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/*
* cachefilter-patterns.cc - Parser for aptitude-style patterns
*
* Copyright (c) 2019 Canonical Ltd
*
* SPDX-License-Identifier: GPL-2.0+
*/
#include <apt-pkg/cachefilter-patterns.h>
namespace APT
{
namespace Internal
{
template <class... Args>
std::string rstrprintf(Args... args)
{
std::string str;
strprintf(str, std::forward<Args>(args)...);
return str;
}
// Parse a complete pattern, make sure it's the entire input
std::unique_ptr<PatternTreeParser::Node> PatternTreeParser::parseTop()
{
skipSpace();
auto node = parse();
skipSpace();
if (node->end != sentence.size())
{
Node node2;
node2.start = node->end;
node2.end = sentence.size();
throw Error{node2, "Expected end of file"};
}
return node;
}
// Parse any pattern
std::unique_ptr<PatternTreeParser::Node> PatternTreeParser::parse()
{
std::unique_ptr<Node> node;
if ((node = parsePattern()) != nullptr)
return node;
if ((node = parseQuotedWord()) != nullptr)
return node;
if ((node = parseWord()) != nullptr)
return node;
Node eNode;
eNode.end = eNode.start = state.offset;
throw Error{eNode, "Expected pattern, quoted word, or word"};
}
// Parse a list pattern (or function call pattern)
std::unique_ptr<PatternTreeParser::Node> PatternTreeParser::parsePattern()
{
static const APT::StringView CHARS("0123456789"
"abcdefghijklmnopqrstuvwxyz"
"ABCDEFGHIJKLMNOPQRSTUVWXYZ"
"-");
if (sentence[state.offset] != '?')
return nullptr;
auto node = std::make_unique<PatternNode>();
node->end = node->start = state.offset;
state.offset++;
while (CHARS.find(sentence[state.offset]) != APT::StringView::npos)
{
++state.offset;
}
node->term = sentence.substr(node->start, state.offset - node->start);
node->end = skipSpace();
// We don't have any arguments, return node;
if (sentence[state.offset] != '(')
return node;
node->end = ++state.offset;
skipSpace();
node->haveArgumentList = true;
// Empty argument list, return
if (sentence[state.offset] == ')')
{
node->end = ++state.offset;
return node;
}
node->arguments.push_back(parse());
skipSpace();
while (sentence[state.offset] == ',')
{
++state.offset;
skipSpace();
// This was a trailing comma - allow it and break the loop
if (sentence[state.offset] == ')')
break;
node->arguments.push_back(parse());
skipSpace();
}
if (sentence[state.offset] != ')')
throw Error{*node, rstrprintf("Expected closing parenthesis, received %d", sentence[state.offset])};
node->end = ++state.offset;
return node;
}
// Parse a quoted word atom
std::unique_ptr<PatternTreeParser::Node> PatternTreeParser::parseQuotedWord()
{
if (sentence[state.offset] != '"')
return nullptr;
auto node = std::make_unique<WordNode>();
node->start = state.offset;
// Eat beginning of string
state.offset++;
while (sentence[state.offset] != '"' && sentence[state.offset] != '\0')
state.offset++;
// End of string
if (sentence[state.offset] != '"')
throw Error{*node, "Could not find end of string"};
state.offset++;
node->end = state.offset;
node->word = sentence.substr(node->start + 1, node->end - node->start - 2);
return node;
}
// Parse a bare word atom
std::unique_ptr<PatternTreeParser::Node> PatternTreeParser::parseWord()
{
static const APT::StringView CHARS("0123456789"
"abcdefghijklmnopqrstuvwxyz"
"ABCDEFGHIJKLMNOPQRSTUVWXYZ"
"-.*^$[]_\\");
if (CHARS.find(sentence[state.offset]) == APT::StringView::npos)
return nullptr;
auto node = std::make_unique<WordNode>();
node->start = state.offset;
while (CHARS.find(sentence[state.offset]) != APT::StringView::npos)
state.offset++;
node->end = state.offset;
node->word = sentence.substr(node->start, node->end - node->start);
return node;
}
// Rendering of the tree in JSON for debugging
std::ostream &PatternTreeParser::PatternNode::render(std::ostream &os)
{
os << "{"
<< "\"term\": \"" << term.to_string() << "\",\n"
<< "\"arguments\": [\n";
for (auto &node : arguments)
node->render(os) << "," << std::endl;
os << "null]\n";
os << "}\n";
return os;
}
