/* ### * IP: GHIDRA * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ //DO NOT RUN. THIS IS NOT A SCRIPT! THIS IS A CLASS THAT IS USED BY SCRIPTS. package classrecovery; import java.util.*; import ghidra.program.model.data.*; import ghidra.util.exception.CancelledException; import ghidra.util.task.TaskMonitor; class EditStructureUtils { private EditStructureUtils() { } /** * Method to determine if the given containing struct has components at the given offset * that are either the same, all undefined1's or equivalently sized undefineds as the components * in the given possible newInternalStruct * @param containingStruct the given structure to check * @param offset the offset at the containing struct to check for equivalent components * @param newInternalStruct the possible new internal struct to replace at the given offset in the * given containing struct * @param monitor task monitor * @return true if components in the containing struct are replaceable with the possible new * internal struct, false otherwise * @throws CancelledException if cancelled */ static boolean hasReplaceableComponentsAtOffset(Structure containingStruct, int offset, Structure newInternalStruct, TaskMonitor monitor) throws CancelledException { DataTypeComponent[] newStructComponents = newInternalStruct.getComponents(); for (DataTypeComponent newStructComponent : newStructComponents) { monitor.checkCanceled(); int structOffset = newStructComponent.getOffset(); DataTypeComponent currentComponentAtOffset = containingStruct.getComponentAt(offset + structOffset); DataType newStructCompDt = newStructComponent.getDataType(); DataType containingComDt = currentComponentAtOffset.getDataType(); // if component dts are equal continue if (newStructCompDt.equals(containingComDt)) { continue; } // if containing is all undefined1s at equivalent location then continue if (hasEnoughUndefined1sAtOffset(containingStruct, offset + structOffset, newStructCompDt.getLength(), monitor)) { continue; } // otherwise if lengths not equal then return false if (newStructCompDt.getLength() != containingComDt.getLength()) { return false; } // component lengths are equal if it gets here // if containing is not undefined then return false because the components would be // incompatible types if (!Undefined.isUndefined(containingComDt)) { return false; } } return true; } /** * Method to determine if there are at least the given length of undefined size 1 components at the given offset in the given structure * @param structure the given structure * @param offset the given offset * @param length the length of undefine size 1 components to check for starting at given offset * @param monitor task monitor * @return true if there are at least length undefined size 1 components at the given offset in the given structure * @throws CancelledException if cancelled */ static boolean hasEnoughUndefined1sAtOffset(Structure structure, int offset, int length, TaskMonitor monitor) throws CancelledException { if (structure.getLength() < offset + length) { return false; } for (int i = offset; i < offset + length; i++) { monitor.checkCanceled(); DataTypeComponent component = structure.getComponentAt(i); if (component == null) { return false; } DataType dataType = component.getDataType(); if (dataType == DataType.DEFAULT) { continue; } return false; } return true; } /** * Method to check that all components starting with the one at the given offset and encompassing * all up to the given length from the given offset are an undefined data type. If so, clear them all and return true. * If not, do nothing and return false. * @param structure the given structure * @param offset the given offset in the structure * @param length the total length from the offset to hopefully clear * @param monitor task monitor * @return true if successfully cleared from offset to offset+length, false otherwise * @throws CancelledException if cancelled */ static boolean clearLengthAtOffset(Structure structure, int offset, int length, TaskMonitor monitor) throws CancelledException { if (structure.getLength() < offset + length) { return false; } List offsetsToClear = new ArrayList(); int endOfClear = offset + length; while (offset < endOfClear) { monitor.checkCanceled(); DataTypeComponent component = structure.getComponentContaining(offset); offsetsToClear.add(component.getOffset()); offset = component.getOffset() + component.getLength(); } if (offsetsToClear.isEmpty()) { return false; } Iterator offsetIterator = offsetsToClear.iterator(); while (offsetIterator.hasNext()) { Integer componentOffset = offsetIterator.next(); // need to get ordinal from component using offset because after clearing // component size > 1, the index changes DataTypeComponent component = structure.getComponentAt(componentOffset); int index = component.getOrdinal(); structure.clearComponent(index); } return true; } /** * Method to determine if data type is an undefined size 1 data type * @param dataType the given data type * @return true if given data type is undefined size 1, false otherwise */ static boolean isUndefined1(DataType dataType) { if (Undefined.isUndefined(dataType) && dataType.getLength() == 1) { return true; } return false; } /** * Method to determine if there are at least the given length of undefined (any size) components * at the given offset in the given structure. This is only valid for non-packed structures. * @param structure the given structure * @param offset the given offset * @param length the total length of undefined components to check for starting at given offset * @param monitor task monitor * @return true if there are at least total length of undefined components