hack replace content with improper use of objectstore
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dfcb5dee97
commit
eb2a19d8f3
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@ -65,5 +65,6 @@ target_link_libraries(solanaceae_sha1_ngcft1 PUBLIC
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sha1::sha1
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solanaceae_tox_contacts
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solanaceae_message3
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solanaceae_object_store
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)
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@ -26,11 +26,11 @@
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namespace Message::Components {
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using Content = ContentHandle;
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using Content = ObjectHandle;
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} // Message::Components
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// TODO: rename to content components
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// TODO: rename to object components
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namespace Components {
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struct Messages {
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@ -112,7 +112,7 @@ static size_t chunkSize(const FT1InfoSHA1& sha1_info, size_t chunk_index) {
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}
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}
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void SHA1_NGCFT1::queueUpRequestChunk(uint32_t group_number, uint32_t peer_number, ContentHandle content, const SHA1Digest& hash) {
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void SHA1_NGCFT1::queueUpRequestChunk(uint32_t group_number, uint32_t peer_number, ObjectHandle content, const SHA1Digest& hash) {
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for (auto& [i_g, i_p, i_m, i_h, i_t] : _queue_requested_chunk) {
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// if already in queue
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if (i_g == group_number && i_p == peer_number && i_h == hash) {
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@ -156,7 +156,7 @@ uint64_t SHA1_NGCFT1::combineIds(const uint32_t group_number, const uint32_t pee
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return (uint64_t(group_number) << 32) | peer_number;
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}
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void SHA1_NGCFT1::updateMessages(ContentHandle ce) {
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void SHA1_NGCFT1::updateMessages(ObjectHandle ce) {
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assert(ce.all_of<Components::Messages>());
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for (auto msg : ce.get<Components::Messages>().messages) {
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@ -185,7 +185,7 @@ void SHA1_NGCFT1::updateMessages(ContentHandle ce) {
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}
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}
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std::optional<std::pair<uint32_t, uint32_t>> SHA1_NGCFT1::selectPeerForRequest(ContentHandle ce) {
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std::optional<std::pair<uint32_t, uint32_t>> SHA1_NGCFT1::selectPeerForRequest(ObjectHandle ce) {
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// get a list of peers we can request this file from
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// TODO: randomly request from non SuspectedParticipants
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std::vector<std::pair<uint32_t, uint32_t>> tox_peers;
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@ -248,11 +248,13 @@ std::optional<std::pair<uint32_t, uint32_t>> SHA1_NGCFT1::selectPeerForRequest(C
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}
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SHA1_NGCFT1::SHA1_NGCFT1(
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ObjectStore2& os,
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Contact3Registry& cr,
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RegistryMessageModel& rmm,
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NGCFT1& nft,
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ToxContactModel2& tcm
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) :
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_os(os),
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_cr(cr),
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_rmm(rmm),
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_nft(nft),
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@ -350,8 +352,8 @@ void SHA1_NGCFT1::iterate(float delta) {
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}
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{ // requested info timers
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std::vector<Content> timed_out;
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_contentr.view<Components::ReRequestInfoTimer>().each([delta, &timed_out](Content e, Components::ReRequestInfoTimer& rrit) {
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std::vector<Object> timed_out;
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_os.registry().view<Components::ReRequestInfoTimer>().each([delta, &timed_out](Object e, Components::ReRequestInfoTimer& rrit) {
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rrit.timer += delta;
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// 15sec, TODO: config
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@ -361,12 +363,13 @@ void SHA1_NGCFT1::iterate(float delta) {
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});
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for (const auto e : timed_out) {
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// TODO: avoid dups
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_queue_content_want_info.push_back({_contentr, e});
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_contentr.remove<Components::ReRequestInfoTimer>(e);
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_queue_content_want_info.push_back(_os.objectHandle(e));
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_os.registry().remove<Components::ReRequestInfoTimer>(e);
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// TODO: throw update?
