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NAME

       EVP_EncodeInit, EVP_EncodeUpdate, EVP_EncodeFinal, EVP_EncodeBlock,
       EVP_DecodeInit, EVP_DecodeUpdate, EVP_DecodeFinal, EVP_DecodeBlock -
       EVP base 64 encode/decode routines


SYNOPSIS

        #include <openssl/evp.h>

        void EVP_EncodeInit(EVP_ENCODE_CTX *ctx);
        void EVP_EncodeUpdate(EVP_ENCODE_CTX *ctx, unsigned char *out, int *outl,
                              const unsigned char *in, int inl);
        void EVP_EncodeFinal(EVP_ENCODE_CTX *ctx, unsigned char *out, int *outl);
        int EVP_EncodeBlock(unsigned char *t, const unsigned char *f, int n);

        void EVP_DecodeInit(EVP_ENCODE_CTX *ctx);
        int EVP_DecodeUpdate(EVP_ENCODE_CTX *ctx, unsigned char *out, int *outl,
                             const unsigned char *in, int inl);
        int EVP_DecodeFinal(EVP_ENCODE_CTX *ctx, unsigned
                            char *out, int *outl);
        int EVP_DecodeBlock(unsigned char *t, const unsigned char *f, int n);


DESCRIPTION

       The EVP encode routines provide a high level interface to base 64
       encoding and decoding. Base 64 encoding converts binary data into a
       printable form that uses the characters A-Z, a-z, 0-9, "+" and "/" to
       represent the data. For every 3 bytes of binary data provided 4 bytes
       of base 64 encoded data will be produced plus some occasional newlines
       (see below). If the input data length is not a multiple of 3 then the
       output data will be padded at the end using the "=" character.

       Encoding of binary data is performed in blocks of 48 input bytes (or
       less for the final block). For each 48 byte input block encoded 64
       bytes of base 64 data is output plus an additional newline character
       (i.e. 65 bytes in total). The final block (which may be less than 48
       bytes) will output 4 bytes for every 3 bytes of input. If the data
       length is not divisible by 3 then a full 4 bytes is still output for
       the final 1 or 2 bytes of input. Similarly a newline character will
       also be output.

       EVP_EncodeInit() initialises ctx for the start of a new encoding opera-
       tion.

       EVP_EncodeUpdate() encode inl bytes of data found in the buffer pointed
       to by in. The output is stored in the buffer out and the number of
       bytes output is stored in *outl. It is the caller's responsibility to
       ensure that the buffer at out is sufficiently large to accommodate the
       output data. Only full blocks of data (48 bytes) will be immediately
       processed and output by this function. Any remainder is held in the ctx
       object and will be processed by a subsequent call to EVP_EncodeUpdate()
       or EVP_EncodeFinal(). To calculate the required size of the output
       buffer add together the value of inl with the amount of unprocessed
       data held in ctx and divide the result by 48 (ignore any remainder).
       This gives the number of blocks of data that will be processed.  Ensure
       the output buffer contains 65 bytes of storage for each block, plus an
       additional byte for a NUL terminator. EVP_EncodeUpdate() may be called
       repeatedly to process large amounts of input data. In the event of an
       error EVP_EncodeUpdate() will set *outl to 0.

       EVP_EncodeFinal() must be called at the end of an encoding operation.
       It will process any partial block of data remaining in the ctx object.
       The output data will be stored in out and the length of the data writ-
       ten will be stored in *outl. It is the caller's responsibility to
       ensure that out is sufficiently large to accommodate the output data
       which will never be more than 65 bytes plus an additional NUL termina-
       tor (i.e. 66 bytes in total).

       EVP_EncodeBlock() encodes a full block of input data in f and of length
       dlen and stores it in t. For every 3 bytes of input provided 4 bytes of
       output data will be produced. If dlen is not divisible by 3 then the
       block is encoded as a final block of data and the output is padded such
       that it is always divisible by 4. Additionally a NUL terminator charac-
       ter will be added. For example if 16 bytes of input data is provided
       then 24 bytes of encoded data is created plus 1 byte for a NUL termina-
       tor (i.e. 25 bytes in total). The length of the data generated without
       the NUL terminator is returned from the function.

       EVP_DecodeInit() initialises ctx for the start of a new decoding opera-
       tion.

       EVP_DecodeUpdate() decodes inl characters of data found in the buffer
       pointed to by in. The output is stored in the buffer out and the number
       of bytes output is stored in *outl. It is the caller's responsibility
       to ensure that the buffer at out is sufficiently large to accommodate
       the output data. This function will attempt to decode as much data as
       possible in 4 byte chunks. Any whitespace, newline or carriage return
       characters are ignored. Any partial chunk of unprocessed data (1, 2 or
       3 bytes) that remains at the end will be held in the ctx object and
       processed by a subsequent call to EVP_DecodeUpdate(). If any illegal
       base 64 characters are encountered or if the base 64 padding character
       "=" is encountered in the middle of the data then the function returns
       -1 to indicate an error. A return value of 0 or 1 indicates successful
       processing of the data. A return value of 0 additionally indicates that
       the last input data characters processed included the base 64 padding
       character "=" and therefore no more non-padding character data is
       expected to be processed. For every 4 valid base 64 bytes processed
       (ignoring whitespace, carriage returns and line feeds), 3 bytes of
       binary output data will be produced (or less at the end of the data
       where the padding character "=" has been used).

       EVP_DecodeFinal() must be called at the end of a decoding operation. If
       there is any unprocessed data still in ctx then the input data must not
       have been a multiple of 4 and therefore an error has occurred. The
       function will return -1 in this case. Otherwise the function returns 1
       on success.

       EVP_DecodeBlock() will decode the block of n characters of base 64 data
       contained in f and store the result in t. Any leading whitespace will
       be trimmed as will any trailing whitespace, newlines, carriage returns
       or EOF characters. After such trimming the length of the data in f must
       be divisbile by 4. For every 4 input bytes exactly 3 output bytes will
       be produced. The output will be padded with 0 bits if necessary to
       ensure that the output is always 3 bytes for every 4 input bytes. This
       function will return the length of the data decoded or -1 on error.


RETURN VALUES

       EVP_EncodeBlock() returns the number of bytes encoded excluding the NUL
       terminator.

       EVP_DecodeUpdate() returns -1 on error and 0 or 1 on success. If 0 is
       returned then no more non-padding base 64 characters are expected.

       EVP_DecodeFinal() returns -1 on error or 1 on success.

       EVP_DecodeBlock() returns the length of the data decoded or -1 on
       error.


SEE ALSO

       evp(3)

1.0.2t                            2019-09-10                 EVP_EncodeInit(3)
See also EVP_DecodeBlock(3)
See also EVP_DecodeFinal(3)
See also EVP_DecodeUpdate(3)
See also EVP_EncodeBlock(3)
See also EVP_EncodeFinal(3)
See also EVP_EncodeInit(3)
See also EVP_EncodeUpdate(3)

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