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/*
*
* Copyright 2015 gRPC authors.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License 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.
*
*/
#ifndef GRPC_GRPC_SECURITY_H
#define GRPC_GRPC_SECURITY_H
#include <grpc/support/port_platform.h>
#include <grpc/grpc.h>
#include <grpc/grpc_security_constants.h>
#include <grpc/status.h>
#ifdef __cplusplus
extern "C" {
#endif
/** --- Authentication Context. --- */
typedef struct grpc_auth_context grpc_auth_context;
typedef struct grpc_auth_property_iterator {
const grpc_auth_context* ctx;
size_t index;
const char* name;
} grpc_auth_property_iterator;
/** value, if not NULL, is guaranteed to be NULL terminated. */
typedef struct grpc_auth_property {
char* name;
char* value;
size_t value_length;
} grpc_auth_property;
/** Returns NULL when the iterator is at the end. */
GRPCAPI const grpc_auth_property* grpc_auth_property_iterator_next(
grpc_auth_property_iterator* it);
/** Iterates over the auth context. */
GRPCAPI grpc_auth_property_iterator
grpc_auth_context_property_iterator(const grpc_auth_context* ctx);
/** Gets the peer identity. Returns an empty iterator (first _next will return
NULL) if the peer is not authenticated. */
GRPCAPI grpc_auth_property_iterator
grpc_auth_context_peer_identity(const grpc_auth_context* ctx);
/** Finds a property in the context. May return an empty iterator (first _next
will return NULL) if no property with this name was found in the context. */
GRPCAPI grpc_auth_property_iterator grpc_auth_context_find_properties_by_name(
const grpc_auth_context* ctx, const char* name);
/** Gets the name of the property that indicates the peer identity. Will return
NULL if the peer is not authenticated. */
GRPCAPI const char* grpc_auth_context_peer_identity_property_name(
const grpc_auth_context* ctx);
/** Returns 1 if the peer is authenticated, 0 otherwise. */
GRPCAPI int grpc_auth_context_peer_is_authenticated(
const grpc_auth_context* ctx);
/** Gets the auth context from the call. Caller needs to call
grpc_auth_context_release on the returned context. */
GRPCAPI grpc_auth_context* grpc_call_auth_context(grpc_call* call);
/** Releases the auth context returned from grpc_call_auth_context. */
GRPCAPI void grpc_auth_context_release(grpc_auth_context* context);
/** --
The following auth context methods should only be called by a server metadata
processor to set properties extracted from auth metadata.
-- */
/** Add a property. */
GRPCAPI void grpc_auth_context_add_property(grpc_auth_context* ctx,
const char* name, const char* value,
size_t value_length);
/** Add a C string property. */
GRPCAPI void grpc_auth_context_add_cstring_property(grpc_auth_context* ctx,
const char* name,
const char* value);
/** Sets the property name. Returns 1 if successful or 0 in case of failure
(which means that no property with this name exists). */
GRPCAPI int grpc_auth_context_set_peer_identity_property_name(
grpc_auth_context* ctx, const char* name);
/** --- SSL Session Cache. ---
A SSL session cache object represents a way to cache client sessions
between connections. Only ticket-based resumption is supported. */
typedef struct grpc_ssl_session_cache grpc_ssl_session_cache;
/** Create LRU cache for client-side SSL sessions with the given capacity.
If capacity is < 1, a default capacity is used instead. */
GRPCAPI grpc_ssl_session_cache* grpc_ssl_session_cache_create_lru(
size_t capacity);
/** Destroy SSL session cache. */
GRPCAPI void grpc_ssl_session_cache_destroy(grpc_ssl_session_cache* cache);
/** Create a channel arg with the given cache object. */
GRPCAPI grpc_arg
grpc_ssl_session_cache_create_channel_arg(grpc_ssl_session_cache* cache);
/** --- grpc_channel_credentials object. ---
A channel credentials object represents a way to authenticate a client on a
channel. */
typedef struct grpc_channel_credentials grpc_channel_credentials;
/** Releases a channel credentials object.
The creator of the credentials object is responsible for its release. */
GRPCAPI void grpc_channel_credentials_release(grpc_channel_credentials* creds);
/** Creates default credentials to connect to a google gRPC service.
WARNING: Do NOT use this credentials to connect to a non-google service as
this could result in an oauth2 token leak. The security level of the
resulting connection is GRPC_PRIVACY_AND_INTEGRITY. */
GRPCAPI grpc_channel_credentials* grpc_google_default_credentials_create(void);
/** Callback for getting the SSL roots override from the application.
In case of success, *pem_roots_certs must be set to a NULL terminated string
containing the list of PEM encoded root certificates. The ownership is passed
to the core and freed (laster by the core) with gpr_free.
If this function fails and GRPC_DEFAULT_SSL_ROOTS_FILE_PATH environment is
set to a valid path, it will override the roots specified this func */
typedef grpc_ssl_roots_override_result (*grpc_ssl_roots_override_callback)(
char** pem_root_certs);
/** Setup a callback to override the default TLS/SSL roots.
This function is not thread-safe and must be called at initialization time
before any ssl credentials are created to have the desired side effect.
