X-Git-Url: https://git.whamcloud.com/?a=blobdiff_plain;f=lustre%2Fptlrpc%2Fgss%2Fgss_keyring.c;h=e722d3ca3858c1b7ae7ed965508a694357ce5fff;hb=0754bc8f2623bea184111af216f7567608db35b6;hp=adfebcfec69265d49f61218b11690645f646c676;hpb=495778754c1e8935ecd9c308e23f9797165863c5;p=fs%2Flustre-release.git diff --git a/lustre/ptlrpc/gss/gss_keyring.c b/lustre/ptlrpc/gss/gss_keyring.c index adfebcf..e722d3c 100644 --- a/lustre/ptlrpc/gss/gss_keyring.c +++ b/lustre/ptlrpc/gss/gss_keyring.c @@ -1,6 +1,4 @@ -/* -*- mode: c; c-basic-offset: 8; indent-tabs-mode: nil; -*- - * vim:expandtab:shiftwidth=8:tabstop=8: - * +/* * GPL HEADER START * * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. @@ -26,8 +24,10 @@ * GPL HEADER END */ /* - * Copyright 2008 Sun Microsystems, Inc. All rights reserved + * Copyright (c) 2007, 2010, Oracle and/or its affiliates. All rights reserved. * Use is subject to license terms. + * + * Copyright (c) 2012, 2014, Intel Corporation. */ /* * This file is part of Lustre, http://www.lustre.org/ @@ -38,25 +38,18 @@ * Author: Eric Mei */ -#ifndef EXPORT_SYMTAB -# define EXPORT_SYMTAB -#endif #define DEBUG_SUBSYSTEM S_SEC -#ifdef __KERNEL__ #include #include #include #include #include -#include #include #include #include +#include #include #include -#else -#include -#endif #include #include @@ -80,7 +73,7 @@ static int sec_install_rctx_kr(struct ptlrpc_sec *sec, /* * the timeout is only for the case that upcall child process die abnormally. * in any other cases it should finally update kernel key. - * + * * FIXME we'd better to incorporate the client & server side upcall timeouts * into the framework of Adaptive Timeouts, but we need to figure out how to * make sure that kernel knows the upcall processes is in-progress or died @@ -92,27 +85,27 @@ static int sec_install_rctx_kr(struct ptlrpc_sec *sec, * internal helpers * ****************************************/ -#define DUMP_PROCESS_KEYRINGS(tsk) \ -{ \ - CWARN("DUMP PK: %s[%u,%u/%u](<-%s[%u,%u/%u]): " \ - "a %d, t %d, p %d, s %d, u %d, us %d, df %d\n", \ - tsk->comm, tsk->pid, tsk->uid, tsk->fsuid, \ - tsk->parent->comm, tsk->parent->pid, \ - tsk->parent->uid, tsk->parent->fsuid, \ - tsk->request_key_auth ? \ - tsk->request_key_auth->serial : 0, \ - tsk->thread_keyring ? \ - tsk->thread_keyring->serial : 0, \ - tsk->signal->process_keyring ? \ - tsk->signal->process_keyring->serial : 0, \ - tsk->signal->session_keyring ? \ - tsk->signal->session_keyring->serial : 0, \ - tsk->user->uid_keyring ? \ - tsk->user->uid_keyring->serial : 0, \ - tsk->user->session_keyring ? \ - tsk->user->session_keyring->serial : 0, \ - tsk->jit_keyring \ - ); \ +#define DUMP_PROCESS_KEYRINGS(tsk) \ +{ \ + CWARN("DUMP PK: %s[%u,%u/%u](<-%s[%u,%u/%u]): " \ + "a %d, t %d, p %d, s %d, u %d, us %d, df %d\n", \ + tsk->comm, tsk->pid, tsk->uid, tsk->fsuid, \ + tsk->parent->comm, tsk->parent->pid, \ + tsk->parent->uid, tsk->parent->fsuid, \ + tsk->request_key_auth ? \ + tsk->request_key_auth->serial : 0, \ + key_cred(tsk)->thread_keyring ? \ + key_cred(tsk)->thread_keyring->serial : 0, \ + key_tgcred(tsk)->process_keyring ? \ + key_tgcred(tsk)->process_keyring->serial : 0, \ + key_tgcred(tsk)->session_keyring ? \ + key_tgcred(tsk)->session_keyring->serial : 0, \ + key_cred(tsk)->user->uid_keyring ? \ + key_cred(tsk)->user->uid_keyring->serial : 0, \ + key_cred(tsk)->user->session_keyring ? \ + key_cred(tsk)->user->session_keyring->serial : 0, \ + key_cred(tsk)->jit_keyring \ + ); \ } #define DUMP_KEY(key) \ @@ -124,18 +117,24 @@ static int sec_install_rctx_kr(struct ptlrpc_sec *sec, ); \ } +#define key_cred(tsk) ((tsk)->cred) +#ifdef HAVE_CRED_TGCRED +#define key_tgcred(tsk) ((tsk)->cred->tgcred) +#else +#define key_tgcred(tsk) key_cred(tsk) +#endif static inline void keyring_upcall_lock(struct gss_sec_keyring *gsec_kr) { #ifdef HAVE_KEYRING_UPCALL_SERIALIZED - mutex_lock(&gsec_kr->gsk_uc_lock); + mutex_lock(&gsec_kr->gsk_uc_lock); #endif } static inline void keyring_upcall_unlock(struct gss_sec_keyring *gsec_kr) { #ifdef HAVE_KEYRING_UPCALL_SERIALIZED - mutex_unlock(&gsec_kr->gsk_uc_lock); + mutex_unlock(&gsec_kr->gsk_uc_lock); #endif } @@ -157,23 +156,23 @@ static void ctx_upcall_timeout_kr(unsigned long data) key_revoke_locked(key); } -static -void ctx_start_timer_kr(struct ptlrpc_cli_ctx *ctx, long timeout) +static void ctx_start_timer_kr(struct ptlrpc_cli_ctx *ctx, long timeout) { - struct gss_cli_ctx_keyring *gctx_kr = ctx2gctx_keyring(ctx); - struct timer_list *timer = gctx_kr->gck_timer; + struct gss_cli_ctx_keyring *gctx_kr = ctx2gctx_keyring(ctx); + struct timer_list *timer = gctx_kr->gck_timer; - LASSERT(timer); + LASSERT(timer); - CDEBUG(D_SEC, "ctx %p: start timer %lds\n", ctx, timeout); - timeout = timeout * HZ + cfs_time_current(); + CDEBUG(D_SEC, "ctx %p: start timer %lds\n", ctx, timeout); + timeout = msecs_to_jiffies(timeout * MSEC_PER_SEC) + + cfs_time_current(); - init_timer(timer); - timer->expires = timeout; - timer->data = (unsigned long ) ctx; - timer->function = ctx_upcall_timeout_kr; + init_timer(timer); + timer->expires = timeout; + timer->data = (unsigned long ) ctx; + timer->function = ctx_upcall_timeout_kr; - add_timer(timer); + add_timer(timer); } /* @@ -223,55 +222,55 @@ struct ptlrpc_cli_ctx *ctx_create_kr(struct ptlrpc_sec *sec, return NULL; } - ctx->cc_expire = cfs_time_current_sec() + KEYRING_UPCALL_TIMEOUT; - clear_bit(PTLRPC_CTX_NEW_BIT, &ctx->cc_flags); - atomic_inc(&ctx->cc_refcount); /* for the caller */ + ctx->cc_expire = cfs_time_current_sec() + KEYRING_UPCALL_TIMEOUT; + clear_bit(PTLRPC_CTX_NEW_BIT, &ctx->cc_flags); + atomic_inc(&ctx->cc_refcount); /* for the caller */ - return ctx; + return ctx; } static void ctx_destroy_kr(struct ptlrpc_cli_ctx *ctx) { - struct ptlrpc_sec *sec = ctx->cc_sec; - struct gss_cli_ctx_keyring *gctx_kr = ctx2gctx_keyring(ctx); + struct ptlrpc_sec *sec = ctx->cc_sec; + struct gss_cli_ctx_keyring *gctx_kr = ctx2gctx_keyring(ctx); - CDEBUG(D_SEC, "destroying ctx %p\n", ctx); + CDEBUG(D_SEC, "destroying ctx %p\n", ctx); /* at this time the association with key has been broken. */ LASSERT(sec); - LASSERT(atomic_read(&sec->ps_refcount) > 0); - LASSERT(atomic_read(&sec->ps_nctx) > 0); - LASSERT(test_bit(PTLRPC_CTX_CACHED_BIT, &ctx->cc_flags) == 0); + LASSERT(atomic_read(&sec->ps_refcount) > 0); + LASSERT(atomic_read(&sec->ps_nctx) > 0); + LASSERT(test_bit(PTLRPC_CTX_CACHED_BIT, &ctx->cc_flags) == 0); LASSERT(gctx_kr->gck_key == NULL); - ctx_clear_timer_kr(ctx); - LASSERT(gctx_kr->gck_timer == NULL); + ctx_clear_timer_kr(ctx); + LASSERT(gctx_kr->gck_timer == NULL); - if (gss_cli_ctx_fini_common(sec, ctx)) - return; + if (gss_cli_ctx_fini_common(sec, ctx)) + return; - OBD_FREE_PTR(gctx_kr); + OBD_FREE_PTR(gctx_kr); - atomic_dec(&sec->ps_nctx); - sptlrpc_sec_put(sec); + atomic_dec(&sec->ps_nctx); + sptlrpc_sec_put(sec); } static void ctx_release_kr(struct ptlrpc_cli_ctx *ctx, int sync) { - if (sync) { - ctx_destroy_kr(ctx); - } else { - atomic_inc(&ctx->cc_refcount); - sptlrpc_gc_add_ctx(ctx); - } + if (sync) { + ctx_destroy_kr(ctx); + } else { + atomic_inc(&ctx->cc_refcount); + sptlrpc_gc_add_ctx(ctx); + } } static void ctx_put_kr(struct ptlrpc_cli_ctx *ctx, int sync) { - LASSERT(atomic_read(&ctx->cc_refcount) > 0); + LASSERT(atomic_read(&ctx->cc_refcount) > 0); - if (atomic_dec_and_test(&ctx->cc_refcount)) - ctx_release_kr(ctx, sync); + if (atomic_dec_and_test(&ctx->cc_refcount)) + ctx_release_kr(ctx, sync); } /* @@ -290,33 +289,33 @@ static void ctx_put_kr(struct ptlrpc_cli_ctx *ctx, int sync) static inline void spin_lock_if(spinlock_t *lock, int condition) { - if (condition) - spin_lock(lock); + if (condition) + spin_lock(lock); } static inline void spin_unlock_if(spinlock_t *lock, int condition) { - if (condition) - spin_unlock(lock); + if (condition) + spin_unlock(lock); } static void ctx_enlist_kr(struct ptlrpc_cli_ctx *ctx, int is_root, int locked) { - struct ptlrpc_sec *sec = ctx->cc_sec; - struct gss_sec_keyring *gsec_kr = sec2gsec_keyring(sec); + struct ptlrpc_sec *sec = ctx->cc_sec; + struct gss_sec_keyring *gsec_kr = sec2gsec_keyring(sec); - LASSERT(!test_bit(PTLRPC_CTX_CACHED_BIT, &ctx->cc_flags)); - LASSERT(atomic_read(&ctx->cc_refcount) > 0); + LASSERT(!test_bit(PTLRPC_CTX_CACHED_BIT, &ctx->cc_flags)); + LASSERT(atomic_read(&ctx->cc_refcount) > 0); - spin_lock_if(&sec->ps_lock, !locked); + spin_lock_if(&sec->ps_lock, !locked); - atomic_inc(&ctx->cc_refcount); - set_bit(PTLRPC_CTX_CACHED_BIT, &ctx->cc_flags); - hlist_add_head(&ctx->cc_cache, &gsec_kr->gsk_clist); - if (is_root) - gsec_kr->gsk_root_ctx = ctx; + atomic_inc(&ctx->cc_refcount); + set_bit(PTLRPC_CTX_CACHED_BIT, &ctx->cc_flags); + hlist_add_head(&ctx->cc_cache, &gsec_kr->gsk_clist); + if (is_root) + gsec_kr->gsk_root_ctx = ctx; - spin_unlock_if(&sec->ps_lock, !locked); + spin_unlock_if(&sec->ps_lock, !locked); } /* @@ -328,24 +327,24 @@ static void ctx_enlist_kr(struct ptlrpc_cli_ctx *ctx, int is_root, int locked) */ static int ctx_unlist_kr(struct ptlrpc_cli_ctx *ctx, int locked) { - struct ptlrpc_sec *sec = ctx->cc_sec; - struct gss_sec_keyring *gsec_kr = sec2gsec_keyring(sec); + struct ptlrpc_sec *sec = ctx->cc_sec; + struct gss_sec_keyring *gsec_kr = sec2gsec_keyring(sec); - /* if hashed bit has gone, leave the job to somebody who is doing it */ - if (test_and_clear_bit(PTLRPC_CTX_CACHED_BIT, &ctx->cc_flags) == 0) - return 0; + /* if hashed bit has gone, leave the job to somebody who is doing it */ + if (test_and_clear_bit(PTLRPC_CTX_CACHED_BIT, &ctx->cc_flags) == 0) + return 0; - /* drop ref inside spin lock to prevent race with other operations */ - spin_lock_if(&sec->ps_lock, !locked); + /* drop ref inside spin lock to prevent race with other operations */ + spin_lock_if(&sec->ps_lock, !locked); - if (gsec_kr->gsk_root_ctx == ctx) - gsec_kr->gsk_root_ctx = NULL; - hlist_del_init(&ctx->cc_cache); - atomic_dec(&ctx->cc_refcount); + if (gsec_kr->gsk_root_ctx == ctx) + gsec_kr->gsk_root_ctx = NULL; + hlist_del_init(&ctx->cc_cache); + atomic_dec(&ctx->cc_refcount); - spin_unlock_if(&sec->ps_lock, !locked); + spin_unlock_if(&sec->ps_lock, !locked); - return 1; + return 1; } /* @@ -354,16 +353,16 @@ static int ctx_unlist_kr(struct ptlrpc_cli_ctx *ctx, int locked) */ static void bind_key_ctx(struct key *key, struct ptlrpc_cli_ctx *ctx) { - LASSERT(atomic_read(&ctx->cc_refcount) > 0); + LASSERT(atomic_read(&ctx->cc_refcount) > 0); LASSERT(atomic_read(&key->usage) > 0); - LASSERT(ctx2gctx_keyring(ctx)->gck_key == NULL); - LASSERT(key->payload.data == NULL); - - /* at this time context may or may not in list. */ - key_get(key); - atomic_inc(&ctx->cc_refcount); - ctx2gctx_keyring(ctx)->gck_key = key; - key->payload.data = ctx; + LASSERT(ctx2gctx_keyring(ctx)->gck_key == NULL); + LASSERT(key->payload.data == NULL); + + /* at this time context may or may not in list. */ + key_get(key); + atomic_inc(&ctx->cc_refcount); + ctx2gctx_keyring(ctx)->gck_key = key; + key->payload.data = ctx; } /* @@ -373,7 +372,7 @@ static void bind_key_ctx(struct key *key, struct ptlrpc_cli_ctx *ctx) static void unbind_key_ctx(struct key *key, struct ptlrpc_cli_ctx *ctx) { LASSERT(key->payload.data == ctx); - LASSERT(test_bit(PTLRPC_CTX_CACHED_BIT, &ctx->cc_flags) == 0); + LASSERT(test_bit(PTLRPC_CTX_CACHED_BIT, &ctx->cc_flags) == 0); /* must revoke the key, or others may treat it as newly created */ key_revoke_locked(key); @@ -446,36 +445,36 @@ static void kill_key_locked(struct key *key) */ static void dispose_ctx_list_kr(struct hlist_head *freelist) { - struct hlist_node *pos, *next; - struct ptlrpc_cli_ctx *ctx; - struct gss_cli_ctx *gctx; - - hlist_for_each_entry_safe(ctx, pos, next, freelist, cc_cache) { - hlist_del_init(&ctx->cc_cache); - - /* reverse ctx: update current seq to buddy svcctx if exist. - * ideally this should be done at gss_cli_ctx_finalize(), but - * the ctx destroy could be delayed by: - * 1) ctx still has reference; - * 2) ctx destroy is asynchronous; - * and reverse import call inval_all_ctx() require this be done - *_immediately_ otherwise newly created reverse ctx might copy - * the very old sequence number from svcctx. */ - gctx = ctx2gctx(ctx); - if (!rawobj_empty(&gctx->gc_svc_handle) && - sec_is_reverse(gctx->gc_base.cc_sec)) { - gss_svc_upcall_update_sequence(&gctx->gc_svc_handle, - (__u32) atomic_read(&gctx->gc_seq)); - } - - /* we need to wakeup waiting reqs here. the context might - * be forced released before upcall finished, then the - * late-arrived downcall can't find the ctx even. */ - sptlrpc_cli_ctx_wakeup(ctx); - - unbind_ctx_kr(ctx); - ctx_put_kr(ctx, 0); - } + struct hlist_node __maybe_unused *pos, *next; + struct ptlrpc_cli_ctx *ctx; + struct gss_cli_ctx *gctx; + + cfs_hlist_for_each_entry_safe(ctx, pos, next, freelist, cc_cache) { + hlist_del_init(&ctx->cc_cache); + + /* reverse ctx: update current seq to buddy svcctx if exist. + * ideally this should be done at gss_cli_ctx_finalize(), but + * the ctx destroy could be delayed by: + * 1) ctx still has reference; + * 2) ctx destroy is asynchronous; + * and reverse import call inval_all_ctx() require this be done + * _immediately_ otherwise newly created reverse ctx might copy + * the very old sequence number from svcctx. */ + gctx = ctx2gctx(ctx); + if (!rawobj_empty(&gctx->gc_svc_handle) && + sec_is_reverse(gctx->gc_base.cc_sec)) { + gss_svc_upcall_update_sequence(&gctx->gc_svc_handle, + (__u32) atomic_read(&gctx->gc_seq)); + } + + /* we need to wakeup waiting reqs here. the context might + * be forced released before upcall finished, then the + * late-arrived downcall can't find the ctx even. */ + sptlrpc_cli_ctx_wakeup(ctx); + + unbind_ctx_kr(ctx); + ctx_put_kr(ctx, 0); + } } /* @@ -485,21 +484,22 @@ static void dispose_ctx_list_kr(struct hlist_head *freelist) static struct ptlrpc_cli_ctx * sec_lookup_root_ctx_kr(struct ptlrpc_sec *sec) { - struct gss_sec_keyring *gsec_kr = sec2gsec_keyring(sec); - struct ptlrpc_cli_ctx *ctx = NULL; + struct gss_sec_keyring *gsec_kr = sec2gsec_keyring(sec); + struct ptlrpc_cli_ctx *ctx = NULL; - spin_lock(&sec->ps_lock); + spin_lock(&sec->ps_lock); ctx = gsec_kr->gsk_root_ctx; if (ctx == NULL && unlikely(sec_is_reverse(sec))) { - struct hlist_node *node; - struct ptlrpc_cli_ctx *tmp; + struct hlist_node __maybe_unused *node; + struct ptlrpc_cli_ctx *tmp; /* reverse ctx, search root ctx in list, choose the one * with shortest expire time, which is most possibly have * an established peer ctx at client side. */ - hlist_for_each_entry(tmp, node, &gsec_kr->gsk_clist, cc_cache) { + cfs_hlist_for_each_entry(tmp, node, &gsec_kr->gsk_clist, + cc_cache) { if (ctx == NULL || ctx->cc_expire == 0 || ctx->cc_expire > tmp->cc_expire) { ctx = tmp; @@ -509,15 +509,15 @@ struct ptlrpc_cli_ctx * sec_lookup_root_ctx_kr(struct ptlrpc_sec *sec) } } - if (ctx) { - LASSERT(atomic_read(&ctx->cc_refcount) > 0); - LASSERT(!hlist_empty(&gsec_kr->gsk_clist)); - atomic_inc(&ctx->cc_refcount); - } + if (ctx) { + LASSERT(atomic_read(&ctx->cc_refcount) > 0); + LASSERT(!hlist_empty(&gsec_kr->gsk_clist)); + atomic_inc(&ctx->cc_refcount); + } - spin_unlock(&sec->ps_lock); + spin_unlock(&sec->ps_lock); - return ctx; + return ctx; } #define RVS_CTX_EXPIRE_NICE (10) @@ -527,20 +527,20 @@ void rvs_sec_install_root_ctx_kr(struct ptlrpc_sec *sec, struct ptlrpc_cli_ctx *new_ctx, struct key *key) { - struct gss_sec_keyring *gsec_kr = sec2gsec_keyring(sec); - struct hlist_node *hnode; - struct ptlrpc_cli_ctx *ctx; - cfs_time_t now; - ENTRY; + struct gss_sec_keyring *gsec_kr = sec2gsec_keyring(sec); + struct hlist_node __maybe_unused *hnode; + struct ptlrpc_cli_ctx *ctx; + cfs_time_t now; + ENTRY; LASSERT(sec_is_reverse(sec)); - spin_lock(&sec->ps_lock); + spin_lock(&sec->ps_lock); now = cfs_time_current_sec(); /* set all existing ctxs short expiry */ - hlist_for_each_entry(ctx, hnode, &gsec_kr->gsk_clist, cc_cache) { + cfs_hlist_for_each_entry(ctx, hnode, &gsec_kr->gsk_clist, cc_cache) { if (ctx->cc_expire > now + RVS_CTX_EXPIRE_NICE) { ctx->cc_early_expire = 1; ctx->cc_expire = now + RVS_CTX_EXPIRE_NICE; @@ -556,7 +556,7 @@ void rvs_sec_install_root_ctx_kr(struct ptlrpc_sec *sec, if (key) bind_key_ctx(key, new_ctx); - spin_unlock(&sec->ps_lock); + spin_unlock(&sec->ps_lock); } static void construct_key_desc(void *buf, int bufsize, @@ -582,11 +582,11 @@ struct ptlrpc_sec * gss_sec_create_kr(struct obd_import *imp, if (gsec_kr == NULL) RETURN(NULL); - CFS_INIT_HLIST_HEAD(&gsec_kr->gsk_clist); + INIT_HLIST_HEAD(&gsec_kr->gsk_clist); gsec_kr->gsk_root_ctx = NULL; - mutex_init(&gsec_kr->gsk_root_uc_lock); + mutex_init(&gsec_kr->gsk_root_uc_lock); #ifdef HAVE_KEYRING_UPCALL_SERIALIZED - mutex_init(&gsec_kr->gsk_uc_lock); + mutex_init(&gsec_kr->gsk_uc_lock); #endif if (gss_sec_create_common(&gsec_kr->gsk_base, &gss_policy_keyring, @@ -614,7 +614,7 @@ void gss_sec_destroy_kr(struct ptlrpc_sec *sec) CDEBUG(D_SEC, "destroy %s@%p\n", sec->ps_policy->sp_name, sec); - LASSERT(hlist_empty(&gsec_kr->gsk_clist)); + LASSERT(hlist_empty(&gsec_kr->gsk_clist)); LASSERT(gsec_kr->gsk_root_ctx == NULL); gss_sec_destroy_common(gsec); @@ -640,39 +640,40 @@ static inline int user_is_root(struct ptlrpc_sec *sec, struct vfs_cred *vcred) */ static void request_key_unlink(struct key *key) { - struct task_struct *tsk = current; - struct key *ring; - - switch (tsk->jit_keyring) { - case KEY_REQKEY_DEFL_DEFAULT: - case KEY_REQKEY_DEFL_THREAD_KEYRING: - ring = key_get(tsk->thread_keyring); - if (ring) - break; - case KEY_REQKEY_DEFL_PROCESS_KEYRING: - ring = key_get(tsk->signal->process_keyring); - if (ring) - break; - case KEY_REQKEY_DEFL_SESSION_KEYRING: - rcu_read_lock(); - ring = key_get(rcu_dereference(tsk->signal->session_keyring)); - rcu_read_unlock(); - if (ring) - break; - case KEY_REQKEY_DEFL_USER_SESSION_KEYRING: - ring = key_get(tsk->user->session_keyring); - break; - case KEY_REQKEY_DEFL_USER_KEYRING: - ring = key_get(tsk->user->uid_keyring); - break; - case KEY_REQKEY_DEFL_GROUP_KEYRING: - default: - LBUG(); - } - - LASSERT(ring); - key_unlink(ring, key); - key_put(ring); + struct task_struct *tsk = current; + struct key *ring; + + switch (key_cred(tsk)->jit_keyring) { + case KEY_REQKEY_DEFL_DEFAULT: + case KEY_REQKEY_DEFL_THREAD_KEYRING: + ring = key_get(key_cred(tsk)->thread_keyring); + if (ring) + break; + case KEY_REQKEY_DEFL_PROCESS_KEYRING: + ring = key_get(key_tgcred(tsk)->process_keyring); + if (ring) + break; + case KEY_REQKEY_DEFL_SESSION_KEYRING: + rcu_read_lock(); + ring = key_get(rcu_dereference(key_tgcred(tsk) + ->session_keyring)); + rcu_read_unlock(); + if (ring) + break; + case KEY_REQKEY_DEFL_USER_SESSION_KEYRING: + ring = key_get(key_cred(tsk)->user->session_keyring); + break; + case KEY_REQKEY_DEFL_USER_KEYRING: + ring = key_get(key_cred(tsk)->user->uid_keyring); + break; + case KEY_REQKEY_DEFL_GROUP_KEYRING: + default: + LBUG(); + } + + LASSERT(ring); + key_unlink(ring, key); + key_put(ring); } static @@ -712,7 +713,7 @@ struct ptlrpc_cli_ctx * gss_sec_lookup_ctx_kr(struct ptlrpc_sec *sec, * the root upcall lock, make sure nobody else populated new root * context after last check. */ if (is_root) { - mutex_lock(&gsec_kr->gsk_root_uc_lock); + mutex_lock(&gsec_kr->gsk_root_uc_lock); ctx = sec_lookup_root_ctx_kr(sec); if (ctx) @@ -721,7 +722,23 @@ struct ptlrpc_cli_ctx * gss_sec_lookup_ctx_kr(struct ptlrpc_sec *sec, /* update reverse handle for root user */ sec2gsec(sec)->gs_rvs_hdl = gss_get_next_ctx_index(); - co_flags = "r"; + switch (sec->ps_part) { + case LUSTRE_SP_MDT: + co_flags = "m"; + break; + case LUSTRE_SP_OST: + co_flags = "o"; + break; + case LUSTRE_SP_MGC: + co_flags = "rmo"; + break; + case LUSTRE_SP_CLI: + co_flags = "r"; + break; + case LUSTRE_SP_MGS: + default: + LBUG(); + } } /* in case of setuid, key will be constructed as owner of fsuid/fsgid, @@ -734,6 +751,17 @@ struct ptlrpc_cli_ctx * gss_sec_lookup_ctx_kr(struct ptlrpc_sec *sec, * encode real uid/gid into callout info. */ + /* But first we need to make sure the obd type is supported */ + if (strcmp(imp->imp_obd->obd_type->typ_name, LUSTRE_MDC_NAME) && + strcmp(imp->imp_obd->obd_type->typ_name, LUSTRE_OSC_NAME) && + strcmp(imp->imp_obd->obd_type->typ_name, LUSTRE_MGC_NAME) && + strcmp(imp->imp_obd->obd_type->typ_name, LUSTRE_LWP_NAME) && + strcmp(imp->imp_obd->obd_type->typ_name, LUSTRE_OSP_NAME)) { + CERROR("obd %s is not a supported device\n", + imp->imp_obd->obd_name); + GOTO(out, ctx = NULL); + } + construct_key_desc(desc, sizeof(desc), sec, vcred->vc_uid); /* callout info format: @@ -744,11 +772,12 @@ struct ptlrpc_cli_ctx * gss_sec_lookup_ctx_kr(struct ptlrpc_sec *sec, if (coinfo == NULL) goto out; - snprintf(coinfo, coinfo_size, "%d:%s:%u:%u:%s:%d:"LPX64":%s", - sec->ps_id, sec2gsec(sec)->gs_mech->gm_name, - vcred->vc_uid, vcred->vc_gid, - co_flags, import_to_gss_svc(imp), - imp->imp_connection->c_peer.nid, imp->imp_obd->obd_name); + snprintf(coinfo, coinfo_size, "%d:%s:%u:%u:%s:%d:"LPX64":%s:"LPX64, + sec->ps_id, sec2gsec(sec)->gs_mech->gm_name, + vcred->vc_uid, vcred->vc_gid, + co_flags, import_to_gss_svc(imp), + imp->imp_connection->c_peer.nid, imp->imp_obd->obd_name, + imp->imp_connection->c_self); CDEBUG(D_SEC, "requesting key for %s\n", desc); @@ -770,37 +799,37 @@ struct ptlrpc_cli_ctx * gss_sec_lookup_ctx_kr(struct ptlrpc_sec *sec, * need wirtelock of key->sem to serialize them. */ down_write(&key->sem); - if (likely(key->payload.data != NULL)) { - ctx = key->payload.data; - - LASSERT(atomic_read(&ctx->cc_refcount) >= 1); - LASSERT(ctx2gctx_keyring(ctx)->gck_key == key); - LASSERT(atomic_read(&key->usage) >= 2); - - /* simply take a ref and return. it's upper layer's - * responsibility to detect & replace dead ctx. */ - atomic_inc(&ctx->cc_refcount); - } else { - /* pre initialization with a cli_ctx. this can't be done in - * key_instantiate() because we'v no enough information - * there. */ - ctx = ctx_create_kr(sec, vcred); - if (ctx != NULL) { - ctx_enlist_kr(ctx, is_root, 0); - bind_key_ctx(key, ctx); - - ctx_start_timer_kr(ctx, KEYRING_UPCALL_TIMEOUT); - - CDEBUG(D_SEC, "installed key %p <-> ctx %p (sec %p)\n", - key, ctx, sec); - } else { - /* we'd prefer to call key_revoke(), but we more like - * to revoke it within this key->sem locked period. */ - key_revoke_locked(key); - } - - create_new = 1; - } + if (likely(key->payload.data != NULL)) { + ctx = key->payload.data; + + LASSERT(atomic_read(&ctx->cc_refcount) >= 1); + LASSERT(ctx2gctx_keyring(ctx)->gck_key == key); + LASSERT(atomic_read(&key->usage) >= 2); + + /* simply take a ref and return. it's upper layer's + * responsibility to detect & replace dead ctx. */ + atomic_inc(&ctx->cc_refcount); + } else { + /* pre initialization with a cli_ctx. this can't be done in + * key_instantiate() because