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#include "ipmath.h"
namespace {
constexpr auto IPV4_BITS = 32;
constexpr auto IPV6_BITS = 128;
const ui128 MAX_IPV4_ADDR = Max<ui32>();
const ui128 MAX_IPV6_ADDR = Max<ui128>();
TStringBuf TypeToString(TIpv6Address::TIpType type) {
switch (type) {
case TIpv6Address::Ipv4:
return TStringBuf("IPv4");
case TIpv6Address::Ipv6:
return TStringBuf("IPv6");
default:
return TStringBuf("UNKNOWN");
}
}
size_t MaxPrefixLenForType(TIpv6Address::TIpType type) {
switch (type) {
case TIpv6Address::Ipv4:
return IPV4_BITS;
case TIpv6Address::Ipv6:
return IPV6_BITS;
case TIpv6Address::LAST:
ythrow yexception() << "invalid type";
}
}
template <ui8 ADDR_LEN>
ui128 LowerBoundForPrefix(ui128 value, ui8 prefixLen) {
const int shift = ADDR_LEN - prefixLen;
const ui128 shifted = (shift < 128) ? (ui128{1} << shift) : 0;
ui128 mask = ~(shifted - 1);
return value & mask;
}
template <ui8 ADDR_LEN>
ui128 UpperBoundForPrefix(ui128 value, ui8 prefixLen) {
const int shift = ADDR_LEN - prefixLen;
const ui128 shifted = (shift < 128) ? (ui128{1} << shift) : 0;
ui128 mask = shifted - 1;
return value | mask;
}
auto LowerBoundForPrefix4 = LowerBoundForPrefix<IPV4_BITS>;
auto LowerBoundForPrefix6 = LowerBoundForPrefix<IPV6_BITS>;
auto UpperBoundForPrefix4 = UpperBoundForPrefix<IPV4_BITS>;
auto UpperBoundForPrefix6 = UpperBoundForPrefix<IPV6_BITS>;
TIpv6Address IpFromStringSafe(const TString& s) {
bool ok{};
auto addr = TIpv6Address::FromString(s, ok);
Y_ENSURE(ok, "Failed to parse an IP address from " << s);
return addr;
}
/// it's different from TIpv6Address::IsValid for 0.0.0.0
bool IsValid(TIpv6Address addr) {
switch (addr.Type()) {
case TIpv6Address::Ipv4:
case TIpv6Address::Ipv6:
return true;
case TIpv6Address::LAST:
return false;
}
}
bool HasNext(TIpv6Address addr) {
switch (addr.Type()) {
case TIpv6Address::Ipv4:
return ui128(addr) != MAX_IPV4_ADDR;
case TIpv6Address::Ipv6:
return ui128(addr) != MAX_IPV6_ADDR;
case TIpv6Address::LAST:
return false;
}
}
TIpv6Address Next(TIpv6Address addr) {
return {ui128(addr) + 1, addr.Type()};
}
} // namespace
TIpv6Address LowerBoundForPrefix(TIpv6Address value, ui8 prefixLen) {
auto type = value.Type();
switch (type) {
case TIpv6Address::Ipv4:
return {LowerBoundForPrefix4(value, prefixLen), type};
case TIpv6Address::Ipv6:
return {LowerBoundForPrefix6(value, prefixLen), type};
default:
ythrow yexception() << "invalid type";
}
}
TIpv6Address UpperBoundForPrefix(TIpv6Address value, ui8 prefixLen) {
auto type = value.Type();
switch (type) {
case TIpv6Address::Ipv4:
return {UpperBoundForPrefix4(value, prefixLen), type};
case TIpv6Address::Ipv6:
return {UpperBoundForPrefix6(value, prefixLen), type};
default:
ythrow yexception() << "invalid type";
}
}
TIpAddressRange::TIpAddressRangeBuilder::operator TIpAddressRange() {
return Build();
}
TIpAddressRange TIpAddressRange::TIpAddressRangeBuilder::Build() {
return TIpAddressRange{Start_, End_};
}
TIpAddressRange::TIpAddressRangeBuilder::TIpAddressRangeBuilder(const TString& from)
: TIpAddressRangeBuilder{IpFromStringSafe(from)}
{
}
TIpAddressRange::TIpAddressRangeBuilder::TIpAddressRangeBuilder(TIpv6Address from) {
Y_ENSURE_EX(IsValid(from), TInvalidIpRangeException() << "Address " << from.ToString() << " is invalid");
Start_ = from;
End_ = Start_;
}
