pub const GRPC_ARES: u32 = 1; pub const GRPC_IF_NAMETOINDEX: u32 = 1; pub const GRPC_ALLOW_EXCEPTIONS: u32 = 1; pub const GRPC_COMPRESSION_REQUEST_ALGORITHM_MD_KEY: &'static [u8; 31usize] = b"grpc-internal-encoding-request\0"; pub const GRPC_COMPRESSION_CHANNEL_DEFAULT_ALGORITHM: &'static [u8; 35usize] = b"grpc.default_compression_algorithm\0"; pub const GRPC_COMPRESSION_CHANNEL_DEFAULT_LEVEL: &'static [u8; 31usize] = b"grpc.default_compression_level\0"; pub const GRPC_COMPRESSION_CHANNEL_ENABLED_ALGORITHMS_BITSET: &'static [u8; 43usize] = b"grpc.compression_enabled_algorithms_bitset\0"; pub const GRPC_ALLOW_GPR_SLICE_FUNCTIONS: u32 = 1; pub const GRPC_SLICE_BUFFER_INLINE_ELEMENTS: u32 = 8; pub const GRPC_ARG_ENABLE_CENSUS: &'static [u8; 12usize] = b"grpc.census\0"; pub const GRPC_ARG_ENABLE_LOAD_REPORTING: &'static [u8; 19usize] = b"grpc.loadreporting\0"; pub const GRPC_ARG_MINIMAL_STACK: &'static [u8; 19usize] = b"grpc.minimal_stack\0"; pub const GRPC_ARG_MAX_CONCURRENT_STREAMS: &'static [u8; 28usize] = b"grpc.max_concurrent_streams\0"; pub const GRPC_ARG_MAX_RECEIVE_MESSAGE_LENGTH: &'static [u8; 32usize] = b"grpc.max_receive_message_length\0"; pub const GRPC_ARG_MAX_MESSAGE_LENGTH: &'static [u8; 32usize] = b"grpc.max_receive_message_length\0"; pub const GRPC_ARG_MAX_SEND_MESSAGE_LENGTH: &'static [u8; 29usize] = b"grpc.max_send_message_length\0"; pub const GRPC_ARG_MAX_CONNECTION_IDLE_MS: &'static [u8; 28usize] = b"grpc.max_connection_idle_ms\0"; pub const GRPC_ARG_MAX_CONNECTION_AGE_MS: &'static [u8; 27usize] = b"grpc.max_connection_age_ms\0"; pub const GRPC_ARG_MAX_CONNECTION_AGE_GRACE_MS: &'static [u8; 33usize] = b"grpc.max_connection_age_grace_ms\0"; pub const GRPC_ARG_CLIENT_IDLE_TIMEOUT_MS: &'static [u8; 28usize] = b"grpc.client_idle_timeout_ms\0"; pub const GRPC_ARG_ENABLE_PER_MESSAGE_COMPRESSION: &'static [u8; 29usize] = b"grpc.per_message_compression\0"; pub const GRPC_ARG_ENABLE_PER_MESSAGE_DECOMPRESSION: &'static [u8; 31usize] = b"grpc.per_message_decompression\0"; pub const GRPC_ARG_ENABLE_DEADLINE_CHECKS: &'static [u8; 30usize] = b"grpc.enable_deadline_checking\0"; pub const GRPC_ARG_HTTP2_INITIAL_SEQUENCE_NUMBER: &'static [u8; 35usize] = b"grpc.http2.initial_sequence_number\0"; pub const GRPC_ARG_HTTP2_STREAM_LOOKAHEAD_BYTES: &'static [u8; 27usize] = b"grpc.http2.lookahead_bytes\0"; pub const GRPC_ARG_HTTP2_HPACK_TABLE_SIZE_DECODER: &'static [u8; 36usize] = b"grpc.http2.hpack_table_size.decoder\0"; pub const GRPC_ARG_HTTP2_HPACK_TABLE_SIZE_ENCODER: &'static [u8; 36usize] = b"grpc.http2.hpack_table_size.encoder\0"; pub const GRPC_ARG_HTTP2_MAX_FRAME_SIZE: &'static [u8; 26usize] = b"grpc.http2.max_frame_size\0"; pub const GRPC_ARG_HTTP2_BDP_PROBE: &'static [u8; 21usize] = b"grpc.http2.bdp_probe\0"; pub const GRPC_ARG_HTTP2_MIN_SENT_PING_INTERVAL_WITHOUT_DATA_MS: &'static [u8; 37usize] = b"grpc.http2.min_time_between_pings_ms\0"; pub const GRPC_ARG_HTTP2_MIN_RECV_PING_INTERVAL_WITHOUT_DATA_MS: &'static [u8; 45usize] = b"grpc.http2.min_ping_interval_without_data_ms\0"; pub const GRPC_ARG_HTTP2_SCHEME: &'static [u8; 18usize] = b"grpc.http2_scheme\0"; pub const GRPC_ARG_HTTP2_MAX_PINGS_WITHOUT_DATA: &'static [u8; 34usize] = b"grpc.http2.max_pings_without_data\0"; pub const GRPC_ARG_HTTP2_MAX_PING_STRIKES: &'static [u8; 28usize] = b"grpc.http2.max_ping_strikes\0"; pub const GRPC_ARG_HTTP2_WRITE_BUFFER_SIZE: &'static [u8; 29usize] = b"grpc.http2.write_buffer_size\0"; pub const GRPC_ARG_HTTP2_ENABLE_TRUE_BINARY: &'static [u8; 23usize] = b"grpc.http2.true_binary\0"; pub const GRPC_ARG_KEEPALIVE_TIME_MS: &'static [u8; 23usize] = b"grpc.keepalive_time_ms\0"; pub const GRPC_ARG_KEEPALIVE_TIMEOUT_MS: &'static [u8; 26usize] = b"grpc.keepalive_timeout_ms\0"; pub const GRPC_ARG_KEEPALIVE_PERMIT_WITHOUT_CALLS: &'static [u8; 36usize] = b"grpc.keepalive_permit_without_calls\0"; pub const GRPC_ARG_DEFAULT_AUTHORITY: &'static [u8; 23usize] = b"grpc.default_authority\0"; pub const GRPC_ARG_PRIMARY_USER_AGENT_STRING: &'static [u8; 24usize] = b"grpc.primary_user_agent\0"; pub const GRPC_ARG_SECONDARY_USER_AGENT_STRING: &'static [u8; 26usize] = b"grpc.secondary_user_agent\0"; pub const GRPC_ARG_MIN_RECONNECT_BACKOFF_MS: &'static [u8; 30usize] = b"grpc.min_reconnect_backoff_ms\0"; pub const GRPC_ARG_MAX_RECONNECT_BACKOFF_MS: &'static [u8; 30usize] = b"grpc.max_reconnect_backoff_ms\0"; pub const GRPC_ARG_INITIAL_RECONNECT_BACKOFF_MS: &'static [u8; 34usize] = b"grpc.initial_reconnect_backoff_ms\0"; pub const GRPC_ARG_DNS_MIN_TIME_BETWEEN_RESOLUTIONS_MS: &'static [u8; 41usize] = b"grpc.dns_min_time_between_resolutions_ms\0"; pub const GRPC_ARG_SERVER_HANDSHAKE_TIMEOUT_MS: &'static [u8; 33usize] = b"grpc.server_handshake_timeout_ms\0"; pub const GRPC_SSL_TARGET_NAME_OVERRIDE_ARG: &'static [u8; 30usize] = b"grpc.ssl_target_name_override\0"; pub const GRPC_SSL_SESSION_CACHE_ARG: &'static [u8; 23usize] = b"grpc.ssl_session_cache\0"; pub const GRPC_ARG_TSI_MAX_FRAME_SIZE: &'static [u8; 24usize] = b"grpc.tsi.max_frame_size\0"; pub const GRPC_ARG_MAX_METADATA_SIZE: &'static [u8; 23usize] = b"grpc.max_metadata_size\0"; pub const GRPC_ARG_ALLOW_REUSEPORT: &'static [u8; 18usize] = b"grpc.so_reuseport\0"; pub const GRPC_ARG_RESOURCE_QUOTA: &'static [u8; 20usize] = b"grpc.resource_quota\0"; pub const GRPC_ARG_EXPAND_WILDCARD_ADDRS: &'static [u8; 27usize] = b"grpc.expand_wildcard_addrs\0"; pub const GRPC_ARG_SERVICE_CONFIG: &'static [u8; 20usize] = b"grpc.service_config\0"; pub const GRPC_ARG_SERVICE_CONFIG_DISABLE_RESOLUTION: &'static [u8; 39usize] = b"grpc.service_config_disable_resolution\0"; pub const GRPC_ARG_LB_POLICY_NAME: &'static [u8; 20usize] = b"grpc.lb_policy_name\0"; pub const GRPC_ARG_SOCKET_MUTATOR: &'static [u8; 20usize] = b"grpc.socket_mutator\0"; pub const GRPC_ARG_SOCKET_FACTORY: &'static [u8; 20usize] = b"grpc.socket_factory\0"; pub const GRPC_ARG_MAX_CHANNEL_TRACE_EVENT_MEMORY_PER_NODE: &'static [u8; 45usize] = b"grpc.max_channel_trace_event_memory_per_node\0"; pub const GRPC_ARG_ENABLE_CHANNELZ: &'static [u8; 21usize] = b"grpc.enable_channelz\0"; pub const GRPC_ARG_USE_CRONET_PACKET_COALESCING: &'static [u8; 34usize] = b"grpc.use_cronet_packet_coalescing\0"; pub const GRPC_ARG_TCP_READ_CHUNK_SIZE: &'static [u8; 38usize] = b"grpc.experimental.tcp_read_chunk_size\0"; pub const GRPC_TCP_DEFAULT_READ_SLICE_SIZE: u32 = 8192; pub const GRPC_ARG_TCP_MIN_READ_CHUNK_SIZE: &'static [u8; 42usize] = b"grpc.experimental.tcp_min_read_chunk_size\0"; pub const GRPC_ARG_TCP_MAX_READ_CHUNK_SIZE: &'static [u8; 42usize] = b"grpc.experimental.tcp_max_read_chunk_size\0"; pub const GRPC_ARG_TCP_TX_ZEROCOPY_ENABLED: &'static [u8; 42usize] = b"grpc.experimental.tcp_tx_zerocopy_enabled\0"; pub const GRPC_ARG_TCP_TX_ZEROCOPY_SEND_BYTES_THRESHOLD: &'static [u8; 55usize] = b"grpc.experimental.tcp_tx_zerocopy_send_bytes_threshold\0"; pub const GRPC_ARG_TCP_TX_ZEROCOPY_MAX_SIMULT_SENDS: &'static [u8; 57usize] = b"grpc.experimental.tcp_tx_zerocopy_max_simultaneous_sends\0"; pub const GRPC_ARG_GRPCLB_CALL_TIMEOUT_MS: &'static [u8; 28usize] = b"grpc.grpclb_call_timeout_ms\0"; pub const GRPC_ARG_GRPCLB_FALLBACK_TIMEOUT_MS: &'static [u8; 32usize] = b"grpc.grpclb_fallback_timeout_ms\0"; pub const GRPC_ARG_PRIORITY_FAILOVER_TIMEOUT_MS: &'static [u8; 34usize] = b"grpc.priority_failover_timeout_ms\0"; pub const GRPC_ARG_WORKAROUND_CRONET_COMPRESSION: &'static [u8; 35usize] = b"grpc.workaround.cronet_compression\0"; pub const GRPC_ARG_OPTIMIZATION_TARGET: &'static [u8; 25usize] = b"grpc.optimization_target\0"; pub const GRPC_ARG_ENABLE_RETRIES: &'static [u8; 20usize] = b"grpc.enable_retries\0"; pub const GRPC_ARG_PER_RPC_RETRY_BUFFER_SIZE: &'static [u8; 31usize] = b"grpc.per_rpc_retry_buffer_size\0"; pub const GRPC_ARG_MOBILE_LOG_CONTEXT: &'static [u8; 24usize] = b"grpc.mobile_log_context\0"; pub const GRPC_ARG_DISABLE_CLIENT_AUTHORITY_FILTER: &'static [u8; 37usize] = b"grpc.disable_client_authority_filter\0"; pub const GRPC_ARG_ENABLE_HTTP_PROXY: &'static [u8; 23usize] = b"grpc.enable_http_proxy\0"; pub const GRPC_ARG_HTTP_PROXY: &'static [u8; 16usize] = b"grpc.http_proxy\0"; pub const GRPC_ARG_SURFACE_USER_AGENT: &'static [u8; 24usize] = b"grpc.surface_user_agent\0"; pub const GRPC_ARG_INHIBIT_HEALTH_CHECKING: &'static [u8; 29usize] = b"grpc.inhibit_health_checking\0"; pub const GRPC_ARG_DNS_ENABLE_SRV_QUERIES: &'static [u8; 28usize] = b"grpc.dns_enable_srv_queries\0"; pub const GRPC_ARG_DNS_ARES_QUERY_TIMEOUT_MS: &'static [u8; 28usize] = b"grpc.dns_ares_query_timeout\0"; pub const GRPC_ARG_USE_LOCAL_SUBCHANNEL_POOL: &'static [u8; 31usize] = b"grpc.use_local_subchannel_pool\0"; pub const GRPC_ARG_CHANNEL_POOL_DOMAIN: &'static [u8; 28usize] = b"grpc.channel_pooling_domain\0"; pub const GRPC_ARG_CHANNEL_ID: &'static [u8; 16usize] = b"grpc.channel_id\0"; pub const GRPC_DEFAULT_MAX_SEND_MESSAGE_LENGTH: i32 = -1; pub const GRPC_DEFAULT_MAX_RECV_MESSAGE_LENGTH: u32 = 4194304; pub const GRPC_WRITE_BUFFER_HINT: u32 = 1; pub const GRPC_WRITE_NO_COMPRESS: u32 = 2; pub const GRPC_WRITE_THROUGH: u32 = 4; pub const GRPC_WRITE_USED_MASK: u32 = 7; pub const GRPC_INITIAL_METADATA_IDEMPOTENT_REQUEST: u32 = 16; pub const GRPC_INITIAL_METADATA_WAIT_FOR_READY: u32 = 32; pub const GRPC_INITIAL_METADATA_CACHEABLE_REQUEST: u32 = 64; pub const GRPC_INITIAL_METADATA_WAIT_FOR_READY_EXPLICITLY_SET: u32 = 128; pub const GRPC_INITIAL_METADATA_CORKED: u32 = 256; pub const GRPC_INITIAL_METADATA_USED_MASK: u32 = 500; pub const GRPC_CQ_CURRENT_VERSION: u32 = 2; pub const GRPC_CQ_VERSION_MINIMUM_FOR_CALLBACKABLE: u32 = 2; pub const GRPC_MAX_COMPLETION_QUEUE_PLUCKERS: u32 = 6; pub const GRPC_TRANSPORT_SECURITY_TYPE_PROPERTY_NAME: &'static [u8; 24usize] = b"transport_security_type\0"; pub const GRPC_SSL_TRANSPORT_SECURITY_TYPE: &'static [u8; 4usize] = b"ssl\0"; pub const GRPC_X509_CN_PROPERTY_NAME: &'static [u8; 17usize] = b"x509_common_name\0"; pub const GRPC_X509_SAN_PROPERTY_NAME: &'static [u8; 30usize] = b"x509_subject_alternative_name\0"; pub const GRPC_X509_PEM_CERT_PROPERTY_NAME: &'static [u8; 14usize] = b"x509_pem_cert\0"; pub const GRPC_X509_PEM_CERT_CHAIN_PROPERTY_NAME: &'static [u8; 20usize] = b"x509_pem_cert_chain\0"; pub const GRPC_SSL_SESSION_REUSED_PROPERTY: &'static [u8; 19usize] = b"ssl_session_reused\0"; pub const GRPC_TRANSPORT_SECURITY_LEVEL_PROPERTY_NAME: &'static [u8; 15usize] = b"security_level\0"; pub const GRPC_PEER_SPIFFE_ID_PROPERTY_NAME: &'static [u8; 15usize] = b"peer_spiffe_id\0"; pub const GRPC_DEFAULT_SSL_ROOTS_FILE_PATH_ENV_VAR: &'static [u8; 33usize] = b"GRPC_DEFAULT_SSL_ROOTS_FILE_PATH\0"; pub const GRPC_GOOGLE_CREDENTIALS_ENV_VAR: &'static [u8; 31usize] = b"GOOGLE_APPLICATION_CREDENTIALS\0"; pub const GRPC_METADATA_CREDENTIALS_PLUGIN_SYNC_MAX: u32 = 4; #[repr(u32)] #[doc = " The various compression algorithms supported by gRPC (not sorted by"] #[doc = " compression level)"] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum grpc_compression_algorithm { GRPC_COMPRESS_NONE = 0, GRPC_COMPRESS_DEFLATE = 1, GRPC_COMPRESS_GZIP = 2, GRPC_COMPRESS_STREAM_GZIP = 3, GRPC_COMPRESS_ALGORITHMS_COUNT = 4, } #[repr(u32)] #[doc = " Compression levels allow a party with knowledge of its peer's accepted"] #[doc = " encodings to request compression in an abstract way. The level-algorithm"] #[doc = " mapping is performed internally and depends on the peer's supported"] #[doc = " compression algorithms."] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum grpc_compression_level { GRPC_COMPRESS_LEVEL_NONE = 0, GRPC_COMPRESS_LEVEL_LOW = 1, GRPC_COMPRESS_LEVEL_MED = 2, GRPC_COMPRESS_LEVEL_HIGH = 3, GRPC_COMPRESS_LEVEL_COUNT = 4, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_compression_options { #[doc = " All algs are enabled by default. This option corresponds to the channel"] #[doc = " argument key behind \\a GRPC_COMPRESSION_CHANNEL_ENABLED_ALGORITHMS_BITSET"] pub enabled_algorithms_bitset: u32, pub default_level: grpc_compression_options_grpc_compression_options_default_level, pub default_algorithm: grpc_compression_options_grpc_compression_options_default_algorithm, } #[doc = " The default compression level. It'll be used in the absence of call"] #[doc = " specific settings. This option corresponds to the channel"] #[doc = " argument key behind \\a GRPC_COMPRESSION_CHANNEL_DEFAULT_LEVEL. If present,"] #[doc = " takes precedence over \\a default_algorithm."] #[doc = " TODO(dgq): currently only available for server channels."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_compression_options_grpc_compression_options_default_level { pub is_set: ::std::os::raw::c_int, pub level: grpc_compression_level, } #[doc = " The default message compression algorithm. It'll be used in the absence of"] #[doc = " call specific settings. This option corresponds to the channel argument key"] #[doc = " behind \\a GRPC_COMPRESSION_CHANNEL_DEFAULT_ALGORITHM."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_compression_options_grpc_compression_options_default_algorithm { pub is_set: ::std::os::raw::c_int, pub algorithm: grpc_compression_algorithm, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_slice_refcount { _unused: [u8; 0], } #[doc = " A grpc_slice s, if initialized, represents the byte range"] #[doc = "s.bytes[0..s.length-1]."] #[doc = ""] #[doc = "It can have an associated ref count which has a destruction routine to be run"] #[doc = "when the ref count reaches zero (see grpc_slice_new() and grp_slice_unref())."] #[doc = "Multiple grpc_slice values may share a ref count."] #[doc = ""] #[doc = "If the slice does not have a refcount, it represents an inlined small piece"] #[doc = "of data that is copied by value."] #[repr(C)] #[derive(Copy, Clone)] pub struct grpc_slice { pub refcount: *mut grpc_slice_refcount, pub data: grpc_slice_grpc_slice_data, } #[repr(C)] #[derive(Copy, Clone)] pub union grpc_slice_grpc_slice_data { pub refcounted: grpc_slice_grpc_slice_data_grpc_slice_refcounted, pub inlined: grpc_slice_grpc_slice_data_grpc_slice_inlined, _bindgen_union_align: [u64; 3usize], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_slice_grpc_slice_data_grpc_slice_refcounted { pub length: usize, pub bytes: *mut u8, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_slice_grpc_slice_data_grpc_slice_inlined { pub length: u8, pub bytes: [u8; 23usize], } impl ::std::fmt::Debug for grpc_slice_grpc_slice_data { fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result { write!(f, "grpc_slice_grpc_slice_data {{ union }}") } } impl ::std::fmt::Debug for grpc_slice { fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result { write!( f, "grpc_slice {{ refcount: {:?}, data: {:?} }}", self.refcount, self.data ) } } #[doc = " Represents an expandable array of slices, to be interpreted as a"] #[doc = "single item."] #[repr(C)] #[derive(Copy, Clone)] pub struct grpc_slice_buffer { #[doc = " This is for internal use only. External users (i.e any code outside grpc"] #[doc = " core) MUST NOT use this field"] pub base_slices: *mut grpc_slice, #[doc = " slices in the array (Points to the first valid grpc_slice in the array)"] pub slices: *mut grpc_slice, #[doc = " the number of slices in the array"] pub count: usize, #[doc = " the number of slices allocated in the array. External users (i.e any code"] #[doc = " outside grpc core) MUST NOT use this field"] pub capacity: usize, #[doc = " the combined length of all slices in the array"] pub length: usize, #[doc = " inlined elements to avoid allocations"] pub inlined: [grpc_slice; 8usize], } impl ::std::fmt::Debug for grpc_slice_buffer { fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result { write ! (f , "grpc_slice_buffer {{ base_slices: {:?}, slices: {:?}, count: {:?}, capacity: {:?}, length: {:?}, inlined: {:?} }}" , self . base_slices , self . slices , self . count , self . capacity , self . length , self . inlined) } } #[repr(u32)] #[doc = " The clocks we support."] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum gpr_clock_type { #[doc = " Monotonic clock. Epoch undefined. Always moves forwards."] GPR_CLOCK_MONOTONIC = 0, #[doc = " Realtime clock. May jump forwards or backwards. Settable by"] #[doc = "the system administrator. Has its epoch at 0:00:00 UTC 1 Jan 1970."] GPR_CLOCK_REALTIME = 1, #[doc = " CPU cycle time obtained by rdtsc instruction on x86 platforms. Epoch"] #[doc = "undefined. Degrades to GPR_CLOCK_REALTIME on other platforms."] GPR_CLOCK_PRECISE = 2, #[doc = " Unmeasurable clock type: no base, created by taking the difference"] #[doc = "between two times"] GPR_TIMESPAN = 3, } #[doc = " Analogous to struct timespec. On some machines, absolute times may be in"] #[doc = " local time."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct gpr_timespec { pub tv_sec: i64, pub tv_nsec: i32, #[doc = " Against which clock was this time measured? (or GPR_TIMESPAN if"] #[doc = "this is a relative time measure)"] pub clock_type: gpr_clock_type, } pub type gpr_atm = isize; extern "C" { #[doc = " Adds \\a delta to \\a *value, clamping the result to the range specified"] #[doc = "by \\a min and \\a max. Returns the new value."] pub fn gpr_atm_no_barrier_clamped_add( value: *mut gpr_atm, delta: gpr_atm, min: gpr_atm, max: gpr_atm, ) -> gpr_atm; } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct gpr_event { pub state: gpr_atm, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct gpr_refcount { pub count: gpr_atm, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct gpr_stats_counter { pub value: gpr_atm, } extern "C" { #[doc = " Initialize *ev."] pub fn gpr_event_init(ev: *mut gpr_event); } extern "C" { #[doc = " Set *ev so that gpr_event_get() and gpr_event_wait() will return value."] #[doc = "Requires: *ev initialized; value != NULL; no prior or concurrent calls to"] #[doc = "gpr_event_set(ev, ...) since initialization."] pub fn gpr_event_set(ev: *mut gpr_event, value: *mut ::std::os::raw::c_void); } extern "C" { #[doc = " Return the value set by gpr_event_set(ev, ...), or NULL if no such call has"] #[doc = "completed. If the result is non-NULL, all operations that occurred prior to"] #[doc = "the gpr_event_set(ev, ...) set will be visible after this call returns."] #[doc = "Requires: *ev initialized. This operation is faster than acquiring a mutex"] #[doc = "on most platforms."] pub fn gpr_event_get(ev: *mut gpr_event) -> *mut ::std::os::raw::c_void; } extern "C" { #[doc = " Wait until *ev is set by gpr_event_set(ev, ...), or abs_deadline is"] #[doc = "exceeded, then return gpr_event_get(ev). Requires: *ev initialized. Use"] #[doc = "abs_deadline==gpr_inf_future for no deadline. When the event has been"] #[doc = "signalled before the call, this operation is faster than acquiring a mutex"] #[doc = "on most platforms."] pub fn gpr_event_wait( ev: *mut gpr_event, abs_deadline: gpr_timespec, ) -> *mut ::std::os::raw::c_void; } extern "C" { #[doc = " Initialize *r to value n."] pub fn gpr_ref_init(r: *mut gpr_refcount, n: ::std::os::raw::c_int); } extern "C" { #[doc = " Increment the reference count *r. Requires *r initialized."] pub fn gpr_ref(r: *mut gpr_refcount); } extern "C" { #[doc = " Increment the reference count *r. Requires *r initialized."] #[doc = "Crashes if refcount is zero"] pub fn gpr_ref_non_zero(r: *mut gpr_refcount); } extern "C" { #[doc = " Increment the reference count *r by n. Requires *r initialized, n > 0."] pub fn gpr_refn(r: *mut gpr_refcount, n: ::std::os::raw::c_int); } extern "C" { #[doc = " Decrement the reference count *r and return non-zero iff it has reached"] #[doc = "zero. . Requires *r initialized."] pub fn gpr_unref(r: *mut gpr_refcount) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Return non-zero iff the reference count of *r is one, and thus is owned"] #[doc = "by exactly one object."] pub fn gpr_ref_is_unique(r: *mut gpr_refcount) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Initialize *c to the value n."] pub fn gpr_stats_init(c: *mut gpr_stats_counter, n: isize); } extern "C" { #[doc = " *c += inc. Requires: *c initialized."] pub fn gpr_stats_inc(c: *mut gpr_stats_counter, inc: isize); } extern "C" { #[doc = " Return *c. Requires: *c initialized."] pub fn gpr_stats_read(c: *const gpr_stats_counter) -> isize; } extern "C" { #[doc = " Increment the refcount of s. Requires slice is initialized."] #[doc = "Returns s."] pub fn grpc_slice_ref(s: grpc_slice) -> grpc_slice; } extern "C" { #[doc = " Decrement the ref count of s. If the ref count of s reaches zero, all"] #[doc = "slices sharing the ref count are destroyed, and considered no longer"] #[doc = "initialized. If s is ultimately derived from a call to grpc_slice_new(start,"] #[doc = "len, dest) where dest!=NULL , then (*dest)(start) is called, else if s is"] #[doc = "ultimately derived from a call to grpc_slice_new_with_len(start, len, dest)"] #[doc = "where dest!