// Copyright 2014 PDFium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com #ifndef CORE_INCLUDE_FPDFAPI_FPDF_PARSER_H_ #define CORE_INCLUDE_FPDFAPI_FPDF_PARSER_H_ #include #include #include #include "core/include/fpdfapi/fpdf_objects.h" #include "core/include/fxcrt/fx_system.h" class CFX_Font; class CFX_Matrix; class CPDF_ColorSpace; class CPDF_CryptoHandler; class CPDF_DocPageData; class CPDF_DocRenderData; class CPDF_Font; class CPDF_FontEncoding; class CPDF_IccProfile; class CPDF_Image; class CPDF_Object; class CPDF_Parser; class CPDF_Pattern; class CPDF_StandardSecurityHandler; class IFX_FileRead; class IPDF_SecurityHandler; #define FPDFPERM_PRINT 0x0004 #define FPDFPERM_MODIFY 0x0008 #define FPDFPERM_EXTRACT 0x0010 #define FPDFPERM_ANNOT_FORM 0x0020 #define FPDFPERM_FILL_FORM 0x0100 #define FPDFPERM_EXTRACT_ACCESS 0x0200 #define FPDFPERM_ASSEMBLE 0x0400 #define FPDFPERM_PRINT_HIGH 0x0800 #define FPDF_PAGE_MAX_NUM 0xFFFFF // Use the accessors below instead of directly accessing PDF_CharType. extern const char PDF_CharType[256]; inline bool PDFCharIsWhitespace(uint8_t c) { return PDF_CharType[c] == 'W'; } inline bool PDFCharIsNumeric(uint8_t c) { return PDF_CharType[c] == 'N'; } inline bool PDFCharIsDelimiter(uint8_t c) { return PDF_CharType[c] == 'D'; } inline bool PDFCharIsOther(uint8_t c) { return PDF_CharType[c] == 'R'; } inline bool PDFCharIsLineEnding(uint8_t c) { return c == '\r' || c == '\n'; } template class ScopedSetInsertion { public: ScopedSetInsertion(std::set* org_set, T elem) : m_Set(org_set), m_Entry(elem) { m_Set->insert(m_Entry); } ~ScopedSetInsertion() { m_Set->erase(m_Entry); } private: std::set* const m_Set; const T m_Entry; }; // Indexed by 8-bit char code, contains unicode code points. extern const FX_WORD PDFDocEncoding[256]; class CPDF_Document : public CFX_PrivateData, public CPDF_IndirectObjectHolder { public: CPDF_Document(); explicit CPDF_Document(CPDF_Parser* pParser); ~CPDF_Document(); CPDF_Parser* GetParser() const { return m_pParser; } CPDF_Dictionary* GetRoot() const { return m_pRootDict; } CPDF_Dictionary* GetInfo() const { return m_pInfoDict; } void GetID(CFX_ByteString& id1, CFX_ByteString& id2) const { id1 = m_ID1; id2 = m_ID2; } int GetPageCount() const; CPDF_Dictionary* GetPage(int iPage); int GetPageIndex(FX_DWORD objnum); FX_DWORD GetUserPermissions(FX_BOOL bCheckRevision = FALSE) const; CPDF_DocPageData* GetPageData() { return GetValidatePageData(); } void ClearPageData(); void RemoveColorSpaceFromPageData(CPDF_Object* pObject); CPDF_DocRenderData* GetRenderData() { return GetValidateRenderData(); } void ClearRenderData(); void ClearRenderFont(); FX_BOOL IsFormStream(FX_DWORD objnum, FX_BOOL& bForm) const; // |pFontDict| must not be null. CPDF_Font* LoadFont(CPDF_Dictionary* pFontDict); CPDF_ColorSpace* LoadColorSpace(CPDF_Object* pCSObj, CPDF_Dictionary* pResources = NULL); CPDF_Pattern* LoadPattern(CPDF_Object* pObj, FX_BOOL bShading, const CFX_Matrix* matrix = NULL); CPDF_Image* LoadImageF(CPDF_Object* pObj); CPDF_StreamAcc* LoadFontFile(CPDF_Stream* pStream); CPDF_IccProfile* LoadIccProfile(CPDF_Stream* pStream); #if _FXM_PLATFORM_ == _FXM_PLATFORM_WINDOWS_ CPDF_Font* AddWindowsFont(LOGFONTA* pLogFont, FX_BOOL bVert, FX_BOOL bTranslateName = FALSE); CPDF_Font* AddWindowsFont(LOGFONTW* pLogFont, FX_BOOL bVert, FX_BOOL bTranslateName = FALSE); #endif #if _FXM_PLATFORM_ == _FXM_PLATFORM_APPLE_ CPDF_Font* AddMacFont(CTFontRef pFont, FX_BOOL bVert, FX_BOOL bTranslateName = FALSE); #endif CPDF_Font* AddStandardFont(const FX_CHAR* font, CPDF_FontEncoding* pEncoding); CPDF_Font* AddFont(CFX_Font* pFont, int charset, FX_BOOL bVert); void CreateNewDoc(); CPDF_Dictionary* CreateNewPage(int iPage); void DeletePage(int iPage); void LoadDoc(); void LoadAsynDoc(CPDF_Dictionary* pLinearized); void LoadPages(); protected: CPDF_Dictionary* m_pRootDict; CPDF_Dictionary* m_pInfoDict; CFX_ByteString m_ID1; CFX_ByteString m_ID2; FX_BOOL m_bLinearized; FX_DWORD m_dwFirstPageNo; FX_DWORD m_dwFirstPageObjNum; CFX_DWordArray m_PageList; // Retrieve page count information by getting count value from the tree nodes // or walking through the tree nodes to calculate it. int RetrievePageCount() const; CPDF_Dictionary* _FindPDFPage(CPDF_Dictionary* pPages, int iPage, int nPagesToGo, int level); int _FindPageIndex(CPDF_Dictionary* pNode, FX_DWORD& skip_count, FX_DWORD objnum, int& index, int level = 0); FX_BOOL CheckOCGVisible(CPDF_Dictionary* pOCG, FX_BOOL bPrinting); CPDF_DocPageData* GetValidatePageData(); CPDF_DocRenderData* GetValidateRenderData(); friend class CPDF_Creator; friend class CPDF_Parser; friend class CPDF_DataAvail; friend class CPDF_OCContext; CPDF_DocPageData* m_pDocPage; CPDF_DocRenderData* m_pDocRender; }; class CPDF_SimpleParser { public: CPDF_SimpleParser(const uint8_t* pData, FX_DWORD dwSize); CPDF_SimpleParser(const CFX_ByteStringC& str); CFX_ByteStringC GetWord(); FX_BOOL SearchToken(const CFX_ByteStringC& token); FX_BOOL SkipWord(const CFX_ByteStringC& token); FX_BOOL FindTagPair(const CFX_ByteStringC& start_token, const CFX_ByteStringC& end_token, FX_DWORD& start_pos, FX_DWORD& end_pos); FX_BOOL FindTagParam(const CFX_ByteStringC& token, int nParams); FX_DWORD GetPos() { return m_dwCurPos; } void SetPos(FX_DWORD pos) { ASSERT(pos <= m_dwSize); m_dwCurPos = pos; } private: void ParseWord(const uint8_t*& pStart, FX_DWORD& dwSize); const uint8_t* m_pData; FX_DWORD m_dwSize; FX_DWORD m_dwCurPos; }; class CPDF_SyntaxParser { public: CPDF_SyntaxParser(); virtual ~CPDF_SyntaxParser(); void InitParser(IFX_FileRead* pFileAccess, FX_DWORD HeaderOffset); FX_FILESIZE SavePos() const { return