/* Unix SMB/CIFS implementation. SMB parameters and setup Copyright (C) Andrew Tridgell 1992-1998 Copyright (C) Luke Kenneth Casson Leighton 1996-1998 Copyright (C) Jeremy Allison 1998 Copyright (C) James Myers 2003 This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #ifndef _SMBCLI_CONTEXT_H #define _SMBCLI_CONTEXT_H struct smbcli_tree; /* forward declare */ struct smbcli_request; /* forward declare */ struct smbcli_session; /* forward declare */ struct smbcli_transport; /* forward declare */ struct smb_signing_context { void (*sign_outgoing_message)(struct smbcli_request *req); BOOL (*check_incoming_message)(struct smbcli_request *req); void (*free_signing_context)(struct smb_signing_context *sign_info); DATA_BLOB mac_key; uint32_t next_seq_num; BOOL allow_smb_signing; BOOL doing_signing; BOOL mandatory_signing; BOOL seen_valid; /* Have I ever seen a validly signed packet? */ }; /* context that will be and has been negotiated between the client and server */ struct smbcli_negotiate { /* * negotiated maximum transmit size - this is given to us by the server */ uint32_t max_xmit; /* maximum number of requests that can be multiplexed */ uint16_t max_mux; /* the negotiatiated protocol */ enum protocol_types protocol; uint8_t sec_mode; /* security mode returned by negprot */ uint8_t key_len; DATA_BLOB server_guid; /* server_guid */ DATA_BLOB secblob; /* cryptkey or negTokenInit blob */ uint32_t sesskey; struct smb_signing_context sign_info; /* capabilities that the server reported */ uint32_t capabilities; int server_zone; time_t server_time; uint_t readbraw_supported:1; uint_t writebraw_supported:1; const char *server_domain; }; /* this is the context for a SMB socket associated with the socket itself */ struct smbcli_socket { TALLOC_CTX *mem_ctx; /* life of socket pool */ /* when the reference count reaches zero then the socket is destroyed */ int reference_count; struct in_addr dest_ip; /* dest hostname (which may or may not be a DNS name) */ char *hostname; /* the port used */ int port; /* the open file descriptor */ int fd; /* a count of the number of packets we have received. We * actually only care about zero/non-zero at this stage */ uint_t pkt_count; /* the network address of the client */ char *client_addr; /* timeout for socket operations in milliseconds. */ int timeout; }; /* this structure allows applications to control the behaviour of the client library */ struct smbcli_options { uint_t use_oplocks:1; uint_t use_level2_oplocks:1; uint_t use_spnego:1; }; /* this is the context for the client transport layer */ struct smbcli_transport { TALLOC_CTX *mem_ctx; /* when the reference count reaches zero then the transport is destroyed */ int reference_count; /* socket level info */ struct smbcli_socket *socket; /* the next mid to be allocated - needed for signing and request matching */ uint16_t next_mid; /* negotiated protocol information */ struct smbcli_negotiate negotiate; /* options to control the behaviour of the client code */ struct smbcli_options options; /* is a readbraw pending? we need to handle that case specially on receiving packets */ uint_t readbraw_pending:1; /* an idle function - if this is defined then it will be called once every period seconds while we are waiting for a packet */ struct { void (*func)(struct smbcli_transport *, void *); void *private; uint_t period; } idle; /* the error fields from the last message */ struct { enum {ETYPE_NONE, ETYPE_DOS, ETYPE_NT, ETYPE_SOCKET, ETYPE_NBT} etype; union { struct { uint8_t eclass; uint16_t ecode; } dos; NTSTATUS nt_status; enum {SOCKET_READ_TIMEOUT, SOCKET_READ_EOF, SOCKET_READ_ERROR, SOCKET_WRITE_ERROR, SOCKET_READ_BAD_SIG} socket_error; uint_t nbt_error; } e; } error; struct { /* a oplock break request handler */ BOOL (*handler)(struct smbcli_transport *transport, uint16_t tid, uint16_t fnum, uint8_t level, void *private); /* private data passed to the oplock handler */ void *private; } oplock; /* a list of async requests that are pending for send on this connection */ struct smbcli_request *pending_send; /* a list of async requests that are pending for receive on this connection */ struct smbcli_request *pending_recv; /* remember the called name - some sub-protocols require us to know