/* fssbuilder.cpp Copyright (c) 2015, Nikolaj Schlej. All rights reserved. This program and the accompanying materials are licensed and made available under the terms and conditions of the BSD License which accompanies this distribution. The full text of the license may be found at http://opensource.org/licenses/bsd-license.php THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. */ #include "ffsbuilder.h" #include "descriptor.h" #include "ffs.h" #include "peimage.h" #include "utility.h" #include "nvram.h" #include USTATUS FfsBuilder::erase(const UModelIndex & index, UByteArray & erased) { // Sanity check if (!index.isValid()) return U_INVALID_PARAMETER; // Try to get emptyByte value from item's parsing data UINT8 emptyByte = 0xFF; if (!model->hasEmptyParsingData(index)) { if (model->type(index) == Types::Volume) { VOLUME_PARSING_DATA pdata = *(VOLUME_PARSING_DATA*)model->parsingData(index).constData(); emptyByte = pdata.emptyByte; } else if (model->type(index) == Types::File) { FILE_PARSING_DATA pdata = *(FILE_PARSING_DATA*)model->parsingData(index).constData(); emptyByte = pdata.emptyByte; } } erased = UByteArray(model->header(index).size() + model->body(index).size() + model->tail(index).size(), emptyByte); return U_SUCCESS; } USTATUS FfsBuilder::build(const UModelIndex & root, UByteArray & image) { // Sanity check if (!root.isValid()) return U_INVALID_PARAMETER; if (model->type(root) == Types::Capsule) { return buildCapsule(root, image); } else if (model->type(root) == Types::Image) { if (model->subtype(root) == Subtypes::IntelImage) { return buildIntelImage(root, image); } else if (model->subtype(root) == Subtypes::UefiImage) { return buildRawArea(root, image); } } return U_NOT_IMPLEMENTED; } USTATUS FfsBuilder::buildCapsule(const UModelIndex & index, UByteArray & capsule) { // Sanity check if (!index.isValid()) return U_INVALID_PARAMETER; // No action if (model->action(index) == Actions::NoAction) { // Use original item data capsule = model->header(index) + model->body(index) + model->tail(index); return U_SUCCESS; } // Rebuild or Replace else if (model->action(index) == Actions::Rebuild || model->action(index) == Actions::Replace) { if (model->rowCount(index)) { // Clear the supplied UByteArray capsule.clear(); // Right now there is only one capsule image element supported if (model->rowCount(index) != 1) { msg(usprintf("buildCapsule: building of capsules with %d items is not yet supported", model->rowCount(index)), index); return U_NOT_IMPLEMENTED; } // Build image #if ((QT_VERSION_MAJOR == 5) && (QT_VERSION_MINOR < 6)) || (QT_VERSION_MAJOR < 5) UModelIndex imageIndex = index.child(0, 0); #else UModelIndex imageIndex = index.model()->index(0, 0, index); #endif UByteArray imageData; // Check image type if (model->type(imageIndex) == Types::Image) { USTATUS result = U_SUCCESS; if (model->subtype(imageIndex) == Subtypes::IntelImage) { result = buildIntelImage(imageIndex, imageData); } else if (model->subtype(imageIndex) == Subtypes::UefiImage) { result = buildRawArea(imageIndex, imageData); } else { msg(UString("buildCapsule: unexpected item subtype ") + itemSubtypeToUString(model->type(imageIndex), model->subtype(imageIndex)), imageIndex); return U_UNKNOWN_ITEM_TYPE; } // Check build result if (result) { msg(UString("buildCapsule: building of ") + model->name(imageIndex) + UString(" failed with error ") + errorCodeToUString(result), imageIndex); return result; } else capsule += imageData; } else { msg(UString("buildCapsule: unexpected item type ") + itemTypeToUString(model->type(imageIndex)), imageIndex); return U_UNKNOWN_ITEM_TYPE; } // Check size of reconstructed capsule body, it must remain the same UINT32 newSize = (UINT32)capsule.size(); UINT32 oldSize = (UINT32)model->body(index).size(); if (newSize > oldSize) { msg(usprintf("buildCapsule: new capsule size %Xh (%u) is bigger than the original %Xh (%u)", newSize, newSize, oldSize, oldSize), index); return U_INVALID_CAPSULE; } else if (newSize < oldSize) { msg(usprintf("buildCapsule: new capsule size %Xh (%u) is smaller than the original %Xh (%u)", newSize, newSize, oldSize, oldSize), index); return U_INVALID_CAPSULE; } } else capsule = model->body(index); // Build