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server.cpp
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server.cpp
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#include "utils.hpp"
#include "arg.h"
#include "common.h"
#include "json-schema-to-grammar.h"
#include "llama.h"
#include "log.h"
#include "sampling.h"
#include "speculative.h"
// Change JSON_ASSERT from assert() to GGML_ASSERT:
#define JSON_ASSERT GGML_ASSERT
#include "json.hpp"
// mime type for sending response
#define MIMETYPE_JSON "application/json; charset=utf-8"
// auto generated files (update with ./deps.sh)
#include "index.html.hpp"
#include "completion.js.hpp"
#include "loading.html.hpp"
#include "deps_daisyui.min.css.hpp"
#include "deps_markdown-it.js.hpp"
#include "deps_tailwindcss.js.hpp"
#include "deps_vue.esm-browser.js.hpp"
#include <atomic>
#include <condition_variable>
#include <cstddef>
#include <cinttypes>
#include <deque>
#include <memory>
#include <mutex>
#include <signal.h>
#include <thread>
#include <unordered_map>
#include <unordered_set>
using json = nlohmann::ordered_json;
enum stop_type {
STOP_TYPE_FULL,
STOP_TYPE_PARTIAL,
};
// state diagram: https://github.com/ggerganov/llama.cpp/pull/9283
enum slot_state {
SLOT_STATE_IDLE,
SLOT_STATE_STARTED, // TODO: this state is only used for setting up the initial prompt processing; maybe merge it with launch_slot_with_task in the future
SLOT_STATE_PROCESSING_PROMPT,
SLOT_STATE_DONE_PROMPT,
SLOT_STATE_GENERATING,
};
enum server_state {
SERVER_STATE_LOADING_MODEL, // Server is starting up, model not fully loaded yet
SERVER_STATE_READY, // Server is ready and model is loaded
};
enum server_task_type {
SERVER_TASK_TYPE_INFERENCE,
SERVER_TASK_TYPE_CANCEL,
SERVER_TASK_TYPE_NEXT_RESPONSE,
SERVER_TASK_TYPE_METRICS,
SERVER_TASK_TYPE_SLOT_SAVE,
SERVER_TASK_TYPE_SLOT_RESTORE,
SERVER_TASK_TYPE_SLOT_ERASE,
SERVER_TASK_TYPE_SET_LORA,
};
enum server_task_inf_type {
SERVER_TASK_INF_TYPE_COMPLETION,
SERVER_TASK_INF_TYPE_EMBEDDING,
SERVER_TASK_INF_TYPE_RERANK,
SERVER_TASK_INF_TYPE_INFILL,
};
struct server_task {
int id = -1; // to be filled by server_queue
int id_target = -1; // used by SERVER_TASK_TYPE_CANCEL
llama_tokens prompt_tokens;
server_task_type type;
json data;
server_task_inf_type inf_type = SERVER_TASK_INF_TYPE_COMPLETION;
// utility function
static std::unordered_set<int> get_list_id(const std::vector<server_task> & tasks) {
std::unordered_set<int> ids(tasks.size());
for (size_t i = 0; i < tasks.size(); i++) {
ids.insert(tasks[i].id);
}
return ids;
}
};
struct server_task_result {
int id = -1;
json data;
bool stop;
bool error;
};
struct server_static_file {
const unsigned char * data;
unsigned int size;
const char * mime_type;
};
struct slot_params {
bool stream = true;
bool cache_prompt = true; // remember the prompt to avoid reprocessing all prompt
int32_t n_keep = 0; // number of tokens to keep from initial prompt
int32_t n_discard = 0; // number of tokens after n_keep that may be discarded when shifting context, 0 defaults to half
int32_t n_predict = -1; // new tokens to predict
int32_t n_indent = 0; // mininum line indentation for the generated text in number of whitespace characters
int64_t t_max_prompt_ms = -1; // TODO: implement
int64_t t_max_predict_ms = -1; // if positive, limit the generation phase to this time limit
std::vector<std::string> antiprompt;
struct common_params_sampling sampling;
struct common_params_speculative speculative;
};
struct server_slot {
int id;
int id_task = -1;
llama_batch batch_spec;
