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|
/*
* Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License").
* You may not use this file except in compliance with the License.
* A copy of the License is located at
*
* http://aws.amazon.com/apache2.0
*
* or in the "license" file accompanying this file. This file is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either
* express or implied. See the License for the specific language governing
* permissions and limitations under the License.
*/
/**
* @file s2n.h
* s2n-tls is a C99 implementation of the TLS/SSL protocols that is designed to
* be simple, small, fast, and with security as a priority. <br> It is released and
* licensed under the Apache License 2.0.
*/
#pragma once
#if ((__GNUC__ >= 4) || defined(__clang__)) && defined(S2N_EXPORTS)
/**
* Marks a function as belonging to the public s2n API.
*/
#define S2N_API __attribute__((visibility("default")))
#else
/**
* Marks a function as belonging to the public s2n API.
*/
#define S2N_API
#endif /* __GNUC__ >= 4 || defined(__clang__) */
#ifdef __cplusplus
extern "C" {
#endif
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <sys/types.h>
#include <sys/uio.h>
/**
* Function return code
*/
#define S2N_SUCCESS 0
/**
* Function return code
*/
#define S2N_FAILURE -1
/**
* Callback return code
*/
#define S2N_CALLBACK_BLOCKED -2
/**
* s2n minimum supported TLS record major version
*/
#define S2N_MINIMUM_SUPPORTED_TLS_RECORD_MAJOR_VERSION 2
/**
* s2n maximum supported TLS record major version
*/
#define S2N_MAXIMUM_SUPPORTED_TLS_RECORD_MAJOR_VERSION 3
/**
* s2n SSL 2.0 Version Constant
*/
#define S2N_SSLv2 20
/**
* s2n SSL 3.0 Version Constant
*/
#define S2N_SSLv3 30
/**
* s2n TLS 1.0 Version Constant
*/
#define S2N_TLS10 31
/**
* s2n TLS 1.1 Version Constant
*/
#define S2N_TLS11 32
/**
* s2n TLS 1.2 Version Constant
*/
#define S2N_TLS12 33
/**
* s2n TLS 1.3 Version Constant
*/
#define S2N_TLS13 34
/**
* s2n Unknown TLS Version
*/
#define S2N_UNKNOWN_PROTOCOL_VERSION 0
/**
* s2n-tls functions that return 'int' return 0 to indicate success and -1 to indicate
* failure.
*
* s2n-tls functions that return pointer types return NULL in the case of
* failure.
*
* When an s2n-tls function returns a failure, s2n_errno will be set to a value
* corresponding to the error. This error value can be translated into a string
* explaining the error in English by calling s2n_strerror(s2n_errno, "EN").
* A string containing human readable error name; can be generated with `s2n_strerror_name`.
* A string containing internal debug information, including filename and line number, can be generated with `s2n_strerror_debug`.
* This string is useful to include when reporting issues to the s2n-tls development team.
*
* @warning To avoid possible confusion, s2n_errno should be cleared after processing an error: `s2n_errno = S2N_ERR_T_OK`
*/
S2N_API extern __thread int s2n_errno;
/**
* This function can be used instead of trying to resolve `s2n_errno` directly
* in runtimes where thread-local variables may not be easily accessible.
*
* @returns The address of the thread-local `s2n_errno` variable
*/
S2N_API extern int *s2n_errno_location(void);
/**
* Used to help applications determine why an s2n-tls function failed.
*
* This enum is optimized for use in C switch statements. Each value in the enum represents
* an error "category".
*
* s2n-tls organizes errors into different "types" to allow applications to handle error
* values without catching all possibilities. Applications using non-blocking I/O should check
* the error type to determine if the I/O operation failed because it would block or for some other
* error. To retrieve the type for a given error use `s2n_error_get_type()`. Applications should
* perform any error handling logic using these high level types.
*
* See the [Error Handling](https://github.com/aws/s2n-tls/blob/main/docs/USAGE-GUIDE.md#error-handling) section for how the errors should be interpreted.
*/
typedef enum {
/** No error */
S2N_ERR_T_OK = 0,
/** Underlying I/O operation failed, check system errno */
S2N_ERR_T_IO,
/** EOF */
S2N_ERR_T_CLOSED,
/** Underlying I/O operation would block */
S2N_ERR_T_BLOCKED,
/** Incoming Alert */
S2N_ERR_T_ALERT,
/** Failure in some part of the TLS protocol. Ex: CBC verification failure */
S2N_ERR_T_PROTO,
/** Error internal to s2n-tls. A precondition could have failed. */
S2N_ERR_T_INTERNAL,
/** User input error. Ex: Providing an invalid cipher preference version */
S2N_ERR_T_USAGE
} s2n_error_type;
/**
* Gets the category of error from an error.
*
* s2n-tls organizes errors into different "types" to allow applications to do logic on error values without catching all possibilities.
* Applications using non-blocking I/O should check error type to determine if the I/O operation failed because
* it would block or for some other error.
*
* @param error The error from s2n. Usually this is `s2n_errno`.
* @returns An s2n_error_type
*/
S2N_API extern int s2n_error_get_type(int error);
/**
* An opaque configuration object, used by clients and servers for holding cryptographic certificates, keys and preferences.
*/
struct s2n_config;
/**
* An opaque connection. Used to track each s2n connection.
*/
struct s2n_connection;
/**
* Prevents S2N from calling `OPENSSL_init_crypto`/`OPENSSL_cleanup`/`EVP_cleanup` on OpenSSL versions
* prior to 1.1.x. This allows applications or languages that also init OpenSSL to interoperate
* with S2N.
*
* @warning This function must be called BEFORE s2n_init() to have any effect. It will return an error
* if s2n is already initialized.
*
* @note If you disable this and are using a version of OpenSSL/libcrypto < 1.1.x, you will
* be responsible for library init and cleanup (specifically `OPENSSL_add_all_algorithms()`
* or `OPENSSL_init_crypto()`, and EVP_* APIs will not be usable unless the library is initialized.
*
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_crypto_disable_init(void);
/**
* Prevents S2N from installing an atexit handler, which allows safe shutdown of S2N from within a
* re-entrant shared library
*
* @warning This function must be called BEFORE s2n_init() to have any effect. It will return an error
* if s2n is already initialized.
*
* @note This will cause `s2n_cleanup` to do complete cleanup of s2n-tls when called from the main
* thread (the thread `s2n_init` was called from).
*
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_disable_atexit(void);
/**
* Fetches the OpenSSL version s2n-tls was compiled with. This can be used by applications to validate at runtime
* that the versions of s2n-tls and Openssl that they have loaded are correct.
*
* @returns the version number of OpenSSL that s2n-tls was compiled with
*/
S2N_API extern unsigned long s2n_get_openssl_version(void);
/**
* Initializes the s2n-tls library and should be called once in your application, before any other s2n-tls
* functions are called. Failure to call s2n_init() will result in errors from other s2n-tls functions.
*
* @warning This function is not thread safe and should only be called once.
*
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_init(void);
/**
* Cleans up any internal resources used by s2n-tls. This function should be called from each thread or process
* that is created subsequent to calling `s2n_init` when that thread or process is done calling other s2n-tls functions.
*
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_cleanup(void);
/**
* Create a new s2n_config object. This object can (and should) be associated with many connection objects.
*
* @returns returns a new configuration object suitable for associating certs and keys.
*/
S2N_API extern struct s2n_config *s2n_config_new(void);
/**
* Frees the memory associated with an `s2n_config` object.
*
* @param config The configuration object being freed
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_free(struct s2n_config *config);
/**
* Frees the DH params associated with an `s2n_config` object.
*
* @param config The configuration object with DH params being freed
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_free_dhparams(struct s2n_config *config);
/**
* Frees the certificate chain and key associated with an `s2n_config` object.
*
* @param config The configuration object with DH params being freed
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_free_cert_chain_and_key(struct s2n_config *config);
/**
* Callback function type used to get the system time.
*
* @param void* A pointer to arbitrary data for use within the callback
* @param uint64_t* A pointer that the callback will set to the time in nanoseconds
* The function should return 0 on success and -1 on failure.
*/
typedef int (*s2n_clock_time_nanoseconds)(void *, uint64_t *);
/**
* Cache callback function that allows the caller to retrieve SSL session data
* from a cache.
*
* The callback function takes six arguments:
* a pointer to the s2n_connection object,
* a pointer to arbitrary data for use within the callback,
* a pointer to a key which can be used to retrieve the cached entry,
* a 64 bit unsigned integer specifying the size of this key,
* a pointer to a memory location where the value should be stored,
* and a pointer to a 64 bit unsigned integer specifying the size of this value.
*
* Initially *value_size will be set to the amount of space allocated for the value,
* the callback should set *value_size to the actual size of the data returned.
* If there is insufficient space, -1 should be returned.
* If the cache is not ready to provide data for the request,
* S2N_CALLBACK_BLOCKED should be returned.
*
* This will cause s2n_negotiate() to return S2N_BLOCKED_ON_APPLICATION_INPUT.
*/
typedef int (*s2n_cache_retrieve_callback)(struct s2n_connection *conn, void *, const void *key, uint64_t key_size, void *value, uint64_t *value_size);
/**
* Cache callback function that allows the caller to store SSL session data in a
* cache.
*
* The callback function takes seven arguments:
* a pointer to the s2n_connection object,
* a pointer to arbitrary data for use within the callback,
* a 64-bit unsigned integer specifying the number of seconds the session data may be stored for,
* a pointer to a key which can be used to retrieve the cached entry,
* a 64 bit unsigned integer specifying the size of this key,
* a pointer to a value which should be stored,
* and a 64 bit unsigned integer specified the size of this value.
*/
typedef int (*s2n_cache_store_callback)(struct s2n_connection *conn, void *, uint64_t ttl_in_seconds, const void *key, uint64_t key_size, const void *value, uint64_t value_size);
/**
* Cache callback function that allows the caller to set a callback function
* that will be used to delete SSL session data from a cache.
*
* The callback function takes four arguments:
* a pointer to s2n_connection object,
* a pointer to arbitrary data for use within the callback,
* a pointer to a key which can be used to delete the cached entry,
* and a 64 bit unsigned integer specifying the size of this key.
*/
typedef int (*s2n_cache_delete_callback)(struct s2n_connection *conn, void *, const void *key, uint64_t key_size);
/**
* Allows the caller to set a callback function that will be used to get the
* system time. The time returned should be the number of nanoseconds since the
* Unix epoch (Midnight, January 1st, 1970).
*
* s2n-tls uses this clock for timestamps.
*
* @param config The configuration object being updated
* @param clock_fn The wall clock time callback function
* @param ctx An opaque pointer that the callback will be invoked with
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_wall_clock(struct s2n_config *config, s2n_clock_time_nanoseconds clock_fn, void *ctx);
/**
* Allows the caller to set a callback function that will be used to get
* monotonic time. The monotonic time is the time since an arbitrary, unspecified
* point. Unlike wall clock time, it MUST never move backwards.
*
* s2n-tls uses this clock for timers.
*
* @param config The configuration object being updated
* @param clock_fn The monotonic time callback function
* @param ctx An opaque pointer that the callback will be invoked with
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_monotonic_clock(struct s2n_config *config, s2n_clock_time_nanoseconds clock_fn, void *ctx);
/**
* Translates an s2n_error code to a human readable string explaining the error.
*
* @param error The error code to explain. Usually this is s2n_errno
* @param lang The language to explain the error code. Pass "EN" or NULL for English.
* @returns The error string
*/
S2N_API extern const char *s2n_strerror(int error, const char *lang);
/**
* Translates an s2n_error code to a human readable string containing internal debug
* information, including file name and line number. This function is useful when
* reporting issues to the s2n-tls development team.
*
* @param error The error code to explain. Usually this is s2n_errno
* @param lang The language to explain the error code. Pass "EN" or NULL for English.
* @returns The error string
*/
S2N_API extern const char *s2n_strerror_debug(int error, const char *lang);
/**
* Translates an s2n_error code to a human readable string.
*
* @param error The error code to explain. Usually this is s2n_errno
* @returns The error string
*/
S2N_API extern const char *s2n_strerror_name(int error);
/**
* Opaque stack trace structure.
*/
struct s2n_stacktrace;
/**
* Checks if s2n stack trace captures are enabled.
*
* @returns True if stack traces are enabled. False if they are disabled.
*/
S2N_API extern bool s2n_stack_traces_enabled(void);
/**
* Configures the s2n stack trace captures option.
*
* @param newval Boolean to determine if stack traces should be enabled. True to enable them. False to disable them.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_stack_traces_enabled_set(bool newval);
/**
* Calculates the s2n stack trace.
*
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_calculate_stacktrace(void);
/**
* Prints the s2n stack trace to a file. The file descriptor is expected to be
* open and ready for writing.
*
* @param fptr A pointer to the file s2n-tls should write the stack trace to.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_print_stacktrace(FILE *fptr);
/**
* Clean up the memory used to contain the stack trace.
*
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_free_stacktrace(void);
/**
* Export the s2n_stacktrace.
*
* @param trace A pointer to the s2n_stacktrace to fill.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_get_stacktrace(struct s2n_stacktrace *trace);
/**
* Allows the caller to set a callback function that will be used to store SSL
* session data in a cache.
*
* @param config The configuration object being updated
* @param cache_store_callback The cache store callback function.
* @param data An opaque context pointer that the callback will be invoked with.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_cache_store_callback(struct s2n_config *config, s2n_cache_store_callback cache_store_callback, void *data);
/**
* Allows the caller to set a callback function that will be used to retrieve SSL
* session data from a cache.
*
* @param config The configuration object being updated
* @param cache_retrieve_callback The cache retrieve callback function.
* @param data An opaque context pointer that the callback will be invoked with.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_cache_retrieve_callback(struct s2n_config *config, s2n_cache_retrieve_callback cache_retrieve_callback, void *data);
/**
* Allows the caller to set a callback function that will be used to delete SSL
* session data from a cache.
*
* @param config The configuration object being updated
* @param cache_delete_callback The cache delete callback function.
* @param data An opaque context pointer that the callback will be invoked with.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_cache_delete_callback(struct s2n_config *config, s2n_cache_delete_callback cache_delete_callback, void *data);
/**
* Called when `s2n_init` is executed.
*/
typedef int (*s2n_mem_init_callback)(void);
/**
* Will be called when `s2n_cleanup` is executed.
*/
typedef int (*s2n_mem_cleanup_callback)(void);
/**
* A function that can allocate at least `requested` bytes of memory.
*
* It stores the location of that memory in **\*ptr** and the size of the allocated
* data in **\*allocated**. The function may choose to allocate more memory
* than was requested. s2n-tls will consider all allocated memory available for
* use, and will attempt to free all allocated memory when able.
*/
typedef int (*s2n_mem_malloc_callback)(void **ptr, uint32_t requested, uint32_t *allocated);
/**
* Frees memory allocated by s2n_mem_malloc_callback.
*/
typedef int (*s2n_mem_free_callback)(void *ptr, uint32_t size);
/**
* Allows the caller to override s2n-tls's internal memory handling functions.
*
* @warning This function must be called before s2n_init().
*
* @param mem_init_callback The s2n_mem_init_callback
* @param mem_cleanup_callback The s2n_mem_cleanup_callback
* @param mem_malloc_callback The s2n_mem_malloc_callback
* @param mem_free_callback The s2n_mem_free_callback
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_mem_set_callbacks(s2n_mem_init_callback mem_init_callback, s2n_mem_cleanup_callback mem_cleanup_callback,
s2n_mem_malloc_callback mem_malloc_callback, s2n_mem_free_callback mem_free_callback);
/**
* A callback function that will be called when s2n-tls is initialized.