=NULL , then (*dest)(start, len). Requires s initialized."] pub fn grpc_slice_unref(s: grpc_slice); } extern "C" { #[doc = " Copy slice - create a new slice that contains the same data as s"] pub fn grpc_slice_copy(s: grpc_slice) -> grpc_slice; } extern "C" { #[doc = " Create a slice pointing at some data. Calls malloc to allocate a refcount"] #[doc = "for the object, and arranges that destroy will be called with the pointer"] #[doc = "passed in at destruction."] pub fn grpc_slice_new( p: *mut ::std::os::raw::c_void, len: usize, destroy: ::std::option::Option, ) -> grpc_slice; } extern "C" { #[doc = " Equivalent to grpc_slice_new, but with a separate pointer that is"] #[doc = "passed to the destroy function. This function can be useful when"] #[doc = "the data is part of a larger structure that must be destroyed when"] #[doc = "the data is no longer needed."] pub fn grpc_slice_new_with_user_data( p: *mut ::std::os::raw::c_void, len: usize, destroy: ::std::option::Option, user_data: *mut ::std::os::raw::c_void, ) -> grpc_slice; } extern "C" { #[doc = " Equivalent to grpc_slice_new, but with a two argument destroy function that"] #[doc = "also takes the slice length."] pub fn grpc_slice_new_with_len( p: *mut ::std::os::raw::c_void, len: usize, destroy: ::std::option::Option< unsafe extern "C" fn(arg1: *mut ::std::os::raw::c_void, arg2: usize), >, ) -> grpc_slice; } extern "C" { #[doc = " Equivalent to grpc_slice_new(malloc(len), len, free), but saves one malloc()"] #[doc = "call."] #[doc = "Aborts if malloc() fails."] pub fn grpc_slice_malloc(length: usize) -> grpc_slice; } extern "C" { pub fn grpc_slice_malloc_large(length: usize) -> grpc_slice; } extern "C" { #[doc = " Intern a slice:"] #[doc = ""] #[doc = "The return value for two invocations of this function with the same sequence"] #[doc = "of bytes is a slice which points to the same memory."] pub fn grpc_slice_intern(slice: grpc_slice) -> grpc_slice; } extern "C" { #[doc = " Create a slice by copying a string."] #[doc = "Does not preserve null terminators."] #[doc = "Equivalent to:"] #[doc = "size_t len = strlen(source);"] #[doc = "grpc_slice slice = grpc_slice_malloc(len);"] #[doc = "memcpy(slice->data, source, len);"] pub fn grpc_slice_from_copied_string(source: *const ::std::os::raw::c_char) -> grpc_slice; } extern "C" { #[doc = " Create a slice by copying a buffer."] #[doc = "Equivalent to:"] #[doc = "grpc_slice slice = grpc_slice_malloc(len);"] #[doc = "memcpy(slice->data, source, len);"] pub fn grpc_slice_from_copied_buffer( source: *const ::std::os::raw::c_char, len: usize, ) -> grpc_slice; } extern "C" { #[doc = " Create a slice pointing to constant memory"] pub fn grpc_slice_from_static_string(source: *const ::std::os::raw::c_char) -> grpc_slice; } extern "C" { #[doc = " Create a slice pointing to constant memory"] pub fn grpc_slice_from_static_buffer( source: *const ::std::os::raw::c_void, len: usize, ) -> grpc_slice; } extern "C" { #[doc = " Return a result slice derived from s, which shares a ref count with \\a s,"] #[doc = "where result.data==s.data+begin, and result.length==end-begin. The ref count"] #[doc = "of \\a s is increased by one. Do not assign result back to \\a s."] #[doc = "Requires s initialized, begin <= end, begin <= s.length, and"] #[doc = "end <= source->length."] pub fn grpc_slice_sub(s: grpc_slice, begin: usize, end: usize) -> grpc_slice; } extern "C" { #[doc = " The same as grpc_slice_sub, but without altering the ref count"] pub fn grpc_slice_sub_no_ref(s: grpc_slice, begin: usize, end: usize) -> grpc_slice; } extern "C" { #[doc = " Splits s into two: modifies s to be s[0:split], and returns a new slice,"] #[doc = "sharing a refcount with s, that contains s[split:s.length]."] #[doc = "Requires s initialized, split <= s.length"] pub fn grpc_slice_split_tail(s: *mut grpc_slice, split: usize) -> grpc_slice; } #[repr(u32)] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum grpc_slice_ref_whom { GRPC_SLICE_REF_TAIL = 1, GRPC_SLICE_REF_HEAD = 2, GRPC_SLICE_REF_BOTH = 3, } extern "C" { #[doc = " The same as grpc_slice_split_tail, but with an option to skip altering"] #[doc = " refcounts (grpc_slice_split_tail_maybe_ref(..., true) is equivalent to"] #[doc = " grpc_slice_split_tail(...))"] pub fn grpc_slice_split_tail_maybe_ref( s: *mut grpc_slice, split: usize, ref_whom: grpc_slice_ref_whom, ) -> grpc_slice; } extern "C" { #[doc = " Splits s into two: modifies s to be s[split:s.length], and returns a new"] #[doc = "slice, sharing a refcount with s, that contains s[0:split]."] #[doc = "Requires s initialized, split <= s.length"] pub fn grpc_slice_split_head(s: *mut grpc_slice, split: usize) -> grpc_slice; } extern "C" { pub fn grpc_empty_slice() -> grpc_slice; } extern "C" { pub fn grpc_slice_default_hash_impl(s: grpc_slice) -> u32; } extern "C" { pub fn grpc_slice_default_eq_impl(a: grpc_slice, b: grpc_slice) -> ::std::os::raw::c_int; } extern "C" { pub fn grpc_slice_eq(a: grpc_slice, b: grpc_slice) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Returns <0 if a < b, ==0 if a == b, >0 if a > b"] #[doc = "The order is arbitrary, and is not guaranteed to be stable across different"] #[doc = "versions of the API."] pub fn grpc_slice_cmp(a: grpc_slice, b: grpc_slice) -> ::std::os::raw::c_int; } extern "C" { pub fn grpc_slice_str_cmp( a: grpc_slice, b: *const ::std::os::raw::c_char, ) -> ::std::os::raw::c_int; } extern "C" { #[doc = " return non-zero if the first blen bytes of a are equal to b"] pub fn grpc_slice_buf_start_eq( a: grpc_slice, b: *const ::std::os::raw::c_void, blen: usize, ) -> ::std::os::raw::c_int; } extern "C" { #[doc = " return the index of the last instance of \\a c in \\a s, or -1 if not found"] pub fn grpc_slice_rchr(s: grpc_slice, c: ::std::os::raw::c_char) -> ::std::os::raw::c_int; } extern "C" { pub fn grpc_slice_chr(s: grpc_slice, c: ::std::os::raw::c_char) -> ::std::os::raw::c_int; } extern "C" { #[doc = " return the index of the first occurrence of \\a needle in \\a haystack, or -1"] #[doc = "if it's not found"] pub fn grpc_slice_slice(haystack: grpc_slice, needle: grpc_slice) -> ::std::os::raw::c_int; } extern "C" { pub fn grpc_slice_hash(s: grpc_slice) -> u32; } extern "C" { #[doc = " Do two slices point at the same memory, with the same length"] #[doc = "If a or b is inlined, actually compares data"] pub fn grpc_slice_is_equivalent(a: grpc_slice, b: grpc_slice) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Return a slice pointing to newly allocated memory that has the same contents"] #[doc = " as \\a s"] pub fn grpc_slice_dup(a: grpc_slice) -> grpc_slice; } extern "C" { #[doc = " Return a copy of slice as a C string. Offers no protection against embedded"] #[doc = "NULL's. Returned string must be freed with gpr_free."] pub fn grpc_slice_to_c_string(s: grpc_slice) -> *mut ::std::os::raw::c_char; } extern "C" { #[doc = " Return if an algorithm is message compression algorithm."] pub fn grpc_compression_algorithm_is_message( algorithm: grpc_compression_algorithm, ) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Return if an algorithm is stream compression algorithm."] pub fn grpc_compression_algorithm_is_stream( algorithm: grpc_compression_algorithm, ) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Parses the \\a slice as a grpc_compression_algorithm instance and updating \\a"] #[doc = " algorithm. Returns 1 upon success, 0 otherwise."] pub fn grpc_compression_algorithm_parse( name: grpc_slice, algorithm: *mut grpc_compression_algorithm, ) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Updates \\a name with the encoding name corresponding to a valid \\a"] #[doc = " algorithm. Note that \\a name is statically allocated and must *not* be freed."] #[doc = " Returns 1 upon success, 0 otherwise."] pub fn grpc_compression_algorithm_name( algorithm: grpc_compression_algorithm, name: *mut *const ::std::os::raw::c_char, ) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Returns the compression algorithm corresponding to \\a level for the"] #[doc = " compression algorithms encoded in the \\a accepted_encodings bitset."] pub fn grpc_compression_algorithm_for_level( level: grpc_compression_level, accepted_encodings: u32, ) -> grpc_compression_algorithm; } extern "C" { pub fn grpc_compression_options_init(opts: *mut grpc_compression_options); } extern "C" { #[doc = " Mark \\a algorithm as enabled in \\a opts."] pub fn grpc_compression_options_enable_algorithm( opts: *mut grpc_compression_options, algorithm: grpc_compression_algorithm, ); } extern "C" { #[doc = " Mark \\a algorithm as disabled in \\a opts."] pub fn grpc_compression_options_disable_algorithm( opts: *mut grpc_compression_options, algorithm: grpc_compression_algorithm, ); } extern "C" { #[doc = " Returns true if \\a algorithm is marked as enabled in \\a opts."] pub fn grpc_compression_options_is_algorithm_enabled( opts: *const grpc_compression_options, algorithm: grpc_compression_algorithm, ) -> ::std::os::raw::c_int; } pub mod grpc_status_code { pub type Type = ::std::os::raw::c_int; #[doc = " Not an error; returned on success"] pub const GRPC_STATUS_OK: Type = 0; #[doc = " The operation was cancelled (typically by the caller)."] pub const GRPC_STATUS_CANCELLED: Type = 1; #[doc = " Unknown error. An example of where this error may be returned is"] #[doc = "if a Status value received from another address space belongs to"] #[doc = "an error-space that is not known in this address space. Also"] #[doc = "errors raised by APIs that do not return enough error information"] #[doc = "may be converted to this error."] pub const GRPC_STATUS_UNKNOWN: Type = 2; #[doc = " Client specified an invalid argument. Note that this differs"] #[doc = "from FAILED_PRECONDITION. INVALID_ARGUMENT indicates arguments"] #[doc = "that are problematic regardless of the state of the system"] #[doc = "(e.g., a malformed file name)."] pub const GRPC_STATUS_INVALID_ARGUMENT: Type = 3; #[doc = " Deadline expired before operation could complete. For operations"] #[doc = "that change the state of the system, this error may be returned"] #[doc = "even if the operation has completed successfully. For example, a"] #[doc = "successful response from a server could have been delayed long"] #[doc = "enough for the deadline to expire."] pub const GRPC_STATUS_DEADLINE_EXCEEDED: Type = 4; #[doc = " Some requested entity (e.g., file or directory) was not found."] pub const GRPC_STATUS_NOT_FOUND: Type = 5; #[doc = " Some entity that we attempted to create (e.g., file or directory)"] #[doc = "already exists."] pub const GRPC_STATUS_ALREADY_EXISTS: Type = 6; #[doc = " The caller does not have permission to execute the specified"] #[doc = "operation. PERMISSION_DENIED must not be used for rejections"] #[doc = "caused by exhausting some resource (use RESOURCE_EXHAUSTED"] #[doc = "instead for those errors). PERMISSION_DENIED must not be"] #[doc = "used if the caller can not be identified (use UNAUTHENTICATED"] #[doc = "instead for those errors)."] pub const GRPC_STATUS_PERMISSION_DENIED: Type = 7; #[doc = " The request does not have valid authentication credentials for the"] #[doc = "operation."] pub const GRPC_STATUS_UNAUTHENTICATED: Type = 16; #[doc = " Some resource has been exhausted, perhaps a per-user quota, or"] #[doc = "perhaps the entire file system is out of space."] pub const GRPC_STATUS_RESOURCE_EXHAUSTED: Type = 8; #[doc = " Operation was rejected because the system is not in a state"] #[doc = "required for the operation's execution. For example, directory"] #[doc = "to be deleted may be non-empty, an rmdir operation is applied to"] #[doc = "a non-directory, etc."] #[doc = ""] #[doc = "A litmus test that may help a service implementor in deciding"] #[doc = "between FAILED_PRECONDITION, ABORTED, and UNAVAILABLE:"] #[doc = "(a) Use UNAVAILABLE if the client can retry just the failing call."] #[doc = "(b) Use ABORTED if the client should retry at a higher-level"] #[doc = "(e.g., restarting a read-modify-write sequence)."] #[doc = "(c) Use FAILED_PRECONDITION if the client should not retry until"] #[doc = "the system state has been explicitly fixed. E.g., if an \"rmdir\""] #[doc = "fails because the directory is non-empty, FAILED_PRECONDITION"] #[doc = "should be returned since the client should not retry unless"] #[doc = "they have first fixed up the directory by deleting files from it."] #[doc = "(d) Use FAILED_PRECONDITION if the client performs conditional"] #[doc = "REST Get/Update/Delete on a resource and the resource on the"] #[doc = "server does not match the condition. E.g., conflicting"] #[doc = "read-modify-write on the same resource."] pub const GRPC_STATUS_FAILED_PRECONDITION: Type = 9; #[doc = " The operation was aborted, typically due to a concurrency issue"] #[doc = "like sequencer check failures, transaction aborts, etc."] #[doc = ""] #[doc = "See litmus test above for deciding between FAILED_PRECONDITION,"] #[doc = "ABORTED, and UNAVAILABLE."] pub const GRPC_STATUS_ABORTED: Type = 10; #[doc = " Operation was attempted past the valid range. E.g., seeking or"] #[doc = "reading past end of file."] #[doc = ""] #[doc = "Unlike INVALID_ARGUMENT, this error indicates a problem that may"] #[doc = "be fixed if the system state changes. For example, a 32-bit file"] #[doc = "system will generate INVALID_ARGUMENT if asked to read at an"] #[doc = "offset that is not in the range [0,2^32-1], but it will generate"] #[doc = "OUT_OF_RANGE if asked to read from an offset past the current"] #[doc = "file size."] #[doc = ""] #[doc = "There is a fair bit of overlap between FAILED_PRECONDITION and"] #[doc = "OUT_OF_RANGE. We recommend using OUT_OF_RANGE (the more specific"] #[doc = "error) when it applies so that callers who are iterating through"] #[doc = "a space can easily look for an OUT_OF_RANGE error to detect when"] #[doc = "they are done."] pub const GRPC_STATUS_OUT_OF_RANGE: Type = 11; #[doc = " Operation is not implemented or not supported/enabled in this service."] pub const GRPC_STATUS_UNIMPLEMENTED: Type = 12; #[doc = " Internal errors. Means some invariants expected by underlying"] #[doc = "system has been broken. If you see one of these errors,"] #[doc = "something is very broken."] pub const GRPC_STATUS_INTERNAL: Type = 13; #[doc = " The service is currently unavailable. This is a most likely a"] #[doc = "transient condition and may be corrected by retrying with"] #[doc = "a backoff. Note that it is not always safe to retry non-idempotent"] #[doc = "operations."] #[doc = ""] #[doc = "WARNING: Although data MIGHT not have been transmitted when this"] #[doc = "status occurs, there is NOT A GUARANTEE that the server has not seen"] #[doc = "anything. So in general it is unsafe to retry on this status code"] #[doc = "if the call is non-idempotent."] #[doc = ""] #[doc = "See litmus test above for deciding between FAILED_PRECONDITION,"] #[doc = "ABORTED, and UNAVAILABLE."] pub const GRPC_STATUS_UNAVAILABLE: Type = 14; #[doc = " Unrecoverable data loss or corruption."] pub const GRPC_STATUS_DATA_LOSS: Type = 15; #[doc = " Force users to include a default branch:"] pub const GRPC_STATUS__DO_NOT_USE: Type = -1; } #[repr(u32)] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum grpc_byte_buffer_type { GRPC_BB_RAW = 0, } #[repr(C)] #[derive(Copy, Clone)] pub struct grpc_byte_buffer { pub reserved: *mut ::std::os::raw::c_void, pub type_: grpc_byte_buffer_type, pub data: grpc_byte_buffer_grpc_byte_buffer_data, } #[repr(C)] #[derive(Copy, Clone)] pub union grpc_byte_buffer_grpc_byte_buffer_data { pub reserved: grpc_byte_buffer_grpc_byte_buffer_data__bindgen_ty_1, pub raw: grpc_byte_buffer_grpc_byte_buffer_data_grpc_compressed_buffer, _bindgen_union_align: [u64; 38usize], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_byte_buffer_grpc_byte_buffer_data__bindgen_ty_1 { pub reserved: [*mut ::std::os::raw::c_void; 8usize], } #[repr(C)] #[derive(Copy, Clone)] pub struct grpc_byte_buffer_grpc_byte_buffer_data_grpc_compressed_buffer { pub compression: grpc_compression_algorithm, pub slice_buffer: grpc_slice_buffer, } impl ::std::fmt::Debug for grpc_byte_buffer_grpc_byte_buffer_data_grpc_compressed_buffer { fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result { write ! (f , "grpc_byte_buffer_grpc_byte_buffer_data_grpc_compressed_buffer {{ compression: {:?}, slice_buffer: {:?} }}" , self . compression , self . slice_buffer) } } impl ::std::fmt::Debug for grpc_byte_buffer_grpc_byte_buffer_data { fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result { write!(f, "grpc_byte_buffer_grpc_byte_buffer_data {{ union }}") } } impl ::std::fmt::Debug for grpc_byte_buffer { fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result { write!( f, "grpc_byte_buffer {{ reserved: {:?}, type: {:?}, data: {:?} }}", self.reserved, self.type_, self.data ) } } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_completion_queue { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_alarm { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_channel { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_server { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_call { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_socket_mutator { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_socket_factory { _unused: [u8; 0], } #[repr(u32)] #[doc = " Type specifier for grpc_arg"] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum grpc_arg_type { GRPC_ARG_STRING = 0, GRPC_ARG_INTEGER = 1, GRPC_ARG_POINTER = 2, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_arg_pointer_vtable { pub copy: ::std::option::Option< unsafe extern "C" fn(p: *mut ::std::os::raw::c_void) -> *mut ::std::os::raw::c_void, >, pub destroy: ::std::option::Option, pub cmp: ::std::option::Option< unsafe extern "C" fn( p: *mut ::std::os::raw::c_void, q: *mut ::std::os::raw::c_void, ) -> ::std::os::raw::c_int, >, } #[doc = " A single argument... each argument has a key and a value"] #[doc = ""] #[doc = "A note on naming keys:"] #[doc = "Keys are namespaced into groups, usually grouped by library, and are"] #[doc = "keys for module XYZ are named XYZ.key1, XYZ.key2, etc. Module names must"] #[doc = "be restricted to the regex [A-Za-z][_A-Za-z0-9]{,15}."] #[doc = "Key names must be restricted to the regex [A-Za-z][_A-Za-z0-9]{,47}."] #[doc = ""] #[doc = "GRPC core library keys are prefixed by grpc."] #[doc = ""] #[doc = "Library authors are strongly encouraged to \\#define symbolic constants for"] #[doc = "their keys so that it's possible to change them in the future."] #[repr(C)] #[derive(Copy, Clone)] pub struct grpc_arg { pub type_: grpc_arg_type, pub key: *mut ::std::os::raw::c_char, pub value: grpc_arg_grpc_arg_value, } #[repr(C)] #[derive(Copy, Clone)] pub union grpc_arg_grpc_arg_value { pub string: *mut ::std::os::raw::c_char, pub integer: ::std::os::raw::c_int, pub pointer: grpc_arg_grpc_arg_value_grpc_arg_pointer, _bindgen_union_align: [u64; 2usize], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_arg_grpc_arg_value_grpc_arg_pointer { pub p: *mut ::std::os::raw::c_void, pub vtable: *const grpc_arg_pointer_vtable, } impl ::std::fmt::Debug for grpc_arg_grpc_arg_value { fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result { write!(f, "grpc_arg_grpc_arg_value {{ union }}") } } impl ::std::fmt::Debug for grpc_arg { fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result { write!( f, "grpc_arg {{ type: {:?}, key: {:?}, value: {:?} }}", self.type_, self.key, self.value ) } } #[doc = " An array of arguments that can be passed around."] #[doc = ""] #[doc = "Used to set optional channel-level configuration."] #[doc = "These configuration options are modelled as key-value pairs as defined"] #[doc = "by grpc_arg; keys are strings to allow easy backwards-compatible extension"] #[doc = "by arbitrary parties. All evaluation is performed at channel creation"] #[doc = "time (i.e. the keys and values in this structure need only live through the"] #[doc = "creation invocation)."] #[doc = ""] #[doc = "However, if one of the args has grpc_arg_type==GRPC_ARG_POINTER, then the"] #[doc = "grpc_arg_pointer_vtable must live until the channel args are done being"] #[doc = "used by core (i.e. when the object for use with which they were passed"] #[doc = "is destroyed)."] #[doc = ""] #[doc = "See the description of the \\ref grpc_arg_keys \"available args\" for more"] #[doc = "details."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_channel_args { pub num_args: usize, pub args: *mut grpc_arg, } #[repr(u32)] #[doc = " Result of a grpc call. If the caller satisfies the prerequisites of a"] #[doc = "particular operation, the grpc_call_error returned will be GRPC_CALL_OK."] #[doc = "Receiving any other value listed here is an indication of a bug in the"] #[doc = "caller."] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum grpc_call_error { #[doc = " everything went ok"] GRPC_CALL_OK = 0, #[doc = " something failed, we don't know what"] GRPC_CALL_ERROR = 1, #[doc = " this method is not available on the server"] GRPC_CALL_ERROR_NOT_ON_SERVER = 2, #[doc = " this method is not available on the client"] GRPC_CALL_ERROR_NOT_ON_CLIENT = 3, #[doc = " this method must be called before server_accept"] GRPC_CALL_ERROR_ALREADY_ACCEPTED = 4, #[doc = " this method must be called before invoke"] GRPC_CALL_ERROR_ALREADY_INVOKED = 5, #[doc = " this method must be called after invoke"] GRPC_CALL_ERROR_NOT_INVOKED = 6, #[doc = " this call is already finished"] #[doc = "(writes_done or write_status has already been called)"] GRPC_CALL_ERROR_ALREADY_FINISHED = 7, #[doc = " there is already an outstanding read/write operation on the call"] GRPC_CALL_ERROR_TOO_MANY_OPERATIONS = 8, #[doc = " the flags value was illegal for this call"] GRPC_CALL_ERROR_INVALID_FLAGS = 9, #[doc = " invalid metadata was passed to this call"] GRPC_CALL_ERROR_INVALID_METADATA = 10, #[doc = " invalid message was passed to this call"] GRPC_CALL_ERROR_INVALID_MESSAGE = 11, #[doc = " completion queue for notification has not been registered"] #[doc = " with the server"] GRPC_CALL_ERROR_NOT_SERVER_COMPLETION_QUEUE = 12, #[doc = " this batch of operations leads to more operations than allowed"] GRPC_CALL_ERROR_BATCH_TOO_BIG = 13, #[doc = " payload type requested is not the type registered"] GRPC_CALL_ERROR_PAYLOAD_TYPE_MISMATCH = 14, #[doc = " completion queue has been shutdown"] GRPC_CALL_ERROR_COMPLETION_QUEUE_SHUTDOWN = 15, } #[doc = " A single metadata element"] #[repr(C)] #[derive(Copy, Clone)] pub struct grpc_metadata { #[doc = " the key, value values are expected to line up with grpc_mdelem: if"] #[doc = "changing them, update metadata.h at the same time."] pub key: grpc_slice, pub value: grpc_slice, pub flags: u32, pub internal_data: grpc_metadata__bindgen_ty_1, } #[doc = " The following fields are reserved for grpc internal use."] #[doc = "There is no need to initialize them, and they will be set to garbage"] #[doc = "during calls to grpc."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_metadata__bindgen_ty_1 { pub obfuscated: [*mut ::std::os::raw::c_void; 4usize], } impl ::std::fmt::Debug for grpc_metadata { fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result { write!( f, "grpc_metadata {{ key: {:?}, value: {:?}, flags: {:?}, internal_data: {:?} }}", self.key, self.value, self.flags, self.internal_data ) } } #[repr(u32)] #[doc = " The type of completion (for grpc_event)"] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum grpc_completion_type { #[doc = " Shutting down"] GRPC_QUEUE_SHUTDOWN = 0, #[doc = " No event before timeout"] GRPC_QUEUE_TIMEOUT = 1, #[doc = " Operation completion"] GRPC_OP_COMPLETE = 2, } #[doc = " The result of an operation."] #[doc = ""] #[doc = "Returned by a completion queue when the operation started with tag."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_event { #[doc = " The type of the completion."] pub type_: grpc_completion_type, #[doc = " If the grpc_completion_type is GRPC_OP_COMPLETE, this field indicates"] #[doc = "whether the operation was successful or not; 0 in case of failure and"] #[doc = "non-zero in case of success."] #[doc = "If grpc_completion_type is GRPC_QUEUE_SHUTDOWN or GRPC_QUEUE_TIMEOUT, this"] #[doc = "field is guaranteed to be 0"] pub success: ::std::os::raw::c_int, #[doc = " The tag passed to grpc_call_start_batch etc to start this operation."] #[doc = "Only* GRPC_OP_COMPLETE has a tag. For all other grpc_completion_type"] #[doc = "values, tag is uninitialized."] pub tag: *mut ::std::os::raw::c_void, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_metadata_array { pub count: usize, pub capacity: usize, pub metadata: *mut grpc_metadata, } #[repr(C)] #[derive(Copy, Clone)] pub struct grpc_call_details { pub method: grpc_slice, pub host: grpc_slice, pub deadline: gpr_timespec, pub flags: u32, pub reserved: *mut ::std::os::raw::c_void, } impl ::std::fmt::Debug for grpc_call_details { fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result { write ! (f , "grpc_call_details {{ method: {:?}, host: {:?}, deadline: {:?}, flags: {:?}, reserved: {:?} }}" , self . method , self . host , self . deadline , self . flags , self . reserved) } } #[repr(u32)] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum grpc_op_type { #[doc = " Send initial metadata: one and only one instance MUST be sent for each"] #[doc = "call, unless the call was cancelled - in which case this can be skipped."] #[doc = "This op completes after all bytes of metadata have been accepted by"] #[doc = "outgoing flow control."] GRPC_OP_SEND_INITIAL_METADATA = 0, #[doc = " Send a message: 0 or more of these operations can occur for each call."] #[doc = "This op completes after all bytes for the message have been accepted by"] #[doc = "outgoing flow control."] GRPC_OP_SEND_MESSAGE = 1, #[doc = " Send a close from the client: one and only one instance MUST be sent from"] #[doc = "the client, unless the call was cancelled - in which case this can be"] #[doc = "skipped. This op completes after all bytes for the call"] #[doc = "(including the close) have passed outgoing flow control."] GRPC_OP_SEND_CLOSE_FROM_CLIENT = 2, #[doc = " Send status from the server: one and only one instance MUST be sent from"] #[doc = "the server unless the call was cancelled - in which case this can be"] #[doc = "skipped. This op completes after all bytes for the call"] #[doc = "(including the status) have passed outgoing flow control."] GRPC_OP_SEND_STATUS_FROM_SERVER = 3, #[doc = " Receive initial metadata: one and only one MUST be made on the client,"] #[doc = "must not be made on the server."] #[doc = "This op completes after all initial metadata has been read from the"] #[doc = "peer."] GRPC_OP_RECV_INITIAL_METADATA = 4, #[doc = " Receive a message: 0 or more of these operations can occur for each call."] #[doc = "This op completes after all bytes of the received message have been"] #[doc = "read, or after a half-close has been received on this call."] GRPC_OP_RECV_MESSAGE = 5, #[doc = " Receive status on the client: one and only one must be made on the client."] #[doc = "This operation always succeeds, meaning ops paired with this operation"] #[doc = "will also appear to succeed, even though they may not have. In that case"] #[doc = "the status will indicate some failure."] #[doc = "This op completes after all activity on the call has completed."] GRPC_OP_RECV_STATUS_ON_CLIENT = 6, #[doc = " Receive close on the server: one and only one must be made on the"] #[doc = "server. This op completes after the close has been received by the"] #[doc = "server. This operation always succeeds, meaning ops paired with"] #[doc = "this operation will also appear to succeed, even though they may not"] #[doc = "have."] GRPC_OP_RECV_CLOSE_ON_SERVER = 7, } #[doc = " Operation data: one field for each op type (except SEND_CLOSE_FROM_CLIENT"] #[doc = "which has no arguments)"] #[repr(C)] #[derive(Copy, Clone)] pub struct grpc_op { #[doc = " Operation type, as defined by grpc_op_type"] pub op: grpc_op_type, #[doc = " Write flags bitset for grpc_begin_messages"] pub flags: u32, #[doc = " Reserved for future usage"] pub reserved: *mut ::std::os::raw::c_void, pub data: grpc_op_grpc_op_data, } #[repr(C)] #[derive(Copy, Clone)] pub union grpc_op_grpc_op_data { pub reserved: grpc_op_grpc_op_data__bindgen_ty_1, pub send_initial_metadata: grpc_op_grpc_op_data_grpc_op_send_initial_metadata, pub send_message: grpc_op_grpc_op_data_grpc_op_send_message, pub send_status_from_server: grpc_op_grpc_op_data_grpc_op_send_status_from_server, pub recv_initial_metadata: grpc_op_grpc_op_data_grpc_op_recv_initial_metadata, pub recv_message: grpc_op_grpc_op_data_grpc_op_recv_message, pub recv_status_on_client: grpc_op_grpc_op_data_grpc_op_recv_status_on_client, pub recv_close_on_server: grpc_op_grpc_op_data_grpc_op_recv_close_on_server, _bindgen_union_align: [u64; 8usize], } #[doc = " Reserved for future usage"] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_op_grpc_op_data__bindgen_ty_1 { pub reserved: [*mut ::std::os::raw::c_void; 8usize], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_op_grpc_op_data_grpc_op_send_initial_metadata { pub count : usize , pub metadata : * mut grpc_metadata , pub maybe_compression_level : grpc_op_grpc_op_data_grpc_op_send_initial_metadata_grpc_op_send_initial_metadata_maybe_compression_level , } #[doc = " If \\a is_set, \\a compression_level will be used for the call."] #[doc = " Otherwise, \\a compression_level won't be considered"] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_op_grpc_op_data_grpc_op_send_initial_metadata_grpc_op_send_initial_metadata_maybe_compression_level { pub is_set: u8, pub level: grpc_compression_level, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_op_grpc_op_data_grpc_op_send_message { #[doc = " This op takes ownership of the slices in send_message. After"] #[doc = " a call completes, the contents of send_message are not guaranteed"] #[doc = " and likely empty. The original owner should still call"] #[doc = " grpc_byte_buffer_destroy() on this object however."] pub send_message: *mut grpc_byte_buffer, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_op_grpc_op_data_grpc_op_send_status_from_server { pub trailing_metadata_count: usize, pub trailing_metadata: *mut grpc_metadata, pub status: grpc_status_code::Type, #[doc = " optional: set to NULL if no details need sending, non-NULL if they do"] #[doc = " pointer will not be retained past the start_batch call"] pub status_details: *mut grpc_slice, } #[doc = " ownership of the array is with the caller, but ownership of the elements"] #[doc = "stays with the call object (ie key, value members are owned by the call"] #[doc = "object, recv_initial_metadata->array is owned by the caller)."] #[doc = "After the operation completes, call grpc_metadata_array_destroy on this"] #[doc = "value, or reuse it in a future op."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_op_grpc_op_data_grpc_op_recv_initial_metadata { pub recv_initial_metadata: *mut grpc_metadata_array, } #[doc = " ownership of the byte buffer is moved to the caller; the caller must"] #[doc = "call grpc_byte_buffer_destroy on this value, or reuse it in a future op."] #[doc = "The returned byte buffer will be NULL if trailing metadata was"] #[doc = "received instead of a message."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_op_grpc_op_data_grpc_op_recv_message { pub recv_message: *mut *mut grpc_byte_buffer, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_op_grpc_op_data_grpc_op_recv_status_on_client { #[doc = " ownership of the array is with the caller, but ownership of the"] #[doc = "elements stays with the call object (ie key, value members are owned"] #[doc = "by the call object, trailing_metadata->array is owned by the caller)."] #[doc = "After the operation completes, call grpc_metadata_array_destroy on"] #[doc = "this value, or reuse it in a future op."] pub trailing_metadata: *mut grpc_metadata_array, pub status: *mut grpc_status_code::Type, pub status_details: *mut grpc_slice, #[doc = " If this is not nullptr, it will be populated with the full fidelity"] #[doc = " error string for debugging purposes. The application is responsible"] #[doc = " for freeing the data by using gpr_free()."] pub error_string: *mut *const ::std::os::raw::c_char, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_op_grpc_op_data_grpc_op_recv_close_on_server { #[doc = " out argument, set to 1 if the call failed at the server for"] #[doc = "a reason other than a non-OK status (cancel, deadline"] #[doc = "exceeded, network failure, etc.), 0 otherwise (RPC processing ran to"] #[doc = "completion and was able to provide any status from the server)"] pub cancelled: *mut ::std::os::raw::c_int, } impl ::std::fmt::Debug for grpc_op_grpc_op_data { fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result { write!(f, "grpc_op_grpc_op_data {{ union }}") } } impl ::std::fmt::Debug for grpc_op { fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result { write!( f, "grpc_op {{ op: {:?}, flags: {:?}, reserved: {:?}, data: {:?} }}", self.op, self.flags, self.reserved, self.data ) } } #[doc = " Information requested from the channel."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_channel_info { #[doc = " If non-NULL, will be set to point to a string indicating the LB"] #[doc = " policy name. Caller takes ownership."] pub lb_policy_name: *mut *mut ::std::os::raw::c_char, #[doc = " If non-NULL, will be set to point to a string containing the"] #[doc = " service config used by the channel in JSON form."] pub service_config_json: *mut *mut ::std::os::raw::c_char, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_resource_quota { _unused: [u8; 0], } #[repr(u32)] #[doc = " Completion queues internally MAY maintain a set of file descriptors in a"] #[doc = "structure called 'pollset'. This enum specifies if a completion queue has an"] #[doc = "associated pollset and any restrictions on the type of file descriptors that"] #[doc = "can be present in the pollset."] #[doc = ""] #[doc = "I/O progress can only be made when grpc_completion_queue_next() or"] #[doc = "grpc_completion_queue_pluck() are called on the completion queue (unless the"] #[doc = "grpc_cq_polling_type is GRPC_CQ_NON_POLLING) and hence it is very important"] #[doc = "to actively call these APIs"] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum grpc_cq_polling_type { #[doc = " The completion queue will have an associated pollset and there is no"] #[doc = "restriction on the type of file descriptors the pollset may contain"] GRPC_CQ_DEFAULT_POLLING = 0, #[doc = " Similar to GRPC_CQ_DEFAULT_POLLING except that the completion queues will"] #[doc = "not contain any 'listening file descriptors' (i.e file descriptors used to"] #[doc = "listen to incoming channels)"] GRPC_CQ_NON_LISTENING = 1, #[doc = " The completion queue will not have an associated pollset. Note that"] #[doc = "grpc_completion_queue_next() or grpc_completion_queue_pluck() MUST still"] #[doc = "be called to pop events from the completion queue; it is not required to"] #[doc = "call them actively to make I/O progress"] GRPC_CQ_NON_POLLING = 2, } #[repr(u32)] #[doc = " Specifies the type of APIs to use to pop events from the completion queue"] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum grpc_cq_completion_type { #[doc = " Events are popped out by calling grpc_completion_queue_next() API ONLY"] GRPC_CQ_NEXT = 0, #[doc = " Events are popped out by calling grpc_completion_queue_pluck() API ONLY"] GRPC_CQ_PLUCK = 1, #[doc = " EXPERIMENTAL: Events trigger a callback specified as the tag"] GRPC_CQ_CALLBACK = 2, } #[doc = " EXPERIMENTAL: Specifies an interface class to be used as a tag"] #[doc = "for callback-based completion queues. This can be used directly,"] #[doc = "as the first element of a struct in C, or as a base class in C++."] #[doc = "Its \"run\" value should be assigned to some non-member function, such as"] #[doc = "a static method."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_experimental_completion_queue_functor { #[doc = " The run member specifies a function that will be called when this"] #[doc = "tag is extracted from the completion queue. Its arguments will be a"] #[doc = "pointer to this functor and a boolean that indicates whether the"] #[doc = "operation succeeded (non-zero) or failed (zero)"] pub functor_run: ::std::option::Option< unsafe extern "C" fn( arg1: *mut grpc_experimental_completion_queue_functor, arg2: ::std::os::raw::c_int, ), >, #[doc = " The inlineable member specifies whether this functor can be run inline."] #[doc = "This should only be used for trivial internally-defined functors."] pub inlineable: ::std::os::raw::c_int, #[doc = " The following fields are not API. They are meant for internal use."] pub internal_success: ::std::os::raw::c_int, pub internal_next: *mut grpc_experimental_completion_queue_functor, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_completion_queue_attributes { #[doc = " The version number of this structure. More fields might be added to this"] #[doc = "structure in future."] pub version: ::std::os::raw::c_int, #[doc = " Set to GRPC_CQ_CURRENT_VERSION"] pub cq_completion_type: grpc_cq_completion_type, pub cq_polling_type: grpc_cq_polling_type, #[doc = " When creating a callbackable CQ, pass in a functor to get invoked when"] #[doc = " shutdown is complete"] pub cq_shutdown_cb: *mut grpc_experimental_completion_queue_functor, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_completion_queue_factory { _unused: [u8; 0], } extern "C" { #[doc = " Returns a RAW byte buffer instance over the given slices (up to \\a nslices)."] #[doc = ""] #[doc = " Increases the reference count for all \\a slices processed. The user is"] #[doc = " responsible for invoking grpc_byte_buffer_destroy on the returned instance."] pub fn grpc_raw_byte_buffer_create( slices: *mut grpc_slice, nslices: usize, ) -> *mut grpc_byte_buffer; } extern "C" { #[doc = " Returns a *compressed* RAW byte buffer instance over the given slices (up to"] #[doc = " \\a nslices). The \\a compression argument defines the compression algorithm"] #[doc = " used to generate the data in \\a slices."] #[doc = ""] #[doc = " Increases the reference count for all \\a slices processed. The user is"] #[doc = " responsible for invoking grpc_byte_buffer_destroy on the returned instance."] pub fn grpc_raw_compressed_byte_buffer_create( slices: *mut grpc_slice, nslices: usize, compression: grpc_compression_algorithm, ) -> *mut grpc_byte_buffer; } extern "C" { #[doc = " Copies input byte buffer \\a bb."] #[doc = ""] #[doc = " Increases the reference count of all the source slices. The user is"] #[doc = " responsible for calling grpc_byte_buffer_destroy over the returned copy."] pub fn grpc_byte_buffer_copy(bb: *mut grpc_byte_buffer) -> *mut grpc_byte_buffer; } extern "C" { #[doc = " Returns the size of the given byte buffer, in bytes."] pub fn grpc_byte_buffer_length(bb: *mut grpc_byte_buffer) -> usize; } extern "C" { #[doc = " Destroys \\a byte_buffer deallocating all its memory."] pub fn grpc_byte_buffer_destroy(bb: *mut grpc_byte_buffer); } extern "C" { #[doc = " Initialize \\a reader to read over \\a buffer."] #[doc = " Returns 1 upon success, 0 otherwise."] pub fn grpc_byte_buffer_reader_init( reader: *mut grpc_byte_buffer_reader, buffer: *mut grpc_byte_buffer, ) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Cleanup and destroy \\a reader"] pub fn grpc_byte_buffer_reader_destroy(reader: *mut grpc_byte_buffer_reader); } extern "C" { #[doc = " Updates \\a slice with the next piece of data from from \\a reader and returns"] #[doc = " 1. Returns 0 at the end of the stream. Caller is responsible for calling"] #[doc = " grpc_slice_unref on the result."] pub fn grpc_byte_buffer_reader_next( reader: *mut grpc_byte_buffer_reader, slice: *mut grpc_slice, ) -> ::std::os::raw::c_int; } extern "C" { #[doc = " EXPERIMENTAL API - This function may be removed and changed, in the future."] #[doc = ""] #[doc = " Updates \\a slice with the next piece of data from from \\a reader and returns"] #[doc = " 1. Returns 0 at the end of the stream. Caller is responsible for making sure"] #[doc = " the slice pointer remains valid when accessed."] #[doc = ""] #[doc = " NOTE: Do not use this function unless the caller can guarantee that the"] #[doc = " underlying grpc_byte_buffer outlasts the use of the slice. This is only"] #[doc = " safe when the underlying grpc_byte_buffer remains immutable while slice"] #[doc = " is being accessed."] pub fn grpc_byte_buffer_reader_peek( reader: *mut grpc_byte_buffer_reader, slice: *mut *mut grpc_slice, ) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Merge all data from \\a reader into single slice"] pub fn grpc_byte_buffer_reader_readall(reader: *mut grpc_byte_buffer_reader) -> grpc_slice; } extern "C" { #[doc = " Returns a RAW byte buffer instance from the output of \\a reader."] pub fn grpc_raw_byte_buffer_from_reader( reader: *mut grpc_byte_buffer_reader, ) -> *mut grpc_byte_buffer; } extern "C" { #[doc = " initialize a slice buffer"] pub fn grpc_slice_buffer_init(sb: *mut grpc_slice_buffer); } extern "C" { #[doc = " destroy a slice buffer - unrefs any held elements"] pub fn grpc_slice_buffer_destroy(sb: *mut grpc_slice_buffer); } extern "C" { #[doc = " Add an element to a slice buffer - takes ownership of the slice."] #[doc = "This function is allowed to concatenate the passed in slice to the end of"] #[doc = "some other slice if desired by the slice buffer."] pub fn grpc_slice_buffer_add(sb: *mut grpc_slice_buffer, slice: grpc_slice); } extern "C" { #[doc = " add an element to a slice buffer - takes ownership of the slice and returns"] #[doc = "the index of the slice."] #[doc = "Guarantees that the slice will not be concatenated at the end of another"] #[doc = "slice (i.e. the data for this slice will begin at the first byte of the"] #[doc = "slice at the returned index in sb->slices)"] #[doc = "The implementation MAY decide to concatenate data at the end of a small"] #[doc = "slice added in this fashion."] pub fn grpc_slice_buffer_add_indexed(sb: *mut grpc_slice_buffer, slice: grpc_slice) -> usize; } extern "C" { pub fn grpc_slice_buffer_addn(sb: *mut grpc_slice_buffer, slices: *mut grpc_slice, n: usize); } extern "C" { #[doc = " add a very small (less than 8 bytes) amount of data to the end of a slice"] #[doc = "buffer: returns a pointer into which to add the data"] pub fn grpc_slice_buffer_tiny_add(sb: *mut grpc_slice_buffer, len: usize) -> *mut u8; } extern "C" { #[doc = " pop the last buffer, but don't unref it"] pub fn grpc_slice_buffer_pop(sb: *mut grpc_slice_buffer); } extern "C" { #[doc = " clear a slice buffer, unref all elements"] pub fn grpc_slice_buffer_reset_and_unref(sb: *mut grpc_slice_buffer); } extern "C" { #[doc = " swap the contents of two slice buffers"] pub fn grpc_slice_buffer_swap(a: *mut grpc_slice_buffer, b: *mut grpc_slice_buffer); } extern "C" { #[doc = " move all of the elements of src into dst"] pub fn grpc_slice_buffer_move_into(src: *mut grpc_slice_buffer, dst: *mut grpc_slice_buffer); } extern "C" { #[doc = " remove n bytes from the end of a slice buffer"] pub fn grpc_slice_buffer_trim_end( sb: *mut grpc_slice_buffer, n: usize, garbage: *mut grpc_slice_buffer, ); } extern "C" { #[doc = " move the first n bytes of src into dst"] pub fn grpc_slice_buffer_move_first( src: *mut grpc_slice_buffer, n: usize, dst: *mut grpc_slice_buffer, ); } extern "C" { #[doc = " move the first n bytes of src into dst without adding references"] pub fn grpc_slice_buffer_move_first_no_ref( src: *mut grpc_slice_buffer, n: usize, dst: *mut grpc_slice_buffer, ); } extern "C" { #[doc = " move the first n bytes of src into dst (copying them)"] pub fn grpc_slice_buffer_move_first_into_buffer( src: *mut grpc_slice_buffer, n: usize, dst: *mut ::std::os::raw::c_void, ); } extern "C" { #[doc = " take the first slice in the slice buffer"] pub fn grpc_slice_buffer_take_first(sb: *mut grpc_slice_buffer) -> grpc_slice; } extern "C" { #[doc = " undo the above with (a possibly different) \\a slice"] pub fn grpc_slice_buffer_undo_take_first(sb: *mut grpc_slice_buffer, slice: grpc_slice); } #[repr(u32)] #[doc = " Connectivity state of a channel."] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum grpc_connectivity_state { #[doc = " channel is idle"] GRPC_CHANNEL_IDLE = 0, #[doc = " channel is connecting"] GRPC_CHANNEL_CONNECTING = 1, #[doc = " channel is ready for work"] GRPC_CHANNEL_READY = 2, #[doc = " channel has seen a failure but expects to recover"] GRPC_CHANNEL_TRANSIENT_FAILURE = 3, #[doc = " channel has seen a failure that it cannot recover from"] GRPC_CHANNEL_SHUTDOWN = 4, } extern "C" { #[doc = " Time constants."] pub fn gpr_time_0(type_: gpr_clock_type) -> gpr_timespec; } extern "C" { #[doc = " The zero time interval."] pub fn gpr_inf_future(type_: gpr_clock_type) -> gpr_timespec; } extern "C" { #[doc = " The far future"] pub fn gpr_inf_past(type_: gpr_clock_type) -> gpr_timespec; } extern "C" { #[doc = " initialize time subsystem"] pub fn gpr_time_init(); } extern "C" { #[doc = " Return the current time measured from the given clocks epoch."] pub fn gpr_now(clock: gpr_clock_type) -> gpr_timespec; } extern "C" { #[doc = " Convert a timespec from one clock to another"] pub fn gpr_convert_clock_type(t: gpr_timespec, clock_type: gpr_clock_type) -> gpr_timespec; } extern "C" { #[doc = " Return -ve, 0, or +ve according to whether a < b, a == b, or a > b"] #[doc = "respectively."] pub fn gpr_time_cmp(a: gpr_timespec, b: gpr_timespec) -> ::std::os::raw::c_int; } extern "C" { pub fn gpr_time_max(a: gpr_timespec, b: gpr_timespec) -> gpr_timespec; } extern "C" { pub fn gpr_time_min(a: gpr_timespec, b: gpr_timespec) -> gpr_timespec; } extern "C" { #[doc = " Add and subtract times. Calculations saturate at infinities."] pub fn gpr_time_add(a: gpr_timespec, b: gpr_timespec) -> gpr_timespec; } extern "C" { pub fn gpr_time_sub(a: gpr_timespec, b: gpr_timespec) -> gpr_timespec; } extern "C" { #[doc = " Return a timespec representing a given number of time units. INT64_MIN is"] #[doc = "interpreted as gpr_inf_past, and INT64_MAX as gpr_inf_future."] pub fn gpr_time_from_micros(us: i64, clock_type: gpr_clock_type) -> gpr_timespec; } extern "C" { pub fn gpr_time_from_nanos(ns: i64, clock_type: gpr_clock_type) -> gpr_timespec; } extern "C" { pub fn gpr_time_from_millis(ms: i64, clock_type: gpr_clock_type) -> gpr_timespec; } extern "C" { pub fn gpr_time_from_seconds(s: i64, clock_type: gpr_clock_type) -> gpr_timespec; } extern "C" { pub fn gpr_time_from_minutes(m: i64, clock_type: gpr_clock_type) -> gpr_timespec; } extern "C" { pub fn gpr_time_from_hours(h: i64, clock_type: gpr_clock_type) -> gpr_timespec; } extern "C" { pub fn gpr_time_to_millis(timespec: gpr_timespec) -> i32; } extern "C" { #[doc = " Return 1 if two times are equal or within threshold of each other,"] #[doc = "0 otherwise"] pub fn gpr_time_similar( a: gpr_timespec, b: gpr_timespec, threshold: gpr_timespec, ) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Sleep until at least 'until' - an absolute timeout"] pub fn gpr_sleep_until(until: gpr_timespec); } extern "C" { pub fn gpr_timespec_to_micros(t: gpr_timespec) -> f64; } extern "C" { #[doc = " \\mainpage GRPC Core"] #[doc = ""] #[doc = " The GRPC Core library is a low-level library designed to be wrapped by higher"] #[doc = " level libraries. The top-level API is provided in grpc.h. Security related"] #[doc = " functionality lives in grpc_security.h."] pub fn grpc_metadata_array_init(array: *mut grpc_metadata_array); } extern "C" { pub fn grpc_metadata_array_destroy(array: *mut grpc_metadata_array); } extern "C" { pub fn grpc_call_details_init(details: *mut grpc_call_details); } extern "C" { pub fn grpc_call_details_destroy(details: *mut grpc_call_details); } extern "C" { #[doc = " Registers a plugin to be initialized and destroyed with the library."] #[doc = ""] #[doc = "The \\a init and \\a destroy functions will be invoked as part of"] #[doc = "\\a grpc_init() and \\a grpc_shutdown(), respectively."] #[doc = "Note that these functions can be invoked an arbitrary number of times"] #[doc = "(and hence so will \\a init and \\a destroy)."] #[doc = "It is safe to pass NULL to either argument. Plugins are destroyed in"] #[doc = "the reverse order they were initialized."] pub fn grpc_register_plugin( init: ::std::option::Option, destroy: ::std::option::Option, ); } extern "C" { #[doc = " Initialize the grpc library."] #[doc = ""] #[doc = "After it's called, a matching invocation to grpc_shutdown() is expected."] #[doc = ""] #[doc = "It is not safe to call any other grpc functions before calling this."] #[doc = "(To avoid overhead, little checking is done, and some things may work. We"] #[doc = "do not warrant that they will continue to do so in future revisions of this"] #[doc = "library)."] pub fn grpc_init(); } extern "C" { #[doc = " Shut down the grpc library."] #[doc = ""] #[doc = "Before it's called, there should haven been a matching invocation to"] #[doc = "grpc_init()."] #[doc = ""] #[doc = "The last call to grpc_shutdown will initiate cleaning up of grpc library"] #[doc = "internals, which can happen in another thread. Once the clean-up is done,"] #[doc = "no memory is used by grpc, nor are any instructions executing within the"] #[doc = "grpc library. Prior to calling, all application owned grpc objects must"] #[doc = "have been destroyed."] pub fn grpc_shutdown(); } extern "C" { #[doc = " EXPERIMENTAL. Returns 1 if the grpc library has been initialized."] #[doc = "TODO(ericgribkoff) Decide if this should be promoted to non-experimental as"] #[doc = "part of stabilizing the fork support API, as tracked in"] #[doc = "https://github.com/grpc/grpc/issues/15334"] pub fn grpc_is_initialized() -> ::std::os::raw::c_int; } extern "C" { #[doc = " DEPRECATED. Recommend to use grpc_shutdown only"] pub fn grpc_shutdown_blocking(); } extern "C" { #[doc = " Return a string representing the current version of grpc"] pub fn grpc_version_string() -> *const ::std::os::raw::c_char; } extern "C" { #[doc = " Return a string specifying what the 'g' in gRPC stands for"] pub fn grpc_g_stands_for() -> *const ::std::os::raw::c_char; } extern "C" { #[doc = " Returns the completion queue factory based on the attributes. MAY return a"] #[doc = "NULL if no factory can be found"] pub fn grpc_completion_queue_factory_lookup( attributes: *const grpc_completion_queue_attributes, ) -> *const grpc_completion_queue_factory; } extern "C" { #[doc = " Helper function to create a completion queue with grpc_cq_completion_type"] #[doc = "of GRPC_CQ_NEXT and grpc_cq_polling_type of GRPC_CQ_DEFAULT_POLLING"] pub fn grpc_completion_queue_create_for_next( reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_completion_queue; } extern "C" { #[doc = " Helper function to create a completion queue with grpc_cq_completion_type"] #[doc = "of GRPC_CQ_PLUCK and grpc_cq_polling_type of GRPC_CQ_DEFAULT_POLLING"] pub fn grpc_completion_queue_create_for_pluck( reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_completion_queue; } extern "C" { #[doc = " Helper function to create a completion queue with grpc_cq_completion_type"] #[doc = "of GRPC_CQ_CALLBACK and grpc_cq_polling_type of GRPC_CQ_DEFAULT_POLLING."] #[doc = "This function is experimental."] pub fn grpc_completion_queue_create_for_callback( shutdown_callback: *mut grpc_experimental_completion_queue_functor, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_completion_queue; } extern "C" { #[doc = " Create a completion queue"] pub fn grpc_completion_queue_create( factory: *const grpc_completion_queue_factory, attributes: *const grpc_completion_queue_attributes, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_completion_queue; } extern "C" { #[doc = " Blocks until an event is available, the completion queue is being shut down,"] #[doc = "or deadline is reached."] #[doc = ""] #[doc = "Returns a grpc_event with type GRPC_QUEUE_TIMEOUT on timeout,"] #[doc = "otherwise a grpc_event describing the event that occurred."] #[doc = ""] #[doc = "Callers must not call grpc_completion_queue_next and"] #[doc = "grpc_completion_queue_pluck simultaneously on the same completion queue."] pub fn grpc_completion_queue_next( cq: *mut grpc_completion_queue, deadline: gpr_timespec, reserved: *mut ::std::os::raw::c_void, ) -> grpc_event; } extern "C" { #[doc = " Blocks until an event with tag 'tag' is available, the completion queue is"] #[doc = "being shutdown or deadline is reached."] #[doc = ""] #[doc = "Returns a grpc_event with type GRPC_QUEUE_TIMEOUT on timeout,"] #[doc = "otherwise a grpc_event describing the event that occurred."] #[doc = ""] #[doc = "Callers must not call grpc_completion_queue_next and"] #[doc = "grpc_completion_queue_pluck simultaneously on the same completion queue."] #[doc = ""] #[doc = "Completion queues support a maximum of GRPC_MAX_COMPLETION_QUEUE_PLUCKERS"] #[doc = "concurrently executing plucks at any time."] pub fn grpc_completion_queue_pluck( cq: *mut grpc_completion_queue, tag: *mut ::std::os::raw::c_void, deadline: gpr_timespec, reserved: *mut ::std::os::raw::c_void, ) -> grpc_event; } extern "C" { #[doc = " Begin destruction of a completion queue. Once all possible events are"] #[doc = "drained then grpc_completion_queue_next will start to produce"] #[doc = "GRPC_QUEUE_SHUTDOWN events only. At that point it's safe to call"] #[doc = "grpc_completion_queue_destroy."] #[doc = ""] #[doc = "After calling this function applications should ensure that no"] #[doc = "NEW work is added to be published on this completion queue."] pub fn grpc_completion_queue_shutdown(cq: *mut grpc_completion_queue); } extern "C" { #[doc = " Destroy a completion queue. The caller must ensure that the queue is"] #[doc = "drained and no threads are executing grpc_completion_queue_next"] pub fn grpc_completion_queue_destroy(cq: *mut grpc_completion_queue); } extern "C" { #[doc = " EXPERIMENTAL API ************/"] #[doc = " grpc_flush_cq_tls_cache() MUST be called on the same thread,"] #[doc = " with the same cq."] pub fn grpc_completion_queue_thread_local_cache_init(cq: *mut grpc_completion_queue); } extern "C" { #[doc = " EXPERIMENTAL API ************/"] #[doc = " Returns 1 if there was contents in the cache. If there was an event"] #[doc = " in \\a cq tls cache, its tag is placed in tag, and ok is set to the"] #[doc = " event success."] pub fn grpc_completion_queue_thread_local_cache_flush( cq: *mut grpc_completion_queue, tag: *mut *mut ::std::os::raw::c_void, ok: *mut ::std::os::raw::c_int, ) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Check the connectivity state of a channel."] pub fn grpc_channel_check_connectivity_state( channel: *mut grpc_channel, try_to_connect: ::std::os::raw::c_int, ) -> grpc_connectivity_state; } extern "C" { #[doc = " Number of active \"external connectivity state watchers\" attached to a"] #[doc = " channel."] #[doc = " Useful for testing."] pub fn grpc_channel_num_external_connectivity_watchers( channel: *mut grpc_channel, ) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Watch for a change in connectivity state."] #[doc = "Once the channel connectivity state is different from last_observed_state,"] #[doc = "tag will be enqueued on cq with success=1."] #[doc = "If deadline expires BEFORE the state is changed, tag will be enqueued on cq"] #[doc = "with success=0."] pub fn grpc_channel_watch_connectivity_state( channel: *mut grpc_channel, last_observed_state: grpc_connectivity_state, deadline: gpr_timespec, cq: *mut grpc_completion_queue, tag: *mut ::std::os::raw::c_void, ); } extern "C" { #[doc = " Check whether a grpc channel supports connectivity watcher"] pub fn grpc_channel_support_connectivity_watcher( channel: *mut grpc_channel, ) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Create a call given a grpc_channel, in order to call 'method'. All"] #[doc = "completions are sent to 'completion_queue'. 'method' and 'host' need only"] #[doc = "live through the invocation of this function."] #[doc = "If parent_call is non-NULL, it must be a server-side call. It will be used"] #[doc = "to propagate properties from the server call to this new client call,"] #[doc = "depending on the value of \\a propagation_mask (see propagation_bits.h for"] #[doc = "possible values)."] pub fn grpc_channel_create_call( channel: *mut grpc_channel, parent_call: *mut grpc_call, propagation_mask: u32, completion_queue: *mut grpc_completion_queue, method: grpc_slice, host: *const grpc_slice, deadline: gpr_timespec, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_call; } extern "C" { #[doc = " Pre-register a method/host pair on a channel."] #[doc = "method and host are not owned and must remain alive while the channel is"] #[doc = "alive."] pub fn grpc_channel_register_call( channel: *mut grpc_channel, method: *const ::std::os::raw::c_char, host: *const ::std::os::raw::c_char, reserved: *mut ::std::os::raw::c_void, ) -> *mut ::std::os::raw::c_void; } extern "C" { #[doc = " Create a call given a handle returned from grpc_channel_register_call."] #[doc = "\\sa grpc_channel_create_call."] pub fn grpc_channel_create_registered_call( channel: *mut grpc_channel, parent_call: *mut grpc_call, propagation_mask: u32, completion_queue: *mut grpc_completion_queue, registered_call_handle: *mut ::std::os::raw::c_void, deadline: gpr_timespec, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_call; } extern "C" { #[doc = " Allocate memory in the grpc_call arena: this memory is automatically"] #[doc = "discarded at call completion"] pub fn grpc_call_arena_alloc(call: *mut grpc_call, size: usize) -> *mut ::std::os::raw::c_void; } extern "C" { #[doc = " Start a batch of operations defined in the array ops; when complete, post a"] #[doc = "completion of type 'tag' to the completion queue bound to the call."] #[doc = "The order of ops specified in the batch has no significance."] #[doc = "Only one operation of each type can be active at once in any given"] #[doc = "batch."] #[doc = "If a call to grpc_call_start_batch returns GRPC_CALL_OK you must call"] #[doc = "grpc_completion_queue_next or grpc_completion_queue_pluck on the completion"] #[doc = "queue associated with 'call' for work to be performed. If a call to"] #[doc = "grpc_call_start_batch returns any value other than GRPC_CALL_OK it is"] #[doc = "guaranteed that no state associated with 'call' is changed and it is not"] #[doc = "appropriate to call grpc_completion_queue_next or"] #[doc = "grpc_completion_queue_pluck consequent to the failed grpc_call_start_batch"] #[doc = "call."] #[doc = "If a call to grpc_call_start_batch with an empty batch returns"] #[doc = "GRPC_CALL_OK, the tag is put in the completion queue immediately."] #[doc = "THREAD SAFETY: access to grpc_call_start_batch in multi-threaded environment"] #[doc = "needs to be synchronized. As an optimization, you may synchronize batches"] #[doc = "containing just send operations independently from batches containing just"] #[doc = "receive operations. Access to grpc_call_start_batch with an empty batch is"] #[doc = "thread-compatible."] pub fn grpc_call_start_batch( call: *mut grpc_call, ops: *const grpc_op, nops: usize, tag: *mut ::std::os::raw::c_void, reserved: *mut ::std::os::raw::c_void, ) -> grpc_call_error; } extern "C" { #[doc = " Returns a newly allocated string representing the endpoint to which this"] #[doc = "call is communicating with. The string is in the uri format accepted by"] #[doc = "grpc_channel_create."] #[doc = "The returned string should be disposed of with gpr_free()."] #[doc = ""] #[doc = "WARNING: this value is never authenticated or subject to any security"] #[doc = "related code. It must not be used for any authentication related"] #[doc = "functionality. Instead, use grpc_auth_context."] pub fn grpc_call_get_peer(call: *mut grpc_call) -> *mut ::std::os::raw::c_char; } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct census_context { _unused: [u8; 0], } extern "C" { #[doc = " Set census context for a call; Must be called before first call to"] #[doc = "grpc_call_start_batch()."] pub fn grpc_census_call_set_context(call: *mut grpc_call, context: *mut census_context); } extern "C" { #[doc = " Retrieve the calls current census context."] pub fn grpc_census_call_get_context(call: *mut grpc_call) -> *mut census_context; } extern "C" { #[doc = " Return a newly allocated string representing the target a channel was"] #[doc = "created for."] pub fn grpc_channel_get_target(channel: *mut grpc_channel) -> *mut ::std::os::raw::c_char; } extern "C" { #[doc = " Request info about the channel."] #[doc = "\\a channel_info indicates what information is being requested and"] #[doc = "how that information will be returned."] #[doc = "\\a channel_info is owned by the caller."] pub fn grpc_channel_get_info( channel: *mut grpc_channel, channel_info: *const grpc_channel_info, ); } extern "C" { #[doc = " EXPERIMENTAL. Resets the channel's connect backoff."] #[doc = "TODO(roth): When we see whether this proves useful, either promote"] #[doc = "to non-experimental or remove it."] pub fn grpc_channel_reset_connect_backoff(channel: *mut grpc_channel); } extern "C" { #[doc = " Create a client channel to 'target'. Additional channel level configuration"] #[doc = "MAY be provided by grpc_channel_args, though the expectation is that most"] #[doc = "clients will want to simply pass NULL. The user data in 'args' need only"] #[doc = "live through the invocation of this function. However, if any args of the"] #[doc = "'pointer' type are passed, then the referenced vtable must be maintained"] #[doc = "by the caller until grpc_channel_destroy terminates. See grpc_channel_args"] #[doc = "definition for more on this."] pub fn grpc_insecure_channel_create( target: *const ::std::os::raw::c_char, args: *const grpc_channel_args, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_channel; } extern "C" { #[doc = " Create a lame client: this client fails every operation attempted on it."] pub fn grpc_lame_client_channel_create( target: *const ::std::os::raw::c_char, error_code: grpc_status_code::Type, error_message: *const ::std::os::raw::c_char, ) -> *mut grpc_channel; } extern "C" { #[doc = " Close and destroy a grpc channel"] pub fn grpc_channel_destroy(channel: *mut grpc_channel); } extern "C" { #[doc = " Cancel an RPC."] #[doc = "Can be called multiple times, from any thread."] #[doc = "THREAD-SAFETY grpc_call_cancel and grpc_call_cancel_with_status"] #[doc = "are thread-safe, and can be called at any point before grpc_call_unref"] #[doc = "is called."] pub fn grpc_call_cancel( call: *mut grpc_call, reserved: *mut ::std::os::raw::c_void, ) -> grpc_call_error; } extern "C" { #[doc = " Cancel an RPC."] #[doc = "Can be called multiple times, from any thread."] #[doc = "If a status has not been received for the call, set it to the status code"] #[doc = "and description passed in."] #[doc = "Importantly, this function does not send status nor description to the"] #[doc = "remote endpoint."] #[doc = "Note that \\a description doesn't need be a static string."] #[doc = "It doesn't need to be alive after the call to"] #[doc = "grpc_call_cancel_with_status completes."] pub fn grpc_call_cancel_with_status( call: *mut grpc_call, status: grpc_status_code::Type, description: *const ::std::os::raw::c_char, reserved: *mut ::std::os::raw::c_void, ) -> grpc_call_error; } extern "C" { #[doc = " Ref a call."] #[doc = "THREAD SAFETY: grpc_call_ref is thread-compatible"] pub fn grpc_call_ref(call: *mut grpc_call); } extern "C" { #[doc = " Unref a call."] #[doc = "THREAD SAFETY: grpc_call_unref is thread-compatible"] pub fn grpc_call_unref(call: *mut grpc_call); } extern "C" { #[doc = " Request notification of a new call."] #[doc = "Once a call is received, a notification tagged with \\a tag_new is added to"] #[doc = "\\a cq_for_notification. \\a call, \\a details and \\a request_metadata are"] #[doc = "updated with the appropriate call information. \\a cq_bound_to_call is bound"] #[doc = "to \\a call, and batch operation notifications for that call will be posted"] #[doc = "to \\a cq_bound_to_call."] #[doc = "Note that \\a cq_for_notification must have been registered to the server via"] #[doc = "\\a grpc_server_register_completion_queue."] pub fn grpc_server_request_call( server: *mut grpc_server, call: *mut *mut grpc_call, details: *mut grpc_call_details, request_metadata: *mut grpc_metadata_array, cq_bound_to_call: *mut grpc_completion_queue, cq_for_notification: *mut grpc_completion_queue, tag_new: *mut ::std::os::raw::c_void, ) -> grpc_call_error; } #[repr(u32)] #[doc = " How to handle payloads for a registered method"] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum grpc_server_register_method_payload_handling { #[doc = " Don't try to read the payload"] GRPC_SRM_PAYLOAD_NONE = 0, #[doc = " Read the initial payload as a byte buffer"] GRPC_SRM_PAYLOAD_READ_INITIAL_BYTE_BUFFER = 1, } extern "C" { #[doc = " Registers a method in the server."] #[doc = "Methods to this (host, method) pair will not be reported by"] #[doc = "grpc_server_request_call, but instead be reported by"] #[doc = "grpc_server_request_registered_call when passed the appropriate"] #[doc = "registered_method (as returned by this function)."] #[doc = "Must be called before grpc_server_start."] #[doc = "Returns NULL on failure."] pub fn grpc_server_register_method( server: *mut grpc_server, method: *const ::std::os::raw::c_char, host: *const ::std::os::raw::c_char, payload_handling: grpc_server_register_method_payload_handling, flags: u32, ) -> *mut ::std::os::raw::c_void; } extern "C" { #[doc = " Request notification of a new pre-registered call. 