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diff --git a/easy-rsa/1.0/README b/easy-rsa/1.0/README new file mode 100644 index 0000000..fd424ef --- /dev/null +++ b/easy-rsa/1.0/README @@ -0,0 +1,161 @@ +This is a small RSA key management package, +based on the openssl command line tool, that +can be found in the easy-rsa subdirectory +of the OpenVPN distribution. + +These are reference notes. For step +by step instructions, see the HOWTO: + +http://openvpn.net/howto.html + +INSTALL + +1. Edit vars. +2. Set KEY_CONFIG to point to the openssl.cnf file + included in this distribution. +3. Set KEY_DIR to point to a directory which will + contain all keys, certificates, etc. This + directory need not exist, and if it does, + it will be deleted with rm -rf, so BE + CAREFUL how you set KEY_DIR. +4. (Optional) Edit other fields in vars + per your site data. You may want to + increase KEY_SIZE to 2048 if you are + paranoid and don't mind slower key + processing, but certainly 1024 is + fine for testing purposes. KEY_SIZE + must be compatible across both peers + participating in a secure SSL/TLS + connection. +5 . vars +6. ./clean-all +7. As you create certificates, keys, and + certificate signing requests, understand that + only .key files should be kept confidential. + .crt and .csr files can be sent over insecure + channels such as plaintext email. +8. You should never need to copy a .key file + between computers. Normally each computer + will have its own certificate/key pair. + +BUILD YOUR OWN ROOT CERTIFICATE AUTHORITY (CA) CERTIFICATE/KEY + +1. ./build-ca +2. ca.crt and ca.key will be built in your KEY_DIR + directory + +BUILD AN INTERMEDIATE CERTIFICATE AUTHORITY CERTIFICATE/KEY (optional) + +1. ./build-inter inter +2. inter.crt and inter.key will be built in your KEY_DIR + directory and signed with your root certificate. + +BUILD DIFFIE-HELLMAN PARAMETERS (necessary for +the server end of a SSL/TLS connection). + +1. ./build-dh + +BUILD A CERTIFICATE SIGNING REQUEST (If +you want to sign your certificate with a root +certificate controlled by another individual +or organization, or residing on a different machine). + +1. Get ca.crt (the root certificate) from your + certificate authority. Though this + transfer can be over an insecure channel, to prevent + man-in-the-middle attacks you must confirm that + ca.crt was not tampered with. Large CAs solve this + problem by hardwiring their root certificates into + popular web browsers. A simple way to verify a root + CA is to call the issuer on the telephone and confirm + that the md5sum or sha1sum signatures on the ca.crt + files match (such as with the command: "md5sum ca.crt"). +2. Choose a name for your certificate such as your computer + name. In our example we will use "mycert". +3. ./build-req mycert +4. You can ignore most of the fields, but set + "Common Name" to something unique such as your + computer's host name. Leave all password + fields blank, unless you want your private key + to be protected by password. Using a password + is not required -- it will make your key more secure + but also more inconvenient to use, because you will + need to supply your password anytime the key is used. + NOTE: if you are using a password, use ./build-req-pass + instead of ./build-req +5. Your key will be written to $KEY_DIR/mycert.key +6. Your certificate signing request will be written to + to $KEY_DIR/mycert.csr +7. Email mycert.csr to the individual or organization + which controls the root certificate. This can be + done over an insecure channel. +8. After the .csr file is signed by the root certificate + authority, you will receive a file mycert.crt + (your certificate). Place mycert.crt in your + KEY_DIR directory. +9. The combined files of mycert.crt, mycert.key, + and ca.crt can now be used to secure one end of + an SSL/TLS connection. + +SIGN A CERTIFICATE SIGNING REQUEST + +1. ./sign-req mycert +2. mycert.crt will be built in your KEY_DIR + directory using mycert.csr and your root CA + file as input. + +BUILD AND SIGN A CERTIFICATE SIGNING REQUEST +USING A LOCALLY INSTALLED ROOT CERTIFICATE/KEY -- this +script generates and signs a certificate in one step, +but it requires that the generated certificate and private +key files be copied to the destination host over a +secure channel. + +1. ./build-key mycert (no password protection) +2. OR ./build-key-pass mycert (with password protection) +3. OR ./build-key-pkcs12 mycert (PKCS #12 format) +4. OR ./build-key-server mycert (with nsCertType=server) +5. mycert.crt and mycert.key will be built in your + KEY_DIR directory, and mycert.crt will be signed + by your root CA. If ./build-key-pkcs12 was used a + mycert.p12 file will also be created including the + private key, certificate and the ca certificate. + +IMPORTANT + +To avoid a possible Man-in-the-Middle attack where an authorized +client tries to connect to another client by impersonating the +server, make sure to enforce some kind of server certificate +verification by clients. There are currently four different ways +of accomplishing this, listed in the order of preference: + +(1) Build your server certificates with the build-key-server + script. This will designate the certificate as a + server-only certificate by setting nsCertType=server. + Now add the following line to your client configuration: + + ns-cert-type server + + This will block clients from connecting to any + server which lacks the nsCertType=server designation + in its certificate, even if the certificate has been + signed by the CA which is cited in the OpenVPN configuration + file (--ca directive). + +(2) Use the --tls-remote directive on the client to + accept/reject the server connection based on the common + name of the server certificate. + +(3) Use a --tls-verify script or plugin to accept/reject the + server connection based on a custom test of the server + certificate's embedded X509 subject details. + +(4) Sign server certificates with one CA and client certificates + with a different CA. The client config "ca" directive should + reference the server-signing CA while the server config "ca" + directive should reference the client-signing CA. + +NOTES + +Show certificate fields: + openssl x509 -in cert.crt -text diff --git a/easy-rsa/1.0/build-ca b/easy-rsa/1.0/build-ca new file mode 100755 index 0000000..5ad59cc --- /dev/null +++ b/easy-rsa/1.0/build-ca @@ -0,0 +1,13 @@ +#!/bin/sh + +# +# Build a root certificate +# + +if test $KEY_DIR; then + cd $KEY_DIR && \ + openssl req -days 3650 -nodes -new -x509 -keyout ca.key -out ca.crt -config $KEY_CONFIG && \ + chmod 0600 ca.key +else + echo you must define KEY_DIR +fi diff --git a/easy-rsa/1.0/build-dh b/easy-rsa/1.0/build-dh new file mode 100755 index 0000000..6de4baf --- /dev/null +++ b/easy-rsa/1.0/build-dh @@ -0,0 +1,12 @@ +#!