// Copyright (c) 2011 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.
#include "components/visitedlink/common/visitedlink_common.h"
#include <string.h> // for memset()
#include "base/logging.h"
#include "base/md5.h"
#include "url/gurl.h"
namespace visitedlink {
const VisitedLinkCommon::Fingerprint VisitedLinkCommon::null_fingerprint_ = 0;
const VisitedLinkCommon::Hash VisitedLinkCommon::null_hash_ = -1;
VisitedLinkCommon::VisitedLinkCommon()
: hash_table_(NULL),
table_length_(0) {
memset(salt_, 0, sizeof(salt_));
}
VisitedLinkCommon::~VisitedLinkCommon() {
}
// FIXME: this uses linear probing, it should be replaced with quadratic
// probing or something better. See VisitedLinkMaster::AddFingerprint
bool VisitedLinkCommon::IsVisited(const char* canonical_url,
size_t url_len) const {
if (url_len == 0)
return false;
if (!hash_table_ || table_length_ == 0)
return false;
return IsVisited(ComputeURLFingerprint(canonical_url, url_len));
}
bool VisitedLinkCommon::IsVisited(const GURL& url) const {
return IsVisited(url.spec().data(), url.spec().size());
}
bool VisitedLinkCommon::IsVisited(Fingerprint fingerprint) const {
// Go through the table until we find the item or an empty spot (meaning it
// wasn't found). This loop will terminate as long as the table isn't full,
// which should be enforced by AddFingerprint.
Hash first_hash = HashFingerprint(fingerprint);
Hash cur_hash = first_hash;
while (true) {
Fingerprint cur_fingerprint = FingerprintAt(cur_hash);
if (cur_fingerprint == null_fingerprint_)
return false; // End of probe sequence found.
if (cur_fingerprint == fingerprint)
return true; // Found a match.
// This spot was taken, but not by the item we're looking for, search in
// the next position.
cur_hash++;
if (cur_hash == table_length_)
cur_hash = 0;
if (cur_hash == first_hash) {
// Wrapped around and didn't find an empty space, this means we're in an
// infinite loop because AddFingerprint didn't do its job resizing.
NOTREACHED();
return false;
}
}
}
// Uses the top 64 bits of the MD5 sum of the canonical URL as the fingerprint,
// this is as random as any other subset of the MD5SUM.
//
// FIXME: this uses the MD5SUM of the 16-bit character version. For systems
// where wchar_t is not 16 bits (Linux uses 32 bits, I think), this will not be
// compatable. We should define explicitly what should happen here across
// platforms, and convert if necessary (probably to UTF-16).
// static
VisitedLinkCommon::Fingerprint VisitedLinkCommon::ComputeURLFingerprint(
const char* canonical_url,
size_t url_len,
const uint8 salt[LINK_SALT_LENGTH]) {
DCHECK(url_len > 0) << "Canonical URLs should not be empty";
base::MD5Context ctx;
base::MD5Init(&ctx);
base::MD5Update(&ctx, base::StringPiece(reinterpret_cast<const char*>(salt),
LINK_SALT_LENGTH));
base::MD5Update(&ctx, base::StringPiece(canonical_url, url_len));
base::MD5Digest digest;
base::MD5Final(&digest, &ctx);
// This is the same as "return *(Fingerprint*)&digest.a;" but if we do that
// direct cast the alignment could be wrong, and we can't access a 64-bit int
// on arbitrary alignment on some processors. This reinterpret_casts it
// down to a char array of the same size as fingerprint, and then does the
// bit cast, which amounts to a memcpy. This does not handle endian issues.
return bit_cast<Fingerprint, uint8[8]>(
*reinterpret_cast<uint8(*)[8]>(&digest.a));
}
} // namespace visitedlink