// 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 #include "core/include/fpdfapi/fpdf_parser.h" #include "core/include/fxcrt/fx_string.h" namespace { const FX_DWORD kBlockSize = 1024; } // namespace // static int CPDF_Object::s_nCurRefDepth = 0; void CPDF_Object::Release() { if (m_ObjNum) { return; } Destroy(); } void CPDF_Object::Destroy() { switch (m_Type) { case PDFOBJ_STRING: delete AsString(); break; case PDFOBJ_NAME: delete AsName(); break; case PDFOBJ_ARRAY: delete AsArray(); break; case PDFOBJ_DICTIONARY: delete AsDictionary(); break; case PDFOBJ_STREAM: delete AsStream(); break; default: delete this; } } CFX_ByteString CPDF_Object::GetString() const { switch (m_Type) { case PDFOBJ_BOOLEAN: return AsBoolean()->m_bValue ? "true" : "false"; case PDFOBJ_NUMBER: return AsNumber()->GetString(); case PDFOBJ_STRING: return AsString()->m_String; case PDFOBJ_NAME: return AsName()->m_Name; case PDFOBJ_REFERENCE: { const CPDF_Reference* pRef = AsReference(); if (!pRef->m_pObjList) break; CPDF_Object* pObj = pRef->m_pObjList->GetIndirectObject(pRef->GetRefObjNum()); return pObj ? pObj->GetString() : CFX_ByteString(); } } return CFX_ByteString(); } CFX_ByteStringC CPDF_Object::GetConstString() const { switch (m_Type) { case PDFOBJ_STRING: { CFX_ByteString str = AsString()->m_String; return CFX_ByteStringC((const uint8_t*)str, str.GetLength()); } case PDFOBJ_NAME: { CFX_ByteString name = AsName()->m_Name; return CFX_ByteStringC((const uint8_t*)name, name.GetLength()); } case PDFOBJ_REFERENCE: { const CPDF_Reference* pRef = AsReference(); if (!pRef->m_pObjList) break; CPDF_Object* pObj = pRef->m_pObjList->GetIndirectObject(pRef->GetRefObjNum()); return pObj ? pObj->GetConstString() : CFX_ByteStringC(); } } return CFX_ByteStringC(); } FX_FLOAT CPDF_Object::GetNumber() const { switch (m_Type) { case PDFOBJ_NUMBER: return AsNumber()->GetNumber(); case PDFOBJ_REFERENCE: { const CPDF_Reference* pRef = AsReference(); if (!pRef->m_pObjList) break; CPDF_Object* pObj = pRef->m_pObjList->GetIndirectObject(pRef->GetRefObjNum()); return pObj ? pObj->GetNumber() : 0; } } return 0; } FX_FLOAT CPDF_Object::GetNumber16() const { return GetNumber(); } int CPDF_Object::GetInteger() const { CFX_AutoRestorer restorer(&s_nCurRefDepth); if (++s_nCurRefDepth > OBJECT_REF_MAX_DEPTH) { return 0; } switch (m_Type) { case PDFOBJ_BOOLEAN: return AsBoolean()->m_bValue; case PDFOBJ_NUMBER: return AsNumber()->GetInteger(); case PDFOBJ_REFERENCE: { const CPDF_Reference* pRef = AsReference(); PARSE_CONTEXT context; FXSYS_memset(&context, 0, sizeof(PARSE_CONTEXT)); if (!pRef->m_pObjList) return 0; CPDF_Object* pObj = pRef->m_pObjList->GetIndirectObject(pRef->GetRefObjNum(), &context); return pObj ? pObj->GetInteger() : 0; } } return 0; } CPDF_Dictionary* CPDF_Object::GetDict() const { switch (m_Type) { case PDFOBJ_DICTIONARY: // The method should be made non-const if we want to not be const. // See bug #234. return const_cast(AsDictionary()); case PDFOBJ_STREAM: return AsStream()->GetDict(); case PDFOBJ_REFERENCE: { const CPDF_Reference* pRef = AsReference(); CPDF_IndirectObjects* pIndirect = pRef->GetObjList(); if (!pIndirect) return nullptr; CPDF_Object* pObj = pIndirect->GetIndirectObject(pRef->GetRefObjNum()); if (!pObj || (pObj == this)) return nullptr; return pObj->GetDict(); } default: return nullptr; } } CPDF_Array* CPDF_Object::GetArray() const { // The method should be made non-const if we want to not be const. // See bug #234. return const_cast(AsArray()); } void CPDF_Object::SetString(const CFX_ByteString& str) { ASSERT(this != NULL); switch (m_Type) { case PDFOBJ_BOOLEAN: AsBoolean()->m_bValue = (str == FX_BSTRC("true")); return; case PDFOBJ_NUMBER: AsNumber()->SetString(str); return; case PDFOBJ_STRING: AsString()->m_String = str; return; case PDFOBJ_NAME: AsName()->m_Name = str; return; } ASSERT(FALSE); } int CPDF_Object::GetDirectType() const { const CPDF_Reference* pRef = AsReference(); if (!pRef) return m_Type; return pRef->m_pObjList->GetIndirectType(pRef->GetRefObjNum()); } FX_BOOL CPDF_Object::IsIdentical(CPDF_Object* pOther) const { if (this == pOther) return TRUE; if (!pOther) return FALSE; if (pOther->m_Type != m_Type) { if (IsReference() && GetDirect()) return GetDirect()->IsIdentical(pOther); if (pOther->IsReference()) return IsIdentical(pOther->GetDirect()); return FALSE; } switch (m_Type) { case PDFOBJ_BOOLEAN: return AsBoolean()->Identical(pOther->AsBoolean()); case PDFOBJ_NUMBER: return AsNumber()->Identical(pOther->AsNumber()); case PDFOBJ_STRING: return AsString()->Identical(pOther->AsString()); case PDFOBJ_NAME: return AsName()->Identical(pOther->AsName()); case PDFOBJ_ARRAY: return AsArray()->Identical(pOther->AsArray()); case PDFOBJ_DICTIONARY: return AsDictionary()->Identical(pOther->AsDictionary()); case PDFOBJ_NULL: return TRUE; case PDFOBJ_STREAM: return AsStream()->Identical(pOther->AsStream()); case PDFOBJ_REFERENCE: return AsReference()->Identical(pOther->AsReference()); } return FALSE; } CPDF_Object* CPDF_Object::GetDirect() const { const CPDF_Reference* pRef = AsReference(); if (!pRef) return const_cast(this); if (!pRef->m_pObjList) return nullptr; return pRef->m_pObjList->GetIndirectObject(pRef->GetRefObjNum()); } CPDF_Object* CPDF_Object::Clone(FX_BOOL bDirect) const { CFX_MapPtrToPtr visited; return CloneInternal(bDirect, &visited); } CPDF_Object* CPDF_Object::CloneInternal(FX_BOOL bDirect, CFX_MapPtrToPtr* visited) const { switch (m_Type) { case PDFOBJ_BOOLEAN: return new CPDF_Boolean(AsBoolean()->m_bValue); case PDFOBJ_NUMBER: { const CPDF_Number* pThis = AsNumber(); return new CPDF_Number(pThis->m_bInteger ? pThis->m_Integer : pThis->m_Float); } case PDFOBJ_STRING: { const CPDF_String* pString = AsString(); return new CPDF_String(pString->m_String, pString->IsHex()); } case PDFOBJ_NAME: return new CPDF_Name(AsName()->m_Name); case PDFOBJ_ARRAY: { CPDF_Array* pCopy = new CPDF_Array(); const CPDF_Array* pThis = AsArray(); int n = pThis->GetCount(); for (int i = 0; i < n; i++) { CPDF_Object* value = static_cast(pThis->m_Objects.GetAt(i)); pCopy->m_Objects.Add(value->CloneInternal(bDirect, visited)); } return pCopy; } case PDFOBJ_DICTIONARY: { CPDF_Dictionary* pCopy = new CPDF_Dictionary(); const CPDF_Dictionary* pThis = AsDictionary(); FX_POSITION pos = pThis->m_Map.GetStartPosition(); while (pos) { CFX_ByteString key; CPDF_Object* value; pThis->m_Map.GetNextAssoc(pos, key, (void*&)value); pCopy->m_Map.SetAt(key, value->CloneInternal(bDirect, visited)); } return pCopy; } case PDFOBJ_NULL: { return new CPDF_Null; } case PDFOBJ_STREAM: { const CPDF_Stream* pThis = AsStream(); CPDF_StreamAcc acc; acc.LoadAllData(pThis, TRUE); FX_DWORD streamSize = acc.GetSize(); CPDF_Dictionary* pDict = pThis->GetDict(); if (pDict) { pDict = ToDictionary(pDict->CloneInternal(bDirect, visited)); } return new CPDF_Stream(acc.DetachData(), streamSize, pDict); } case PDFOBJ_REFERENCE: { const CPDF_Reference* pRef = AsReference(); FX_DWORD obj_num = pRef->GetRefObjNum(); if (bDirect && !visited->GetValueAt((void*)(uintptr_t)obj_num)) { visited->SetAt((void*)(uintptr_t)obj_num, (void*)1); if (!pRef->GetDirect()) return nullptr; return pRef->GetDirect()->CloneInternal(TRUE, visited); } return new CPDF_Reference(pRef->m_pObjList, obj_num); } } return NULL; } CPDF_Object* CPDF_Object::CloneRef(CPDF_IndirectObjects* pDoc) const { if (m_ObjNum) { return new