*/
typedef int (*s2n_rand_init_callback)(void);
/**
* A callback function that will be called when `s2n_cleanup` is executed.
*/
typedef int (*s2n_rand_cleanup_callback)(void);
/**
* A callback function that will be used to provide entropy to the s2n-tls
* random number generators.
*/
typedef int (*s2n_rand_seed_callback)(void *data, uint32_t size);
/**
* A callback function that will be used to mix in entropy every time the RNG
* is invoked.
*/
typedef int (*s2n_rand_mix_callback)(void *data, uint32_t size);
/**
* Allows the caller to override s2n-tls's entropy functions.
*
* @warning This function must be called before s2n_init().
*
* @param rand_init_callback The s2n_rand_init_callback
* @param rand_cleanup_callback The s2n_rand_cleanup_callback
* @param rand_seed_callback The s2n_rand_seed_callback
* @param rand_mix_callback The s2n_rand_mix_callback
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_rand_set_callbacks(s2n_rand_init_callback rand_init_callback, s2n_rand_cleanup_callback rand_cleanup_callback,
s2n_rand_seed_callback rand_seed_callback, s2n_rand_mix_callback rand_mix_callback);
/**
* TLS extensions supported by s2n-tls
*/
typedef enum {
S2N_EXTENSION_SERVER_NAME = 0,
S2N_EXTENSION_MAX_FRAG_LEN = 1,
S2N_EXTENSION_OCSP_STAPLING = 5,
S2N_EXTENSION_SUPPORTED_GROUPS = 10,
S2N_EXTENSION_EC_POINT_FORMATS = 11,
S2N_EXTENSION_SIGNATURE_ALGORITHMS = 13,
S2N_EXTENSION_ALPN = 16,
S2N_EXTENSION_CERTIFICATE_TRANSPARENCY = 18,
S2N_EXTENSION_RENEGOTIATION_INFO = 65281,
} s2n_tls_extension_type;
/**
* MFL configurations from https://datatracker.ietf.org/doc/html/rfc6066#section-4.
*/
typedef enum {
S2N_TLS_MAX_FRAG_LEN_512 = 1,
S2N_TLS_MAX_FRAG_LEN_1024 = 2,
S2N_TLS_MAX_FRAG_LEN_2048 = 3,
S2N_TLS_MAX_FRAG_LEN_4096 = 4,
} s2n_max_frag_len;
/**
* Opaque certificate type.
*/
struct s2n_cert;
/**
* Opaque certificate chain and key type.
*/
struct s2n_cert_chain_and_key;
/**
* Opaque key type.
*/
struct s2n_pkey;
/**
* Opaque public key type.
*/
typedef struct s2n_pkey s2n_cert_public_key;
/**
* Opaque private key type.
*/
typedef struct s2n_pkey s2n_cert_private_key;
/**
* Creates a new s2n_cert_chain_and_key object. This object can be associated
* with many config objects. It is used to represent a certificate and key pair.
*
* @returns A new object used to represent a certificate-chain/key pair
*/
S2N_API extern struct s2n_cert_chain_and_key *s2n_cert_chain_and_key_new(void);
/**
* Associates a certificate chain and private key with an `s2n_cert_chain_and_key` object.
*
* `cert_chain_pem` should be a PEM encoded certificate chain, with the first
* certificate in the chain being your leaf certificate. `private_key_pem`
* should be a PEM encoded private key corresponding to the leaf certificate.
*
* @note Prefer using s2n_cert_chain_and_key_load_pem_bytes.
*
* @param chain_and_key The certificate chain and private key handle
* @param chain_pem A byte array of a PEM encoded certificate chain.
* @param private_key_pem A byte array of a PEM encoded key.
*
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_cert_chain_and_key_load_pem(struct s2n_cert_chain_and_key *chain_and_key, const char *chain_pem, const char *private_key_pem);
/**
* Associates a certificate chain and private key with an `s2n_cert_chain_and_key` object.
*
* `cert_chain_pem` should be a PEM encoded certificate chain, with the first
* certificate in the chain being your leaf certificate. `private_key_pem`
* should be a PEM encoded private key corresponding to the leaf certificate.
*
* @param chain_and_key The certificate chain and private key handle
* @param chain_pem A byte array of a PEM encoded certificate chain.
* @param chain_pem_len Size of `chain_pem`
* @param private_key_pem A byte array of a PEM encoded key.
* @param private_key_pem_len Size of `private_key_pem`
*
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_cert_chain_and_key_load_pem_bytes(struct s2n_cert_chain_and_key *chain_and_key, uint8_t *chain_pem, uint32_t chain_pem_len, uint8_t *private_key_pem, uint32_t private_key_pem_len);
/**
* Associates a public certificate chain with a `s2n_cert_chain_and_key` object. It does
* NOT set a private key, so the connection will need to be configured to
* [offload private key operations](https://github.com/aws/s2n-tls/blob/main/docs/USAGE-GUIDE.md#offloading-asynchronous-private-key-operations).
*
* @param chain_and_key The certificate chain and private key handle
* @param chain_pem A byte array of a PEM encoded certificate chain.
* @param chain_pem_len Size of `chain_pem`
*
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_cert_chain_and_key_load_public_pem_bytes(struct s2n_cert_chain_and_key *chain_and_key, uint8_t *chain_pem, uint32_t chain_pem_len);
/**
* Frees the memory associated with an `s2n_cert_chain_and_key` object.
*
* @param cert_and_key The certificate chain and private key handle
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_cert_chain_and_key_free(struct s2n_cert_chain_and_key *cert_and_key);
/**
* Adds a context to the `s2n_cert_chain_and_key` object.
*
* @param cert_and_key The certificate chain and private key handle
* @param ctx An opaque pointer to user supplied data.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_cert_chain_and_key_set_ctx(struct s2n_cert_chain_and_key *cert_and_key, void *ctx);
/**
* Get the user supplied context from the `s2n_cert_chain_and_key` object.
*
* @param cert_and_key The certificate chain and private key handle
* @returns The user supplied pointer from s2n_cert_chain_and_key_set_ctx()
*/
S2N_API extern void *s2n_cert_chain_and_key_get_ctx(struct s2n_cert_chain_and_key *cert_and_key);
/**
* Get the private key from the `s2n_cert_chain_and_key` object.
*
* @param cert_and_key The certificate chain and private key handle
* @returns A pointer to the `s2n_cert_private_key`
*/
S2N_API extern s2n_cert_private_key *s2n_cert_chain_and_key_get_private_key(struct s2n_cert_chain_and_key *cert_and_key);
/**
* Set the raw OCSP stapling data for a certificate chain.
*
* @param chain_and_key The certificate chain handle
* @param data A pointer to the raw OCSP stapling data bytes. The data will be copied.
* @param length The length of the data bytes.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_cert_chain_and_key_set_ocsp_data(struct s2n_cert_chain_and_key *chain_and_key, const uint8_t *data, uint32_t length);
/**
* Set the signed certificate timestamp (SCT) for a certificate chain.
* This is used for Certificate Transparency.
*
* @param chain_and_key The certificate chain handle
* @param data A pointer to the SCT data. The data will be copied.
* @param length The length of the data bytes.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_cert_chain_and_key_set_sct_list(struct s2n_cert_chain_and_key *chain_and_key, const uint8_t *data, uint32_t length);
/**
* A callback function that is invoked if s2n-tls cannot resolve a conflict between
* two certificates with the same domain name. This function is invoked while certificates
* are added to an `s2n_config`.
*
* Currently, the only builtin resolution for domain name conflicts is certificate type(RSA,
* ECDSA, etc). The callback should return a pointer to the `s2n_cert_chain_and_key` that
* should be used for dns name `name`.
*
* If NULL is returned, the first certificate will be used. Typically an application
* will use properties like trust and expiry to implement tiebreaking.
*/
typedef struct s2n_cert_chain_and_key *(*s2n_cert_tiebreak_callback)(struct s2n_cert_chain_and_key *cert1, struct s2n_cert_chain_and_key *cert2, uint8_t *name, uint32_t name_len);
/**
* Sets the `s2n_cert_tiebreak_callback` for resolving domain name conflicts.
* If no callback is set, the first certificate added for a domain name will always be preferred.
*
* @param config The configuration object being updated
* @param cert_tiebreak_cb The pointer to the certificate tiebreak function
*
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_cert_tiebreak_callback(struct s2n_config *config, s2n_cert_tiebreak_callback cert_tiebreak_cb);
/**
* Associates a certificate chain and private key with an `s2n_config` object.
* Using this API, only one cert chain of each type (like ECDSA or RSA) may be associated with a config.
* `cert_chain_pem` should be a PEM encoded certificate chain, with the first certificate
* in the chain being your server's certificate. `private_key_pem` should be a
* PEM encoded private key corresponding to the server certificate.
*
* @deprecated Use s2n_config_add_cert_chain_and_key_to_store instead.
*
* @param config The configuration object being updated
* @param cert_chain_pem A byte array of a PEM encoded certificate chain.
* @param private_key_pem A byte array of a PEM encoded key.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure.
*/
S2N_API extern int s2n_config_add_cert_chain_and_key(struct s2n_config *config, const char *cert_chain_pem, const char *private_key_pem);
/**
* The preferred method of associating a certificate chain and private key pair with an `s2n_config` object.
* This method may be called multiple times to support multiple key types(RSA, ECDSA) and multiple domains.
* On the server side, the certificate selected will be based on the incoming SNI value and the
* client's capabilities(supported ciphers).
*
* In the case of no certificate matching the client's SNI extension or if no SNI extension was sent by
* the client, the certificate from the `first` call to `s2n_config_add_cert_chain_and_key_to_store`
* will be selected.
*
* @warning It is not recommended to free or modify the `cert_key_pair` as any subsequent changes will be
* reflected in the config.
*
* @param config The configuration object being updated
* @param cert_key_pair The certificate chain and private key handle
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_add_cert_chain_and_key_to_store(struct s2n_config *config, struct s2n_cert_chain_and_key *cert_key_pair);
/**
* Explicitly sets certificate chain and private key pairs to be used as defaults for each auth
* method (key type). A "default" certificate is used when there is not an SNI match with any other
* configured certificate.
*
* Only one certificate can be set as the default per auth method (one RSA default, one ECDSA default,
* etc.). All previous default certificates will be cleared and re-set when this API is called.
*
* This API is called for a specific `s2n_config` object. s2n-tls will attempt to automatically choose
* default certificates for each auth method (key type) based on the order that `s2n_cert_chain_and_key`
* are added to the `s2n_config` using one of the APIs listed above.
* `s2n_config_set_cert_chain_and_key_defaults` can be called at any time; s2n-tls will clear defaults
* and no longer attempt to automatically choose any default certificates.
*
* @param config The configuration object being updated
* @param cert_key_pairs An array of certificate chain and private key handles
* @param num_cert_key_pairs The amount of handles in cert_key_pairs
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_cert_chain_and_key_defaults(struct s2n_config *config,
struct s2n_cert_chain_and_key **cert_key_pairs, uint32_t num_cert_key_pairs);
/**
* Adds to the trust store from a CA file or directory containing trusted certificates.
* To completely override those locations, call s2n_config_wipe_trust_store() before calling
* this function.
*
* @note The trust store will be initialized with the common locations for the host
* operating system by default.
* @param config The configuration object being updated
* @param ca_pem_filename A string for the file path of the CA PEM file.
* @param ca_dir A string for the directory of the CA PEM files.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_verification_ca_location(struct s2n_config *config, const char *ca_pem_filename, const char *ca_dir);
/**
* Adds a PEM to the trust store. This will allocate memory, and load PEM into the
* Trust Store. Note that the trust store will be initialized with the common locations
* for the host operating system by default. To completely override those locations,
* call s2n_config_wipe_trust_store before calling this function.
*
* @param config The configuration object being updated
* @param pem The string value of the PEM certificate.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_add_pem_to_trust_store(struct s2n_config *config, const char *pem);
/**
* Clear the trust store.
*
* Note that the trust store will be initialized with the common locations for
* the host operating system by default. To completely override those locations,
* call this before functions like `s2n_config_set_verification_ca_location()`
* or `s2n_config_add_pem_to_trust_store()`
*
* @param config The configuration object being updated
*
* @returns 0 on success and -1 on error
*/
S2N_API extern int s2n_config_wipe_trust_store(struct s2n_config *config);
typedef enum {
S2N_VERIFY_AFTER_SIGN_DISABLED,
S2N_VERIFY_AFTER_SIGN_ENABLED
} s2n_verify_after_sign;
/**
* Toggle whether generated signatures are verified before being sent.
*
* Although signatures produced by the underlying libcrypto should always be valid,
* hardware faults, bugs in the signing implementation, or other uncommon factors
* can cause unexpected mistakes in the final signatures. Because these mistakes
* can leak information about the private key, applications with low trust in their
* hardware or libcrypto may want to verify signatures before sending them.
*
* However, this feature will significantly impact handshake latency.
* Additionally, most libcrypto implementations already check for common errors in signatures.
*/
S2N_API extern int s2n_config_set_verify_after_sign(struct s2n_config *config, s2n_verify_after_sign mode);
/**
* Set a custom send buffer size.
*
* This buffer is used to stage records for sending. By default,
* enough memory is allocated to hold a single record of the maximum
* size configured for the connection. With the default fragment size,
* that is about 8K bytes.
*
* Less memory can be allocated for the send buffer, but this will result in
* smaller, more fragmented records and increased overhead. While the absolute
* minimum size required is 1034 bytes, at least 2K bytes is recommended for
* reasonable record sizes.
*
* More memory can be allocated for the send buffer. This will result in s2n-tls
* buffering multiple records before sending them, reducing system write calls.
* At least 17K bytes is recommended for this use case, or at least 35K bytes
* if larger fragment sizes are used via `s2n_connection_prefer_throughput()`.
*
* @param config The configuration object being updated
* @param size The desired custom buffer size.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_send_buffer_size(struct s2n_config *config, uint32_t size);
/**
* Enable or disable recieving of multiple TLS records in a single s2n_recv call
*
* Legacy behavior is to return after reading a single TLS record which may not be the most
* efficient way to invoke this function, especially if larger receive buffers are used.
*
* @param config The configuration object being updated
* @param enabled Set to `true` if multiple record recieve is to be enabled; `false` to disable.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_recv_multi_record(struct s2n_config *config, bool enabled);
/**
* A callback function invoked (usually multiple times) during X.509 validation for each
* name encountered in the leaf certificate.
*
* Return 1 to trust that hostname or 0 to not trust the hostname.
*
* If this function returns 1, then the certificate is considered trusted and that portion
* of the X.509 validation will succeed.
*
* If no hostname results in a 1 being returned, the certificate will be untrusted and the
* validation will terminate immediately.
*
* Data is a opaque user context set in s2n_config_set_verify_host_callback() or s2n_connection_set_verify_host_callback().
*/
typedef uint8_t (*s2n_verify_host_fn)(const char *host_name, size_t host_name_len, void *data);
/**
* Sets the callback to use for verifying that a hostname from an X.509 certificate is trusted.
*
* The default behavior is to require that the hostname match the server name set with s2n_set_server_name().
* This will likely lead to all client certificates being rejected, so the callback will need to be overriden when using
* client authentication.
*
* This change will be inherited by s2n_connections using this config. If a separate callback for different connections
* using the same config is desired, see s2n_connection_set_verify_host_callback().
*
* @param config The configuration object being updated
* @param data A user supplied opaque context to pass back to the callback
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_verify_host_callback(struct s2n_config *config, s2n_verify_host_fn, void *data);
/**
* Toggles whether or not to validate stapled OCSP responses.
