I2P: End-to-End encrypted and anonymous Internet https://i2pd.website/
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#include <cstdlib>
#include <string>
#include <algorithm>
#include <cctype>
#include <functional>
#include <fstream>
#include <set>
#include <boost/asio.hpp>
#include <boost/filesystem.hpp>
#include <boost/filesystem/fstream.hpp>
#include <boost/foreach.hpp>
#include <boost/lexical_cast.hpp>
#include <boost/program_options/detail/config_file.hpp>
#include <boost/program_options/parsers.hpp>
#include <boost/algorithm/string.hpp>
#include "Config.h"
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#include "util.h"
#include "Log.h"
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#ifdef WIN32
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <winsock2.h>
#include <ws2tcpip.h>
#include <iphlpapi.h>
#include <shlobj.h>
#ifdef _MSC_VER
#pragma comment(lib, "IPHLPAPI.lib")
#endif // _MSC_VER
#define MALLOC(x) HeapAlloc(GetProcessHeap(), 0, (x))
#define FREE(x) HeapFree(GetProcessHeap(), 0, (x))
int inet_pton(int af, const char *src, void *dst)
{ /* This function was written by Petar Korponai?. See
http://stackoverflow.com/questions/15660203/inet-pton-identifier-not-found */
struct sockaddr_storage ss;
int size = sizeof (ss);
char src_copy[INET6_ADDRSTRLEN + 1];
ZeroMemory (&ss, sizeof (ss));
strncpy (src_copy, src, INET6_ADDRSTRLEN + 1);
src_copy[INET6_ADDRSTRLEN] = 0;
if (WSAStringToAddress (src_copy, af, NULL, (struct sockaddr *)&ss, &size) == 0)
{
switch (af)
{
case AF_INET:
*(struct in_addr *)dst = ((struct sockaddr_in *)&ss)->sin_addr;
return 1;
case AF_INET6:
*(struct in6_addr *)dst = ((struct sockaddr_in6 *)&ss)->sin6_addr;
return 1;
}
}
return 0;
}
#else /* !WIN32 => UNIX */
#include <sys/types.h>
#include <ifaddrs.h>
#endif
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namespace i2p
{
namespace util
{
namespace filesystem
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{
std::string appName ("i2pd");
void SetAppName (const std::string& name)
{
appName = name;
}
std::string GetAppName ()
{
return appName;
}
const boost::filesystem::path &GetDataDir()
{
static boost::filesystem::path path;
// TODO: datadir parameter is useless because GetDataDir is called before OptionParser
// and mapArgs is not initialized yet
/*
std::string datadir; i2p::config::GetOption("datadir", datadir);
if (datadir != "")
path = boost::filesystem::system_complete(datadir);
else */
path = GetDefaultDataDir();
if (!boost::filesystem::exists( path ))
{
// Create data directory
if (!boost::filesystem::create_directory( path ))
{
LogPrint(eLogError, "FS: Failed to create data directory!");
path = "";
return path;
}
}
if (!boost::filesystem::is_directory(path))
path = GetDefaultDataDir();
return path;
}
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std::string GetFullPath (const std::string& filename)
{
std::string fullPath = GetDataDir ().string ();
#ifndef _WIN32
fullPath.append ("/");
#else
fullPath.append ("\\");
#endif
fullPath.append (filename);
return fullPath;
}
boost::filesystem::path GetConfigFile()
{
std::string config; i2p::config::GetOption("conf", config);
if (config != "") {
/* config file set with cmdline */
boost::filesystem::path path(config);
return path;
}
/* else - try autodetect */
boost::filesystem::path path("i2p.conf");
path = GetDataDir() / path;
if (!boost::filesystem::exists(path))
path = ""; /* reset */
return path;
}
boost::filesystem::path GetTunnelsConfigFile()
{
std::string tunconf; i2p::config::GetOption("tunconf", tunconf);
if (tunconf != "") {
/* config file set with cmdline */
boost::filesystem::path path(tunconf);
return path;
}
/* else - try autodetect */
boost::filesystem::path path("tunnels.cfg");
path = GetDataDir() / path;
if (!boost::filesystem::exists(path))
path = ""; /* reset */
return path;
}
boost::filesystem::path GetDefaultDataDir()
{