at the given offset in the given structure * @throws CancelledException if cancelled * @throws IllegalArgumentException if a packed structure is passed in */ static boolean hasEnoughUndefinedsOfAnyLengthAtOffset(Structure structure, int offset, int length, TaskMonitor monitor) throws CancelledException { if (structure.isPackingEnabled()) { throw new IllegalArgumentException( "Packed structures are not supported by this method"); } int endOfRange = offset + length; if (offset < 0 || length <= 0 || structure.getLength() < endOfRange) { return false; } while (offset < endOfRange) { monitor.checkCanceled(); DataTypeComponent component = structure.getComponentContaining(offset); DataType dataType = component.getDataType(); if (!Undefined.isUndefined(dataType)) { return false; } offset = component.getOffset() + component.getLength(); } return true; } /** * Method to add a field to the given structure. If the structure already has data * at the given offset, don't replace. If there is undefined data there then replace * it with the data type. If the structure empty, insert the data type at the given offset. * If the structure is not big enough and not-empty, grow it so there is room to replace. * See {@link #canAdd(Structure, int, int, TaskMonitor)} for ensuring operation will be * successful. * @param structure the given structure * @param offset the offset to add a field * @param dataType the data type to add to the field at the given offset * @param fieldName the name of field * @param monitor task monitor * @return the updated structure data type * @throws IllegalArgumentException if issue inserting data type into structure * @throws CancelledException if cancelled */ static Structure addDataTypeToStructure(Structure structure, int offset, DataType dataType, String fieldName, TaskMonitor monitor) throws CancelledException, IllegalArgumentException { if (structure.isPackingEnabled()) { throw new IllegalArgumentException( "Packed structures are not supported by this method"); } if (structure.isZeroLength() || offset >= structure.getLength()) { structure.insertAtOffset(offset, dataType, -1, fieldName, null); } else { structure.replaceAtOffset(offset, dataType, -1, fieldName, null); } return structure; } /** * Method to determine if the given structure has room at the given offset to have a component * of the given length added to it. This is only valid for non-packed structures. * @param structureDataType the given structure * @param offset the offset to check for available room * @param lengthToAdd the length of bytes wanted to add at the offset * @param monitor task monitor * @return true if the given structure has room at the given offset to have a component of the * given length added to it or if the offset is beyond the end of the structure so that the * structure can be grown * @throws CancelledException if cancelled * @throws IllegalArgumentException if a packed structure is passed in */ static boolean canAdd(Structure structureDataType, int offset, int lengthToAdd, TaskMonitor monitor) throws CancelledException { if (structureDataType.isPackingEnabled()) { throw new IllegalArgumentException( "Packed structures are not supported by this method"); } DataTypeComponent component = structureDataType.getComponentContaining(offset); // structure not big enough to contain the offset so return true so it can be grown if (component == null) { return true; } // if the offset is in the middle of an internal component then return false if (component.getOffset() != offset) { return false; } // no matter what size, if the data type at the offset is defined, return false // so it is not replaced if (component.getDataType() != DataType.DEFAULT) { return false; } if (lengthToAdd > 1) { DataTypeComponent nextDefinedComponent = structureDataType.getDefinedComponentAtOrAfterOffset(offset + 1); if (nextDefinedComponent == null) { return true; } int available = nextDefinedComponent.getOffset() - offset; return available >= lengthToAdd; } return true; } /** * Method to retrieve the number of undefined size 1 components in the given structure before the given offset * @param structure the given structure * @param offset the given offset * @param monitor task monitor * @return the number of undefined size 1 components in the given structure before the given offset * @throws CancelledException if cancelled */ static int getNumberOfUndefinedsBeforeOffset(Structure structure, int offset, TaskMonitor monitor) throws CancelledException { if (structure.getNumComponents() == 0) { return -1; } int numUndefineds = 0; int index = offset - 1; while (index >= 0) { monitor.checkCanceled(); DataTypeComponent component = structure.getComponentAt(index); if (component != null && component.getDataType() == DataType.DEFAULT) { index--; numUndefineds++; } else { return numUndefineds; } } return numUndefineds; } /** * Method to retrieve the number of undefined size 1 components starting at the given offset in the given structure * @param structure the given structure * @param offset the given offset * @param monitor task monitor * @return the number of undefined size 1 components starting at the given offset in the given structure * @throws CancelledException if cancelled */ static int getNumberOfUndefinedsStartingAtOffset(Structure structure, int offset, TaskMonitor monitor) throws CancelledException { int numUndefineds = 0; int index = offset; while (index < structure.getLength()) { monitor.checkCanceled(); DataTypeComponent component = structure.getComponentAt(index); if (component.getDataType() == DataType.DEFAULT) { index++; numUndefineds++; } else { return numUndefineds; } } return numUndefineds; } }