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|
// Copyright (C) 2015-2016 Internet Systems Consortium, Inc. ("ISC")
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
#include <config.h>
#include <fstream>
#include <eval/token.h>
#include <eval/eval_context.h>
#include <dhcp/pkt4.h>
#include <dhcp/pkt6.h>
#include <dhcp/dhcp4.h>
#include <dhcp/dhcp6.h>
#include <dhcp/option_string.h>
#include <dhcp/option_vendor.h>
#include <dhcp/option_vendor_class.h>
#include <log/logger_manager.h>
#include <log/logger_name.h>
#include <log/logger_support.h>
#include <testutils/log_utils.h>
#include <boost/shared_ptr.hpp>
#include <boost/scoped_ptr.hpp>
#include <gtest/gtest.h>
#include <arpa/inet.h>
using namespace std;
using namespace isc::dhcp;
using namespace isc::asiolink;
using namespace isc::log;
using namespace isc::dhcp::test;
namespace {
/// @brief Test fixture for testing Tokens.
///
/// This class provides several convenience objects to be used during testing
/// of the Token family of classes.
class TokenTest : public LogContentTest {
public:
/// @brief Initializes Pkt4, Pkt6 and options that can be useful for
/// evaluation tests.
TokenTest() {
pkt4_.reset(new Pkt4(DHCPDISCOVER, 12345));
pkt6_.reset(new Pkt6(DHCPV6_SOLICIT, 12345));
// Add options with easily identifiable strings in them
option_str4_.reset(new OptionString(Option::V4, 100, "hundred4"));
option_str6_.reset(new OptionString(Option::V6, 100, "hundred6"));
pkt4_->addOption(option_str4_);
pkt6_->addOption(option_str6_);
// Change this to true if you need extra information about logging
// checks to be printed.
logCheckVerbose(false);
}
/// @brief Inserts RAI option with several suboptions
///
/// The structure inserted is:
/// - RAI (option 82)
/// - option 1 (containing string "one")
/// - option 13 (containing string "thirteen")
void insertRelay4Option() {
// RAI (Relay Agent Information) option
OptionPtr rai(new Option(Option::V4, DHO_DHCP_AGENT_OPTIONS));
OptionPtr sub1(new OptionString(Option::V4, 1, "one"));
OptionPtr sub13(new OptionString(Option::V4, 13, "thirteen"));
rai->addOption(sub1);
rai->addOption(sub13);
pkt4_->addOption(rai);
}
/// @brief Adds relay encapsulations with some suboptions
///
/// This will add 2 relay encapsulations all will have
/// msg_type of RELAY_FORW
/// Relay 0 (closest to server) will have
/// linkaddr = peeraddr = 0, hop-count = 1
/// option 100 "hundred.zero", option 101 "hundredone.zero"
/// Relay 1 (closest to client) will have
/// linkaddr 1::1= peeraddr = 1::2, hop-count = 0
/// option 100 "hundred.one", option 102 "hundredtwo.one"
void addRelay6Encapsulations() {
// First relay
Pkt6::RelayInfo relay0;
relay0.msg_type_ = DHCPV6_RELAY_FORW;
relay0.hop_count_ = 1;
relay0.linkaddr_ = isc::asiolink::IOAddress("::");
relay0.peeraddr_ = isc::asiolink::IOAddress("::");
OptionPtr optRelay01(new OptionString(Option::V6, 100,
"hundred.zero"));
OptionPtr optRelay02(new OptionString(Option::V6, 101,
"hundredone.zero"));
relay0.options_.insert(make_pair(optRelay01->getType(), optRelay01));
relay0.options_.insert(make_pair(optRelay02->getType(), optRelay02));
pkt6_->addRelayInfo(relay0);
// Second relay
Pkt6::RelayInfo relay1;
relay1.msg_type_ = DHCPV6_RELAY_FORW;
relay1.hop_count_ = 0;
relay1.linkaddr_ = isc::asiolink::IOAddress("1::1");
relay1.peeraddr_ = isc::asiolink::IOAddress("1::2");
OptionPtr optRelay11(new OptionString(Option::V6, 100,
"hundred.one"));
OptionPtr optRelay12(new OptionString(Option::V6, 102,
"hundredtwo.one"));
relay1.options_.insert(make_pair(optRelay11->getType(), optRelay11));
relay1.options_.insert(make_pair(optRelay12->getType(), optRelay12));
pkt6_->addRelayInfo(relay1);
}
/// @brief Verify that the relay6 option evaluatiosn work properly
///
/// Given the nesting level and option code extract the option
/// and compare it to the expected string.
///
/// @param test_level The nesting level
/// @param test_code The code of the option to extract
/// @param result_addr The expected result of the address as a string
void verifyRelay6Option(const uint8_t test_level,
const uint16_t test_code,
const TokenOption::RepresentationType& test_rep,
const std::string& result_string) {
// Create the token
ASSERT_NO_THROW(t_.reset(new TokenRelay6Option(test_level,
test_code,
test_rep)));
// We should be able to evaluate it
EXPECT_NO_THROW(t_->evaluate(*pkt6_, values_));
// We should have one value on the stack
ASSERT_EQ(1, values_.size());
// And it should match the expected result
// Invalid nesting levels result in a 0 length string
EXPECT_EQ(result_string, values_.top());
// Then we clear the stack
clearStack();
}
/// @brief Verify that the relay6 field evaluations work properly
///
/// Given the nesting level, the field to extract and the expected
/// address create a token and evaluate it then compare the addresses
///
/// @param test_level The nesting level
/// @param test_field The type of the field to extract
/// @param result_addr The expected result of the address as a string
void verifyRelay6Eval(const uint8_t test_level,
const TokenRelay6Field::FieldType test_field,
const int result_len,
const uint8_t result_addr[]) {
// Create the token
ASSERT_NO_THROW(t_.reset(new TokenRelay6Field(test_level, test_field)));
// We should be able to evaluate it
EXPECT_NO_THROW(t_->evaluate(*pkt6_, values_));
// We should have one value on the stack
ASSERT_EQ(1, values_.size());
// And it should match the expected result
// Invalid nesting levels result in a 0 length string
EXPECT_EQ(result_len, values_.top().size());
if (result_len != 0) {
EXPECT_EQ(0, memcmp(result_addr, &values_.top()[0], result_len));
}
// Then we clear the stack
clearStack();
}
/// @brief Convenience function. Removes token and values stacks.
/// @param token specifies if the convenience token should be removed or not
void clearStack(bool token = true) {
while (!values_.empty()) {
values_.pop();
}
if (token) {
t_.reset();
}
}
/// @brief Aux. function that stores integer values as 4 byte string.
///
/// @param value integer value to be stored
/// @return 4 byte long string with encoded value.
string encode(uint32_t value) {
return EvalContext::fromUint32(value);
}
TokenPtr t_; ///< Just a convenience pointer
ValueStack values_; ///< evaluated values will be stored here
Pkt4Ptr pkt4_; ///< A stub DHCPv4 packet
Pkt6Ptr pkt6_; ///< A stub DHCPv6 packet
OptionPtr option_str4_; ///< A string option for DHCPv4
OptionPtr option_str6_; ///< A string option for DHCPv6
OptionVendorPtr vendor_; ///< Vendor option used during tests
OptionVendorClassPtr vendor_class_; ///< Vendor class option used during tests
/// @brief Verify that the substring eval works properly
///
/// This function takes the parameters and sets up the value
/// stack then executes the eval and checks the results.
///
/// @param test_string The string to operate on
/// @param test_start The position to start when getting a substring
/// @param test_length The length of the substring to get
/// @param result_string The expected result of the eval
/// @param should_throw The eval will throw
void verifySubstringEval(const std::string& test_string,
const std::string& test_start,
const std::string& test_length,
const std::string& result_string,
bool should_throw = false) {
// create the token
ASSERT_NO_THROW(t_.reset(new TokenSubstring()));
// push values on stack
values_.push(test_string);
values_.push(test_start);
values_.push(test_length);
// evaluate the token
if (should_throw) {
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalTypeError);
ASSERT_EQ(0, values_.size());
} else {
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
// verify results
ASSERT_EQ(1, values_.size());
EXPECT_EQ(result_string, values_.top());
// remove result
values_.pop();
}
}
/// @brief Creates vendor-option with specified value and adds it to packet
///
/// This method creates specified vendor option, removes any existing
/// vendor options and adds the new one to v4 or v6 packet.
///
/// @param u universe (V4 or V6)
/// @param vendor_id specifies enterprise-id value.
void setVendorOption(Option::Universe u, uint32_t vendor_id) {
vendor_.reset(new OptionVendor(u, vendor_id));
switch (u) {
case Option::V4:
pkt4_->delOption(DHO_VIVSO_SUBOPTIONS);
pkt4_->addOption(vendor_);
break;
case Option::V6:
pkt6_->delOption(D6O_VENDOR_OPTS);
pkt6_->addOption(vendor_);
break;
}
}
/// @brief Creates vendor-class option with specified values and adds it to packet
///
/// This method creates specified vendor-class option, removes any existing
/// vendor class options and adds the new one to v4 or v6 packet.
/// It also creates data tuples with greek alphabet names.
///
/// @param u universe (V4 or V6)
/// @param vendor_id specifies enterprise-id value.
/// @param tuples_size number of data tuples to create.
void setVendorClassOption(Option::Universe u, uint32_t vendor_id,
size_t tuples_size = 0) {
// Create the option first.
vendor_class_.reset(new OptionVendorClass(u, vendor_id));
// Now let's add specified number of data tuples
OpaqueDataTuple::LengthFieldType len = (u == Option::V4?OpaqueDataTuple::LENGTH_1_BYTE:
OpaqueDataTuple::LENGTH_2_BYTES);
const char* content[] = { "alpha", "beta", "delta", "gamma", "epsilon",
"zeta", "eta", "theta", "iota", "kappa" };
const size_t nb_content = sizeof(content) / sizeof(char*);
ASSERT_TRUE(tuples_size < nb_content);
for (size_t i = 0; i < tuples_size; ++i) {
OpaqueDataTuple tuple(len);
tuple.assign(string(content[i]));
if (u == Option::V4 && i == 0) {
// vendor-class for v4 has a peculiar quirk. The first tuple is being
// added, even if there's no data at all.
vendor_class_->setTuple(0, tuple);
} else {
vendor_class_->addTuple(tuple);
}
}
switch (u) {
case Option::V4:
pkt4_->delOption(DHO_VIVCO_SUBOPTIONS);
pkt4_->addOption(vendor_class_);
break;
case Option::V6:
pkt6_->delOption(D6O_VENDOR_CLASS);
pkt6_->addOption(vendor_class_);
break;
}
}
/// @brief Auxiliary function that evaluates tokens and checks result
///
/// Depending on the universe, either pkt4_ or pkt6_ are supposed to have
/// all the necessary values and options set. The result is checked
/// on the values_ stack.
///
/// @param u universe (V4 or V6)
/// @param expected_result text representation of the expected outcome
void evaluate(Option::Universe u, std::string expected_result) {
switch (u) {
case Option::V4:
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
break;
case Option::V6:
EXPECT_NO_THROW(t_->evaluate(*pkt6_, values_));
break;
default:
ADD_FAILURE() << "Invalid universe specified.";
}
ASSERT_EQ(1, values_.size());
EXPECT_EQ(expected_result, values_.top());
}
/// @brief Tests if vendor token behaves properly.
///
/// @param u universe (V4 or V6)
/// @param token_vendor_id enterprise-id used in the token
/// @param option_vendor_id enterprise-id used in option (0 means don't
/// create the option)
/// @param expected_result text representation of the expected outcome
void testVendorExists(Option::Universe u, uint32_t token_vendor_id,
uint32_t option_vendor_id,
const std::string& expected_result) {
// Let's clear any old values, so we can run multiple cases in each test
clearStack();
// Create the token
ASSERT_NO_THROW(t_.reset(new TokenVendor(u, token_vendor_id,
TokenOption::EXISTS)));
// If specified option is non-zero, create it.
if (option_vendor_id) {
setVendorOption(u, option_vendor_id);
}
evaluate(u, expected_result);
}
/// @brief Tests if vendor token properly returns enterprise-id.
///
/// @param u universe (V4 or V6)
/// @param option_vendor_id enterprise-id used in option (0 means don't
/// create the option)
/// @param expected_result text representation of the expected outcome
void testVendorEnterprise(Option::Universe u, uint32_t option_vendor_id,
const std::string& expected_result) {
// Let's clear any old values, so we can run multiple cases in each test
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenVendor(u, 0, TokenVendor::ENTERPRISE_ID)));
if (option_vendor_id) {
setVendorOption(u, option_vendor_id);
}
evaluate(u, expected_result);
}
/// @brief Tests if vendor class token properly returns enterprise-id.
///
/// @param u universe (V4 or V6)
/// @param option_vendor_id enterprise-id used in option (0 means don't
/// create the option)
/// @param expected_result text representation of the expected outcome
void testVendorClassEnterprise(Option::Universe u, uint32_t option_vendor_id,
const std::string& expected_result) {
// Let's clear any old values, so we can run multiple cases in each test
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenVendorClass(u, 0, TokenVendor::ENTERPRISE_ID)));
if (option_vendor_id) {
setVendorClassOption(u, option_vendor_id);
}
evaluate(u, expected_result);
}
/// @brief Tests if vendor class token can report existence properly.
