#ifndef CRYPTOPP_FILTERS_H #define CRYPTOPP_FILTERS_H #include "simple.h" #include "secblock.h" #include "misc.h" #include "smartptr.h" #include "queue.h" #include "algparam.h" NAMESPACE_BEGIN(CryptoPP) /// provides an implementation of BufferedTransformation's attachment interface class Filter : public BufferedTransformation, public NotCopyable { public: Filter(BufferedTransformation *attachment); bool Attachable() {return true;} BufferedTransformation *AttachedTransformation(); const BufferedTransformation *AttachedTransformation() const; void Detach(BufferedTransformation *newAttachment = NULL); unsigned int TransferTo2(BufferedTransformation &target, unsigned long &transferBytes, const std::string &channel=NULL_CHANNEL, bool blocking=true); unsigned int CopyRangeTo2(BufferedTransformation &target, unsigned long &begin, unsigned long end=ULONG_MAX, const std::string &channel=NULL_CHANNEL, bool blocking=true) const; void Initialize(const NameValuePairs ¶meters=g_nullNameValuePairs, int propagation=-1); bool Flush(bool hardFlush, int propagation=-1, bool blocking=true); bool MessageSeriesEnd(int propagation=-1, bool blocking=true); protected: virtual void NotifyAttachmentChange() {} virtual BufferedTransformation * NewDefaultAttachment() const; void Insert(Filter *nextFilter); // insert filter after this one virtual bool ShouldPropagateMessageEnd() const {return true;} virtual bool ShouldPropagateMessageSeriesEnd() const {return true;} void PropagateInitialize(const NameValuePairs ¶meters, int propagation, const std::string &channel=NULL_CHANNEL); unsigned int Output(int outputSite, const byte *inString, unsigned int length, int messageEnd, bool blocking, const std::string &channel=NULL_CHANNEL); bool OutputMessageEnd(int outputSite, int propagation, bool blocking, const std::string &channel=NULL_CHANNEL); bool OutputFlush(int outputSite, bool hardFlush, int propagation, bool blocking, const std::string &channel=NULL_CHANNEL); bool OutputMessageSeriesEnd(int outputSite, int propagation, bool blocking, const std::string &channel=NULL_CHANNEL); private: member_ptr m_attachment; protected: unsigned int m_inputPosition; int m_continueAt; }; struct FilterPutSpaceHelper { // desiredSize is how much to ask target, bufferSize is how much to allocate in m_tempSpace byte *HelpCreatePutSpace(BufferedTransformation &target, const std::string &channel, unsigned int minSize, unsigned int desiredSize, unsigned int &bufferSize) { assert(desiredSize >= minSize && bufferSize >= minSize); if (m_tempSpace.size() < minSize) { byte *result = target.ChannelCreatePutSpace(channel, desiredSize); if (desiredSize >= minSize) { bufferSize = desiredSize; return result; } m_tempSpace.New(bufferSize); } bufferSize = m_tempSpace.size(); return m_tempSpace.begin(); } byte *HelpCreatePutSpace(BufferedTransformation &target, const std::string &channel, unsigned int minSize) {return HelpCreatePutSpace(target, channel, minSize, minSize, minSize);} byte *HelpCreatePutSpace(BufferedTransformation &target, const std::string &channel, unsigned int minSize, unsigned int bufferSize) {return HelpCreatePutSpace(target, channel, minSize, minSize, bufferSize);} SecByteBlock m_tempSpace; }; //! measure how many byte and messages pass through, also serves as valve class MeterFilter : public Bufferless { public: MeterFilter(BufferedTransformation *attachment=NULL, bool transparent=true) : Bufferless(attachment), m_transparent(transparent) {ResetMeter();} void SetTransparent(bool transparent) {m_transparent = transparent;} void ResetMeter() {m_currentMessageBytes = m_totalBytes = m_currentSeriesMessages = m_totalMessages = m_totalMessageSeries = 0;} unsigned long GetCurrentMessageBytes() const {return m_currentMessageBytes;} unsigned long GetTotalBytes() {return m_totalBytes;} unsigned int GetCurrentSeriesMessages() {return m_currentSeriesMessages;} unsigned int GetTotalMessages() {return