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- .TH RSA 8
- .SH NAME
- rsagen, rsafill, asn12rsa, rsa2pub, rsa2ssh, rsa2x509 \- generate and format rsa keys
- .SH SYNOPSIS
- .B rsagen
- [
- .B -b
- .I nbits
- ]
- [
- .B -t
- .I tag
- ]
- .PP
- .B rsafill
- [
- .I file
- ]
- .PP
- .B asn12rsa
- [
- .B -t
- .I tag
- ]
- [
- .I file
- ]
- .PP
- .B rsa2pub
- [
- .I file
- ]
- .PP
- .B rsa2ssh
- [
- .I file
- ]
- .PP
- .B rsa2x509
- [
- .B -e
- .I expiretime
- ]
- .I certinfo
- [
- .I file
- ]
- .SH DESCRIPTION
- Plan 9 represents an RSA key as an attribute-value pair list
- prefixed with the string
- .BR key ;
- this is the generic key format used by
- .IR factotum (4).
- A full RSA private key has the following attributes:
- .TF proto
- .PD
- .TP
- .B proto
- must be
- .B rsa
- .TP
- .B size
- the number of significant bits in
- .B n
- .TP
- .B ek
- the encryption exponent
- .TP
- .B n
- the product of
- .B !p
- and
- .B !q
- .TP
- .B !dk
- the decryption exponent
- .TP
- .B !p
- a large prime
- .TP
- .B !q
- another large prime
- .TP
- .B "!kp\fR, \fL!kq\fR, \fL!c2
- parameters derived from the other attributes, cached to speed decryption
- .PD
- .LP
- All the numbers are in hexadecimal except
- .I size ,
- which is decimal.
- An RSA public key omits the attributes beginning with
- .L ! .
- A key may have other attributes as well (for example, a
- .B service
- attribute identifying how this key is typically used),
- but to these utilities such attributes are merely comments.
- .PP
- For example, a very small (and thus insecure) private key and corresponding
- public key might be:
- .IP
- .EX
- key proto=rsa size=8 ek=7 n=8F !dk=67 !p=B !q=D !kp=3 !kq=7 !c2=6
- key proto=rsa size=8 ek=7 n=8F
- .EE
- .LP
- Note that the order of the attributes does not matter.
- .PP
- .I Rsagen
- prints a randomly generated RSA private key
- whose
- .B n
- has exactly
- .I nbits
- (default 1024)
- significant bits.
- If
- .I tag
- is specified, it is printed between
- .B key
- and
- .BR proto=rsa ;
- typically,
- .I tag
- is a sequence of attribute-value comments describing the key.
- .PP
- .I Rsafill
- reads a private key,
- recomputes the
- .BR !kp ,
- .BR !kq ,
- and
- .BR !c2
- attributes if they are missing,
- and prints a full key.
- .PP
- .I Asn12rsa
- reads an RSA private key stored as ASN.1
- encoded in the binary Distinguished Encoding Rules (DER)
- and prints a Plan 9 RSA key,
- inserting
- .I tag
- exactly as
- .I rsagen
- does.
- ASN.1/DER is a popular key format on Unix and Windows;
- it is often encoded in text form using the Privacy Enhanced Mail (PEM) format
- in a section labeled as an
- .RB `` RSA
- .B PRIVATE
- .BR KEY .''
- The command:
- .IP
- .EX
- auth/pemdecode 'RSA PRIVATE KEY' | auth/asn12rsa
- .EE
- .LP
- extracts the key section from a textual ASN.1/DER/PEM key
- into binary ASN.1/DER format and then
- converts it to a Plan 9 RSA key.
- .PP
- .I Rsa2pub
- reads a Plan 9 RSA public or private key,
- removes the private attributes, and prints the resulting public key.
- Comment attributes are preserved.
- .PP
- .I Rsa2ssh
- reads a Plan 9 RSA public or private key and prints the public portion
- in the format used by SSH: three space-separated decimal numbers
- .BR size ,
- .BR ek ,
- and
- .BR n .
- For compatibility with external SSH implementations, the public keys in
- .B /sys/lib/ssh/keyring
- and
- .B $home/lib/keyring
- are stored in this format.
- .PP
- .I Rsa2x509
- reads a Plan 9 RSA private key and writes a self-signed X.509 certificate
- encoded in ASN.1/DER format to standard output.
- (Note that ASN.1/DER X.509 certificates are different from ASN.1/DER private keys).
- The certificate uses the current time as its start time and expires
- .I expiretime
- seconds
- (default 3 years)
- later.
- It contains the public half of the key
- and includes
- .I certinfo
- as the issuer/subject string (also known as a ``Distinguished Name'').
- This info is typically in the form:
- .IP
- .EX
- C=US ST=NJ L=07974 O=Lucent OU='Bell Labs' CN=G.R.Emlin
- .EE
- .LP
- The X.509 ASN.1/DER format is often encoded in text using a PEM section
- labeled as a
- .RB `` CERTIFICATE .''
- The command:
- .IP
- .EX
- auth/rsa2x509 'C=US OU=''Bell Labs''' file |
- auth/pemencode CERTIFICATE
- .EE
- .LP
- generates such a textual certificate.
- Applications that serve TLS-encrypted sessions (for example,
- .IR httpd (8),
- .IR pop3 (8),
- and
- .IR tlssrv (8))
- expect certificates in ASN.1/DER/PEM format.
- .SH EXAMPLES
- Generate a fresh key and use it to start a TLS-enabled web server:
- .IP
- .EX
- auth/rsagen -t 'service=tls owner=*' >key
- auth/rsa2x509 'C=US CN=*.cs.bell-labs.com' key |
- auth/pemencode CERTIFICATE >cert
- cat key >/mnt/factotum/ctl
- ip/httpd/httpd -c cert
- .EE
- .PP
- Generate a fresh key and configure a remote Unix system to
- allow use of that key for logins:
- .IP
- .EX
- auth/rsagen -t 'service=ssh' >key
- auth/rsa2ssh key | ssh unix 'cat >>.ssh/authorized_keys'
- cat key >/mnt/factotum/ctl
- ssh unix
- .EE
- .SH SOURCE
- .B /sys/src/cmd/auth
- .SH "SEE ALSO
- .IR factotum (4),
- .IR pem (8),
- .IR ssh (1)
- .SH BUGS
- There are too many key formats.
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