FreeRDP/libfreerdp/core/gateway/rpc.h

807 lines
18 KiB
C

/**
* FreeRDP: A Remote Desktop Protocol Implementation
* RPC over HTTP
*
* Copyright 2012 Fujitsu Technology Solutions GmbH
* Copyright 2012 Dmitrij Jasnov <dmitrij.jasnov@ts.fujitsu.com>
* Copyright 2012 Marc-Andre Moreau <marcandre.moreau@gmail.com>
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef FREERDP_LIB_CORE_GATEWAY_RPC_H
#define FREERDP_LIB_CORE_GATEWAY_RPC_H
#include <winpr/wtypes.h>
#include <winpr/stream.h>
#include <winpr/collections.h>
#include <winpr/interlocked.h>
#include <freerdp/log.h>
#include <freerdp/utils/ringbuffer.h>
typedef struct rdp_rpc rdpRpc;
#pragma pack(push, 1)
#define DEFINE_RPC_COMMON_FIELDS() \
BYTE rpc_vers; \
BYTE rpc_vers_minor; \
BYTE ptype; \
BYTE pfc_flags; \
BYTE packed_drep[4]; \
UINT16 frag_length; \
UINT16 auth_length; \
UINT32 call_id
#define RPC_COMMON_FIELDS_LENGTH 16
typedef struct
{
DEFINE_RPC_COMMON_FIELDS();
UINT16 Flags;
UINT16 NumberOfCommands;
} rpcconn_rts_hdr_t;
#define RTS_PDU_HEADER_LENGTH 20
#define RPC_PDU_FLAG_STUB 0x00000001
typedef struct _RPC_PDU
{
wStream* s;
UINT32 Type;
UINT32 Flags;
UINT32 CallId;
} RPC_PDU, *PRPC_PDU;
#pragma pack(pop)
#include "../tcp.h"
#include "../transport.h"
#include "rts.h"
#include "http.h"
#include "ntlm.h"
#include <time.h>
#include <winpr/sspi.h>
#include <winpr/interlocked.h>
#include <freerdp/types.h>
#include <freerdp/settings.h>
#include <freerdp/crypto/tls.h>
#include <freerdp/crypto/crypto.h>
#include <freerdp/api.h>
#include <winpr/print.h>
/**
* CAE Specification
* DCE 1.1: Remote Procedure Call
* Document Number: C706
* http://pubs.opengroup.org/onlinepubs/9629399/
*/
#define PTYPE_REQUEST 0x00
#define PTYPE_PING 0x01
#define PTYPE_RESPONSE 0x02
#define PTYPE_FAULT 0x03
#define PTYPE_WORKING 0x04
#define PTYPE_NOCALL 0x05
#define PTYPE_REJECT 0x06
#define PTYPE_ACK 0x07
#define PTYPE_CL_CANCEL 0x08
#define PTYPE_FACK 0x09
#define PTYPE_CANCEL_ACK 0x0A
#define PTYPE_BIND 0x0B
#define PTYPE_BIND_ACK 0x0C
#define PTYPE_BIND_NAK 0x0D
#define PTYPE_ALTER_CONTEXT 0x0E
#define PTYPE_ALTER_CONTEXT_RESP 0x0F
#define PTYPE_RPC_AUTH_3 0x10
#define PTYPE_SHUTDOWN 0x11
#define PTYPE_CO_CANCEL 0x12
#define PTYPE_ORPHANED 0x13
#define PTYPE_RTS 0x14
#define PFC_FIRST_FRAG 0x01
#define PFC_LAST_FRAG 0x02
#define PFC_PENDING_CANCEL 0x04
#define PFC_SUPPORT_HEADER_SIGN 0x04
#define PFC_RESERVED_1 0x08
#define PFC_CONC_MPX 0x10
#define PFC_DID_NOT_EXECUTE 0x20
#define PFC_MAYBE 0x40
#define PFC_OBJECT_UUID 0x80
/* Minimum fragment sizes */
#define RPC_CO_MUST_RECV_FRAG_SIZE 1432
#define RPC_CL_MUST_RECV_FRAG_SIZE 1464
/**
* The PDU maximum header length is enough
* to contain either the RPC common fields
* or all fields up to the stub data in PDUs
* that use it (request, response, fault)
*/
#define RPC_PDU_HEADER_MAX_LENGTH 32
#pragma pack(push, 1)
typedef struct
{
DEFINE_RPC_COMMON_FIELDS();
} rpcconn_common_hdr_t;
