mirror of
https://github.com/shadps4-emu/ext-cryptopp.git
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966 lines
36 KiB
C++
966 lines
36 KiB
C++
// asn.h - originally written and placed in the public domain by Wei Dai
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/// \file asn.h
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/// \brief Classes and functions for working with ANS.1 objects
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#ifndef CRYPTOPP_ASN_H
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#define CRYPTOPP_ASN_H
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#include "cryptlib.h"
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#include "filters.h"
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#include "smartptr.h"
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#include "stdcpp.h"
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#include "queue.h"
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#include "misc.h"
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#include <iosfwd>
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// Issue 340
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#if CRYPTOPP_GCC_DIAGNOSTIC_AVAILABLE
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# pragma GCC diagnostic push
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# pragma GCC diagnostic ignored "-Wconversion"
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# pragma GCC diagnostic ignored "-Wsign-conversion"
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#endif
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NAMESPACE_BEGIN(CryptoPP)
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/// \brief ASN.1 types
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/// \note These tags are not complete
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enum ASNTag
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{
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/// \brief ASN.1 Boolean
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BOOLEAN = 0x01,
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/// \brief ASN.1 Integer
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INTEGER = 0x02,
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/// \brief ASN.1 Bit string
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BIT_STRING = 0x03,
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/// \brief ASN.1 Octet string
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OCTET_STRING = 0x04,
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/// \brief ASN.1 Null
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TAG_NULL = 0x05,
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/// \brief ASN.1 Object identifier
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OBJECT_IDENTIFIER = 0x06,
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/// \brief ASN.1 Object descriptor
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OBJECT_DESCRIPTOR = 0x07,
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/// \brief ASN.1 External reference
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EXTERNAL = 0x08,
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/// \brief ASN.1 Real integer
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REAL = 0x09,
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/// \brief ASN.1 Enumerated value
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ENUMERATED = 0x0a,
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/// \brief ASN.1 UTF-8 string
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UTF8_STRING = 0x0c,
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/// \brief ASN.1 Sequence
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SEQUENCE = 0x10,
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/// \brief ASN.1 Set
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SET = 0x11,
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/// \brief ASN.1 Numeric string
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NUMERIC_STRING = 0x12,
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/// \brief ASN.1 Printable string
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PRINTABLE_STRING = 0x13,
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/// \brief ASN.1 T61 string
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T61_STRING = 0x14,
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/// \brief ASN.1 Videotext string
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VIDEOTEXT_STRING = 0x15,
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/// \brief ASN.1 IA5 string
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IA5_STRING = 0x16,
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/// \brief ASN.1 UTC time
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UTC_TIME = 0x17,
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/// \brief ASN.1 Generalized time
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GENERALIZED_TIME = 0x18,
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/// \brief ASN.1 Graphic string
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GRAPHIC_STRING = 0x19,
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/// \brief ASN.1 Visible string
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VISIBLE_STRING = 0x1a,
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/// \brief ASN.1 General string
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GENERAL_STRING = 0x1b,
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/// \brief ASN.1 Universal string
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UNIVERSAL_STRING = 0x1c,
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/// \brief ASN.1 BMP string
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BMP_STRING = 0x1e
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};
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/// \brief ASN.1 flags
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/// \note These flags are not complete
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enum ASNIdFlag
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{
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/// \brief ASN.1 Universal class
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UNIVERSAL = 0x00,
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// DATA = 0x01,
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// HEADER = 0x02,
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/// \brief ASN.1 Primitive flag
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PRIMITIVE = 0x00,
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/// \brief ASN.1 Constructed flag
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CONSTRUCTED = 0x20,
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/// \brief ASN.1 Application class
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APPLICATION = 0x40,
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/// \brief ASN.1 Context specific class
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CONTEXT_SPECIFIC = 0x80,
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/// \brief ASN.1 Private class
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PRIVATE = 0xc0
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};
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/// \brief Raises a BERDecodeErr
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inline void BERDecodeError() {throw BERDecodeErr();}
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/// \brief Exception thrown when an unknown object identifier is encountered
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class CRYPTOPP_DLL UnknownOID : public BERDecodeErr
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{
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public:
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/// \brief Construct an UnknownOID
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UnknownOID() : BERDecodeErr("BER decode error: unknown object identifier") {}
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/// \brief Construct an UnknownOID
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/// \param err error message to use for the execption
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UnknownOID(const char *err) : BERDecodeErr(err) {}
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};
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/// \brief DER encode a length
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/// \param bt BufferedTransformation object for writing
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/// \param length the size to encode
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/// \return the number of octets used for the encoding
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CRYPTOPP_DLL size_t CRYPTOPP_API DERLengthEncode(BufferedTransformation &bt, lword length);
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/// \brief BER decode a length
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/// \param bt BufferedTransformation object for reading
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/// \param length the decoded size
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/// \return true if the value was decoded
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/// \throw BERDecodeError if the value fails to decode or is too large for size_t
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/// \details BERLengthDecode() returns false if the encoding is indefinite length.
