#!/usr/bin/env python3 """Dependency-free OpenAI-compatible HTTP gateway for the colibri engine.""" import argparse import codecs import collections import contextlib import json import math import os import select import queue import signal import socket import subprocess import sys import threading import time import uuid from http.server import BaseHTTPRequestHandler, ThreadingHTTPServer from pathlib import Path from urllib.parse import unquote, urlsplit HERE = Path(__file__).resolve().parent END = b"\x01\x01END\x01\x01\n" READY = b"\x01\x01READY\x01\x01\n" MAX_BODY = 4 << 20 DEFAULT_CORS_ORIGINS = ( "http://127.0.0.1:5173", "http://localhost:5173", "http://tauri.localhost", "tauri://localhost", ) class APIError(Exception): def __init__(self, status, message, param=None, code=None, error_type="invalid_request_error", headers=None): super().__init__(message) self.status = status self.message = message self.param = param self.code = code self.error_type = error_type self.headers = headers or {} class ClientCancelled(Exception): pass def error_object(error): return {"error": {"message": error.message, "type": error.error_type, "param": error.param, "code": error.code}} class GenerationScheduler: """Bounded FIFO admission for the engine's independent KV contexts.""" def __init__(self, max_queue=8, queue_timeout=300, capacity=1): if max_queue < 0: raise ValueError("max_queue cannot be negative") if queue_timeout <= 0: raise ValueError("queue_timeout must be positive") if capacity < 1: raise ValueError("capacity must be positive") self.max_queue = max_queue self.queue_timeout = queue_timeout self.capacity = capacity self.free_slots = set(range(capacity)) self.condition = threading.Condition() self.queue = collections.deque() self.active = 0 self.closed = False self.admitted = 0 self.completed = 0 self.rejected = 0 self.timed_out = 0 self.cancelled = 0 @contextlib.contextmanager def admit(self, cancelled=None, slot=None): ticket = object() queued_at = time.monotonic() with self.condition: if self.closed: raise APIError(503, "The inference scheduler is shutting down.", None, "scheduler_closed", "server_error") if (self.active >= self.capacity or self.queue) and len(self.queue) >= self.max_queue: self.rejected += 1 raise APIError(429, "The inference queue is full.", None, "queue_full", "rate_limit_error", {"Retry-After": "1"}) self.queue.append(ticket) deadline = queued_at + self.queue_timeout while True: if self.closed: self.queue.remove(ticket) self.condition.notify_all() raise APIError(503, "The inference scheduler is shutting down.", None, "scheduler_closed", "server_error") available = min(self.free_slots) if slot is None and self.free_slots else slot if self.queue[0] is ticket and available in self.free_slots: break if cancelled and cancelled(): self.queue.remove(ticket) self.cancelled += 1 self.condition.notify_all() raise ClientCancelled() remaining = deadline - time.monotonic() if remaining <= 0: self.queue.remove(ticket) self.timed_out += 1 self.condition.notify_all() raise APIError(429, "Timed out waiting for the inference engine.", None, "queue_timeout", "rate_limit_error", {"Retry-After": "1"}) self.condition.wait(min(remaining, 0.25)) self.queue.popleft() self.free_slots.remove(available) self.active += 1 self.admitted += 1 wait_seconds = time.monotonic() - queued_at try: yield wait_seconds, available finally: with self.condition: self.active -= 1 self.free_slots.add(available) self.completed += 1 self.condition.notify_all() def snapshot(self): with self.condition: return {"active": self.active, "queued": len(self.queue), "capacity": self.capacity, "max_queue": self.max_queue, "queue_timeout_seconds": self.queue_timeout, "admitted": self.admitted, "completed": self.completed, "rejected": self.rejected, "timed_out": self.timed_out, "cancelled": self.cancelled} def close(self): with self.condition: self.closed = True self.condition.notify_all() def content_text(content, param): if isinstance(content, str): return content if not isinstance(content, list): raise APIError(400, "Message content must be a string or an array of text parts.", param) parts = [] for index, part in enumerate(content): if not isinstance(part, dict) or part.get("type") not in ("text", "input_text"): raise APIError(400, "Colibri currently supports text message content only.", f"{param}.{index}", "unsupported_content_type") if not isinstance(part.get("text"), str): raise APIError(400, "Text content parts require a string `text` field.", f"{param}.