Signed URL Plugin

注釈

The URL Sig protocol is old and unlikely to be standardized. Prefer URI Signing Plugin.

This plugin checks a signature query string on a URL and rejects (HTTP 403) or redirects (HTTP 302) when the check fails. The signature is based on a secret key that both a signing portal and the Traffic Server cache share. The algorithm for the signature may be either MD5 or SHA1. When the signature check passes, the query string of the request is stripped and continues to process as if there were no query string at all.

Installation

To make this plugin available, you must enable experimental plugins when building Traffic Server by passing the -DBUILD_EXPERIMENTAL_PLUGINS=ON to the cmake command when building.

Configuration

Configuring URL signature verification within Traffic Server using this plugin is a two step process. First, you must generate a configuration file containing the list of valid signing keys. Secondly, you must indicate to Traffic Server which URLs require valid signatures.

Generating Keys

This plugin comes with two Perl scripts which assist in generating signatures. For Traffic Server to verify URL signatures, it must have the relevant keys. Using the provided genkeys script, you can generate a suitable configuration file:

./genkeys.pl > url_sig.config

The resulting file will look something like the following, with the actual keys differing (as they are generated randomly each time the script is run):

key0 = YwG7iAxDo6Gaa38KJOceV4nsxiAJZ3DS
key1 = nLE3SZKRgaNM9hLz_HnIvrCw_GtTUJT1
key2 = YicZbmr6KlxfxPTJ3p9vYhARdPQ9WJYZ
key3 = DTV4Tcn046eM9BzJMeYrYpm3kbqOtBs7
key4 = C1r6R6MINoQd5YSH25fU66tuRhhz3fs_
key5 = l4dxe6YEpYbJtyiOmX5mafhwKImC5kej
key6 = ekKNHXu9_oOC5eqIGJVxV0vI9FYvKVya
key7 = BrjibTmpTTuhMHqphkQAuCWA0Zg97WQB
key8 = rEtWLb1jcYoq9VG8Z8TKgX4GxBuro20J
key9 = mrP_6ibDBG4iYpfDB6W8yn3ZyGmdwc6M
key10 = tbzoTTGZXPLcvpswCQCYz1DAIZcAOGyX
key11 = lWsn6gUeSEW79Fk2kwKVfzhVG87EXLna
key12 = Riox0SmGtBWsrieLUHVWtpj18STM4MP1
key13 = kBsn332B7yG3HdcV7Tw51pkvHod7_84l
key14 = hYI4GUoIlZRf0AyuXkT3QLvBMEoFxkma
key15 = EIgJKwIR0LU9CUeTUdVtjMgGmxeCIbdg
error_url = 403

This file should be placed in your Traffic Server etc directory, with permissions and ownership set such that only the Traffic Server processes may read it.

重要

The configuration file contains the full set of secret keys which Traffic Server will be using to verify incoming requests, and as such should be treated with as much care as any other file in your infrastructure containing keys, pass phrases, and other sensitive data. Unauthorized access to the contents of this file will allow others to spoof requests from your signing portal, thus defeating the entire purpose of using a signing portal in the first place.

Requiring Signatures on URLs

To require a valid signature, verified by a key from the list you generated earlier, modify your remap.config configuration to include this plugin for any rules you wish it to affect.

Two parameters for each remap rule are required, and a third one is optional:

@plugin=url_sig.so @pparam=<config file> @pparam=pristineurl

The first simply enables this plugin for the rule. The second specifies the location of the configuration file containing your signing keys. The third one, if present, causes authentication to be performed on the original (pristine) URL as received from the client. (The value of the parameter is not case sensitive.)

For example, if we wanted to restrict all paths under a /download directory on our website foo.com we might have a remap line like this:

map http://foo.com/download/ http://origin.server.tld/download/ \
    @plugin=url_sig.so @pparam=url_sig.config

注釈

To be consistent, the config file option pristine = true should be preferred over using a plugin argument.

Signing a URL

Signing a URL is solely the responsibility of your signing portal service. This requires that whatever application runs that service must also have a list of your signing keys (generated earlier in Configuration and stored in the url_sig.config file in your Traffic Server configuration directory). How your signing portal application is informed about, or stores, these keys is up to you, but it is critical that the keyN index numbers are matched to the same keys.

Signing is performed by adding several query parameters to a URL, before redirecting the client. The parameters' values are all generated by your signing portal application, and then a hash is calculated by your portal, using the entire URL just constructed, and attached as the final query parameter.

注釈

Ordering is important when adding the query parameters and generating the signature. The signature itself is a hash, using your chosen algorithm, of the entire URL to which you are about to redirect the client, up to and including the S= substring indicating the signature parameter.

The following list details all the query parameters you must add to the URL you will hand back to the client for redirection.