m_totalMessages;} unsigned int GetTotalMessageSeries() {return m_totalMessageSeries;} unsigned int Put2(const byte *begin, unsigned int length, int messageEnd, bool blocking); bool IsolatedMessageSeriesEnd(bool blocking); private: bool ShouldPropagateMessageEnd() const {return m_transparent;} bool ShouldPropagateMessageSeriesEnd() const {return m_transparent;} bool m_transparent; unsigned long m_currentMessageBytes, m_totalBytes; unsigned int m_currentSeriesMessages, m_totalMessages, m_totalMessageSeries; }; //! . class TransparentFilter : public MeterFilter { public: TransparentFilter(BufferedTransformation *attachment=NULL) : MeterFilter(attachment, true) {} }; //! . class OpaqueFilter : public MeterFilter { public: OpaqueFilter(BufferedTransformation *attachment=NULL) : MeterFilter(attachment, false) {} }; /*! FilterWithBufferedInput divides up the input stream into a first block, a number of middle blocks, and a last block. First and last blocks are optional, and middle blocks may be a stream instead (i.e. blockSize == 1). */ class FilterWithBufferedInput : public Filter { public: FilterWithBufferedInput(BufferedTransformation *attachment); //! firstSize and lastSize may be 0, blockSize must be at least 1 FilterWithBufferedInput(unsigned int firstSize, unsigned int blockSize, unsigned int lastSize, BufferedTransformation *attachment); void IsolatedInitialize(const NameValuePairs ¶meters); unsigned int Put2(const byte *inString, unsigned int length, int messageEnd, bool blocking) { return PutMaybeModifiable(const_cast(inString), length, messageEnd, blocking, false); } unsigned int PutModifiable2(byte *inString, unsigned int length, int messageEnd, bool blocking) { return PutMaybeModifiable(inString, length, messageEnd, blocking, true); } /*! calls ForceNextPut() if hardFlush is true */ bool IsolatedFlush(bool hardFlush, bool blocking); /*! the input buffer may contain more than blockSize bytes if lastSize != 0 ForceNextPut() forces a call to NextPut() if this is the case */ void ForceNextPut(); protected: bool DidFirstPut() {return m_firstInputDone;} virtual void InitializeDerivedAndReturnNewSizes(const NameValuePairs ¶meters, unsigned int &firstSize, unsigned int &blockSize, unsigned int &lastSize) {InitializeDerived(parameters);} virtual void InitializeDerived(const NameValuePairs ¶meters) {} // FirstPut() is called if (firstSize != 0 and totalLength >= firstSize) // or (firstSize == 0 and (totalLength > 0 or a MessageEnd() is received)) virtual void FirstPut(const byte *inString) =0; // NextPut() is called if totalLength >= firstSize+blockSize+lastSize virtual void NextPutSingle(const byte *inString) {assert(false);} // Same as NextPut() except length can be a multiple of blockSize // Either NextPut() or NextPutMultiple() must be overriden virtual void NextPutMultiple(const byte *inString, unsigned int length); // Same as NextPutMultiple(), but inString can be modified virtual void NextPutModifiable(byte *inString, unsigned int length) {NextPutMultiple(inString, length);} // LastPut() is always called // if totalLength < firstSize then length == totalLength // else if totalLength <= firstSize+lastSize then length == totalLength-firstSize // else lastSize <= length < lastSize+blockSize virtual void LastPut(const byte *inString, unsigned int length) =0; virtual void FlushDerived() {} private: unsigned int PutMaybeModifiable(byte *begin, unsigned int length, int messageEnd, bool blocking, bool modifiable); void NextPutMaybeModifiable(byte *inString, unsigned int length, bool modifiable) { if (modifiable) NextPutModifiable(inString, length); else NextPutMultiple(inString, length); } // This function should no longer be used, put this here to cause a compiler error // if someone tries to override NextPut(). virtual int NextPut(const byte *inString, unsigned int length) {assert(false); return 0;} class BlockQueue { public: void