/* * Copyright (c) 2002-2003 MontaVista Software, Inc. * * All rights reserved. * * Author: Steven Dake (sdake@mvista.com) * * This software licensed under BSD license, the text of which follows: * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * - Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * - Neither the name of the MontaVista Software, Inc. nor the names of its * contributors may be used to endorse or promote products derived from this * software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF * THE POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include #include #include #include #include #include #include "../include/ais_types.h" #include "../include/ais_amf.h" #include "../include/ais_msg.h" #include "util.h" struct res_overlay { struct res_header header; char data[4096]; }; /* * Data structure for instance data */ struct amfInstance { int fd; SaAmfCallbacksT callbacks; struct queue inq; SaNameT compName; int compRegistered; int finalize; pthread_mutex_t mutex; }; static void amfHandleInstanceDestructor (void *); /* * All instances in one database */ static struct saHandleDatabase amfHandleDatabase = { .handleCount = 0, .handles = 0, .mutex = PTHREAD_MUTEX_INITIALIZER, .handleInstanceDestructor = amfHandleInstanceDestructor }; /* * Versions supported */ static SaVersionT amfVersionsSupported[] = { { 'A', 1, 1 }, { 'a', 1, 1 } }; static struct saVersionDatabase amfVersionDatabase = { sizeof (amfVersionsSupported) / sizeof (SaVersionT), amfVersionsSupported }; /* * Implementation */ void amfHandleInstanceDestructor (void *instance) { struct amfInstance *amfInstance = (struct amfInstance *)instance; if (amfInstance->fd != -1) { shutdown (amfInstance->fd, 0); close (amfInstance->fd); } if (amfInstance->inq.items) { free (amfInstance->inq.items); } } SaErrorT saAmfInitialize ( SaAmfHandleT *amfHandle, const SaAmfCallbacksT *amfCallbacks, const SaVersionT *version) { struct amfInstance *amfInstance; SaErrorT error = SA_OK; error = saVersionVerify (&amfVersionDatabase, version); if (error != SA_OK) { goto error_no_destroy; } error = saHandleCreate (&amfHandleDatabase, sizeof (struct amfInstance), amfHandle); if (error != SA_OK) { goto error_no_destroy; } error = saHandleInstanceGet (&amfHandleDatabase, *amfHandle, (void *)&amfInstance); if (error != SA_OK) { goto error_destroy; } amfInstance->fd = -1; /* * An inq is needed to store async messages while waiting for a * sync response */ error = saQueueInit (&amfInstance->inq, 512, sizeof (void *)); if (error != SA_OK) { goto error_put_destroy; } error = saServiceConnect (&amfInstance->fd, MESSAGE_REQ_AMF_INIT); if (error != SA_OK) { goto error_put_destroy; // this is wrong } memcpy (&amfInstance->callbacks, amfCallbacks, sizeof (SaAmfCallbacksT)); pthread_mutex_init (&amfInstance->mutex, NULL); saHandleInstancePut (&amfHandleDatabase, *amfHandle); return (SA_OK); error_put_destroy: saHandleInstancePut (&amfHandleDatabase, *amfHandle); error_destroy: saHandleDestroy (&amfHandleDatabase, *amfHandle); error_no_destroy: return (error); } SaErrorT saAmfSelectionObjectGet ( const SaAmfHandleT *amfHandle, SaSelectionObjectT *selectionObject) { struct amfInstance *amfInstance; SaErrorT error; error = saHandleInstanceGet (&amfHandleDatabase, *amfHandle, (void *)&amfInstance); if (error != SA_OK) { return (error); } *selectionObject = amfInstance->fd; saHandleInstancePut (&amfHandleDatabase, *amfHandle); return (SA_OK); } SaErrorT saAmfDispatch ( const SaAmfHandleT *amfHandle, SaDispatchFlagsT dispatchFlags) { struct pollfd ufds; int timeout = -1; SaErrorT error; int dispatch_avail; struct amfInstance *amfInstance; SaAmfCallbacksT callbacks; struct res_lib_amf_healthcheckcallback *res_lib_amf_healthcheckcallback; struct res_lib_amf_readinessstatesetcallback *res_lib_amf_readinessstatesetcallback; struct res_lib_amf_csisetcallback *res_lib_amf_csisetcallback; struct res_lib_amf_csiremovecallback *res_lib_amf_csiremovecallback; struct res_lib_amf_protectiongrouptrackcallback *res_lib_amf_protectiongrouptrackcallback; struct req_header **queue_msg; struct req_header *msg; int empty; int ignore_dispatch = 0; int cont = 1; /* always continue do loop except when set to 0 */ int poll_fd; struct res_overlay dispatch_data; error = saHandleInstanceGet (&amfHandleDatabase, *amfHandle, (void *)&amfInstance); if (error != SA_OK) { return (error); } /* * Timeout instantly for SA_DISPATCH_ALL */ if (dispatchFlags == SA_DISPATCH_ALL) { timeout = 0; } do { poll_fd = amfInstance->fd; /* * Read data directly from socket */ ufds.fd = poll_fd; ufds.events = POLLIN; ufds.revents = 0; error = saPollRetry (&ufds, 1, timeout); if (error != SA_OK) { goto error_nounlock; } pthread_mutex_lock (&amfInstance->mutex); /* * Handle has been finalized in another thread */ if (amfInstance->finalize == 1) { error = SA_OK; pthread_mutex_unlock (&amfInstance->mutex); goto error_unlock; } dispatch_avail = ufds.revents & POLLIN; if (dispatch_avail == 0 && dispatchFlags == SA_DISPATCH_ALL) { pthread_mutex_unlock (&amfInstance->mutex); break; /* exit do while cont is 1 loop */ } else if (dispatch_avail == 0) { pthread_mutex_unlock (&amfInstance->mutex); continue; /* next poll */ } saQueueIsEmpty(&amfInstance->inq, &empty); if (empty == 0) { /* * Queue is not empty, read data from queue */ saQueueItemGet (&amfInstance->inq, (void *)&queue_msg); msg = *queue_msg; memcpy (&dispatch_data, msg, msg->size); saQueueItemRemove (&amfInstance->inq); free (msg); } else { /* * Queue empty, read response from socket */ error = saRecvRetry (amfInstance->fd, &dispatch_data.header, sizeof (struct res_header), MSG_WAITALL | MSG_NOSIGNAL); if (error != SA_OK) { goto error_unlock; } if (dispatch_data.header.size > sizeof (struct res_header)) { error = saRecvRetry (amfInstance->fd, &dispatch_data.data, dispatch_data.header.size - sizeof (struct res_header), MSG_WAITALL | MSG_NOSIGNAL); if (error != SA_OK) { goto error_unlock; } } } /* * Make copy of callbacks, message data, unlock instance, and call callback * A risk of this dispatch method is that the callback routines may * operate at the same time that amfFinalize has been called in another thread. */ memcpy (&callbacks, &amfInstance->callbacks, sizeof (SaAmfCallbacksT)); pthread_mutex_unlock (&amfInstance->mutex); /* * Dispatch incoming response */ switch (dispatch_data.header.id) { case MESSAGE_RES_LIB_ACTIVATEPOLL: /* * This is a do nothing message which the node executive sends * to activate the file amfHandle in poll when the library has * queued a message into amfHandle->inq * The dispatch is ignored for the following two cases: * 1) setting of timeout to zero for the DISPATCH_ALL case * 2) expiration of the do loop for the DISPATCH_ONE case */ ignore_dispatch = 1; break; case MESSAGE_RES_AMF_HEALTHCHECKCALLBACK: res_lib_amf_healthcheckcallback = (struct res_lib_amf_healthcheckcallback *)&dispatch_data; callbacks.saAmfHealthcheckCallback ( res_lib_amf_healthcheckcallback->invocation, &res_lib_amf_healthcheckcallback->compName, res_lib_amf_healthcheckcallback->checkType); break; case