If GRPC_DEFAULT_SSL_ROOTS_FILE_PATH environment is set to a valid path, the
callback will not be called. */
GRPCAPI void grpc_set_ssl_roots_override_callback(
grpc_ssl_roots_override_callback cb);
/** Object that holds a private key / certificate chain pair in PEM format. */
typedef struct {
/** private_key is the NULL-terminated string containing the PEM encoding of
the client's private key. */
const char* private_key;
/** cert_chain is the NULL-terminated string containing the PEM encoding of
the client's certificate chain. */
const char* cert_chain;
} grpc_ssl_pem_key_cert_pair;
/** Deprecated in favor of grpc_ssl_verify_peer_options. It will be removed
after all of its call sites are migrated to grpc_ssl_verify_peer_options.
Object that holds additional peer-verification options on a secure
channel. */
typedef struct {
/** If non-NULL this callback will be invoked with the expected
target_name, the peer's certificate (in PEM format), and whatever
userdata pointer is set below. If a non-zero value is returned by this
callback then it is treated as a verification failure. Invocation of
the callback is blocking, so any implementation should be light-weight.
*/
int (*verify_peer_callback)(const char* target_name, const char* peer_pem,
void* userdata);
/** Arbitrary userdata that will be passed as the last argument to
verify_peer_callback. */
void* verify_peer_callback_userdata;
/** A destruct callback that will be invoked when the channel is being
cleaned up. The userdata argument will be passed to it. The intent is
to perform any cleanup associated with that userdata. */
void (*verify_peer_destruct)(void* userdata);
} verify_peer_options;
/** Object that holds additional peer-verification options on a secure
channel. */
typedef struct {
/** If non-NULL this callback will be invoked with the expected
target_name, the peer's certificate (in PEM format), and whatever
userdata pointer is set below. If a non-zero value is returned by this
callback then it is treated as a verification failure. Invocation of
the callback is blocking, so any implementation should be light-weight.
*/
int (*verify_peer_callback)(const char* target_name, const char* peer_pem,
void* userdata);
/** Arbitrary userdata that will be passed as the last argument to
verify_peer_callback. */
void* verify_peer_callback_userdata;
/** A destruct callback that will be invoked when the channel is being
cleaned up. The userdata argument will be passed to it. The intent is
to perform any cleanup associated with that userdata. */
void (*verify_peer_destruct)(void* userdata);
} grpc_ssl_verify_peer_options;
/** Deprecated in favor of grpc_ssl_server_credentials_create_ex. It will be
removed after all of its call sites are migrated to
grpc_ssl_server_credentials_create_ex. Creates an SSL credentials object.
The security level of the resulting connection is GRPC_PRIVACY_AND_INTEGRITY.
- pem_root_certs is the NULL-terminated string containing the PEM encoding
of the server root certificates. If this parameter is NULL, the
implementation will first try to dereference the file pointed by the
GRPC_DEFAULT_SSL_ROOTS_FILE_PATH environment variable, and if that fails,
try to get the roots set by grpc_override_ssl_default_roots. Eventually,
if all these fail, it will try to get the roots from a well-known place on
disk (in the grpc install directory).
gRPC has implemented root cache if the underlying OpenSSL library supports
it. The gRPC root certificates cache is only applicable on the default
root certificates, which is used when this parameter is nullptr. If user
provides their own pem_root_certs, when creating an SSL credential object,
gRPC would not be able to cache it, and each subchannel will generate a
copy of the root store. So it is recommended to avoid providing large room
pem with pem_root_certs parameter to avoid excessive memory consumption,
particularly on mobile platforms such as iOS.
- pem_key_cert_pair is a pointer on the object containing client's private
key and certificate chain. This parameter can be NULL if the client does
not have such a key/cert pair.
- verify_options is an optional verify_peer_options object which holds
additional options controlling how peer certificates are verified. For
example, you can supply a callback which receives the peer's certificate
with which you can do additional verification. Can be NULL, in which
case verification will retain default behavior. Any settings in
verify_options are copied during this call, so the verify_options
object can be released afterwards. */
GRPCAPI grpc_channel_credentials* grpc_ssl_credentials_create(
const char* pem_root_certs, grpc_ssl_pem_key_cert_pair* pem_key_cert_pair,
const verify_peer_options* verify_options, void* reserved);
/* Creates an SSL credentials object.
The security level of the resulting connection is GRPC_PRIVACY_AND_INTEGRITY.
- pem_root_certs is the NULL-terminated string containing the PEM encoding
of the server root certificates. If this parameter is NULL, the
implementation will first try to dereference the file pointed by the
GRPC_DEFAULT_SSL_ROOTS_FILE_PATH environment variable, and if that fails,
try to get the roots set by grpc_override_ssl_default_roots. Eventually,
if all these fail, it will try to get the roots from a well-known place on
disk (in the grpc install directory).
gRPC has implemented root cache if the underlying OpenSSL library supports
it. The gRPC root certificates cache is only applicable on the default
root certificates, which is used when this parameter is nullptr. If user
provides their own pem_root_certs, when creating an SSL credential object,
gRPC would not be able to cache it, and each subchannel will generate a
copy of the root store. So it is recommended to avoid providing large room
pem with pem_root_certs parameter to avoid excessive memory consumption,
particularly on mobile platforms such as iOS.
