#include "CKStateChunk.hpp" #include "CKFile.hpp" #include "CKContext.hpp" namespace LibCmo::CK2 { void CKStateChunk::StartRead(void) { if (this->m_Parser.m_Status != CKStateChunkStatus::IDLE) return; this->m_Parser.m_CurrentPos = 0u; this->m_Parser.m_DataSize = this->m_DataDwSize; this->m_Parser.m_PrevIdentifierPos = 0u; this->m_Parser.m_Status = CKStateChunkStatus::READ; } void CKStateChunk::StopRead(void) { if (this->m_Parser.m_Status != CKStateChunkStatus::READ) return; this->m_Parser.m_CurrentPos = 0u; this->m_Parser.m_DataSize = this->m_DataDwSize; this->m_Parser.m_PrevIdentifierPos = 0u; this->m_Parser.m_Status = CKStateChunkStatus::IDLE; } /* ========== Identifier Functions ==========*/ bool CKStateChunk::SeekIdentifierDword(CKDWORD identifier) { CKDWORD cache; return SeekIdentifierDwordAndReturnSize(identifier, &cache); } bool CKStateChunk::SeekIdentifierDwordAndReturnSize(CKDWORD identifier, CKDWORD* out_size) { if (this->m_Parser.m_Status != CKStateChunkStatus::READ) return false; CKDWORD pos = 0u; if (this->m_DataDwSize < 2u) return false; // impossible to have a identifier // search identifier while (this->m_pData[pos] != identifier) { pos = this->m_pData[pos + 1]; if (pos == 0u) return false; // got tail. no more identifier if (pos + 1 >= this->m_DataDwSize) return false; // out of buffer } // got identifier this->m_Parser.m_PrevIdentifierPos = pos; this->m_Parser.m_CurrentPos = pos + 2; // calc size CKDWORD nextptr = this->m_pData[pos + 1]; if (nextptr == 0) { // the last identifier, use chunk size instead nextptr = this->m_DataDwSize; } *out_size = CKSizeof(CKDWORD) * (nextptr - pos - 2u); return true; } bool CKStateChunk::LockReadBuffer(const void** ppData, CKDWORD size_in_byte) { // check arguments if (*ppData == nullptr) return false; *ppData = nullptr; // check self status if (this->m_Parser.m_Status != CKStateChunkStatus::READ) return false; // get corresponding size CKDWORD size_in_dword = this->GetCeilDwordSize(size_in_byte); // ensure space if (this->EnsureReadSpace(size_in_dword)) { *ppData = this->m_pData + this->m_Parser.m_CurrentPos; return true; } else { // failed, report to context m_BindContext->OutputToConsoleEx("CKStateChunk::LockReadBuffer at buffer pos %" PRIuCKDWORD ".", this->m_Parser.m_CurrentPos); return false; } } bool CKStateChunk::UnLockReadBuffer(CKDWORD size_in_byte) { // check self status if (this->m_Parser.m_Status != CKStateChunkStatus::READ) return false; // get corresponding size CKDWORD size_in_dword = this->GetCeilDwordSize(size_in_byte); // ensure space if (this->EnsureReadSpace(size_in_dword)) { this->m_Parser.m_CurrentPos += size_in_dword; return true; } else { // failed, report to context m_BindContext->OutputToConsoleEx("CKStateChunk::UnLockReadBuffer at buffer pos %" PRIuCKDWORD ".", this->m_Parser.m_CurrentPos); return false; } } CKStateChunk::LockedReadBuffer_t CKStateChunk::LockReadBufferWrapper(CKDWORD size_in_byte) { const void* pData; bool ret = LockReadBuffer(&pData, size_in_byte); if (ret) { return LockedReadBuffer_t(pData, LockedReadBufferDeleter(this, size_in_byte)); } else { return LockedReadBuffer_t(); } } /* ========== Basic Data Read Functions ==========*/ bool CKStateChunk::ReadByteData(void* data_ptr, CKDWORD size_in_byte) { if (data_ptr == nullptr) return false; const void* pData; bool ret = LockReadBuffer(&pData, size_in_byte); if (ret) { std::memcpy(data_ptr, pData, size_in_byte); UnLockReadBuffer(size_in_byte); return true; } else { return false; } } bool CKStateChunk::ReadString(XContainer::XString* strl) { if (strl == nullptr) return false; // get byte based size CKDWORD strByteSize = 0u; if (!this->ReadStruct(strByteSize)) { strl->clear(); return false; } // read data XContainer::XString cache; cache.resize(strByteSize); if (!this->ReadByteData(cache.data(), strByteSize)) { strl->clear(); return false; } // convert encoding m_BindContext->GetUtf8String(cache, *strl); return true; } /* ========== Complex Data Read Functions ==========*/ bool CKStateChunk::ReadObjectID(CK_ID* id) { if (id == nullptr) return false; // get basic value CKINT gotten_id = 0; if (!this->ReadStruct(gotten_id)) return