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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 (see README.md for details)
#include "index.html.gz.hpp"
#include "loading.html.hpp"
#include <atomic>
#include <chrono>
#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;
constexpr int HTTP_POLLING_SECONDS = 1;
enum stop_type {
STOP_TYPE_NONE,
STOP_TYPE_EOS,
STOP_TYPE_WORD,
STOP_TYPE_LIMIT,
};
// 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_COMPLETION,
SERVER_TASK_TYPE_EMBEDDING,
SERVER_TASK_TYPE_RERANK,
SERVER_TASK_TYPE_INFILL,
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 oaicompat_type {
OAICOMPAT_TYPE_NONE,
OAICOMPAT_TYPE_CHAT,
OAICOMPAT_TYPE_COMPLETION,
OAICOMPAT_TYPE_EMBEDDING,
};
// https://community.openai.com/t/openai-chat-list-of-error-codes-and-types/357791/11
enum error_type {
ERROR_TYPE_INVALID_REQUEST,
ERROR_TYPE_AUTHENTICATION,
ERROR_TYPE_SERVER,
ERROR_TYPE_NOT_FOUND,
ERROR_TYPE_PERMISSION,
ERROR_TYPE_UNAVAILABLE, // custom error
ERROR_TYPE_NOT_SUPPORTED, // custom error
};
struct slot_params {
bool stream = true;
bool cache_prompt = true; // remember the prompt to avoid reprocessing all prompt
bool return_tokens = false;
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<common_adapter_lora_info> lora;
std::vector<std::string> antiprompt;
std::vector<std::string> response_fields;
bool timings_per_token = false;
bool post_sampling_probs = false;
bool ignore_eos = false;
struct common_params_sampling sampling;
struct common_params_speculative speculative;
// OAI-compat fields
bool verbose = false;
oaicompat_type oaicompat = OAICOMPAT_TYPE_NONE;
std::string oaicompat_model;
std::string oaicompat_cmpl_id;
common_chat_format oaicompat_chat_format = COMMON_CHAT_FORMAT_CONTENT_ONLY;
json to_json() const {
std::vector<std::string> samplers;
samplers.reserve(sampling.samplers.size());
for (const auto & sampler : sampling.samplers) {
samplers.emplace_back(common_sampler_type_to_str(sampler));
}
json lora = json::array();
for (size_t i = 0; i < this->lora.size(); ++i) {
lora.push_back({{"id", i}, {"scale", this->lora[i].scale}});
}
std::vector<std::string> grammar_trigger_words;
for (const auto & trigger : sampling.grammar_trigger_words) {
grammar_trigger_words.push_back(trigger.word);
}
return json {
{"n_predict", n_predict}, // Server configured n_predict
{"seed", sampling.seed},
{"temperature", sampling.temp},
{"dynatemp_range", sampling.dynatemp_range},
{"dynatemp_exponent", sampling.dynatemp_exponent},
{"top_k", sampling.top_k},
{"top_p", sampling.top_p},
{"min_p", sampling.min_p},
{"xtc_probability", sampling.xtc_probability},
{"xtc_threshold", sampling.xtc_threshold},
{"typical_p", sampling.typ_p},
{"repeat_last_n", sampling.penalty_last_n},
{"repeat_penalty", sampling.penalty_repeat},
{"presence_penalty", sampling.penalty_present},
{"frequency_penalty", sampling.penalty_freq},
{"dry_multiplier", sampling.dry_multiplier},
{"dry_base", sampling.dry_base},
{"dry_allowed_length", sampling.dry_allowed_length},
{"dry_penalty_last_n", sampling.dry_penalty_last_n},
{"dry_sequence_breakers", sampling.dry_sequence_breakers},
{"mirostat", sampling.mirostat},
{"mirostat_tau", sampling.mirostat_tau},
{"mirostat_eta", sampling.mirostat_eta},
{"stop", antiprompt},
{"max_tokens", n_predict}, // User configured n_predict
{"n_keep", n_keep},
{"n_discard", n_discard},
{"ignore_eos", sampling.ignore_eos},
{"stream", stream},
{"logit_bias", format_logit_bias(sampling.logit_bias)},
{"n_probs", sampling.n_probs},
{"min_keep", sampling.min_keep},
{"grammar", sampling.grammar},
{"grammar_trigger_words", grammar_trigger_words},
{"grammar_trigger_tokens", sampling.grammar_trigger_tokens},
{"preserved_tokens", sampling.preserved_tokens},
{"samplers", samplers},
{"speculative.n_max", speculative.n_max},
{"speculative.n_min", speculative.n_min},
{"speculative.p_min", speculative.p_min},
{"timings_per_token", timings_per_token},
{"post_sampling_probs", post_sampling_probs},
{"lora", lora},
};
}
};
struct server_task {
int id = -1; // to be filled by server_queue
int index = -1; // used when there are multiple prompts (batch request)
server_task_type type;
// used by SERVER_TASK_TYPE_CANCEL
int id_target = -1;
// used by SERVER_TASK_TYPE_INFERENCE
slot_params params;
llama_tokens prompt_tokens;
int id_selected_slot = -1;
// used by SERVER_TASK_TYPE_SLOT_SAVE, SERVER_TASK_TYPE_SLOT_RESTORE, SERVER_TASK_TYPE_SLOT_ERASE
struct slot_action {
int slot_id;
std::string filename;
std::string filepath;
};
slot_action slot_action;
// used by SERVER_TASK_TYPE_METRICS
bool metrics_reset_bucket = false;
// used by SERVER_TASK_TYPE_SET_LORA
std::vector<common_adapter_lora_info> set_lora;
server_task(server_task_type type) : type(type) {}
static slot_params params_from_json_cmpl(
const llama_context * ctx,
const common_params & params_base,
const json & data) {
const llama_model * model = llama_get_model(ctx);
const llama_vocab * vocab = llama_model_get_vocab(model);
slot_params params;
// 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;
// enabling this will output extra debug information in the HTTP responses from the server
params.verbose = params_base.verbosity > 9;
params.timings_per_token = json_value(data, "timings_per_token", false);
params.stream = json_value(data, "stream", false);
params.cache_prompt = json_value(data, "cache_prompt", true);
params.return_tokens = json_value(data, "return_tokens", false);
params.n_predict = json_value(data, "n_predict", json_value(data, "max_tokens", defaults.n_predict));
params.n_indent = json_value(data, "n_indent", defaults.n_indent);
params.n_keep = json_value(data, "n_keep", defaults.n_keep);
params.n_discard = json_value(data, "n_discard", defaults.n_discard);
//params.t_max_prompt_ms = json_value(data, "t_max_prompt_ms", defaults.t_max_prompt_ms); // TODO: implement
params.t_max_predict_ms = json_value(data, "t_max_predict_ms", defaults.t_max_predict_ms);
params.response_fields = json_value(data, "response_fields", std::vector<std::string>());
params.sampling.top_k = json_value(data, "top_k", defaults.sampling.top_k);
params.sampling.top_p = json_value(data, "top_p", defaults.sampling.top_p);
params.sampling.min_p = json_value(data, "min_p", defaults.sampling.min_p);
params.sampling.xtc_probability = json_value(data, "xtc_probability", defaults.sampling.xtc_probability);
params.sampling.xtc_threshold = json_value(data, "xtc_threshold", defaults.sampling.xtc_threshold);
params.sampling.typ_p = json_value(data, "typical_p", defaults.sampling.typ_p);
params.sampling.temp = json_value(data, "temperature", defaults.sampling.temp);
params.sampling.dynatemp_range = json_value(data, "dynatemp_range", defaults.sampling.dynatemp_range);
params.sampling.dynatemp_exponent = json_value(data, "dynatemp_exponent", defaults.sampling.dynatemp_exponent);
params.sampling.penalty_last_n = json_value(data, "repeat_last_n", defaults.sampling.penalty_last_n);
params.sampling.penalty_repeat = json_value(data, "repeat_penalty", defaults.sampling.penalty_repeat);
params.sampling.penalty_freq = json_value(data, "frequency_penalty", defaults.sampling.penalty_freq);
params.sampling.penalty_present = json_value(data, "presence_penalty", defaults.sampling.penalty_present);
params.sampling.dry_multiplier = json_value(data, "dry_multiplier", defaults.sampling.dry_multiplier);
params.sampling.dry_base = json_value(data, "dry_base", defaults.sampling.dry_base);
params.sampling.dry_allowed_length = json_value(data, "dry_allowed_length", defaults.sampling.dry_allowed_length);
params.sampling.dry_penalty_last_n = json_value(data, "dry_penalty_last_n", defaults.sampling.dry_penalty_last_n);
params.sampling.mirostat = json_value(data, "mirostat", defaults.sampling.mirostat);
params.sampling.mirostat_tau = json_value(data, "mirostat_tau", defaults.sampling.mirostat_tau);
params.sampling.mirostat_eta = json_value(data, "mirostat_eta", defaults.sampling.mirostat_eta);
params.sampling.seed = json_value(data, "seed", defaults.sampling.seed);
params.sampling.n_probs = json_value(data, "n_probs", defaults.sampling.n_probs);
params.sampling.min_keep = json_value(data, "min_keep", defaults.sampling.min_keep);
params.post_sampling_probs = json_value(data, "post_sampling_probs", defaults.post_sampling_probs);
params.speculative.n_min = json_value(data, "speculative.n_min", defaults.speculative.n_min);
params.speculative.n_max = json_value(data, "speculative.n_max", defaults.speculative.n_max);
params.speculative.p_min = json_value(data, "speculative.p_min", defaults.speculative.p_min);
params.speculative.n_min = std::min(params.speculative.n_max, params.speculative.n_min);
params.speculative.n_min = std::max(params.speculative.n_min, 2);
params.speculative.n_max = std::max(params.speculative.n_max, 0);
// Use OpenAI API logprobs only if n_probs wasn't provided
if (data.contains("logprobs") && params.sampling.n_probs == defaults.sampling.n_probs){
params.sampling.n_probs = json_value(data, "logprobs", defaults.sampling.n_probs);
}
if (data.contains("lora")) {
if (data.at("lora").is_array()) {
params.lora = parse_lora_request(params_base.lora_adapters, data.at("lora"));
} else {
throw std::runtime_error("Error: 'lora' must be an array of objects with 'id' and 'scale' fields");
}
} else {
params.lora = params_base.lora_adapters;
}
// TODO: add more sanity checks for the input parameters
if (params.sampling.penalty_last_n < -1) {
throw std::runtime_error("Error: repeat_last_n must be >= -1");
}
if (params.sampling.dry_penalty_last_n < -1) {
throw std::runtime_error("Error: dry_penalty_last_n must be >= -1");
}
if (params.sampling.penalty_last_n == -1) {
// note: should be the slot's context and not the full context, but it's ok
params.sampling.penalty_last_n = llama_n_ctx(ctx);
}
if (params.sampling.dry_penalty_last_n == -1) {
params.sampling.dry_penalty_last_n = llama_n_ctx(ctx);
}
if (params.sampling.dry_base < 1.0f) {
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")) {
params.sampling.dry_sequence_breakers = json_value(data, "dry_sequence_breakers", std::vector<std::string>());
if (params.sampling.dry_sequence_breakers.empty()) {
throw std::runtime_error("Error: dry_sequence_breakers must be a non-empty array of strings");
}
}
}
// process "json_schema" and "grammar"
if (data.contains("json_schema") && !data.at("json_schema").is_null() && data.contains("grammar") && !data.at("grammar").is_null()) {
throw std::runtime_error("Either \"json_schema\" or \"grammar\" can be specified, but not both");
}
if (data.contains("json_schema") && !data.contains("grammar")) {
try {
auto schema = json_value(data, "json_schema", json::object());
SRV_DBG("JSON schema: %s\n", schema.dump(2).c_str());
params.sampling.grammar = json_schema_to_grammar(schema);
SRV_DBG("Converted grammar: %s\n", params.sampling.grammar.c_str());
} catch (const std::exception & e) {
throw std::runtime_error(std::string("\"json_schema\": ") + e.what());
}
} else {
params.sampling.grammar = json_value(data, "grammar", defaults.sampling.grammar);
SRV_DBG("Grammar: %s\n", params.sampling.grammar.c_str());
params.sampling.grammar_lazy = json_value(data, "grammar_lazy", defaults.sampling.grammar_lazy);
SRV_DBG("Grammar lazy: %s\n", params.sampling.grammar_lazy ? "true" : "false");
}
{
auto it = data.find("chat_format");
if (it != data.end()) {
params.oaicompat_chat_format = static_cast<common_chat_format>(it->get<int>());
SRV_INF("Chat format: %s\n", common_chat_format_name(params.oaicompat_chat_format).c_str());
} else {
params.oaicompat_chat_format = defaults.oaicompat_chat_format;
}
}
{
const auto grammar_triggers = data.find("grammar_triggers");
if (grammar_triggers != data.end()) {
for (const auto & t : *grammar_triggers) {
common_grammar_trigger trigger;
trigger.word = t.at("word");
trigger.at_start = t.at("at_start");
auto ids = common_tokenize(vocab, trigger.word, /* add_special= */ false, /* parse_special= */ true);
if (ids.size() == 1) {
SRV_DBG("Grammar trigger token: %d (`%s`)\n", ids[0], trigger.word.c_str());
params.sampling.grammar_trigger_tokens.push_back(ids[0]);
params.sampling.preserved_tokens.insert(ids[0]);
continue;
}
SRV_DBG("Grammar trigger word: `%s`\n", trigger.word.c_str());
params.sampling.grammar_trigger_words.push_back(trigger);
}
}
const auto preserved_tokens = data.find("preserved_tokens");
if (preserved_tokens != data.end()) {
for (const auto & t : *preserved_tokens) {
auto ids = common_tokenize(vocab, t.get<std::string>(), /* add_special= */ false, /* parse_special= */ true);
if (ids.size() == 1) {
SRV_DBG("Preserved token: %d\n", ids[0]);
params.sampling.preserved_tokens.insert(ids[0]);
} else {
// This may happen when using a tool call style meant for a model with special tokens to preserve on a model without said tokens.