m_Pos; } void RestorePos(FX_FILESIZE pos) { m_Pos = pos; } CPDF_Object* GetObject(CPDF_IndirectObjectHolder* pObjList, FX_DWORD objnum, FX_DWORD gennum, FX_BOOL bDecrypt); CPDF_Object* GetObjectByStrict(CPDF_IndirectObjectHolder* pObjList, FX_DWORD objnum, FX_DWORD gennum); int GetDirectNum(); CFX_ByteString GetKeyword(); void ToNextLine(); void ToNextWord(); FX_BOOL SearchWord(const CFX_ByteStringC& word, FX_BOOL bWholeWord, FX_BOOL bForward, FX_FILESIZE limit); int SearchMultiWord(const CFX_ByteStringC& words, FX_BOOL bWholeWord, FX_FILESIZE limit); FX_FILESIZE FindTag(const CFX_ByteStringC& tag, FX_FILESIZE limit); void SetEncrypt(std::unique_ptr pCryptoHandler); FX_BOOL GetCharAt(FX_FILESIZE pos, uint8_t& ch); FX_BOOL ReadBlock(uint8_t* pBuf, FX_DWORD size); CFX_ByteString GetNextWord(bool* bIsNumber); protected: friend class CPDF_Parser; friend class CPDF_DataAvail; friend class fpdf_parser_parser_ReadHexString_Test; static const int kParserMaxRecursionDepth = 64; static int s_CurrentRecursionDepth; virtual FX_BOOL GetNextChar(uint8_t& ch); FX_BOOL GetCharAtBackward(FX_FILESIZE pos, uint8_t& ch); void GetNextWordInternal(bool* bIsNumber); bool IsWholeWord(FX_FILESIZE startpos, FX_FILESIZE limit, const CFX_ByteStringC& tag, FX_BOOL checkKeyword); CFX_ByteString ReadString(); CFX_ByteString ReadHexString(); unsigned int ReadEOLMarkers(FX_FILESIZE pos); CPDF_Stream* ReadStream(CPDF_Dictionary* pDict, FX_DWORD objnum, FX_DWORD gennum); FX_FILESIZE m_Pos; int m_MetadataObjnum; IFX_FileRead* m_pFileAccess; FX_DWORD m_HeaderOffset; FX_FILESIZE m_FileLen; uint8_t* m_pFileBuf; FX_DWORD m_BufSize; FX_FILESIZE m_BufOffset; std::unique_ptr m_pCryptoHandler; uint8_t m_WordBuffer[257]; FX_DWORD m_WordSize; }; class CPDF_Parser { public: enum Error { SUCCESS = 0, FILE_ERROR, FORMAT_ERROR, PASSWORD_ERROR, HANDLER_ERROR }; CPDF_Parser(); ~CPDF_Parser(); Error StartParse(IFX_FileRead* pFile); FX_DWORD GetPermissions(FX_BOOL bCheckRevision = FALSE); void SetPassword(const FX_CHAR* password) { m_Password = password; } CFX_ByteString GetPassword() { return m_Password; } CPDF_CryptoHandler* GetCryptoHandler() { return m_Syntax.m_pCryptoHandler.get(); } CPDF_Dictionary* GetTrailer() const { return m_pTrailer; } FX_FILESIZE GetLastXRefOffset() const { return m_LastXRefOffset; } CPDF_Document* GetDocument() const { return m_pDocument; } FX_DWORD GetRootObjNum(); FX_DWORD GetInfoObjNum(); CPDF_Array* GetIDArray(); CPDF_Dictionary* GetEncryptDict() const { return m_pEncryptDict; } CPDF_Object* ParseIndirectObject(CPDF_IndirectObjectHolder* pObjList, FX_DWORD objnum); FX_DWORD GetLastObjNum() const; bool IsValidObjectNumber(FX_DWORD objnum) const; FX_FILESIZE GetObjectPositionOrZero(FX_DWORD objnum) const; uint8_t GetObjectType(FX_DWORD objnum) const; uint16_t GetObjectGenNum(FX_DWORD objnum) const; bool