*
* 1 means OCSP responses will be validated when they are encountered, while 0 means this step will
* be skipped.
*
* The default value is 1 if the underlying libCrypto implementation supports OCSP.
*
* @param config The configuration object being updated
* @param check_ocsp The desired OCSP response check configuration
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_check_stapled_ocsp_response(struct s2n_config *config, uint8_t check_ocsp);
/**
* Turns off all X.509 validation during the negotiation phase of the connection. This should only
* be used for testing or debugging purposes.
*
* @param config The configuration object being updated
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_disable_x509_verification(struct s2n_config *config);
/**
* Sets the maximum allowed depth of a cert chain used for X509 validation. The default value is
* 7. If this limit is exceeded, validation will fail if s2n_config_disable_x509_verification()
* has not been called. 0 is an illegal value and will return an error.
* 1 means only a root certificate will be used.
*
* @param config The configuration object being updated
* @param max_depth The number of allowed certificates in the certificate chain
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_max_cert_chain_depth(struct s2n_config *config, uint16_t max_depth);
/**
* Associates a set of Diffie-Hellman parameters with an `s2n_config` object.
* @note `dhparams_pem` should be PEM encoded DH parameters.
*
* @param config The configuration object being updated
* @param dhparams_pem A string containing the PEM encoded DH parameters.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_add_dhparams(struct s2n_config *config, const char *dhparams_pem);
/**
* Sets the security policy that includes the cipher/kem/signature/ecc preferences and
* protocol version.
*
* See the [USAGE-GUIDE.md](https://github.com/aws/s2n-tls/blob/main/docs/USAGE-GUIDE.md) for how to use security policies.
*/
S2N_API extern int s2n_config_set_cipher_preferences(struct s2n_config *config, const char *version);
/**
* Appends the provided application protocol to the preference list
*
* The data provided in `protocol` parameter will be copied into an internal buffer
*
* @param config The configuration object being updated
* @param protocol A pointer to a byte array value
* @param protocol_len The length of bytes that should be read from `protocol`. Note: this value cannot be 0, otherwise an error will be returned.
*/
S2N_API extern int s2n_config_append_protocol_preference(struct s2n_config *config, const uint8_t *protocol, uint8_t protocol_len);
/**
* Sets the application protocol preferences on an `s2n_config` object.
* `protocols` is a list in order of preference, with most preferred protocol first, and of
* length `protocol_count`.
*
* When acting as an `S2N_CLIENT` the protocol list is included in the Client Hello message
* as the ALPN extension.
*
* As an `S2N_SERVER`, the list is used to negotiate a mutual application protocol with the
* client. After the negotiation for the connection has completed, the agreed upon protocol
* can be retrieved with s2n_get_application_protocol()
*
* @param config The configuration object being updated
* @param protocols The list of preferred protocols, in order of preference
* @param protocol_count The size of the protocols list
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_protocol_preferences(struct s2n_config *config, const char *const *protocols, int protocol_count);
/**
* Enum used to define the type, if any, of certificate status request
* an S2N_CLIENT should make during the handshake. The only supported status request type is
* OCSP, `S2N_STATUS_REQUEST_OCSP`.
*/
typedef enum {
S2N_STATUS_REQUEST_NONE = 0,
S2N_STATUS_REQUEST_OCSP = 1
} s2n_status_request_type;
/**
* Sets up an S2N_CLIENT to request the server certificate status during an SSL handshake. If set
* to S2N_STATUS_REQUEST_NONE, no status request is made.
*
* @param config The configuration object being updated
* @param type The desired request status type
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_status_request_type(struct s2n_config *config, s2n_status_request_type type);
/**
* Enum to set Certificate Transparency Support level.
*/
typedef enum {
S2N_CT_SUPPORT_NONE = 0,
S2N_CT_SUPPORT_REQUEST = 1
} s2n_ct_support_level;
/**
* Set the Certificate Transparency Support level.
*
* @param config The configuration object being updated
* @param level The desired Certificate Transparency Support configuration
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_ct_support_level(struct s2n_config *config, s2n_ct_support_level level);
/**
* Sets whether or not a connection should terminate on receiving a WARNING alert from its peer.
*
* `alert_behavior` can take the following values:
* - `S2N_ALERT_FAIL_ON_WARNINGS` default behavior: s2n-tls will terminate the connection if its peer sends a WARNING alert.
* - `S2N_ALERT_IGNORE_WARNINGS` - with the exception of `close_notify` s2n-tls will ignore all WARNING alerts and keep communicating with its peer. This setting is ignored in TLS1.3
*
* @note TLS1.3 terminates a connection for all alerts except user_canceled.
* @warning S2N_ALERT_FAIL_ON_WARNINGS is the recommended behavior. Past TLS protocol vulnerabilities have involved downgrading alerts to warnings.
*/
typedef enum {
S2N_ALERT_FAIL_ON_WARNINGS = 0,
S2N_ALERT_IGNORE_WARNINGS = 1
} s2n_alert_behavior;
/**
* Sets the config's alert behavior based on the `s2n_alert_behavior` enum.
*
* @param config The configuration object being updated
* @param alert_behavior The desired alert behavior.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_alert_behavior(struct s2n_config *config, s2n_alert_behavior alert_behavior);
/**
* Sets the extension data in the `s2n_config` object for the specified extension.
* This method will clear any existing data that is set. If the data and length
* parameters are set to NULL, no new data is set in the `s2n_config` object,
* effectively clearing existing data.
*
* @deprecated Use s2n_cert_chain_and_key_set_ocsp_data and s2n_cert_chain_and_key_set_sct_list instead.
*
* @param config The configuration object being updated
* @param type The extension type
* @param data Data for the extension
* @param length Length of the `data` buffer
*/
S2N_API extern int s2n_config_set_extension_data(struct s2n_config *config, s2n_tls_extension_type type, const uint8_t *data, uint32_t length);
/**
* Allows the caller to set a TLS Maximum Fragment Length extension that will be used
* to fragment outgoing messages. s2n-tls currently does not reject fragments larger
* than the configured maximum when in server mode. The TLS negotiated maximum fragment
* length overrides the preference set by the `s2n_connection_prefer_throughput` and
* `s2n_connection_prefer_low_latency`.
*
* @note Some TLS implementations do not respect their peer's max fragment length extension.
*
* @param config The configuration object being updated
* @param mfl_code The selected MFL size
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_send_max_fragment_length(struct s2n_config *config, s2n_max_frag_len mfl_code);
/**
* Allows the server to opt-in to accept client's TLS maximum fragment length extension
* requests. If this API is not called, and client requests the extension, server will ignore
* the request and continue TLS handshake with default maximum fragment length of 8k bytes
*
* @note Some TLS implementations do not respect their peer's max fragment length extension.
*
* @param config The configuration object being updated
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_accept_max_fragment_length(struct s2n_config *config);
/**
* Sets the lifetime of the cached session state. The default value is 15 hours.
*
* @param config The configuration object being updated
* @param lifetime_in_secs The desired lifetime of the session state in seconds
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_session_state_lifetime(struct s2n_config *config, uint64_t lifetime_in_secs);
/**
* Enable or disable session resumption using session ticket.
*
* @param config The configuration object being updated
* @param enabled The configuration object being updated. Set to 1 to enable. Set to 0 to disable.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_session_tickets_onoff(struct s2n_config *config, uint8_t enabled);
/**
* Enable or disable session caching.
*
* @note Session caching will not be turned on unless all three session cache callbacks are set
* prior to calling this function.
*
* @param config The configuration object being updated
* @param enabled The configuration object being updated. Set to 1 to enable. Set to 0 to disable.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_session_cache_onoff(struct s2n_config *config, uint8_t enabled);
/**
* Sets how long a session ticket key will be in a state where it can be used for both encryption
* and decryption of tickets on the server side.
*
* @note The default value is 2 hours.
* @param config The configuration object being updated
* @param lifetime_in_secs The desired lifetime of decrypting and encrypting tickets in seconds
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_ticket_encrypt_decrypt_key_lifetime(struct s2n_config *config, uint64_t lifetime_in_secs);
/**
* Sets how long a session ticket key will be in a state where it can used just for decryption of
* already assigned tickets on the server side. Once decrypted, the session will resume and the
* server will issue a new session ticket encrypted using a key in encrypt-decrypt state.
*
* @note The default value is 13 hours.
* @param config The configuration object being updated
* @param lifetime_in_secs The desired lifetime of decrypting and encrypting tickets in seconds
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_ticket_decrypt_key_lifetime(struct s2n_config *config, uint64_t lifetime_in_secs);
/**
* Adds session ticket key on the server side. It would be ideal to add new keys after every
* (encrypt_decrypt_key_lifetime_in_nanos/2) nanos because this will allow for gradual and
* linear transition of a key from encrypt-decrypt state to decrypt-only state.
*
* @param config The configuration object being updated
* @param name Name of the session ticket key that should be randomly generated to avoid collisions
* @param name_len Length of session ticket key name
* @param key Key used to perform encryption/decryption of session ticket
* @param key_len Length of the session ticket key
* @param intro_time_in_seconds_from_epoch Time at which the session ticket key is introduced. If this is 0, then intro_time_in_seconds_from_epoch is set to now.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_add_ticket_crypto_key(struct s2n_config *config, const uint8_t *name, uint32_t name_len,
uint8_t *key, uint32_t key_len, uint64_t intro_time_in_seconds_from_epoch);
/**
* Sets user defined context on the `s2n_config` object.
*
* @param config The configuration object being updated
* @param ctx A pointer to the user defined ctx.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_ctx(struct s2n_config *config, void *ctx);
/**
* Gets the user defined context from the `s2n_config` object.
* The context is set by calling s2n_config_set_ctx()
*
* @param config The configuration object being accessed
* @param ctx A pointer to the user defined ctx.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_get_ctx(struct s2n_config *config, void **ctx);
/**
* Used to declare connections as server or client type, respectively.
*/
typedef enum {
S2N_SERVER,
S2N_CLIENT
} s2n_mode;
/**
* Creates a new connection object. Each s2n-tls SSL/TLS connection uses
* one of these objects. These connection objects can be operated on by up
* to two threads at a time, one sender and one receiver, but neither sending
* nor receiving are atomic, so if these objects are being called by multiple
* sender or receiver threads, you must perform your own locking to ensure
* that only one sender or receiver is active at a time.
*
* The `mode` parameters specifies if the caller is a server, or is a client.
* Connections objects are re-usable across many connections, and should be
* re-used (to avoid deallocating and allocating memory). You should wipe
* connections immediately after use.
*
* @param mode The desired connection type
* @returns A s2n_connection handle
*/
S2N_API extern struct s2n_connection *s2n_connection_new(s2n_mode mode);
/**
* Associates a configuration object with a connection.
*
* @param conn The connection object being associated
* @param config The configuration object being associated
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_set_config(struct s2n_connection *conn, struct s2n_config *config);
/**
* Sets user defined context in `s2n_connection` object.
*
* @param conn The connection object being updated
* @param ctx A pointer to the user defined context
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_set_ctx(struct s2n_connection *conn, void *ctx);
/**
* Gets user defined context from a `s2n_connection` object.
*
* @param conn The connection object that contains the desired context
*/
S2N_API extern void *s2n_connection_get_ctx(struct s2n_connection *conn);
/**
* The callback function takes a s2n-tls connection as input, which receives the ClientHello
* and the context previously provided in `s2n_config_set_client_hello_cb`. The callback can
* access any ClientHello information from the connection and use the `s2n_connection_set_config`
* call to change the config of the connection.
*/
typedef int s2n_client_hello_fn(struct s2n_connection *conn, void *ctx);
/**
* Client Hello callback modes
* - `S2N_CLIENT_HELLO_CB_BLOCKING` (default):
* - In this mode s2n-tls expects the callback to complete its work and return the appropriate response code before the handshake continues. If any of the connection properties were changed based on the server_name extension the callback must either return a value greater than 0 or invoke `s2n_connection_server_name_extension_used`, otherwise the callback returns 0 to continue the handshake.
* - `S2N_CLIENT_HELLO_CB_NONBLOCKING`:
* - In non-blocking mode, s2n-tls expects the callback to not complete its work. If the callback returns a response code of 0, s2n-tls will return `S2N_FAILURE` with `S2N_ERR_T_BLOCKED` error type and `s2n_blocked_status` set to `S2N_BLOCKED_ON_APPLICATION_INPUT`. The handshake is paused and further calls to `s2n_negotiate` will continue to return the same error until `s2n_client_hello_cb_done` is invoked for the `s2n_connection` to resume the handshake. If any of the connection properties were changed on the basis of the server_name extension then `s2n_connection_server_name_extension_used` must be invoked before marking the callback done.
*/
typedef enum {
S2N_CLIENT_HELLO_CB_BLOCKING,
S2N_CLIENT_HELLO_CB_NONBLOCKING
} s2n_client_hello_cb_mode;
/**
* Allows the caller to set a callback function that will be called after ClientHello was parsed.
*
* @param config The configuration object being updated
* @param client_hello_callback The client hello callback function
* @param ctx A pointer to a user defined context that the Client Hello callback will be invoked with.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_client_hello_cb(struct s2n_config *config, s2n_client_hello_fn client_hello_callback, void *ctx);
/**
* Sets the callback execution mode.
*
* See s2n_client_hello_cb_mode for each mode's behavior.
*
* @param config The configuration object being updated
* @param cb_mode The desired callback mode
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_client_hello_cb_mode(struct s2n_config *config, s2n_client_hello_cb_mode cb_mode);
/**
* Marks the non-blocking callback as complete. Can be invoked from within the callback when
* operating in non-blocking mode to continue the handshake.
*
* @param conn The connection object being updated
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_client_hello_cb_done(struct s2n_connection *conn);
/**
* Must be invoked if any of the connection properties were changed on the basis of the server_name
* extension. This must be invoked before marking the Client Hello callback done.
*
* @param conn The connection object being updated
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_server_name_extension_used(struct s2n_connection *conn);
/**
* Opaque client hello handle
*/
struct s2n_client_hello;
/**
* Get the Client Hello from a s2n_connection.
*
* Earliest point during the handshake when this structure is available for use is in the
* client_hello_callback (see s2n_config_set_client_hello_cb()).
*
* @param conn The connection object containing the client hello
* @returns A handle to the s2n_client_hello structure holding the client hello message sent by the client during the handshake. NULL is returned if a Client Hello has not yet been received and parsed.
*/
S2N_API extern struct s2n_client_hello *s2n_connection_get_client_hello(struct s2n_connection *conn);
/**
* Function to determine the size of the raw Client Hello buffer.
*
* Can be used to determine the necessary size of the `out` buffer for
* s2n_client_hello_get_raw_message()
*
* @param ch The Client Hello handle
* @returns The size of the ClientHello message received by the server
*/
S2N_API extern ssize_t s2n_client_hello_get_raw_message_length(struct s2n_client_hello *ch);
/**
* Copies `max_length` bytes of the ClientHello message into the `out` buffer.
* The ClientHello instrumented using this function will have the Random bytes
* zero-ed out. For SSLv2 ClientHello messages, the raw message contains only
* the cipher_specs, session_id and members portions of the hello message
* (see [RFC5246](https://tools.ietf.org/html/rfc5246#appendix-E.2)). To access other
* members, you may use s2n_connection_get_client_hello_version(),
* s2n_connection_get_client_protocol_version() and s2n_connection_get_session_id_length()
* accessors functions.