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CRYPTOPP_DLL bool CRYPTOPP_API BERLengthDecode(BufferedTransformation &bt, size_t &length);
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/// \brief DER encode NULL
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/// \param bt BufferedTransformation object for writing
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CRYPTOPP_DLL void CRYPTOPP_API DEREncodeNull(BufferedTransformation &bt);
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/// \brief BER decode NULL
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/// \param bt BufferedTransformation object for reading
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CRYPTOPP_DLL void CRYPTOPP_API BERDecodeNull(BufferedTransformation &bt);
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/// \brief DER encode octet string
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/// \param bt BufferedTransformation object for writing
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/// \param str the string to encode
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/// \param strLen the length of the string
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/// \return the number of octets used for the encoding
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CRYPTOPP_DLL size_t CRYPTOPP_API DEREncodeOctetString(BufferedTransformation &bt, const byte *str, size_t strLen);
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/// \brief DER encode octet string
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/// \param bt BufferedTransformation object for reading
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/// \param str the string to encode
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/// \return the number of octets used for the encoding
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CRYPTOPP_DLL size_t CRYPTOPP_API DEREncodeOctetString(BufferedTransformation &bt, const SecByteBlock &str);
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/// \brief BER decode octet string
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/// \param bt BufferedTransformation object for reading
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/// \param str the decoded string
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/// \return the number of octets used for the encoding
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CRYPTOPP_DLL size_t CRYPTOPP_API BERDecodeOctetString(BufferedTransformation &bt, SecByteBlock &str);
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/// \brief BER decode octet string
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/// \param bt BufferedTransformation object for reading
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/// \param str the decoded string
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/// \return the number of octets used for the encoding
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CRYPTOPP_DLL size_t CRYPTOPP_API BERDecodeOctetString(BufferedTransformation &bt, BufferedTransformation &str);
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/// \brief DER encode text string
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/// \param bt BufferedTransformation object for writing
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/// \param str the string to encode
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/// \param strLen the length of the string, in bytes
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/// \param asnTag the ASN.1 identifier
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/// \return the number of octets used for the encoding
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/// \details DEREncodeTextString() can be used for UTF8_STRING, PRINTABLE_STRING, and IA5_STRING
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/// \since Crypto++ 8.3
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CRYPTOPP_DLL size_t CRYPTOPP_API DEREncodeTextString(BufferedTransformation &bt, const byte* str, size_t strLen, byte asnTag);
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/// \brief DER encode text string
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/// \param bt BufferedTransformation object for writing
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/// \param str the string to encode
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/// \param asnTag the ASN.1 identifier
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/// \return the number of octets used for the encoding
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/// \details DEREncodeTextString() can be used for UTF8_STRING, PRINTABLE_STRING, and IA5_STRING
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/// \since Crypto++ 8.3
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CRYPTOPP_DLL size_t CRYPTOPP_API DEREncodeTextString(BufferedTransformation &bt, const SecByteBlock &str, byte asnTag);
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/// \brief DER encode text string
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/// \param bt BufferedTransformation object for writing
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/// \param str the string to encode
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/// \param asnTag the ASN.1 identifier
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/// \return the number of octets used for the encoding
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/// \details DEREncodeTextString() can be used for UTF8_STRING, PRINTABLE_STRING, and IA5_STRING
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/// \since Crypto++ 6.0
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CRYPTOPP_DLL size_t CRYPTOPP_API DEREncodeTextString(BufferedTransformation &bt, const std::string &str, byte asnTag);
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/// \brief BER decode text string
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/// \param bt BufferedTransformation object for reading
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/// \param str the string to decode
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/// \param asnTag the ASN.1 identifier
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/// \details BERDecodeTextString() can be used for UTF8_STRING, PRINTABLE_STRING, and IA5_STRING
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/// \since Crypto++ 8.3
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CRYPTOPP_DLL size_t CRYPTOPP_API BERDecodeTextString(BufferedTransformation &bt, SecByteBlock &str, byte asnTag);
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/// \brief BER decode text string
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/// \param bt BufferedTransformation object for reading
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/// \param str the string to decode
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/// \param asnTag the ASN.1 identifier
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/// \details BERDecodeTextString() can be used for UTF8_STRING, PRINTABLE_STRING, and IA5_STRING
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/// \since Crypto++ 6.0
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CRYPTOPP_DLL size_t CRYPTOPP_API BERDecodeTextString(BufferedTransformation &bt, std::string &str, byte asnTag);
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/// \brief DER encode date
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/// \param bt BufferedTransformation object for writing
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/// \param str the date to encode
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/// \param asnTag the ASN.1 identifier
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/// \return the number of octets used for the encoding
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/// \details BERDecodeDate() can be used for UTC_TIME and GENERALIZED_TIME
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/// \since Crypto++ 8.3
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CRYPTOPP_DLL size_t CRYPTOPP_API DEREncodeDate(BufferedTransformation &bt, const SecByteBlock &str, byte asnTag);
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/// \brief BER decode date
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/// \param bt BufferedTransformation object for reading
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/// \param str the date to decode
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/// \param asnTag the ASN.1 identifier
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/// \details BERDecodeDate() can be used for UTC_TIME and GENERALIZED_TIME
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/// \since Crypto++ 8.3
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CRYPTOPP_DLL size_t CRYPTOPP_API BERDecodeDate(BufferedTransformation &bt, SecByteBlock &str, byte asnTag);
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/// \brief DER encode bit string
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/// \param bt BufferedTransformation object for writing
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/// \param str the string to encode
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/// \param strLen the length of the string
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/// \param unusedBits the number of unused bits
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/// \return the number of octets used for the encoding
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/// \details The caller is responsible for shifting octets if unusedBits is
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/// not 0. For example, to DER encode a web server X.509 key usage, the 101b
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/// bit mask is often used (digitalSignature and keyEncipherment). In this
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/// case <tt>str</tt> is one octet with a value=0xa0 and unusedBits=5. The
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/// value 0xa0 is <tt>101b << 5</tt>.
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CRYPTOPP_DLL size_t CRYPTOPP_API DEREncodeBitString(BufferedTransformation &bt, const byte *str, size_t strLen, unsigned int unusedBits=0);
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/// \brief DER decode bit string
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/// \param bt BufferedTransformation object for reading
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/// \param str the decoded string
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/// \param unusedBits the number of unused bits
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/// \details The caller is responsible for shifting octets if unusedBits is
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/// not 0. For example, to DER encode a web server X.509 key usage, the 101b
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/// bit mask is often used (digitalSignature and keyEncipherment). In this
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/// case <tt>str</tt> is one octet with a value=0xa0 and unusedBits=5. The
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/// value 0xa0 is <tt>101b << 5</tt>.