///
/// @param u universe (V4 or V6)
/// @param token_vendor_id enterprise-id used in the token
/// @param option_vendor_id enterprise-id used in option (0 means don't
/// create the option)
/// @param expected_result text representation of the expected outcome
void testVendorClassExists(Option::Universe u, uint32_t token_vendor_id,
uint32_t option_vendor_id,
const std::string& expected_result) {
// Let's clear any old values, so we can run multiple cases in each test
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenVendorClass(u, token_vendor_id,
TokenOption::EXISTS)));
if (option_vendor_id) {
setVendorClassOption(u, option_vendor_id);
}
evaluate(u, expected_result);
}
/// @brief Tests if vendor token can handle sub-options properly.
///
/// @param u universe (V4 or V6)
/// @param token_vendor_id enterprise-id used in the token
/// @param token_option_code option code in the token
/// @param option_vendor_id enterprise-id used in option (0 means don't
/// create the option)
/// @param option_code sub-option code (0 means don't create suboption)
/// @param repr representation (TokenOption::EXISTS or HEXADECIMAL)
/// @param expected_result text representation of the expected outcome
void testVendorSuboption(Option::Universe u,
uint32_t token_vendor_id, uint16_t token_option_code,
uint32_t option_vendor_id, uint16_t option_code,
TokenOption::RepresentationType repr,
const std::string& expected) {
// Let's clear any old values, so we can run multiple cases in each test
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenVendor(u, token_vendor_id, repr,
token_option_code)));
if (option_vendor_id) {
setVendorOption(u, option_vendor_id);
if (option_code) {
ASSERT_TRUE(vendor_);
OptionPtr subopt(new OptionString(u, option_code, "alpha"));
vendor_->addOption(subopt);
}
}
evaluate(u, expected);
}
/// @brief Tests if vendor class token can handle data chunks properly.
///
/// @param u universe (V4 or V6)
/// @param token_vendor_id enterprise-id used in the token
/// @param token_index data index used in the token
/// @param option_vendor_id enterprise-id used in option (0 means don't
/// create the option)
/// @param data_tuples number of data tuples in the option
/// @param expected_result text representation of the expected outcome
void testVendorClassData(Option::Universe u,
uint32_t token_vendor_id, uint16_t token_index,
uint32_t option_vendor_id, uint16_t data_tuples,
const std::string& expected) {
// Let's clear any old values, so we can run multiple cases in each test
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenVendorClass(u, token_vendor_id,
TokenVendor::DATA, token_index)));
if (option_vendor_id) {
setVendorClassOption(u, option_vendor_id, data_tuples);
}
evaluate(u, expected);
}
/// @brief Tests if TokenInteger evaluates to the proper value
///
/// @param expected expected string representation on stack after evaluation
/// @param value integer value passed to constructor
void testInteger(const std::string& expected, uint32_t value) {
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenInteger(value)));
// The universe (v4 or v6) shouldn't have any impact on this,
// but let's check it anyway.
evaluate(Option::V4, expected);
clearStack(false);
evaluate(Option::V6, expected);
clearStack(true);
}
};
// This tests the toBool() conversions
TEST_F(TokenTest, toBool) {
ASSERT_NO_THROW(Token::toBool("true"));
EXPECT_TRUE(Token::toBool("true"));
ASSERT_NO_THROW(Token::toBool("false"));
EXPECT_FALSE(Token::toBool("false"));
// Token::toBool() is case-sensitive
EXPECT_THROW(Token::toBool("True"), EvalTypeError);
EXPECT_THROW(Token::toBool("TRUE"), EvalTypeError);
// Proposed aliases
EXPECT_THROW(Token::toBool("1"), EvalTypeError);
EXPECT_THROW(Token::toBool("0"), EvalTypeError);
EXPECT_THROW(Token::toBool(""), EvalTypeError);
}
// This simple test checks that a TokenString, representing a constant string,
// can be used in Pkt4 evaluation. (The actual packet is not used)
TEST_F(TokenTest, string4) {
// Store constant string "foo" in the TokenString object.
ASSERT_NO_THROW(t_.reset(new TokenString("foo")));
// Make sure that the token can be evaluated without exceptions.
ASSERT_NO_THROW(t_->evaluate(*pkt4_, values_));
// Check that the evaluation put its value on the values stack.
ASSERT_EQ(1, values_.size());
EXPECT_EQ("foo", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_STRING Pushing text string 'foo'");
EXPECT_TRUE(checkFile());
}
// This simple test checks that a TokenString, representing a constant string,
// can be used in Pkt6 evaluation. (The actual packet is not used)
TEST_F(TokenTest, string6) {
// Store constant string "foo" in the TokenString object.
ASSERT_NO_THROW(t_.reset(new TokenString("foo")));
// Make sure that the token can be evaluated without exceptions.
ASSERT_NO_THROW(t_->evaluate(*pkt6_, values_));
// Check that the evaluation put its value on the values stack.
ASSERT_EQ(1, values_.size());
EXPECT_EQ("foo", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_STRING Pushing text string 'foo'");
EXPECT_TRUE(checkFile());
}
// This simple test checks that a TokenHexString, representing a constant
// string coded in hexadecimal, can be used in Pkt4 evaluation.
// (The actual packet is not used)
TEST_F(TokenTest, hexstring4) {
TokenPtr empty;
TokenPtr bad;
TokenPtr nodigit;
TokenPtr baddigit;
TokenPtr bell;
TokenPtr foo;
TokenPtr cookie;
// Store constant empty hexstring "" ("") in the TokenHexString object.
ASSERT_NO_THROW(empty.reset(new TokenHexString("")));
// Store bad encoded hexstring "0abc" ("").
ASSERT_NO_THROW(bad.reset(new TokenHexString("0abc")));
// Store hexstring with no digits "0x" ("").
ASSERT_NO_THROW(nodigit.reset(new TokenHexString("0x")));
// Store hexstring with a bad hexdigit "0xxabc" ("").
ASSERT_NO_THROW(baddigit.reset(new TokenHexString("0xxabc")));
// Store hexstring with an odd number of hexdigits "0x7" ("\a").
ASSERT_NO_THROW(bell.reset(new TokenHexString("0x7")));
// Store constant hexstring "0x666f6f" ("foo").
ASSERT_NO_THROW(foo.reset(new TokenHexString("0x666f6f")));
// Store constant hexstring "0x63825363" (DHCP_OPTIONS_COOKIE).
ASSERT_NO_THROW(cookie.reset(new TokenHexString("0x63825363")));
// Make sure that tokens can be evaluated without exceptions,
// and verify the debug output
ASSERT_NO_THROW(empty->evaluate(*pkt4_, values_));
ASSERT_NO_THROW(bad->evaluate(*pkt4_, values_));
ASSERT_NO_THROW(nodigit->evaluate(*pkt4_, values_));
ASSERT_NO_THROW(baddigit->evaluate(*pkt4_, values_));
ASSERT_NO_THROW(bell->evaluate(*pkt4_, values_));
ASSERT_NO_THROW(foo->evaluate(*pkt4_, values_));
ASSERT_NO_THROW(cookie->evaluate(*pkt4_, values_));
// Check that the evaluation put its value on the values stack.
ASSERT_EQ(7, values_.size());
uint32_t expected = htonl(DHCP_OPTIONS_COOKIE);
EXPECT_EQ(4, values_.top().size());
EXPECT_EQ(0, memcmp(&expected, &values_.top()[0], 4));
values_.pop();
EXPECT_EQ("foo", values_.top());
values_.pop();
EXPECT_EQ("\a", values_.top());
values_.pop();
EXPECT_EQ("", values_.top());
values_.pop();
EXPECT_EQ("", values_.top());
values_.pop();
EXPECT_EQ("", values_.top());
values_.pop();
EXPECT_EQ("", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_HEXSTRING Pushing hex string 0x");
addString("EVAL_DEBUG_HEXSTRING Pushing hex string 0x");
addString("EVAL_DEBUG_HEXSTRING Pushing hex string 0x");
addString("EVAL_DEBUG_HEXSTRING Pushing hex string 0x");
addString("EVAL_DEBUG_HEXSTRING Pushing hex string 0x07");
addString("EVAL_DEBUG_HEXSTRING Pushing hex string 0x666F6F");
addString("EVAL_DEBUG_HEXSTRING Pushing hex string 0x63825363");
EXPECT_TRUE(checkFile());
}
// This simple test checks that a TokenHexString, representing a constant
// string coded in hexadecimal, can be used in Pkt6 evaluation.
// (The actual packet is not used)
TEST_F(TokenTest, hexstring6) {
TokenPtr empty;
TokenPtr bad;
TokenPtr nodigit;
TokenPtr baddigit;
TokenPtr bell;
TokenPtr foo;
TokenPtr cookie;
// Store constant empty hexstring "" ("") in the TokenHexString object.
ASSERT_NO_THROW(empty.reset(new TokenHexString("")));
// Store bad encoded hexstring "0abc" ("").
ASSERT_NO_THROW(bad.reset(new TokenHexString("0abc")));
// Store hexstring with no digits "0x" ("").
ASSERT_NO_THROW(nodigit.reset(new TokenHexString("0x")));
// Store hexstring with a bad hexdigit "0xxabc" ("").
ASSERT_NO_THROW(baddigit.reset(new TokenHexString("0xxabc")));
// Store hexstring with an odd number of hexdigits "0x7" ("\a").
ASSERT_NO_THROW(bell.reset(new TokenHexString("0x7")));
// Store constant hexstring "0x666f6f" ("foo").
ASSERT_NO_THROW(foo.reset(new TokenHexString("0x666f6f")));
// Store constant hexstring "0x63825363" (DHCP_OPTIONS_COOKIE).
ASSERT_NO_THROW(cookie.reset(new TokenHexString("0x63825363")));
// Make sure that tokens can be evaluated without exceptions.
ASSERT_NO_THROW(empty->evaluate(*pkt6_, values_));
ASSERT_NO_THROW(bad->evaluate(*pkt6_, values_));
ASSERT_NO_THROW(nodigit->evaluate(*pkt6_, values_));
ASSERT_NO_THROW(baddigit->evaluate(*pkt6_, values_));
ASSERT_NO_THROW(bell->evaluate(*pkt6_, values_));
ASSERT_NO_THROW(foo->evaluate(*pkt6_, values_));
ASSERT_NO_THROW(cookie->evaluate(*pkt6_, values_));
// Check that the evaluation put its value on the values stack.
ASSERT_EQ(7, values_.size());
uint32_t expected = htonl(DHCP_OPTIONS_COOKIE);
EXPECT_EQ(4, values_.top().size());
EXPECT_EQ(0, memcmp(&expected, &values_.top()[0], 4));
values_.pop();
EXPECT_EQ("foo", values_.top());
values_.pop();
EXPECT_EQ("\a", values_.top());
values_.pop();
EXPECT_EQ("", values_.top());
values_.pop();
EXPECT_EQ("", values_.top());
values_.pop();
EXPECT_EQ("", values_.top());
values_.pop();
EXPECT_EQ("", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_HEXSTRING Pushing hex string 0x");
addString("EVAL_DEBUG_HEXSTRING Pushing hex string 0x");
addString("EVAL_DEBUG_HEXSTRING Pushing hex string 0x");
addString("EVAL_DEBUG_HEXSTRING Pushing hex string 0x");
addString("EVAL_DEBUG_HEXSTRING Pushing hex string 0x07");
addString("EVAL_DEBUG_HEXSTRING Pushing hex string 0x666F6F");
addString("EVAL_DEBUG_HEXSTRING Pushing hex string 0x63825363");
EXPECT_TRUE(checkFile());
}
// This test checks that a TokenIpAddress, representing an IP address as
// a constant string, can be used in Pkt4/Pkt6 evaluation.
// (The actual packet is not used)
TEST_F(TokenTest, ipaddress) {
TokenPtr bad4;
TokenPtr bad6;
TokenPtr ip4;
TokenPtr ip6;
// Bad IP addresses
ASSERT_NO_THROW(bad4.reset(new TokenIpAddress("10.0.0.0.1")));
ASSERT_NO_THROW(bad6.reset(new TokenIpAddress(":::")));
// IP addresses
ASSERT_NO_THROW(ip4.reset(new TokenIpAddress("10.0.0.1")));
ASSERT_NO_THROW(ip6.reset(new TokenIpAddress("2001:db8::1")));
// Make sure that tokens can be evaluated without exceptions.
ASSERT_NO_THROW(ip4->evaluate(*pkt4_, values_));
ASSERT_NO_THROW(ip6->evaluate(*pkt6_, values_));
ASSERT_NO_THROW(bad4->evaluate(*pkt4_, values_));
ASSERT_NO_THROW(bad6->evaluate(*pkt6_, values_));
// Check that the evaluation put its value on the values stack.
