- Read Me First
- Embedded Event Manager Overview
- Writing Embedded Event Manager Policies Using the Cisco IOS CLI
- Writing Embedded Event Manager Policies Using Tcl
- Signed Tcl Scripts
- EEM Action Tcl Command Extension
- EEM CLI Library Command Extensions
- EEM CLI Library XML-PI Support
- EEM Context Library Command Extensions
- EEM Event Registration Tcl Command Extensions
- EEM Event Tcl Command Extensions
- EEM Library Debug Command Extensions
- EEM Multiple Event Support Tcl Command Extensions
- EEM SMTP Library Command Extensions
- EEM System Information Tcl Command Extensions
- EEM Utility Tcl Command Extensions
- Finding Feature Information
- Prerequisites for Signed Tcl Scripts
- Restrictions for Signed Tcl Scripts
- Information About Signed Tcl Scripts
- How to Configure Signed Tcl Scripts
- Configuration Examples for Signed Tcl Script
- Additional References
- Feature Information for Signed Tcl Scripts
- Glossary
- Notices
Signed Tcl Scripts
The Signed Tcl Scripts feature allows you to create a certificate to generate a digital signature and sign a Tool Command Language (Tcl) script with that digital signature. This feature also allows you to work with existing scripts and certificates. The digital signature is verified for authentication and then run with trusted access to the Tcl interpreter. If the script does not contain the digital signature, the script may run in a limited mode for untrusted scripts, or may not run at all.
- Finding Feature Information
- Prerequisites for Signed Tcl Scripts
- Restrictions for Signed Tcl Scripts
- Information About Signed Tcl Scripts
- How to Configure Signed Tcl Scripts
- Configuration Examples for Signed Tcl Script
- Additional References
- Feature Information for Signed Tcl Scripts
- Glossary
- Notices
Finding Feature Information
Your software release may not support all the features documented in this module. For the latest caveats and feature information, see Bug Search Tool and the release notes for your platform and software release. To find information about the features documented in this module, and to see a list of the releases in which each feature is supported, see the feature information table.
Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to www.cisco.com/go/cfn. An account on Cisco.com is not required.
Prerequisites for Signed Tcl Scripts
For this feature to work, the Cisco public key infrastructure (PKI) configuration trustpoint commands must be enabled.
For further details, see the Prerequisites for Signed Tcl Scripts.
Restrictions for Signed Tcl Scripts
For this feature to work, you must be running the following:
Cisco IOS Crypto image
OpenSSL Version 0.9.7a or above
Expect
Information About Signed Tcl Scripts
The Signed Tcl Scripts feature introduces security for the Tcl scripts. This feature allows you to create a certificate to generate a digital signature and sign a Tcl script with that digital signature. This certificate examines the Tcl scripts prior to running them. The script is checked for a digital signature from Cisco. In addition, third parties may also sign a script with a digital signature. You may wish to sign your own internally developed Tcl scripts or you could use a script developed by a third party. If the script contains the correct digital signature, it is believed to be authentic and runs with full access to the Tcl interpreter. If the script does not contain the digital signature, the script may be run in a limited mode, known as Safe Tcl mode, or may not run at all.
To create and use signed Tcl scripts, you should understand the following concepts:
Cisco PKI
Cisco PKI provides certificate management to support security protocols such as IP security (IPsec), secure shell (SSH), and secure socket layer (SSL). A PKI is composed of the following entities:
Peers communicating on a secure network
At least one certification authority (CA) that grants and maintains certificates
Digital certificates, which contain information such as the certificate validity period, peer identity information, encryption keys that are used for secure communication, and the signature of the issuing CA
An optional registration authority (RA) to offload the CA by processing enrollment requests
A distribution mechanism (such as Lightweight Directory Access Protocol [LDAP] or HTTP) for certificate revocation lists (CRLs)
PKI provides you with a scalable, secure mechanism for distributing, managing, and revoking encryption and identity information in a secured data network. Every routing device participating in the secured communication is enrolled in the PKI in a process where the routing device generates a Rivest, Shamir, and Adelman (RSA) key pair (one private key and one public key) and has its identity validated by a trusted routing device (also known as a CA or trustpoint).
After each routing device enrolls in a PKI, every peer (also known as an end host) in a PKI is granted a digital certificate that has been issued by a CA. When peers must negotiate a secured communication session, they exchange digital certificates. Based on the information in the certificate, a peer can validate the identity of another peer and establish an encrypted session with the public keys contained in the certificate.
RSA Key Pair
An RSA key pair consists of a public key and a private key. When setting up your PKI, you must include the public key in the certificate enrollment request. After the certificate has been granted, the public key is included in the certificate so that peers can use it to encrypt data that is sent to the device. The private key is kept on the device and used both to decrypt the data sent by peers and to digitally sign transactions when negotiating with peers.
RSA key pairs contain a key modulus value. The modulus determines the size of the RSA key. The larger the modulus, the more secure the RSA key. However, keys with large modulus values take longer to generate, and encryption and decryption operations take longer with larger keys.
Certificate and Trustpoint
A certification authority (CA), also known as a trustpoint, manages certificate requests and issues certificates to participating network devices. These services (managing certificate requests and issuing certificates) provide centralized key management for the participating devices and are explicitly trusted by the receiver to validate identities and to create digital certificates. Before any PKI operations can begin, the CA generates its own public key pair and creates a self-signed CA certificate; thereafter, the CA can sign certificate requests and begin peer enrollment for the PKI.
You can use a CA provided by a third-party CA vendor, or you can use an internal CA, which is the Cisco Certificate Server.