typedef UINT16 p_context_id_t;
typedef UINT16 p_reject_reason_t;
typedef struct
{
UINT32 time_low;
UINT16 time_mid;
UINT16 time_hi_and_version;
BYTE clock_seq_hi_and_reserved;
BYTE clock_seq_low;
BYTE node[6];
} p_uuid_t;
#define ndr_c_int_big_endian 0
#define ndr_c_int_little_endian 1
#define ndr_c_float_ieee 0
#define ndr_c_float_vax 1
#define ndr_c_float_cray 2
#define ndr_c_float_ibm 3
#define ndr_c_char_ascii 0
#define ndr_c_char_ebcdic 1
typedef struct
{
BYTE int_rep;
BYTE char_rep;
BYTE float_rep;
BYTE reserved;
} ndr_format_t, *ndr_format_p_t;
typedef struct ndr_context_handle
{
UINT32 context_handle_attributes;
p_uuid_t context_handle_uuid;
} ndr_context_handle;
typedef struct
{
p_uuid_t if_uuid;
UINT32 if_version;
} p_syntax_id_t;
typedef struct
{
p_context_id_t p_cont_id;
BYTE n_transfer_syn; /* number of items */
BYTE reserved; /* alignment pad, m.b.z. */
p_syntax_id_t abstract_syntax; /* transfer syntax list */
p_syntax_id_t* transfer_syntaxes; /* size_is(n_transfer_syn) */
} p_cont_elem_t;
typedef struct
{
BYTE n_context_elem; /* number of items */
BYTE reserved; /* alignment pad, m.b.z. */
UINT16 reserved2; /* alignment pad, m.b.z. */
p_cont_elem_t* p_cont_elem; /* size_is(n_cont_elem) */
} p_cont_list_t;
typedef enum
{
acceptance,
user_rejection,
provider_rejection
} p_cont_def_result_t;
typedef enum
{
reason_not_specified,
abstract_syntax_not_supported,
proposed_transfer_syntaxes_not_supported,
local_limit_exceeded
} p_provider_reason_t;
typedef struct
{
p_cont_def_result_t result;
p_provider_reason_t reason;
p_syntax_id_t transfer_syntax;
} p_result_t;
/* Same order and number of elements as in bind request */
typedef struct
{
BYTE n_results; /* count */
BYTE reserved; /* alignment pad, m.b.z. */
UINT16 reserved2; /* alignment pad, m.b.z. */
p_result_t* p_results; /* size_is(n_results) */
} p_result_list_t;
typedef struct
{
BYTE major;
BYTE minor;
} version_t;
typedef version_t p_rt_version_t;
typedef struct
{
BYTE n_protocols; /* count */
p_rt_version_t* p_protocols; /* size_is(n_protocols) */
} p_rt_versions_supported_t;
typedef struct
{
UINT16 length;
char* port_spec; /* port string spec; size_is(length) */
} port_any_t;
#define REASON_NOT_SPECIFIED 0
#define TEMPORARY_CONGESTION 1
#define LOCAL_LIMIT_EXCEEDED 2
#define CALLED_PADDR_UNKNOWN 3
#define PROTOCOL_VERSION_NOT_SUPPORTED 4
#define DEFAULT_CONTEXT_NOT_SUPPORTED 5
#define USER_DATA_NOT_READABLE 6
#define NO_PSAP_AVAILABLE 7
typedef UINT16 rpcrt_reason_code_t;
typedef struct
{
BYTE rpc_vers;
BYTE rpc_vers_minor;
BYTE reserved[2];
BYTE packed_drep[4];
UINT32 reject_status;
BYTE reserved2[4];
} rpcrt_optional_data_t;
typedef struct
{
rpcrt_reason_code_t reason_code;
rpcrt_optional_data_t rpc_info;
} rpcconn_reject_optional_data_t;
typedef struct
{
rpcrt_reason_code_t reason_code;
rpcrt_optional_data_t rpc_info;
} rpcconn_disc_optional_data_t;
typedef struct
{
BYTE signature[8];
