void test_run(void) { initialize(); #if TEST_CASE == LOGIC_TEST logic_test(); #elif TEST_CASE == TIMER_TEST timer_test(); #elif TEST_CASE == COMPONENT_TEST component_test(); #elif TEST_CASE == PROTOCOL_TEST protocol_test(); #elif TEST_CASE == POWER_TEST power_test(); #elif TEST_CASE == IDLE_TEST idle_test(); #elif TEST_CASE == STATE_TEST state_test(); #elif TEST_CASE == WORK_TEST work_test(); #elif TEST_CASE == FILE_TEST file_test(); #elif TEST_CASE == PICTURE_TEST picture_test(); #elif TEST_CASE == CONSUME_POWER consume_power(); #elif TEST_CASE == INIT_FILE init_file(); #elif TEST_CASE == FACTORY_TEST factory_test(); #elif TEST_CASE == MOBILE_STATE_TEST mobile_state_test(); #elif TEST_CASE == MESSAGE_REPLY_TEST message_reply_test(); #elif TEST_CASE == TF_TEST tf_test(); #elif TEST_CASE == SCREEN_TEST screen_test(); #elif TEST_CASE == UPGRADE_TEST upgrade_test(); #elif TEST_CASE == MOBILE_TEST mobile_test(); #endif }
int nfs4_op_lockt(struct nfs_argop4 *op, compound_data_t *data, struct nfs_resop4 *resp) { /* Alias for arguments */ LOCKT4args * const arg_LOCKT4 = &op->nfs_argop4_u.oplockt; /* Alias for response */ LOCKT4res * const res_LOCKT4 = &resp->nfs_resop4_u.oplockt; /* Return code from state calls */ state_status_t state_status = STATE_SUCCESS; /* Client id record */ nfs_client_id_t *clientid = NULL; /* Lock owner name */ state_nfs4_owner_name_t owner_name; /* Lock owner record */ state_owner_t *lock_owner = NULL; /* Owner of conflicting lock */ state_owner_t *conflict_owner = NULL; /* Description of lock to test */ fsal_lock_param_t lock_desc = { FSAL_NO_LOCK, 0, 0 }; /* Description of conflicting lock */ fsal_lock_param_t conflict_desc; /* return code from id confirm calls */ int rc; LogDebug(COMPONENT_NFS_V4_LOCK, "Entering NFS v4 LOCKT handler ----------------------------"); /* Initialize to sane default */ resp->resop = NFS4_OP_LOCKT; res_LOCKT4->status = nfs4_sanity_check_FH(data, REGULAR_FILE, false); if (res_LOCKT4->status != NFS4_OK) return res_LOCKT4->status; /* Lock length should not be 0 */ if (arg_LOCKT4->length == 0LL) { res_LOCKT4->status = NFS4ERR_INVAL; return res_LOCKT4->status; } if (nfs_in_grace()) { res_LOCKT4->status = NFS4ERR_GRACE; return res_LOCKT4->status; } /* Convert lock parameters to internal types */ switch (arg_LOCKT4->locktype) { case READ_LT: case READW_LT: lock_desc.lock_type = FSAL_LOCK_R; break; case WRITE_LT: case WRITEW_LT: lock_desc.lock_type = FSAL_LOCK_W; break; default: LogDebug(COMPONENT_NFS_V4_LOCK, "Invalid lock type"); res_LOCKT4->status = NFS4ERR_INVAL; return res_LOCKT4->status; } lock_desc.lock_start = arg_LOCKT4->offset; if (arg_LOCKT4->length != STATE_LOCK_OFFSET_EOF) lock_desc.lock_length = arg_LOCKT4->length; else lock_desc.lock_length = 0; /* Check for range overflow. Comparing beyond 2^64 is not * possible in 64 bit precision, but off+len > 2^64-1 is * equivalent to len > 2^64-1 - off */ if (lock_desc.lock_length > (STATE_LOCK_OFFSET_EOF - lock_desc.lock_start)) { res_LOCKT4->status = NFS4ERR_INVAL; return res_LOCKT4->status; } /* Check clientid */ rc = nfs_client_id_get_confirmed(data->minorversion == 0 ? arg_LOCKT4->owner.clientid : data->session->clientid, &clientid); if (rc != CLIENT_ID_SUCCESS) { res_LOCKT4->status = clientid_error_to_nfsstat(rc); return res_LOCKT4->status; } PTHREAD_MUTEX_lock(&clientid->cid_mutex); if (data->minorversion == 0 && !reserve_lease(clientid)) { PTHREAD_MUTEX_unlock(&clientid->cid_mutex); dec_client_id_ref(clientid); res_LOCKT4->status = NFS4ERR_EXPIRED; return res_LOCKT4->status; } PTHREAD_MUTEX_unlock(&clientid->cid_mutex); /* Is this lock_owner known ? */ convert_nfs4_lock_owner(&arg_LOCKT4->owner, &owner_name); /* This lock owner is not known yet, allocated and set up a new one */ lock_owner = create_nfs4_owner(&owner_name, clientid, STATE_LOCK_OWNER_NFSV4, NULL, 0, NULL, CARE_ALWAYS); LogStateOwner("Lock: ", lock_owner); if (lock_owner == NULL) { LogEvent(COMPONENT_NFS_V4_LOCK, "LOCKT unable to create lock owner"); res_LOCKT4->status = NFS4ERR_SERVERFAULT; goto out; } LogLock(COMPONENT_NFS_V4_LOCK, NIV_FULL_DEBUG, "LOCKT", data->current_entry, lock_owner, &lock_desc); if (data->minorversion == 0) { op_ctx->clientid = &lock_owner->so_owner.so_nfs4_owner.so_clientid; } /* Now we have a lock owner and a stateid. Go ahead and test * the lock in SAL (and FSAL). */ state_status = state_test(data->current_entry, lock_owner, &lock_desc, &conflict_owner, &conflict_desc); if (state_status == STATE_LOCK_CONFLICT) { /* A conflicting lock from a different lock_owner, * returns NFS4ERR_DENIED */ LogStateOwner("Conflict: ", conflict_owner); Process_nfs4_conflict(&res_LOCKT4->LOCKT4res_u.denied, conflict_owner, &conflict_desc); } if (data->minorversion == 0) op_ctx->clientid = NULL; /* Release NFS4 Open Owner reference */ dec_state_owner_ref(lock_owner); /* Return result */ res_LOCKT4->status = nfs4_Errno_state(state_status); out: /* Update the lease before exit */ if (data->minorversion == 0) { PTHREAD_MUTEX_lock(&clientid->cid_mutex); update_lease(clientid); PTHREAD_MUTEX_unlock(&clientid->cid_mutex); } dec_client_id_ref(clientid); return res_LOCKT4->status; } /* nfs4_op_lockt */
int nlm4_Test(nfs_arg_t * parg /* IN */ , exportlist_t * pexport /* IN */ , fsal_op_context_t * pcontext /* IN */ , cache_inode_client_t * pclient /* INOUT */ , hash_table_t * ht /* INOUT */ , struct svc_req *preq /* IN */ , nfs_res_t * pres /* OUT */ ) { nlm4_testargs * arg = &parg->arg_nlm4_test; cache_entry_t * pentry; state_status_t state_status = CACHE_INODE_SUCCESS; char buffer[MAXNETOBJ_SZ * 2]; state_nlm_client_t * nlm_client; state_owner_t * nlm_owner, * holder; state_lock_desc_t lock, conflict; int rc; netobj_to_string(&arg->cookie, buffer, 1024); LogDebug(COMPONENT_NLM, "REQUEST PROCESSING: Calling nlm4_Test svid=%d off=%llx len=%llx cookie=%s", (int) arg->alock.svid, (unsigned long long) arg->alock.l_offset, (unsigned long long) arg->alock.l_len, buffer); if(!copy_netobj(&pres->res_nlm4test.cookie, &arg->cookie)) { pres->res_nlm4test.test_stat.stat = NLM4_FAILED; LogDebug(COMPONENT_NLM, "REQUEST RESULT: nlm4_Test %s", lock_result_str(pres->res_nlm4.stat.stat)); return NFS_REQ_OK; } if(in_nlm_grace_period()) { pres->res_nlm4test.test_stat.stat = NLM4_DENIED_GRACE_PERIOD; LogDebug(COMPONENT_NLM, "REQUEST RESULT: nlm4_Test %s", lock_result_str(pres->res_nlm4.stat.stat)); return NFS_REQ_OK; } /* TODO FSF: * * TEST passes TRUE for care because we do need a non-NULL owner, but * we could expand the options to allow for a "free" owner to be * returned, that doesn't need to be in the hash table, so if the * owner isn't found in the Hash table, don't add it, just return * the "free" owner. */ rc = nlm_process_parameters(preq, arg->exclusive, &arg->alock, &lock, ht, &pentry, pcontext, pclient, CARE_NO_MONITOR, &nlm_client, &nlm_owner, NULL); if(rc >= 0) { /* Present the error back to the client */ pres->res_nlm4.stat.stat = (nlm4_stats)rc; LogDebug(COMPONENT_NLM, "REQUEST RESULT: nlm4_Unlock %s", lock_result_str(pres->res_nlm4.stat.stat)); return NFS_REQ_OK; } if(state_test(pentry, pcontext, nlm_owner, &lock, &holder, &conflict, pclient, &state_status) != STATE_SUCCESS) { pres->res_nlm4test.test_stat.stat = nlm_convert_state_error(state_status); if(state_status == STATE_LOCK_CONFLICT) { nlm_process_conflict(&pres->res_nlm4test.test_stat.nlm4_testrply_u.holder, holder, &conflict); } } else { pres->res_nlm4.stat.stat = NLM4_GRANTED; } LogFullDebug(COMPONENT_NLM, "Back from state_test"); /* Release the NLM Client and NLM Owner references we have */ dec_nlm_client_ref(nlm_client); dec_nlm_owner_ref(nlm_owner); LogDebug(COMPONENT_NLM, "REQUEST RESULT: nlm4_Test %s", lock_result_str(pres->res_nlm4.stat.stat)); return NFS_REQ_OK; }