TIpAddressRange::TIpAddressRangeBuilder& TIpAddressRange::TIpAddressRangeBuilder::To(const TString& to) {
End_ = IpFromStringSafe(to);
return *this;
}
TIpAddressRange::TIpAddressRangeBuilder& TIpAddressRange::TIpAddressRangeBuilder::To(TIpv6Address to) {
Y_ENSURE_EX(IsValid(to), TInvalidIpRangeException() << "Address " << to.ToString() << " is invalid");
Start_ = to;
return *this;
}
TIpAddressRange::TIpAddressRangeBuilder& TIpAddressRange::TIpAddressRangeBuilder::WithPrefix(ui8 len) {
Y_ENSURE_EX(IsValid(Start_), TInvalidIpRangeException() << "Start value must be set before prefix");
const auto type = Start_.Type();
const auto maxLen = MaxPrefixLenForType(type);
Y_ENSURE_EX(len <= maxLen, TInvalidIpRangeException() << "Maximum prefix length for this address type is "
<< maxLen << ", but requested " << (ui32)len);
const auto lowerBound = LowerBoundForPrefix(Start_, len);
Y_ENSURE_EX(Start_ == lowerBound, TInvalidIpRangeException() << "Cannot create IP range from start address "
<< Start_ << " with prefix length " << (ui32)len);
End_ = UpperBoundForPrefix(Start_, len);
return *this;
}
void TIpAddressRange::Init(TIpv6Address from, TIpv6Address to) {
Start_ = from;
End_ = to;
Y_ENSURE_EX(Start_ <= End_, TInvalidIpRangeException() << "Invalid IP address range: from " << Start_ << " to " << End_);
Y_ENSURE_EX(Start_.Type() == End_.Type(), TInvalidIpRangeException()
<< "Address type mismtach: start address type is " << TypeToString(Start_.Type())
<< " end type is " << TypeToString(End_.Type()));
}
TIpAddressRange::TIpAddressRange(TIpv6Address start, TIpv6Address end) {
Y_ENSURE_EX(IsValid(start), TInvalidIpRangeException() << "start address " << start.ToString() << " is invalid");
Y_ENSURE_EX(IsValid(end), TInvalidIpRangeException() << "end address " << end.ToString() << " is invalid");
Init(start, end);
}
TIpAddressRange::TIpAddressRange(const TString& start, const TString& end) {
auto startAddr = IpFromStringSafe(start);
auto endAddr = IpFromStringSafe(end);
Init(startAddr, endAddr);
}
TIpAddressRange::~TIpAddressRange() {
}
TIpAddressRange::TIpType TIpAddressRange::Type() const {
return Start_.Type();
}
ui128 TIpAddressRange::Size() const {
return ui128(End_) - ui128(Start_) + 1;
}
bool TIpAddressRange::IsSingle() const {
return Start_ == End_;
}
bool TIpAddressRange::Contains(const TIpAddressRange& other) const {
return Start_ <= other.Start_ && End_ >= other.End_;
}
bool TIpAddressRange::Contains(const TIpv6Address& addr) const {
return Start_ <= addr && End_ >= addr;
}
bool TIpAddressRange::Overlaps(const TIpAddressRange& other) const {
return Start_ <= other.End_ && other.Start_ <= End_;
}
bool TIpAddressRange::IsConsecutive(const TIpAddressRange& other) const {
return (HasNext(End_) && Next(End_) == other.Start_)
|| (HasNext(other.End_) && Next(other.End_) == Start_);
}
TIpAddressRange TIpAddressRange::Union(const TIpAddressRange& other) const {
Y_ENSURE(IsConsecutive(other) || Overlaps(other), "Can merge only consecutive or overlapping ranges");
Y_ENSURE(other.Start_.Type() == Start_.Type(), "Cannot merge ranges of addresses of different types");
auto s = Start_;
auto e = End_;
s = {Min<ui128>(Start_, other.Start_), Start_.Type()};
e = {Max<ui128>(End_, other.End_), End_.Type()};
return {s, e};
}
TIpAddressRange TIpAddressRange::FromCidrString(const TString& str) {
