lokinet/llarp/nodedb.cpp

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#include "nodedb.hpp"
#include "router_contact.hpp"
#include "crypto/crypto.hpp"
#include "crypto/types.hpp"
#include "util/buffer.hpp"
#include "util/fs.hpp"
#include "util/logging.hpp"
#include "util/time.hpp"
#include "util/mem.hpp"
#include "util/str.hpp"
#include "dht/kademlia.hpp"
#include <algorithm>
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#include <unordered_map>
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#include <utility>
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static const char skiplist_subdirs[] = "0123456789abcdef";
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static const std::string RC_FILE_EXT = ".signed";
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namespace llarp
{
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static auto logcat = log::Cat("nodedb");
NodeDB::Entry::Entry(RouterContact value) : rc(std::move(value)), insertedAt(llarp::time_now_ms())
{}
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static void
EnsureSkiplist(fs::path nodedbDir)
{
if (not fs::exists(nodedbDir))
{
// if the old 'netdb' directory exists, move it to this one
fs::path parent = nodedbDir.parent_path();
fs::path old = parent / "netdb";
if (fs::exists(old))
fs::rename(old, nodedbDir);
else
fs::create_directory(nodedbDir);
}
if (not fs::is_directory(nodedbDir))
throw std::runtime_error{fmt::format("nodedb {} is not a directory", nodedbDir)};
for (const char& ch : skiplist_subdirs)
{
// this seems to be a problem on all targets
// perhaps cpp17::fs is just as screwed-up
// attempting to create a folder with no name
// what does this mean...?
if (!ch)
continue;
fs::path sub = nodedbDir / std::string(&ch, 1);
fs::create_directory(sub);
}
}
constexpr auto FlushInterval = 5min;
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NodeDB::NodeDB(fs::path root, std::function<void(std::function<void()>)> diskCaller, Router* r)
: router{*r}
, m_Root{std::move(root)}
, disk(std::move(diskCaller))
, m_NextFlushAt{time_now_ms() + FlushInterval}
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{
EnsureSkiplist(m_Root);
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}
void
NodeDB::Tick(llarp_time_t now)
{
if (m_NextFlushAt == 0s)
return;
if (now > m_NextFlushAt)
{
m_NextFlushAt += FlushInterval;
// make copy of all rcs
std::vector<RouterContact> copy;
for (const auto& item : entries)
copy.push_back(item.second.rc);
// flush them to disk in one big job
// TODO: split this up? idk maybe some day...
disk([this, data = std::move(copy)]() {
for (const auto& rc : data)
{
rc.Write(get_path_by_pubkey(rc.pubkey));
}
});
}
}
fs::path
NodeDB::get_path_by_pubkey(RouterID pubkey) const
{
std::string hexString = oxenc::to_hex(pubkey.begin(), pubkey.end());
std::string skiplistDir;
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const llarp::RouterID r{pubkey};
std::string fname = r.ToString();
skiplistDir += hexString[0];
fname += RC_FILE_EXT;
return m_Root / skiplistDir / fname;
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}
void
NodeDB::load_from_disk()
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{
if (m_Root.empty())
return;
std::set<fs::path> purge;
for (const char& ch : skiplist_subdirs)
{
if (!ch)
continue;
std::string p;
p += ch;
fs::path sub = m_Root / p;
llarp::util::IterDir(sub, [&](const fs::path& f) -> bool {
// skip files that are not suffixed with .signed
if (not(fs::is_regular_file(f) and f.extension() == RC_FILE_EXT))
return true;
RouterContact rc{};
if (not rc.Read(f))
{
// try loading it, purge it if it is junk
purge.emplace(f);
return true;
}
if (not rc.FromOurNetwork())
{
// skip entries that are not from our network
return true;
}
if (rc.IsExpired(time_now_ms()))
{
// rc expired dont load it and purge it later
purge.emplace(f);
return true;
}
// validate signature and purge entries with invalid signatures
// load ones with valid signatures
if (rc.VerifySignature())
entries.emplace(rc.pubkey, rc);
else
purge.emplace(f);
return true;
});
}
