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// Copyright (C) 2012-2015 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 <dns/labelsequence.h>
#include <dns/name_internal.h>
#include <exceptions/exceptions.h>
#include <boost/functional/hash.hpp>
#include <cstring>
namespace isc {
namespace dns {
LabelSequence::LabelSequence(const void* buf) {
#ifdef ENABLE_DEBUG
// In non-debug mode, derefencing the NULL pointer further below
// will lead to a crash, so disabling this check is not
// unsafe. Except for a programming mistake, this case should not
// happen.
if (buf == NULL) {
isc_throw(BadValue,
"Null pointer passed to LabelSequence constructor");
}
#endif
const uint8_t* bp = reinterpret_cast<const uint8_t*>(buf);
first_label_ = 0;
const uint8_t offsets_len = *bp++;
#ifdef ENABLE_DEBUG
if (offsets_len == 0 || offsets_len > Name::MAX_LABELS) {
isc_throw(BadValue,
"Bad offsets len in serialized LabelSequence data: "
<< static_cast<unsigned int>(offsets_len));
}
#endif
last_label_ = offsets_len - 1;
offsets_ = bp;
data_ = bp + offsets_len;
#ifdef ENABLE_DEBUG
// Check the integrity on the offsets and the name data
const uint8_t* dp = data_;
for (size_t cur_offset = 0; cur_offset < offsets_len; ++cur_offset) {
if (dp - data_ != offsets_[cur_offset] || *dp > Name::MAX_LABELLEN) {
isc_throw(BadValue,
"Broken offset or name data in serialized "
"LabelSequence data");
}
dp += (1 + *dp);
}
#endif
}
LabelSequence::LabelSequence(const LabelSequence& src,
uint8_t buf[MAX_SERIALIZED_LENGTH])
{
size_t data_len;
const uint8_t *data = src.getData(&data_len);
std::memcpy(buf, data, data_len);
for (size_t i = 0; i < src.getLabelCount(); ++i) {
buf[Name::MAX_WIRE + i] = src.offsets_[i + src.first_label_] -
src.offsets_[src.first_label_];
}
first_label_ = 0;
last_label_ = src.last_label_ - src.first_label_;
data_ = buf;
offsets_ = &buf[Name::MAX_WIRE];
}
const uint8_t*
LabelSequence::getData(size_t *len) const {
*len = getDataLength();
return (&data_[offsets_[first_label_]]);
}
size_t
LabelSequence::getDataLength() const {
const size_t last_label_len = data_[offsets_[last_label_]] + 1;
return (offsets_[last_label_] - offsets_[first_label_] + last_label_len);
}
size_t
LabelSequence::getSerializedLength() const {
return (1 + getLabelCount() + getDataLength());
}
namespace {
// Check if buf is not in the range of [bp, ep), which means
// - end of buffer is before bp, or
// - beginning of buffer is on or after ep
bool
isOutOfRange(const uint8_t* bp, const uint8_t* ep,
const uint8_t* buf, size_t buf_len)
{
return (bp >= buf + buf_len || // end of buffer is before bp
ep <= buf); // beginning of buffer is on or after ep
}
}
void
LabelSequence::serialize(void* buf, size_t buf_len) const {
const size_t expected_size = getSerializedLength();
if (expected_size > buf_len) {
isc_throw(BadValue, "buffer too short for LabelSequence::serialize");
}
const size_t offsets_len = getLabelCount();
assert(offsets_len < 256); // should be in the 8-bit range
// Overridden check. Buffer shouldn't overwrap the offset of name data
// regions.
