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/*
Copyright (c) 2010 Gluster, Inc. <http://www.gluster.com>
This file is part of GlusterFS.
GlusterFS 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 3 of the License,
or (at your option) any later version.
GlusterFS 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, see
<http://www.gnu.org/licenses/>.
*/
#ifndef _RPCSVC_H
#define _RPCSVC_H
#ifndef _CONFIG_H
#define _CONFIG_H
#include "config.h"
#endif
#include "event.h"
#include "rpc-transport.h"
#include "logging.h"
#include "dict.h"
#include "mem-pool.h"
#include "list.h"
#include "iobuf.h"
#include "xdr-rpc.h"
#include "glusterfs.h"
#include "xlator.h"
#include "rpcsvc-common.h"
#include <pthread.h>
#include <sys/uio.h>
#include <inttypes.h>
#include <rpc/rpc_msg.h>
#include "compat.h"
#ifndef NGRPS
#define NGRPS 16
#endif /* !NGRPS */
#ifndef MAX_IOVEC
#define MAX_IOVEC 16
#endif
#define GF_RPCSVC "rpc-service"
#define RPCSVC_THREAD_STACK_SIZE ((size_t)(1024 * GF_UNIT_KB))
#define RPCSVC_FRAGHDR_SIZE 4 /* 4-byte RPC fragment header size */
#define RPCSVC_DEFAULT_LISTEN_PORT GF_DEFAULT_BASE_PORT
#define RPCSVC_DEFAULT_MEMFACTOR 15
#define RPCSVC_EVENTPOOL_SIZE_MULT 1024
#define RPCSVC_POOLCOUNT_MULT 35
#define RPCSVC_CONN_READ (128 * GF_UNIT_KB)
#define RPCSVC_PAGE_SIZE (128 * GF_UNIT_KB)
/* RPC Record States */
#define RPCSVC_READ_FRAGHDR 1
#define RPCSVC_READ_FRAG 2
/* The size in bytes, if crossed by a fragment will be handed over to the
* vectored actor so that it can allocate its buffers the way it wants.
* In our RPC layer, we assume that vectored RPC requests/records are never
* spread over multiple RPC fragments since that prevents us from determining
* whether the record should be handled in RPC layer completely or handed to
* the vectored handler.
*/
#define RPCSVC_VECTORED_FRAGSZ 4096
#define RPCSVC_VECTOR_READCRED 1003
#define RPCSVC_VECTOR_READVERFSZ 1004
#define RPCSVC_VECTOR_READVERF 1005
#define RPCSVC_VECTOR_IGNORE 1006
#define RPCSVC_VECTOR_READVEC 1007
#define RPCSVC_VECTOR_READPROCHDR 1008
#define rpcsvc_record_vectored_baremsg(rs) (((rs)->state == RPCSVC_READ_FRAG) && (rs)->vecstate == 0)
#define rpcsvc_record_vectored_cred(rs) ((rs)->vecstate == RPCSVC_VECTOR_READCRED)
#define rpcsvc_record_vectored_verfsz(rs) ((rs)->vecstate == RPCSVC_VECTOR_READVERFSZ)
#define rpcsvc_record_vectored_verfread(rs) ((rs)->vecstate == RPCSVC_VECTOR_READVERF)
#define rpcsvc_record_vectored_ignore(rs) ((rs)->vecstate == RPCSVC_VECTOR_IGNORE)
#define rpcsvc_record_vectored_readvec(rs) ((rs)->vecstate == RPCSVC_VECTOR_READVEC)
#define rpcsvc_record_vectored_readprochdr(rs) ((rs)->vecstate == RPCSVC_VECTOR_READPROCHDR)
#define rpcsvc_record_vectored(rs) ((rs)->fragsize > RPCSVC_VECTORED_FRAGSZ)
/* Includes bytes up to and including the credential length field. The credlen
* will be followed by @credlen bytes of credential data which will have to be
* read separately by the vectored reader. After the credentials comes the
* verifier which will also have to be read separately including the 8 bytes of
* verf flavour and verflen.