'cq_for_notification'"] #[doc = "must have been registered to the server via"] #[doc = "grpc_server_register_completion_queue."] pub fn grpc_server_request_registered_call( server: *mut grpc_server, registered_method: *mut ::std::os::raw::c_void, call: *mut *mut grpc_call, deadline: *mut gpr_timespec, request_metadata: *mut grpc_metadata_array, optional_payload: *mut *mut grpc_byte_buffer, cq_bound_to_call: *mut grpc_completion_queue, cq_for_notification: *mut grpc_completion_queue, tag_new: *mut ::std::os::raw::c_void, ) -> grpc_call_error; } extern "C" { #[doc = " Create a server. Additional configuration for each incoming channel can"] #[doc = "be specified with args. If no additional configuration is needed, args can"] #[doc = "be NULL. The user data in 'args' need only live through the invocation of"] #[doc = "this function. However, if any args of the 'pointer' type are passed, then"] #[doc = "the referenced vtable must be maintained by the caller until"] #[doc = "grpc_server_destroy terminates. See grpc_channel_args definition for more"] #[doc = "on this."] pub fn grpc_server_create( args: *const grpc_channel_args, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_server; } extern "C" { #[doc = " Register a completion queue with the server. Must be done for any"] #[doc = "notification completion queue that is passed to grpc_server_request_*_call"] #[doc = "and to grpc_server_shutdown_and_notify. Must be performed prior to"] #[doc = "grpc_server_start."] pub fn grpc_server_register_completion_queue( server: *mut grpc_server, cq: *mut grpc_completion_queue, reserved: *mut ::std::os::raw::c_void, ); } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_server_config_fetcher { _unused: [u8; 0], } extern "C" { #[doc = " EXPERIMENTAL. Creates an xDS config fetcher."] pub fn grpc_server_config_fetcher_xds_create() -> *mut grpc_server_config_fetcher; } extern "C" { #[doc = " EXPERIMENTAL. Destroys a config fetcher."] pub fn grpc_server_config_fetcher_destroy(config_fetcher: *mut grpc_server_config_fetcher); } extern "C" { #[doc = " EXPERIMENTAL. Sets the server's config fetcher. Takes ownership."] #[doc = "Must be called before adding ports"] pub fn grpc_server_set_config_fetcher( server: *mut grpc_server, config_fetcher: *mut grpc_server_config_fetcher, ); } extern "C" { #[doc = " Add a HTTP2 over plaintext over tcp listener."] #[doc = "Returns bound port number on success, 0 on failure."] #[doc = "REQUIRES: server not started"] pub fn grpc_server_add_insecure_http2_port( server: *mut grpc_server, addr: *const ::std::os::raw::c_char, ) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Start a server - tells all listeners to start listening"] pub fn grpc_server_start(server: *mut grpc_server); } extern "C" { #[doc = " Begin shutting down a server."] #[doc = "After completion, no new calls or connections will be admitted."] #[doc = "Existing calls will be allowed to complete."] #[doc = "Send a GRPC_OP_COMPLETE event when there are no more calls being serviced."] #[doc = "Shutdown is idempotent, and all tags will be notified at once if multiple"] #[doc = "grpc_server_shutdown_and_notify calls are made. 'cq' must have been"] #[doc = "registered to this server via grpc_server_register_completion_queue."] pub fn grpc_server_shutdown_and_notify( server: *mut grpc_server, cq: *mut grpc_completion_queue, tag: *mut ::std::os::raw::c_void, ); } extern "C" { #[doc = " Cancel all in-progress calls."] #[doc = "Only usable after shutdown."] pub fn grpc_server_cancel_all_calls(server: *mut grpc_server); } extern "C" { #[doc = " Destroy a server."] #[doc = "Shutdown must have completed beforehand (i.e. all tags generated by"] #[doc = "grpc_server_shutdown_and_notify must have been received, and at least"] #[doc = "one call to grpc_server_shutdown_and_notify must have been made)."] pub fn grpc_server_destroy(server: *mut grpc_server); } extern "C" { #[doc = " Enable or disable a tracer."] #[doc = ""] #[doc = "Tracers (usually controlled by the environment variable GRPC_TRACE)"] #[doc = "allow printf-style debugging on GRPC internals, and are useful for"] #[doc = "tracking down problems in the field."] #[doc = ""] #[doc = "Use of this function is not strictly thread-safe, but the"] #[doc = "thread-safety issues raised by it should not be of concern."] pub fn grpc_tracer_set_enabled( name: *const ::std::os::raw::c_char, enabled: ::std::os::raw::c_int, ) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Check whether a metadata key is legal (will be accepted by core)"] pub fn grpc_header_key_is_legal(slice: grpc_slice) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Check whether a non-binary metadata value is legal (will be accepted by"] #[doc = "core)"] pub fn grpc_header_nonbin_value_is_legal(slice: grpc_slice) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Check whether a metadata key corresponds to a binary value"] pub fn grpc_is_binary_header(slice: grpc_slice) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Convert grpc_call_error values to a string"] pub fn grpc_call_error_to_string(error: grpc_call_error) -> *const ::std::os::raw::c_char; } extern "C" { #[doc = " Create a buffer pool"] pub fn grpc_resource_quota_create( trace_name: *const ::std::os::raw::c_char, ) -> *mut grpc_resource_quota; } extern "C" { #[doc = " Add a reference to a buffer pool"] pub fn grpc_resource_quota_ref(resource_quota: *mut grpc_resource_quota); } extern "C" { #[doc = " Drop a reference to a buffer pool"] pub fn grpc_resource_quota_unref(resource_quota: *mut grpc_resource_quota); } extern "C" { #[doc = " Update the size of a buffer pool"] pub fn grpc_resource_quota_resize(resource_quota: *mut grpc_resource_quota, new_size: usize); } extern "C" { #[doc = " Update the size of the maximum number of threads allowed"] pub fn grpc_resource_quota_set_max_threads( resource_quota: *mut grpc_resource_quota, new_max_threads: ::std::os::raw::c_int, ); } extern "C" { #[doc = " Fetch a vtable for a grpc_channel_arg that points to a grpc_resource_quota"] pub fn grpc_resource_quota_arg_vtable() -> *const grpc_arg_pointer_vtable; } extern "C" { #[doc = " CHANNELZ API *************/"] #[doc = "churn as the feature is implemented. This comment will be removed once"] #[doc = "channelz is officially supported, and these APIs become stable. For now"] #[doc = "you may track the progress by following this github issue:"] #[doc = "https://github.com/grpc/grpc/issues/15340"] #[doc = ""] #[doc = "the following APIs return allocated JSON strings that match the response"] #[doc = "objects from the channelz proto, found here:"] #[doc = "https://github.com/grpc/grpc/blob/master/src/proto/grpc/channelz/channelz.proto."] #[doc = ""] #[doc = "For easy conversion to protobuf, The JSON is formatted according to:"] #[doc = "https://developers.google.com/protocol-buffers/docs/proto3#json."] pub fn grpc_channelz_get_top_channels(start_channel_id: isize) -> *mut ::std::os::raw::c_char; } extern "C" { pub fn grpc_channelz_get_servers(start_server_id: isize) -> *mut ::std::os::raw::c_char; } extern "C" { pub fn grpc_channelz_get_server(server_id: isize) -> *mut ::std::os::raw::c_char; } extern "C" { pub fn grpc_channelz_get_server_sockets( server_id: isize, start_socket_id: isize, max_results: isize, ) -> *mut ::std::os::raw::c_char; } extern "C" { pub fn grpc_channelz_get_channel(channel_id: isize) -> *mut ::std::os::raw::c_char; } extern "C" { pub fn grpc_channelz_get_subchannel(subchannel_id: isize) -> *mut ::std::os::raw::c_char; } extern "C" { pub fn grpc_channelz_get_socket(socket_id: isize) -> *mut ::std::os::raw::c_char; } extern "C" { pub fn grpc_cronet_secure_channel_create( engine: *mut ::std::os::raw::c_void, target: *const ::std::os::raw::c_char, args: *const grpc_channel_args, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_channel; } extern "C" { #[doc = " Create a client channel to 'target' using file descriptor 'fd'. The 'target'"] #[doc = "argument will be used to indicate the name for this channel. See the comment"] #[doc = "for grpc_insecure_channel_create for description of 'args' argument."] pub fn grpc_insecure_channel_create_from_fd( target: *const ::std::os::raw::c_char, fd: ::std::os::raw::c_int, args: *const grpc_channel_args, ) -> *mut grpc_channel; } extern "C" { #[doc = " Add the connected communication channel based on file descriptor 'fd' to the"] #[doc = "'server'. The 'fd' must be an open file descriptor corresponding to a"] #[doc = "connected socket. Events from the file descriptor may come on any of the"] #[doc = "server completion queues (i.e completion queues registered via the"] #[doc = "grpc_server_register_completion_queue API)."] #[doc = ""] #[doc = "The 'reserved' pointer MUST be NULL."] pub fn grpc_server_add_insecure_channel_from_fd( server: *mut grpc_server, reserved: *mut ::std::os::raw::c_void, fd: ::std::os::raw::c_int, ); } #[repr(u32)] #[doc = " Results for the SSL roots override callback."] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum grpc_ssl_roots_override_result { GRPC_SSL_ROOTS_OVERRIDE_OK = 0, GRPC_SSL_ROOTS_OVERRIDE_FAIL_PERMANENTLY = 1, #[doc = " Do not try fallback options."] GRPC_SSL_ROOTS_OVERRIDE_FAIL = 2, } #[repr(u32)] #[doc = " Callback results for dynamically loading a SSL certificate config."] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum grpc_ssl_certificate_config_reload_status { GRPC_SSL_CERTIFICATE_CONFIG_RELOAD_UNCHANGED = 0, GRPC_SSL_CERTIFICATE_CONFIG_RELOAD_NEW = 1, GRPC_SSL_CERTIFICATE_CONFIG_RELOAD_FAIL = 2, } #[repr(u32)] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum grpc_ssl_client_certificate_request_type { #[doc = " Server does not request client certificate."] #[doc = "The certificate presented by the client is not checked by the server at"] #[doc = "all. (A client may present a self signed or signed certificate or not"] #[doc = "present a certificate at all and any of those option would be accepted)"] GRPC_SSL_DONT_REQUEST_CLIENT_CERTIFICATE = 0, #[doc = " Server requests client certificate but does not enforce that the client"] #[doc = "presents a certificate."] #[doc = ""] #[doc = "If the client presents a certificate, the client authentication is left to"] #[doc = "the application (the necessary metadata will be available to the"] #[doc = "application via authentication context properties, see grpc_auth_context)."] #[doc = ""] #[doc = "The client's key certificate pair must be valid for the SSL connection to"] #[doc = "be established."] GRPC_SSL_REQUEST_CLIENT_CERTIFICATE_BUT_DONT_VERIFY = 1, #[doc = " Server requests client certificate but does not enforce that the client"] #[doc = "presents a certificate."] #[doc = ""] #[doc = "If the client presents a certificate, the client authentication is done by"] #[doc = "the gRPC framework. (For a successful connection the client needs to either"] #[doc = "present a certificate that can be verified against the root certificate"] #[doc = "configured by the server or not present a certificate at all)"] #[doc = ""] #[doc = "The client's key certificate pair must be valid for the SSL connection to"] #[doc = "be established."] GRPC_SSL_REQUEST_CLIENT_CERTIFICATE_AND_VERIFY = 2, #[doc = " Server requests client certificate and enforces that the client presents a"] #[doc = "certificate."] #[doc = ""] #[doc = "If the client presents a certificate, the client authentication is left to"] #[doc = "the application (the necessary metadata will be available to the"] #[doc = "application via authentication context properties, see grpc_auth_context)."] #[doc = ""] #[doc = "The client's key certificate pair must be valid for the SSL connection to"] #[doc = "be established."] GRPC_SSL_REQUEST_AND_REQUIRE_CLIENT_CERTIFICATE_BUT_DONT_VERIFY = 3, #[doc = " Server requests client certificate and enforces that the client presents a"] #[doc = "certificate."] #[doc = ""] #[doc = "The certificate presented by the client is verified by the gRPC framework."] #[doc = "(For a successful connection the client needs to present a certificate that"] #[doc = "can be verified against the root certificate configured by the server)"] #[doc = ""] #[doc = "The client's key certificate pair must be valid for the SSL connection to"] #[doc = "be established."] GRPC_SSL_REQUEST_AND_REQUIRE_CLIENT_CERTIFICATE_AND_VERIFY = 4, } impl grpc_security_level { pub const GRPC_SECURITY_NONE: grpc_security_level = grpc_security_level::GRPC_SECURITY_MIN; } impl grpc_security_level { pub const GRPC_SECURITY_MAX: grpc_security_level = grpc_security_level::GRPC_PRIVACY_AND_INTEGRITY; } #[repr(u32)] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum grpc_security_level { GRPC_SECURITY_MIN = 0, GRPC_INTEGRITY_ONLY = 1, GRPC_PRIVACY_AND_INTEGRITY = 2, } #[repr(u32)] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum grpc_tls_server_verification_option { #[doc = " Default option: performs server certificate verification and hostname"] #[doc = "verification."] GRPC_TLS_SERVER_VERIFICATION = 0, #[doc = " Performs server certificate verification, but skips hostname verification"] #[doc = "Client is responsible for verifying server's identity via"] #[doc = "server authorization check callback."] GRPC_TLS_SKIP_HOSTNAME_VERIFICATION = 1, #[doc = " Skips both server certificate and hostname verification."] #[doc = "Client is responsible for verifying server's identity and"] #[doc = "server's certificate via server authorization check callback."] GRPC_TLS_SKIP_ALL_SERVER_VERIFICATION = 2, } #[repr(u32)] #[doc = " Type of local connections for which local channel/server credentials will be"] #[doc = " applied. It supports UDS and local TCP connections."] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum grpc_local_connect_type { UDS = 0, LOCAL_TCP = 1, } #[repr(u32)] #[doc = " The TLS versions that are supported by the SSL stack."] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum grpc_tls_version { TLS1_2 = 0, TLS1_3 = 1, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_auth_context { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_auth_property_iterator { pub ctx: *const grpc_auth_context, pub index: usize, pub name: *const ::std::os::raw::c_char, } #[doc = " value, if not NULL, is guaranteed to be NULL terminated."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_auth_property { pub name: *mut ::std::os::raw::c_char, pub value: *mut ::std::os::raw::c_char, pub value_length: usize, } extern "C" { #[doc = " Returns NULL when the iterator is at the end."] pub fn grpc_auth_property_iterator_next( it: *mut grpc_auth_property_iterator, ) -> *const grpc_auth_property; } extern "C" { #[doc = " Iterates over the auth context."] pub fn grpc_auth_context_property_iterator( ctx: *const grpc_auth_context, ) -> grpc_auth_property_iterator; } extern "C" { #[doc = " Gets the peer identity. Returns an empty iterator (first _next will return"] #[doc = "NULL) if the peer is not authenticated."] pub fn grpc_auth_context_peer_identity( ctx: *const grpc_auth_context, ) -> grpc_auth_property_iterator; } extern "C" { #[doc = " Finds a property in the context. May return an empty iterator (first _next"] #[doc = "will return NULL) if no property with this name was found in the context."] pub fn grpc_auth_context_find_properties_by_name( ctx: *const grpc_auth_context, name: *const ::std::os::raw::c_char, ) -> grpc_auth_property_iterator; } extern "C" { #[doc = " Gets the name of the property that indicates the peer identity. Will return"] #[doc = "NULL if the peer is not authenticated."] pub fn grpc_auth_context_peer_identity_property_name( ctx: *const grpc_auth_context, ) -> *const ::std::os::raw::c_char; } extern "C" { #[doc = " Returns 1 if the peer is authenticated, 0 otherwise."] pub fn grpc_auth_context_peer_is_authenticated( ctx: *const grpc_auth_context, ) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Gets the auth context from the call. Caller needs to call"] #[doc = "grpc_auth_context_release on the returned context."] pub fn grpc_call_auth_context(call: *mut grpc_call) -> *mut grpc_auth_context; } extern "C" { #[doc = " Releases the auth context returned from grpc_call_auth_context."] pub fn grpc_auth_context_release(context: *mut grpc_auth_context); } extern "C" { #[doc = " Add a property."] pub fn grpc_auth_context_add_property( ctx: *mut grpc_auth_context, name: *const ::std::os::raw::c_char, value: *const ::std::os::raw::c_char, value_length: usize, ); } extern "C" { #[doc = " Add a C string property."] pub fn grpc_auth_context_add_cstring_property( ctx: *mut grpc_auth_context, name: *const ::std::os::raw::c_char, value: *const ::std::os::raw::c_char, ); } extern "C" { #[doc = " Sets the property name. Returns 1 if successful or 0 in case of failure"] #[doc = "(which means that no property with this name exists)."] pub fn grpc_auth_context_set_peer_identity_property_name( ctx: *mut grpc_auth_context, name: *const ::std::os::raw::c_char, ) -> ::std::os::raw::c_int; } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_ssl_session_cache { _unused: [u8; 0], } extern "C" { #[doc = " Create LRU cache for client-side SSL sessions with the given capacity."] #[doc = "If capacity is < 1, a default capacity is used instead."] pub fn grpc_ssl_session_cache_create_lru(capacity: usize) -> *mut grpc_ssl_session_cache; } extern "C" { #[doc = " Destroy SSL session cache."] pub fn grpc_ssl_session_cache_destroy(cache: *mut grpc_ssl_session_cache); } extern "C" { #[doc = " Create a channel arg with the given cache object."] pub fn grpc_ssl_session_cache_create_channel_arg( cache: *mut grpc_ssl_session_cache, ) -> grpc_arg; } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_call_credentials { _unused: [u8; 0], } extern "C" { #[doc = " Releases a call credentials object."] #[doc = "The creator of the credentials object is responsible for its release."] pub fn grpc_call_credentials_release(creds: *mut grpc_call_credentials); } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_channel_credentials { _unused: [u8; 0], } extern "C" { #[doc = " Releases a channel credentials object."] #[doc = "The creator of the credentials object is responsible for its release."] pub fn grpc_channel_credentials_release(creds: *mut grpc_channel_credentials); } extern "C" { #[doc = " Creates default credentials to connect to a google gRPC service."] #[doc = "WARNING: Do NOT use this credentials to connect to a non-google service as"] #[doc = "this could result in an oauth2 token leak. The security level of the"] #[doc = "resulting connection is GRPC_PRIVACY_AND_INTEGRITY."] #[doc = ""] #[doc = "If specified, the supplied call credentials object will be attached to the"] #[doc = "returned channel credentials object. The call_credentials object must remain"] #[doc = "valid throughout the lifetime of the returned grpc_channel_credentials"] #[doc = "object. It is expected that the call credentials object was generated"] #[doc = "according to the Application Default Credentials mechanism and asserts the"] #[doc = "identity of the default service account of the machine. Supplying any other"] #[doc = "sort of call credential will result in undefined behavior, up to and"] #[doc = "including the sudden and unexpected failure of RPCs."] #[doc = ""] #[doc = "If nullptr is supplied, the returned channel credentials object will use a"] #[doc = "call credentials object based on the Application Default Credentials"] #[doc = "mechanism."] pub fn grpc_google_default_credentials_create( call_credentials: *mut grpc_call_credentials, ) -> *mut grpc_channel_credentials; } #[doc = " Callback for getting the SSL roots override from the application."] #[doc = "In case of success, *pem_roots_certs must be set to a NULL terminated string"] #[doc = "containing the list of PEM encoded root certificates. The ownership is passed"] #[doc = "to the core and freed (laster by the core) with gpr_free."] #[doc = "If this function fails and GRPC_DEFAULT_SSL_ROOTS_FILE_PATH environment is"] #[doc = "set to a valid path, it will override the roots specified this func"] pub type grpc_ssl_roots_override_callback = ::std::option::Option< unsafe extern "C" fn( pem_root_certs: *mut *mut ::std::os::raw::c_char, ) -> grpc_ssl_roots_override_result, >; extern "C" { #[doc = " Setup a callback to override the default TLS/SSL roots."] #[doc = "This function is not thread-safe and must be called at initialization time"] #[doc = "before any ssl credentials are created to have the desired side effect."] #[doc = "If GRPC_DEFAULT_SSL_ROOTS_FILE_PATH environment is set to a valid path, the"] #[doc = "callback will not be called."] pub fn grpc_set_ssl_roots_override_callback(cb: grpc_ssl_roots_override_callback); } #[doc = " Object that holds a private key / certificate chain pair in PEM format."