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llama.cpp / tools /server /server-queue.h
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todo: 基于 CUDA 13.0 编译
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#pragma once
#include "server-task.h"
#include <condition_variable>
#include <deque>
#include <mutex>
#include <vector>
#include <unordered_set>
// struct for managing server tasks
// in most cases, use server_response_reader to post new tasks and retrieve results
struct server_queue {
private:
 int id = 0;
 bool running = false;
 bool sleeping = false;
 bool req_stop_sleeping = false;
 int64_t time_last_task = 0;
// queues
 std::deque<server_task> queue_tasks;
 std::deque<server_task> queue_tasks_deferred;
std::mutex mutex_tasks;
 std::condition_variable condition_tasks;
// callback functions
 std::function<void(server_task &&)> callback_new_task;
 std::function<void(void)> callback_update_slots;
 std::function<void(bool)> callback_sleeping_state;
public:
 // Add a new task to the end of the queue
 int post(server_task && task, bool front = false);
// multi-task version of post()
 int post(std::vector<server_task> && tasks, bool front = false);
// Add a new task, but defer until one slot is available
 void defer(server_task && task);
// Get the next id for creating a new task
 int get_new_id();
// Call when the state of one slot is changed, it will move one task from deferred to main queue
 // prioritize tasks that use the specified slot (otherwise, pop the first deferred task)
 void pop_deferred_task(int id_slot);
// if sleeping, request exiting sleep state and wait until it is done
 // returns immediately if not sleeping
 void wait_until_no_sleep();
bool is_sleeping() {
 std::unique_lock<std::mutex> lock(mutex_tasks);
 return sleeping;
 }
// end the start_loop routine
 void terminate();
/**
 * Main loop consists of these steps:
 * - Wait until a new task arrives
 * - Process the task (i.e. maybe copy data into slot)
 * - Check if multitask is finished
 * - Update all slots
 *
 * Sleeping procedure (disabled if idle_sleep_ms < 0):
 * - If there is no task after idle_sleep_ms, enter sleeping state
 * - Call callback_sleeping_state(true)
 * - Wait until req_stop_sleeping is set to true
 * - Call callback_sleeping_state(false)
 * - Exit sleeping state
 */
 void start_loop(int64_t idle_sleep_ms = -1);
// for metrics
 size_t queue_tasks_deferred_size() {
 std::unique_lock<std::mutex> lock(mutex_tasks);
 return queue_tasks_deferred.size();
 }
//
 // Functions below are not thread-safe, must only be used before start_loop() is called
 //
// Register function to process a new task
 void on_new_task(std::function<void(server_task &&)> callback) {
 callback_new_task = std::move(callback);
 }
// Register the function to be called when all slots data is ready to be processed
 void on_update_slots(std::function<void(void)> callback) {
 callback_update_slots = std::move(callback);
 }
// Register callback for sleeping state change
 // note: when entering sleeping state, the callback is called AFTER sleeping is set to true
 // when leaving sleeping state, the callback is called BEFORE sleeping is set to false
 void on_sleeping_state(std::function<void(bool)> callback) {
 callback_sleeping_state = std::move(callback);
 }
private:
 void cleanup_pending_task(int id_target);
};
// struct for managing server responses
// in most cases, use server_response_reader to retrieve results
struct server_response {
private:
 bool running = true;
// for keeping track of all tasks waiting for the result
 std::unordered_set<int> waiting_task_ids;
// the main result queue (using ptr for polymorphism)
 std::vector<server_task_result_ptr> queue_results;
std::mutex mutex_results;
 std::condition_variable condition_results;
public:
 // add the id_task to the list of tasks waiting for response
 void add_waiting_task_id(int id_task);
void add_waiting_task_ids(const std::unordered_set<int> & id_tasks);
// when the request is finished, we can remove task associated with it
 void remove_waiting_task_id(int id_task);
// remove multiple tasks from waiting list
 void remove_waiting_task_ids(const std::unordered_set<int> & id_tasks);
// This function blocks the thread until there is a response for one of the id_tasks
 server_task_result_ptr recv(const std::unordered_set<int> & id_tasks);
// same as recv(), but have timeout in seconds
 // if timeout is reached, nullptr is returned
 server_task_result_ptr recv_with_timeout(const std::unordered_set<int> & id_tasks, int timeout);
// single-task version of recv()
 server_task_result_ptr recv(int id_task);
// Send a new result to a waiting id_task
 void send(server_task_result_ptr && result);
// terminate the waiting loop
 void terminate();
};
// utility class to make working with server_queue and server_response easier
// it provides a generator-like API for server responses
// support pooling connection state and aggregating multiple results
struct server_response_reader {
 std::unordered_set<int> id_tasks;
 server_queue & queue_tasks;
 server_response & queue_results;
 size_t received_count = 0;
 bool cancelled = false;
 int polling_interval_seconds;
// tracking generation state and partial tool calls
 // only used by streaming completions
 std::vector<task_result_state> states;
// should_stop function will be called each polling_interval_seconds
 server_response_reader(server_queue & queue_tasks, server_response & queue_results, int polling_interval_seconds)
 : queue_tasks(queue_tasks), queue_results(queue_results), polling_interval_seconds(polling_interval_seconds) {}
 ~server_response_reader() {
 stop();
 }
int get_new_id() {
 return queue_tasks.get_new_id();
 }
// if front = true, the task will be posted to the front of the queue (high priority)
 void post_task(server_task && task, bool front = false);
 void post_tasks(std::vector<server_task> && tasks, bool front = false);
 bool has_next() const;
// return nullptr if should_stop() is true before receiving a result
 // note: if one error is received, it will stop further processing and return error result
 server_task_result_ptr next(const std::function<bool()> & should_stop);
struct batch_response {
 bool is_terminated = false; // if true, indicates that processing was stopped before all results were received
 std::vector<server_task_result_ptr> results;
 server_task_result_ptr error; // nullptr if no error
 };
 // aggregate multiple results
 batch_response wait_for_all(const std::function<bool()> & should_stop);
void stop();
};