naiveproxy/net/base/lookup_string_in_fixed_set.h

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2018-08-11 08:35:24 +03:00
// Copyright 2015 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef NET_BASE_LOOKUP_STRING_IN_FIXED_SET_H_
#define NET_BASE_LOOKUP_STRING_IN_FIXED_SET_H_
#include <stddef.h>
#include "net/base/net_export.h"
namespace net {
enum {
kDafsaNotFound = -1, // key is not in set
kDafsaFound = 0, // key is in set
// The following return values are used by the implementation of
// GetDomainAndRegistry() and are probably not generally useful.
kDafsaExceptionRule = 1, // key excluded from set via exception
kDafsaWildcardRule = 2, // key matched a wildcard rule
kDafsaPrivateRule = 4, // key matched a private rule
};
// Looks up the string |key| with length |key_length| in a fixed set of
// strings. The set of strings must be known at compile time. It is converted to
// a graph structure named a DAFSA (Deterministic Acyclic Finite State
// Automaton) by the script make_dafsa.py during compilation. This permits
// efficient (in time and space) lookup. The graph generated by make_dafsa.py
// takes the form of a constant byte array which should be supplied via the
// |graph| and |length| parameters. The return value is kDafsaNotFound,
// kDafsaFound, or a bitmap consisting of one or more of kDafsaExceptionRule,
// kDafsaWildcardRule and kDafsaPrivateRule ORed together.
//
// TODO(nick): Replace this with FixedSetIncrementalLookup everywhere.
NET_EXPORT int LookupStringInFixedSet(const unsigned char* graph,
size_t length,
const char* key,
size_t key_length);
// FixedSetIncrementalLookup provides efficient membership and prefix queries
// against a fixed set of strings. The set of strings must be known at compile
// time. The set is converted to a graph structure named a DAFSA (Deterministic
// Acyclic Finite State Automaton) by the script //net/tools/dafsa/make_dafsa.py
// during compilation. The conversion generates a C++ header file defining the
// encoded graph as a constant byte array. This class provides a fast, constant-
// space lookup operation against such byte arrays.
//
// The lookup proceeds incrementally, with input characters provided one at a
// time. This approach allow queries of the form: "given an input string, which
// prefixes of that string that appear in the fixed set?" As the matching
// prefixes (and their result codes) are enumerated, the most suitable match
// among them can be selected in a single pass.
//
// This class can also be used to perform suffix queries (instead of prefix
// queries) against a fixed set, so long as the DAFSA is constructed on reversed
// values, and the input is provided in reverse order.
//
// Example usage for simple membership query; |input| is a std::string:
//
// FixedSetIncrementalLookup lookup(kDafsa, sizeof(kDafsa));
// for (char c : input) {
// if (!lookup.Advance(c))
// return false;
// }
// return lookup.GetResultForCurrentSequence() != kDafsaNotFound;
//
// Example usage for 'find longest prefix in set with result code == 3' query:
//
// FixedSetIncrementalLookup prefix_lookup(kDafsa, sizeof(kDafsa));
// size_t longest_match_end = 0;
// for (size_t i = 0; i < input.length(); ++i) {
// if (!prefix_lookup.Advance(input[i]))
// break;
// if (prefix_lookup.GetResultForCurrentSequence() == 3)
// longest_match_end = (i + 1);
// }
// return input.substr(0, longest_match_end);
//
class NET_EXPORT FixedSetIncrementalLookup {
public:
// Begin a lookup against the provided fixed set. |graph| and |length|
// describe a byte buffer generated by the make_dafsa.py script, as described
// in the class comment.
//
// FixedSetIncrementalLookup is initialized to a state corresponding to the
// empty input sequence. Calling GetResultForCurrentSequence() in the initial
// state would indicate whether the empty string appears in the fixed set.
// Characters can be added to the sequence by calling Advance(), and the
// lookup result can be checked after each addition by calling
// GetResultForCurrentSequence().
FixedSetIncrementalLookup(const unsigned char* graph, size_t length);
// FixedSetIncrementalLookup is copyable so that callers can save/restore
// their position in the search. This is for cases where branching or
// backtracking might be required (e.g. to probe for the presence of a
// designated wildcard character).
FixedSetIncrementalLookup(const FixedSetIncrementalLookup&);
FixedSetIncrementalLookup& operator=(const FixedSetIncrementalLookup&);
~FixedSetIncrementalLookup();
// Advance the query by adding a character to the input sequence. |input| can
// be any char value, but only ASCII characters will ever result in matches,
// since the fixed set itself is limited to ASCII strings.
//
// Returns true if the resulting input sequence either appears in the fixed
// set itself, or is a prefix of some longer string in the fixed set. Returns
// false otherwise, implying that the graph is exhausted and
// GetResultForCurrentSequence() will return kDafsaNotFound.
//
// Once Advance() has returned false, the caller can safely stop feeding more
// characters, as subsequent calls to Advance() will return false and have no
// effect.
bool Advance(char input);
// Returns the result code corresponding to the input sequence provided thus
// far to Advance().
//
// If the sequence does not appear in the fixed set, the return value is
// kDafsaNotFound. Otherwise, the value is a non-negative integer (currently
// limited to 0-7) corresponding to the result code for that string, as listed
// in the .gperf file from which the DAFSA was generated. For
// GetDomainAndRegistry DAFSAs, these values should be interpreted as a
// bitmask of kDafsaExceptionRule, kDafsaWildcardRule, and kDafsaPrivateRule.
//
// It is okay to call this function, and then extend the sequence further by
// calling Advance().
int GetResultForCurrentSequence() const;
private:
// Pointer to the current position in the graph indicating the current state
// of the automaton, or nullptr if the graph is exhausted.
const unsigned char* pos_;
// Pointer just past the end of the graph. |pos_| should never get here. This
// is used only in DCHECKs.
const unsigned char* end_;
// Contains the current decoder state. If true, |pos_| points to a label
// character or a return code. If false, |pos_| points to a sequence of
// offsets that indicate the child nodes of the current state.
bool pos_is_label_character_;
};
} // namespace net
#endif // NET_BASE_LOOKUP_STRING_IN_FIXED_SET_H_