/bin/sh + +# +# Build Diffie-Hellman parameters for the server side +# of an SSL/TLS connection. +# + +if test $KEY_DIR; then + openssl dhparam -out ${KEY_DIR}/dh${KEY_SIZE}.pem ${KEY_SIZE} +else + echo you must define KEY_DIR +fi diff --git a/easy-rsa/1.0/build-inter b/easy-rsa/1.0/build-inter new file mode 100755 index 0000000..8b3a6b2 --- /dev/null +++ b/easy-rsa/1.0/build-inter @@ -0,0 +1,19 @@ +#!/bin/sh + +# +# Make an intermediate CA certificate/private key pair using a locally generated +# root certificate. +# + +if test $# -ne 1; then + echo "usage: build-inter <name>"; + exit 1 +fi + +if test $KEY_DIR; then + cd $KEY_DIR && \ + openssl req -days 3650 -nodes -new -keyout $1.key -out $1.csr -config $KEY_CONFIG && \ + openssl ca -extensions v3_ca -days 3650 -out $1.crt -in $1.csr -config $KEY_CONFIG +else + echo you must define KEY_DIR +fi diff --git a/easy-rsa/1.0/build-key b/easy-rsa/1.0/build-key new file mode 100755 index 0000000..3159d2b --- /dev/null +++ b/easy-rsa/1.0/build-key @@ -0,0 +1,20 @@ +#!/bin/sh + +# +# Make a certificate/private key pair using a locally generated +# root certificate. +# + +if test $# -ne 1; then + echo "usage: build-key <name>"; + exit 1 +fi + +if test $KEY_DIR; then + cd $KEY_DIR && \ + openssl req -days 3650 -nodes -new -keyout $1.key -out $1.csr -config $KEY_CONFIG && \ + openssl ca -days 3650 -out $1.crt -in $1.csr -config $KEY_CONFIG && \ + chmod 0600 $1.key +else + echo you must define KEY_DIR +fi diff --git a/easy-rsa/1.0/build-key-pass b/easy-rsa/1.0/build-key-pass new file mode 100755 index 0000000..03ab304 --- /dev/null +++ b/easy-rsa/1.0/build-key-pass @@ -0,0 +1,20 @@ +#!/bin/sh + +# +# Similar to build-key, but protect the private key +# with a password. +# + +if test $# -ne 1; then + echo "usage: build-key-pass <name>"; + exit 1 +fi + +if test $KEY_DIR; then + cd $KEY_DIR && \ + openssl req -days 3650 -new -keyout $1.key -out $1.csr -config $KEY_CONFIG && \ + openssl ca -days 3650 -out $1.crt -in $1.csr -config $KEY_CONFIG && \ + chmod 0600 $1.key +else + echo you must define KEY_DIR +fi diff --git a/easy-rsa/1.0/build-key-pkcs12 b/easy-rsa/1.0/build-key-pkcs12 new file mode 100755 index 0000000..f8a057b --- /dev/null +++ b/easy-rsa/1.0/build-key-pkcs12 @@ -0,0 +1,21 @@ +#!/bin/sh + +# +# Make a certificate/private key pair using a locally generated +# root certificate and convert it to a PKCS #12 file including the +# the CA certificate as well. + +if test $# -ne 1; then + echo "usage: build-key-pkcs12 <name>"; + exit 1 +fi + +if test $KEY_DIR; then + cd $KEY_DIR && \ + openssl req -days 3650 -nodes -new -keyout $1.key -out $1.csr -config $KEY_CONFIG && \ + openssl ca -days 3650 -out $1.crt -in $1.csr -config $KEY_CONFIG && \ + openssl pkcs12 -export -inkey $1.key -in $1.crt -certfile ca.crt -out $1.p12 && \ + chmod 0600 $1.key $1.p12 +else + echo you must define KEY_DIR +fi diff --git a/easy-rsa/1.0/build-key-server b/easy-rsa/1.0/build-key-server new file mode 100755 index 0000000..30dc41e --- /dev/null +++ b/easy-rsa/1.0/build-key-server @@ -0,0 +1,22 @@ +#!/bin/sh + +# +# Make a certificate/private key pair using a locally generated +# root certificate. +# +# Explicitly set nsCertType to server using the "server" +# extension in the openssl.cnf file. + +if test $# -ne 1; then + echo "usage: build-key-server <name>"; + exit 1 +fi + +if test $KEY_DIR; then + cd $KEY_DIR && \ + openssl req -days 3650 -nodes -new -keyout $1.key -out $1.csr -extensions server -config $KEY_CONFIG && \ + openssl ca -days 3650 -out $1.crt -in $1.csr -extensions server -config $KEY_CONFIG && \ + chmod 0600 $1.key +else + echo you must define KEY_DIR +fi diff --git a/easy-rsa/1.0/build-req b/easy-rsa/1.0/build-req new file mode 100755 index 0000000..30f62f5 --- /dev/null +++ b/easy-rsa/1.0/build-req @@ -0,0 +1,18 @@ +#!/bin/sh + +# +# Build a certificate signing request and private key. Use this +# when your root certificate and key is not available locally. +# + +if test $# -ne 1; then + echo "usage: build-req <name>"; + exit 1 +fi + +if test $KEY_DIR; then + cd $KEY_DIR && \ + openssl req -days 3650 -nodes -new -keyout $1.key -out $1.csr -config $KEY_CONFIG +else + echo you must define KEY_DIR +fi diff --git a/easy-rsa/1.0/build-req-pass b/easy-rsa/1.0/build-req-pass new file mode 100755 index 0000000..829b286 --- /dev/null +++ b/easy-rsa/1.0/build-req-pass @@ -0,0 +1,18 @@ +#!/bin/sh + +# +# Like build-req, but protect your private key +# with a password. +# + +if test $# -ne 1; then + echo "usage: build-req-pass <name>"; + exit 1 +fi + +if test $KEY_DIR; then + cd $KEY_DIR && \ + openssl req -days 3650 -new -keyout $1.key -out $1.csr -config $KEY_CONFIG +else + echo you must define KEY_DIR +fi diff --git a/easy-rsa/1.0/clean-all b/easy-rsa/1.0/clean-all new file mode 100755 index 0000000..d10aef5 --- /dev/null +++ b/easy-rsa/1.0/clean-all @@ -0,0 +1,19 @@ +#!/bin/sh + +# +# Initialize the $KEY_DIR directory. +# Note that this script does a +# rm -rf on $KEY_DIR so be careful! +# + +d=$KEY_DIR + +if test $d; then + rm -rf $d + mkdir $d && \ + chmod go-rwx $d && \ + touch $d/index.txt && \ + echo 01 >$d/serial +else + echo you must define KEY_DIR +fi diff --git a/easy-rsa/1.0/list-crl b/easy-rsa/1.0/list-crl new file mode 100644 index 0000000..b214dbd --- /dev/null +++ b/easy-rsa/1.0/list-crl @@ -0,0 +1,18 @@ +#!/bin/sh + +# +# list revoked certificates +# +# + +if test $# -ne 1; then + echo "usage: list-crl <crlfile.pem>"; + exit 1 +fi + +if test $KEY_DIR; then + cd $KEY_DIR && \ + openssl crl -text -noout -in $1 +else + echo you must define KEY_DIR +fi diff --git a/easy-rsa/make-crl b/easy-rsa/1.0/make-crl index 62fe6c1..62fe6c1 100644 --- a/easy-rsa/make-crl +++ b/easy-rsa/1.0/make-crl diff --git a/easy-rsa/1.0/openssl.cnf b/easy-rsa/1.0/openssl.cnf new file mode 100644 index 0000000..270b069 --- /dev/null +++ b/easy-rsa/1.0/openssl.cnf @@ -0,0 +1,255 @@ +# +# OpenSSL example configuration file. +# This is mostly being used for generation of certificate requests. +# + +# This definition stops the following lines choking if HOME isn't +# defined. +HOME = . +RANDFILE = $ENV::HOME/.rnd + +# Extra OBJECT IDENTIFIER info: +#oid_file = $ENV::HOME/.oid +oid_section = new_oids + +# To use this configuration file with the "-extfile" option of the +# "openssl x509" utility, name here the section containing the +# X.509v3 extensions to use: +# extensions = +# (Alternatively, use a