int getUserId( rsComm_t *rsComm, char *userName, char *zoneName ) { genQueryInp_t genQueryInp; genQueryOut_t *genQueryOut = NULL; char tmpStr[MAX_NAME_LEN]; char tmpStr2[MAX_NAME_LEN]; int status; memset( &genQueryInp, 0, sizeof( genQueryInp_t ) ); snprintf( tmpStr, NAME_LEN, "='%s'", userName ); snprintf( tmpStr2, NAME_LEN, "='%s'", zoneName ); addInxVal( &genQueryInp.sqlCondInp, COL_USER_NAME, tmpStr ); addInxVal( &genQueryInp.sqlCondInp, COL_USER_ZONE, tmpStr2 ); addInxIval( &genQueryInp.selectInp, COL_USER_ID, 1 ); genQueryInp.maxRows = 2; status = rsGenQuery( rsComm, &genQueryInp, &genQueryOut ); clearGenQueryInp( &genQueryInp ); if ( status >= 0 ) { sqlResult_t *userIdRes; if ( ( userIdRes = getSqlResultByInx( genQueryOut, COL_USER_ID ) ) == NULL ) { rodsLog( LOG_ERROR, "getUserId: getSqlResultByInx for COL_USER_ID failed" ); freeGenQueryOut( &genQueryOut ); return UNMATCHED_KEY_OR_INDEX; } status = atoi( userIdRes->value ); freeGenQueryOut( &genQueryOut ); } return status; }
int printCollInheritance( rcComm_t *conn, char *collName ) { genQueryOut_t *genQueryOut = NULL; int status; sqlResult_t *inheritResult; char *inheritStr; status = queryCollInheritance( conn, collName, &genQueryOut ); if ( status < 0 ) { freeGenQueryOut( &genQueryOut ); return status; } if ( ( inheritResult = getSqlResultByInx( genQueryOut, COL_COLL_INHERITANCE ) ) == NULL ) { rodsLog( LOG_ERROR, "printCollInheritance: getSqlResultByInx for COL_COLL_INHERITANCE failed" ); freeGenQueryOut( &genQueryOut ); return UNMATCHED_KEY_OR_INDEX; } inheritStr = &inheritResult->value[0]; printf( " Inheritance - " ); if ( *inheritStr == '1' ) { printf( "Enabled\n" ); } else { printf( "Disabled\n" ); } freeGenQueryOut( &genQueryOut ); return status; }
int getTokenId(rsComm_t *rsComm, char *tokenNameSpace, char *tokenName) { genQueryInp_t genQueryInp; genQueryOut_t *genQueryOut = NULL; char tmpStr[MAX_NAME_LEN]; char tmpStr2[MAX_NAME_LEN]; int status; memset (&genQueryInp, 0, sizeof (genQueryInp_t)); snprintf (tmpStr, NAME_LEN, "='%s'", tokenNameSpace); snprintf (tmpStr2, NAME_LEN, "='%s'", tokenName); addInxVal (&genQueryInp.sqlCondInp, COL_TOKEN_NAMESPACE, tmpStr); addInxVal (&genQueryInp.sqlCondInp, COL_TOKEN_NAME, tmpStr2); addInxIval (&genQueryInp.selectInp, COL_TOKEN_ID, 1); genQueryInp.maxRows = 2; status = rsGenQuery (rsComm, &genQueryInp, &genQueryOut); clearGenQueryInp (&genQueryInp); if (status >= 0) { sqlResult_t *tokenIdRes; if ((tokenIdRes = getSqlResultByInx (genQueryOut, COL_TOKEN_ID)) == NULL) { rodsLog (LOG_ERROR, "getTokenId: getSqlResultByInx for COL_TOKEN_ID failed"); freeGenQueryOut (&genQueryOut); return (UNMATCHED_KEY_OR_INDEX); } status = atoi(tokenIdRes->value); freeGenQueryOut (&genQueryOut); } return(status); }
/* checkDupReplica - Check if a given object with a given rescName * and physical path already exist. If it does, returns the replNum. * JMC - backport 4497 */ int checkDupReplica( rsComm_t *rsComm, rodsLong_t dataId, char *rescName, char *filePath ) { genQueryInp_t genQueryInp; genQueryOut_t *genQueryOut = NULL; char tmpStr[MAX_NAME_LEN]; int status; if ( rsComm == NULL || rescName == NULL || filePath == NULL ) { return USER__NULL_INPUT_ERR; } bzero( &genQueryInp, sizeof( genQueryInp_t ) ); rodsLong_t resc_id; irods::error ret = resc_mgr.hier_to_leaf_id(rescName,resc_id); if(!ret.ok()) { irods::log(PASS(ret)); return ret.code(); } std::string resc_id_str = boost::lexical_cast<std::string>(resc_id); snprintf( tmpStr, MAX_NAME_LEN, "='%s'", resc_id_str.c_str() ); addInxVal( &genQueryInp.sqlCondInp, COL_D_RESC_ID, tmpStr ); snprintf( tmpStr, MAX_NAME_LEN, "='%s'", filePath ); addInxVal( &genQueryInp.sqlCondInp, COL_D_DATA_PATH, tmpStr ); snprintf( tmpStr, MAX_NAME_LEN, "='%lld'", dataId ); addInxVal( &genQueryInp.sqlCondInp, COL_D_DATA_ID, tmpStr ); addInxIval( &genQueryInp.selectInp, COL_DATA_REPL_NUM, 1 ); genQueryInp.maxRows = 2; status = rsGenQuery( rsComm, &genQueryInp, &genQueryOut ); clearGenQueryInp( &genQueryInp ); if ( status >= 0 ) { int intReplNum; sqlResult_t *replNum; if ( ( replNum = getSqlResultByInx( genQueryOut, COL_DATA_REPL_NUM ) ) == NULL ) { freeGenQueryOut( &genQueryOut ); rodsLog( LOG_ERROR, "checkDupReplica: getSqlResultByInx COL_DATA_REPL_NUM failed" ); return UNMATCHED_KEY_OR_INDEX; } intReplNum = atoi( replNum->value ); freeGenQueryOut( &genQueryOut ); return intReplNum; } else { freeGenQueryOut( &genQueryOut ); return status; } }
int isData(rsComm_t *rsComm, char *objName, rodsLong_t *dataId) { char logicalEndName[MAX_NAME_LEN]{}; char logicalParentDirName[MAX_NAME_LEN]{}; auto status{splitPathByKey(objName, logicalParentDirName, MAX_NAME_LEN, logicalEndName, MAX_NAME_LEN, '/')}; if (status < 0) { const auto err{ERROR(status, (boost::format("splitPathByKey failed for [%s]") % objName).str().c_str())}; irods::log(err); return err.code(); } genQueryInp_t genQueryInp{}; genQueryOut_t *genQueryOut{}; char tmpStr[MAX_NAME_LEN]{}; memset(&genQueryInp, 0, sizeof(genQueryInp_t)); snprintf(tmpStr, MAX_NAME_LEN, "='%s'", logicalEndName); addInxVal(&genQueryInp.sqlCondInp, COL_DATA_NAME, tmpStr); addInxIval(&genQueryInp.selectInp, COL_D_DATA_ID, 1); snprintf(tmpStr, MAX_NAME_LEN, "='%s'", logicalParentDirName); addInxVal(&genQueryInp.sqlCondInp, COL_COLL_NAME, tmpStr); addInxIval(&genQueryInp.selectInp, COL_COLL_ID, 1); genQueryInp.maxRows = 2; status = rsGenQuery(rsComm, &genQueryInp, &genQueryOut); if (status < 0) { freeGenQueryOut(&genQueryOut); clearGenQueryInp(&genQueryInp); return status; } sqlResult_t *dataIdRes{getSqlResultByInx(genQueryOut, COL_D_DATA_ID)}; if (NULL == dataIdRes) { const auto err{ERROR(UNMATCHED_KEY_OR_INDEX, "getSqlResultByInx for COL_D_DATA_ID failed")}; irods::log(err); return err.code(); } if (NULL != dataId) { *dataId = strtoll(dataIdRes->value, 0, 0); } freeGenQueryOut(&genQueryOut); clearGenQueryInp(&genQueryInp); return status; }