if (auto result = TryFromCidrString(str)) {
return *result;
}
ythrow TInvalidIpRangeException() << "Cannot parse " << str << " as a CIDR string";
}
TMaybe<TIpAddressRange> TIpAddressRange::TryFromCidrString(const TString& str) {
auto idx = str.rfind('/');
if (idx == TString::npos) {
return Nothing();
}
TStringBuf sb{str};
TStringBuf address, prefix;
sb.SplitAt(idx, address, prefix);
prefix.Skip(1);
ui8 prefixLen{};
if (!::TryFromString(prefix, prefixLen)) {
return Nothing();
}
return TIpAddressRange::From(TString{address})
.WithPrefix(prefixLen);
}
TIpAddressRange TIpAddressRange::FromRangeString(const TString& str) {
if (auto result = TryFromRangeString(str)) {
return *result;
}
ythrow TInvalidIpRangeException() << "Cannot parse " << str << " as a range string";
}
TMaybe<TIpAddressRange> TIpAddressRange::TryFromRangeString(const TString& str) {
auto idx = str.find('-');
if (idx == TString::npos) {
return Nothing();
}
TStringBuf sb{str};
TStringBuf start, end;
sb.SplitAt(idx, start, end);
end.Skip(1);
return TIpAddressRange::From(TString{start}).To(TString{end});
}
TIpAddressRange TIpAddressRange::FromString(const TString& str) {
if (auto result = TryFromString(str)) {
return *result;
}
ythrow TInvalidIpRangeException() << "Cannot parse an IP address from " << str;
}
TMaybe<TIpAddressRange> TIpAddressRange::TryFromString(const TString& str) {
if (auto idx = str.find('/'); idx != TString::npos) {
return TryFromCidrString(str);
} else if (idx = str.find('-'); idx != TString::npos) {
return TryFromRangeString(str);
} else {
bool ok{};
auto addr = TIpv6Address::FromString(str, ok);
if (!ok) {
return Nothing();
}
return TIpAddressRange::From(addr);
}
}
TString TIpAddressRange::ToRangeString() const {
bool ok{};
return TStringBuilder() << Start_.ToString(ok) << "-" << End_.ToString(ok);
}
TIpAddressRange::TIterator TIpAddressRange::begin() const {
return Begin();
}
TIpAddressRange::TIterator TIpAddressRange::Begin() const {
return TIpAddressRange::TIterator{Start_};
}
TIpAddressRange::TIterator TIpAddressRange::end() const {
return End();
}
TIpAddressRange::TIterator TIpAddressRange::End() const {
return TIpAddressRange::TIterator{{ui128(End_) + 1, End_.Type()}};
}
TIpAddressRange::TIpAddressRangeBuilder TIpAddressRange::From(TIpv6Address from) {
return TIpAddressRangeBuilder{from};
};
TIpAddressRange::TIpAddressRangeBuilder TIpAddressRange::From(const TString& from) {
return TIpAddressRangeBuilder{from};
};
bool operator==(const TIpAddressRange& lhs, const TIpAddressRange& rhs) {
return lhs.Start_ == rhs.Start_ && lhs.End_ == rhs.End_;
}
bool operator!=(const TIpAddressRange& lhs, const TIpAddressRange& rhs) {
return !(lhs == rhs);
}
TIpAddressRange::TIterator::TIterator(TIpv6Address val) noexcept
: Current_{val}
{
}
bool TIpAddressRange::TIterator::operator==(const TIpAddressRange::TIterator& other) noexcept {
return Current_ == other.Current_;
}
bool TIpAddressRange::TIterator::operator!=(const TIpAddressRange::TIterator& other) noexcept {
return !(*this == other);
}
TIpAddressRange::TIterator& TIpAddressRange::TIterator::operator++() noexcept {
ui128 numeric = Current_;
Current_ = {numeric + 1, Current_.Type()};
return *this;
}
const TIpv6Address& TIpAddressRange::TIterator::operator*() noexcept {
return Current_;
}
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