} rpc_sec_verification_trailer;
struct auth_verifier_co_s
{
/* restore 4-byte alignment */
BYTE auth_type;
BYTE auth_level;
BYTE auth_pad_length;
BYTE auth_reserved;
UINT32 auth_context_id;
BYTE* auth_value;
};
typedef struct auth_verifier_co_s rpc_sec_trailer;
typedef struct auth_verifier_co_s auth_verifier_co_t;
/* Connection-oriented PDU Definitions */
typedef struct
{
DEFINE_RPC_COMMON_FIELDS();
UINT16 max_xmit_frag;
UINT16 max_recv_frag;
UINT32 assoc_group_id;
p_cont_list_t p_context_elem;
auth_verifier_co_t auth_verifier;
} rpcconn_alter_context_hdr_t;
typedef struct
{
DEFINE_RPC_COMMON_FIELDS();
UINT16 max_xmit_frag;
UINT16 max_recv_frag;
UINT32 assoc_group_id;
port_any_t sec_addr;
/* restore 4-octet alignment */
p_result_list_t p_result_list;
auth_verifier_co_t auth_verifier;
} rpcconn_alter_context_response_hdr_t;
/* bind header */
typedef struct
{
DEFINE_RPC_COMMON_FIELDS();
UINT16 max_xmit_frag;
UINT16 max_recv_frag;
UINT32 assoc_group_id;
p_cont_list_t p_context_elem;
auth_verifier_co_t auth_verifier;
} rpcconn_bind_hdr_t;
typedef struct
{
DEFINE_RPC_COMMON_FIELDS();
UINT16 max_xmit_frag;
UINT16 max_recv_frag;
UINT32 assoc_group_id;
port_any_t sec_addr;
/* restore 4-octet alignment */
p_result_list_t p_result_list;
auth_verifier_co_t auth_verifier;
} rpcconn_bind_ack_hdr_t;
typedef struct
{
DEFINE_RPC_COMMON_FIELDS();
UINT16 max_xmit_frag;
UINT16 max_recv_frag;
auth_verifier_co_t auth_verifier;
} rpcconn_rpc_auth_3_hdr_t;
typedef struct
{
DEFINE_RPC_COMMON_FIELDS();
p_reject_reason_t provider_reject_reason;
p_rt_versions_supported_t versions;
} rpcconn_bind_nak_hdr_t;
typedef struct
{
DEFINE_RPC_COMMON_FIELDS();
auth_verifier_co_t auth_verifier;
} rpcconn_cancel_hdr_t;
/* fault codes */
struct _RPC_FAULT_CODE
{
UINT32 code;
char* name;
};
typedef struct _RPC_FAULT_CODE RPC_FAULT_CODE;
#define DEFINE_RPC_FAULT_CODE(_code) { _code , #_code },
#define nca_s_comm_failure 0x1C010001
#define nca_s_op_rng_error 0x1C010002
#define nca_s_unk_if 0x1C010003
#define nca_s_wrong_boot_time 0x1C010006
#define nca_s_you_crashed 0x1C010009
#define nca_s_proto_error 0x1C01000B
#define nca_s_out_args_too_big 0x1C010013
#define nca_s_server_too_busy 0x1C010014
#define nca_s_fault_string_too_long 0x1C010015
#define nca_s_unsupported_type 0x1C010017
#define nca_s_fault_int_div_by_zero 0x1C000001
#define nca_s_fault_addr_error 0x1C000002
#define nca_s_fault_fp_div_zero 0x1C000003
#define nca_s_fault_fp_underflow 0x1C000004
#define nca_s_fault_fp_overflow 0x1C000005
#define nca_s_fault_invalid_tag 0x1C000006
#define nca_s_fault_invalid_bound 0x1C000007
#define nca_s_rpc_version_mismatch 0x1C000008
#define nca_s_unspec_reject 0x1C000009
#define nca_s_bad_actid 0x1C00000A
#define nca_s_who_are_you_failed 0x1C00000B
#define nca_s_manager_not_entered 0x1C00000C
#define nca_s_fault_cancel 0x1C00000D
#define nca_s_fault_ill_inst 0x1C00000E
#define nca_s_fault_fp_error 0x1C00000F