How to Configure Signed Tcl Scripts
- Generating a Key Pair
- Generating a Certificate
- Signing the Tcl Scripts
- Verifying the Signature
- Converting the Signature into Nonbinary Data
- Configuring the Device with a Certificate
- Verifying the Trustpoint
- Verifying the Signed Tcl Script
- What to Do Next
Generating a Key Pair
The key pair consists of a private key and a public key. The private key is intended to be kept private, accessible only to the creator. The public key is generated from the private key and is intended to be known to the public.
To generate a key pair, use the openssl genrsa command and then the openssl rsa command.
1.
openssl
genrsa
-out
private-key-file
bit-length
2.
ls
-l
3.
openssl
rsa
-in
private-key-file
-pubout
-out
public-key-file
4.
ls
-l
DETAILED STEPS
Step 1 |
openssl
genrsa
-out
private-key-file
bit-length
This command generates a private key that is bit-length bits long and writes the key to the private-key-filefile.
Host% openssl genrsa -out privkey.pem 2048
Example: Generating RSA private key, 2048 bit long modulus .........+++ ...............................................................................+++ e is 65537 (0x10001) |
Step 2 |
ls
-l
This command displays detailed information about each file in the current directory, including the permissions, owners, size, and when last modified. Example: Host% ls -l total 8 -rw-r--r-- 1 janedoe eng12 1679 Jun 12 14:55 privkey.pem The privkey.pem file contains the private key generated using the openssl genrsa command. |
Step 3 |
openssl
rsa
-in
private-key-file
-pubout
-out
public-key-file
This command generates a public key based on the specified private key in the private-key-file file and writes the public key to the public-key-filefile. Example: Host% openssl rsa -in privkey.pem -pubout -out pubkey.pem writing RSA key |
Step 4 |
ls
-l
This command displays detailed information about each file in the current directory, including the permissions, owners, size, and when last modified. Example: Host% ls -l total 16 -rw-r--r-- 1 janedoe eng12 1679 Jun 12 14:55 privkey.pem -rw-r--r-- 1 janedoe eng12 451 Jun 12 14:57 pubkey.pem The pubkey.pem file contains the public key generated from the private key using the openssl rsa command. |
Generating a Certificate
Perform this task to generate a certificate. To generate an X.509 certificate, use the openssl req command.
1.
openssl
req
-new
-x509
-key
private-key-file
-out
certificate-file
-days
expiration-days
2.
ls
-l
DETAILED STEPS
Signing the Tcl Scripts
Perform this task to sign the Tcl scripts. You will need to sign the Tcl file and output in OpenSSL document in pkcs7 (PKCS#7) format.
To sign the Tcl file, use the openssl smime command with the -sign keyword.
1.
openssl
smime
-sign
-in
tcl-file
-out signed-tcl-file -signer certificate-file -inkey private-key-file -outform DER -binary
2.
ls
-l
DETAILED STEPS
Step 1 |
openssl
smime
-sign
-in
tcl-file
-out signed-tcl-file -signer certificate-file -inkey private-key-file -outform DER -binary This command signs the Tcl filename tcl-file using the certificate stored in certificate-file and the private key stored in private-key-file file and then writes the signed Tcl file in DER PKCS#7 format to the signed-tcl-filefile. Example: Host% openssl smime -sign -in hello -out hello.pk7 -signer cert.pem -inkey privkey.pem -outform DER -binary |
Step 2 |
ls
-l
This command displays detailed information about each file in the current directory, including the permissions, owners, size, and when last modified. Example: Host% ls -l total 40 -rw-r--r-- 1 janedoe eng12 1659 Jun 12 15:01 cert.pem -rw-r--r-- 1 janedoe eng12 115 Jun 13 10:16 hello -rw-r--r-- 1 janedoe eng12 1876 Jun 13 10:16 hello.pk7 -rw-r--r-- 1 janedoe eng12 1679 Jun 12 14:55 privkey.pem -rw-r--r-- 1 janedoe eng12 451 Jun 12 14:57 pubkey.pem The hello.pk7 file contains the signed Tcl file created by the openssl smime command from the unsigned Tcl file named hello and using the X.509 certificate in the cert.pem file. |
Verifying the Signature
Perform this task to verify that the signature matches the data, use the openssl smime command with the -verify keyword. The original Tcl content must be provided in the input file, because the file does not have the original content.
1.
openssl
smime
-verify
-in
signed-tcl-file
-CAfile
certificate-file
-inform
DER
-content
tcl-file
2.
ls
-l
DETAILED STEPS
Step 1 |
openssl
smime
-verify
-in
signed-tcl-file
-CAfile
certificate-file
-inform
DER
-content
tcl-file
This command verifies the signed Tcl file stored in DER PKCS#7 format in signed-tcl-file using the trusted Certificate Authority (CA) certificates in certificate-file and then writes the detached content to the file tcl-file. The following example shows how to verify the signature with the input file hello.pk7: Example: Host% openssl smime -verify -in hello.pk7 -CAfile cert.pem -inform DER -content hello puts hello puts "argc = $argc" puts "argv = $argv" puts "argv0 = $argv0" puts "tcl_interactive = $tcl_interactive" Verification successful
| ||
Step 2 |
ls
-l
This command displays detailed information about each file in the current directory, including the permissions, owners, size, and when last modified. Example: Host% ls -l total 40 -rw-r--r-- 1 janedoe eng12 1659 Jun 13 10:18 cert.pem -rw-r--r-- 1 janedoe eng12 115 Jun 13 10:17 hello -rw-r--r-- 1 janedoe eng12 1876 Jun 13 10:16 hello.pk7 -rw-r--r-- 1 janedoe eng12 1679 Jun 12 14:55 privkey.pem -rw-r--r-- 1 janedoe eng12 451 Jun 12 14:57 pubkey.pem The hello file contains the content detached from the signed Tcl file hello.pk7 by running the openssl smime command with the -verify keyword. If the verification was successful, the signer’s certificates are written to the X.509 certificate in the cert.pem file. |
Converting the Signature into Nonbinary Data
Perform this task to convert the signature from binary to nonbinary data.