SRV_WRN("Not preserved because more than 1 token (wrong chat template override?): %s\n", t.get<std::string>().c_str());
}
}
}
if (params.sampling.grammar_lazy) {
GGML_ASSERT(params.sampling.grammar_trigger_tokens.size() > 0 || params.sampling.grammar_trigger_words.size() > 0);
}
}
{
params.sampling.logit_bias.clear();
params.ignore_eos = json_value(data, "ignore_eos", false);
const auto & logit_bias = data.find("logit_bias");
if (logit_bias != data.end() && logit_bias->is_array()) {
const int n_vocab = llama_vocab_n_tokens(vocab);
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) {
params.sampling.logit_bias.push_back({tok, bias});
}
} else if (el[0].is_string()) {
auto toks = common_tokenize(vocab, el[0].get<std::string>(), false);
for (auto tok : toks) {
params.sampling.logit_bias.push_back({tok, bias});
}
}
}
}
}
}
{
params.antiprompt.clear();
const auto & stop = data.find("stop");
if (stop != data.end() && stop->is_array()) {
for (const auto & word : *stop) {
if (!word.empty()) {
params.antiprompt.push_back(word);
}
}
}
}
{
const auto samplers = data.find("samplers");
if (samplers != data.end()) {
if (samplers->is_array()) {
params.sampling.samplers = common_sampler_types_from_names(*samplers, false);
} else if (samplers->is_string()){
params.sampling.samplers = common_sampler_types_from_chars(samplers->get<std::string>());
}
} else {
params.sampling.samplers = defaults.sampling.samplers;
}
}
std::string model_name = params_base.model_alias.empty() ? DEFAULT_OAICOMPAT_MODEL : params_base.model_alias;
params.oaicompat_model = json_value(data, "model", model_name);
return params;
}
// 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 result_timings {
int32_t prompt_n = -1;
double prompt_ms;
double prompt_per_token_ms;
double prompt_per_second;
int32_t predicted_n = -1;
double predicted_ms;
double predicted_per_token_ms;
double predicted_per_second;
json to_json() const {
return {
{"prompt_n", prompt_n},
{"prompt_ms", prompt_ms},
{"prompt_per_token_ms", prompt_per_token_ms},
{"prompt_per_second", prompt_per_second},
{"predicted_n", predicted_n},
{"predicted_ms", predicted_ms},
{"predicted_per_token_ms", predicted_per_token_ms},
{"predicted_per_second", predicted_per_second},
};
}
};
struct server_task_result {
int id = -1;
int id_slot = -1;
virtual bool is_error() {
// only used by server_task_result_error
return false;
}
virtual bool is_stop() {
// only used by server_task_result_cmpl_*
return false;
}
virtual int get_index() {
return -1;
}
virtual json to_json() = 0;
virtual ~server_task_result() = default;
};
// using shared_ptr for polymorphism of server_task_result
using server_task_result_ptr = std::unique_ptr<server_task_result>;
inline std::string stop_type_to_str(stop_type type) {
switch (type) {
case STOP_TYPE_EOS: return "eos";
case STOP_TYPE_WORD: return "word";
case STOP_TYPE_LIMIT: return "limit";
default: return "none";
}
}
struct completion_token_output {
llama_token tok;
float prob;
std::string text_to_send;
struct prob_info {
llama_token tok;
std::string txt;
float prob;
};
std::vector<prob_info> probs;
json to_json(bool post_sampling_probs) const {
json probs_for_token = json::array();
for (const auto & p : probs) {
std::string txt(p.txt);
txt.resize(validate_utf8(txt));
probs_for_token.push_back(json {
{"id", p.tok},
{"token", txt},
{"bytes", str_to_bytes(p.txt)},
{
post_sampling_probs ? "prob" : "logprob",
post_sampling_probs ? p.prob : logarithm(p.prob)
},
});
}
return probs_for_token;
}
static json probs_vector_to_json(const std::vector<completion_token_output> & probs, bool post_sampling_probs) {
json out = json::array();
for (const auto & p : probs) {
std::string txt(p.text_to_send);
txt.resize(validate_utf8(txt));
out.push_back(json {
{"id", p.tok},
{"token", txt},
{"bytes", str_to_bytes(p.text_to_send)},
{
post_sampling_probs ? "prob" : "logprob",
post_sampling_probs ? p.prob : logarithm(p.prob)
},
{
post_sampling_probs ? "top_probs" : "top_logprobs",
p.to_json(post_sampling_probs)
},
});
}
return out;
}
static float logarithm(float x) {
// nlohmann::json converts -inf to null, so we need to prevent that
return x == 0.0f ? std::numeric_limits<float>::lowest() : std::log(x);
}
static std::vector<unsigned char> str_to_bytes(const std::string & str) {
std::vector<unsigned char> bytes;
for (unsigned char c : str) {
bytes.push_back(c);
}
return bytes;
}
};
struct server_task_result_cmpl_final : server_task_result {
int index = 0;
std::string content;
llama_tokens tokens;
bool stream;
result_timings timings;
std::string prompt;
bool truncated;
int32_t n_decoded;
int32_t n_prompt_tokens;
int32_t n_tokens_cached;
bool has_new_line;
std::string stopping_word;
stop_type stop = STOP_TYPE_NONE;
bool post_sampling_probs;
std::vector<completion_token_output> probs_output;
std::vector<std::string> response_fields;
slot_params generation_params;
// OAI-compat fields
bool verbose = false;
oaicompat_type oaicompat = OAICOMPAT_TYPE_NONE;
std::string oaicompat_model;
std::string oaicompat_cmpl_id;
common_chat_format oaicompat_chat_format = COMMON_CHAT_FORMAT_CONTENT_ONLY;
virtual int get_index() override {
return index;
}
virtual bool is_stop() override {
return true; // in stream mode, final responses are considered stop
}
virtual json to_json() override {
switch (oaicompat) {
case OAICOMPAT_TYPE_NONE:
return to_json_non_oaicompat();
case OAICOMPAT_TYPE_COMPLETION:
return to_json_oaicompat();
case OAICOMPAT_TYPE_CHAT:
return stream ? to_json_oaicompat_chat_stream() : to_json_oaicompat_chat();
default:
GGML_ASSERT(false && "Invalid oaicompat_type");
}
}
json to_json_non_oaicompat() {
json res = json {
{"index", index},
{"content", stream ? "" : content}, // in stream mode, content is already in last partial chunk
{"tokens", stream ? llama_tokens {} : tokens},
{"id_slot", id_slot},
{"stop", true},
{"model", oaicompat_model},
{"tokens_predicted", n_decoded},
{"tokens_evaluated", n_prompt_tokens},
{"generation_settings", generation_params.to_json()},
{"prompt", prompt},
{"has_new_line", has_new_line},
{"truncated", truncated},
{"stop_type", stop_type_to_str(stop)},
{"stopping_word", stopping_word},
{"tokens_cached", n_tokens_cached},
{"timings", timings.to_json()},
};
if (!stream && !probs_output.empty()) {
res["completion_probabilities"] = completion_token_output::probs_vector_to_json(probs_output, post_sampling_probs);
}
return response_fields.empty() ? res : json_get_nested_values(response_fields, res);
}
json to_json_oaicompat() {
std::time_t t = std::time(0);
json logprobs = json(nullptr); // OAI default to null
if (!stream && probs_output.size() > 0) {
logprobs = json{
{"content", completion_token_output::probs_vector_to_json(probs_output, post_sampling_probs)},
};
}
json finish_reason = "length";
if (stop == STOP_TYPE_WORD || stop == STOP_TYPE_EOS) {
finish_reason = "stop";
}
json res = json {
{"choices", json::array({
json{
{"text", stream ? "" : content}, // in stream mode, content is already in last partial chunk
{"index", index},
{"logprobs", logprobs},
{"finish_reason", finish_reason},
}
})},
{"created", t},
{"model", oaicompat_model},
{"system_fingerprint", build_info},
{"object", "text_completion"},
{"usage", json {
{"completion_tokens", n_decoded},
{"prompt_tokens", n_prompt_tokens},
{"total_tokens", n_decoded + n_prompt_tokens}
}},
{"id", oaicompat_cmpl_id}
};
// extra fields for debugging purposes
if (verbose) {
res["__verbose"] = to_json_non_oaicompat();
}
if (timings.prompt_n >= 0) {
res.push_back({"timings", timings.to_json()});
}
return res;
}
json to_json_oaicompat_chat() {
std::string finish_reason = "length";
common_chat_msg msg;
if (stop == STOP_TYPE_WORD || stop == STOP_TYPE_EOS) {
SRV_DBG("Parsing chat message: %s\n", content.c_str());
msg = common_chat_parse(content, oaicompat_chat_format);
finish_reason = msg.tool_calls.empty() ? "stop" : "tool_calls";
} else {
msg.content = content;
}
json tool_calls;
if (!msg.tool_calls.empty()) {
tool_calls = json::array();
for (const auto & tc : msg.tool_calls) {
tool_calls.push_back({
{"type", "function"},
{"function", {
{"name", tc.name},
{"arguments", tc.arguments},
}},
{"id", tc.id},
});
}
}
json message {
{"content", msg.content},
{"tool_calls", tool_calls},
{"role", "assistant"},
};
if (!msg.tool_plan.empty()) {
message["tool_plan"] = msg.tool_plan;
}
json choice {
{"finish_reason", finish_reason},
{"index", 0},
{"message", message},
};
if (!stream && probs_output.size() > 0) {
choice["logprobs"] = json{
{"content", completion_token_output::probs_vector_to_json(probs_output, post_sampling_probs)},
};
}
std::time_t t = std::time(0);
json res = json {
{"choices", json::array({choice})},
{"created", t},
{"model", oaicompat_model},
{"system_fingerprint", build_info},
{"object", "chat.completion"},
{"usage", json {
{"completion_tokens", n_decoded},
{"prompt_tokens", n_prompt_tokens},
{"total_tokens", n_decoded + n_prompt_tokens}
}},
{"id", oaicompat_cmpl_id}
};
// extra fields for debugging purposes
if (verbose) {
res["__verbose"] = to_json_non_oaicompat();
}
if (timings.prompt_n >= 0) {
res.push_back({"timings", timings.to_json()});
}
return res;
}
json to_json_oaicompat_chat_stream() {
std::time_t t = std::time(0);
std::string finish_reason = "length";
if (stop == STOP_TYPE_WORD || stop == STOP_TYPE_EOS) {
finish_reason = "stop";
}
json choice = json {
{"finish_reason", finish_reason},
{"index", 0},
{"delta", json::object()}
};
json ret = json {
{"choices", json::array({choice})},
{"created", t},
{"id", oaicompat_cmpl_id},
{"model", oaicompat_model},
{"system_fingerprint", build_info},
{"object", "chat.completion.chunk"},
{"usage", json {
{"completion_tokens", n_decoded},
{"prompt_tokens", n_prompt_tokens},
{"total_tokens", n_decoded + n_prompt_tokens},
}},
};
if (timings.prompt_n >= 0) {
ret.push_back({"timings", timings.to_json()});
}
return ret;
}
};
struct server_task_result_cmpl_partial : server_task_result {
int index = 0;
std::string content;
llama_tokens tokens;
int32_t n_decoded;
int32_t n_prompt_tokens;
bool post_sampling_probs;
completion_token_output prob_output;
result_timings timings;
// OAI-compat fields
bool verbose = false;
oaicompat_type oaicompat = OAICOMPAT_TYPE_NONE;
std::string oaicompat_model;
std::string oaicompat_cmpl_id;
virtual int get_index() override {
return index;
}
virtual bool is_stop() override {
return false; // in stream mode, partial responses are not considered stop
}
virtual json to_json() override {
switch (oaicompat) {
case OAICOMPAT_TYPE_NONE:
return to_json_non_oaicompat();
case OAICOMPAT_TYPE_COMPLETION:
return to_json_oaicompat();
case OAICOMPAT_TYPE_CHAT:
return to_json_oaicompat_chat();
default:
GGML_ASSERT(false && "Invalid oaicompat_type");
}
}
json to_json_non_oaicompat() {
// non-OAI-compat JSON
json res = json {
{"index", index},
{"content", content},
{"tokens", tokens},
{"stop", false},
{"id_slot", id_slot},
{"tokens_predicted", n_decoded},
{"tokens_evaluated", n_prompt_tokens},
};
// populate the timings object when needed (usually for the last response or with timings_per_token enabled)
if (timings.prompt_n > 0) {
res.push_back({"timings", timings.to_json()});
}
if (!prob_output.probs.empty()) {
res["completion_probabilities"] = completion_token_output::probs_vector_to_json({prob_output}, post_sampling_probs);
}
return res;
}
json to_json_oaicompat() {
std::time_t t = std::time(0);
json logprobs = json(nullptr); // OAI default to null
if (prob_output.probs.size() > 0) {
logprobs = json{
{"content", completion_token_output::probs_vector_to_json({prob_output}, post_sampling_probs)},
};
}
json res = json {
{"choices", json::array({
json{
{"text", content},
{"index", index},
{"logprobs", logprobs},
{"finish_reason", nullptr},
}
})},
{"created", t},
{"model", oaicompat_model},
{"system_fingerprint", build_info},
{"object", "text_completion"},
{"id", oaicompat_cmpl_id}
};
// extra fields for debugging purposes
if (verbose) {
res["__verbose"] = to_json_non_oaicompat();
}
if (timings.prompt_n >= 0) {
res.push_back({"timings", timings.to_json()});
}
return res;
}
json to_json_oaicompat_chat() {
bool first = n_decoded == 0;
std::time_t t = std::time(0);
json choices;
if (first) {
if (content.empty()) {
choices = json::array({json{{"finish_reason", nullptr},
{"index", 0},
{"delta", json{{"role", "assistant"}}}}});
} else {
// We have to send this as two updates to conform to openai behavior
json initial_ret = json{{"choices", json::array({json{
{"finish_reason", nullptr},
{"index", 0},
{"delta", json{
{"role", "assistant"}
}}}})},
{"created", t},
{"id", oaicompat_cmpl_id},
{"model", oaicompat_model},
{"object", "chat.completion.chunk"}};
json second_ret = json{
{"choices", json::array({json{{"finish_reason", nullptr},
{"index", 0},
{"delta", json {
{"content", content}}}
}})},
{"created", t},
{"id", oaicompat_cmpl_id},
{"model", oaicompat_model},
{"object", "chat.completion.chunk"}};
return std::vector<json>({initial_ret, second_ret});
}
} else {
choices = json::array({json{
{"finish_reason", nullptr},
{"index", 0},
{"delta",
json {
{"content", content},
}},
}});
}
GGML_ASSERT(choices.size() >= 1);
if (prob_output.probs.size() > 0) {
choices[0]["logprobs"] = json{
{"content", completion_token_output::probs_vector_to_json({prob_output}, post_sampling_probs)},
};
}
json ret = json {
{"choices", choices},
{"created", t},
{"id", oaicompat_cmpl_id},
{"model", oaicompat_model},
{"system_fingerprint", build_info},
{"object", "chat.completion.chunk"}
};
if (timings.prompt_n >= 0) {
ret.push_back({"timings", timings.to_json()});
}
return std::vector<json>({ret});
}
};
struct server_task_result_embd : server_task_result {
int index = 0;
std::vector<std::vector<float>> embedding;
int32_t n_tokens;
// OAI-compat fields
oaicompat_type oaicompat = OAICOMPAT_TYPE_NONE;
virtual int get_index() override {
return index;
}
virtual json to_json() override {
return oaicompat == OAICOMPAT_TYPE_EMBEDDING
? to_json_oaicompat()
: to_json_non_oaicompat();
}
json to_json_non_oaicompat() {
return json {
{"index", index},