CPDF_Reference(pDoc, m_ObjNum); } return Clone(); } CFX_WideString CPDF_Object::GetUnicodeText(CFX_CharMap* pCharMap) const { if (const CPDF_String* pString = AsString()) return PDF_DecodeText(pString->m_String, pCharMap); if (const CPDF_Stream* pStream = AsStream()) { CPDF_StreamAcc stream; stream.LoadAllData(pStream, FALSE); CFX_WideString result = PDF_DecodeText(stream.GetData(), stream.GetSize(), pCharMap); return result; } if (const CPDF_Name* pName = AsName()) return PDF_DecodeText(pName->m_Name, pCharMap); return CFX_WideString(); } void CPDF_Object::SetUnicodeText(const FX_WCHAR* pUnicodes, int len) { if (CPDF_String* pString = AsString()) { pString->m_String = PDF_EncodeText(pUnicodes, len); } else if (CPDF_Stream* pStream = AsStream()) { CFX_ByteString result = PDF_EncodeText(pUnicodes, len); pStream->SetData((uint8_t*)result.c_str(), result.GetLength(), FALSE, FALSE); } } CPDF_Array* CPDF_Object::AsArray() { return IsArray() ? static_cast(this) : nullptr; } const CPDF_Array* CPDF_Object::AsArray() const { return IsArray() ? static_cast(this) : nullptr; } CPDF_Boolean* CPDF_Object::AsBoolean() { return IsBoolean() ? static_cast(this) : nullptr; } const CPDF_Boolean* CPDF_Object::AsBoolean() const { return IsBoolean() ? static_cast(this) : nullptr; } CPDF_Dictionary* CPDF_Object::AsDictionary() { return IsDictionary() ? static_cast(this) : nullptr; } const CPDF_Dictionary* CPDF_Object::AsDictionary() const { return IsDictionary() ? static_cast(this) : nullptr; } CPDF_Name* CPDF_Object::AsName() { return IsName() ? static_cast(this) : nullptr; } const CPDF_Name* CPDF_Object::AsName() const { return IsName() ? static_cast(this) : nullptr; } CPDF_Number* CPDF_Object::AsNumber() { return IsNumber() ? static_cast(this) : nullptr; } const CPDF_Number* CPDF_Object::AsNumber() const { return IsNumber() ? static_cast(this) : nullptr; } CPDF_Reference* CPDF_Object::AsReference() { return IsReference() ? static_cast(this) : nullptr; } const CPDF_Reference* CPDF_Object::AsReference() const { return IsReference() ? static_cast(this) : nullptr; } CPDF_Stream* CPDF_Object::AsStream() { return IsStream() ? static_cast(this) : nullptr; } const CPDF_Stream* CPDF_Object::AsStream() const { return IsStream() ? static_cast(this) : nullptr; } CPDF_String* CPDF_Object::AsString() { return IsString() ? static_cast(this) : nullptr; } const CPDF_String* CPDF_Object::AsString() const { return IsString() ? static_cast(this) : nullptr; } CPDF_Number::CPDF_Number(int value) : CPDF_Object(PDFOBJ_NUMBER), m_bInteger(TRUE), m_Integer(value) {} CPDF_Number::CPDF_Number(FX_FLOAT value) : CPDF_Object(PDFOBJ_NUMBER), m_bInteger(FALSE), m_Float(value) {} CPDF_Number::CPDF_Number(const CFX_ByteStringC& str) : CPDF_Object(PDFOBJ_NUMBER) { FX_atonum(str, m_bInteger, &m_Integer); } void CPDF_Number::SetString(const CFX_ByteStringC& str) { FX_atonum(str, m_bInteger, &m_Integer); } FX_BOOL CPDF_Number::Identical(CPDF_Number* pOther) const { return m_bInteger == pOther->m_bInteger && m_Integer == pOther->m_Integer; } CFX_ByteString CPDF_Number::GetString() const { return m_bInteger ? CFX_ByteString::FormatInteger(m_Integer, FXFORMAT_SIGNED) : CFX_ByteString::FormatFloat(m_Float); } void CPDF_Number::SetNumber(FX_FLOAT value) { m_bInteger = FALSE; m_Float = value; } CPDF_String::CPDF_String(const CFX_WideString& str) : CPDF_Object(PDFOBJ_STRING), m_bHex(FALSE) { m_String = PDF_EncodeText(str); } CPDF_Array::~CPDF_Array() { int size = m_Objects.GetSize(); CPDF_Object** pList = (CPDF_Object**)m_Objects.GetData(); for (int i = 0; i < size; i++) { if (pList[i]) pList[i]->Release(); } } CFX_FloatRect CPDF_Array::GetRect() { CFX_FloatRect rect; if (!IsArray() || m_Objects.GetSize() != 4) return