// Windows < Vista: C:\Documents and Settings\Username\Application Data\i2pd
// Windows >= Vista: C:\Users\Username\AppData\Roaming\i2pd
// Mac: ~/Library/Application Support/i2pd
// Unix: ~/.i2pd or /var/lib/i2pd is system=1
#ifdef WIN32
// Windows
char localAppData[MAX_PATH];
SHGetFolderPath(NULL, CSIDL_APPDATA, 0, NULL, localAppData);
return boost::filesystem::path(std::string(localAppData) + "\\" + appName);
#else /* UNIX */
bool service; i2p::config::GetOption("service", service);
if (service) // use system folder
return boost::filesystem::path(std::string ("/var/lib/") + appName);
boost::filesystem::path pathRet;
char* pszHome = getenv("HOME");
if (pszHome == NULL || strlen(pszHome) == 0)
pathRet = boost::filesystem::path("/");
else
pathRet = boost::filesystem::path(pszHome);
#ifdef MAC_OSX
// Mac
pathRet /= "Library/Application Support";
boost::filesystem::create_directory(pathRet);
return pathRet / appName;
#else /* Other Unix */
// Unix
return pathRet / (std::string (".") + appName);
#endif
#endif /* UNIX */
}
boost::filesystem::path GetCertificatesDir()
{
return GetDataDir () / "certificates";
}
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}
namespace http
{
std::string GetHttpContent (std::istream& response)
{
std::string version, statusMessage;
response >> version; // HTTP version
int status;
response >> status; // status
std::getline (response, statusMessage);
if (status == 200) // OK
{
bool isChunked = false;
std::string header;
while (!response.eof () && header != "\r")
{
std::getline(response, header);
auto colon = header.find (':');
if (colon != std::string::npos)
{
std::string field = header.substr (0, colon);
boost::to_lower (field);
if (field == i2p::util::http::TRANSFER_ENCODING)
isChunked = (header.find ("chunked", colon + 1) != std::string::npos);
}
}
std::stringstream ss;
if (isChunked)
MergeChunkedResponse (response, ss);
else
ss << response.rdbuf();
return ss.str();
}
else
{
LogPrint (eLogError, "HTTPClient: error, server responds ", status);
return "";
}
}
void MergeChunkedResponse (std::istream& response, std::ostream& merged)
{
while (!response.eof ())
{
std::string hexLen;
int len;
std::getline (response, hexLen);
std::istringstream iss (hexLen);
iss >> std::hex >> len;
if (!len) break;
char * buf = new char[len];
response.read (buf, len);
merged.write (buf, len);
delete[] buf;
std::getline (response, hexLen); // read \r\n after chunk
}
}
url::url(const std::string& url_s)
{
portstr_ = "80";
port_ = 80;
user_ = "";
pass_ = "";
parse(url_s);
}
// code for parser tests
//{
// i2p::util::http::url u_0("http://127.0.0.1:7070/asdasd?qqqqqqqqqqqq");
// i2p::util::http::url u_1("http://user:password@site.com:8080/asdasd?qqqqqqqqqqqqq");
// i2p::util::http::url u_2("http://user:password@site.com/asdasd?qqqqqqqqqqqqqq");
// i2p::util::http::url u_3("http://user:@site.com/asdasd?qqqqqqqqqqqqq");
// i2p::util::http::url u_4("http://user@site.com/asdasd?qqqqqqqqqqqq");
// i2p::util::http::url u_5("http://@site.com:800/asdasd?qqqqqqqqqqqq");
// i2p::util::http::url u_6("http://@site.com:err_port/asdasd?qqqqqqqqqqqq");
// i2p::util::http::url u_7("http://user:password@site.com:err_port/asdasd?qqqqqqqqqqqq");
//}
void url::parse(const std::string& url_s)
{
const std::string prot_end("://");
std::string::const_iterator prot_i = search(url_s.begin(), url_s.end(),
prot_end.begin(), prot_end.end());
protocol_.reserve(distance(url_s.begin(), prot_i));
transform(url_s.begin(), prot_i,
back_inserter(protocol_),
std::ptr_fun<int,int>(tolower)); // protocol is icase
if( prot_i == url_s.end() )
return;
advance(prot_i, prot_end.length());
std::string::const_iterator path_i = find(prot_i, url_s.end(), '/');
host_.reserve(distance(prot_i, path_i));
transform(prot_i, path_i,
back_inserter(host_),
std::ptr_fun<int,int>(tolower)); // host is icase
// parse user/password
auto user_pass_i = find(host_.begin(), host_.end(), '@');
if (user_pass_i != host_.end())