*/
#define RPCSVC_BARERPC_MSGSZ 32
#define rpcsvc_record_readfraghdr(rs) ((rs)->state == RPCSVC_READ_FRAGHDR)
#define rpcsvc_record_readfrag(rs) ((rs)->state == RPCSVC_READ_FRAG)
#define RPCSVC_LOWVERS 2
#define RPCSVC_HIGHVERS 2
#if 0
#error "defined in /usr/include/rpc/auth.h"
#define AUTH_NONE 0 /* no authentication */
#define AUTH_NULL 0 /* backward compatibility */
#define AUTH_SYS 1 /* unix style (uid, gids) */
#define AUTH_UNIX AUTH_SYS
#define AUTH_SHORT 2 /* short hand unix style */
#define AUTH_DES 3 /* des style (encrypted timestamps) */
#define AUTH_DH AUTH_DES /* Diffie-Hellman (this is DES) */
#define AUTH_KERB 4 /* kerberos style */
#endif /* */
#define AUTH_GLUSTERFS 5
typedef struct rpcsvc_program rpcsvc_program_t;
struct rpcsvc_notify_wrapper {
struct list_head list;
void *data;
rpcsvc_notify_t notify;
};
typedef struct rpcsvc_notify_wrapper rpcsvc_notify_wrapper_t;
typedef struct rpcsvc_request rpcsvc_request_t;
typedef struct {
rpc_transport_t *trans;
rpcsvc_t *svc;
/* FIXME: remove address from this structure. Instead use get_myaddr
* interface implemented by individual transports.
*/
struct sockaddr_storage sa;
struct list_head list;
} rpcsvc_listener_t;
struct rpcsvc_config {
int max_block_size;
};
#define RPCSVC_MAX_AUTH_BYTES 400
typedef struct rpcsvc_auth_data {
int flavour;
int datalen;
char authdata[RPCSVC_MAX_AUTH_BYTES];
} rpcsvc_auth_data_t;
#define rpcsvc_auth_flavour(au) ((au).flavour)
/* The container for the RPC call handed up to an actor.
* Dynamically allocated. Lives till the call reply is completely
* transmitted.
* */
struct rpcsvc_request {
/* connection over which this request came. */
rpc_transport_t *trans;
rpcsvc_t *svc;
rpcsvc_program_t *prog;
/* The identifier for the call from client.
* Needed to pair the reply with the call.
*/
uint32_t xid;
int prognum;
int progver;
int procnum;
int type;
/* Uid and gid filled by the rpc-auth module during the authentication
* phase.
*/
uid_t uid;
gid_t gid;
pid_t pid;
uint64_t lk_owner;
uint64_t gfs_id;
/* Might want to move this to AUTH_UNIX specifix state since this array
* is not available for every authenticatino scheme.
*/
gid_t auxgids[NGRPS];
int auxgidcount;
/* The RPC message payload, contains the data required
* by the program actors. This is the buffer that will need to
* be de-xdred by the actor.
*/
struct iovec msg[MAX_IOVEC];
int count;
struct iobref *iobref;
/* Status of the RPC call, whether it was accepted or denied. */
int rpc_status;
/* In case, the call was denied, the RPC error is stored here
* till the reply is sent.
*/
int rpc_err;
/* In case the failure happened because of an authentication problem
* , this value needs to be assigned the correct auth error number.
*/
int auth_err;
/* There can be cases of RPC requests where the reply needs to
* be built from multiple sources. For eg. where even the NFS reply can
* contain a payload, as in the NFSv3 read reply. Here the RPC header
* ,NFS header and the read data are brought together separately from
* different buffers, so we need to stage the buffers temporarily here
* before all of them get added to the connection's transmission list.
*/
struct list_head txlist;
/* While the reply record is being built, this variable keeps track
* of how many bytes have been added to the record.
*/
size_t payloadsize;
/* The credentials extracted from the rpc request */
rpcsvc_auth_data_t cred;
/* The verified extracted from the rpc request. In request side
* processing this contains the verifier sent by the client, on reply
* side processing, it is filled with the verified that will be
* sent to the client.
