item that callback can write to. This provides NSS with + * a token. This token is encrypted and integrity protected and embedded in + * the cookie extension of a HelloRetryRequest. The value of this field is + * only used if the handler returns ssl_stateless_retry_check. NSS allocates + * space for this value. + * + * - |retryTokenLen| is an outparam for the length of the token. If this value + * is not set, or set to 0, an empty token will be sent. + * + * - |retryTokenMax| is the size of the space allocated for retryToken. An + * application cannot write more than this many bytes to retryToken. + * + * - |arg| is the same value that was passed to + * SSL_InstallStatelessRetryHandler(). + * + * The handler can validate any the value of |clientToken|, query the socket + * status (using SSL_GetPreliminaryChannelInfo() for example) and decide how to + * proceed: + * + * - Returning ssl_hello_retry_fail causes the handshake to fail. This might be + * used if the token is invalid or the application wishes to abort the + * handshake. + * + * - Returning ssl_hello_retry_accept causes the handshake to proceed. + * + * - Returning ssl_hello_retry_request causes NSS to send a HelloRetryRequest + * message and request a second ClientHello. NSS generates a cookie extension + * and embeds the value of |retryToken|. The value of |retryToken| value may + * be left empty if the application does not require any additional context to + * validate a second ClientHello attempt. This return code cannot be used to + * reject a second ClientHello (i.e., when firstHello is PR_FALSE); NSS will + * abort the handshake if this value is returned from a second call. + * + * An application that chooses to perform a stateless retry can discard the + * server socket. All necessary state to continue the TLS handshake will be + * included in the cookie extension. This makes it possible to use a new socket + * to handle the remainder of the handshake. The existing socket can be safely + * discarded. + * + * If the same socket is retained, the information in the cookie will be checked + * for consistency against the existing state of the socket. Any discrepancy + * will result in the connection being closed. + * + * Tokens should be kept as small as possible. NSS sets a limit on the size of + * tokens, which it passes in |retryTokenMax|. Depending on circumstances, + * observing a smaller limit might be desirable or even necessary. For + * instance, having HelloRetryRequest and ClientHello fit in a single packet has + * significant performance benefits. + */ +typedef enum { + ssl_hello_retry_fail, + ssl_hello_retry_accept, + ssl_hello_retry_request +} SSLHelloRetryRequestAction; + +typedef SSLHelloRetryRequestAction(PR_CALLBACK *SSLHelloRetryRequestCallback)( + PRBool firstHello, const PRUint8 *clientToken, unsigned int clientTokenLen, + PRUint8 *retryToken, unsigned int *retryTokenLen, unsigned int retryTokMax, + void *arg); + +#define SSL_HelloRetryRequestCallback(fd, cb, arg) \ + SSL_EXPERIMENTAL_API("SSL_HelloRetryRequestCallback", \ + (PRFileDesc * _fd, \ + SSLHelloRetryRequestCallback _cb, void *_arg), \ + (fd, cb, arg)) + +/* Update traffic keys (TLS 1.3 only). + * + * The |requestUpdate| flag determines whether to request an update from the + * remote peer. + */ +#define SSL_KeyUpdate(fd, requestUpdate) \ + SSL_EXPERIMENTAL_API("SSL_KeyUpdate", \ + (PRFileDesc * _fd, PRBool _requestUpdate), \ + (fd, requestUpdate)) + +#define SSL_UseAltServerHelloType(fd, enable) \ + SSL_DEPRECATED_EXPERIMENTAL_API + +SEC_END_PROTOS + +#endif /* __sslexp_h_ */ |