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_ssl_pem_key_cert_pair { #[doc = " private_key is the NULL-terminated string containing the PEM encoding of"] #[doc = "the client's private key."] pub private_key: *const ::std::os::raw::c_char, #[doc = " cert_chain is the NULL-terminated string containing the PEM encoding of"] #[doc = "the client's certificate chain."] pub cert_chain: *const ::std::os::raw::c_char, } #[doc = " Deprecated in favor of grpc_ssl_verify_peer_options. It will be removed"] #[doc = "after all of its call sites are migrated to grpc_ssl_verify_peer_options."] #[doc = "Object that holds additional peer-verification options on a secure"] #[doc = "channel."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct verify_peer_options { #[doc = " If non-NULL this callback will be invoked with the expected"] #[doc = "target_name, the peer's certificate (in PEM format), and whatever"] #[doc = "userdata pointer is set below. If a non-zero value is returned by this"] #[doc = "callback then it is treated as a verification failure. Invocation of"] #[doc = "the callback is blocking, so any implementation should be light-weight."] pub verify_peer_callback: ::std::option::Option< unsafe extern "C" fn( target_name: *const ::std::os::raw::c_char, peer_pem: *const ::std::os::raw::c_char, userdata: *mut ::std::os::raw::c_void, ) -> ::std::os::raw::c_int, >, #[doc = " Arbitrary userdata that will be passed as the last argument to"] #[doc = "verify_peer_callback."] pub verify_peer_callback_userdata: *mut ::std::os::raw::c_void, #[doc = " A destruct callback that will be invoked when the channel is being"] #[doc = "cleaned up. The userdata argument will be passed to it. The intent is"] #[doc = "to perform any cleanup associated with that userdata."] pub verify_peer_destruct: ::std::option::Option, } #[doc = " Object that holds additional peer-verification options on a secure"] #[doc = "channel."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_ssl_verify_peer_options { #[doc = " If non-NULL this callback will be invoked with the expected"] #[doc = "target_name, the peer's certificate (in PEM format), and whatever"] #[doc = "userdata pointer is set below. If a non-zero value is returned by this"] #[doc = "callback then it is treated as a verification failure. Invocation of"] #[doc = "the callback is blocking, so any implementation should be light-weight."] pub verify_peer_callback: ::std::option::Option< unsafe extern "C" fn( target_name: *const ::std::os::raw::c_char, peer_pem: *const ::std::os::raw::c_char, userdata: *mut ::std::os::raw::c_void, ) -> ::std::os::raw::c_int, >, #[doc = " Arbitrary userdata that will be passed as the last argument to"] #[doc = "verify_peer_callback."] pub verify_peer_callback_userdata: *mut ::std::os::raw::c_void, #[doc = " A destruct callback that will be invoked when the channel is being"] #[doc = "cleaned up. The userdata argument will be passed to it. The intent is"] #[doc = "to perform any cleanup associated with that userdata."] pub verify_peer_destruct: ::std::option::Option, } extern "C" { #[doc = " Deprecated in favor of grpc_ssl_server_credentials_create_ex. It will be"] #[doc = "removed after all of its call sites are migrated to"] #[doc = "grpc_ssl_server_credentials_create_ex. Creates an SSL credentials object."] #[doc = "The security level of the resulting connection is GRPC_PRIVACY_AND_INTEGRITY."] #[doc = "- pem_root_certs is the NULL-terminated string containing the PEM encoding"] #[doc = "of the server root certificates. If this parameter is NULL, the"] #[doc = "implementation will first try to dereference the file pointed by the"] #[doc = "GRPC_DEFAULT_SSL_ROOTS_FILE_PATH environment variable, and if that fails,"] #[doc = "try to get the roots set by grpc_override_ssl_default_roots. Eventually,"] #[doc = "if all these fail, it will try to get the roots from a well-known place on"] #[doc = "disk (in the grpc install directory)."] #[doc = ""] #[doc = "gRPC has implemented root cache if the underlying OpenSSL library supports"] #[doc = "it. The gRPC root certificates cache is only applicable on the default"] #[doc = "root certificates, which is used when this parameter is nullptr. If user"] #[doc = "provides their own pem_root_certs, when creating an SSL credential object,"] #[doc = "gRPC would not be able to cache it, and each subchannel will generate a"] #[doc = "copy of the root store. So it is recommended to avoid providing large room"] #[doc = "pem with pem_root_certs parameter to avoid excessive memory consumption,"] #[doc = "particularly on mobile platforms such as iOS."] #[doc = "- pem_key_cert_pair is a pointer on the object containing client's private"] #[doc = "key and certificate chain. This parameter can be NULL if the client does"] #[doc = "not have such a key/cert pair."] #[doc = "- verify_options is an optional verify_peer_options object which holds"] #[doc = "additional options controlling how peer certificates are verified. For"] #[doc = "example, you can supply a callback which receives the peer's certificate"] #[doc = "with which you can do additional verification. Can be NULL, in which"] #[doc = "case verification will retain default behavior. Any settings in"] #[doc = "verify_options are copied during this call, so the verify_options"] #[doc = "object can be released afterwards."] pub fn grpc_ssl_credentials_create( pem_root_certs: *const ::std::os::raw::c_char, pem_key_cert_pair: *mut grpc_ssl_pem_key_cert_pair, verify_options: *const verify_peer_options, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_channel_credentials; } extern "C" { pub fn grpc_ssl_credentials_create_ex( pem_root_certs: *const ::std::os::raw::c_char, pem_key_cert_pair: *mut grpc_ssl_pem_key_cert_pair, verify_options: *const grpc_ssl_verify_peer_options, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_channel_credentials; } extern "C" { #[doc = " Creates a composite channel credentials object. The security level of"] #[doc = " resulting connection is determined by channel_creds."] pub fn grpc_composite_channel_credentials_create( channel_creds: *mut grpc_channel_credentials, call_creds: *mut grpc_call_credentials, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_channel_credentials; } extern "C" { #[doc = " Creates a composite call credentials object."] pub fn grpc_composite_call_credentials_create( creds1: *mut grpc_call_credentials, creds2: *mut grpc_call_credentials, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_call_credentials; } extern "C" { #[doc = " Creates a compute engine credentials object for connecting to Google."] #[doc = "WARNING: Do NOT use this credentials to connect to a non-google service as"] #[doc = "this could result in an oauth2 token leak."] pub fn grpc_google_compute_engine_credentials_create( reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_call_credentials; } extern "C" { pub fn grpc_max_auth_token_lifetime() -> gpr_timespec; } extern "C" { #[doc = " Creates a JWT credentials object. May return NULL if the input is invalid."] #[doc = "- json_key is the JSON key string containing the client's private key."] #[doc = "- token_lifetime is the lifetime of each Json Web Token (JWT) created with"] #[doc = "this credentials. It should not exceed grpc_max_auth_token_lifetime or"] #[doc = "will be cropped to this value."] pub fn grpc_service_account_jwt_access_credentials_create( json_key: *const ::std::os::raw::c_char, token_lifetime: gpr_timespec, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_call_credentials; } extern "C" { #[doc = " Builds External Account credentials."] #[doc = "- json_string is the JSON string containing the credentials options."] #[doc = "- scopes_string contains the scopes to be binded with the credentials."] #[doc = "This API is used for experimental purposes for now and may change in the"] #[doc = "future."] pub fn grpc_external_account_credentials_create( json_string: *const ::std::os::raw::c_char, scopes_string: *const ::std::os::raw::c_char, ) -> *mut grpc_call_credentials; } extern "C" { #[doc = " Creates an Oauth2 Refresh Token credentials object for connecting to Google."] #[doc = "May return NULL if the input is invalid."] #[doc = "WARNING: Do NOT use this credentials to connect to a non-google service as"] #[doc = "this could result in an oauth2 token leak."] #[doc = "- json_refresh_token is the JSON string containing the refresh token itself"] #[doc = "along with a client_id and client_secret."] pub fn grpc_google_refresh_token_credentials_create( json_refresh_token: *const ::std::os::raw::c_char, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_call_credentials; } extern "C" { #[doc = " Creates an Oauth2 Access Token credentials with an access token that was"] #[doc = "acquired by an out of band mechanism."] pub fn grpc_access_token_credentials_create( access_token: *const ::std::os::raw::c_char, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_call_credentials; } extern "C" { #[doc = " Creates an IAM credentials object for connecting to Google."] pub fn grpc_google_iam_credentials_create( authorization_token: *const ::std::os::raw::c_char, authority_selector: *const ::std::os::raw::c_char, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_call_credentials; } #[doc = " Options for creating STS Oauth Token Exchange credentials following the IETF"] #[doc = "draft https://tools.ietf.org/html/draft-ietf-oauth-token-exchange-16."] #[doc = "Optional fields may be set to NULL or empty string. It is the responsibility"] #[doc = "of the caller to ensure that the subject and actor tokens are refreshed on"] #[doc = "disk at the specified paths. This API is used for experimental purposes for"] #[doc = "now and may change in the future."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_sts_credentials_options { pub token_exchange_service_uri: *const ::std::os::raw::c_char, pub resource: *const ::std::os::raw::c_char, pub audience: *const ::std::os::raw::c_char, pub scope: *const ::std::os::raw::c_char, pub requested_token_type: *const ::std::os::raw::c_char, pub subject_token_path: *const ::std::os::raw::c_char, pub subject_token_type: *const ::std::os::raw::c_char, pub actor_token_path: *const ::std::os::raw::c_char, pub actor_token_type: *const ::std::os::raw::c_char, } extern "C" { #[doc = " Creates an STS credentials following the STS Token Exchanged specifed in the"] #[doc = "IETF draft https://tools.ietf.org/html/draft-ietf-oauth-token-exchange-16."] #[doc = "This API is used for experimental purposes for now and may change in the"] #[doc = "future."] pub fn grpc_sts_credentials_create( options: *const grpc_sts_credentials_options, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_call_credentials; } #[doc = " Callback function to be called by the metadata credentials plugin"] #[doc = "implementation when the metadata is ready."] #[doc = "- user_data is the opaque pointer that was passed in the get_metadata method"] #[doc = "of the grpc_metadata_credentials_plugin (see below)."] #[doc = "- creds_md is an array of credentials metadata produced by the plugin. It"] #[doc = "may be set to NULL in case of an error."] #[doc = "- num_creds_md is the number of items in the creds_md array."] #[doc = "- status must be GRPC_STATUS_OK in case of success or another specific error"] #[doc = "code otherwise."] #[doc = "- error_details contains details about the error if any. In case of success"] #[doc = "it should be NULL and will be otherwise ignored."] pub type grpc_credentials_plugin_metadata_cb = ::std::option::Option< unsafe extern "C" fn( user_data: *mut ::std::os::raw::c_void, creds_md: *const grpc_metadata, num_creds_md: usize, status: grpc_status_code::Type, error_details: *const ::std::os::raw::c_char, ), >; #[doc = " Context that can be used by metadata credentials plugin in order to create"] #[doc = "auth related metadata."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_auth_metadata_context { #[doc = " The fully qualifed service url."] pub service_url: *const ::std::os::raw::c_char, #[doc = " The method name of the RPC being called (not fully qualified)."] #[doc = "The fully qualified method name can be built from the service_url:"] #[doc = "full_qualified_method_name = ctx->service_url + '/' + ctx->method_name."] pub method_name: *const ::std::os::raw::c_char, #[doc = " The auth_context of the channel which gives the server's identity."] pub channel_auth_context: *const grpc_auth_context, #[doc = " Reserved for future use."] pub reserved: *mut ::std::os::raw::c_void, } extern "C" { #[doc = " Performs a deep copy from \\a from to \\a to."] pub fn grpc_auth_metadata_context_copy( from: *mut grpc_auth_metadata_context, to: *mut grpc_auth_metadata_context, ); } extern "C" { #[doc = " Releases internal resources held by \\a context."] pub fn grpc_auth_metadata_context_reset(context: *mut grpc_auth_metadata_context); } #[doc = " grpc_metadata_credentials plugin is an API user provided structure used to"] #[doc = "create grpc_credentials objects that can be set on a channel (composed) or"] #[doc = "a call. See grpc_credentials_metadata_create_from_plugin below."] #[doc = "The grpc client stack will call the get_metadata method of the plugin for"] #[doc = "every call in scope for the credentials created from it."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_metadata_credentials_plugin { #[doc = " The implementation of this method has to be non-blocking, but can"] #[doc = "be performed synchronously or asynchronously."] #[doc = ""] #[doc = "If processing occurs synchronously, returns non-zero and populates"] #[doc = "creds_md, num_creds_md, status, and error_details. In this case,"] #[doc = "the caller takes ownership of the entries in creds_md and of"] #[doc = "error_details. Note that if the plugin needs to return more than"] #[doc = "GRPC_METADATA_CREDENTIALS_PLUGIN_SYNC_MAX entries in creds_md, it must"] #[doc = "return asynchronously."] #[doc = ""] #[doc = "If processing occurs asynchronously, returns zero and invokes \\a cb"] #[doc = "when processing is completed. \\a user_data will be passed as the"] #[doc = "first parameter of the callback. NOTE: \\a cb MUST be invoked in a"] #[doc = "different thread, not from the thread in which \\a get_metadata() is"] #[doc = "invoked."] #[doc = ""] #[doc = "\\a context is the information that can be used by the plugin to create"] #[doc = "auth metadata."] pub get_metadata: ::std::option::Option< unsafe extern "C" fn( state: *mut ::std::os::raw::c_void, context: grpc_auth_metadata_context, cb: grpc_credentials_plugin_metadata_cb, user_data: *mut ::std::os::raw::c_void, creds_md: *mut grpc_metadata, num_creds_md: *mut usize, status: *mut grpc_status_code::Type, error_details: *mut *const ::std::os::raw::c_char, ) -> ::std::os::raw::c_int, >, #[doc = " Implements debug string of the given plugin. This method returns an"] #[doc = " allocated string that the caller needs to free using gpr_free()"] pub debug_string: ::std::option::Option< unsafe extern "C" fn(state: *mut ::std::os::raw::c_void) -> *mut ::std::os::raw::c_char, >, #[doc = " Destroys the plugin state."] pub destroy: ::std::option::Option, #[doc = " State that will be set as the first parameter of the methods above."] pub state: *mut ::std::os::raw::c_void, #[doc = " Type of credentials that this plugin is implementing."] pub type_: *const ::std::os::raw::c_char, } extern "C" { #[doc = " Creates a credentials object from a plugin with a specified minimum security"] #[doc = " level."] pub fn grpc_metadata_credentials_create_from_plugin( plugin: grpc_metadata_credentials_plugin, min_security_level: grpc_security_level, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_call_credentials; } extern "C" { #[doc = " Creates a secure channel using the passed-in credentials. Additional"] #[doc = "channel level configuration MAY be provided by grpc_channel_args, though"] #[doc = "the expectation is that most clients will want to simply pass NULL. The"] #[doc = "user data in 'args' need only live through the invocation of this function."] #[doc = "However, if any args of the 'pointer' type are passed, then the referenced"] #[doc = "vtable must be maintained by the caller until grpc_channel_destroy"] #[doc = "terminates. See grpc_channel_args definition for more on this."] pub fn grpc_secure_channel_create( creds: *mut grpc_channel_credentials, target: *const ::std::os::raw::c_char, args: *const grpc_channel_args, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_channel; } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_server_credentials { _unused: [u8; 0], } extern "C" { #[doc = " Releases a server_credentials object."] #[doc = "The creator of the server_credentials object is responsible for its release."] pub fn grpc_server_credentials_release(creds: *mut grpc_server_credentials); } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_ssl_server_certificate_config { _unused: [u8; 0], } extern "C" { #[doc = " Creates a grpc_ssl_server_certificate_config object."] #[doc = "- pem_roots_cert is the NULL-terminated string containing the PEM encoding of"] #[doc = "the client root certificates. This parameter may be NULL if the server does"] #[doc = "not want the client to be authenticated with SSL."] #[doc = "- pem_key_cert_pairs is an array private key / certificate chains of the"] #[doc = "server. This parameter cannot be NULL."] #[doc = "- num_key_cert_pairs indicates the number of items in the private_key_files"] #[doc = "and cert_chain_files parameters. It must be at least 1."] #[doc = "- It is the caller's responsibility to free this object via"] #[doc = "grpc_ssl_server_certificate_config_destroy()."] pub fn grpc_ssl_server_certificate_config_create( pem_root_certs: *const ::std::os::raw::c_char, pem_key_cert_pairs: *const grpc_ssl_pem_key_cert_pair, num_key_cert_pairs: usize, ) -> *mut grpc_ssl_server_certificate_config; } extern "C" { #[doc = " Destroys a grpc_ssl_server_certificate_config object."] pub fn grpc_ssl_server_certificate_config_destroy( config: *mut grpc_ssl_server_certificate_config, ); } #[doc = " Callback to retrieve updated SSL server certificates, private keys, and"] #[doc = "trusted CAs (for client authentication)."] #[doc = "- user_data parameter, if not NULL, contains opaque data to be used by the"] #[doc = "callback."] #[doc = "- Use grpc_ssl_server_certificate_config_create to create the config."] #[doc = "- The caller assumes ownership of the config."] pub type grpc_ssl_server_certificate_config_callback = ::std::option::Option< unsafe extern "C" fn( user_data: *mut ::std::os::raw::c_void, config: *mut *mut