{index}.text") parts.append(part["text"]) return "".join(parts) # ---- GLM-5.2 tool calling ----------------------------------------------------------------- # The model expresses tool calls as ordinary text (from chat_template.jinja): # {name}{k}{v}... # and tool results come back as <|observation|>{content}. # We render those markers into the prompt and parse them back into OpenAI `tool_calls`. import re BOX_START, BOX_END = "", "" TR_OPEN, TR_CLOSE = "", "" THINK_OPEN, THINK_CLOSE = "", "" _BOX_RE = re.compile(re.escape(BOX_START) + r"(.*?)" + re.escape(BOX_END), re.DOTALL) _ARG_RE = re.compile(r"([^<]*)(.*?)", re.DOTALL) _NAME_RE = re.compile(r"\s*([A-Za-z0-9_.\-]+)") _TAG_RE = re.compile(r"|") # De-mangler: opt-in recovery for heavily-quantized models that drop the # K structure. Default OFF (never rewrites well-formed output). _SALVAGE = os.environ.get("COLI_TOOL_SALVAGE", "0") == "1" def _tool_param_order(tools): """name -> ordered param names (required first) from the request schema, for de-mangling.""" out = {} for tool in (tools or []): fn = tool.get("function", tool) if isinstance(tool, dict) else {} name = fn.get("name") if not name: continue params = ((fn.get("parameters") or {}).get("properties") or {}) required = list((fn.get("parameters") or {}).get("required") or []) out[name] = required + [p for p in params if p not in required] return out def _tool_param_types(tools): """name -> {param: declared JSON-schema type}. The model emits every argument as text; without the schema a string-typed value that happens to look numeric ("12345" for an order id, an SKU, a phone number) would be json.loads()'d into an int and the tool would receive the wrong type.""" out = {} for tool in (tools or []): fn = tool.get("function", tool) if isinstance(tool, dict) else {} name = fn.get("name") if not name: continue props = ((fn.get("parameters") or {}).get("properties") or {}) types = {} for key, spec in props.items(): if isinstance(spec, dict): t = spec.get("type") if isinstance(t, list): # {"type": ["string", "null"]} t = next((x for x in t if x != "null"), None) types[key] = t out[name] = types return out def _coerce_arg(value, declared): """Decode a raw according to the declared schema type. A string-typed parameter is kept verbatim -- never parsed as JSON. Everything else keeps the previous permissive behaviour (parse if it parses, otherwise leave as text).""" if declared == "string": return value try: parsed = json.loads(value) except (json.JSONDecodeError, TypeError): return value if declared in ("integer", "number") and isinstance(parsed, bool): return value # `true` is not a number if declared and declared not in ("integer", "number", "boolean", "object", "array"): return value return parsed def parse_tool_calls(reply, tools=None): """Return (content, tool_calls). Strict GLM parse; optional de-mangler (COLI_TOOL_SALVAGE=1) rescues malformed int4 output by mapping a lone payload onto the tool's primary parameter.""" param_order = _tool_param_order(tools) param_types = _tool_param_types(tools) calls, salvaged = [], [] for match in _BOX_RE.finditer(reply): inner = match.group(1) name_match = _NAME_RE.match(inner) name = name_match.group(1) if name_match else inner.strip() args = {} types = param_types.get(name, {}) for arg in _ARG_RE.finditer(inner): key, value = arg.group(1), arg.group(2) args[key] = _coerce_arg(value, types.get(key)) if not args and _SALVAGE: rest = inner[name_match.end():] if name_match else "" payload = _TAG_RE.sub("", rest).strip() if payload.startswith("(") and payload.endswith(")"): payload = payload[1:-1].strip() if payload: key = (param_order.get(name) or ["input"])[0] try: payload = json.loads(payload) except (json.JSONDecodeError, TypeError, ValueError): pass args = {key: payload} salvaged.append(name) calls.append({"id": "call_" + uuid.uuid4().hex[:24], "type": "function", "function": {"name": name, "arguments": json.dumps(args, ensure_ascii=False)}}) text = _BOX_RE.sub("", reply) if THINK_CLOSE in text: text = text.split(THINK_CLOSE, 1)[1] text = text.replace(THINK_OPEN, "").replace(THINK_CLOSE, "") if calls: dm = len(salvaged) sys.stderr.write("[api] tool-calls: %d total, %d strict, %d de-mangled [%s]%s\n" % (len(calls), len(calls) - dm, dm, "CLEAN" if dm == 0 else "DE-MANGLED", (" -> " + ", ".join(salvaged)) if dm else "")) sys.stderr.flush() return text.strip(), calls def render_chat(messages, enable_thinking=False, reasoning_effort=None, tools=None, tool_choice=None): """Render the text-only subset of the official GLM-5.2 chat template.""" if not isinstance(messages, list) or not messages: raise APIError(400, "`messages` must be a non-empty array.", "messages") prompt = ["[gMASK]"] if enable_thinking: effort = "High" if reasoning_effort == "high" else "Max" prompt.append(f"<|system|>Reasoning Effort: {effort}") forced = None if isinstance(tool_choice, dict): forced = ((tool_choice.get("function") or {}).get("name") or tool_choice.get("name")) if forced: tools = [t for t in (tools or []) if ((t.get("function", t) if isinstance(t, dict) else {}).get("name") == forced)] elif tool_choice == "none": tools = None # the client forbade tools: do not offer them if tools: # AUTHORITATIVE GLM-5.2 tool-declaration block (byte-matches chat_template.jinja): the # `# Tools` + XML structure is what the model was trained on. A made-up # preamble makes it hallucinate other frameworks' syntax (e.g. `end_action`). prompt.append("<|system|>\n# Tools\n\nYou may call one or more functions to assist with the " "user query.