Client IP

The IP address of the client being redirected. This must be their IP as it will appear to your Traffic Server cache. Both IP v4 and v6 addresses are supported:

C=<ip address>
Expiration

The time at which this signature will no longer be valid, expressed in seconds since epoch (and thus in UTC):

E=<seconds since epoch expiration>
Algorithm

The hash algorithm which your signing portal application has elected to use for this signature:

A=<algorithm number>

The only supported values at this time are:

Value

Algorithm

1

HMAC_SHA1

2

HMAC_MD5

Key Index

The key number, from your plugin configuration, which was used for this signature. See Configuration for generating these keys and determining the index number of each:

K=<key number>
Parts

Configures which components of the URL to use for signature verification. The value of this parameter is a string of ones and zeros, each enabling or disabling the use of a URL part for signatures. The URL scheme (e.g. http://) is never part of the signature. The first number of this parameter's value indicates whether to include the FQDN, and all remaining numbers determine whether to use the directory parts of the URL. If there are more directories in the URL than there are numbers in this parameter, the last number is repeated as many times as necessary:

P=<parts specification>

Examples include:

Value

Effect

1

Use the FQDN and all directory parts for signature verification.

01

Ignore the FQDN, but verify using all directory parts.

0110

Ignore the FQDN, and use only the first two directory parts, skipping the remainder, for signatures.

110

Use the FQDN and first directory for signature verification, but ignore the remainder of the path.

Signature

The actual signature hash:

S=<signature hash>

The hash should be calculated in accordance with the parts specification you have declared in the P= query parameter, which if you have chosen any value other than 1 may require additional URL parsing be performed by your signing portal.

Additionally, all query parameters up to and including the S= substring for this parameter must be included, and must be in the same order as they are returned to the client for redirection. For obvious reasons, the value of this parameter is not included in the source string being hashed.

As a simple example, if we are about to redirect a client to the URL https://foo.com/downloads/expensive-app.exe with signature verification enabled, then we will compute a signature on the following string:

foo.com/downloads/expensive-app.exe?C=1.2.3.4&E=1453846938&A=1&K=2&P=1&S=

And, assuming that key2 from our secrets file matches our example in Configuration, then our signature becomes:

8c5cfa440458233452ee9b5b570063a0e71827f2

Which is then appended to the URL for redirection as the value of the S parameter.

For an example implementation of signing which may be adapted for your own portal, refer to the file sign.pl included with the source code of this plugin.

Signature query parameters embedded in the URL path.

Optionally signature query parameters may be embedded in an opaque base64 encoded container embedded in the URL path. The format is a semicolon, siganchor string, base64 encoded string. url_sig automatically detects the use of embedded path parameters. The following example shows how to generate an embedded path parameters with sign.pl:

./sign.pl --url "http://test-remap.domain.com/vod/t/prog_index.m3u8?appid=2&t=1" --useparts 1 \
--algorithm 1 --duration 86400 --key kSCE1_uBREdGI3TPnr_dXKc9f_J4ZV2f --pathparams --siganchor urlsig

curl -s -o /dev/null -v --max-redirs 0 'http://test-remap.domain.com/vod/t;urlsig=O0U9MTQ2MzkyOTM4NTtBPTE7Sz0zO1A9MTtTPTIxYzk2YWRiZWZk'

Other Config File Options

In addition to the keys and error_url, the following options are supported in the configuration file:

sig_anchor
    signed anchor string token in url
    default: no anchor

excl_regex
    pcre regex for urls that aren't signed.
    default: no regex

url_type
    which url to match against
    pristine or remap
    default: remap

 ignore_expiry
    option which assists in testing where the timestamp check is skipped
    DO NOT run with this set in production!
    default: false

Example:

sig_anchor = urlsig
excl_regex = (/crossdomain.xml|/clientaccesspolicy.xml|/test.html)
url_type = pristine
ignore_expiry = true

Edge Cache Debugging

To include debugging output for this plugin in your Traffic Server logs, adjust the values for proxy.config.diags.debug.enabled and proxy.config.diags.debug.tags in your records.yaml as so:

records:
  diags:
    debug:
      enabled: 1
      tags: url_sig

Once updated, issue a traffic_ctl config reload to make the settings active.

Example

  1. Enable experimental plugins when building Traffic Server by by passing the -DBUILD_EXPERIMENTAL_PLUGINS=ON to the cmake command.

