server-stream.cpp

#include "server-stream.h"
#include "server-common.h"
#include "server-http.h"
#include "server-queue.h"

#include <chrono>
#include <memory>
#include <utility>

namespace {
constexpr int64_t STREAM_SESSION_TTL_SECONDS         = 300;
constexpr size_t  STREAM_SESSION_MAX_BYTES           = 4 * 1024 * 1024;
constexpr int64_t STREAM_SESSION_GC_INTERVAL_SECONDS = 60;
constexpr int64_t STREAM_READ_WAKE_INTERVAL_MS       = 200;

// returns unix time in seconds
int64_t now_seconds() {
    return std::chrono::duration_cast<std::chrono::seconds>(
        std::chrono::system_clock::now().time_since_epoch()
    ).count();
}
}

stream_session::stream_session(std::string conversation_id_, size_t max_bytes_)
    : conversation_id(std::move(conversation_id_))
    , started_ts(now_seconds())
    , prefix_dropped(0)
    , cap_bytes(max_bytes_)
    , done(false)
    , cancelled(false)
    , completed_ts(0) {
    buffer.reserve(64 * 1024);
}

bool stream_session::append(const char * data, size_t len) {
    if (len == 0) {
        return true;
    }
    {
        std::lock_guard<std::mutex> lock(mu);
        if (done.load(std::memory_order_relaxed)) {
            return false;
        }
        if (len >= cap_bytes) {
            // single chunk bigger than the cap, keep only the tail that fits
            size_t skip = len - cap_bytes;
            prefix_dropped += buffer.size() + skip;
            buffer.clear();
            buffer.insert(buffer.end(), data + skip, data + len);
        } else {
            size_t needed = buffer.size() + len;
            if (needed > cap_bytes) {
                size_t to_drop = needed - cap_bytes;
                buffer.erase(buffer.begin(), buffer.begin() + to_drop);
                prefix_dropped += to_drop;
            }
            buffer.insert(buffer.end(), data, data + len);
        }
    }
    cv.notify_all();
    return true;
}

void stream_session::finalize() {
    bool was_done = done.exchange(true, std::memory_order_acq_rel);
    if (was_done) {
        return;
    }
    completed_ts.store(now_seconds(), std::memory_order_release);
    cv.notify_all();
}

stream_read_status stream_session::read_from(size_t offset,
        const std::function<bool(const char *, size_t)> & sink,
        const std::function<bool()> & should_stop) {
    std::unique_lock<std::mutex> lock(mu);
    while (true) {
        if (should_stop && should_stop()) {
            return stream_read_status::OK;
        }
        if (offset < prefix_dropped) {
            return stream_read_status::OFFSET_LOST;
        }
        size_t logical_end = prefix_dropped + buffer.size();
        if (offset < logical_end) {
            size_t local_off = offset - prefix_dropped;
            size_t n         = buffer.size() - local_off;
            // copy the available chunk under the lock, release before calling the sink
            std::vector<char> chunk(buffer.begin() + local_off, buffer.begin() + local_off + n);
            offset += n;
            lock.unlock();
            bool keep_going = sink(chunk.data(), chunk.size());
            if (!keep_going) {
                return stream_read_status::OK;
            }
            lock.lock();
            continue;
        }
        if (done.load(std::memory_order_acquire)) {
            return stream_read_status::OK;
        }
        // wait for new bytes, finalize, or a periodic wake to re check should_stop
        cv.wait_for(lock, std::chrono::milliseconds(STREAM_READ_WAKE_INTERVAL_MS));
    }
}

bool stream_session::is_done() const {
    return done.load(std::memory_order_acquire);
}

size_t stream_session::total_size() const {
    std::lock_guard<std::mutex> lock(mu);
    return prefix_dropped + buffer.size();
}

size_t stream_session::dropped_prefix() const {
    std::lock_guard<std::mutex> lock(mu);
    return prefix_dropped;
}