\n\nYou are provided with function signatures within " "XML tags:\n\n") for tool in tools: fn = tool.get("function", tool) if isinstance(tool, dict) else {} clean = {k: v for k, v in fn.items() if k not in ("defer_loading", "strict")} prompt.append(json.dumps(clean, ensure_ascii=False) + "\n") prompt.append("\n\nFor each function call, output the function name and arguments " "within the following XML format:\n{function-name}" "{arg-key-1}{arg-value-1}" "{arg-key-2}{arg-value-2}...") if forced: prompt.append(f"\n\nYou must call the function `{forced}`. Do not answer directly.") elif tool_choice == "required": prompt.append("\n\nYou must call one of the functions above. Do not answer directly.") prev_tool = False for index, message in enumerate(messages): if not isinstance(message, dict): raise APIError(400, "Each message must be an object.", f"messages.{index}") role = message.get("role") if role in ("system", "developer"): prompt.append(f"<|system|>{content_text(message.get('content'), f'messages.{index}.content')}") elif role == "user": prompt.append(f"<|user|>{content_text(message.get('content'), f'messages.{index}.content')}") elif role == "assistant": # content may be null when the message is purely tool_calls raw = message.get("content") text = content_text(raw, f"messages.{index}.content") if raw is not None else "" prompt.append(f"<|assistant|>{text.strip()}") for tc in (message.get("tool_calls") or []): fn = tc.get("function", tc) if isinstance(tc, dict) else {} args = fn.get("arguments", "{}") if isinstance(args, str): try: args = json.loads(args) except (json.JSONDecodeError, TypeError): args = {} prompt.append(BOX_START + (fn.get("name") or "")) for key, value in (args or {}).items(): prompt.append(f"{key}" + (value if isinstance(value, str) else json.dumps(value, ensure_ascii=False)) + "") prompt.append(BOX_END) elif role == "tool": if not prev_tool: # one <|observation|> per consecutive tool run prompt.append("<|observation|>") prompt.append(TR_OPEN + content_text(message.get("content"), f"messages.{index}.content") + TR_CLOSE) else: raise APIError(400, f"Unsupported message role: {role!r}.", f"messages.{index}.role", "unsupported_role") prev_tool = (role == "tool") prompt.append('<|assistant|>' if not enable_thinking else '<|assistant|>') return "".join(prompt) def generation_options(body, limit): if body.get("n", 1) != 1: raise APIError(400, "Colibri currently supports `n=1` only.", "n", "unsupported_value") # `tools`/`functions` are handled by render_chat (declaration) + parse_tool_calls (output). choice = body.get("tool_choice") if choice is not None: if isinstance(choice, str): if choice not in ("auto", "none", "required"): raise APIError(400, "`tool_choice` must be one of \"auto\", \"none\", \"required\", " "or a function object.", "tool_choice", "unsupported_value") elif isinstance(choice, dict): name = (choice.get("function") or {}).get("name") or choice.get("name") if not name: raise APIError(400, "`tool_choice` function object must include a name.", "tool_choice", "invalid_value") declared = [(t.get("function", t) if isinstance(t, dict) else {}).get("name") for t in (body.get("tools") or body.get("functions") or [])] if name not in declared: raise APIError(400, f"`tool_choice` names {name!r}, which is not in `tools`.", "tool_choice", "invalid_value") else: raise APIError(400, "`tool_choice` must be a string or a function object.", "tool_choice", "invalid_value") if choice != "none" and not (body.get("tools") or body.get("functions")): raise APIError(400, "`tool_choice` requires `tools`.", "tool_choice", "invalid_value") if body.get("stop") is not None: raise APIError(400, "Custom stop sequences are not supported yet.", "stop", "unsupported_parameter") if body.get("logprobs"): raise APIError(400, "Log probabilities are not supported yet.", "logprobs", "unsupported_parameter") if body.get("frequency_penalty", 0) or body.get("presence_penalty", 0): raise APIError(400, "Token penalties are not supported