*/
rpcsvc_auth_data_t verf;
/* Container for a RPC program wanting to store a temp
* request-specific item.
*/
void *private;
/* Container for transport to store request-specific item */
void *trans_private;
};
#define rpcsvc_request_program(req) ((rpcsvc_program_t *)((req)->prog))
#define rpcsvc_request_procnum(req) (((req)->procnum))
#define rpcsvc_request_program_private(req) (((rpcsvc_program_t *)((req)->prog))->private)
#define rpcsvc_request_accepted(req) ((req)->rpc_status == MSG_ACCEPTED)
#define rpcsvc_request_accepted_success(req) ((req)->rpc_err == SUCCESS)
#define rpcsvc_request_uid(req) ((req)->uid)
#define rpcsvc_request_gid(req) ((req)->gid)
#define rpcsvc_request_prog_minauth(req) (rpcsvc_request_program(req)->min_auth)
#define rpcsvc_request_cred_flavour(req) (rpcsvc_auth_flavour(req->cred))
#define rpcsvc_request_verf_flavour(req) (rpcsvc_auth_flavour(req->verf))
#define rpcsvc_request_service(req) ((req)->svc)
#define rpcsvc_request_uid(req) ((req)->uid)
#define rpcsvc_request_gid(req) ((req)->gid)
#define rpcsvc_request_private(req) ((req)->private)
#define rpcsvc_request_xid(req) ((req)->xid)
#define rpcsvc_request_set_private(req,prv) (req)->private = (void *)(prv)
#define rpcsvc_request_iobref_ref(req) (iobref_ref ((req)->iobref))
#define rpcsvc_request_record_ref(req) (iobuf_ref ((req)->recordiob))
#define rpcsvc_request_record_unref(req) (iobuf_unref ((req)->recordiob))
#define rpcsvc_request_record_iob(req) ((req)->recordiob)
#define rpcsvc_request_set_vecstate(req, state) ((req)->vecstate = state)
#define rpcsvc_request_vecstate(req) ((req)->vecstate)
#define rpcsvc_request_transport(req) ((req)->trans)
#define RPCSVC_ACTOR_SUCCESS 0
#define RPCSVC_ACTOR_ERROR (-1)
#define RPCSVC_ACTOR_IGNORE (-2)
/* Functor for every type of protocol actor
* must be defined like this.
*
* See the request structure for info on how to handle the request
* in the program actor.
*
* On successful santify checks inside the actor, it should return
* RPCSVC_ACTOR_SUCCESS.
* On an error, on which the RPC layer is expected to return a reply, the actor
* should return RPCSVC_ACTOR_ERROR.
*
*/
typedef int (*rpcsvc_actor) (rpcsvc_request_t *req);
typedef int (*rpcsvc_vector_actor) (rpcsvc_request_t *req, struct iovec *vec,
int count, struct iobref *iobref);
typedef int (*rpcsvc_vector_sizer) (int state, ssize_t *readsize, char *addr);
/* Every protocol actor will also need to specify the function the RPC layer
* will use to serialize or encode the message into XDR format just before
* transmitting on the connection.
*/
typedef void *(*rpcsvc_encode_reply) (void *msg);
/* Once the reply has been transmitted, the message will have to be de-allocated
* , so every actor will need to provide a function that deallocates the message
* it had allocated as a response.
*/
typedef void (*rpcsvc_deallocate_reply) (void *msg);
#define RPCSVC_NAME_MAX 32
/* The descriptor for each procedure/actor that runs
* over the RPC service.
*/
typedef struct rpcsvc_actor_desc {
char procname[RPCSVC_NAME_MAX];
int procnum;
rpcsvc_actor actor;
/* Handler for cases where the RPC requests fragments are large enough
* to benefit from being decoded into aligned memory addresses. While
* decoding the request in a non-vectored manner, due to the nature of
* the XDR scheme, RPC cannot guarantee memory aligned addresses for
* the resulting message-specific structures. Allowing a specialized
* handler for letting the RPC program read the data from the network
* directly into its alligned buffers.