{
std::string user_pass = std::string(host_.begin(), user_pass_i);
auto pass_i = find(user_pass.begin(), user_pass.end(), ':');
if (pass_i != user_pass.end())
{
user_ = std::string(user_pass.begin(), pass_i);
pass_ = std::string(pass_i + 1, user_pass.end());
}
else
user_ = user_pass;
host_.assign(user_pass_i + 1, host_.end());
}
// parse port
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auto port_i = find(host_.begin(), host_.end(), ':');
if (port_i != host_.end())
{
portstr_ = std::string(port_i + 1, host_.end());
host_.assign(host_.begin(), port_i);
try{
port_ = boost::lexical_cast<decltype(port_)>(portstr_);
}
catch (std::exception e) {
port_ = 80;
}
}
std::string::const_iterator query_i = find(path_i, url_s.end(), '?');
path_.assign(path_i, query_i);
if( query_i != url_s.end() )
++query_i;
query_.assign(query_i, url_s.end());
}
std::string urlDecode(const std::string& data)
{
std::string res(data);
for (size_t pos = res.find('%'); pos != std::string::npos; pos = res.find('%',pos+1))
{
char c = strtol(res.substr(pos+1,2).c_str(), NULL, 16);
res.replace(pos,3,1,c);
}
return res;
}
}
namespace net
{
#ifdef WIN32
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int GetMTUWindowsIpv4(sockaddr_in inputAddress, int fallback)
{
ULONG outBufLen = 0;
PIP_ADAPTER_ADDRESSES pAddresses = nullptr;
PIP_ADAPTER_ADDRESSES pCurrAddresses = nullptr;
PIP_ADAPTER_UNICAST_ADDRESS pUnicast = nullptr;
if(GetAdaptersAddresses(AF_INET, GAA_FLAG_INCLUDE_PREFIX, nullptr, pAddresses, &outBufLen)
== ERROR_BUFFER_OVERFLOW) {
FREE(pAddresses);
pAddresses = (IP_ADAPTER_ADDRESSES*) MALLOC(outBufLen);
}
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DWORD dwRetVal = GetAdaptersAddresses(
AF_INET, GAA_FLAG_INCLUDE_PREFIX, nullptr, pAddresses, &outBufLen
);
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if(dwRetVal != NO_ERROR) {
LogPrint(eLogError, "NetIface: GetMTU(): enclosed GetAdaptersAddresses() call has failed");
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FREE(pAddresses);
return fallback;
}
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pCurrAddresses = pAddresses;
while(pCurrAddresses) {
PIP_ADAPTER_UNICAST_ADDRESS firstUnicastAddress = pCurrAddresses->FirstUnicastAddress;
pUnicast = pCurrAddresses->FirstUnicastAddress;
if(pUnicast == nullptr) {
LogPrint(eLogError, "NetIface: GetMTU(): not a unicast ipv4 address, this is not supported");
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}
for(int i = 0; pUnicast != nullptr; ++i) {
LPSOCKADDR lpAddr = pUnicast->Address.lpSockaddr;
sockaddr_in* localInterfaceAddress = (sockaddr_in*) lpAddr;
if(localInterfaceAddress->sin_addr.S_un.S_addr == inputAddress.sin_addr.S_un.S_addr) {
auto result = pAddresses->Mtu;
FREE(pAddresses);
return result;
}
pUnicast = pUnicast->Next;
}
pCurrAddresses = pCurrAddresses->Next;
}
LogPrint(eLogError, "NetIface: GetMTU(): no usable unicast ipv4 addresses found");
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FREE(pAddresses);
return fallback;
}
int GetMTUWindowsIpv6(sockaddr_in6 inputAddress, int fallback)
{
ULONG outBufLen = 0;
PIP_ADAPTER_ADDRESSES pAddresses = nullptr;
PIP_ADAPTER_ADDRESSES pCurrAddresses = nullptr;
PIP_ADAPTER_UNICAST_ADDRESS pUnicast = nullptr;
if(GetAdaptersAddresses(AF_INET6, GAA_FLAG_INCLUDE_PREFIX, nullptr, pAddresses, &outBufLen)
== ERROR_BUFFER_OVERFLOW) {
FREE(pAddresses);
pAddresses = (IP_ADAPTER_ADDRESSES*) MALLOC(outBufLen);
}
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DWORD dwRetVal = GetAdaptersAddresses(
AF_INET6, GAA_FLAG_INCLUDE_PREFIX, nullptr, pAddresses, &outBufLen
);
if(dwRetVal != NO_ERROR) {
LogPrint(eLogError, "NetIface: GetMTU(): enclosed GetAdaptersAddresses() call has failed");
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FREE(pAddresses);
return fallback;
}
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bool found_address = false;
pCurrAddresses = pAddresses;
