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#!/usr/bin/ruby1.8 -I./bin/ -I../bin/
require 'json'
require 'test/unit'
load 'custodian-enqueue'
#
# Unit test for our parser.
#
class TestParser < Test::Unit::TestCase
#
# Create the test suite environment: NOP.
#
def setup
end
#
# Destroy the test suite environment: NOP.
#
def teardown
end
#
# Test we can create a new parser object - specifically
# that it throws exceptions if it is not given a filename
# that exists.
#
def test_init
#
# Missing filename -> Exception
#
assert_raise ArgumentError do
MonitorConfig.new()
end
#
# Filename points to file that doesn't exist -> Exception
#
assert_raise ArgumentError do
MonitorConfig.new("/file/doesn't/exist")
end
#
# File that exists -> No Exception.
#
assert_nothing_raised do
MonitorConfig.new("/dev/null" )
end
end
#
# Test that we can define macros.
#
def test_macros
parser = MonitorConfig.new("/dev/null" )
#
# With nothing loaded we should have zero macros - so the
# count of our macros hash should be zero
#
macros = parser.macros
assert( macros.empty? )
assert( macros.size() == 0 )
#
# Define a macro:
#
# FOO => "kvm1.vm.bytemark.co.uk", "kvm2.vm.bytemark.co.uk".
#
# Before defining it double-check it doesn't exist
#
assert( !(parser.is_macro?( "FOO" )) )
#
# Add it.
#
ret = parser.define_macro( "FOO is kvm1.vm.bytemark.co.uk and kvm2.vm.bytemark.co.uk." )
#
# The return value should be an array containing the values we added.
#
assert( ret.class.to_s == "Array" )
assert( ret.size == 2 )
assert( ret.include?( "kvm1.vm.bytemark.co.uk" ) )
assert( ret.include?( "kvm2.vm.bytemark.co.uk" ) )
#
# OK we should now have a single macro defined.
#
macros = parser.macros
assert( macros.size() == 1 )
#
# The macro name "FOO" should exist
#
assert( parser.is_macro?( "FOO" ) )
#
# The contents of the FOO macro should have the value we expect
#
val = parser.get_macro_targets( "FOO" )
assert( val.size() == 2 )
assert( val.include?( "kvm1.vm.bytemark.co.uk" ) )
assert( val.include?( "kvm2.vm.bytemark.co.uk" ) )
#
# Add a macro, using the parser directly.
#
# Before defining it double-check it doesn't exist
#
assert( !(parser.is_macro?( "BAR" )) )
#
# Add it.
#
ret = parser.parse_line( "BAR is example.vm.bytemark.co.uk and www.bytemark.co.uk." )
#
# The return value should be an array containing the values
# we added.
#
assert( ret.class.to_s == "Array" )
assert( ret.size == 2 )
assert( ret.include?( "example.vm.bytemark.co.uk" ) )
assert( ret.include?( "www.bytemark.co.uk" ) )
#
# OK we should now have two macros defined.
#
macros = parser.macros
assert( macros.size() == 2 )
#
# The macro name "BAR" should exist
#
assert( parser.is_macro?( "BAR" ) )
#
# The contents of the BAR macro should have the value we expect
#
val = parser.get_macro_targets( "BAR" )
assert( val.size() == 2 )
assert( val.include?( "example.vm.bytemark.co.uk" ) )
assert( val.include?( "www.bytemark.co.uk" ) )
end
#
# Test that we can define macros with only a single host.
#
def test_short_macros
parser = MonitorConfig.new("/dev/null" )
#
# With nothing loaded we should have zero macros - so the
# count of our macros hash should be zero
#
macros = parser.macros
assert( macros.empty? )
assert( macros.size() == 0 )
#
# Define a macro:
#
# FOO => "kvm1.vm.bytemark.co.uk".
#
# Before defining it double-check it doesn't exist
#
assert( !(parser.is_macro?( "FOO" )) )
#
# Add it.
#
ret = parser.define_macro( "FOO is kvm1.vm.bytemark.co.uk." )
#
# The return value should be an array containing the values we added.
#
assert( ret.class.to_s == "Array" )
assert( ret.size == 1 )
assert( ret.include?( "kvm1.vm.bytemark.co.uk" ) )
#
# OK we should now have a single macro defined.
#
macros = parser.macros
assert( macros.size() == 1 )
#
# Add a macro, using the parser directly.
#
# Before defining it double-check it doesn't exist
#
assert( !(parser.is_macro?( "BAR_HOSTS" )) )
#
# Add it.
#
ret = parser.parse_line( "BAR_HOSTS are example.vm.bytemark.co.uk." )