- pem_key_cert_pair is a pointer on the object containing client's private
key and certificate chain. This parameter can be NULL if the client does
not have such a key/cert pair.
- verify_options is an optional verify_peer_options object which holds
additional options controlling how peer certificates are verified. For
example, you can supply a callback which receives the peer's certificate
with which you can do additional verification. Can be NULL, in which
case verification will retain default behavior. Any settings in
verify_options are copied during this call, so the verify_options
object can be released afterwards. */
GRPCAPI grpc_channel_credentials* grpc_ssl_credentials_create_ex(
const char* pem_root_certs, grpc_ssl_pem_key_cert_pair* pem_key_cert_pair,
const grpc_ssl_verify_peer_options* verify_options, void* reserved);
/** --- grpc_call_credentials object.
A call credentials object represents a way to authenticate on a particular
call. These credentials can be composed with a channel credentials object
so that they are sent with every call on this channel. */
typedef struct grpc_call_credentials grpc_call_credentials;
/** Releases a call credentials object.
The creator of the credentials object is responsible for its release. */
GRPCAPI void grpc_call_credentials_release(grpc_call_credentials* creds);
/** Creates a composite channel credentials object. The security level of
* resulting connection is determined by channel_creds. */
GRPCAPI grpc_channel_credentials* grpc_composite_channel_credentials_create(
grpc_channel_credentials* channel_creds, grpc_call_credentials* call_creds,
void* reserved);
/** Creates a composite call credentials object. */
GRPCAPI grpc_call_credentials* grpc_composite_call_credentials_create(
grpc_call_credentials* creds1, grpc_call_credentials* creds2,
void* reserved);
/** Creates a compute engine credentials object for connecting to Google.
WARNING: Do NOT use this credentials to connect to a non-google service as
this could result in an oauth2 token leak. */
GRPCAPI grpc_call_credentials* grpc_google_compute_engine_credentials_create(
void* reserved);
GRPCAPI gpr_timespec grpc_max_auth_token_lifetime(void);
/** Creates a JWT credentials object. May return NULL if the input is invalid.
- json_key is the JSON key string containing the client's private key.
- token_lifetime is the lifetime of each Json Web Token (JWT) created with
this credentials. It should not exceed grpc_max_auth_token_lifetime or
will be cropped to this value. */
GRPCAPI grpc_call_credentials*
grpc_service_account_jwt_access_credentials_create(const char* json_key,
gpr_timespec token_lifetime,
void* reserved);
/** Creates an Oauth2 Refresh Token credentials object for connecting to Google.
May return NULL if the input is invalid.
WARNING: Do NOT use this credentials to connect to a non-google service as
this could result in an oauth2 token leak.
- json_refresh_token is the JSON string containing the refresh token itself
along with a client_id and client_secret. */
GRPCAPI grpc_call_credentials* grpc_google_refresh_token_credentials_create(
const char* json_refresh_token, void* reserved);
/** Creates an Oauth2 Access Token credentials with an access token that was
acquired by an out of band mechanism. */
GRPCAPI grpc_call_credentials* grpc_access_token_credentials_create(
const char* access_token, void* reserved);
/** Creates an IAM credentials object for connecting to Google. */
GRPCAPI grpc_call_credentials* grpc_google_iam_credentials_create(
const char* authorization_token, const char* authority_selector,
void* reserved);
/** Options for creating STS Oauth Token Exchange credentials following the IETF
draft https://tools.ietf.org/html/draft-ietf-oauth-token-exchange-16.
Optional fields may be set to NULL or empty string. It is the responsibility
of the caller to ensure that the subject and actor tokens are refreshed on
disk at the specified paths. This API is used for experimental purposes for
now and may change in the future. */
typedef struct {
const char* token_exchange_service_uri; /* Required. */
const char* resource; /* Optional. */
const char* audience; /* Optional. */
const char* scope; /* Optional. */
const char* requested_token_type; /* Optional. */
const char* subject_token_path; /* Required. */
const char* subject_token_type; /* Required. */
const char* actor_token_path; /* Optional. */
const char* actor_token_type; /* Optional. */
} grpc_sts_credentials_options;
/** Creates an STS credentials following the STS Token Exchanged specifed in the
IETF draft https://tools.ietf.org/html/draft-ietf-oauth-token-exchange-16.
This API is used for experimental purposes for now and may change in the
future. */
GRPCAPI grpc_call_credentials* grpc_sts_credentials_create(
const grpc_sts_credentials_options* options, void* reserved);
/** Callback function to be called by the metadata credentials plugin
implementation when the metadata is ready.
- user_data is the opaque pointer that was passed in the get_metadata method
of the grpc_metadata_credentials_plugin (see below).
- creds_md is an array of credentials metadata produced by the plugin. It
may be set to NULL in case of an error.
- num_creds_md is the number of items in the creds_md array.
- status must be GRPC_STATUS_OK in case of success or another specific error
code otherwise.