MESSAGE_RES_AMF_READINESSSTATESETCALLBACK: res_lib_amf_readinessstatesetcallback = (struct res_lib_amf_readinessstatesetcallback *)&dispatch_data; callbacks.saAmfReadinessStateSetCallback ( res_lib_amf_readinessstatesetcallback->invocation, &res_lib_amf_readinessstatesetcallback->compName, res_lib_amf_readinessstatesetcallback->readinessState); break; case MESSAGE_RES_AMF_CSISETCALLBACK: res_lib_amf_csisetcallback = (struct res_lib_amf_csisetcallback *)&dispatch_data; callbacks.saAmfCSISetCallback ( res_lib_amf_csisetcallback->invocation, &res_lib_amf_csisetcallback->compName, &res_lib_amf_csisetcallback->csiName, res_lib_amf_csisetcallback->csiFlags, &res_lib_amf_csisetcallback->haState, &res_lib_amf_csisetcallback->activeCompName, res_lib_amf_csisetcallback->transitionDescriptor); break; case MESSAGE_RES_AMF_CSIREMOVECALLBACK: res_lib_amf_csiremovecallback = (struct res_lib_amf_csiremovecallback *)&dispatch_data; callbacks.saAmfCSIRemoveCallback ( res_lib_amf_csiremovecallback->invocation, &res_lib_amf_csiremovecallback->compName, &res_lib_amf_csiremovecallback->csiName, &res_lib_amf_csiremovecallback->csiFlags); break; case MESSAGE_RES_AMF_PROTECTIONGROUPTRACKCALLBACK: res_lib_amf_protectiongrouptrackcallback = (struct res_lib_amf_protectiongrouptrackcallback *)&dispatch_data; memcpy (res_lib_amf_protectiongrouptrackcallback->notificationBufferAddress, res_lib_amf_protectiongrouptrackcallback->notificationBuffer, res_lib_amf_protectiongrouptrackcallback->numberOfItems * sizeof (SaAmfProtectionGroupNotificationT)); callbacks.saAmfProtectionGroupTrackCallback( &res_lib_amf_protectiongrouptrackcallback->csiName, res_lib_amf_protectiongrouptrackcallback->notificationBufferAddress, res_lib_amf_protectiongrouptrackcallback->numberOfItems, res_lib_amf_protectiongrouptrackcallback->numberOfMembers, res_lib_amf_protectiongrouptrackcallback->error); break; default: error = SA_ERR_LIBRARY; goto error_nounlock; break; } /* * Determine if more messages should be processed */ switch (dispatchFlags) { case SA_DISPATCH_ONE: if (ignore_dispatch) { ignore_dispatch = 0; } else { cont = 0; } break; case SA_DISPATCH_ALL: if (ignore_dispatch) { ignore_dispatch = 0; } break; case SA_DISPATCH_BLOCKING: break; } } while (cont); error_unlock: saHandleInstancePut (&amfHandleDatabase, *amfHandle); error_nounlock: return (error); } SaErrorT saAmfFinalize ( const SaAmfHandleT *amfHandle) { struct amfInstance *amfInstance; SaErrorT error; error = saHandleInstanceGet (&amfHandleDatabase, *amfHandle, (void *)&amfInstance); if (error != SA_OK) { return (error); } pthread_mutex_lock (&amfInstance->mutex); /* * Another thread has already started finalizing */ if (amfInstance->finalize) { pthread_mutex_unlock (&amfInstance->mutex); saHandleInstancePut (&amfHandleDatabase, *amfHandle); return (SA_ERR_BAD_HANDLE); } amfInstance->finalize = 1; saActivatePoll (amfInstance->fd); pthread_mutex_unlock (&amfInstance->mutex); saHandleDestroy (&amfHandleDatabase, *amfHandle); saHandleInstancePut (&amfHandleDatabase, *amfHandle); return (error); } SaErrorT saAmfComponentRegister ( const SaAmfHandleT *amfHandle, const SaNameT *compName, const SaNameT *proxyCompName) { struct amfInstance *amfInstance; SaErrorT error; struct req_lib_amf_componentregister req_lib_amf_componentregister; struct res_lib_amf_componentregister res_lib_amf_componentregister; req_lib_amf_componentregister.header.size = sizeof (struct