ResetQueue(unsigned int blockSize, unsigned int maxBlocks); byte *GetBlock(); byte *GetContigousBlocks(unsigned int &numberOfBytes); unsigned int GetAll(byte *outString); void Put(const byte *inString, unsigned int length); unsigned int CurrentSize() const {return m_size;} unsigned int MaxSize() const {return m_buffer.size();} private: SecByteBlock m_buffer; unsigned int m_blockSize, m_maxBlocks, m_size; byte *m_begin; }; unsigned int m_firstSize, m_blockSize, m_lastSize; bool m_firstInputDone; BlockQueue m_queue; }; //! . class FilterWithInputQueue : public Filter { public: FilterWithInputQueue(BufferedTransformation *attachment) : Filter(attachment) {} unsigned int Put2(const byte *inString, unsigned int length, int messageEnd, bool blocking) { if (!blocking) throw BlockingInputOnly("FilterWithInputQueue"); m_inQueue.Put(inString, length); if (messageEnd) { IsolatedMessageEnd(blocking); Output(0, NULL, 0, messageEnd, blocking); } return 0; } protected: virtual bool IsolatedMessageEnd(bool blocking) =0; void IsolatedInitialize(const NameValuePairs ¶meters) {m_inQueue.Clear();} ByteQueue m_inQueue; }; //! Filter Wrapper for StreamTransformation class StreamTransformationFilter : public FilterWithBufferedInput, private FilterPutSpaceHelper { public: enum BlockPaddingScheme {NO_PADDING, ZEROS_PADDING, PKCS_PADDING, ONE_AND_ZEROS_PADDING, DEFAULT_PADDING}; /*! DEFAULT_PADDING means PKCS_PADDING if c.MandatoryBlockSize() > 1 && c.MinLastBlockSize() == 0 (e.g. ECB or CBC mode), otherwise NO_PADDING (OFB, CFB, CTR, CBC-CTS modes) */ StreamTransformationFilter(StreamTransformation &c, BufferedTransformation *attachment = NULL, BlockPaddingScheme padding = DEFAULT_PADDING); void FirstPut(const byte *inString); void NextPutMultiple(const byte *inString, unsigned int length); void NextPutModifiable(byte *inString, unsigned int length); void LastPut(const byte *inString, unsigned int length); // byte * CreatePutSpace(unsigned int &size); protected: static unsigned int LastBlockSize(StreamTransformation &c, BlockPaddingScheme padding); StreamTransformation &m_cipher; BlockPaddingScheme m_padding; unsigned int m_optimalBufferSize; }; #ifdef CRYPTOPP_MAINTAIN_BACKWARDS_COMPATIBILITY typedef StreamTransformationFilter StreamCipherFilter; #endif //! Filter Wrapper for HashTransformation class HashFilter : public Bufferless, private FilterPutSpaceHelper { public: HashFilter(HashTransformation &hm, BufferedTransformation *attachment = NULL, bool putMessage=false) : Bufferless(attachment), m_hashModule(hm), m_putMessage(putMessage) {} void IsolatedInitialize(const NameValuePairs ¶meters); unsigned int Put2(const byte *begin, unsigned int length, int messageEnd, bool blocking); byte * CreatePutSpace(unsigned int &size) {return m_hashModule.CreateUpdateSpace(size);} private: HashTransformation &m_hashModule; bool m_putMessage; byte *m_space; }; //! Filter Wrapper for HashTransformation class HashVerificationFilter : public FilterWithBufferedInput { public: class HashVerificationFailed : public Exception { public: HashVerificationFailed() : Exception(DATA_INTEGRITY_CHECK_FAILED, "HashVerifier: message hash not valid") {} }; enum Flags {HASH_AT_BEGIN=1, PUT_MESSAGE=2, PUT_HASH=4, PUT_RESULT=8, THROW_EXCEPTION=16, DEFAULT_FLAGS = HASH_AT_BEGIN | PUT_RESULT}; HashVerificationFilter(HashTransformation &hm, BufferedTransformation *attachment = NULL, word32 flags = DEFAULT_FLAGS); bool GetLastResult() const {return m_verified;} protected: void InitializeDerivedAndReturnNewSizes(const NameValuePairs ¶meters, unsigned int &firstSize, unsigned int &blockSize, unsigned int &lastSize); void FirstPut(const byte *inString); void NextPutMultiple(const byte *inString, unsigned int length); void LastPut(const byte *inString, unsigned int length); private: static inline unsigned int FirstSize(word32 flags, HashTransformation &hm) {return flags & HASH_AT_BEGIN ? hm.DigestSize() : 0;} static inline unsigned int LastSize(word32 flags, HashTransformation &hm) {return flags & HASH_AT_BEGIN ? 