we'v no enough information + * there. */ + ctx = ctx_create_kr(sec, vcred); + if (ctx != NULL) { + ctx_enlist_kr(ctx, is_root, 0); + bind_key_ctx(key, ctx); + + ctx_start_timer_kr(ctx, KEYRING_UPCALL_TIMEOUT); + + CDEBUG(D_SEC, "installed key %p <-> ctx %p (sec %p)\n", + key, ctx, sec); + } else { + /* we'd prefer to call key_revoke(), but we more like + * to revoke it within this key->sem locked period. */ + key_revoke_locked(key); + } + + create_new = 1; + } up_write(&key->sem); @@ -810,7 +839,7 @@ struct ptlrpc_cli_ctx * gss_sec_lookup_ctx_kr(struct ptlrpc_sec *sec, key_put(key); out: if (is_root) - mutex_unlock(&gsec_kr->gsk_root_uc_lock); + mutex_unlock(&gsec_kr->gsk_root_uc_lock); RETURN(ctx); } @@ -819,8 +848,8 @@ void gss_sec_release_ctx_kr(struct ptlrpc_sec *sec, struct ptlrpc_cli_ctx *ctx, int sync) { - LASSERT(atomic_read(&sec->ps_refcount) > 0); - LASSERT(atomic_read(&ctx->cc_refcount) == 0); + LASSERT(atomic_read(&sec->ps_refcount) > 0); + LASSERT(atomic_read(&ctx->cc_refcount) == 0); ctx_release_kr(ctx, sync); } @@ -873,121 +902,120 @@ void flush_user_ctx_cache_kr(struct ptlrpc_sec *sec, * flush context of root or all, we iterate through the list. */ static -void flush_spec_ctx_cache_kr(struct ptlrpc_sec *sec, - uid_t uid, - int grace, int force) +void flush_spec_ctx_cache_kr(struct ptlrpc_sec *sec, uid_t uid, int grace, + int force) { - struct gss_sec_keyring *gsec_kr; - struct hlist_head freelist = CFS_HLIST_HEAD_INIT; - struct hlist_node *pos, *next; - struct ptlrpc_cli_ctx *ctx; - ENTRY; + struct gss_sec_keyring *gsec_kr; + struct hlist_head freelist = HLIST_HEAD_INIT; + struct hlist_node __maybe_unused *pos, *next; + struct ptlrpc_cli_ctx *ctx; + ENTRY; gsec_kr = sec2gsec_keyring(sec); - spin_lock(&sec->ps_lock); - hlist_for_each_entry_safe(ctx, pos, next, - &gsec_kr->gsk_clist, cc_cache) { - LASSERT(atomic_read(&ctx->cc_refcount) > 0); - - if (uid != -1 && uid != ctx->cc_vcred.vc_uid) - continue; - - /* at this moment there's at least 2 base reference: - * key association and in-list. */ - if (atomic_read(&ctx->cc_refcount) > 2) { - if (!force) - continue; - CWARN("flush busy ctx %p(%u->%s, extra ref %d)\n", - ctx, ctx->cc_vcred.vc_uid, - sec2target_str(ctx->cc_sec), - atomic_read(&ctx->cc_refcount) - 2); - } - - set_bit(PTLRPC_CTX_DEAD_BIT, &ctx->cc_flags); - if (!grace) - clear_bit(PTLRPC_CTX_UPTODATE_BIT, &ctx->cc_flags); - - atomic_inc(&ctx->cc_refcount); - - if (ctx_unlist_kr(ctx, 1)) { - hlist_add_head(&ctx->cc_cache, &freelist); - } else { - LASSERT(atomic_read(&ctx->cc_refcount) >= 2); - atomic_dec(&ctx->cc_refcount); - } - } - spin_unlock(&sec->ps_lock); - - dispose_ctx_list_kr(&freelist); - EXIT; + spin_lock(&sec->ps_lock); + cfs_hlist_for_each_entry_safe(ctx, pos, next, + &gsec_kr->gsk_clist, cc_cache) { + LASSERT(atomic_read(&ctx->cc_refcount) > 0); + + if (uid != -1 && uid != ctx->cc_vcred.vc_uid) + continue; + + /* at this moment there's at least 2 base reference: + * key association and in-list. */ + if (atomic_read(&ctx->cc_refcount) > 2) { + if (!force) + continue; + CWARN("flush busy ctx %p(%u->%s, extra ref %d)\n", + ctx, ctx->cc_vcred.vc_uid, + sec2target_str(ctx->cc_sec), + atomic_read(&ctx->cc_refcount) - 2); + } + + set_bit(PTLRPC_CTX_DEAD_BIT, &ctx->cc_flags); + if (!grace) + clear_bit(PTLRPC_CTX_UPTODATE_BIT, &ctx->cc_flags); + + atomic_inc(&ctx->cc_refcount); + + if (ctx_unlist_kr(ctx, 1)) { + hlist_add_head(&ctx->cc_cache, &freelist); + } else { + LASSERT(atomic_read(&ctx->cc_refcount) >= 2); + atomic_dec(&ctx->cc_refcount); + } + } + spin_unlock(&sec->ps_lock); + + dispose_ctx_list_kr(&freelist); + EXIT; } static int gss_sec_flush_ctx_cache_kr(struct ptlrpc_sec *sec, - uid_t uid, - int grace, int force) + uid_t uid, int grace, int force) { - ENTRY; + ENTRY; - CDEBUG(D_SEC, "sec %p(%d, nctx %d), uid %d, grace %d, force %d\n", - sec, atomic_read(&sec->ps_refcount), atomic_read(&sec->ps_nctx), - uid, grace, force); + CDEBUG(D_SEC, "sec %p(%d, nctx %d), uid %d, grace %d, force %d\n", + sec, atomic_read(&sec->ps_refcount), + atomic_read(&sec->ps_nctx), + uid, grace, force); - if (uid != -1 && uid != 0) - flush_user_ctx_cache_kr(sec, uid, grace, force); - else - flush_spec_ctx_cache_kr(sec, uid, grace, force); + if (uid != -1 && uid != 0) + flush_user_ctx_cache_kr(sec, uid, grace, force); + else + flush_spec_ctx_cache_kr(sec, uid, grace, force); - RETURN(0); + RETURN(0); } static void gss_sec_gc_ctx_kr(struct ptlrpc_sec *sec) { - struct gss_sec_keyring *gsec_kr = sec2gsec_keyring(sec); - struct hlist_head