llama_context * ctx_dft = nullptr;
common_speculative * spec = nullptr;
// the index relative to completion multi-task request
size_t index = 0;
struct slot_params params;
slot_state state = SLOT_STATE_IDLE;
// used to determine the slot that has been used the longest
int64_t t_last_used = -1;
// generation props
int32_t n_ctx = 0; // context size per slot
int32_t n_past = 0;
int32_t n_decoded = 0;
int32_t n_remaining = -1;
int32_t i_batch = -1;
int32_t n_predict = -1; // TODO: disambiguate from params.n_predict
// n_prompt_tokens may not be equal to prompt_tokens.size(), because prompt maybe truncated
int32_t n_prompt_tokens = 0;
int32_t n_prompt_tokens_processed = 0;
// input prompt tokens
llama_tokens prompt_tokens;
size_t last_nl_pos = 0;
std::string generated_text;
llama_tokens cache_tokens;
std::vector<completion_token_output> generated_token_probs;
server_task_inf_type inf_type = SERVER_TASK_INF_TYPE_COMPLETION;
bool has_next_token = true;
bool has_new_line = false;
bool truncated = false;
bool stopped_eos = false;
bool stopped_word = false;
bool stopped_limit = false;
bool oaicompat = false;
std::string oaicompat_model;
std::string stopping_word;
// sampling
json json_schema;
struct common_sampler * smpl = nullptr;
llama_token sampled;
// stats
size_t n_sent_text = 0; // number of sent text character
size_t n_sent_token_probs = 0;
int64_t t_start_process_prompt;
int64_t t_start_generation;
double t_prompt_processing; // ms
double t_token_generation; // ms
std::function<void(int)> callback_on_release;
void reset() {
SLT_DBG(*this, "%s", "\n");
n_prompt_tokens = 0;
last_nl_pos = 0;
generated_text = "";
has_new_line = false;
truncated = false;
stopped_eos = false;
stopped_word = false;
stopped_limit = false;
stopping_word = "";
n_past = 0;
n_sent_text = 0;
n_sent_token_probs = 0;
inf_type = SERVER_TASK_INF_TYPE_COMPLETION;
generated_token_probs.clear();
}
bool has_budget(const common_params & global_params) {
if (params.n_predict == -1 && global_params.n_predict == -1) {
return true; // limitless
}
n_remaining = -1;
if (params.n_predict != -1) {
n_remaining = params.n_predict - n_decoded;
} else if (global_params.n_predict != -1) {
n_remaining = global_params.n_predict - n_decoded;
}
return n_remaining > 0; // no budget
}
bool is_processing() const {
return state != SLOT_STATE_IDLE;
}
bool can_speculate() const {
return ctx_dft && params.speculative.n_max > 0 && params.cache_prompt;
}
void add_token(const completion_token_output & token) {
if (!is_processing()) {
SLT_WRN(*this, "%s", "slot is not processing\n");
return;
}
generated_token_probs.push_back(token);
}
void release() {
if (is_processing()) {
SLT_INF(*this, "stop processing: n_past = %d, truncated = %d\n", n_past, truncated);
t_last_used = ggml_time_us();
t_token_generation = (ggml_time_us() - t_start_generation) / 1e3;
state = SLOT_STATE_IDLE;
callback_on_release(id);
}
}
json get_formated_timings() const {
return json {
{"prompt_n", n_prompt_tokens_processed},
{"prompt_ms", t_prompt_processing},
{"prompt_per_token_ms", t_prompt_processing / n_prompt_tokens_processed},
{"prompt_per_second", 1e3 / t_prompt_processing * n_prompt_tokens_processed},
{"predicted_n", n_decoded},
{"predicted_ms", t_token_generation},
{"predicted_per_token_ms", t_token_generation / n_decoded},
{"predicted_per_second", 1e3 / t_token_generation * n_decoded},
};
}
size_t find_stopping_strings(const std::string & text, const size_t last_token_size, const stop_type type) {
size_t stop_pos = std::string::npos;
