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@ -1,3 +1,4 @@
#include "toxcore/tox.h"
#include <crdt/text_document.hpp> #include <crdt/text_document.hpp>
#include <nlohmann/json.hpp> #include <nlohmann/json.hpp>
@ -10,6 +11,7 @@ extern "C" {
#include <optional> #include <optional>
#include <memory> #include <memory>
#include <unordered_map> #include <unordered_map>
#include <unordered_set>
#include <string_view> #include <string_view>
#include <variant> #include <variant>
#include <thread> #include <thread>
@ -60,7 +62,7 @@ using Doc = GreenCRDT::TextDocument<Agent>;
using ListType = Doc::ListType; using ListType = Doc::ListType;
struct Command { struct Command {
Agent actor; Agent agent;
uint64_t seq {0}; // independed of the ops inside, theoretically uint64_t seq {0}; // independed of the ops inside, theoretically
//... //...
std::vector<Doc::Op> ops; std::vector<Doc::Op> ops;
@ -128,7 +130,7 @@ namespace std {
} // namespace std } // namespace std
NLOHMANN_DEFINE_TYPE_NON_INTRUSIVE(Command, NLOHMANN_DEFINE_TYPE_NON_INTRUSIVE(Command,
actor, agent,
seq, seq,
ops ops
) )
@ -282,14 +284,22 @@ struct SharedContext {
ToxPubKey agent; ToxPubKey agent;
std::promise<void> agent_set; std::promise<void> agent_set;
// TODO: this is inefficent std::mutex command_lists_mutex; // for list and frontier!!
std::mutex command_lists_mutex; std::unordered_map<ToxPubKey, std::unordered_map<uint64_t, Command>> command_lists;
std::unordered_map<ToxPubKey, std::vector<Command>> command_lists; std::unordered_map<ToxPubKey, uint64_t> command_frontier; // last applied seq
// remote op queue for receive
// local op list for remote lookups
// last seq for all known agents // contains remote changes we can apply in the main thread
// bool dirty std::mutex staging_mutex;
std::unordered_map<ToxPubKey, uint64_t> staging_frontier; // last seq we have in command_lists, via tox
// (can be lower then command_frontier for local agent
// contains remote changes with missing parent seq
// could merge into comamnd_lists
std::unordered_map<ToxPubKey, std::unordered_map<uint64_t, Command>> buffer;
std::atomic_bool should_gossip_local{false}; // local changes (set by main thread, reset by tox thread)
std::unordered_set<ToxPubKey> should_gossip_remote; // list of ids we have new seq for (only modified by tox thread)
std::unordered_map<ToxPubKey, uint64_t> heard_gossip; // seq frontiers we have heard about
Tox* tox {nullptr}; Tox* tox {nullptr};
bool tox_dht_online {false}; bool tox_dht_online {false};
@ -299,6 +309,51 @@ struct SharedContext {
namespace tox { namespace tox {
namespace pkg {
enum PKGID : uint8_t {
FRONTIER = 32,
REQUEST_FRONTIER,
COMMAND,
REQUEST_COMMANDS,
};
// send the currently last known seq you have (excluding buffer)
struct Frontier {
Agent agent;
uint64_t seq{0};
};
NLOHMANN_DEFINE_TYPE_NON_INTRUSIVE(Frontier,
agent,
seq
)
// request the last known seq another peer has for agent
struct RequestFrontier {
Agent agent;
};
NLOHMANN_DEFINE_TYPE_NON_INTRUSIVE(RequestFrontier,
agent
)
using Command = ::Command;
// request every command for agent after seq (inclusive)
struct RequestCommands {
Agent agent;
uint64_t seq{0};
};
NLOHMANN_DEFINE_TYPE_NON_INTRUSIVE(RequestCommands,
agent,
seq
)
} // namespace pkg
static std::vector<uint8_t> hex2bin(const std::string& str) { static std::vector<uint8_t> hex2bin(const std::string& str) {
std::vector<uint8_t> bin{}; std::vector<uint8_t> bin{};
bin.resize(str.size()/2, 0); bin.resize(str.size()/2, 0);