IsVersionUpdated() const { return m_bVersionUpdated; } bool IsObjectFreeOrNull(FX_DWORD objnum) const; FX_BOOL IsFormStream(FX_DWORD objnum, FX_BOOL& bForm); FX_FILESIZE GetObjectOffset(FX_DWORD objnum) const; FX_FILESIZE GetObjectSize(FX_DWORD objnum) const; void GetIndirectBinary(FX_DWORD objnum, uint8_t*& pBuffer, FX_DWORD& size); IFX_FileRead* GetFileAccess() const { return m_Syntax.m_pFileAccess; } int GetFileVersion() const { return m_FileVersion; } FX_BOOL IsXRefStream() const { return m_bXRefStream; } CPDF_Object* ParseIndirectObjectAt(CPDF_IndirectObjectHolder* pObjList, FX_FILESIZE pos, FX_DWORD objnum); CPDF_Object* ParseIndirectObjectAtByStrict( CPDF_IndirectObjectHolder* pObjList, FX_FILESIZE pos, FX_DWORD objnum, FX_FILESIZE* pResultPos); Error StartAsyncParse(IFX_FileRead* pFile); FX_DWORD GetFirstPageNo() const { return m_dwFirstPageNo; } protected: void CloseParser(); CPDF_Object* ParseDirect(CPDF_Object* pObj); FX_BOOL LoadAllCrossRefV4(FX_FILESIZE pos); FX_BOOL LoadAllCrossRefV5(FX_FILESIZE pos); bool LoadCrossRefV4(FX_FILESIZE pos, FX_FILESIZE streampos, FX_BOOL bSkip); FX_BOOL LoadCrossRefV5(FX_FILESIZE* pos, FX_BOOL bMainXRef); CPDF_Dictionary* LoadTrailerV4(); FX_BOOL RebuildCrossRef(); Error SetEncryptHandler(); void ReleaseEncryptHandler(); FX_BOOL LoadLinearizedAllCrossRefV4(FX_FILESIZE pos, FX_DWORD dwObjCount); FX_BOOL LoadLinearizedCrossRefV4(FX_FILESIZE pos, FX_DWORD dwObjCount); FX_BOOL LoadLinearizedAllCrossRefV5(FX_FILESIZE pos); Error LoadLinearizedMainXRefTable(); CPDF_StreamAcc* GetObjectStream(FX_DWORD number); FX_BOOL IsLinearizedFile(IFX_FileRead* pFileAccess, FX_DWORD offset); bool FindPosInOffsets(FX_FILESIZE pos) const; void SetEncryptDictionary(CPDF_Dictionary* pDict); void ShrinkObjectMap(FX_DWORD size); CPDF_Document* m_pDocument; CPDF_SyntaxParser m_Syntax; bool m_bOwnFileRead; int m_FileVersion; CPDF_Dictionary* m_pTrailer; CPDF_Dictionary* m_pEncryptDict; FX_FILESIZE m_LastXRefOffset; FX_BOOL m_bXRefStream; std::unique_ptr m_pSecurityHandler; CFX_ByteString m_bsRecipient; CFX_ByteString m_FilePath; CFX_ByteString m_Password; struct ObjectInfo { ObjectInfo() : pos(0) {} FX_FILESIZE pos; // TODO(thestig): Use fields below in place of |m_V5Type| and |m_ObjVersion| #if 0 uint8_t type; uint16_t gennum; #endif }; std::map m_ObjectInfo; CFX_ByteArray m_V5Type; CFX_WordArray m_ObjVersion; CFX_FileSizeArray m_SortedOffset; CFX_ArrayTemplate m_Trailers; FX_BOOL m_bVersionUpdated; CPDF_Object* m_pLinearized; FX_DWORD m_dwFirstPageNo; FX_DWORD m_dwXrefStartObjNum; // A map of object numbers to indirect streams. Map owns the streams. std::map> m_ObjectStreamMap; // Mapping of object numbers to offsets. The offsets are relative to the first // object in the stream. using StreamObjectCache = std::map; // Mapping of streams to