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utils.py
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import functools
import os
import signal
import subprocess
import sys
import time
import warnings
from contextlib import contextmanager
from pathlib import Path
from typing import Any, Callable, Dict, List, Optional
import openai
import ray
import requests
from transformers import AutoTokenizer
from typing_extensions import ParamSpec
from vllm.distributed import (ensure_model_parallel_initialized,
init_distributed_environment)
from vllm.entrypoints.openai.cli_args import make_arg_parser
from vllm.utils import FlexibleArgumentParser, get_open_port, is_hip
if is_hip():
from amdsmi import (amdsmi_get_gpu_vram_usage,
amdsmi_get_processor_handles, amdsmi_init,
amdsmi_shut_down)
@contextmanager
def _nvml():
try:
amdsmi_init()
yield
finally:
amdsmi_shut_down()
else:
from pynvml import (nvmlDeviceGetHandleByIndex, nvmlDeviceGetMemoryInfo,
nvmlInit, nvmlShutdown)
@contextmanager
def _nvml():
try:
nvmlInit()
yield
finally:
nvmlShutdown()
VLLM_PATH = Path(__file__).parent.parent
"""Path to root of the vLLM repository."""
class RemoteOpenAIServer:
DUMMY_API_KEY = "token-abc123" # vLLM's OpenAI server does not need API key
MAX_START_WAIT_S = 120 # wait for server to start for 120 seconds
def __init__(
self,
model: str,
cli_args: List[str],
*,
env_dict: Optional[Dict[str, str]] = None,
auto_port: bool = True,
) -> None:
if auto_port:
if "-p" in cli_args or "--port" in cli_args:
raise ValueError("You have manually specified the port"
"when `auto_port=True`.")
cli_args = cli_args + ["--port", str(get_open_port())]
parser = FlexibleArgumentParser(
description="vLLM's remote OpenAI server.")
parser = make_arg_parser(parser)
args = parser.parse_args(cli_args)
self.host = str(args.host or 'localhost')
self.port = int(args.port)
env = os.environ.copy()
# the current process might initialize cuda,
# to be safe, we should use spawn method
env['VLLM_WORKER_MULTIPROC_METHOD'] = 'spawn'
if env_dict is not None:
env.update(env_dict)
self.proc = subprocess.Popen(["vllm", "serve"] + [model] + cli_args,
env=env,
stdout=sys.stdout,
stderr=sys.stderr)
self._wait_for_server(url=self.url_for("health"),
timeout=self.MAX_START_WAIT_S)
def __enter__(self):
return self
def __exit__(self, exc_type, exc_value, traceback):
self.proc.terminate()
try:
self.proc.wait(3)
except subprocess.TimeoutExpired:
# force kill if needed
self.proc.kill()
def _wait_for_server(self, *, url: str, timeout: float):
# run health check
start = time.time()
while True:
try:
if requests.get(url).status_code == 200:
break
except Exception as err:
result = self.proc.poll()
if result is not None and result != 0:
raise RuntimeError("Server exited unexpectedly.") from err
time.sleep(0.5)
if time.time() - start > timeout:
raise RuntimeError(
"Server failed to start in time.") from err
@property
def url_root(self) -> str:
return f"http://{self.host}:{self.port}"
def url_for(self, *parts: str) -> str:
return self.url_root + "/" + "/".join(parts)
def get_client(self):
return openai.OpenAI(
base_url=self.url_for("v1"),
api_key=self.DUMMY_API_KEY,
)
def get_async_client(self):
return openai.AsyncOpenAI(
base_url=self.url_for("v1"),
api_key=self.DUMMY_API_KEY,
)
def compare_two_settings(model: str,
arg1: List[str],
arg2: List[str],
env1: Optional[Dict[str, str]] = None,
env2: Optional[Dict[str, str]] = None):
"""
Launch API server with two different sets of arguments/environments
and compare the results of the API calls.
Args:
model: The model to test.
arg1: The first set of arguments to pass to the API server.
arg2: The second set of arguments to pass to the API server.
env1: The first set of environment variables to pass to the API server.
env2: The second set of environment variables to pass to the API server.