grpc_ssl_server_certificate_config, ) -> grpc_ssl_certificate_config_reload_status, >; extern "C" { #[doc = " Deprecated in favor of grpc_ssl_server_credentials_create_ex."] #[doc = "Creates an SSL server_credentials object."] #[doc = "- pem_roots_cert is the NULL-terminated string containing the PEM encoding of"] #[doc = "the client root certificates. This parameter may be NULL if the server does"] #[doc = "not want the client to be authenticated with SSL."] #[doc = "- pem_key_cert_pairs is an array private key / certificate chains of the"] #[doc = "server. This parameter cannot be NULL."] #[doc = "- num_key_cert_pairs indicates the number of items in the private_key_files"] #[doc = "and cert_chain_files parameters. It should be at least 1."] #[doc = "- force_client_auth, if set to non-zero will force the client to authenticate"] #[doc = "with an SSL cert. Note that this option is ignored if pem_root_certs is"] #[doc = "NULL."] pub fn grpc_ssl_server_credentials_create( pem_root_certs: *const ::std::os::raw::c_char, pem_key_cert_pairs: *mut grpc_ssl_pem_key_cert_pair, num_key_cert_pairs: usize, force_client_auth: ::std::os::raw::c_int, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_server_credentials; } extern "C" { #[doc = " Deprecated in favor of grpc_ssl_server_credentials_create_with_options."] #[doc = "Same as grpc_ssl_server_credentials_create method except uses"] #[doc = "grpc_ssl_client_certificate_request_type enum to support more ways to"] #[doc = "authenticate client certificates."] pub fn grpc_ssl_server_credentials_create_ex( pem_root_certs: *const ::std::os::raw::c_char, pem_key_cert_pairs: *mut grpc_ssl_pem_key_cert_pair, num_key_cert_pairs: usize, client_certificate_request: grpc_ssl_client_certificate_request_type, reserved: *mut ::std::os::raw::c_void, ) -> *mut grpc_server_credentials; } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_ssl_server_credentials_options { _unused: [u8; 0], } extern "C" { #[doc = " Creates an options object using a certificate config. Use this method when"] #[doc = "the certificates and keys of the SSL server will not change during the"] #[doc = "server's lifetime."] #[doc = "- Takes ownership of the certificate_config parameter."] pub fn grpc_ssl_server_credentials_create_options_using_config( client_certificate_request: grpc_ssl_client_certificate_request_type, certificate_config: *mut grpc_ssl_server_certificate_config, ) -> *mut grpc_ssl_server_credentials_options; } extern "C" { #[doc = " Creates an options object using a certificate config fetcher. Use this"] #[doc = "method to reload the certificates and keys of the SSL server without"] #[doc = "interrupting the operation of the server. Initial certificate config will be"] #[doc = "fetched during server initialization."] #[doc = "- user_data parameter, if not NULL, contains opaque data which will be passed"] #[doc = "to the fetcher (see definition of"] #[doc = "grpc_ssl_server_certificate_config_callback)."] pub fn grpc_ssl_server_credentials_create_options_using_config_fetcher( client_certificate_request: grpc_ssl_client_certificate_request_type, cb: grpc_ssl_server_certificate_config_callback, user_data: *mut ::std::os::raw::c_void, ) -> *mut grpc_ssl_server_credentials_options; } extern "C" { #[doc = " Destroys a grpc_ssl_server_credentials_options object."] pub fn grpc_ssl_server_credentials_options_destroy( options: *mut grpc_ssl_server_credentials_options, ); } extern "C" { #[doc = " Creates an SSL server_credentials object using the provided options struct."] #[doc = "- Takes ownership of the options parameter."] pub fn grpc_ssl_server_credentials_create_with_options( options: *mut grpc_ssl_server_credentials_options, ) -> *mut grpc_server_credentials; } extern "C" { #[doc = " Add a HTTP2 over an encrypted link over tcp listener."] #[doc = "Returns bound port number on success, 0 on failure."] #[doc = "REQUIRES: server not started"] pub fn grpc_server_add_secure_http2_port( server: *mut grpc_server, addr: *const ::std::os::raw::c_char, creds: *mut grpc_server_credentials, ) -> ::std::os::raw::c_int; } extern "C" { #[doc = " Sets a credentials to a call. Can only be called on the client side before"] #[doc = "grpc_call_start_batch."] pub fn grpc_call_set_credentials( call: *mut grpc_call, creds: *mut grpc_call_credentials, ) -> grpc_call_error; } #[doc = " Callback function that is called when the metadata processing is done."] #[doc = "- Consumed metadata will be removed from the set of metadata available on the"] #[doc = "call. consumed_md may be NULL if no metadata has been consumed."] #[doc = "- Response metadata will be set on the response. response_md may be NULL."] #[doc = "- status is GRPC_STATUS_OK for success or a specific status for an error."] #[doc = "Common error status for auth metadata processing is either"] #[doc = "GRPC_STATUS_UNAUTHENTICATED in case of an authentication failure or"] #[doc = "GRPC_STATUS PERMISSION_DENIED in case of an authorization failure."] #[doc = "- error_details gives details about the error. May be NULL."] pub type grpc_process_auth_metadata_done_cb = ::std::option::Option< unsafe extern "C" fn( user_data: *mut ::std::os::raw::c_void, consumed_md: *const grpc_metadata, num_consumed_md: usize, response_md: *const grpc_metadata, num_response_md: usize, status: grpc_status_code::Type, error_details: *const ::std::os::raw::c_char, ), >; #[doc = " Pluggable server-side metadata processor object."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_auth_metadata_processor { #[doc = " The context object is read/write: it contains the properties of the"] #[doc = "channel peer and it is the job of the process function to augment it with"] #[doc = "properties derived from the passed-in metadata."] #[doc = "The lifetime of these objects is guaranteed until cb is invoked."] pub process: ::std::option::Option< unsafe extern "C" fn( state: *mut ::std::os::raw::c_void, context: *mut grpc_auth_context, md: *const grpc_metadata, num_md: usize, cb: grpc_process_auth_metadata_done_cb, user_data: *mut ::std::os::raw::c_void, ), >, pub destroy: ::std::option::Option, pub state: *mut ::std::os::raw::c_void, } extern "C" { pub fn grpc_server_credentials_set_auth_metadata_processor( creds: *mut grpc_server_credentials, processor: grpc_auth_metadata_processor, ); } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_alts_credentials_options { _unused: [u8; 0], } extern "C" { #[doc = " This method creates a grpc ALTS credentials client options instance."] #[doc = " It is used for experimental purpose for now and subject to change."] pub fn grpc_alts_credentials_client_options_create() -> *mut grpc_alts_credentials_options; } extern "C" { #[doc = " This method creates a grpc ALTS credentials server options instance."] #[doc = " It is used for experimental purpose for now and subject to change."] pub fn grpc_alts_credentials_server_options_create() -> *mut grpc_alts_credentials_options; } extern "C" { #[doc = " This method adds a target service account to grpc client's ALTS credentials"] #[doc = " options instance. It is used for experimental purpose for now and subject"] #[doc = " to change."] #[doc = ""] #[doc = " - options: grpc ALTS credentials options instance."] #[doc = " - service_account: service account of target endpoint."] pub fn grpc_alts_credentials_client_options_add_target_service_account( options: *mut grpc_alts_credentials_options, service_account: *const ::std::os::raw::c_char, ); } extern "C" { #[doc = " This method destroys a grpc_alts_credentials_options instance by"] #[doc = " de-allocating all of its occupied memory. It is used for experimental purpose"] #[doc = " for now and subject to change."] #[doc = ""] #[doc = " - options: a grpc_alts_credentials_options instance that needs to be"] #[doc = " destroyed."] pub fn grpc_alts_credentials_options_destroy(options: *mut grpc_alts_credentials_options); } extern "C" { #[doc = " This method creates an ALTS channel credential object. The security"] #[doc = " level of the resulting connection is GRPC_PRIVACY_AND_INTEGRITY."] #[doc = " It is used for experimental purpose for now and subject to change."] #[doc = ""] #[doc = " - options: grpc ALTS credentials options instance for client."] #[doc = ""] #[doc = " It returns the created ALTS channel credential object."] pub fn grpc_alts_credentials_create( options: *const grpc_alts_credentials_options, ) -> *mut grpc_channel_credentials; } extern "C" { #[doc = " This method creates an ALTS server credential object. It is used for"] #[doc = " experimental purpose for now and subject to change."] #[doc = ""] #[doc = " - options: grpc ALTS credentials options instance for server."] #[doc = ""] #[doc = " It returns the created ALTS server credential object."] pub fn grpc_alts_server_credentials_create( options: *const grpc_alts_credentials_options, ) -> *mut grpc_server_credentials; } extern "C" { #[doc = " This method creates a local channel credential object. The security level"] #[doc = " of the resulting connection is GRPC_PRIVACY_AND_INTEGRITY for UDS and"] #[doc = " GRPC_SECURITY_NONE for LOCAL_TCP. It is used for experimental purpose"] #[doc = " for now and subject to change."] #[doc = ""] #[doc = " - type: local connection type"] #[doc = ""] #[doc = " It returns the created local channel credential object."] pub fn grpc_local_credentials_create( type_: grpc_local_connect_type, ) -> *mut grpc_channel_credentials; } extern "C" { #[doc = " This method creates a local server credential object. It is used for"] #[doc = " experimental purpose for now and subject to change."] #[doc = ""] #[doc = " - type: local connection type"] #[doc = ""] #[doc = " It returns the created local server credential object."] pub fn grpc_local_server_credentials_create( type_: grpc_local_connect_type, ) -> *mut grpc_server_credentials; } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_tls_error_details { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_tls_server_authorization_check_config { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_tls_credentials_options { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_tls_certificate_provider { _unused: [u8; 0], } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_tls_identity_pairs { _unused: [u8; 0], } extern "C" { #[doc = " Creates a grpc_tls_identity_pairs that stores a list of identity credential"] #[doc = " data, including identity private key and identity certificate chain. It is"] #[doc = " used for experimental purpose for now and subject to change."] pub fn grpc_tls_identity_pairs_create() -> *mut grpc_tls_identity_pairs; } extern "C" { #[doc = " Adds a identity private key and a identity certificate chain to"] #[doc = " grpc_tls_identity_pairs. This function will make an internal copy of"] #[doc = " |private_key| and |cert_chain|. It is used for experimental purpose for now"] #[doc = " and subject to change."] pub fn grpc_tls_identity_pairs_add_pair( pairs: *mut grpc_tls_identity_pairs, private_key: *const ::std::os::raw::c_char, cert_chain: *const ::std::os::raw::c_char, ); } extern "C" { #[doc = " Destroys a grpc_tls_identity_pairs object. If this object is passed to a"] #[doc = " provider initiation function, the ownership is transferred so this function"] #[doc = " doesn't need to be called. Otherwise the creator of the"] #[doc = " grpc_tls_identity_pairs object is responsible for its destruction. It is"] #[doc = " used for experimental purpose for now and subject to change."] pub fn grpc_tls_identity_pairs_destroy(pairs: *mut grpc_tls_identity_pairs); } extern "C" { #[doc = " Creates a grpc_tls_certificate_provider that will load credential data from"] #[doc = " static string during initialization. This provider will always return the"] #[doc = " same cert data for all cert names."] #[doc = " root_certificate and pem_key_cert_pairs can be nullptr, indicating the"] #[doc = " corresponding credential data is not needed."] #[doc = " This function will make a copy of |root_certificate|."] #[doc = " The ownership of |pem_key_cert_pairs| is transferred."] #[doc = " It is used for experimental purpose for now and subject to change."] pub fn grpc_tls_certificate_provider_static_data_create( root_certificate: *const ::std::os::raw::c_char, pem_key_cert_pairs: *mut grpc_tls_identity_pairs, ) -> *mut grpc_tls_certificate_provider; } extern "C" { #[doc = " Creates a grpc_tls_certificate_provider that will watch the credential"] #[doc = " changes on the file system. This provider will always return the up-to-date"] #[doc = " cert data for all the cert names callers set through"] #[doc = " |grpc_tls_credentials_options|. Note that this API only supports one key-cert"] #[doc = " file and hence one set of identity key-cert pair, so SNI(Server Name"] #[doc = " Indication) is not supported."] #[doc = " - private_key_path is the file path of the private key. This must be set if"] #[doc = " |identity_certificate_path| is set. Otherwise, it could be null if no"] #[doc = " identity credentials are needed."] #[doc = " - identity_certificate_path is the file path of the identity certificate"] #[doc = " chain. This must be set if |private_key_path| is set. Otherwise, it could"] #[doc = " be null if no identity credentials are needed."] #[doc = " - root_cert_path is the file path to the root certificate bundle. This"] #[doc = " may be null if no root certs are needed."] #[doc = " - refresh_interval_sec is the refreshing interval that we will check the"] #[doc = " files for updates."] #[doc = " It does not take ownership of parameters."] #[doc = " It is used for experimental purpose for now and subject to change."] pub fn grpc_tls_certificate_provider_file_watcher_create( private_key_path: *const ::std::os::raw::c_char, identity_certificate_path: *const ::std::os::raw::c_char, root_cert_path: *const ::std::os::raw::c_char, refresh_interval_sec: ::std::os::raw::c_uint, ) -> *mut grpc_tls_certificate_provider; } extern "C" { #[doc = " Releases a grpc_tls_certificate_provider object. The creator of the"] #[doc = " grpc_tls_certificate_provider object is responsible for its release. It is"] #[doc = " used for experimental purpose for now and subject to change."] pub fn grpc_tls_certificate_provider_release(provider: *mut grpc_tls_certificate_provider); } extern "C" { #[doc = " Creates an grpc_tls_credentials_options."] #[doc = " It is used for experimental purpose for now and subject to change."] pub fn grpc_tls_credentials_options_create() -> *mut grpc_tls_credentials_options; } extern "C" { #[doc = " Sets the options of whether to request and verify client certs. This should"] #[doc = " be called only on the server side. It returns 1 on success and 0 on failure."] #[doc = " It is used for experimental purpose for now and subject to change."] pub fn grpc_tls_credentials_options_set_cert_request_type( options: *mut grpc_tls_credentials_options, type_: grpc_ssl_client_certificate_request_type, ); } extern "C" { #[doc = " Sets the options of whether to choose certain checks, e.g. certificate check,"] #[doc = " hostname check, etc. This should be called only on the client side. If"] #[doc = " |server_verification_option| is not GRPC_TLS_SERVER_VERIFICATION, use of a"] #[doc = " custom authorization check (grpc_tls_server_authorization_check_config) is"] #[doc = " mandatory. It returns 1 on success and 0 on failure. It is used for"] #[doc = " experimental purpose for now and subject to change."] pub fn grpc_tls_credentials_options_set_server_verification_option( options: *mut grpc_tls_credentials_options, server_verification_option: grpc_tls_server_verification_option, ); } extern "C" { #[doc = " Sets the credential provider in the options."] #[doc = " The |options| will implicitly take a new ref to the |provider|."] #[doc = " It returns 1 on success and 0 on failure."] #[doc = " It is used for experimental purpose for now and subject to change."] pub fn grpc_tls_credentials_options_set_certificate_provider( options: *mut grpc_tls_credentials_options, provider: *mut grpc_tls_certificate_provider, ); } extern "C" { #[doc = " If set, gRPC stack will keep watching the root certificates with"] #[doc = " name |root_cert_name|. It returns 1 on success and 0 on failure. It is used"] #[doc = " for experimental purpose for now and subject to change."] pub fn grpc_tls_credentials_options_watch_root_certs( options: *mut grpc_tls_credentials_options, ); } extern "C" { #[doc = " Sets the name of the root certificates being watched."] #[doc = " If not set, We will use a default empty string as the root certificate name."] #[doc = " It is used for experimental purpose for now and subject to change."] pub fn grpc_tls_credentials_options_set_root_cert_name( options: *mut grpc_tls_credentials_options, root_cert_name: *const ::std::os::raw::c_char, ); } extern "C" { #[doc = " If set, gRPC stack will keep watching the identity key-cert pairs"] #[doc = " with name |identity_cert_name|. It returns 1 on success and 0 on failure. It"] #[doc = " is used for experimental purpose for now and subject to change."] pub fn grpc_tls_credentials_options_watch_identity_key_cert_pairs( options: *mut grpc_tls_credentials_options, ); } extern "C" { #[doc = " Sets the name of the identity certificates being watched."] #[doc = " If not set, We will use a default empty string as the identity certificate"] #[doc = " name. It is used for experimental purpose for now and subject to change."] pub fn grpc_tls_credentials_options_set_identity_cert_name( options: *mut grpc_tls_credentials_options, identity_cert_name: *const ::std::os::raw::c_char, ); } extern "C" { #[doc = " Sets the configuration for a custom authorization check performed at the end"] #[doc = " of the handshake. The |options| will implicitly take a new ref to the"] #[doc = " |config|. It returns 1 on success and 0 on failure. It is used for"] #[doc = " experimental purpose for now and subject to change."] pub fn grpc_tls_credentials_options_set_server_authorization_check_config( options: *mut grpc_tls_credentials_options, config: *mut grpc_tls_server_authorization_check_config, ); } #[doc = " callback function provided by gRPC used to handle the result of server"] #[doc = "authorization check. It is used when schedule API is implemented"] #[doc = "asynchronously, and serves to bring the control back to gRPC C core. It is"] #[doc = "used for experimental purpose for now and subject to change."] pub type grpc_tls_on_server_authorization_check_done_cb = ::std::option::Option; #[doc = " A struct containing all information necessary to schedule/cancel a server"] #[doc = "authorization check request."] #[doc = "- cb and cb_user_data represent a gRPC-provided callback and an argument"] #[doc = "passed to it."] #[doc = "- success will store the result of server authorization check. That is,"] #[doc = "if success returns a non-zero value, it means the authorization check"] #[doc = "passes and if returning zero, it means the check fails."] #[doc = "- target_name is the name of an endpoint the channel is connecting to."] #[doc = "- peer_cert represents a complete certificate chain including both"] #[doc = "signing and leaf certificates."] #[doc = "- \\a subject_alternative_names is an array of size"] #[doc = "\\a subject_alternative_names_size consisting of pointers to strings."] #[doc = "- status and error_details contain information"] #[doc = "about errors occurred when a server authorization check request is"] #[doc = "scheduled/cancelled."] #[doc = "- config is a pointer to the unique"] #[doc = "grpc_tls_server_authorization_check_config instance that this argument"] #[doc = "corresponds to."] #[doc = "- context is a pointer to a wrapped language implementation of this"] #[doc = "grpc_tls_server_authorization_check_arg instance."] #[doc = "- destroy_context is a pointer to a caller-provided method that cleans"] #[doc = "up any data associated with the context pointer."] #[doc = "It is used for experimental purpose for now and subject to change."] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpc_tls_server_authorization_check_arg { pub cb: grpc_tls_on_server_authorization_check_done_cb, pub cb_user_data: *mut ::std::os::raw::c_void, pub success: ::std::os::raw::c_int, pub target_name: *const ::std::os::raw::c_char, pub peer_cert: *const ::std::os::raw::c_char, pub peer_cert_full_chain: *const ::std::os::raw::c_char, pub subject_alternative_names: *mut *mut ::std::os::raw::c_char, pub subject_alternative_names_size: usize, pub status: grpc_status_code::Type, pub error_details: *mut grpc_tls_error_details, pub config: *mut grpc_tls_server_authorization_check_config, pub context: *mut ::std::os::raw::c_void, pub destroy_context: ::std::option::Option, } extern "C" { #[doc = " Create a grpc_tls_server_authorization_check_config instance."] #[doc = "- config_user_data is config-specific, read-only user data"] #[doc = "that works for all channels created with a credential using the config."] #[doc = "- schedule is a pointer to an application-provided callback used to invoke"] #[doc = "server authorization check API. The implementation of this method has to"] #[doc = "be non-blocking, but can be performed synchronously or asynchronously."] #[doc = "1)If processing occurs synchronously, it populates arg->result,"] #[doc = "arg->status, and arg->error_details and returns zero."] #[doc = "2) If processing occurs asynchronously, it returns a non-zero value. The"] #[doc = "application then invokes arg->cb when processing is completed. Note that"] #[doc = "arg->cb cannot be invoked before schedule API returns."] #[doc = "- cancel is a pointer to an application-provided callback used to cancel a"] #[doc = "server authorization check request scheduled via an asynchronous schedule"] #[doc = "API. arg is used to pinpoint an exact check request to be cancelled. The"] #[doc = "operation may not have any effect if the request has already been"] #[doc = "processed."] #[doc = "- destruct is a pointer to an application-provided callback used to clean up"] #[doc = "any data associated with the config."] #[doc = "It is used for experimental purpose for now and subject to change."] pub fn grpc_tls_server_authorization_check_config_create( config_user_data: *const ::std::os::raw::c_void, schedule: ::std::option::Option< unsafe extern "C" fn( config_user_data: *mut ::std::os::raw::c_void, arg: *mut grpc_tls_server_authorization_check_arg, ) -> ::std::os::raw::c_int, >, cancel: ::std::option::Option< unsafe extern "C" fn( config_user_data: *mut ::std::os::raw::c_void, arg: *mut grpc_tls_server_authorization_check_arg, ), >, destruct: ::std::option::Option< unsafe extern "C" fn(config_user_data: *mut ::std::os::raw::c_void), >, ) -> *mut grpc_tls_server_authorization_check_config; } extern "C" { #[doc = " Releases a grpc_tls_server_authorization_check_config object. The creator of"] #[doc = " the grpc_tls_server_authorization_check_config object is responsible for its"] #[doc = " release. It is used for experimental purpose for now and subject to change."] pub fn grpc_tls_server_authorization_check_config_release( config: *mut grpc_tls_server_authorization_check_config, ); } extern "C" { #[doc = " Creates a TLS channel credential object based on the"] #[doc = " grpc_tls_credentials_options specified by callers. The"] #[doc = " grpc_channel_credentials will take the ownership of the |options|. The"] #[doc = " security level of the resulting connection is GRPC_PRIVACY_AND_INTEGRITY. It"] #[doc = " is used for experimental purpose for now and subject to change."] pub fn grpc_tls_credentials_create( options: *mut grpc_tls_credentials_options, ) -> *mut grpc_channel_credentials; } extern "C" { #[doc = " Creates a TLS server credential object based on the"] #[doc = " grpc_tls_credentials_options specified by callers. The"] #[doc = " grpc_server_credentials will take the ownership of the |options|. It"] #[doc = " is used for experimental purpose for now and subject to change."] pub fn grpc_tls_server_credentials_create( options: *mut grpc_tls_credentials_options, ) -> *mut grpc_server_credentials; } extern "C" { #[doc = " EXPERIMENTAL API - Subject to change"] #[doc = ""] #[doc = " This method creates an insecure channel credentials object."] pub fn grpc_insecure_credentials_create() -> *mut grpc_channel_credentials; } extern "C" { #[doc = " EXPERIMENTAL API - Subject to change"] #[doc = ""] #[doc = " This method creates an insecure server credentials object."] pub fn grpc_insecure_server_credentials_create() -> *mut grpc_server_credentials; } extern "C" { #[doc = " EXPERIMENTAL API - Subject to change"] #[doc = ""] #[doc = " This method creates an xDS channel credentials object."] #[doc = ""] #[doc = " Creating a channel with credentials of this type indicates that the channel"] #[doc = " should get credentials configuration from the xDS control plane."] #[doc = ""] #[doc = " \\a fallback_credentials are used if the channel target does not have the"] #[doc = " 'xds:///' scheme or if the xDS control plane does not provide information on"] #[doc = " how to fetch credentials dynamically. Does NOT take ownership of the \\a"] #[doc = " fallback_credentials. (Internally takes a ref to the object.)"] pub fn grpc_xds_credentials_create( fallback_credentials: *mut grpc_channel_credentials, ) -> *mut grpc_channel_credentials; } extern "C" { #[doc = " EXPERIMENTAL API - Subject to change"] #[doc = ""] #[doc = " This method creates an xDS server credentials object."] #[doc = ""] #[doc = " \\a fallback_credentials are used if the xDS control plane does not provide"] #[doc = " information on how to fetch credentials dynamically."] #[doc = ""] #[doc = " Does NOT take ownership of the \\a fallback_credentials. (Internally takes"] #[doc = " a ref to the object.)"] pub fn grpc_xds_server_credentials_create( fallback_credentials: *mut grpc_server_credentials, ) -> *mut grpc_server_credentials; } #[repr(u32)] #[doc = " The severity of a log message - use the #defines below when calling into"] #[doc = "gpr_log to additionally supply file and line data"] #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)] pub enum gpr_log_severity { GPR_LOG_SEVERITY_DEBUG = 0, GPR_LOG_SEVERITY_INFO = 1, GPR_LOG_SEVERITY_ERROR = 2, } extern "C" { #[doc = " Returns a string representation of the log severity"] pub fn gpr_log_severity_string(severity: gpr_log_severity) -> *const ::std::os::raw::c_char; } extern "C" { #[doc = " Log a message. It's advised to use GPR_xxx above to generate the context"] #[doc = " for each message"] pub fn gpr_log( file: *const ::std::os::raw::c_char, line: ::std::os::raw::c_int, severity: gpr_log_severity, format: *const ::std::os::raw::c_char, ... ); } extern "C" { pub fn gpr_should_log(severity: gpr_log_severity) -> ::std::os::raw::c_int; } extern "C" { pub fn gpr_log_message( file: *const ::std::os::raw::c_char, line: ::std::os::raw::c_int, severity: gpr_log_severity, message: *const ::std::os::raw::c_char, ); } extern "C" { #[doc = " Set global log verbosity"] pub fn gpr_set_log_verbosity(min_severity_to_print: gpr_log_severity); } extern "C" { pub fn gpr_log_verbosity_init(); } #[doc = " Log overrides: applications can use this API to intercept logging calls"] #[doc = "and use their own implementations"] #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct gpr_log_func_args { pub file: *const ::std::os::raw::c_char, pub line: ::std::os::raw::c_int, pub severity: gpr_log_severity, pub message: *const ::std::os::raw::c_char, } pub type gpr_log_func = ::std::option::Option; extern "C" { pub fn gpr_set_log_function(func: gpr_log_func); } extern "C" { #[doc = " malloc."] #[doc = " If size==0, always returns NULL. Otherwise this function never returns NULL."] #[doc = " The pointer returned is suitably aligned for any kind of variable it could"] #[doc = " contain."] pub fn gpr_malloc(size: usize) -> *mut ::std::os::raw::c_void; } extern "C" { #[doc = " like malloc, but zero all bytes before returning them"] pub fn gpr_zalloc(size: usize) -> *mut ::std::os::raw::c_void; } extern "C" { #[doc = " free"] pub fn gpr_free(ptr: *mut ::std::os::raw::c_void); } extern "C" { #[doc = " realloc, never returns NULL"] pub fn gpr_realloc(p: *mut ::std::os::raw::c_void, size: usize) -> *mut ::std::os::raw::c_void; } extern "C" { #[doc = " aligned malloc, never returns NULL, will align to alignment, which"] #[doc = " must be a power of 2."] pub fn gpr_malloc_aligned(size: usize, alignment: usize) -> *mut ::std::os::raw::c_void; } extern "C" { #[doc = " free memory allocated by gpr_malloc_aligned"] pub fn gpr_free_aligned(ptr: *mut ::std::os::raw::c_void); } extern "C" { #[doc = " Return the number of CPU cores on the current system. Will return 0 if"] #[doc = "the information is not available."] pub fn gpr_cpu_num_cores() -> ::std::os::raw::c_uint; } extern "C" { #[doc = " Return the CPU on which the current thread is executing; N.B. This should"] #[doc = "be considered advisory only - it is possible that the thread is switched"] #[doc = "to a different CPU at any time. Returns a value in range"] #[doc = "[0, gpr_cpu_num_cores() - 1]"] pub fn gpr_cpu_current_cpu() -> ::std::os::raw::c_uint; } extern "C" { #[doc = " Returns a string allocated with gpr_malloc that contains a UTF-8"] #[doc = " formatted error message, corresponding to the error messageid."] #[doc = " Use in conjunction with GetLastError() et al."] pub fn gpr_format_message(messageid: ::std::os::raw::c_int) -> *mut ::std::os::raw::c_char; } extern "C" { #[doc = " Returns a copy of src that can be passed to gpr_free()."] #[doc = "If allocation fails or if src is NULL, returns NULL."] pub fn gpr_strdup(src: *const ::std::os::raw::c_char) -> *mut ::std::os::raw::c_char; } extern "C" { #[doc = " printf to a newly-allocated string. The set of supported formats may vary"] #[doc = "between platforms."] #[doc = ""] #[doc = "On success, returns the number of bytes printed (excluding the final '\\0'),"] #[doc = "and *strp points to a string which must later be destroyed with gpr_free()."] #[doc = ""] #[doc = "On error, returns -1 and sets *strp to NULL. If the format string is bad,"] #[doc = "the result is undefined."] pub fn gpr_asprintf( strp: *mut *mut ::std::os::raw::c_char, format: *const ::std::os::raw::c_char, ... ) -> ::std::os::raw::c_int; } pub type gpr_thd_id = usize; extern "C" { #[doc = " Returns the identifier of the current thread."] pub fn gpr_thd_currentid() -> gpr_thd_id; } #[doc = " Reader for byte buffers. Iterates over slices in the byte buffer"] #[repr(C)] #[derive(Copy, Clone)] pub struct grpc_byte_buffer_reader { pub buffer_in: *mut grpc_byte_buffer, pub buffer_out: *mut grpc_byte_buffer, pub current: grpc_byte_buffer_reader_grpc_byte_buffer_reader_current, } #[doc = " Different current objects correspond to different types of byte buffers"] #[repr(C)] #[derive(Copy, Clone)] pub union grpc_byte_buffer_reader_grpc_byte_buffer_reader_current { #[doc = " Index into a slice buffer's array of slices"] pub index: ::std::os::raw::c_uint, _bindgen_union_align: u32, } impl ::std::fmt::Debug for grpc_byte_buffer_reader_grpc_byte_buffer_reader_current { fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result { write!( f, "grpc_byte_buffer_reader_grpc_byte_buffer_reader_current {{ union }}" ) } } impl ::std::fmt::Debug for grpc_byte_buffer_reader { fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result { write!( f, "grpc_byte_buffer_reader {{ buffer_in: {:?}, buffer_out: {:?}, current: {:?} }}", self.buffer_in, self.buffer_out, self.current ) } } #[repr(C)] #[derive(Copy, Clone)] pub struct grpcwrap_batch_context { pub send_initial_metadata: grpc_metadata_array, pub send_message: *mut grpc_byte_buffer, pub send_status_from_server: grpcwrap_batch_context__bindgen_ty_1, pub recv_initial_metadata: grpc_metadata_array, pub recv_message: *mut grpc_byte_buffer, pub recv_status_on_client: grpcwrap_batch_context__bindgen_ty_2, pub recv_close_on_server_cancelled: ::std::os::raw::c_int, } #[repr(C)] #[derive(Debug, Copy, Clone)] pub struct grpcwrap_batch_context__bindgen_ty_1 { pub trailing_metadata: grpc_metadata_array, } #[repr(C)] #[derive(Copy, Clone)] pub struct grpcwrap_batch_context__bindgen_ty_2 { pub trailing_metadata: grpc_metadata_array, pub status: grpc_status_code::Type, pub status_details: grpc_slice, } impl ::std::fmt::Debug for grpcwrap_batch_context__bindgen_ty_2 { fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result { write ! (f , "grpcwrap_batch_context__bindgen_ty_2 {{ trailing_metadata: {:?}, status: {:?}, status_details: {:?} }}" , self . trailing_metadata , self . status , self . status_details) } } impl ::std::fmt::Debug for grpcwrap_batch_context { fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result { write ! (f , "grpcwrap_batch_context {{ send_initial_metadata: {:?}, send_message: {:?}, send_status_from_server: {:?}, recv_initial_metadata: {:?}, recv_message: {:?}, recv_status_on_client: {:?}, recv_close_on_server_cancelled: {:?} }}" , self . send_initial_metadata , self . send_message , self . send_status_from_server , self . recv_initial_metadata , self . recv_message , self . recv_status_on_client , self . recv_close_on_server_cancelled) } } extern "C" { pub fn grpcwrap_batch_context_create() -> *mut grpcwrap_batch_context; } #[repr(C)] #[derive(Copy, Clone)] pub struct grpcwrap_request_call_context { pub call: *mut grpc_call, pub call_details: grpc_call_details, pub request_metadata: grpc_metadata_array, } impl ::std::fmt::Debug for grpcwrap_request_call_context { fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result { write ! (f , "grpcwrap_request_call_context {{ call: {:?}, call_details: {:?}, request_metadata: {:?} }}" , self . call , self . call_details , self . request_metadata) } } extern "C" { pub fn grpcwrap_request_call_context_create() -> *mut grpcwrap_request_call_context; } extern "C" { #[link_name = "\u{1}_Z45grpcwrap_metadata_array_destroy_metadata_onlyP19grpc_metadata_array"] pub fn grpcwrap_metadata_array_destroy_metadata_only(array: *mut grpc_metadata_array); } extern "C" { #[link_name = "\u{1}_Z58grpcwrap_metadata_array_destroy_metadata_including_entriesP19grpc_metadata_array"] pub fn grpcwrap_metadata_array_destroy_metadata_including_entries( array: *mut grpc_metadata_array, ); } extern "C" { pub fn grpcwrap_metadata_array_destroy_full(array: *mut grpc_metadata_array); } extern "C" { pub fn grpcwrap_metadata_array_init(array: *mut grpc_metadata_array, capacity: usize); } extern "C" { pub fn grpcwrap_metadata_array_add( array: *mut grpc_metadata_array, key: *const ::std::os::raw::c_char, key_length: usize, value: *const ::std::os::raw::c_char, value_length: usize, ); } extern "C" { pub fn grpcwrap_metadata_array_get_key( array: *const grpc_metadata_array, index: usize, key_length: *mut usize, ) -> *const ::std::os::raw::c_char; } extern "C" { pub fn grpcwrap_metadata_array_get_value( array: *const grpc_metadata_array, index: usize, value_length: *mut usize, ) -> *const ::std::os::raw::c_char; } extern "C" { pub fn grpcwrap_metadata_array_cleanup(array: *mut grpc_metadata_array); } extern "C" { pub fn grpcwrap_metadata_array_shrink_to_fit(array: *mut grpc_metadata_array); } extern "C" { #[link_name = "\u{1}_Z28grpcwrap_metadata_array_moveP19grpc_metadata_arrayS0_"] pub fn grpcwrap_metadata_array_move( dest: *mut grpc_metadata_array, src: *mut grpc_metadata_array, ); } extern "C" { pub fn grpcwrap_batch_context_destroy(ctx: *mut grpcwrap_batch_context); } extern "C" { pub fn grpcwrap_request_call_context_destroy(ctx: *mut grpcwrap_request_call_context); } extern "C" { pub fn grpcwrap_batch_context_recv_initial_metadata( ctx: *const grpcwrap_batch_context, ) -> *const grpc_metadata_array; } extern "C" { pub fn grpcwrap_slice_raw_offset( slice: *const grpc_slice, offset: usize, len: *mut usize, ) -> *const ::std::os::raw::c_char; } extern "C" { pub fn grpcwrap_slice_copy(slice: *const grpc_slice) -> grpc_slice; } extern "C" { pub fn grpcwrap_slice_unref(slice: *const grpc_slice); } extern "C" { pub fn grpcwrap_slice_ref(slice: *const grpc_slice) -> grpc_slice; } extern "C" { pub fn grpcwrap_slice_length(slice: *const grpc_slice) -> usize; } extern "C" { pub fn grpcwrap_batch_context_take_recv_message( ctx: *mut grpcwrap_batch_context, ) -> *mut grpc_byte_buffer; } extern "C" { pub fn grpcwrap_batch_context_recv_status_on_client_status( ctx: *const grpcwrap_batch_context, ) -> grpc_status_code::Type; } extern "C" { pub fn grpcwrap_batch_context_recv_status_on_client_details( ctx: *const grpcwrap_batch_context, details_length: *mut usize, ) -> *const ::std::os::raw::c_char; } extern "C" { pub fn grpcwrap_batch_context_recv_status_on_client_trailing_metadata( ctx: *const grpcwrap_batch_context, ) -> *const grpc_metadata_array; } extern "C" { pub fn grpcwrap_request_call_context_ref_call( ctx: *mut grpcwrap_request_call_context, ) -> *mut grpc_call; } extern "C" { pub fn grpcwrap_request_call_context_get_call( ctx: *mut grpcwrap_request_call_context, ) -> *mut grpc_call; } extern "C" { pub fn grpcwrap_request_call_context_method( ctx: *const grpcwrap_request_call_context, method_length: *mut usize, ) -> *const ::std::os::raw::c_char; } extern "C" { pub fn grpcwrap_request_call_context_host( ctx: *const grpcwrap_request_call_context, host_length: *mut usize, ) -> *const ::std::os::raw::c_char; } extern "C" { pub fn grpcwrap_request_call_context_deadline( ctx: *const grpcwrap_request_call_context, ) -> gpr_timespec; } extern "C" { pub fn grpcwrap_request_call_context_metadata_array( ctx: *const grpcwrap_request_call_context, ) -> *const grpc_metadata_array; } extern "C" { pub fn grpcwrap_batch_context_recv_close_on_server_cancelled( ctx: *const grpcwrap_batch_context, ) -> i32; } extern "C" { pub fn grpcwrap_channel_create_call( channel: *mut grpc_channel, parent_call: *mut grpc_call, propagation_mask: u32, cq: *mut grpc_completion_queue, method: *const ::std::os::raw::c_char, method_len: usize, host: *const ::std::os::raw::c_char, host_len: usize, deadline: gpr_timespec, ) -> *mut grpc_call; } extern "C" { pub fn grpcwrap_channel_args_create(num_args: usize) -> *mut grpc_channel_args; } extern "C" { pub fn grpcwrap_channel_args_set_string( args: *mut grpc_channel_args, index: usize, key: *const ::std::os::raw::c_char, value: *const ::std::os::raw::c_char, ); } extern "C" { pub fn grpcwrap_channel_args_set_integer( args: *mut grpc_channel_args, index: usize, key: *const ::std::os::raw::c_char, value: ::std::os::raw::c_int, ); } extern "C" { pub fn grpcwrap_channel_args_set_pointer_vtable( args: *mut grpc_channel_args, index: usize, key: *const ::std::os::raw::c_char, value: *mut ::std::os::raw::c_void, vtable: *const grpc_arg_pointer_vtable, ); } extern "C" { pub fn grpcwrap_channel_args_destroy(args: *mut grpc_channel_args); } extern "C" { pub fn grpcwrap_call_start_unary( call: *mut grpc_call, ctx: *mut grpcwrap_batch_context, send_buffer: *mut grpc_slice, write_flags: u32, initial_metadata: *mut grpc_metadata_array, initial_metadata_flags: u32, tag: *mut ::std::os::raw::c_void, ) -> grpc_call_error; } extern "C" { pub fn grpcwrap_call_start_client_streaming( call: *mut grpc_call, ctx: *mut grpcwrap_batch_context, initial_metadata: *mut grpc_metadata_array, initial_metadata_flags: u32, tag: *mut ::std::os::raw::c_void, ) -> grpc_call_error; } extern "C" { pub fn grpcwrap_call_start_server_streaming( call: *mut grpc_call, ctx: *mut grpcwrap_batch_context, send_buffer: *mut grpc_slice, write_flags: u32, initial_metadata: *mut grpc_metadata_array, initial_metadata_flags: u32, tag: *mut ::std::os::raw::c_void, ) -> grpc_call_error; } extern "C" { pub fn grpcwrap_call_start_duplex_streaming( call: *mut grpc_call, ctx: *mut grpcwrap_batch_context, initial_metadata: *mut grpc_metadata_array, initial_metadata_flags: u32, tag: *mut ::std::os::raw::c_void, ) -> grpc_call_error; } extern "C" { pub fn grpcwrap_call_recv_initial_metadata( call: *mut grpc_call, ctx: *mut grpcwrap_batch_context, tag: *mut ::std::os::raw::c_void, ) -> grpc_call_error; } extern "C" { pub fn grpcwrap_call_send_message( call: *mut grpc_call, ctx: *mut grpcwrap_batch_context, send_buffer: *mut grpc_slice, write_flags: u32, send_empty_initial_metadata: i32, tag: *mut ::std::os::raw::c_void, ) -> grpc_call_error; } extern "C" { pub fn grpcwrap_call_send_close_from_client( call: *mut grpc_call, tag: *mut ::std::os::raw::c_void, ) -> grpc_call_error; } extern "C" { pub fn grpcwrap_call_send_status_from_server( call: *mut grpc_call, ctx: *mut grpcwrap_batch_context, status_code: grpc_status_code::Type, status_details: *const ::std::os::raw::c_char, status_details_len: usize, trailing_metadata: *mut grpc_metadata_array, send_empty_initial_metadata: i32, optional_send_buffer: *mut grpc_slice, write_flags: u32, tag: *mut ::std::os::raw::c_void, ) -> grpc_call_error; } extern "C" { pub fn grpcwrap_call_recv_message( call: *mut grpc_call, ctx: *mut grpcwrap_batch_context, tag: *mut ::std::os::raw::c_void, ) -> grpc_call_error; } extern "C" { pub fn grpcwrap_call_start_serverside( call: *mut grpc_call, ctx: *mut grpcwrap_batch_context, tag: *mut ::std::os::raw::c_void, ) -> grpc_call_error; } extern "C" { pub fn grpcwrap_call_send_initial_metadata( call: *mut grpc_call, ctx: *mut grpcwrap_batch_context, initial_metadata: *mut grpc_metadata_array, tag: *mut ::std::os::raw::c_void, ) -> grpc_call_error; } extern "C" { #[doc = " Kick call's completion queue, it should be called after there is an event"] #[doc = "ready to poll."] #[doc = "THREAD SAFETY: grpcwrap_call_kick_completion_queue is thread-safe"] #[doc = "because it does not change the call's state."] pub fn grpcwrap_call_kick_completion_queue( call: *mut grpc_call, tag: *mut ::std::os::raw::c_void, ) -> grpc_call_error; } extern "C" { pub fn grpcwrap_server_request_call( server: *mut grpc_server, cq: *mut grpc_completion_queue, ctx: *mut grpcwrap_request_call_context, tag: *mut ::std::os::raw::c_void, ) -> grpc_call_error; }