rect; rect.left = GetNumber(0); rect.bottom = GetNumber(1); rect.right = GetNumber(2); rect.top = GetNumber(3); return rect; } CFX_AffineMatrix CPDF_Array::GetMatrix() { CFX_AffineMatrix matrix; if (!IsArray() || m_Objects.GetSize() != 6) return matrix; matrix.Set(GetNumber(0), GetNumber(1), GetNumber(2), GetNumber(3), GetNumber(4), GetNumber(5)); return matrix; } CPDF_Object* CPDF_Array::GetElement(FX_DWORD i) const { if (i >= (FX_DWORD)m_Objects.GetSize()) return nullptr; return static_cast(m_Objects.GetAt(i)); } CPDF_Object* CPDF_Array::GetElementValue(FX_DWORD i) const { if (i >= (FX_DWORD)m_Objects.GetSize()) return nullptr; return static_cast(m_Objects.GetAt(i))->GetDirect(); } CFX_ByteString CPDF_Array::GetString(FX_DWORD i) const { if (i < (FX_DWORD)m_Objects.GetSize()) return static_cast(m_Objects.GetAt(i))->GetString(); return CFX_ByteString(); } CFX_ByteStringC CPDF_Array::GetConstString(FX_DWORD i) const { if (i < (FX_DWORD)m_Objects.GetSize()) return static_cast(m_Objects.GetAt(i))->GetConstString(); return CFX_ByteStringC(); } int CPDF_Array::GetInteger(FX_DWORD i) const { if (i >= (FX_DWORD)m_Objects.GetSize()) return 0; return static_cast(m_Objects.GetAt(i))->GetInteger(); } FX_FLOAT CPDF_Array::GetNumber(FX_DWORD i) const { if (i >= (FX_DWORD)m_Objects.GetSize()) return 0; return static_cast(m_Objects.GetAt(i))->GetNumber(); } CPDF_Dictionary* CPDF_Array::GetDict(FX_DWORD i) const { CPDF_Object* p = GetElementValue(i); if (!p) return NULL; if (CPDF_Dictionary* pDict = p->AsDictionary()) return pDict; if (CPDF_Stream* pStream = p->AsStream()) return pStream->GetDict(); return NULL; } CPDF_Stream* CPDF_Array::GetStream(FX_DWORD i) const { return ToStream(GetElementValue(i)); } CPDF_Array* CPDF_Array::GetArray(FX_DWORD i) const { return ToArray(GetElementValue(i)); } void CPDF_Array::RemoveAt(FX_DWORD i) { ASSERT(IsArray()); if (i >= (FX_DWORD)m_Objects.GetSize()) return; if (CPDF_Object* p = static_cast(m_Objects.GetAt(i))) p->Release(); m_Objects.RemoveAt(i); } void CPDF_Array::SetAt(FX_DWORD i, CPDF_Object* pObj, CPDF_IndirectObjects* pObjs) { ASSERT(IsArray()); ASSERT(i < (FX_DWORD)m_Objects.GetSize()); if (i >= (FX_DWORD)m_Objects.GetSize()) return; if (CPDF_Object* pOld = static_cast(m_Objects.GetAt(i))) pOld->Release(); if (pObj->GetObjNum()) { ASSERT(pObjs); pObj = new CPDF_Reference(pObjs, pObj->GetObjNum()); } m_Objects.SetAt(i, pObj); } void CPDF_Array::InsertAt(FX_DWORD index, CPDF_Object* pObj, CPDF_IndirectObjects* pObjs) { ASSERT(pObj != NULL); if (pObj->GetObjNum()) { ASSERT(pObjs != NULL); pObj = new CPDF_Reference(pObjs, pObj->GetObjNum()); } m_Objects.InsertAt(index, pObj); } void CPDF_Array::Add(CPDF_Object* pObj, CPDF_IndirectObjects* pObjs) { ASSERT(pObj != NULL); if (pObj->GetObjNum()) { ASSERT(pObjs != NULL); pObj = new CPDF_Reference(pObjs, pObj->GetObjNum()); } m_Objects.Add(pObj); } void CPDF_Array::AddName(const CFX_ByteString& str) { ASSERT(IsArray()); Add(new CPDF_Name(str)); } void CPDF_Array::AddString(const CFX_ByteString& str) { ASSERT(IsArray()); Add(new CPDF_String(str)); } void CPDF_Array::AddInteger(int i) { ASSERT(IsArray()); Add(new CPDF_Number(i)); } void CPDF_Array::AddNumber(FX_FLOAT f) { ASSERT(IsArray()); CPDF_Number* pNumber = new CPDF_Number; pNumber->SetNumber(f); Add(pNumber); } void CPDF_Array::AddReference(CPDF_IndirectObjects* pDoc, FX_DWORD objnum) { ASSERT(IsArray()); Add(new CPDF_Reference(pDoc, objnum)); } FX_BOOL CPDF_Array::Identical(CPDF_Array* pOther) const { if (m_Objects.GetSize() != pOther->m_Objects.GetSize()) { return FALSE; } for (int i = 0; i < m_Objects.GetSize(); i++) if (!static_cast(m_Objects[i]) ->IsIdentical(static_cast(pOther->m_Objects[i]))) { return