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CRYPTOPP_DLL size_t CRYPTOPP_API BERDecodeBitString(BufferedTransformation &bt, SecByteBlock &str, unsigned int &unusedBits);
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/// \brief BER decode and DER re-encode
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/// \param bt BufferedTransformation object for writing
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/// \param dest BufferedTransformation object
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CRYPTOPP_DLL void CRYPTOPP_API DERReencode(BufferedTransformation &bt, BufferedTransformation &dest);
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/// \brief BER decode size
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/// \param bt BufferedTransformation object for reading
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/// \return the length of the ASN.1 value, in bytes
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/// \details BERDecodePeekLength() determines the length of a value without
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/// consuming octets in the stream. The stream must use definite length encoding.
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/// If indefinite length encoding is used or an error occurs, then 0 is returned.
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/// \since Crypto++ 8.3
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CRYPTOPP_DLL size_t CRYPTOPP_API BERDecodePeekLength(const BufferedTransformation &bt);
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/// \brief Object Identifier
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class CRYPTOPP_DLL OID
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{
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public:
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virtual ~OID() {}
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/// \brief Construct an OID
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OID() {}
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/// \brief Construct an OID
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/// \param v value to initialize the OID
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OID(word32 v) : m_values(1, v) {}
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/// \brief Construct an OID
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/// \param bt BufferedTransformation object
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OID(BufferedTransformation &bt) {
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BERDecode(bt);
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}
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/// \brief Append a value to an OID
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/// \param rhs the value to append
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inline OID & operator+=(word32 rhs) {
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m_values.push_back(rhs); return *this;
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}
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/// \brief DER encode this OID
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/// \param bt BufferedTransformation object
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void DEREncode(BufferedTransformation &bt) const;
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/// \brief BER decode an OID
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/// \param bt BufferedTransformation object
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void BERDecode(BufferedTransformation &bt);
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/// \brief BER decode an OID
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/// \param bt BufferedTransformation object
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/// \throw BERDecodeErr() if decoded value doesn't match an expected OID
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/// \details BERDecodeAndCheck() can be used to parse an OID and verify it matches an expected.
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/// <pre>
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/// BERSequenceDecoder key(bt);
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/// ...
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/// BERSequenceDecoder algorithm(key);
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/// GetAlgorithmID().BERDecodeAndCheck(algorithm);
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/// </pre>
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void BERDecodeAndCheck(BufferedTransformation &bt) const;
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/// \brief Determine if OID is empty
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/// \return true if OID has 0 elements, false otherwise
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/// \since Crypto++ 8.0
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bool Empty() const {
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return m_values.empty();
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}
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/// \brief Retrieve OID value array
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/// \return OID value vector
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/// \since Crypto++ 8.0
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const std::vector<word32>& GetValues() const {
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return m_values;
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}
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/// \brief Print an OID
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/// \param out ostream object
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/// \return ostream reference
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/// \details Print() writes the OID in a customary format, like
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/// 1.2.840.113549.1.1.11. The caller is reposnsible to convert the
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/// OID to a friendly name, like sha256WithRSAEncryption.
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/// \since Crypto++ 8.3
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std::ostream& Print(std::ostream& out) const;
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protected:
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friend bool operator==(const OID &lhs, const OID &rhs);
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friend bool operator!=(const OID &lhs, const OID &rhs);
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friend bool operator<(const OID &lhs, const OID &rhs);
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friend bool operator<=(const OID &lhs, const OID &rhs);
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friend bool operator>=(const OID &lhs, const OID &rhs);
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std::vector<word32> m_values;
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private:
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static void EncodeValue(BufferedTransformation &bt, word32 v);
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static size_t DecodeValue(BufferedTransformation &bt, word32 &v);
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};
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/// \brief ASN.1 encoded object filter
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class EncodedObjectFilter : public Filter
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{
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public:
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enum Flag {PUT_OBJECTS=1, PUT_MESSANGE_END_AFTER_EACH_OBJECT=2, PUT_MESSANGE_END_AFTER_ALL_OBJECTS=4, PUT_MESSANGE_SERIES_END_AFTER_ALL_OBJECTS=8};
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enum State {IDENTIFIER, LENGTH, BODY, TAIL, ALL_DONE} m_state;
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virtual ~EncodedObjectFilter() {}
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/// \brief Construct an EncodedObjectFilter
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/// \param attachment a BufferedTrasformation to attach to this object
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/// \param nObjects the number of objects
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/// \param flags bitwise OR of EncodedObjectFilter::Flag
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EncodedObjectFilter(BufferedTransformation *attachment = NULLPTR, unsigned int nObjects = 1, word32 flags = 0);
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/// \brief Input a byte buffer for processing
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/// \param inString the byte buffer to process
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/// \param length the size of the string, in bytes
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void Put(const byte *inString, size_t length);
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unsigned int GetNumberOfCompletedObjects() const {return m_nCurrentObject;}
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unsigned long GetPositionOfObject(unsigned int i) const {return m_positions[i];}
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private:
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BufferedTransformation & CurrentTarget();
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ByteQueue m_queue;
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std::vector<unsigned int> m_positions;
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lword m_lengthRemaining;
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word32 m_nObjects, m_nCurrentObject, m_level, m_flags;
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byte m_id;
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};
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/// \brief BER General Decoder
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class CRYPTOPP_DLL BERGeneralDecoder : public Store
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{
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public:
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/// \brief Default ASN.1 tag
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enum {DefaultTag = SEQUENCE | CONSTRUCTED};
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virtual ~BERGeneralDecoder();
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/// \brief Construct an ASN.1 decoder
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/// \param inQueue input byte queue
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/// \details BERGeneralDecoder uses DefaultTag
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explicit BERGeneralDecoder(BufferedTransformation &inQueue);
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/// \brief Construct an ASN.1 decoder
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/// \param inQueue input byte queue
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/// \param asnTag ASN.1 tag
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explicit BERGeneralDecoder(BufferedTransformation &inQueue, byte asnTag);
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/// \brief Construct an ASN.1 decoder
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/// \param inQueue input byte queue
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/// \param asnTag ASN.1 tag
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explicit BERGeneralDecoder(BERGeneralDecoder &inQueue, byte asnTag);
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/// \brief Determine length encoding
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/// \return true if the ASN.1 object is definite length encoded, false otherwise
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bool IsDefiniteLength() const {
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return m_definiteLength;
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}
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/// \brief Determine remaining length
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/// \return number of octets that remain to be consumed
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/// \details RemainingLength() is only valid if IsDefiniteLength()
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/// returns true.