for (const std::string & word : params.antiprompt) {
size_t pos;
if (type == STOP_TYPE_FULL) {
const size_t tmp = word.size() + last_token_size;
const size_t from_pos = text.size() > tmp ? text.size() - tmp : 0;
pos = text.find(word, from_pos);
} else {
pos = find_partial_stop_string(word, text);
}
if (pos != std::string::npos && (stop_pos == std::string::npos || pos < stop_pos)) {
if (type == STOP_TYPE_FULL) {
stopped_word = true;
stopping_word = word;
has_next_token = false;
}
stop_pos = pos;
}
}
return stop_pos;
}
void print_timings() const {
const double t_prompt = t_prompt_processing / n_prompt_tokens_processed;
const double n_prompt_second = 1e3 / t_prompt_processing * n_prompt_tokens_processed;
const double t_gen = t_token_generation / n_decoded;
const double n_gen_second = 1e3 / t_token_generation * n_decoded;
SLT_INF(*this,
"\n"
"\rprompt eval time = %10.2f ms / %5d tokens (%8.2f ms per token, %8.2f tokens per second)\n"
"\r eval time = %10.2f ms / %5d tokens (%8.2f ms per token, %8.2f tokens per second)\n"
"\r total time = %10.2f ms / %5d tokens\n",
t_prompt_processing, n_prompt_tokens_processed, t_prompt, n_prompt_second,
t_token_generation, n_decoded, t_gen, n_gen_second,
t_prompt_processing + t_token_generation, n_prompt_tokens_processed + n_decoded);
}
};
struct server_metrics {
int64_t t_start = 0;
uint64_t n_prompt_tokens_processed_total = 0;
uint64_t t_prompt_processing_total = 0;
uint64_t n_tokens_predicted_total = 0;
uint64_t t_tokens_generation_total = 0;
uint64_t n_prompt_tokens_processed = 0;
uint64_t t_prompt_processing = 0;
uint64_t n_tokens_predicted = 0;
uint64_t t_tokens_generation = 0;
uint64_t n_decode_total = 0;
uint64_t n_busy_slots_total = 0;
void init() {
t_start = ggml_time_us();
}
void on_prompt_eval(const server_slot & slot) {
n_prompt_tokens_processed_total += slot.n_prompt_tokens_processed;
n_prompt_tokens_processed += slot.n_prompt_tokens_processed;
t_prompt_processing += slot.t_prompt_processing;
t_prompt_processing_total += slot.t_prompt_processing;
}
void on_prediction(const server_slot & slot) {
n_tokens_predicted_total += slot.n_decoded;
n_tokens_predicted += slot.n_decoded;
t_tokens_generation += slot.t_token_generation;
t_tokens_generation_total += slot.t_token_generation;
}
void on_decoded(const std::vector<server_slot> & slots) {
n_decode_total++;
for (const auto & slot : slots) {
if (slot.is_processing()) {
n_busy_slots_total++;
}
}
}
void reset_bucket() {
n_prompt_tokens_processed = 0;
t_prompt_processing = 0;
n_tokens_predicted = 0;
t_tokens_generation = 0;
}
};
struct server_queue {
int id = 0;
bool running;
// 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;
// Add a new task to the end of the queue
int post(server_task task, bool front = false) {
std::unique_lock<std::mutex> lock(mutex_tasks);
if (task.id == -1) {
task.id = id++;
}
QUE_DBG("new task, id = %d, front = %d\n", task.id, front);
if (front) {
queue_tasks.push_front(std::move(task));
} else {
queue_tasks.push_back(std::move(task));
}
condition_tasks.notify_one();
return task.id;
}
// multi-task version of post()
int post(std::vector<server_task> & tasks, bool front = false) {
std::unique_lock<std::mutex> lock(mutex_tasks);
for (auto & task : tasks) {
if (task.id == -1) {
task.id = id++;
}
QUE_DBG("new task, id = %d/%d, front = %d\n", task.id, (int) tasks.size(), front);
if (front) {
queue_tasks.push_front(std::move(task));
} else {
queue_tasks.push_back(std::move(task));
}
}
condition_tasks.notify_one();
return 0;
}
// Add a new task, but defer until one slot is available