{"embedding", embedding},
};
}
json to_json_oaicompat() {
return json {
{"index", index},
{"embedding", embedding[0]},
{"tokens_evaluated", n_tokens},
};
}
};
struct server_task_result_rerank : server_task_result {
int index = 0;
float score = -1e6;
int32_t n_tokens;
virtual int get_index() override {
return index;
}
virtual json to_json() override {
return json {
{"index", index},
{"score", score},
{"tokens_evaluated", n_tokens},
};
}
};
// this function maybe used outside of server_task_result_error
static json format_error_response(const std::string & message, const enum error_type type) {
std::string type_str;
int code = 500;
switch (type) {
case ERROR_TYPE_INVALID_REQUEST:
type_str = "invalid_request_error";
code = 400;
break;
case ERROR_TYPE_AUTHENTICATION:
type_str = "authentication_error";
code = 401;
break;
case ERROR_TYPE_NOT_FOUND:
type_str = "not_found_error";
code = 404;
break;
case ERROR_TYPE_SERVER:
type_str = "server_error";
code = 500;
break;
case ERROR_TYPE_PERMISSION:
type_str = "permission_error";
code = 403;
break;
case ERROR_TYPE_NOT_SUPPORTED:
type_str = "not_supported_error";
code = 501;
break;
case ERROR_TYPE_UNAVAILABLE:
type_str = "unavailable_error";
code = 503;
break;
}
return json {
{"code", code},
{"message", message},
{"type", type_str},
};
}
struct server_task_result_error : server_task_result {
int index = 0;
error_type err_type = ERROR_TYPE_SERVER;
std::string err_msg;
virtual bool is_error() override {
return true;
}
virtual json to_json() override {
return format_error_response(err_msg, err_type);
}
};
struct server_task_result_metrics : server_task_result {
int n_idle_slots;
int n_processing_slots;
int n_tasks_deferred;
int64_t t_start;
int32_t kv_cache_tokens_count;
int32_t kv_cache_used_cells;
// TODO: somehow reuse server_metrics in the future, instead of duplicating the fields
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;
// while we can also use std::vector<server_slot> this requires copying the slot object which can be quite messy
// therefore, we use json to temporarily store the slot.to_json() result
json slots_data = json::array();
virtual json to_json() override {
return json {
{ "idle", n_idle_slots },
{ "processing", n_processing_slots },
{ "deferred", n_tasks_deferred },
{ "t_start", t_start },
{ "n_prompt_tokens_processed_total", n_prompt_tokens_processed_total },
{ "t_tokens_generation_total", t_tokens_generation_total },
{ "n_tokens_predicted_total", n_tokens_predicted_total },
{ "t_prompt_processing_total", t_prompt_processing_total },
{ "n_prompt_tokens_processed", n_prompt_tokens_processed },
{ "t_prompt_processing", t_prompt_processing },
{ "n_tokens_predicted", n_tokens_predicted },
{ "t_tokens_generation", t_tokens_generation },
{ "n_decode_total", n_decode_total },
{ "n_busy_slots_total", n_busy_slots_total },
{ "kv_cache_tokens_count", kv_cache_tokens_count },
{ "kv_cache_used_cells", kv_cache_used_cells },
{ "slots", slots_data },
};
}
};
struct server_task_result_slot_save_load : server_task_result {
std::string filename;
bool is_save; // true = save, false = load
size_t n_tokens;
size_t n_bytes;
double t_ms;
virtual json to_json() override {
if (is_save) {
return json {
{ "id_slot", id_slot },
{ "filename", filename },
{ "n_saved", n_tokens },
{ "n_written", n_bytes },
{ "timings", {
{ "save_ms", t_ms }
}},
};
} else {
return json {
{ "id_slot", id_slot },
{ "filename", filename },
{ "n_restored", n_tokens },
{ "n_read", n_bytes },
{ "timings", {
{ "restore_ms", t_ms }
}},
};
}
}
};
struct server_task_result_slot_erase : server_task_result {
size_t n_erased;
virtual json to_json() override {
return json {
{ "id_slot", id_slot },
{ "n_erased", n_erased },
};
}
};
struct server_task_result_apply_lora : server_task_result {
virtual json to_json() override {
return json {{ "success", true }};
}
};
struct server_slot {
int id;
int id_task = -1;
// only used for completion/embedding/infill/rerank
server_task_type task_type = SERVER_TASK_TYPE_COMPLETION;
llama_batch batch_spec = {};
llama_context * ctx = nullptr;
llama_context * ctx_dft = nullptr;
common_speculative * spec = nullptr;
std::vector<common_adapter_lora_info> lora;
// 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 generated_tokens;
llama_tokens cache_tokens;
std::vector<completion_token_output> generated_token_probs;
bool has_next_token = true;
bool has_new_line = false;
bool truncated = false;
stop_type stop;
std::string stopping_word;
// sampling
json json_schema;
struct common_sampler * smpl = nullptr;
llama_token sampled;
common_chat_format chat_format = COMMON_CHAT_FORMAT_CONTENT_ONLY;
// stats
size_t n_sent_text = 0; // number of sent text character
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;
stop = STOP_TYPE_NONE;
stopping_word = "";
n_past = 0;
n_sent_text = 0;
task_type = SERVER_TASK_TYPE_COMPLETION;
generated_tokens.clear();
generated_token_probs.clear();
}
bool is_non_causal() const {
return task_type == SERVER_TASK_TYPE_EMBEDDING || task_type == SERVER_TASK_TYPE_RERANK;
}
bool can_batch_with(server_slot & other_slot) {
return is_non_causal() == other_slot.is_non_causal()
&& are_lora_equal(lora, other_slot.lora);
}
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);
}
}
result_timings get_timings() const {
result_timings timings;
timings.prompt_n = n_prompt_tokens_processed;
timings.prompt_ms = t_prompt_processing;
timings.prompt_per_token_ms = t_prompt_processing / n_prompt_tokens_processed;
timings.prompt_per_second = 1e3 / t_prompt_processing * n_prompt_tokens_processed;
timings.predicted_n = n_decoded;
timings.predicted_ms = t_token_generation;
timings.predicted_per_token_ms = t_token_generation / n_decoded;
timings.predicted_per_second = 1e3 / t_token_generation * n_decoded;
return timings;
}
size_t find_stopping_strings(const std::string & text, const size_t last_token_size, bool is_full_stop) {
size_t stop_pos = std::string::npos;
for (const std::string & word : params.antiprompt) {
size_t pos;
if (is_full_stop) {
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 {
// otherwise, partial stop
pos = find_partial_stop_string(word, text);
}
if (pos != std::string::npos && (stop_pos == std::string::npos || pos < stop_pos)) {
if (is_full_stop) {
stop = STOP_TYPE_WORD;
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"
"prompt eval time = %10.2f ms / %5d tokens (%8.2f ms per token, %8.2f tokens per second)\n"
" eval time = %10.2f ms / %5d tokens (%8.2f ms per token, %8.2f tokens per second)\n"
" 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);
}
json to_json() const {
return json {
{"id", id},
{"id_task", id_task},
{"n_ctx", n_ctx},
{"speculative", can_speculate()},
{"is_processing", is_processing()},
{"non_causal", is_non_causal()},
{"params", params.to_json()},
{"prompt", common_detokenize(ctx, prompt_tokens)},
{"next_token",
{
{"has_next_token", has_next_token},
{"has_new_line", has_new_line},
{"n_remain", n_remaining},
{"n_decoded", n_decoded},
{"stopping_word", stopping_word},
}
},
};
}
};
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);
GGML_ASSERT(task.id != -1);
// if this is cancel task make sure to clean up pending tasks
if (task.type == SERVER_TASK_TYPE_CANCEL) {
cleanup_pending_task(task.id_target);
}
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++;
}
// if this is cancel task make sure to clean up pending tasks
if (task.type == SERVER_TASK_TYPE_CANCEL) {
cleanup_pending_task(task.id_target);
}
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 (!running) {
QUE_DBG("%s", "terminate\n");
return;
}
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 (!running) {
QUE_DBG("%s", "terminate\n");
return;
}
if (queue_tasks.empty()) {
condition_tasks.wait(lock, [&]{
return (!queue_tasks.empty() || !running);
});
}
}
}
}
private:
void cleanup_pending_task(int id_target) {
// no need lock because this is called exclusively by post()
auto rm_func = [id_target](const server_task & task) {
return task.id_target == id_target;
};
queue_tasks.erase(
std::remove_if(queue_tasks.begin(), queue_tasks.end(), rm_func),
queue_tasks.end());
queue_tasks_deferred.erase(
std::remove_if(queue_tasks_deferred.begin(), queue_tasks_deferred.end(), rm_func),
queue_tasks_deferred.end());
}
};
struct server_response {
// 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;
// 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);
// make sure to clean up all pending results
queue_results.erase(
std::remove_if(queue_results.begin(), queue_results.end(), [id_task](const server_task_result_ptr & res) {
return res->id == id_task;
}),
queue_results.end());
}
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_ptr 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 (size_t i = 0; i < queue_results.size(); i++) {
if (id_tasks.find(queue_results[i]->id) != id_tasks.end()) {
server_task_result_ptr res = std::move(queue_results[i]);
queue_results.erase(queue_results.begin() + i);
return res;
}
}
}
// should never reach here
}
// 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) {
while (true) {
std::unique_lock<std::mutex> lock(mutex_results);
for (int i = 0; i < (int) queue_results.size(); i++) {
if (id_tasks.find(queue_results[i]->id) != id_tasks.end()) {
server_task_result_ptr res = std::move(queue_results[i]);
queue_results.erase(queue_results.begin() + i);
return res;
}
}
std::cv_status cr_res = condition_results.wait_for(lock, std::chrono::seconds(timeout));
if (cr_res == std::cv_status::timeout) {
return nullptr;
}
}
// should never reach here
}
// single-task version of recv()
server_task_result_ptr 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_ptr && 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 pushed to result queue\n", result->id);
queue_results.emplace_back(std::move(result));
condition_results.notify_all();
return;
}
}
}
};
struct server_context {
common_params params_base;
// note: keep these alive - they determine the lifetime of the model, context, etc.
common_init_result llama_init;
common_init_result llama_init_dft;
llama_model * model = nullptr;
llama_context * ctx = nullptr;
const llama_vocab * vocab = nullptr;
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;
common_chat_templates chat_templates;
~server_context() {
// 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;
llama_init = common_init_from_params(params_base);
model = llama_init.model.get();
ctx = llama_init.context.get();
if (model == nullptr) {
SRV_ERR("failed to load model, '%s'\n", params_base.model.c_str());
return false;
}
vocab = llama_model_get_vocab(model);
n_ctx = llama_n_ctx(ctx);
add_bos_token = llama_vocab_get_add_bos(vocab);
has_eos_token = llama_vocab_eos(vocab) != LLAMA_TOKEN_NULL;
if (!params_base.speculative.model.empty() || !params_base.speculative.hf_repo.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.hf_file = params_base.speculative.hf_file;
params_dft.hf_repo = params_base.speculative.hf_repo;
params_dft.model = params_base.speculative.model;
params_dft.model_url = params_base.speculative.model_url;
params_dft.n_ctx = params_base.speculative.n_ctx == 0 ? params_base.n_ctx / params_base.n_parallel : params_base.speculative.n_ctx;
params_dft.n_gpu_layers = params_base.speculative.n_gpu_layers;
params_dft.n_parallel = 1;
llama_init_dft = common_init_from_params(params_dft);
model_dft = llama_init_dft.model.get();
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.get())) {
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());
return false;
}
const int n_ctx_dft = llama_n_ctx(llama_init_dft.context.get());
cparams_dft = common_context_params_to_llama(params_dft);
cparams_dft.n_batch = n_ctx_dft;
// force F16 KV cache for the draft model for extra performance
cparams_dft.type_k = GGML_TYPE_F16;
cparams_dft.type_v = GGML_TYPE_F16;
// the context is not needed - we will create one for each slot
llama_init_dft.context.reset();
}
if (params_base.chat_template.empty() && !validate_builtin_chat_template(params.use_jinja)) {
SRV_WRN("%s: The chat template that comes with this model is not yet supported, falling back to chatml. This may cause the model to output suboptimal responses\n", __func__);
chat_templates = common_chat_templates_from_model(model, "chatml");
} else {
chat_templates = common_chat_templates_from_model(model, params_base.chat_template);
}
GGML_ASSERT(chat_templates.template_default.get() != nullptr);
return true;
}
bool validate_builtin_chat_template(bool use_jinja) const {
llama_chat_message chat[] = {{"user", "test"}};
if (use_jinja) {
auto templates = common_chat_templates_from_model(model, "");
common_chat_inputs inputs;
inputs.messages = json::array({{
{"role", "user"},
{"content", "test"},
}});
GGML_ASSERT(templates.template_default);
try {
common_chat_params_init(*templates.template_default, inputs);
if (templates.template_tool_use) {
common_chat_params_init(*templates.template_tool_use, inputs);
}
return true;
} catch (const std::exception & e) {
SRV_ERR("failed to apply template: %s\n", e.what());
return false;
}
} else {
const char * tmpl = llama_model_chat_template(model, /* name */ nullptr);
const int32_t chat_res = llama_chat_apply_template(tmpl, chat, 1, true, nullptr, 0);
return chat_res > 0;
}
}
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.ctx = ctx;
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_init_from_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 = slots[0].to_json();
// 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) {
slot.reset();
slot.id_task = task.id;
slot.index = task.index;
slot.task_type = task.type;
slot.params = std::move(task.params);
slot.prompt_tokens = std::move(task.prompt_tokens);
if (!are_lora_equal(task.params.lora, slot.lora)) {
// if lora is changed, we cannot reuse cached tokens
slot.cache_tokens.clear();
slot.lora = task.params.lora;
}
SLT_DBG(slot, "launching slot : %s\n", safe_json_to_str(slot.to_json()).c_str());
if (slot.n_predict > 0 && slot.params.n_predict > slot.n_predict) {
// Might be better to reject the request with a 400 ?