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lword RemainingLength() const {
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CRYPTOPP_ASSERT(m_definiteLength);
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return IsDefiniteLength() ? m_length : 0;
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}
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/// \brief Determine end of stream
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/// \return true if all octets have been consumed, false otherwise
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bool EndReached() const;
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/// \brief Determine next octet
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/// \return next octet in the stream
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/// \details PeekByte does not consume the octet.
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/// \throw BERDecodeError if there are no octets remaining
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byte PeekByte() const;
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/// \brief Determine next octet
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/// \details CheckByte reads the next byte in the stream and verifies
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/// the octet matches b.
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/// \throw BERDecodeError if the next octet is not b
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void CheckByte(byte b);
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/// \brief Transfer bytes to another BufferedTransformation
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/// \param target the destination BufferedTransformation
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/// \param transferBytes the number of bytes to transfer
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/// \param channel the channel on which the transfer should occur
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/// \param blocking specifies whether the object should block when
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/// processing input
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/// \return the number of bytes that remain in the transfer block
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/// (i.e., bytes not transferred)
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/// \details TransferTo2() removes bytes and moves
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/// them to the destination. Transfer begins at the index position
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/// in the current stream, and not from an absolute position in the
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/// stream.
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/// \details transferBytes is an \a IN and \a OUT parameter. When
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/// the call is made, transferBytes is the requested size of the
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/// transfer. When the call returns, transferBytes is the number
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/// of bytes that were transferred.
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size_t TransferTo2(BufferedTransformation &target, lword &transferBytes, const std::string &channel=DEFAULT_CHANNEL, bool blocking=true);
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/// \brief Copy bytes to another BufferedTransformation
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/// \param target the destination BufferedTransformation
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/// \param begin the 0-based index of the first byte to copy in
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/// the stream
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|
/// \param end the 0-based index of the last byte to copy in
|
|
/// the stream
|
|
/// \param channel the channel on which the transfer should occur
|
|
/// \param blocking specifies whether the object should block when
|
|
/// processing input
|
|
/// \return the number of bytes that remain in the copy block
|
|
/// (i.e., bytes not copied)
|
|
/// \details CopyRangeTo2 copies bytes to the
|
|
/// destination. The bytes are not removed from this object. Copying
|
|
/// begins at the index position in the current stream, and not from
|
|
/// an absolute position in the stream.
|
|
/// \details begin is an \a IN and \a OUT parameter. When the call is
|
|
/// made, begin is the starting position of the copy. When the call
|
|
/// returns, begin is the position of the first byte that was \a not
|
|
/// copied (which may be different than end). begin can be used for
|
|
/// subsequent calls to CopyRangeTo2().
|
|
size_t CopyRangeTo2(BufferedTransformation &target, lword &begin, lword end=LWORD_MAX, const std::string &channel=DEFAULT_CHANNEL, bool blocking=true) const;
|
|
|
|