int64_t stream_session::completed_at() const {
    return completed_ts.load(std::memory_order_acquire);
}

void stream_session::set_stop_producer(std::function<void()> fn) {
    std::lock_guard<std::mutex> lock(mu);
    stop_producer = std::move(fn);
}

void stream_session::cancel() {
    // flip cancelled first so the producer-side stream_aware_should_stop can break out of the
    // recv() wait even if remove_waiting_task_ids does not notify the condvar (the cancel task
    // posted by rd.stop() will eventually notify, but we do not want to depend on that timing)
    cancelled.store(true, std::memory_order_release);
    // copy the hook under the lock then invoke outside, the producer side may grab queue locks
    // and we do not want to hold our mu across that path
    std::function<void()> fn;
    {
        std::lock_guard<std::mutex> lock(mu);
        fn = stop_producer;
    }
    if (fn) {
        fn();
    }
}

bool stream_session::is_cancelled() const {
    return cancelled.load(std::memory_order_acquire);
}

stream_session_manager::stream_session_manager()
    : running(false) {
}

stream_session_manager::~stream_session_manager() {
    stop_gc();
}

stream_session_ptr stream_session_manager::create_or_replace(const std::string & conversation_id) {
    // evict any previous session on the same conv, this guarantees the invariant
    // "one conv = at most one live session" and propagates cancel to its producer
    stream_session_ptr previous;
    auto fresh = std::make_shared<stream_session>(conversation_id, STREAM_SESSION_MAX_BYTES);
    {
        std::unique_lock<std::shared_mutex> lock(map_mu);
        auto it = sessions.find(conversation_id);
        if (it != sessions.end()) {
            previous = it->second;
            it->second = fresh;
        } else {
            sessions.emplace(conversation_id, fresh);
        }
    }
    if (previous) {
        previous->cancel();
        previous->finalize();
    }
    return fresh;
}

stream_session_ptr stream_session_manager::get(const std::string & conversation_id) {
    std::shared_lock<std::shared_mutex> lock(map_mu);
    auto it = sessions.find(conversation_id);
    if (it == sessions.end()) {
        return nullptr;
    }
    return it->second;
}

std::vector<stream_session_ptr> stream_session_manager::list_all() const {
    std::vector<stream_session_ptr> out;
    std::shared_lock<std::shared_mutex> lock(map_mu);
    out.reserve(sessions.size());
    for (auto & kv : sessions) {
        out.push_back(kv.second);
    }
    return out;
}

void stream_session_manager::evict(const std::string & conversation_id) {
    stream_session_ptr s;
    {
        std::unique_lock<std::shared_mutex> lock(map_mu);
        auto it = sessions.find(conversation_id);
        if (it == sessions.end()) {
            return;
        }
        s = it->second;
        sessions.erase(it);
    }
    // finalize outside the map lock so any pending readers wake up and exit
    s->finalize();
}

void stream_session_manager::evict_and_cancel(const std::string & conversation_id) {
    stream_session_ptr s;
    {
        std::unique_lock<std::shared_mutex> lock(map_mu);
        auto it = sessions.find(conversation_id);
        if (it == sessions.end()) {
            return;
        }
        s = it->second;
        sessions.erase(it);
    }
    // signal the producer side first so the inference is cancelled at the queue level,
    // then finalize, which wakes any pending HTTP reader and lets the drain exit naturally
    s->cancel();
    s->finalize();
}

void stream_session_manager::start_gc() {
    if (running.exchange(true)) {
        return;
    }
    gc_thread = std::thread([this] { gc_loop(); });
}