int isColl( rsComm_t *rsComm, char *objName, rodsLong_t *collId ) { genQueryInp_t genQueryInp; genQueryOut_t *genQueryOut = NULL; char tmpStr[MAX_NAME_LEN]; int status; memset( &genQueryInp, 0, sizeof( genQueryInp_t ) ); snprintf( tmpStr, MAX_NAME_LEN, "='%s'", objName ); addInxVal( &genQueryInp.sqlCondInp, COL_COLL_NAME, tmpStr ); addInxIval( &genQueryInp.selectInp, COL_COLL_ID, 1 ); genQueryInp.maxRows = 2; status = rsGenQuery( rsComm, &genQueryInp, &genQueryOut ); if ( status >= 0 ) { sqlResult_t *collIdRes; if ( ( collIdRes = getSqlResultByInx( genQueryOut, COL_COLL_ID ) ) == NULL ) { rodsLog( LOG_ERROR, "isColl: getSqlResultByInx for COL_D_DATA_ID failed" ); return UNMATCHED_KEY_OR_INDEX; } if ( collId != NULL ) { *collId = strtoll( collIdRes->value, 0, 0 ); } freeGenQueryOut( &genQueryOut ); } clearGenQueryInp( &genQueryInp ); return status; }
int checkPermitForResource( rsComm_t *rsComm, char *objName, int userId, int operId ) { genQueryInp_t genQueryInp; genQueryOut_t *genQueryOut = NULL; char t1[MAX_NAME_LEN]; // JMC cppcheck - snprintf out of bounds char t2[MAX_NAME_LEN]; // JMC cppcheck - snprintf out of bounds char t4[MAX_NAME_LEN]; // JMC cppcheck - snprintf out of bounds int status; snprintf( t1, MAX_NAME_LEN, " = '%s'", objName ); snprintf( t2, MAX_NAME_LEN, " = '%i'", userId ); snprintf( t4, MAX_NAME_LEN, " >= '%i' ", operId ); memset( &genQueryInp, 0, sizeof( genQueryInp_t ) ); addInxIval( &genQueryInp.selectInp, COL_R_RESC_ID, 1 ); addInxVal( &genQueryInp.sqlCondInp, COL_R_RESC_NAME, t1 ); addInxVal( &genQueryInp.sqlCondInp, COL_RESC_ACCESS_USER_ID, t2 ); addInxVal( &genQueryInp.sqlCondInp, COL_RESC_ACCESS_TYPE, t4 ); genQueryInp.maxRows = 2; status = rsGenQuery( rsComm, &genQueryInp, &genQueryOut ); clearGenQueryInp( &genQueryInp ); if ( status >= 0 ) { freeGenQueryOut( &genQueryOut ); return 1; } else { return 0; } }
int checkPermitForDataObject( rsComm_t *rsComm, char *objName, int userId, int operId ) { genQueryInp_t genQueryInp; genQueryOut_t *genQueryOut = NULL; char t1[MAX_NAME_LEN]; // JMC cppcheck - snprintf out of bounds char t11[MAX_NAME_LEN]; // JMC cppcheck - snprintf out of bounds char t2[MAX_NAME_LEN]; // JMC cppcheck - snprintf out of bounds char t3[MAX_NAME_LEN]; // JMC cppcheck - snprintf out of bounds char logicalEndName[MAX_NAME_LEN]; char logicalParentDirName[MAX_NAME_LEN]; int status; splitPathByKey( objName, logicalParentDirName, MAX_NAME_LEN, logicalEndName, MAX_NAME_LEN, '/' ); snprintf( t1, MAX_NAME_LEN, " = '%s'", logicalEndName ); snprintf( t11, MAX_NAME_LEN, " = '%s'", logicalParentDirName ); snprintf( t2, MAX_NAME_LEN, " = '%i'", userId ); snprintf( t3, MAX_NAME_LEN, " >= '%i' ", operId ); memset( &genQueryInp, 0, sizeof( genQueryInp_t ) ); addInxIval( &genQueryInp.selectInp, COL_D_DATA_ID, 1 ); addInxVal( &genQueryInp.sqlCondInp, COL_DATA_NAME, t1 ); addInxVal( &genQueryInp.sqlCondInp, COL_COLL_NAME, t11 ); addInxVal( &genQueryInp.sqlCondInp, COL_DATA_ACCESS_USER_ID, t2 ); addInxVal( &genQueryInp.sqlCondInp, COL_DATA_ACCESS_TYPE, t3 ); genQueryInp.maxRows = 2; status = rsGenQuery( rsComm, &genQueryInp, &genQueryOut ); freeGenQueryOut( &genQueryOut ); clearGenQueryInp( &genQueryInp ); if ( status >= 0 ) { return 1; } else { return 0; } }
int getSpecCollCache( rsComm_t *rsComm, char *objPath, int inCachOnly, specCollCache_t **specCollCache ) { int status; genQueryOut_t *genQueryOut = NULL; if ( ( *specCollCache = matchSpecCollCache( objPath ) ) != NULL ) { return 0; } else if ( inCachOnly > 0 ) { return SYS_SPEC_COLL_NOT_IN_CACHE; } status = querySpecColl( rsComm, objPath, &genQueryOut ); if ( status < 0 ) { return status; } status = queueSpecCollCache( rsComm, genQueryOut, objPath ); // JMC - backport 4680 freeGenQueryOut( &genQueryOut ); if ( status < 0 ) { return status; } *specCollCache = SpecCollCacheHead; /* queued at top */ return 0; }
int readICatUserInfo( char *userName, char *attr, char userInfo[MAX_NAME_LEN], rsComm_t *rsComm ) { int status; genQueryInp_t genQueryInp; genQueryOut_t *genQueryOut = NULL; char condstr[MAX_NAME_LEN]; memset( &genQueryInp, 0, sizeof( genQueryInp ) ); genQueryInp.maxRows = MAX_SQL_ROWS; snprintf( condstr, MAX_NAME_LEN, "= '%s'", userName ); addInxVal( &genQueryInp.sqlCondInp, COL_USER_NAME, condstr ); snprintf( condstr, MAX_NAME_LEN, "= '%s'", attr ); addInxVal( &genQueryInp.sqlCondInp, COL_META_USER_ATTR_NAME, condstr ); addInxIval( &genQueryInp.selectInp, COL_META_USER_ATTR_VALUE, 1 ); status = rsGenQuery( rsComm, &genQueryInp, &genQueryOut ); userInfo[0] = '\0'; if ( status >= 0 && genQueryOut->rowCnt > 0 ) { if ( sqlResult_t *r = getSqlResultByInx( genQueryOut, COL_META_USER_ATTR_VALUE ) ) { rstrcpy( userInfo, &r->value[0], MAX_NAME_LEN ); } genQueryInp.continueInx = genQueryOut->continueInx; } clearGenQueryInp( &genQueryInp ); freeGenQueryOut( &genQueryOut ); return status; }
irods::error get_query_array( rsComm_t* _comm, json_t*& _queries ) { if( !_comm ) { return ERROR( SYS_INVALID_INPUT_PARAM, "comm is null" ); } _queries = json_array(); if ( !_queries ) { return ERROR( SYS_MALLOC_ERR, "allocation of json object failed" ); } specificQueryInp_t spec_inp; memset( &spec_inp, 0, sizeof( specificQueryInp_t ) ); spec_inp.maxRows = MAX_SQL_ROWS; spec_inp.continueInx = 0; spec_inp.sql = "ls"; genQueryOut_t* gen_out = 0; int status = rsSpecificQuery( _comm, &spec_inp, &gen_out ); if( status < 0 ) { return ERROR( status, "rsSpecificQuery for 'ls' failed" ); } // first attribute is the alias of the specific query int len = gen_out->sqlResult[ 0 ].len; char* values = gen_out->sqlResult[ 0 ].value; for( int i = 0 ; i < gen_out->rowCnt ; ++i ) { char* alias = &values[ len * i ]; if( !alias ) { rodsLog( LOG_ERROR, "get_query_array - alias at %d is null", i ); continue; } json_array_append( _queries, json_string( alias ) ); } // for i freeGenQueryOut( &gen_out ); return SUCCESS(); } // get_query_array
int checkCollExists( rcComm_t *conn, rodsArguments_t *myRodsArgs, const char *collPath ) { int status; genQueryInp_t genQueryInp; genQueryOut_t *genQueryOut = NULL; char condStr[MAX_NAME_LEN]; memset( &genQueryInp, 0, sizeof( genQueryInp ) ); addInxIval( &genQueryInp.selectInp, COL_COLL_ID, 1 ); genQueryInp.maxRows = 0; genQueryInp.options = AUTO_CLOSE; snprintf( condStr, MAX_NAME_LEN, "='%s'", collPath ); addInxVal( &genQueryInp.sqlCondInp, COL_COLL_NAME, condStr ); status = rcGenQuery( conn, &genQueryInp, &genQueryOut ); clearGenQueryInp( &genQueryInp ); freeGenQueryOut( &genQueryOut ); if ( status == CAT_NO_ROWS_FOUND ) { return 0; } else { return 1; } }