their object caches. This is valid as long as the // streams in |m_ObjectStreamMap| are valid. std::map m_ObjCache; // All indirect object numbers that are being parsed. std::set m_ParsingObjNums; friend class CPDF_DataAvail; }; #define FXCIPHER_NONE 0 #define FXCIPHER_RC4 1 #define FXCIPHER_AES 2 #define FXCIPHER_AES2 3 class IPDF_SecurityHandler { public: virtual ~IPDF_SecurityHandler() {} virtual FX_BOOL OnInit(CPDF_Parser* pParser, CPDF_Dictionary* pEncryptDict) = 0; virtual FX_DWORD GetPermissions() = 0; virtual FX_BOOL GetCryptInfo(int& cipher, const uint8_t*& buffer, int& keylen) = 0; virtual FX_BOOL IsMetadataEncrypted() = 0; virtual CPDF_CryptoHandler* CreateCryptoHandler() = 0; virtual CPDF_StandardSecurityHandler* GetStandardHandler() { return NULL; } }; #define PDF_ENCRYPT_CONTENT 0 class CPDF_StandardSecurityHandler : public IPDF_SecurityHandler { public: CPDF_StandardSecurityHandler(); ~CPDF_StandardSecurityHandler() override; // IPDF_SecurityHandler: FX_BOOL OnInit(CPDF_Parser* pParser, CPDF_Dictionary* pEncryptDict) override; FX_DWORD GetPermissions() override; FX_BOOL GetCryptInfo(int& cipher, const uint8_t*& buffer, int& keylen) override; FX_BOOL IsMetadataEncrypted() override; CPDF_CryptoHandler* CreateCryptoHandler() override; void OnCreate(CPDF_Dictionary* pEncryptDict, CPDF_Array* pIdArray, const uint8_t* user_pass, FX_DWORD user_size, const uint8_t* owner_pass, FX_DWORD owner_size, FX_DWORD type = PDF_ENCRYPT_CONTENT); void OnCreate(CPDF_Dictionary* pEncryptDict, CPDF_Array* pIdArray, const uint8_t* user_pass, FX_DWORD user_size, FX_DWORD type = PDF_ENCRYPT_CONTENT); CFX_ByteString GetUserPassword(const uint8_t* owner_pass, FX_DWORD pass_size, int32_t key_len); int CheckPassword(const uint8_t* password, FX_DWORD pass_size, FX_BOOL bOwner, uint8_t* key, int key_len); private: int m_Version; int m_Revision; CPDF_Parser* m_pParser; CPDF_Dictionary* m_pEncryptDict; FX_BOOL LoadDict(CPDF_Dictionary* pEncryptDict); FX_BOOL LoadDict(CPDF_Dictionary* pEncryptDict, FX_DWORD type, int& cipher, int& key_len); FX_BOOL CheckUserPassword(const uint8_t* password, FX_DWORD pass_size, FX_BOOL bIgnoreEncryptMeta, uint8_t* key, int32_t key_len); FX_BOOL CheckOwnerPassword(const uint8_t* password, FX_DWORD pass_size, uint8_t* key, int32_t key_len); FX_BOOL AES256_CheckPassword(const uint8_t* password, FX_DWORD size, FX_BOOL bOwner, uint8_t* key); void AES256_SetPassword(CPDF_Dictionary* pEncryptDict, const uint8_t* password, FX_DWORD size, FX_BOOL bOwner, const uint8_t* key); void AES256_SetPerms(CPDF_Dictionary* pEncryptDict, FX_DWORD permission, FX_BOOL bEncryptMetadata, const uint8_t* key); void OnCreate(CPDF_Dictionary* pEncryptDict, CPDF_Array* pIdArray, const uint8_t* user_pass, FX_DWORD user_size, const uint8_t* owner_pass, FX_DWORD owner_size, FX_BOOL bDefault, FX_DWORD