/// \brief Signals the end of messages to the object
|
|
/// \details Call this to denote end of sequence
|
|
void MessageEnd();
|
|
|
|
protected:
|
|
BufferedTransformation &m_inQueue;
|
|
lword m_length;
|
|
bool m_finished, m_definiteLength;
|
|
|
|
private:
|
|
void Init(byte asnTag);
|
|
void StoreInitialize(const NameValuePairs ¶meters)
|
|
{CRYPTOPP_UNUSED(parameters); CRYPTOPP_ASSERT(false);}
|
|
lword ReduceLength(lword delta);
|
|
};
|
|
|
|
/// \brief DER General Encoder
|
|
class CRYPTOPP_DLL DERGeneralEncoder : public ByteQueue
|
|
{
|
|
public:
|
|
/// \brief Default ASN.1 tag
|
|
enum {DefaultTag = SEQUENCE | CONSTRUCTED};
|
|
|
|
virtual ~DERGeneralEncoder();
|
|
|
|
/// \brief Construct an ASN.1 encoder
|
|
/// \param outQueue output byte queue
|
|
/// \details DERGeneralEncoder uses DefaultTag
|
|
explicit DERGeneralEncoder(BufferedTransformation &outQueue);
|
|
|
|
/// \brief Construct an ASN.1 encoder
|
|
/// \param outQueue output byte queue
|
|
/// \param asnTag ASN.1 tag
|
|
explicit DERGeneralEncoder(BufferedTransformation &outQueue, byte asnTag);
|
|
|
|
/// \brief Construct an ASN.1 encoder
|
|
/// \param outQueue output byte queue
|
|
/// \param asnTag ASN.1 tag
|
|
explicit DERGeneralEncoder(DERGeneralEncoder &outQueue, byte asnTag);
|
|
|
|
/// \brief Signals the end of messages to the object
|
|
/// \details Call this to denote end of sequence
|
|
void MessageEnd();
|
|
|
|
private:
|
|
BufferedTransformation &m_outQueue;
|
|
byte m_asnTag;
|
|
bool m_finished;
|
|
};
|
|
|
|
/// \brief BER Sequence Decoder
|
|
class CRYPTOPP_DLL BERSequenceDecoder : public BERGeneralDecoder
|
|
{
|
|
public:
|
|
/// \brief Default ASN.1 tag
|
|
enum {DefaultTag = SEQUENCE | CONSTRUCTED};
|
|
|
|
/// \brief Construct an ASN.1 decoder
|
|
/// \param inQueue input byte queue
|
|
/// \details BERSequenceDecoder uses DefaultTag
|
|
explicit BERSequenceDecoder(BufferedTransformation &inQueue)
|
|
: BERGeneralDecoder(inQueue, DefaultTag) {}
|
|
|
|
/// \brief Construct an ASN.1 decoder
|
|
/// \param inQueue input byte queue
|
|
/// \param asnTag ASN.1 tag
|
|
explicit BERSequenceDecoder(BufferedTransformation &inQueue, byte asnTag)
|
|
: BERGeneralDecoder(inQueue, asnTag) {}
|
|
|
|
/// \brief Construct an ASN.1 decoder
|
|
/// \param inQueue input byte queue
|
|
/// \details BERSequenceDecoder uses DefaultTag
|
|
explicit BERSequenceDecoder(BERSequenceDecoder &inQueue)
|
|
: BERGeneralDecoder(inQueue, DefaultTag) {}
|
|
|
|
/// \brief Construct an ASN.1 decoder
|
|
/// \param inQueue input byte queue
|
|
/// \param asnTag ASN.1 tag
|
|
explicit BERSequenceDecoder(BERSequenceDecoder &inQueue, byte asnTag)
|
|
: BERGeneralDecoder(inQueue, asnTag) {}
|
|
};
|
|
|
|
/// \brief DER Sequence Encoder
|
|
class CRYPTOPP_DLL DERSequenceEncoder : public DERGeneralEncoder
|
|
{
|
|
public:
|
|
/// \brief Default ASN.1 tag
|
|
enum {DefaultTag = SEQUENCE | CONSTRUCTED};
|
|
|
|
/// \brief Construct an ASN.1 encoder
|
|
/// \param outQueue output byte queue
|
|
/// \details DERSequenceEncoder uses DefaultTag
|
|
explicit DERSequenceEncoder(BufferedTransformation &outQueue)
|
|
: DERGeneralEncoder(outQueue, DefaultTag) {}
|
|
|
|
/// \brief Construct an ASN.1 encoder
|
|
/// \param outQueue output byte queue
|
|
/// \param asnTag ASN.1 tag
|
|
explicit DERSequenceEncoder(BufferedTransformation &outQueue, byte asnTag)
|
|
: DERGeneralEncoder(outQueue, asnTag) {}
|
|
|
|
/// \brief Construct an ASN.1 encoder
|
|
/// \param outQueue output byte queue
|
|
/// \details DERSequenceEncoder uses DefaultTag
|
|
explicit DERSequenceEncoder(DERSequenceEncoder &outQueue)
|
|
: DERGeneralEncoder(outQueue, DefaultTag) {}
|
|
|
|
/// \brief Construct an ASN.1 encoder
|
|
/// \param outQueue output byte queue
|
|
/// \param asnTag ASN.1 tag
|
|
explicit DERSequenceEncoder(DERSequenceEncoder &outQueue, byte asnTag)
|
|
: DERGeneralEncoder(outQueue, asnTag) {}
|
|
};
|
|
|
|
/// \brief BER Set Decoder
|
|
class CRYPTOPP_DLL BERSetDecoder : public BERGeneralDecoder
|
|
{
|
|
public:
|
|
/// \brief Default ASN.1 tag
|
|
enum {DefaultTag = SET | CONSTRUCTED};
|
|
|
|
/// \brief Construct an ASN.1 decoder
|
|
/// \param inQueue input byte queue
|
|
/// \details BERSetDecoder uses DefaultTag
|
|
explicit BERSetDecoder(BufferedTransformation &inQueue)
|
|
: BERGeneralDecoder(inQueue, DefaultTag) {}
|
|
|
|
/// \brief Construct an ASN.1 decoder
|
|
/// \param inQueue input byte queue
|
|
/// \param asnTag ASN.1 tag
|
|
explicit BERSetDecoder(BufferedTransformation &inQueue, byte asnTag)
|
|
: BERGeneralDecoder(inQueue, asnTag) {}
|
|
|
|
/// \brief Construct an ASN.1 decoder
|
|
/// \param inQueue input byte queue
|
|
/// \details BERSetDecoder uses DefaultTag
|
|
explicit BERSetDecoder(BERSetDecoder &inQueue)
|
|
: BERGeneralDecoder(inQueue, DefaultTag) {}
|
|
|
|
/// \brief Construct an ASN.1 decoder
|
|
/// \param inQueue input byte queue
|
|
/// \param asnTag ASN.1 tag
|
|
explicit BERSetDecoder(BERSetDecoder &inQueue, byte asnTag)
|
|