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}
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}
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{ // requested chunk timers
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_contentr.view<Components::FT1ChunkSHA1Requested>().each([delta](Components::FT1ChunkSHA1Requested& ftchunk_requested) {
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_os.registry().view<Components::FT1ChunkSHA1Requested>().each([delta](Components::FT1ChunkSHA1Requested& ftchunk_requested) {
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for (auto it = ftchunk_requested.chunks.begin(); it != ftchunk_requested.chunks.end();) {
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it->second += delta;
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@ -1087,12 +1090,13 @@ bool SHA1_NGCFT1::onEvent(const Events::NGCFT1_recv_message& e) {
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// check if content exists
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const auto sha1_info_hash = std::vector<uint8_t>{e.file_id, e.file_id+e.file_id_size};
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ContentHandle ce;
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ObjectHandle ce;
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if (_info_to_content.count(sha1_info_hash)) {
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ce = _info_to_content.at(sha1_info_hash);
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std::cout << "SHA1_NGCFT1: new message has existing content\n";
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} else {
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ce = {_contentr, _contentr.create()};
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// TODO: backend
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ce = {_os.registry(), _os.registry().create()};
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_info_to_content[sha1_info_hash] = ce;
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std::cout << "SHA1_NGCFT1: new message has new content\n";
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@ -1249,7 +1253,7 @@ bool SHA1_NGCFT1::sendFilePath(const Contact3 c, std::string_view file_name, std
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std::cout << "SHA1_NGCFT1 sha1_info_hash: " << bin2hex(sha1_info_hash) << "\n";
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// check if content exists
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ContentHandle ce;
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ObjectHandle ce;
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if (self->_info_to_content.count(sha1_info_hash)) {
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ce = self->_info_to_content.at(sha1_info_hash);
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@ -1318,7 +1322,8 @@ bool SHA1_NGCFT1::sendFilePath(const Contact3 c, std::string_view file_name, std
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it = self->_queue_content_want_chunk.erase(it);
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}
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} else {
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ce = {self->_contentr, self->_contentr.create()};
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// TODO: backend
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ce = {self->_os.registry(), self->_os.registry().create()};
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self->_info_to_content[sha1_info_hash] = ce;
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ce.emplace<Components::FT1InfoSHA1>(sha1_info);
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@ -2,6 +2,7 @@
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// solanaceae port of sha1 fts for NGCFT1
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#include <solanaceae/object_store/object_store.hpp>
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#include <solanaceae/contact/contact_model3.hpp>
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#include <solanaceae/message3/registry_message_model.hpp>
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#include <solanaceae/tox_contacts/tox_contact_model2.hpp>
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@ -20,11 +21,9 @@
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#include <mutex>
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#include <list>
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enum class Content : uint32_t {};
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using ContentRegistry = entt::basic_registry<Content>;
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using ContentHandle = entt::basic_handle<ContentRegistry>;
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class SHA1_NGCFT1 : public RegistryMessageModelEventI, public NGCFT1EventI {
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ObjectStore2& _os;
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// TODO: backend abstraction
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Contact3Registry& _cr;
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RegistryMessageModel& _rmm;
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NGCFT1& _nft;
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@ -32,21 +31,18 @@ class SHA1_NGCFT1 : public RegistryMessageModelEventI, public NGCFT1EventI {
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std::minstd_rand _rng {1337*11};
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// registry per group?
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ContentRegistry _contentr;
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// limit this to each group?
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entt::dense_map<SHA1Digest, ContentHandle> _info_to_content;
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entt::dense_map<SHA1Digest, ObjectHandle> _info_to_content;
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// sha1 chunk index
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// TODO: optimize lookup
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// TODO: multiple contents. hashes might be unique, but data is not
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entt::dense_map<SHA1Digest, ContentHandle> _chunks;
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entt::dense_map<SHA1Digest, ObjectHandle> _chunks;
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// group_number, peer_number, content, chunk_hash, timer
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std::deque<std::tuple<uint32_t, uint32_t, ContentHandle, SHA1Digest, float>> _queue_requested_chunk;
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std::deque<std::tuple<uint32_t, uint32_t, ObjectHandle, SHA1Digest, float>> _queue_requested_chunk;
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//void queueUpRequestInfo(uint32_t group_number, uint32_t peer_number, const SHA1Digest& hash);
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void queueUpRequestChunk(uint32_t group_number, uint32_t peer_number, ContentHandle content, const SHA1Digest& hash);
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void queueUpRequestChunk(uint32_t group_number, uint32_t peer_number, ObjectHandle content, const SHA1Digest& hash);
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struct SendingTransfer {
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struct Info {
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@ -56,7 +52,7 @@ class SHA1_NGCFT1 : public RegistryMessageModelEventI, public NGCFT1EventI {
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};
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struct Chunk {
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ContentHandle content;
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ObjectHandle content;
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size_t chunk_index; // <.< remove offset_into_file
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//uint64_t offset_into_file;
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// or data?
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@ -72,14 +68,14 @@ class SHA1_NGCFT1 : public RegistryMessageModelEventI, public NGCFT1EventI {
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struct ReceivingTransfer {
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struct Info {
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ContentHandle content;
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ObjectHandle content;
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// copy of info data
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// too large?
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std::vector<uint8_t> info_data;
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};
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struct Chunk {
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ContentHandle content;
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ObjectHandle content;
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std::vector<size_t> chunk_indices;
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// or data?
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// if memmapped, this would be just a pointer
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@ -93,8 +89,8 @@ class SHA1_NGCFT1 : public RegistryMessageModelEventI, public NGCFT1EventI {
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entt::dense_map<uint64_t, entt::dense_map<uint8_t, ReceivingTransfer>> _receiving_transfers;
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// makes request rotate around open content
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std::deque<ContentHandle> _queue_content_want_info;
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std::deque<ContentHandle> _queue_content_want_chunk;
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std::deque<ObjectHandle> _queue_content_want_info;
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std::deque<ObjectHandle> _queue_content_want_chunk;
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std::atomic_bool _info_builder_dirty {false};
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std::mutex _info_builder_queue_mutex;
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@ -108,9 +104,9 @@ class SHA1_NGCFT1 : public RegistryMessageModelEventI, public NGCFT1EventI {
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static uint64_t combineIds(const uint32_t group_number, const uint32_t peer_number);
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void updateMessages(ContentHandle ce);
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void updateMessages(ObjectHandle ce);
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std::optional<std::pair<uint32_t, uint32_t>> selectPeerForRequest(ContentHandle ce);
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std::optional<std::pair<uint32_t, uint32_t>> selectPeerForRequest(ObjectHandle ce);
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public: // TODO: config
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bool _udp_only {false};
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@ -122,6 +118,7 @@ class SHA1_NGCFT1 : public RegistryMessageModelEventI, public NGCFT1EventI {
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public:
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SHA1_NGCFT1(
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ObjectStore2& os,
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Contact3Registry& cr,
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RegistryMessageModel& rmm,
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NGCFT1& nft,
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