type); FX_BOOL CheckSecurity(int32_t key_len); FX_DWORD m_Permissions; int m_Cipher; uint8_t m_EncryptKey[32]; int m_KeyLen; }; IPDF_SecurityHandler* FPDF_CreateStandardSecurityHandler(); class CPDF_CryptoHandler { public: virtual ~CPDF_CryptoHandler() {} virtual FX_BOOL Init(CPDF_Dictionary* pEncryptDict, IPDF_SecurityHandler* pSecurityHandler) = 0; virtual FX_DWORD DecryptGetSize(FX_DWORD src_size) = 0; virtual void* DecryptStart(FX_DWORD objnum, FX_DWORD gennum) = 0; virtual FX_BOOL DecryptStream(void* context, const uint8_t* src_buf, FX_DWORD src_size, CFX_BinaryBuf& dest_buf) = 0; virtual FX_BOOL DecryptFinish(void* context, CFX_BinaryBuf& dest_buf) = 0; virtual FX_DWORD EncryptGetSize(FX_DWORD objnum, FX_DWORD version, const uint8_t* src_buf, FX_DWORD src_size) = 0; virtual FX_BOOL EncryptContent(FX_DWORD objnum, FX_DWORD version, const uint8_t* src_buf, FX_DWORD src_size, uint8_t* dest_buf, FX_DWORD& dest_size) = 0; void Decrypt(FX_DWORD objnum, FX_DWORD version, CFX_ByteString& str); }; class CPDF_StandardCryptoHandler : public CPDF_CryptoHandler { public: CPDF_StandardCryptoHandler(); ~CPDF_StandardCryptoHandler() override; // CPDF_CryptoHandler FX_BOOL Init(CPDF_Dictionary* pEncryptDict, IPDF_SecurityHandler* pSecurityHandler) override; FX_DWORD DecryptGetSize(FX_DWORD src_size) override; void* DecryptStart(FX_DWORD objnum, FX_DWORD gennum) override; FX_BOOL DecryptStream(void* context, const uint8_t* src_buf, FX_DWORD src_size, CFX_BinaryBuf& dest_buf) override; FX_BOOL DecryptFinish(void* context, CFX_BinaryBuf& dest_buf) override; FX_DWORD EncryptGetSize(FX_DWORD objnum, FX_DWORD version, const uint8_t* src_buf, FX_DWORD src_size) override; FX_BOOL EncryptContent(FX_DWORD objnum, FX_DWORD version, const uint8_t* src_buf, FX_DWORD src_size, uint8_t* dest_buf, FX_DWORD& dest_size) override; FX_BOOL Init(int cipher, const uint8_t* key, int keylen); protected: virtual void CryptBlock(FX_BOOL bEncrypt, FX_DWORD objnum, FX_DWORD gennum, const uint8_t* src_buf, FX_DWORD src_size, uint8_t* dest_buf, FX_DWORD& dest_size); virtual void* CryptStart(FX_DWORD objnum, FX_DWORD gennum, FX_BOOL bEncrypt); virtual FX_BOOL CryptStream(void* context, const uint8_t* src_buf, FX_DWORD src_size, CFX_BinaryBuf& dest_buf, FX_BOOL bEncrypt); virtual FX_BOOL CryptFinish(void* context, CFX_BinaryBuf& dest_buf, FX_BOOL bEncrypt); uint8_t m_EncryptKey[32]; int m_KeyLen; int m_Cipher; uint8_t* m_pAESContext; }; class CPDF_Point { public: CPDF_Point(FX_FLOAT xx, FX_FLOAT yy) { x = xx; y = yy; } FX_FLOAT x; FX_FLOAT y; }; #define CPDF_Rect CFX_FloatRect CFX_ByteString PDF_NameDecode(const CFX_ByteStringC& orig); CFX_ByteString PDF_NameDecode(const CFX_ByteString& orig); CFX_ByteString PDF_NameEncode(const CFX_ByteString& orig); CFX_ByteString PDF_EncodeString(const