void defer(server_task task) {
std::unique_lock<std::mutex> lock(mutex_tasks);
QUE_DBG("defer task, id = %d\n", task.id);
queue_tasks_deferred.push_back(std::move(task));
condition_tasks.notify_one();
}
// Get the next id for creating a new task
int get_new_id() {
std::unique_lock<std::mutex> lock(mutex_tasks);
int new_id = id++;
return new_id;
}
// 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);
}
// Call when the state of one slot is changed, it will move one task from deferred to main queue
void pop_deferred_task() {
std::unique_lock<std::mutex> lock(mutex_tasks);
if (!queue_tasks_deferred.empty()) {
queue_tasks.emplace_back(std::move(queue_tasks_deferred.front()));
queue_tasks_deferred.pop_front();
}
condition_tasks.notify_one();
}
// end the start_loop routine
void terminate() {
std::unique_lock<std::mutex> lock(mutex_tasks);
running = false;
condition_tasks.notify_all();
}
/**
* 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
*/
void start_loop() {
running = true;
while (true) {
QUE_DBG("%s", "processing new tasks\n");
while (true) {
std::unique_lock<std::mutex> lock(mutex_tasks);
if (queue_tasks.empty()) {
lock.unlock();
break;
}
server_task task = queue_tasks.front();
queue_tasks.pop_front();
lock.unlock();
QUE_DBG("processing task, id = %d\n", task.id);
callback_new_task(std::move(task));
}
// all tasks in the current loop is processed, slots data is now ready
QUE_DBG("%s", "update slots\n");
callback_update_slots();
QUE_DBG("%s", "waiting for new tasks\n");
{
std::unique_lock<std::mutex> lock(mutex_tasks);
if (queue_tasks.empty()) {
if (!running) {
QUE_DBG("%s", "terminate\n");
return;
}
condition_tasks.wait(lock, [&]{
return (!queue_tasks.empty() || !running);
});
}
}
}
}
};
struct server_response {
// for keeping track of all tasks waiting for the result
std::unordered_set<int> waiting_task_ids;
// the main result queue
std::vector<server_task_result> queue_results;
std::mutex mutex_results;
std::condition_variable condition_results;
// add the id_task to the list of tasks waiting for response
void add_waiting_task_id(int id_task) {
SRV_DBG("add task %d to waiting list. current waiting = %d (before add)\n", id_task, (int) waiting_task_ids.size());
std::unique_lock<std::mutex> lock(mutex_results);
waiting_task_ids.insert(id_task);
}
void add_waiting_tasks(const std::vector<server_task> & tasks) {
std::unique_lock<std::mutex> lock(mutex_results);
for (const auto & task : tasks) {
SRV_DBG("add task %d to waiting list. current waiting = %d (before add)\n", task.id, (int) waiting_task_ids.size());
waiting_task_ids.insert(task.id);
}
}
// when the request is finished, we can remove task associated with it
void remove_waiting_task_id(int id_task) {
SRV_DBG("remove task %d from waiting list. current waiting = %d (before remove)\n", id_task, (int) waiting_task_ids.size());
std::unique_lock<std::mutex> lock(mutex_results);
waiting_task_ids.erase(id_task);
}
void remove_waiting_task_ids(const std::unordered_set<int> & id_tasks) {
std::unique_lock<std::mutex> lock(mutex_results);
for (const auto & id_task : id_tasks) {
SRV_DBG("remove task %d from waiting list. current waiting = %d (before remove)\n", id_task, (int) waiting_task_ids.size());
waiting_task_ids.erase(id_task);
}
}
// This function blocks the thread until there is a response for one of the id_tasks
server_task_result recv(const std::unordered_set<int> & id_tasks) {
while (true) {
std::unique_lock<std::mutex> lock(mutex_results);
condition_results.wait(lock, [&]{