ASSERT_EQ(4, values_.size());
// Check bad addresses (they pushed '' on the value stack)
EXPECT_EQ(0, values_.top().size());
values_.pop();
EXPECT_EQ(0, values_.top().size());
values_.pop();
// Check IPv6 address
uint8_t expected6[] = { 0x20, 1, 0xd, 0xb8, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 1 };
EXPECT_EQ(16, values_.top().size());
EXPECT_EQ(0, memcmp(expected6, &values_.top()[0], 16));
values_.pop();
// Check IPv4 address
uint8_t expected4[] = { 10, 0, 0, 1 };
EXPECT_EQ(4, values_.top().size());
EXPECT_EQ(0, memcmp(expected4, &values_.top()[0], 4));
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_IPADDRESS Pushing IPAddress 0x0A000001");
addString("EVAL_DEBUG_IPADDRESS Pushing IPAddress "
"0x20010DB8000000000000000000000001");
addString("EVAL_DEBUG_IPADDRESS Pushing IPAddress 0x");
addString("EVAL_DEBUG_IPADDRESS Pushing IPAddress 0x");
EXPECT_TRUE(checkFile());
}
// This test checks if a token representing an option value is able to extract
// the option from an IPv4 packet and properly store the option's value.
TEST_F(TokenTest, optionString4) {
TokenPtr found;
TokenPtr not_found;
// The packets we use have option 100 with a string in them.
ASSERT_NO_THROW(found.reset(new TokenOption(100, TokenOption::TEXTUAL)));
ASSERT_NO_THROW(not_found.reset(new TokenOption(101, TokenOption::TEXTUAL)));
// This should evaluate to the content of the option 100 (i.e. "hundred4")
ASSERT_NO_THROW(found->evaluate(*pkt4_, values_));
// This should evaluate to "" as there is no option 101.
ASSERT_NO_THROW(not_found->evaluate(*pkt4_, values_));
// There should be 2 values evaluated.
ASSERT_EQ(2, values_.size());
// This is a stack, so the pop order is inversed. We should get the empty
// string first.
EXPECT_EQ("", values_.top());
values_.pop();
// Then the content of the option 100.
EXPECT_EQ("hundred4", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_OPTION Pushing option 100 with value 'hundred4'");
addString("EVAL_DEBUG_OPTION Pushing option 101 with value ''");
EXPECT_TRUE(checkFile());
}
// This test checks if a token representing option value is able to extract
// the option from an IPv4 packet and properly store its value in a
// hexadecimal format.
TEST_F(TokenTest, optionHexString4) {
TokenPtr found;
TokenPtr not_found;
// The packets we use have option 100 with a string in them.
ASSERT_NO_THROW(found.reset(new TokenOption(100, TokenOption::HEXADECIMAL)));
ASSERT_NO_THROW(not_found.reset(new TokenOption(101, TokenOption::HEXADECIMAL)));
// This should evaluate to the content of the option 100 (i.e. "hundred4")
ASSERT_NO_THROW(found->evaluate(*pkt4_, values_));
// This should evaluate to "" as there is no option 101.
ASSERT_NO_THROW(not_found->evaluate(*pkt4_, values_));
// There should be 2 values evaluated.
ASSERT_EQ(2, values_.size());
// This is a stack, so the pop order is inversed. We should get the empty
// string first.
EXPECT_EQ("", values_.top());
values_.pop();
// Then the content of the option 100.
EXPECT_EQ("hundred4", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_OPTION Pushing option 100 with value 0x68756E6472656434");
addString("EVAL_DEBUG_OPTION Pushing option 101 with value 0x");
EXPECT_TRUE(checkFile());
}
// This test checks if a token representing an option value is able to check
// the existence of the option from an IPv4 packet.
TEST_F(TokenTest, optionExistsString4) {
TokenPtr found;
TokenPtr not_found;
// The packets we use have option 100 with a string in them.
ASSERT_NO_THROW(found.reset(new TokenOption(100, TokenOption::EXISTS)));
ASSERT_NO_THROW(not_found.reset(new TokenOption(101, TokenOption::EXISTS)));
ASSERT_NO_THROW(found->evaluate(*pkt4_, values_));
ASSERT_NO_THROW(not_found->evaluate(*pkt4_, values_));
// There should be 2 values evaluated.
ASSERT_EQ(2, values_.size());
// This is a stack, so the pop order is inversed.
EXPECT_EQ("false", values_.top());
values_.pop();
EXPECT_EQ("true", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_OPTION Pushing option 100 with value 'true'");
addString("EVAL_DEBUG_OPTION Pushing option 101 with value 'false'");
EXPECT_TRUE(checkFile());
}
// This test checks if a token representing an option value is able to extract
// the option from an IPv6 packet and properly store the option's value.
TEST_F(TokenTest, optionString6) {
TokenPtr found;
TokenPtr not_found;
// The packets we use have option 100 with a string in them.
ASSERT_NO_THROW(found.reset(new TokenOption(100, TokenOption::TEXTUAL)));
ASSERT_NO_THROW(not_found.reset(new TokenOption(101, TokenOption::TEXTUAL)));
// This should evaluate to the content of the option 100 (i.e. "hundred6")
ASSERT_NO_THROW(found->evaluate(*pkt6_, values_));
// This should evaluate to "" as there is no option 101.
ASSERT_NO_THROW(not_found->evaluate(*pkt6_, values_));
// There should be 2 values evaluated.
ASSERT_EQ(2, values_.size());
// This is a stack, so the pop order is inversed. We should get the empty
// string first.
EXPECT_EQ("", values_.top());
values_.pop();
// Then the content of the option 100.
EXPECT_EQ("hundred6", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_OPTION Pushing option 100 with value 'hundred6'");
addString("EVAL_DEBUG_OPTION Pushing option 101 with value ''");
EXPECT_TRUE(checkFile());
}
// This test checks if a token representing an option value is able to extract
// the option from an IPv6 packet and properly store its value in hexadecimal
// format.
TEST_F(TokenTest, optionHexString6) {
TokenPtr found;
TokenPtr not_found;
// The packets we use have option 100 with a string in them.
ASSERT_NO_THROW(found.reset(new TokenOption(100, TokenOption::HEXADECIMAL)));
ASSERT_NO_THROW(not_found.reset(new TokenOption(101, TokenOption::HEXADECIMAL)));
// This should evaluate to the content of the option 100 (i.e. "hundred6")
ASSERT_NO_THROW(found->evaluate(*pkt6_, values_));
// This should evaluate to "" as there is no option 101.
ASSERT_NO_THROW(not_found->evaluate(*pkt6_, values_));
// There should be 2 values evaluated.
ASSERT_EQ(2, values_.size());
// This is a stack, so the pop order is inversed. We should get the empty
// string first.
EXPECT_EQ("", values_.top());
values_.pop();
// Then the content of the option 100.
EXPECT_EQ("hundred6", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_OPTION Pushing option 100 with value 0x68756E6472656436");
addString("EVAL_DEBUG_OPTION Pushing option 101 with value 0x");
EXPECT_TRUE(checkFile());
}
// This test checks if a token representing an option value is able to check
// the existence of the option from an IPv6 packet.
TEST_F(TokenTest, optionExistsString6) {
TokenPtr found;
TokenPtr not_found;
// The packets we use have option 100 with a string in them.
ASSERT_NO_THROW(found.reset(new TokenOption(100, TokenOption::EXISTS)));
ASSERT_NO_THROW(not_found.reset(new TokenOption(101, TokenOption::EXISTS)));
ASSERT_NO_THROW(found->evaluate(*pkt6_, values_));
ASSERT_NO_THROW(not_found->evaluate(*pkt6_, values_));
// There should be 2 values evaluated.
ASSERT_EQ(2, values_.size());
// This is a stack, so the pop order is inversed.
EXPECT_EQ("false", values_.top());
values_.pop();
EXPECT_EQ("true", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_OPTION Pushing option 100 with value 'true'");
addString("EVAL_DEBUG_OPTION Pushing option 101 with value 'false'");
EXPECT_TRUE(checkFile());
}
// This test checks that the existing relay4 option can be found.
TEST_F(TokenTest, relay4Option) {
// Insert relay option with sub-options 1 and 13
insertRelay4Option();
// Creating the token should be safe.
ASSERT_NO_THROW(t_.reset(new TokenRelay4Option(13, TokenOption::TEXTUAL)));
// We should be able to evaluate it.
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
// we should have one value on the stack
ASSERT_EQ(1, values_.size());
// The option should be found and relay4[13] should evaluate to the
// content of that sub-option, i.e. "thirteen"
EXPECT_EQ("thirteen", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_OPTION Pushing option 13 with value 'thirteen'");
EXPECT_TRUE(checkFile());
}
// This test checks that the code properly handles cases when
// there is a RAI option, but there's no requested sub-option.
TEST_F(TokenTest, relay4OptionNoSuboption) {
// Insert relay option with sub-options 1 and 13
insertRelay4Option();
// Creating the token should be safe.
ASSERT_NO_THROW(t_.reset(new TokenRelay4Option(15, TokenOption::TEXTUAL)));
// We should be able to evaluate it.
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
// we should have one value on the stack
ASSERT_EQ(1, values_.size());
// The option should NOT be found (there is no sub-option 15),
// so the expression should evaluate to ""
EXPECT_EQ("", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_OPTION Pushing option 15 with value ''");
EXPECT_TRUE(checkFile());
}
// This test checks that the code properly handles cases when
// there's no RAI option at all.
TEST_F(TokenTest, relay4OptionNoRai) {
// We didn't call insertRelay4Option(), so there's no RAI option.
// Creating the token should be safe.
ASSERT_NO_THROW(t_.reset(new TokenRelay4Option(13, TokenOption::TEXTUAL)));
// We should be able to evaluate it.
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
// we should have one value on the stack
ASSERT_EQ(1, values_.size());
// The option should NOT be found (there is no sub-option 13),
// so the expression should evaluate to ""
EXPECT_EQ("", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_OPTION Pushing option 13 with value ''");
EXPECT_TRUE(checkFile());
}
// This test checks that only the RAI is searched for the requested
// sub-option.
TEST_F(TokenTest, relay4RAIOnly) {
// Insert relay option with sub-options 1 and 13
insertRelay4Option();
// Add options 13 and 70 to the packet.
OptionPtr opt13(new OptionString(Option::V4, 13, "THIRTEEN"));
OptionPtr opt70(new OptionString(Option::V4, 70, "SEVENTY"));
pkt4_->addOption(opt13);
pkt4_->addOption(opt70);
// The situation is as follows:
// Packet:
// - option 13 (containing "THIRTEEN")
// - option 82 (rai)
// - option 1 (containing "one")
// - option 13 (containing "thirteen")
// Let's try to get option 13. It should get the one from RAI
ASSERT_NO_THROW(t_.reset(new TokenRelay4Option(13, TokenOption::TEXTUAL)));
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
EXPECT_EQ("thirteen", values_.top());
// Try to get option 1. It should get the one from RAI
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenRelay4Option(1, TokenOption::TEXTUAL)));
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
EXPECT_EQ("one", values_.top());
// Try to get option 70. It should fail, as there's no such
// sub option in RAI.
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenRelay4Option(70, TokenOption::TEXTUAL)));
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
EXPECT_EQ("", values_.top());
// Try to check option 1. It should return "true"
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenRelay4Option(1, TokenOption::EXISTS)));
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
EXPECT_EQ("true", values_.top());
// Try to check option 70. It should return "false"
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenRelay4Option(70, TokenOption::EXISTS)));
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
EXPECT_EQ("false", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_OPTION Pushing option 13 with value 'thirteen'");
addString("EVAL_DEBUG_OPTION Pushing option 1 with value 'one'");
addString("EVAL_DEBUG_OPTION Pushing option 70 with value ''");
addString("EVAL_DEBUG_OPTION Pushing option 1 with value 'true'");
addString("EVAL_DEBUG_OPTION Pushing option 70 with value 'false'");
EXPECT_TRUE(checkFile());
}
// This test checks if we can properly extract an option
// from relay encapsulations. Our packet has two relay
// encapsulations. Both include a common option with the
// original message (option 100) and both include their
// own option (101 and 102). We attempt to extract the
// options and compare them to expected values. We also
// try to extract an option from an encapsulation
// that doesn't exist (level 2), this should result in an empty
// string.