configuration file that has only +# X.509v3 extensions in its main [= default] section.) + +[ new_oids ] + +# We can add new OIDs in here for use by 'ca' and 'req'. +# Add a simple OID like this: +# testoid1=1.2.3.4 +# Or use config file substitution like this: +# testoid2=${testoid1}.5.6 + +#################################################################### +[ ca ] +default_ca = CA_default # The default ca section + +#################################################################### +[ CA_default ] + +dir = $ENV::KEY_DIR # Where everything is kept +certs = $dir # Where the issued certs are kept +crl_dir = $dir # Where the issued crl are kept +database = $dir/index.txt # database index file. +new_certs_dir = $dir # default place for new certs. + +certificate = $dir/ca.crt # The CA certificate +serial = $dir/serial # The current serial number +crl = $dir/crl.pem # The current CRL +private_key = $dir/ca.key # The private key +RANDFILE = $dir/.rand # private random number file + +x509_extensions = usr_cert # The extentions to add to the cert + +# Extensions to add to a CRL. Note: Netscape communicator chokes on V2 CRLs +# so this is commented out by default to leave a V1 CRL. +# crl_extensions = crl_ext + +default_days = 3650 # how long to certify for +default_crl_days= 30 # how long before next CRL +default_md = md5 # which md to use. +preserve = no # keep passed DN ordering + +# A few difference way of specifying how similar the request should look +# For type CA, the listed attributes must be the same, and the optional +# and supplied fields are just that :-) +policy = policy_match + +# For the CA policy +[ policy_match ] +countryName = match +stateOrProvinceName = match +organizationName = match +organizationalUnitName = optional +commonName = supplied +emailAddress = optional + +# For the 'anything' policy +# At this point in time, you must list all acceptable 'object' +# types. +[ policy_anything ] +countryName = optional +stateOrProvinceName = optional +localityName = optional +organizationName = optional +organizationalUnitName = optional +commonName = supplied +emailAddress = optional + +#################################################################### +[ req ] +default_bits = $ENV::KEY_SIZE +default_keyfile = privkey.pem +distinguished_name = req_distinguished_name +attributes = req_attributes +x509_extensions = v3_ca # The extentions to add to the self signed cert + +# Passwords for private keys if not present they will be prompted for +# input_password = secret +# output_password = secret + +# This sets a mask for permitted string types. There are several options. +# default: PrintableString, T61String, BMPString. +# pkix : PrintableString, BMPString. +# utf8only: only UTF8Strings. +# nombstr : PrintableString, T61String (no BMPStrings or UTF8Strings). +# MASK:XXXX a literal mask value. +# WARNING: current versions of Netscape crash on BMPStrings or UTF8Strings +# so use this option with caution! +string_mask = nombstr + +# req_extensions = v3_req # The extensions to add to a certificate request + +[ req_distinguished_name ] +countryName = Country Name (2 letter code) +countryName_default = $ENV::KEY_COUNTRY +countryName_min = 2 +countryName_max = 2 + +stateOrProvinceName = State or Province Name (full name) +stateOrProvinceName_default = $ENV::KEY_PROVINCE + +localityName = Locality Name (eg, city) +localityName_default = $ENV::KEY_CITY + +0.organizationName = Organization Name (eg, company) +0.organizationName_default = $ENV::KEY_ORG + +# we can do this but it is not needed normally :-) +#1.organizationName = Second Organization Name (eg, company) +#1.organizationName_default = World Wide Web Pty Ltd + +organizationalUnitName = Organizational Unit Name (eg, section) +#organizationalUnitName_default = + +commonName = Common Name (eg, your name or your server\'s hostname) +commonName_max = 64 + +emailAddress = Email Address +emailAddress_default = $ENV::KEY_EMAIL +emailAddress_max = 40 + +# SET-ex3 = SET extension number 3 + +[ req_attributes ] +challengePassword = A challenge password +challengePassword_min = 4 +challengePassword_max = 20 + +unstructuredName = An optional company name + +[ usr_cert ] + +# These extensions are added when 'ca' signs a request. + +# This goes against PKIX guidelines but some CAs do it and some software +# requires this to avoid interpreting an end user certificate as a CA. + +basicConstraints=CA:FALSE + +# Here are some examples of the usage of nsCertType. If it is omitted +# the certificate can be used for anything *except* object signing. + +# This is OK for an SSL server. +# nsCertType = server + +# For an object signing certificate this would be used. +# nsCertType = objsign + +# For normal client use this is typical +# nsCertType = client, email + +# and for everything including object signing: +# nsCertType = client, email, objsign + +# This is typical in keyUsage for a client certificate. +# keyUsage = nonRepudiation, digitalSignature, keyEncipherment + +# This will be displayed in Netscape's comment listbox. +nsComment = "OpenSSL Generated Certificate" + +# PKIX recommendations harmless if included in all certificates. +subjectKeyIdentifier=hash +authorityKeyIdentifier=keyid,issuer:always + +# This stuff is for subjectAltName and issuerAltname. +# Import the email address. +# subjectAltName=email:copy + +# Copy subject details +# issuerAltName=issuer:copy + +#nsCaRevocationUrl = http://www.domain.dom/ca-crl.pem +#nsBaseUrl +#nsRevocationUrl +#nsRenewalUrl +#nsCaPolicyUrl +#nsSslServerName + +[ server ] + +# JY ADDED -- Make a cert with nsCertType set to "server" +basicConstraints=CA:FALSE +nsCertType = server +nsComment = "OpenSSL Generated Server Certificate" +subjectKeyIdentifier=hash +authorityKeyIdentifier=keyid,issuer:always + +[ v3_req ] + +# Extensions to add to a certificate request + +basicConstraints = CA:FALSE +keyUsage = nonRepudiation, digitalSignature, keyEncipherment + +[ v3_ca ] + + +# Extensions for a typical CA + + +# PKIX recommendation. + +subjectKeyIdentifier=hash + +authorityKeyIdentifier=keyid:always,issuer:always + +# This is what PKIX recommends but some broken software chokes on critical +# extensions. +#basicConstraints = critical,CA:true +# So we do this instead. +basicConstraints = CA:true + +# Key usage: this is typical for a CA certificate. However since it will +# prevent it being used as an test self-signed certificate it is best +# left out by default. +# keyUsage = cRLSign, keyCertSign + +# Some might want this also +# nsCertType = sslCA, emailCA + +# Include email address in subject alt name: another PKIX recommendation +# subjectAltName=email:copy +# Copy issuer details +# issuerAltName=issuer:copy + +# DER hex encoding of an extension: beware experts only! +# obj=DER:02:03 +# Where 'obj' is a standard or added object +# You can even override a supported extension: +# basicConstraints= critical, DER:30:03:01:01:FF + +[ crl_ext ] + +# CRL extensions. +# Only issuerAltName and authorityKeyIdentifier make any sense in a CRL. + +# issuerAltName=issuer:copy +authorityKeyIdentifier=keyid:always,issuer:always diff --git a/easy-rsa/revoke-crt b/easy-rsa/1.0/revoke-crt index 35b071a..35b071a 100644 --- a/easy-rsa/revoke-crt +++ b/easy-rsa/1.0/revoke-crt diff --git a/easy-rsa/1.0/revoke-full b/easy-rsa/1.0/revoke-full new file mode 100755 index 0000000..66ea03f --- /dev/null +++ b/easy-rsa/1.0/revoke-full @@ -0,0 +1,29 @@ +#!