mirror of
https://github.com/oxen-io/lokinet.git
synced 2024-10-29 11:05:43 +00:00
bdc54835c2
- updated CMake build script - builds with Microsoft C++ 19.1x. such builds require Windows 8.1 or later unless you have the .NET Server 2003-toolset (v141_xp) - windows port requires a C++17 compiler since cpp17::filesystem is POSIX-only - HAVE_CXX17_FILESYSTEM manual toggle in CMake. You must manually specify where std::[experimental::]filesystem is defined in LDFLAGS or CMAKE_x_LINKER_FLAGS. - IPv6 support can be added at any time, and the windows sdk still has that inline getaddrinfo(3) if it can't find a suitable IPv6 stack. - inline code for mingw-w64: there's a few bits and pieces still missing simply because mingw-w64 derives its windows sdk from wine and reactos, and then writing all the newer stuff into it by hand straight from the MSDN manpages. - misc. C++11 stuff (nullptr and friends) - Internal file handling code takes UTF-8 or plain 8-bit text, NTFS is UTF-16, so std::filesystem::path::c_str() is wchar_t. That's no good unless you first call std::filesystem::path::string(). - implemented getifaddrs(3) and if_nametoindex(3) on top of GetAdapters[Info|Addresses](2). - updated readme with new info BONUS: may implement Solaris/illumos IOCP someday... -despair86
292 lines
6.9 KiB
C++
292 lines
6.9 KiB
C++
#ifdef _MSC_VER
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#define NOMINMAX
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#endif
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#include <llarp/service.hpp>
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#include "buffer.hpp"
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#include "fs.hpp"
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#include "ini.hpp"
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#include "router.hpp"
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namespace llarp
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{
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namespace service
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{
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IntroSet::~IntroSet()
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{
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if(W)
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delete W;
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}
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bool
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IntroSet::DecodeKey(llarp_buffer_t key, llarp_buffer_t* buf)
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{
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bool read = false;
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if(!BEncodeMaybeReadDictEntry("a", A, read, key, buf))
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return false;
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if(llarp_buffer_eq(key, "i"))
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{
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return BEncodeReadList(I, buf);
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}
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if(!BEncodeMaybeReadDictEntry("n", topic, read, key, buf))
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return false;
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if(llarp_buffer_eq(key, "w"))
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{
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if(W)
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delete W;
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W = new PoW();
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return W->BDecode(buf);
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}
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if(!BEncodeMaybeReadDictInt("v", version, read, key, buf))
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return false;
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if(!BEncodeMaybeReadDictEntry("z", Z, read, key, buf))
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return false;
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return read;
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}
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bool
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IntroSet::BEncode(llarp_buffer_t* buf) const
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{
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if(!bencode_start_dict(buf))
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return false;
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if(!BEncodeWriteDictEntry("a", A, buf))
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return false;
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// start introduction list
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if(!bencode_write_bytestring(buf, "i", 1))
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return false;
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if(!BEncodeWriteList(I.begin(), I.end(), buf))
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return false;
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// end introduction list
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// topic tag
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if(!topic.IsZero())
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{
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if(!BEncodeWriteDictEntry("n", topic, buf))
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return false;
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}
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// write version
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if(!BEncodeWriteDictInt("v", version, buf))
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return false;
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if(W)
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{
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if(!BEncodeWriteDictEntry("w", *W, buf))
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return false;
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}
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if(!BEncodeWriteDictEntry("z", Z, buf))
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return false;
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return bencode_end(buf);
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}
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bool
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IntroSet::HasExpiredIntros(llarp_time_t now) const
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{
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for(const auto& i : I)
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if(now >= i.expiresAt)
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return true;
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return false;
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}
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bool
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IntroSet::IsExpired(llarp_time_t now) const
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{
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auto highest = now;
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for(const auto& i : I)
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highest = std::max(i.expiresAt, highest);
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return highest == now;
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}
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Introduction::~Introduction()
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{
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}
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bool
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Introduction::DecodeKey(llarp_buffer_t key, llarp_buffer_t* buf)
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{
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bool read = false;
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if(!BEncodeMaybeReadDictEntry("k", router, read, key, buf))
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return false;
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if(!BEncodeMaybeReadDictInt("l", latency, read, key, buf))
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return false;
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if(!BEncodeMaybeReadDictEntry("p", pathID, read, key, buf))
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return false;
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if(!BEncodeMaybeReadDictInt("v", version, read, key, buf))
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return false;
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if(!BEncodeMaybeReadDictInt("x", expiresAt, read, key, buf))
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return false;
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return read;
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}
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bool
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Introduction::BEncode(llarp_buffer_t* buf) const
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{
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if(!bencode_start_dict(buf))
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return false;
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if(!BEncodeWriteDictEntry("k", router, buf))
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return false;
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if(latency)
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{
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if(!BEncodeWriteDictInt("l", latency, buf))
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return false;
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}
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if(!BEncodeWriteDictEntry("p", pathID, buf))
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return false;
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if(!BEncodeWriteDictInt("v", version, buf))
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return false;