CFX_ByteString& src, FX_BOOL bHex = FALSE); CFX_WideString PDF_DecodeText(const uint8_t* pData, FX_DWORD size, CFX_CharMap* pCharMap = NULL); inline CFX_WideString PDF_DecodeText(const CFX_ByteString& bstr, CFX_CharMap* pCharMap = NULL) { return PDF_DecodeText((const uint8_t*)bstr.c_str(), bstr.GetLength(), pCharMap); } CFX_ByteString PDF_EncodeText(const FX_WCHAR* pString, int len = -1, CFX_CharMap* pCharMap = NULL); inline CFX_ByteString PDF_EncodeText(const CFX_WideString& str, CFX_CharMap* pCharMap = NULL) { return PDF_EncodeText(str.c_str(), str.GetLength(), pCharMap); } FX_FLOAT PDF_ClipFloat(FX_FLOAT f); class CFDF_Document : public CPDF_IndirectObjectHolder { public: static CFDF_Document* CreateNewDoc(); static CFDF_Document* ParseFile(IFX_FileRead* pFile, FX_BOOL bOwnFile = FALSE); static CFDF_Document* ParseMemory(const uint8_t* pData, FX_DWORD size); ~CFDF_Document(); FX_BOOL WriteBuf(CFX_ByteTextBuf& buf) const; CPDF_Dictionary* GetRoot() const { return m_pRootDict; } protected: CFDF_Document(); void ParseStream(IFX_FileRead* pFile, FX_BOOL bOwnFile); CPDF_Dictionary* m_pRootDict; IFX_FileRead* m_pFile; FX_BOOL m_bOwnFile; }; void FlateEncode(const uint8_t* src_buf, FX_DWORD src_size, uint8_t*& dest_buf, FX_DWORD& dest_size); void FlateEncode(const uint8_t* src_buf, FX_DWORD src_size, int predictor, int Colors, int BitsPerComponent, int Columns, uint8_t*& dest_buf, FX_DWORD& dest_size); FX_DWORD FlateDecode(const uint8_t* src_buf, FX_DWORD src_size, uint8_t*& dest_buf, FX_DWORD& dest_size); FX_DWORD RunLengthDecode(const uint8_t* src_buf, FX_DWORD src_size, uint8_t*& dest_buf, FX_DWORD& dest_size); bool IsSignatureDict(const CPDF_Dictionary* pDict); class CPDF_NumberTree { public: CPDF_NumberTree(CPDF_Dictionary* pRoot) { m_pRoot = pRoot; } CPDF_Object* LookupValue(int num); protected: CPDF_Dictionary* m_pRoot; }; class IFX_FileAvail { public: virtual ~IFX_FileAvail() {} virtual FX_BOOL IsDataAvail(FX_FILESIZE offset, FX_DWORD size) = 0; }; class IFX_DownloadHints { public: virtual ~IFX_DownloadHints() {} virtual void AddSegment(FX_FILESIZE offset, FX_DWORD size) = 0; }; class IPDF_DataAvail { public: // Must match PDF_DATA_* definitions in public/fpdf_dataavail.h, but cannot // #include that header. fpdfsdk/src/fpdf_dataavail.cpp has static_asserts // to make sure the two sets of values match. enum DocAvailStatus { DataError = -1, // PDF_DATA_ERROR DataNotAvailable = 0, // PDF_DATA_NOTAVAIL DataAvailable = 1, // PDF_DATA_AVAIL }; // Must match PDF_*LINEAR* definitions in public/fpdf_dataavail.h, but cannot // #include that header. fpdfsdk/src/fpdf_dataavail.cpp has static_asserts // to make sure the two sets of values match. enum DocLinearizationStatus { LinearizationUnknown = -1, // PDF_LINEARIZATION_UNKNOWN NotLinearized = 0, // PDF_NOT_LINEARIZED Linearized = 