solanaceae_ngc_ft1/solanaceae/ngc_hs2/ngc_hs2_send.cpp
2024-11-28 12:59:14 +01:00

247 lines
5.7 KiB
C++

#include "./ngc_hs2_send.hpp"
#include <solanaceae/util/span.hpp>
#include <solanaceae/tox_contacts/tox_contact_model2.hpp>
#include <solanaceae/contact/components.hpp>
#include <iostream>
// https://www.youtube.com/watch?v=AdAqsgga3qo
namespace Components {
void IncommingTimeRangeRequestQueue::queueRequest(const TimeRangeRequest& new_request) {
// TODO: do more than exact dedupe
for (const auto& [ts_start, ts_end] : _queue) {
if (ts_start == new_request.ts_start && ts_end == new_request.ts_end) {
return; // already enqueued
}
}
_queue.push_back(new_request);
}
} // Components
NGCHS2Send::NGCHS2Send(
Contact3Registry& cr,
RegistryMessageModelI& rmm,
ToxContactModel2& tcm,
NGCFT1& nft
) :
_cr(cr),
_rmm(rmm),
_tcm(tcm),
_nft(nft),
_nftep_sr(_nft.newSubRef(this))
{
_nftep_sr
.subscribe(NGCFT1_Event::recv_request)
//.subscribe(NGCFT1_Event::recv_init) // we only send init
//.subscribe(NGCFT1_Event::recv_data) // we only send data
.subscribe(NGCFT1_Event::send_data)
//.subscribe(NGCFT1_Event::recv_done)
.subscribe(NGCFT1_Event::send_done)
;
}
NGCHS2Send::~NGCHS2Send(void) {
}
float NGCHS2Send::iterate(float delta) {
// limit how often we update here (new fts usually)
if (_iterate_heat > 0.f) {
_iterate_heat -= delta;
return 1000.f;
} else {
_iterate_heat = _iterate_cooldown;
}
// work request queue
// check if already running, discard
auto fn_iirq = [this](auto&& view) {
for (auto&& [cv, iirq] : view.each()) {
Contact3Handle c{_cr, cv};
auto& iirr = c.get_or_emplace<Components::IncommingTimeRangeRequestRunning>();
// dedup queued from running
if (iirr._list.size() >= _max_parallel_per_peer) {
continue;
}
// new ft here?
}
};
// first handle range requests on weak self
//for (auto&& [cv, iirq] : _cr.view<Contact::Components::TagSelfWeak, Components::IncommingTimeRangeRequestQueue>().each()) {
fn_iirq(_cr.view<Contact::Components::TagSelfWeak, Components::IncommingTimeRangeRequestQueue>());
// we could stop here, if too much is already running
// then range on others
//for (auto&& [cv, iirq] : _cr.view<Components::IncommingTimeRangeRequestQueue>(entt::exclude_t<Contact::Components::TagSelfWeak>{}).each()) {
fn_iirq(_cr.view<Components::IncommingTimeRangeRequestQueue>(entt::exclude_t<Contact::Components::TagSelfWeak>{}));
return 1000.f;
}
template<typename Type>
static uint64_t deserlSimpleType(ByteSpan bytes) {
if (bytes.size < sizeof(Type)) {
throw int(1);
}
Type value;
for (size_t i = 0; i < sizeof(Type); i++) {
value |= Type(bytes[i]) << (i*8);
}
return value;
}
static uint32_t deserlMID(ByteSpan mid_bytes) {
return deserlSimpleType<uint32_t>(mid_bytes);
}
static uint64_t deserlTS(ByteSpan ts_bytes) {
return deserlSimpleType<uint64_t>(ts_bytes);
}
void NGCHS2Send::handleTimeRange(Contact3Handle c, const Events::NGCFT1_recv_request& e) {
ByteSpan fid{e.file_id, e.file_id_size};
// TODO: better size check
if (fid.size != sizeof(uint64_t)+sizeof(uint64_t)) {
std::cerr << "NGCHS2S error: range not lange enough\n";
return;
}
// seconds
uint64_t ts_start{0};
uint64_t ts_end{0};
// parse
try {
ByteSpan ts_start_bytes{fid.ptr, sizeof(uint64_t)};
ts_start = deserlTS(ts_start_bytes);
ByteSpan ts_end_bytes{ts_start_bytes.ptr+ts_start_bytes.size, sizeof(uint64_t)};
ts_end = deserlTS(ts_end_bytes);
} catch (...) {
std::cerr << "NGCHS2S error: failed to parse range\n";
return;
}
// dedupe insert into queue
// how much overlap do we allow?
c.get_or_emplace<Components::IncommingTimeRangeRequestQueue>().queueRequest({
ts_start,
ts_end,
});
}
#if 0
void NGCHS2Send::handleSingleMessage(Contact3Handle c, const Events::NGCFT1_recv_request& e) {
ByteSpan fid{e.file_id, e.file_id_size};
// TODO: better size check
if (fid.size != 32+sizeof(uint32_t)+sizeof(uint64_t)) {
std::cerr << "NGCHS2S error: singlemessage not lange enough\n";
return;
}
ByteSpan ppk;
uint32_t mid {0};
uint64_t ts {0}; // deciseconds
// parse
try {
// - ppk
// TOX_GROUP_PEER_PUBLIC_KEY_SIZE (32)
ppk = {fid.ptr, 32};
// - mid
ByteSpan mid_bytes{fid.ptr+ppk.size, sizeof(uint32_t)};
mid = deserlMID(mid_bytes);
// - ts
ByteSpan ts_bytes{mid_bytes.ptr+mid_bytes.size, sizeof(uint64_t)};
ts = deserlTS(ts_bytes);
} catch (...) {
std::cerr << "NGCHS2S error: failed to parse singlemessage\n";
return;
}
// for queue, we need group, peer, msg_ppk, msg_mid, msg_ts
// dedupe insert into queue
c.get_or_emplace<Components::IncommingMsgRequestQueue>().queueRequest({
ppk,
mid,
ts,
});
}
#endif
bool NGCHS2Send::onEvent(const Message::Events::MessageConstruct&) {
return false;
}
bool NGCHS2Send::onEvent(const Message::Events::MessageUpdated&) {
return false;
}
bool NGCHS2Send::onEvent(const Message::Events::MessageDestory&) {
return false;
}
bool NGCHS2Send::onEvent(const Events::NGCFT1_recv_request& e) {
if (
e.file_kind != NGCFT1_file_kind::HS2_RANGE_TIME_MSGPACK
) {
return false; // not for us
}
// TODO: when is it done from queue?
auto c = _tcm.getContactGroupPeer(e.group_number, e.peer_number);
if (!c) {
return false; // how
}
// is other peer allowed to make requests
//bool quick_allow {false};
bool quick_allow {true}; // HACK: disable all restrictions for this early test
// TODO: quick deny?
{
// - tagged as weakself
if (!quick_allow && c.all_of<Contact::Components::TagSelfWeak>()) {
quick_allow = true;
}
// - sub perm level??
// - out of max time range (ft specific, not a quick_allow)
}
if (e.file_kind == NGCFT1_file_kind::HS2_RANGE_TIME_MSGPACK) {
handleTimeRange(c, e);
}
return true;
}
bool NGCHS2Send::onEvent(const Events::NGCFT1_send_data&) {
return false;
}
bool NGCHS2Send::onEvent(const Events::NGCFT1_send_done&) {
return false;
}