freelist = CFS_HLIST_HEAD_INIT; - struct hlist_node *pos, *next; - struct ptlrpc_cli_ctx *ctx; - ENTRY; - - CWARN("running gc\n"); - - spin_lock(&sec->ps_lock); - hlist_for_each_entry_safe(ctx, pos, next, - &gsec_kr->gsk_clist, cc_cache) { - LASSERT(atomic_read(&ctx->cc_refcount) > 0); - - atomic_inc(&ctx->cc_refcount); - - if (cli_ctx_check_death(ctx) && ctx_unlist_kr(ctx, 1)) { - hlist_add_head(&ctx->cc_cache, &freelist); - CWARN("unhashed ctx %p\n", ctx); - } else { - LASSERT(atomic_read(&ctx->cc_refcount) >= 2); - atomic_dec(&ctx->cc_refcount); - } - } - spin_unlock(&sec->ps_lock); - - dispose_ctx_list_kr(&freelist); - EXIT; - return; + struct gss_sec_keyring *gsec_kr = sec2gsec_keyring(sec); + struct hlist_head freelist = HLIST_HEAD_INIT; + struct hlist_node __maybe_unused *pos, *next; + struct ptlrpc_cli_ctx *ctx; + ENTRY; + + CWARN("running gc\n"); + + spin_lock(&sec->ps_lock); + cfs_hlist_for_each_entry_safe(ctx, pos, next, + &gsec_kr->gsk_clist, cc_cache) { + LASSERT(atomic_read(&ctx->cc_refcount) > 0); + + atomic_inc(&ctx->cc_refcount); + + if (cli_ctx_check_death(ctx) && ctx_unlist_kr(ctx, 1)) { + hlist_add_head(&ctx->cc_cache, &freelist); + CWARN("unhashed ctx %p\n", ctx); + } else { + LASSERT(atomic_read(&ctx->cc_refcount) >= 2); + atomic_dec(&ctx->cc_refcount); + } + } + spin_unlock(&sec->ps_lock); + + dispose_ctx_list_kr(&freelist); + EXIT; + return; } static int gss_sec_display_kr(struct ptlrpc_sec *sec, struct seq_file *seq) { - struct gss_sec_keyring *gsec_kr = sec2gsec_keyring(sec); - struct hlist_node *pos, *next; - struct ptlrpc_cli_ctx *ctx; - struct gss_cli_ctx *gctx; - time_t now = cfs_time_current_sec(); - ENTRY; - - spin_lock(&sec->ps_lock); - hlist_for_each_entry_safe(ctx, pos, next, - &gsec_kr->gsk_clist, cc_cache) { + struct gss_sec_keyring *gsec_kr = sec2gsec_keyring(sec); + struct hlist_node __maybe_unused *pos, *next; + struct ptlrpc_cli_ctx *ctx; + struct gss_cli_ctx *gctx; + time_t now = cfs_time_current_sec(); + ENTRY; + + spin_lock(&sec->ps_lock); + cfs_hlist_for_each_entry_safe(ctx, pos, next, + &gsec_kr->gsk_clist, cc_cache) { struct key *key; char flags_str[40]; char mech[40]; @@ -1004,25 +1032,25 @@ int gss_sec_display_kr(struct ptlrpc_sec *sec, struct seq_file *seq) snprintf(mech, sizeof(mech), "N/A"); mech[sizeof(mech) - 1] = '\0'; - seq_printf(seq, "%p: uid %u, ref %d, expire %ld(%+ld), fl %s, " - "seq %d, win %u, key %08x(ref %d), " - "hdl "LPX64":"LPX64", mech: %s\n", - ctx, ctx->cc_vcred.vc_uid, - atomic_read(&ctx->cc_refcount), - ctx->cc_expire, - ctx->cc_expire ? ctx->cc_expire - now : 0, - flags_str, - atomic_read(&gctx->gc_seq), - gctx->gc_win, - key ? key->serial : 0, - key ? atomic_read(&key->usage) : 0, - gss_handle_to_u64(&gctx->gc_handle), - gss_handle_to_u64(&gctx->gc_svc_handle), - mech); - } - spin_unlock(&sec->ps_lock); - - RETURN(0); + seq_printf(seq, "%p: uid %u, ref %d, expire %ld(%+ld), fl %s, " + "seq %d, win %u, key %08x(ref %d), " + "hdl "LPX64":"LPX64", mech: %s\n", + ctx, ctx->cc_vcred.vc_uid, + atomic_read(&ctx->cc_refcount), + ctx->cc_expire, + ctx->cc_expire ? ctx->cc_expire - now : 0, + flags_str, + atomic_read(&gctx->gc_seq), + gctx->gc_win, + key ? key->serial : 0, + key ? atomic_read(&key->usage) : 0, + gss_handle_to_u64(&gctx->gc_handle), + gss_handle_to_u64(&gctx->gc_svc_handle), + mech); + } + spin_unlock(&sec->ps_lock); + + RETURN(0); } /**************************************** @@ -1039,27 +1067,27 @@ int gss_cli_ctx_refresh_kr(struct ptlrpc_cli_ctx *ctx) static int gss_cli_ctx_validate_kr(struct ptlrpc_cli_ctx *ctx) { - LASSERT(atomic_read(&ctx->cc_refcount) > 0); - LASSERT(ctx->cc_sec); + LASSERT(atomic_read(&ctx->cc_refcount) > 0); + LASSERT(ctx->cc_sec); - if (cli_ctx_check_death(ctx)) { - kill_ctx_kr(ctx); - return 1; - } + if (cli_ctx_check_death(ctx)) { + kill_ctx_kr(ctx); + return 1; + } - if (cli_ctx_is_ready(ctx)) - return 0; - return 1; + if (cli_ctx_is_ready(ctx)) + return 0; + return 1; } static void gss_cli_ctx_die_kr(struct ptlrpc_cli_ctx *ctx, int grace) { - LASSERT(atomic_read(&ctx->cc_refcount) > 0); - LASSERT(ctx->cc_sec); + LASSERT(atomic_read(&ctx->cc_refcount) > 0); + LASSERT(ctx->cc_sec); - cli_ctx_expire(ctx); - kill_ctx_kr(ctx); + cli_ctx_expire(ctx); + kill_ctx_kr(ctx); } /**************************************** @@ -1204,8 +1232,15 @@ int gss_svc_install_rctx_kr(struct obd_import *imp, ****************************************/ static +#ifdef HAVE_KEY_TYPE_INSTANTIATE_2ARGS +int gss_kt_instantiate(struct key *key, struct key_preparsed_payload *prep) +{ + const void *data = prep->data; + size_t datalen = prep->datalen; +#else int gss_kt_instantiate(struct key *key, const void *data, size_t datalen) { +#endif int rc; ENTRY; @@ -1214,7 +1249,7 @@ int gss_kt_instantiate(struct key *key, const void *data, size_t datalen) RETURN(-EINVAL); } - if (key->payload.data != 0) { + if (key->payload.data != NULL) { CERROR("key already have payload\n"); RETURN(-EINVAL); } @@ -1229,20 +1264,20 @@ int gss_kt_instantiate(struct key *key, const void *data, size_t datalen) * the session keyring is created upon upcall, and don't change all * the way until upcall finished, so rcu lock is not needed here. */ - LASSERT(cfs_current()->signal->session_keyring); - - lockdep_off(); - rc = key_link(cfs_current()->signal->session_keyring, key); - lockdep_on(); - if (unlikely(rc)) { - CERROR("failed to link key %08x to keyring %08x: %d\n", - key->serial, - cfs_current()->signal->session_keyring->serial, rc); - RETURN(rc); - } - - CDEBUG(D_SEC, "key %p instantiated, ctx %p\n", key, key->payload.data); - RETURN(0); + LASSERT(key_tgcred(current)->session_keyring); + + lockdep_off(); + rc = key_link(key_tgcred(current)->session_keyring, key); + lockdep_on(); + if (unlikely(rc)) { + CERROR("failed to link key %08x to keyring %08x: %d\n", + key->serial, + key_tgcred(current)->session_keyring->serial, rc); + RETURN(rc); + } + + CDEBUG(D_SEC, "key %p instantiated, ctx %p\n", key, key->payload.data); + RETURN(0); } /* @@ -1250,19 +1285,26 @@ int gss_kt_instantiate(struct key *key, const void *data, size_t datalen) * on the context without fear of loosing refcount. */ static +#ifdef HAVE_KEY_TYPE_INSTANTIATE_2ARGS +int gss_kt_update(struct key *key, struct key_preparsed_payload *prep) +{ + const void *data = prep->data; + __u32 datalen32 = (__u32) prep->datalen; +#else int gss_kt_update(struct key *key, const void *data, size_t datalen) { + __u32 datalen32 = (__u32) datalen; +#endif struct ptlrpc_cli_ctx *ctx = key->payload.data; struct gss_cli_ctx *gctx; rawobj_t tmpobj = RAWOBJ_EMPTY; - __u32 datalen32 = (__u32) datalen; int rc; ENTRY; - if (data == NULL || datalen == 0) { - CWARN("invalid: data %p, len %lu\n", data, (long)datalen); - RETURN(-EINVAL); - } + if (data == NULL || datalen32 == 0) { + CWARN("invalid: data %p, len %lu\n", data, (long)datalen32); + RETURN(-EINVAL); + } /* if upcall finished negotiation too fast (mostly likely because * of local error happened) and call kt_update(), the ctx @@ -1280,10 +1322,10 @@ int gss_kt_update(struct key *key, const void *data, size_t datalen) RETURN(rc); } - LASSERT(atomic_read(&ctx->cc_refcount) > 0); - LASSERT(ctx->cc_sec); + LASSERT(atomic_read(&ctx->cc_refcount) > 0); + LASSERT(ctx->cc_sec); - ctx_clear_timer_kr(ctx); + ctx_clear_timer_kr(ctx); /* don't proceed if already refreshed */ if (cli_ctx_is_refreshed(ctx)) { @@ -1358,7 +1400,7 @@ out: cli_ctx_expire(ctx); if (rc != -ERESTART) - set_bit(PTLRPC_CTX_ERROR_BIT, &ctx->cc_flags); + set_bit(PTLRPC_CTX_ERROR_BIT, &ctx->cc_flags); } /* let user space think it's a success */ @@ -1366,11 +1408,31 @@ out: RETURN(0); } -static -int gss_kt_match(const struct key *key, const void *desc) +#ifndef HAVE_KEY_MATCH_DATA +static int +gss_kt_match(const struct key *key, const void *desc) { - return (strcmp(key->description, (const char *) desc) == 0); + return (strcmp(key->description, (const char *) desc) == 0); } +#else /* ! HAVE_KEY_MATCH_DATA */ +static bool +gss_kt_match(const struct key *key, const struct key_match_data *match_data) +{ + const char *desc = match_data->raw_data; + + return (strcmp(key->description, desc) == 0); +} + +/* + * Preparse the match criterion. + */ +static int gss_kt_match_preparse(struct key_match_data *match_data) +{ + match_data->lookup_type = KEYRING_SEARCH_LOOKUP_DIRECT; + match_data->cmp = gss_kt_match; + return 0; +} +#endif /* HAVE_KEY_MATCH_DATA */ static void gss_kt_destroy(struct key *key) @@ -1392,13 +1454,17 @@ void gss_kt_describe(const struct key *key, struct seq_file *s) static struct key_type gss_key_type = { - .name = "lgssc", - .def_datalen = 0, - .instantiate = gss_kt_instantiate, - .update = gss_kt_update, - .match = gss_kt_match, - .destroy = gss_kt_destroy, - .describe = gss_kt_describe, + .name = "lgssc", + .def_datalen = 0, + .instantiate = gss_kt_instantiate, + .update = gss_kt_update, +#ifdef HAVE_KEY_MATCH_DATA + .match_preparse = gss_kt_match_preparse, +#else + .match = gss_kt_match, +#endif + .destroy = gss_kt_destroy, + .describe = gss_kt_describe, }; /****************************************