: BERGeneralDecoder(inQueue, asnTag) {}
|
|
};
|
|
|
|
/// \brief DER Set Encoder
|
|
class CRYPTOPP_DLL DERSetEncoder : public DERGeneralEncoder
|
|
{
|
|
public:
|
|
/// \brief Default ASN.1 tag
|
|
enum {DefaultTag = SET | CONSTRUCTED};
|
|
|
|
/// \brief Construct an ASN.1 encoder
|
|
/// \param outQueue output byte queue
|
|
/// \details DERSetEncoder uses DefaultTag
|
|
explicit DERSetEncoder(BufferedTransformation &outQueue)
|
|
: DERGeneralEncoder(outQueue, DefaultTag) {}
|
|
|
|
/// \brief Construct an ASN.1 encoder
|
|
/// \param outQueue output byte queue
|
|
/// \param asnTag ASN.1 tag
|
|
explicit DERSetEncoder(BufferedTransformation &outQueue, byte asnTag)
|
|
: DERGeneralEncoder(outQueue, asnTag) {}
|
|
|
|
/// \brief Construct an ASN.1 encoder
|
|
/// \param outQueue output byte queue
|
|
/// \details DERSetEncoder uses DefaultTag
|
|
explicit DERSetEncoder(DERSetEncoder &outQueue)
|
|
: DERGeneralEncoder(outQueue, DefaultTag) {}
|
|
|
|
/// \brief Construct an ASN.1 encoder
|
|
/// \param outQueue output byte queue
|
|
/// \param asnTag ASN.1 tag
|
|
explicit DERSetEncoder(DERSetEncoder &outQueue, byte asnTag)
|
|
: DERGeneralEncoder(outQueue, asnTag) {}
|
|
};
|
|
|
|
/// \brief Optional data encoder and decoder
|
|
/// \tparam T class or type
|
|
template <class T>
|
|
class ASNOptional : public member_ptr<T>
|
|
{
|
|
public:
|
|
/// \brief BER decode optional data
|
|
/// \param seqDecoder sequence with the optional ASN.1 data
|
|
/// \param tag ASN.1 tag to match as optional data
|
|
/// \param mask the mask to apply when matching the tag
|
|
/// \sa ASNTag and ASNIdFlag
|
|
void BERDecode(BERSequenceDecoder &seqDecoder, byte tag, byte mask = ~CONSTRUCTED)
|
|
{
|
|
byte b;
|
|
if (seqDecoder.Peek(b) && (b & mask) == tag)
|
|
reset(new T(seqDecoder));
|
|
}
|
|
|
|
/// \brief DER encode optional data
|
|
/// \param out BufferedTransformation object
|
|
void DEREncode(BufferedTransformation &out)
|
|
{
|
|
if (this->get() != NULLPTR)
|
|
this->get()->DEREncode(out);
|
|
}
|
|
};
|
|
|
|
/// \brief Encode and decode ASN.1 objects with additional information
|
|
/// \tparam BASE base class or type
|
|
/// \details Encodes and decodes public keys, private keys and group
|
|
/// parameters with OID identifying the algorithm or scheme.
|
|
template <class BASE>
|
|
class CRYPTOPP_DLL CRYPTOPP_NO_VTABLE ASN1CryptoMaterial : public ASN1Object, public BASE
|
|
{
|
|
public:
|
|
/// \brief DER encode ASN.1 object
|
|
/// \param bt BufferedTransformation object
|
|
/// \details Save() will write the OID associated with algorithm or scheme.
|
|
/// In the case of public and private keys, this function writes the
|
|
/// subjectPubicKeyInfo and privateKeyInfo parts.
|
|
void Save(BufferedTransformation &bt) const
|
|
{BEREncode(bt);}
|
|
|
|
/// \brief BER decode ASN.1 object
|
|
/// \param bt BufferedTransformation object
|
|
void Load(BufferedTransformation &bt)
|
|
{BERDecode(bt);}
|
|
};
|
|
|
|
/// \brief Encodes and decodes subjectPublicKeyInfo
|
|
class CRYPTOPP_DLL X509PublicKey : public ASN1CryptoMaterial<PublicKey>
|
|
{
|
|
public:
|
|
virtual ~X509PublicKey() {}
|
|
|
|
void BERDecode(BufferedTransformation &bt);
|
|
void DEREncode(BufferedTransformation &bt) const;
|
|
|
|
/// \brief Retrieves the OID of the algorithm
|
|
/// \return OID of the algorithm
|
|
virtual OID GetAlgorithmID() const =0;
|
|
|
|
/// \brief Decode algorithm parameters
|
|
/// \param bt BufferedTransformation object
|
|
/// \sa BERDecodePublicKey, <A HREF="http://www.ietf.org/rfc/rfc2459.txt">RFC
|
|
/// 2459, section 7.3.1</A>
|
|
virtual bool BERDecodeAlgorithmParameters(BufferedTransformation &bt)
|
|
{BERDecodeNull(bt); return false;}
|
|
|
|
/// \brief Encode algorithm parameters
|
|
/// \param bt BufferedTransformation object
|
|
/// \sa DEREncodePublicKey, <A HREF="http://www.ietf.org/rfc/rfc2459.txt">RFC
|
|
/// 2459, section 7.3.1</A>
|
|
virtual bool DEREncodeAlgorithmParameters(BufferedTransformation &bt) const
|
|
{DEREncodeNull(bt); return false;}
|
|
|
|
/// \brief Decode subjectPublicKey part of subjectPublicKeyInfo
|
|
/// \param bt BufferedTransformation object
|
|
/// \param parametersPresent flag indicating if algorithm parameters are present
|
|
/// \param size number of octets to read for the parameters, in bytes
|
|
/// \details BERDecodePublicKey() the decodes subjectPublicKey part of
|
|
/// subjectPublicKeyInfo, without the BIT STRING header.
|
|
/// \details When <tt>parametersPresent = true</tt> then BERDecodePublicKey() calls
|
|
/// BERDecodeAlgorithmParameters() to parse algorithm parameters.
|
|
/// \sa BERDecodeAlgorithmParameters
|
|
virtual void BERDecodePublicKey(BufferedTransformation &bt, bool parametersPresent, size_t size) =0;
|
|
|
|
/// \brief Encode subjectPublicKey part of subjectPublicKeyInfo
|
|
/// \param bt BufferedTransformation object
|
|
/// \details DEREncodePublicKey() encodes the subjectPublicKey part of
|
|
/// subjectPublicKeyInfo, without the BIT STRING header.