/bin/sh + +# revoke a certificate, regenerate CRL, +# and verify revocation + +CRL=crl.pem +RT=revoke-test.pem + +if test $# -ne 1; then + echo "usage: revoke-full <name>"; + exit 1 +fi + +if test $KEY_DIR; then + cd $KEY_DIR + rm -f $RT + + # revoke key and generate a new CRL + openssl ca -revoke $1.crt -config $KEY_CONFIG + + # generate a new CRL + openssl ca -gencrl -out $CRL -config $KEY_CONFIG + cat ca.crt $CRL >$RT + + # verify the revocation + openssl verify -CAfile $RT -crl_check $1.crt +else + echo you must define KEY_DIR +fi diff --git a/easy-rsa/1.0/sign-req b/easy-rsa/1.0/sign-req new file mode 100755 index 0000000..59edc42 --- /dev/null +++ b/easy-rsa/1.0/sign-req @@ -0,0 +1,18 @@ +#!/bin/sh + +# +# Sign a certificate signing request (a .csr file) +# with a local root certificate and key. +# + +if test $# -ne 1; then + echo "usage: sign-req <name>"; + exit 1 +fi + +if test $KEY_DIR; then + cd $KEY_DIR && \ + openssl ca -days 3650 -out $1.crt -in $1.csr -config $KEY_CONFIG +else + echo you must define KEY_DIR +fi diff --git a/easy-rsa/1.0/vars b/easy-rsa/1.0/vars new file mode 100644 index 0000000..da89cd2 --- /dev/null +++ b/easy-rsa/1.0/vars @@ -0,0 +1,49 @@ +# easy-rsa parameter settings + +# NOTE: If you installed from an RPM, +# don't edit this file in place in +# /usr/share/openvpn/easy-rsa -- +# instead, you should copy the whole +# easy-rsa directory to another location +# (such as /etc/openvpn) so that your +# edits will not be wiped out by a future +# OpenVPN package upgrade. + +# This variable should point to +# the top level of the easy-rsa +# tree. +export D=`pwd` + +# This variable should point to +# the openssl.cnf file included +# with easy-rsa. +export KEY_CONFIG=$D/openssl.cnf + +# Edit this variable to point to +# your soon-to-be-created key +# directory. +# +# WARNING: clean-all will do +# a rm -rf on this directory +# so make sure you define +# it correctly! +export KEY_DIR=$D/keys + +# Issue rm -rf warning +echo NOTE: when you run ./clean-all, I will be doing a rm -rf on $KEY_DIR + +# Increase this to 2048 if you +# are paranoid. This will slow +# down TLS negotiation performance +# as well as the one-time DH parms +# generation process. +export KEY_SIZE=1024 + +# These are the default values for fields +# which will be placed in the certificate. +# Don't leave any of these fields blank. +export KEY_COUNTRY=KG +export KEY_PROVINCE=NA +export KEY_CITY=BISHKEK +export KEY_ORG="OpenVPN-TEST" +export KEY_EMAIL="me@myhost.mydomain" diff --git a/easy-rsa/README b/easy-rsa/README index fd424ef..02800c2 100644 --- a/easy-rsa/README +++ b/easy-rsa/README @@ -1,14 +1,53 @@ -This is a small RSA key management package, -based on the openssl command line tool, that -can be found in the easy-rsa subdirectory +EASY-RSA Version 2.0-rc1 + +This is a small RSA key management package, based on the openssl +command line tool, that can be found in the easy-rsa subdirectory of the OpenVPN distribution. -These are reference notes. For step -by step instructions, see the HOWTO: +These are reference notes. For step-by-step instructions, see the +HOWTO: http://openvpn.net/howto.html -INSTALL +This package is based on the ./pkitool script. Run ./pkitool +without arguments for a detailed help message (which is also pasted +below). + +Release Notes for easy-rsa-2.0 + +* Most functionality has been consolidated into the pkitool + script. For compatibility, all previous scripts from 1.0 such + as build-key and build-key-server are provided as stubs + which call pkitool to do the real work. + +* pkitool has a --batch flag (enabled by default) which generates + keys/certs without needing any interactive input. pkitool + can still generate certs/keys using interactive prompting by + using the --interact flag. + +* The inherit-inter script has been provided for creating + a new PKI rooted on an intermediate certificate built within a + higher-level PKI. See comments in the inherit-inter script + for more info. + +* The openssl.cnf file has been modified. pkitool will not + work with the openssl.cnf file included with previous + easy-rsa releases. + +* The vars file has been modified -- the following extra + variables have been added: EASY_RSA, CA_EXPIRE, + KEY_EXPIRE. + +* The make-crl and revoke-crt scripts have been removed and + are replaced by the revoke-full script. + +* The "Organizational Unit" X509 field can be set using + the KEY_OU environmental variable before calling pkitool. + +* This release only affects the Linux/Unix version of easy-rsa. + The Windows version (written to use the Windows shell) is unchanged. + +INSTALL easy-rsa 1. Edit vars. 2. Set KEY_CONFIG to point to the openssl.cnf file @@ -34,92 +73,6 @@ INSTALL only .key files should be kept confidential. .crt and .csr files can be sent over insecure channels such as plaintext email. -8. You should never need to copy a .key file - between computers. Normally each computer - will have its own certificate/key pair. - -BUILD YOUR OWN ROOT CERTIFICATE AUTHORITY (CA) CERTIFICATE/KEY - -1. ./build-ca -2. ca.crt and ca.key will be built in your KEY_DIR - directory - -BUILD AN INTERMEDIATE CERTIFICATE AUTHORITY CERTIFICATE/KEY (optional) - -1. ./build-inter inter -2. inter.crt and inter.key will be built in your KEY_DIR - directory and signed with your root certificate. - -BUILD DIFFIE-HELLMAN PARAMETERS (necessary for -the server end of a SSL/TLS connection). - -1. ./build-dh - -BUILD A CERTIFICATE SIGNING REQUEST (If -you want to sign your certificate with a root -certificate controlled by another individual -or organization, or residing on a different machine). - -1. Get ca.crt (the root certificate) from your - certificate authority. Though this - transfer can be over an insecure channel, to prevent - man-in-the-middle attacks you must confirm that - ca.crt