/** * Get the constraint type out of the row. * * @param row The row from sysconstraints * @return int The constraint type as an int * @throws StandardException thrown on failure */ protected int getConstraintType(ExecRow row) throws StandardException { DataValueDescriptor col; int constraintIType; String constraintSType; /* 4th column is TYPE (char(1)) */ col = row.getColumn(SYSCONSTRAINTS_TYPE); constraintSType = col.getString(); assert constraintSType.length() == 1 : "Fourth column type incorrect"; switch (constraintSType.charAt(0)) { case 'P': constraintIType = DataDictionary.PRIMARYKEY_CONSTRAINT; break; case 'U': constraintIType = DataDictionary.UNIQUE_CONSTRAINT; break; case 'C': constraintIType = DataDictionary.CHECK_CONSTRAINT; break; case 'F': constraintIType = DataDictionary.FOREIGNKEY_CONSTRAINT; break; default: assert false : "Fourth column value invalid"; // assertion failure constraintIType = -1; } return constraintIType; }
/** * Get the table ID of the row. * * @param row The row from sysconstraints * @return UUID The table id * @throws StandardException thrown on failure */ protected UUID getTableId(ExecRow row) throws StandardException { DataValueDescriptor col; String tableUUIDString; /* 2nd column is TABLEID (UUID - char(36)) */ col = row.getColumn(SYSCONSTRAINTS_TABLEID); tableUUIDString = col.getString(); return getUUIDFactory().recreateUUID(tableUUIDString); }
/** * Get the schema ID of the row. * * @param row The row from sysconstraints * @return UUID The schema * @throws StandardException thrown on failure */ protected UUID getSchemaId(ExecRow row) throws StandardException { DataValueDescriptor col; String schemaUUIDString; /* 5th column is SCHEMAID (UUID - char(36)) */ col = row.getColumn(SYSCONSTRAINTS_SCHEMAID); schemaUUIDString = col.getString(); return getUUIDFactory().recreateUUID(schemaUUIDString); }
/** * Get the constraint name of the row. * * @param row The row from sysconstraints * @return UUID The constraint name * @throws StandardException thrown on failure */ protected String getConstraintName(ExecRow row) throws StandardException { DataValueDescriptor col; String constraintName; /* 3rd column is CONSTRAINTNAME (char(128)) */ col = row.getColumn(SYSCONSTRAINTS_CONSTRAINTNAME); constraintName = col.getString(); return constraintName; }
/** * Get the constraint ID of the row. * * @param row The row from sysconstraints * @return UUID The constraint id * @throws StandardException thrown on failure */ protected UUID getConstraintId(ExecRow row) throws StandardException { DataValueDescriptor col; String constraintUUIDString; /* 1st column is CONSTRAINTID (UUID - char(36)) */ col = row.getColumn(SYSCONSTRAINTS_CONSTRAINTID); constraintUUIDString = col.getString(); return getUUIDFactory().recreateUUID(constraintUUIDString); }
/** * Determine whether or not any columns in the current index row are being changed by the update. * No need to update the index if no columns changed. * * @return Nothing. * @exception StandardException Thrown on error */ private boolean indexRowChanged() throws StandardException { int numColumns = ourIndexRow.nColumns(); for (int index = 1; index <= numColumns; index++) { DataValueDescriptor oldOrderable = ourIndexRow.getColumn(index); DataValueDescriptor newOrderable = ourUpdatedIndexRow.getColumn(index); if (!(oldOrderable.compare(DataValueDescriptor.ORDER_OP_EQUALS, newOrderable, true, true))) { return true; } } return false; }
@Override @SuppressFBWarnings(value = "RV_NEGATING_RESULT_OF_COMPARETO", justification = "Intentional") public int compare(ExecRow o1, ExecRow o2) { DataValueDescriptor[] a1 = o1.getRowArray(); DataValueDescriptor[] a2 = o2.getRowArray(); for (int i = 0; i < a1.length; ++i) { DataValueDescriptor c1 = a1[i]; DataValueDescriptor c2 = a2[i]; int result; try { result = c1.compare(c2, nullsOrderedLow == null ? true : nullsOrderedLow[i]); } catch (StandardException e) { throw new RuntimeException(e); } if (result != 0) { return descColumns == null || !descColumns[i] ? result : -result; } } return 0; }