#define nca_s_fault_int_overflow 0x1C000010
#define nca_s_fault_unspec 0x1C000012
#define nca_s_fault_remote_comm_failure 0x1C000013
#define nca_s_fault_pipe_empty 0x1C000014
#define nca_s_fault_pipe_closed 0x1C000015
#define nca_s_fault_pipe_order 0x1C000016
#define nca_s_fault_pipe_discipline 0x1C000017
#define nca_s_fault_pipe_comm_error 0x1C000018
#define nca_s_fault_pipe_memory 0x1C000019
#define nca_s_fault_context_mismatch 0x1C00001A
#define nca_s_fault_remote_no_memory 0x1C00001B
#define nca_s_invalid_pres_context_id 0x1C00001C
#define nca_s_unsupported_authn_level 0x1C00001D
#define nca_s_invalid_checksum 0x1C00001F
#define nca_s_invalid_crc 0x1C000020
#define nca_s_fault_user_defined 0x1C000021
#define nca_s_fault_tx_open_failed 0x1C000022
#define nca_s_fault_codeset_conv_error 0x1C000023
#define nca_s_fault_object_not_found 0x1C000024
#define nca_s_fault_no_client_stub 0x1C000025
typedef struct
{
DEFINE_RPC_COMMON_FIELDS();
UINT32 alloc_hint;
p_context_id_t p_cont_id;
BYTE cancel_count;
BYTE reserved;
UINT32 status;
/* align(8) */
BYTE* stub_data;
auth_verifier_co_t auth_verifier;
} rpcconn_fault_hdr_t;
typedef struct
{
DEFINE_RPC_COMMON_FIELDS();
auth_verifier_co_t auth_verifier;
} rpcconn_orphaned_hdr_t;
typedef struct
{
DEFINE_RPC_COMMON_FIELDS();
UINT32 alloc_hint;
p_context_id_t p_cont_id;
UINT16 opnum;
/* optional field for request, only present if the PFC_OBJECT_UUID field is non-zero */
p_uuid_t object;
/* align(8) */
BYTE* stub_data;
auth_verifier_co_t auth_verifier;
} rpcconn_request_hdr_t;
typedef struct
{
DEFINE_RPC_COMMON_FIELDS();
UINT32 alloc_hint;
p_context_id_t p_cont_id;
BYTE cancel_count;
BYTE reserved;
/* align(8) */
BYTE* stub_data;
auth_verifier_co_t auth_verifier;
} rpcconn_response_hdr_t;
typedef struct
{
DEFINE_RPC_COMMON_FIELDS();
} rpcconn_shutdown_hdr_t;
typedef union
{
rpcconn_common_hdr_t common;
rpcconn_alter_context_hdr_t alter_context;
rpcconn_alter_context_response_hdr_t alter_context_response;
rpcconn_bind_hdr_t bind;
rpcconn_bind_ack_hdr_t bind_ack;
rpcconn_rpc_auth_3_hdr_t rpc_auth_3;
rpcconn_bind_nak_hdr_t bind_nak;
rpcconn_cancel_hdr_t cancel;
rpcconn_fault_hdr_t fault;
rpcconn_orphaned_hdr_t orphaned;
rpcconn_request_hdr_t request;
rpcconn_response_hdr_t response;
rpcconn_shutdown_hdr_t shutdown;
rpcconn_rts_hdr_t rts;
} rpcconn_hdr_t;
#pragma pack(pop)
struct _RPC_SECURITY_PROVIDER_INFO
{
UINT32 Id;
LONG EvenLegs;
LONG NumLegs;
};
typedef struct _RPC_SECURITY_PROVIDER_INFO RPC_SECURITY_PROVIDER_INFO;
enum _RPC_CLIENT_STATE
{
RPC_CLIENT_STATE_INITIAL,
RPC_CLIENT_STATE_ESTABLISHED,
RPC_CLIENT_STATE_WAIT_SECURE_BIND_ACK,
RPC_CLIENT_STATE_WAIT_UNSECURE_BIND_ACK,
RPC_CLIENT_STATE_WAIT_SECURE_ALTER_CONTEXT_RESPONSE,
RPC_CLIENT_STATE_CONTEXT_NEGOTIATED,
RPC_CLIENT_STATE_WAIT_RESPONSE,
RPC_CLIENT_STATE_FINAL
};
typedef enum _RPC_CLIENT_STATE RPC_CLIENT_STATE;
enum _RPC_CLIENT_CALL_STATE
{
RPC_CLIENT_CALL_STATE_INITIAL,