TEST_F(TokenTest, relay6Option) {
// We start by adding a set of relay encapsulations to the
// basic v6 packet.
addRelay6Encapsulations();
// Then we work our way through the set of choices
// Level 0 both options it has and the check that
// the checking for an option it doesn't have results
// in an empty string.
verifyRelay6Option(0, 100, TokenOption::TEXTUAL, "hundred.zero");
verifyRelay6Option(0, 100, TokenOption::EXISTS, "true");
verifyRelay6Option(0, 101, TokenOption::TEXTUAL, "hundredone.zero");
verifyRelay6Option(0, 102, TokenOption::TEXTUAL, "");
verifyRelay6Option(0, 102, TokenOption::EXISTS, "false");
// Level 1, again both options it has and the one for level 0
verifyRelay6Option(1, 100, TokenOption::TEXTUAL, "hundred.one");
verifyRelay6Option(1, 101, TokenOption::TEXTUAL, "");
verifyRelay6Option(1, 102, TokenOption::TEXTUAL, "hundredtwo.one");
// Level 2, no encapsulation so no options
verifyRelay6Option(2, 100, TokenOption::TEXTUAL, "");
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_OPTION Pushing option 100 with value 'hundred.zero'");
addString("EVAL_DEBUG_OPTION Pushing option 100 with value 'true'");
addString("EVAL_DEBUG_OPTION Pushing option 101 with value 'hundredone.zero'");
addString("EVAL_DEBUG_OPTION Pushing option 102 with value ''");
addString("EVAL_DEBUG_OPTION Pushing option 102 with value 'false'");
addString("EVAL_DEBUG_OPTION Pushing option 100 with value 'hundred.one'");
addString("EVAL_DEBUG_OPTION Pushing option 101 with value ''");
addString("EVAL_DEBUG_OPTION Pushing option 102 with value 'hundredtwo.one'");
addString("EVAL_DEBUG_OPTION Pushing option 100 with value ''");
EXPECT_TRUE(checkFile());
}
// Verifies that relay6 option requires DHCPv6
TEST_F(TokenTest, relay6OptionError) {
// Create a relay6 option token
ASSERT_NO_THROW(t_.reset(new TokenRelay6Option(0, 13, TokenOption::TEXTUAL)));
// A DHCPv6 packet is required
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalTypeError);
}
// Verifies that DHCPv4 packet metadata can be extracted.
TEST_F(TokenTest, pkt4MetaData) {
pkt4_->setIface("eth0");
pkt4_->setLocalAddr(IOAddress("10.0.0.1"));
pkt4_->setRemoteAddr(IOAddress("10.0.0.2"));
// Check interface (expect eth0)
ASSERT_NO_THROW(t_.reset(new TokenPkt(TokenPkt::IFACE)));
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
ASSERT_EQ("eth0", values_.top());
// Check source (expect 10.0.0.2)
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt(TokenPkt::SRC)));
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
vector<uint8_t> a2 = IOAddress("10.0.0.2").toBytes();
ASSERT_EQ(a2.size(), values_.top().size());
EXPECT_EQ(0, memcmp(&a2[0], &values_.top()[0], a2.size()));
// Check destination (expect 10.0.0.1)
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt(TokenPkt::DST)));
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
vector<uint8_t> a1 = IOAddress("10.0.0.1").toBytes();
ASSERT_EQ(a1.size(), values_.top().size());
EXPECT_EQ(0, memcmp(&a1[0], &values_.top()[0], a1.size()));
// Check length (expect 249)
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt(TokenPkt::LEN)));
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
uint32_t length = htonl(static_cast<uint32_t>(pkt4_->len()));
ASSERT_EQ(4, values_.top().size());
EXPECT_EQ(0, memcmp(&length, &values_.top()[0], 4));
// Unknown metadata type fails
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt(TokenPkt::MetadataType(100))));
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalTypeError);
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_PKT Pushing PKT meta data iface with value eth0");
addString("EVAL_DEBUG_PKT Pushing PKT meta data src with value 0x0A000002");
addString("EVAL_DEBUG_PKT Pushing PKT meta data dst with value 0x0A000001");
addString("EVAL_DEBUG_PKT Pushing PKT meta data len with value 0x000000F9");
EXPECT_TRUE(checkFile());
}
// Verifies that DHCPv6 packet metadata can be extracted.
TEST_F(TokenTest, pkt6MetaData) {
pkt6_->setIface("eth0");
pkt6_->setLocalAddr(IOAddress("ff02::1:2"));
pkt6_->setRemoteAddr(IOAddress("fe80::1234"));
// Check interface (expect eth0)
ASSERT_NO_THROW(t_.reset(new TokenPkt(TokenPkt::IFACE)));
EXPECT_NO_THROW(t_->evaluate(*pkt6_, values_));
ASSERT_EQ(1, values_.size());
ASSERT_EQ("eth0", values_.top());
// Check source (expect fe80::1234)
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt(TokenPkt::SRC)));
EXPECT_NO_THROW(t_->evaluate(*pkt6_, values_));
ASSERT_EQ(1, values_.size());
ASSERT_EQ(16, values_.top().size());
EXPECT_EQ(0xfe, static_cast<uint8_t>(values_.top()[0]));
EXPECT_EQ(0x80, static_cast<uint8_t>(values_.top()[1]));
for (unsigned i = 2; i < 14; ++i) {
EXPECT_EQ(0, values_.top()[i]);
}
EXPECT_EQ(0x12, values_.top()[14]);
EXPECT_EQ(0x34, values_.top()[15]);
// Check destination (expect ff02::1:2)
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt(TokenPkt::DST)));
EXPECT_NO_THROW(t_->evaluate(*pkt6_, values_));
ASSERT_EQ(1, values_.size());
vector<uint8_t> ma = IOAddress("ff02::1:2").toBytes();
ASSERT_EQ(ma.size(), values_.top().size());
EXPECT_EQ(0, memcmp(&ma[0], &values_.top()[0], ma.size()));
// Check length (expect 16)
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt(TokenPkt::LEN)));
EXPECT_NO_THROW(t_->evaluate(*pkt6_, values_));
ASSERT_EQ(1, values_.size());
uint32_t length = htonl(static_cast<uint32_t>(pkt6_->len()));
ASSERT_EQ(4, values_.top().size());
EXPECT_EQ(0, memcmp(&length, &values_.top()[0], 4));
// Unknown meta data type fails
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt(TokenPkt::MetadataType(100))));
EXPECT_THROW(t_->evaluate(*pkt6_, values_), EvalTypeError);
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_PKT Pushing PKT meta data iface with value eth0");
addString("EVAL_DEBUG_PKT Pushing PKT meta data src with value "
"0xFE800000000000000000000000001234");
addString("EVAL_DEBUG_PKT Pushing PKT meta data dst with value "
"0xFF020000000000000000000000010002");
addString("EVAL_DEBUG_PKT Pushing PKT meta data len with value 0x00000010");
EXPECT_TRUE(checkFile());
}
// Verifies if the DHCPv4 packet fields can be extracted.
TEST_F(TokenTest, pkt4Fields) {
pkt4_->setGiaddr(IOAddress("192.0.2.1"));
pkt4_->setCiaddr(IOAddress("192.0.2.2"));
pkt4_->setYiaddr(IOAddress("192.0.2.3"));
pkt4_->setSiaddr(IOAddress("192.0.2.4"));
// We're setting hardware address to uncommon (7 bytes rather than 6 and
// hardware type 123) HW address. We'll use it in hlen and htype checks.
HWAddrPtr hw(new HWAddr(HWAddr::fromText("01:02:03:04:05:06:07", 123)));
pkt4_->setHWAddr(hw);
// Check hardware address field.
ASSERT_NO_THROW(t_.reset(new TokenPkt4(TokenPkt4::CHADDR)));
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
uint8_t expected_hw[] = { 1, 2, 3, 4, 5, 6, 7 };
ASSERT_EQ(7, values_.top().size());
EXPECT_EQ(0, memcmp(expected_hw, &values_.top()[0], 7));
// Check hlen value field.
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt4(TokenPkt4::HLEN)));
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
ASSERT_EQ(4, values_.top().size());
uint32_t expected_hlen = htonl(7);
EXPECT_EQ(0, memcmp(&expected_hlen, &values_.top()[0], 4));
// Check htype value.
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt4(TokenPkt4::HTYPE)));
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
ASSERT_EQ(4, values_.top().size());
uint32_t expected_htype = htonl(123);
EXPECT_EQ(0, memcmp(&expected_htype, &values_.top()[0], 4));
// Check giaddr value.
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt4(TokenPkt4::GIADDR)));
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
uint8_t expected_addr[] = { 192, 0, 2, 1 };
ASSERT_EQ(4, values_.top().size());
EXPECT_EQ(0, memcmp(expected_addr, &values_.top()[0], 4));
// Check ciaddr value.
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt4(TokenPkt4::CIADDR)));
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
expected_addr[3] = 2;
ASSERT_EQ(4, values_.top().size());
EXPECT_EQ(0, memcmp(expected_addr, &values_.top()[0], 4));
// Check yiaddr value.
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt4(TokenPkt4::YIADDR)));
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
expected_addr[3] = 3;
ASSERT_EQ(4, values_.top().size());
EXPECT_EQ(0, memcmp(expected_addr, &values_.top()[0], 4));
// Check siaddr value.
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt4(TokenPkt4::SIADDR)));
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
expected_addr[3] = 4;
ASSERT_EQ(4, values_.top().size());
EXPECT_EQ(0, memcmp(expected_addr, &values_.top()[0], 4));
// Check msgtype.
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt4(TokenPkt4::MSGTYPE)));
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
ASSERT_EQ(4, values_.top().size());
string exp_msgtype = encode(DHCPDISCOVER);
EXPECT_EQ(0, memcmp(&exp_msgtype[0], &values_.top()[0], 4));
// Check transaction-id
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt4(TokenPkt4::TRANSID)));
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
ASSERT_EQ(4, values_.top().size());
string exp_transid = encode(12345);
EXPECT_EQ(0, memcmp(&exp_transid[0], &values_.top()[0], 4));
// Check a DHCPv6 packet throws.
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt4(TokenPkt4::HLEN)));
EXPECT_THROW(t_->evaluate(*pkt6_, values_), EvalTypeError);
// Unknown field fails
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt4(TokenPkt4::FieldType(100))));
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalTypeError);
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_PKT4 Pushing PKT4 field mac with value 0x01020304050607");
addString("EVAL_DEBUG_PKT4 Pushing PKT4 field hlen with value 0x00000007");
addString("EVAL_DEBUG_PKT4 Pushing PKT4 field htype with value 0x0000007B");
addString("EVAL_DEBUG_PKT4 Pushing PKT4 field giaddr with value 0xC0000201");
addString("EVAL_DEBUG_PKT4 Pushing PKT4 field ciaddr with value 0xC0000202");
addString("EVAL_DEBUG_PKT4 Pushing PKT4 field yiaddr with value 0xC0000203");
addString("EVAL_DEBUG_PKT4 Pushing PKT4 field siaddr with value 0xC0000204");
addString("EVAL_DEBUG_PKT4 Pushing PKT4 field msgtype with value 0x00000001");
addString("EVAL_DEBUG_PKT4 Pushing PKT4 field transid with value 0x00003039");
EXPECT_TRUE(checkFile());
}
// Verifies if the DHCPv6 packet fields can be extracted.
TEST_F(TokenTest, pkt6Fields) {
// The default test creates a v6 DHCPV6_SOLICIT packet with a
// transaction id of 12345.
// Check the message type
ASSERT_NO_THROW(t_.reset(new TokenPkt6(TokenPkt6::MSGTYPE)));
EXPECT_NO_THROW(t_->evaluate(*pkt6_, values_));
ASSERT_EQ(1, values_.size());
uint32_t expected = htonl(1);
EXPECT_EQ(0, memcmp(&expected, &values_.top()[0], 4));
// Check the transaction id field
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt6(TokenPkt6::TRANSID)));
EXPECT_NO_THROW(t_->evaluate(*pkt6_, values_));
ASSERT_EQ(1, values_.size());
expected = htonl(12345);
EXPECT_EQ(0, memcmp(&expected, &values_.top()[0], 4));
// Check that working with a v4 packet generates an error
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt6(TokenPkt6::TRANSID)));
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalTypeError);
// Unknown field fails
clearStack();
ASSERT_NO_THROW(t_.reset(new TokenPkt6(TokenPkt6::FieldType(100))));
EXPECT_THROW(t_->evaluate(*pkt6_, values_), EvalTypeError);
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_PKT6 Pushing PKT6 field msgtype with value 0x00000001");
addString("EVAL_DEBUG_PKT6 Pushing PKT6 field transid with value 0x00003039");
EXPECT_TRUE(checkFile());
}
// This test checks if we can properly extract the link and peer
// address fields from relay encapsulations. Our packet has
// two relay encapsulations. We attempt to extract the two
// fields from both of the encapsulations and compare them.
// We also try to extract one of the fields from an encapsulation
// that doesn't exist (level 2), this should result in an empty
// string.