@ -382,6 +437,9 @@ void toxThread(SharedContext* ctx) {
} }
} }
// "thread local"
Agent agent_local;
//tox_group_self_get_public_key() //tox_group_self_get_public_key()
//tox_group_send_custom_packet() //tox_group_send_custom_packet()
//tox_group_send_custom_private_packet() //tox_group_send_custom_private_packet()
@ -408,6 +466,7 @@ void toxThread(SharedContext* ctx) {
ctx->agent_set.set_value(); ctx->agent_set.set_value();
return; // fuck everything return; // fuck everything
} }
agent_local = ctx->agent;
ctx->agent_set.set_value(); ctx->agent_set.set_value();
} }
} else if (!ctx->tox_group_online) { // then wait for group to connect } else if (!ctx->tox_group_online) { // then wait for group to connect
@ -416,9 +475,66 @@ void toxThread(SharedContext* ctx) {
std::cout << "tox connected to group\n"; std::cout << "tox connected to group\n";
} }
} else { // do the thing } else { // do the thing
// staging? // pump from buffer to staging
// request missing in buffer
// request frontier (implicit list of agents)
// only every couple of second, can get large
// OR get back random agent and do it often
// handle requests // handle requests
// send tip (prio self)
{ // gossip frontier
// for mutex locking simplicity this is an either-or
if (ctx->should_gossip_local.exchange(false)) {
pkg::Frontier f_pkg{
agent_local,
0u
};
pkg::Command c_pkg{
agent_local,
0u,
{}
};
{ // lock
std::lock_guard lg{ctx->command_lists_mutex};
assert(ctx->command_frontier.count(agent_local));
f_pkg.seq = ctx->command_frontier.at(agent_local);
c_pkg = ctx->command_lists[agent_local][f_pkg.seq];
}
{ // gossip
std::vector<uint8_t> data = nlohmann::json::to_msgpack(f_pkg);
// prepend pkgid
data.emplace(data.begin(), static_cast<uint8_t>(pkg::PKGID::FRONTIER));
if (!tox_group_send_custom_packet(ctx->tox, 0, true, data.data(), data.size(), nullptr)) {
std::cerr << "failed to send gossip packet of local agent\n";
// TODO: set should_gossip_local back to true?
} else {
std::cout << "sent gossip of local agent\n";
}
}
{ // command
std::vector<uint8_t> data = nlohmann::json::to_msgpack(c_pkg);
// prepend pkgid
data.emplace(data.begin(), static_cast<uint8_t>(pkg::PKGID::COMMAND));
if (!tox_group_send_custom_packet(ctx->tox, 0, true, data.data(), data.size(), nullptr)) {
std::cerr << "failed to send command packet of local agent\n";
} else {
std::cout << "sent command of local agent\n";
}
}
} else if (!ctx->should_gossip_remote.empty()) {
std::lock_guard lg{ctx->command_lists_mutex};
}
}
} }
std::this_thread::sleep_for(20ms); std::this_thread::sleep_for(20ms);
@ -503,28 +619,43 @@ int main(void) {
std::cout << "waiting for agent id\n"; std::cout << "waiting for agent id\n";
ctx.agent_set.get_future().wait(); ctx.agent_set.get_future().wait();
if (ctx.should_quit) { if (ctx.should_quit) {
tox_thread.join(); // wait for thread
return -1; return -1;
} }
std::cout << "starting vim ipc server\n"; std::cout << "starting vim ipc server\n";
if (zed_net_init() != 0) { if (zed_net_init() != 0) {
ctx.should_quit.store(true);
std::cerr << "zed_net_init failed: " << zed_net_get_error() << "\n"; std::cerr << "zed_net_init failed: " << zed_net_get_error() << "\n";
tox_thread.join(); // wait for thread
return -1; return -1;
} }
std::cout << "initialized zed_net\n"; std::cout << "initialized zed_net\n";
const uint16_t port {1337}; const uint16_t port_start {1337};
const uint16_t port_end {1437};
uint16_t port = port_start;
