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lokinet/llarp/net/sock_addr.cpp

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6.6 KiB
C++
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#include <net/sock_addr.hpp>
#include <util/str.hpp>
#include <util/logging/logger.hpp>
#include <util/mem.hpp>
#include <charconv>
#include <stdexcept>
namespace llarp
{
/// shared utility functions
///
void
SockAddr::init()
{
llarp::Zero(&m_addr, sizeof(m_addr));
}
void
SockAddr::applySIITBytes()
{
uint8_t* ip6 = m_addr.sin6_addr.s6_addr;
// SIIT == Stateless IP/ICMP Translation (represent IPv4 with IPv6)
ip6[10] = 0xff;
ip6[11] = 0xff;
}
SockAddr::SockAddr()
{
init();
}
SockAddr::SockAddr(uint8_t a, uint8_t b, uint8_t c, uint8_t d)
{
init();
setIPv4(a, b, c, d);
}
SockAddr::SockAddr(uint8_t a, uint8_t b, uint8_t c, uint8_t d, uint16_t port)
{
init();
setIPv4(a, b, c, d);
setPort(port);
}
SockAddr::SockAddr(std::string_view addr)
{
init();
fromString(addr);
}
SockAddr::SockAddr(const SockAddr& other)
{
*this = other;
}
SockAddr&
SockAddr::operator=(const SockAddr& other)
{
*this = other.m_addr;
return *this;
}
SockAddr::SockAddr(const sockaddr& addr)
{
*this = addr;
}
SockAddr&
SockAddr::operator=(const sockaddr& other)
{
if (other.sa_family == AF_INET6)
*this = (const sockaddr_in6&)other;
else if (other.sa_family == AF_INET)
*this = (const sockaddr_in&)other;
else
throw std::invalid_argument("Invalid sockaddr (not AF_INET or AF_INET6)");
return *this;
}
SockAddr::SockAddr(const sockaddr_in& addr)
{
*this = addr;
}
SockAddr&
SockAddr::operator=(const sockaddr_in& other)
{
init();
applySIITBytes();
// avoid byte order conversion (this is NBO -> NBO)
memcpy(m_addr.sin6_addr.s6_addr + 12, &other.sin_addr.s_addr, sizeof(in_addr));
m_addr.sin6_port = other.sin_port;
m_empty = false;
return *this;
}
SockAddr::SockAddr(const sockaddr_in6& addr)
{
*this = addr;
}
SockAddr&
SockAddr::operator=(const sockaddr_in6& other)
{
init();
memcpy(&m_addr, &other, sizeof(sockaddr_in6));
m_empty = false;
return *this;
}
SockAddr::SockAddr(const in6_addr& addr)
{
*this = addr;
}
SockAddr&
SockAddr::operator=(const in6_addr& other)
{
init();
memcpy(&m_addr.sin6_addr.s6_addr, &other.s6_addr, sizeof(m_addr.sin6_addr.s6_addr));
m_empty = false;
return *this;
}
SockAddr::operator const sockaddr*() const
{
return (sockaddr*)&m_addr;
}
SockAddr::operator const sockaddr_in6*() const
{
return &m_addr;
}
bool
SockAddr::operator<(const SockAddr& other) const
{
return (m_addr.sin6_addr.s6_addr < other.m_addr.sin6_addr.s6_addr);
}
bool
SockAddr::operator==(const SockAddr& other) const
{
if (m_addr.sin6_family != other.m_addr.sin6_family)
return false;
if (getPort() != other.getPort())
return false;
return (
0
== memcmp(
m_addr.sin6_addr.s6_addr,
other.m_addr.sin6_addr.s6_addr,
sizeof(m_addr.sin6_addr.s6_addr)));
}
void
SockAddr::fromString(std::string_view str)
{
if (str.empty())
{
init();
m_empty = true;
return;
}
// NOTE: this potentially involves multiple memory allocations,
// reimplement without split() if it is performance bottleneck
auto splits = split(str, ':');
// TODO: having ":port" at the end makes this ambiguous with IPv6
// come up with a strategy for implementing
if (splits.size() > 2)
throw std::runtime_error("IPv6 not yet supported");
// split() shouldn't return an empty list if str is empty (checked above)
assert(splits.size() > 0);
// splits[0] should be dot-separated IPv4
auto ipSplits = split(splits[0], '.');
if (ipSplits.size() != 4)
throw std::invalid_argument(stringify(str, " is not a valid IPv4 address"));
uint8_t ipBytes[4] = {0};
for (int i = 0; i < 4; ++i)
{
auto byteStr = ipSplits[i];
auto result = std::from_chars(byteStr.data(), byteStr.data() + byteStr.size(), ipBytes[i]);
if (result.ec != std::errc())
throw std::runtime_error(stringify(str, " contains invalid number"));
if (result.ptr != (byteStr.data() + byteStr.size()))
throw std::runtime_error(stringify(str, " contains non-numeric values"));
}
// attempt port before setting IPv4 bytes
if (splits.size() == 2)
{
uint16_t port = 0;
auto portStr = splits[1];
auto result = std::from_chars(portStr.data(), portStr.data() + portStr.size(), port);
if (result.ec != std::errc())
throw std::runtime_error(stringify(str, " contains invalid port"));
if (result.ptr != (portStr.data() + portStr.size()))
throw std::runtime_error(stringify(str, " contains junk after port"));
setPort(port);
}
setIPv4(ipBytes[0], ipBytes[1], ipBytes[2], ipBytes[3]);
}
std::string
SockAddr::toString() const
{
// TODO: review
if (isEmpty())
return "";
const uint8_t* ip6 = m_addr.sin6_addr.s6_addr;
std::string str;
if (ip6[10] == 0xff and ip6[11] == 0xff)
{
// treat SIIT like IPv4
constexpr auto MaxIPv4PlusPortStringSize = 22;
str.reserve(MaxIPv4PlusPortStringSize);
// TODO: ensure these don't each incur a memory allocation
str.append(std::to_string(ip6[12]));
str.append(1, '.');
str.append(std::to_string(ip6[13]));
str.append(1, '.');
str.append(std::to_string(ip6[14]));
str.append(1, '.');
str.append(std::to_string(ip6[15]));
}
else
{
constexpr auto MaxIPv6PlusPortStringSize = 128;
str.reserve(MaxIPv6PlusPortStringSize);
char buf[128] = {0x0};
inet_ntop(AF_INET6, &m_addr.sin6_addr.s6_addr, buf, sizeof(buf));
str.append("[");
str.append(buf);
str.append("]");
}
str.append(1, ':');
str.append(std::to_string(getPort()));
return str;
}
bool
SockAddr::isEmpty() const
{
return m_empty;
}
void
SockAddr::setIPv4(uint8_t a, uint8_t b, uint8_t c, uint8_t d)
{
m_addr.sin6_family = AF_INET6;
uint8_t* ip6 = m_addr.sin6_addr.s6_addr;
llarp::Zero(ip6, sizeof(m_addr.sin6_addr.s6_addr));
applySIITBytes();
ip6[12] = a;
ip6[13] = b;
ip6[14] = c;
ip6[15] = d;
m_empty = false;
}
void
SockAddr::setPort(uint16_t port)
{
m_addr.sin6_port = htons(port);
}
uint16_t
SockAddr::getPort() const
{
return ntohs(m_addr.sin6_port);
}
std::ostream&
operator<<(std::ostream& out, const SockAddr& address)
{
out << address.toString();
return out;
}
} // namespace llarp
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