SLT_WRN(slot, "n_predict = %d exceeds server configuration, setting to %d", slot.params.n_predict, slot.n_predict);
slot.params.n_predict = slot.n_predict;
}
if (slot.params.ignore_eos && has_eos_token) {
slot.params.sampling.logit_bias.push_back({llama_vocab_eos(vocab), -INFINITY});
}
{
if (slot.smpl != nullptr) {
common_sampler_free(slot.smpl);
}
slot.smpl = common_sampler_init(model, slot.params.sampling);
if (slot.smpl == nullptr) {
// for now, the only error that may happen here is invalid grammar
send_error(task, "Failed to parse grammar", ERROR_TYPE_INVALID_REQUEST);
return false;
}
}
if (slot.ctx_dft) {
llama_batch_free(slot.batch_spec);
slot.batch_spec = llama_batch_init(slot.params.speculative.n_max + 1, 0, 1);
}
slot.state = SLOT_STATE_STARTED;
SLT_INF(slot, "%s", "processing task\n");
return true;
}
void kv_cache_clear() {
SRV_DBG("%s", "clearing KV cache\n");
// clear the entire KV cache
llama_kv_cache_clear(ctx);
clean_kv_cache = false;
}
bool process_token(completion_token_output & result, server_slot & slot) {
// remember which tokens were sampled - used for repetition penalties during sampling
const std::string token_str = result.text_to_send;
slot.sampled = result.tok;
slot.generated_text += token_str;
if (slot.params.return_tokens) {
slot.generated_tokens.push_back(result.tok);
}
slot.has_next_token = true;
// check if there is incomplete UTF-8 character at the end
bool incomplete = validate_utf8(slot.generated_text) < slot.generated_text.size();
// search stop word and delete it
if (!incomplete) {
size_t pos = std::min(slot.n_sent_text, slot.generated_text.size());
const std::string str_test = slot.generated_text.substr(pos);
bool send_text = true;
size_t stop_pos = slot.find_stopping_strings(str_test, token_str.size(), true);
if (stop_pos != std::string::npos) {
slot.generated_text.erase(
slot.generated_text.begin() + pos + stop_pos,
slot.generated_text.end());
pos = std::min(slot.n_sent_text, slot.generated_text.size());
} else if (slot.has_next_token) {
stop_pos = slot.find_stopping_strings(str_test, token_str.size(), false);
send_text = stop_pos == std::string::npos;
}
// check if there is any token to predict
if (send_text) {
// no send the stop word in the response
result.text_to_send = slot.generated_text.substr(pos, std::string::npos);
slot.n_sent_text += result.text_to_send.size();
// add the token to slot queue and cache
} else {
result.text_to_send = "";
}
slot.add_token(result);
if (slot.params.stream) {
send_partial_response(slot, result);
}
}
if (incomplete) {
slot.has_next_token = true;
}
// check the limits
if (slot.n_decoded > 0 && slot.has_next_token && !slot.has_budget(params_base)) {
slot.stop = STOP_TYPE_LIMIT;
slot.has_next_token = false;
SLT_DBG(slot, "stopped by limit, n_decoded = %d, n_predict = %d\n", slot.n_decoded, slot.params.n_predict);
}
if (slot.has_new_line) {
// if we have already seen a new line, we stop after a certain time limit
if (slot.params.t_max_predict_ms > 0 && (ggml_time_us() - slot.t_start_generation > 1000.0f*slot.params.t_max_predict_ms)) {
slot.stop = STOP_TYPE_LIMIT;
slot.has_next_token = false;
SLT_DBG(slot, "stopped by time limit, n_decoded = %d, t_max_predict_ms = %d ms\n", slot.n_decoded, (int) slot.params.t_max_predict_ms);
}
// require that each new line has a whitespace prefix (i.e. indentation) of at least slot.params.n_indent
if (slot.params.n_indent > 0) {
// check the current indentation
// TODO: improve by not doing it more than once for each new line
if (slot.last_nl_pos > 0) {
size_t pos = slot.last_nl_pos;
int n_indent = 0;
while (pos < slot.generated_text.size() && (slot.generated_text[pos] == ' ' || slot.generated_text[pos] == '\t')) {
n_indent++;
pos++;
}
if (pos < slot.generated_text.size() && n_indent < slot.params.n_indent) {
slot.stop = STOP_TYPE_LIMIT;
slot.has_next_token = false;
// cut the last line
slot.generated_text.erase(pos, std::string::npos);
SLT_DBG(slot, "stopped by indentation limit, n_decoded = %d, n_indent = %d\n", slot.n_decoded, n_indent);
}
}
// find the next new line
{
const size_t pos = slot.generated_text.find('\n', slot.last_nl_pos);
if (pos != std::string::npos) {
slot.last_nl_pos = pos + 1;
}
}
}
}
// check if there is a new line in the generated text
if (result.text_to_send.find('\n') != std::string::npos) {
slot.has_new_line = true;
}
// if context shift is disabled, we stop when it reaches the context limit
if (slot.n_past >= slot.n_ctx) {
slot.truncated = true;
slot.stop = STOP_TYPE_LIMIT;
slot.has_next_token = false;
SLT_DBG(slot, "stopped due to running out of context capacity, n_past = %d, n_prompt_tokens = %d, n_decoded = %d, n_ctx = %d\n",
slot.n_decoded, slot.n_prompt_tokens, slot.n_past, slot.n_ctx);
}
if (llama_vocab_is_eog(vocab, result.tok)) {
slot.stop = STOP_TYPE_EOS;
slot.has_next_token = false;
SLT_DBG(slot, "%s", "stopped by EOS\n");
}
const auto n_ctx_train = llama_model_n_ctx_train(model);
if (slot.params.n_predict < 1 && slot.n_predict < 1 && slot.n_prompt_tokens + slot.n_decoded >= n_ctx_train) {
slot.truncated = true;
slot.stop = STOP_TYPE_LIMIT;
slot.has_next_token = false; // stop prediction
SLT_WRN(slot,
"n_predict (%d) is set for infinite generation. "
"Limiting generated tokens to n_ctx_train (%d) to avoid EOS-less generation infinite loop\n",
slot.params.n_predict, n_ctx_train);
}
SLT_DBG(slot, "n_decoded = %d, n_remaining = %d, next token: %5d '%s'\n", slot.n_decoded, slot.n_remaining, result.tok, token_str.c_str());
return slot.has_next_token; // continue
}
void populate_token_probs(const server_slot & slot, completion_token_output & result, bool post_sampling, bool special, int idx) {
size_t n_probs = slot.params.sampling.n_probs;
size_t n_vocab = llama_vocab_n_tokens(vocab);
if (post_sampling) {
const auto * cur_p = common_sampler_get_candidates(slot.smpl);
const size_t max_probs = cur_p->size;
// set probability for sampled token
for (size_t i = 0; i < max_probs; i++) {
if (cur_p->data[i].id == result.tok) {
result.prob = cur_p->data[i].p;
break;
}
}
// set probability for top n_probs tokens
result.probs.reserve(max_probs);
for (size_t i = 0; i < std::min(max_probs, n_probs); i++) {
result.probs.push_back({
cur_p->data[i].id,
common_token_to_piece(ctx, cur_p->data[i].id, special),
cur_p->data[i].p
});
}
} else {
// TODO: optimize this with min-p optimization
std::vector<llama_token_data> cur = get_token_probabilities(ctx, idx);
// set probability for sampled token
for (size_t i = 0; i < n_vocab; i++) {
// set probability for sampled token
if (cur[i].id == result.tok) {
result.prob = cur[i].p;
break;
}
}
// set probability for top n_probs tokens
result.probs.reserve(n_probs);
for (size_t i = 0; i < std::min(n_vocab, n_probs); i++) {
result.probs.push_back({
cur[i].id,
common_token_to_piece(ctx, cur[i].id, special),
cur[i].p
});
}
}
}
void send_error(const server_task & task, const std::string & error, const enum error_type type = ERROR_TYPE_SERVER) {
send_error(task.id, error, type);
}
void send_error(const server_slot & slot, const std::string & error, const enum error_type type = ERROR_TYPE_SERVER) {
send_error(slot.id_task, error, type);
}
void send_error(const int id_task, const std::string & error, const enum error_type type = ERROR_TYPE_SERVER) {
SRV_ERR("task id = %d, error: %s\n", id_task, error.c_str());
auto res = std::make_unique<server_task_result_error>();
res->id = id_task;
res->err_type = type;
res->err_msg = error;
queue_results.send(std::move(res));
}
void send_partial_response(server_slot & slot, const completion_token_output & tkn) {
auto res = std::make_unique<server_task_result_cmpl_partial>();
res->id = slot.id_task;
res->index = slot.index;
res->content = tkn.text_to_send;
res->tokens = { tkn.tok };
res->n_decoded = slot.n_decoded;
res->n_prompt_tokens = slot.n_prompt_tokens;
res->post_sampling_probs = slot.params.post_sampling_probs;
res->verbose = slot.params.verbose;
res->oaicompat = slot.params.oaicompat;
res->oaicompat_model = slot.params.oaicompat_model;
res->oaicompat_cmpl_id = slot.params.oaicompat_cmpl_id;
// populate res.probs_output
if (slot.params.sampling.n_probs > 0) {
res->prob_output = tkn; // copy the token probs
}
// populate timings if this is final response or timings_per_token is enabled
if (slot.stop != STOP_TYPE_NONE || slot.params.timings_per_token) {
res->timings = slot.get_timings();
}
queue_results.send(std::move(res));
}
void send_final_response(server_slot & slot) {
auto res = std::make_unique<server_task_result_cmpl_final>();
res->id = slot.id_task;
res->id_slot = slot.id;
res->index = slot.index;
res->content = std::move(slot.generated_text);
res->tokens = std::move(slot.generated_tokens);
res->timings = slot.get_timings();
res->prompt = common_detokenize(ctx, slot.prompt_tokens, true);
res->response_fields = std::move(slot.params.response_fields);
res->truncated = slot.truncated;
res->n_decoded = slot.n_decoded;
res->n_prompt_tokens = slot.n_prompt_tokens;
res->n_tokens_cached = slot.n_past;
res->has_new_line = slot.has_new_line;
res->stopping_word = slot.stopping_word;
res->stop = slot.stop;
res->post_sampling_probs = slot.params.post_sampling_probs;
res->verbose = slot.params.verbose;
res->stream = slot.params.stream;
res->oaicompat = slot.params.oaicompat;
res->oaicompat_model = slot.params.oaicompat_model;
res->oaicompat_cmpl_id = slot.params.oaicompat_cmpl_id;
res->oaicompat_chat_format = slot.params.oaicompat_chat_format;
// populate res.probs_output
if (slot.params.sampling.n_probs > 0) {
if (!slot.params.stream && slot.stop == STOP_TYPE_WORD) {
const llama_tokens stop_word_toks = common_tokenize(ctx, slot.stopping_word, false);
size_t safe_offset = std::min(slot.generated_token_probs.size(), stop_word_toks.size());
res->probs_output = std::vector<completion_token_output>(
slot.generated_token_probs.begin(),
slot.generated_token_probs.end() - safe_offset);
} else {
res->probs_output = std::vector<completion_token_output>(
slot.generated_token_probs.begin(),
slot.generated_token_probs.end());
}
}
res->generation_params = slot.params; // copy the parameters
queue_results.send(std::move(res));
}
void send_embedding(const server_slot & slot, const llama_batch & batch) {
auto res = std::make_unique<server_task_result_embd>();
res->id = slot.id_task;
res->index = slot.index;
res->n_tokens = slot.n_prompt_tokens;
res->oaicompat = slot.params.oaicompat;
const int n_embd = llama_model_n_embd(model);
std::vector<float> embd_res(n_embd, 0.0f);
for (int i = 0; i < batch.n_tokens; ++i) {
if (!batch.logits[i] || batch.seq_id[i][0] != slot.id) {
continue;
}
const float * embd = llama_get_embeddings_seq(ctx, batch.seq_id[i][0]);
if (embd == NULL) {
embd = llama_get_embeddings_ith(ctx, i);
}
if (embd == NULL) {
SLT_ERR(slot, "failed to get embeddings, token = %d, seq_id = %d\n", batch.token[i], batch.seq_id[i][0]);
res->embedding.push_back(std::vector<float>(n_embd, 0.0f));
continue;
}
// normalize only when there is pooling
// TODO: configurable
if (llama_pooling_type(slot.ctx) != LLAMA_POOLING_TYPE_NONE) {
common_embd_normalize(embd, embd_res.data(), n_embd, 2);
res->embedding.push_back(embd_res);
} else {
res->embedding.push_back({ embd, embd + n_embd });
}
}
SLT_DBG(slot, "%s", "sending embeddings\n");
queue_results.send(std::move(res));
}
void send_rerank(const server_slot & slot, const llama_batch & batch) {
auto res = std::make_unique<server_task_result_rerank>();
res->id = slot.id_task;
res->index = slot.index;
res->n_tokens = slot.n_prompt_tokens;
for (int i = 0; i < batch.n_tokens; ++i) {
if (!batch.logits[i] || batch.seq_id[i][0] != slot.id) {
continue;
}
const float * embd = llama_get_embeddings_seq(ctx, batch.seq_id[i][0]);
if (embd == NULL) {
embd = llama_get_embeddings_ith(ctx, i);
}
if (embd == NULL) {
SLT_ERR(slot, "failed to get embeddings, token = %d, seq_id = %d\n", batch.token[i], batch.seq_id[i][0]);
res->score = -1e6;
continue;
}
res->score = embd[0];
}
SLT_DBG(slot, "sending rerank result, res.score = %f\n", res->score);
queue_results.send(std::move(res));
}
//
// Functions to create new task(s) and receive result(s)
//
void cancel_tasks(const std::unordered_set<int> & id_tasks) {
std::vector<server_task> cancel_tasks;
cancel_tasks.reserve(id_tasks.size());
for (const auto & id_task : id_tasks) {
SRV_WRN("cancel task, id_task = %d\n", id_task);
server_task task(SERVER_TASK_TYPE_CANCEL);
task.id_target = id_task;
queue_results.remove_waiting_task_id(id_task);
cancel_tasks.push_back(task);
}
// push to beginning of the queue, so it has highest priority
queue_tasks.post(cancel_tasks, true);
}
// receive the results from task(s)
void receive_multi_results(
const std::unordered_set<int> & id_tasks,
const std::function<void(std::vector<server_task_result_ptr>&)> & result_handler,
const std::function<void(json)> & error_handler,
const std::function<bool()> & is_connection_closed) {
std::vector<server_task_result_ptr> results(id_tasks.size());
for (int i = 0; i < (int)id_tasks.size(); i++) {
server_task_result_ptr result = queue_results.recv_with_timeout(id_tasks, HTTP_POLLING_SECONDS);
if (is_connection_closed()) {
cancel_tasks(id_tasks);
return;
}
if (result == nullptr) {
i--; // retry
continue;
}
if (result->is_error()) {
error_handler(result->to_json());
cancel_tasks(id_tasks);
return;
}
GGML_ASSERT(
dynamic_cast<server_task_result_cmpl_final*>(result.get()) != nullptr
|| dynamic_cast<server_task_result_embd*>(result.get()) != nullptr
|| dynamic_cast<server_task_result_rerank*>(result.get()) != nullptr
);
const size_t idx = result->get_index();
GGML_ASSERT(idx < results.size() && "index out of range");
results[idx] = std::move(result);
}
result_handler(results);
}
// receive the results from task(s), in stream mode
void receive_cmpl_results_stream(
const std::unordered_set<int> & id_tasks,
const std::function<bool(server_task_result_ptr&)> & result_handler,
const std::function<void(json)> & error_handler,
const std::function<bool()> & is_connection_closed) {
size_t n_finished = 0;
while (true) {
server_task_result_ptr result = queue_results.recv_with_timeout(id_tasks, HTTP_POLLING_SECONDS);
if (is_connection_closed()) {
cancel_tasks(id_tasks);
return;
}
if (result == nullptr) {
continue; // retry
}
if (result->is_error()) {
error_handler(result->to_json());
cancel_tasks(id_tasks);
return;
}
GGML_ASSERT(
dynamic_cast<server_task_result_cmpl_partial*>(result.get()) != nullptr
