.\" $OpenBSD: skey.3,v 1.16 2019/01/25 00:19:26 millert Exp $ .\" .\" Copyright (c) 2001 Todd C. Miller .\" .\" Permission to use, copy, modify, and distribute this software for any .\" purpose with or without fee is hereby granted, provided that the above .\" copyright notice and this permission notice appear in all copies. .\" .\" THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES .\" WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF .\" MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR .\" ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES .\" WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN .\" ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF .\" OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. .\" .Dd $Mdocdate: January 25 2019 $ .Dt SKEYLOOKUP 3 .Os .Sh NAME .Nm atob8 , .Nm backspace , .Nm btoa8 , .Nm btoe , .Nm etob , .Nm f , .Nm htoi , .Nm keycrunch , .Nm put8 , .Nm readpass , .Nm readskey , .Nm rip , .Nm sevenbit , .Nm skey_authenticate , .Nm skey_get_algorithm , .Nm skey_haskey , .Nm skey_keyinfo , .Nm skey_passcheck , .Nm skey_set_algorithm , .Nm skey_unlock , .Nm skeychallenge , .Nm skeychallenge2 , .Nm skeygetnext , .Nm skeylookup , .Nm skeyverify , .Nm skipspace .Nd S/Key library functions .Sh SYNOPSIS .In skey.h .Ft int .Fn atob8 "char *out" "char *in" .Ft void .Fn backspace "char *buf" .Ft int .Fn btoa8 "char *out" "char *in" .Ft char * .Fn btoe "char *engout" "char *c" .Ft int .Fn etob "char *out" "char *e" .Ft void .Fn f "char *x" .Ft int .Fn htoi "int h" .Ft int .Fn keycrunch "char *result" "char *seed" "char *passwd" .Ft char * .Fn put8 "char *out" "char *s" .Ft char * .Fn readpass "char *buf" "int n" .Ft char * .Fn readskey "char *buf" "int n" .Ft void .Fn rip "char *buf" .Ft void .Fn sevenbit "char *s" .Ft int .Fn skey_authenticate "char *user" .Ft const char * .Fn skey_get_algorithm "void" .Ft int .Fn skey_haskey "char *user" .Ft char * .Fn skey_keyinfo "char *user" .Ft int .Fn skey_passcheck "char *user" "char *passwd" .Ft char * .Fn skey_set_algorithm "char *new" .Ft int .Fn skey_unlock "struct skey *rec" .Ft int .Fn skeychallenge "struct skey *rec" "char *user" "char *buf" .Ft int .Fn skeychallenge2 "int fd" "struct skey *rec" "char *user" "char *buf" .Ft int .Fn skeygetnext "struct skey *rec" .Ft int .Fn skeylookup "struct skey *rec" "char *user" .Ft int .Fn skeyverify "struct skey *rec" "char *response" .Ft char * .Fn skipspace "char *" .Sh DESCRIPTION These functions implement the S/Key one time password authentication mechanism. .Pp The .Fn atob8 function converts the 16-byte hex string .Fa in to an 8-byte binary array stored in .Fa out . The .Fn atob8 function returns 0 on success and \-1 if an invalid hex character is encountered. .Pp The .Fn backspace function removes backspaced over characters from .Fa buf . Note that .Fn backspace assumes the actual backspace character is 0x8 (^H). .Pp The .Fn btoa8 function converts the 8-byte binary array .Fa in to a 16-byte string of hex digits stored in .Fa out ; the caller must supply enough space (17 bytes including the final NUL). The .Fn btoa8 function returns 0 on success and \-1 if an error occurred. .Pp The .Fn btoe function encodes the 8 bytes in .Fa c into a string of 6 English words, stored in .Fa engout . The caller must supply enough space (30 bytes including the final NUL) to store the words. The .Fn btoe function returns .Fa engout . .Pp The .Fn etob function converts the 6 English words in .Fa e into an 8-byte binary representation. The .Fn etob function returns 1 if the words are all in the database and parity is correct, 0 if a word is not in the database, \-1 if the number of words is incorrect, or \-2 if there is a parity error. .Pp The .Fn f function is a one-way hash that overwrites the 8-byte input buffer .Fa x with the hashed result. .Pp The .Fn htoi function converts a single hex digit .Fa h to an integer. The .Fn htoi function returns the converted integer on success or \-1 if .Fa h not a valid hex digit. .Pp The .Fn keycrunch function concatenates the .Fa seed and .Fa passwd , runs them through a hash function and collapses the .Fa result to 64 bits. The .Fn keycrunch function returns 0 on success or \-1 if there is a memory allocation failure. .Pp The .Fn put8 function converts the 8 bytes stored in .Fa s into a series of 4 16-bit hex digit stored in .Fa out . There must be at least 20 bytes (including the NUL) in the output buffer, .Fa out . The .Fn put8 function returns .Fa out . .Pp The .Fn readpass function