std::ostream &PatternTreeParser::WordNode::render(std::ostream &os)
{
os << '"' << word.to_string() << '"';
return os;
}
std::nullptr_t PatternTreeParser::Node::error(std::string message)
{
throw Error{*this, message};
}
bool PatternTreeParser::PatternNode::matches(APT::StringView name, int min, int max)
{
if (name != term)
return false;
if (max != 0 && !haveArgumentList)
error(rstrprintf("%s expects an argument list", term.to_string().c_str()));
if (max == 0 && haveArgumentList)
error(rstrprintf("%s does not expect an argument list", term.to_string().c_str()));
if (min >= 0 && min == max && (arguments.size() != size_t(min)))
error(rstrprintf("%s expects %d arguments, but received %d arguments", term.to_string().c_str(), min, arguments.size()));
if (min >= 0 && arguments.size() < size_t(min))
error(rstrprintf("%s expects at least %d arguments, but received %d arguments", term.to_string().c_str(), min, arguments.size()));
if (max >= 0 && arguments.size() > size_t(max))
error(rstrprintf("%s expects at most %d arguments, but received %d arguments", term.to_string().c_str(), max, arguments.size()));
return true;
}
std::unique_ptr<APT::CacheFilter::Matcher> PatternParser::aPattern(std::unique_ptr<PatternTreeParser::Node> &nodeP)
{
assert(nodeP != nullptr);
auto node = dynamic_cast<PatternTreeParser::PatternNode *>(nodeP.get());
if (node == nullptr)
nodeP->error("Expected a pattern");
if (node->matches("?architecture", 1, 1))
return std::make_unique<APT::CacheFilter::PackageArchitectureMatchesSpecification>(aWord(node->arguments[0]));
if (node->matches("?automatic", 0, 0))
return std::make_unique<Patterns::PackageIsAutomatic>(file);
if (node->matches("?false", 0, 0))
return std::make_unique<APT::CacheFilter::FalseMatcher>();
if (node->matches("?garbage", 0, 0))
return std::make_unique<Patterns::PackageIsGarbage>(file);
if (node->matches("?name", 1, 1))
return std::make_unique<APT::CacheFilter::PackageNameMatchesRegEx>(aWord(node->arguments[0]));
if (node->matches("?not", 1, 1))
return std::make_unique<APT::CacheFilter::NOTMatcher>(aPattern(node->arguments[0]).release());
if (node->matches("?true", 0, 0))
return std::make_unique<APT::CacheFilter::TrueMatcher>();
if (node->matches("?x-name-fnmatch", 1, 1))
return std::make_unique<APT::CacheFilter::PackageNameMatchesFnmatch>(aWord(node->arguments[0]));
// Variable argument patterns
if (node->matches("?and", 0, -1))
{
auto pattern = std::make_unique<APT::CacheFilter::ANDMatcher>();
for (auto &arg : node->arguments)
pattern->AND(aPattern(arg).release());
return pattern;
}
if (node->matches("?or", 0, -1))
{
auto pattern = std::make_unique<APT::CacheFilter::ORMatcher>();
for (auto &arg : node->arguments)
pattern->OR(aPattern(arg).release());
return pattern;
}
node->error(rstrprintf("Unrecognized pattern '%s'", node->term.to_string().c_str()));
return nullptr;
}
std::string PatternParser::aWord(std::unique_ptr<PatternTreeParser::Node> &nodeP)
{
assert(nodeP != nullptr);
auto node = dynamic_cast<PatternTreeParser::WordNode *>(nodeP.get());
if (node == nullptr)
nodeP->error("Expected a word");
return node->word.to_string();
}
} // namespace Internal
// The bridge into the public world
std::unique_ptr<APT::CacheFilter::Matcher> APT::CacheFilter::ParsePattern(APT::StringView pattern, pkgCacheFile *file)
{
if (file != nullptr && !file->BuildDepCache())
return nullptr;
try
{
auto top = APT::Internal::PatternTreeParser(pattern).parseTop();
APT::Internal::PatternParser parser{file};
return parser.aPattern(top);
}
catch (APT::Internal::PatternTreeParser::Error &e)
{
std::stringstream ss;
ss << "input:" << e.location.start << "-" << e.location.end << ": error: " << e.message << "\n";
ss << pattern.to_string() << "\n";
for (size_t i = 0; i < e.location.start; i++)
ss << " ";
for (size_t i = e.location.start; i < e.location.end; i++)
ss << "^";
ss << "\n";
_error->Error("%s", ss.str().c_str());
return nullptr;
}
}
} // namespace APT
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