req_lib_amf_componentregister); req_lib_amf_componentregister.header.id = MESSAGE_REQ_AMF_COMPONENTREGISTER; memcpy (&req_lib_amf_componentregister.compName, compName, sizeof (SaNameT)); if (proxyCompName) { memcpy (&req_lib_amf_componentregister.proxyCompName, proxyCompName, sizeof (SaNameT)); } else { memset (&req_lib_amf_componentregister.proxyCompName, 0, sizeof (SaNameT)); } error = saHandleInstanceGet (&amfHandleDatabase, *amfHandle, (void *)&amfInstance); if (error != SA_OK) { return (error); } pthread_mutex_lock (&amfInstance->mutex); error = saSendRetry (amfInstance->fd, &req_lib_amf_componentregister, sizeof (struct req_lib_amf_componentregister), MSG_NOSIGNAL); if (error != SA_OK) { goto error_unlock; } /* * Search for COMPONENTREGISTER responses and queue any * messages that dont match in this amfHandle's inq. * This must be done to avoid dropping async messages * during this sync message retrieval */ error = saRecvQueue (amfInstance->fd, &res_lib_amf_componentregister, &amfInstance->inq, MESSAGE_RES_AMF_COMPONENTREGISTER); if (error != SA_OK) { goto error_unlock; } if (res_lib_amf_componentregister.header.error == SA_OK) { amfInstance->compRegistered = 1; memcpy (&amfInstance->compName, compName, sizeof (SaNameT)); } error = res_lib_amf_componentregister.header.error; error_unlock: pthread_mutex_unlock (&amfInstance->mutex); saHandleInstancePut (&amfHandleDatabase, *amfHandle); return (error); } SaErrorT saAmfComponentUnregister ( const SaAmfHandleT *amfHandle, const SaNameT *compName, const SaNameT *proxyCompName) { struct req_lib_amf_componentunregister req_lib_amf_componentunregister; struct res_lib_amf_componentunregister res_lib_amf_componentunregister; struct amfInstance *amfInstance; SaErrorT error; req_lib_amf_componentunregister.header.size = sizeof (struct req_lib_amf_componentunregister); req_lib_amf_componentunregister.header.id = MESSAGE_REQ_AMF_COMPONENTUNREGISTER; memcpy (&req_lib_amf_componentunregister.compName, compName, sizeof (SaNameT)); if (proxyCompName) { memcpy (&req_lib_amf_componentunregister.proxyCompName, proxyCompName, sizeof (SaNameT)); } else { memset (&req_lib_amf_componentunregister.proxyCompName, 0, sizeof (SaNameT)); } error = saHandleInstanceGet (&amfHandleDatabase, *amfHandle, (void *)&amfInstance); if (error != SA_OK) { return (error); } pthread_mutex_lock (&amfInstance->mutex); error = saSendRetry (amfInstance->fd, &req_lib_amf_componentunregister, sizeof (struct req_lib_amf_componentunregister), MSG_NOSIGNAL); if (error != SA_OK) { goto error_unlock; } /* * Search for COMPONENTUNREGISTER responses and queue any * messages that dont match in this amfHandle's inq. * This must be done to avoid dropping async messages * during this sync message retrieval */ error = saRecvQueue (amfInstance->fd, &res_lib_amf_componentunregister, &amfInstance->inq, MESSAGE_RES_AMF_COMPONENTUNREGISTER); if (error != SA_OK) { goto error_unlock; } if (res_lib_amf_componentunregister.header.error == SA_OK) { amfInstance->compRegistered = 0; } error = res_lib_amf_componentunregister.header.error; error_unlock: pthread_mutex_unlock (&amfInstance->mutex); saHandleInstancePut (&amfHandleDatabase, *amfHandle); return (error); } SaErrorT saAmfCompNameGet ( const SaAmfHandleT *amfHandle, SaNameT *compName) { struct amfInstance *amfInstance; SaErrorT error; error = saHandleInstanceGet (&amfHandleDatabase, *amfHandle, (void *)&amfInstance); if (error != SA_OK) { return (error); } pthread_mutex_lock (&amfInstance->mutex); if (amfInstance->compRegistered == 0) { pthread_mutex_unlock (&amfInstance->mutex); return (SA_ERR_NOT_EXIST); } memcpy (compName, &amfInstance->compName, sizeof (SaNameT)); pthread_mutex_unlock (&amfInstance->mutex); saHandleInstancePut (&amfHandleDatabase, *amfHandle); return (SA_OK); } SaErrorT saAmfReadinessStateGet ( const SaNameT *compName, SaAmfReadinessStateT *readinessState) { int fd; SaErrorT error; struct req_amf_readinessstateget req_amf_readinessstateget; struct res_lib_amf_readinessstateget res_lib_amf_readinessstateget; error = saServiceConnect (&fd, MESSAGE_REQ_AMF_INIT); if (error != SA_OK) { goto exit_noclose; } req_amf_readinessstateget.header.id = MESSAGE_RES_AMF_READINESSSTATEGET; req_amf_readinessstateget.header.size = sizeof (struct req_amf_readinessstateget); memcpy (&req_amf_readinessstateget.compName, compName, sizeof (SaNameT)); error = saSendRetry (fd, &req_amf_readinessstateget, sizeof (struct req_amf_readinessstateget), MSG_NOSIGNAL); if (error != SA_OK) { goto exit_close; } error = saRecvRetry (fd, &res_lib_amf_readinessstateget, sizeof (struct res_lib_amf_readinessstateget), MSG_WAITALL | MSG_NOSIGNAL); if (error == SA_OK) { memcpy (readinessState, &res_lib_amf_readinessstateget.readinessState, sizeof (SaAmfReadinessStateT)); error = res_lib_amf_readinessstateget.header.error; } exit_close: close (fd); exit_noclose: return (error); } SaErrorT saAmfStoppingComplete ( SaInvocationT invocation, SaErrorT error) { struct req_amf_stoppingcomplete req_amf_stoppingcomplete; int fd; SaErrorT errorResult; errorResult = saServiceConnect (&fd, MESSAGE_REQ_AMF_INIT); if (errorResult != SA_OK) { goto exit_noclose; } req_amf_stoppingcomplete.header.id = MESSAGE_REQ_AMF_STOPPINGCOMPLETE; req_amf_stoppingcomplete.header.size = sizeof (struct req_amf_stoppingcomplete); req_amf_stoppingcomplete.invocation = invocation; req_amf_stoppingcomplete.error = error; errorResult = saSendRetry (fd, &req_amf_stoppingcomplete, sizeof (struct req_amf_stoppingcomplete), MSG_NOSIGNAL); close (fd); exit_noclose: return (errorResult); } SaErrorT saAmfHAStateGet ( const SaNameT *compName, const SaNameT *csiName, SaAmfHAStateT *haState) { struct req_amf_hastateget req_amf_hastateget; struct res_lib_amf_hastateget res_lib_amf_hastateget; int fd; SaErrorT error; error = saServiceConnect (&fd, MESSAGE_REQ_AMF_INIT); if (error != SA_OK) { goto exit_noclose; } req_amf_hastateget.header.id = MESSAGE_REQ_AMF_HASTATEGET; req_amf_hastateget.header.size = sizeof (struct req_amf_hastateget); memcpy (&req_amf_hastateget.compName, compName, sizeof (SaNameT)); memcpy (&req_amf_hastateget.csiName, csiName, sizeof (SaNameT)); error = saSendRetry (fd, &req_amf_hastateget, sizeof (struct req_amf_hastateget), MSG_NOSIGNAL); if (error != SA_OK) { goto exit_close; } error = saRecvRetry (fd, &res_lib_amf_hastateget, sizeof (struct res_lib_amf_hastateget), MSG_WAITALL | MSG_NOSIGNAL); if (error == SA_OK) { memcpy (haState, &res_lib_amf_hastateget.haState, sizeof (SaAmfHAStateT)); error = res_lib_amf_hastateget.header.error; } exit_close: close (fd); exit_noclose: return (error); } SaErrorT saAmfProtectionGroupTrackStart ( const SaAmfHandleT *amfHandle, const SaNameT *csiName, SaUint8T trackFlags, const SaAmfProtectionGroupNotificationT *notificationBuffer, SaUint32T numberOfItems) { struct amfInstance *amfInstance; struct req_amf_protectiongrouptrackstart req_amf_protectiongrouptrackstart; struct res_lib_amf_protectiongrouptrackstart res_lib_amf_protectiongrouptrackstart; SaErrorT