1bio(3) OpenSSL bio(3)
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6 bio - I/O abstraction
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9 #include <openssl/bio.h>
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11 TBA
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14 A BIO is an I/O abstraction, it hides many of the underlying I/O
15 details from an application. If an application uses a BIO for its I/O
16 it can transparently handle SSL connections, unencrypted network
17 connections and file I/O.
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19 There are two type of BIO, a source/sink BIO and a filter BIO.
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21 As its name implies a source/sink BIO is a source and/or sink of data,
22 examples include a socket BIO and a file BIO.
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24 A filter BIO takes data from one BIO and passes it through to another,
25 or the application. The data may be left unmodified (for example a
26 message digest BIO) or translated (for example an encryption BIO). The
27 effect of a filter BIO may change according to the I/O operation it is
28 performing: for example an encryption BIO will encrypt data if it is
29 being written to and decrypt data if it is being read from.
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31 BIOs can be joined together to form a chain (a single BIO is a chain
32 with one component). A chain normally consist of one source/sink BIO
33 and one or more filter BIOs. Data read from or written to the first BIO
34 then traverses the chain to the end (normally a source/sink BIO).
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37 BIO_ctrl(3), BIO_f_base64(3), BIO_f_buffer(3), BIO_f_cipher(3),
38 BIO_f_md(3), BIO_f_null(3), BIO_f_ssl(3), BIO_find_type(3), BIO_new(3),
39 BIO_new_bio_pair(3), BIO_push(3), BIO_read(3), BIO_s_accept(3),
40 BIO_s_bio(3), BIO_s_connect(3), BIO_s_fd(3), BIO_s_file(3),
41 BIO_s_mem(3), BIO_s_null(3), BIO_s_socket(3), BIO_set_callback(3),
42 BIO_should_retry(3)
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