FALSE; } return TRUE; } CPDF_Dictionary::~CPDF_Dictionary() { FX_POSITION pos = m_Map.GetStartPosition(); while (pos) { if (CPDF_Object* value = static_cast(m_Map.GetNextValue(pos))) value->Release(); } } FX_POSITION CPDF_Dictionary::GetStartPos() const { return m_Map.GetStartPosition(); } CPDF_Object* CPDF_Dictionary::GetNextElement(FX_POSITION& pos, CFX_ByteString& key) const { if (pos == NULL) { return NULL; } CPDF_Object* p; m_Map.GetNextAssoc(pos, key, (void*&)p); return p; } CPDF_Object* CPDF_Dictionary::GetElement(const CFX_ByteStringC& key) const { CPDF_Object* p = NULL; m_Map.Lookup(key, (void*&)p); return p; } CPDF_Object* CPDF_Dictionary::GetElementValue( const CFX_ByteStringC& key) const { CPDF_Object* p = NULL; m_Map.Lookup(key, (void*&)p); return p ? p->GetDirect() : NULL; } CFX_ByteString CPDF_Dictionary::GetString(const CFX_ByteStringC& key) const { CPDF_Object* p = NULL; m_Map.Lookup(key, (void*&)p); if (p) { return p->GetString(); } return CFX_ByteString(); } CFX_ByteStringC CPDF_Dictionary::GetConstString( const CFX_ByteStringC& key) const { CPDF_Object* p = NULL; m_Map.Lookup(key, (void*&)p); if (p) { return p->GetConstString(); } return CFX_ByteStringC(); } CFX_WideString CPDF_Dictionary::GetUnicodeText(const CFX_ByteStringC& key, CFX_CharMap* pCharMap) const { CPDF_Object* p = NULL; m_Map.Lookup(key, (void*&)p); if (CPDF_Reference* pRef = ToReference(p)) p = pRef->GetDirect(); return p ? p->GetUnicodeText(pCharMap) : CFX_WideString(); } CFX_ByteString CPDF_Dictionary::GetString(const CFX_ByteStringC& key, const CFX_ByteStringC& def) const { CPDF_Object* p = NULL; m_Map.Lookup(key, (void*&)p); if (p) { return p->GetString(); } return CFX_ByteString(def); } CFX_ByteStringC CPDF_Dictionary::GetConstString( const CFX_ByteStringC& key, const CFX_ByteStringC& def) const { CPDF_Object* p = NULL; m_Map.Lookup(key, (void*&)p); if (p) { return p->GetConstString(); } return CFX_ByteStringC(def); } int CPDF_Dictionary::GetInteger(const CFX_ByteStringC& key) const { CPDF_Object* p = NULL; m_Map.Lookup(key, (void*&)p); if (p) { return p->GetInteger(); } return 0; } int CPDF_Dictionary::GetInteger(const CFX_ByteStringC& key, int def) const { CPDF_Object* p = NULL; m_Map.Lookup(key, (void*&)p); if (p) { return p->GetInteger(); } return def; } FX_FLOAT CPDF_Dictionary::GetNumber(const CFX_ByteStringC& key) const { CPDF_Object* p = NULL; m_Map.Lookup(key, (void*&)p); if (p) { return p->GetNumber(); } return 0; } FX_BOOL CPDF_Dictionary::GetBoolean(const CFX_ByteStringC& key, FX_BOOL bDefault) const { CPDF_Object* p = NULL; m_Map.Lookup(key, (void*&)p); if (ToBoolean(p)) return p->GetInteger(); return bDefault; } CPDF_Dictionary* CPDF_Dictionary::GetDict(const CFX_ByteStringC& key) const { CPDF_Object* p = GetElementValue(key); if (!p) return nullptr; if (CPDF_Dictionary* pDict = p->AsDictionary()) return pDict; if (CPDF_Stream* pStream = p->AsStream()) return pStream->GetDict(); return nullptr; } CPDF_Array* CPDF_Dictionary::GetArray(const CFX_ByteStringC& key) const { return ToArray(GetElementValue(key)); } CPDF_Stream* CPDF_Dictionary::GetStream(const CFX_ByteStringC& key) const { return ToStream(GetElementValue(key)); } CFX_FloatRect CPDF_Dictionary::GetRect(const CFX_ByteStringC& key) const { CFX_FloatRect rect; CPDF_Array* pArray = GetArray(key); if (pArray) rect = pArray->GetRect(); return rect; } CFX_AffineMatrix CPDF_Dictionary::GetMatrix(const CFX_ByteStringC& key) const { CFX_AffineMatrix matrix; CPDF_Array* pArray = GetArray(key); if (pArray) matrix = pArray->GetMatrix(); return matrix; } FX_BOOL CPDF_Dictionary::KeyExist(const CFX_ByteStringC& key) const { void* value; return m_Map.Lookup(key, value); } void