|
|
/// \sa DEREncodeAlgorithmParameters
|
|
virtual void DEREncodePublicKey(BufferedTransformation &bt) const =0;
|
|
};
|
|
|
|
/// \brief Encodes and Decodes privateKeyInfo
|
|
class CRYPTOPP_DLL PKCS8PrivateKey : public ASN1CryptoMaterial<PrivateKey>
|
|
{
|
|
public:
|
|
virtual ~PKCS8PrivateKey() {}
|
|
|
|
void BERDecode(BufferedTransformation &bt);
|
|
void DEREncode(BufferedTransformation &bt) const;
|
|
|
|
/// \brief Retrieves the OID of the algorithm
|
|
/// \return OID of the algorithm
|
|
virtual OID GetAlgorithmID() const =0;
|
|
|
|
/// \brief Decode optional parameters
|
|
/// \param bt BufferedTransformation object
|
|
/// \sa BERDecodePrivateKey, <A HREF="http://www.ietf.org/rfc/rfc2459.txt">RFC
|
|
/// 2459, section 7.3.1</A>
|
|
virtual bool BERDecodeAlgorithmParameters(BufferedTransformation &bt)
|
|
{BERDecodeNull(bt); return false;}
|
|
|
|
/// \brief Encode optional parameters
|
|
/// \param bt BufferedTransformation object
|
|
/// \sa DEREncodePrivateKey, <A HREF="http://www.ietf.org/rfc/rfc2459.txt">RFC
|
|
/// 2459, section 7.3.1</A>
|
|
virtual bool DEREncodeAlgorithmParameters(BufferedTransformation &bt) const
|
|
{DEREncodeNull(bt); return false;}
|
|
|
|
/// \brief Decode privateKey part of privateKeyInfo
|
|
/// \param bt BufferedTransformation object
|
|
/// \param parametersPresent flag indicating if algorithm parameters are present
|
|
/// \param size number of octets to read for the parameters, in bytes
|
|
/// \details BERDecodePrivateKey() the decodes privateKey part of privateKeyInfo,
|
|
/// without the OCTET STRING header.
|
|
/// \details When <tt>parametersPresent = true</tt> then BERDecodePrivateKey() calls
|
|
/// BERDecodeAlgorithmParameters() to parse algorithm parameters.
|
|
/// \sa BERDecodeAlgorithmParameters
|
|
virtual void BERDecodePrivateKey(BufferedTransformation &bt, bool parametersPresent, size_t size) =0;
|
|
|
|
/// \brief Encode privateKey part of privateKeyInfo
|
|
/// \param bt BufferedTransformation object
|
|
/// \details DEREncodePrivateKey() encodes the privateKey part of privateKeyInfo,
|
|
/// without the OCTET STRING header.
|
|
/// \sa DEREncodeAlgorithmParameters
|
|
virtual void DEREncodePrivateKey(BufferedTransformation &bt) const =0;
|
|
|
|
/// \brief Decode optional attributes
|
|
/// \param bt BufferedTransformation object
|
|
/// \details BERDecodeOptionalAttributes() decodes optional attributes including
|
|
/// context-specific tag.
|
|
/// \sa BERDecodeAlgorithmParameters, DEREncodeOptionalAttributes
|
|
/// \note default implementation stores attributes to be output using
|
|
/// DEREncodeOptionalAttributes
|
|
virtual void BERDecodeOptionalAttributes(BufferedTransformation &bt);
|
|
|
|
/// \brief Encode optional attributes
|
|
/// \param bt BufferedTransformation object
|
|
/// \details DEREncodeOptionalAttributes() encodes optional attributes including
|
|
/// context-specific tag.
|
|
/// \sa BERDecodeAlgorithmParameters
|
|
virtual void DEREncodeOptionalAttributes(BufferedTransformation &bt) const;
|
|
|
|
protected:
|
|
ByteQueue m_optionalAttributes;
|
|
};
|
|
|
|
// ********************************************************
|
|
|
|
/// \brief DER Encode unsigned value
|
|
/// \tparam T class or type
|
|
/// \param out BufferedTransformation object
|
|
/// \param w unsigned value to encode
|
|
/// \param asnTag the ASN.1 identifier
|
|
/// \details DEREncodeUnsigned() can be used with INTEGER, BOOLEAN, and ENUM
|
|
template <class T>
|
|
size_t DEREncodeUnsigned(BufferedTransformation &out, T w, byte asnTag = INTEGER)
|
|
{
|
|
byte buf[sizeof(w)+1];
|
|
unsigned int bc;
|
|
if (asnTag == BOOLEAN)
|
|
{
|
|
buf[sizeof(w)] = w ? 0xff : 0;
|
|
bc = 1;
|
|
}
|
|
else
|
|
{
|
|
buf[0] = 0;
|
|
for (unsigned int i=0; i<sizeof(w); i++)
|
|
buf[i+1] = byte(w >> (sizeof(w)-1-i)*8);
|
|
bc = sizeof(w);
|
|
while (bc > 1 && buf[sizeof(w)+1-bc] == 0)
|
|
--bc;
|
|
if (buf[sizeof(w)+1-bc] & 0x80)
|
|
++bc;
|
|
}
|
|
out.Put(asnTag);
|
|
size_t lengthBytes = DERLengthEncode(out, bc);
|
|
out.Put(buf+sizeof(w)+1-bc, bc);
|
|
return 1+lengthBytes+bc;
|
|
}
|
|
|
|
/// \brief BER Decode unsigned value
|
|
/// \tparam T fundamental C++ type
|
|
/// \param in BufferedTransformation object
|
|
/// \param w the decoded value
|
|
/// \param asnTag the ASN.1 identifier
|
|
/// \param minValue the minimum expected value
|
|
/// \param maxValue the maximum expected value
|
|
/// \throw BERDecodeErr() if the value cannot be parsed or the decoded value is not within range.