void stream_session_manager::stop_gc() {
    bool was_running = running.exchange(false);
    if (was_running) {
        {
            std::lock_guard<std::mutex> lock(gc_wake_mu);
        }
        gc_wake_cv.notify_all();
        if (gc_thread.joinable()) {
            gc_thread.join();
        }
    }
    // finalize all live sessions so no reader ever hangs
    std::vector<stream_session_ptr> snapshot;
    {
        std::unique_lock<std::shared_mutex> lock(map_mu);
        snapshot.reserve(sessions.size());
        for (auto & kv : sessions) {
            snapshot.push_back(kv.second);
        }
        sessions.clear();
    }
    for (auto & s : snapshot) {
        s->finalize();
    }
}

void stream_session_manager::gc_loop() {
    while (running.load(std::memory_order_acquire)) {
        {
            std::unique_lock<std::mutex> lock(gc_wake_mu);
            gc_wake_cv.wait_for(lock,
                std::chrono::seconds(STREAM_SESSION_GC_INTERVAL_SECONDS),
                [this] { return !running.load(std::memory_order_acquire); });
        }
        if (!running.load(std::memory_order_acquire)) {
            return;
        }
        int64_t cutoff = now_seconds() - STREAM_SESSION_TTL_SECONDS;
        std::vector<stream_session_ptr> to_drop;
        {
            std::unique_lock<std::shared_mutex> lock(map_mu);
            for (auto it = sessions.begin(); it != sessions.end(); ) {
                int64_t completed = it->second->completed_at();
                if (completed != 0 && completed <= cutoff) {
                    to_drop.push_back(it->second);
                    it = sessions.erase(it);
                } else {
                    ++it;
                }
            }
        }
        // finalize outside the map lock, idempotent if the session was already done
        for (auto & s : to_drop) {
            s->finalize();
        }
    }
}

// process wide manager, lifecycle controlled by llama-server main() via start_gc/stop_gc
stream_session_manager g_stream_sessions;

// stream_pipe ---------------------------------------------------------------------------------

stream_pipe::stream_pipe(stream_session_ptr session)
    : session_(std::move(session)) {
}

bool stream_pipe::is_cancelled() const {
    return session_->is_cancelled();
}

// stream_pipe_producer

stream_pipe_producer::stream_pipe_producer(stream_session_ptr session)
    : stream_pipe(std::move(session)) {
}

stream_pipe_producer::~stream_pipe_producer() {
    cleanup();
    session_->finalize();
}

void stream_pipe_producer::cleanup() {
    if (!alive_) {
        return;
    }
    alive_->store(false, std::memory_order_release);
    session_->set_stop_producer(nullptr);
    alive_.reset();
}

bool stream_pipe_producer::write(const char * data, size_t len) {
    return session_->append(data, len);
}

void stream_pipe_producer::done() {
    done_ = true;
}

void stream_pipe_producer::close() {
    // httplib bails its content provider the moment is_peer_alive() goes false, so pump the rest
    // of the generation into the ring buffer here. a DELETE flips is_cancelled and cuts it short
    if (done_ || session_->is_cancelled()) {
        SRV_INF("stream_pipe close: skip drain (done=%d cancelled=%d) conv=%s\n",
                done_ ? 1 : 0, session_->is_cancelled() ? 1 : 0, session_->conversation_id.c_str());
        return;
    }
    SRV_INF("stream_pipe close: draining conv=%s\n", session_->conversation_id.c_str());
    size_t drained = 0;
    std::string chunk;
    while (true) {
        chunk.clear();
        bool has_next = res_->next(chunk);
        if (!chunk.empty()) {
            write(chunk.data(), chunk.size());
            drained += chunk.size();
        }
        if (!has_next) {
            break;
        }
    }
    SRV_INF("stream_pipe close: drain ended conv=%s bytes=%zu\n", session_->conversation_id.c_str(), drained);
}

std::shared_ptr<stream_pipe_producer> stream_pipe_producer::create(stream_session_ptr session,
                                                                   server_http_res & res) {
    auto alive = std::make_shared<std::atomic<bool>>(true);
    auto * res_ptr = &res;
    session->set_stop_producer([alive, res_ptr]() {
        if (alive->load(std::memory_order_acquire)) {
            res_ptr->stop();
        }
    });
    auto pipe = std::shared_ptr<stream_pipe_producer>(new stream_pipe_producer(std::move(session)));
    pipe->alive_ = std::move(alive);
    pipe->res_   = res_ptr;
    return pipe;
}