RPC_CLIENT_CALL_STATE_SEND_PDUS,
RPC_CLIENT_CALL_STATE_DISPATCHED,
RPC_CLIENT_CALL_STATE_RECEIVE_PDU,
RPC_CLIENT_CALL_STATE_COMPLETE,
RPC_CLIENT_CALL_STATE_FAULT,
RPC_CLIENT_CALL_STATE_FINAL
};
typedef enum _RPC_CLIENT_CALL_STATE RPC_CLIENT_CALL_STATE;
struct rpc_client_call
{
UINT32 CallId;
UINT32 OpNum;
RPC_CLIENT_CALL_STATE State;
};
typedef struct rpc_client_call RpcClientCall;
#define RPC_CHANNEL_COMMON() \
rdpRpc* rpc; \
BIO* bio; \
rdpTls* tls; \
rdpNtlm* ntlm; \
HttpContext* http; \
BYTE Cookie[16]
struct rpc_channel
{
RPC_CHANNEL_COMMON();
};
typedef struct rpc_channel RpcChannel;
/* Ping Originator */
struct rpc_ping_originator
{
UINT32 ConnectionTimeout;
UINT32 LastPacketSentTimestamp;
UINT32 KeepAliveInterval;
};
typedef struct rpc_ping_originator RpcPingOriginator;
/* Client In Channel */
enum _CLIENT_IN_CHANNEL_STATE
{
CLIENT_IN_CHANNEL_STATE_INITIAL,
CLIENT_IN_CHANNEL_STATE_CONNECTED,
CLIENT_IN_CHANNEL_STATE_SECURITY,
CLIENT_IN_CHANNEL_STATE_NEGOTIATED,
CLIENT_IN_CHANNEL_STATE_OPENED,
CLIENT_IN_CHANNEL_STATE_OPENED_A4W,
CLIENT_IN_CHANNEL_STATE_FINAL
};
typedef enum _CLIENT_IN_CHANNEL_STATE CLIENT_IN_CHANNEL_STATE;
struct rpc_in_channel
{
/* Sending Channel */
RPC_CHANNEL_COMMON();
CLIENT_IN_CHANNEL_STATE State;
UINT32 PlugState;
void* SendQueue;
UINT32 BytesSent;
UINT32 SenderAvailableWindow;
UINT32 PeerReceiveWindow;
/* Ping Originator */
RpcPingOriginator PingOriginator;
};
typedef struct rpc_in_channel RpcInChannel;
/* Client Out Channel */
enum _CLIENT_OUT_CHANNEL_STATE
{
CLIENT_OUT_CHANNEL_STATE_INITIAL,
CLIENT_OUT_CHANNEL_STATE_CONNECTED,
CLIENT_OUT_CHANNEL_STATE_SECURITY,
CLIENT_OUT_CHANNEL_STATE_NEGOTIATED,
CLIENT_OUT_CHANNEL_STATE_OPENED,
CLIENT_OUT_CHANNEL_STATE_OPENED_A6W,
CLIENT_OUT_CHANNEL_STATE_OPENED_A10W,
CLIENT_OUT_CHANNEL_STATE_OPENED_B3W,
CLIENT_OUT_CHANNEL_STATE_RECYCLED,
CLIENT_OUT_CHANNEL_STATE_FINAL
};
typedef enum _CLIENT_OUT_CHANNEL_STATE CLIENT_OUT_CHANNEL_STATE;
struct rpc_out_channel
{
/* Receiving Channel */
RPC_CHANNEL_COMMON();
CLIENT_OUT_CHANNEL_STATE State;
UINT32 ReceiveWindow;
UINT32 ReceiveWindowSize;
UINT32 ReceiverAvailableWindow;
UINT32 BytesReceived;
UINT32 AvailableWindowAdvertised;
};
typedef struct rpc_out_channel RpcOutChannel;
/* Client Virtual Connection */
enum _VIRTUAL_CONNECTION_STATE
{
VIRTUAL_CONNECTION_STATE_INITIAL,
VIRTUAL_CONNECTION_STATE_OUT_CHANNEL_WAIT,
VIRTUAL_CONNECTION_STATE_WAIT_A3W,
VIRTUAL_CONNECTION_STATE_WAIT_C2,
VIRTUAL_CONNECTION_STATE_OPENED,
VIRTUAL_CONNECTION_STATE_FINAL
};
typedef enum _VIRTUAL_CONNECTION_STATE VIRTUAL_CONNECTION_STATE;
struct rpc_virtual_connection
{
BYTE Cookie[16];
BYTE AssociationGroupId[16];
VIRTUAL_CONNECTION_STATE State;
RpcInChannel* DefaultInChannel;
RpcInChannel* NonDefaultInChannel;
RpcOutChannel* DefaultOutChannel;
RpcOutChannel* NonDefaultOutChannel;
};
typedef struct rpc_virtual_connection RpcVirtualConnection;
/* Virtual Connection Cookie Table */
