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sglang0.4.5.post1/test/srt/test_update_weights_from_di...

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import json
import random
import unittest
import requests
import sglang as sgl
from sglang.srt.utils import kill_process_tree
from sglang.test.test_utils import (
DEFAULT_SMALL_MODEL_NAME_FOR_TEST,
DEFAULT_TIMEOUT_FOR_SERVER_LAUNCH,
DEFAULT_URL_FOR_TEST,
CustomTestCase,
is_in_ci,
popen_launch_server,
)
###############################################################################
# Engine Mode Tests (Single-configuration)
###############################################################################
class TestEngineUpdateWeightsFromDisk(CustomTestCase):
def setUp(self):
self.model = DEFAULT_SMALL_MODEL_NAME_FOR_TEST
# Initialize the engine in offline (direct) mode.
self.engine = sgl.Engine(model_path=self.model)
def tearDown(self):
self.engine.shutdown()
def run_decode(self):
prompts = ["The capital of France is"]
sampling_params = {"temperature": 0, "max_new_tokens": 32}
outputs = self.engine.generate(prompts, sampling_params)
print("=" * 100)
print(
f"[Engine Mode] Prompt: {prompts[0]}\nGenerated text: {outputs[0]['text']}"
)
return outputs[0]["text"]
def run_update_weights(self, model_path):
ret = self.engine.update_weights_from_disk(model_path)
print(json.dumps(ret))
return ret
def test_update_weights(self):
origin_response = self.run_decode()
# Update weights: use new model (remove "-Instruct")
new_model_path = self.model.replace("-Instruct", "")
ret = self.run_update_weights(new_model_path)
self.assertTrue(ret[0]) # ret is a tuple; index 0 holds the success flag
updated_response = self.run_decode()
self.assertNotEqual(origin_response[:32], updated_response[:32])
# Revert back to original weights
ret = self.run_update_weights(self.model)
self.assertTrue(ret[0])
reverted_response = self.run_decode()
self.assertEqual(origin_response[:32], reverted_response[:32])
def test_update_weights_unexist_model(self):
origin_response = self.run_decode()
new_model_path = self.model.replace("-Instruct", "wrong")
ret = self.run_update_weights(new_model_path)
self.assertFalse(ret[0])
updated_response = self.run_decode()
self.assertEqual(origin_response[:32], updated_response[:32])
###############################################################################
# HTTP Server Mode Tests (Single-configuration)
###############################################################################
class TestServerUpdateWeightsFromDisk(CustomTestCase):
@classmethod
def setUpClass(cls):
cls.model = DEFAULT_SMALL_MODEL_NAME_FOR_TEST
cls.base_url = DEFAULT_URL_FOR_TEST
cls.process = popen_launch_server(
cls.model, cls.base_url, timeout=DEFAULT_TIMEOUT_FOR_SERVER_LAUNCH
)
@classmethod
def tearDownClass(cls):
kill_process_tree(cls.process.pid)
def run_decode(self):
response = requests.post(
self.base_url + "/generate",
json={
"text": "The capital of France is",
"sampling_params": {"temperature": 0, "max_new_tokens": 32},
},
)
print("=" * 100)
print(f"[Server Mode] Generated text: {response.json()['text']}")
return response.json()["text"]
def get_model_info(self):
response = requests.get(self.base_url + "/get_model_info")
model_path = response.json()["model_path"]
print(json.dumps(response.json()))
return model_path
def run_update_weights(self, model_path):
response = requests.post(
self.base_url + "/update_weights_from_disk",
json={"model_path": model_path},
)
ret = response.json()
print(json.dumps(ret))
return ret
def test_update_weights(self):
origin_model_path = self.get_model_info()
print(f"[Server Mode] origin_model_path: {origin_model_path}")
origin_response = self.run_decode()
new_model_path = DEFAULT_SMALL_MODEL_NAME_FOR_TEST.replace("-Instruct", "")
ret = self.run_update_weights(new_model_path)
self.assertTrue(ret["success"])
updated_model_path = self.get_model_info()
print(f"[Server Mode] updated_model_path: {updated_model_path}")
self.assertEqual(updated_model_path, new_model_path)
self.assertNotEqual(updated_model_path, origin_model_path)
updated_response = self.run_decode()
self.assertNotEqual(origin_response[:32], updated_response[:32])
ret = self.run_update_weights(origin_model_path)
self.assertTrue(ret["success"])
updated_model_path = self.get_model_info()
self.assertEqual(updated_model_path, origin_model_path)
updated_response = self.run_decode()
self.assertEqual(origin_response[:32], updated_response[:32])
def test_update_weights_unexist_model(self):
origin_model_path = self.get_model_info()
print(f"[Server Mode] origin_model_path: {origin_model_path}")
origin_response = self.run_decode()
new_model_path = DEFAULT_SMALL_MODEL_NAME_FOR_TEST.replace("-Instruct", "wrong")
ret = self.run_update_weights(new_model_path)
self.assertFalse(ret["success"])
updated_model_path = self.get_model_info()
print(f"[Server Mode] updated_model_path: {updated_model_path}")
self.assertEqual(updated_model_path, origin_model_path)
updated_response = self.run_decode()
self.assertEqual(origin_response[:32], updated_response[:32])
###############################################################################
# Parameterized Tests for update_weights_from_disk
# Test coverage is determined based on the value of is_in_ci:
# - In a CI environment: randomly select one mode (Engine or Server) and test only with tp=1, dp=1.
# - In a non-CI environment: test both Engine and Server modes, and enumerate all combinations
# with tp and dp ranging from 1 to 2.
###############################################################################
class TestUpdateWeightsFromDiskParameterized(CustomTestCase):
def run_common_test(self, mode, tp, dp):
"""
Common test procedure for update_weights_from_disk.