*
* @param ch The Client Hello handle
* @param out The destination buffer for the raw Client Hello
* @param max_length The size of out in bytes
* @returns The number of copied bytes
*/
S2N_API extern ssize_t s2n_client_hello_get_raw_message(struct s2n_client_hello *ch, uint8_t *out, uint32_t max_length);
/**
* Function to determine the size of the Client Hello cipher suites.
* This can be used to allocate the `out` buffer for s2n_client_hello_get_cipher_suites().
*
* @param ch The Client Hello handle
* @returns the number of bytes the cipher_suites takes on the ClientHello message received by the server
*/
S2N_API extern ssize_t s2n_client_hello_get_cipher_suites_length(struct s2n_client_hello *ch);
/**
* Copies into the `out` buffer `max_length` bytes of the cipher_suites on the ClientHello.
*
* @param ch The Client Hello handle
* @param out The destination buffer for the raw Client Hello cipher suites
* @param max_length The size of out in bytes
* @returns The number of copied bytes
*/
S2N_API extern ssize_t s2n_client_hello_get_cipher_suites(struct s2n_client_hello *ch, uint8_t *out, uint32_t max_length);
/**
* Function to determine the size of the Client Hello extensions.
* This can be used to allocate the `out` buffer for s2n_client_hello_get_extensions().
*
* @param ch The Client Hello handle
* @returns the number of bytes the extensions take in the ClientHello message received by the server
*/
S2N_API extern ssize_t s2n_client_hello_get_extensions_length(struct s2n_client_hello *ch);
/**
* Copies into the `out` buffer `max_length` bytes of the extensions in the ClientHello.
*
* @param ch The Client Hello handle
* @param out The destination buffer for the raw Client Hello extensions
* @param max_length The size of out in bytes
* @returns The number of copied bytes
*/
S2N_API extern ssize_t s2n_client_hello_get_extensions(struct s2n_client_hello *ch, uint8_t *out, uint32_t max_length);
/**
* Query the ClientHello message received by the server. Use this function to allocate the `out` buffer for
* other client hello extension functions.
*
* @param ch A pointer to the Client Hello
* @param extension_type Indicates the desired extension
* @returns The number of bytes the given extension type takes
*/
S2N_API extern ssize_t s2n_client_hello_get_extension_length(struct s2n_client_hello *ch, s2n_tls_extension_type extension_type);
/**
* Copies into the `out` buffer `max_length` bytes of a given extension type on the ClientHello
*
* `ch` is a pointer to the `s2n_client_hello` of the `s2n_connection` which can be obtained using s2n_connection_get_client_hello().
*
* @param ch A pointer to the Client Hello
* @param extension_type Indicates the desired extension
* @param out A pointer to the buffer that s2n will write the client session id to. This buffer MUST be the size of `max_length`
* @param max_length The size of `out`.
* @returns The number of copied bytes
*/
S2N_API extern ssize_t s2n_client_hello_get_extension_by_id(struct s2n_client_hello *ch, s2n_tls_extension_type extension_type, uint8_t *out, uint32_t max_length);
/**
* Used to check if a particular extension exists in the client hello.
*
* `ch` is a pointer to the `s2n_client_hello` of the `s2n_connection` which can be obtained using s2n_connection_get_client_hello().
*
* @param ch A pointer to the client hello object
* @param extension_iana The iana value of the extension
* @param exists A pointer that will be set to whether or not the extension exists
*/
S2N_API extern int s2n_client_hello_has_extension(struct s2n_client_hello *ch, uint16_t extension_iana, bool *exists);
/**
* Get the the ClientHello session id length in bytes
*
* `ch` is a pointer to the `s2n_client_hello` of the `s2n_connection` which can be obtained using s2n_connection_get_client_hello().
*
* @param ch A pointer to the Client Hello
* @param out_length An out pointer. s2n will set it's value to the size of the session_id in bytes.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_client_hello_get_session_id_length(struct s2n_client_hello *ch, uint32_t *out_length);
/**
* Copies up to `max_length` bytes of the ClientHello session_id into the `out` buffer and stores the number of copied bytes in `out_length`.
*
* Retrieve the session id as sent by the client in the ClientHello message. The session id on the `s2n_connection` may change later
* when the server sends the ServerHello; see `s2n_connection_get_session_id` for how to get the final session id used for future session resumption.
*
* Use s2n_client_hello_get_session_id_length() to get the the ClientHello session id length in bytes. `ch` is a pointer to the `s2n_client_hello`
* of the `s2n_connection` which can be obtained using s2n_connection_get_client_hello().
*
* @param ch A pointer to the Client Hello
* @param out A pointer to the buffer that s2n will write the client session id to. This buffer MUST be the size of `max_length`
* @param out_length An out pointer. s2n will set it's value to the size of the session_id in bytes.
* @param max_length The size of `out`.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_client_hello_get_session_id(struct s2n_client_hello *ch, uint8_t *out, uint32_t *out_length, uint32_t max_length);
/**
* Sets the file descriptor for a s2n connection.
*
* @warning If the read end of the pipe is closed unexpectedly, writing to the pipe will raise a SIGPIPE signal.
* **s2n-tls does NOT handle SIGPIPE.** A SIGPIPE signal will cause the process to terminate unless it is handled
* or ignored by the application.
* @note This file-descriptor should be active and connected
* @param conn A pointer to the s2n connection
* @param fd The new file descriptor
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_set_fd(struct s2n_connection *conn, int fd);
/**
* Sets the file descriptor for the read channel of an s2n connection.
*
* @warning If the read end of the pipe is closed unexpectedly, writing to the pipe will raise a SIGPIPE signal.
* **s2n-tls does NOT handle SIGPIPE.** A SIGPIPE signal will cause the process to terminate unless it is handled
* or ignored by the application.
* @note This file-descriptor should be active and connected
* @param conn A pointer to the s2n connection
* @param readfd The new read file descriptor
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_set_read_fd(struct s2n_connection *conn, int readfd);
/**
* Sets the assigned file descriptor for the write channel of an s2n connection.
*
* @note This file-descriptor should be active and connected
* @param conn A pointer to the s2n connection
* @param writefd The new write file descriptor
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_set_write_fd(struct s2n_connection *conn, int writefd);
/**
* Gets the assigned file descriptor for the read channel of an s2n connection.
*
* @param conn A pointer to the s2n connection
* @param readfd pointer to place the used file descriptor.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_get_read_fd(struct s2n_connection *conn, int *readfd);
/**
* Gets the assigned file descriptor for the write channel of an s2n connection.
*
* @param conn A pointer to the s2n connection
* @param writefd pointer to place the used file descriptor.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_get_write_fd(struct s2n_connection *conn, int *writefd);
/**
* Indicates to s2n that the connection is using corked IO.
*
* @warning This API should only be used when using managed send IO.
*
* @param conn The connection object being updated
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_use_corked_io(struct s2n_connection *conn);
/**
* Function pointer for a user provided send callback.
*/
typedef int s2n_recv_fn(void *io_context, uint8_t *buf, uint32_t len);
/**
* Function pointer for a user provided send callback.
*/
typedef int s2n_send_fn(void *io_context, const uint8_t *buf, uint32_t len);
/**
* Set a context containing anything needed in the recv callback function (for example,
* a file descriptor), the buffer holding data to be sent or received, and the length of the buffer.
*
* @note The `io_context` passed to the callbacks may be set separately using `s2n_connection_set_recv_ctx` and `s2n_connection_set_send_ctx`.
*
* @param conn The connection object being updated
* @param ctx A user provided context that the callback will be invoked with
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_set_recv_ctx(struct s2n_connection *conn, void *ctx);
/**
* Set a context containing anything needed in the send callback function (for example,
* a file descriptor), the buffer holding data to be sent or received, and the length of the buffer.
*
* @note The `io_context` passed to the callbacks may be set separately using `s2n_connection_set_recv_ctx` and `s2n_connection_set_send_ctx`.
*
* @param conn The connection object being updated
* @param ctx A user provided context that the callback will be invoked with
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_set_send_ctx(struct s2n_connection *conn, void *ctx);
/**
* Configure a connection to use a recv callback to receive data.
*
* @note This callback may be blocking or nonblocking.
* @note The callback may receive less than the requested length. The function should return the number
* of bytes received, or set errno and return an error code < 0.
*
* @param conn The connection object being updated
* @param recv A recv callback function pointer
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_set_recv_cb(struct s2n_connection *conn, s2n_recv_fn recv);
/**
* Configure a connection to use a send callback to send data.
*
* @note This callback may be blocking or nonblocking.
* @note The callback may send less than the requested length. The function should return the
* number of bytes sent or set errno and return an error code < 0.
*
* @param conn The connection object being updated
* @param send A send callback function pointer
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_set_send_cb(struct s2n_connection *conn, s2n_send_fn send);
/**
* Change the behavior of s2n-tls when sending data to prefer high throughput.
*
* Connections preferring throughput will use
* large record sizes that minimize overhead.
*
* @param conn The connection object being updated
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_prefer_throughput(struct s2n_connection *conn);
/**
* Change the behavior of s2n-tls when sending data to prefer low latency.
*
* Connections preferring low latency will be encrypted
* using small record sizes that can be decrypted sooner by the recipient.
*
* @param conn The connection object being updated
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_prefer_low_latency(struct s2n_connection *conn);
/**
* Configure the connection to free IO buffers when they are not currently in use.
*
* This configuration can be used to minimize connection memory footprint size, at the cost
* of more calls to alloc and free. Some of these costs can be mitigated by configuring s2n-tls
* to use an allocator that includes thread-local caches or lock-free allocation patterns.
*
* @param conn The connection object being update
* @param enabled Set to `true` if dynamic buffers are enabled; `false` if disabled
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_set_dynamic_buffers(struct s2n_connection *conn, bool enabled);
/**
* Changes the behavior of s2n-tls when sending data to initially prefer records
* small enough to fit in single ethernet frames.
*
* When dynamic record sizing is active, the connection sends records small enough
* to fit in a single standard 1500 byte ethernet frame. Otherwise, the connection
* chooses record sizes according to the configured maximum fragment length.
*
* Dynamic record sizing is active for the first resize_threshold bytes of a connection,
* and is reactivated whenever timeout_threshold seconds pass without sending data.
*
* @param conn The connection object being updated
* @param resize_threshold The number of bytes to send before changing the record size. Maximum 8MiB.
* @param timeout_threshold Reset record size back to a single segment after threshold seconds of inactivity
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_set_dynamic_record_threshold(struct s2n_connection *conn, uint32_t resize_threshold, uint16_t timeout_threshold);
/**
* Sets the callback to use for verifying that a hostname from an X.509 certificate is trusted.
*
* The default behavior is to require that the hostname match the server name set with s2n_set_server_name(). This will
* likely lead to all client certificates being rejected, so the callback will need to be overriden when using client authentication.
*
* If a single callback for different connections using the same config is desired, see s2n_config_set_verify_host_callback().
*
* @param conn A pointer to a s2n_connection object
* @param host_fn A pointer to a callback function that s2n will invoke in order to verify the hostname of an X.509 certificate
* @param data Opaque pointer to data that the verify host function will be invoked with
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_set_verify_host_callback(struct s2n_connection *conn, s2n_verify_host_fn host_fn, void *data);
/**
* Used to opt-out of s2n-tls's built-in blinding. Blinding is a
* mitigation against timing side-channels which in some cases can leak information
* about encrypted data. By default s2n-tls will cause a thread to sleep between 10 and
* 30 seconds whenever tampering is detected.
*
* Setting the S2N_SELF_SERVICE_BLINDING option with s2n_connection_set_blinding()
* turns off this behavior. This is useful for applications that are handling many connections
* in a single thread. In that case, if s2n_recv() or s2n_negotiate() return an error,
* self-service applications should call s2n_connection_get_delay() and pause
* activity on the connection for the specified number of nanoseconds before calling
* close() or shutdown().
*/
typedef enum {
S2N_BUILT_IN_BLINDING,
S2N_SELF_SERVICE_BLINDING
} s2n_blinding;
/**
* Used to configure s2n-tls to either use built-in blinding (set blinding to S2N_BUILT_IN_BLINDING) or
* self-service blinding (set blinding to S2N_SELF_SERVICE_BLINDING).
*
* @param conn The connection object being updated
* @param blinding The desired blinding mode for the connection
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_set_blinding(struct s2n_connection *conn, s2n_blinding blinding);
/**
* Query the connection object for the configured blinding delay.
* @param conn The connection object being updated
* @returns the number of nanoseconds an application using self-service blinding should pause before calling close() or shutdown().
*/
S2N_API extern uint64_t s2n_connection_get_delay(struct s2n_connection *conn);
/**
* Sets the cipher preference override for the s2n_connection. Calling this function is not necessary
* unless you want to set the cipher preferences on the connection to something different than what is in the s2n_config.
*
* @param conn The connection object being updated
* @param version The human readable string representation of the security policy version.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_set_cipher_preferences(struct s2n_connection *conn, const char *version);
/**
* Appends the provided application protocol to the preference list
*
* The data provided in `protocol` parameter will be copied into an internal buffer
*
* @param conn The connection object being updated
* @param protocol A pointer to a slice of bytes
* @param protocol_len The length of bytes that should be read from `protocol`. Note: this value cannot be 0, otherwise an error will be returned.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_append_protocol_preference(struct s2n_connection *conn, const uint8_t *protocol, uint8_t protocol_len);
/**
* Sets the protocol preference override for the s2n_connection. Calling this function is not necessary unless you want
* to set the protocol preferences on the connection to something different than what is in the s2n_config.
*
* @param conn The connection object being updated
* @param protocols A pointer to an array of protocol strings
* @param protocol_count The number of protocols contained in protocols
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_set_protocol_preferences(struct s2n_connection *conn, const char *const *protocols, int protocol_count);
/**
* Sets the server name for the connection.
*
* It may be desirable for clients
* to provide this information to facilitate secure connections to
* servers that host multiple 'virtual' servers at a single underlying
* network address.
*
* @param conn The connection object being queried
* @param server_name A pointer to a string containing the desired server name
* @warning `server_name` must be a NULL terminated string.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_set_server_name(struct s2n_connection *conn, const char *server_name);
/**
* Query the connection for the selected server name.
*
* This can be used by a server to determine which server name the client is using. This function returns the first ServerName entry
* in the ServerNameList sent by the client. Subsequent entries are not returned.
*
* @param conn The connection object being queried
* @returns The server name associated with a connection, or NULL if none is found.
*/
S2N_API extern const char *s2n_get_server_name(struct s2n_connection *conn);
/**
* Query the connection for the selected application protocol.
*
* @param conn The connection object being queried
* @returns The negotiated application protocol for a `s2n_connection`. In the event of no protocol being negotiated, NULL is returned.
*/
S2N_API extern const char *s2n_get_application_protocol(struct s2n_connection *conn);
/**
* Query the connection for a buffer containing the OCSP response.
*
* @param conn The connection object being queried
* @param length A pointer that is set to the certificate transparency response buffer's size
* @returns A pointer to the OCSP response sent by a server during the handshake. If no status response is received, NULL is returned.
*/
S2N_API extern const uint8_t *s2n_connection_get_ocsp_response(struct s2n_connection *conn, uint32_t *length);
/**
* Query the connection for a buffer containing the Certificate Transparency response.
*
* @param conn The connection object being queried
* @param length A pointer that is set to the certificate transparency response buffer's size
* @returns A pointer to the certificate transparency response buffer.
*/
S2N_API extern const uint8_t *s2n_connection_get_sct_list(struct s2n_connection *conn, uint32_t *length);
/**
* Used in non-blocking mode to indicate in which direction s2n-tls became blocked on I/O before it
* returned control to the caller. This allows an application to avoid retrying s2n-tls operations
* until I/O is possible in that direction.