/** * Make a ConstraintDescriptor out of a SYSCONSTRAINTS row * * @param row a SYSCONSTRAINTS row * @param parentTupleDescriptor Subconstraint descriptor with auxiliary info. * @param dd dataDictionary * @throws StandardException thrown on failure */ public TupleDescriptor buildDescriptor( ExecRow row, TupleDescriptor parentTupleDescriptor, DataDictionary dd) throws StandardException { ConstraintDescriptor constraintDesc = null; if (SanityManager.DEBUG) { SanityManager.ASSERT( row.nColumns() == SYSCONSTRAINTS_COLUMN_COUNT, "Wrong number of columns for a SYSCONSTRAINTS row"); } DataValueDescriptor col; ConglomerateDescriptor conglomDesc; DataDescriptorGenerator ddg; TableDescriptor td = null; int constraintIType = -1; int[] keyColumns = null; UUID constraintUUID; UUID schemaUUID; UUID tableUUID; UUID referencedConstraintId = null; SchemaDescriptor schema; String tableUUIDString; String constraintName; String constraintSType; String constraintStateStr; boolean constraintEnabled; int referenceCount; String constraintUUIDString; String schemaUUIDString; SubConstraintDescriptor scd; if (SanityManager.DEBUG) { if (!(parentTupleDescriptor instanceof SubConstraintDescriptor)) { SanityManager.THROWASSERT( "parentTupleDescriptor expected to be instanceof " + "SubConstraintDescriptor, not " + parentTupleDescriptor.getClass().getName()); } } scd = (SubConstraintDescriptor) parentTupleDescriptor; ddg = dd.getDataDescriptorGenerator(); /* 1st column is CONSTRAINTID (UUID - char(36)) */ col = row.getColumn(SYSCONSTRAINTS_CONSTRAINTID); constraintUUIDString = col.getString(); constraintUUID = getUUIDFactory().recreateUUID(constraintUUIDString); /* 2nd column is TABLEID (UUID - char(36)) */ col = row.getColumn(SYSCONSTRAINTS_TABLEID); tableUUIDString = col.getString(); tableUUID = getUUIDFactory().recreateUUID(tableUUIDString); /* Get the TableDescriptor. * It may be cached in the SCD, * otherwise we need to go to the * DD. */ if (scd != null) { td = scd.getTableDescriptor(); } if (td == null) { td = dd.getTableDescriptor(tableUUID); } /* 3rd column is NAME (varchar(128)) */ col = row.getColumn(SYSCONSTRAINTS_CONSTRAINTNAME); constraintName = col.getString(); /* 4th column is TYPE (char(1)) */ col = row.getColumn(SYSCONSTRAINTS_TYPE); constraintSType = col.getString(); if (SanityManager.DEBUG) { SanityManager.ASSERT(constraintSType.length() == 1, "Fourth column type incorrect"); } boolean typeSet = false; switch (constraintSType.charAt(0)) { case 'P': constraintIType = DataDictionary.PRIMARYKEY_CONSTRAINT; typeSet = true; // fall through case 'U': if (!typeSet) { constraintIType = DataDictionary.UNIQUE_CONSTRAINT; typeSet = true; } // fall through case 'F': if (!typeSet) constraintIType = DataDictionary.FOREIGNKEY_CONSTRAINT; if (SanityManager.DEBUG) { if (!(parentTupleDescriptor instanceof SubKeyConstraintDescriptor)) { SanityManager.THROWASSERT( "parentTupleDescriptor expected to be instanceof " + "SubKeyConstraintDescriptor, not " + parentTupleDescriptor.getClass().getName()); } } conglomDesc = td.getConglomerateDescriptor( ((SubKeyConstraintDescriptor) parentTupleDescriptor).getIndexId()); /* Take care the rare case of conglomDesc being null. The * reason is that our "td" is out of date. Another thread * which was adding a constraint committed between the moment * we got the table descriptor (conglomerate list) and the * moment we scanned and got the constraint desc list. Since * that thread just added a new row to SYSCONGLOMERATES, * SYSCONSTRAINTS, etc. We wouldn't have wanted to lock the * system tables just to prevent other threads from adding new * rows. */ if (conglomDesc == null) { // we can't be getting td from cache because if we are // here, we must have been in dd's ddl mode (that's why // the ddl thread went through), we are not done yet, the // dd ref count is not 0, hence it couldn't have turned // into COMPILE_ONLY mode td = dd.getTableDescriptor(tableUUID); if (scd != null) scd.setTableDescriptor(td); // try again now conglomDesc = td.getConglomerateDescriptor( ((SubKeyConstraintDescriptor) parentTupleDescriptor).getIndexId()); } if (SanityManager.DEBUG) { SanityManager.ASSERT( conglomDesc != null, "conglomDesc is expected to be non-null for backing index"); } referencedConstraintId = ((SubKeyConstraintDescriptor) parentTupleDescriptor).getKeyConstraintId(); keyColumns = conglomDesc.getIndexDescriptor().baseColumnPositions(); break; case 'C': constraintIType = DataDictionary.CHECK_CONSTRAINT; if (SanityManager.DEBUG) { if (!(parentTupleDescriptor instanceof SubCheckConstraintDescriptor)) { SanityManager.THROWASSERT( "parentTupleDescriptor expected to be instanceof " + "SubCheckConstraintDescriptor, not " + parentTupleDescriptor.getClass().getName()); } } break; default: if (SanityManager.DEBUG) { SanityManager.THROWASSERT("Fourth column value invalid"); } } /* 5th column is SCHEMAID (UUID - char(36)) */ col = row.getColumn(SYSCONSTRAINTS_SCHEMAID); schemaUUIDString = col.getString(); schemaUUID = getUUIDFactory().recreateUUID(schemaUUIDString); schema = dd.getSchemaDescriptor(schemaUUID, null); /* 6th column is STATE (char(1)) */ col = row.getColumn(SYSCONSTRAINTS_STATE); constraintStateStr = col.getString(); if (SanityManager.DEBUG) { SanityManager.ASSERT(constraintStateStr.length() == 1, "Sixth column (state) type incorrect"); } switch (constraintStateStr.charAt(0)) { case 'E': constraintEnabled = true; break; case 'D': constraintEnabled = false; break; default: constraintEnabled = true; if (SanityManager.DEBUG) { SanityManager.THROWASSERT( "Invalidate state value '" + constraintStateStr + "' for constraint"); } } /* 7th column is REFERENCECOUNT, boolean */ col = row.getColumn(SYSCONSTRAINTS_REFERENCECOUNT); referenceCount = col.getInt(); /* now build and return the descriptor */ switch (constraintIType) { case DataDictionary.PRIMARYKEY_CONSTRAINT: constraintDesc = ddg.newPrimaryKeyConstraintDescriptor( td, constraintName, false, // deferable, false, // initiallyDeferred, keyColumns, // genReferencedColumns(dd, td), //int referencedColumns[], constraintUUID, ((SubKeyConstraintDescriptor) parentTupleDescriptor).getIndexId(), schema, constraintEnabled, referenceCount); break; case DataDictionary.UNIQUE_CONSTRAINT: constraintDesc = ddg.newUniqueConstraintDescriptor( td, constraintName, false, // deferable, false, // initiallyDeferred, keyColumns, // genReferencedColumns(dd, td), //int referencedColumns[], constraintUUID, ((SubKeyConstraintDescriptor) parentTupleDescriptor).getIndexId(), schema, constraintEnabled, referenceCount); break; case DataDictionary.FOREIGNKEY_CONSTRAINT: if (SanityManager.DEBUG) { SanityManager.ASSERT( referenceCount == 0, "REFERENCECOUNT column is nonzero for fk constraint"); } constraintDesc = ddg.newForeignKeyConstraintDescriptor( td, constraintName, false, // deferable, false, // initiallyDeferred, keyColumns, // genReferencedColumns(dd, td), //int referencedColumns[], constraintUUID, ((SubKeyConstraintDescriptor) parentTupleDescriptor).getIndexId(), schema, referencedConstraintId, constraintEnabled, ((SubKeyConstraintDescriptor) parentTupleDescriptor).getRaDeleteRule(), ((SubKeyConstraintDescriptor) parentTupleDescriptor).getRaUpdateRule()); break; case DataDictionary.CHECK_CONSTRAINT: if (SanityManager.DEBUG) { SanityManager.ASSERT( referenceCount == 0, "REFERENCECOUNT column is nonzero for check constraint"); } constraintDesc = ddg.newCheckConstraintDescriptor( td, constraintName, false, // deferable, false, // initiallyDeferred, constraintUUID, ((SubCheckConstraintDescriptor) parentTupleDescriptor).getConstraintText(), ((SubCheckConstraintDescriptor) parentTupleDescriptor) .getReferencedColumnsDescriptor(), schema, constraintEnabled); break; } return constraintDesc; }