return !queue_results.empty();
});
for (int i = 0; i < (int) queue_results.size(); i++) {
if (id_tasks.find(queue_results[i].id) != id_tasks.end()) {
server_task_result res = queue_results[i];
queue_results.erase(queue_results.begin() + i);
return res;
}
}
}
// should never reach here
}
// single-task version of recv()
server_task_result recv(int id_task) {
std::unordered_set<int> id_tasks = {id_task};
return recv(id_tasks);
}
// Send a new result to a waiting id_task
void send(server_task_result & result) {
SRV_DBG("sending result for task id = %d\n", result.id);
std::unique_lock<std::mutex> lock(mutex_results);
for (const auto & id_task : waiting_task_ids) {
if (result.id == id_task) {
SRV_DBG("task id = %d moved to result queue\n", result.id);
queue_results.push_back(std::move(result));
condition_results.notify_all();
return;
}
}
}
};
struct server_context {
common_params params_base;
llama_model * model = nullptr;
llama_context * ctx = nullptr;
std::vector<common_lora_adapter_container> loras;
llama_model * model_dft = nullptr;
llama_context_params cparams_dft;
llama_batch batch = {};
bool clean_kv_cache = true;
bool add_bos_token = true;
bool has_eos_token = false;
int32_t n_ctx; // total context for all clients / slots
// slots / clients
std::vector<server_slot> slots;
json default_generation_settings_for_props;
server_queue queue_tasks;
server_response queue_results;
server_metrics metrics;
// Necessary similarity of prompt for slot selection
float slot_prompt_similarity = 0.0f;
~server_context() {
if (ctx) {
llama_free(ctx);
ctx = nullptr;
}
if (model) {
llama_free_model(model);
model = nullptr;
}
if (model_dft) {
llama_free_model(model_dft);
model_dft = nullptr;
}
// Clear any sampling context
for (server_slot & slot : slots) {
common_sampler_free(slot.smpl);
slot.smpl = nullptr;
llama_free(slot.ctx_dft);
slot.ctx_dft = nullptr;
common_speculative_free(slot.spec);
slot.spec = nullptr;
llama_batch_free(slot.batch_spec);
}
llama_batch_free(batch);
}
bool load_model(const common_params & params) {
SRV_INF("loading model '%s'\n", params.model.c_str());
params_base = params;
common_init_result llama_init = common_init_from_params(params_base);
model = llama_init.model;
ctx = llama_init.context;
loras = llama_init.lora_adapters;
if (model == nullptr) {
SRV_ERR("failed to load model, '%s'\n", params_base.model.c_str());
return false;
}
n_ctx = llama_n_ctx(ctx);
add_bos_token = llama_add_bos_token(model);
has_eos_token = !llama_add_eos_token(model);
if (!params_base.speculative.model.empty()) {
SRV_INF("loading draft model '%s'\n", params_base.speculative.model.c_str());
auto params_dft = params_base;
params_dft.devices = params_base.speculative.devices;
params_dft.model = params_base.speculative.model;
params_dft.n_ctx = params_base.speculative.n_ctx;
params_dft.n_gpu_layers = params_base.speculative.n_gpu_layers;
common_init_result llama_init_dft = common_init_from_params(params_dft);
model_dft = llama_init_dft.model;
if (model_dft == nullptr) {
SRV_ERR("failed to load draft model, '%s'\n", params_base.speculative.model.c_str());
return false;
}
if (!common_speculative_are_compatible(ctx, llama_init_dft.context)) {
SRV_ERR("the draft model '%s' is not compatible with the target model '%s'\n", params_base.speculative.model.c_str(), params_base.model.c_str());
llama_free (llama_init_dft.context);
llama_free_model(llama_init_dft.model);
return false;
}
cparams_dft = common_context_params_to_llama(params_base);
cparams_dft.n_batch = llama_n_ctx(llama_init_dft.context);