zed_net_socket_t listen_socket; zed_net_socket_t listen_socket;
bool found_free_port {false};
for (; port <= port_end; port++) {
if (zed_net_tcp_socket_open( if (zed_net_tcp_socket_open(
&listen_socket, &listen_socket,
port, // port port, // port
0, // non blocking 0, // non blocking
1 // listen 1 // listen
) != 0) { ) == 0) {
found_free_port = true;
break;
}
}
if (!found_free_port) {
ctx.should_quit.store(true);
std::cerr << "zed_net_tcp_socket_open failed: " << zed_net_get_error() << "\n"; std::cerr << "zed_net_tcp_socket_open failed: " << zed_net_get_error() << "\n";
zed_net_shutdown(); zed_net_shutdown();
tox_thread.join(); // wait for thread
return -1; return -1;
} }
@ -538,9 +669,11 @@ int main(void) {
zed_net_socket_t remote_socket; zed_net_socket_t remote_socket;
zed_net_address_t remote_address; zed_net_address_t remote_address;
if (zed_net_tcp_accept(&listen_socket, &remote_socket, &remote_address) != 0) { if (zed_net_tcp_accept(&listen_socket, &remote_socket, &remote_address) != 0) {
ctx.should_quit.store(true);
std::cerr << "zed_net_tcp_accept failed: " << zed_net_get_error() << "\n"; std::cerr << "zed_net_tcp_accept failed: " << zed_net_get_error() << "\n";
zed_net_socket_close(&listen_socket); zed_net_socket_close(&listen_socket);
zed_net_shutdown(); zed_net_shutdown();
tox_thread.join(); // wait for thread
return -1; return -1;
} }
@ -560,10 +693,12 @@ int main(void) {
int64_t bytes_received {0}; int64_t bytes_received {0};
bytes_received = zed_net_tcp_socket_receive(&remote_socket, buffer->data(), buffer->size()); bytes_received = zed_net_tcp_socket_receive(&remote_socket, buffer->data(), buffer->size());
if (bytes_received < 0) { if (bytes_received < 0) {
ctx.should_quit.store(true);
std::cerr << "zed_net_tcp_socket_receive failed: " << zed_net_get_error() << "\n"; std::cerr << "zed_net_tcp_socket_receive failed: " << zed_net_get_error() << "\n";
zed_net_socket_close(&remote_socket); zed_net_socket_close(&remote_socket);
zed_net_socket_close(&listen_socket); zed_net_socket_close(&listen_socket);
zed_net_shutdown(); zed_net_shutdown();
tox_thread.join(); // wait for thread
return -1; return -1;
} else if (bytes_received == 0) { } else if (bytes_received == 0) {
std::cout << "got 0 bytes?\n"; std::cout << "got 0 bytes?\n";
@ -627,9 +762,31 @@ int main(void) {
// apply changes (some) and gen vim inserts // apply changes (some) and gen vim inserts
std::cout << "got fetch changes\n"; std::cout << "got fetch changes\n";
auto j_res_line_list = nlohmann::json::array(); bool changes {false};
{ // apply changes
// TODO: make less locky, we dont need to hold both at the same time etc
//std::lock_guard lg {ctx.staging_mutex};
std::scoped_lock sl {ctx.staging_mutex, ctx.command_lists_mutex};
if (true) { // external changes // TODO: limit number of ops for responsiveness
for (const auto& [agent, staging_seq] : ctx.staging_frontier) {
// check if remote newer
if (!ctx.command_frontier.count(agent) || ctx.command_frontier.at(agent) < staging_seq) {
for (uint64_t seq = ctx.command_frontier[agent]; seq <= staging_seq; seq++) {
// !! this can get expensive, while we are holding locks :/
bool r = doc.apply(ctx.command_lists.at(agent).at(seq).ops);
assert(r && "this should not happen");
}
ctx.command_frontier[agent] = staging_seq;
changes = true;
}
}
}
auto j_res_line_list = nlohmann::json::array();
if (changes) { // external changes
const auto crdt_text = doc.getText(); const auto crdt_text = doc.getText();