|
|
/// \details DEREncodeUnsigned() can be used with INTEGER, BOOLEAN, and ENUM
|
|
template <class T>
|
|
void BERDecodeUnsigned(BufferedTransformation &in, T &w, byte asnTag = INTEGER,
|
|
T minValue = 0, T maxValue = T(0xffffffff))
|
|
{
|
|
byte b;
|
|
if (!in.Get(b) || b != asnTag)
|
|
BERDecodeError();
|
|
|
|
size_t bc;
|
|
bool definite = BERLengthDecode(in, bc);
|
|
if (!definite)
|
|
BERDecodeError();
|
|
if (bc > in.MaxRetrievable()) // Issue 346
|
|
BERDecodeError();
|
|
if (asnTag == BOOLEAN && bc != 1) // X.690, 8.2.1
|
|
BERDecodeError();
|
|
if ((asnTag == INTEGER || asnTag == ENUMERATED) && bc == 0) // X.690, 8.3.1 and 8.4
|
|
BERDecodeError();
|
|
|
|
SecByteBlock buf(bc);
|
|
|
|
if (bc != in.Get(buf, bc))
|
|
BERDecodeError();
|
|
|
|
// This consumes leading 0 octets. According to X.690, 8.3.2, it could be non-conforming behavior.
|
|
// X.690, 8.3.2 says "the bits of the first octet and bit 8 of the second octet ... (a) shall
|
|
// not all be ones and (b) shall not all be zeros ... These rules ensure that an integer value
|
|
// is always encoded in the smallest possible number of octet".
|
|
// We invented AER (Alternate Encoding Rules), which is more relaxed than BER, CER, and DER.
|
|
const byte *ptr = buf;
|
|
while (bc > sizeof(w) && *ptr == 0)
|
|
{
|
|
bc--;
|
|
ptr++;
|
|
}
|
|
if (bc > sizeof(w))
|
|
BERDecodeError();
|
|
|
|
w = 0;
|
|
for (unsigned int i=0; i<bc; i++)
|
|
w = (w << 8) | ptr[i];
|
|
|
|
if (w < minValue || w > maxValue)
|
|
BERDecodeError();
|
|
}
|
|
|
|
#ifdef CRYPTOPP_DOXYGEN_PROCESSING
|
|
/// \brief Compare two OIDs for equality
|
|
/// \param lhs the first OID
|
|
/// \param rhs the second OID
|
|
/// \return true if the OIDs are equal, false otherwise
|
|
inline bool operator==(const OID &lhs, const OID &rhs);
|
|
/// \brief Compare two OIDs for inequality
|
|
/// \param lhs the first OID
|
|
/// \param rhs the second OID
|
|
/// \return true if the OIDs are not equal, false otherwise
|
|
inline bool operator!=(const OID &lhs, const OID &rhs);
|
|
/// \brief Compare two OIDs for ordering
|
|
/// \param lhs the first OID
|
|
/// \param rhs the second OID
|
|
/// \return true if the first OID is less than the second OID, false otherwise
|
|
/// \details operator<() calls std::lexicographical_compare() on each element in the array of values.
|
|
inline bool operator<(const OID &lhs, const OID &rhs);
|
|
/// \brief Compare two OIDs for ordering
|
|
/// \param lhs the first OID
|
|
/// \param rhs the second OID
|
|
/// \return true if the first OID is less than or equal to the second OID, false otherwise
|
|
/// \details operator<=() is implemented in terms of operator==() and operator<().
|
|
/// \since Crypto++ 8.3
|
|
inline bool operator<=(const OID &lhs, const OID &rhs);
|
|
/// \brief Compare two OIDs for ordering
|
|
/// \param lhs the first OID
|
|
/// \param rhs the second OID
|
|
/// \return true if the first OID is greater than or equal to the second OID, false otherwise
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/// \details operator>=() is implemented in terms of operator<().
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/// \since Crypto++ 8.3
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inline bool operator>=(const OID &lhs, const OID &rhs);
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/// \brief Append a value to an OID
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/// \param lhs the OID
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/// \param rhs the value to append
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inline OID operator+(const OID &lhs, unsigned long rhs);
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/// \brief Print a OID value
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/// \param out the output stream
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/// \param oid the OID
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inline std::ostream& operator<<(std::ostream& out, const OID &oid)
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{ return oid.Print(out); }
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#else
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inline bool operator==(const ::CryptoPP::OID &lhs, const ::CryptoPP::OID &rhs)
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{return lhs.m_values == rhs.m_values;}
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inline bool operator!=(const ::CryptoPP::OID &lhs, const ::CryptoPP::OID &rhs)
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{return lhs.m_values != rhs.m_values;}
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inline bool operator<(const ::CryptoPP::OID &lhs, const ::CryptoPP::OID &rhs)
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{return std::lexicographical_compare(lhs.m_values.begin(), lhs.m_values.end(), rhs.m_values.begin(), rhs.m_values.end());}
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inline bool operator<=(const ::CryptoPP::OID &lhs, const ::CryptoPP::OID &rhs)
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{return lhs<rhs || lhs==rhs;}
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inline bool operator>=(const ::CryptoPP::OID &lhs, const ::CryptoPP::OID &rhs)
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{return ! (lhs<rhs);}
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inline ::CryptoPP::OID operator+(const ::CryptoPP::OID &lhs, unsigned long rhs)
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{return ::CryptoPP::OID(lhs)+=rhs;}
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inline std::ostream& operator<<(std::ostream& out, const OID &oid)
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{ return oid.Print(out); }
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#endif
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NAMESPACE_END
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// Issue 340
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#if CRYPTOPP_GCC_DIAGNOSTIC_AVAILABLE
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# pragma GCC diagnostic pop
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#endif
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#endif
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