uint8_t* bp = reinterpret_cast<uint8_t*>(buf);
const size_t ndata_len = getDataLength();
if (!isOutOfRange(offsets_, offsets_ + offsets_len, bp, buf_len) ||
!isOutOfRange(data_, data_ + ndata_len, bp, buf_len)) {
isc_throw(BadValue, "serialize would break the source sequence");
}
*bp++ = offsets_len;
for (size_t i = 0; i < offsets_len; ++i) {
*bp++ = offsets_[first_label_ + i] - offsets_[first_label_];
}
std::memcpy(bp, &data_[offsets_[first_label_]], ndata_len);
bp += ndata_len;
assert(bp - reinterpret_cast<const uint8_t*>(buf) == expected_size);
}
bool
LabelSequence::equals(const LabelSequence& other, bool case_sensitive) const {
size_t len, other_len;
const uint8_t* data = getData(&len);
const uint8_t* other_data = other.getData(&other_len);
if (len != other_len) {
return (false);
}
if (case_sensitive) {
return (std::memcmp(data, other_data, len) == 0);
}
// As long as the data was originally validated as (part of) a name,
// label length must never be a capital ascii character, so we can
// simply compare them after converting to lower characters.
for (size_t i = 0; i < len; ++i) {
const uint8_t ch = data[i];
const uint8_t other_ch = other_data[i];
if (isc::dns::name::internal::maptolower[ch] !=
isc::dns::name::internal::maptolower[other_ch]) {
return (false);
}
}
return (true);
}
NameComparisonResult
LabelSequence::compare(const LabelSequence& other,
bool case_sensitive) const
{
// Determine the relative ordering under the DNSSEC order relation of
// 'this' and 'other', and also determine the hierarchical relationship
// of the labels.
unsigned int nlabels = 0;
int l1 = getLabelCount();
int l2 = other.getLabelCount();
const int ldiff = static_cast<int>(l1) - static_cast<int>(l2);
unsigned int l = (ldiff < 0) ? l1 : l2;
while (l > 0) {
--l;
--l1;
--l2;
size_t pos1 = offsets_[l1 + first_label_];
size_t pos2 = other.offsets_[l2 + other.first_label_];
unsigned int count1 = data_[pos1++];
unsigned int count2 = other.data_[pos2++];
// We don't support any extended label types including now-obsolete
// bitstring labels.
assert(count1 <= Name::MAX_LABELLEN && count2 <= Name::MAX_LABELLEN);
const int cdiff = static_cast<int>(count1) - static_cast<int>(count2);
unsigned int count = (cdiff < 0) ? count1 : count2;
while (count > 0) {
const uint8_t label1 = data_[pos1];
const uint8_t label2 = other.data_[pos2];
int chdiff;
if (case_sensitive) {
chdiff = static_cast<int>(label1) - static_cast<int>(label2);
} else {
chdiff = static_cast<int>(
isc::dns::name::internal::maptolower[label1]) -
static_cast<int>(
isc::dns::name::internal::maptolower[label2]);
}
if (chdiff != 0) {
return (NameComparisonResult(
chdiff, nlabels,
nlabels == 0 ? NameComparisonResult::NONE :
NameComparisonResult::COMMONANCESTOR));
}
--count;
++pos1;
++pos2;
}
if (cdiff != 0) {
return (NameComparisonResult(
cdiff, nlabels,
nlabels == 0 ? NameComparisonResult::NONE :
NameComparisonResult::COMMONANCESTOR));
}
++nlabels;
}
if (ldiff < 0) {
return (NameComparisonResult(ldiff, nlabels,
NameComparisonResult::SUPERDOMAIN));
} else if (ldiff > 0) {
return (NameComparisonResult(ldiff, nlabels,
NameComparisonResult::SUBDOMAIN));
}
return (NameComparisonResult(ldiff, nlabels, NameComparisonResult::EQUAL));
}
void
LabelSequence::stripLeft(size_t i) {
if (i >= getLabelCount()) {
isc_throw(OutOfRange, "Cannot strip to zero or less labels; " << i <<
" (labelcount: " << getLabelCount() << ")");
}
first_label_ += i;
}
void
LabelSequence::stripRight(size_t i) {
if (i >= getLabelCount()) {
isc_throw(OutOfRange, "Cannot strip to zero or less labels; " << i <<
" (labelcount: " << getLabelCount() << ")");
}
last_label_ -= i;
}
bool
LabelSequence::isAbsolute() const {
return (data_[offsets_[last_label_]] == 0);
}
size_t
LabelSequence::getHash(bool case_sensitive) const {
size_t length;
const uint8_t* s = getData(&length);
if (length > 16) {
length = 16;
}
size_t hash_val = 0;
while (length > 0) {
const uint8_t c = *s++;
boost::hash_combine(hash_val, case_sensitive ? c :
isc::dns::name::internal::maptolower[c]);
--length;
}
return (hash_val);
}
std::string
LabelSequence::toText(bool omit_final_dot) const {
const uint8_t* np = &data_[offsets_[first_label_]];
const uint8_t* np_end = np + getDataLength();
// use for integrity check
unsigned int labels = getLabelCount();
// init with an impossible value to catch error cases in the end:
unsigned int count = Name::MAX_LABELLEN + 1;
// result string: it will roughly have the same length as the wire format
// label sequence data. reserve that length to minimize reallocation.
