lokinet/llarp/net/net.hpp

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#ifndef LLARP_NET_HPP
#define LLARP_NET_HPP
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#include <absl/numeric/int128.h>
#include <net/address_info.hpp>
#include <net/net_int.hpp>
#include <net/net.h>
#include <util/mem.hpp>
#include <util/string_view.hpp>
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#include <util/bits.hpp>
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#include <functional>
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#include <cstdlib> // for itoa
#include <vector>
// for addrinfo
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#ifndef _WIN32
#include <sys/types.h>
#include <sys/socket.h>
#include <netdb.h>
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#else
#include <winsock2.h>
#include <ws2tcpip.h>
#include <wspiapi.h>
#define inet_aton(x, y) inet_pton(AF_INET, x, y)
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#endif
bool
operator==(const sockaddr& a, const sockaddr& b);
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bool
operator==(const sockaddr_in& a, const sockaddr_in& b);
bool
operator==(const sockaddr_in6& a, const sockaddr_in6& b);
bool
operator<(const sockaddr_in6& a, const sockaddr_in6& b);
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bool
operator<(const in6_addr& a, const in6_addr& b);
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bool
operator==(const in6_addr& a, const in6_addr& b);
struct privatesInUse
{
// true if used by real NICs on start
// false if not used, and means we could potentially use it if needed
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bool ten; // 16m ips
bool oneSeven; // 1m ips
bool oneNine; // 65k ips
};
struct privatesInUse
llarp_getPrivateIfs();
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namespace llarp
{
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struct IPRange
{
using Addr_t = huint128_t;
huint128_t addr = {0};
huint128_t netmask_bits = {0};
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/// return true if ip is contained in this ip range
bool
Contains(const Addr_t& ip) const
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{
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return (addr & netmask_bits) == (ip & netmask_bits);
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}
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bool
ContainsV4(const huint32_t& ip) const;
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friend std::ostream&
operator<<(std::ostream& out, const IPRange& a)
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{
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return out << a.ToString();
}
/// get the highest address on this range
huint128_t
HighestAddr() const
{
return (addr & netmask_bits)
+ (huint128_t{1} << (128 - bits::count_bits_128(netmask_bits.h)))
- huint128_t{1};
}
bool
operator<(const IPRange& other) const
{
return (this->addr & this->netmask_bits)
< (other.addr & other.netmask_bits)
|| this->netmask_bits < other.netmask_bits;
}
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std::string
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ToString() const;
bool
FromString(std::string str);
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};
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huint128_t
ExpandV4(huint32_t x);
/// get a netmask with the higest numset bits set
constexpr huint128_t
__netmask_ipv6_bits(uint32_t numset)
{
return (128 - numset)
? (huint128_t{1} << numset) | __netmask_ipv6_bits(numset + 1)
: huint128_t{0};
}
constexpr huint128_t
netmask_ipv6_bits(uint32_t numset)
{
return __netmask_ipv6_bits(128 - numset);
}
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/// get a netmask with the higest numset bits set
constexpr uint32_t
__netmask_ipv4_bits(uint32_t numset)
{
return (32 - numset) ? (1 << numset) | __netmask_ipv4_bits(numset + 1) : 0;
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}
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/// get a netmask given some /N range
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constexpr huint32_t
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netmask_ipv4_bits(uint32_t num)
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{
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return huint32_t{__netmask_ipv4_bits(32 - num)};
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}
constexpr huint32_t
ipaddr_ipv4_bits(uint32_t a, uint32_t b, uint32_t c, uint32_t d)
{
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#if __BYTE_ORDER == __ORDER_BIG_ENDIAN__
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return huint32_t{(a) | (b << 8) | (c << 16) | (d << 24)};
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#else
return huint32_t{(d) | (c << 8) | (b << 16) | (a << 24)};
#endif
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}
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IPRange
iprange_ipv4(byte_t a, byte_t b, byte_t c, byte_t d, byte_t mask);
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bool
IsIPv4Bogon(const huint32_t& addr);
constexpr bool
ipv6_is_siit(const in6_addr& addr)
{
return addr.s6_addr[11] == 0xff && addr.s6_addr[10] == 0xff
&& addr.s6_addr[9] == 0 && addr.s6_addr[8] == 0 && addr.s6_addr[7] == 0
&& addr.s6_addr[6] == 0 && addr.s6_addr[5] == 0 && addr.s6_addr[4] == 0
&& addr.s6_addr[3] == 0 && addr.s6_addr[2] == 0 && addr.s6_addr[1] == 0
&& addr.s6_addr[0] == 0;
}
bool
IsBogon(const in6_addr& addr);
bool
IsBogonRange(const in6_addr& host, const in6_addr& mask);
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struct Addr; // fwd declr
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bool
AllInterfaces(int af, Addr& addr);
/// get first network interface with public address
bool
GetBestNetIF(std::string& ifname, int af = AF_INET);
/// look at adapter ranges and find a free one
std::string
FindFreeRange();
/// look at adapter names and find a free one
std::string
FindFreeTun();
/// get network interface address for network interface with ifname
bool
GetIFAddr(const std::string& ifname, Addr& addr, int af = AF_INET);
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} // namespace llarp
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#include <net/net_addr.hpp>
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#endif