openssl-tsget, tsget - Time Stamping HTTP/HTTPS client
tsget -h server_url [-e extension] [-o
output] [-v] [-d] [-k private_key.pem] [-p
key_password] [-c client_cert.pem] [-C CA_certs.pem]
[-P CA_path] [-r file:file...] [-g EGD_socket]
[request]...
The tsget command can be used for sending a timestamp
request, as specified in RFC 3161, to a timestamp server over HTTP or
HTTPS and storing the timestamp response in a file. This tool cannot be used
for creating the requests and verifying responses, you can use the OpenSSL
ts(1) command to do that. tsget can send several
requests to the server without closing the TCP connection if more than one
requests are specified on the command line.
The tool sends the following HTTP request for each timestamp
request:
POST url HTTP/1.1
User-Agent: OpenTSA tsget.pl/<version>
Host: <host>:<port>
Pragma: no-cache
Content-Type: application/timestamp-query
Accept: application/timestamp-reply
Content-Length: length of body
...binary request specified by the user...
tsget expects a response of type
application/timestamp-reply, which is written to a file without any
interpretation.
- -h server_url
- The URL of the HTTP/HTTPS server listening for timestamp requests.
- -e extension
- If the -o option is not given this argument specifies the extension
of the output files. The base name of the output file will be the same as
those of the input files. Default extension is '.tsr'. (Optional)
- -o output
- This option can be specified only when just one request is sent to the
server. The timestamp response will be written to the given output file.
'-' means standard output. In case of multiple timestamp requests or the
absence of this argument the names of the output files will be derived
from the names of the input files and the default or specified extension
argument. (Optional)
- -v
- The name of the currently processed request is printed on standard error.
(Optional)
- -d
- Switches on verbose mode for the underlying curl library. You can
see detailed debug messages for the connection. (Optional)
- -k private_key.pem
- (HTTPS) In case of certificate-based client authentication over HTTPS
<private_key.pem> must contain the private key of the user. The
private key file can optionally be protected by a passphrase. The
-c option must also be specified. (Optional)
- -p key_password
- (HTTPS) Specifies the passphrase for the private key specified by the
-k argument. If this option is omitted and the key is passphrase
protected tsget will ask for it. (Optional)
- -c client_cert.pem
- (HTTPS) In case of certificate-based client authentication over HTTPS
<client_cert.pem> must contain the X.509 certificate of the user.
The -k option must also be specified. If this option is not
specified no certificate-based client authentication will take place.
(Optional)
- -C CA_certs.pem
- (HTTPS) The trusted CA certificate store. The certificate chain of the
peer's certificate must include one of the CA certificates specified in
this file. Either option -C or option -P must be given in
case of HTTPS. (Optional)
- -P CA_path
- (HTTPS) The path containing the trusted CA certificates to verify the
peer's certificate. The directory must be prepared with the
c_rehash OpenSSL utility. Either option -C or option
-P must be given in case of HTTPS. (Optional)
- -rand
file:file...
- The files containing random data for seeding the random number generator.
Multiple files can be specified, the separator is ; for MS-Windows,
, for VMS and : for all other platforms. (Optional)
- -g EGD_socket
- The name of an EGD socket to get random data from. (Optional)
- [request]...
- List of files containing RFC 3161 DER-encoded timestamp requests.
If no requests are specified only one request will be sent to the server
and it will be read from the standard input. (Optional)
The TSGET environment variable can optionally contain
default arguments. The content of this variable is added to the list of
command line arguments.
The examples below presume that file1.tsq and
file2.tsq contain valid timestamp requests, tsa.opentsa.org listens
at port 8080 for HTTP requests and at port 8443 for HTTPS requests, the TSA
service is available at the /tsa absolute path.
Get a timestamp response for file1.tsq over HTTP, output is
written to file1.tsr:
tsget -h http://tsa.opentsa.org:8080/tsa file1.tsq
Get a timestamp response for file1.tsq and file2.tsq over HTTP
showing progress, output is written to file1.reply and file2.reply
respectively:
tsget -h http://tsa.opentsa.org:8080/tsa -v -e .reply \
file1.tsq file2.tsq
Create a timestamp request, write it to file3.tsq, send it to the
server and write the response to file3.tsr:
openssl ts -query -data file3.txt -cert | tee file3.tsq \
| tsget -h http://tsa.opentsa.org:8080/tsa \
-o file3.tsr
Get a timestamp response for file1.tsq over HTTPS without client
authentication:
tsget -h https://tsa.opentsa.org:8443/tsa \
-C cacerts.pem file1.tsq
Get a timestamp response for file1.tsq over HTTPS with
certificate-based client authentication (it will ask for the passphrase if
client_key.pem is protected):
tsget -h https://tsa.opentsa.org:8443/tsa -C cacerts.pem \
-k client_key.pem -c client_cert.pem file1.tsq
You can shorten the previous command line if you make use of the
TSGET environment variable. The following commands do the same as the
previous example:
TSGET='-h https://tsa.opentsa.org:8443/tsa -C cacerts.pem \
-k client_key.pem -c client_cert.pem'
export TSGET
tsget file1.tsq
openssl(1), ts(1), curl(1), RFC
3161
Copyright 2006-2020 The OpenSSL Project Authors. All Rights
Reserved.
Licensed under the OpenSSL license (the "License"). You
may not use this file except in compliance with the License. You can obtain
a copy in the file LICENSE in the source distribution or at
<https://www.openssl.org/source/license.html>.