- error_details contains details about the error if any. In case of success
it should be NULL and will be otherwise ignored. */
typedef void (*grpc_credentials_plugin_metadata_cb)(
void* user_data, const grpc_metadata* creds_md, size_t num_creds_md,
grpc_status_code status, const char* error_details);
/** Context that can be used by metadata credentials plugin in order to create
auth related metadata. */
typedef struct {
/** The fully qualifed service url. */
const char* service_url;
/** The method name of the RPC being called (not fully qualified).
The fully qualified method name can be built from the service_url:
full_qualified_method_name = ctx->service_url + '/' + ctx->method_name. */
const char* method_name;
/** The auth_context of the channel which gives the server's identity. */
const grpc_auth_context* channel_auth_context;
/** Reserved for future use. */
void* reserved;
} grpc_auth_metadata_context;
/** Maximum number of metadata entries returnable by a credentials plugin via
a synchronous return. */
#define GRPC_METADATA_CREDENTIALS_PLUGIN_SYNC_MAX 4
/** grpc_metadata_credentials plugin is an API user provided structure used to
create grpc_credentials objects that can be set on a channel (composed) or
a call. See grpc_credentials_metadata_create_from_plugin below.
The grpc client stack will call the get_metadata method of the plugin for
every call in scope for the credentials created from it. */
typedef struct {
/** The implementation of this method has to be non-blocking, but can
be performed synchronously or asynchronously.
If processing occurs synchronously, returns non-zero and populates
creds_md, num_creds_md, status, and error_details. In this case,
the caller takes ownership of the entries in creds_md and of
error_details. Note that if the plugin needs to return more than
GRPC_METADATA_CREDENTIALS_PLUGIN_SYNC_MAX entries in creds_md, it must
return asynchronously.
If processing occurs asynchronously, returns zero and invokes \a cb
when processing is completed. \a user_data will be passed as the
first parameter of the callback. NOTE: \a cb MUST be invoked in a
different thread, not from the thread in which \a get_metadata() is
invoked.
\a context is the information that can be used by the plugin to create
auth metadata. */
int (*get_metadata)(
void* state, grpc_auth_metadata_context context,
grpc_credentials_plugin_metadata_cb cb, void* user_data,
grpc_metadata creds_md[GRPC_METADATA_CREDENTIALS_PLUGIN_SYNC_MAX],
size_t* num_creds_md, grpc_status_code* status,
const char** error_details);
/** Implements debug string of the given plugin. This method returns an
* allocated string that the caller needs to free using gpr_free() */
char* (*debug_string)(void* state);
/** Destroys the plugin state. */
void (*destroy)(void* state);
/** State that will be set as the first parameter of the methods above. */
void* state;
/** Type of credentials that this plugin is implementing. */
const char* type;
} grpc_metadata_credentials_plugin;
/** Creates a credentials object from a plugin with a specified minimum security
* level. */
GRPCAPI grpc_call_credentials* grpc_metadata_credentials_create_from_plugin(
grpc_metadata_credentials_plugin plugin,
grpc_security_level min_security_level, void* reserved);
/** --- Secure channel creation. --- */
/** Creates a secure channel using the passed-in credentials. Additional
channel level configuration MAY be provided by grpc_channel_args, though
the expectation is that most clients will want to simply pass NULL. The
user data in 'args' need only live through the invocation of this function.
However, if any args of the 'pointer' type are passed, then the referenced
vtable must be maintained by the caller until grpc_channel_destroy
terminates. See grpc_channel_args definition for more on this. */
GRPCAPI grpc_channel* grpc_secure_channel_create(
grpc_channel_credentials* creds, const char* target,
const grpc_channel_args* args, void* reserved);
/** --- grpc_server_credentials object. ---
A server credentials object represents a way to authenticate a server. */
typedef struct grpc_server_credentials grpc_server_credentials;
/** Releases a server_credentials object.
The creator of the server_credentials object is responsible for its release.
*/
GRPCAPI void grpc_server_credentials_release(grpc_server_credentials* creds);
/** Server certificate config object holds the server's public certificates and
associated private keys, as well as any CA certificates needed for client
certificate validation (if applicable). Create using
grpc_ssl_server_certificate_config_create(). */
typedef struct grpc_ssl_server_certificate_config
grpc_ssl_server_certificate_config;
/** Creates a grpc_ssl_server_certificate_config object.
- pem_roots_cert is the NULL-terminated string containing the PEM encoding of
the client root certificates. This parameter may be NULL if the server does
not want the client to be authenticated with SSL.
- pem_key_cert_pairs is an array private key / certificate chains of the
server. This parameter cannot be NULL.
- num_key_cert_pairs indicates the number of items in the private_key_files
and cert_chain_files parameters. It must be at least 1.
- It is the caller's responsibility to free this object via
grpc_ssl_server_certificate_config_destroy(). */
GRPCAPI grpc_ssl_server_certificate_config*
grpc_ssl_server_certificate_config_create(
const char* pem_root_certs,
const grpc_ssl_pem_key_cert_pair* pem_key_cert_pairs,
size_t num_key_cert_pairs);
/** Destroys a grpc_ssl_server_certificate_config object. */
GRPCAPI void grpc_ssl_server_certificate_config_destroy(
grpc_ssl_server_certificate_config* config);
/** Callback to retrieve updated SSL server certificates, private keys, and
trusted CAs (for client authentication).