while(pCurrAddresses) {
PIP_ADAPTER_UNICAST_ADDRESS firstUnicastAddress = pCurrAddresses->FirstUnicastAddress;
pUnicast = pCurrAddresses->FirstUnicastAddress;
if(pUnicast == nullptr) {
LogPrint(eLogError, "NetIface: GetMTU(): not a unicast ipv6 address, this is not supported");
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}
for(int i = 0; pUnicast != nullptr; ++i) {
LPSOCKADDR lpAddr = pUnicast->Address.lpSockaddr;
sockaddr_in6 *localInterfaceAddress = (sockaddr_in6*) lpAddr;
for (int j = 0; j != 8; ++j) {
if (localInterfaceAddress->sin6_addr.u.Word[j] != inputAddress.sin6_addr.u.Word[j]) {
break;
} else {
found_address = true;
}
} if (found_address) {
auto result = pAddresses->Mtu;
FREE(pAddresses);
pAddresses = nullptr;
return result;
}
pUnicast = pUnicast->Next;
}
pCurrAddresses = pCurrAddresses->Next;
}
LogPrint(eLogError, "NetIface: GetMTU(): no usable unicast ipv6 addresses found");
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FREE(pAddresses);
return fallback;
}
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int GetMTUWindows(const boost::asio::ip::address& localAddress, int fallback)
{
#ifdef UNICODE
string localAddress_temporary = localAddress.to_string();
wstring localAddressUniversal(localAddress_temporary.begin(), localAddress_temporary.end());
#else
std::string localAddressUniversal = localAddress.to_string();
#endif
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if(localAddress.is_v4()) {
sockaddr_in inputAddress;
inet_pton(AF_INET, localAddressUniversal.c_str(), &(inputAddress.sin_addr));
return GetMTUWindowsIpv4(inputAddress, fallback);
} else if(localAddress.is_v6()) {
sockaddr_in6 inputAddress;
inet_pton(AF_INET6, localAddressUniversal.c_str(), &(inputAddress.sin6_addr));
return GetMTUWindowsIpv6(inputAddress, fallback);
} else {
LogPrint(eLogError, "NetIface: GetMTU(): address family is not supported");
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return fallback;
}
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}
#else // assume unix
int GetMTUUnix(const boost::asio::ip::address& localAddress, int fallback)
{
ifaddrs* ifaddr, *ifa = nullptr;
if(getifaddrs(&ifaddr) == -1)
{
LogPrint(eLogError, "NetIface: Can't call getifaddrs(): ", strerror(errno));
return fallback;
}
int family = 0;
// look for interface matching local address
for(ifa = ifaddr; ifa != nullptr; ifa = ifa->ifa_next)
{
if(!ifa->ifa_addr)
continue;
family = ifa->ifa_addr->sa_family;
if(family == AF_INET && localAddress.is_v4())
{
sockaddr_in* sa = (sockaddr_in*) ifa->ifa_addr;
if(!memcmp(&sa->sin_addr, localAddress.to_v4().to_bytes().data(), 4))
break; // address matches
}
else if(family == AF_INET6 && localAddress.is_v6())
{
sockaddr_in6* sa = (sockaddr_in6*) ifa->ifa_addr;
if(!memcmp(&sa->sin6_addr, localAddress.to_v6().to_bytes().data(), 16))
break; // address matches
}
}
int mtu = fallback;
if(ifa && family)
{ // interface found?
int fd = socket(family, SOCK_DGRAM, 0);
if(fd > 0)
{
ifreq ifr;
strncpy(ifr.ifr_name, ifa->ifa_name, IFNAMSIZ); // set interface for query
if(ioctl(fd, SIOCGIFMTU, &ifr) >= 0)
mtu = ifr.ifr_mtu; // MTU
else
LogPrint (eLogError, "NetIface: Failed to run ioctl: ", strerror(errno));
close(fd);
}
else
LogPrint(eLogError, "NetIface: Failed to create datagram socket");
}
else
LogPrint(eLogWarning, "NetIface: interface for local address", localAddress.to_string(), " not found");
freeifaddrs(ifaddr);
return mtu;
}
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#endif // WIN32
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int GetMTU(const boost::asio::ip::address& localAddress)
{
const int fallback = 576; // fallback MTU
#ifdef WIN32
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return GetMTUWindows(localAddress, fallback);
#else
return GetMTUUnix(localAddress, fallback);
#endif
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return fallback;
}
}
} // util
} // i2p