TEST_F(TokenTest, relay6Field) {
// Values for the address results
uint8_t zeroaddr[] = { 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0 };
uint8_t linkaddr[] = { 0, 1, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 1 };
uint8_t peeraddr[] = { 0, 1, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 2 };
// We start by adding a set of relay encapsulations to the
// basic v6 packet.
addRelay6Encapsulations();
// Then we work our way through the set of choices
// Level 0 both link and peer address should be 0::0
verifyRelay6Eval(0, TokenRelay6Field::LINKADDR, 16, zeroaddr);
verifyRelay6Eval(0, TokenRelay6Field::PEERADDR, 16, zeroaddr);
// Level 1 link and peer should have different non-zero addresses
verifyRelay6Eval(1, TokenRelay6Field::LINKADDR, 16, linkaddr);
verifyRelay6Eval(1, TokenRelay6Field::PEERADDR, 16, peeraddr);
// Level 2 has no encapsulation so the address should be zero length
verifyRelay6Eval(2, TokenRelay6Field::LINKADDR, 0, zeroaddr);
// Lets check that the layout of the address returned by the
// token matches that of the TokenIpAddress
TokenPtr trelay;
TokenPtr taddr;
TokenPtr tequal;
ASSERT_NO_THROW(trelay.reset(new TokenRelay6Field(1, TokenRelay6Field::LINKADDR)));
ASSERT_NO_THROW(taddr.reset(new TokenIpAddress("1::1")));
ASSERT_NO_THROW(tequal.reset(new TokenEqual()));
EXPECT_NO_THROW(trelay->evaluate(*pkt6_, values_));
EXPECT_NO_THROW(taddr->evaluate(*pkt6_, values_));
EXPECT_NO_THROW(tequal->evaluate(*pkt6_, values_));
// We should have a single value on the stack and it should be "true"
ASSERT_EQ(1, values_.size());
EXPECT_EQ("true", values_.top());
// be tidy
clearStack();
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_RELAY6 Pushing PKT6 relay field linkaddr nest 0 "
"with value 0x00000000000000000000000000000000");
addString("EVAL_DEBUG_RELAY6 Pushing PKT6 relay field peeraddr nest 0 "
"with value 0x00000000000000000000000000000000");
addString("EVAL_DEBUG_RELAY6 Pushing PKT6 relay field linkaddr nest 1 "
"with value 0x00010000000000000000000000000001");
addString("EVAL_DEBUG_RELAY6 Pushing PKT6 relay field peeraddr nest 1 "
"with value 0x00010000000000000000000000000002");
addString("EVAL_DEBUG_RELAY6_RANGE Pushing PKT6 relay field linkaddr nest 2 "
"with value 0x");
addString("EVAL_DEBUG_RELAY6 Pushing PKT6 relay field linkaddr nest 1 "
"with value 0x00010000000000000000000000000001");
addString("EVAL_DEBUG_IPADDRESS Pushing IPAddress "
"0x00010000000000000000000000000001");
addString("EVAL_DEBUG_EQUAL Popping 0x00010000000000000000000000000001 "
"and 0x00010000000000000000000000000001 pushing result 'true'");
EXPECT_TRUE(checkFile());
}
// This test checks some error cases for a relay6 field token
TEST_F(TokenTest, relay6FieldError) {
// Create a valid relay6 field token
ASSERT_NO_THROW(t_.reset(new TokenRelay6Field(0, TokenRelay6Field::LINKADDR)));
// a DHCPv6 packet is required
ASSERT_THROW(t_->evaluate(*pkt4_, values_), EvalTypeError);
// No test for unknown field as it is not (yet) checked?!
}
// This test checks if a token representing an == operator is able to
// compare two values (with incorrectly built stack).
TEST_F(TokenTest, optionEqualInvalid) {
ASSERT_NO_THROW(t_.reset(new TokenEqual()));
// CASE 1: There's not enough values on the stack. == is an operator that
// takes two parameters. There are 0 on the stack.
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalBadStack);
// CASE 2: One value is still not enough.
values_.push("foo");
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalBadStack);
}
// This test checks if a token representing an == operator is able to
// compare two different values.
TEST_F(TokenTest, optionEqualFalse) {
ASSERT_NO_THROW(t_.reset(new TokenEqual()));
values_.push("foo");
values_.push("bar");
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
// After evaluation there should be a single value that represents
// result of "foo" == "bar" comparison.
ASSERT_EQ(1, values_.size());
EXPECT_EQ("false", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_EQUAL Popping 0x626172 and 0x666F6F "
"pushing result 'false'");
EXPECT_TRUE(checkFile());
}
// This test checks if a token representing an == operator is able to
// compare two identical values.
TEST_F(TokenTest, optionEqualTrue) {
ASSERT_NO_THROW(t_.reset(new TokenEqual()));
values_.push("foo");
values_.push("foo");
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
// After evaluation there should be a single value that represents
// result of "foo" == "foo" comparison.
ASSERT_EQ(1, values_.size());
EXPECT_EQ("true", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_EQUAL Popping 0x666F6F and 0x666F6F "
"pushing result 'true'");
EXPECT_TRUE(checkFile());
}
// This test checks if a token representing a substring request
// throws an exception if there aren't enough values on the stack.
// The stack from the top is: length, start, string.
// The actual packet is not used.
TEST_F(TokenTest, substringNotEnoughValues) {
ASSERT_NO_THROW(t_.reset(new TokenSubstring()));
// Subsring requires three values on the stack, try
// with 0, 1 and 2 all should throw an exception
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalBadStack);
values_.push("");
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalBadStack);
values_.push("0");
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalBadStack);
// Three should work
values_.push("0");
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
// As we had an empty string to start with we should have an empty
// one after the evaluate
ASSERT_EQ(1, values_.size());
EXPECT_EQ("", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_SUBSTRING_EMPTY Popping length 0, start 0, "
"string 0x pushing result 0x");
EXPECT_TRUE(checkFile());
}
// Test getting the whole string in different ways
TEST_F(TokenTest, substringWholeString) {
// Get the whole string
verifySubstringEval("foobar", "0", "6", "foobar");
// Get the whole string with "all"
verifySubstringEval("foobar", "0", "all", "foobar");
// Get the whole string with an extra long number
verifySubstringEval("foobar", "0", "123456", "foobar");
// Get the whole string counting from the back
verifySubstringEval("foobar", "-6", "all", "foobar");
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_SUBSTRING Popping length 6, start 0, "
"string 0x666F6F626172 pushing result 0x666F6F626172");
addString("EVAL_DEBUG_SUBSTRING Popping length all, start 0, "
"string 0x666F6F626172 pushing result 0x666F6F626172");
addString("EVAL_DEBUG_SUBSTRING Popping length 123456, start 0, "
"string 0x666F6F626172 pushing result 0x666F6F626172");
addString("EVAL_DEBUG_SUBSTRING Popping length all, start -6, "
"string 0x666F6F626172 pushing result 0x666F6F626172");
EXPECT_TRUE(checkFile());
}
// Test getting a suffix, in this case the last 3 characters
TEST_F(TokenTest, substringTrailer) {
verifySubstringEval("foobar", "3", "3", "bar");
verifySubstringEval("foobar", "3", "all", "bar");
verifySubstringEval("foobar", "-3", "all", "bar");
verifySubstringEval("foobar", "-3", "123", "bar");
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_SUBSTRING Popping length 3, start 3, "
"string 0x666F6F626172 pushing result 0x626172");
addString("EVAL_DEBUG_SUBSTRING Popping length all, start 3, "
"string 0x666F6F626172 pushing result 0x626172");
addString("EVAL_DEBUG_SUBSTRING Popping length all, start -3, "
"string 0x666F6F626172 pushing result 0x626172");
addString("EVAL_DEBUG_SUBSTRING Popping length 123, start -3, "
"string 0x666F6F626172 pushing result 0x626172");
EXPECT_TRUE(checkFile());
}
// Test getting the middle of the string in different ways
TEST_F(TokenTest, substringMiddle) {
verifySubstringEval("foobar", "1", "4", "ooba");
verifySubstringEval("foobar", "-5", "4", "ooba");
verifySubstringEval("foobar", "-1", "-4", "ooba");
verifySubstringEval("foobar", "5", "-4", "ooba");
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_SUBSTRING Popping length 4, start 1, "
"string 0x666F6F626172 pushing result 0x6F6F6261");
addString("EVAL_DEBUG_SUBSTRING Popping length 4, start -5, "
"string 0x666F6F626172 pushing result 0x6F6F6261");
addString("EVAL_DEBUG_SUBSTRING Popping length -4, start -1, "
"string 0x666F6F626172 pushing result 0x6F6F6261");
addString("EVAL_DEBUG_SUBSTRING Popping length -4, start 5, "
"string 0x666F6F626172 pushing result 0x6F6F6261");
EXPECT_TRUE(checkFile());
}
// Test getting the last letter in different ways
TEST_F(TokenTest, substringLastLetter) {
verifySubstringEval("foobar", "5", "all", "r");
verifySubstringEval("foobar", "5", "1", "r");
verifySubstringEval("foobar", "5", "5", "r");
verifySubstringEval("foobar", "-1", "all", "r");
verifySubstringEval("foobar", "-1", "1", "r");
verifySubstringEval("foobar", "-1", "5", "r");
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_SUBSTRING Popping length all, start 5, "
"string 0x666F6F626172 pushing result 0x72");
addString("EVAL_DEBUG_SUBSTRING Popping length 1, start 5, "
"string 0x666F6F626172 pushing result 0x72");
addString("EVAL_DEBUG_SUBSTRING Popping length 5, start 5, "
"string 0x666F6F626172 pushing result 0x72");
addString("EVAL_DEBUG_SUBSTRING Popping length all, start -1, "
"string 0x666F6F626172 pushing result 0x72");
addString("EVAL_DEBUG_SUBSTRING Popping length 1, start -1, "
"string 0x666F6F626172 pushing result 0x72");
addString("EVAL_DEBUG_SUBSTRING Popping length 5, start -1, "
"string 0x666F6F626172 pushing result 0x72");
EXPECT_TRUE(checkFile());
}
// Test we get only what is available if we ask for a longer string
TEST_F(TokenTest, substringLength) {
// Test off the front
verifySubstringEval("foobar", "0", "-4", "");
verifySubstringEval("foobar", "1", "-4", "f");
verifySubstringEval("foobar", "2", "-4", "fo");
verifySubstringEval("foobar", "3", "-4", "foo");
// and the back
verifySubstringEval("foobar", "3", "4", "bar");
verifySubstringEval("foobar", "4", "4", "ar");
verifySubstringEval("foobar", "5", "4", "r");
verifySubstringEval("foobar", "6", "4", "");
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_SUBSTRING Popping length -4, start 0, "
"string 0x666F6F626172 pushing result 0x");
addString("EVAL_DEBUG_SUBSTRING Popping length -4, start 1, "
"string 0x666F6F626172 pushing result 0x66");
addString("EVAL_DEBUG_SUBSTRING Popping length -4, start 2, "
"string 0x666F6F626172 pushing result 0x666F");
addString("EVAL_DEBUG_SUBSTRING Popping length -4, start 3, "
"string 0x666F6F626172 pushing result 0x666F6F");
addString("EVAL_DEBUG_SUBSTRING Popping length 4, start 3, "
"string 0x666F6F626172 pushing result 0x626172");
addString("EVAL_DEBUG_SUBSTRING Popping length 4, start 4, "
"string 0x666F6F626172 pushing result 0x6172");
addString("EVAL_DEBUG_SUBSTRING Popping length 4, start 5, "
"string 0x666F6F626172 pushing result 0x72");
addString("EVAL_DEBUG_SUBSTRING_RANGE Popping length 4, start 6, "
"string 0x666F6F626172 pushing result 0x");
EXPECT_TRUE(checkFile());
}
// Test that we get nothing if the starting position is out of the string
TEST_F(TokenTest, substringStartingPosition) {
// Off the front
verifySubstringEval("foobar", "-7", "1", "");
verifySubstringEval("foobar", "-7", "-11", "");
verifySubstringEval("foobar", "-7", "all", "");
// and the back
verifySubstringEval("foobar", "6", "1", "");
verifySubstringEval("foobar", "6", "-11", "");
verifySubstringEval("foobar", "6", "all", "");
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_SUBSTRING_RANGE Popping length 1, start -7, "
"string 0x666F6F626172 pushing result 0x");
addString("EVAL_DEBUG_SUBSTRING_RANGE Popping length -11, start -7, "
"string 0x666F6F626172 pushing result 0x");
addString("EVAL_DEBUG_SUBSTRING_RANGE Popping length all, start -7, "
"string 0x666F6F626172 pushing result 0x");
addString("EVAL_DEBUG_SUBSTRING_RANGE Popping length 1, start 6, "
"string 0x666F6F626172 pushing result 0x");
addString("EVAL_DEBUG_SUBSTRING_RANGE Popping length -11, start 6, "
"string 0x666F6F626172 pushing result 0x");
addString("EVAL_DEBUG_SUBSTRING_RANGE Popping length all, start 6, "
"string 0x666F6F626172 pushing result 0x");
EXPECT_TRUE(checkFile());
}
// Check what happens if we use strings that aren't numbers for start or length
// We should return the empty string
TEST_F(TokenTest, substringBadParams) {
verifySubstringEval("foobar", "0ick", "all", "", true);
verifySubstringEval("foobar", "ick0", "all", "", true);
verifySubstringEval("foobar", "ick", "all", "", true);
verifySubstringEval("foobar", "0", "ick", "", true);
verifySubstringEval("foobar", "0", "0ick", "", true);
verifySubstringEval("foobar", "0", "ick0", "", true);
verifySubstringEval("foobar", "0", "allaboard", "", true);
// These should result in a throw which should generate it's own
// log entry
}
// lastly check that we don't get anything if the string is empty or
// we don't ask for any characters from it.