// the context is not needed - we will create one for each slot
llama_free(llama_init_dft.context);
}
return true;
}
bool validate_model_chat_template() const {
std::vector<char> model_template(2048, 0); // longest known template is about 1200 bytes
std::string template_key = "tokenizer.chat_template";
int32_t res = llama_model_meta_val_str(model, template_key.c_str(), model_template.data(), model_template.size());
if (res >= 0) {
llama_chat_message chat[] = {{"user", "test"}};
std::string tmpl = std::string(model_template.data(), model_template.size());
int32_t chat_res = llama_chat_apply_template(model, tmpl.c_str(), chat, 1, true, nullptr, 0);
return chat_res > 0;
}
return false;
}
void init() {
const int32_t n_ctx_slot = n_ctx / params_base.n_parallel;
SRV_INF("initializing slots, n_slots = %d\n", params_base.n_parallel);
for (int i = 0; i < params_base.n_parallel; i++) {
server_slot slot;
slot.id = i;
slot.n_ctx = n_ctx_slot;
slot.n_predict = params_base.n_predict;
if (model_dft) {
slot.batch_spec = llama_batch_init(params_base.speculative.n_max + 1, 0, 1);
slot.ctx_dft = llama_new_context_with_model(model_dft, cparams_dft);
if (slot.ctx_dft == nullptr) {
SRV_ERR("%s", "failed to create draft context\n");
return;
}
slot.spec = common_speculative_init(slot.ctx_dft);
if (slot.spec == nullptr) {
SRV_ERR("%s", "failed to create speculator\n");
return;
}
}
SLT_INF(slot, "new slot n_ctx_slot = %d\n", slot.n_ctx);
slot.params.sampling = params_base.sampling;
slot.callback_on_release = [this](int) {
queue_tasks.pop_deferred_task();
};
slot.reset();
slots.push_back(slot);
}
default_generation_settings_for_props = get_formated_generation(slots.front());
default_generation_settings_for_props["seed"] = -1;
// the update_slots() logic will always submit a maximum of n_batch or n_parallel tokens
// note that n_batch can be > n_ctx (e.g. for non-causal attention models such as BERT where the KV cache is not used)
{
const int32_t n_batch = llama_n_batch(ctx);
// only a single seq_id per token is needed
batch = llama_batch_init(std::max(n_batch, params_base.n_parallel), 0, 1);
}
metrics.init();
}
server_slot * get_slot_by_id(int id) {
for (server_slot & slot : slots) {
if (slot.id == id) {
return &slot;
}
}
return nullptr;
}
server_slot * get_available_slot(const server_task & task) {
server_slot * ret = nullptr;
// find the slot that has at least n% prompt similarity
if (ret == nullptr && slot_prompt_similarity != 0.0f) {
int lcs_len = 0;
float similarity = 0;
for (server_slot & slot : slots) {
// skip the slot if it is not available
if (slot.is_processing()) {
continue;
}
// skip the slot if it does not contains cached tokens
if (slot.cache_tokens.empty()) {
continue;
}
// length of the Longest Common Subsequence between the current slot's prompt and the input prompt
int cur_lcs_len = common_lcs(slot.cache_tokens, task.prompt_tokens);
// fraction of the common subsequence length compared to the current slot's prompt length
float cur_similarity = static_cast<float>(cur_lcs_len) / static_cast<int>(slot.cache_tokens.size());
// select the current slot if the criteria match
if (cur_lcs_len > lcs_len && cur_similarity > slot_prompt_similarity) {
lcs_len = cur_lcs_len;
similarity = cur_similarity;
ret = &slot;
}
}
if (ret != nullptr) {
SLT_DBG(*ret, "selected slot by lcs similarity, lcs_len = %d, similarity = %f\n", lcs_len, similarity);
}
}
// find the slot that has been least recently used
if (ret == nullptr) {
int64_t t_last = ggml_time_us();
for (server_slot & slot : slots) {