#
# The return value should be an array containing the single value
# we added.
#
assert( ret.class.to_s == "Array" )
assert( ret.size == 1 )
assert( ret.include?( "example.vm.bytemark.co.uk" ) )
#
# OK we should now have two macros defined.
#
macros = parser.macros
assert( macros.size() == 2 )
#
# The macro name "BAR_HOSTS" should exist
#
assert( parser.is_macro?( "BAR_HOSTS" ) )
#
# The contents of the BAR macro should have the single value we expect.
#
val = parser.get_macro_targets( "BAR_HOSTS" )
assert( val.size() == 1 )
assert( val.include?( "example.vm.bytemark.co.uk" ) )
end
def test_misc_macro
parser = MonitorConfig.new("/dev/null" )
#
# With nothing loaded we should have zero macros - so the
# count of our macros hash should be zero
#
macros = parser.macros
assert( macros.empty? )
assert( macros.size() == 0 )
parser.parse_line( "FRONTLINESTAGING2 is 89.16.186.138 and 89.16.186.139 and 89.16.186.148." )
macros = parser.macros
assert( macros.size() == 1 )
#
# Test that we got a suitable value.
#
values = parser.get_macro_targets( "FRONTLINESTAGING2" )
assert(values.class.to_s == "Array" )
end
#
# Test that we can define tests which expand macros successfully.
#
def test_adding_tests
parser = MonitorConfig.new("/dev/null" )
#
# Adding a test should return an array - an array of JSON strings.
#
ret = parser.parse_line( "example.vm.bytemark must run ssh otherwise 'I hate you'." )
assert_equal( ret.class.to_s, "Array" )
assert_equal( ret.size(), 1 )
#
# Define a macro - such that a single added test will become
# several indivual tests.
#
parser.parse_line( "MACRO is kvm1.vm.bytemark.co.uk and kvm1.vm.bytemark.co.uk and kvm3.vm.bytemark.co.uk." )
assert( parser.is_macro?( "MACRO") )
#
# Now add a ping-test against that macro
#
ret = parser.parse_line( "MACRO must run ping otherwise 'ping failure'." )
#
# The resulting array should contain three JSON strings.
#
assert_equal( ret.class.to_s, "Array" )
assert_equal( ret.size(),3 )
#
# Ensure we look like valid JSON, and contains the correct hostnames.
#
ret.each do |test|
assert( test =~ /^\{/ )
assert( test =~ /(kvm1|kvm2|kvm3)\.vm.bytemark.co.uk/ )
end
#
# Now add more alerts, and ensure we find something sane:
#
# 1. The addition should be JSON.
#
# 2. The addition should have the correct test-type
#
%w( dns ftp http https jabber ldap ping rsync ssh smtp ).each do |name|
ret = parser.parse_line( "MACRO must run #{name} otherwise '#{name} failure'." )
#
# The resulting array should contain three JSON strings.
#
assert_equal( ret.class.to_s, "Array" )
assert_equal( ret.size(),3 )
#
# The test-type should be set to the correct test.
#
ret.each do |test|
#
# Look for valid-seeming JSON with a string match
#
assert( test =~ /^\{/ )
assert( test =~ /"test_type":"#{name}"/ )
#
# Deserialize and look for a literal match
#
hash = JSON.parse( test )
assert( hash['test_type'] == name )
end
end
end
#
# Most services define a default port. Ensure that is correct.
#
def test_default_ports
expected = {
"dns" => 53,
"ftp" => 21,
"ldap" => 389,
"jabber" => 5222,
"http" => 80,
"rsync" => 873,
"smtp" => 25,
"ssh" => 22,
}
#
# Create the helper
#
parser = MonitorConfig.new("/dev/null" )
#
# Run through our cases
#
expected.each do |test,port|
#
# Adding a test should return an array - an array of JSON strings.
#
ret = parser.parse_line( "example.vm.bytemark must run #{test} otherwise 'fail'." )
assert_equal( ret.class.to_s, "Array" )
assert_equal( ret.size(), 1 )
#
# Get the (sole) member of the array
#
addition = ret[0]
#
# Look for the correct port in our JSON.
#
assert( addition =~ /"test_port":#{port}/ )
#
# Deserialize and look for a literal match.
#
hash = JSON.parse( addition )
assert( hash['test_port'] == port )
end
end
#
# Comment-handling
#
def test_adding_comments
parser = MonitorConfig.new("/dev/null" )
#
# Adding comments should result in a nil return value.
#
assert( parser.parse_line( "# This is a comment" ).nil? )
assert( parser.parse_line( "\n" ).nil? )
assert( parser.parse_line( "" ).nil? )
assert( parser.parse_line( nil ).nil? )
end
end
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