- user_data parameter, if not NULL, contains opaque data to be used by the
callback.
- Use grpc_ssl_server_certificate_config_create to create the config.
- The caller assumes ownership of the config. */
typedef grpc_ssl_certificate_config_reload_status (
*grpc_ssl_server_certificate_config_callback)(
void* user_data, grpc_ssl_server_certificate_config** config);
/** Deprecated in favor of grpc_ssl_server_credentials_create_ex.
Creates an SSL server_credentials object.
- pem_roots_cert is the NULL-terminated string containing the PEM encoding of
the client root certificates. This parameter may be NULL if the server does
not want the client to be authenticated with SSL.
- pem_key_cert_pairs is an array private key / certificate chains of the
server. This parameter cannot be NULL.
- num_key_cert_pairs indicates the number of items in the private_key_files
and cert_chain_files parameters. It should be at least 1.
- force_client_auth, if set to non-zero will force the client to authenticate
with an SSL cert. Note that this option is ignored if pem_root_certs is
NULL. */
GRPCAPI grpc_server_credentials* grpc_ssl_server_credentials_create(
const char* pem_root_certs, grpc_ssl_pem_key_cert_pair* pem_key_cert_pairs,
size_t num_key_cert_pairs, int force_client_auth, void* reserved);
/** Deprecated in favor of grpc_ssl_server_credentials_create_with_options.
Same as grpc_ssl_server_credentials_create method except uses
grpc_ssl_client_certificate_request_type enum to support more ways to
authenticate client certificates.*/
GRPCAPI grpc_server_credentials* grpc_ssl_server_credentials_create_ex(
const char* pem_root_certs, grpc_ssl_pem_key_cert_pair* pem_key_cert_pairs,
size_t num_key_cert_pairs,
grpc_ssl_client_certificate_request_type client_certificate_request,
void* reserved);
typedef struct grpc_ssl_server_credentials_options
grpc_ssl_server_credentials_options;
/** Creates an options object using a certificate config. Use this method when
the certificates and keys of the SSL server will not change during the
server's lifetime.
- Takes ownership of the certificate_config parameter. */
GRPCAPI grpc_ssl_server_credentials_options*
grpc_ssl_server_credentials_create_options_using_config(
grpc_ssl_client_certificate_request_type client_certificate_request,
grpc_ssl_server_certificate_config* certificate_config);
/** Creates an options object using a certificate config fetcher. Use this
method to reload the certificates and keys of the SSL server without
interrupting the operation of the server. Initial certificate config will be
fetched during server initialization.
- user_data parameter, if not NULL, contains opaque data which will be passed
to the fetcher (see definition of
grpc_ssl_server_certificate_config_callback). */
GRPCAPI grpc_ssl_server_credentials_options*
grpc_ssl_server_credentials_create_options_using_config_fetcher(
grpc_ssl_client_certificate_request_type client_certificate_request,
grpc_ssl_server_certificate_config_callback cb, void* user_data);
/** Destroys a grpc_ssl_server_credentials_options object. */
GRPCAPI void grpc_ssl_server_credentials_options_destroy(
grpc_ssl_server_credentials_options* options);
/** Creates an SSL server_credentials object using the provided options struct.
- Takes ownership of the options parameter. */
GRPCAPI grpc_server_credentials*
grpc_ssl_server_credentials_create_with_options(
grpc_ssl_server_credentials_options* options);
/** --- Server-side secure ports. --- */
/** Add a HTTP2 over an encrypted link over tcp listener.
Returns bound port number on success, 0 on failure.
REQUIRES: server not started */
GRPCAPI int grpc_server_add_secure_http2_port(grpc_server* server,
const char* addr,
grpc_server_credentials* creds);
/** --- Call specific credentials. --- */
/** Sets a credentials to a call. Can only be called on the client side before
grpc_call_start_batch. */
GRPCAPI grpc_call_error grpc_call_set_credentials(grpc_call* call,
grpc_call_credentials* creds);
/** --- Auth Metadata Processing --- */
/** Callback function that is called when the metadata processing is done.
- Consumed metadata will be removed from the set of metadata available on the
call. consumed_md may be NULL if no metadata has been consumed.
- Response metadata will be set on the response. response_md may be NULL.
- status is GRPC_STATUS_OK for success or a specific status for an error.
Common error status for auth metadata processing is either
GRPC_STATUS_UNAUTHENTICATED in case of an authentication failure or
GRPC_STATUS PERMISSION_DENIED in case of an authorization failure.
- error_details gives details about the error. May be NULL. */
typedef void (*grpc_process_auth_metadata_done_cb)(
void* user_data, const grpc_metadata* consumed_md, size_t num_consumed_md,
const grpc_metadata* response_md, size_t num_response_md,
grpc_status_code status, const char* error_details);
/** Pluggable server-side metadata processor object. */
typedef struct {
/** The context object is read/write: it contains the properties of the
channel peer and it is the job of the process function to augment it with
properties derived from the passed-in metadata.