// skip the slot if it is not available
if (slot.is_processing()) {
continue;
}
// select the current slot if the criteria match
if (slot.t_last_used < t_last) {
t_last = slot.t_last_used;
ret = &slot;
}
}
if (ret != nullptr) {
SLT_DBG(*ret, "selected slot by lru, t_last = %" PRId64 "\n", t_last);
}
}
return ret;
}
bool launch_slot_with_task(server_slot & slot, const server_task & task) {
// Sampling parameter defaults are loaded from the global server context (but individual requests can still override them)
slot_params defaults;
defaults.sampling = params_base.sampling;
defaults.speculative = params_base.speculative;
const auto & data = task.data;
if (data.count("__oaicompat") != 0) {
slot.oaicompat = true;
slot.oaicompat_model = json_value(data, "model", std::string(DEFAULT_OAICOMPAT_MODEL));
} else {
slot.oaicompat = false;
slot.oaicompat_model = "";
}
slot.params.stream = json_value(data, "stream", false);
slot.params.cache_prompt = json_value(data, "cache_prompt", true);
slot.params.n_predict = json_value(data, "n_predict", json_value(data, "max_tokens", defaults.n_predict));
slot.params.n_indent = json_value(data, "n_indent", defaults.n_indent);
slot.params.n_keep = json_value(data, "n_keep", defaults.n_keep);
slot.params.n_discard = json_value(data, "n_discard", defaults.n_discard);
//slot.params.t_max_prompt_ms = json_value(data, "t_max_prompt_ms", defaults.t_max_prompt_ms); // TODO: implement
slot.params.t_max_predict_ms = json_value(data, "t_max_predict_ms", defaults.t_max_predict_ms);
slot.params.sampling.top_k = json_value(data, "top_k", defaults.sampling.top_k);
slot.params.sampling.top_p = json_value(data, "top_p", defaults.sampling.top_p);
slot.params.sampling.min_p = json_value(data, "min_p", defaults.sampling.min_p);
slot.params.sampling.xtc_probability = json_value(data, "xtc_probability", defaults.sampling.xtc_probability);
slot.params.sampling.xtc_threshold = json_value(data, "xtc_threshold", defaults.sampling.xtc_threshold);
slot.params.sampling.typ_p = json_value(data, "typical_p", defaults.sampling.typ_p);
slot.params.sampling.temp = json_value(data, "temperature", defaults.sampling.temp);
slot.params.sampling.dynatemp_range = json_value(data, "dynatemp_range", defaults.sampling.dynatemp_range);
slot.params.sampling.dynatemp_exponent = json_value(data, "dynatemp_exponent", defaults.sampling.dynatemp_exponent);
slot.params.sampling.penalty_last_n = json_value(data, "repeat_last_n", defaults.sampling.penalty_last_n);
slot.params.sampling.penalty_repeat = json_value(data, "repeat_penalty", defaults.sampling.penalty_repeat);
slot.params.sampling.penalty_freq = json_value(data, "frequency_penalty", defaults.sampling.penalty_freq);
slot.params.sampling.penalty_present = json_value(data, "presence_penalty", defaults.sampling.penalty_present);
slot.params.sampling.dry_multiplier = json_value(data, "dry_multiplier", defaults.sampling.dry_multiplier);
slot.params.sampling.dry_base = json_value(data, "dry_base", defaults.sampling.dry_base);
slot.params.sampling.dry_allowed_length = json_value(data, "dry_allowed_length", defaults.sampling.dry_allowed_length);
slot.params.sampling.dry_penalty_last_n = json_value(data, "dry_penalty_last_n", defaults.sampling.dry_penalty_last_n);
slot.params.sampling.mirostat = json_value(data, "mirostat", defaults.sampling.mirostat);
slot.params.sampling.mirostat_tau = json_value(data, "mirostat_tau", defaults.sampling.mirostat_tau);
slot.params.sampling.mirostat_eta = json_value(data, "mirostat_eta", defaults.sampling.mirostat_eta);