int qdelUtil( rcComm_t *conn, char *userName, int allFlag, rodsArguments_t *myRodsArgs ) { genQueryInp_t genQueryInp; int status, i, continueInx; char tmpStr[MAX_NAME_LEN]; sqlResult_t *execId; char *execIdStr; genQueryOut_t *genQueryOut = NULL; int savedStatus = 0; if ( allFlag == 1 && userName != NULL ) { rodsLog( LOG_ERROR, "qdelUtil: all(-a) and user(-u) cannot be used together" ); return USER_INPUT_OPTION_ERR; } memset( &genQueryInp, 0, sizeof( genQueryInp_t ) ); if ( userName != NULL ) { snprintf( tmpStr, MAX_NAME_LEN, " = '%s'", userName ); addInxVal( &genQueryInp.sqlCondInp, COL_RULE_EXEC_USER_NAME, tmpStr ); } addInxIval( &genQueryInp.selectInp, COL_RULE_EXEC_ID, 1 ); genQueryInp.maxRows = MAX_SQL_ROWS; continueInx = 1; /* a fake one so it will do the first query */ while ( continueInx > 0 ) { status = rcGenQuery( conn, &genQueryInp, &genQueryOut ); if ( status < 0 ) { if ( status != CAT_NO_ROWS_FOUND ) { savedStatus = status; } break; } if ( ( execId = getSqlResultByInx( genQueryOut, COL_RULE_EXEC_ID ) ) == NULL ) { rodsLog( LOG_ERROR, "qdelUtil: getSqlResultByInx for COL_RULE_EXEC_ID failed" ); return UNMATCHED_KEY_OR_INDEX; } for ( i = 0; i < genQueryOut->rowCnt; i++ ) { execIdStr = &execId->value[execId->len * i]; if ( myRodsArgs->verbose ) { printf( "Deleting %s\n", execIdStr ); } status = rmDelayedRule( execIdStr ); if ( status < 0 ) { rodsLog( LOG_ERROR, "qdelUtil: rmDelayedRule %s error. status = %d", execIdStr, status ); savedStatus = status; } } continueInx = genQueryInp.continueInx = genQueryOut->continueInx; freeGenQueryOut( &genQueryOut ); } clearGenQueryInp( &genQueryInp ); return savedStatus; }
static int get_resource_path( rsComm_t *conn, char *rescName, char *rescPath ) { genQueryInp_t genQueryInp; int i1a[10]; int i1b[10]; int i2a[10]; char *condVal[2]; char v1[200]; genQueryOut_t *genQueryOut = NULL; sqlResult_t *vaultPathSTruct; char *vaultPath; int t; memset( &genQueryInp, 0, sizeof( genQueryInp_t ) ); i1a[0] = COL_R_VAULT_PATH; i1b[0] = 0; genQueryInp.selectInp.inx = i1a; genQueryInp.selectInp.value = i1b; genQueryInp.selectInp.len = 1; i2a[0] = COL_R_RESC_NAME; genQueryInp.sqlCondInp.inx = i2a; sprintf( v1, "='%s'", rescName ); condVal[0] = v1; genQueryInp.sqlCondInp.value = condVal; genQueryInp.sqlCondInp.len = 1; genQueryInp.maxRows = 2; genQueryInp.continueInx = 0; t = rsGenQuery( conn, &genQueryInp, &genQueryOut ); if ( NULL == genQueryOut ) { // JMC cppecheck - nullptr rodsLog( LOG_ERROR, "get_resource_path :: genQueryOut is NULL" ); return 0; } if ( t < 0 ) { if ( t == CAT_NO_ROWS_FOUND ) { /* no data is found */ return 0; } return( t ); } if ( genQueryOut->rowCnt < 0 ) { return -1; } vaultPathSTruct = getSqlResultByInx( genQueryOut, COL_R_VAULT_PATH ); vaultPath = &vaultPathSTruct->value[0]; strcpy( rescPath, vaultPath ); freeGenQueryOut( &genQueryOut ); return 0; }
// =-=-=-=-=-=-=- // JMC - backport 4552 int getNumSubfilesInBunfileObj( rsComm_t *rsComm, char *objPath ) { int status; genQueryOut_t *genQueryOut = NULL; genQueryInp_t genQueryInp; int totalRowCount; char condStr[MAX_NAME_LEN]; bzero( &genQueryInp, sizeof( genQueryInp ) ); genQueryInp.maxRows = 1; genQueryInp.options = RETURN_TOTAL_ROW_COUNT; snprintf( condStr, MAX_NAME_LEN, "='%s'", objPath ); addInxVal( &genQueryInp.sqlCondInp, COL_D_DATA_PATH, condStr ); snprintf( condStr, MAX_NAME_LEN, "='%s'", BUNDLE_RESC_CLASS ); addInxVal( &genQueryInp.sqlCondInp, COL_R_CLASS_NAME, condStr ); addKeyVal( &genQueryInp.condInput, ZONE_KW, objPath ); addInxIval( &genQueryInp.selectInp, COL_COLL_NAME, 1 ); addInxIval( &genQueryInp.selectInp, COL_DATA_NAME, 1 ); addInxIval( &genQueryInp.selectInp, COL_DATA_SIZE, 1 ); status = rsGenQuery( rsComm, &genQueryInp, &genQueryOut ); if ( genQueryOut == NULL || status < 0 ) { freeGenQueryOut( &genQueryOut ); clearGenQueryInp( &genQueryInp ); if ( status == CAT_NO_ROWS_FOUND ) { return 0; } else { return status; } } totalRowCount = genQueryOut->totalRowCount; freeGenQueryOut( &genQueryOut ); /* clear result */ genQueryInp.maxRows = 0; rsGenQuery( rsComm, &genQueryInp, &genQueryOut ); clearGenQueryInp( &genQueryInp ); return totalRowCount; }
int printDataAcl (rcComm_t *conn, char *dataId) { genQueryOut_t *genQueryOut = NULL; int status; int i; sqlResult_t *userName, *userZone, *dataAccess; char *userNameStr, *userZoneStr, *dataAccessStr; status = queryDataObjAcl (conn, dataId, zoneHint, &genQueryOut); printf (" ACL - "); if (status < 0) { printf ("\n"); return (status); } if ((userName = getSqlResultByInx (genQueryOut, COL_USER_NAME)) == NULL) { rodsLog (LOG_ERROR, "printDataAcl: getSqlResultByInx for COL_USER_NAME failed"); return (UNMATCHED_KEY_OR_INDEX); } if ((userZone = getSqlResultByInx (genQueryOut, COL_USER_ZONE)) == NULL) { rodsLog (LOG_ERROR, "printDataAcl: getSqlResultByInx for COL_USER_ZONE failed"); return (UNMATCHED_KEY_OR_INDEX); } if ((dataAccess = getSqlResultByInx (genQueryOut, COL_DATA_ACCESS_NAME)) == NULL) { rodsLog (LOG_ERROR, "printDataAcl: getSqlResultByInx for COL_DATA_ACCESS_NAME failed"); return (UNMATCHED_KEY_OR_INDEX); } for (i = 0; i < genQueryOut->rowCnt; i++) { userNameStr = &userName->value[userName->len * i]; userZoneStr = &userZone->value[userZone->len * i]; dataAccessStr = &dataAccess->value[dataAccess->len * i]; printf ("%s#%s:%s ", userNameStr, userZoneStr, dataAccessStr); } printf ("\n"); freeGenQueryOut (&genQueryOut); return (status); }
int checkCollIsEmpty( rcComm_t *conn, rodsArguments_t *myRodsArgs, const char *collPath ) { int status; genQueryInp_t genQueryInp1, genQueryInp2; genQueryOut_t *genQueryOut1 = NULL, *genQueryOut2 = NULL; int noDataFound = 0; int noCollFound = 0; char condStr[MAX_NAME_LEN]; memset( &genQueryInp1, 0, sizeof( genQueryInp1 ) ); memset( &genQueryInp2, 0, sizeof( genQueryInp2 ) ); snprintf( condStr, MAX_NAME_LEN, "select COLL_ID where COLL_NAME like '%s/%%'", collPath ); fillGenQueryInpFromStrCond( condStr, &genQueryInp1 ); status = rcGenQuery( conn, &genQueryInp1, &genQueryOut1 ); clearGenQueryInp( &genQueryInp1 ); freeGenQueryOut( &genQueryOut1 ); if ( status == CAT_NO_ROWS_FOUND ) { noCollFound = 1; } snprintf( condStr, MAX_NAME_LEN, "select DATA_ID where COLL_NAME like '%s%%'", collPath ); fillGenQueryInpFromStrCond( condStr, &genQueryInp2 ); status = rcGenQuery( conn, &genQueryInp2, &genQueryOut2 ); clearGenQueryInp( &genQueryInp2 ); freeGenQueryOut( &genQueryOut2 ); if ( status == CAT_NO_ROWS_FOUND ) { noDataFound = 1; } return ( noDataFound && noCollFound ); }