|| dynamic_cast<server_task_result_cmpl_final*>(result.get()) != nullptr
);
if (!result_handler(result)) {
cancel_tasks(id_tasks);
break;
}
if (result->is_stop()) {
if (++n_finished == id_tasks.size()) {
break;
}
}
}
}
//
// Functions to process the task
//
void process_single_task(server_task task) {
switch (task.type) {
case SERVER_TASK_TYPE_COMPLETION:
case SERVER_TASK_TYPE_INFILL:
case SERVER_TASK_TYPE_EMBEDDING:
case SERVER_TASK_TYPE_RERANK:
{
const int id_slot = task.id_selected_slot;
server_slot * slot = id_slot != -1 ? get_slot_by_id(id_slot) : get_available_slot(task);
if (slot == nullptr) {
// if no slot is available, we defer this task for processing later
SRV_DBG("no slot is available, defer task, id_task = %d\n", task.id);
queue_tasks.defer(task);
break;
}
if (slot->is_processing()) {
// if requested slot is unavailable, we defer this task for processing later
SRV_DBG("requested slot is unavailable, defer task, id_task = %d\n", task.id);
queue_tasks.defer(task);
break;
}
if (!launch_slot_with_task(*slot, task)) {
SRV_ERR("failed to launch slot with task, id_task = %d\n", task.id);
break;
}
} break;
case SERVER_TASK_TYPE_CANCEL:
{
// release slot linked with the task id
for (auto & slot : slots) {
if (slot.id_task == task.id_target) {
slot.release();
break;
}
}
} break;
case SERVER_TASK_TYPE_NEXT_RESPONSE:
{
// do nothing
} break;
case SERVER_TASK_TYPE_METRICS:
{
json slots_data = json::array();
int n_idle_slots = 0;
int n_processing_slots = 0;
for (server_slot & slot : slots) {
json slot_data = slot.to_json();
if (slot.is_processing()) {
n_processing_slots++;
} else {
n_idle_slots++;
}
slots_data.push_back(slot_data);
}
SRV_DBG("n_idle_slots = %d, n_processing_slots = %d\n", n_idle_slots, n_processing_slots);
auto res = std::make_unique<server_task_result_metrics>();
res->id = task.id;
res->slots_data = std::move(slots_data);
res->n_idle_slots = n_idle_slots;
res->n_processing_slots = n_processing_slots;
res->n_tasks_deferred = queue_tasks.queue_tasks_deferred.size();
res->t_start = metrics.t_start;
res->kv_cache_tokens_count = llama_get_kv_cache_token_count(ctx);
res->kv_cache_used_cells = llama_get_kv_cache_used_cells(ctx);
res->n_prompt_tokens_processed_total = metrics.n_prompt_tokens_processed_total;
res->t_prompt_processing_total = metrics.t_prompt_processing_total;
res->n_tokens_predicted_total = metrics.n_tokens_predicted_total;
res->t_tokens_generation_total = metrics.t_tokens_generation_total;
res->n_prompt_tokens_processed = metrics.n_prompt_tokens_processed;
res->t_prompt_processing = metrics.t_prompt_processing;
res->n_tokens_predicted = metrics.n_tokens_predicted;
res->t_tokens_generation = metrics.t_tokens_generation;
res->n_decode_total = metrics.n_decode_total;
res->n_busy_slots_total = metrics.n_busy_slots_total;
if (task.metrics_reset_bucket) {
metrics.reset_bucket();
}
queue_results.send(std::move(res));
} break;
case SERVER_TASK_TYPE_SLOT_SAVE:
{
int id_slot = task.slot_action.slot_id;
server_slot * slot = get_slot_by_id(id_slot);
if (slot == nullptr) {
send_error(task, "Invalid slot ID", ERROR_TYPE_INVALID_REQUEST);
break;
}
if (slot->is_processing()) {
// if requested slot is unavailable, we defer this task for processing later
SRV_DBG("requested slot is unavailable, defer task, id_task = %d\n", task.id);
queue_tasks.defer(task);
break;
}
const size_t token_count = slot->cache_tokens.size();
const int64_t t_start = ggml_time_us();
std::string filename = task.slot_action.filename;
std::string filepath = task.slot_action.filepath;
const size_t nwrite = llama_state_seq_save_file(ctx, filepath.c_str(), slot->id, slot->cache_tokens.data(), token_count);
const int64_t t_end = ggml_time_us();
const double t_save_ms = (t_end - t_start) / 1000.0;
auto res = std::make_unique<server_task_result_slot_save_load>();
res->id = task.id;
res->id_slot = id_slot;
res->filename = filename;
res->is_save = true;
res->n_tokens = token_count;
res->n_bytes = nwrite;
res->t_ms = t_save_ms;
queue_results.send(std::move(res));
} break;
case SERVER_TASK_TYPE_SLOT_RESTORE:
{
int id_slot = task.slot_action.slot_id;
server_slot * slot = get_slot_by_id(id_slot);
if (slot == nullptr) {
send_error(task, "Invalid slot ID", ERROR_TYPE_INVALID_REQUEST);
break;
}
if (slot->is_processing()) {
// if requested slot is unavailable, we defer this task for processing later
SRV_DBG("requested slot is unavailable, defer task, id_task = %d\n", task.id);
queue_tasks.defer(task);
break;
}
const int64_t t_start = ggml_time_us();
std::string filename = task.slot_action.filename;
std::string filepath = task.slot_action.filepath;
slot->cache_tokens.resize(slot->n_ctx);
size_t token_count = 0;
size_t nread = llama_state_seq_load_file(ctx, filepath.c_str(), slot->id, slot->cache_tokens.data(), slot->cache_tokens.size(), &token_count);
if (nread == 0) {
slot->cache_tokens.resize(0);
send_error(task, "Unable to restore slot, no available space in KV cache or invalid slot save file", ERROR_TYPE_INVALID_REQUEST);
break;
}
slot->cache_tokens.resize(token_count);
const int64_t t_end = ggml_time_us();
const double t_restore_ms = (t_end - t_start) / 1000.0;
auto res = std::make_unique<server_task_result_slot_save_load>();
res->id = task.id;
res->id_slot = id_slot;
res->filename = filename;
res->is_save = false;
res->n_tokens = token_count;
res->n_bytes = nread;
res->t_ms = t_restore_ms;
queue_results.send(std::move(res));
} break;
case SERVER_TASK_TYPE_SLOT_ERASE:
{
int id_slot = task.slot_action.slot_id;
server_slot * slot = get_slot_by_id(id_slot);
if (slot == nullptr) {
send_error(task, "Invalid slot ID", ERROR_TYPE_INVALID_REQUEST);
break;
}
if (slot->is_processing()) {
// if requested slot is unavailable, we defer this task for processing later
SRV_DBG("requested slot is unavailable, defer task, id_task = %d\n", task.id);
queue_tasks.defer(task);
break;
}
// Erase token cache
const size_t n_erased = slot->cache_tokens.size();
llama_kv_cache_seq_rm(ctx, slot->id, -1, -1);
slot->cache_tokens.clear();
auto res = std::make_unique<server_task_result_slot_erase>();
res->id = task.id;
res->id_slot = id_slot;
res->n_erased = n_erased;
queue_results.send(std::move(res));
} break;
case SERVER_TASK_TYPE_SET_LORA:
{
params_base.lora_adapters = std::move(task.set_lora);
auto res = std::make_unique<server_task_result_apply_lora>();
res->id = task.id;
queue_results.send(std::move(res));
} break;
}
}
void update_slots() {
// check if all slots are idle
{
bool all_idle = true;
for (auto & slot : slots) {
if (slot.is_processing()) {
all_idle = false;
break;
}
}
if (all_idle) {
SRV_INF("%s", "all slots are idle\n");
if (clean_kv_cache) {
kv_cache_clear();
}
return;
}
}
{
SRV_DBG("%s", "posting NEXT_RESPONSE\n");
server_task task(SERVER_TASK_TYPE_NEXT_RESPONSE);
task.id = queue_tasks.get_new_id();
queue_tasks.post(task);
}
// apply context-shift if needed
// TODO: simplify and improve
for (server_slot & slot : slots) {
if (slot.is_processing() && slot.n_past + 1 >= slot.n_ctx) {
if (!params_base.ctx_shift) {
// this check is redundant (for good)
// we should never get here, because generation should already stopped in process_token()
slot.release();
send_error(slot, "context shift is disabled", ERROR_TYPE_SERVER);
continue;
}
// Shift context
const int n_keep = slot.params.n_keep + add_bos_token;
const int n_left = slot.n_past - n_keep;
const int n_discard = slot.params.n_discard ? slot.params.n_discard : (n_left / 2);
SLT_WRN(slot, "slot context shift, n_keep = %d, n_left = %d, n_discard = %d\n", n_keep, n_left, n_discard);
llama_kv_cache_seq_rm (ctx, slot.id, n_keep , n_keep + n_discard);
llama_kv_cache_seq_add(ctx, slot.id, n_keep + n_discard, slot.n_past, -n_discard);
if (slot.params.cache_prompt) {
for (size_t i = n_keep + n_discard; i < slot.cache_tokens.size(); i++) {
slot.cache_tokens[i - n_discard] = slot.cache_tokens[i];
}
slot.cache_tokens.resize(slot.cache_tokens.size() - n_discard);
}
slot.n_past -= n_discard;
slot.truncated = true;
}
}
// start populating the batch for this iteration
common_batch_clear(batch);
// track if given slot can be batched with slots already in the batch
server_slot * slot_batched = nullptr;
auto accept_special_token = [&](server_slot & slot, llama_token token) {
return params_base.special || slot.params.sampling.preserved_tokens.find(token) != slot.params.sampling.preserved_tokens.end();
};
// frist, add sampled tokens from any ongoing sequences
for (auto & slot : slots) {
if (slot.state != SLOT_STATE_GENERATING) {
continue;
}
// check if we can batch this slot with the previous one
if (!slot_batched) {
slot_batched = &slot;
} else if (!slot_batched->can_batch_with(slot)) {
continue;
}
slot.i_batch = batch.n_tokens;
common_batch_add(batch, slot.sampled, slot.n_past, { slot.id }, true);
slot.n_past += 1;
if (slot.params.cache_prompt) {
slot.cache_tokens.push_back(slot.sampled);
}
SLT_DBG(slot, "slot decode token, n_ctx = %d, n_past = %d, n_cache_tokens = %d, truncated = %d\n",
slot.n_ctx, slot.n_past, (int) slot.cache_tokens.size(), slot.truncated);
}
// process in chunks of params.n_batch
int32_t n_batch = llama_n_batch(ctx);
int32_t n_ubatch = llama_n_ubatch(ctx);
// next, batch any pending prompts without exceeding n_batch
if (params_base.cont_batching || batch.n_tokens == 0) {
for (auto & slot : slots) {
// check if we can batch this slot with the previous one
if (slot.is_processing()) {
if (!slot_batched) {
slot_batched = &slot;
} else if (!slot_batched->can_batch_with(slot)) {
continue;
}
}
// this slot still has a prompt to be processed
if (slot.state == SLOT_STATE_PROCESSING_PROMPT || slot.state == SLOT_STATE_STARTED) {
auto & prompt_tokens = slot.prompt_tokens;
// TODO: maybe move branch to outside of this loop in the future
if (slot.state == SLOT_STATE_STARTED) {
slot.t_start_process_prompt = ggml_time_us();
slot.t_start_generation = 0;
slot.n_past = 0;
slot.n_prompt_tokens = prompt_tokens.size();
slot.state = SLOT_STATE_PROCESSING_PROMPT;
SLT_INF(slot, "new prompt, n_ctx_slot = %d, n_keep = %d, n_prompt_tokens = %d\n", slot.n_ctx, slot.params.n_keep, slot.n_prompt_tokens);
// print prompt tokens (for debugging)
if (1) {
// first 16 tokens (avoid flooding logs)
for (int i = 0; i < std::min<int>(16, prompt_tokens.size()); i++) {
SLT_DBG(slot, "prompt token %3d: %6d '%s'\n", i, prompt_tokens[i], common_token_to_piece(ctx, prompt_tokens[i]).c_str());
}
} else {
// all
for (int i = 0; i < (int) prompt_tokens.size(); i++) {
SLT_DBG(slot, "prompt token %3d: %6d '%s'\n", i, prompt_tokens[i], common_token_to_piece(ctx, prompt_tokens[i]).c_str());
}
}
// empty prompt passed -> release the slot and send empty response
if (prompt_tokens.empty()) {
SLT_WRN(slot, "%s", "empty prompt - releasing slot\n");
slot.release();
slot.print_timings();
send_final_response(slot);
continue;
}
if (slot.is_non_causal()) {
if (slot.n_prompt_tokens > n_ubatch) {
slot.release();
send_error(slot, "input is too large to process. increase the physical batch size", ERROR_TYPE_SERVER);
continue;
}
if (slot.n_prompt_tokens > slot.n_ctx) {
slot.release();
send_error(slot, "input is larger than the max context size. skipping", ERROR_TYPE_SERVER);
continue;
}
} else {
if (!params_base.ctx_shift) {
// if context shift is disabled, we make sure prompt size is smaller than KV size
// TODO: there should be a separate parameter that control prompt truncation
// context shift should be applied only during the generation phase
if (slot.n_prompt_tokens >= slot.n_ctx) {
slot.release();
send_error(slot, "the request exceeds the available context size. try increasing the context size or enable context shift", ERROR_TYPE_INVALID_REQUEST);
continue;
}
}
if (slot.params.n_keep < 0) {
slot.params.n_keep = slot.n_prompt_tokens;
}
slot.params.n_keep = std::min(slot.n_ctx - 4, slot.params.n_keep);
// if input prompt is too big, truncate it
if (slot.n_prompt_tokens >= slot.n_ctx) {
const int n_left = slot.n_ctx - slot.params.n_keep;
const int n_block_size = n_left / 2;
const int erased_blocks = (slot.n_prompt_tokens - slot.params.n_keep - n_block_size) / n_block_size;
llama_tokens new_tokens(
prompt_tokens.begin(),
prompt_tokens.begin() + slot.params.n_keep);
new_tokens.insert(
new_tokens.end(),
prompt_tokens.begin() + slot.params.n_keep + erased_blocks * n_block_size,
prompt_tokens.end());
prompt_tokens = std::move(new_tokens);
slot.truncated = true;
slot.n_prompt_tokens = prompt_tokens.size();
SLT_WRN(slot, "input truncated, n_ctx = %d, n_keep = %d, n_left = %d, n_prompt_tokens = %d\n", slot.n_ctx, slot.params.n_keep, n_left, slot.n_prompt_tokens);
GGML_ASSERT(slot.n_prompt_tokens < slot.n_ctx);
}
if (slot.params.cache_prompt) {
// reuse any previously computed tokens that are common with the new prompt
slot.n_past = common_lcp(slot.cache_tokens, prompt_tokens);
// reuse chunks from the cached prompt by shifting their KV cache in the new position
if (params_base.n_cache_reuse > 0) {
size_t head_c = slot.n_past; // cache
size_t head_p = slot.n_past; // current prompt
SLT_DBG(slot, "trying to reuse chunks with size > %d, slot.n_past = %d\n", params_base.n_cache_reuse, slot.n_past);
while (head_c < slot.cache_tokens.size() &&
head_p < prompt_tokens.size()) {
size_t n_match = 0;
while (head_c + n_match < slot.cache_tokens.size() &&
head_p + n_match < prompt_tokens.size() &&
slot.cache_tokens[head_c + n_match] == prompt_tokens[head_p + n_match]) {
n_match++;
}
if (n_match >= (size_t) params_base.n_cache_reuse) {
SLT_INF(slot, "reusing chunk with size %zu, shifting KV cache [%zu, %zu) -> [%zu, %zu)\n", n_match, head_c, head_c + n_match, head_p, head_p + n_match);
//for (size_t i = head_p; i < head_p + n_match; i++) {
// SLT_DBG(slot, "cache token %3zu: %6d '%s'\n", i, prompt_tokens[i], common_token_to_piece(ctx, prompt_tokens[i]).c_str());
//}
const int64_t kv_shift = (int64_t) head_p - (int64_t) head_c;
llama_kv_cache_seq_rm (ctx, slot.id, head_p, head_c);
llama_kv_cache_seq_add(ctx, slot.id, head_c, -1, kv_shift);
for (size_t i = 0; i < n_match; i++) {
slot.cache_tokens[head_p + i] = slot.cache_tokens[head_c + i];
slot.n_past++;
}
head_c += n_match;
head_p += n_match;
} else {
head_c += 1;
}
}
SLT_DBG(slot, "after context reuse, new slot.n_past = %d\n", slot.n_past);
}
}
}
if (slot.n_past == slot.n_prompt_tokens && slot.n_past > 0) {
// we have to evaluate at least 1 token to generate logits.