CPDF_Dictionary::SetAt(const CFX_ByteStringC& key, CPDF_Object* pObj) { ASSERT(IsDictionary()); void* pValue = nullptr; m_Map.Lookup(key, pValue); CPDF_Object* pExisting = static_cast(pValue); if (pExisting == pObj) return; if (pExisting) pExisting->Release(); if (pObj) m_Map.SetAt(key, pObj); else m_Map.RemoveKey(key); } void CPDF_Dictionary::AddValue(const CFX_ByteStringC& key, CPDF_Object* pObj) { ASSERT(m_Type == PDFOBJ_DICTIONARY); m_Map.AddValue(key, pObj); } void CPDF_Dictionary::RemoveAt(const CFX_ByteStringC& key) { ASSERT(m_Type == PDFOBJ_DICTIONARY); CPDF_Object* p = NULL; m_Map.Lookup(key, (void*&)p); if (p == NULL) { return; } p->Release(); m_Map.RemoveKey(key); } void CPDF_Dictionary::ReplaceKey(const CFX_ByteStringC& oldkey, const CFX_ByteStringC& newkey) { ASSERT(m_Type == PDFOBJ_DICTIONARY); CPDF_Object* p = NULL; m_Map.Lookup(oldkey, (void*&)p); if (p == NULL) { return; } m_Map.RemoveKey(oldkey); m_Map.SetAt(newkey, p); } FX_BOOL CPDF_Dictionary::Identical(CPDF_Dictionary* pOther) const { if (pOther == NULL) { return FALSE; } if (m_Map.GetCount() != pOther->m_Map.GetCount()) { return FALSE; } FX_POSITION pos = m_Map.GetStartPosition(); while (pos) { CFX_ByteString key; void* value; m_Map.GetNextAssoc(pos, key, value); if (!value) return FALSE; if (!static_cast(value)->IsIdentical(pOther->GetElement(key))) return FALSE; } return TRUE; } void CPDF_Dictionary::SetAtInteger(const CFX_ByteStringC& key, int i) { SetAt(key, new CPDF_Number(i)); } void CPDF_Dictionary::SetAtName(const CFX_ByteStringC& key, const CFX_ByteString& name) { SetAt(key, new CPDF_Name(name)); } void CPDF_Dictionary::SetAtString(const CFX_ByteStringC& key, const CFX_ByteString& str) { SetAt(key, new CPDF_String(str)); } void CPDF_Dictionary::SetAtReference(const CFX_ByteStringC& key, CPDF_IndirectObjects* pDoc, FX_DWORD objnum) { SetAt(key, new CPDF_Reference(pDoc, objnum)); } void CPDF_Dictionary::AddReference(const CFX_ByteStringC& key, CPDF_IndirectObjects* pDoc, FX_DWORD objnum) { AddValue(key, new CPDF_Reference(pDoc, objnum)); } void CPDF_Dictionary::SetAtNumber(const CFX_ByteStringC& key, FX_FLOAT f) { CPDF_Number* pNumber = new CPDF_Number; pNumber->SetNumber(f); SetAt(key, pNumber); } void CPDF_Dictionary::SetAtBoolean(const CFX_ByteStringC& key, FX_BOOL bValue) { SetAt(key, new CPDF_Boolean(bValue)); } void CPDF_Dictionary::SetAtRect(const CFX_ByteStringC& key, const CFX_FloatRect& rect) { CPDF_Array* pArray = new CPDF_Array; pArray->AddNumber(rect.left); pArray->AddNumber(rect.bottom); pArray->AddNumber(rect.right); pArray->AddNumber(rect.top); SetAt(key, pArray); } void CPDF_Dictionary::SetAtMatrix(const CFX_ByteStringC& key, const CFX_AffineMatrix& matrix) { CPDF_Array* pArray = new CPDF_Array; pArray->AddNumber16(matrix.a); pArray->AddNumber16(matrix.b); pArray->AddNumber16(matrix.c); pArray->AddNumber16(matrix.d); pArray->AddNumber(matrix.e); pArray->AddNumber(matrix.f); SetAt(key, pArray); } CPDF_Stream::CPDF_Stream(uint8_t* pData, FX_DWORD size, CPDF_Dictionary* pDict) : CPDF_Object(PDFOBJ_STREAM), m_pDict(pDict), m_dwSize(size), m_GenNum(kMemoryBasedGenNum), m_pDataBuf(pData) {} CPDF_Stream::~CPDF_Stream() { if (IsMemoryBased()) FX_Free(m_pDataBuf); if (m_pDict) m_pDict->Release(); } void CPDF_Stream::InitStreamInternal(CPDF_Dictionary* pDict) { if (pDict) { if (m_pDict) m_pDict->Release(); m_pDict = pDict; } if (IsMemoryBased()) FX_Free(m_pDataBuf); m_GenNum = 0; m_pFile = nullptr; } void CPDF_Stream::InitStream(uint8_t* pData, FX_DWORD size, CPDF_Dictionary* pDict) { InitStreamInternal(pDict); m_GenNum = kMemoryBasedGenNum; m_pDataBuf = FX_Alloc(uint8_t, size); if (pData) { FXSYS_memcpy(m_pDataBuf, pData, size); } m_dwSize = size; if (m_pDict) { m_pDict->SetAtInteger(FX_BSTRC("Length"), size); } } void CPDF_Stream::SetData(const uint8_t* pData, FX_DWORD size, FX_BOOL bCompressed, FX_BOOL bKeepBuf) { if (IsMemoryBased()) FX_Free(m_pDataBuf); m_GenNum = kMemoryBasedGenNum; if (bKeepBuf) { m_pDataBuf = (uint8_t*)pData; } else { m_pDataBuf = FX_Alloc(uint8_t, size); if (pData) { FXSYS_memcpy(m_pDataBuf, pData, size); } } m_dwSize = size; if (!m_pDict) m_pDict = new CPDF_Dictionary; m_pDict->SetAtInteger(FX_BSTRC("Length"), size); if (!bCompressed) { m_pDict->RemoveAt(FX_BSTRC("Filter")); m_pDict->RemoveAt(FX_BSTRC("DecodeParms")); } } FX_BOOL CPDF_Stream::ReadRawData(FX_FILESIZE offset, uint8_t* buf, FX_DWORD size) const { if (!IsMemoryBased() && m_pFile) return m_pFile->ReadBlock(buf, offset, size); if (m_pDataBuf) FXSYS_memcpy(buf, m_pDataBuf + offset, size); return TRUE; } void CPDF_Stream::InitStreamFromFile(IFX_FileRead* pFile, CPDF_Dictionary* pDict) { InitStreamInternal(pDict); m_pFile = pFile; m_dwSize = (FX_DWORD)pFile->GetSize(); if (m_pDict) { m_pDict->SetAtInteger(FX_BSTRC("Length"), m_dwSize); } } FX_BOOL CPDF_Stream::Identical(CPDF_Stream* pOther) const { if (!m_pDict) return !pOther->m_pDict; if (!m_pDict->Identical(pOther->m_pDict)) return FALSE; if (m_dwSize != pOther->m_dwSize) return FALSE; if (!IsMemoryBased() && !pOther->IsMemoryBased()) { if (m_pFile == pOther->m_pFile && !m_pFile) return TRUE; if (!m_pFile || !pOther->m_pFile) return FALSE; uint8_t srcBuf[kBlockSize]; uint8_t destBuf[kBlockSize]; FX_DWORD size = m_dwSize; if (m_pFile == pOther->m_pFile) return TRUE; FX_DWORD offset = 0; while (size > 0) { FX_DWORD actualSize = std::min(size, kBlockSize); m_pFile->ReadBlock(srcBuf, offset, actualSize); pOther->m_pFile->ReadBlock(destBuf, offset, actualSize); if (FXSYS_memcmp(srcBuf, destBuf, actualSize) != 0) return FALSE; size -= actualSize; offset += actualSize; } return TRUE; } if (!IsMemoryBased() || !pOther->IsMemoryBased()) { IFX_FileRead* pFile = nullptr; uint8_t* pBuf = nullptr; if (!pOther->IsMemoryBased()) { pFile = pOther->m_pFile; pBuf = m_pDataBuf; } else if (!IsMemoryBased()) { pFile = m_pFile; pBuf = pOther->m_pDataBuf; } if (!pBuf) return FALSE; uint8_t srcBuf[kBlockSize]; FX_DWORD size = m_dwSize; FX_DWORD offset = 0; while (size > 0) { FX_DWORD actualSize = std::min(size, kBlockSize); pFile->ReadBlock(srcBuf, offset, actualSize); if (FXSYS_memcmp(srcBuf, pBuf, actualSize) != 0) return FALSE; pBuf += actualSize; size -= actualSize; offset += actualSize; } return TRUE; } return FXSYS_memcmp(m_pDataBuf, pOther->m_pDataBuf, m_dwSize) == 0; } CPDF_StreamAcc::CPDF_StreamAcc() { m_bNewBuf = FALSE; m_pData = NULL; m_dwSize = 0; m_pImageParam = NULL; m_pStream = NULL; m_pSrcData = NULL; } void CPDF_StreamAcc::LoadAllData(const CPDF_Stream* pStream, FX_BOOL bRawAccess, FX_DWORD estimated_size, FX_BOOL bImageAcc) { if (!pStream) return; m_pStream = pStream; if (pStream->IsMemoryBased() && (!pStream->GetDict()->KeyExist(FX_BSTRC("Filter")) || bRawAccess)) { m_dwSize = pStream->m_dwSize; m_pData = (uint8_t*)pStream->m_pDataBuf; return; } uint8_t* pSrcData; FX_DWORD dwSrcSize = pStream->m_dwSize; if (dwSrcSize == 0) return; if (!pStream->IsMemoryBased()) { pSrcData = m_pSrcData = FX_Alloc(uint8_t, dwSrcSize); if (!pStream->ReadRawData(0, pSrcData, dwSrcSize)) return; } else { pSrcData = pStream->m_pDataBuf; } uint8_t* pDecryptedData = pSrcData; FX_DWORD dwDecryptedSize = dwSrcSize; if (!pStream->GetDict()->KeyExist(FX_BSTRC("Filter")) || bRawAccess) { m_pData = pDecryptedData; m_dwSize = dwDecryptedSize; } else { FX_BOOL bRet = PDF_DataDecode( pDecryptedData, dwDecryptedSize, m_pStream->GetDict(), m_pData, m_dwSize, m_ImageDecoder, m_pImageParam, estimated_size, bImageAcc); if (!bRet) { m_pData = pDecryptedData; m_dwSize = dwDecryptedSize; } } if (pSrcData != pStream->m_pDataBuf && pSrcData != m_pData) { FX_Free(pSrcData); } if (pDecryptedData != pSrcData && pDecryptedData != m_pData) { FX_Free(pDecryptedData); } m_pSrcData = NULL; m_bNewBuf = m_pData != pStream->m_pDataBuf; } CPDF_StreamAcc::~CPDF_StreamAcc() { if (m_bNewBuf) { FX_Free(m_pData); } FX_Free(m_pSrcData); } const uint8_t* CPDF_StreamAcc::GetData() const { if (m_bNewBuf) { return m_pData; } if (!m_pStream) { return NULL; } return m_pStream->m_pDataBuf; } FX_DWORD CPDF_StreamAcc::GetSize() const { if (m_bNewBuf) { return m_dwSize; } if (!m_pStream) { return 0; } return m_pStream->m_dwSize; } uint8_t* CPDF_StreamAcc::DetachData() { if (m_bNewBuf) { uint8_t* p = m_pData; m_pData = NULL; m_dwSize = 0; return p; } uint8_t* p = FX_Alloc(uint8_t, m_dwSize); FXSYS_memcpy(p, m_pData, m_dwSize); return p; } void CPDF_Reference::SetRef(CPDF_IndirectObjects* pDoc, FX_DWORD objnum) { m_pObjList = pDoc; m_RefObjNum = objnum; } CPDF_IndirectObjects::CPDF_IndirectObjects(CPDF_Parser* pParser) { m_pParser = pParser; m_IndirectObjs.InitHashTable(1013); if (pParser) { m_LastObjNum = m_pParser->GetLastObjNum(); } else { m_LastObjNum = 0; } } CPDF_IndirectObjects::~CPDF_IndirectObjects() { FX_POSITION pos = m_IndirectObjs.GetStartPosition(); while (pos) { void* key; void* value; m_IndirectObjs.GetNextAssoc(pos, key, value); static_cast(value)->Destroy(); } } CPDF_Object* CPDF_IndirectObjects::GetIndirectObject( FX_DWORD objnum, struct PARSE_CONTEXT* pContext) { if (objnum == 0) return nullptr; void* value; if (m_IndirectObjs.Lookup((void*)(uintptr_t)objnum, value)) { CPDF_Object* pValue = static_cast(value); if (pValue->GetObjNum() == -1) return nullptr; return pValue; } CPDF_Object* pObj = nullptr; if (m_pParser) pObj = m_pParser->ParseIndirectObject(this, objnum, pContext); if (!pObj) return nullptr; pObj->m_ObjNum = objnum; if (m_LastObjNum < objnum) { m_LastObjNum = objnum; } if (m_IndirectObjs.Lookup((void*)(uintptr_t)objnum, value)) { if (value) static_cast(value)->Destroy(); } m_IndirectObjs.SetAt((void*)(uintptr_t)objnum, pObj); return pObj; } int CPDF_IndirectObjects::GetIndirectType(FX_DWORD objnum) { void* value; if (m_IndirectObjs.Lookup((void*)(uintptr_t)objnum, value)) return static_cast(value)->GetType(); if (m_pParser) { PARSE_CONTEXT context; FXSYS_memset(&context, 0, sizeof(PARSE_CONTEXT)); context.m_Flags = PDFPARSE_TYPEONLY; return (int)(uintptr_t)m_pParser->ParseIndirectObject(this, objnum, &context); } return 0; } FX_DWORD CPDF_IndirectObjects::AddIndirectObject(CPDF_Object* pObj) { if (pObj->m_ObjNum) { return pObj->m_ObjNum; } m_LastObjNum++; m_IndirectObjs.SetAt((void*)(uintptr_t)m_LastObjNum, pObj); pObj->m_ObjNum = m_LastObjNum; return m_LastObjNum; } void CPDF_IndirectObjects::ReleaseIndirectObject(FX_DWORD objnum) { void* value; if (!m_IndirectObjs.Lookup((void*)(uintptr_t)objnum, value)) return; CPDF_Object* pValue = static_cast(value); if (pValue->GetObjNum() == -1) return; pValue->Destroy(); m_IndirectObjs.RemoveKey((void*)(uintptr_t)objnum); } void CPDF_IndirectObjects::InsertIndirectObject(FX_DWORD objnum, CPDF_Object* pObj) { if (objnum == 0 || pObj == NULL) { return; } void* value = NULL; if (m_IndirectObjs.Lookup((void*)(uintptr_t)objnum, value)) { if (value) { CPDF_Object* pValue = static_cast(value); if (pObj->GetGenNum() <= pValue->GetGenNum()) return; pValue->Destroy(); } } pObj->m_ObjNum = objnum; m_IndirectObjs.SetAt((void*)(uintptr_t)objnum, pObj); if (m_LastObjNum < objnum) { m_LastObjNum = objnum; } } FX_DWORD CPDF_IndirectObjects::GetLastObjNum() const { return m_LastObjNum; }