/** * \fn msiCheckHostAccessControl (ruleExecInfo_t *rei) * * \brief This microservice sets the access control policy. It checks the * access control by host and user based on the the policy given in the * HostAccessControl file. * * \module core * * \since pre-2.1 * * \author Jean-Yves Nief * \date 2007-09 * * \note This microservice controls access to the iRODS service * based on the information in the host based access configuration file: * HOST_ACCESS_CONTROL_FILE * * \usage See clients/icommands/test/rules3.0/ * * \param[in,out] rei - The RuleExecInfo structure that is automatically * handled by the rule engine. The user does not include rei as a * parameter in the rule invocation. * * \DolVarDependence none * \DolVarModified none * \iCatAttrDependence none * \iCatAttrModified none * \sideeffect none * * \return integer * \retval 0 upon success * \pre N/A * \post N/A * \sa N/A **/ int msiCheckHostAccessControl( ruleExecInfo_t *rei ) { char group[MAX_NAME_LEN], *hostclient, *result, *username; char condstr[MAX_NAME_LEN]; int i, rc, status; genQueryInp_t genQueryInp; genQueryOut_t *genQueryOut = NULL; rsComm_t *rsComm; RE_TEST_MACRO( " Calling msiCheckHostAccessControl" ) /* the above line is needed for loop back testing using irule -i option */ group[0] = '\0'; rsComm = rei->rsComm; /* retrieve user name */ username = rsComm->clientUser.userName; /* retrieve client IP address */ hostclient = inet_ntoa( rsComm->remoteAddr.sin_addr ); /* retrieve groups to which the user belong */ memset( &genQueryInp, 0, sizeof( genQueryInp ) ); snprintf( condstr, MAX_NAME_LEN, "= '%s'", username ); addInxVal( &genQueryInp.sqlCondInp, COL_USER_NAME, condstr ); addInxIval( &genQueryInp.selectInp, COL_USER_GROUP_NAME, 1 ); genQueryInp.maxRows = MAX_SQL_ROWS; status = rsGenQuery( rsComm, &genQueryInp, &genQueryOut ); if ( status >= 0 ) { for ( i = 0; i < genQueryOut->rowCnt; i++ ) { result = genQueryOut->sqlResult[0].value; result += i * genQueryOut->sqlResult[0].len; strcat( group, result ); strcat( group, " " ); } } else { rstrcpy( group, "all", MAX_NAME_LEN ); } clearGenQueryInp( &genQueryInp ); freeGenQueryOut( &genQueryOut ); rc = checkHostAccessControl( username, hostclient, group ); if ( rc < 0 ) { rodsLog( LOG_NOTICE, "Access to user %s from host %s has been refused.\n", username, hostclient ); rei->status = rc; } return rei->status; }
int isResc( rsComm_t *rsComm, char *objName ) { genQueryInp_t genQueryInp; genQueryOut_t *genQueryOut = NULL; char tmpStr[NAME_LEN]; int status; memset( &genQueryInp, 0, sizeof( genQueryInp_t ) ); snprintf( tmpStr, NAME_LEN, "='%s'", objName ); addInxVal( &genQueryInp.sqlCondInp, COL_R_RESC_NAME, tmpStr ); addInxIval( &genQueryInp.selectInp, COL_R_RESC_ID, 1 ); genQueryInp.maxRows = 2; status = rsGenQuery( rsComm, &genQueryInp, &genQueryOut ); freeGenQueryOut( &genQueryOut ); clearGenQueryInp( &genQueryInp ); return status; }
int _rsProcStatAll (rsComm_t *rsComm, procStatInp_t *procStatInp, genQueryOut_t **procStatOut) { rodsServerHost_t *tmpRodsServerHost; procStatInp_t myProcStatInp; int status; genQueryOut_t *singleProcStatOut = NULL; int savedStatus = 0; bzero (&myProcStatInp, sizeof (myProcStatInp)); tmpRodsServerHost = ServerHostHead; while (tmpRodsServerHost != NULL) { if (getHostStatusByRescInfo (tmpRodsServerHost) == INT_RESC_STATUS_UP) { /* don't do down resc */ if (tmpRodsServerHost->localFlag == LOCAL_HOST) { setLocalSrvAddr (myProcStatInp.addr); status = localProcStat (rsComm, &myProcStatInp, &singleProcStatOut); } else { rstrcpy (myProcStatInp.addr, tmpRodsServerHost->hostName->name, NAME_LEN); addKeyVal (&myProcStatInp.condInput, EXEC_LOCALLY_KW, ""); status = remoteProcStat (rsComm, &myProcStatInp, &singleProcStatOut, tmpRodsServerHost); rmKeyVal (&myProcStatInp.condInput, EXEC_LOCALLY_KW); } if (status < 0) { savedStatus = status; } if (singleProcStatOut != NULL) { if (*procStatOut == NULL) { *procStatOut = singleProcStatOut; } else { catGenQueryOut (*procStatOut, singleProcStatOut, MAX_PROC_STAT_CNT); freeGenQueryOut (&singleProcStatOut); } singleProcStatOut = NULL; } } tmpRodsServerHost = tmpRodsServerHost->next; } return savedStatus; }
/* checkDupReplica - Check if a given object with a given rescName * and physical path already exist. If it does, returns the replNum. * JMC - backport 4497 */ int checkDupReplica( rsComm_t *rsComm, rodsLong_t dataId, char *rescName, char *filePath ) { genQueryInp_t genQueryInp; genQueryOut_t *genQueryOut = NULL; char tmpStr[MAX_NAME_LEN]; int status; if ( rsComm == NULL || rescName == NULL || filePath == NULL ) { return USER__NULL_INPUT_ERR; } bzero( &genQueryInp, sizeof( genQueryInp_t ) ); snprintf( tmpStr, MAX_NAME_LEN, "='%s'", rescName ); addInxVal( &genQueryInp.sqlCondInp, COL_D_RESC_NAME, tmpStr ); snprintf( tmpStr, MAX_NAME_LEN, "='%s'", filePath ); addInxVal( &genQueryInp.sqlCondInp, COL_D_DATA_PATH, tmpStr ); snprintf( tmpStr, MAX_NAME_LEN, "='%lld'", dataId ); addInxVal( &genQueryInp.sqlCondInp, COL_D_DATA_ID, tmpStr ); addInxIval( &genQueryInp.selectInp, COL_DATA_REPL_NUM, 1 ); genQueryInp.maxRows = 2; status = rsGenQuery( rsComm, &genQueryInp, &genQueryOut ); clearGenQueryInp( &genQueryInp ); if ( status >= 0 ) { int intReplNum; sqlResult_t *replNum; if ( ( replNum = getSqlResultByInx( genQueryOut, COL_DATA_REPL_NUM ) ) == NULL ) { rodsLog( LOG_ERROR, "checkDupReplica: getSqlResultByInx COL_DATA_REPL_NUM failed" ); return UNMATCHED_KEY_OR_INDEX; } intReplNum = atoi( replNum->value ); freeGenQueryOut( &genQueryOut ); return intReplNum; } else { return status; } }