*/
typedef enum {
S2N_NOT_BLOCKED = 0,
S2N_BLOCKED_ON_READ,
S2N_BLOCKED_ON_WRITE,
S2N_BLOCKED_ON_APPLICATION_INPUT,
S2N_BLOCKED_ON_EARLY_DATA,
} s2n_blocked_status;
/**
* Performs the initial "handshake" phase of a TLS connection and must be called before any s2n_recv() or s2n_send() calls.
*
* @param conn A pointer to the s2n_connection object
* @param blocked A pointer which will be set to the blocked status.
* @returns S2N_SUCCESS if the handshake completed. S2N_FAILURE if the handshake encountered an error or is blocked.
*/
S2N_API extern int s2n_negotiate(struct s2n_connection *conn, s2n_blocked_status *blocked);
/**
* Writes and encrypts `size` of `buf` data to the associated connection. s2n_send() will return the number of bytes
* written, and may indicate a partial write.
*
* @note Partial writes are possible not just for non-blocking I/O, but also for connections aborted while active.
* @note Unlike OpenSSL, repeated calls to s2n_send() should not duplicate the original parameters, but should
* update `buf` and `size` per the indication of size written. For example;
* ```c
* s2n_blocked_status blocked;
* int written = 0;
* char data[10];
* do {
* int w = s2n_send(conn, data + written, 10 - written, &blocked);
* if (w < 0) {
* break;
* }
* written += w;
* } while (blocked != S2N_NOT_BLOCKED);
* ```
*
* @param conn A pointer to the s2n_connection object
* @param buf A pointer to a buffer that s2n will write data from
* @param size The size of buf
* @param blocked A pointer which will be set to the blocked status, as in s2n_negotiate()
* @returns The number of bytes written, and may indicate a partial write
*/
S2N_API extern ssize_t s2n_send(struct s2n_connection *conn, const void *buf, ssize_t size, s2n_blocked_status *blocked);
/**
* Works in the same way as s2n_sendv_with_offset() except that the latter's `offs` parameter is implicitly assumed to be 0.
* Therefore in the partial write case, the caller would have to make sure that `bufs` and `count` fields are modified in a way that takes
* the partial writes into account.
*
* @param conn A pointer to the s2n_connection object
* @param bufs A pointer to a vector of buffers that s2n will write data from.
* @param count The number of buffers in `bufs`
* @param blocked A pointer which will be set to the blocked status, as in s2n_negotiate()
* @returns The number of bytes written, and may indicate a partial write.
*/
S2N_API extern ssize_t s2n_sendv(struct s2n_connection *conn, const struct iovec *bufs, ssize_t count, s2n_blocked_status *blocked);
/**
* Works in the same way as s2n_send() except that it accepts vectorized buffers. Will return the number of bytes written, and may indicate a partial write. Partial writes are possible not just for non-blocking I/O, but also for connections aborted while active.
*
* @note Partial writes are possible not just for non-blocking I/O, but also for connections aborted while active.
*
* @note Unlike OpenSSL, repeated calls to s2n_sendv_with_offset() should not duplicate the original parameters, but should update `bufs` and `count` per the indication of size written. For example;
*
* ```c
* s2n_blocked_status blocked;
* int written = 0;
* char data[10];
* struct iovec iov[1];
* iov[0].iov_base = data;
* iov[0].iov_len = 10;
* do {
* int w = s2n_sendv_with_offset(conn, iov, 1, written, &blocked);
* if (w < 0) {
* break;
* }
* written += w;
* } while (blocked != S2N_NOT_BLOCKED);
* ```
*
* @param conn A pointer to the s2n_connection object
* @param bufs A pointer to a vector of buffers that s2n will write data from.
* @param count The number of buffers in `bufs`
* @param offs The write cursor offset. This should be updated as data is written. See the example code.
* @param blocked A pointer which will be set to the blocked status, as in s2n_negotiate()
* @returns The number of bytes written, and may indicate a partial write.
*/
S2N_API extern ssize_t s2n_sendv_with_offset(struct s2n_connection *conn, const struct iovec *bufs, ssize_t count, ssize_t offs, s2n_blocked_status *blocked);
/**
* Decrypts and reads **size* to `buf` data from the associated
* connection.
*
* @note Unlike OpenSSL, repeated calls to `s2n_recv` should not duplicate the original parameters, but should update `buf` and `size` per the indication of size read. For example;
* ```c
* s2n_blocked_status blocked;
* int bytes_read = 0;
* char data[10];
* do {
* int r = s2n_recv(conn, data + bytes_read, 10 - bytes_read, &blocked);
* if (r < 0) {
* break;
* }
* bytes_read += r;
* } while (blocked != S2N_NOT_BLOCKED);
* ```
*
* @param conn A pointer to the s2n_connection object
* @param buf A pointer to a buffer that s2n will place read data into.
* @param size Size of `buf`
* @param blocked A pointer which will be set to the blocked status, as in s2n_negotiate()
* @returns number of bytes read. 0 if the connection was shutdown by peer.
*/
S2N_API extern ssize_t s2n_recv(struct s2n_connection *conn, void *buf, ssize_t size, s2n_blocked_status *blocked);
/**
* Allows users of s2n-tls to peek inside the data buffer of an s2n-tls connection to see if there more data to be read without actually reading it.
*
* This is useful when using select() on the underlying s2n-tls file descriptor with a message based application layer protocol. As a single call
* to s2n_recv may read all data off the underlying file descriptor, select() will be unable to tell you there if there is more application data
* ready for processing already loaded into the s2n-tls buffer.
*
* @note can then be used to determine if s2n_recv() needs to be called before more data comes in on the raw fd
* @param conn A pointer to the s2n_connection object
* @returns The number of bytes that can be read from the connection
*/
S2N_API extern uint32_t s2n_peek(struct s2n_connection *conn);
/**
* Wipes and releases buffers and memory allocated during the TLS handshake.
*
* @note This function should be called after the handshake is successfully negotiated and logging or recording of handshake data is complete.
*
* @param conn A pointer to the s2n_connection object
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_free_handshake(struct s2n_connection *conn);
/**
* Wipes and free the `in` and `out` buffers associated with a connection.
*
* @note This function may be called when a connection is
* in keep-alive or idle state to reduce memory overhead of long lived connections.
*
* @param conn A pointer to the s2n_connection object
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_release_buffers(struct s2n_connection *conn);
/**
* Wipes an existing connection and allows it to be reused. Erases all data associated with a connection including
* pending reads.
*
* @note This function should be called after all I/O is completed and s2n_shutdown has been called.
* @note Reusing the same connection handle(s) is more performant than repeatedly calling s2n_connection_new() and s2n_connection_free().
*
* @param conn A pointer to the s2n_connection object
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_wipe(struct s2n_connection *conn);
/**
* Frees the memory associated with an s2n_connection
* handle. The handle is considered invalid after `s2n_connection_free` is used.
* s2n_connection_wipe() does not need to be called prior to this function. `s2n_connection_free` performs its own wipe
* of sensitive data.
*
* @param conn A pointer to the s2n_connection object
* @returns 0 on success. -1 on failure
*/
S2N_API extern int s2n_connection_free(struct s2n_connection *conn);
/**
* Attempts a closure at the TLS layer. Does not close the underlying transport. This call may block in either direction.
*
* Unlike other TLS implementations, `s2n_shutdown` attempts a graceful shutdown by default. It will not return with success unless a close_notify alert is successfully
* sent and received. As a result, `s2n_shutdown` may fail when interacting with a non-conformant TLS implementation.
*
* Once `s2n_shutdown` is complete:
* * The s2n_connection handle cannot be used for reading for writing.
* * The underlying transport can be closed. Most likely via `close()`.
* * The s2n_connection handle can be freed via s2n_connection_free() or reused via s2n_connection_wipe()
*
* @param conn A pointer to the s2n_connection object
* @param blocked A pointer which will be set to the blocked status, as in s2n_negotiate()
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_shutdown(struct s2n_connection *conn, s2n_blocked_status *blocked);
/**
* Used to declare what type of client certificate authentication to use.
*
* Currently the default for s2n-tls is for neither the server side or the client side to use Client (aka Mutual) authentication.
*/
typedef enum {
S2N_CERT_AUTH_NONE,
S2N_CERT_AUTH_REQUIRED,
S2N_CERT_AUTH_OPTIONAL
} s2n_cert_auth_type;
/**
* Gets Client Certificate authentication method the s2n_config object is using.
*
* @param config A pointer to a s2n_config object
* @param client_auth_type A pointer to a client auth policy. This will be updated to the s2n_config value.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_get_client_auth_type(struct s2n_config *config, s2n_cert_auth_type *client_auth_type);
/**
* Sets whether or not a Client Certificate should be required to complete the TLS Connection.
*
* If this is set to `S2N_CERT_AUTH_OPTIONAL` the server will request a client certificate but allow the client to not provide one.
* Rejecting a client certificate when using `S2N_CERT_AUTH_OPTIONAL` will terminate the handshake.
*
* @param config A pointer to a s2n_config object
* @param client_auth_type The client auth policy for the connection
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_client_auth_type(struct s2n_config *config, s2n_cert_auth_type client_auth_type);
/**
* Gets Client Certificate authentication method the s2n_connection object is using.
*
* @param conn A pointer to the s2n_connection object
* @param client_auth_type A pointer to a client auth policy. This will be updated to the s2n_connection value.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_get_client_auth_type(struct s2n_connection *conn, s2n_cert_auth_type *client_auth_type);
/**
* Sets whether or not a Client Certificate should be required to complete the TLS Connection.
*
* If this is set to `S2N_CERT_AUTH_OPTIONAL` the server will request a client certificate but allow the client to not provide one.
* Rejecting a client certificate when using `S2N_CERT_AUTH_OPTIONAL` will terminate the handshake.
*
* @param conn A pointer to the s2n_connection object
* @param client_auth_type The client auth policy for the connection
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_set_client_auth_type(struct s2n_connection *conn, s2n_cert_auth_type client_auth_type);
/**
* Gets the client certificate chain and places it in the `der_cert_chain_out` buffer. `cert_chain_len` is updated
* to match the size the chain buffer.
*
* @warning The buffers share a lifetime with the s2n_connection object.
*
* @param conn A pointer to the s2n_connection object
* @param der_cert_chain_out A uint8_t pointer. This will be updated to point to the client certificate chain.
* @param cert_chain_len A pointer to a uint32_t. This will be updated to match the size of the buffer `der_cert_chain_out` points to.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_get_client_cert_chain(struct s2n_connection *conn, uint8_t **der_cert_chain_out, uint32_t *cert_chain_len);
/**
* Sets the initial number of session tickets to send after a >=TLS1.3 handshake. The default value is one ticket.
*
* @param config A pointer to the config object.
* @param num The number of session tickets that will be sent.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_config_set_initial_ticket_count(struct s2n_config *config, uint8_t num);
/**
* Increases the number of session tickets to send after a >=TLS1.3 handshake.
*
* @param conn A pointer to the connection object.
* @param num The number of additional session tickets to send.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_add_new_tickets_to_send(struct s2n_connection *conn, uint8_t num);
/**
* Returns the number of session tickets issued by the server.
*
* In TLS1.3, this number can be up to the limit configured by s2n_config_set_initial_ticket_count
* and s2n_connection_add_new_tickets_to_send. In earlier versions of TLS, this number will be either 0 or 1.
*
* This method only works for server connections.
*
* @param conn A pointer to the connection object.
* @param num The number of additional session tickets sent.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_get_tickets_sent(struct s2n_connection *conn, uint16_t *num);
/**
* Sets the keying material lifetime for >=TLS1.3 session tickets so that one session doesn't get re-used ad infinitum.
* The default value is one week.
*
* @param conn A pointer to the connection object.
* @param lifetime_in_secs Lifetime of keying material in seconds.
* @returns S2N_SUCCESS on success. S2N_FAILURE on failure
*/
S2N_API extern int s2n_connection_set_server_keying_material_lifetime(struct s2n_connection *conn, uint32_t lifetime_in_secs);
struct s2n_session_ticket;
/**
* Callback function for receiving a session ticket.
*
* This function will be called each time a session ticket is received, which may be multiple times for TLS1.3.
*
* # Safety
*
* `ctx` is a void pointer and the caller is responsible for ensuring it is cast to the correct type.
* `ticket` is valid only within the scope of this callback.
*
* @param conn A pointer to the connection object.
* @param ctx Context for the session ticket callback function.
* @param ticket Pointer to the received session ticket object.
*/
typedef int (*s2n_session_ticket_fn)(struct s2n_connection *conn, void *ctx, struct s2n_session_ticket *ticket);
/**
* Sets a session ticket callback to be called when a client receives a new session ticket.
*
* # Safety
*
* `callback` MUST cast `ctx` into the same type of pointer that was originally created.
* `ctx` MUST be valid for the lifetime of the config, or until a different context is set.
*
* @param config A pointer to the config object.
* @param callback The function that should be called when the callback is triggered.
* @param ctx The context to be passed when the callback is called.
*/
S2N_API extern int s2n_config_set_session_ticket_cb(struct s2n_config *config, s2n_session_ticket_fn callback, void *ctx);
/**
* Gets the length of the session ticket from a session ticket object.
*
* @param ticket Pointer to the session ticket object.
* @param data_len Pointer to be set to the length of the session ticket on success.
*/
S2N_API extern int s2n_session_ticket_get_data_len(struct s2n_session_ticket *ticket, size_t *data_len);
/**
* Gets the session ticket data from a session ticket object.
*
* # Safety
* The entire session ticket will be copied into `data` on success. Therefore, `data` MUST have enough
* memory to store the session ticket data.
*
* @param ticket Pointer to the session ticket object.
* @param max_data_len Maximum length of data that can be written to the 'data' pointer.
* @param data Pointer to where the session ticket data will be stored.
*/
S2N_API extern int s2n_session_ticket_get_data(struct s2n_session_ticket *ticket, size_t max_data_len, uint8_t *data);
/**
* Gets the lifetime in seconds of the session ticket from a session ticket object.
*
* @param ticket Pointer to the session ticket object.
* @param session_lifetime Pointer to a variable where the lifetime of the session ticket will be stored.
*/
S2N_API extern int s2n_session_ticket_get_lifetime(struct s2n_session_ticket *ticket, uint32_t *session_lifetime);
/**
* De-serializes the session state and updates the connection accordingly.
*
* @param conn A pointer to the s2n_connection object
* @param session A pointer to a buffer of size `length`
* @param length The size of the `session` buffer
*
* @returns The number of copied bytes
*/
S2N_API extern int s2n_connection_set_session(struct s2n_connection *conn, const uint8_t *session, size_t length);
/**
* Serializes the session state from connection and copies into the `session` buffer and returns the number of copied bytes
*
* @note This function is not recommended for > TLS 1.2 because in TLS1.3
* servers can send multiple session tickets and this function will only
* return the most recently received ticket.
*
* @param conn A pointer to the s2n_connection object
* @param session A pointer to a buffer of size `max_length`
* @param max_length The size of the `session` buffer
*
* @returns The number of copied bytes
*/
S2N_API extern int s2n_connection_get_session(struct s2n_connection *conn, uint8_t *session, size_t max_length);
/**
* Retrieves a hint from the server indicating how long this ticket's lifetime is.
*
* @note This function is not recommended for > TLS 1.2 because in TLS1.3
* servers can send multiple session tickets and this function will only
* return the most recently received ticket lifetime hint.
*
* @param conn A pointer to the s2n_connection object
*
* @returns The session ticket lifetime hint in seconds from the server or -1 when session ticket was not used for resumption.