1.
xxd
-ps
signed-tcl-file
>
nonbinary-signature-file
2. Create a script that displays #Cisco Tcl Signature V1.0 in the first line andinserts a comment character (#) at the beginning of each line of the input file and writes each line to a file whose name is formed by appending the text string “_sig” to the name of the input file.
3. Run the script, supplying the name of the file containing the nonbinary signature file (nonbinary-signature-file) as the input argument.
4.
ls
-l
5.
cat
signed-tcl-file
commented-nonbinary-signature-file
>
signed-tcl-script
6.
cat
signed-tcl-script
DETAILED STEPS
Step 1 |
xxd
-ps
signed-tcl-file
>
nonbinary-signature-file
This command converts the signature in signed-tcl-file from binary to nonbinary data and stores it as a hexadecimal dump in the file nonbinary-signature-file. Example: Host% xxd -ps hello.pk7 > hello.hex |
Step 2 |
Create a script that displays #Cisco Tcl Signature V1.0 in the first line andinserts a comment character (#) at the beginning of each line of the input file and writes each line to a file whose name is formed by appending the text string “_sig” to the name of the input file.
In this example the cat command is used to display the contents of the script file named my_append. Example: Host% cat my_append #!/usr/bin/env expect set my_first {#Cisco Tcl Signature V1.0} set newline {} set my_file [lindex $argv 0] set my_new_file ${my_file}_sig set my_new_handle [open $my_new_file w] set my_handle [open $my_file r] puts $my_new_handle $newline puts $my_new_handle $my_first foreach line [split [read $my_handle] "\n"] { set new_line {#} append new_line $line puts $my_new_handle $new_line } close $my_new_handle close $my_handle |
Step 3 |
Run the script, supplying the name of the file containing the nonbinary signature file (nonbinary-signature-file) as the input argument.
In this example, the my_append script is run with the nonbinary signature file hello.hex specified as input. The output file will be named hello.hex_sig. Example: Host% my_append hello.hex |
Step 4 |
ls
-l
This command displays detailed information about each file in the current directory, including the permissions, owners, size, and when last modified. Example: Host% ls -l total 80 -rw-r--r-- 1 janedoe eng12 1659 Jun 13 10:18 cert.pem -rw-r--r-- 1 janedoe eng12 115 Jun 13 10:17 hello -rw-r--r-- 1 janedoe eng12 3815 Jun 13 10:20 hello.hex -rw-r--r-- 1 janedoe eng12 3907 Jun 13 10:22 hello.hex_sig -rw-r--r-- 1 janedoe eng12 1876 Jun 13 10:16 hello.pk7 -rwxr--r-- 1 janedoe eng12 444 Jun 13 10:22 my_append -rw-r--r-- 1 janedoe eng12 1679 Jun 12 14:55 privkey.pem -rw-r--r-- 1 janedoe eng12 451 Jun 12 14:57 pubkey.pem The hello.hex file contains nonbinary data (stored as a hexadecimal dump) converted from the binary signature in the signed Tcl file hello.pk7. The my_append file contains the script that inserts a comment character at the beginning of each line of the input file. The hello.hex_sig file is the file created by running the my_append script on the nonbinary signature file. |
Step 5 |
cat
signed-tcl-file
commented-nonbinary-signature-file
>
signed-tcl-script
This command appends the contents of the nonbinary signature file (commented-nonbinary-signature-file) to the signed Tcl file stored in DER PKCS#7 format (in the signed-tcl-file file). The concatenated output is written to the file signed-tcl-script. Example: Host% cat hello hello.hex_sig > hello.tcl |
Step 6 |
cat
signed-tcl-script
This command displays the contents of the file signed-tcl-script, which is the concatenation of content detached from the signed Tcl file and the nonbinary signature file. Example: Host% cat hello.tcl puts hello puts "argc = $argc" puts "argv = $argv" puts "argv0 = $argv0" puts "tcl_interactive = $tcl_interactive" #Cisco Tcl Signature V1.0 #3082075006092a864886f70d010702a08207413082073d020101310b3009 #06052b0e03021a0500300b06092a864886f70d010701a08204a13082049d #30820385a003020102020100300d06092a864886f70d0101040500308195 #310b3009060355040613025553311330110603550408130a43616c69666f #726e69613111300f0603550407130853616e204a6f7365311c301a060355 #040a1313436973636f2053797374656d732c20496e632e310e300c060355 #040b13054e53535447310d300b060355040313044a6f686e3121301f0609 #2a864886f70d01090116126a6c6175746d616e40636973636f2e636f6d30 #1e170d3037303631323232303134335a170d313030363131323230313433 #5a308195310b3009060355040613025553311330110603550408130a4361 #6c69666f726e69613111300f0603550407130853616e204a6f7365311c30 #1a060355040a1313436973636f2053797374656d732c20496e632e310e30 #0c060355040b13054e53535447310d300b060355040313044a6f686e3121 #301f06092a864886f70d01090116126a6c6175746d616e40636973636f2e #636f6d30820122300d06092a864886f70d01010105000382010f00308201 #0a0282010100a751eb5ec1f3009738c88a55987c07b759c36f3386342283 #67ea20a89d9483ae85e0c63eeded8ab3eb7a08006689f09136f172183665 #c971099ba54e77ab47706069bbefaaab8c50184396350e4cc870c4c3f477 #88c55c52e2cf411f05b59f0eaec0678ff5cc238fdce2263a9fc6b6c244b8 #ffaead865c19c3d3172674a13b24c8f2c01dd8b1bd491c13e84e29171b85 #f28155d81ac8c69bb25ca23c2921d85fbf745c106e7aff93c72316cbc654 #4a34ea88174a8ba7777fa60662974e1fbac85a0f0aeac925dba6e5e850b8 #7caffce2fe8bb04b61b62f532b5893c081522d538005df81670b931b0ad0 #e1e76ae648f598a9442d5d0976e67c8d55889299147d0203010001a381f5 #3081f2301d0603551d0e04160414bc34132be952ff8b9e1af3b93140a255 #e54a667c3081c20603551d230481ba3081b78014bc34132be952ff8b9e1a #f3b93140a255e54a667ca1819ba48198308195310b300906035504061302 #5553311330110603550408130a43616c69666f726e69613111300f060355 #0407130853616e204a6f7365311c301a060355040a1313436973636f2053 #797374656d732c20496e632e310e300c060355040b13054e53535447310d #300b060355040313044a6f686e3121301f06092a864886f70d0109011612 #6a6c6175746d616e40636973636f2e636f6d820100300c0603551d130405 #30030101ff300d06092a864886f70d010104050003820101000c83c1b074 #6720929c9514af6d5df96f0a95639f047c40a607c83d8362507c58fa7f84 #aa699ec5e5bef61b2308297a0662c653ff446acfbb6f5cb2dd162d939338 #a5e4d78a5c45021e5d4dbabb8784efbf50cab0f5125d164487b31f5cf933 #a9f68f82cd111cbab1739d7f372ec460a7946882874b0a0f22dd53acbd62 #a944a15e52e54a24341b3b8a820f23a5bc7ea7b2278bb56838b8a4051926 #af9c167274ff8449003a4e012bcf4f4b3e280f85209249a390d14df47435 #35efabce720ea3d56803a84a2163db4478ae19d7d987ef6971c8312e280a #aac0217d4fe620c6582a48faa8ea5e3726a99012e1d55f8d61b066381f77 #4158d144a43fb536c77d6a318202773082027302010130819b308195310b #3009060355040613025553311330110603550408130a43616c69666f726e #69613111300f0603550407130853616e204a6f7365311c301a060355040a #1313436973636f2053797374656d732c20496e632e310e300c060355040b #13054e53535447310d300b060355040313044a6f686e3121301f06092a86 #4886f70d01090116126a6c6175746d616e40636973636f2e636f6d020100 #300906052b0e03021a0500a081b1301806092a864886f70d010903310b06 #092a864886f70d010701301c06092a864886f70d010905310f170d303730 #3631333137313634385a302306092a864886f70d01090431160414372cb3 #72dc607990577fd0426104a42ee4158d2b305206092a864886f70d01090f #31453043300a06082a864886f70d0307300e06082a864886f70d03020202 #0080300d06082a864886f70d0302020140300706052b0e030207300d0608 #2a864886f70d0302020128300d06092a864886f70d010101050004820100 #72db6898742f449b26d3ac18f43a1e7178834fb05ad13951bf042e127eea #944b72b96f3b8ecf7eb52f3d0e383bf63651750223efe69eae04287c9dae #b1f31209444108b31d34e46654c6c3cc10b5baba887825c224ec6f376d49 #00ff7ab2d9f88402dab9a2c2ab6aa3ecceeaf5a594bdc7d3a822c55e7daa #aa0c2b067e06967f22a20e406fe21d9013ecc6bd9cd6d402c2749f8bea61 #9f8f87acfbc9e10d6ce91502e34629adca6ee855419afafe6a8233333e14 #ad4c107901d1f2bca4d7ffaadddbc54192a25da662f8b8509782c76977b8 #94879453fbb00486ccc55f88db50fcc149bae066916b350089cde51a6483 #2ec14019611720fc5bbe2400f24225fc |
Configuring the Device with a Certificate
Perform this task to configure the device with a certificate.
You must already have a Cisco IOS Crypto image; otherwise you cannot configure a certificate.
1.
enable
2.
configure
terminal
3.
crypto
pki
trustpoint
name
4.
enrollment
terminal
5.
exit
6.
crypto
pki
authenticate
name
7. At the prompt, enter the base-encoded CA certificate.
8.
scripting
tcl
secure-mode
9.
scripting
tcl
trustpoint
name
name
10.
scripting
tcl
trustpoint
untrusted
{execute |
safe-execute |
terminate}
11.
exit
12.
tclsafe
DETAILED STEPS
Verifying the Trustpoint
To display the trustpoints that are configured in the device, use the show crypto pki trustpoints command.
1.
enable
2.
show
crypto
pki
trustpoints
DETAILED STEPS
Step 1 |
enable
This command enables privileged EXEC mode. Example: Device> enable |
Step 2 |
show
crypto
pki
trustpoints
This command displays the trustpoints that are configured in the device. Example: Device# show crypto pki trustpoints Trustpoint mytrust: Subject Name: ea=janedoe@cisco.com cn=Jane ou=DEPT_ACCT o=Cisco l=San Jose st=California c=US Serial Number: 00 Certificate configured. |
Verifying the Signed Tcl Script
To verify that the Signed Tcl Script is properly running, use the debug crypto pki transactions command and the tclshcommand.