0 : hm.DigestSize();} HashTransformation &m_hashModule; word32 m_flags; SecByteBlock m_expectedHash; bool m_verified; }; typedef HashVerificationFilter HashVerifier; // for backwards compatibility //! Filter Wrapper for PK_Signer class SignerFilter : public Unflushable { public: SignerFilter(RandomNumberGenerator &rng, const PK_Signer &signer, BufferedTransformation *attachment = NULL, bool putMessage=false) : Unflushable(attachment), m_rng(rng), m_signer(signer), m_messageAccumulator(signer.NewSignatureAccumulator()), m_putMessage(putMessage) {} void IsolatedInitialize(const NameValuePairs ¶meters); unsigned int Put2(const byte *begin, unsigned int length, int messageEnd, bool blocking); private: RandomNumberGenerator &m_rng; const PK_Signer &m_signer; member_ptr m_messageAccumulator; bool m_putMessage; SecByteBlock m_buf; }; //! Filter Wrapper for PK_Verifier class SignatureVerificationFilter : public FilterWithBufferedInput { public: class SignatureVerificationFailed : public Exception { public: SignatureVerificationFailed() : Exception(DATA_INTEGRITY_CHECK_FAILED, "VerifierFilter: digital signature not valid") {} }; enum Flags {SIGNATURE_AT_BEGIN=1, PUT_MESSAGE=2, PUT_SIGNATURE=4, PUT_RESULT=8, THROW_EXCEPTION=16, DEFAULT_FLAGS = SIGNATURE_AT_BEGIN | PUT_RESULT}; SignatureVerificationFilter(const PK_Verifier &verifier, BufferedTransformation *attachment = NULL, word32 flags = DEFAULT_FLAGS); bool GetLastResult() const {return m_verified;} protected: void InitializeDerivedAndReturnNewSizes(const NameValuePairs ¶meters, unsigned int &firstSize, unsigned int &blockSize, unsigned int &lastSize); void FirstPut(const byte *inString); void NextPutMultiple(const byte *inString, unsigned int length); void LastPut(const byte *inString, unsigned int length); private: const PK_Verifier &m_verifier; member_ptr m_messageAccumulator; word32 m_flags; SecByteBlock m_signature; bool m_verified; }; typedef SignatureVerificationFilter VerifierFilter; // for backwards compatibility //! Redirect input to another BufferedTransformation without owning it class Redirector : public CustomSignalPropagation { public: Redirector() : m_target(NULL), m_passSignal(true) {} Redirector(BufferedTransformation &target, bool passSignal=true) : m_target(&target), m_passSignal(passSignal) {} void Redirect(BufferedTransformation &target) {m_target = ⌖} void StopRedirection() {m_target = NULL;} bool GetPassSignal() const {return m_passSignal;} void SetPassSignal(bool passSignal) {m_passSignal = passSignal;} unsigned int Put2(const byte *begin, unsigned int length, int messageEnd, bool blocking) {return m_target ? m_target->Put2(begin, length, m_passSignal ? messageEnd : 0, blocking) : 0;} void Initialize(const NameValuePairs ¶meters, int propagation) {ChannelInitialize(NULL_CHANNEL, parameters, propagation);} bool Flush(bool hardFlush, int propagation=-1, bool blocking=true) {return m_target && m_passSignal ? m_target->Flush(hardFlush, propagation, blocking) : false;} bool MessageSeriesEnd(int propagation=-1, bool blocking=true) {return m_target && m_passSignal ? m_target->MessageSeriesEnd(propagation, blocking) : false;} void ChannelInitialize(const std::string &channel, const NameValuePairs ¶meters=g_nullNameValuePairs, int propagation=-1); unsigned int ChannelPut2(const std::string &channel, const byte *begin, unsigned int length, int messageEnd, bool blocking) {return m_target ? m_target->ChannelPut2(channel, begin, length, m_passSignal ? messageEnd : 0, blocking) : 0;} unsigned int ChannelPutModifiable2(const std::string &channel, byte *begin, unsigned int length, int messageEnd, bool blocking) {return m_target ? m_target->ChannelPutModifiable2(channel, begin, length, m_passSignal ? messageEnd : 0, blocking) : 0;} bool ChannelFlush(const std::string &channel, bool