  2. Generate a secrets configuration for Traffic Server (replacing the output location with something appropriate to your Traffic Server installation):

    genkeys.pl  > /usr/local/trafficserver/etc/trafficserver/url_sig.config
    
  3. Verify that your configuration looks like the following, with actual key values altered:

    key0 = YwG7iAxDo6Gaa38KJOceV4nsxiAJZ3DS
    key1 = nLE3SZKRgaNM9hLz_HnIvrCw_GtTUJT1
    key2 = YicZbmr6KlxfxPTJ3p9vYhARdPQ9WJYZ
    key3 = DTV4Tcn046eM9BzJMeYrYpm3kbqOtBs7
    key4 = C1r6R6MINoQd5YSH25fU66tuRhhz3fs_
    key5 = l4dxe6YEpYbJtyiOmX5mafhwKImC5kej
    key6 = ekKNHXu9_oOC5eqIGJVxV0vI9FYvKVya
    key7 = BrjibTmpTTuhMHqphkQAuCWA0Zg97WQB
    key8 = rEtWLb1jcYoq9VG8Z8TKgX4GxBuro20J
    key9 = mrP_6ibDBG4iYpfDB6W8yn3ZyGmdwc6M
    key10 = tbzoTTGZXPLcvpswCQCYz1DAIZcAOGyX
    key11 = lWsn6gUeSEW79Fk2kwKVfzhVG87EXLna
    key12 = Riox0SmGtBWsrieLUHVWtpj18STM4MP1
    key13 = kBsn332B7yG3HdcV7Tw51pkvHod7_84l
    key14 = hYI4GUoIlZRf0AyuXkT3QLvBMEoFxkma
    key15 = EIgJKwIR0LU9CUeTUdVtjMgGmxeCIbdg
    error_url = 403
    
  4. Enable signature verification for a remap rule in Traffic Server by modifying remap.config (here we will just remap to Google's homepage for demonstrative purposes):

    map http://test-remap.domain.com/download/foo http://google.com \
        @plugin=url_sig.so @pparam=url_sig.config
    
  5. Reload your Traffic Server configuration to ensure the changes are active:

    traffic_ctl config reload
    
  6. Attempt to access the now-protected URL without a valid signature. This will fail, and that is a good thing, as it demonstrates that Traffic Server now rejects any requests to paths matching that rule which do not include a valid signature.:

    $ curl -vs -H'Host: test-remap.domain.com' http://localhost:8080/download/foo
    * Adding handle: conn: 0x200f8a0
    * Adding handle: send: 0
    * Adding handle: recv: 0
    * Curl_addHandleToPipeline: length: 1
    * - Conn 0 (0x200f8a0) send_pipe: 1, recv_pipe: 0
    * About to connect() to localhost port 8080 (#0)
    *   Trying 127.0.0.1...
    * Connected to localhost (127.0.0.1) port 8080 (#0)
    > GET /download/foo HTTP/1.1
    > User-Agent: curl/7.32.0
    > Accept: */*
    > Host: test-remap.domain.com
    >
    < HTTP/1.1 403 Forbidden
    < Date: Tue, 15 Apr 2014 22:57:32 GMT
    < Connection: close
    * Server ATS/5.0.0 is not blacklisted
    < Server: ATS/5.0.0
    < Cache-Control: no-store
    < Content-Type: text/plain
    < Content-Language: en
    < Content-Length: 21
    <
    * Closing connection 0
    Authorization Denied$
    
  7. Generate a signed URL using the included sign.pl script:

    sign.pl --url http://test-remap.domain.com/download/foo \
        --useparts 1 --algorithm 1 --duration 60 --keyindex 3 \
        --key DTV4Tcn046eM9BzJMeYrYpm3kbqOtBs7
    
  8. Now access the protected URL with a valid signature:

    $ curl -s -o /dev/null -v --max-redirs 0 -H 'Host: test-remap.domain.com' \
        'http://test-remap.domain.com/download/foo?E=1453848506&A=1&K=3&P=1&S=7aea86592de3e9c1b05771b2538a30956c6f10a3'
    * Adding handle: conn: 0xef0a90
    * Adding handle: send: 0
    * Adding handle: recv: 0
    * Curl_addHandleToPipeline: length: 1
    * - Conn 0 (0xef0a90) send_pipe: 1, recv_pipe: 0
    * About to connect() to localhost port 8080 (#0)
    *   Trying 127.0.0.1...
    * Connected to localhost (127.0.0.1) port 8080 (#0)
    > GET /download/foo?E=1397603088&A=1&K=3&P=1&S=28d822f68ac7265db61a8441e0877a98fe1007cc HTTP/1.1
    > User-Agent: curl/7.32.0
    > Accept: */*
    > Host: test-remap.domain.com
    >
    < HTTP/1.1 200 OK
    < Location: http://www.google.com/
    < Content-Type: text/html; charset=UTF-8
    < Date: Tue, 15 Apr 2014 23:04:36 GMT
    < Expires: Thu, 15 May 2014 23:04:36 GMT
    < Cache-Control: public, max-age=2592000
    * Server ATS/5.0.0 is not blacklisted
    < Server: ATS/5.0.0
    < Content-Length: 219
    < X-XSS-Protection: 1; mode=block
    < X-Frame-Options: SAMEORIGIN
    < Alternate-Protocol: 80:quic
    < Age: 0
    < Connection: keep-alive
    <
    { [data not shown]
    * Connection #0 to host localhost left intact