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/*
* cachefilter-patterns.h - Pattern parser and additional patterns as matchers
*
* Copyright (c) 2019 Canonical Ltd
*
* SPDX-License-Identifier: GPL-2.0+
*/
#include <config.h>
#include <apt-pkg/cachefilter-patterns.h>
#include <apt-pkg/cachefilter.h>
#include "common.h"
using namespace APT::Internal;
#define EXPECT_EXCEPTION(exp, exc, msg) \
caught = false; \
try \
{ \
exp; \
} \
catch (exc & e) \
{ \
caught = true; \
EXPECT_TRUE(e.message.find(msg) != std::string::npos) << msg << " not in " << e.message; \
}; \
EXPECT_TRUE(caught) << #exp "should have thrown an exception"
TEST(TreeParserTest, ParseInvalid)
{
bool caught = false;
// Not a valid pattern: Reject
EXPECT_EXCEPTION(PatternTreeParser("?").parse(), PatternTreeParser::Error, "Pattern must have a term");
EXPECT_EXCEPTION(PatternTreeParser("?AB?").parse(), PatternTreeParser::Error, "Pattern must have a term");
EXPECT_EXCEPTION(PatternTreeParser("~").parse(), PatternTreeParser::Error, "Unknown short pattern");
// Not a pattern at all: Report nullptr
EXPECT_EQ(PatternTreeParser("A?").parse(), nullptr);
}
TEST(TreeParserTest, ParseWord)
{
auto node = PatternTreeParser("?word(word)").parseTop();
auto patternNode = dynamic_cast<PatternTreeParser::PatternNode *>(node.get());
ASSERT_EQ(patternNode->arguments.size(), 1u);
auto wordNode = dynamic_cast<PatternTreeParser::WordNode *>(patternNode->arguments[0].get());
EXPECT_EQ(patternNode->arguments[0].get(), wordNode);
EXPECT_EQ(wordNode->word, "word");
}
TEST(TreeParserTest, ParseQuotedWord)
{
auto node = PatternTreeParser("?word(\"a word\")").parseTop();
auto patternNode = dynamic_cast<PatternTreeParser::PatternNode *>(node.get());
ASSERT_EQ(patternNode->arguments.size(), 1u);
auto wordNode = dynamic_cast<PatternTreeParser::WordNode *>(patternNode->arguments[0].get());
EXPECT_EQ(patternNode->arguments[0].get(), wordNode);
EXPECT_EQ(wordNode->word, "a word");
}
TEST(TreeParserTest, ParsePattern)
{
auto node = PatternTreeParser("?hello").parseTop();
auto patternNode = dynamic_cast<PatternTreeParser::PatternNode *>(node.get());
EXPECT_EQ(node.get(), patternNode);
EXPECT_EQ(patternNode->term, "?hello");
EXPECT_TRUE(patternNode->arguments.empty());
EXPECT_FALSE(patternNode->haveArgumentList);
}
TEST(TreeParserTest, ParseWithEmptyArgs)
{
auto node = PatternTreeParser("?hello()").parseTop();
auto patternNode = dynamic_cast<PatternTreeParser::PatternNode *>(node.get());
EXPECT_EQ(node.get(), patternNode);
EXPECT_EQ(patternNode->term, "?hello");
EXPECT_TRUE(patternNode->arguments.empty());
EXPECT_TRUE(patternNode->haveArgumentList);
}
TEST(TreeParserTest, ParseWithOneArgs)
{
auto node = PatternTreeParser("?hello(foo)").parseTop();
auto patternNode = dynamic_cast<PatternTreeParser::PatternNode *>(node.get());
EXPECT_EQ(node.get(), patternNode);
EXPECT_EQ(patternNode->term, "?hello");
EXPECT_EQ(1u, patternNode->arguments.size());
}
TEST(TreeParserTest, ParseWithManyArgs)
{
auto node = PatternTreeParser("?hello(foo,bar)").parseTop();
auto patternNode = dynamic_cast<PatternTreeParser::PatternNode *>(node.get());
EXPECT_EQ(node.get(), patternNode);
EXPECT_EQ(patternNode->term, "?hello");
EXPECT_EQ(2u, patternNode->arguments.size());
}
TEST(TreeParserTest, ParseWithManyArgsWithSpaces)
{
auto node = PatternTreeParser("?hello (foo, bar)").parseTop();
auto patternNode = dynamic_cast<PatternTreeParser::PatternNode *>(node.get());
EXPECT_EQ(node.get(), patternNode);
EXPECT_EQ(patternNode->term, "?hello");
EXPECT_EQ(2u, patternNode->arguments.size());
}
TEST(TreeParserTest, ParseWithManyArgsWithSpacesWithTrailingComma)
{
auto node = PatternTreeParser("?hello (foo, bar,)").parseTop();