completeFlush, int propagation=-1, bool blocking=true) {return m_target && m_passSignal ? m_target->ChannelFlush(channel, completeFlush, propagation, blocking) : false;} bool ChannelMessageSeriesEnd(const std::string &channel, int propagation=-1, bool blocking=true) {return m_target && m_passSignal ? m_target->ChannelMessageSeriesEnd(channel, propagation, blocking) : false;} private: BufferedTransformation *m_target; bool m_passSignal; }; // Used By ProxyFilter class OutputProxy : public CustomSignalPropagation { public: OutputProxy(BufferedTransformation &owner, bool passSignal) : m_owner(owner), m_passSignal(passSignal) {} bool GetPassSignal() const {return m_passSignal;} void SetPassSignal(bool passSignal) {m_passSignal = passSignal;} unsigned int Put2(const byte *begin, unsigned int length, int messageEnd, bool blocking) {return m_owner.AttachedTransformation()->Put2(begin, length, m_passSignal ? messageEnd : 0, blocking);} unsigned int PutModifiable2(byte *begin, unsigned int length, int messageEnd, bool blocking) {return m_owner.AttachedTransformation()->PutModifiable2(begin, length, m_passSignal ? messageEnd : 0, blocking);} void Initialize(const NameValuePairs ¶meters=g_nullNameValuePairs, int propagation=-1) {if (m_passSignal) m_owner.AttachedTransformation()->Initialize(parameters, propagation);} bool Flush(bool hardFlush, int propagation=-1, bool blocking=true) {return m_passSignal ? m_owner.AttachedTransformation()->Flush(hardFlush, propagation, blocking) : false;} bool MessageSeriesEnd(int propagation=-1, bool blocking=true) {return m_passSignal ? m_owner.AttachedTransformation()->MessageSeriesEnd(propagation, blocking) : false;} unsigned int ChannelPut2(const std::string &channel, const byte *begin, unsigned int length, int messageEnd, bool blocking) {return m_owner.AttachedTransformation()->ChannelPut2(channel, begin, length, m_passSignal ? messageEnd : 0, blocking);} unsigned int ChannelPutModifiable2(const std::string &channel, byte *begin, unsigned int length, int messageEnd, bool blocking) {return m_owner.AttachedTransformation()->ChannelPutModifiable2(channel, begin, length, m_passSignal ? messageEnd : 0, blocking);} void ChannelInitialize(const std::string &channel, const NameValuePairs ¶meters, int propagation=-1) {if (m_passSignal) m_owner.AttachedTransformation()->ChannelInitialize(channel, parameters, propagation);} bool ChannelFlush(const std::string &channel, bool completeFlush, int propagation=-1, bool blocking=true) {return m_passSignal ? m_owner.AttachedTransformation()->ChannelFlush(channel, completeFlush, propagation, blocking) : false;} bool ChannelMessageSeriesEnd(const std::string &channel, int propagation=-1, bool blocking=true) {return m_passSignal ? m_owner.AttachedTransformation()->ChannelMessageSeriesEnd(channel, propagation, blocking) : false;} private: BufferedTransformation &m_owner; bool m_passSignal; }; //! Base class for Filter classes that are proxies for a chain of other filters. class ProxyFilter : public FilterWithBufferedInput { public: ProxyFilter(BufferedTransformation *filter, unsigned int firstSize, unsigned int lastSize, BufferedTransformation *attachment); void IsolatedFlush(bool completeFlush); void SetFilter(Filter *filter); void NextPutMultiple(const byte *s, unsigned int len); protected: member_ptr m_filter; OutputProxy *m_proxy; }; //! simple proxy filter that doesn't modify the underlying filter's input or output class SimpleProxyFilter : public ProxyFilter { public: SimpleProxyFilter(BufferedTransformation *filter, BufferedTransformation *attachment) : ProxyFilter(filter, 0, 0, attachment) {} void FirstPut(const byte *) {} void LastPut(const byte *, unsigned int) {m_filter->MessageEnd();} }; //! proxy for the filter created by PK_Encryptor::CreateEncryptionFilter /*! This class is here just to provide symmetry with VerifierFilter. */ class PK_EncryptorFilter : public