*/
rpcsvc_vector_actor vector_actor;
rpcsvc_vector_sizer vector_sizer;
} rpcsvc_actor_t;
/* Describes a program and its version along with the function pointers
* required to handle the procedures/actors of each program/version.
* Never changed ever by any thread so no need for a lock.
*/
struct rpcsvc_program {
char progname[RPCSVC_NAME_MAX];
int prognum;
int progver;
/* FIXME */
dict_t *options; /* An opaque dictionary
* populated by the program
* (probably from xl->options)
* which contain enough
* information for transport to
* initialize. As a part of
* cleanup, the members of
* options which are of interest
* to transport should be put
* into a structure for better
* readability and structure
* should replace options member
* here.
*/
uint16_t progport; /* Registered with portmap */
#if 0
int progaddrfamily; /* AF_INET or AF_INET6 */
char *proghost; /* Bind host, can be NULL */
#endif
rpcsvc_actor_t *actors; /* All procedure handlers */
int numactors; /* Num actors in actor array */
int proghighvers; /* Highest ver for program
supported by the system. */
int proglowvers; /* Lowest ver */
/* Program specific state handed to actors */
void *private;
/* This upcall is provided by the program during registration.
* It is used to notify the program about events like connection being
* destroyed etc. The rpc program may take appropriate actions, for eg.,
* in the case of connection being destroyed, it should cleanup its
* state stored in the connection.
*/
rpcsvc_notify_t notify;
/* An integer that identifies the min auth strength that is required
* by this protocol, for eg. MOUNT3 needs AUTH_UNIX at least.
* See RFC 1813, Section 5.2.1.
*/
int min_auth;
/* list member to link to list of registered services with rpcsvc */
struct list_head program;
};
typedef struct rpcsvc_cbk_program {
char *progname;
int prognum;
int progver;
} rpcsvc_cbk_program_t;
/* All users of RPC services should use this API to register their
* procedure handlers.
*/
extern int
rpcsvc_program_register (rpcsvc_t *svc, rpcsvc_program_t *program);
extern int
rpcsvc_program_unregister (rpcsvc_t *svc, rpcsvc_program_t *program);
/* This will create and add a listener to listener pool. Programs can
* use any of the listener in this pool. A single listener can be used by
* multiple programs and vice versa. There can also be a one to one mapping
* between a program and a listener. After registering a program with rpcsvc,
* the program has to be associated with a listener using
* rpcsvc_program_register_portmap.
*/
/* FIXME: can multiple programs registered on same port? */
extern int32_t
rpcsvc_create_listeners (rpcsvc_t *svc, dict_t *options, char *name);
void
rpcsvc_listener_destroy (rpcsvc_listener_t *listener);
extern int
rpcsvc_program_register_portmap (rpcsvc_program_t *newprog, uint32_t port);
extern int
rpcsvc_register_portmap_enabled (rpcsvc_t *svc);
/* Inits the global RPC service data structures.
* Called in main.
*/
extern rpcsvc_t *
rpcsvc_init (xlator_t *xl, glusterfs_ctx_t *ctx, dict_t *options);
int
rpcsvc_register_notify (rpcsvc_t *svc, rpcsvc_notify_t notify, void *mydata);
/* unregister a notification callback @notify with data @mydata from svc.
* returns the number of notification callbacks unregistered.