was not tampered with. Large CAs solve this - problem by hardwiring their root certificates into - popular web browsers. A simple way to verify a root - CA is to call the issuer on the telephone and confirm - that the md5sum or sha1sum signatures on the ca.crt - files match (such as with the command: "md5sum ca.crt"). -2. Choose a name for your certificate such as your computer - name. In our example we will use "mycert". -3. ./build-req mycert -4. You can ignore most of the fields, but set - "Common Name" to something unique such as your - computer's host name. Leave all password - fields blank, unless you want your private key - to be protected by password. Using a password - is not required -- it will make your key more secure - but also more inconvenient to use, because you will - need to supply your password anytime the key is used. - NOTE: if you are using a password, use ./build-req-pass - instead of ./build-req -5. Your key will be written to $KEY_DIR/mycert.key -6. Your certificate signing request will be written to - to $KEY_DIR/mycert.csr -7. Email mycert.csr to the individual or organization - which controls the root certificate. This can be - done over an insecure channel. -8. After the .csr file is signed by the root certificate - authority, you will receive a file mycert.crt - (your certificate). Place mycert.crt in your - KEY_DIR directory. -9. The combined files of mycert.crt, mycert.key, - and ca.crt can now be used to secure one end of - an SSL/TLS connection. - -SIGN A CERTIFICATE SIGNING REQUEST - -1. ./sign-req mycert -2. mycert.crt will be built in your KEY_DIR - directory using mycert.csr and your root CA - file as input. - -BUILD AND SIGN A CERTIFICATE SIGNING REQUEST -USING A LOCALLY INSTALLED ROOT CERTIFICATE/KEY -- this -script generates and signs a certificate in one step, -but it requires that the generated certificate and private -key files be copied to the destination host over a -secure channel. - -1. ./build-key mycert (no password protection) -2. OR ./build-key-pass mycert (with password protection) -3. OR ./build-key-pkcs12 mycert (PKCS #12 format) -4. OR ./build-key-server mycert (with nsCertType=server) -5. mycert.crt and mycert.key will be built in your - KEY_DIR directory, and mycert.crt will be signed - by your root CA. If ./build-key-pkcs12 was used a - mycert.p12 file will also be created including the - private key, certificate and the ca certificate. IMPORTANT @@ -130,7 +83,8 @@ verification by clients. There are currently four different ways of accomplishing this, listed in the order of preference: (1) Build your server certificates with the build-key-server - script. This will designate the certificate as a + script, or using the --server option to pkitool. + This will designate the certificate as a server-only certificate by setting nsCertType=server. Now add the following line to your client configuration: @@ -159,3 +113,56 @@ NOTES Show certificate fields: openssl x509 -in cert.crt -text + +PKITOOL documentation + +pkitool 2.0 +Usage: pkitool [options...] [common-name] +Options: + --batch : batch mode (default) + --interact : interactive mode + --server : build server cert + --initca : build root CA + --inter : build intermediate CA + --pass : encrypt private key with password + --csr : only generate a CSR, do not sign + --sign : sign an existing CSR + --pkcs12 : generate a combined pkcs12 file +Notes: + Please edit the vars script to reflect your configuration, + then source it with "source ./vars". + Next, to start with a fresh PKI configuration and to delete any + previous certificates and keys, run "./clean-all". + Finally, you can run this tool (pkitool) to build certificates/keys. +Generated files and corresponding OpenVPN directives: +(Files will be placed in the $KEY_DIR directory, defined in ./vars) + ca.crt -> root certificate (--ca) + ca.key -> root key, keep secure (not directly used by OpenVPN) + .crt files -> client/server certificates (--cert) + .key files -> private keys, keep secure (--key) + .csr files -> certificate signing request (not directly used by OpenVPN) + dh1024.pem or dh2048.pem -> Diffie Hellman parameters (--dh) +Examples: + pkitool --initca -> Build root certificate + pkitool --initca --pass -> Build root certificate with password-protected key + pkitool --server server1 -> Build "server1" certificate/key + pkitool client1 -> Build "client1" certificate/key + pkitool --pass client2 -> Build password-protected "client2" certificate/key + pkitool --pkcs12 client3 -> Build "client3" certificate/key in PKCS #12 format + pkitool --csr client4 -> Build "client4" CSR to be signed by another CA + pkitool --sign client4 -> Sign "client4" CSR + pkitool --inter interca -> Build an intermediate key-signing certificate/key + Also see ./inherit-inter script. +Typical usage for initial PKI setup. Build myserver, client1, and client2 cert/keys. +Protect client2 key with a password. Build DH parms. Generated files in ./keys : + [edit vars with your site-specific info] + source ./vars + ./clean-all + ./build-dh -> takes a long time, consider backgrounding + ./pkitool --initca + ./pkitool --server myserver + ./pkitool client1 + ./pkitool --pass client2 +Typical usage for adding client cert to existing PKI: + source ./vars + ./pkitool client-new diff --git a/easy-rsa/build-ca b/easy-rsa/build-ca index 5ad59cc..fb1e2ca 100755 --- a/easy-rsa/build-ca +++ b/easy-rsa/build-ca @@ -1,13 +1,8 @@ -#!/bin/sh +#!/bin/bash # # Build a root certificate # -if test $KEY_DIR; then - cd $KEY_DIR && \ - openssl req -days 3650 -nodes -new -x509 -keyout ca.key -out ca.crt -config $KEY_CONFIG && \ - chmod 0600 ca.key -else - echo you must define KEY_DIR -fi +export EASY_RSA="${EASY_RSA:-.}" +"$EASY_RSA/pkitool" --interact --initca $* diff --git a/easy-rsa/build-dh b/easy-rsa/build-dh index 6de4baf..ec7a805 100755 --- a/easy-rsa/build-dh +++ b/easy-rsa/build-dh @@ -1,12 +1,11 @@ -#!/bin/sh +#!/bin/bash -# # Build Diffie-Hellman parameters for the server side # of an SSL/TLS connection. -# -if test $KEY_DIR; then +if [ -d $KEY_DIR ] && [ $KEY_SIZE ]; then openssl dhparam -out ${KEY_DIR}/dh${KEY_SIZE}.pem ${KEY_SIZE} else - echo you must define KEY_DIR + echo 'Please source the vars script first (i.e. "source ./vars")' + echo 'Make sure you have edited it to reflect your configuration.' fi diff --git a/easy-rsa/build-inter b/easy-rsa/build-inter index 8b3a6b2..f831d6f 100755 --- a/easy-rsa/build-inter +++ b/easy-rsa/build-inter @@ -1,19 +1,7 @@ -#!/bin/sh +#!