The lifetime of these objects is guaranteed until cb is invoked. */
void (*process)(void* state, grpc_auth_context* context,
const grpc_metadata* md, size_t num_md,
grpc_process_auth_metadata_done_cb cb, void* user_data);
void (*destroy)(void* state);
void* state;
} grpc_auth_metadata_processor;
GRPCAPI void grpc_server_credentials_set_auth_metadata_processor(
grpc_server_credentials* creds, grpc_auth_metadata_processor processor);
/** --- ALTS channel/server credentials --- **/
/**
* Main interface for ALTS credentials options. The options will contain
* information that will be passed from grpc to TSI layer such as RPC protocol
* versions. ALTS client (channel) and server credentials will have their own
* implementation of this interface. The APIs listed in this header are
* thread-compatible. It is used for experimental purpose for now and subject
* to change.
*/
typedef struct grpc_alts_credentials_options grpc_alts_credentials_options;
/**
* This method creates a grpc ALTS credentials client options instance.
* It is used for experimental purpose for now and subject to change.
*/
GRPCAPI grpc_alts_credentials_options*
grpc_alts_credentials_client_options_create(void);
/**
* This method creates a grpc ALTS credentials server options instance.
* It is used for experimental purpose for now and subject to change.
*/
GRPCAPI grpc_alts_credentials_options*
grpc_alts_credentials_server_options_create(void);
/**
* This method adds a target service account to grpc client's ALTS credentials
* options instance. It is used for experimental purpose for now and subject
* to change.
*
* - options: grpc ALTS credentials options instance.
* - service_account: service account of target endpoint.
*/
GRPCAPI void grpc_alts_credentials_client_options_add_target_service_account(
grpc_alts_credentials_options* options, const char* service_account);
/**
* This method destroys a grpc_alts_credentials_options instance by
* de-allocating all of its occupied memory. It is used for experimental purpose
* for now and subject to change.
*
* - options: a grpc_alts_credentials_options instance that needs to be
* destroyed.
*/
GRPCAPI void grpc_alts_credentials_options_destroy(
grpc_alts_credentials_options* options);
/**
* This method creates an ALTS channel credential object. The security
* level of the resulting connection is GRPC_PRIVACY_AND_INTEGRITY.
* It is used for experimental purpose for now and subject to change.
*
* - options: grpc ALTS credentials options instance for client.
*
* It returns the created ALTS channel credential object.
*/
GRPCAPI grpc_channel_credentials* grpc_alts_credentials_create(
const grpc_alts_credentials_options* options);
/**
* This method creates an ALTS server credential object. It is used for
* experimental purpose for now and subject to change.
*
* - options: grpc ALTS credentials options instance for server.
*
* It returns the created ALTS server credential object.
*/
GRPCAPI grpc_server_credentials* grpc_alts_server_credentials_create(
const grpc_alts_credentials_options* options);
/** --- Local channel/server credentials --- **/
/**
* This method creates a local channel credential object. The security level
* of the resulting connection is GRPC_PRIVACY_AND_INTEGRITY for UDS and
* GRPC_SECURITY_NONE for LOCAL_TCP. It is used for experimental purpose
* for now and subject to change.
*
* - type: local connection type
*
* It returns the created local channel credential object.
*/
GRPCAPI grpc_channel_credentials* grpc_local_credentials_create(
grpc_local_connect_type type);
/**
* This method creates a local server credential object. It is used for
* experimental purpose for now and subject to change.
*
* - type: local connection type
*
* It returns the created local server credential object.
*/
GRPCAPI grpc_server_credentials* grpc_local_server_credentials_create(
grpc_local_connect_type type);
/** --- TLS channel/server credentials ---
* It is used for experimental purpose for now and subject to change. */
/** Struct for indicating errors. It is used for
* experimental purpose for now and subject to change. */
typedef struct grpc_tls_error_details grpc_tls_error_details;
/** Config for TLS key materials. It is used for
* experimental purpose for now and subject to change. */
typedef struct grpc_tls_key_materials_config grpc_tls_key_materials_config;
/** Config for TLS credential reload. It is used for
* experimental purpose for now and subject to change. */
typedef struct grpc_tls_credential_reload_config
grpc_tls_credential_reload_config;
/** Config for TLS server authorization check. It is used for
* experimental purpose for now and subject to change. */
typedef struct grpc_tls_server_authorization_check_config
grpc_tls_server_authorization_check_config;
/** TLS credentials options. It is used for
* experimental purpose for now and subject to change. */
typedef struct grpc_tls_credentials_options grpc_tls_credentials_options;
/** Create an empty TLS credentials options. It is used for
* experimental purpose for now and subject to change. */
GRPCAPI grpc_tls_credentials_options* grpc_tls_credentials_options_create(void);
/** Set grpc_ssl_client_certificate_request_type field in credentials options
with the provided type. options should not be NULL.
It returns 1 on success and 0 on failure. It is used for
experimental purpose for now and subject to change. */
GRPCAPI int grpc_tls_credentials_options_set_cert_request_type(
grpc_tls_credentials_options* options,
grpc_ssl_client_certificate_request_type type);
/** Set grpc_tls_server_verification_option field in credentials options
with the provided server_verification_option. options should not be NULL.