*/
S2N_API extern int s2n_connection_get_session_ticket_lifetime_hint(struct s2n_connection *conn);
/**
* Use this to query the serialized session state size before copying it into a buffer.
*
* @param conn A pointer to the s2n_connection object
*
* @returns number of bytes needed to store serialized session state
*/
S2N_API extern int s2n_connection_get_session_length(struct s2n_connection *conn);
/**
* Gets the latest session id's length from the connection.
*
* Use this to query the session id size before copying it into a buffer.
*
* @param conn A pointer to the s2n_connection object
*
* @returns The latest session id length from the connection. Session id length will be 0 for TLS versions >= TLS1.3 as stateful session resumption has not yet been implemented in TLS1.3.
*/
S2N_API extern int s2n_connection_get_session_id_length(struct s2n_connection *conn);
/**
* Gets the latest session id from the connection, copies it into the `session_id` buffer, and returns the number of copied bytes.
*
* The session id may change between s2n receiving the ClientHello and sending the ServerHello, but this function will always describe the latest session id.
*
* See s2n_client_hello_get_session_id() to get the session id as it was sent by the client in the ClientHello message.
*
* @param conn A pointer to the s2n_connection object
* @param session_id A pointer to a buffer of size `max_length`
* @param max_length The size of the `session_id` buffer
*
* @returns The number of copied bytes.
*/
S2N_API extern int s2n_connection_get_session_id(struct s2n_connection *conn, uint8_t *session_id, size_t max_length);
/**
* Check if the connection was resumed from an earlier handshake.
*
* @param conn A pointer to the s2n_connection object
*
* @returns returns 1 if the handshake was abbreviated, otherwise returns 0
*/
S2N_API extern int s2n_connection_is_session_resumed(struct s2n_connection *conn);
/**
* Check is the connection is OCSP stapled.
*
* @param conn A pointer to the s2n_connection object
*
* @returns 1 if OCSP response was sent (if connection is in S2N_SERVER mode) or received (if connection is in S2N_CLIENT mode) during handshake, otherwise it returns 0.
*/
S2N_API extern int s2n_connection_is_ocsp_stapled(struct s2n_connection *conn);
/**
* TLS Signature Algorithms - RFC 5246 7.4.1.4.1
* https://www.iana.org/assignments/tls-parameters/tls-parameters.xhtml#tls-parameters-16
*/
typedef enum {
S2N_TLS_SIGNATURE_ANONYMOUS = 0,
S2N_TLS_SIGNATURE_RSA = 1,
S2N_TLS_SIGNATURE_ECDSA = 3,
/* Use Private Range for RSA PSS since it's not defined there */
S2N_TLS_SIGNATURE_RSA_PSS_RSAE = 224,
S2N_TLS_SIGNATURE_RSA_PSS_PSS
} s2n_tls_signature_algorithm;
/** TLS Hash Algorithms - https://tools.ietf.org/html/rfc5246#section-7.4.1.4.1
* https://www.iana.org/assignments/tls-parameters/tls-parameters.xhtml#tls-parameters-18
*/
typedef enum {
S2N_TLS_HASH_NONE = 0,
S2N_TLS_HASH_MD5 = 1,
S2N_TLS_HASH_SHA1 = 2,
S2N_TLS_HASH_SHA224 = 3,
S2N_TLS_HASH_SHA256 = 4,
S2N_TLS_HASH_SHA384 = 5,
S2N_TLS_HASH_SHA512 = 6,
/* Use Private Range for MD5_SHA1 */
S2N_TLS_HASH_MD5_SHA1 = 224
} s2n_tls_hash_algorithm;
/**
* Get the connection's selected signature algorithm.
*
* @param conn A pointer to the s2n_connection object
* @param chosen_alg A pointer to a s2n_tls_signature_algorithm object. This is an output parameter.
*
* @returns S2N_SUCCESS on success. S2N_FAILURE if bad parameters are received.
*/
S2N_API extern int s2n_connection_get_selected_signature_algorithm(struct s2n_connection *conn, s2n_tls_signature_algorithm *chosen_alg);
/**
* Get the connection's selected digest algorithm.
*
* @param conn A pointer to the s2n_connection object
* @param chosen_alg A pointer to a s2n_tls_hash_algorithm object. This is an output parameter.
*
* @returns S2N_SUCCESS on success. S2N_FAILURE if bad parameters are received.
*/
S2N_API extern int s2n_connection_get_selected_digest_algorithm(struct s2n_connection *conn, s2n_tls_hash_algorithm *chosen_alg);
/**
* Get the client certificate's signature algorithm.
*
* @param conn A pointer to the s2n_connection object
* @param chosen_alg A pointer to a s2n_tls_signature_algorithm object. This is an output parameter.
*
* @returns S2N_SUCCESS on success. S2N_FAILURE if bad parameters are received.
*/
S2N_API extern int s2n_connection_get_selected_client_cert_signature_algorithm(struct s2n_connection *conn, s2n_tls_signature_algorithm *chosen_alg);
/**
* Get the client certificate's digest algorithm.
*
* @param conn A pointer to the s2n_connection object
* @param chosen_alg A pointer to a s2n_tls_hash_algorithm object. This is an output parameter.
*
* @returns S2N_SUCCESS on success. S2N_FAILURE if bad parameters are received.
*/
S2N_API extern int s2n_connection_get_selected_client_cert_digest_algorithm(struct s2n_connection *conn, s2n_tls_hash_algorithm *chosen_alg);
/**
* Get the certificate used during the TLS handshake
*
* - If `conn` is a server connection, the certificate selected will depend on the
* ServerName sent by the client and supported ciphers.
* - If `conn` is a client connection, the certificate sent in response to a CertificateRequest
* message is returned. Currently s2n-tls supports loading only one certificate in client mode. Note that
* not all TLS endpoints will request a certificate.
*
* @param conn A pointer to the s2n_connection object
*
* @returns NULL if the certificate selection phase of the handshake has not completed or if a certificate was not requested by the peer
*/
S2N_API extern struct s2n_cert_chain_and_key *s2n_connection_get_selected_cert(struct s2n_connection *conn);
/**
* @param chain_and_key A pointer to the s2n_cert_chain_and_key object being read.
* @param cert_length This return value represents the length of the s2n certificate chain `chain_and_key`.
* @returns the length of the s2n certificate chain `chain_and_key`.
*/
S2N_API extern int s2n_cert_chain_get_length(const struct s2n_cert_chain_and_key *chain_and_key, uint32_t *cert_length);
/**
* Returns the certificate `out_cert` present at the index `cert_idx` of the certificate chain `chain_and_key`.
*
* Note that the index of the leaf certificate is zero. If the certificate chain `chain_and_key` is NULL or the
* certificate index value is not in the acceptable range for the input certificate chain, an error is returned.
*
* # Safety
*
* There is no memory allocation required for `out_cert` buffer prior to calling the `s2n_cert_chain_get_cert` API.
* The `out_cert` will contain the pointer to the s2n_cert initialized within the input s2n_cert_chain_and_key `chain_and_key`.
* The pointer to the output s2n certificate `out_cert` is valid until `chain_and_key` is freed up.
* If a caller wishes to persist the `out_cert` beyond the lifetime of `chain_and_key`, the contents would need to be
* copied prior to freeing `chain_and_key`.
*
* @param chain_and_key A pointer to the s2n_cert_chain_and_key object being read.
* @param out_cert A pointer to the output s2n_cert `out_cert` present at the index `cert_idx` of the certificate chain `chain_and_key`.
* @param cert_idx The certificate index for the requested certificate within the s2n certificate chain.
*/
S2N_API extern int s2n_cert_chain_get_cert(const struct s2n_cert_chain_and_key *chain_and_key, struct s2n_cert **out_cert, const uint32_t cert_idx);
/**
* Returns the s2n certificate in DER format along with its length.
*
* The API gets the s2n certificate `cert` in DER format. The certificate is returned in the `out_cert_der` buffer.
* Here, `cert_len` represents the length of the certificate.
*
* A caller can use certificate parsing tools such as the ones provided by OpenSSL to parse the DER encoded certificate chain returned.
*
* # Safety
*
* The memory for the `out_cert_der` buffer is allocated and owned by s2n-tls.
* Since the size of the certificate can potentially be very large, a pointer to internal connection data is returned instead of
* copying the contents into a caller-provided buffer.
*
* The pointer to the output buffer `out_cert_der` is valid only while the connection exists.
* The `s2n_connection_free` API frees the memory associated with the out_cert_der buffer and after the `s2n_connection_wipe` API is
* called the memory pointed by out_cert_der is invalid.
*
* If a caller wishes to persist the `out_cert_der` beyond the lifetime of the connection, the contents would need to be
* copied prior to the connection termination.
*
* @param cert A pointer to the s2n_cert object being read.
* @param out_cert_der A pointer to the output buffer which will hold the s2n certificate `cert` in DER format.
* @param cert_length This return value represents the length of the certificate.
*/
S2N_API extern int s2n_cert_get_der(const struct s2n_cert *cert, const uint8_t **out_cert_der, uint32_t *cert_length);
/**
* Returns the validated peer certificate chain as a `s2n_cert_chain_and_key` opaque object.
*
* The `s2n_cert_chain_and_key` parameter must be allocated by the caller using the `s2n_cert_chain_and_key_new` API
* prior to this function call and must be empty. To free the memory associated with the `s2n_cert_chain_and_key` object use the
* `s2n_cert_chain_and_key_free` API.
*
* @param conn A pointer to the s2n_connection object being read.
* @param cert_chain The returned validated peer certificate chain `cert_chain` retrieved from the s2n connection.
*/
S2N_API extern int s2n_connection_get_peer_cert_chain(const struct s2n_connection *conn, struct s2n_cert_chain_and_key *cert_chain);
/**
* Returns the length of the DER encoded extension value of the ASN.1 X.509 certificate extension.
*
* @param cert A pointer to the s2n_cert object being read.
* @param oid A null-terminated cstring that contains the OID of the X.509 certificate extension to be read.
* @param ext_value_len This return value contains the length of DER encoded extension value of the ASN.1 X.509 certificate extension.
*/
S2N_API extern int s2n_cert_get_x509_extension_value_length(struct s2n_cert *cert, const uint8_t *oid, uint32_t *ext_value_len);
/**
* Returns the DER encoding of an ASN.1 X.509 certificate extension value, it's length and a boolean critical.
*
* @param cert A pointer to the s2n_cert object being read.
* @param oid A null-terminated cstring that contains the OID of the X.509 certificate extension to be read.
* @param ext_value A pointer to the output buffer which will hold the DER encoding of an ASN.1 X.509 certificate extension value returned.
* @param ext_value_len This value is both an input and output parameter and represents the length of the output buffer `ext_value`.
* When used as an input parameter, the caller must use this parameter to convey the maximum length of `ext_value`.
* When used as an output parameter, `ext_value_len` holds the actual length of the DER encoding of the ASN.1 X.509 certificate extension value returned.
* @param critical This return value contains the boolean value for `critical`.
*/
S2N_API extern int s2n_cert_get_x509_extension_value(struct s2n_cert *cert, const uint8_t *oid, uint8_t *ext_value, uint32_t *ext_value_len, bool *critical);
/**
* Returns the UTF8 String length of the ASN.1 X.509 certificate extension data.
*
* @param extension_data A pointer to the DER encoded ASN.1 X.509 certificate extension value being read.
* @param extension_len represents the length of the input buffer `extension_data`.
* @param utf8_str_len This return value contains the UTF8 String length of the ASN.1 X.509 certificate extension data.
*/
S2N_API extern int s2n_cert_get_utf8_string_from_extension_data_length(const uint8_t *extension_data, uint32_t extension_len, uint32_t *utf8_str_len);
/**
* Returns the UTF8 String representation of the DER encoded ASN.1 X.509 certificate extension data.
*
* @param extension_data A pointer to the DER encoded ASN.1 X.509 certificate extension value being read.
* @param extension_len represents the length of the input buffer `extension_data`.
* @param out_data A pointer to the output buffer which will hold the UTF8 String representation of the DER encoded ASN.1 X.509
* certificate extension data returned.
* @param out_len This value is both an input and output parameter and represents the length of the output buffer `out_data`.
* When used as an input parameter, the caller must use this parameter to convey the maximum length of `out_data`.
* When used as an output parameter, `out_len` holds the actual length of UTF8 String returned.
*/
S2N_API extern int s2n_cert_get_utf8_string_from_extension_data(const uint8_t *extension_data, uint32_t extension_len, uint8_t *out_data, uint32_t *out_len);
/**
* Pre-shared key (PSK) Hash Algorithm - RFC 8446 Section-2.2
*/
typedef enum {
S2N_PSK_HMAC_SHA256,
S2N_PSK_HMAC_SHA384,
} s2n_psk_hmac;
/**
* Opaque pre shared key handle
*/
struct s2n_psk;
/**
* Creates a new s2n external pre-shared key (PSK) object with `S2N_PSK_HMAC_SHA256` as the default
* PSK hash algorithm. An external PSK is a key established outside of TLS using a secure mutually agreed upon mechanism.
*
* Use `s2n_psk_free` to free the memory allocated to the s2n external PSK object created by this API.
*
* @returns struct s2n_psk* Returns a pointer to the newly created external PSK object.
*/
S2N_API struct s2n_psk *s2n_external_psk_new(void);
/**
* Frees the memory associated with the external PSK object.
*
* @param psk Pointer to the PSK object to be freed.
*/
S2N_API int s2n_psk_free(struct s2n_psk **psk);
/**
* Sets the identity for a given external PSK object.
* The identity is a unique identifier for the pre-shared secret.
* It is a non-secret value represented by raw bytes.
*
* # Safety
*
* The identity is transmitted over the network unencrypted and is a non-secret value.
* Do not include confidential information in the identity.
*
* Note that the identity is copied into s2n-tls memory and the caller is responsible for
* freeing the memory associated with the identity input.
*
* @param psk A pointer to a PSK object to be updated with the identity.
* @param identity The identity in raw bytes format to be copied.
* @param identity_size The length of the PSK identity being set.
*/
S2N_API int s2n_psk_set_identity(struct s2n_psk *psk, const uint8_t *identity, uint16_t identity_size);
/**
* Sets the out-of-band/externally provisioned secret for a given external PSK object.
*
* # Safety
*
* Note that the secret is copied into s2n-tls memory and the caller is responsible for
* freeing the memory associated with the `secret` input.
*
* Deriving a shared secret from a password or other low-entropy source
* is not secure and is subject to dictionary attacks.
* See https://tools.ietf.org/rfc/rfc8446#section-2.2 for more information.
*
* @param psk A pointer to a PSK object to be updated with the secret.
* @param secret The secret in raw bytes format to be copied.
* @param secret_size The length of the pre-shared secret being set.
*/
S2N_API int s2n_psk_set_secret(struct s2n_psk *psk, const uint8_t *secret, uint16_t secret_size);
/**
* Sets the hash algorithm for a given external PSK object. The supported PSK hash
* algorithms are as listed in the enum `s2n_psk_hmac` above.
*
* @param psk A pointer to the external PSK object to be updated with the PSK hash algorithm.
* @param hmac The PSK hash algorithm being set.
*/
S2N_API int s2n_psk_set_hmac(struct s2n_psk *psk, s2n_psk_hmac hmac);
/**
* Appends a PSK object to the list of PSKs supported by the s2n connection.
* If a PSK with a duplicate identity is found, an error is returned and the PSK is not added to the list.
* Note that a copy of `psk` is stored on the connection. The user is still responsible for freeing the
* memory associated with `psk`.
*
* @param conn A pointer to the s2n_connection object that contains the list of PSKs supported.