yet.", None, "unsupported_parameter") if body.get("seed") is not None: raise APIError(400, "Per-request seeds are not supported yet.", "seed", "unsupported_parameter") response_format = body.get("response_format") if response_format not in (None, {"type": "text"}): raise APIError(400, "Only the default text response format is supported.", "response_format", "unsupported_parameter") maximum = body.get("max_completion_tokens") maximum_param = "max_completion_tokens" if maximum is None: maximum = body.get("max_tokens") maximum_param = "max_tokens" if maximum is None: maximum = min(256, limit) temperature = body.get("temperature") top_p = body.get("top_p") temperature = 0.7 if temperature is None else temperature top_p = 0.9 if top_p is None else top_p if isinstance(maximum, bool) or not isinstance(maximum, int) or not 1 <= maximum <= limit: raise APIError(400, f"`{maximum_param}` must be an integer between 1 and {limit}.", maximum_param) if (isinstance(temperature, bool) or not isinstance(temperature, (int, float)) or not math.isfinite(temperature) or not 0 <= temperature <= 2): raise APIError(400, "`temperature` must be between 0 and 2.", "temperature") if (isinstance(top_p, bool) or not isinstance(top_p, (int, float)) or not math.isfinite(top_p) or not 0 < top_p <= 1): raise APIError(400, "`top_p` must be greater than 0 and at most 1.", "top_p") return maximum, float(temperature), float(top_p) def read_engine_turn(stream, sentinel, on_bytes): pending = b"" while True: byte = stream.read(1) if byte == b"": raise RuntimeError("colibri engine exited unexpectedly") pending += byte if pending.endswith(sentinel): data = pending[:-len(sentinel)] if data: on_bytes(data) break if len(pending) > len(sentinel): on_bytes(pending[:-len(sentinel)]) pending = pending[-len(sentinel):] fields = stream.readline().decode("utf-8", "replace").strip().split() if len(fields) < 5 or fields[0] != "STAT": raise RuntimeError(f"invalid engine status: {' '.join(fields)}") return { "completion_tokens": int(fields[1]), "tokens_per_second": float(fields[2]), "cache_hit_percent": float(fields[3]), "rss_gb": float(fields[4]), "prompt_tokens": int(fields[5]) if len(fields) > 5 else 0, "length_limited": bool(int(fields[6])) if len(fields) > 6 else False, } class Engine: def __init__(self, executable, model, cap=8, max_tokens=1024, env=None, kv_slots=1): child_env = dict(env or os.environ, SNAP=str(model), SERVE="1", SERVE_BATCH="1", NGEN=str(max_tokens), KV_SLOTS=str(kv_slots)) self.process = subprocess.Popen( [str(executable), str(cap)], env=child_env, stdin=subprocess.PIPE, stdout=subprocess.PIPE, bufsize=0, ) self.write_lock = threading.Lock() self.pending_lock = threading.Lock() self.pending = {} self.next_request_id = 1 self.closed = False self.dispatcher_error = None self.kv_slots = kv_slots read_engine_turn(self.process.stdout, READY, lambda _: None) self.dispatcher = threading.Thread(target=self._dispatch_stdout, name="colibri-stdout", daemon=True) self.dispatcher.start() @staticmethod def _stats(fields): if len(fields) < 5 or fields[0] != "STAT": raise RuntimeError(f"invalid engine status: {' '.join(fields)}") return { "completion_tokens": int(fields[1]), "tokens_per_second": float(fields[2]), "cache_hit_percent": float(fields[3]), "rss_gb": float(fields[4]), "prompt_tokens": int(fields[5]) if len(fields) > 5 else 0, "length_limited": bool(int(fields[6])) if len(fields) > 6 else False, } def _fail_pending(self, error): with self.pending_lock: requests = list(self.pending.values()) self.pending.clear() for events in requests: events.put(("error", error)) def _read_exact(self, size): chunks = [] remaining = size while remaining: chunk = self.process.stdout.read(remaining) if chunk == b"": raise RuntimeError("truncated engine DATA payload") chunks.append(chunk) remaining -= len(chunk) return b"".join(chunks) def _dispatch_stdout(self): try: while True: line = self.process.stdout.readline() if line == b"": raise RuntimeError("colibri engine exited unexpectedly") fields = line.decode("utf-8", "replace").strip().split() if not fields: continue kind = fields[0] if kind == "DATA" and len(fields) == 3: request_id = fields[1] size = int(fields[2]) if not 0 <= size <= 65536: raise RuntimeError("invalid engine DATA size") data = self._read_exact(size) if self._read_exact(1) != b"\n": raise RuntimeError("invalid engine DATA terminator") with self.pending_lock: events = self.pending.get(request_id) if events is not None: events.put(("data", data)) elif kind == "DONE" and len(fields) >= 7: request_id = fields[1] stats = self._stats(fields[2:]) with self.pending_lock: events = self.pending.pop(request_id, None) if events is not None: events.put(("done", stats)) elif kind == "ERROR" and len(fields) >= 2: request_id = fields[1] message = " ".join(fields[2:]) or "engine request failed" with self.pending_lock: events = self.pending.pop(request_id, None) if events is not None: events.put(("error", RuntimeError(message))) else: raise RuntimeError(f"invalid engine response: {' '.join(fields)}") except Exception as error: if not self.closed: self.dispatcher_error = error self._fail_pending(error) def generate(self, prompt, max_tokens, temperature, top_p, on_text, cache_slot=0, cancelled=None): if isinstance(cache_slot, bool) or not isinstance(cache_slot, int) or not 0 <= cache_slot < self.kv_slots: raise APIError(400, "Invalid cache slot.", "cache_slot") payload = prompt.encode("utf-8") if b"\0" in payload: raise APIError(400, "NUL bytes are not supported in prompts.", "messages") decoder = codecs.getincrementaldecoder("utf-8")("replace") def decode(data): text = decoder.decode(data) if text: on_text(text) events = queue.Queue() with self.pending_lock: if self.closed: raise RuntimeError("colibri engine is shutting down") if self.dispatcher_error is not None: raise RuntimeError("colibri engine dispatcher stopped") from self.dispatcher_error if self.process.poll() is not None: raise RuntimeError("colibri engine is not running") request_id = str(self.next_request_id) self.next_request_id += 1 self.pending[request_id] = events header = (f"SUBMIT {request_id} {cache_slot} {len(payload)} {max_tokens} " f"{temperature:.8g} {top_p:.8g}\n").encode() try: with self.write_lock: if self.process.poll() is not None: raise RuntimeError("colibri engine is not running") self.process.stdin.write(header + payload + b"\n") self.process.stdin.flush() except Exception: with self.pending_lock: self.pending.pop(request_id, None) raise cancel_sent = False while True: kind, value = events.get() if kind == "data": if not cancel_sent: decode(value) if cancelled and cancelled(): cancel_sent = True with self.write_lock: self.process.stdin.write(f"CANCEL {request_id}\n".encode()) self.process.stdin.flush() elif kind == "done": tail = decoder.decode(b"", final=True) if tail: on_text(tail) return value elif cancel_sent and isinstance(value, RuntimeError) and str(value) == "CANCELLED": raise ClientCancelled() else: raise value def close(self): with self.pending_lock: if self.closed: return self.closed = True self._fail_pending(RuntimeError("colibri engine is shutting down")) if self.process.poll() is None: self.process.terminate() try: self.process.wait(timeout=5) except subprocess.TimeoutExpired: self.process.kill() self.process.wait(timeout=5) if self.dispatcher is not threading.current_thread(): self.dispatcher.join(timeout=5) def model_object(model_id, created): return {"id": model_id, "object": "model", "created": created, "owned_by": "colibri"} class APIServer(ThreadingHTTPServer): daemon_threads = True def __init__(self, address, engine, model_id, api_key=None, max_tokens=1024, cors_origins=DEFAULT_CORS_ORIGINS, max_queue=8, queue_timeout=300, kv_slots=1): super().__init__(address, APIHandler) self.engine = engine self.model_id = model_id self.api_key = api_key self.max_tokens = max_tokens self.scheduler = GenerationScheduler(max_queue, queue_timeout, kv_slots) self.kv_slots = kv_slots self.cors_origins = tuple(cors_origins) self.created = int(time.time()) class APIHandler(BaseHTTPRequestHandler): protocol_version = "HTTP/1.1" server_version = "colibri" def log_message(self, fmt, *args): sys.stderr.write("[api] %s - %s\n" % (self.address_string(), fmt % args)) def send_json(self, status, body, request_id=None, headers=None): data = json.dumps(body, ensure_ascii=False, separators=(",", ":")).encode() self.send_response(status) self.send_header("Content-Type", "application/json") self.send_header("Content-Length", str(len(data))) if request_id: self.send_header("x-request-id", request_id) for name, value in (headers or {}).items(): self.send_header(name, value) self.send_cors_headers() self.end_headers() self.wfile.write(data) def send_cors_headers(self): origin = self.headers.get("Origin") if not origin or ("*" not in self.server.cors_origins and origin not in self.server.cors_origins): return self.send_header("Access-Control-Allow-Origin", "*" if "*" in self.server.cors_origins else origin) self.send_header("Access-Control-Allow-Methods", "GET, POST, OPTIONS") self.send_header("Access-Control-Allow-Headers", "Authorization, Content-Type") self.send_header("Access-Control-Expose-Headers", "x-request-id, x-colibri-queue-wait-ms, Retry-After") self.send_header("Access-Control-Max-Age", "600") if "*" not in self.server.cors_origins: self.send_header("Vary", "Origin") def