*/
int
rpcsvc_unregister_notify (rpcsvc_t *svc, rpcsvc_notify_t notify, void *mydata);
int
rpcsvc_submit_message (rpcsvc_request_t *req, struct iovec *proghdr,
int hdrcount, struct iovec *payload, int payloadcount,
struct iobref *iobref);
int
rpcsvc_submit_generic (rpcsvc_request_t *req, struct iovec *proghdr,
int hdrcount, struct iovec *payload, int payloadcount,
struct iobref *iobref);
extern int
rpcsvc_error_reply (rpcsvc_request_t *req);
#define RPCSVC_PEER_STRLEN 1024
#define RPCSVC_AUTH_ACCEPT 1
#define RPCSVC_AUTH_REJECT 2
#define RPCSVC_AUTH_DONTCARE 3
extern int
rpcsvc_transport_peername (rpc_transport_t *trans, char *hostname, int hostlen);
extern inline int
rpcsvc_transport_peeraddr (rpc_transport_t *trans, char *addrstr, int addrlen,
struct sockaddr_storage *returnsa, socklen_t sasize);
extern int
rpcsvc_transport_peer_check (dict_t *options, char *volname,
rpc_transport_t *trans);
extern int
rpcsvc_transport_privport_check (rpcsvc_t *svc, char *volname,
rpc_transport_t *trans);
#define rpcsvc_request_seterr(req, err) (req)->rpc_err = err
#define rpcsvc_request_set_autherr(req, err) (req)->auth_err = err
extern int rpcsvc_submit_vectors (rpcsvc_request_t *req);
extern int rpcsvc_request_attach_vector (rpcsvc_request_t *req,
struct iovec msgvec, struct iobuf *iob,
struct iobref *ioref, int finalvector);
typedef int (*auth_init_trans) (rpc_transport_t *trans, void *priv);
typedef int (*auth_init_request) (rpcsvc_request_t *req, void *priv);
typedef int (*auth_request_authenticate) (rpcsvc_request_t *req, void *priv);
/* This structure needs to be registered by every authentication scheme.
* Our authentication schemes are stored per connection because
* each connection will end up using a different authentication scheme.
*/
typedef struct rpcsvc_auth_ops {
auth_init_trans transport_init;
auth_init_request request_init;
auth_request_authenticate authenticate;
} rpcsvc_auth_ops_t;
typedef struct rpcsvc_auth_flavour_desc {
char authname[RPCSVC_NAME_MAX];
int authnum;
rpcsvc_auth_ops_t *authops;
void *authprivate;
} rpcsvc_auth_t;
typedef void * (*rpcsvc_auth_initer_t) (rpcsvc_t *svc, dict_t *options);
struct rpcsvc_auth_list {
struct list_head authlist;
rpcsvc_auth_initer_t init;
/* Should be the name with which we identify the auth scheme given
* in the volfile options.
* This should be different from the authname in rpc_auth_t
* in way that makes it easier to specify this scheme in the volfile.
* This is because the technical names of the schemes can be a bit
* arcane.
*/
char name[RPCSVC_NAME_MAX];
rpcsvc_auth_t *auth;
int enable;
};
extern int
rpcsvc_auth_request_init (rpcsvc_request_t *req);
extern int
rpcsvc_auth_init (rpcsvc_t *svc, dict_t *options);
extern int
rpcsvc_auth_transport_init (rpc_transport_t *xprt);
extern int
rpcsvc_authenticate (rpcsvc_request_t *req);
extern int
rpcsvc_auth_array (rpcsvc_t *svc, char *volname, int *autharr, int arrlen);
/* If the request has been sent using AUTH_UNIX, this function returns the
* auxiliary gids as an array, otherwise, it returns NULL.
* Move to auth-unix specific source file when we need to modularize the
* authentication code even further to support mode auth schemes.
*/
extern gid_t *
rpcsvc_auth_unix_auxgids (rpcsvc_request_t *req, int *arrlen);
extern int
rpcsvc_combine_gen_spec_volume_checks (int gen, int spec);
extern char *
rpcsvc_volume_allowed (dict_t *options, char *volname);
int rpcsvc_callback_submit (rpcsvc_t *rpc, rpc_transport_t *trans,
rpcsvc_cbk_program_t *prog, int procnum,
struct iovec *proghdr, int proghdrcount);
int
rpcsvc_transport_unix_options_build (dict_t **options, char *filepath);
int
rpcsvc_set_allow_insecure (rpcsvc_t *svc, dict_t *options);
int
rpcsvc_auth_array (rpcsvc_t *svc, char *volname, int *autharr, int arrlen);
char *
rpcsvc_volume_allowed (dict_t *options, char *volname);
rpcsvc_vector_sizer
rpcsvc_get_program_vector_sizer (rpcsvc_t *svc, uint32_t prognum,
uint32_t progver, uint32_t procnum);
#endif
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