* @param psk A pointer to the `s2n_psk` object to be appended to the list of PSKs on the s2n connection.
*/
S2N_API int s2n_connection_append_psk(struct s2n_connection *conn, struct s2n_psk *psk);
/**
* The list of PSK modes supported by s2n-tls for TLS versions >= TLS1.3.
* Currently s2n-tls supports two modes - `S2N_PSK_MODE_RESUMPTION`, which represents the PSKs established
* using the previous connection via session resumption, and `S2N_PSK_MODE_EXTERNAL`, which represents PSKs
* established out-of-band/externally using a secure mutually agreed upon mechanism.
*/
typedef enum {
S2N_PSK_MODE_RESUMPTION,
S2N_PSK_MODE_EXTERNAL
} s2n_psk_mode;
/**
* Sets the PSK mode on the s2n config object.
* The supported PSK modes are listed in the enum `s2n_psk_mode` above.
*
* @param config A pointer to the s2n_config object being updated.
* @param mode The PSK mode to be set.
*/
S2N_API int s2n_config_set_psk_mode(struct s2n_config *config, s2n_psk_mode mode);
/**
* Sets the PSK mode on the s2n connection object.
* The supported PSK modes are listed in the enum `s2n_psk_mode` above.
* This API overrides the PSK mode set on config for this connection.
*
* @param conn A pointer to the s2n_connection object being updated.
* @param mode The PSK mode to be set.
*/
S2N_API int s2n_connection_set_psk_mode(struct s2n_connection *conn, s2n_psk_mode mode);
/**
* Gets the negotiated PSK identity length from the s2n connection object. The negotiated PSK
* refers to the chosen PSK by the server to be used for the connection.
*
* This API can be used to determine if the negotiated PSK exists. If negotiated PSK exists a
* call to this API returns a value greater than zero. If the negotiated PSK does not exist, the
* value `0` is returned.
*
* @param conn A pointer to the s2n_connection object that successfully negotiated a PSK connection.
* @param identity_length The length of the negotiated PSK identity.
*/
S2N_API int s2n_connection_get_negotiated_psk_identity_length(struct s2n_connection *conn, uint16_t *identity_length);
/**
* Gets the negotiated PSK identity from the s2n connection object.
* If the negotiated PSK does not exist, the PSK identity will not be obtained and no error will be returned.
* Prior to this API call, use `s2n_connection_get_negotiated_psk_identity_length` to determine if a
* negotiated PSK exists or not.
*
* # Safety
*
* The negotiated PSK identity will be copied into the identity buffer on success.
* Therefore, the identity buffer must have enough memory to fit the identity length.
*
* @param conn A pointer to the s2n_connection object.
* @param identity The negotiated PSK identity obtained from the s2n_connection object.
* @param max_identity_length The maximum length for the PSK identity. If the negotiated psk_identity length is
* greater than this `max_identity_length` value an error will be returned.
*/
S2N_API int s2n_connection_get_negotiated_psk_identity(struct s2n_connection *conn, uint8_t *identity, uint16_t max_identity_length);
struct s2n_offered_psk;
/**
* Creates a new s2n offered PSK object.
* An offered PSK object represents a single PSK sent by the client.
*
* # Safety
*
* Use `s2n_offered_psk_free` to free the memory allocated to the s2n offered PSK object created by this API.
*
* @returns struct s2n_offered_psk* Returns a pointer to the newly created offered PSK object.
*/
S2N_API struct s2n_offered_psk *s2n_offered_psk_new(void);
/**
* Frees the memory associated with the `s2n_offered_psk` object.
*
* @param psk A pointer to the `s2n_offered_psk` object to be freed.
*/
S2N_API int s2n_offered_psk_free(struct s2n_offered_psk **psk);
/**
* Gets the PSK identity and PSK identity length for a given offered PSK object.
*
* @param psk A pointer to the offered PSK object being read.
* @param identity The PSK identity being obtained.
* @param size The length of the PSK identity being obtained.
*/
S2N_API int s2n_offered_psk_get_identity(struct s2n_offered_psk *psk, uint8_t **identity, uint16_t *size);
struct s2n_offered_psk_list;
/**
* Checks whether the offered PSK list has an offered psk object next in line in the list.
* An offered PSK list contains all the PSKs offered by the client for the server to select.
*
* # Safety
*
* This API returns a pointer to the s2n-tls internal memory with limited lifetime.
* After the completion of `s2n_psk_selection_callback` this pointer is invalid.
*
* @param psk_list A pointer to the offered PSK list being read.
* @returns bool A boolean value representing whether an offered psk object is present next in line in the offered PSK list.
*/
S2N_API bool s2n_offered_psk_list_has_next(struct s2n_offered_psk_list *psk_list);
/**
* Obtains the next offered PSK object from the list of offered PSKs. Use `s2n_offered_psk_list_has_next`
* prior to this API call to ensure we have not reached the end of the list.
*
* @param psk_list A pointer to the offered PSK list being read.
* @param psk A pointer to the next offered PSK object being obtained.
*/
S2N_API int s2n_offered_psk_list_next(struct s2n_offered_psk_list *psk_list, struct s2n_offered_psk *psk);
/**
* Returns the offered PSK list to its original read state.
*
* When `s2n_offered_psk_list_reread` is called, `s2n_offered_psk_list_next` will return the first PSK
* in the offered PSK list.
*
* @param psk_list A pointer to the offered PSK list being reread.
*/
S2N_API int s2n_offered_psk_list_reread(struct s2n_offered_psk_list *psk_list);
/**
* Chooses a PSK from the offered PSK list to be used for the connection.
* This API matches the PSK identity received from the client against the server's known PSK identities
* list, in order to choose the PSK to be used for the connection. If the PSK identity sent from the client
* is NULL, no PSK is chosen for the connection. If the client offered PSK identity has no matching PSK identity
* with the server, an error will be returned. Use this API along with the `s2n_psk_selection_callback` callback
* to select a PSK identity.
*
* @param psk_list A pointer to the server's known PSK list used to compare for a matching PSK with the client.
* @param psk A pointer to the client's PSK object used to compare with the server's known PSK identities.
*/
S2N_API int s2n_offered_psk_list_choose_psk(struct s2n_offered_psk_list *psk_list, struct s2n_offered_psk *psk);
/**
* Callback function to select a PSK from a list of offered PSKs.
* Use this callback to implement custom PSK selection logic. The s2n-tls default PSK selection logic
* chooses the first matching PSK from the list of offered PSKs sent by the client.
*
* # Safety
*
* `context` is a void pointer and the caller is responsible for ensuring it is cast to the correct type.
* After the completion of this callback, the pointer to `psk_list` is invalid.
*
* @param conn A pointer to the s2n_connection object.
* @param context A pointer to a context for the caller to pass state to the callback, if needed.
* @param psk_list A pointer to the offered PSK list being read.
*/
typedef int (*s2n_psk_selection_callback)(struct s2n_connection *conn, void *context,
struct s2n_offered_psk_list *psk_list);
/**
* Sets the callback to select the matching PSK.
* If this callback is not set s2n-tls uses a default PSK selection logic that selects the first matching
* server PSK.
*
* @param config A pointer to the s2n_config object.
* @param cb The function that should be called when the callback is triggered.
* @param context A pointer to a context for the caller to pass state to the callback, if needed.
*/
S2N_API int s2n_config_set_psk_selection_callback(struct s2n_config *config, s2n_psk_selection_callback cb, void *context);
/**
* Get the number of bytes the connection has received.
*
* @param conn A pointer to the connection
* @returns return the number of bytes received by s2n-tls "on the wire"
*/
S2N_API extern uint64_t s2n_connection_get_wire_bytes_in(struct s2n_connection *conn);
/**
* Get the number of bytes the connection has transmitted out.
*
* @param conn A pointer to the connection
* @returns return the number of bytes transmitted out by s2n-tls "on the wire"
*/
S2N_API extern uint64_t s2n_connection_get_wire_bytes_out(struct s2n_connection *conn);
/**
* Access the protocol version supported by the client.
*
* @note The return value corresponds to the macros defined as S2N_SSLv2,
* S2N_SSLv3, S2N_TLS10, S2N_TLS11, S2N_TLS12, and S2N_TLS13.
*
* @param conn A pointer to the connection
* @returns returns the highest protocol version supported by the client
*/
S2N_API extern int s2n_connection_get_client_protocol_version(struct s2n_connection *conn);
/**
* Access the protocol version supported by the server.
*
* @note The return value corresponds to the macros defined as S2N_SSLv2,
* S2N_SSLv3, S2N_TLS10, S2N_TLS11, S2N_TLS12, and S2N_TLS13.
*
* @param conn A pointer to the connection
* @returns Returns the highest protocol version supported by the server
*/
S2N_API extern int s2n_connection_get_server_protocol_version(struct s2n_connection *conn);
/**
* Access the protocol version selected for the connection.
*
* @note The return value corresponds to the macros defined as S2N_SSLv2,
* S2N_SSLv3, S2N_TLS10, S2N_TLS11, S2N_TLS12, and S2N_TLS13.
*
* @param conn A pointer to the connection
* @returns The protocol version actually negotiated by the handshake
*/
S2N_API extern int s2n_connection_get_actual_protocol_version(struct s2n_connection *conn);
/**
* Access the client hello protocol version for the connection.
*
* @note The return value corresponds to the macros defined as S2N_SSLv2,
* S2N_SSLv3, S2N_TLS10, S2N_TLS11, S2N_TLS12, and S2N_TLS13.
*
* @param conn A pointer to the connection
* @returns The protocol version used to send the initial client hello message.
*/
S2N_API extern int s2n_connection_get_client_hello_version(struct s2n_connection *conn);
/**
* Check if Client Auth was used for a connection.
*
* @param conn A pointer to the connection
* @returns 1 if the handshake completed and Client Auth was negotiated during then
* handshake.
*/
S2N_API extern int s2n_connection_client_cert_used(struct s2n_connection *conn);
/**
* A function that provides a human readable string of the cipher suite that was chosen
* for a connection.
*
* @warning The string "TLS_NULL_WITH_NULL_NULL" is returned before the TLS handshake has been performed.
* This does not mean that the ciphersuite "TLS_NULL_WITH_NULL_NULL" will be used by the connection,
* it is merely being used as a placeholder.
*
* @note This function is only accurate after the TLS handshake.
*
* @param conn A pointer to the connection
* @returns A string indicating the cipher suite negotiated by s2n in OpenSSL format.
*/
S2N_API extern const char *s2n_connection_get_cipher(struct s2n_connection *conn);
/**
* Returns the IANA value for the connection's negotiated cipher suite.
*
* The value is returned in the form of `first,second`, in order to closely match
* the values defined in the [IANA Registry](https://www.iana.org/assignments/tls-parameters/tls-parameters.xhtml#table-tls-parameters-4).
* For example if the connection's negotiated cipher suite is `TLS_AES_128_GCM_SHA256`,
* which is registered as `0x13,0x01`, then `first = 0x13` and `second = 0x01`.
*
* This method will only succeed after the cipher suite has been negotiated with the peer.
*
* @param conn A pointer to the connection being read
* @param first A pointer to a single byte, which will be updated with the first byte in the registered IANA value.
* @param second A pointer to a single byte, which will be updated with the second byte in the registered IANA value.
* @returns A POSIX error signal. If an error was returned, the values contained in `first` and `second` should be considered invalid.
*/
S2N_API extern int s2n_connection_get_cipher_iana_value(struct s2n_connection *conn, uint8_t *first, uint8_t *second);
/**
* Function to check if the cipher used by current connection is supported by the current
* cipher preferences.
* @param conn A pointer to the s2n connection
* @param version A string representing the security policy to check against.
* @returns 1 if the connection satisfies the cipher suite. 0 if the connection does not satisfy the cipher suite. -1 if there is an error.
*/
S2N_API extern int s2n_connection_is_valid_for_cipher_preferences(struct s2n_connection *conn, const char *version);
/**
* Function to get the human readable elliptic curve name for the connection.
*
* @param conn A pointer to the s2n connection
* @returns A string indicating the elliptic curve used during ECDHE key exchange. The string "NONE" is returned if no curve was used.
*/
S2N_API extern const char *s2n_connection_get_curve(struct s2n_connection *conn);
/**
* Function to get the human readable KEM name for the connection.
*
* @param conn A pointer to the s2n connection
* @returns A human readable string for the KEM group. If there is no KEM configured returns "NONE"
*/
S2N_API extern const char *s2n_connection_get_kem_name(struct s2n_connection *conn);
/**
* Function to get the human readable KEM group name for the connection.
*
* @param conn A pointer to the s2n connection
* @returns A human readable string for the KEM group. If the connection is < TLS1.3 or there is no KEM group configured returns "NONE"
*/
S2N_API extern const char *s2n_connection_get_kem_group_name(struct s2n_connection *conn);
/**
* Function to get the alert that caused a connection to close. s2n-tls considers all
* TLS alerts fatal and shuts down a connection whenever one is received.
*
* @param conn A pointer to the s2n connection
* @returns The TLS alert code that caused a connection to be shut down
*/
S2N_API extern int s2n_connection_get_alert(struct s2n_connection *conn);
/**
* Function to return the last TLS handshake type that was processed. The returned format is a human readable string.
*
* @param conn A pointer to the s2n connection
* @returns A human-readable handshake type name, e.g. "NEGOTIATED|FULL_HANDSHAKE|PERFECT_FORWARD_SECRECY"
*/
S2N_API extern const char *s2n_connection_get_handshake_type_name(struct s2n_connection *conn);
/**
* Function to return the last TLS message that was processed. The returned format is a human readable string.
* @param conn A pointer to the s2n connection
* @returns The last message name in the TLS state machine, e.g. "SERVER_HELLO", "APPLICATION_DATA".
*/
S2N_API extern const char *s2n_connection_get_last_message_name(struct s2n_connection *conn);
/**
* Opaque async private key operation handle
*/
struct s2n_async_pkey_op;
/**
* Sets whether or not a connection should enforce strict signature validation during the
* `s2n_async_pkey_op_apply` call.
*
* `mode` can take the following values:
* - `S2N_ASYNC_PKEY_VALIDATION_FAST` - default behavior: s2n-tls will perform only the minimum validation required for safe use of the asyn pkey operation.
* - `S2N_ASYNC_PKEY_VALIDATION_STRICT` - in addition to the previous checks, s2n-tls will also ensure that the signature created as a result of the async private key sign operation matches the public key on the connection.
*/
typedef enum {
S2N_ASYNC_PKEY_VALIDATION_FAST,
S2N_ASYNC_PKEY_VALIDATION_STRICT
} s2n_async_pkey_validation_mode;
/**
* The type of private key operation
*/
typedef enum {
S2N_ASYNC_DECRYPT,
S2N_ASYNC_SIGN
} s2n_async_pkey_op_type;
/**
* Callback function for handling private key operations
*
* Invoked every time an operation requiring the private key is encountered
* during the handshake.
*
* # Safety
* * `op` is owned by the application and MUST be freed.
*
* @param conn Connection which triggered the callback
* @param op An opaque object representing the private key operation
*/
typedef int (*s2n_async_pkey_fn)(struct s2n_connection *conn, struct s2n_async_pkey_op *op);
/**
* Sets up the callback to invoke when private key operations occur.
*
* @param config Config to set the callback
* @param fn The function that should be called for each private key operation
*/
S2N_API extern int s2n_config_set_async_pkey_callback(struct s2n_config *config, s2n_async_pkey_fn fn);
/**
* Performs a private key operation using the given private key.
*
* # Safety
* * Can only be called once. Any subsequent calls will produce a `S2N_ERR_T_USAGE` error.