TEST_F(TokenTest, substringReturnEmpty) {
verifySubstringEval("", "0", "all", "");
verifySubstringEval("foobar", "0", "0", "");
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_SUBSTRING_EMPTY Popping length all, start 0, "
"string 0x pushing result 0x");
addString("EVAL_DEBUG_SUBSTRING Popping length 0, start 0, "
"string 0x666F6F626172 pushing result 0x");
EXPECT_TRUE(checkFile());
}
// Check if we can use the substring and equal tokens together
// We put the result on the stack first then the substring values
// then evaluate the substring which should leave the original
// result on the bottom with the substring result on next.
// Evaulating the equals should produce true for the first
// and false for the second.
// throws an exception if there aren't enough values on the stack.
// The stack from the top is: length, start, string.
// The actual packet is not used.
TEST_F(TokenTest, substringEquals) {
TokenPtr tequal;
ASSERT_NO_THROW(t_.reset(new TokenSubstring()));
ASSERT_NO_THROW(tequal.reset(new TokenEqual()));
// The final expected value
values_.push("ooba");
// The substring values
values_.push("foobar");
values_.push("1");
values_.push("4");
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
// we should have two values on the stack
ASSERT_EQ(2, values_.size());
// next the equals eval
EXPECT_NO_THROW(tequal->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
EXPECT_EQ("true", values_.top());
// get rid of the result
values_.pop();
// and try it again but with a bad final value
// The final expected value
values_.push("foob");
// The substring values
values_.push("foobar");
values_.push("1");
values_.push("4");
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
// we should have two values on the stack
ASSERT_EQ(2, values_.size());
// next the equals eval
EXPECT_NO_THROW(tequal->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
EXPECT_EQ("false", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_SUBSTRING Popping length 4, start 1, "
"string 0x666F6F626172 pushing result 0x6F6F6261");
addString("EVAL_DEBUG_EQUAL Popping 0x6F6F6261 and 0x6F6F6261 "
"pushing result 'true'");
addString("EVAL_DEBUG_SUBSTRING Popping length 4, start 1, "
"string 0x666F6F626172 pushing result 0x6F6F6261");
addString("EVAL_DEBUG_EQUAL Popping 0x6F6F6261 and 0x666F6F62 "
"pushing result 'false'");
EXPECT_TRUE(checkFile());
}
// This test checks if a token representing a concat request
// throws an exception if there aren't enough values on the stack.
// The actual packet is not used.
TEST_F(TokenTest, concat) {
ASSERT_NO_THROW(t_.reset(new TokenConcat()));
// Concat requires two values on the stack, try
// with 0 and 1 both should throw an exception
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalBadStack);
values_.push("foo");
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalBadStack);
// Two should work
values_.push("bar");
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
// Check the result
ASSERT_EQ(1, values_.size());
EXPECT_EQ("foobar", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_CONCAT Popping 0x626172 and 0x666F6F "
"pushing 0x666F6F626172");
EXPECT_TRUE(checkFile());
}
// This test checks if a token representing a not is able to
// negate a boolean value (with incorrectly built stack).
TEST_F(TokenTest, operatorNotInvalid) {
ASSERT_NO_THROW(t_.reset(new TokenNot()));
// CASE 1: The stack is empty.
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalBadStack);
// CASE 2: The top value is not a boolean
values_.push("foo");
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalTypeError);
}
// This test checks if a token representing a not operator is able to
// negate a boolean value.
TEST_F(TokenTest, operatorNot) {
ASSERT_NO_THROW(t_.reset(new TokenNot()));
values_.push("true");
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
// After evaluation there should be the negation of the value.
ASSERT_EQ(1, values_.size());
EXPECT_EQ("false", values_.top());
// Double negation is identity.
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
EXPECT_EQ("true", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_NOT Popping 'true' pushing 'false'");
addString("EVAL_DEBUG_NOT Popping 'false' pushing 'true'");
EXPECT_TRUE(checkFile());
}
// This test checks if a token representing an and is able to
// conjugate two values (with incorrectly built stack).
TEST_F(TokenTest, operatorAndInvalid) {
ASSERT_NO_THROW(t_.reset(new TokenAnd()));
// CASE 1: There's not enough values on the stack. and is an operator that
// takes two parameters. There are 0 on the stack.
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalBadStack);
// CASE 2: One value is still not enough.
values_.push("foo");
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalBadStack);
// CASE 3: The two values must be logical
values_.push("true");
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalTypeError);
// Swap the 2 values
values_.push("true");
values_.push("foo");
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalTypeError);
}
// This test checks if a token representing an and operator is able to
// conjugate false with another logical
TEST_F(TokenTest, operatorAndFalse) {
ASSERT_NO_THROW(t_.reset(new TokenAnd()));
values_.push("true");
values_.push("false");
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
// After evaluation there should be a single "false" value
ASSERT_EQ(1, values_.size());
EXPECT_EQ("false", values_.top());
// After true and false, check false and true
values_.push("true");
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
EXPECT_EQ("false", values_.top());
// And false and false
values_.push("false");
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
EXPECT_EQ("false", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_AND Popping 'false' and 'true' pushing 'false'");
addString("EVAL_DEBUG_AND Popping 'true' and 'false' pushing 'false'");
addString("EVAL_DEBUG_AND Popping 'false' and 'false' pushing 'false'");
EXPECT_TRUE(checkFile());
}
// This test checks if a token representing an and is able to
// conjugate two true values.
TEST_F(TokenTest, operatorAndTrue) {
ASSERT_NO_THROW(t_.reset(new TokenAnd()));
values_.push("true");
values_.push("true");
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
// After evaluation there should be a single "true" value
ASSERT_EQ(1, values_.size());
EXPECT_EQ("true", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_AND Popping 'true' and 'true' pushing 'true'");
EXPECT_TRUE(checkFile());
}
// This test checks if a token representing an or is able to
// combine two values (with incorrectly built stack).
TEST_F(TokenTest, operatorOrInvalid) {
ASSERT_NO_THROW(t_.reset(new TokenOr()));
// CASE 1: There's not enough values on the stack. or is an operator that
// takes two parameters. There are 0 on the stack.
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalBadStack);
// CASE 2: One value is still not enough.
values_.push("foo");
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalBadStack);
// CASE 3: The two values must be logical
values_.push("true");
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalTypeError);
// Swap the 2 values
values_.push("true");
values_.push("foo");
EXPECT_THROW(t_->evaluate(*pkt4_, values_), EvalTypeError);
}
// This test checks if a token representing an or is able to
// conjugate two false values.
TEST_F(TokenTest, operatorOrFalse) {
ASSERT_NO_THROW(t_.reset(new TokenOr()));
values_.push("false");
values_.push("false");
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
// After evaluation there should be a single "false" value
ASSERT_EQ(1, values_.size());
EXPECT_EQ("false", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_OR Popping 'false' and 'false' pushing 'false'");
EXPECT_TRUE(checkFile());
}
// This test checks if a token representing an == operator is able to
// conjugate true with another logical
TEST_F(TokenTest, operatorOrTrue) {
ASSERT_NO_THROW(t_.reset(new TokenOr()));
values_.push("false");
values_.push("true");
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
// After evaluation there should be a single "true" value
ASSERT_EQ(1, values_.size());
EXPECT_EQ("true", values_.top());
// After false or true, checks true or false
values_.push("false");
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
EXPECT_EQ("true", values_.top());
// And true or true
values_.push("true");
EXPECT_NO_THROW(t_->evaluate(*pkt4_, values_));
ASSERT_EQ(1, values_.size());
EXPECT_EQ("true", values_.top());
// Check that the debug output was correct. Add the strings
// to the test vector in the class and then call checkFile
// for comparison
addString("EVAL_DEBUG_OR Popping 'true' and 'false' pushing 'true'");
addString("EVAL_DEBUG_OR Popping 'false' and 'true' pushing 'true'");
addString("EVAL_DEBUG_OR Popping 'true' and 'true' pushing 'true'");
EXPECT_TRUE(checkFile());
}
// This test verifies if expression vendor[4491].exists works properly in DHCPv4.
TEST_F(TokenTest, vendor4SpecificVendorExists) {
// Case 1: no option, should evaluate to false
testVendorExists(Option::V4, 4491, 0, "false");
// Case 2: option present, but uses different enterprise-id, should fail
testVendorExists(Option::V4, 4491, 1234, "false");
// Case 3: option present and has matchin enterprise-id, should succeed
testVendorExists(Option::V4, 4491, 4491, "true");
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_NO_OPTION Option with code 125 missing, "
"pushing result 'false'");
addString("EVAL_DEBUG_VENDOR_ENTERPRISE_ID_MISMATCH Was looking for 4491, "
"option had 1234, pushing result 'false'");
addString("EVAL_DEBUG_VENDOR_EXISTS Option with enterprise-id 4491 "
"found, pushing result 'true'");
EXPECT_TRUE(checkFile());
}
// This test verifies if expression vendor[4491].exists works properly in DHCPv6.
TEST_F(TokenTest, vendor6SpecificVendorExists) {
// Case 1: no option, should evaluate to false
testVendorExists(Option::V6, 4491, 0, "false");
// Case 2: option present, but uses different enterprise-id, should fail
testVendorExists(Option::V6, 4491, 1234, "false");
// Case 3: option present and has matchin enterprise-id, should succeed
testVendorExists(Option::V6, 4491, 4491, "true");
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_NO_OPTION Option with code 17 missing, "
"pushing result 'false'");
addString("EVAL_DEBUG_VENDOR_ENTERPRISE_ID_MISMATCH Was looking for 4491, "
"option had 1234, pushing result 'false'");
addString("EVAL_DEBUG_VENDOR_EXISTS Option with enterprise-id 4491 "
"found, pushing result 'true'");
EXPECT_TRUE(checkFile());
}
/// Test if expression vendor[*].exists works properly for DHCPv4.
TEST_F(TokenTest, vendor4AnyVendorExists) {
// Case 1: no option, should evaluate to false
testVendorExists(Option::V4, 0, 0, "false");
// Case 2: option present with vendor-id 1234, should succeed
testVendorExists(Option::V4, 0, 1234, "true");
// Case 3: option present with vendor-id 4491, should succeed
testVendorExists(Option::V4, 0, 4491, "true");
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_NO_OPTION Option with code 125 missing, "
"pushing result 'false'");
addString("EVAL_DEBUG_VENDOR_EXISTS Option with enterprise-id 1234 "
"found, pushing result 'true'");
addString("EVAL_DEBUG_VENDOR_EXISTS Option with enterprise-id 4491 "
"found, pushing result 'true'");
EXPECT_TRUE(checkFile());
}
// Test if expression vendor[*].exists works properly for DHCPv6.
TEST_F(TokenTest, vendor6AnyVendorExists) {
// Case 1: no option, should evaluate to false
testVendorExists(Option::V6, 0, 0, "false");
// Case 2: option present with vendor-id 1234, should succeed
testVendorExists(Option::V6, 0, 1234, "true");
// Case 3: option present with vendor-id 4491, should succeed
testVendorExists(Option::V6, 0, 4491, "true");
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_NO_OPTION Option with code 17 missing, "
"pushing result 'false'");
addString("EVAL_DEBUG_VENDOR_EXISTS Option with enterprise-id 1234 "
"found, pushing result 'true'");
addString("EVAL_DEBUG_VENDOR_EXISTS Option with enterprise-id 4491 "
"found, pushing result 'true'");
EXPECT_TRUE(checkFile());
}
// Test if expression vendor[*].enterprise works properly for DHCPv4.
TEST_F(TokenTest, vendor4enterprise) {
// Case 1: No option present, should return empty string
testVendorEnterprise(Option::V4, 0, "");
// Case 2: Option with vendor-id 1234, should return "1234"
testVendorEnterprise(Option::V4, 1234, encode(1234));
// Case 3: Option with vendor-id set to maximum value, should still
// be able to handle it
testVendorEnterprise(Option::V4, 4294967295, encode(4294967295));
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_NO_OPTION Option with code 125 missing, pushing"
" result ''");
addString("EVAL_DEBUG_VENDOR_ENTERPRISE_ID Pushing enterprise-id 1234 as "
"result 0x000004D2");
addString("EVAL_DEBUG_VENDOR_ENTERPRISE_ID Pushing enterprise-id 4294967295"
" as result 0xFFFFFFFF");
EXPECT_TRUE(checkFile());
}
// Test if expression vendor[*].enterprise works properly for DHCPv6.
TEST_F(TokenTest, vendor6enterprise) {
// Case 1: No option present, should return empty string
testVendorEnterprise(Option::V6, 0, "");
// Case 2: Option with vendor-id 1234, should return "1234"
testVendorEnterprise(Option::V6, 1234, encode(1234));
// Case 3: Option with vendor-id set to maximum value, should still
// be able to handle it
testVendorEnterprise(Option::V6, 4294967295, encode(4294967295));
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_NO_OPTION Option with code 17 missing, pushing"
" result ''");
addString("EVAL_DEBUG_VENDOR_ENTERPRISE_ID Pushing enterprise-id 1234 as "
"result 0x000004D2");
addString("EVAL_DEBUG_VENDOR_ENTERPRISE_ID Pushing enterprise-id 4294967295 "
"as result 0xFFFFFFFF");
EXPECT_TRUE(checkFile());
}
// This one tests "vendor[4491].option[1].exists" expression. There are so many
// wonderful ways in which this could fail: the option could not be there,
// it could have different enterprise-id, may not have suboption 1. Or may
// have the suboption with valid type, but enterprise may be different.
