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f15364bd4c
This adds IPv6 support to the interfaces that are used to express nfsd exports. All addressed are stored internally as IPv6; backwards compatibility is maintained using mapped addresses. Thanks to Bruce Fields, Brian Haley, Neil Brown and Hideaki Joshifuji for comments Signed-off-by: Aurelien Charbon <aurelien.charbon@bull.net> Cc: Neil Brown <neilb@suse.de> Cc: Brian Haley <brian.haley@hp.com> Cc: YOSHIFUJI Hideaki / 吉藤英明 <yoshfuji@linux-ipv6.org> Signed-off-by: J. Bruce Fields <bfields@citi.umich.edu>
173 lines
5.3 KiB
C
173 lines
5.3 KiB
C
/*
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* linux/include/linux/sunrpc/svcauth.h
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*
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* RPC server-side authentication stuff.
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*
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* Copyright (C) 1995, 1996 Olaf Kirch <okir@monad.swb.de>
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*/
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#ifndef _LINUX_SUNRPC_SVCAUTH_H_
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#define _LINUX_SUNRPC_SVCAUTH_H_
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#ifdef __KERNEL__
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#include <linux/string.h>
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#include <linux/sunrpc/msg_prot.h>
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#include <linux/sunrpc/cache.h>
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#include <linux/hash.h>
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#define SVC_CRED_NGROUPS 32
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struct svc_cred {
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uid_t cr_uid;
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gid_t cr_gid;
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struct group_info *cr_group_info;
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};
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struct svc_rqst; /* forward decl */
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struct in6_addr;
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/* Authentication is done in the context of a domain.
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*
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* Currently, the nfs server uses the auth_domain to stand
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* for the "client" listed in /etc/exports.
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*
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* More generally, a domain might represent a group of clients using
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* a common mechanism for authentication and having a common mapping
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* between local identity (uid) and network identity. All clients
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* in a domain have similar general access rights. Each domain can
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* contain multiple principals which will have different specific right
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* based on normal Discretionary Access Control.
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*
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* A domain is created by an authentication flavour module based on name
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* only. Userspace then fills in detail on demand.
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*
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* In the case of auth_unix and auth_null, the auth_domain is also
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* associated with entries in another cache representing the mapping
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* of ip addresses to the given client.
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*/
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struct auth_domain {
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struct kref ref;
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struct hlist_node hash;
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char *name;
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struct auth_ops *flavour;
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};
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/*
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* Each authentication flavour registers an auth_ops
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* structure.
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* name is simply the name.
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* flavour gives the auth flavour. It determines where the flavour is registered
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* accept() is given a request and should verify it.
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* It should inspect the authenticator and verifier, and possibly the data.
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* If there is a problem with the authentication *authp should be set.
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* The return value of accept() can indicate:
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* OK - authorised. client and credential are set in rqstp.
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* reqbuf points to arguments
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* resbuf points to good place for results. verfier
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* is (probably) already in place. Certainly space is
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* reserved for it.
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* DROP - simply drop the request. It may have been deferred
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* GARBAGE - rpc garbage_args error
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* SYSERR - rpc system_err error
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* DENIED - authp holds reason for denial.
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* COMPLETE - the reply is encoded already and ready to be sent; no
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* further processing is necessary. (This is used for processing
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* null procedure calls which are used to set up encryption
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* contexts.)
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*
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* accept is passed the proc number so that it can accept NULL rpc requests
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* even if it cannot authenticate the client (as is sometimes appropriate).
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*
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* release() is given a request after the procedure has been run.
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* It should sign/encrypt the results if needed
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* It should return:
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* OK - the resbuf is ready to be sent
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* DROP - the reply should be quitely dropped
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* DENIED - authp holds a reason for MSG_DENIED
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* SYSERR - rpc system_err
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*
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* domain_release()
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* This call releases a domain.
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* set_client()
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* Givens a pending request (struct svc_rqst), finds and assigns
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* an appropriate 'auth_domain' as the client.
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*/
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struct auth_ops {
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char * name;
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struct module *owner;
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int flavour;
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int (*accept)(struct svc_rqst *rq, __be32 *authp);
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int (*release)(struct svc_rqst *rq);
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void (*domain_release)(struct auth_domain *);
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int (*set_client)(struct svc_rqst *rq);
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};
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#define SVC_GARBAGE 1
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#define SVC_SYSERR 2
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#define SVC_VALID 3
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#define SVC_NEGATIVE 4
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#define SVC_OK 5
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#define SVC_DROP 6
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#define SVC_DENIED 7
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#define SVC_PENDING 8
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#define SVC_COMPLETE 9
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extern int svc_authenticate(struct svc_rqst *rqstp, __be32 *authp);
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extern int svc_authorise(struct svc_rqst *rqstp);
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extern int svc_set_client(struct svc_rqst *rqstp);
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extern int svc_auth_register(rpc_authflavor_t flavor, struct auth_ops *aops);
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extern void svc_auth_unregister(rpc_authflavor_t flavor);
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extern struct auth_domain *unix_domain_find(char *name);
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extern void auth_domain_put(struct auth_domain *item);
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extern int auth_unix_add_addr(struct in6_addr *addr, struct auth_domain *dom);
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extern struct auth_domain *auth_domain_lookup(char *name, struct auth_domain *new);
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extern struct auth_domain *auth_domain_find(char *name);
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extern struct auth_domain *auth_unix_lookup(struct in6_addr *addr);
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extern int auth_unix_forget_old(struct auth_domain *dom);
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extern void svcauth_unix_purge(void);
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extern void svcauth_unix_info_release(void *);
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extern int svcauth_unix_set_client(struct svc_rqst *rqstp);
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static inline unsigned long hash_str(char *name, int bits)
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{
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unsigned long hash = 0;
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unsigned long l = 0;
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int len = 0;
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unsigned char c;
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do {
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if (unlikely(!(c = *name++))) {
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c = (char)len; len = -1;
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}
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l = (l << 8) | c;
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len++;
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if ((len & (BITS_PER_LONG/8-1))==0)
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hash = hash_long(hash^l, BITS_PER_LONG);
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} while (len);
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return hash >> (BITS_PER_LONG - bits);
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}
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static inline unsigned long hash_mem(char *buf, int length, int bits)
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{
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unsigned long hash = 0;
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unsigned long l = 0;
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int len = 0;
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unsigned char c;
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do {
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if (len == length) {
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c = (char)len; len = -1;
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} else
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c = *buf++;
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l = (l << 8) | c;
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len++;
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if ((len & (BITS_PER_LONG/8-1))==0)
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hash = hash_long(hash^l, BITS_PER_LONG);
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} while (len);
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return hash >> (BITS_PER_LONG - bits);
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}
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#endif /* __KERNEL__ */
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#endif /* _LINUX_SUNRPC_SVCAUTH_H_ */
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