SimpleProxyFilter { public: PK_EncryptorFilter(RandomNumberGenerator &rng, const PK_Encryptor &encryptor, BufferedTransformation *attachment = NULL) : SimpleProxyFilter(encryptor.CreateEncryptionFilter(rng), attachment) {} }; //! proxy for the filter created by PK_Decryptor::CreateDecryptionFilter /*! This class is here just to provide symmetry with SignerFilter. */ class PK_DecryptorFilter : public SimpleProxyFilter { public: PK_DecryptorFilter(const PK_Decryptor &decryptor, BufferedTransformation *attachment = NULL) : SimpleProxyFilter(decryptor.CreateDecryptionFilter(), attachment) {} }; //! Append input to a string object template class StringSinkTemplate : public Bufferless { public: // VC60 workaround: no T::char_type typedef typename T::traits_type::char_type char_type; StringSinkTemplate(T &output) : m_output(&output) {assert(sizeof(output[0])==1);} void IsolatedInitialize(const NameValuePairs ¶meters) {if (!parameters.GetValue("OutputStringPointer", m_output)) throw InvalidArgument("StringSink: OutputStringPointer not specified");} unsigned int Put2(const byte *begin, unsigned int length, int messageEnd, bool blocking) { m_output->append((const char_type *)begin, (const char_type *)begin+length); return 0; } private: T *m_output; }; //! Append input to an std::string typedef StringSinkTemplate StringSink; //! Copy input to a memory buffer class ArraySink : public Bufferless { public: ArraySink(const NameValuePairs ¶meters = g_nullNameValuePairs) {IsolatedInitialize(parameters);} ArraySink(byte *buf, unsigned int size) : m_buf(buf), m_size(size), m_total(0) {} unsigned int AvailableSize() {return m_size - STDMIN(m_total, (unsigned long)m_size);} unsigned long TotalPutLength() {return m_total;} void IsolatedInitialize(const NameValuePairs ¶meters); byte * CreatePutSpace(unsigned int &size); unsigned int Put2(const byte *begin, unsigned int length, int messageEnd, bool blocking); protected: byte *m_buf; unsigned int m_size; unsigned long m_total; }; //! Xor input to a memory buffer class ArrayXorSink : public ArraySink { public: ArrayXorSink(byte *buf, unsigned int size) : ArraySink(buf, size) {} unsigned int Put2(const byte *begin, unsigned int length, int messageEnd, bool blocking); byte * CreatePutSpace(unsigned int &size) {return BufferedTransformation::CreatePutSpace(size);} }; //! . class StringStore : public Store { public: StringStore(const char *string = NULL) {StoreInitialize(MakeParameters("InputBuffer", ConstByteArrayParameter(string)));} StringStore(const byte *string, unsigned int length) {StoreInitialize(MakeParameters("InputBuffer", ConstByteArrayParameter(string, length)));} template StringStore(const T &string) {StoreInitialize(MakeParameters("InputBuffer", ConstByteArrayParameter(string)));} unsigned int TransferTo2(BufferedTransformation &target, unsigned long &transferBytes, const std::string &channel=NULL_CHANNEL, bool blocking=true); unsigned int CopyRangeTo2(BufferedTransformation &target, unsigned long &begin, unsigned long end=ULONG_MAX, const std::string &channel=NULL_CHANNEL, bool blocking=true) const; private: void StoreInitialize(const NameValuePairs ¶meters); const byte *m_store; unsigned int m_length, m_count; }; //! . class RandomNumberStore : public Store { public: RandomNumberStore(RandomNumberGenerator &rng, unsigned long length) : m_rng(rng), m_length(length), m_count(0) {} bool AnyRetrievable() const {return MaxRetrievable() != 0;} unsigned long MaxRetrievable() const {return m_length-m_count;} unsigned int TransferTo2(BufferedTransformation &target, unsigned long &transferBytes, const std::string &channel=NULL_CHANNEL, bool blocking=true); unsigned int CopyRangeTo2(BufferedTransformation &target, unsigned long &begin, unsigned long end=ULONG_MAX, const std::string &channel=NULL_CHANNEL, bool blocking=true) const { throw NotImplemented("RandomNumberStore: CopyRangeTo2() is not supported by this