std::string result;
result.reserve(getDataLength());
while (np != np_end) {
labels--;
count = *np++;
if (count == 0) {
// We've reached the "final dot". If we've not dumped any
// character, the entire label sequence is the root name.
// In that case we don't omit the final dot.
if (!omit_final_dot || result.empty()) {
result.push_back('.');
}
break;
}
if (count <= Name::MAX_LABELLEN) {
assert(np_end - np >= count);
if (!result.empty()) {
// just after a non-empty label. add a separating dot.
result.push_back('.');
}
while (count-- > 0) {
const uint8_t c = *np++;
switch (c) {
case 0x22: // '"'
case 0x28: // '('
case 0x29: // ')'
case 0x2E: // '.'
case 0x3B: // ';'
case 0x5C: // '\\'
// Special modifiers in zone files.
case 0x40: // '@'
case 0x24: // '$'
result.push_back('\\');
result.push_back(c);
break;
default:
if (c > 0x20 && c < 0x7f) {
// append printable characters intact
result.push_back(c);
} else {
// encode non-printable characters in the form of \DDD
result.push_back(0x5c);
result.push_back(0x30 + ((c / 100) % 10));
result.push_back(0x30 + ((c / 10) % 10));
result.push_back(0x30 + (c % 10));
}
}
}
} else {
isc_throw(BadLabelType, "unknown label type in name data");
}
}
// We should be at the end of the data and have consumed all labels.
assert(np == np_end);
assert(labels == 0);
return (result);
}
std::string
LabelSequence::toText() const {
return (toText(!isAbsolute()));
}
void
LabelSequence::extend(const LabelSequence& labels,
uint8_t buf[MAX_SERIALIZED_LENGTH])
{
// collect data to perform steps before anything is changed
size_t label_count = last_label_ + 1;
// Since we may have been stripped, do not use getDataLength(), but
// calculate actual data size this labelsequence currently uses
size_t data_pos = offsets_[last_label_] + data_[offsets_[last_label_]] + 1;
// If this labelsequence is absolute, virtually strip the root label.
if (isAbsolute()) {
data_pos--;
label_count--;
}
const size_t append_label_count = labels.getLabelCount();
size_t data_len;
const uint8_t *data = labels.getData(&data_len);
// Sanity checks
if (data_ != buf || offsets_ != &buf[Name::MAX_WIRE]) {
isc_throw(BadValue,
"extend() called with unrelated buffer");
}
// Check MAX_LABELS before MAX_WIRE or it will be never reached
if (label_count + append_label_count > Name::MAX_LABELS) {
isc_throw(BadValue,
"extend() would exceed maximum number of labels");
}
if (data_pos + data_len > Name::MAX_WIRE) {
isc_throw(BadValue,
"extend() would exceed maximum wire length");
}
// All seems to be reasonably ok, let's proceed.
std::memmove(&buf[data_pos], data, data_len);
for (size_t i = 0; i < append_label_count; ++i) {
buf[Name::MAX_WIRE + label_count + i] =
data_pos +
labels.offsets_[i + labels.first_label_] -
labels.offsets_[labels.first_label_];
}
last_label_ = label_count + append_label_count - 1;
}
std::ostream&
operator<<(std::ostream& os, const LabelSequence& label_sequence) {
os << label_sequence.toText();
return (os);
}
} // end namespace dns
} // end namespace isc
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