1.
enable
2.
debug
crypto
pki
transactions
3.
tclsh
flash:signed-tcl-file
DETAILED STEPS
Step 1 |
enable
This command enables privileged EXEC mode. Example: Device> enable | ||
Step 2 |
debug
crypto
pki
transactions
This command display debugging messages for the trace of interaction (message type) between the CA and the device. Example: Device# debug crypto pki transactions Crypto PKI Trans debugging is on | ||
Step 3 |
tclsh
flash:signed-tcl-file
This command executes the Tcl script in Tcl shell.
Example: Device# tclsh flash:hello.tcl hello argc = 0 argv = argv0 = flash:hello.tcl tcl_interactive = 0 device# *Apr 21 04:46:18.563: CRYPTO_PKI: locked trustpoint mytrust, refcount is 1 *Apr 21 04:46:18.563: The PKCS #7 message has 0 verified signers. *Apr 21 04:46:18.563: CRYPTO_PKI: Success on PKCS7 verify! *Apr 21 04:46:18.563: CRYPTO_PKI: unlocked trustpoint mytrust, refcount is 0 |
What to Do Next
Configuration Examples for Signed Tcl Script
- Generating a Key Pair Example
- Generating a Certificate Example
- Signing the Tcl Scripts Example
- Verifying the Signature Example
- Converting the Signature with Nonbinary Data Example
- Configuring the Device with a Certificate Example
Generating a Key Pair Example
The following example shows how to generate the key pair--a private key and a public key:
Generate a Private Key: Example
Host% openssl genrsa -out privkey.pem 2048 Generating RSA private key, 2048 bit long modulus .........+++ ...............................................................................+++ e is 65537 (0x10001) Host% ls -l total 8 -rw-r--r-- 1 janedoe eng12 1679 Jun 12 14:55 privkey.pem Host%
Generate a Public Key from the Private Key
Host% openssl rsa -in privkey.pem -pubout -out pubkey.pem writing RSA key Host% ls -l total 16 -rw-r--r-- 1 janedoe eng12 1679 Jun 12 14:55 privkey.pem -rw-r--r-- 1 janedoe eng12 451 Jun 12 14:57 pubkey.pem
Generating a Certificate Example
The following example shows how to generate a certificate:
Host% openssl req -new -x509 -key privkey.pem -out cert.pem -days 1095 You are about to be asked to enter information that will be incorporated into your certificate request. What you are about to enter is what is called a Distinguished Name or a DN. There are quite a few fields but you can leave some blank For some fields there will be a default value, If you enter '.', the field will be left blank. ----- Country Name (2 letter code) [GB]:US State or Province Name (full name) [Berkshire]:California Locality Name (eg, city) [Newbury]:San Jose Organization Name (eg, company) [My Company Ltd]:Cisco Systems, Inc. Organizational Unit Name (eg, section) []:DEPT_ACCT Common Name (eg, your name or your server's hostname) []:Jane Email Address []:janedoe@company.com Host% ls -l total 24 -rw-r--r-- 1 janedoe eng12 1659 Jun 12 15:01 cert.pem -rw-r--r-- 1 janedoe eng12 1679 Jun 12 14:55 privkey.pem -rw-r--r-- 1 janedoe eng12 451 Jun 12 14:57 pubkey.pem
Signing the Tcl Scripts Example
The following example shows how to sign the Tcl scripts:
Host% openssl smime -sign -in hello -out hello.pk7 -signer cert.pem -inkey privkey.pem -outform DER -binary Host% ls -l total 40 -rw-r--r-- 1 janedoe eng12 1659 Jun 12 15:01 cert.pem -rw-r--r-- 1 janedoe eng12 115 Jun 13 10:16 hello -rw-r--r-- 1 janedoe eng12 1876 Jun 13 10:16 hello.pk7 -rw-r--r-- 1 janedoe eng12 1679 Jun 12 14:55 privkey.pem -rw-r--r-- 1 janedoe eng12 451 Jun 12 14:57 pubkey.pem
Verifying the Signature Example
The following example shows how to verify the signature:
Host% openssl smime -verify -in hello.pk7 -CAfile cert.pem -inform DER -content hello puts hello puts "argc = $argc" puts "argv = $argv" puts "argv0 = $argv0" puts "tcl_interactive = $tcl_interactive" Verification successful
Converting the Signature with Nonbinary Data Example
The following example shows how to convert the Tcl signature with nonbinary data:
#Cisco Tcl Signature V1.0 Then append the signature file to the end of the file. Host% xxd -ps hello.pk7 > hello.hex Host% cat my_append #!