TEST_F(TokenTest, vendor4SuboptionExists) {
// Case 1: expression vendor[4491].option[1].exists, no option present
testVendorSuboption(Option::V4, 4491, 1, 0, 0, TokenOption::EXISTS, "false");
// Case 2: expression vendor[4491].option[1].exists, option with vendor-id = 1234,
// no suboptions, expected result "false"
testVendorSuboption(Option::V4, 4491, 1, 1234, 0, TokenOption::EXISTS, "false");
// Case 3: expression vendor[4491].option[1].exists, option with vendor-id = 1234,
// suboption 1, expected result "false"
testVendorSuboption(Option::V4, 4491, 1, 1234, 1, TokenOption::EXISTS, "false");
// Case 4: expression vendor[4491].option[1].exists, option with vendor-id = 4491,
// suboption 2, expected result "false"
testVendorSuboption(Option::V4, 4491, 1, 4491, 2, TokenOption::EXISTS, "false");
// Case 5: expression vendor[4491].option[1].exists, option with vendor-id = 4491,
// suboption 1, expected result "true"
testVendorSuboption(Option::V4, 4491, 1, 4491, 1, TokenOption::EXISTS, "true");
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_NO_OPTION Option with code 125 missing, pushing "
"result 'false'");
addString("EVAL_DEBUG_VENDOR_ENTERPRISE_ID_MISMATCH Was looking for 4491, "
"option had 1234, pushing result 'false'");
addString("EVAL_DEBUG_VENDOR_ENTERPRISE_ID_MISMATCH Was looking for 4491, "
"option had 1234, pushing result 'false'");
addString("EVAL_DEBUG_OPTION Pushing option 1 with value 'false'");
addString("EVAL_DEBUG_OPTION Pushing option 1 with value 'true'");
EXPECT_TRUE(checkFile());
}
// This is similar to the previous one, but tests vendor[4491].option[1].exists
// for DHCPv6.
TEST_F(TokenTest, vendor6SuboptionExists) {
// Case 1: expression vendor[4491].option[1].exists, no option present
testVendorSuboption(Option::V6, 4491, 1, 0, 0, TokenOption::EXISTS, "false");
// Case 2: expression vendor[4491].option[1].exists, option with vendor-id = 1234,
// no suboptions, expected result "false"
testVendorSuboption(Option::V6, 4491, 1, 1234, 0, TokenOption::EXISTS, "false");
// Case 3: expression vendor[4491].option[1].exists, option with vendor-id = 1234,
// suboption 1, expected result "false"
testVendorSuboption(Option::V6, 4491, 1, 1234, 1, TokenOption::EXISTS, "false");
// Case 4: expression vendor[4491].option[1].exists, option with vendor-id = 4491,
// suboption 2, expected result "false"
testVendorSuboption(Option::V6, 4491, 1, 4491, 2, TokenOption::EXISTS, "false");
// Case 5: expression vendor[4491].option[1].exists, option with vendor-id = 4491,
// suboption 1, expected result "true"
testVendorSuboption(Option::V6, 4491, 1, 4491, 1, TokenOption::EXISTS, "true");
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_NO_OPTION Option with code 17 missing, pushing "
"result 'false'");
addString("EVAL_DEBUG_VENDOR_ENTERPRISE_ID_MISMATCH Was looking for 4491, "
"option had 1234, pushing result 'false'");
addString("EVAL_DEBUG_VENDOR_ENTERPRISE_ID_MISMATCH Was looking for 4491, "
"option had 1234, pushing result 'false'");
addString("EVAL_DEBUG_OPTION Pushing option 1 with value 'false'");
addString("EVAL_DEBUG_OPTION Pushing option 1 with value 'true'");
EXPECT_TRUE(checkFile());
}
// This test verifies if vendor[4491].option[1].hex expression properly returns
// value of said sub-option or empty string if desired option is not present.
// This test is for DHCPv4.
TEST_F(TokenTest, vendor4SuboptionHex) {
// Case 1: no option present, should return empty string
testVendorSuboption(Option::V4, 4491, 1, 0, 0, TokenOption::HEXADECIMAL, "");
// Case 2: option with vendor-id = 1234, no suboptions, expected result ""
testVendorSuboption(Option::V4, 4491, 1, 1234, 0, TokenOption::HEXADECIMAL, "");
// Case 3: option with vendor-id = 1234, suboption 1, expected result ""
testVendorSuboption(Option::V4, 4491, 1, 1234, 1, TokenOption::HEXADECIMAL, "");
// Case 4: option with vendor-id = 4491, suboption 2, expected result ""
testVendorSuboption(Option::V4, 4491, 1, 4491, 2, TokenOption::HEXADECIMAL, "");
// Case 5: option with vendor-id = 4491, suboption 1, expected result content
// of the option
testVendorSuboption(Option::V4, 4491, 1, 4491, 1, TokenOption::HEXADECIMAL, "alpha");
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_NO_OPTION Option with code 125 missing, pushing "
"result ''");
addString("EVAL_DEBUG_VENDOR_ENTERPRISE_ID_MISMATCH Was looking for 4491, "
"option had 1234, pushing result ''");
addString("EVAL_DEBUG_VENDOR_ENTERPRISE_ID_MISMATCH Was looking for 4491, "
"option had 1234, pushing result ''");
addString("EVAL_DEBUG_OPTION Pushing option 1 with value 0x");
addString("EVAL_DEBUG_OPTION Pushing option 1 with value 0x616C706861");
EXPECT_TRUE(checkFile());
}
// This test verifies if vendor[4491].option[1].hex expression properly returns
// value of said sub-option or empty string if desired option is not present.
// This test is for DHCPv4.
TEST_F(TokenTest, vendor6SuboptionHex) {
// Case 1: no option present, should return empty string
testVendorSuboption(Option::V6, 4491, 1, 0, 0, TokenOption::HEXADECIMAL, "");
// Case 2: option with vendor-id = 1234, no suboptions, expected result ""
testVendorSuboption(Option::V6, 4491, 1, 1234, 0, TokenOption::HEXADECIMAL, "");
// Case 3: option with vendor-id = 1234, suboption 1, expected result ""
testVendorSuboption(Option::V6, 4491, 1, 1234, 1, TokenOption::HEXADECIMAL, "");
// Case 4: option with vendor-id = 4491, suboption 2, expected result ""
testVendorSuboption(Option::V6, 4491, 1, 4491, 2, TokenOption::HEXADECIMAL, "");
// Case 5: option with vendor-id = 4491, suboption 1, expected result content
// of the option
testVendorSuboption(Option::V6, 4491, 1, 4491, 1, TokenOption::HEXADECIMAL, "alpha");
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_NO_OPTION Option with code 17 missing, pushing "
"result ''");
addString("EVAL_DEBUG_VENDOR_ENTERPRISE_ID_MISMATCH Was looking for 4491, "
"option had 1234, pushing result ''");
addString("EVAL_DEBUG_VENDOR_ENTERPRISE_ID_MISMATCH Was looking for 4491, "
"option had 1234, pushing result ''");
addString("EVAL_DEBUG_OPTION Pushing option 1 with value 0x");
addString("EVAL_DEBUG_OPTION Pushing option 1 with value 0x616C706861");
EXPECT_TRUE(checkFile());
}
// This test verifies that "vendor-class[4491].exists" expression can be used
// in DHCPv4.
TEST_F(TokenTest, vendorClass4SpecificVendorExists) {
// Case 1: no option present, should fail
testVendorClassExists(Option::V4, 4491, 0, "false");
// Case 2: option exists, but has different vendor-id (1234), should fail
testVendorClassExists(Option::V4, 4491, 1234, "false");
// Case 3: option exists and has matching vendor-id, should succeed
testVendorClassExists(Option::V4, 4491, 4491, "true");
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_CLASS_NO_OPTION Option with code 124 missing, "
"pushing result 'false'");
addString("EVAL_DEBUG_VENDOR_CLASS_ENTERPRISE_ID_MISMATCH Was looking for "
"4491, option had 1234, pushing result 'false'");
addString("EVAL_DEBUG_VENDOR_CLASS_EXISTS Option with enterprise-id 4491 "
"found, pushing result 'true'");
EXPECT_TRUE(checkFile());
}
// This test verifies that "vendor-class[4491].exists" expression can be used
// in DHCPv6.
TEST_F(TokenTest, vendorClass6SpecificVendorExists) {
// Case 1: no option present, should fail
testVendorClassExists(Option::V6, 4491, 0, "false");
// Case 2: option exists, but has different vendor-id (1234), should fail
testVendorClassExists(Option::V6, 4491, 1234, "false");
// Case 3: option exists and has matching vendor-id, should succeed
testVendorClassExists(Option::V6, 4491, 4491, "true");
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_CLASS_NO_OPTION Option with code 16 missing, pushing "
"result 'false'");
addString("EVAL_DEBUG_VENDOR_CLASS_ENTERPRISE_ID_MISMATCH Was looking for "
"4491, option had 1234, pushing result 'false'");
addString("EVAL_DEBUG_VENDOR_CLASS_EXISTS Option with enterprise-id 4491 "
"found, pushing result 'true'");
EXPECT_TRUE(checkFile());
}
// This test verifies that "vendor-class[*].exists" can be used in DHCPv4
// and it matches a vendor class option with any vendor-id.
TEST_F(TokenTest, vendorClass4AnyVendorExists) {
// Case 1: no option present, should fail
testVendorClassExists(Option::V4, 0, 0, "false");
// Case 2: option exists, should succeed, regardless of the vendor-id
testVendorClassExists(Option::V4, 0, 1234, "true");
// Case 3: option exists, should succeed, regardless of the vendor-id
testVendorClassExists(Option::V4, 0, 4491, "true");
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_CLASS_NO_OPTION Option with code 124 missing, "
"pushing result 'false'");
addString("EVAL_DEBUG_VENDOR_CLASS_EXISTS Option with enterprise-id 1234 "
"found, pushing result 'true'");
addString("EVAL_DEBUG_VENDOR_CLASS_EXISTS Option with enterprise-id 4491 "
"found, pushing result 'true'");
EXPECT_TRUE(checkFile());
}
// This test verifies that "vendor-class[*].exists" can be used in DHCPv6
// and it matches a vendor class option with any vendor-id.
TEST_F(TokenTest, vendorClass6AnyVendorExists) {
// Case 1: no option present, should fail
testVendorClassExists(Option::V6, 0, 0, "false");
// Case 2: option exists, should succeed, regardless of the vendor-id
testVendorClassExists(Option::V6, 0, 1234, "true");
// Case 3: option exists, should succeed, regardless of the vendor-id
testVendorClassExists(Option::V6, 0, 4491, "true");
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_CLASS_NO_OPTION Option with code 16 missing, pushing "
"result 'false'");
addString("EVAL_DEBUG_VENDOR_CLASS_EXISTS Option with enterprise-id 1234 "
"found, pushing result 'true'");
addString("EVAL_DEBUG_VENDOR_CLASS_EXISTS Option with enterprise-id 4491 "
"found, pushing result 'true'");
EXPECT_TRUE(checkFile());
}
// Test if expression "vendor-class.enterprise" works properly for DHCPv4.
TEST_F(TokenTest, vendorClass4enterprise) {
// Case 1: No option present, should return empty string
testVendorClassEnterprise(Option::V4, 0, "");
// Case 2: Option with vendor-id 1234, should return "1234"
testVendorClassEnterprise(Option::V4, 1234, encode(1234));
// Case 3: Option with vendor-id set to maximum value, should still
// be able to handle it
testVendorClassEnterprise(Option::V4, 4294967295, encode(4294967295));
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_CLASS_NO_OPTION Option with code 124 missing, pushing "
"result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_ENTERPRISE_ID Pushing enterprise-id "
"1234 as result 0x000004D2");
addString("EVAL_DEBUG_VENDOR_CLASS_ENTERPRISE_ID Pushing enterprise-id "
"4294967295 as result 0xFFFFFFFF");
EXPECT_TRUE(checkFile());
}
// Test if expression "vendor-class.enterprise" works properly for DHCPv6.
TEST_F(TokenTest, vendorClass6enterprise) {
// Case 1: No option present, should return empty string
testVendorClassEnterprise(Option::V6, 0, "");
// Case 2: Option with vendor-id 1234, should return "1234"
testVendorClassEnterprise(Option::V6, 1234, encode(1234));
// Case 3: Option with vendor-id set to maximum value, should still
// be able to handle it.
testVendorClassEnterprise(Option::V6, 4294967295, encode(4294967295));
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_CLASS_NO_OPTION Option with code 16 missing, pushing "
"result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_ENTERPRISE_ID Pushing enterprise-id "
"1234 as result 0x000004D2");
addString("EVAL_DEBUG_VENDOR_CLASS_ENTERPRISE_ID Pushing enterprise-id "
"4294967295 as result 0xFFFFFFFF");
EXPECT_TRUE(checkFile());
}
// Test that expression "vendor-class[4491].data" is able to retrieve content
// of the first tuple of the vendor-class option in DHCPv4.
