xref: /freebsd/lib/libmd/sha512.3 (revision a5921bc3653e2e286715e6fe8d473ec0d02da38c)
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12.Dd October 17, 2015
13.Dt SHA512 3
14.Os
15.Sh NAME
16.Nm SHA512_Init ,
17.Nm SHA512_Update ,
18.Nm SHA512_Final ,
19.Nm SHA512_End ,
20.Nm SHA512_File ,
21.Nm SHA512_FileChunk ,
22.Nm SHA512_Data ,
23.Nm SHA384_Init ,
24.Nm SHA384_Update ,
25.Nm SHA384_Final ,
26.Nm SHA384_End ,
27.Nm SHA384_File ,
28.Nm SHA384_FileChunk ,
29.Nm SHA384_Data
30.Nd calculate the FIPS 180-4 ``SHA-512'' family of message digests
31.Sh LIBRARY
32.Lb libmd
33.Sh SYNOPSIS
34.In sys/types.h
35.In sha512.h
36.Ft void
37.Fn SHA512_Init "SHA512_CTX *context"
38.Ft void
39.Fn SHA512_Update "SHA512_CTX *context" "const unsigned char *data" "size_t len"
40.Ft void
41.Fn SHA512_Final "unsigned char digest[64]" "SHA512_CTX *context"
42.Ft "char *"
43.Fn SHA512_End "SHA512_CTX *context" "char *buf"
44.Ft "char *"
45.Fn SHA512_File "const char *filename" "char *buf"
46.Ft "char *"
47.Fn SHA512_FileChunk "const char *filename" "char *buf" "off_t offset" "off_t length"
48.Ft "char *"
49.Fn SHA512_Data "const unsigned char *data" "unsigned int len" "char *buf"
50.Ft void
51.Fn SHA384_Init "SHA384_CTX *context"
52.Ft void
53.Fn SHA384_Update "SHA384_CTX *context" "const unsigned char *data" "size_t len"
54.Ft void
55.Fn SHA384_Final "unsigned char digest[48]" "SHA384_CTX *context"
56.Ft "char *"
57.Fn SHA384_End "SHA384_CTX *context" "char *buf"
58.Ft "char *"
59.Fn SHA384_File "const char *filename" "char *buf"
60.Ft "char *"
61.Fn SHA384_FileChunk "const char *filename" "char *buf" "off_t offset" "off_t length"
62.Ft "char *"
63.Fn SHA384_Data "const unsigned char *data" "unsigned int len" "char *buf"
64.Sh DESCRIPTION
65The
66.Li SHA512_
67functions calculate a 512-bit cryptographic checksum (digest)
68for any number of input bytes.
69A cryptographic checksum is a one-way
70hash function; that is, it is computationally impractical to find
71the input corresponding to a particular output.
72This net result is
73a
74.Dq fingerprint
75of the input-data, which does not disclose the actual input.
76.Pp
77The
78.Fn SHA512_Init ,
79.Fn SHA512_Update ,
80and
81.Fn SHA512_Final
82functions are the core functions.
83Allocate an
84.Vt SHA512_CTX ,
85initialize it with
86.Fn SHA512_Init ,
87run over the data with
88.Fn SHA512_Update ,
89and finally extract the result using
90.Fn SHA512_Final .
91.Pp
92.Fn SHA512_End
93is a wrapper for
94.Fn SHA512_Final
95which converts the return value to a 65-character
96(including the terminating '\e0')
97.Tn ASCII
98string which represents the 512 bits in hexadecimal.
99.Pp
100.Fn SHA512_File
101calculates the digest of a file, and uses
102.Fn SHA512_End
103to return the result.
104If the file cannot be opened, a null pointer is returned.
105.Fn SHA512_FileChunk
106is similar to
107.Fn SHA512_File ,
108but it only calculates the digest over a byte-range of the file specified,
109starting at
110.Fa offset
111and spanning
112.Fa length
113bytes.
114If the
115.Fa length
116parameter is specified as 0, or more than the length of the remaining part
117of the file,
118.Fn SHA512_FileChunk
119calculates the digest from
120.Fa offset
121to the end of file.
122.Fn SHA512_Data
123calculates the digest of a chunk of data in memory, and uses
124.Fn SHA512_End
125to return the result.
126.Pp
127When using
128.Fn SHA512_End ,
129.Fn SHA512_File ,
130or
131.Fn SHA512_Data ,
132the
133.Fa buf
134argument can be a null pointer, in which case the returned string
135is allocated with
136.Xr malloc 3
137and subsequently must be explicitly deallocated using
138.Xr free 3
139after use.
140If the
141.Fa buf
142argument is non-null it must point to at least 65 characters of buffer space.
143.Pp
144The
145.Li SHA384_
146functions are identical to the
147.Li SHA512_
148functions except they use a different initial hash value and the output is
149truncated to 384 bits.
150.Pp
151.Fn SHA384_End
152is a wrapper for
153.Fn SHA384_Final
154which converts the return value to a 49-character
155(including the terminating '\e0')
156.Tn ASCII
157string which represents the 384 bits in hexadecimal.
158.Sh SEE ALSO
159.Xr md4 3 ,
160.Xr md5 3 ,
161.Xr ripemd 3 ,
162.Xr sha 3
163.Sh HISTORY
164These functions appeared in
165.Fx 9.0 .
166.Sh AUTHORS
167The core hash routines were implemented by Colin Percival based on
168the published
169.Tn FIPS 180-2
170standard.
171.Sh BUGS
172No method is known to exist which finds two files having the same hash value,
173nor to find a file with a specific hash value.
174There is on the other hand no guarantee that such a method does not exist.
175