successful, append header and tail capsule = model->header(index) + capsule + model->tail(index); return U_SUCCESS; } msg(UString("buildCapsule: unexpected action " + actionTypeToUString(model->action(index))), index); return U_NOT_IMPLEMENTED; } USTATUS FfsBuilder::buildIntelImage(const UModelIndex & index, UByteArray & intelImage) { // Sanity check if (!index.isValid()) return U_SUCCESS; // No action if (model->action(index) == Actions::NoAction) { intelImage = model->header(index) + model->body(index) + model->tail(index); return U_SUCCESS; } // Remove else if (model->action(index) == Actions::Remove) { intelImage.clear(); return U_SUCCESS; } // Rebuild else if (model->action(index) == Actions::Rebuild) { // First child will always be descriptor for this type of image, and it's read only for now #if ((QT_VERSION_MAJOR == 5) && (QT_VERSION_MINOR < 6)) || (QT_VERSION_MAJOR < 5) intelImage = model->header(index.child(0, 0)) + model->body(index.child(0, 0)) + model->tail(index.child(0, 0)); #else intelImage = model->header(index.model()->index(0, 0, index)) + model->body(index.model()->index(0, 0, index)) + model->tail(index.model()->index(0, 0, index)); #endif // Process other regions for (int i = 1; i < model->rowCount(index); i++) { #if ((QT_VERSION_MAJOR == 5) && (QT_VERSION_MINOR < 6)) || (QT_VERSION_MAJOR < 5) UModelIndex currentRegion = index.child(i, 0); #else UModelIndex currentRegion = index.model()->index(i, 0, index); #endif // Skip regions with Remove action if (model->action(currentRegion) == Actions::Remove) continue; // Check item type to be either region or padding UINT8 type = model->type(currentRegion); if (type == Types::Padding) { // Add padding as is intelImage += model->header(currentRegion) + model->body(currentRegion) + model->tail(currentRegion); continue; } // Check region subtype USTATUS result; UByteArray region; UINT8 regionType = model->subtype(currentRegion); switch (regionType) { case Subtypes::BiosRegion: case Subtypes::PdrRegion: result = buildRawArea(currentRegion, region); if (result) { msg(UString("buildIntelImage: building of region ") + regionTypeToUString(regionType) + UString(" failed with error ") + errorCodeToUString(result), currentRegion); return result; } break; case Subtypes::MeRegion: case Subtypes::GbeRegion: case Subtypes::DevExp1Region: case Subtypes::Bios2Region: case Subtypes::MicrocodeRegion: case Subtypes::EcRegion: case Subtypes::DevExp2Region: case Subtypes::IeRegion: case Subtypes::Tgbe1Region: case Subtypes::Tgbe2Region: case Subtypes::Reserved1Region: case Subtypes::Reserved2Region: case Subtypes::PttRegion: // Add region as is region = model->header(currentRegion) + model->body(currentRegion); break; default: msg(UString("buildIntelImage: unknown region type"), currentRegion); return U_UNKNOWN_ITEM_TYPE; } // Append the resulting region intelImage += region; } // Check size of new image, it must be same as old one UINT32 newSize = (UINT32)intelImage.size(); UINT32 oldSize = (UINT32)model->body(index).size(); if (newSize > oldSize) { msg(usprintf("buildIntelImage: new image size %Xh (%u) is bigger than the original %Xh (%u)", newSize, newSize, oldSize, oldSize), index); return U_INVALID_IMAGE; } else if (newSize < oldSize) { msg(usprintf("buildIntelImage: new image size %Xh (%u) is smaller than the original %Xh (%u)", newSize, newSize, oldSize, oldSize), index); return U_INVALID_IMAGE; } // Build successful, append header and tail intelImage = model->header(index) + intelImage + model->tail(index); return U_SUCCESS; } msg(UString("buildIntelImage: unexpected action " + actionTypeToUString(model->action(index))), index); return U_NOT_IMPLEMENTED; } USTATUS FfsBuilder::buildRawArea(const UModelIndex & index, UByteArray & rawArea) { // Sanity check if (!index.isValid()) return U_INVALID_PARAMETER; // No action required if (model->action(index) == Actions::NoAction) { rawArea = model->header(index) + model->body(index) + model->tail(index); return U_SUCCESS; } // Remove else if (model->action(index) == Actions::Remove) { rawArea.clear(); return U_SUCCESS; } // Rebuild or Replace else if (model->action(index) == Actions::Rebuild || model->action(index) == Actions::Replace) { // Rebuild