标签:
usage: run.py [options] args
-a, --agents=NUM_AGENTS : number of agents
-d, --duration=DURATION : test duration in seconds
-r, --rampup=RAMPUP : rampup in seconds
-i, --interval=INTERVAL : interval in milliseconds
-x, --xmlfile=TEST_CASE_XML : test case xml file
-o, --output_dir=PATH : output directory
-n, --name=TESTNAME : name of test
-l, --log_msgs : log messages
-b, --blocking : blocking mode
-g, --gui : start GUI
-p, --port=PORT : xml-rpc listening port
Pylot contains an XML-RPC server that can be launched so you can start tests with a remote client.
The file /core/config.py contains some global configuration options. You can set certain defauls and alter certain behavior here. These options here are overridden if specified on the command line.
AGENTS = 1
DURATION = 60 # secs
RAMPUP = 0 # secs
INTERVAL = 0 # millisecs
TC_XML_FILENAME = ‘testcases.xml‘
OUTPUT_DIR = None
TEST_NAME = None
LOG_MSGS = False
GENERATE_RESULTS = True
SHUFFLE_TESTCASES = False # randomize order of testcases per agent
WAITFOR_AGENT_FINISH = True # wait for last requests to complete before stopping
SMOOTH_TP_GRAPH = 1 # secs. smooth/dampen throughput graph based on an interval
SOCKET_TIMEOUT = 300 # secs
COOKIES_ENABLED = True
Test cases are declared in an XML file named "testcases.xml", or a different XML file specified on the command line. This is the format that the test engine understands.
A test case is defined using the following syntax. Only the URL element is required.
<case>
<url>URL</url>
<method>HTTP METHOD</method>
<body>REQUEST BODY CONTENT</body>
<add_header>ADDITIONAL HTTP HEADER</add_header>
<verify>STRING OR REGULAR EXPRESSION</verify>
<verify_negative>STRING OR REGULAR EXPRESSION</verify_negative>
<timer_group>TIMER GROUP NAME</timer_group>
</case>
Below is an example of the simplest possible test case file. It contains a single test case which will be executed continuously during the test run. The test case contains a URL for the service under test. Since no method or body defined, it will default to sending an HTTP GET to this resource. Since no verifications are defined, it will pass/fail the test case based on the HTTP status code it receives (pass if status is < 400).
<testcases>
<case>
<url>http://www.example.com/foo</url>
</case>
</testcases>
We can add positive and negative verifications. A positive verification is a string or regular expression that must be contained in the response body. A negative verification is a string or regular expression that must not be contained in the response body.
<case>
<url>http://www.goldb.org/foo</url>
<verify>Copyright.*Corey Goldberg</verify>
<verify_negative>Error</verify_negative>
<case>
Cookies are handled automatically. If a response is received with a "Set-cookie" header, the cookie will be set and passed back in the header of subsequent requests.
Yahoo offers various REST Web Services to access search results. In this example, I will show how to create Pylot test cases to interact with the REST API.
Here is a simple GET request against the service:
http://search.yahooapis.com/WebSearchService/V1/webSearch?appid=YahooDemo&query=foo
A Pylot test case for this request would look like this:
<case>
<url>http://search.yahooapis.com/WebSearchService/V1/webSearch?appid=YahooDemo&query=foo</url>
</case>
Notice that the ampersand (&) in the URL was escaped with the code: "&" This is done becasue certain characters ("<" and "&") are illegal in XML documents. Since we are definig test cases within an XML doc, we must either escape these with ampersand codes, or place them within a CDATA section.
Yahoo also allows the query parameters to be passed in the POST data block. In this case we must also change the "Content-type" HTTP header to: "application/x-www-form-urlencoded". (Pylot defaults to "text/xml")
Here is a POST request against the service:
<case>
<url>http://search.yahooapis.com/WebSearchService/V1/webSearch</url>
<method>POST</method>
<body><![CDATA[appid=YahooDemo&query=webinject]]></body>
<add_header>Content-type: application/x-www-form-urlencoded</add_header>
</case>
Now that we know how to create individual cases, we can create a test case file containing several of these. In this example, our test case file contains Yahoo web search queries for: "foo", "bar", "baz"
<testcases>
<case>
<url>http://search.yahooapis.com/WebSearchService/V1/webSearch?appid=YahooDemo&query=foo</url>
</case>
<case>
<url>http://search.yahooapis.com/WebSearchService/V1/webSearch?appid=YahooDemo&query=bar</url>
</case>
<case>
<url>http://search.yahooapis.com/WebSearchService/V1/webSearch?appid=YahooDemo&query=baz</url>
</case>
</testcases>
HTTP_DEBUG = False # only useful when combined with blocking mode BLOCKING = False # stdout blocked until test finishes, then result is returned as XML GUI = False
We can model our test cases to talk to any HTTP API. This example shows how you could send requests to a SOAP service. The SOAP envelope we need to send will be enclosed in the HTTP POST body.
<case>
<url>http://www.example.org/StockPrice</url>
<method>POST</method>
<add_header>Content-Type: application/soap+xml; charset=utf-8</add_header>
<body><!
[CDATA[
<!-- This is the SOAP Envelope -->
<?xml version="1.0"?>
<soap:Envelope xmlns:soap="http://www.w3.org/2001/12/soap-envelope"
soap:encodingStyle="http://www.w3.org/2001/12/soap-encoding">
<soap:Body xmlns:m="http://www.example.org/stock">
<m:GetStockPrice>
<m:StockName>IBM</m:StockName>
</m:GetStockPrice>
</soap:Body>
</soap:Envelope>
]]>
</body>
</case>
You can define global parameters in your test case file. This is useful if you have a value shared among several test cases that you change often. In the example below, we define an "http_server" parameter and then use that token in a test case.
<testcases>
<param name="http_server" value="http://www.example.com" />
<case>
<url>${http_server}/foo</url>
</case>
</testcases>
You may want to store POST data in an external file rather than declaring it directly in your testcase XML file. This is useful if you have very large POST BODYs or want to send binary data which can not be embedded in XML. Use the syntax below to pull data from a file and POST it at runtime.
<case>
<url>http://www.example.com/foo</url>
<method>POST</method>
<body file="./myfile.dat"></body>
</case>
Define a workload using the controls on the UI. Using the options below. you can create a steady-state or increasing load test.
At the end of a test run, an HTML report is automatically generated, showing test results and graphs.
When a test is finished, a results directory is created and a report is automatically generated to summarize the test results. It includes various statistics and graphs for response times and throughput. A sample of the results report can be seen here:
Pylot also writes results to CSV text files so you can import them into your favorite spreadsheet to crunch numbers, generate statistics, and create graphs.
Clients can be developed in any programming language that supports XML-RPC. Below are example clients in Python and Perl.
#!/usr/bin/env python
import xmlrpclib
host = ‘http://myhost‘
port = ‘8888‘
server = xmlrpclib.Server(‘%s:%s‘ % (host, port))
response = server.start()
print response
#!/usr/bin/perl -w
use strict;
use Frontier::Client;
my $host = ‘http://myhost‘;
my $port = ‘8888‘;
my $server = Frontier::Client->new(‘url‘ => "$host:$port");
my $response = $server->call(‘start‘);
print $response;
标签:
原文地址:http://www.cnblogs.com/saryli/p/4230342.html