lokinet/llarp/config/key_manager.cpp
dr7ana 46ad8d4058 Clang format include sorting + CMake
- includes are now sorted in consistent, logical order; first step in an attempt to fix the tomfoolery (no relation to Tom) brought in by include-what-you-use
- shuffled around some cmake linking to simplify dependency graph
- superfluous files removed
2023-10-24 12:11:51 -07:00

204 lines
5.3 KiB
C++

#include "key_manager.hpp"
#include "config.hpp"
#include <llarp/crypto/crypto.hpp>
#include <llarp/crypto/types.hpp>
#include <llarp/util/logging.hpp>
#include <system_error>
namespace llarp
{
KeyManager::KeyManager() : m_initialized(false), m_needBackup(false)
{}
bool
KeyManager::initialize(const llarp::Config& config, bool genIfAbsent, bool isSNode)
{
if (m_initialized)
return false;
if (not isSNode)
{
crypto::identity_keygen(identityKey);
crypto::encryption_keygen(encryptionKey);
crypto::encryption_keygen(transportKey);
return true;
}
const fs::path root = config.router.m_dataDir;
// utility function to assign a path, using the specified config parameter if present and
// falling back to root / defaultName if not
auto deriveFile = [&](const std::string& defaultName, const std::string& option) {
if (option.empty())
{
return root / defaultName;
}
else
{
fs::path file(option);
if (not file.is_absolute())
file = root / file;
return file;
}
};
m_rcPath = deriveFile(our_rc_filename, config.router.m_routerContactFile);
m_idKeyPath = deriveFile(our_identity_filename, config.router.m_identityKeyFile);
m_encKeyPath = deriveFile(our_enc_key_filename, config.router.m_encryptionKeyFile);
m_transportKeyPath = deriveFile(our_transport_key_filename, config.router.m_transportKeyFile);
RouterContact rc;
bool exists = rc.Read(m_rcPath);
if (not exists and not genIfAbsent)
{
LogError("Could not read RouterContact at path ", m_rcPath);
return false;
}
// we need to back up keys if our self.signed doesn't appear to have a
// valid signature
m_needBackup = (isSNode and not rc.VerifySignature());
// if our RC file can't be verified, assume it is out of date (e.g. uses
// older encryption) and needs to be regenerated. before doing so, backup
// files that will be overwritten
if (exists and m_needBackup)
{
if (!genIfAbsent)
{
LogError("Our RouterContact ", m_rcPath, " is invalid or out of date");
return false;
}
else
{
LogWarn(
"Our RouterContact ",
m_rcPath,
" seems out of date, backing up and regenerating private keys");
if (!backupKeyFilesByMoving())
{
LogError(
"Could not mv some key files, please ensure key files"
" are backed up if needed and remove");
return false;
}
}
}
if (not config.router.m_isRelay)
{
// load identity key or create if needed
auto identityKeygen = [](llarp::SecretKey& key) {
// TODO: handle generating from service node seed
llarp::crypto::identity_keygen(key);
};
if (not loadOrCreateKey(m_idKeyPath, identityKey, identityKeygen))
return false;
}
// load encryption key
auto encryptionKeygen = [](llarp::SecretKey& key) { llarp::crypto::encryption_keygen(key); };
if (not loadOrCreateKey(m_encKeyPath, encryptionKey, encryptionKeygen))
return false;
// TODO: transport key (currently done in LinkLayer)
auto transportKeygen = [](llarp::SecretKey& key) {
key.Zero();
crypto::encryption_keygen(key);
};
if (not loadOrCreateKey(m_transportKeyPath, transportKey, transportKeygen))
return false;
m_initialized = true;
return true;
}
bool
KeyManager::backupFileByMoving(const fs::path& filepath)
{
auto findFreeBackupFilename = [](const fs::path& filepath) {
for (int i = 0; i < 9; i++)
{
std::string ext("." + std::to_string(i) + ".bak");
fs::path newPath = filepath;
newPath += ext;
if (not fs::exists(newPath))
return newPath;
}
return fs::path();
};
std::error_code ec;
bool exists = fs::exists(filepath, ec);
if (ec)
{
LogError("Could not determine status of file ", filepath, ": ", ec.message());
return false;
}
if (not exists)
{
LogInfo("File ", filepath, " doesn't exist; no backup needed");
return true;
}
fs::path newFilepath = findFreeBackupFilename(filepath);
if (newFilepath.empty())
{
LogWarn("Could not find an appropriate backup filename for", filepath);
return false;
}
LogInfo("Backing up (moving) key file ", filepath, " to ", newFilepath, "...");
fs::rename(filepath, newFilepath, ec);
if (ec)
{
LogError("Failed to move key file ", ec.message());
return false;
}
return true;
}
bool
KeyManager::backupKeyFilesByMoving() const
{
std::vector<fs::path> files = {m_rcPath, m_idKeyPath, m_encKeyPath, m_transportKeyPath};
for (auto& filepath : files)
{
if (not backupFileByMoving(filepath))
return false;
}
return true;
}
bool
KeyManager::loadOrCreateKey(
fs::path path, llarp::SecretKey& key, std::function<void(llarp::SecretKey& key)> keygen)
{
if (not fs::exists(path))
{
LogInfo("Generating new key", path);
keygen(key);
if (!key.SaveToFile(path))
{
LogError("Failed to save new key");
return false;
}
}
LogDebug("Loading key from file ", path);
return key.LoadFromFile(path);
}
} // namespace llarp