if there is at least 1 child if (model->rowCount(index)) { // Clear the supplied UByteArray rawArea.clear(); // Build children for (int i = 0; i < model->rowCount(index); i++) { USTATUS result = U_SUCCESS; #if ((QT_VERSION_MAJOR == 5) && (QT_VERSION_MINOR < 6)) || (QT_VERSION_MAJOR < 5) UModelIndex currentChild = index.child(i, 0); #else UModelIndex currentChild = index.model()->index(i, 0, index); #endif UByteArray currentData; // Check child type if (model->type(currentChild) == Types::Volume) { result = buildVolume(currentChild, currentData); } else if (model->type(currentChild) == Types::Padding) { result = buildPadding(currentChild, currentData); } else { msg(UString("buildRawArea: unexpected item type ") + itemTypeToUString(model->type(currentChild)), currentChild); return U_UNKNOWN_ITEM_TYPE; } // Check build result if (result) { msg(UString("buildRawArea: building of ") + model->name(currentChild) + UString(" failed with error ") + errorCodeToUString(result), currentChild); return result; } // Append current data rawArea += currentData; } // Check size of new raw area, it must be same as original one UINT32 newSize = (UINT32)rawArea.size(); UINT32 oldSize = (UINT32)model->body(index).size(); if (newSize > oldSize) { msg(usprintf("buildRawArea: new area size %Xh (%u) is bigger than the original %Xh (%u)", newSize, newSize, oldSize, oldSize), index); return U_INVALID_RAW_AREA; } else if (newSize < oldSize) { msg(usprintf("buildRawArea: new area size %Xh (%u) is smaller than the original %Xh (%u)", newSize, newSize, oldSize, oldSize), index); return U_INVALID_RAW_AREA; } } // No need to rebuild a raw area with no children else { rawArea = model->body(index); } // Build successful, add header if needed rawArea = model->header(index) + rawArea + model->tail(index); return U_SUCCESS; } msg(UString("buildRawArea: unexpected action " + actionTypeToUString(model->action(index))), index); return U_NOT_IMPLEMENTED; } USTATUS FfsBuilder::buildPadding(const UModelIndex & index, UByteArray & padding) { // Sanity check if (!index.isValid()) return U_INVALID_PARAMETER; // No action required if (model->action(index) == Actions::NoAction) { padding = model->header(index) + model->body(index) + model->tail(index); return U_SUCCESS; } // Remove else if (model->action(index) == Actions::Remove) { padding.clear(); return U_SUCCESS; } // Erase else if (model->action(index) == Actions::Erase) { return erase(index, padding); } msg(UString("buildPadding: unexpected action " + actionTypeToUString(model->action(index))), index); return U_NOT_IMPLEMENTED; } USTATUS FfsBuilder::buildNonUefiData(const UModelIndex & index, UByteArray & data) { // Sanity check if (!index.isValid()) return U_INVALID_PARAMETER; // No action required if (model->action(index) == Actions::NoAction) { data = model->header(index) + model->body(index) + model->tail(index); return U_SUCCESS; } // Remove else if (model->action(index) == Actions::Remove) { data.clear(); return U_SUCCESS; } // Erase else if (model->action(index) == Actions::Erase) { return erase(index, data); } // TODO: rebuild properly msg(UString("buildNoUefiData: unexpected action " + actionTypeToUString(model->action(index))), index); return U_NOT_IMPLEMENTED; } USTATUS FfsBuilder::buildFreeSpace(const UModelIndex & index, UByteArray & freeSpace) { // Sanity check if (!index.isValid()) return U_INVALID_PARAMETER; // No actions possible for free space freeSpace = model->header(index) + model->body(index) + model->tail(index); return U_SUCCESS; } USTATUS FfsBuilder::buildVolume(const UModelIndex & index, UByteArray & volume) { U_UNUSED_PARAMETER(index); U_UNUSED_PARAMETER(volume); return U_NOT_IMPLEMENTED; } USTATUS FfsBuilder::buildPadFile(const UModelIndex & index, UByteArray & padFile) { U_UNUSED_PARAMETER(index); U_UNUSED_PARAMETER(padFile); return U_NOT_IMPLEMENTED; } USTATUS FfsBuilder::buildFile(const UModelIndex & index, UByteArray & file) { U_UNUSED_PARAMETER(index); U_UNUSED_PARAMETER(file); return U_NOT_IMPLEMENTED; } USTATUS FfsBuilder::buildSection(const UModelIndex & index, UByteArray & section) { U_UNUSED_PARAMETER(index); U_UNUSED_PARAMETER(section); return U_NOT_IMPLEMENTED; }