#define RPC_UUID_FORMAT_STRING "%02x%02x%02x%02x-%02x%02x-%02x%02x-%02x%02x-%02x%02x%02x%02x%02x%02x"
#define RPC_UUID_FORMAT_ARGUMENTS(_rpc_uuid) \
_rpc_uuid[0], _rpc_uuid[1], _rpc_uuid[2], _rpc_uuid[3], _rpc_uuid[4], _rpc_uuid[5], _rpc_uuid[6], _rpc_uuid[7], \
_rpc_uuid[8], _rpc_uuid[9], _rpc_uuid[10], _rpc_uuid[11], _rpc_uuid[12], _rpc_uuid[13], _rpc_uuid[14], _rpc_uuid[15]
struct rpc_virtual_connection_cookie_entry
{
BYTE Cookie[16];
UINT32 ReferenceCount;
RpcVirtualConnection* Reference;
};
typedef struct rpc_virtual_connection_cookie_entry
RpcVirtualConnectionCookieEntry;
struct rpc_client
{
RPC_PDU* pdu;
HANDLE PipeEvent;
RingBuffer ReceivePipe;
wStream* ReceiveFragment;
CRITICAL_SECTION PipeLock;
wArrayList* ClientCallList;
};
typedef struct rpc_client RpcClient;
struct rdp_rpc
{
RPC_CLIENT_STATE State;
UINT32 result;
rdpNtlm* ntlm;
int SendSeqNum;
RpcClient* client;
rdpContext* context;
rdpSettings* settings;
rdpTransport* transport;
UINT32 CallId;
UINT32 PipeCallId;
UINT32 StubCallId;
UINT32 StubFragCount;
BYTE rpc_vers;
BYTE rpc_vers_minor;
BYTE packed_drep[4];
UINT16 max_xmit_frag;
UINT16 max_recv_frag;
UINT32 ReceiveWindow;
UINT32 ChannelLifetime;
UINT32 KeepAliveInterval;
UINT32 CurrentKeepAliveTime;
UINT32 CurrentKeepAliveInterval;
RpcVirtualConnection* VirtualConnection;
};
FREERDP_LOCAL void rpc_pdu_header_print(rpcconn_hdr_t* header);
FREERDP_LOCAL void rpc_pdu_header_init(rdpRpc* rpc, rpcconn_hdr_t* header);
FREERDP_LOCAL UINT32 rpc_offset_align(UINT32* offset, UINT32 alignment);
FREERDP_LOCAL UINT32 rpc_offset_pad(UINT32* offset, UINT32 pad);
FREERDP_LOCAL BOOL rpc_get_stub_data_info(rdpRpc* rpc, BYTE* header,
UINT32* offset, UINT32* length);
FREERDP_LOCAL int rpc_in_channel_write(RpcInChannel* inChannel,
const BYTE* data, int length);
FREERDP_LOCAL int rpc_out_channel_read(RpcOutChannel* outChannel, BYTE* data,
int length);
FREERDP_LOCAL int rpc_out_channel_write(RpcOutChannel* outChannel,
const BYTE* data, int length);
FREERDP_LOCAL RpcInChannel* rpc_client_in_channel_new(rdpRpc* rpc);
FREERDP_LOCAL void rpc_in_channel_free(RpcInChannel* inChannel);
FREERDP_LOCAL RpcOutChannel* rpc_out_channel_new(rdpRpc* rpc);
FREERDP_LOCAL int rpc_out_channel_replacement_connect(RpcOutChannel* outChannel,
int timeout);
FREERDP_LOCAL void rpc_out_channel_free(RpcOutChannel* outChannel);
FREERDP_LOCAL int rpc_in_channel_transition_to_state(RpcInChannel* inChannel,
CLIENT_IN_CHANNEL_STATE state);
FREERDP_LOCAL int rpc_out_channel_transition_to_state(RpcOutChannel* outChannel,
CLIENT_OUT_CHANNEL_STATE state);
FREERDP_LOCAL int rpc_virtual_connection_transition_to_state(rdpRpc* rpc,
RpcVirtualConnection* connection, VIRTUAL_CONNECTION_STATE state);
FREERDP_LOCAL BOOL rpc_connect(rdpRpc* rpc, int timeout);
FREERDP_LOCAL rdpRpc* rpc_new(rdpTransport* transport);
FREERDP_LOCAL void rpc_free(rdpRpc* rpc);
#endif /* FREERDP_LIB_CORE_GATEWAY_RPC_H */