SLT_WRN(slot, "need to evaluate at least 1 token to generate logits, n_past = %d, n_prompt_tokens = %d\n", slot.n_past, slot.n_prompt_tokens);
slot.n_past--;
}
slot.n_prompt_tokens_processed = 0;
}
// non-causal tasks require to fit the entire prompt in the physical batch
if (slot.is_non_causal()) {
// cannot fit the prompt in the current batch - will try next iter
if (batch.n_tokens + slot.n_prompt_tokens > n_batch) {
continue;
}
}
// keep only the common part
if (!llama_kv_cache_seq_rm(ctx, slot.id, slot.n_past, -1)) {
// could not partially delete (likely using a non-Transformer model)
llama_kv_cache_seq_rm(ctx, slot.id, -1, -1);
// there is no common part left
slot.n_past = 0;
}
SLT_INF(slot, "kv cache rm [%d, end)\n", slot.n_past);
// remove the non-common part from the cache
slot.cache_tokens.resize(slot.n_past);
// add prompt tokens for processing in the current batch
while (slot.n_past < slot.n_prompt_tokens && batch.n_tokens < n_batch) {
// without pooling, we want to output the embeddings for all the tokens in the batch
const bool need_embd = slot.task_type == SERVER_TASK_TYPE_EMBEDDING && llama_pooling_type(slot.ctx) == LLAMA_POOLING_TYPE_NONE;
common_batch_add(batch, prompt_tokens[slot.n_past], slot.n_past, { slot.id }, need_embd);
if (slot.params.cache_prompt) {
slot.cache_tokens.push_back(prompt_tokens[slot.n_past]);
}
slot.n_prompt_tokens_processed++;
slot.n_past++;
}
SLT_INF(slot, "prompt processing progress, n_past = %d, n_tokens = %d, progress = %f\n", slot.n_past, batch.n_tokens, (float) slot.n_prompt_tokens_processed / slot.n_prompt_tokens);
// entire prompt has been processed
if (slot.n_past == slot.n_prompt_tokens) {
slot.state = SLOT_STATE_DONE_PROMPT;
GGML_ASSERT(batch.n_tokens > 0);
common_sampler_reset(slot.smpl);
// Process all prompt tokens through sampler system
for (int i = 0; i < slot.n_prompt_tokens; ++i) {
common_sampler_accept(slot.smpl, prompt_tokens[i], false);
}
// extract the logits only for the last token
batch.logits[batch.n_tokens - 1] = true;
slot.n_decoded = 0;
slot.i_batch = batch.n_tokens - 1;
SLT_INF(slot, "prompt done, n_past = %d, n_tokens = %d\n", slot.n_past, batch.n_tokens);
}
}
if (batch.n_tokens >= n_batch) {
break;
}
}
}
if (batch.n_tokens == 0) {
SRV_WRN("%s", "no tokens to decode\n");
return;
}
SRV_DBG("decoding batch, n_tokens = %d\n", batch.n_tokens);
if (slot_batched) {
// make sure we're in the right embedding mode
llama_set_embeddings(ctx, slot_batched->is_non_causal());
// apply lora, only need to do it once per batch
common_set_adapter_lora(ctx, slot_batched->lora);
}
// process the created batch of tokens
for (int32_t i = 0; i < batch.n_tokens; i += n_batch) {
const int32_t n_tokens = std::min(n_batch, batch.n_tokens - i);
llama_batch batch_view = {
n_tokens,
batch.token + i,
nullptr,
batch.pos + i,
batch.n_seq_id + i,
batch.seq_id + i,
batch.logits + i,
};
const int ret = llama_decode(ctx, batch_view);
metrics.on_decoded(slots);
if (ret != 0) {
if (n_batch == 1 || ret < 0) {
// if you get here, it means the KV cache is full - try increasing it via the context size
SRV_ERR("failed to decode the batch: KV cache is full - try increasing it via the context size, i = %d, n_batch = %d, ret = %d\n", i, n_batch, ret);
for (auto & slot : slots) {
slot.release();
send_error(slot, "Input prompt is too big compared to KV size. Please try increasing KV size.");
}
break; // break loop of n_batch
}
// retry with half the batch size to try to find a free slot in the KV cache
n_batch /= 2;
i -= n_batch;
SRV_WRN("failed to find free space in the KV cache, retrying with smaller batch size - try increasing it via the context size or enable defragmentation, i = %d, n_batch = %d, ret = %d\n", i, n_batch, ret);
continue; // continue loop of n_batch
}
for (auto & slot : slots) {
if (slot.i_batch < (int) i || slot.i_batch >= (int) (i + n_tokens)) {
continue; // continue loop of slots
}
if (slot.state == SLOT_STATE_DONE_PROMPT) {
if (slot.task_type == SERVER_TASK_TYPE_EMBEDDING) {
// prompt evaluated for embedding
send_embedding(slot, batch_view);
slot.release();
slot.i_batch = -1;
continue; // continue loop of slots
}
if (slot.task_type == SERVER_TASK_TYPE_RERANK) {
send_rerank(slot, batch_view);
slot.release();
slot.i_batch = -1;
continue; // continue loop of slots
}
// prompt evaluated for next-token prediction
slot.state = SLOT_STATE_GENERATING;
} else if (slot.state != SLOT_STATE_GENERATING) {
continue; // continue loop of slots
}
const int tok_idx = slot.i_batch - i;
llama_token id = common_sampler_sample(slot.smpl, ctx, tok_idx);
slot.i_batch = -1;
common_sampler_accept(slot.smpl, id, true);
slot.n_decoded += 1;
const int64_t t_current = ggml_time_us();
if (slot.n_decoded == 1) {
slot.t_start_generation = t_current;
slot.t_prompt_processing = (slot.t_start_generation - slot.t_start_process_prompt) / 1e3;
metrics.on_prompt_eval(slot);
}
slot.t_token_generation = (t_current - slot.t_start_generation) / 1e3;
completion_token_output result;
result.tok = id;
result.text_to_send = common_token_to_piece(ctx, result.tok, accept_special_token(slot, result.tok));
result.prob = 1.0f; // TODO: set it here instead of doing inside populate_token_probs
if (slot.params.sampling.n_probs > 0) {
populate_token_probs(slot, result, slot.params.post_sampling_probs, params_base.special, tok_idx);
}
if (!process_token(result, slot)) {
// release slot because of stop condition
slot.release();
slot.print_timings();
send_final_response(slot);
metrics.on_prediction(slot);
continue;
}
}
// do speculative decoding
for (auto & slot : slots) {
if (!slot.is_processing() || !slot.can_speculate()) {
continue;
}
if (slot.state != SLOT_STATE_GENERATING) {
continue;
}
// determine the max draft that fits the current slot state
int n_draft_max = slot.params.speculative.n_max;
// note: n_past is not yet increased for the `id` token sampled above
// also, need to leave space for 1 extra token to allow context shifts
n_draft_max = std::min(n_draft_max, slot.n_ctx - slot.n_past - 2);
if (slot.n_remaining > 0) {
n_draft_max = std::min(n_draft_max, slot.n_remaining - 1);
}
SLT_DBG(slot, "max possible draft: %d\n", n_draft_max);
if (n_draft_max < slot.params.speculative.n_min) {
SLT_DBG(slot, "the max possible draft is too small: %d < %d - skipping speculative decoding\n", n_draft_max, slot.params.speculative.n_min);
continue;
}
llama_token id = slot.sampled;
struct common_speculative_params params_spec;
params_spec.n_draft = n_draft_max;
params_spec.n_reuse = llama_n_ctx(slot.ctx_dft) - slot.params.speculative.n_max;
params_spec.p_min = slot.params.speculative.p_min;
llama_tokens draft = common_speculative_gen_draft(slot.spec, params_spec, slot.cache_tokens, id);
// ignore small drafts
if (slot.params.speculative.n_min > (int) draft.size()) {
SLT_DBG(slot, "ignoring small draft: %d < %d\n", (int) draft.size(), slot.params.speculative.n_min);
continue;
}
// construct the speculation batch
common_batch_clear(slot.batch_spec);
common_batch_add (slot.batch_spec, id, slot.n_past, { slot.id }, true);
for (size_t i = 0; i < draft.size(); ++i) {
common_batch_add(slot.batch_spec, draft[i], slot.n_past + 1 + i, { slot.id }, true);
}
SLT_DBG(slot, "decoding speculative batch, size = %d\n", slot.batch_spec.n_tokens);
llama_decode(ctx, slot.batch_spec);
// the accepted tokens from the speculation
const auto ids = common_sampler_sample_and_accept_n(slot.smpl, ctx, draft);
slot.n_past += ids.size();
slot.n_decoded += ids.size();
slot.cache_tokens.push_back(id);
slot.cache_tokens.insert(slot.cache_tokens.end(), ids.begin(), ids.end() - 1);
llama_kv_cache_seq_rm(ctx, slot.id, slot.n_past, -1);
for (size_t i = 0; i < ids.size(); ++i) {
completion_token_output result;
result.tok = ids[i];
result.text_to_send = common_token_to_piece(ctx, result.tok, accept_special_token(slot, result.tok));
result.prob = 1.0f; // set later
// TODO: set result.probs
if (!process_token(result, slot)) {
// release slot because of stop condition
slot.release();
slot.print_timings();
send_final_response(slot);
metrics.on_prediction(slot);
break;
}
}
SLT_DBG(slot, "accepted %d/%d draft tokens, new n_past = %d\n", (int) ids.size() - 1, (int) draft.size(), slot.n_past);
}
}
SRV_DBG("%s", "run slots completed\n");
}
json model_meta() const {
return json {
{"vocab_type", llama_vocab_type (vocab)},
{"n_vocab", llama_vocab_n_tokens (vocab)},
{"n_ctx_train", llama_model_n_ctx_train(model)},
{"n_embd", llama_model_n_embd (model)},
{"n_params", llama_model_n_params (model)},
{"size", llama_model_size (model)},
};
}
};
static void log_server_request(const httplib::Request & req, const httplib::Response & res) {
// skip GH copilot requests when using default port
if (req.path == "/v1/health" || req.path == "/v1/completions") {
return;
}
// reminder: this function is not covered by httplib's exception handler; if someone does more complicated stuff, think about wrapping it in try-catch
SRV_INF("request: %s %s %s %d\n", req.method.c_str(), req.path.c_str(), req.remote_addr.c_str(), res.status);
SRV_DBG("request: %s\n", req.body.c_str());
SRV_DBG("response: %s\n", res.body.c_str());
}
std::function<void(int)> shutdown_handler;
std::atomic_flag is_terminating = ATOMIC_FLAG_INIT;
inline void signal_handler(int signal) {
if (is_terminating.test_and_set()) {
// in case it hangs, we can force terminate the server by hitting Ctrl+C twice
// this is for better developer experience, we can remove when the server is stable enough
fprintf(stderr, "Received second interrupt, terminating immediately.\n");
exit(1);
}
shutdown_handler(signal);
}
int main(int argc, char ** argv) {
// own arguments required by this example
common_params params;
if (!common_params_parse(argc, argv, params, LLAMA_EXAMPLE_SERVER)) {
return 1;
}
common_init();
// struct that contains llama context and inference
server_context ctx_server;
llama_backend_init();
llama_numa_init(params.numa);
LOG_INF("system info: n_threads = %d, n_threads_batch = %d, total_threads = %d\n", params.cpuparams.n_threads, params.cpuparams_batch.n_threads, std::thread::hardware_concurrency());
LOG_INF("\n");
LOG_INF("%s\n", common_params_get_system_info(params).c_str());
LOG_INF("\n");
std::unique_ptr<httplib::Server> svr;
#ifdef CPPHTTPLIB_OPENSSL_SUPPORT
if (params.ssl_file_key != "" && params.ssl_file_cert != "") {
LOG_INF("Running with SSL: key = %s, cert = %s\n", params.ssl_file_key.c_str(), params.ssl_file_cert.c_str());
svr.reset(
new httplib::SSLServer(params.ssl_file_cert.c_str(), params.ssl_file_key.c_str())
);
} else {
LOG_INF("Running without SSL\n");
svr.reset(new httplib::Server());
}
#else
if (params.ssl_file_key != "" && params.ssl_file_cert != "") {
LOG_ERR("Server is built without SSL support\n");
return 1;
}
svr.reset(new httplib::Server());
#endif
std::atomic<server_state> state{SERVER_STATE_LOADING_MODEL};
svr->set_default_headers({{"Server", "llama.cpp"}});
svr->set_logger(log_server_request);
auto res_error = [](httplib::Response & res, const json & error_data) {
json final_response {{"error", error_data}};
res.set_content(safe_json_to_str(final_response), MIMETYPE_JSON);
res.status = json_value(error_data, "code", 500);
};
auto res_ok = [](httplib::Response & res, const json & data) {
res.set_content(safe_json_to_str(data), MIMETYPE_JSON);
res.status = 200;
};
svr->set_exception_handler([&res_error](const httplib::Request &, httplib::Response & res, const std::exception_ptr & ep) {
std::string message;
try {
std::rethrow_exception(ep);
} catch (const std::exception & e) {
message = e.what();
} catch (...) {
message = "Unknown Exception";
}
try {
json formatted_error = format_error_response(message, ERROR_TYPE_SERVER);
LOG_WRN("got exception: %s\n", formatted_error.dump().c_str());
res_error(res, formatted_error);
} catch (const std::exception & e) {
LOG_ERR("got another exception: %s | while hanlding exception: %s\n", e.what(), message.c_str());
}
});
svr->set_error_handler([&res_error](const httplib::Request &, httplib::Response & res) {
if (res.status == 404) {
res_error(res, format_error_response("File Not Found", ERROR_TYPE_NOT_FOUND));
}
// for other error codes, we skip processing here because it's already done by res_error()
});
// set timeouts and change hostname and port
svr->set_read_timeout (params.timeout_read);
svr->set_write_timeout(params.timeout_write);
std::unordered_map<std::string, std::string> log_data;
log_data["hostname"] = params.hostname;
log_data["port"] = std::to_string(params.port);
if (params.api_keys.size() == 1) {
auto key = params.api_keys[0];
log_data["api_key"] = "api_key: ****" + key.substr(std::max((int)(key.length() - 4), 0));
} else if (params.api_keys.size() > 1) {
log_data["api_key"] = "api_key: " + std::to_string(params.api_keys.size()) + " keys loaded";
}
// Necessary similarity of prompt for slot selection
ctx_server.slot_prompt_similarity = params.slot_prompt_similarity;
//
// Middlewares
//
auto middleware_validate_api_key = [¶ms, &res_error](const httplib::Request & req, httplib::Response & res) {
static const std::unordered_set<std::string> public_endpoints = {
"/health",
"/models",
"/v1/models",
};
// If API key is not set, skip validation
if (params.api_keys.empty()) {
return true;
}
// If path is public or is static file, skip validation
if (public_endpoints.find(req.path) != public_endpoints.end() || req.path == "/") {
return true;
}
// Check for API key in the header
auto auth_header = req.get_header_value("Authorization");
std::string prefix = "Bearer ";
if (auth_header.substr(0, prefix.size()) == prefix) {
std::string received_api_key = auth_header.substr(prefix.size());
if (std::find(params.api_keys.begin(), params.api_keys.end(), received_api_key) != params.api_keys.end()) {
return true; // API key is valid
}
}
// API key is invalid or not provided
res_error(res, format_error_response("Invalid API Key", ERROR_TYPE_AUTHENTICATION));
LOG_WRN("Unauthorized: Invalid API Key\n");
return false;
};
auto middleware_server_state = [&res_error, &state](const httplib::Request & req, httplib::Response & res) {
server_state current_state = state.load();
if (current_state == SERVER_STATE_LOADING_MODEL) {
auto tmp = string_split<std::string>(req.path, '.');
if (req.path == "/" || tmp.back() == "html") {
res.set_content(reinterpret_cast<const char*>(loading_html), loading_html_len, "text/html; charset=utf-8");
res.status = 503;
} else {
res_error(res, format_error_response("Loading model", ERROR_TYPE_UNAVAILABLE));
}
return false;
}
return true;
};
// register server middlewares
svr->set_pre_routing_handler([&middleware_validate_api_key, &middleware_server_state](const httplib::Request & req, httplib::Response & res) {
res.set_header("Access-Control-Allow-Origin", req.get_header_value("Origin"));
// If this is OPTIONS request, skip validation because browsers don't include Authorization header
if (req.method == "OPTIONS") {
res.set_header("Access-Control-Allow-Credentials", "true");
res.set_header("Access-Control-Allow-Methods", "GET, POST");
res.set_header("Access-Control-Allow-Headers", "*");
res.set_content("", "text/html"); // blank response, no data
return httplib::Server::HandlerResponse::Handled; // skip further processing
}
if (!middleware_server_state(req, res)) {
return httplib::Server::HandlerResponse::Handled;
}
if (!middleware_validate_api_key(req, res)) {
return httplib::Server::HandlerResponse::Handled;
}
return httplib::Server::HandlerResponse::Unhandled;
});
//
// Route handlers (or controllers)
//
const auto handle_health = [&](const httplib::Request &, httplib::Response & res) {
// error and loading states are handled by middleware
json health = {{"status", "ok"}};
res_ok(res, health);
};
const auto handle_slots = [&](const httplib::Request & req, httplib::Response & res) {
if (!params.endpoint_slots) {
res_error(res, format_error_response("This server does not support slots endpoint. Start it with `--slots`", ERROR_TYPE_NOT_SUPPORTED));
return;
}