require_auth(self): if self.server.api_key and self.headers.get("Authorization") != f"Bearer {self.server.api_key}": raise APIError(401, "Invalid or missing API key.", None, "invalid_api_key", "authentication_error") def read_json(self): try: length = int(self.headers.get("Content-Length", "0")) except ValueError: raise APIError(400, "Invalid Content-Length header.") if length < 1 or length > MAX_BODY: raise APIError(400, f"Request body must be between 1 and {MAX_BODY} bytes.") try: body = json.loads(self.rfile.read(length)) except (json.JSONDecodeError, UnicodeDecodeError): raise APIError(400, "Request body must be valid JSON.") if not isinstance(body, dict): raise APIError(400, "Request body must be a JSON object.") return body def check_model(self, body): model = body.get("model") if model != self.server.model_id: raise APIError(404, f"The model `{model}` does not exist.", "model", "model_not_found") def do_GET(self): request_id = "req_" + uuid.uuid4().hex try: path = urlsplit(self.path).path if path == "/health": self.send_json(200, {"status": "ok", "scheduler": self.server.scheduler.snapshot(), "kv_slots": self.server.kv_slots}, request_id) return self.require_auth() if path == "/v1/models": self.send_json(200, {"object": "list", "data": [model_object( self.server.model_id, self.server.created)]}, request_id) elif path.startswith("/v1/models/") and unquote(path[11:]) == self.server.model_id: self.send_json(200, model_object(self.server.model_id, self.server.created), request_id) else: raise APIError(404, "Not found.", None, "not_found") except APIError as error: self.send_json(error.status, error_object(error), request_id, error.headers) def do_OPTIONS(self): self.send_response(204) self.send_header("Content-Length", "0") self.send_cors_headers() self.end_headers() def do_POST(self): request_id = "req_" + uuid.uuid4().hex try: self.require_auth() body = self.read_json() self.check_model(body) path = urlsplit(self.path).path if path == "/v1/chat/completions": self.chat_completion(body, request_id) elif path == "/v1/completions": self.completion(body, request_id) else: raise APIError(404, "Not found.", None, "not_found") except APIError as error: self.send_json(error.status, error_object(error), request_id, error.headers) except ClientCancelled: pass except (BrokenPipeError, ConnectionResetError): pass except Exception as error: self.log_error("request failed: %s", error) api_error = APIError(500, "The colibri engine failed to process the request.", None, "engine_error", "server_error") try: self.send_json(500, error_object(api_error), request_id) except OSError: pass def generation(self, body, prompt, request_id, chat): maximum, temperature, top_p = generation_options(body, self.server.max_tokens) tools = (body.get("tools") or body.get("functions") or None) if chat else None if body.get("tool_choice") == "none": tools = None # client forbade tools: never surface tool_calls cache_slot = body.get("cache_slot") if (cache_slot is not None and (isinstance(cache_slot, bool) or not isinstance(cache_slot, int) or not 0 <= cache_slot < self.server.kv_slots)): raise APIError(400, f"`cache_slot` must be an integer between 0 and {self.server.kv_slots - 1}.", "cache_slot") stream = body.get("stream", False) if not isinstance(stream, bool): raise APIError(400, "`stream` must be a boolean.", "stream") stream_options = body.get("stream_options") if stream else None if stream and stream_options is not None and not isinstance(stream_options, dict): raise APIError(400, "`stream_options` must be an object.", "stream_options") include_usage = bool((stream_options or {}).get("include_usage")) object_name = "chat.completion" if chat else "text_completion" id_prefix = "chatcmpl-" if chat else "cmpl-" completion_id = id_prefix + uuid.uuid4().hex created = int(time.time()) with self.server.scheduler.admit(self.client_disconnected, cache_slot) as admission: queue_wait, cache_slot = admission queue_headers = {"x-colibri-queue-wait-ms": str(round(queue_wait * 1000))} if not stream: output = [] stats = self.server.engine.generate( prompt, maximum, temperature, top_p, output.append, cache_slot, self.client_disconnected) text = "".join(output) length_finish = "length" if stats["length_limited"] else "stop" if chat and tools: content, calls = parse_tool_calls(text, tools) message = {"role": "assistant", "content": content or None, "refusal": None} if calls: message["tool_calls"] = calls finish = "tool_calls" if calls else length_finish choice = {"index": 0, "message": message, "logprobs": None, "finish_reason": finish} else: choice = ({"index": 0, "message": {"role": "assistant", "content": text, "refusal": None}, "logprobs": None, "finish_reason": length_finish} if