the server name */ struct nmb_name called; /* a buffer for partially received SMB packets. */ struct { uint8_t header[NBT_HDR_SIZE]; size_t req_size; size_t received; uint8_t *buffer; } recv_buffer; /* the event handle for waiting for socket IO */ struct { struct event_context *ctx; struct fd_event *fde; struct timed_event *te; } event; }; /* this is the context for the user */ /* this is the context for the session layer */ struct smbcli_session { TALLOC_CTX *mem_ctx; /* life of session */ /* when the reference count reaches zero then the session is destroyed */ int reference_count; /* transport layer info */ struct smbcli_transport *transport; /* after a session setup the server provides us with a vuid identifying the security context */ uint16_t vuid; /* default pid for this session */ uint32_t pid; DATA_BLOB user_session_key; /* the spnego context if we use extented security */ struct gensec_security *gensec; }; /* smbcli_tree context: internal state for a tree connection. */ struct smbcli_tree { /* life of tree tree */ TALLOC_CTX *mem_ctx; /* when the reference count reaches zero then the tree is destroyed */ int reference_count; /* session layer info */ struct smbcli_session *session; uint16_t tid; /* tree id, aka cnum */ char *device; char *fs_type; }; /* a client request moves between the following 4 states. */ enum smbcli_request_state {SMBCLI_REQUEST_INIT, /* we are creating the request */ SMBCLI_REQUEST_SEND, /* the request is in the outgoing socket Q */ SMBCLI_REQUEST_RECV, /* we are waiting for a matching reply */ SMBCLI_REQUEST_DONE, /* the request is finished */ SMBCLI_REQUEST_ERROR}; /* a packet or transport level error has occurred */ /* the context for a single SMB request. This is passed to any request-context * functions (similar to context.h, the server version). * This will allow requests to be multi-threaded. */ struct smbcli_request { /* allow a request to be part of a list of requests */ struct smbcli_request *next, *prev; /* a talloc context for the lifetime of this request */ TALLOC_CTX *mem_ctx; /* each request is in one of 4 possible states */ enum smbcli_request_state state; /* a request always has a transport context, nearly always has a session context and usually has a tree context */ struct smbcli_transport *transport; struct smbcli_session *session; struct smbcli_tree *tree; /* the flags2 from the SMB request, in raw form (host byte order). Used to parse strings */ uint16_t flags2; /* the NT status for this request. Set by packet receive code or code detecting error. */ NTSTATUS status; /* the sequence number of this packet - used for signing */ uint_t seq_num; /* set if this is a one-way request, meaning we are not expecting a reply from the server. */ uint_t one_way_request:1; /* set this when the request should only increment the signing counter by one */ uint_t sign_single_increment:1; /* the mid of this packet - used to match replies */ uint16_t mid; struct request_buffer in; struct request_buffer out; /* information on what to do with a reply when it is received asyncronously. If this is not setup when a reply is received then the reply is discarded The private pointer is private to the caller of the client library (the application), not private to the library */ struct { void (*fn)(struct smbcli_request *); void *private; } async; }; /* smbcli_state: internal state used in libcli library for single-threaded callers, i.e. a single session on a single socket. */ struct smbcli_state { TALLOC_CTX *mem_ctx; /* life of client pool */ struct smbcli_transport *transport; struct smbcli_session *session; struct smbcli_tree *tree; struct substitute_context substitute; }; /* useful way of catching wct errors with file and line number */ #define SMBCLI_CHECK_MIN_WCT(req, wcount) if ((req)->in.wct < (wcount)) { \ DEBUG(1,("Unexpected WCT %d at %s(%d) - expected min %d\n", (req)->in.wct, __FILE__, __LINE__, wcount)); \ req->status = NT_STATUS_INVALID_PARAMETER; \ goto failed; \ } #define SMBCLI_CHECK_WCT(req, wcount) if ((req)->in.wct != (wcount)) { \ DEBUG(1,("Unexpected WCT %d at %s(%d) - expected %d\n", (req)->in.wct, __FILE__, __LINE__, wcount)); \ req->status = NT_STATUS_INVALID_PARAMETER; \ goto failed; \ } #endif /* _SMBCLI_CONTEXT_H */