// request slots data using task queue
server_task task(SERVER_TASK_TYPE_METRICS);
task.id = ctx_server.queue_tasks.get_new_id();
ctx_server.queue_results.add_waiting_task_id(task.id);
ctx_server.queue_tasks.post(task, true); // high-priority task
// get the result
server_task_result_ptr result = ctx_server.queue_results.recv(task.id);
ctx_server.queue_results.remove_waiting_task_id(task.id);
if (result->is_error()) {
res_error(res, result->to_json());
return;
}
// TODO: get rid of this dynamic_cast
auto res_metrics = dynamic_cast<server_task_result_metrics*>(result.get());
GGML_ASSERT(res_metrics != nullptr);
// optionally return "fail_on_no_slot" error
if (req.has_param("fail_on_no_slot")) {
if (res_metrics->n_idle_slots == 0) {
res_error(res, format_error_response("no slot available", ERROR_TYPE_UNAVAILABLE));
return;
}
}
res_ok(res, res_metrics->slots_data);
};
const auto handle_metrics = [&](const httplib::Request &, httplib::Response & res) {
if (!params.endpoint_metrics) {
res_error(res, format_error_response("This server does not support metrics endpoint. Start it with `--metrics`", ERROR_TYPE_NOT_SUPPORTED));
return;
}
// request slots data using task queue
server_task task(SERVER_TASK_TYPE_METRICS);
task.id = ctx_server.queue_tasks.get_new_id();
task.metrics_reset_bucket = true;
ctx_server.queue_results.add_waiting_task_id(task.id);
ctx_server.queue_tasks.post(task, true); // high-priority task
// get the result
server_task_result_ptr result = ctx_server.queue_results.recv(task.id);
ctx_server.queue_results.remove_waiting_task_id(task.id);
if (result->is_error()) {
res_error(res, result->to_json());
return;
}
// TODO: get rid of this dynamic_cast
auto res_metrics = dynamic_cast<server_task_result_metrics*>(result.get());
GGML_ASSERT(res_metrics != nullptr);
// metrics definition: https://prometheus.io/docs/practices/naming/#metric-names
json all_metrics_def = json {
{"counter", {{
{"name", "prompt_tokens_total"},
{"help", "Number of prompt tokens processed."},
{"value", (uint64_t) res_metrics->n_prompt_tokens_processed_total}
}, {
{"name", "prompt_seconds_total"},
{"help", "Prompt process time"},
{"value", (uint64_t) res_metrics->t_prompt_processing_total / 1.e3}
}, {
{"name", "tokens_predicted_total"},
{"help", "Number of generation tokens processed."},
{"value", (uint64_t) res_metrics->n_tokens_predicted_total}
}, {
{"name", "tokens_predicted_seconds_total"},
{"help", "Predict process time"},
{"value", (uint64_t) res_metrics->t_tokens_generation_total / 1.e3}
}, {
{"name", "n_decode_total"},
{"help", "Total number of llama_decode() calls"},
{"value", res_metrics->n_decode_total}
}, {
{"name", "n_busy_slots_per_decode"},
{"help", "Average number of busy slots per llama_decode() call"},
{"value", (float) res_metrics->n_busy_slots_total / (float) res_metrics->n_decode_total}
}}},
{"gauge", {{
{"name", "prompt_tokens_seconds"},
{"help", "Average prompt throughput in tokens/s."},
{"value", res_metrics->n_prompt_tokens_processed ? 1.e3 / res_metrics->t_prompt_processing * res_metrics->n_prompt_tokens_processed : 0.}
},{
{"name", "predicted_tokens_seconds"},
{"help", "Average generation throughput in tokens/s."},
{"value", res_metrics->n_tokens_predicted ? 1.e3 / res_metrics->t_tokens_generation * res_metrics->n_tokens_predicted : 0.}
},{
{"name", "kv_cache_usage_ratio"},
{"help", "KV-cache usage. 1 means 100 percent usage."},
{"value", 1. * res_metrics->kv_cache_used_cells / params.n_ctx}
},{
{"name", "kv_cache_tokens"},
{"help", "KV-cache tokens."},
{"value", (uint64_t) res_metrics->kv_cache_tokens_count}
},{
{"name", "requests_processing"},
{"help", "Number of requests processing."},
{"value", (uint64_t) res_metrics->n_processing_slots}
},{
{"name", "requests_deferred"},
{"help", "Number of requests deferred."},
{"value", (uint64_t) res_metrics->n_tasks_deferred}
}}}
};
std::stringstream prometheus;
for (const auto & el : all_metrics_def.items()) {
const auto & type = el.key();
const auto & metrics_def = el.value();
for (const auto & metric_def : metrics_def) {
const std::string name = metric_def.at("name");
const std::string help = metric_def.at("help");
auto value = json_value(metric_def, "value", 0.);
prometheus << "# HELP llamacpp:" << name << " " << help << "\n"
<< "# TYPE llamacpp:" << name << " " << type << "\n"
<< "llamacpp:" << name << " " << value << "\n";
}
}
res.set_header("Process-Start-Time-Unix", std::to_string(res_metrics->t_start));
res.set_content(prometheus.str(), "text/plain; version=0.0.4");
res.status = 200; // HTTP OK
};
const auto handle_slots_save = [&ctx_server, &res_error, &res_ok, ¶ms](const httplib::Request & req, httplib::Response & res, int id_slot) {
json request_data = json::parse(req.body);
std::string filename = request_data.at("filename");
if (!fs_validate_filename(filename)) {
res_error(res, format_error_response("Invalid filename", ERROR_TYPE_INVALID_REQUEST));
return;
}
std::string filepath = params.slot_save_path + filename;
server_task task(SERVER_TASK_TYPE_SLOT_SAVE);
task.id = ctx_server.queue_tasks.get_new_id();
task.slot_action.slot_id = id_slot;
task.slot_action.filename = filename;
task.slot_action.filepath = filepath;
ctx_server.queue_results.add_waiting_task_id(task.id);
ctx_server.queue_tasks.post(task);
server_task_result_ptr result = ctx_server.queue_results.recv(task.id);
ctx_server.queue_results.remove_waiting_task_id(task.id);
if (result->is_error()) {
res_error(res, result->to_json());
return;
}
res_ok(res, result->to_json());
};
const auto handle_slots_restore = [&ctx_server, &res_error, &res_ok, ¶ms](const httplib::Request & req, httplib::Response & res, int id_slot) {
json request_data = json::parse(req.body);
std::string filename = request_data.at("filename");
if (!fs_validate_filename(filename)) {
res_error(res, format_error_response("Invalid filename", ERROR_TYPE_INVALID_REQUEST));
return;
}
std::string filepath = params.slot_save_path + filename;
server_task task(SERVER_TASK_TYPE_SLOT_RESTORE);
task.id = ctx_server.queue_tasks.get_new_id();
task.slot_action.slot_id = id_slot;
task.slot_action.filename = filename;
task.slot_action.filepath = filepath;
ctx_server.queue_results.add_waiting_task_id(task.id);
ctx_server.queue_tasks.post(task);
server_task_result_ptr result = ctx_server.queue_results.recv(task.id);
ctx_server.queue_results.remove_waiting_task_id(task.id);
if (result->is_error()) {
res_error(res, result->to_json());
return;
}
GGML_ASSERT(dynamic_cast<server_task_result_slot_save_load*>(result.get()) != nullptr);
res_ok(res, result->to_json());
};
const auto handle_slots_erase = [&ctx_server, &res_error, &res_ok](const httplib::Request & /* req */, httplib::Response & res, int id_slot) {
server_task task(SERVER_TASK_TYPE_SLOT_ERASE);
task.id = ctx_server.queue_tasks.get_new_id();
task.slot_action.slot_id = id_slot;
ctx_server.queue_results.add_waiting_task_id(task.id);
ctx_server.queue_tasks.post(task);
server_task_result_ptr result = ctx_server.queue_results.recv(task.id);
ctx_server.queue_results.remove_waiting_task_id(task.id);
if (result->is_error()) {
res_error(res, result->to_json());
return;
}
GGML_ASSERT(dynamic_cast<server_task_result_slot_erase*>(result.get()) != nullptr);
res_ok(res, result->to_json());
};
const auto handle_slots_action = [¶ms, &res_error, &handle_slots_save, &handle_slots_restore, &handle_slots_erase](const httplib::Request & req, httplib::Response & res) {
if (params.slot_save_path.empty()) {
res_error(res, format_error_response("This server does not support slots action. Start it with `--slot-save-path`", ERROR_TYPE_NOT_SUPPORTED));
return;
}
std::string id_slot_str = req.path_params.at("id_slot");
int id_slot;
try {
id_slot = std::stoi(id_slot_str);
} catch (const std::exception &) {
res_error(res, format_error_response("Invalid slot ID", ERROR_TYPE_INVALID_REQUEST));
return;
}
std::string action = req.get_param_value("action");
if (action == "save") {
handle_slots_save(req, res, id_slot);
} else if (action == "restore") {
handle_slots_restore(req, res, id_slot);
} else if (action == "erase") {
handle_slots_erase(req, res, id_slot);
} else {
res_error(res, format_error_response("Invalid action", ERROR_TYPE_INVALID_REQUEST));
}
};
const auto handle_props = [&ctx_server, &res_ok](const httplib::Request &, httplib::Response & res) {
// this endpoint is publicly available, please only return what is safe to be exposed
json data = {
{ "default_generation_settings", ctx_server.default_generation_settings_for_props },
{ "total_slots", ctx_server.params_base.n_parallel },
{ "model_path", ctx_server.params_base.model },
{ "chat_template", ctx_server.chat_templates.template_default->source() },
{ "bos_token", ctx_server.chat_templates.template_default->bos_token() },
{ "eos_token", ctx_server.chat_templates.template_default->eos_token() },
{ "build_info", build_info },
};
if (ctx_server.params_base.use_jinja && ctx_server.chat_templates.template_tool_use) {
data["chat_template_tool_use"] = ctx_server.chat_templates.template_tool_use->source();
}
res_ok(res, data);
};
const auto handle_props_change = [&ctx_server, &res_error, &res_ok](const httplib::Request & req, httplib::Response & res) {
if (!ctx_server.params_base.endpoint_props) {
res_error(res, format_error_response("This server does not support changing global properties. Start it with `--props`", ERROR_TYPE_NOT_SUPPORTED));
return;
}
json data = json::parse(req.body);
// update any props here
res_ok(res, {{ "success", true }});
};
// handle completion-like requests (completion, chat, infill)
// we can optionally provide a custom format for partial results and final results
const auto handle_completions_impl = [&ctx_server, &res_error, &res_ok](
server_task_type type,
json & data,
std::function<bool()> is_connection_closed,
httplib::Response & res,
oaicompat_type oaicompat) {
GGML_ASSERT(type == SERVER_TASK_TYPE_COMPLETION || type == SERVER_TASK_TYPE_INFILL);
if (ctx_server.params_base.embedding) {
res_error(res, format_error_response("This server does not support completions. Start it without `--embeddings`", ERROR_TYPE_NOT_SUPPORTED));
return;
}
auto completion_id = gen_chatcmplid();
std::vector<server_task> tasks;
try {
const auto & prompt = data.at("prompt");
// TODO: this log can become very long, put it behind a flag or think about a more compact format
//SRV_DBG("Prompt: %s\n", prompt.is_string() ? prompt.get<std::string>().c_str() : prompt.dump(2).c_str());
std::vector<llama_tokens> tokenized_prompts = tokenize_input_prompts(ctx_server.vocab, prompt, true, true);
tasks.reserve(tokenized_prompts.size());
for (size_t i = 0; i < tokenized_prompts.size(); i++) {
server_task task = server_task(type);
task.id = ctx_server.queue_tasks.get_new_id();
task.index = i;
task.prompt_tokens = std::move(tokenized_prompts[i]);
task.params = server_task::params_from_json_cmpl(
ctx_server.ctx,
ctx_server.params_base,
data);
task.id_selected_slot = json_value(data, "id_slot", -1);
// OAI-compat
task.params.oaicompat = oaicompat;
task.params.oaicompat_cmpl_id = completion_id;
// oaicompat_model is already populated by params_from_json_cmpl
tasks.push_back(task);
}
} catch (const std::exception & e) {
res_error(res, format_error_response(e.what(), ERROR_TYPE_INVALID_REQUEST));
return;
}
ctx_server.queue_results.add_waiting_tasks(tasks);
ctx_server.queue_tasks.post(tasks);
bool stream = json_value(data, "stream", false);
const auto task_ids = server_task::get_list_id(tasks);
if (!stream) {
ctx_server.receive_multi_results(task_ids, [&](std::vector<server_task_result_ptr> & results) {
if (results.size() == 1) {
// single result
res_ok(res, results[0]->to_json());
} else {
// multiple results (multitask)
json arr = json::array();
for (auto & res : results) {
arr.push_back(res->to_json());
}
res_ok(res, arr);
}
}, [&](const json & error_data) {
res_error(res, error_data);
}, is_connection_closed);
ctx_server.queue_results.remove_waiting_task_ids(task_ids);
} else {
const auto chunked_content_provider = [task_ids, &ctx_server, oaicompat](size_t, httplib::DataSink & sink) {
ctx_server.receive_cmpl_results_stream(task_ids, [&](server_task_result_ptr & result) -> bool {
json res_json = result->to_json();
if (res_json.is_array()) {
for (const auto & res : res_json) {
if (!server_sent_event(sink, "data", res)) {
// sending failed (HTTP connection closed), cancel the generation
return false;
}
}
return true;
} else {
return server_sent_event(sink, "data", res_json);
}
}, [&](const json & error_data) {
server_sent_event(sink, "error", error_data);
}, [&sink]() {
// note: do not use req.is_connection_closed here because req is already destroyed
return !sink.is_writable();
});
if (oaicompat != OAICOMPAT_TYPE_NONE) {
static const std::string ev_done = "data: [DONE]\n\n";
sink.write(ev_done.data(), ev_done.size());
}
sink.done();
return false;
};
auto on_complete = [task_ids, &ctx_server] (bool) {
ctx_server.queue_results.remove_waiting_task_ids(task_ids);
};
res.set_chunked_content_provider("text/event-stream", chunked_content_provider, on_complete);
}
};
const auto handle_completions = [&handle_completions_impl](const httplib::Request & req, httplib::Response & res) {
json data = json::parse(req.body);
return handle_completions_impl(
SERVER_TASK_TYPE_COMPLETION,
data,
req.is_connection_closed,
res,
OAICOMPAT_TYPE_NONE);
};
const auto handle_completions_oai = [&handle_completions_impl](const httplib::Request & req, httplib::Response & res) {
json data = oaicompat_completion_params_parse(json::parse(req.body));
return handle_completions_impl(
SERVER_TASK_TYPE_COMPLETION,
data,
req.is_connection_closed,
res,
OAICOMPAT_TYPE_COMPLETION);
};
const auto handle_infill = [&ctx_server, &res_error, &handle_completions_impl](const httplib::Request & req, httplib::Response & res) {
// check model compatibility
std::string err;
if (llama_vocab_fim_pre(ctx_server.vocab) == LLAMA_TOKEN_NULL) {
err += "prefix token is missing. ";
}
if (llama_vocab_fim_suf(ctx_server.vocab) == LLAMA_TOKEN_NULL) {
err += "suffix token is missing. ";
}
if (llama_vocab_fim_mid(ctx_server.vocab) == LLAMA_TOKEN_NULL) {
err += "middle token is missing. ";
}
if (!err.empty()) {
res_error(res, format_error_response(string_format("Infill is not supported by this model: %s", err.c_str()), ERROR_TYPE_NOT_SUPPORTED));
return;
}
json data = json::parse(req.body);
// validate input
if (data.contains("prompt") && !data.at("prompt").is_string()) {
// prompt is optional
res_error(res, format_error_response("\"prompt\" must be a string", ERROR_TYPE_INVALID_REQUEST));
}
if (!data.contains("input_prefix")) {
res_error(res, format_error_response("\"input_prefix\" is required", ERROR_TYPE_INVALID_REQUEST));
}
if (!data.contains("input_suffix")) {
res_error(res, format_error_response("\"input_suffix\" is required", ERROR_TYPE_INVALID_REQUEST));
}
if (data.contains("input_extra") && !data.at("input_extra").is_array()) {
// input_extra is optional
res_error(res, format_error_response("\"input_extra\" must be an array of {\"filename\": string, \"text\": string}", ERROR_TYPE_INVALID_REQUEST));
return;
}
json input_extra = json_value(data, "input_extra", json::array());
for (const auto & chunk : input_extra) {
// { "text": string, "filename": string }
if (!chunk.contains("text") || !chunk.at("text").is_string()) {
res_error(res, format_error_response("extra_context chunk must contain a \"text\" field with a string value", ERROR_TYPE_INVALID_REQUEST));
return;
}
// filename is optional
if (chunk.contains("filename") && !chunk.at("filename").is_string()) {
res_error(res, format_error_response("extra_context chunk's \"filename\" field must be a string", ERROR_TYPE_INVALID_REQUEST));
return;
}
}
data["input_extra"] = input_extra; // default to empty array if it's not exist
std::string prompt = json_value(data, "prompt", std::string());
std::vector<llama_tokens> tokenized_prompts = tokenize_input_prompts(ctx_server.vocab, prompt, false, true);