chat else {"index": 0, "text": text, "logprobs": None, "finish_reason": length_finish}) self.send_json(200, {"id": completion_id, "object": object_name, "created": created, "model": self.server.model_id, "choices": [choice], "usage": self.usage(stats)}, request_id, queue_headers) return stream_object = "chat.completion.chunk" if chat else object_name self.send_response(200) self.send_header("Content-Type", "text/event-stream") self.send_header("Cache-Control", "no-cache") self.send_header("X-Accel-Buffering", "no") self.send_header("x-request-id", request_id) for name, value in queue_headers.items(): self.send_header(name, value) self.send_cors_headers() self.end_headers() connected = True # KEEPALIVE: engine.generate() blocks SILENTLY during the (minutes-long) cold # prefill, and the client drops the socket after its idle timeout. A background pump # emits a reasoning_content "." delta (the channel that reliably resets the client's # timer and lands in the thinking panel, so answer content stays clean) whenever no # event has been written for KA_GAP seconds. All wfile writes share ka_lock so the # pump and event() never interleave; last_write gates the pump so it stays quiet # while real tokens are flowing (e.g. during decode). ka_lock = threading.Lock() last_write = [time.time()] ka_stop = threading.Event() KA_GAP = 10.0 dbg_echo = os.environ.get("COLI_DEBUG", "0") == "1" # tee decoded tokens to stderr def event(choices, usage_marker=False): nonlocal connected if not connected: return event_body = {"id": completion_id, "object": stream_object, "created": created, "model": self.server.model_id, "choices": choices} if include_usage: event_body["usage"] = None if not usage_marker else usage_marker data = json.dumps(event_body, ensure_ascii=False, separators=(",", ":")) with ka_lock: try: self.wfile.write(f"data: {data}\n\n".encode()) self.wfile.flush() last_write[0] = time.time() except OSError: connected = False def _keepalive(): ping = [{"index": 0, "delta": ({"reasoning_content": "."} if chat else {"content": ""}), "logprobs": None, "finish_reason": None}] while not ka_stop.wait(1.0): if not connected: return if time.time() - last_write[0] >= KA_GAP: event(ping) if chat: event([{"index": 0, "delta": {"role": "assistant", "content": ""}, "logprobs": None, "finish_reason": None}]) def emit(text): choice = ({"index": 0, "delta": {"content": text}, "logprobs": None, "finish_reason": None} if chat else {"index": 0, "text": text, "logprobs": None, "finish_reason": None}) event([choice]) ka_thread = threading.Thread(target=_keepalive, daemon=True) ka_thread.start() if chat and tools: # Suppress tool-call markers from the streamed content and parse the authoritative # calls from the FULL reply after generation. Hold back a marker-length tail so a # split across engine chunks is still caught. sp = {"buf": "", "tool": False} hold = len(BOX_START) - 1 raw = [] def emit_tools(chunk): raw.append(chunk) if dbg_echo: sys.stderr.write(chunk); sys.stderr.flush() if sp["tool"]: return sp["buf"] += chunk cut = sp["buf"].find(BOX_START) if cut >= 0: if cut: emit(sp["buf"][:cut]) sp["buf"] = "" sp["tool"] = True return flush = max(0, len(sp["buf"]) - hold) if flush: emit(sp["buf"][:flush]) sp["buf"] = sp["buf"][flush:] stats = self.server.engine.generate( prompt, maximum, temperature, top_p, emit_tools, cache_slot, lambda: not connected) if not sp["tool"] and sp["buf"]: emit(sp["buf"]) # no tool call happened: flush held tail _content, calls = parse_tool_calls("".join(raw), tools) for i, tc in enumerate(calls): event([{"index": 0, "delta": {"tool_calls": [{"index": i, "id": tc["id"], "type": "function", "function": {"name": tc["function"]["name"], "arguments": tc["function"]["arguments"]}}]}, "logprobs": None, "finish_reason": None}]) finish = "tool_calls" if calls else ("length" if stats["length_limited"] else "stop") else: def emit_plain(chunk): if dbg_echo: sys.stderr.write(chunk); sys.stderr.flush() emit(chunk) stats = self.server.engine.generate( prompt, maximum, temperature, top_p, emit_plain, cache_slot, lambda: not connected) finish = "length" if stats["length_limited"] else "stop" ka_stop.set() # generation done: stop the keepalive pump ka_thread.join(timeout=2) final_choice = ({"index": 0, "delta": {}, "logprobs": None, "finish_reason": finish} if chat else {"index": 0, "text": "", "logprobs": None, "finish_reason": finish}) event([final_choice]) if include_usage: event([], self.usage(stats)) if connected: try: self.wfile.write(b"data: [DONE]\n\n") self.wfile.flush() except OSError: pass self.close_connection = True def client_disconnected(self): try: readable, _, _ = select.select([self.connection], [], [], 0) if not readable: return False flags = socket.MSG_PEEK | getattr(socket, "MSG_DONTWAIT", 0) return self.connection.recv(1, flags) == b"" except (OSError, ValueError): return True @staticmethod def usage(stats): prompt = stats["prompt_tokens"] completion = stats["completion_tokens"] return {"prompt_tokens": prompt, "completion_tokens": completion, "total_tokens": prompt + completion} def chat_completion(self, body, request_id): reasoning_effort = body.get("reasoning_effort") efforts = (None, "none", "minimal", "low", "medium", "high", "xhigh") if reasoning_effort not in efforts: raise APIError(400, "`reasoning_effort` must be none, minimal, low, medium, high, or xhigh.", "reasoning_effort") # COLI_THINK=1 makes thinking the default when the client sends NEITHER reasoning_effort # nor enable_thinking (a global switch, like the old server's --think). An explicit # client value always wins. Default off => exact OpenAI-standard behavior. if (reasoning_effort is None and "enable_thinking" not in body and os.environ.get("COLI_THINK", "0") == "1"): reasoning_effort = "high" enable_thinking = False # FORCED OFF by Cody if not isinstance(enable_thinking, bool): raise APIError(400, "`enable_thinking` must be a boolean.", "enable_thinking") tools = body.get("tools") or body.get("functions") or None prompt = render_chat(body.get("messages"), enable_thinking, reasoning_effort, tools, body.get("tool_choice")) self.generation(body, prompt, request_id, True) def completion(self, body, request_id): prompt = body.get("prompt") if not isinstance(prompt, str): raise APIError(400, "Colibri currently requires `prompt` to be a string.", "prompt") self.generation(body, prompt, request_id, False) def serve(model, host="127.0.0.1", port=8000, model_id="glm-5.2-colibri", api_key=None, cap=8, max_tokens=1024, engine=HERE / "glm", env=None, cors_origins=None, max_queue=8, queue_timeout=300, kv_slots=1): if not 1 <= max_tokens: raise ValueError("max_tokens must be positive") if not 1 <= port <= 65535: raise ValueError("port must be between 1 and 65535") if max_queue < 0: raise ValueError("max_queue cannot be negative") if queue_timeout <= 0: raise ValueError("queue_timeout must be positive") if not 1 <= kv_slots <= 16: raise ValueError("kv_slots must be between 1 and 16") if host not in ("127.0.0.1", "localhost", "::1") and not api_key: print("WARNING: API is listening beyond localhost without COLI_API_KEY", file=sys.stderr) origins = DEFAULT_CORS_ORIGINS if cors_origins is None else tuple(cors_origins) # Bind before starting the 744B engine. A stale/occupied port must fail in # milliseconds rather than loading hundreds of GB and leaking a child. server = APIServer((host, port), None, model_id, api_key, max_tokens, origins, max_queue, queue_timeout, kv_slots) runtime = None previous_sigterm = signal.getsignal(signal.SIGTERM) try: runtime = Engine(engine,model,cap,max_tokens,env,kv_slots) server.engine = runtime print(f"OpenAI-compatible API listening on http://{host}:{port}/v1", file=sys.stderr) signal.signal(signal.SIGTERM, lambda *_: threading.Thread(target=server.shutdown, daemon=True).start()) server.serve_forever() finally: signal.signal(signal.SIGTERM, previous_sigterm) server.scheduler.close() server.server_close() if runtime is not None: runtime.close() def main(): parser = argparse.ArgumentParser(description=__doc__) parser.add_argument("--model", default=os.environ.get("COLI_MODEL"), required=not os.environ.get("COLI_MODEL")) parser.add_argument("--engine", default=str(HERE / "glm")) parser.add_argument("--host", default="127.0.0.1") parser.add_argument("--port", type=int, default=8000) parser.add_argument("--model-id", default=os.environ.get("COLI_MODEL_ID", "glm-5.2-colibri")) parser.add_argument("--api-key", default=os.environ.get("COLI_API_KEY")) parser.add_argument("--cors-origin", action="append", default=None, help="allowed browser origin; repeat as needed (use '*' for any origin)") parser.add_argument("--cap", type=int, default=8) parser.add_argument("--max-tokens", type=int, default=1024) parser.add_argument("--max-queue", type=int, default=int(os.environ.get("COLI_MAX_QUEUE", "8"))) parser.add_argument("--queue-timeout", type=float, default=float(os.environ.get("COLI_QUEUE_TIMEOUT", "300"))) parser.add_argument("--kv-slots", type=int, default=int(os.environ.get("COLI_KV_SLOTS", "1"))) args = parser.parse_args() serve(args.model, args.host, args.port, args.model_id, args.api_key, args.cap,args.max_tokens,args.engine,cors_origins=args.cors_origin, max_queue=args.max_queue,queue_timeout=args.queue_timeout,kv_slots=args.kv_slots) if __name__ == "__main__": main()