1, // PDF_LINEARIZED }; // Must match PDF_FORM_* definitions in public/fpdf_dataavail.h, but cannot // #include that header. fpdfsdk/src/fpdf_dataavail.cpp has static_asserts // to make sure the two sets of values match. enum DocFormStatus { FormError = -1, // PDF_FORM_ERROR FormNotAvailable = 0, // PDF_FORM_NOTAVAIL FormAvailable = 1, // PDF_FORM_AVAIL FormNotExist = 2, // PDF_FORM_NOTEXIST }; static IPDF_DataAvail* Create(IFX_FileAvail* pFileAvail, IFX_FileRead* pFileRead); virtual ~IPDF_DataAvail() {} IFX_FileAvail* GetFileAvail() const { return m_pFileAvail; } IFX_FileRead* GetFileRead() const { return m_pFileRead; } virtual DocAvailStatus IsDocAvail(IFX_DownloadHints* pHints) = 0; virtual void SetDocument(CPDF_Document* pDoc) = 0; virtual DocAvailStatus IsPageAvail(int iPage, IFX_DownloadHints* pHints) = 0; virtual FX_BOOL IsLinearized() = 0; virtual DocFormStatus IsFormAvail(IFX_DownloadHints* pHints) = 0; virtual DocLinearizationStatus IsLinearizedPDF() = 0; virtual void GetLinearizedMainXRefInfo(FX_FILESIZE* pPos, FX_DWORD* pSize) = 0; protected: IPDF_DataAvail(IFX_FileAvail* pFileAvail, IFX_FileRead* pFileRead); IFX_FileAvail* m_pFileAvail; IFX_FileRead* m_pFileRead; }; enum PDF_PAGENODE_TYPE { PDF_PAGENODE_UNKOWN = 0, PDF_PAGENODE_PAGE, PDF_PAGENODE_PAGES, PDF_PAGENODE_ARRAY, }; class CPDF_PageNode { public: CPDF_PageNode() : m_type(PDF_PAGENODE_UNKOWN) {} ~CPDF_PageNode(); PDF_PAGENODE_TYPE m_type; FX_DWORD m_dwPageNo; CFX_ArrayTemplate m_childNode; }; enum PDF_DATAAVAIL_STATUS { PDF_DATAAVAIL_HEADER = 0, PDF_DATAAVAIL_FIRSTPAGE, PDF_DATAAVAIL_FIRSTPAGE_PREPARE, PDF_DATAAVAIL_HINTTABLE, PDF_DATAAVAIL_END, PDF_DATAAVAIL_CROSSREF, PDF_DATAAVAIL_CROSSREF_ITEM, PDF_DATAAVAIL_CROSSREF_STREAM, PDF_DATAAVAIL_TRAILER, PDF_DATAAVAIL_LOADALLCROSSREF, PDF_DATAAVAIL_ROOT, PDF_DATAAVAIL_INFO, PDF_DATAAVAIL_ACROFORM, PDF_DATAAVAIL_ACROFORM_SUBOBJECT, PDF_DATAAVAIL_PAGETREE, PDF_DATAAVAIL_PAGE, PDF_DATAAVAIL_PAGE_LATERLOAD, PDF_DATAAVAIL_RESOURCES, PDF_DATAAVAIL_DONE, PDF_DATAAVAIL_ERROR, PDF_DATAAVAIL_LOADALLFILE, PDF_DATAAVAIL_TRAILER_APPEND }; // Public for testing. FX_DWORD A85Decode(const uint8_t* src_buf, FX_DWORD src_size, uint8_t*& dest_buf, FX_DWORD& dest_size); // Public for testing. FX_DWORD HexDecode(const uint8_t* src_buf, FX_DWORD src_size, uint8_t*& dest_buf, FX_DWORD& dest_size); // Public for testing. FX_DWORD FPDFAPI_FlateOrLZWDecode(FX_BOOL bLZW, const uint8_t* src_buf, FX_DWORD src_size, CPDF_Dictionary* pParams, FX_DWORD estimated_size, uint8_t*& dest_buf, FX_DWORD& dest_size); FX_BOOL PDF_DataDecode(const uint8_t* src_buf, FX_DWORD src_size, const CPDF_Dictionary* pDict, uint8_t*& dest_buf, FX_DWORD& dest_size, CFX_ByteString& ImageEncoding, CPDF_Dictionary*& pImageParms, FX_DWORD estimated_size, FX_BOOL bImageAcc); #endif // CORE_INCLUDE_FPDFAPI_FPDF_PARSER_H_