std::string_view text_view {crdt_text}; std::string_view text_view {crdt_text};
for (int64_t i = 1; ; i++) { for (int64_t i = 1; ; i++) {
@ -692,6 +849,26 @@ int main(void) {
std::cout << "\n"; std::cout << "\n";
} }
assert(doc.getText() == new_text); assert(doc.getText() == new_text);
// TODO: make something less locky
// TODO: make method
{
std::lock_guard mg{ctx.command_lists_mutex};
assert(ctx.command_lists.size() == ctx.command_frontier.size());
auto& local_command_list = ctx.command_lists[ctx.agent];
uint64_t seq {0};
if (ctx.command_frontier.count(ctx.agent)) { // get last own seq
seq = ctx.command_frontier[ctx.agent] + 1;
}
local_command_list.emplace(seq, Command{
ctx.agent,
seq,
ops
});
ctx.command_frontier[ctx.agent] = seq;
}
ctx.should_gossip_local.store(true);
} else { } else {
std::cout << "unknown command '" << command << "'\n"; std::cout << "unknown command '" << command << "'\n";
} }
@ -720,14 +897,66 @@ static void self_connection_status_cb(Tox*, TOX_CONNECTION connection_status, vo
std::cout << "self_connection_status_cb " << connection_status << "\n"; std::cout << "self_connection_status_cb " << connection_status << "\n";
} }
static void handle_pkg(SharedContext& ctx, const uint8_t* data, size_t length) {
if (length < 2) {
std::cerr << "got too short pkg " << length << "\n";
return;
}
pkg::PKGID pkg_id = static_cast<pkg::PKGID>(data[0]);
const auto p_j = nlohmann::json::from_msgpack(data+1, data+1 + (length-1), true, false);
if (p_j.is_discarded()) {
std::cerr << "got invalid msgpack for " << pkg_id << "\n";
return;
}
std::cout << "pkg " << pkg_id << " j:" << p_j.dump() << "\n";
switch (pkg_id) {
case pkg::PKGID::FRONTIER: {
pkg::Frontier pkg = p_j;
if (!ctx.heard_gossip.count(pkg.agent) || ctx.heard_gossip[pkg.agent] < pkg.seq) {
ctx.heard_gossip[pkg.agent] = pkg.seq;
std::cout << "new seq " << pkg.seq << " from " << pkg.agent << "\n";
}
break;
}
case pkg::PKGID::REQUEST_FRONTIER: {
pkg::RequestFrontier pkg = p_j;
break;
}
case pkg::PKGID::COMMAND: {
pkg::Command pkg = p_j;
// push to buffer, if not in buffer
if (!ctx.buffer[pkg.agent].count(pkg.seq)) {
ctx.buffer[pkg.agent].emplace(pkg.seq, pkg);
std::cout << "pushed to buffer " << pkg.seq << " from " << pkg.agent << "\n";
}
// TODO: notify something?
break;
}
case pkg::PKGID::REQUEST_COMMANDS: {
pkg::RequestCommands pkg = p_j;
break;
}
default:
std::cerr << "unknown pkg id " << pkg_id << "\n";
break;
}
}
static void group_custom_packet_cb(Tox*, uint32_t group_number, uint32_t peer_id, const uint8_t* data, size_t length, void* user_data) { static void group_custom_packet_cb(Tox*, uint32_t group_number, uint32_t peer_id, const uint8_t* data, size_t length, void* user_data) {
std::cout << "group_custom_packet_cb\n"; std::cout << "group_custom_packet_cb\n";
SharedContext& ctx = *static_cast<SharedContext*>(user_data); SharedContext& ctx = *static_cast<SharedContext*>(user_data);
handle_pkg(ctx, data, length);
} }
static void group_custom_private_packet_cb(Tox*, uint32_t group_number, uint32_t peer_id, const uint8_t* data, size_t length, void* user_data) { static void group_custom_private_packet_cb(Tox*, uint32_t group_number, uint32_t peer_id, const uint8_t* data, size_t length, void* user_data) {
std::cout << "group_custom_private_packet_cb\n"; std::cout << "group_custom_private_packet_cb\n";
SharedContext& ctx = *static_cast<SharedContext*>(user_data); SharedContext& ctx = *static_cast<SharedContext*>(user_data);
handle_pkg(ctx, data, length);
} }
} }