false; // different strategy according to chunk ver if (this->m_ChunkVersion >= CK_STATECHUNK_CHUNKVERSION::CHUNK_VERSION1) { // new file // if no doc associated, return directly if (this->m_BindFile == nullptr) { *id = static_cast(gotten_id); return true; } // if it is positive, return corresponding value if (gotten_id >= 0) { *id = this->m_BindFile->GetFileObjectByIndex(gotten_id)->CreatedObjectId; return true; } } else { // old file // i don't know why I need skip 2 DWORD // just copy IDA code. if (gotten_id) { this->Skip(2); return this->ReadStruct(id); } } // all failed *id = 0u; return false; } bool CKStateChunk::ReadManagerInt(CKGUID* guid, CKINT* intval) { if (guid == nullptr || intval == nullptr) return false; // read guid first if (!this->ReadStruct(guid)) return false; // then read int value if (!this->ReadStruct(intval)) return false; return true; } CKStateChunk* CKStateChunk::ReadSubChunk(void) { CKStateChunk* subchunk = nullptr; // get size and do a enough space check CKDWORD subChunkSize; if (!this->ReadStruct(subChunkSize)) goto subchunk_defer; if (!this->EnsureReadSpace(subChunkSize)) goto subchunk_defer; // create statechunk subchunk = new CKStateChunk(this->m_BindFile, this->m_BindContext); // start read data // read class id if (!this->ReadStruct(subchunk->m_ClassId)) goto subchunk_defer; // different read strategy by chunk version if (this->m_ChunkVersion >= CK_STATECHUNK_CHUNKVERSION::CHUNK_VERSION1) { // new file // read combined version CKDWORD versionInfo; if (!this->ReadStruct(versionInfo)) goto subchunk_defer; subchunk->m_DataVersion = static_cast(versionInfo & 0xffff); subchunk->m_ChunkVersion = static_cast((versionInfo >> 16) & 0xffff); // read data size and create it if (!this->ReadStruct(subchunk->m_DataDwSize)) goto subchunk_defer; subchunk->m_pData = new CKDWORD[subchunk->m_DataDwSize]; // has bind file? CKDWORD hasBindFile; if (!this->ReadStruct(hasBindFile)) goto subchunk_defer; if (hasBindFile == 1) subchunk->m_BindFile = nullptr; // 3 list size // manager only existed when ver > 4 CKDWORD lssize; if (!this->ReadStruct(lssize)) goto subchunk_defer; subchunk->m_ObjectList.resize(lssize); if (!this->ReadStruct(lssize)) goto subchunk_defer; subchunk->m_ChunkList.resize(lssize); if (this->m_ChunkVersion > CK_STATECHUNK_CHUNKVERSION::CHUNK_VERSION1) { if (!this->ReadStruct(lssize)) goto subchunk_defer; subchunk->m_ManagerList.resize(lssize); } // core data if (subchunk->m_DataDwSize != 0) { if (!this->ReadByteData(subchunk->m_pData, subchunk->m_DataDwSize * CKSizeof(CKDWORD))) goto subchunk_defer; } // 3 list data if (!subchunk->m_ObjectList.empty()) { if (!this->ReadByteData( subchunk->m_ObjectList.data(), static_cast(subchunk->m_ObjectList.size()) * CKSizeof(CKDWORD) )) goto subchunk_defer; } if (!subchunk->m_ChunkList.empty()) { if (!this->ReadByteData( subchunk->m_ChunkList.data(), static_cast(subchunk->m_ChunkList.size()) * CKSizeof(CKDWORD) )) goto subchunk_defer; } if (!subchunk->m_ManagerList.empty()) { if (!this->ReadByteData( subchunk->m_ManagerList.data(), static_cast(subchunk->m_ManagerList.size()) * CKSizeof(CKDWORD) )) goto subchunk_defer; } } else { // old file // read data size and create it if (!this->ReadStruct(subchunk->m_DataDwSize)) goto subchunk_defer; subchunk->m_pData = new CKDWORD[subchunk->m_DataDwSize]; // skip one? // I don't know why this->Skip(1u); // read core buf if (!this->ReadByteData(subchunk->m_pData, subchunk->m_DataDwSize * CKSizeof(CKDWORD))) goto subchunk_defer; } return subchunk; subchunk_defer: if (subchunk != nullptr) delete subchunk; return nullptr; } /* ========== Buffer Functions ==========*/ bool CKStateChunk::ReadBuffer(void** ppData, CKDWORD* size_in_byte) { if (ppData == nullptr || size_in_byte == nullptr) return false; *ppData = nullptr; *size_in_byte = 0; // read size first if (!this->ReadStruct(size_in_byte)) { return false; } // if it is empty buffer, create a fake buffer // and simply return it. if (*size_in_byte == 0) { *ppData = new CKBYTE[1]; return true; } // use LockReadBuffer to get pointer auto locker = LockReadBufferWrapper(*size_in_byte); if (locker == nullptr) { *size_in_byte = 0; return false; } // copy data and unlock buffer *ppData = new CKBYTE[*size_in_byte]; std::memcpy(*ppData, locker.get(), *size_in_byte); locker.reset(); return true; } void CKStateChunk::DeleteBuffer(const void* buf) { if (buf == nullptr) return; delete[] reinterpret_cast(buf); } CKStateChunk::Buffer_t CKStateChunk::ReadBufferWrapper() { void* cache; CKDWORD size; if (!ReadBuffer(&cache, &size)) { return Buffer_t(); } return Buffer_t(cache, BufferDeleter(this, size)); } bool CKStateChunk::ReadAndFillBuffer(void* pData) { if (pData == nullptr) return false; // get buffer size. CKDWORD size_in_byte; if (!this->ReadStruct(size_in_byte)) { return false; } // use LockReadBuffer to get pointer // this step can process zero length buffer // so we do not treat it specially auto locker = LockReadBufferWrapper(size_in_byte); if (locker == nullptr) { return false; } // then copy the data std::memcpy(pData, locker.get(), size_in_byte); locker.reset(); return true; } bool CKStateChunk::ReadAndFillBuffer(void* pData, CKDWORD size_in_byte) { if (pData == nullptr) return false; // directly use LockReadBuffer to get pointer auto locker = LockReadBufferWrapper(size_in_byte); if (locker == nullptr) { return false; } // then copy the data std::memcpy(pData, locker.get(), size_in_byte); locker.reset(); return true; } /* ========== Sequence Functions ==========*/ bool CKStateChunk::ReadObjectIDSequence(XContainer::XArray* ls) { if (ls == nullptr) return false; ls->clear(); // read count CKDWORD count; if (!this->ReadStruct(count)) return false; // resize list and read it ls->resize(count); for (size_t i = 0; i < count; ++i) { if (!this->ReadObjectID(ls->data() + i)) { ls->clear(); return false; } } return true; } bool CKStateChunk::ReadManagerIntSequence(CKGUID* guid, XContainer::XArray* ls) { if (guid == nullptr || ls == nullptr) return false; // read count CKDWORD count; if (!this->ReadStruct(count)) return false; // read guid if (!this->ReadStruct(guid)) return false; // resize list and read it ls->resize(count); for (size_t i = 0; i < count; ++i) { if (!this->ReadStruct(ls->data() + i)) { ls->clear(); return false; } } return true; } bool CKStateChunk::ReadSubChunkSequence(XContainer::XArray* ls) { if (ls == nullptr) return false; // clear first for (auto& item : *ls) { if (item != nullptr) delete (item); } ls->clear(); // read count CKDWORD count; if (!this->ReadStruct(count)) return false; // resize list and read it ls->resize(count, nullptr); for (size_t i = 0; i < count; ++i) { (*ls)[i] = this->ReadSubChunk(); if ((*ls)[i] == nullptr) { // fail. remove all created statechunk and clear it for (auto& item : *ls) { if (item != nullptr) delete (item); } ls->clear(); // return return false; } } return true; } bool CKStateChunk::ReadXObjectArray(XContainer::XObjectArray* ls) { if (ls == nullptr) return false; ls->clear(); // read count CKDWORD count; if (!this->ReadStruct(count)) return false; if (count == 0) return true; // 0 size array // old file size correction bool old_file = this->m_ChunkVersion < CK_STATECHUNK_CHUNKVERSION::CHUNK_VERSION1; if (old_file) { // skip 4. but I don't know why!!! this->Skip(4); if (!this->ReadStruct(count)) return false; } // resize list and read ls->resize(count); for (auto& id : *ls) { // read ID first CKINT cache; if (!this->ReadStruct(cache)) { ls->clear(); return false; } // in old file or no bind file, the read data directly is CK_ID. // in new file or has bind file, the read data is the index in FileObjects if (old_file || this->m_BindFile == nullptr) { id = static_cast(cache); } else { if (cache < 0) id = 0; else id = this->m_BindFile->GetFileObjectByIndex(cache)->CreatedObjectId; } } return true; } bool CKStateChunk::ReadXObjectPointerArray(XContainer::XObjectPointerArray* ls) { if (ls == nullptr) return false; // very very similar to ReadXObjectArray // we execute it first. XContainer::XObjectArray idarr; if (!ReadXObjectArray(idarr)) return false; // then convert it to pointer list ls->resize(idarr.size()); for (size_t i = 0; i < idarr.size(); ++i) { (*ls)[i] = m_BindContext->GetObject(idarr[i]); } return true; } }