TEST_F(TokenTest, vendorClass4SpecificVendorData) {
// Case 1: Expression looks for vendor-id 4491, data[0], there is no
// vendor-class option at all, expected result is empty string.
testVendorClassData(Option::V4, 4491, 0, 0, 0, "");
// Case 2: Expression looks for vendor-id 4491, data[0], there is
// vendor-class with vendor-id 1234 and no data, expected result is empty string.
testVendorClassData(Option::V4, 4491, 0, 1234, 0, "");
// Case 3: Expression looks for vendor-id 4491, data[0], there is
// vendor-class with vendor-id 4491 and no data, expected result is empty string.
// Note that vendor option in v4 always have at least one data chunk, even though
// it may be empty. The OptionVendor code was told to not create any special
// tuples, but it creates one empty on its own. So the code finds that one
// tuple and extracts its content (an empty string).
testVendorClassData(Option::V4, 4491, 0, 4491, 0, "");
// Case 4: Expression looks for vendor-id 4491, data[0], there is
// vendor-class with vendor-id 1234 and 1 data tuple, expected result is empty string
testVendorClassData(Option::V4, 4491, 0, 1234, 1, "");
// Case 5: Expression looks for vendor-id 4491, data[0], there is
// vendor-class with vendor-id 4491 and 1 data tuple, expected result is
// content of that data ("alpha")
testVendorClassData(Option::V4, 4491, 0, 4491, 1, "alpha");
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_CLASS_NO_OPTION Option with code 124 missing, "
"pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_ENTERPRISE_ID_MISMATCH Was looking for "
"4491, option had 1234, pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_DATA Data 0 (out of 1 received) in vendor "
"class found, pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_ENTERPRISE_ID_MISMATCH Was looking for "
"4491, option had 1234, pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_DATA Data 0 (out of 1 received) in vendor "
"class found, pushing result 'alpha'");
EXPECT_TRUE(checkFile());
}
// Test that expression "vendor-class[4491].data" is able to retrieve content
// of the first tuple of the vendor-class option in DHCPv6.
TEST_F(TokenTest, vendorClass6SpecificVendorData) {
// Case 1: Expression looks for vendor-id 4491, data[0], there is no
// vendor-class option at all, expected result is empty string.
testVendorClassData(Option::V6, 4491, 0, 0, 0, "");
// Case 2: Expression looks for vendor-id 4491, data[0], there is
// vendor-class with vendor-id 1234 and no data, expected result is empty string.
testVendorClassData(Option::V6, 4491, 0, 1234, 0, "");
// Case 3: Expression looks for vendor-id 4491, data[0], there is
// vendor-class with vendor-id 4491 and no data, expected result is empty string
testVendorClassData(Option::V6, 4491, 0, 4491, 0, "");
// Case 4: Expression looks for vendor-id 4491, data[0], there is
// vendor-class with vendor-id 1234 and 1 data tuple, expected result is empty string
testVendorClassData(Option::V6, 4491, 0, 1234, 1, "");
// Case 5: Expression looks for vendor-id 4491, data[0], there is
// vendor-class with vendor-id 4491 and 1 data tuple, expected result is
// content of that data ("alpha")
testVendorClassData(Option::V6, 4491, 0, 4491, 1, "alpha");
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_CLASS_NO_OPTION Option with code 16 missing, "
"pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_ENTERPRISE_ID_MISMATCH Was looking for "
"4491, option had 1234, pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_DATA_NOT_FOUND Requested data index 0, "
"but option with enterprise-id 4491 has only 0 data tuple(s), "
"pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_ENTERPRISE_ID_MISMATCH Was looking for "
"4491, option had 1234, pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_DATA Data 0 (out of 1 received) in vendor "
"class found, pushing result 'alpha'");
EXPECT_TRUE(checkFile());
}
// Test that expression "vendor-class[*].data" is able to retrieve content
// of the first tuple of the vendor-class option in DHCPv4.
TEST_F(TokenTest, vendorClass4AnyVendorData) {
// Case 1: Expression looks for any vendor-id (0), data[0], there is no
// vendor-class option at all, expected result is empty string.
testVendorClassData(Option::V4, 0, 0, 0, 0, "");
// Case 2: Expression looks for any vendor-id (0), data[0], there is
// vendor-class with vendor-id 1234 and no data (one empty tuple), expected
// result is empty string.
testVendorClassData(Option::V4, 0, 0, 1234, 0, "");
// Case 3: Expression looks for any vendor-id (0), data[0], there is
// vendor-class with vendor-id 4491 and no data (one empty tuple), expected
// result is empty string.
testVendorClassData(Option::V4, 0, 0, 4491, 0, "");
// Case 4: Expression looks for any vendor-id (0), data[0], there is
// vendor-class with vendor-id 1234 and 1 data tuple, expected result is
// content of that data ("alpha")
testVendorClassData(Option::V4, 0, 0, 1234, 1, "alpha");
// Case 5: Expression looks for any vendor-id (0), data[0], there is
// vendor-class with vendor-id 4491 and 1 data tuple, expected result is
// content of that data ("alpha")
testVendorClassData(Option::V4, 0, 0, 4491, 1, "alpha");
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_CLASS_NO_OPTION Option with code 124 missing, "
"pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_DATA Data 0 (out of 1 received) in "
"vendor class found, pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_DATA Data 0 (out of 1 received) in "
"vendor class found, pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_DATA Data 0 (out of 1 received) in "
"vendor class found, pushing result 'alpha'");
addString("EVAL_DEBUG_VENDOR_CLASS_DATA Data 0 (out of 1 received) in "
"vendor class found, pushing result 'alpha'");
EXPECT_TRUE(checkFile());
}
// Test that expression "vendor-class[*].data" is able to retrieve content
// of the first tuple of the vendor-class option in DHCPv6.
TEST_F(TokenTest, vendorClass6AnyVendorData) {
// Case 1: Expression looks for any vendor-id (0), data[0], there is no
// vendor-class option at all, expected result is empty string.
testVendorClassData(Option::V6, 0, 0, 0, 0, "");
// Case 2: Expression looks for any vendor-id (0), data[0], there is
// vendor-class with vendor-id 1234 and no data, expected result is empty string.
testVendorClassData(Option::V6, 0, 0, 1234, 0, "");
// Case 3: Expression looks for any vendor-id (0), data[0], there is
// vendor-class with vendor-id 4491 and no data, expected result is empty string
testVendorClassData(Option::V6, 0, 0, 4491, 0, "");
// Case 4: Expression looks for any vendor-id (0), data[0], there is
// vendor-class with vendor-id 1234 and 1 data tuple, expected result is
// content of that data ("alpha")
testVendorClassData(Option::V6, 0, 0, 1234, 1, "alpha");
// Case 5: Expression looks for any vendor-id (0), data[0], there is
// vendor-class with vendor-id 4491 and 1 data tuple, expected result is
// content of that data ("alpha")
testVendorClassData(Option::V6, 0, 0, 4491, 1, "alpha");
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_CLASS_NO_OPTION Option with code 16 missing, "
"pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_DATA_NOT_FOUND Requested data index 0, "
"but option with enterprise-id 1234 has only 0 data tuple(s), "
"pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_DATA_NOT_FOUND Requested data index 0, "
"but option with enterprise-id 4491 has only 0 data tuple(s), "
"pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_DATA Data 0 (out of 1 received) in vendor "
"class found, pushing result 'alpha'");
addString("EVAL_DEBUG_VENDOR_CLASS_DATA Data 0 (out of 1 received) in vendor "
"class found, pushing result 'alpha'");
EXPECT_TRUE(checkFile());
}
// This test verifies if expression vendor-class[4491].data[3] is able to access
// the tuple specified by index. This is a DHCPv4 test.
TEST_F(TokenTest, vendorClass4DataIndex) {
// Case 1: Expression looks for vendor-id 4491, data[3], there is no
// vendor-class option at all, expected result is empty string.
testVendorClassData(Option::V4, 4491, 3, 0, 0, "");
// Case 2: Expression looks for vendor-id 4491, data[3], there is
// vendor-class with vendor-id 1234 and no data, expected result is empty string.
testVendorClassData(Option::V4, 4491, 3, 1234, 0, "");
// Case 3: Expression looks for vendor-id 4491, data[3], there is
// vendor-class with vendor-id 4491 and no data, expected result is empty string
testVendorClassData(Option::V4, 4491, 3, 4491, 0, "");
// Case 4: Expression looks for vendor-id 4491, data[3], there is
// vendor-class with vendor-id 1234 and 1 data tuple, expected result is empty string.
testVendorClassData(Option::V4, 4491, 3, 1234, 1, "");
// Case 5: Expression looks for vendor-id 4491, data[3], there is
// vendor-class with vendor-id 4491, but has only 3 data tuples, expected
// result is empty string.
testVendorClassData(Option::V4, 4491, 3, 4491, 3, "");
// Case 6: Expression looks for vendor-id 4491, data[3], there is
// vendor-class with vendor-id 4491 and 5 data tuples, expected result is
// content of that tuple ("gamma")
testVendorClassData(Option::V4, 4491, 3, 4491, 5, "gamma");
// Case 6: Expression looks for vendor-id 4491, data[3], there is
// vendor-class with vendor-id 1234 and 5 data tuples, expected result is
// empty string, because vendor-id does not match.
testVendorClassData(Option::V4, 4491, 3, 1234, 5, "");
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_CLASS_NO_OPTION Option with code 124 missing, "
"pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_ENTERPRISE_ID_MISMATCH Was looking for "
"4491, option had 1234, pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_DATA_NOT_FOUND Requested data index 3, "
"but option with enterprise-id 4491 has only 1 data tuple(s), "
"pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_ENTERPRISE_ID_MISMATCH Was looking for "
"4491, option had 1234, pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_DATA_NOT_FOUND Requested data index 3, "
"but option with enterprise-id 4491 has only 3 data tuple(s), "
"pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_DATA Data 3 (out of 5 received) in vendor "
"class found, pushing result 'gamma'");
addString("EVAL_DEBUG_VENDOR_CLASS_ENTERPRISE_ID_MISMATCH Was looking for "
"4491, option had 1234, pushing result ''");
EXPECT_TRUE(checkFile());
}
// This test verifies if expression vendor-class[4491].data[3] is able to access
// the tuple specified by index. This is a DHCPv6 test.
TEST_F(TokenTest, vendorClass6DataIndex) {
// Case 1: Expression looks for vendor-id 4491, data[3], there is no
// vendor-class option at all, expected result is empty string.
testVendorClassData(Option::V6, 4491, 3, 0, 0, "");
// Case 2: Expression looks for vendor-id 4491, data[3], there is
// vendor-class with vendor-id 1234 and no data, expected result is empty string.
testVendorClassData(Option::V6, 4491, 3, 1234, 0, "");
// Case 3: Expression looks for vendor-id 4491, data[3], there is
// vendor-class with vendor-id 4491 and no data, expected result is empty string
testVendorClassData(Option::V6, 4491, 3, 4491, 0, "");
// Case 4: Expression looks for vendor-id 4491, data[3], there is
// vendor-class with vendor-id 1234 and 5 data tuples, expected result is empty string.
testVendorClassData(Option::V6, 4491, 3, 1234, 5, "");
// Case 5: Expression looks for vendor-id 4491, data[3], there is
// vendor-class with vendor-id 4491, but has only 3 data tuples, expected
// result is empty string.
testVendorClassData(Option::V6, 4491, 3, 4491, 3, "");
// Case 6: Expression looks for vendor-id 4491, data[3], there is
// vendor-class with vendor-id 4491 and 5 data tuples, expected result is
// content of that tuple ("gamma")
testVendorClassData(Option::V6, 4491, 3, 4491, 5, "gamma");
// Check if the logged messages are correct.
addString("EVAL_DEBUG_VENDOR_CLASS_NO_OPTION Option with code 16 missing, "
"pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_ENTERPRISE_ID_MISMATCH Was looking for "
"4491, option had 1234, pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_DATA_NOT_FOUND Requested data index 3, "
"but option with enterprise-id 4491 has only 0 data tuple(s), "
"pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_ENTERPRISE_ID_MISMATCH Was looking for "
"4491, option had 1234, pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_DATA_NOT_FOUND Requested data index 3, "
"but option with enterprise-id 4491 has only 3 data tuple(s), "
"pushing result ''");
addString("EVAL_DEBUG_VENDOR_CLASS_DATA Data 3 (out of 5 received) in vendor"
" class found, pushing result 'gamma'");
EXPECT_TRUE(checkFile());
}
// Checks if various values can be represented as integer tokens
TEST_F(TokenTest, integer) {
testInteger(encode(0), 0);
testInteger(encode(6), 6);
testInteger(encode(255), 255);
testInteger(encode(256), 256);
testInteger(encode(1410), 1410);
testInteger(encode(4294967295), 4294967295);
}
};
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