"""
tokenizer = AutoTokenizer.from_pretrained(model)
prompt = "Hello, my name is"
token_ids = tokenizer(prompt)["input_ids"]
results = []
for args, env in ((arg1, env1), (arg2, env2)):
with RemoteOpenAIServer(model, args, env_dict=env) as server:
client = server.get_client()
# test models list
models = client.models.list()
models = models.data
served_model = models[0]
results.append({
"test": "models_list",
"id": served_model.id,
"root": served_model.root,
})
# test with text prompt
completion = client.completions.create(model=model,
prompt=prompt,
max_tokens=5,
temperature=0.0)
results.append({
"test": "single_completion",
"text": completion.choices[0].text,
"finish_reason": completion.choices[0].finish_reason,
"usage": completion.usage,
})
# test using token IDs
completion = client.completions.create(
model=model,
prompt=token_ids,
max_tokens=5,
temperature=0.0,
)
results.append({
"test": "token_ids",
"text": completion.choices[0].text,
"finish_reason": completion.choices[0].finish_reason,
"usage": completion.usage,
})
# test seeded random sampling
completion = client.completions.create(model=model,
prompt=prompt,
max_tokens=5,
seed=33,
temperature=1.0)
results.append({
"test": "seeded_sampling",
"text": completion.choices[0].text,
"finish_reason": completion.choices[0].finish_reason,
"usage": completion.usage,
})
# test seeded random sampling with multiple prompts
completion = client.completions.create(model=model,
prompt=[prompt, prompt],
max_tokens=5,
seed=33,
temperature=1.0)
results.append({
"test":
"seeded_sampling",
"text": [choice.text for choice in completion.choices],
"finish_reason":
[choice.finish_reason for choice in completion.choices],
"usage":
completion.usage,
})
# test simple list
batch = client.completions.create(
model=model,
prompt=[prompt, prompt],
max_tokens=5,
temperature=0.0,
)
results.append({
"test": "simple_list",
"text0": batch.choices[0].text,
"text1": batch.choices[1].text,
})
# test streaming
batch = client.completions.create(
model=model,
prompt=[prompt, prompt],
max_tokens=5,
temperature=0.0,
stream=True,
)
texts = [""] * 2
for chunk in batch:
assert len(chunk.choices) == 1
choice = chunk.choices[0]
texts[choice.index] += choice.text
results.append({
"test": "streaming",
"texts": texts,
})
n = len(results) // 2
arg1_results = results[:n]
arg2_results = results[n:]
for arg1_result, arg2_result in zip(arg1_results, arg2_results):
assert arg1_result == arg2_result, (
f"Results for {model=} are not the same with {arg1=} and {arg2=}. "
f"{arg1_result=} != {arg2_result=}")
def init_test_distributed_environment(
tp_size: int,
pp_size: int,
rank: int,
distributed_init_port: str,
local_rank: int = -1,
) -> None:
distributed_init_method = f"tcp://localhost:{distributed_init_port}"
init_distributed_environment(
world_size=pp_size * tp_size,
rank=rank,
distributed_init_method=distributed_init_method,
local_rank=local_rank)
ensure_model_parallel_initialized(tp_size, pp_size)
def multi_process_parallel(
tp_size: int,
pp_size: int,
test_target: Any,
) -> None:
# Using ray helps debugging the error when it failed
# as compared to multiprocessing.
# NOTE: We need to set working_dir for distributed tests,
# otherwise we may get import errors on ray workers
ray.init(runtime_env={"working_dir": VLLM_PATH})
distributed_init_port = get_open_port()
refs = []
for rank in range(tp_size * pp_size):
refs.append(
test_target.remote(tp_size, pp_size, rank, distributed_init_port))
ray.get(refs)
ray.shutdown()
@contextmanager
def error_on_warning():
"""
Within the scope of this context manager, tests will fail if any warning
is emitted.
"""
with warnings.catch_warnings():
warnings.simplefilter("error")
yield
@_nvml()
def wait_for_gpu_memory_to_clear(devices: List[int],
threshold_bytes: int,
timeout_s: float = 120) -> None:
# Use nvml instead of pytorch to reduce measurement error from torch cuda
# context.
start_time = time.time()
while True:
output: Dict[int, str] = {}
output_raw: Dict[int, float] = {}
for device in devices:
if is_hip():
dev_handle = amdsmi_get_processor_handles()[device]
mem_info = amdsmi_get_gpu_vram_usage(dev_handle)
gb_used = mem_info["vram_used"] / 2**10
else:
dev_handle = nvmlDeviceGetHandleByIndex(device)
mem_info = nvmlDeviceGetMemoryInfo(dev_handle)
gb_used = mem_info.used / 2**30
output_raw[device] = gb_used
output[device] = f'{gb_used:.02f}'
print('gpu memory used (GB): ', end='')
for k, v in output.items():
print(f'{k}={v}; ', end='')
print('')
dur_s = time.time() - start_time
if all(v <= (threshold_bytes / 2**30) for v in output_raw.values()):
print(f'Done waiting for free GPU memory on devices {devices=} '
f'({threshold_bytes/2**30=}) {dur_s=:.02f}')
break
if dur_s >= timeout_s:
raise ValueError(f'Memory of devices {devices=} not free after '
f'{dur_s=:.02f} ({threshold_bytes/2**30=})')
time.sleep(5)
_P = ParamSpec("_P")
def fork_new_process_for_each_test(
f: Callable[_P, None]) -> Callable[_P, None]:
"""Decorator to fork a new process for each test function.
See https://github.com/vllm-project/vllm/issues/7053 for more details.
"""
@functools.wraps(f)
def wrapper(*args: _P.args, **kwargs: _P.kwargs) -> None:
# Make the process the leader of its own process group
# to avoid sending SIGTERM to the parent process
os.setpgrp()
from _pytest.outcomes import Skipped
pid = os.fork()
if pid == 0:
try:
f(*args, **kwargs)
except Skipped as e:
# convert Skipped to exit code 0
print(str(e))
os._exit(0)
except Exception:
import traceback
traceback.print_exc()
os._exit(1)
else:
os._exit(0)
else:
pgid = os.getpgid(pid)
_pid, _exitcode = os.waitpid(pid, 0)
# ignore SIGTERM signal itself
old_singla_handler = signal.signal(signal.SIGTERM, signal.SIG_IGN)
# kill all child processes
os.killpg(pgid, signal.SIGTERM)
# restore the signal handler
signal.signal(signal.SIGTERM, old_singla_handler)
assert _exitcode == 0, (f"function {f} failed when called with"
f" args {args} and kwargs {kwargs}")
return wrapper