error; req_amf_protectiongrouptrackstart.header.size = sizeof (struct req_amf_protectiongrouptrackstart); req_amf_protectiongrouptrackstart.header.id = MESSAGE_REQ_AMF_PROTECTIONGROUPTRACKSTART; memcpy (&req_amf_protectiongrouptrackstart.csiName, csiName, sizeof (SaNameT)); req_amf_protectiongrouptrackstart.trackFlags = trackFlags; req_amf_protectiongrouptrackstart.notificationBufferAddress = (SaAmfProtectionGroupNotificationT *)notificationBuffer; req_amf_protectiongrouptrackstart.numberOfItems = numberOfItems; error = saHandleInstanceGet (&amfHandleDatabase, *amfHandle, (void *)&amfInstance); if (error != SA_OK) { return (error); } pthread_mutex_lock (&amfInstance->mutex); error = saSendRetry (amfInstance->fd, &req_amf_protectiongrouptrackstart, sizeof (struct req_amf_protectiongrouptrackstart), MSG_NOSIGNAL); if (error != SA_OK) { goto error_unlock; } error = saRecvQueue (amfInstance->fd, &res_lib_amf_protectiongrouptrackstart, &amfInstance->inq, MESSAGE_RES_AMF_PROTECTIONGROUPTRACKSTART); error = res_lib_amf_protectiongrouptrackstart.header.error; error_unlock: pthread_mutex_unlock (&amfInstance->mutex); saHandleInstancePut (&amfHandleDatabase, *amfHandle); return (error); } SaErrorT saAmfProtectionGroupTrackStop ( const SaAmfHandleT *amfHandle, const SaNameT *csiName) { struct amfInstance *amfInstance; struct req_amf_protectiongrouptrackstop req_amf_protectiongrouptrackstop; struct res_lib_amf_protectiongrouptrackstop res_lib_amf_protectiongrouptrackstop; SaErrorT error; req_amf_protectiongrouptrackstop.header.size = sizeof (struct req_amf_protectiongrouptrackstop); req_amf_protectiongrouptrackstop.header.id = MESSAGE_REQ_AMF_PROTECTIONGROUPTRACKSTOP; memcpy (&req_amf_protectiongrouptrackstop.csiName, csiName, sizeof (SaNameT)); error = saHandleInstanceGet (&amfHandleDatabase, *amfHandle, (void *)&amfInstance); if (error != SA_OK) { return (error); } pthread_mutex_lock (&amfInstance->mutex); error = saSendRetry (amfInstance->fd, &req_amf_protectiongrouptrackstop, sizeof (struct req_amf_protectiongrouptrackstop), MSG_NOSIGNAL); if (error != SA_OK) { goto error_unlock; } error = saRecvQueue (amfInstance->fd, &res_lib_amf_protectiongrouptrackstop, &amfInstance->inq, MESSAGE_RES_AMF_PROTECTIONGROUPTRACKSTOP); error = res_lib_amf_protectiongrouptrackstop.header.error; error_unlock: pthread_mutex_unlock (&amfInstance->mutex); saHandleInstancePut (&amfHandleDatabase, *amfHandle); return (error); } SaErrorT saAmfErrorReport ( const SaNameT *reportingComponent, const SaNameT *erroneousComponent, SaTimeT errorDetectionTime, const SaAmfErrorDescriptorT *errorDescriptor, const SaAmfAdditionalDataT *additionalData) { struct req_lib_amf_errorreport req_lib_amf_errorreport; struct res_lib_amf_errorreport res_lib_amf_errorreport; int fd; SaErrorT error; error = saServiceConnect (&fd, MESSAGE_REQ_AMF_INIT); if (error != SA_OK) { goto exit_noclose; } req_lib_amf_errorreport.header.id = MESSAGE_REQ_AMF_ERRORREPORT; req_lib_amf_errorreport.header.size = sizeof (struct req_lib_amf_errorreport); memcpy (&req_lib_amf_errorreport.reportingComponent, reportingComponent, sizeof (SaNameT)); memcpy (&req_lib_amf_errorreport.erroneousComponent, erroneousComponent, sizeof (SaNameT)); req_lib_amf_errorreport.errorDetectionTime = errorDetectionTime; memcpy (&req_lib_amf_errorreport.errorDescriptor, errorDescriptor, sizeof (SaAmfErrorDescriptorT)); /* TODO this is wrong, and needs some thinking memcpy (&req_lib_amf_errorreport.additionalData, additionalData, sizeof (SaAmfAdditionalDataT)); */ error = saSendRetry (fd, &req_lib_amf_errorreport, sizeof (struct req_lib_amf_errorreport), MSG_NOSIGNAL); /* * Get response from executive and respond to user application */ error = saRecvRetry (fd, &res_lib_amf_errorreport, sizeof (struct res_lib_amf_errorreport), MSG_WAITALL | MSG_NOSIGNAL); if (error != SA_OK) { goto exit_close; } error = res_lib_amf_errorreport.header.error; exit_close: close (fd); exit_noclose: return (error); } SaErrorT saAmfErrorCancelAll ( const SaNameT *compName) { struct req_lib_amf_errorcancelall req_lib_amf_errorcancelall; struct res_lib_amf_errorcancelall res_lib_amf_errorcancelall; int fd; SaErrorT error; error = saServiceConnect (&fd, MESSAGE_REQ_AMF_INIT); if (error != SA_OK) { goto exit_noclose; } req_lib_amf_errorcancelall.header.id = MESSAGE_REQ_AMF_ERRORCANCELALL; req_lib_amf_errorcancelall.header.size = sizeof (struct req_lib_amf_errorcancelall); memcpy (&req_lib_amf_errorcancelall.compName, compName, sizeof (SaNameT)); error = saSendRetry (fd, &req_lib_amf_errorcancelall, sizeof (struct req_lib_amf_errorcancelall), MSG_NOSIGNAL); /* * Get response from executive and respond to user application */ error = saRecvRetry (fd, &res_lib_amf_errorcancelall, sizeof (struct res_lib_amf_errorcancelall), MSG_WAITALL | MSG_NOSIGNAL); if (error != SA_OK) { goto exit_close; } error = res_lib_amf_errorcancelall.header.error; exit_close: close (fd); exit_noclose: return (error); } SaErrorT saAmfComponentCapabilityModelGet ( const SaNameT *compName, SaAmfComponentCapabilityModelT *componentCapabilityModel) { int fd; SaErrorT error; struct req_amf_componentcapabilitymodelget req_amf_componentcapabilitymodelget; struct res_lib_amf_componentcapabilitymodelget res_lib_amf_componentcapabilitymodelget; error = saServiceConnect (&fd, MESSAGE_REQ_AMF_INIT); if (error != SA_OK) { goto exit_noclose; } req_amf_componentcapabilitymodelget.header.id = MESSAGE_REQ_AMF_COMPONENTCAPABILITYMODELGET; req_amf_componentcapabilitymodelget.header.size = sizeof (struct req_amf_componentcapabilitymodelget); memcpy (&req_amf_componentcapabilitymodelget.compName, compName, sizeof (SaNameT)); error = saSendRetry (fd, &req_amf_componentcapabilitymodelget, sizeof (struct req_amf_componentcapabilitymodelget), MSG_NOSIGNAL); if (error != SA_OK) { goto exit_close; } error = saRecvRetry (fd, &res_lib_amf_componentcapabilitymodelget, sizeof (struct res_lib_amf_componentcapabilitymodelget), MSG_WAITALL | MSG_NOSIGNAL); if (error == SA_OK) { memcpy (componentCapabilityModel, &res_lib_amf_componentcapabilitymodelget.componentCapabilityModel, sizeof (SaAmfComponentCapabilityModelT)); error = res_lib_amf_componentcapabilitymodelget.header.error; } exit_close: close (fd); exit_noclose: return (error); } SaErrorT saAmfPendingOperationGet ( const SaNameT *compName, SaAmfPendingOperationFlagsT *pendingOperationFlags) { *pendingOperationFlags = 0; return (SA_OK); } SaErrorT saAmfResponse ( SaInvocationT invocation, SaErrorT error) { struct req_amf_response req_amf_response; int fd; SaErrorT errorResult; errorResult = saServiceConnect (&fd, MESSAGE_REQ_AMF_INIT); if (errorResult != SA_OK) { goto exit_noclose; } req_amf_response.header.id = MESSAGE_REQ_AMF_RESPONSE; req_amf_response.header.size = sizeof (struct req_amf_response); req_amf_response.invocation = invocation; req_amf_response.error = error; errorResult = saSendRetry (fd, &req_amf_response, sizeof (struct req_amf_response), MSG_NOSIGNAL); close (fd); exit_noclose: return (errorResult); }