if (not purge.empty())
{
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log::warning(logcat, "removing {} invalid RCs from disk", purge.size());
for (const auto& fpath : purge)
fs::remove(fpath);
}
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}
void
NodeDB::save_to_disk() const
{
if (m_Root.empty())
return;
router.loop()->call([this]() {
for (const auto& item : entries)
item.second.rc.Write(get_path_by_pubkey(item.first));
});
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}
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bool
NodeDB::has_router(RouterID pk) const
{
return router.loop()->call_get([this, pk]() { return entries.find(pk) != entries.end(); });
}
std::optional<RouterContact>
NodeDB::get_rc(RouterID pk) const
{
return router.loop()->call_get([this, pk]() -> std::optional<RouterContact> {
const auto itr = entries.find(pk);
if (itr == entries.end())
return std::nullopt;
return itr->second.rc;
});
}
void
NodeDB::remove_router(RouterID pk)
{
router.loop()->call([this, pk]() {
entries.erase(pk);
remove_many_from_disk_async({pk});
});
}
void
NodeDB::remove_stale_rcs(std::unordered_set<RouterID> keep, llarp_time_t cutoff)
{
router.loop()->call([this, keep, cutoff]() {
std::unordered_set<RouterID> removed;
auto itr = entries.begin();
while (itr != entries.end())
{
if (itr->second.insertedAt < cutoff and keep.count(itr->second.rc.pubkey) == 0)
{
removed.insert(itr->second.rc.pubkey);
itr = entries.erase(itr);
}
else
++itr;
}
if (not removed.empty())
remove_many_from_disk_async(std::move(removed));
});
}
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void
NodeDB::put_rc(RouterContact rc)
{
router.loop()->call([this, rc]() {
entries.erase(rc.pubkey);
entries.emplace(rc.pubkey, rc);
});
}
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size_t
NodeDB::num_loaded() const
{
return router.loop()->call_get([this]() { return entries.size(); });
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}
void
NodeDB::put_rc_if_newer(RouterContact rc)
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{
router.loop()->call([this, rc]() {
auto itr = entries.find(rc.pubkey);
if (itr == entries.end() or itr->second.rc.OtherIsNewer(rc))
{
// delete if existing
if (itr != entries.end())
entries.erase(itr);
// add new entry
entries.emplace(rc.pubkey, rc);
}
});
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}
void
NodeDB::remove_many_from_disk_async(std::unordered_set<RouterID> remove) const
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{
if (m_Root.empty())
return;
// build file list
std::set<fs::path> files;
for (auto id : remove)
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{
files.emplace(get_path_by_pubkey(std::move(id)));
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}
// remove them from the disk via the diskio thread
disk([files]() {
for (auto fpath : files)
fs::remove(fpath);
});
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}
llarp::RouterContact
NodeDB::find_closest_to(llarp::dht::Key_t location) const
{
return router.loop()->call_get([this, location]() {
llarp::RouterContact rc;
const llarp::dht::XorMetric compare(location);
VisitAll([&rc, compare](const auto& otherRC) {
if (rc.pubkey.IsZero())
{
rc = otherRC;
return;
}
if (compare(
llarp::dht::Key_t{otherRC.pubkey.as_array()},
llarp::dht::Key_t{rc.pubkey.as_array()}))
rc = otherRC;
});
return rc;
});
}
std::vector<RouterContact>
NodeDB::find_many_closest_to(llarp::dht::Key_t location, uint32_t numRouters) const
{
return router.loop()->call_get([this, location, numRouters]() {
std::vector<const RouterContact*> all;
all.reserve(entries.size());
for (auto& entry : entries)
{
all.push_back(&entry.second.rc);
}
auto it_mid = numRouters < all.size() ? all.begin() + numRouters : all.end();
std::partial_sort(
all.begin(), it_mid, all.end(), [compare = dht::XorMetric{location}](auto* a, auto* b) {
return compare(*a, *b);
});
std::vector<RouterContact> closest;
closest.reserve(numRouters);
for (auto it = all.begin(); it != it_mid; ++it)
closest.push_back(**it);
return closest;
});
}
} // namespace llarp