/bin/bash -# # Make an intermediate CA certificate/private key pair using a locally generated # root certificate. -# -if test $# -ne 1; then - echo "usage: build-inter <name>"; - exit 1 -fi - -if test $KEY_DIR; then - cd $KEY_DIR && \ - openssl req -days 3650 -nodes -new -keyout $1.key -out $1.csr -config $KEY_CONFIG && \ - openssl ca -extensions v3_ca -days 3650 -out $1.crt -in $1.csr -config $KEY_CONFIG -else - echo you must define KEY_DIR -fi +export EASY_RSA="${EASY_RSA:-.}" +"$EASY_RSA/pkitool" --interact --inter $* diff --git a/easy-rsa/build-key b/easy-rsa/build-key index 3159d2b..6196308 100755 --- a/easy-rsa/build-key +++ b/easy-rsa/build-key @@ -1,20 +1,7 @@ -#!/bin/sh +#!/bin/bash -# # Make a certificate/private key pair using a locally generated # root certificate. -# -if test $# -ne 1; then - echo "usage: build-key <name>"; - exit 1 -fi - -if test $KEY_DIR; then - cd $KEY_DIR && \ - openssl req -days 3650 -nodes -new -keyout $1.key -out $1.csr -config $KEY_CONFIG && \ - openssl ca -days 3650 -out $1.crt -in $1.csr -config $KEY_CONFIG && \ - chmod 0600 $1.key -else - echo you must define KEY_DIR -fi +export EASY_RSA="${EASY_RSA:-.}" +"$EASY_RSA/pkitool" --interact $* diff --git a/easy-rsa/build-key-pass b/easy-rsa/build-key-pass index 03ab304..35543e0 100755 --- a/easy-rsa/build-key-pass +++ b/easy-rsa/build-key-pass @@ -1,20 +1,7 @@ -#!/bin/sh +#!/bin/bash -# # Similar to build-key, but protect the private key # with a password. -# -if test $# -ne 1; then - echo "usage: build-key-pass <name>"; - exit 1 -fi - -if test $KEY_DIR; then - cd $KEY_DIR && \ - openssl req -days 3650 -new -keyout $1.key -out $1.csr -config $KEY_CONFIG && \ - openssl ca -days 3650 -out $1.crt -in $1.csr -config $KEY_CONFIG && \ - chmod 0600 $1.key -else - echo you must define KEY_DIR -fi +export EASY_RSA="${EASY_RSA:-.}" +"$EASY_RSA/pkitool" --interact --pass $* diff --git a/easy-rsa/build-key-pkcs12 b/easy-rsa/build-key-pkcs12 index f8a057b..5ef064f 100755 --- a/easy-rsa/build-key-pkcs12 +++ b/easy-rsa/build-key-pkcs12 @@ -1,21 +1,8 @@ -#!/bin/sh +#!/bin/bash -# # Make a certificate/private key pair using a locally generated # root certificate and convert it to a PKCS #12 file including the # the CA certificate as well. -if test $# -ne 1; then - echo "usage: build-key-pkcs12 <name>"; - exit 1 -fi - -if test $KEY_DIR; then - cd $KEY_DIR && \ - openssl req -days 3650 -nodes -new -keyout $1.key -out $1.csr -config $KEY_CONFIG && \ - openssl ca -days 3650 -out $1.crt -in $1.csr -config $KEY_CONFIG && \ - openssl pkcs12 -export -inkey $1.key -in $1.crt -certfile ca.crt -out $1.p12 && \ - chmod 0600 $1.key $1.p12 -else - echo you must define KEY_DIR -fi +export EASY_RSA="${EASY_RSA:-.}" +"$EASY_RSA/pkitool" --interact --pkcs12 $* diff --git a/easy-rsa/build-key-server b/easy-rsa/build-key-server index 30dc41e..5502675 100755 --- a/easy-rsa/build-key-server +++ b/easy-rsa/build-key-server @@ -1,22 +1,10 @@ -#!/bin/sh +#!/bin/bash -# # Make a certificate/private key pair using a locally generated # root certificate. # # Explicitly set nsCertType to server using the "server" # extension in the openssl.cnf file. -if test $# -ne 1; then - echo "usage: build-key-server <name>"; - exit 1 -fi - -if test $KEY_DIR; then - cd $KEY_DIR && \ - openssl req -days 3650 -nodes -new -keyout $1.key -out $1.csr -extensions server -config $KEY_CONFIG && \ - openssl ca -days 3650 -out $1.crt -in $1.csr -extensions server -config $KEY_CONFIG && \ - chmod 0600 $1.key -else - echo you must define KEY_DIR -fi +export EASY_RSA="${EASY_RSA:-.}" +"$EASY_RSA/pkitool" --interact --server $* diff --git a/easy-rsa/build-req b/easy-rsa/build-req index 30f62f5..26587d1 100755 --- a/easy-rsa/build-req +++ b/easy-rsa/build-req @@ -1,18 +1,7 @@ -#!/bin/sh +#!/bin/bash -# # Build a certificate signing request and private key. Use this # when your root certificate and key is not available locally. -# -if test $# -ne 1; then - echo "usage: build-req <name>"; - exit 1 -fi - -if test $KEY_DIR; then - cd $KEY_DIR && \ - openssl req -days 3650 -nodes -new -keyout $1.key -out $1.csr -config $KEY_CONFIG -else - echo you must define KEY_DIR -fi +export EASY_RSA="${EASY_RSA:-.}" +"$EASY_RSA/pkitool" --interact --csr $* diff --git a/easy-rsa/build-req-pass b/easy-rsa/build-req-pass index 829b286..6e6c863 100755 --- a/easy-rsa/build-req-pass +++ b/easy-rsa/build-req-pass @@ -1,18 +1,7 @@ -#!/bin/sh +#!/bin/bash -# # Like build-req, but protect your private key # with a password. -# -if test $# -ne 1; then - echo "usage: build-req-pass <name>"; - exit 1 -fi - -if test $KEY_DIR; then - cd $KEY_DIR && \ - openssl req -days 3650 -new -keyout $1.key -out $1.csr -config $KEY_CONFIG -else - echo you must define KEY_DIR -fi +export EASY_RSA="${EASY_RSA:-.}" +"$EASY_RSA/pkitool" --interact --csr --pass $* diff --git a/easy-rsa/clean-all b/easy-rsa/clean-all index d10aef5..0576db5 100755 --- a/easy-rsa/clean-all +++ b/easy-rsa/clean-all @@ -1,19 +1,16 @@ -#!/bin/sh +#!/bin/bash -# # Initialize the $KEY_DIR directory. # Note that this script does a # rm -rf on $KEY_DIR so be careful! -# -d=$KEY_DIR - -if test $d; then - rm -rf $d - mkdir $d && \ - chmod go-rwx $d && \ - touch $d/index.txt && \ - echo 01 >$d/serial +if [ "$KEY_DIR" ]; then + rm -rf "$KEY_DIR" + mkdir "$KEY_DIR" && \ + chmod go-rwx "$KEY_DIR" && \ + touch "$KEY_DIR/index.txt" && \ + echo 01 >"$KEY_DIR/serial" else - echo you must define KEY_DIR + echo 'Please source the vars script first (i.e. "source ./vars")' + echo 'Make sure you have edited it to reflect your configuration.' fi diff --git a/easy-rsa/inherit-inter b/easy-rsa/inherit-inter new file mode 100755 index 0000000..2101951 --- /dev/null +++ b/easy-rsa/inherit-inter @@ -0,0 +1,39 @@ +#!/bin/bash + +# Build a new PKI which is rooted on an intermediate certificate generated +# by ./build-inter or ./pkitool --inter from a parent PKI. The new PKI should +# have independent vars settings, and must use a different KEY_DIR directory +# from the parent. This tool can be used to generate arbitrary depth +# certificate chains. +# +# To build an intermediate CA, follow the same steps for a regular PKI but +# replace ./build-key or ./pkitool --initca with this script. + +# The EXPORT_CA file will contain the CA certificate chain and should be +# referenced by the OpenVPN "ca" directive in config files. The ca.crt file +# will only contain the local intermediate CA -- it's needed by the easy-rsa +# scripts but not by OpenVPN directly. +EXPORT_CA="export-ca.crt" + +if [ $# -ne 2 ]; then + echo "usage: $0 <parent-key-dir> <common-name>" + echo "parent-key-dir: the KEY_DIR directory of the parent PKI" + echo "common-name: the common name of the intermediate certificate in the parent PKI" + exit 1; +fi + +if [ "$KEY_DIR" ]; then + cp "$1/$2.crt" "$KEY_DIR/ca.crt" + cp "$1/$2.key" "$KEY_DIR/ca.key" + + if [ -e "$1/$EXPORT_CA" ]; then + PARENT_CA="$1/$EXPORT_CA" + else + PARENT_CA="$1/ca.crt" + fi + cp "$PARENT_CA" "$KEY_DIR/$EXPORT_CA" + cat "$KEY_DIR/ca.crt" >> "$KEY_DIR/$EXPORT_CA" +else + echo 'Please source the vars script first (i.e. "source ./vars")' + echo 'Make sure you have edited it to reflect your configuration.' +fi diff --git a/easy-rsa/list-crl b/easy-rsa/list-crl index b214dbd..7736fa8 100644..100755 --- a/easy-rsa/list-crl +++ b/easy-rsa/list-crl @@ -1,18 +1,13 @@ -#!