lokinet/llarp/nodedb.hpp
2024-01-31 07:54:12 -08:00

177 lines
4.3 KiB
C++

#pragma once
#include "crypto/crypto.hpp"
#include "dht/key.hpp"
#include "router_contact.hpp"
#include "router_id.hpp"
#include "util/common.hpp"
#include "util/fs.hpp"
#include "util/thread/threading.hpp"
#include <llarp/router/router.hpp>
#include <algorithm>
#include <atomic>
#include <optional>
#include <set>
#include <unordered_map>
#include <unordered_set>
#include <utility>
namespace llarp
{
struct Router;
class NodeDB
{
struct Entry
{
const RouterContact rc;
llarp_time_t insertedAt;
explicit Entry(RouterContact rc);
};
using NodeMap = std::unordered_map<RouterID, Entry>;
NodeMap entries;
const Router& router;
const fs::path m_Root;
const std::function<void(std::function<void()>)> disk;
llarp_time_t m_NextFlushAt;
/// asynchronously remove the files for a set of rcs on disk given their public ident key
void
remove_many_from_disk_async(std::unordered_set<RouterID> idents) const;
/// get filename of an RC file given its public ident key
fs::path
get_path_by_pubkey(RouterID pk) const;
public:
explicit NodeDB(
fs::path rootdir, std::function<void(std::function<void()>)> diskCaller, Router* r);
/// in memory nodedb
NodeDB();
/// load all entries from disk syncrhonously
void
load_from_disk();
/// explicit save all RCs to disk synchronously
void
save_to_disk() const;
/// the number of RCs that are loaded from disk
size_t
num_loaded() const;
/// do periodic tasks like flush to disk and expiration
void
Tick(llarp_time_t now);
/// find the absolute closets router to a dht location
RouterContact
find_closest_to(dht::Key_t location) const;
/// find many routers closest to dht key
std::vector<RouterContact>
find_many_closest_to(dht::Key_t location, uint32_t numRouters) const;
/// return true if we have an rc by its ident pubkey
bool
has_router(RouterID pk) const;
/// maybe get an rc by its ident pubkey
std::optional<RouterContact>
get_rc(RouterID pk) const;
template <typename Filter>
std::optional<RouterContact>
GetRandom(Filter visit) const
{
return router.loop()->call_get([visit]() -> std::optional<RouterContact> {
std::vector<const decltype(entries)::value_type*> entries;
for (const auto& entry : entries)
entries.push_back(entry);
std::shuffle(entries.begin(), entries.end(), llarp::csrng);
for (const auto entry : entries)
{
if (visit(entry->second.rc))
return entry->second.rc;
}
return std::nullopt;
});
}
/// visit all entries
template <typename Visit>
void
VisitAll(Visit visit) const
{
router.loop()->call([this, visit]() {
for (const auto& item : entries)
visit(item.second.rc);
});
}
/// visit all entries inserted before a timestamp
template <typename Visit>
void
VisitInsertedBefore(Visit visit, llarp_time_t insertedBefore)
{
router.loop()->call([this, visit, insertedBefore]() {
for (const auto& item : entries)
{
if (item.second.insertedAt < insertedBefore)
visit(item.second.rc);
}
});
}
/// remove an entry via its ident pubkey
void
remove_router(RouterID pk);
/// remove an entry given a filter that inspects the rc
template <typename Filter>
void
RemoveIf(Filter visit)
{
router.loop()->call([this, visit]() {
std::unordered_set<RouterID> removed;
auto itr = entries.begin();
while (itr != entries.end())
{
if (visit(itr->second.rc))
{
removed.insert(itr->second.rc.pubkey);
itr = entries.erase(itr);
}
else
++itr;
}
if (not removed.empty())
remove_many_from_disk_async(std::move(removed));
});
}
/// remove rcs that are not in keep and have been inserted before cutoff
void
remove_stale_rcs(std::unordered_set<RouterID> keep, llarp_time_t cutoff);
/// put this rc into the cache if it is not there or newer than the one there already
void
put_rc_if_newer(RouterContact rc);
/// unconditional put of rc into cache
void
put_rc(RouterContact rc);
};
} // namespace llarp