This should be called only on the client side.
If grpc_tls_server_verification_option is not
GRPC_TLS_SERVER_VERIFICATION, use of a customer server
authorization check (grpc_tls_server_authorization_check_config)
will be mandatory.
It returns 1 on success and 0 on failure. It is used for
experimental purpose for now and subject to change. */
GRPCAPI int grpc_tls_credentials_options_set_server_verification_option(
grpc_tls_credentials_options* options,
grpc_tls_server_verification_option server_verification_option);
/** Set grpc_tls_key_materials_config field in credentials options
with the provided config struct whose ownership is transferred.
Both parameters should not be NULL.
It returns 1 on success and 0 on failure. It is used for
experimental purpose for now and subject to change. */
GRPCAPI int grpc_tls_credentials_options_set_key_materials_config(
grpc_tls_credentials_options* options,
grpc_tls_key_materials_config* config);
/** Set grpc_tls_credential_reload_config field in credentials options
with the provided config struct whose ownership is transferred.
Both parameters should not be NULL.
It returns 1 on success and 0 on failure. It is used for
experimental purpose for now and subject to change. */
GRPCAPI int grpc_tls_credentials_options_set_credential_reload_config(
grpc_tls_credentials_options* options,
grpc_tls_credential_reload_config* config);
/** Set grpc_tls_server_authorization_check_config field in credentials options
with the provided config struct whose ownership is transferred.
Both parameters should not be NULL.
It returns 1 on success and 0 on failure. It is used for
experimental purpose for now and subject to change. */
GRPCAPI int grpc_tls_credentials_options_set_server_authorization_check_config(
grpc_tls_credentials_options* options,
grpc_tls_server_authorization_check_config* config);
/** --- TLS key materials config. ---
It is used for experimental purpose for now and subject to change. */
/** Create an empty grpc_tls_key_materials_config instance.
* It is used for experimental purpose for now and subject to change. */
GRPCAPI grpc_tls_key_materials_config* grpc_tls_key_materials_config_create(
void);
/** Set grpc_tls_key_materials_config instance with provided a TLS certificate.
It's valid for the caller to provide nullptr pem_root_certs, in which case
the gRPC-provided root cert will be used. pem_key_cert_pairs should not be
NULL.
The ownerships of |pem_root_certs| and |pem_key_cert_pairs| remain with the
caller.
It returns 1 on success and 0 on failure. It is used for experimental
purpose for now and subject to change.
*/
GRPCAPI int grpc_tls_key_materials_config_set_key_materials(
grpc_tls_key_materials_config* config, const char* pem_root_certs,
const grpc_ssl_pem_key_cert_pair** pem_key_cert_pairs,
size_t num_key_cert_pairs);
/** Set grpc_tls_key_materials_config instance with a provided version number,
which is used to keep track of the version of key materials.
It returns 1 on success and 0 on failure. It is used for
experimental purpose for now and subject to change.
*/
GRPCAPI int grpc_tls_key_materials_config_set_version(
grpc_tls_key_materials_config* config, int version);
/** Get the version number of a grpc_tls_key_materials_config instance.
It returns the version number on success and -1 on failure.
It is used for experimental purpose for now and subject to change.
*/
GRPCAPI int grpc_tls_key_materials_config_get_version(
grpc_tls_key_materials_config* config);
/** --- TLS credential reload config. ---
It is used for experimental purpose for now and subject to change.*/
typedef struct grpc_tls_credential_reload_arg grpc_tls_credential_reload_arg;
/** A callback function provided by gRPC to handle the result of credential
reload. It is used when schedule API is implemented asynchronously and
serves to bring the control back to grpc C core. It is used for
experimental purpose for now and subject to change. */
typedef void (*grpc_tls_on_credential_reload_done_cb)(
grpc_tls_credential_reload_arg* arg);
/** A struct containing all information necessary to schedule/cancel a
credential reload request.
- cb and cb_user_data represent a gRPC-provided
callback and an argument passed to it.
- key_materials_config is an in/output parameter containing currently
used/newly reloaded credentials. If credential reload does not result in
a new credential, key_materials_config should not be modified. The same
key_materials_config object can be updated if new key materials is
available.
- status and error_details are used to hold information about
errors occurred when a credential reload request is scheduled/cancelled.
- config is a pointer to the unique grpc_tls_credential_reload_config
instance that this argument corresponds to.
- context is a pointer to a wrapped language implementation of this
grpc_tls_credential_reload_arg instance.
- destroy_context is a pointer to a caller-provided method that cleans
up any data associated with the context pointer.
It is used for experimental purposes for now and subject to change.
*/
struct grpc_tls_credential_reload_arg {
grpc_tls_on_credential_reload_done_cb cb;
void* cb_user_data;
grpc_tls_key_materials_config* key_materials_config;
grpc_ssl_certificate_config_reload_status status;
grpc_tls_error_details* error_details;
grpc_tls_credential_reload_config* config;
void* context;
void (*destroy_context)(void* ctx);
};
/** Create a grpc_tls_credential_reload_config instance.
- config_user_data is config-specific, read-only user data
that works for all channels created with a credential using the config.