* * Safe to call from inside s2n_async_pkey_fn
* * Safe to call from a different thread, as long as no other thread is operating on `op`.
*
* @param op An opaque object representing the private key operation
* @param key The private key used for the operation. It can be extracted from
* `conn` through the `s2n_connection_get_selected_cert` and `s2n_cert_chain_and_key_get_private_key` calls
*/
S2N_API extern int s2n_async_pkey_op_perform(struct s2n_async_pkey_op *op, s2n_cert_private_key *key);
/**
* Finalizes a private key operation and unblocks the connection.
*
* # Safety
* * `conn` must match the connection that originally triggered the callback.
* * Must be called after the operation is performed.
* * Can only be called once. Any subsequent calls will produce a `S2N_ERR_T_USAGE` error.
* * Safe to call from inside s2n_async_pkey_fn
* * Safe to call from a different thread, as long as no other thread is operating on `op`.
*
* @param op An opaque object representing the private key operation
* @param conn The connection associated with the operation that should be unblocked
*/
S2N_API extern int s2n_async_pkey_op_apply(struct s2n_async_pkey_op *op, struct s2n_connection *conn);
/**
* Frees the opaque structure representing a private key operation.
*
* # Safety
* * MUST be called for every operation passed to s2n_async_pkey_fn
* * Safe to call before or after the connection that created the operation is freed
*
* @param op An opaque object representing the private key operation
*/
S2N_API extern int s2n_async_pkey_op_free(struct s2n_async_pkey_op *op);
/**
* Configures whether or not s2n-tls will perform potentially expensive validation of
* the results of a private key operation.
*
* @param config Config to set the validation mode for
* @param mode What level of validation to perform
*/
S2N_API extern int s2n_config_set_async_pkey_validation_mode(struct s2n_config *config, s2n_async_pkey_validation_mode mode);
/**
* Returns the type of the private key operation.
*
* @param op An opaque object representing the private key operation
* @param type A pointer to be set to the type
*/
S2N_API extern int s2n_async_pkey_op_get_op_type(struct s2n_async_pkey_op *op, s2n_async_pkey_op_type *type);
/**
* Returns the size of the input to the private key operation.
*
* @param op An opaque object representing the private key operation
* @param data_len A pointer to be set to the size
*/
S2N_API extern int s2n_async_pkey_op_get_input_size(struct s2n_async_pkey_op *op, uint32_t *data_len);
/**
* Returns the input to the private key operation.
*
* When signing, the input is the digest to sign.
* When decrypting, the input is the data to decrypt.
*
* # Safety
* * `data` must be sufficiently large to contain the input.
* `s2n_async_pkey_op_get_input_size` can be called to determine how much memory is required.
* * s2n-tls does not take ownership of `data`.
* The application still owns the memory and must free it if necessary.
*
* @param op An opaque object representing the private key operation
* @param data A pointer to a buffer to copy the input into
* @param data_len The maximum size of the `data` buffer
*/
S2N_API extern int s2n_async_pkey_op_get_input(struct s2n_async_pkey_op *op, uint8_t *data, uint32_t data_len);
/**
* Sets the output of the private key operation.
*
* # Safety
* * s2n-tls does not take ownership of `data`.
* The application still owns the memory and must free it if necessary.
*
* @param op An opaque object representing the private key operation
* @param data A pointer to a buffer containing the output
* @param data_len The size of the `data` buffer
*/
S2N_API extern int s2n_async_pkey_op_set_output(struct s2n_async_pkey_op *op, const uint8_t *data, uint32_t data_len);
/**
* Callback function for handling key log events
*
* THIS SHOULD BE USED FOR DEBUGGING PURPOSES ONLY!
*
* Each log line is formatted with the
* [NSS Key Log Format](https://developer.mozilla.org/en-US/docs/Mozilla/Projects/NSS/Key_Log_Format)
* without a newline.
*
* # Safety
*
* * `ctx` MUST be cast into the same type of pointer that was originally created
* * `logline` bytes MUST be copied or discarded before this function returns
*
* @param ctx Context for the callback
* @param conn Connection for which the log line is being emitted
* @param logline Pointer to the log line data
* @param len Length of the log line data
*/
typedef int (*s2n_key_log_fn)(void *ctx, struct s2n_connection *conn, uint8_t *logline, size_t len);
/**
* Sets a key logging callback on the provided config
*
* THIS SHOULD BE USED FOR DEBUGGING PURPOSES ONLY!
*
* Setting this function enables configurations to emit secrets in the
* [NSS Key Log Format](https://developer.mozilla.org/en-US/docs/Mozilla/Projects/NSS/Key_Log_Format)
*
* # Safety
*
* * `callback` MUST cast `ctx` into the same type of pointer that was originally created
* * `ctx` MUST live for at least as long as it is set on the config
*
* @param config Config to set the callback
* @param callback The function that should be called for each secret log entry
* @param ctx The context to be passed when the callback is called
*/
S2N_API extern int s2n_config_set_key_log_cb(struct s2n_config *config, s2n_key_log_fn callback, void *ctx);
/**
* s2n_config_enable_cert_req_dss_legacy_compat adds a dss cert type in the server certificate request when being called.
* It only sends the dss cert type in the cert request but does not succeed the handshake if a dss cert is received.
* Please DO NOT call this api unless you know you actually need legacy DSS certificate type compatibility
* @param config Config to enable legacy DSS certificates for
*/
S2N_API extern int s2n_config_enable_cert_req_dss_legacy_compat(struct s2n_config *config);
/**
* Sets the maximum bytes of early data the server will accept.
*
* The default maximum is 0. If the maximum is 0, the server rejects all early data requests.
* The config maximum can be overridden by the connection maximum or the maximum on an external pre-shared key.
*
* @param config A pointer to the config
* @param max_early_data_size The maximum early data that the server will accept
* @returns A POSIX error signal. If successful, the maximum early data size was updated.
*/
S2N_API int s2n_config_set_server_max_early_data_size(struct s2n_config *config, uint32_t max_early_data_size);
/**
* Sets the maximum bytes of early data the server will accept.
*
* The default maximum is 0. If the maximum is 0, the server rejects all early data requests.
* The connection maximum can be overridden by the maximum on an external pre-shared key.
*
* @param conn A pointer to the connection
* @param max_early_data_size The maximum early data the server will accept
* @returns A POSIX error signal. If successful, the maximum early data size was updated.
*/
S2N_API int s2n_connection_set_server_max_early_data_size(struct s2n_connection *conn, uint32_t max_early_data_size);
/**
* Sets the user context associated with early data on a server.
*
* This context is passed to the `s2n_early_data_cb` callback to help decide whether to accept or reject early data.
*
* Unlike most contexts, the early data context is a byte buffer instead of a void pointer.
* This is because we need to serialize the context into session tickets.
*
* This API is intended for use with session resumption, and will not affect pre-shared keys.
*
* @param conn A pointer to the connection
* @param context A pointer to the user context data. This data will be copied.
* @param context_size The size of the data to read from the `context` pointer.
* @returns A POSIX error signal. If successful, the context was updated.
*/
S2N_API int s2n_connection_set_server_early_data_context(struct s2n_connection *conn, const uint8_t *context, uint16_t context_size);
/**
* Configures a particular pre-shared key to allow early data.
*
* `max_early_data_size` must be set to the maximum early data accepted by the server.
*
* In order to use early data, the cipher suite set on the pre-shared key must match the cipher suite
* ultimately negotiated by the TLS handshake. Additionally, the cipher suite must have the same
* hmac algorithm as the pre-shared key.
*
* @param psk A pointer to the pre-shared key, created with `s2n_external_psk_new`.
* @param max_early_data_size The maximum early data that can be sent or received using this key.
* @param cipher_suite_first_byte The first byte in the registered IANA value of the associated cipher suite.
* @param cipher_suite_second_byte The second byte in the registered IANA value of the associated cipher suite.
* @returns A POSIX error signal. If successful, `psk` was updated.
*/
S2N_API int s2n_psk_configure_early_data(struct s2n_psk *psk, uint32_t max_early_data_size,
uint8_t cipher_suite_first_byte, uint8_t cipher_suite_second_byte);
/**
* Sets the optional `application_protocol` associated with the given pre-shared key.
*
* In order to use early data, the `application_protocol` set on the pre-shared key must match
* the `application_protocol` ultimately negotiated by the TLS handshake.
*
* @param psk A pointer to the pre-shared key, created with `s2n_external_psk_new`.
* @param application_protocol A pointer to the associated application protocol data. This data will be copied.
* @param size The size of the data to read from the `application_protocol` pointer.
* @returns A POSIX error signal. If successful, the application protocol was set.
*/
S2N_API int s2n_psk_set_application_protocol(struct s2n_psk *psk, const uint8_t *application_protocol, uint8_t size);
/**
* Sets the optional user early data context associated with the given pre-shared key.
*
* The early data context is passed to the `s2n_early_data_cb` callback to help decide whether
* to accept or reject early data.
*
* @param psk A pointer to the pre-shared key, created with `s2n_external_psk_new`.
* @param context A pointer to the associated user context data. This data will be copied.
* @param size The size of the data to read from the `context` pointer.
* @returns A POSIX error signal. If successful, the context was set.
*/
S2N_API int s2n_psk_set_early_data_context(struct s2n_psk *psk, const uint8_t *context, uint16_t size);
/**
* The status of early data on a connection.
*
* S2N_EARLY_DATA_STATUS_OK: Early data is in progress.
* S2N_EARLY_DATA_STATUS_NOT_REQUESTED: The client did not request early data, so none was sent or received.
* S2N_EARLY_DATA_STATUS_REJECTED: The client requested early data, but the server rejected the request.
* Early data may have been sent, but was not received.
* S2N_EARLY_DATA_STATUS_END: All early data was successfully sent and received.
*/
typedef enum {
S2N_EARLY_DATA_STATUS_OK,
S2N_EARLY_DATA_STATUS_NOT_REQUESTED,
S2N_EARLY_DATA_STATUS_REJECTED,
S2N_EARLY_DATA_STATUS_END,
} s2n_early_data_status_t;
/**
* Reports the current state of early data for a connection.
*
* See `s2n_early_data_status_t` for all possible states.
*
* @param conn A pointer to the connection
* @param status A pointer which will be set to the current early data status
* @returns A POSIX error signal.
*/
S2N_API int s2n_connection_get_early_data_status(struct s2n_connection *conn, s2n_early_data_status_t *status);
/**
* Reports the remaining size of the early data allowed by a connection.
*
* If early data was rejected or not requested, the remaining early data size is 0.
* Otherwise, the remaining early data size is the maximum early data allowed by the connection,
* minus the early data sent or received so far.
*
* @param conn A pointer to the connection
* @param allowed_early_data_size A pointer which will be set to the remaining early data currently allowed by `conn`
* @returns A POSIX error signal.
*/
S2N_API int s2n_connection_get_remaining_early_data_size(struct s2n_connection *conn, uint32_t *allowed_early_data_size);
/**
* Reports the maximum size of the early data allowed by a connection.
*
* This is the maximum amount of early data that can ever be sent and received for a connection.
* It is not affected by the actual status of the early data, so can be non-zero even if early data
* is rejected or not requested.
*
* @param conn A pointer to the connection
* @param max_early_data_size A pointer which will be set to the maximum early data allowed by `conn`
* @returns A POSIX error signal.
*/
S2N_API int s2n_connection_get_max_early_data_size(struct s2n_connection *conn, uint32_t *max_early_data_size);
/**
* Called by the client to begin negotiation and send early data.
*
* See https://github.com/aws/s2n-tls/blob/main/docs/USAGE-GUIDE.md#using-early-data--0rtt
* for usage and examples. DO NOT USE unless you have considered the security issues and
* implemented mitigation for anti-replay attacks.
*
* @param conn A pointer to the connection
* @param data A pointer to the early data to be sent
* @param data_len The size of the early data to send
* @param data_sent A pointer which will be set to the size of the early data sent
* @param blocked A pointer which will be set to the blocked status, as in `s2n_negotiate`.
* @returns A POSIX error signal. The error should be handled as in `s2n_negotiate`.
*/
S2N_API int s2n_send_early_data(struct s2n_connection *conn, const uint8_t *data, ssize_t data_len,
ssize_t *data_sent, s2n_blocked_status *blocked);
/**
* Called by the server to begin negotiation and accept any early data the client sends.
*
* See https://github.com/aws/s2n-tls/blob/main/docs/USAGE-GUIDE.md#using-early-data--0rtt
* for usage and examples. DO NOT USE unless you have considered the security issues and
* implemented mitigation for anti-replay attacks.
*
* @param conn A pointer to the connection
* @param data A pointer to a buffer to store the early data received
* @param max_data_len The size of the early data buffer
* @param data_received A pointer which will be set to the size of the early data received
* @param blocked A pointer which will be set to the blocked status, as in `s2n_negotiate`.
* @returns A POSIX error signal. The error should be handled as in `s2n_negotiate`.
*/
S2N_API int s2n_recv_early_data(struct s2n_connection *conn, uint8_t *data, ssize_t max_data_len,
ssize_t *data_received, s2n_blocked_status *blocked);
struct s2n_offered_early_data;
/**
* A callback which can be implemented to accept or reject early data.
*
* This callback is triggered only after the server has determined early data is otherwise acceptable according
* to the TLS early data specification. Implementations therefore only need to cover application-specific checks,
* not the standard TLS early data validation.
*
* This callback can be synchronous or asynchronous. For asynchronous behavior, return success without
* calling `s2n_offered_early_data_reject` or `s2n_offered_early_data_accept`. `early_data` will
* still be a valid reference, and the connection will block until `s2n_offered_early_data_reject` or
* `s2n_offered_early_data_accept` is called.
*
* @param conn A pointer to the connection
* @param early_data A pointer which can be used to access information about the proposed early data
* and then accept or reject it.
* @returns A POSIX error signal. If unsuccessful, the connection will be closed with an error.
*/
typedef int (*s2n_early_data_cb)(struct s2n_connection *conn, struct s2n_offered_early_data *early_data);
/**
* Set a callback to accept or reject early data.
*
* @param config A pointer to the connection config
* @param cb A pointer to the implementation of the callback.
* @returns A POSIX error signal. If successful, the callback was set.
*/
S2N_API int s2n_config_set_early_data_cb(struct s2n_config *config, s2n_early_data_cb cb);
/**
* Get the length of the early data context set by the user.
*
* @param early_data A pointer to the early data information
* @param context_len The length of the user context
* @returns A POSIX error signal.
*/
S2N_API int s2n_offered_early_data_get_context_length(struct s2n_offered_early_data *early_data, uint16_t *context_len);
/**
* Get the early data context set by the user.
*
* @param early_data A pointer to the early data information
* @param context A byte buffer to copy the user context into
* @param max_len The size of `context`. Must be >= to the result of `s2n_offered_early_data_get_context_length`.
* @returns A POSIX error signal.
*/
S2N_API int s2n_offered_early_data_get_context(struct s2n_offered_early_data *early_data, uint8_t *context, uint16_t max_len);
/**
* Reject early data offered by the client.
*
* @param early_data A pointer to the early data information
* @returns A POSIX error signal. If success, the client's early data will be rejected.
*/
S2N_API int s2n_offered_early_data_reject(struct s2n_offered_early_data *early_data);
/**
* Accept early data offered by the client.
*
* @param early_data A pointer to the early data information
* @returns A POSIX error signal. If success, the client's early data will be accepted.
*/
S2N_API int s2n_offered_early_data_accept(struct s2n_offered_early_data *early_data);
#ifdef __cplusplus
}
#endif
|