slot.params.sampling.penalize_nl = json_value(data, "penalize_nl", defaults.sampling.penalize_nl);
slot.params.sampling.seed = json_value(data, "seed", defaults.sampling.seed);
slot.params.sampling.n_probs = json_value(data, "n_probs", defaults.sampling.n_probs);
slot.params.sampling.min_keep = json_value(data, "min_keep", defaults.sampling.min_keep);
slot.params.speculative.n_min = json_value(data, "speculative.n_min", defaults.speculative.n_min);
slot.params.speculative.n_max = json_value(data, "speculative.n_max", defaults.speculative.n_max);
slot.params.speculative.p_min = json_value(data, "speculative.p_min", defaults.speculative.p_min);
slot.params.speculative.n_min = std::min(slot.params.speculative.n_max, slot.params.speculative.n_min);
if (slot.params.sampling.dry_base < 1.0f) {
slot.params.sampling.dry_base = defaults.sampling.dry_base;
}
// sequence breakers for DRY
{
// Currently, this is not compatible with TextGen WebUI, Koboldcpp and SillyTavern format
// Ref: https://github.com/oobabooga/text-generation-webui/blob/d1af7a41ade7bd3c3a463bfa640725edb818ebaf/extensions/openai/typing.py#L39
if (data.contains("dry_sequence_breakers")) {
slot.params.sampling.dry_sequence_breakers = json_value(data, "dry_sequence_breakers", std::vector<std::string>());
if (slot.params.sampling.dry_sequence_breakers.empty()) {
send_error(task, "Error: dry_sequence_breakers must be a non-empty array of strings", ERROR_TYPE_INVALID_REQUEST);
return false;
}
}
}
// process "json_schema" and "grammar"
if (data.contains("json_schema") && !data.at("json_schema").is_null() && data.contains("grammar") && !data.at("grammar").is_null()) {
send_error(task, "Either \"json_schema\" or \"grammar\" can be specified, but not both", ERROR_TYPE_INVALID_REQUEST);
return false;
}
if (data.contains("json_schema") && !data.contains("grammar")) {
try {
auto schema = json_value(data, "json_schema", json::object());
slot.params.sampling.grammar = json_schema_to_grammar(schema);
} catch (const std::exception & e) {
send_error(task, std::string("\"json_schema\": ") + e.what(), ERROR_TYPE_INVALID_REQUEST);
return false;
}
} else {
slot.params.sampling.grammar = json_value(data, "grammar", defaults.sampling.grammar);
}
if (slot.n_predict > 0 && slot.params.n_predict > slot.n_predict) {
// Might be better to reject the request with a 400 ?
slot.params.n_predict = slot.n_predict;
SLT_WRN(slot, "n_predict = %d exceeds server configuration, setting to %d", slot.n_predict, slot.n_predict);
}
{
slot.params.sampling.logit_bias.clear();
if (json_value(data, "ignore_eos", false) && has_eos_token) {
slot.params.sampling.logit_bias.push_back({llama_token_eos(model), -INFINITY});
}
const auto & logit_bias = data.find("logit_bias");
if (logit_bias != data.end() && logit_bias->is_array()) {
const int n_vocab = llama_n_vocab(model);
for (const auto & el : *logit_bias) {
// TODO: we may want to throw errors here, in case "el" is incorrect
if (el.is_array() && el.size() == 2) {
float bias;
if (el[1].is_number()) {
bias = el[1].get<float>();
} else if (el[1].is_boolean() && !el[1].get<bool>()) {
bias = -INFINITY;
} else {
continue;
}
if (el[0].is_number_integer()) {
llama_token tok = el[0].get<llama_token>();
if (tok >= 0 && tok < n_vocab) {
slot.params.sampling.logit_bias.push_back({tok, bias});
}
} else if (el[0].is_string()) {
auto toks = common_tokenize(model, el[0].get<std::string>(), false);
for (auto tok : toks) {
slot.params.sampling.logit_bias.push_back({tok, bias});
}
}
}
}