- schedule is a pointer to an application-provided callback used to invoke
credential reload API. The implementation of this method has to be
non-blocking, but can be performed synchronously or asynchronously.
1) If processing occurs synchronously, it populates
arg->key_materials_config, arg->status, and arg->error_details
and returns zero.
2) If processing occurs asynchronously, it returns a non-zero value.
The application then invokes arg->cb when processing is completed. Note
that arg->cb cannot be invoked before schedule API returns.
- cancel is a pointer to an application-provided callback used to cancel
a credential reload request scheduled via an asynchronous schedule API.
arg is used to pinpoint an exact reloading request to be cancelled.
The operation may not have any effect if the request has already been
processed.
- destruct is a pointer to an application-provided callback used to clean up
any data associated with the config.
It is used for experimental purpose for now and subject to change.
*/
GRPCAPI grpc_tls_credential_reload_config*
grpc_tls_credential_reload_config_create(
const void* config_user_data,
int (*schedule)(void* config_user_data,
grpc_tls_credential_reload_arg* arg),
void (*cancel)(void* config_user_data, grpc_tls_credential_reload_arg* arg),
void (*destruct)(void* config_user_data));
/** --- TLS server authorization check config. ---
* It is used for experimental purpose for now and subject to change. */
typedef struct grpc_tls_server_authorization_check_arg
grpc_tls_server_authorization_check_arg;
/** callback function provided by gRPC used to handle the result of server
authorization check. It is used when schedule API is implemented
asynchronously, and serves to bring the control back to gRPC C core. It is
used for experimental purpose for now and subject to change. */
typedef void (*grpc_tls_on_server_authorization_check_done_cb)(
grpc_tls_server_authorization_check_arg* arg);
/** A struct containing all information necessary to schedule/cancel a server
authorization check request.
- cb and cb_user_data represent a gRPC-provided callback and an argument
passed to it.
- success will store the result of server authorization check. That is,
if success returns a non-zero value, it means the authorization check
passes and if returning zero, it means the check fails.
- target_name is the name of an endpoint the channel is connecting to.
- peer_cert represents a complete certificate chain including both
signing and leaf certificates.
- status and error_details contain information
about errors occurred when a server authorization check request is
scheduled/cancelled.
- config is a pointer to the unique
grpc_tls_server_authorization_check_config instance that this argument
corresponds to.
- context is a pointer to a wrapped language implementation of this
grpc_tls_server_authorization_check_arg instance.
- destroy_context is a pointer to a caller-provided method that cleans
up any data associated with the context pointer.
It is used for experimental purpose for now and subject to change.
*/
struct grpc_tls_server_authorization_check_arg {
grpc_tls_on_server_authorization_check_done_cb cb;
void* cb_user_data;
int success;
const char* target_name;
const char* peer_cert;
const char* peer_cert_full_chain;
grpc_status_code status;
grpc_tls_error_details* error_details;
grpc_tls_server_authorization_check_config* config;
void* context;
void (*destroy_context)(void* ctx);
};
/** Create a grpc_tls_server_authorization_check_config instance.
- config_user_data is config-specific, read-only user data
that works for all channels created with a credential using the config.
- schedule is a pointer to an application-provided callback used to invoke
server authorization check API. The implementation of this method has to
be non-blocking, but can be performed synchronously or asynchronously.
1)If processing occurs synchronously, it populates arg->result,
arg->status, and arg->error_details and returns zero.
2) If processing occurs asynchronously, it returns a non-zero value. The
application then invokes arg->cb when processing is completed. Note that
arg->cb cannot be invoked before schedule API returns.
- cancel is a pointer to an application-provided callback used to cancel a
server authorization check request scheduled via an asynchronous schedule
API. arg is used to pinpoint an exact check request to be cancelled. The
operation may not have any effect if the request has already been
processed.
- destruct is a pointer to an application-provided callback used to clean up
any data associated with the config.
It is used for experimental purpose for now and subject to change.
*/
GRPCAPI grpc_tls_server_authorization_check_config*
grpc_tls_server_authorization_check_config_create(
const void* config_user_data,
int (*schedule)(void* config_user_data,
grpc_tls_server_authorization_check_arg* arg),
void (*cancel)(void* config_user_data,
grpc_tls_server_authorization_check_arg* arg),
void (*destruct)(void* config_user_data));
/**
* This method creates a TLS channel credential object.
* It takes ownership of the options parameter. The security level
* of the resulting connection is GRPC_PRIVACY_AND_INTEGRITY.
*
* - options: grpc TLS credentials options instance.
*
* It returns the created credential object.
*
* It is used for experimental purpose for now and subject
* to change.
*/
grpc_channel_credentials* grpc_tls_credentials_create(
grpc_tls_credentials_options* options);
/**
* This method creates a TLS server credential object.
* It takes ownership of the options parameter.
*
* - options: grpc TLS credentials options instance.
*
* It returns the created credential object.
*
* It is used for experimental purpose for now and subject
* to change.
*/
grpc_server_credentials* grpc_tls_server_credentials_create(
grpc_tls_credentials_options* options);
#ifdef __cplusplus
}
#endif
#endif /* GRPC_GRPC_SECURITY_H */