reads up to .Fa n characters from standard input with echo turned off, converting the resulting string to 7 bits, storing the result in .Fa buf . The .Fn readpass function returns .Fa buf . .Pp The .Fn readskey function reads up to .Fa n characters from standard input with echo turned on, converting the resulting string to 7 bits, storing the result in .Fa buf . The .Fn readskey function returns .Fa buf . .Pp The .Fn rip function strips trailing linefeeds and carriage returns from .Fa buf . .Pp The .Fn sevenbit function strips the high bit from each character in .Fa s , converting the characters to seven bit ASCII. .Pp The .Fn skey_authenticate function presents the .Fa user with an S/Key challenge and authenticates the response. The .Fn skey_authenticate function returns 0 if authentication is successful or \-1 if not. .Pp The .Fn skey_get_algorithm function returns a string corresponding to the hash algorithm for the current user. The default algorithm is .Dq md5 . .Pp The .Fn skey_haskey function returns 0 if the .Fa user exists in the S/Key database, 1 if the user does not exist, or \-1 if there was an error reading the database. .Pp The .Fn skey_keyinfo function returns a string containing the current sequence number and seed for .Fa user . The returned string points to internal static storage that will be overwritten by subsequent calls to .Fn skey_keyinfo . .Pp The .Fn skey_passcheck function checks a .Fa user and .Fa passwd pair against the S/Key database. It returns 0 on successful authentication or \-1 on failure. .Pp The .Fn skey_set_algorithm function sets the user's hash algorithm based on the string .Fa new . The .Fn skey_set_algorithm function returns the specified algorithm if it is supported, or the null pointer if the hash algorithm is not supported. .Pp The .Fn skey_unlock function unlocks the record in the S/Key database specified by .Fa rec . The .Fn skey_unlock function returns 0 on success or \-1 on failure. Either way, the S/Key database is not closed nor is the database file pointer affected. .Pp The .Fn skeychallenge function stores the (potentially fake) S/Key challenge for .Fa user in .Fa buf , which is at least SKEY_MAX_CHALLENGE bytes long. It also fills in the skey struct .Fa rec and locks the user's record in the S/Key database. The .Fn skeychallenge function returns 0 on success or \-1 on failure. On success the S/Key database remains open and the read/write file pointer is set to the beginning of the record. .Pp The .Fn skeychallenge2 function is identical to .Fn skeychallenge except that instead of opening the user's entry in the S/Key database, the open file referenced by .Ar fd is used instead. When .Ar fd is \-1, the behavior is equivalent to .Fn skeychallenge . .Pp The .Fn skeygetnext function stores the next record in the S/Key database in .Fa rec and locks that record in the S/Key database. The .Fn skeygetnext function returns 0 on success, 1 if there are no more entries, or \-1 if there was an error accessing the S/Key database. The S/Key database remains open after a call to .Fn skeygetnext . If no error was encountered accessing the S/Key database, the read/write file pointer is set to the beginning of the record or at EOF if there are no more records. .br Because it exposes other users' S/Key records, only the superuser may use .Fn skeygetnext . .Pp The .Fn skeylookup function looks up the specified .Fa user in the S/Key database then fills in the skey struct .Fa rec and locks the user's record in the database. The .Fn skeylookup function returns 0 on success, 1 if .Fa user was not found, or \-1 if there was an error accessing the S/Key database. If no error was encountered accessing the S/Key database, the read/write file pointer is set to the beginning of the record. .Pp The .Fn skeyverify function verifies the user's .Fa response based on the S/Key record .Fa rec . It returns 0 on success (updating the database), 1 on failure, or \-1 if there was an error accessing the database. The database is always closed by a call to .Fn skeyverify . .Sh SEE ALSO .Xr skey 1 , .Xr skeyinit 1 .Sh STANDARDS There is no standard API for S/Key. The de facto standard is the free S/Key distribution released by Bellcore. .Pp The following functions are extensions and do not appear in the original Bellcore S/Key distribution: .Fn readskey , .Fn skey_authenticate , .Fn skey_get_algorithm , .Fn skey_haskey , .Fn skey_keyinfo , .Fn skey_passcheck , .Fn skey_set_algorithm , .Fn skey_unlock . .Pp S/Key is a Trademark of Bellcore.