/bin/sh +#!/bin/bash -# # list revoked certificates -# -# -if test $# -ne 1; then - echo "usage: list-crl <crlfile.pem>"; - exit 1 -fi +CRL="${1:-crl.pem}" -if test $KEY_DIR; then - cd $KEY_DIR && \ - openssl crl -text -noout -in $1 +if [ "$KEY_DIR" ]; then + cd "$KEY_DIR" && \ + openssl crl -text -noout -in "$CRL" else - echo you must define KEY_DIR + echo 'Please source the vars script first (i.e. "source ./vars")' + echo 'Make sure you have edited it to reflect your configuration.' fi diff --git a/easy-rsa/openssl.cnf b/easy-rsa/openssl.cnf index 270b069..7fedebe 100644..100755 --- a/easy-rsa/openssl.cnf +++ b/easy-rsa/openssl.cnf @@ -1,3 +1,5 @@ +# For use with easy-rsa version 2.0 + # # OpenSSL example configuration file. # This is mostly being used for generation of certificate requests. @@ -60,7 +62,7 @@ preserve = no # keep passed DN ordering # A few difference way of specifying how similar the request should look # For type CA, the listed attributes must be the same, and the optional # and supplied fields are just that :-) -policy = policy_match +policy = policy_anything # For the CA policy [ policy_match ] @@ -136,6 +138,10 @@ emailAddress = Email Address emailAddress_default = $ENV::KEY_EMAIL emailAddress_max = 40 +# JY -- added for batch mode +organizationalUnitName_default = $ENV::KEY_OU +commonName_default = $ENV::KEY_CN + # SET-ex3 = SET extension number 3 [ req_attributes ] diff --git a/easy-rsa/pkitool b/easy-rsa/pkitool new file mode 100755 index 0000000..2d2d764 --- /dev/null +++ b/easy-rsa/pkitool @@ -0,0 +1,233 @@ +#!/bin/sh + +# OpenVPN -- An application to securely tunnel IP networks +# over a single TCP/UDP port, with support for SSL/TLS-based +# session authentication and key exchange, +# packet encryption, packet authentication, and +# packet compression. +# +# Copyright (C) 2002-2005 OpenVPN Solutions LLC <info@openvpn.net> +# +# This program is free software; you can redistribute it and/or modify +# it under the terms of the GNU General Public License version 2 +# as published by the Free Software Foundation. +# +# This program is distributed in the hope that it will be useful, +# but WITHOUT ANY WARRANTY; without even the implied warranty of +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +# GNU General Public License for more details. +# +# You should have received a copy of the GNU General Public License +# along with this program (see the file COPYING included with this +# distribution); if not, write to the Free Software Foundation, Inc., +# 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + +# pkitool is a front-end for the openssl tool. + +# Calling scripts can set the certificate organizational +# unit with the KEY_OU environmental variable. + +PROGNAME=pkitool +VERSION=2.0 +DEBUG=0 + +GREP=grep +OPENSSL=openssl + +need_vars() +{ + echo ' Please edit the vars script to reflect your configuration,' + echo ' then source it with "source ./vars".' + echo ' Next, to start with a fresh PKI configuration and to delete any' + echo ' previous certificates and keys, run "./clean-all".' + echo " Finally, you can run this tool ($PROGNAME) to build certificates/keys." +} + +usage() +{ + echo "$PROGNAME $VERSION" + echo "Usage: $PROGNAME [options...] [common-name]" + echo "Options:" + echo " --batch : batch mode (default)" + echo " --interact : interactive mode" + echo " --server : build server cert" + echo " --initca : build root CA" + echo " --inter : build intermediate CA" + echo " --pass : encrypt private key with password" + echo " --csr : only generate a CSR, do not sign" + echo " --sign : sign an existing CSR" + echo " --pkcs12 : generate a combined pkcs12 file" + echo "Notes:" + need_vars + echo "Generated files and corresponding OpenVPN directives:" + echo '(Files will be placed in the $KEY_DIR directory, defined in ./vars)' + echo " ca.crt -> root certificate (--ca)" + echo " ca.key -> root key, keep secure (not directly used by OpenVPN)" + echo " .crt files -> client/server certificates (--cert)" + echo " .key files -> private keys, keep secure (--key)" + echo " .csr files -> certificate signing request (not directly used by OpenVPN)" + echo " dh1024.pem or dh2048.pem -> Diffie Hellman parameters (--dh)" + echo "Examples:" + echo " $PROGNAME --initca -> Build root certificate" + echo " $PROGNAME --initca --pass -> Build root certificate with password-protected key" + echo " $PROGNAME --server server1 -> Build \"server1\" certificate/key" + echo " $PROGNAME client1 -> Build \"client1\" certificate/key" + echo " $PROGNAME --pass client2 -> Build password-protected \"client2\" certificate/key" + echo " $PROGNAME --pkcs12 client3 -> Build \"client3\" certificate/key in PKCS #12 format" + echo " $PROGNAME --csr client4 -> Build \"client4\" CSR to be signed by another CA" + echo " $PROGNAME --sign client4 -> Sign \"client4\" CSR" + echo " $PROGNAME --inter interca -> Build an intermediate key-signing certificate/key" + echo " Also see ./inherit-inter script." + echo "Typical usage for initial PKI setup. Build myserver, client1, and client2 cert/keys." + echo "Protect client2 key with a password. Build DH parms. Generated files in ./keys :" + echo " [edit vars with your site-specific info]" + echo " source ./vars" + echo " ./clean-all" + echo " ./build-dh -> takes a long time, consider backgrounding" + echo " ./$PROGNAME --initca" + echo " ./$PROGNAME --server myserver" + echo " ./$PROGNAME client1" + echo " ./$PROGNAME --pass client2" + echo "Typical usage for adding client cert to existing PKI:" + echo " source ./vars" + echo " ./$PROGNAME client-new" +} + +# Set defaults +DO_REQ="1" +REQ_EXT="" +DO_CA="1" +CA_EXT="" +DO_P12="0" +DO_ROOT="0" +NODES_REQ="-nodes" +NODES_P12="" +BATCH="-batch" +CA="ca" + +# Process options +while [ $# -gt 0 ]; do + case "$1" in + --server ) REQ_EXT="$REQ_EXT -extensions server" + CA_EXT="$CA_EXT -extensions server" ;; + --batch ) BATCH="-batch" ;; + --interact ) BATCH="" ;; + --inter ) CA_EXT="$CA_EXT -extensions v3_ca" ;; + --initca ) DO_ROOT="1" ;; + --pass ) NODES_REQ="" ;; + --csr ) DO_CA="0" ;; + --sign ) DO_REQ="0" ;; + --pkcs12 ) DO_P12="1" ;; + --* ) echo "$PROGNAME: unknown option: $1" + exit 1 ;; + * ) break ;; + esac + shift +done + +# If we are generating pkcs12, only encrypt the final step +if [ $DO_P12 -eq 1 ]; then + NODES_P12="$NODES_REQ" + NODES_REQ="-nodes" +fi + +# If undefined, set default key expiration intervals +if [ -z "$KEY_EXPIRE" ]; then + KEY_EXPIRE=3650 +fi +if [ -z "$CA_EXPIRE" ]; then + CA_EXPIRE=3650 +fi + +# Set organizational unit to empty string if undefined +if [ -z "$KEY_OU" ]; then + KEY_OU="" +fi + +# Set KEY_CN +if [ $DO_ROOT -eq 1 ]; then + if [ -z "$KEY_CN" ]; then + if [ "$1" ]; then + KEY_CN="$1" + elif [ "$KEY_ORG" ]; then + KEY_CN="$KEY_ORG CA" + fi + fi + if [ $BATCH ] && [ "$KEY_CN" ]; then + echo "Using CA Common Name:" $KEY_CN + fi +elif [ $BATCH ] && [ "$KEY_CN" ] && [ $# -eq 0 ]; then + echo "Using Common Name:" $KEY_CN +else + if [ $# -ne 1 ]; then + usage + exit 1 + else + KEY_CN="$1" + fi +fi +export CA_EXPIRE KEY_EXPIRE KEY_OU KEY_CN + +# Show parameters (debugging) +if [ $DEBUG -eq 1 ]; then + echo DO_REQ $DO_REQ + echo REQ_EXT $REQ_EXT + echo DO_CA $DO_CA + echo CA_EXT $CA_EXT + echo NODES_REQ $NODES_REQ + echo NODES_P12 $NODES_P12 + echo DO_P12 $DO_P12 + echo KEY_CN $KEY_CN + echo BATCH $BATCH + echo DO_ROOT $DO_ROOT + echo KEY_EXPIRE $KEY_EXPIRE + echo CA_EXPIRE $CA_EXPIRE + echo KEY_OU $KEY_OU +fi + +# Make sure ./vars was sourced beforehand +if [ -d "$KEY_DIR" ] && [ "$KEY_CONFIG" ]; then + cd "$KEY_DIR" + + # Make sure $KEY_CONFIG points to the correct version + # of openssl.cnf + if $GREP -i 'easy-rsa version 2\.[0-9]' "$KEY_CONFIG" >/dev/null; then + : + else + echo "$PROGNAME: KEY_CONFIG (set by the ./vars script) is pointing to the wrong" + echo "version of openssl.cnf: $KEY_CONFIG" + echo "The correct version should have a comment that says: easy-rsa version 2.x"; + exit 1; + fi + + # Build root CA + if [ $DO_ROOT -eq 1 ]; then + $OPENSSL req $BATCH -days $CA_EXPIRE $NODES_REQ -new -x509 \ + -keyout "$CA.key" -out "$CA.crt" -config "$KEY_CONFIG" && \ + chmod 0600 "$CA.key" + else + # Make sure CA key/cert is available + if [ $DO_CA -eq 1 ] || [ $DO_P12 -eq 1 ]; then + if [ ! -r "$CA.crt" ] || [ ! -r "$CA.key" ]; then + echo "$PROGNAME: Need a readable $CA.crt and $CA.key in $KEY_DIR" + echo "Try $PROGNAME --initca to build a root certificate/key." + exit 1 + fi + fi + + # Build cert/key + ( [ $DO_REQ -eq 0 ] || $OPENSSL req $BATCH -days $KEY_EXPIRE $NODES_REQ -new \ + -keyout "$KEY_CN.key" -out "$KEY_CN.csr" $REQ_EXT -config "$KEY_CONFIG" ) && \ + ( [ $DO_CA -eq 0 ] || $OPENSSL ca $BATCH -days $KEY_EXPIRE -out "$KEY_CN.crt" \ + -in "$KEY_CN.csr" $CA_EXT -config "$KEY_CONFIG" ) && \ + ( [ $DO_P12 -eq 0 ] || $OPENSSL pkcs12 -export -inkey "$KEY_CN.key" \ + -in "$KEY_CN.crt" -certfile "$CA.crt" -out "$KEY_CN.p12" $NODES_P12 ) && \ + ( [ $DO_CA -eq 0 ] || chmod 0600 "$KEY_CN.key" ) && \ + ( [ $DO_P12 -eq 0 ] || chmod 0600 "$KEY_CN.p12" ) + + fi + +# Need definitions +else + need_vars +fi diff --git a/easy-rsa/revoke-full b/easy-rsa/revoke-full index 66ea03f..9dc9b1e 100755 --- a/easy-rsa/revoke-full +++ b/easy-rsa/revoke-full @@ -1,29 +1,39 @@ -#!/bin/sh +#!/bin/bash # revoke a certificate, regenerate CRL, # and verify revocation -CRL=crl.pem -RT=revoke-test.pem +CRL="crl.pem" +RT="revoke-test.pem" -if test $# -ne 1; then - echo "usage: revoke-full <name>"; - exit 1 +if [ $# -ne 1 ]; then + echo "usage: revoke-full <common-name>"; + exit 1 fi -if test $KEY_DIR; then - cd $KEY_DIR - rm -f $RT +if [ "$KEY_DIR" ]; then + cd "$KEY_DIR" + rm -f "$RT" - # revoke key and generate a new CRL - openssl ca -revoke $1.crt -config $KEY_CONFIG + # set defaults + export KEY_CN="" + export KEY_OU="" - # generate a new CRL - openssl ca -gencrl -out $CRL -config $KEY_CONFIG - cat ca.crt $CRL >$RT + # revoke key and generate a new CRL + openssl ca -revoke "$1.crt" -config "$KEY_CONFIG" + + # generate a new CRL -- try to be compatible with + # intermediate PKIs + openssl ca -gencrl -out "$CRL" -config "$KEY_CONFIG" + if [ -e export-ca.crt ]; then + cat export-ca.crt "$CRL" >"$RT" + else + cat ca.crt "$CRL" >"$RT" + fi - # verify the revocation - openssl verify -CAfile $RT -crl_check $1.crt + # verify the revocation + openssl verify -CAfile "$RT" -crl_check "$1.crt" else - echo you must define KEY_DIR + echo 'Please source the vars script first (i.e. "source ./vars")' + echo 'Make sure you have edited it to reflect your configuration.' fi diff --git a/easy-rsa/sign-req b/easy-rsa/sign-req index 59edc42..38655d3 100755 --- a/easy-rsa/sign-req +++ b/easy-rsa/sign-req @@ -1,18 +1,7 @@ -#!/bin/sh +#!/bin/bash -# # Sign a certificate signing request (a .csr file) # with a local root certificate and key. -# -if test $# -ne 1; then - echo "usage: sign-req <name>"; - exit 1 -fi - -if test $KEY_DIR; then - cd $KEY_DIR && \ - openssl ca -days 3650 -out $1.crt -in $1.csr -config $KEY_CONFIG -else - echo you must define KEY_DIR -fi +export EASY_RSA="${EASY_RSA:-.}" +"$EASY_RSA/pkitool" --interact --sign $* diff --git a/easy-rsa/vars b/easy-rsa/vars index da89cd2..a4bd149 100644..100755 --- a/easy-rsa/vars +++ b/easy-rsa/vars @@ -12,12 +12,12 @@ # This variable should point to # the top level of the easy-rsa # tree. -export D=`pwd` +export EASY_RSA="`pwd`" # This variable should point to # the openssl.cnf file included # with easy-rsa. -export KEY_CONFIG=$D/openssl.cnf +export KEY_CONFIG="$EASY_RSA/openssl.cnf" # Edit this variable to point to # your soon-to-be-created key @@ -27,10 +27,10 @@ export KEY_CONFIG=$D/openssl.cnf # a rm -rf on this directory # so make sure you define # it correctly! -export KEY_DIR=$D/keys +export KEY_DIR="$EASY_RSA/keys" # Issue rm -rf warning -echo NOTE: when you run ./clean-all, I will be doing a rm -rf on $KEY_DIR +echo NOTE: If you run ./clean-all, I will be doing a rm -rf on $KEY_DIR # Increase this to 2048 if you # are paranoid. This will slow @@ -39,11 +39,17 @@ echo NOTE: when you run ./clean-all, I will be doing a rm -rf on $KEY_DIR # generation process. export KEY_SIZE=1024 +# In how many days should the root CA key expire? +export CA_EXPIRE=3650 + +# In how many days should certificates expire? +export KEY_EXPIRE=3650 + # These are the default values for fields # which will be placed in the certificate. # Don't leave any of these fields blank. -export KEY_COUNTRY=KG -export KEY_PROVINCE=NA -export KEY_CITY=BISHKEK -export KEY_ORG="OpenVPN-TEST" +export KEY_COUNTRY="US" +export KEY_PROVINCE="CA" +export KEY_CITY="SanFrancisco" +export KEY_ORG="Fort-Funston" export KEY_EMAIL="me@myhost.mydomain" |