1bio(3) OpenSSL bio(3)
2
6 bio - I/O abstraction
7
9 #include <openssl/bio.h>
10 TBA
12
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.
18 There are two type of BIO, a source/sink BIO and a filter BIO.
20 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.
23 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.
30 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).
35
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)
431.0.2o 2018-03-27 bio(3)