For Engine mode, we instantiate the engine with tp_size=tp.
For Server mode, we launch the server with additional arguments for tp (dp is not used in server launch here).
"""
if mode == "Engine":
# Instantiate engine with additional parameter tp_size.
print(f"[Parameterized Engine] Testing with tp={tp}, dp={dp}")
engine = sgl.Engine(
model_path=DEFAULT_SMALL_MODEL_NAME_FOR_TEST,
random_seed=42,
tp_size=tp,
# dp parameter is not explicitly used in this API.
)
try:
origin_response = self._engine_update_weights_test(engine)
finally:
engine.shutdown()
elif mode == "Server":
print(f"[Parameterized Server] Testing with tp={tp}, dp={dp}")
# Pass additional arguments to launch the server.
base_args = ["--tp-size", str(tp)]
process = popen_launch_server(
DEFAULT_SMALL_MODEL_NAME_FOR_TEST,
DEFAULT_URL_FOR_TEST,
timeout=DEFAULT_TIMEOUT_FOR_SERVER_LAUNCH,
other_args=base_args,
)
try:
origin_response = self._server_update_weights_test(DEFAULT_URL_FOR_TEST)
finally:
kill_process_tree(process.pid)
else:
raise ValueError(f"Unknown mode: {mode}")
def _engine_update_weights_test(self, engine):
# Run the update weights test on the given engine instance.
def run_decode():
prompts = ["The capital of France is"]
sampling_params = {"temperature": 0, "max_new_tokens": 32}
outputs = engine.generate(prompts, sampling_params)
print("=" * 100)
print(
f"[Parameterized Engine] Prompt: {prompts[0]}\nGenerated text: {outputs[0]['text']}"
)
return outputs[0]["text"]
def run_update_weights(model_path):
ret = engine.update_weights_from_disk(model_path)
print(json.dumps(ret))
return ret
origin_response = run_decode()
new_model_path = DEFAULT_SMALL_MODEL_NAME_FOR_TEST.replace("-Instruct", "")
ret = run_update_weights(new_model_path)
self.assertTrue(ret[0])
updated_response = run_decode()
self.assertNotEqual(origin_response[:32], updated_response[:32])
ret = run_update_weights(DEFAULT_SMALL_MODEL_NAME_FOR_TEST)
self.assertTrue(ret[0])
reverted_response = run_decode()
self.assertEqual(origin_response[:32], reverted_response[:32])
return origin_response
def _server_update_weights_test(self, base_url):
def run_decode():
response = requests.post(
base_url + "/generate",
json={
"text": "The capital of France is",
"sampling_params": {"temperature": 0, "max_new_tokens": 32},
},
)
print("=" * 100)
print(f"[Parameterized Server] Generated text: {response.json()['text']}")
return response.json()["text"]
def get_model_info():
response = requests.get(base_url + "/get_model_info")
model_path = response.json()["model_path"]
print(json.dumps(response.json()))
return model_path
def run_update_weights(model_path):
response = requests.post(
base_url + "/update_weights_from_disk",
json={"model_path": model_path},
)
ret = response.json()
print(json.dumps(ret))
return ret
origin_model_path = get_model_info()
origin_response = run_decode()
new_model_path = DEFAULT_SMALL_MODEL_NAME_FOR_TEST.replace("-Instruct", "")
ret = run_update_weights(new_model_path)
self.assertTrue(ret["success"])
updated_model_path = get_model_info()
self.assertEqual(updated_model_path, new_model_path)
self.assertNotEqual(updated_model_path, origin_model_path)
updated_response = run_decode()
self.assertNotEqual(origin_response[:32], updated_response[:32])
ret = run_update_weights(origin_model_path)
self.assertTrue(ret["success"])
updated_model_path = get_model_info()
self.assertEqual(updated_model_path, origin_model_path)
reverted_response = run_decode()
self.assertEqual(origin_response[:32], reverted_response[:32])
return origin_response
def test_parameterized_update_weights(self):
if is_in_ci():
# In CI, choose one random mode (Engine or Server) with tp=1, dp=1.
mode = random.choice(["Engine", "Server"])
test_suits = [(1, 1, mode)]
else:
# Otherwise, test both modes and enumerate tp,dp combinations from 1 to 2.
test_suits = []
for mode in ["Engine", "Server"]:
for tp in [1, 2]:
for dp in [1, 2]:
test_suits.append((tp, dp, mode))
for tp, dp, mode in test_suits:
with self.subTest(mode=mode, tp=tp, dp=dp):
self.run_common_test(mode, tp, dp)
if __name__ == "__main__":
unittest.main()
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