store"); } private: void StoreInitialize(const NameValuePairs ¶meters) {m_count = 0;} RandomNumberGenerator &m_rng; const unsigned long m_length; unsigned long m_count; }; //! . class NullStore : public Store { public: NullStore(unsigned long size = ULONG_MAX) : m_size(size) {} void StoreInitialize(const NameValuePairs ¶meters) {} unsigned long MaxRetrievable() const {return m_size;} unsigned int TransferTo2(BufferedTransformation &target, unsigned long &transferBytes, const std::string &channel=NULL_CHANNEL, bool blocking=true); unsigned int CopyRangeTo2(BufferedTransformation &target, unsigned long &begin, unsigned long end=ULONG_MAX, const std::string &channel=NULL_CHANNEL, bool blocking=true) const; private: unsigned long m_size; }; //! A Filter that pumps data into its attachment as input class Source : public InputRejecting { public: Source(BufferedTransformation *attachment) : InputRejecting(attachment) {} unsigned long Pump(unsigned long pumpMax=ULONG_MAX) {Pump2(pumpMax); return pumpMax;} unsigned int PumpMessages(unsigned int count=UINT_MAX) {PumpMessages2(count); return count;} void PumpAll() {PumpAll2();} virtual unsigned int Pump2(unsigned long &byteCount, bool blocking=true) =0; virtual unsigned int PumpMessages2(unsigned int &messageCount, bool blocking=true) =0; virtual unsigned int PumpAll2(bool blocking=true); virtual bool SourceExhausted() const =0; protected: void SourceInitialize(bool pumpAll, const NameValuePairs ¶meters) { IsolatedInitialize(parameters); if (pumpAll) PumpAll(); } }; //! Turn a Store into a Source template class SourceTemplate : public Source { public: SourceTemplate(BufferedTransformation *attachment) : Source(attachment) {} SourceTemplate(BufferedTransformation *attachment, T store) : Source(attachment), m_store(store) {} void IsolatedInitialize(const NameValuePairs ¶meters) {m_store.IsolatedInitialize(parameters);} unsigned int Pump2(unsigned long &byteCount, bool blocking=true) {return m_store.TransferTo2(*AttachedTransformation(), byteCount, NULL_CHANNEL, blocking);} unsigned int PumpMessages2(unsigned int &messageCount, bool blocking=true) {return m_store.TransferMessagesTo2(*AttachedTransformation(), messageCount, NULL_CHANNEL, blocking);} unsigned int PumpAll2(bool blocking=true) {return m_store.TransferAllTo2(*AttachedTransformation(), NULL_CHANNEL, blocking);} bool SourceExhausted() const {return !m_store.AnyRetrievable() && !m_store.AnyMessages();} void SetAutoSignalPropagation(int propagation) {m_store.SetAutoSignalPropagation(propagation);} int GetAutoSignalPropagation() const {return m_store.GetAutoSignalPropagation();} protected: T m_store; }; //! . class StringSource : public SourceTemplate { public: StringSource(BufferedTransformation *attachment = NULL) : SourceTemplate(attachment) {} StringSource(const char *string, bool pumpAll, BufferedTransformation *attachment = NULL) : SourceTemplate(attachment) {SourceInitialize(pumpAll, MakeParameters("InputBuffer", ConstByteArrayParameter(string)));} StringSource(const byte *string, unsigned int length, bool pumpAll, BufferedTransformation *attachment = NULL) : SourceTemplate(attachment) {SourceInitialize(pumpAll, MakeParameters("InputBuffer", ConstByteArrayParameter(string, length)));} #ifdef __MWERKS__ // CW60 workaround StringSource(const std::string &string, bool pumpAll, BufferedTransformation *attachment = NULL) #else template StringSource(const T &string, bool pumpAll, BufferedTransformation *attachment = NULL) #endif : SourceTemplate(attachment) {SourceInitialize(pumpAll, MakeParameters("InputBuffer", ConstByteArrayParameter(string)));} }; //! . class RandomNumberSource : public SourceTemplate { public: RandomNumberSource(RandomNumberGenerator &rng, unsigned int length, bool pumpAll, BufferedTransformation *attachment = NULL) : SourceTemplate(attachment, RandomNumberStore(rng, length)) {if (pumpAll) PumpAll();} }; NAMESPACE_END #endif