int checkCollAccessPerm( rsComm_t *rsComm, char *collection, char *accessPerm ) { char accStr[LONG_NAME_LEN]; char condStr[MAX_NAME_LEN]; genQueryInp_t genQueryInp; genQueryOut_t *genQueryOut = NULL; int status; if ( collection == NULL || accessPerm == NULL ) { return SYS_INTERNAL_NULL_INPUT_ERR; } memset( &genQueryInp, 0, sizeof( genQueryInp ) ); snprintf( accStr, LONG_NAME_LEN, "%s", rsComm->clientUser.userName ); addKeyVal( &genQueryInp.condInput, USER_NAME_CLIENT_KW, accStr ); snprintf( accStr, LONG_NAME_LEN, "%s", rsComm->clientUser.rodsZone ); addKeyVal( &genQueryInp.condInput, RODS_ZONE_CLIENT_KW, accStr ); snprintf( accStr, LONG_NAME_LEN, "%s", accessPerm ); addKeyVal( &genQueryInp.condInput, ACCESS_PERMISSION_KW, accStr ); snprintf( condStr, MAX_NAME_LEN, "='%s'", collection ); addInxVal( &genQueryInp.sqlCondInp, COL_COLL_NAME, condStr ); addInxIval( &genQueryInp.selectInp, COL_COLL_ID, 1 ); genQueryInp.maxRows = MAX_SQL_ROWS; status = rsGenQuery( rsComm, &genQueryInp, &genQueryOut ); clearGenQueryInp( &genQueryInp ); if ( status >= 0 ) { freeGenQueryOut( &genQueryOut ); } return status; }
int isData (rsComm_t *rsComm, char *objName, rodsLong_t *dataId) { genQueryInp_t genQueryInp; genQueryOut_t *genQueryOut = NULL; char tmpStr[MAX_NAME_LEN]; char logicalEndName[MAX_NAME_LEN]; char logicalParentDirName[MAX_NAME_LEN]; int status; status = splitPathByKey(objName, logicalParentDirName, logicalEndName, '/'); memset (&genQueryInp, 0, sizeof (genQueryInp_t)); snprintf (tmpStr, MAX_NAME_LEN, "='%s'", logicalEndName); addInxVal (&genQueryInp.sqlCondInp, COL_DATA_NAME, tmpStr); addInxIval (&genQueryInp.selectInp, COL_D_DATA_ID, 1); snprintf (tmpStr, MAX_NAME_LEN, "='%s'", logicalParentDirName); addInxVal (&genQueryInp.sqlCondInp, COL_COLL_NAME, tmpStr); addInxIval (&genQueryInp.selectInp, COL_COLL_ID, 1); genQueryInp.maxRows = 2; status = rsGenQuery (rsComm, &genQueryInp, &genQueryOut); if (status >= 0) { sqlResult_t *dataIdRes; if ((dataIdRes = getSqlResultByInx (genQueryOut, COL_D_DATA_ID)) == NULL) { rodsLog (LOG_ERROR, "isData: getSqlResultByInx for COL_D_DATA_ID failed"); return (UNMATCHED_KEY_OR_INDEX); } if (dataId != NULL) { *dataId = strtoll (dataIdRes->value, 0, 0); } freeGenQueryOut (&genQueryOut); } clearGenQueryInp (&genQueryInp); return(status); }
int getPhyPath (rsComm_t *rsComm, char *objName, char *resource, char *phyPath) { genQueryInp_t genQueryInp; genQueryOut_t *genQueryOut = NULL; char tmpStr[MAX_NAME_LEN]; char logicalEndName[MAX_NAME_LEN]; char logicalParentDirName[MAX_NAME_LEN]; int status; status = splitPathByKey(objName, logicalParentDirName, logicalEndName, '/'); memset (&genQueryInp, 0, sizeof (genQueryInp_t)); snprintf (tmpStr, MAX_NAME_LEN, "='%s'", logicalEndName); addInxVal (&genQueryInp.sqlCondInp, COL_DATA_NAME, tmpStr); snprintf (tmpStr, MAX_NAME_LEN, "='%s'", logicalParentDirName); addInxVal (&genQueryInp.sqlCondInp, COL_COLL_NAME, tmpStr); addInxIval (&genQueryInp.selectInp, COL_D_DATA_PATH, 1); genQueryInp.maxRows = 2; status = rsGenQuery (rsComm, &genQueryInp, &genQueryOut); if (status >= 0) { sqlResult_t *phyPathRes = NULL; if ((phyPathRes = getSqlResultByInx (genQueryOut, COL_D_DATA_PATH)) == NULL) { rodsLog (LOG_ERROR, "getPhyPath: getSqlResultByInx for COL_D_DATA_PATH failed"); return (UNMATCHED_KEY_OR_INDEX); } if (phyPath != NULL) { rstrcpy (phyPath, phyPathRes->value, MAX_NAME_LEN); } freeGenQueryOut (&genQueryOut); } clearGenQueryInp (&genQueryInp); return(status); }
/** * \fn msiExecGenQuery(msParam_t* genQueryInParam, msParam_t* genQueryOutParam, ruleExecInfo_t *rei) * * \brief This function executes a given general query structure and returns results * * \module core * * \since pre-2.1 * * * \note Takes a SQL-like iRODS query (no FROM clause) and returns a table structure. Use #msiGetMoreRows to get all rows. * * \usage See clients/icommands/test/rules/ * * \param[in] genQueryInParam - a msParam of type GenQueryInp_MS_T * \param[out] genQueryOutParam - a msParam of type GenQueryOut_MS_T * \param[in,out] rei - The RuleExecInfo structure that is automatically * handled by the rule engine. The user does not include rei as a * parameter in the rule invocation. * * \DolVarDependence none * \DolVarModified none * \iCatAttrDependence none * \iCatAttrModified none * \sideeffect none * * \return integer * \retval 0 on success * \pre none * \post none * \sa msiGetMoreRows and msiExecStrCondQuery **/ int msiExecGenQuery( msParam_t* genQueryInParam, msParam_t* genQueryOutParam, ruleExecInfo_t *rei ) { genQueryInp_t *genQueryInp; int i; genQueryOut_t *genQueryOut = NULL; genQueryInp = ( genQueryInp_t* )genQueryInParam->inOutStruct; i = rsGenQuery( rei->rsComm, genQueryInp, &genQueryOut ); if ( i < 0 ) { if ( i == CAT_NO_ROWS_FOUND ) { genQueryOutParam->type = strdup( GenQueryOut_MS_T ); genQueryOutParam->inOutStruct = genQueryOut; return 0; } else { freeGenQueryOut(&genQueryOut); return i; } } genQueryOutParam->type = strdup( GenQueryOut_MS_T ); genQueryOutParam->inOutStruct = genQueryOut; return 0; }
int collStat( rsComm_t *rsComm, dataObjInp_t *dataObjInp, rodsObjStat_t **rodsObjStatOut ) { genQueryInp_t genQueryInp; genQueryOut_t *genQueryOut = NULL; int status; char condStr[MAX_NAME_LEN]; sqlResult_t *dataId; sqlResult_t *ownerName; sqlResult_t *ownerZone; sqlResult_t *createTime; sqlResult_t *modifyTime; sqlResult_t *collType; sqlResult_t *collInfo1; sqlResult_t *collInfo2; /* see if objPath is a collection */ memset( &genQueryInp, 0, sizeof( genQueryInp ) ); snprintf( condStr, MAX_NAME_LEN, "='%s'", dataObjInp->objPath ); addInxVal( &genQueryInp.sqlCondInp, COL_COLL_NAME, condStr ); addInxIval( &genQueryInp.selectInp, COL_COLL_ID, 1 ); /* XXXX COL_COLL_NAME added for queueSpecColl */ addInxIval( &genQueryInp.selectInp, COL_COLL_NAME, 1 ); addInxIval( &genQueryInp.selectInp, COL_COLL_OWNER_NAME, 1 ); addInxIval( &genQueryInp.selectInp, COL_COLL_OWNER_ZONE, 1 ); addInxIval( &genQueryInp.selectInp, COL_COLL_CREATE_TIME, 1 ); addInxIval( &genQueryInp.selectInp, COL_COLL_MODIFY_TIME, 1 ); /* XXXX may want to do this if spec coll is supported */ addInxIval( &genQueryInp.selectInp, COL_COLL_TYPE, 1 ); addInxIval( &genQueryInp.selectInp, COL_COLL_INFO1, 1 ); addInxIval( &genQueryInp.selectInp, COL_COLL_INFO2, 1 ); genQueryInp.maxRows = MAX_SQL_ROWS; status = rsGenQuery( rsComm, &genQueryInp, &genQueryOut ); if ( status >= 0 ) { *rodsObjStatOut = ( rodsObjStat_t * ) malloc( sizeof( rodsObjStat_t ) ); memset( *rodsObjStatOut, 0, sizeof( rodsObjStat_t ) ); ( *rodsObjStatOut )->objType = COLL_OBJ_T; status = ( int )COLL_OBJ_T; if ( ( dataId = getSqlResultByInx( genQueryOut, COL_COLL_ID ) ) == NULL ) { rodsLog( LOG_ERROR, "_rsObjStat: getSqlResultByInx for COL_COLL_ID failed" ); return UNMATCHED_KEY_OR_INDEX; } else if ( ( ownerName = getSqlResultByInx( genQueryOut, COL_COLL_OWNER_NAME ) ) == NULL ) { rodsLog( LOG_ERROR, "_rsObjStat:getSqlResultByInx for COL_COLL_OWNER_NAME failed" ); return UNMATCHED_KEY_OR_INDEX; } else if ( ( ownerZone = getSqlResultByInx( genQueryOut, COL_COLL_OWNER_ZONE ) ) == NULL ) { rodsLog( LOG_ERROR, "_rsObjStat:getSqlResultByInx for COL_COLL_OWNER_ZONE failed" ); return UNMATCHED_KEY_OR_INDEX; } else if ( ( createTime = getSqlResultByInx( genQueryOut, COL_COLL_CREATE_TIME ) ) == NULL ) { rodsLog( LOG_ERROR, "_rsObjStat:getSqlResultByInx for COL_COLL_CREATE_TIME failed" ); return UNMATCHED_KEY_OR_INDEX; } else if ( ( modifyTime = getSqlResultByInx( genQueryOut, COL_COLL_MODIFY_TIME ) ) == NULL ) { rodsLog( LOG_ERROR, "_rsObjStat:getSqlResultByInx for COL_COLL_MODIFY_TIME failed" ); return UNMATCHED_KEY_OR_INDEX; } else if ( ( collType = getSqlResultByInx( genQueryOut, COL_COLL_TYPE ) ) == NULL ) { rodsLog( LOG_ERROR, "_rsObjStat:getSqlResultByInx for COL_COLL_TYPE failed" ); return UNMATCHED_KEY_OR_INDEX; } else if ( ( collInfo1 = getSqlResultByInx( genQueryOut, COL_COLL_INFO1 ) ) == NULL ) { rodsLog( LOG_ERROR, "_rsObjStat:getSqlResultByInx for COL_COLL_INFO1 failed" ); return UNMATCHED_KEY_OR_INDEX; } else if ( ( collInfo2 = getSqlResultByInx( genQueryOut, COL_COLL_INFO2 ) ) == NULL ) { rodsLog( LOG_ERROR, "_rsObjStat:getSqlResultByInx for COL_COLL_INFO2 failed" ); return UNMATCHED_KEY_OR_INDEX; } else { rstrcpy( ( *rodsObjStatOut )->dataId, dataId->value, NAME_LEN ); rstrcpy( ( *rodsObjStatOut )->ownerName, ownerName->value, NAME_LEN ); rstrcpy( ( *rodsObjStatOut )->ownerZone, ownerZone->value, NAME_LEN ); rstrcpy( ( *rodsObjStatOut )->createTime, createTime->value, TIME_LEN ); rstrcpy( ( *rodsObjStatOut )->modifyTime, modifyTime->value, TIME_LEN ); if ( strlen( collType->value ) > 0 ) { specCollCache_t *specCollCache = 0; if ( ( specCollCache = matchSpecCollCache( dataObjInp->objPath ) ) != NULL ) { replSpecColl( &specCollCache->specColl, &( *rodsObjStatOut )->specColl ); } else { status = queueSpecCollCache( rsComm, genQueryOut, // JMC - backport 4680? dataObjInp->objPath ); if ( status < 0 ) { return status; } replSpecColl( &SpecCollCacheHead->specColl, &( *rodsObjStatOut )->specColl ); } } } } clearGenQueryInp( &genQueryInp ); freeGenQueryOut( &genQueryOut ); return status; }
int rodsMonPerfLog( char *serverName, char *resc, char *output, ruleExecInfo_t *rei ) { char condstr[MAX_NAME_LEN], fname[MAX_NAME_LEN], msg[MAX_MESSAGE_SIZE], monStatus[MAX_NAME_LEN], suffix[MAX_VALUE], *result; const char *delim1 = "#"; const char *delim2 = ","; int index, timestamp, rc1 = 0, rc2 = 0, rc3 = 0, rc4 = 0; FILE *foutput; time_t tps; generalRowInsertInp_t generalRowInsertInp; generalAdminInp_t generalAdminInp1, generalAdminInp2; genQueryInp_t genQueryInp; struct tm *now; genQueryOut_t *genQueryOut = NULL; tps = time( NULL ); now = localtime( &tps ); /* a quick test in order to see if the resource is up or down (needed to update the "status" metadata) */ if ( strcmp( output, MON_OUTPUT_NO_ANSWER ) == 0 ) { strncpy( monStatus, RESC_AUTO_DOWN, MAX_NAME_LEN ); } else { strncpy( monStatus, RESC_AUTO_UP, MAX_NAME_LEN ); } std::vector<std::string> output_tokens; boost::algorithm::split( output_tokens, output, boost::is_any_of( delim1 ) ); std::vector<std::string> resc_tokens; boost::algorithm::split( resc_tokens, resc, boost::is_any_of( delim2 ) ); std::vector<std::string> disk_tokens; boost::algorithm::split( disk_tokens, output_tokens[4], boost::is_any_of( delim2 ) ); std::vector<std::string> value_tokens; boost::algorithm::split( value_tokens, output_tokens[7], boost::is_any_of( delim2 ) ); index = 0; while ( !resc_tokens[index].empty() ) { if ( strcmp( monStatus, RESC_AUTO_DOWN ) == 0 ) { disk_tokens[index] = "-1"; value_tokens[index] = "-1"; } sprintf( msg, "server=%s resource=%s cpu=%s, mem=%s, swp=%s, rql=%s, dsk=%s, nin=%s, nout=%s, dskAv(MB)=%s\n", serverName, resc_tokens[index].c_str(), output_tokens[0].c_str(), output_tokens[1].c_str(), output_tokens[2].c_str(), output_tokens[3].c_str(), disk_tokens[index].c_str(), output_tokens[5].c_str(), output_tokens[6].c_str(), value_tokens[index].c_str() ); sprintf( suffix, "%d.%d.%d", now->tm_year + 1900, now->tm_mon + 1, now->tm_mday ); sprintf( fname, "%s.%s", OUTPUT_MON_PERF, suffix ); /* retrieve the system time */ timestamp = time( &tps ); /* log the result into the database as well */ generalRowInsertInp.tableName = "serverload"; generalRowInsertInp.arg1 = serverName; generalRowInsertInp.arg2 = resc_tokens[index].c_str(); generalRowInsertInp.arg3 = output_tokens[0].c_str(); generalRowInsertInp.arg4 = output_tokens[1].c_str(); generalRowInsertInp.arg5 = output_tokens[2].c_str(); generalRowInsertInp.arg6 = output_tokens[3].c_str(); generalRowInsertInp.arg7 = disk_tokens[index].c_str(); generalRowInsertInp.arg8 = output_tokens[5].c_str(); generalRowInsertInp.arg9 = output_tokens[6].c_str(); /* prepare DB request to modify resource metadata: freespace and status */ generalAdminInp1.arg0 = "modify"; generalAdminInp1.arg1 = "resource"; generalAdminInp1.arg2 = resc_tokens[index].c_str(); generalAdminInp1.arg3 = "freespace"; generalAdminInp1.arg4 = value_tokens[index].c_str(); generalAdminInp2.arg0 = "modify"; generalAdminInp2.arg1 = "resource"; generalAdminInp2.arg2 = resc_tokens[index].c_str(); generalAdminInp2.arg3 = "status"; generalAdminInp2.arg4 = monStatus; memset( &genQueryInp, 0, sizeof( genQueryInp ) ); addInxIval( &genQueryInp.selectInp, COL_R_RESC_STATUS, 1 ); snprintf( condstr, MAX_NAME_LEN, "= '%s'", resc_tokens[index].c_str() ); addInxVal( &genQueryInp.sqlCondInp, COL_R_RESC_NAME, condstr ); genQueryInp.maxRows = MAX_SQL_ROWS; #ifndef windows_platform pthread_mutex_lock( &my_mutex ); #endif /* append to the output log file */ foutput = fopen( fname, "a" ); if ( foutput != NULL ) { fprintf( foutput, "time=%i %s", timestamp, msg ); // fclose(foutput); // JMC cppcheck - nullptr // cannot close it here. it is used later - hcj } rc1 = rsGeneralRowInsert( rei->rsComm, &generalRowInsertInp ); rc2 = rsGeneralAdmin( rei->rsComm, &generalAdminInp1 ); rc3 = rsGenQuery( rei->rsComm, &genQueryInp, &genQueryOut ); if ( rc3 >= 0 ) { result = genQueryOut->sqlResult[0].value; if ( strcmp( result, "\0" ) == 0 || ( strncmp( result, "auto-", 5 ) == 0 && strcmp( result, monStatus ) != 0 ) ) { rc4 = rsGeneralAdmin( rei->rsComm, &generalAdminInp2 ); } } else { rodsLog( LOG_ERROR, "msiServerMonPerf: unable to retrieve the status metadata for the resource %s", resc_tokens[index].c_str() ); } #ifndef windows_platform pthread_mutex_unlock( &my_mutex ); #endif if ( foutput != NULL && rc1 != 0 ) { fprintf( foutput, "time=%i : unable to insert the entries for server %s into the iCAT\n", timestamp, serverName ); fclose( foutput ); } if ( rc2 != 0 ) { rodsLog( LOG_ERROR, "msiServerMonPerf: unable to register the free space metadata for the resource %s", resc_tokens[index].c_str() ); } if ( rc4 != 0 ) { rodsLog( LOG_ERROR, "msiServerMonPerf: unable to register the status metadata for the resource %s", resc_tokens[index].c_str() ); } index += 1; } clearGenQueryInp( &genQueryInp ); freeGenQueryOut( &genQueryOut ); return 0; }
int getListOfResc( rsComm_t *rsComm, char serverList[MAX_VALUE][MAX_NAME_LEN], int nservers, monInfo_t monList[MAX_NSERVERS], int *nlist ) { /********************************************************** * search in the database, the list of resources with * * their associated server. If config file exist, restrict * * the list to serverList * ***********************************************************/ int i, j, k, index[MAX_NSERVERS], l, status; genQueryInp_t genQueryInp; genQueryOut_t *genQueryOut = NULL; char condStr[MAX_NAME_LEN]; memset( &genQueryInp, 0, sizeof( genQueryInp_t ) ); memset( &index, -1, MAX_NSERVERS * sizeof( int ) ); genQueryInp.maxRows = MAX_SQL_ROWS; //clearGenQueryInp( &genQueryInp ); addInxIval( &genQueryInp.selectInp, COL_R_LOC, 1 ); addInxIval( &genQueryInp.selectInp, COL_R_RESC_NAME, 1 ); addInxIval( &genQueryInp.selectInp, COL_R_TYPE_NAME, 1 ); addInxIval( &genQueryInp.selectInp, COL_R_VAULT_PATH, 1 ); addInxVal( &genQueryInp.sqlCondInp, COL_R_LOC, "!='EMPTY_RESC_HOST'" ); addInxVal( &genQueryInp.sqlCondInp, COL_R_VAULT_PATH, "!='EMPTY_RESC_PATH'" ); snprintf( condStr, MAX_NAME_LEN, "!='%s'", BUNDLE_RESC ); addInxVal( &genQueryInp.sqlCondInp, COL_R_RESC_NAME, condStr ); status = rsGenQuery( rsComm, &genQueryInp, &genQueryOut ); if ( status < 0 ) { irods::log( ERROR( status, "rsGenQuery failed." ) ); } if ( genQueryOut->rowCnt > 0 ) { l = 0; for ( i = 0; i < genQueryOut->attriCnt; i++ ) { for ( j = 0; j < genQueryOut->rowCnt; j++ ) { char *tResult; tResult = genQueryOut->sqlResult[i].value; tResult += j * genQueryOut->sqlResult[i].len; switch ( i ) { case 0: if ( nservers >= 0 ) { for ( k = 0; k < nservers; k++ ) { if ( strcmp( serverList[k], tResult ) == 0 ) { index[j] = l; l++; } } } else { index[j] = l; l++; } if ( index[j] != -1 ) { rstrcpy( monList[index[j]].serverName, tResult, LONG_NAME_LEN ); } break; case 1: if ( index[j] != -1 ) { rstrcpy( monList[index[j]].rescName, tResult, MAX_NAME_LEN ); } break; case 2: if ( index[j] != -1 ) { rstrcpy( monList[index[j]].rescType, tResult, LONG_NAME_LEN ); } break; case 3: if ( index[j] != -1 ) { rstrcpy( monList[index[j]].vaultPath, tResult, LONG_NAME_LEN ); } break; } } } ( *nlist ) = l; clearGenQueryInp( &genQueryInp ); freeGenQueryOut( &genQueryOut ); return 0; } return -1; }
int _rsRuleExecDel( rsComm_t *rsComm, ruleExecDelInp_t *ruleExecDelInp ) { genQueryOut_t *genQueryOut = NULL; int status; sqlResult_t *reiFilePath; sqlResult_t *ruleUserName; char reiDir[MAX_NAME_LEN]; std::string svc_role; irods::error ret = get_catalog_service_role(svc_role); if(!ret.ok()) { irods::log(PASS(ret)); return ret.code(); } status = getReInfoById( rsComm, ruleExecDelInp->ruleExecId, &genQueryOut ); if ( status < 0 ) { rodsLog( LOG_ERROR, "_rsRuleExecDel: getReInfoById failed, status = %d", status ); /* unregister it anyway */ if( irods::CFG_SERVICE_ROLE_PROVIDER == svc_role ) { status = chlDelRuleExec( rsComm, ruleExecDelInp->ruleExecId ); if ( status < 0 ) { rodsLog( LOG_ERROR, "_rsRuleExecDel: chlDelRuleExec for %s error, status = %d", ruleExecDelInp->ruleExecId, status ); } return status; } else if( irods::CFG_SERVICE_ROLE_CONSUMER == svc_role ) { rodsLog( LOG_ERROR, "_rsRuleExecDel: chlDelRuleExec only in ICAT host" ); return SYS_NO_RCAT_SERVER_ERR; } else { const auto err{ERROR(SYS_SERVICE_ROLE_NOT_SUPPORTED, (boost::format("role not supported [%s]") % svc_role.c_str()).str().c_str())}; irods::log(err); return err.code(); } } if ( ( reiFilePath = getSqlResultByInx( genQueryOut, COL_RULE_EXEC_REI_FILE_PATH ) ) == NULL ) { rodsLog( LOG_NOTICE, "_rsRuleExecDel: getSqlResultByInx for REI_FILE_PATH failed" ); return UNMATCHED_KEY_OR_INDEX; } /* First check permission (now that API is allowed for non-admin users) */ if ( rsComm->proxyUser.authInfo.authFlag < LOCAL_PRIV_USER_AUTH ) { if ( rsComm->proxyUser.authInfo.authFlag == LOCAL_USER_AUTH ) { if ( ( ruleUserName = getSqlResultByInx( genQueryOut, COL_RULE_EXEC_USER_NAME ) ) == NULL ) { rodsLog( LOG_NOTICE, "_rsRuleExecDel: getSqlResultByInx for COL_RULE_EXEC_USER_NAME failed" ); return UNMATCHED_KEY_OR_INDEX; } if ( strncmp( ruleUserName->value, rsComm->clientUser.userName, MAX_NAME_LEN ) != 0 ) { return USER_ACCESS_DENIED; } } else { return USER_ACCESS_DENIED; } } /* some sanity check */ snprintf( reiDir, MAX_NAME_LEN, "/%-s/%-s.", PACKED_REI_DIR, REI_FILE_NAME ); if ( strstr( reiFilePath->value, reiDir ) == NULL ) { if( irods::CFG_SERVICE_ROLE_PROVIDER == svc_role ) { int i; char errMsg[105]; rodsLog( LOG_NOTICE, "_rsRuleExecDel: reiFilePath: %s is not a proper rei path", reiFilePath->value ); /* Try to unregister it anyway */ status = chlDelRuleExec( rsComm, ruleExecDelInp->ruleExecId ); if ( status ) { return ( status ); /* that failed too, report it */ } /* Add a message to the error stack for the client user */ snprintf( errMsg, sizeof errMsg, "Rule was removed but reiPath was invalid: %s", reiFilePath->value ); i = addRErrorMsg( &rsComm->rError, 0, errMsg ); if ( i < 0 ) { irods::log( ERROR( i, "addRErrorMsg failed" ) ); } freeGenQueryOut( &genQueryOut ); return SYS_INVALID_FILE_PATH; } else if( irods::CFG_SERVICE_ROLE_CONSUMER == svc_role ) { rodsLog( LOG_ERROR, "_rsRuleExecDel: chlDelRuleExec only in ICAT host" ); return SYS_NO_RCAT_SERVER_ERR; } else { const auto err{ERROR(SYS_SERVICE_ROLE_NOT_SUPPORTED, (boost::format("role not supported [%s]") % svc_role.c_str()).str().c_str())}; irods::log(err); return err.code(); } } status = unlink( reiFilePath->value ); if ( status < 0 ) { status = UNIX_FILE_UNLINK_ERR - errno; rodsLog( LOG_ERROR, "_rsRuleExecDel: unlink of %s error, status = %d", reiFilePath->value, status ); if ( errno != ENOENT ) { freeGenQueryOut( &genQueryOut ); return status; } } if( irods::CFG_SERVICE_ROLE_PROVIDER == svc_role ) { int unlinkStatus = status; /* unregister it */ status = chlDelRuleExec( rsComm, ruleExecDelInp->ruleExecId ); if ( status < 0 ) { rodsLog( LOG_ERROR, "_rsRuleExecDel: chlDelRuleExec for %s error, status = %d", ruleExecDelInp->ruleExecId, status ); } if ( unlinkStatus ) { int i; char errMsg[105]; /* Add a message to the error stack for the client user */ snprintf( errMsg, sizeof errMsg, "Rule was removed but unlink of rei file failed" ); i = addRErrorMsg( &rsComm->rError, 0, errMsg ); if ( i < 0 ) { irods::log( ERROR( i, "addRErrorMsg failed" ) ); } snprintf( errMsg, sizeof errMsg, "rei file: %s", reiFilePath->value ); i = addRErrorMsg( &rsComm->rError, 1, errMsg ); if (i < 0) { irods::log(ERROR(i, "addRErrorMsg failed")); } if ( status == 0 ) { /* return this error if no other error occurred */ status = unlinkStatus; } } freeGenQueryOut( &genQueryOut ); return status; } else if( irods::CFG_SERVICE_ROLE_CONSUMER == svc_role ) { rodsLog( LOG_ERROR, "_rsRuleExecDel: chlDelRuleExec only in ICAT host" ); return SYS_NO_RCAT_SERVER_ERR; } else { const auto err{ERROR(SYS_SERVICE_ROLE_NOT_SUPPORTED, (boost::format("role not supported [%s]") % svc_role.c_str()).str().c_str())}; irods::log(err); return err.code(); } }
// =-=-=-=-=-=-=- // public - connect to the catalog and query for all the // attached resources and instantiate them error resource_manager::init_from_catalog( rsComm_t* _comm ) { // =-=-=-=-=-=-=- // clear existing resource map and initialize resources_.clear(); // =-=-=-=-=-=-=- // set up data structures for a gen query genQueryInp_t genQueryInp; genQueryOut_t* genQueryOut = NULL; error proc_ret; memset( &genQueryInp, 0, sizeof( genQueryInp ) ); addInxIval( &genQueryInp.selectInp, COL_R_RESC_ID, 1 ); addInxIval( &genQueryInp.selectInp, COL_R_RESC_NAME, 1 ); addInxIval( &genQueryInp.selectInp, COL_R_ZONE_NAME, 1 ); addInxIval( &genQueryInp.selectInp, COL_R_TYPE_NAME, 1 ); addInxIval( &genQueryInp.selectInp, COL_R_CLASS_NAME, 1 ); addInxIval( &genQueryInp.selectInp, COL_R_LOC, 1 ); addInxIval( &genQueryInp.selectInp, COL_R_VAULT_PATH, 1 ); addInxIval( &genQueryInp.selectInp, COL_R_FREE_SPACE, 1 ); addInxIval( &genQueryInp.selectInp, COL_R_RESC_INFO, 1 ); addInxIval( &genQueryInp.selectInp, COL_R_RESC_COMMENT, 1 ); addInxIval( &genQueryInp.selectInp, COL_R_CREATE_TIME, 1 ); addInxIval( &genQueryInp.selectInp, COL_R_MODIFY_TIME, 1 ); addInxIval( &genQueryInp.selectInp, COL_R_RESC_STATUS, 1 ); addInxIval( &genQueryInp.selectInp, COL_R_RESC_CHILDREN, 1 ); addInxIval( &genQueryInp.selectInp, COL_R_RESC_CONTEXT, 1 ); addInxIval( &genQueryInp.selectInp, COL_R_RESC_PARENT, 1 ); addInxIval( &genQueryInp.selectInp, COL_R_RESC_OBJCOUNT, 1 ); genQueryInp.maxRows = MAX_SQL_ROWS; // =-=-=-=-=-=-=- // init continueInx to pass for first loop int continueInx = 1; // =-=-=-=-=-=-=- // loop until continuation is not requested while ( continueInx > 0 ) { // =-=-=-=-=-=-=- // perform the general query int status = rsGenQuery( _comm, &genQueryInp, &genQueryOut ); // =-=-=-=-=-=-=- // perform the general query if ( status < 0 ) { if ( status != CAT_NO_ROWS_FOUND ) { rodsLog( LOG_NOTICE, "initResc: rsGenQuery error, status = %d", status ); } clearGenQueryInp( &genQueryInp ); return ERROR( status, "genQuery failed." ); } // if // =-=-=-=-=-=-=- // given a series of rows, each being a resource, create a resource and add it to the table proc_ret = process_init_results( genQueryOut ); // =-=-=-=-=-=-=- // if error is not valid, clear query and bail if ( !proc_ret.ok() ) { irods::error log_err = PASSMSG( "init_from_catalog - process_init_results failed", proc_ret ); irods::log( log_err ); freeGenQueryOut( &genQueryOut ); break; } else { if ( genQueryOut != NULL ) { continueInx = genQueryInp.continueInx = genQueryOut->continueInx; freeGenQueryOut( &genQueryOut ); } else { continueInx = 0; } } // else } // while clearGenQueryInp( &genQueryInp ); // =-=-=-=-=-=-=- // pass along the error if we are in an error state if ( !proc_ret.ok() ) { return PASSMSG( "process_init_results failed.", proc_ret ); } // =-=-=-=-=-=-=- // Update child resource maps proc_ret = init_child_map(); if ( !proc_ret.ok() ) { return PASSMSG( "init_child_map failed.", proc_ret ); } // =-=-=-=-=-=-=- // gather the post disconnect maintenance operations error op_ret = gather_operations(); if ( !op_ret.ok() ) { return PASSMSG( "gather_operations failed.", op_ret ); } // =-=-=-=-=-=-=- // initialize the special local file system resource // JMC :: no longer needed //error spec_ret = init_local_file_system_resource(); //if ( !spec_ret.ok() ) { // return PASSMSG( "init_local_file_system_resource failed.", op_ret ); //} // =-=-=-=-=-=-=- // call start for plugins error start_err = start_resource_plugins(); if ( !start_err.ok() ) { return PASSMSG( "start_resource_plugins failed.", start_err ); } // =-=-=-=-=-=-=- // win! return SUCCESS(); } // init_from_catalog