// stream_pipe_consumer

stream_pipe_consumer::stream_pipe_consumer(stream_session_ptr session)
    : stream_pipe(std::move(session)) {
}

stream_read_status stream_pipe_consumer::read(size_t & offset,
        const std::function<bool(const char *, size_t)> & sink,
        const std::function<bool()> & should_stop) {
    return session_->read_from(offset, sink, should_stop);
}

std::shared_ptr<stream_pipe_consumer> stream_pipe_consumer::create(stream_session_ptr session) {
    return std::shared_ptr<stream_pipe_consumer>(new stream_pipe_consumer(std::move(session)));
}

// helper, builds the standard error response and assigns it to a brand new http_res
static server_http_res_ptr make_error_response(int status, const std::string & message, error_type type) {
    auto res = std::make_unique<server_http_res>();
    json err = format_error_response(message, type);
    res->status = json_value(err, "code", status);
    res->content_type = "application/json; charset=utf-8";
    res->data = safe_json_to_str({{"error", err}});
    return res;
}

server_http_context::handler_t make_stream_get_handler() {
    return [](const server_http_req & req) -> server_http_res_ptr {
        // GET /v1/stream/<conv_id>?from=N replays the SSE bytes already buffered for the
        // session, blocks for more bytes when the session is still running, returns when
        // the session is finalized. the body is streamed back as text/event-stream so the
        // browser EventSource can attach to it like a fresh request
        std::string conv_id = req.get_param("conv_id");
        if (conv_id.empty()) {
            return make_error_response(400, "Missing conversation id in path", ERROR_TYPE_INVALID_REQUEST);
        }
        auto session = g_stream_sessions.get(conv_id);
        if (!session) {
            return make_error_response(404, "Stream not found or expired", ERROR_TYPE_NOT_FOUND);
        }
        size_t from = 0;
        std::string from_str = req.get_param("from");
        if (!from_str.empty()) {
            try {
                from = static_cast<size_t>(std::stoull(from_str));
            } catch (const std::exception &) {
                return make_error_response(400, "Invalid 'from' offset", ERROR_TYPE_INVALID_REQUEST);
            }
        }
        if (from < session->dropped_prefix()) {
            return make_error_response(400, "Stream offset lost, please restart", ERROR_TYPE_INVALID_REQUEST);
        }
        auto res = std::make_unique<server_http_res>();
        res->status = 200;
        res->content_type = "text/event-stream";
        // the next closure reads from the ring buffer at the requested offset, blocks until
        // bytes arrive or the session finalizes. exit each call after draining the available
        // chunk so set_chunked_content_provider gets a chance to flush to the socket
        auto offset_ptr = std::make_shared<size_t>(from);
        // consumer pipe: read-only, does not finalize the session on destruction
        auto pipe = stream_pipe_consumer::create(session);
        res->next = [pipe, offset_ptr, &req](std::string & output) -> bool {
            bool got_any = false;
            pipe->read(*offset_ptr,
                [&](const char * d, size_t n) {
                    output.append(d, n);
                    *offset_ptr += n;
                    got_any = true;
                    return false;
                },
                req.should_stop);
            return got_any;
        };
        return res;
    };
}