/usr/bin/env expect set my_first {#Cisco Tcl Signature V1.0} set newline {} set my_file [lindex $argv 0] set my_new_file ${my_file}_sig set my_new_handle [open $my_new_file w] set my_handle [open $my_file r] puts $my_new_handle $newline puts $my_new_handle $my_first foreach line [split [read $my_handle] "\n"] { set new_line {#} append new_line $line puts $my_new_handle $new_line } close $my_new_handle close $my_handle Host% my_append hello.hex Host% ls -l total 80 -rw-r--r-- 1 janedoe eng12 1659 Jun 12 15:01 cert.pem -rw-r--r-- 1 janedoe eng12 115 Jun 13 10:16 hello -rw-r--r-- 1 janedoe eng12 3815 Jun 13 10:20 hello.hex -rw-r--r-- 1 janedoe eng12 3907 Jun 13 10:22 hello.hex_sig -rw-r--r-- 1 janedoe eng12 1876 Jun 13 10:16 hello.pk7 -rwxr--r-- 1 janedoe eng12 444 Jun 13 10:22 my_append -rw-r--r-- 1 janedoe eng12 1679 Jun 12 14:55 privkey.pem -rw-r--r-- 1 janedoe eng12 451 Jun 12 14:57 pubkey.pem Host% cat hello hello.hex_sig > hello.tcl Host% cat hello.tcl puts hello puts "argc = $argc" puts "argv = $argv" puts "argv0 = $argv0" puts "tcl_interactive = $tcl_interactive" #Cisco Tcl Signature V1.0 #3082075006092a864886f70d010702a08207413082073d020101310b3009 #06052b0e03021a0500300b06092a864886f70d010701a08204a13082049d #30820385a003020102020100300d06092a864886f70d0101040500308195 #310b3009060355040613025553311330110603550408130a43616c69666f #726e69613111300f0603550407130853616e204a6f7365311c301a060355 #040a1313436973636f2053797374656d732c20496e632e310e300c060355 #040b13054e53535447310d300b060355040313044a6f686e3121301f0609 #2a864886f70d01090116126a6c6175746d616e40636973636f2e636f6d30 #1e170d3037303631323232303134335a170d313030363131323230313433 #5a308195310b3009060355040613025553311330110603550408130a4361 #6c69666f726e69613111300f0603550407130853616e204a6f7365311c30 #1a060355040a1313436973636f2053797374656d732c20496e632e310e30 #0c060355040b13054e53535447310d300b060355040313044a6f686e3121 #301f06092a864886f70d01090116126a6c6175746d616e40636973636f2e #636f6d30820122300d06092a864886f70d01010105000382010f00308201 #0a0282010100a751eb5ec1f3009738c88a55987c07b759c36f3386342283 #67ea20a89d9483ae85e0c63eeded8ab3eb7a08006689f09136f172183665 #c971099ba54e77ab47706069bbefaaab8c50184396350e4cc870c4c3f477 #88c55c52e2cf411f05b59f0eaec0678ff5cc238fdce2263a9fc6b6c244b8 #ffaead865c19c3d3172674a13b24c8f2c01dd8b1bd491c13e84e29171b85 #f28155d81ac8c69bb25ca23c2921d85fbf745c106e7aff93c72316cbc654 #4a34ea88174a8ba7777fa60662974e1fbac85a0f0aeac925dba6e5e850b8 #7caffce2fe8bb04b61b62f532b5893c081522d538005df81670b931b0ad0 #e1e76ae648f598a9442d5d0976e67c8d55889299147d0203010001a381f5 #3081f2301d0603551d0e04160414bc34132be952ff8b9e1af3b93140a255 #e54a667c3081c20603551d230481ba3081b78014bc34132be952ff8b9e1a #f3b93140a255e54a667ca1819ba48198308195310b300906035504061302 #5553311330110603550408130a43616c69666f726e69613111300f060355 #0407130853616e204a6f7365311c301a060355040a1313436973636f2053 #797374656d732c20496e632e310e300c060355040b13054e53535447310d #300b060355040313044a6f686e3121301f06092a864886f70d0109011612 #6a6c6175746d616e40636973636f2e636f6d820100300c0603551d130405 #30030101ff300d06092a864886f70d010104050003820101000c83c1b074 #6720929c9514af6d5df96f0a95639f047c40a607c83d8362507c58fa7f84 #aa699ec5e5bef61b2308297a0662c653ff446acfbb6f5cb2dd162d939338 #a5e4d78a5c45021e5d4dbabb8784efbf50cab0f5125d164487b31f5cf933 #a9f68f82cd111cbab1739d7f372ec460a7946882874b0a0f22dd53acbd62 #a944a15e52e54a24341b3b8a820f23a5bc7ea7b2278bb56838b8a4051926 #af9c167274ff8449003a4e012bcf4f4b3e280f85209249a390d14df47435 #35efabce720ea3d56803a84a2163db4478ae19d7d987ef6971c8312e280a #aac0217d4fe620c6582a48faa8ea5e3726a99012e1d55f8d61b066381f77 #4158d144a43fb536c77d6a318202773082027302010130819b308195310b #3009060355040613025553311330110603550408130a43616c69666f726e #69613111300f0603550407130853616e204a6f7365311c301a060355040a #1313436973636f2053797374656d732c20496e632e310e300c060355040b #13054e53535447310d300b060355040313044a6f686e3121301f06092a86 #4886f70d01090116126a6c6175746d616e40636973636f2e636f6d020100 #300906052b0e03021a0500a081b1301806092a864886f70d010903310b06 #092a864886f70d010701301c06092a864886f70d010905310f170d303730 #3631333137313634385a302306092a864886f70d01090431160414372cb3 #72dc607990577fd0426104a42ee4158d2b305206092a864886f70d01090f #31453043300a06082a864886f70d0307300e06082a864886f70d03020202 #0080300d06082a864886f70d0302020140300706052b0e030207300d0608 #2a864886f70d0302020128300d06092a864886f70d010101050004820100 #72db6898742f449b26d3ac18f43a1e7178834fb05ad13951bf042e127eea #944b72b96f3b8ecf7eb52f3d0e383bf63651750223efe69eae04287c9dae #b1f31209444108b31d34e46654c6c3cc10b5baba887825c224ec6f376d49 #00ff7ab2d9f88402dab9a2c2ab6aa3ecceeaf5a594bdc7d3a822c55e7daa #aa0c2b067e06967f22a20e406fe21d9013ecc6bd9cd6d402c2749f8bea61 #9f8f87acfbc9e10d6ce91502e34629adca6ee855419afafe6a8233333e14 #ad4c107901d1f2bca4d7ffaadddbc54192a25da662f8b8509782c76977b8 #94879453fbb00486ccc55f88db50fcc149bae066916b350089cde51a6483 #2ec14019611720fc5bbe2400f24225fc
Configuring the Device with a Certificate Example
The following example shows how to configure the device with a certificate:
crypto pki trustpoint mytrust enrollment terminal ! ! crypto pki authentication mytrust crypto pki certificate chain mytrust certificate ca 00 308204B8 308203A0 A0030201 02020100 300D0609 2A864886 F70D0101 04050030 819E310B 30090603 55040613 02555331 13301106 03550408 130A4361 6C69666F 726E6961 3111300F 06035504 07130853 616E204A 6F736531 1C301A06 0355040A 13134369 73636F20 53797374 656D732C 20496E63 2E310E30 0C060355 040B1305 4E535354 47311630 14060355 0403130D 4A6F686E 204C6175 746D616E 6E312130 1F06092A 864886F7 0D010901 16126A6C 6175746D 616E4063 6973636F 2E636F6D 301E170D 30363131 31373137 35383031 5A170D30 39313131 36313735 3830315A 30819E31 0B300906 03550406 13025553 31133011 06035504 08130A43 616C6966 6F726E69 61311130 0F060355 04071308 53616E20 4A6F7365 311C301A 06035504 0A131343 6973636F 20537973 74656D73 2C20496E 632E310E 300C0603 55040B13 054E5353 54473116 30140603 55040313 0D4A6F68 6E204C61 75746D61 6E6E3121 301F0609 2A864886 F70D0109 0116126A 6C617574 6D616E40 63697363 6F2E636F 6D308201 22300D06 092A8648 86F70D01 01010500 0382010F 00308201 0A028201 0100BC6D A933028A B31BF827 7258BB87 A1600CF0 21090F04 2080BECC 5818688B 74D231DF F0C365C1 07D6E206 D7651FA8 C7B230A2 3B0011E4 EA2B6A4C 1F3F27FB 9AF449D8 FA8900BB 3E567F77 5412881B AAD9525E 3EC1D3B1 EBCE8155 D74866F1 0940F6D1 3A2613CD F6B3595E F468B315 6DDEFF07 BBC5D521 B560AF72 D6D5FDA7 D9D9C99D 31E3B380 5DEB7039 A1A29EF9 46ED536E 4D768048 12D48C24 59B08973 481AD75D E741CD9E BE06EA16 9B514AE3 91184A56 A0E51B7D 4465D730 1AB3C7DD 62CA1AC9 DF30C39A 41316B8E 72289113 98080354 C7297AD7 89B627F8 ED40D924 ADF48383 1B332C7F 73C58686 6279E2A4 4BF41644 3E60F131 090D3F5D 25F0C025 43CB0203 010001A3 81FE3081 FB301D06 03551D0E 04160414 F7F4E80E F6CC4772 5F278C44 6B85F8EE 8345AB99 3081CB06 03551D23 0481C330 81C08014 F7F4E80E F6CC4772 5F278C44 6B85F8EE 8345AB99 A181A4A4 81A13081 9E310B30 09060355 04061302 55533113 30110603 55040813 0A43616C 69666F72 6E696131 11300F06 03550407 13085361 6E204A6F 7365311C 301A0603 55040A13 13436973 636F2053 79737465 6D732C20 496E632E 310E300C 06035504 0B13054E 53535447 31163014 06035504 03130D4A 6F686E20 4C617574 6D616E6E 3121301F 06092A86 4886F70D 01090116 126A6C61 75746D61 6E406369 73636F2E 636F6D82 0100300C 0603551D 13040530 030101FF 300D0609 2A864886 F70D0101 04050003 82010100 6D12CFF8 31078DF6 94FE5CF0 8F83639B 414F32D8 069D23E2 37E182BE 7C31EC14 E87AF216 61A6CCD3 37656934 4BE4157A 400E182B EC390D1A DC130A56 B8F35BFB D2234556 24152FE8 A736B670 58CC684E 750D08AE C7739907 917B7A72 3D26BEC7 9F554CF1 5E5EF499 ABA11124 55966616 AC9C52B2 B1082DEA D962CBAF E476C575 A9DDFBFA C4AE63F6 1D5C9F76 7B4B9CA7 52CE65C9 E65C04FC 4B7642D6 0D1A8AF4 38194B7A CA307EC9 51DCB847 8B8C27FB 98ACEE60 0B80DC3F 36E4E252 BD731F5F 0E781E26 C1CA4120 9B0B689B BA654250 97B22A76 CC126B77 C7779AAA D3F93C3F DCF46006 2B7F7F8C 150AF889 BBEC62F1 E53B4F3B A3626CD6 05B8AB3D F8A6A361 quit archive log config scripting tcl trustpoint name mytrust scripting tcl secure-mode ! ! end
Additional References
The following sections provide references related to the Signed Tcl Scripts feature.
Related Documents
Related Topic |
Document Title |
---|---|
Cisco PKI Overview: Understanding and Planning a PKI Implementing and Managing a PKI |
Security Configuration Guide, Release 12.4 |
PKI commands: complete command syntax, command mode, command history, defaults, usage guidelines, and examples. |
Cisco IOS Security Command Reference, Release 12.4 |
Standards
Standard |
Title |
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None |
-- |
MIBs
MIB |
MIBs Link |
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None |
To locate and download MIBs for selected platforms, Cisco software releases, and feature sets, use Cisco MIB Locator found at the following URL: |
RFCs
RFC |
Title |
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None |
-- |
Technical Assistance
Description |
Link |
---|---|
The Cisco Support website provides extensive online resources, including documentation and tools for troubleshooting and resolving technical issues with Cisco products and technologies. To receive security and technical information about your products, you can subscribe to various services, such as the Product Alert Tool (accessed from Field Notices), the Cisco Technical Services Newsletter, and Really Simple Syndication (RSS) Feeds. Access to most tools on the Cisco Support website requires a Cisco.com user ID and password. |
Feature Information for Signed Tcl Scripts
The following table provides release information about the feature or features described in this module. This table lists only the software release that introduced support for a given feature in a given software release train. Unless noted otherwise, subsequent releases of that software release train also support that feature.
Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to . An account on Cisco.com is not required.
Feature Name |
Releases |
Feature Information |
---|---|---|
Signed Tcl Scripts |
The Signed Tcl Scripts feature allows you to create a certificate to generate a digital signature and sign a Tcl script with that digital signature. The following commands were introduced by this feature: scripting tcl secure-mode, scripting tcl trustpoint name, scripting tcl trustpoint untrusted,and tclsafe. |
Glossary
CA--certification authority. Service responsible for managing certificate requests and issuing certificates to participating IPsec network devices. This service provides centralized key management for the participating devices and is explicitly trusted by the receiver to validate identities and to create digital certificates.
certificates--Electronic documents that bind a user's or device's name to its public key. Certificates are commonly used to validate a digital signature.
CRL--certificate revocation list. Electronic document that contains a list of revoked certificates. The CRL is created and digitally signed by the CA that originally issued the certificates. The CRL contains dates for when the certificate was issued and when it expires. A new CRL is issued when the current CRL expires.
IPsec--IP security
peer certificate--Certificate presented by a peer, which contains the peer's public key and is signed by the trustpoint CA.
PKI--public key infrastructure. System that manages encryption keys and identity information for components of a network that participate in secured communications.
RA--registration authority. Server that acts as a proxy for the CA so that CA functions can continue when the CA is offline. Although the RA is often part of the CA server, the RA could also be an additional application, requiring an additional device to run it.
RSA keys--Public key cryptographic system developed by Ron Rivest, Adi Shamir, and Leonard Adleman. An RSA key pair (a public and a private key) is required before you can obtain a certificate for your device.
SHA1--Secure Hash Algorithm 1
SSH--secure shell
SSL--secure socket layer
Notices
The following notices pertain to this software license.
OpenSSL Open SSL Project
This product includes software developed by the OpenSSL Project for use in the OpenSSL Toolkit ( http://www.openssl.org/ ).
This product includes cryptographic software written by Eric Young (eay@cryptsoft.com).
This product includes software written by Tim Hudson (tjh@cryptsoft.com).
License Issues
The OpenSSL toolkit stays under a dual license, i.e. both the conditions of the OpenSSL License and the original SSLeay license apply to the toolkit. See below for the actual license texts. Actually both licenses are BSD-style Open Source licenses. In case of any license issues related to OpenSSL please contact openssl-core@openssl.org.
OpenSSL License:
Copyright © 1998-2007 The OpenSSL Project. All rights reserved.
Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met:
Redistributions of source code must retain the copyright notice, this list of conditions and the following disclaimer.
Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution.
All advertising materials mentioning features or use of this software must display the following acknowledgment: “This product includes software developed by the OpenSSL Project for use in the OpenSSL Toolkit ( http://www.openssl.org/ )”.
The names “OpenSSL Toolkit” and “OpenSSL Project” must not be used to endorse or promote products derived from this software without prior written permission. For written permission, please contact openssl-core@openssl.org.
Products derived from this software may not be called “OpenSSL” nor may “OpenSSL” appear in their names without prior written permission of the OpenSSL Project.
Redistributions of any form whatsoever must retain the following acknowledgment:
“This product includes software developed by the OpenSSL Project for use in the OpenSSL Toolkit ( http://www.openssl.org/ )”.
THIS SOFTWARE IS PROVIDED BY THE OpenSSL PROJECT “AS IS”' AND ANY EXPRESSED OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE OpenSSL PROJECT OR ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
This product includes cryptographic software written by Eric Young (eay@cryptsoft.com). This product includes software written by Tim Hudson (tjh@cryptsoft.com).
Original SSLeay License:
Copyright © 1995-1998 Eric Young (eay@cryptsoft.com). All rights reserved.
This package is an SSL implementation written by Eric Young (eay@cryptsoft.com).
The implementation was written so as to conform with Netscapes SSL.
This library is free for commercial and non-commercial use as long as the following conditions are adhered to. The following conditions apply to all code found in this distribution, be it the RC4, RSA, lhash, DES, etc., code; not just the SSL code. The SSL documentation included with this distribution is covered by the same copyright terms except that the holder is Tim Hudson (tjh@cryptsoft.com).
Copyright remains Eric Young’s, and as such any Copyright notices in the code are not to be removed. If this package is used in a product, Eric Young should be given attribution as the author of the parts of the library used. This can be in the form of a textual message at program startup or in documentation (online or textual) provided with the package.
Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met:
Redistributions of source code must retain the copyright notice, this list of conditions and the following disclaimer.
Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution.
All advertising materials mentioning features or use of this software must display the following acknowledgement:
“This product includes cryptographic software written by Eric Young (eay@cryptsoft.com)”.
The word ‘cryptographic’ can be left out if the routines from the library being used are not cryptography-related.
If you include any Windows specific code (or a derivative thereof) from the apps directory (application code) you must include an acknowledgement: “This product includes software written by Tim Hudson (tjh@cryptsoft.com)”.
THIS SOFTWARE IS PROVIDED BY ERIC YOUNG “AS IS” AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
The license and distribution terms for any publicly available version or derivative of this code cannot be changed. i.e. this code cannot simply be copied and put under another distribution license [including the GNU Public License].