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lokinet/llarp/net/ip_packet.hpp
Thomas Winget 4c630e0437 Large collection of changes to make android work 
- Previous android java and jni code updated to work, but with much love
  still needed to make it work nicely, e.g. handling when the VPN is
  turned off.

- DNS handling refactored to allow android to intercept and handle DNS
  requests as we can't set the system DNS to use a high port
  (and apparently Chrome ignores system DNS settings anyway)

- add packet router structure to allow separate handling of specific
  intercepted traffic, e.g. UDP traffic to port 53 gets handled by our
  DNS handler rather than being naively forwarded as exit traffic.

- For now, android lokinet is exit-only and hard-coded to use exit.loki
  as its exit.  The exit will be configurable before release, but
  allowing to not use exit-only mode is more of a challenge.

- some old gitignore remnants which were matching to things we don't
  want them to (and are no longer relevant) removed

- some minor changes to CI configuration
2021-03-02 13:18:22 -05:00

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#ifndef LLARP_IP_HPP
#define LLARP_IP_HPP
#include <ev/ev.h>
#include <net/net.hpp>
#include <util/buffer.hpp>
#include <util/time.hpp>
#ifndef _WIN32
// unix, linux
#include <sys/types.h> // FreeBSD needs this for uchar for ip.h
#include <netinet/in.h>
#include <netinet/ip.h>
// anything not win32
struct ip_header
{
#ifdef __LITTLE_ENDIAN__
unsigned int ihl : 4;
unsigned int version : 4;
#elif defined(__BIG_ENDIAN__)
unsigned int version : 4;
unsigned int ihl : 4;
#else
#error "Please fix <bits/endian.h>"
#endif
#if defined(__linux__)
#define ip_version version
#endif
uint8_t tos;
uint16_t tot_len;
uint16_t id;
uint16_t frag_off;
uint8_t ttl;
uint8_t protocol;
uint16_t check;
uint32_t saddr;
uint32_t daddr;
};
#else
// windows nt
#include <winsock2.h>
typedef struct ip_hdr
{
unsigned char ip_header_len : 4; // 4-bit header length (in 32-bit words) normally=5
// (Means 20 Bytes may be 24 also)
unsigned char version : 4; // 4-bit IPv4 version
unsigned char ip_tos; // IP type of service
unsigned short ip_total_length; // Total length
unsigned short ip_id; // Unique identifier
unsigned char ip_frag_offset : 5; // Fragment offset field
unsigned char ip_more_fragment : 1;
unsigned char ip_dont_fragment : 1;
unsigned char ip_reserved_zero : 1;
unsigned char ip_frag_offset1; // fragment offset
unsigned char ip_ttl; // Time to live
unsigned char ip_protocol; // Protocol(TCP,UDP etc)
unsigned short ip_checksum; // IP checksum
unsigned int ip_srcaddr; // Source address
unsigned int ip_destaddr; // Source address
} IPV4_HDR;
#define ip_header IPV4_HDR
#define saddr ip_srcaddr
#define daddr ip_destaddr
#define check ip_checksum
#define ihl ip_header_len
#define protocol ip_protocol
#define frag_off ip_frag_offset
#define tos ip_tos
#define ttl ip_ttl
#define tot_len ip_total_length
#endif
struct ipv6_header_preamble
{
unsigned char version : 4;
unsigned char pad_small : 4;
uint8_t pad[3];
};
struct ipv6_header
{
union
{
ipv6_header_preamble preamble;
uint32_t flowlabel;
} preamble;
uint16_t payload_len;
uint8_t proto;
uint8_t hoplimit;
in6_addr srcaddr;
in6_addr dstaddr;
/// get 20 bit truncated flow label in network order
llarp::nuint32_t
FlowLabel() const;
/// put 20 bit truncated flow label network order
void
FlowLabel(llarp::nuint32_t flowlabel);
};
#include <memory>
#include <service/protocol_type.hpp>
#include <utility>
struct llarp_ev_loop;
namespace llarp
{
namespace net
{
/// an Packet
struct IPPacket
{
static constexpr size_t MaxSize = 1500;
llarp_time_t timestamp;
size_t sz;
byte_t buf[MaxSize];
ManagedBuffer
Buffer();
ManagedBuffer
ConstBuffer() const;
bool
Load(const llarp_buffer_t& buf);
struct GetTime
{
llarp_time_t
operator()(const IPPacket& pkt) const
{
return pkt.timestamp;
}
};
struct PutTime
{
llarp_ev_loop_ptr loop;
PutTime(llarp_ev_loop_ptr evloop) : loop(std::move(evloop))
{}
void
operator()(IPPacket& pkt) const
{
pkt.timestamp = llarp_ev_loop_time_now_ms(loop);
}
};
struct GetNow
{
llarp_ev_loop_ptr loop;
GetNow(llarp_ev_loop_ptr evloop) : loop(std::move(evloop))
{}
llarp_time_t
operator()() const
{
return llarp_ev_loop_time_now_ms(loop);
}
};
struct CompareSize
{
bool
operator()(const IPPacket& left, const IPPacket& right)
{
return left.sz < right.sz;
}
};
struct CompareOrder
{
bool
operator()(const IPPacket& left, const IPPacket& right)
{
return left.timestamp < right.timestamp;
}
};
inline ip_header*
Header()
{
return (ip_header*)&buf[0];
}
inline const ip_header*
Header() const
{
return (ip_header*)&buf[0];
}
inline ipv6_header*
HeaderV6()
{
return (ipv6_header*)&buf[0];
}
inline const ipv6_header*
HeaderV6() const
{
return (ipv6_header*)&buf[0];
}
inline int
Version() const
{
return Header()->version;
}
inline bool
IsV4() const
{
return Version() == 4;
}
inline bool
IsV6() const
{
return Version() == 6;
}
inline service::ProtocolType
ServiceProtocol() const
{
if (IsV4())
return service::eProtocolTrafficV4;
if (IsV6())
return service::eProtocolTrafficV6;
return service::eProtocolControl;
}
huint128_t
srcv6() const;
huint128_t
dstv6() const;
huint32_t
srcv4() const;
huint32_t
dstv4() const;
huint128_t
src4to6() const;
huint128_t
dst4to6() const;
huint128_t
src4to6Lan() const;
huint128_t
dst4to6Lan() const;
void
UpdateIPv4Address(nuint32_t src, nuint32_t dst);
void
UpdateIPv6Address(
huint128_t src, huint128_t dst, std::optional<nuint32_t> flowlabel = std::nullopt);
/// set addresses to zero and recacluate checksums
void
ZeroAddresses(std::optional<nuint32_t> flowlabel = std::nullopt);
/// zero out source address
void
ZeroSourceAddress(std::optional<nuint32_t> flowlabel = std::nullopt);
/// make an icmp unreachable reply packet based of this ip packet
std::optional<IPPacket>
MakeICMPUnreachable() const;
};
/// generate ip checksum
uint16_t
ipchksum(const byte_t* buf, size_t sz, uint32_t sum = 0);
} // namespace net
} // namespace llarp
#endif
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