server_http_context::handler_t make_streams_lookup_handler() {
    return [](const server_http_req & req) -> server_http_res_ptr {
        // POST /v1/streams/lookup with body {"conversation_ids": ["X", "Y", ...]} returns the
        // matching sessions, only for ids the caller already knows. each id matches the exact key
        // and any "<id>::<model>" variant, so one lookup covers every per model session for a conv
        std::vector<std::string> requested;
        try {
            json body = json::parse(req.body);
            if (body.contains("conversation_ids") && body["conversation_ids"].is_array()) {
                for (const auto & v : body["conversation_ids"]) {
                    if (v.is_string()) {
                        std::string id = v.get<std::string>();
                        if (!id.empty()) {
                            requested.push_back(std::move(id));
                        }
                    }
                }
            }
        } catch (const std::exception & e) {
            auto res = std::make_unique<server_http_res>();
            res->status = 400;
            res->content_type = "application/json; charset=utf-8";
            res->data = safe_json_to_str({{"error", {{"message", std::string("invalid body: ") + e.what()},
                                                     {"type", "invalid_request_error"}}}});
            return res;
        }

        std::vector<stream_session_ptr> sessions;
        if (!requested.empty()) {
            auto all = g_stream_sessions.list_all();
            for (const auto & rid : requested) {
                const std::string with_sep = rid + "::";
                for (auto & s : all) {
                    if (s->conversation_id == rid ||
                        s->conversation_id.compare(0, with_sep.size(), with_sep) == 0) {
                        sessions.push_back(s);
                    }
                }
            }
        }

        json arr = json::array();
        for (auto & s : sessions) {
            arr.push_back({
                {"conversation_id", s->conversation_id},
                {"is_done",         s->is_done()},
                {"total_bytes",     s->total_size()},
                {"started_at",      s->started_ts},
                {"completed_at",    s->completed_at()},
            });
        }
        auto res = std::make_unique<server_http_res>();
        res->status = 200;
        res->content_type = "application/json; charset=utf-8";
        res->data = safe_json_to_str(arr);
        return res;
    };
}

server_http_context::handler_t make_stream_delete_handler() {
    return [](const server_http_req & req) -> server_http_res_ptr {
        // DELETE /v1/stream/<conv_id> is the explicit user Stop, cancels the producer hook
        // wired by handle_completions_impl and evicts the buffer. idempotent, a session that
        // already finalized or was never created returns 204 either way
        std::string conv_id = req.get_param("conv_id");
        if (conv_id.empty()) {
            return make_error_response(400, "Missing conversation id in path", ERROR_TYPE_INVALID_REQUEST);
        }
        SRV_INF("DELETE /v1/stream/%s -> evict_and_cancel\n", conv_id.c_str());
        g_stream_sessions.evict_and_cancel(conv_id);
        auto res = std::make_unique<server_http_res>();
        res->status = 204;
        res->content_type = "application/json";
        return res;
    };
}

std::string stream_conv_id_from_headers(const std::map<std::string, std::string> & headers) {
    // case-insensitive scan for x-conversation-id
    static constexpr char   target[]   = "x-conversation-id";
    static constexpr size_t target_len = sizeof(target) - 1;
    for (const auto & [hk, hv] : headers) {
        if (hk.size() != target_len) continue;
        bool match = true;
        for (size_t i = 0; i < target_len; ++i) {
            char c = hk[i];
            if (c >= 'A' && c <= 'Z') c = char(c + 32);
            if (c != target[i]) { match = false; break; }
        }
        if (match) {
            return hv;
        }
    }
    return std::string();
}

void stream_session_attach_pipe(server_http_res & res, const std::map<std::string, std::string> & headers) {
    std::string conversation_id = stream_conv_id_from_headers(headers);
    SRV_INF("stream_session_attach_pipe: conv_id=%s (empty=%d)\n",
            conversation_id.c_str(), conversation_id.empty() ? 1 : 0);
    if (conversation_id.empty()) {
        return;
    }
    auto session = g_stream_sessions.create_or_replace(conversation_id);
    res.spipe = stream_pipe_producer::create(session, res);
}

std::function<bool()> stream_aware_should_stop(server_http_res * res, std::function<bool()> fallback) {
    return [res, fallback = std::move(fallback)]() -> bool {
        if (res->spipe) {
            return res->spipe->is_cancelled();
        }
        return fallback();
    };
}