auto patternNode = dynamic_cast<PatternTreeParser::PatternNode *>(node.get());
EXPECT_EQ(node.get(), patternNode);
EXPECT_EQ(patternNode->term, "?hello");
EXPECT_EQ(2u, patternNode->arguments.size());
}
// Helper
static bool samePattern(const std::unique_ptr<PatternTreeParser::Node> &a, const std::unique_ptr<PatternTreeParser::Node> &b)
{
auto pa = dynamic_cast<const PatternTreeParser::PatternNode *>(a.get());
auto pb = dynamic_cast<const PatternTreeParser::PatternNode *>(b.get());
if (pa && pb)
{
if (pa->term != pb->term || pa->haveArgumentList != pb->haveArgumentList || pa->arguments.size() != pb->arguments.size())
return false;
for (size_t i = 0; i < pa->arguments.size(); i++)
{
if (!samePattern(pa->arguments[i], pb->arguments[i]))
return false;
}
return true;
}
auto wa = dynamic_cast<const PatternTreeParser::WordNode *>(a.get());
auto wb = dynamic_cast<const PatternTreeParser::WordNode *>(b.get());
if (wa && wb)
return wa->word == wb->word && wa->quoted == wb->quoted;
return false;
}
#define EXPECT_PATTERN_EQ(shrt, lng) \
EXPECT_TRUE(samePattern(PatternTreeParser(shrt).parseTop(), PatternTreeParser(lng).parseTop()))
#define EXPECT_PATTERN_EQ_ATOMIC(shrt, lng) \
EXPECT_TRUE(PatternTreeParser(shrt).parseTop()); \
caught = false; \
try \
{ \
PatternTreeParser(shrt "XXX").parseTop(); \
} \
catch (PatternTreeParser::Error & e) \
{ \
caught = true; \
}; \
EXPECT_TRUE(caught) << shrt "XXX should have thrown an exception"; \
EXPECT_PATTERN_EQ(shrt, lng)
TEST(TreeParserTest, ParseShortPattern)
{
bool caught;
EXPECT_PATTERN_EQ("~ramd64", "?architecture(amd64)");
EXPECT_PATTERN_EQ("~AanArchive", "?archive(anArchive)");
EXPECT_PATTERN_EQ_ATOMIC("~M", "?automatic");
EXPECT_PATTERN_EQ_ATOMIC("~b", "?broken");
EXPECT_PATTERN_EQ_ATOMIC("~c", "?config-files");
EXPECT_PATTERN_EQ_ATOMIC("~E", "?essential");
EXPECT_PATTERN_EQ_ATOMIC("~F", "?false");
EXPECT_PATTERN_EQ_ATOMIC("~g", "?garbage");
EXPECT_PATTERN_EQ_ATOMIC("~i", "?installed");
EXPECT_PATTERN_EQ("~napt", "?name(apt)");
EXPECT_PATTERN_EQ_ATOMIC("~o", "?obsolete");
EXPECT_PATTERN_EQ("~Obar", "?origin(bar)");
EXPECT_PATTERN_EQ("~sfoo", "?section(foo)");
EXPECT_PATTERN_EQ("~esourcename", "?source-package(sourcename)");
EXPECT_PATTERN_EQ_ATOMIC("~T", "?true");
EXPECT_PATTERN_EQ_ATOMIC("~U", "?upgradable");
EXPECT_PATTERN_EQ("~Vverstr", "?version(verstr)");
EXPECT_PATTERN_EQ_ATOMIC("~v", "?virtual");
EXPECT_PATTERN_EQ("!?foo", "?not(?foo)");
caught = false;
try
{
PatternTreeParser("!x").parseTop();
}
catch (PatternTreeParser::Error &e)
{
caught = true;
};
EXPECT_TRUE(caught) << "!X should have thrown an exception";
EXPECT_PATTERN_EQ("?a?b", "?and(?a, ?b)");
EXPECT_PATTERN_EQ("~T~F", "?and(?true, ?false)");
EXPECT_PATTERN_EQ("~T ~F", "?and(?true, ?false)");
EXPECT_PATTERN_EQ("~T !~F", "?and(?true, ?not(?false))");
EXPECT_PATTERN_EQ("!~F ~T", "?and(?not(?false), ?true)");
EXPECT_PATTERN_EQ("!~F~T", "?and(?not(?false), ?true)");
EXPECT_PATTERN_EQ("!~F~T | ~T", "?or(?and(?not(?false), ?true), ?true)");
EXPECT_PATTERN_EQ("~ramd64|~rall", "?or(?architecture(amd64), ?architecture(all))");
EXPECT_PATTERN_EQ("~ramd64 | ~rall", "?or(?architecture(amd64), ?architecture(all))");
EXPECT_PATTERN_EQ("~ramd64?name(foo)", "?and(?architecture(amd64), ?name(foo))");
EXPECT_PATTERN_EQ("(?A|?B)?C", "?and(?or(?A, ?B), ?C)");
EXPECT_PATTERN_EQ("?A|?B?C", "?or(?A, ?and(?B, ?C))");
EXPECT_PATTERN_EQ("?A|(?B?C)", "?or(?A, ?and(?B, ?C))");
EXPECT_PATTERN_EQ("(?B?C)|?A", "?or(?and(?B, ?C), ?A)");
EXPECT_PATTERN_EQ("~napt~nfoo", "?and(?name(apt),?name(foo))");
EXPECT_PATTERN_EQ("~napt!~nfoo", "?and(?name(apt),?not(?name(foo)))");
}
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