SRV_DBG("creating infill tasks, n_prompts = %d\n", (int) tokenized_prompts.size());
data["prompt"] = format_infill(
ctx_server.vocab,
data.at("input_prefix"),
data.at("input_suffix"),
data.at("input_extra"),
ctx_server.params_base.n_batch,
ctx_server.params_base.n_predict,
ctx_server.slots[0].n_ctx, // TODO: there should be a better way
ctx_server.params_base.spm_infill,
tokenized_prompts[0]
);
return handle_completions_impl(
SERVER_TASK_TYPE_INFILL,
data,
req.is_connection_closed,
res,
OAICOMPAT_TYPE_NONE); // infill is not OAI compatible
};
const auto handle_chat_completions = [&ctx_server, ¶ms, &res_error, &handle_completions_impl](const httplib::Request & req, httplib::Response & res) {
LOG_DBG("request: %s\n", req.body.c_str());
if (ctx_server.params_base.embedding) {
res_error(res, format_error_response("This server does not support completions. Start it without `--embeddings`", ERROR_TYPE_NOT_SUPPORTED));
return;
}
auto body = json::parse(req.body);
json data = oaicompat_completion_params_parse(body, params.use_jinja, ctx_server.chat_templates);
return handle_completions_impl(
SERVER_TASK_TYPE_COMPLETION,
data,
req.is_connection_closed,
res,
OAICOMPAT_TYPE_CHAT);
};
// same with handle_chat_completions, but without inference part
const auto handle_apply_template = [&ctx_server, ¶ms, &res_ok](const httplib::Request & req, httplib::Response & res) {
auto body = json::parse(req.body);
json data = oaicompat_completion_params_parse(body, params.use_jinja, ctx_server.chat_templates);
res_ok(res, {{ "prompt", std::move(data.at("prompt")) }});
};
const auto handle_models = [¶ms, &ctx_server, &res_ok](const httplib::Request &, httplib::Response & res) {
json models = {
{"object", "list"},
{"data", {
{
{"id", params.model_alias.empty() ? params.model : params.model_alias},
{"object", "model"},
{"created", std::time(0)},
{"owned_by", "llamacpp"},
{"meta", ctx_server.model_meta()}
},
}}
};
res_ok(res, models);
};
const auto handle_tokenize = [&ctx_server, &res_ok](const httplib::Request & req, httplib::Response & res) {
const json body = json::parse(req.body);
json tokens_response = json::array();
if (body.count("content") != 0) {
const bool add_special = json_value(body, "add_special", false);
const bool with_pieces = json_value(body, "with_pieces", false);
llama_tokens tokens = tokenize_mixed(ctx_server.vocab, body.at("content"), add_special, true);
if (with_pieces) {
for (const auto& token : tokens) {
std::string piece = common_token_to_piece(ctx_server.ctx, token);
json piece_json;
// Check if the piece is valid UTF-8
if (is_valid_utf8(piece)) {
piece_json = piece;
} else {
// If not valid UTF-8, store as array of byte values
piece_json = json::array();
for (unsigned char c : piece) {
piece_json.push_back(static_cast<int>(c));
}
}
tokens_response.push_back({
{"id", token},
{"piece", piece_json}
});
}
} else {
tokens_response = tokens;
}
}
const json data = format_tokenizer_response(tokens_response);
res_ok(res, data);
};
const auto handle_detokenize = [&ctx_server, &res_ok](const httplib::Request & req, httplib::Response & res) {
const json body = json::parse(req.body);
std::string content;
if (body.count("tokens") != 0) {
const llama_tokens tokens = body.at("tokens");
content = tokens_to_str(ctx_server.ctx, tokens.cbegin(), tokens.cend());
}
const json data = format_detokenized_response(content);
res_ok(res, data);
};
const auto handle_embeddings_impl = [&ctx_server, &res_error, &res_ok](const httplib::Request & req, httplib::Response & res, oaicompat_type oaicompat) {
const json body = json::parse(req.body);
if (oaicompat != OAICOMPAT_TYPE_NONE && llama_pooling_type(ctx_server.ctx) == LLAMA_POOLING_TYPE_NONE) {
res_error(res, format_error_response("Pooling type 'none' is not OAI compatible. Please use a different pooling type", ERROR_TYPE_INVALID_REQUEST));
return;
}
// for the shape of input/content, see tokenize_input_prompts()
json prompt;
if (body.count("input") != 0) {
prompt = body.at("input");
} else if (body.contains("content")) {
oaicompat = OAICOMPAT_TYPE_NONE; // "content" field is not OAI compatible
prompt = body.at("content");
} else {
res_error(res, format_error_response("\"input\" or \"content\" must be provided", ERROR_TYPE_INVALID_REQUEST));
return;
}
bool use_base64 = false;
if (body.count("encoding_format") != 0) {
const std::string& format = body.at("encoding_format");
if (format == "base64") {
use_base64 = true;
} else if (format != "float") {
res_error(res, format_error_response("The format to return the embeddings in. Can be either float or base64", ERROR_TYPE_INVALID_REQUEST));
return;
}
}
std::vector<llama_tokens> tokenized_prompts = tokenize_input_prompts(ctx_server.vocab, prompt, true, true);
for (const auto & tokens : tokenized_prompts) {
// this check is necessary for models that do not add BOS token to the input
if (tokens.empty()) {
res_error(res, format_error_response("Input content cannot be empty", ERROR_TYPE_INVALID_REQUEST));
return;
}
}
// create and queue the task
json responses = json::array();
bool error = false;
{
std::vector<server_task> tasks;
for (size_t i = 0; i < tokenized_prompts.size(); i++) {
server_task task = server_task(SERVER_TASK_TYPE_EMBEDDING);
task.id = ctx_server.queue_tasks.get_new_id();
task.index = i;
task.prompt_tokens = std::move(tokenized_prompts[i]);
// OAI-compat
task.params.oaicompat = oaicompat;
tasks.push_back(task);
}
ctx_server.queue_results.add_waiting_tasks(tasks);
ctx_server.queue_tasks.post(tasks);
// get the result
std::unordered_set<int> task_ids = server_task::get_list_id(tasks);
ctx_server.receive_multi_results(task_ids, [&](std::vector<server_task_result_ptr> & results) {
for (auto & res : results) {
GGML_ASSERT(dynamic_cast<server_task_result_embd*>(res.get()) != nullptr);
responses.push_back(res->to_json());
}
}, [&](const json & error_data) {
res_error(res, error_data);
error = true;
}, req.is_connection_closed);
ctx_server.queue_results.remove_waiting_task_ids(task_ids);
}
if (error) {
return;
}
// write JSON response
json root = oaicompat == OAICOMPAT_TYPE_EMBEDDING
? format_embeddings_response_oaicompat(body, responses, use_base64)
: json(responses);
res_ok(res, root);
};
const auto handle_embeddings = [&handle_embeddings_impl](const httplib::Request & req, httplib::Response & res) {
handle_embeddings_impl(req, res, OAICOMPAT_TYPE_NONE);
};
const auto handle_embeddings_oai = [&handle_embeddings_impl](const httplib::Request & req, httplib::Response & res) {
handle_embeddings_impl(req, res, OAICOMPAT_TYPE_EMBEDDING);
};
const auto handle_rerank = [&ctx_server, &res_error, &res_ok](const httplib::Request & req, httplib::Response & res) {
if (!ctx_server.params_base.reranking || ctx_server.params_base.embedding) {
res_error(res, format_error_response("This server does not support reranking. Start it with `--reranking` and without `--embedding`", ERROR_TYPE_NOT_SUPPORTED));
return;
}
const json body = json::parse(req.body);
// TODO: implement
//int top_n = 1;
//if (body.count("top_n") != 1) {
// top_n = body.at("top_n");
//} else {
// res_error(res, format_error_response("\"top_n\" must be provided", ERROR_TYPE_INVALID_REQUEST));
// return;
//}
json query;
if (body.count("query") == 1) {
query = body.at("query");
if (!query.is_string()) {
res_error(res, format_error_response("\"query\" must be a string", ERROR_TYPE_INVALID_REQUEST));
return;
}
} else {
res_error(res, format_error_response("\"query\" must be provided", ERROR_TYPE_INVALID_REQUEST));
return;
}
std::vector<std::string> documents = json_value(body, "documents", std::vector<std::string>());
if (documents.empty()) {
res_error(res, format_error_response("\"documents\" must be a non-empty string array", ERROR_TYPE_INVALID_REQUEST));
return;
}
llama_tokens tokenized_query = tokenize_input_prompts(ctx_server.vocab, query, /* add_special */ false, true)[0];
// create and queue the task
json responses = json::array();
bool error = false;
{
std::vector<server_task> tasks;
std::vector<llama_tokens> tokenized_docs = tokenize_input_prompts(ctx_server.vocab, documents, /* add_special */ false, true);
tasks.reserve(tokenized_docs.size());
for (size_t i = 0; i < tokenized_docs.size(); i++) {
server_task task = server_task(SERVER_TASK_TYPE_RERANK);
task.id = ctx_server.queue_tasks.get_new_id();
task.index = i;
task.prompt_tokens = format_rerank(ctx_server.vocab, tokenized_query, tokenized_docs[i]);
tasks.push_back(task);
}
ctx_server.queue_results.add_waiting_tasks(tasks);
ctx_server.queue_tasks.post(tasks);
// get the result
std::unordered_set<int> task_ids = server_task::get_list_id(tasks);
ctx_server.receive_multi_results(task_ids, [&](std::vector<server_task_result_ptr> & results) {
for (auto & res : results) {
GGML_ASSERT(dynamic_cast<server_task_result_rerank*>(res.get()) != nullptr);
responses.push_back(res->to_json());
}
}, [&](const json & error_data) {
res_error(res, error_data);
error = true;
}, req.is_connection_closed);
}
if (error) {
return;
}
// write JSON response
json root = format_response_rerank(body, responses);
res_ok(res, root);
};
const auto handle_lora_adapters_list = [&](const httplib::Request &, httplib::Response & res) {
json result = json::array();
const auto & loras = ctx_server.params_base.lora_adapters;
for (size_t i = 0; i < loras.size(); ++i) {
auto & lora = loras[i];
result.push_back({
{"id", i},
{"path", lora.path},
{"scale", lora.scale},
});
}
res_ok(res, result);
res.status = 200; // HTTP OK
};
const auto handle_lora_adapters_apply = [&](const httplib::Request & req, httplib::Response & res) {
const json body = json::parse(req.body);
if (!body.is_array()) {
res_error(res, format_error_response("Request body must be an array", ERROR_TYPE_INVALID_REQUEST));
return;
}
server_task task(SERVER_TASK_TYPE_SET_LORA);
task.id = ctx_server.queue_tasks.get_new_id();
task.set_lora = parse_lora_request(ctx_server.params_base.lora_adapters, body);
ctx_server.queue_results.add_waiting_task_id(task.id);
ctx_server.queue_tasks.post(task);
server_task_result_ptr result = ctx_server.queue_results.recv(task.id);
ctx_server.queue_results.remove_waiting_task_id(task.id);
if (result->is_error()) {
res_error(res, result->to_json());
return;
}
GGML_ASSERT(dynamic_cast<server_task_result_apply_lora*>(result.get()) != nullptr);
res_ok(res, result->to_json());
};
//
// Router
//
if (!params.webui) {
LOG_INF("Web UI is disabled\n");
} else {
// register static assets routes
if (!params.public_path.empty()) {
// Set the base directory for serving static files
bool is_found = svr->set_mount_point("/", params.public_path);
if (!is_found) {
LOG_ERR("%s: static assets path not found: %s\n", __func__, params.public_path.c_str());
return 1;
}
} else {
// using embedded static index.html
svr->Get("/", [](const httplib::Request & req, httplib::Response & res) {
if (req.get_header_value("Accept-Encoding").find("gzip") == std::string::npos) {
res.set_content("Error: gzip is not supported by this browser", "text/plain");
} else {
res.set_header("Content-Encoding", "gzip");
// COEP and COOP headers, required by pyodide (python interpreter)
res.set_header("Cross-Origin-Embedder-Policy", "require-corp");
res.set_header("Cross-Origin-Opener-Policy", "same-origin");
res.set_content(reinterpret_cast<const char*>(index_html_gz), index_html_gz_len, "text/html; charset=utf-8");
}
return false;
});
}
}
// register API routes
svr->Get ("/health", handle_health); // public endpoint (no API key check)
svr->Get ("/metrics", handle_metrics);
svr->Get ("/props", handle_props);
svr->Post("/props", handle_props_change);
svr->Get ("/models", handle_models); // public endpoint (no API key check)
svr->Get ("/v1/models", handle_models); // public endpoint (no API key check)
svr->Post("/completion", handle_completions); // legacy
svr->Post("/completions", handle_completions);
svr->Post("/v1/completions", handle_completions_oai);
svr->Post("/chat/completions", handle_chat_completions);
svr->Post("/v1/chat/completions", handle_chat_completions);
svr->Post("/infill", handle_infill);
svr->Post("/embedding", handle_embeddings); // legacy
svr->Post("/embeddings", handle_embeddings);
svr->Post("/v1/embeddings", handle_embeddings_oai);
svr->Post("/rerank", handle_rerank);
svr->Post("/reranking", handle_rerank);
svr->Post("/v1/rerank", handle_rerank);
svr->Post("/v1/reranking", handle_rerank);
svr->Post("/tokenize", handle_tokenize);
svr->Post("/detokenize", handle_detokenize);
svr->Post("/apply-template", handle_apply_template);
// LoRA adapters hotswap
svr->Get ("/lora-adapters", handle_lora_adapters_list);
svr->Post("/lora-adapters", handle_lora_adapters_apply);
// Save & load slots
svr->Get ("/slots", handle_slots);
svr->Post("/slots/:id_slot", handle_slots_action);
//
// Start the server
//
if (params.n_threads_http < 1) {
// +2 threads for monitoring endpoints
params.n_threads_http = std::max(params.n_parallel + 2, (int32_t) std::thread::hardware_concurrency() - 1);
}
log_data["n_threads_http"] = std::to_string(params.n_threads_http);
svr->new_task_queue = [¶ms] { return new httplib::ThreadPool(params.n_threads_http); };
// clean up function, to be called before exit
auto clean_up = [&svr]() {
SRV_INF("%s: cleaning up before exit...\n", __func__);
svr->stop();
llama_backend_free();
};
// bind HTTP listen port
bool was_bound = false;
if (params.port == 0) {
int bound_port = svr->bind_to_any_port(params.hostname);
if ((was_bound = (bound_port >= 0))) {
params.port = bound_port;
}
} else {
was_bound = svr->bind_to_port(params.hostname, params.port);
}
if (!was_bound) {
LOG_ERR("%s: couldn't bind HTTP server socket, hostname: %s, port: %d\n", __func__, params.hostname.c_str(), params.port);
clean_up();
return 1;
}
// run the HTTP server in a thread
std::thread t([&]() { svr->listen_after_bind(); });
svr->wait_until_ready();
LOG_INF("%s: HTTP server is listening, hostname: %s, port: %d, http threads: %d\n", __func__, params.hostname.c_str(), params.port, params.n_threads_http);
// load the model
LOG_INF("%s: loading model\n", __func__);
if (!ctx_server.load_model(params)) {
clean_up();
// t.join(); // FIXME: see below
LOG_ERR("%s: exiting due to model loading error\n", __func__);
return 1;
}
ctx_server.init();
state.store(SERVER_STATE_READY);
LOG_INF("%s: model loaded\n", __func__);
// print sample chat example to make it clear which template is used
LOG_INF("%s: chat template, chat_template: %s, example_format: '%s'\n", __func__,
ctx_server.chat_templates.template_default->source().c_str(),
common_chat_format_example(*ctx_server.chat_templates.template_default, ctx_server.params_base.use_jinja).c_str());
ctx_server.queue_tasks.on_new_task([&ctx_server](const server_task & task) {
ctx_server.process_single_task(task);
});
ctx_server.queue_tasks.on_update_slots([&ctx_server]() {
ctx_server.update_slots();
});
shutdown_handler = [&](int) {
// this will unblock start_loop()
ctx_server.queue_tasks.terminate();
};
#if defined (__unix__) || (defined (__APPLE__) && defined (__MACH__))
struct sigaction sigint_action;
sigint_action.sa_handler = signal_handler;
sigemptyset (&sigint_action.sa_mask);
sigint_action.sa_flags = 0;
sigaction(SIGINT, &sigint_action, NULL);
sigaction(SIGTERM, &sigint_action, NULL);
#elif defined (_WIN32)
auto console_ctrl_handler = +[](DWORD ctrl_type) -> BOOL {
return (ctrl_type == CTRL_C_EVENT) ? (signal_handler(SIGINT), true) : false;
};
SetConsoleCtrlHandler(reinterpret_cast<PHANDLER_ROUTINE>(console_ctrl_handler), true);
#endif
LOG_INF("%s: server is listening on http://%s:%d - starting the main loop\n", __func__, params.hostname.c_str(), params.port);
// this call blocks the main thread until queue_tasks.terminate() is called
ctx_server.queue_tasks.start_loop();
clean_up();
// t.join(); // FIXME: http thread may stuck if there is an on-going request. we don't need to care about this for now as the HTTP connection will already be closed at this point, but it's better to fix this
return 0;
}
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