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if(!BEncodeWriteDictInt("x", expiresAt, buf))
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return false;
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return bencode_end(buf);
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}
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void
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Introduction::Clear()
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{
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router.Zero();
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pathID.Zero();
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latency = 0;
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expiresAt = 0;
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}
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Identity::~Identity()
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{
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}
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bool
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Identity::BEncode(llarp_buffer_t* buf) const
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{
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/// TODO: implement me
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if(!bencode_start_dict(buf))
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return false;
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if(!BEncodeWriteDictEntry("e", enckey, buf))
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return false;
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if(!BEncodeWriteDictEntry("s", signkey, buf))
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return false;
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if(!BEncodeWriteDictInt("v", version, buf))
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return false;
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if(!BEncodeWriteDictEntry("x", vanity, buf))
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return false;
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return bencode_end(buf);
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}
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bool
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Identity::DecodeKey(llarp_buffer_t key, llarp_buffer_t* buf)
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{
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bool read = false;
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if(!BEncodeMaybeReadDictEntry("e", enckey, read, key, buf))
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return false;
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if(!BEncodeMaybeReadDictEntry("s", signkey, read, key, buf))
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return false;
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if(!BEncodeMaybeReadDictInt("v", version, read, key, buf))
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return false;
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if(!BEncodeMaybeReadDictEntry("x", vanity, read, key, buf))
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return false;
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return read;
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}
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void
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Identity::RegenerateKeys(llarp_crypto* crypto)
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{
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crypto->encryption_keygen(enckey);
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crypto->identity_keygen(signkey);
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pub.enckey = llarp::seckey_topublic(enckey);
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pub.signkey = llarp::seckey_topublic(signkey);
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pub.vanity.Zero();
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pub.UpdateAddr();
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}
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bool
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Identity::EnsureKeys(const std::string& fname, llarp_crypto* c)
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{
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byte_t tmp[256];
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auto buf = llarp::StackBuffer< decltype(tmp) >(tmp);
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std::error_code ec;
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// check for file
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if(!fs::exists(fname, ec))
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{
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if(ec)
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{
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llarp::LogError(ec);
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return false;
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}
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// regen and encode
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RegenerateKeys(c);
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if(!BEncode(&buf))
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return false;
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// rewind
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buf.sz = buf.cur - buf.base;
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buf.cur = buf.base;
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// write
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std::ofstream f;
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f.open(fname, std::ios::binary);
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if(!f.is_open())
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return false;
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f.write((char*)buf.cur, buf.sz);
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}
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// read file
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std::ifstream inf(fname, std::ios::binary);
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inf.seekg(0, std::ios::end);
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size_t sz = inf.tellg();
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inf.seekg(0, std::ios::beg);
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if(sz > sizeof(tmp))
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return false;
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// decode
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inf.read((char*)buf.base, sz);
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return BDecode(&buf);
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}
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bool
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Identity::SignIntroSet(IntroSet& i, llarp_crypto* crypto) const
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{
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if(i.I.size() == 0)
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return false;
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i.A = pub;
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// zero out signature for signing process
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i.Z.Zero();
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byte_t tmp[MAX_INTROSET_SIZE];
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auto buf = llarp::StackBuffer< decltype(tmp) >(tmp);
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if(!i.BEncode(&buf))
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return false;
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// rewind and resize buffer
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buf.sz = buf.cur - buf.base;
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buf.cur = buf.base;
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return crypto->sign(i.Z, signkey, buf);
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}
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bool
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IntroSet::VerifySignature(llarp_crypto* crypto) const
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{
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byte_t tmp[MAX_INTROSET_SIZE];
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auto buf = llarp::StackBuffer< decltype(tmp) >(tmp);
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IntroSet copy;
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copy = *this;
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copy.Z.Zero();
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if(!copy.BEncode(&buf))
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return false;
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// rewind and resize buffer
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buf.sz = buf.cur - buf.base;
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buf.cur = buf.base;
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return crypto->verify(A.signkey, buf, Z);
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}
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bool
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Config::Load(const std::string& fname)
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{
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ini::Parser parser(fname);
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for(const auto& sec : parser.top().ordered_sections)
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{
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services.push_back({sec->first, sec->second.values});
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}
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return services.size() > 0;
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}
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} // namespace service
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} // namespace llarp
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