text-generation-inference/backends/gaudi/server/text_generation_server/server.py

# Copyright (C) 2024 Habana Labs, Ltd. an Intel Company.

import asyncio
import os
import torch
import time
import signal

from grpc import aio
from loguru import logger

from grpc_reflection.v1alpha import reflection
from pathlib import Path
from typing import List, Optional

from text_generation_server.cache import Cache
from text_generation_server.interceptor import ExceptionInterceptor
from text_generation_server.models import Model, get_model_with_lora_adapters
from text_generation_server.pb import generate_pb2_grpc, generate_pb2
from text_generation_server.tracing import UDSOpenTelemetryAioServerInterceptor
from text_generation_server.models.globals import set_model_id
from text_generation_server.models.globals import set_adapter_to_index
from text_generation_server.utils.adapter import AdapterInfo
from text_generation_server.utils.tokens import make_tokenizer_optional

try:
    from text_generation_server.models.pali_gemma import PaliGemmaBatch
    from text_generation_server.models.vlm_causal_lm import (
        VlmCausalLMBatch,
    )
    from text_generation_server.models.idefics_causal_lm import IdeficsCausalLMBatch

    VLM_BATCH_TYPES = {
        PaliGemmaBatch,
        VlmCausalLMBatch,
        IdeficsCausalLMBatch,
    }
except (ImportError, NotImplementedError):
    # These imports can fail on CPU/Non flash.
    VLM_BATCH_TYPES = set()
from text_generation_server.utils.version import (
    is_driver_compatible,
    MIN_TGI_GAUDI_SYNAPSE_VERSION,
)


class SignalHandler:
    KEEP_PROCESSING = True

    def __init__(self):
        signal.signal(signal.SIGINT, self.exit_gracefully)
        signal.signal(signal.SIGTERM, self.exit_gracefully)

    def exit_gracefully(self, signum, frame):
        print(f"Exiting gracefully: Signal {signum}")
        self.KEEP_PROCESSING = False


class TextGenerationService(generate_pb2_grpc.TextGenerationServiceServicer):
    def __init__(
        self,
        model: Model,
        cache: Cache,
        server_urls: List[str],
    ):
        self.cache = cache
        self.model = model
        # Quantize is resolved during model loading
        self.quantize = model.quantize
        self.server_urls = server_urls
        # For some reason, inference_mode does not work well with GLOO which we use on CPU
        # TODO: The inferecemode set messes up the autograd op dispatch. And results in aten::matmul
        # op not optimized issue. Will investigate further.
        # if model.device.type == "hpu":
        # Force inference mode for the lifetime of TextGenerationService
        # self._inference_mode_raii_guard = torch._C._InferenceMode(True)

    async def Info(self, request, context):
        return self.model.info

    async def Health(self, request, context):
        if self.model.device.type == "hpu":
            torch.zeros((2, 2)).to("hpu")
        return generate_pb2.HealthResponse()

    async def ServiceDiscovery(self, request, context):
        return generate_pb2.ServiceDiscoveryResponse(urls=self.server_urls)

    async def ClearCache(self, request, context):
        if request.HasField("id"):
            self.cache.delete(request.id)
        else:
            self.cache.clear()
        return generate_pb2.ClearCacheResponse()

    async def FilterBatch(self, request, context):
        batch = self.cache.pop(request.batch_id)
        if batch is None:
            raise ValueError(f"Batch ID {request.batch_id} not found in cache.")
        filtered_batch = batch.filter(request.request_ids)
        self.cache.set(filtered_batch)

        return generate_pb2.FilterBatchResponse(batch=filtered_batch.to_pb())

    async def Warmup(self, request, context):
        max_supported_total_tokens, max_input_tokens, max_total_tokens = (
            self.model.warmup(request)
        )

        # W/A for the skip tokenizer path
        # We need to call make_tokenizer_optional after the warmup,
        # because router is not aware of that feature
        make_tokenizer_optional(self.model.tokenizer)

        return generate_pb2.WarmupResponse(
            max_supported_total_tokens=max_supported_total_tokens,
            max_input_tokens=max_input_tokens,
            max_total_tokens=max_total_tokens,
        )

    async def Prefill(self, request, context):
        start = time.time_ns()
        if (
            self.model.batch_type in VLM_BATCH_TYPES
        ):  # Hack, i would rather use kwargs in the `from_pb` call
            batch = self.model.batch_type.from_pb_processor(
                request.batch,
                self.model.tokenizer,
                self.model.processor,
                self.model.model.config,
                self.model.dtype,
                self.model.device,
            )
        else:
            batch = self.model.batch_type.from_pb(
                request.batch, self.model.tokenizer, self.model.dtype, self.model.device
            )

        generations, next_batch, timings = self.model.generate_token([batch])
        self.cache.set(next_batch)

        return generate_pb2.PrefillResponse(
            generations=[generation.to_pb() for generation in generations],
            batch=next_batch.to_pb() if next_batch else None,
            forward_ns=timings[0],
            decode_ns=timings[1],
            total_ns=time.time_ns() - start,
        )

    async def Decode(self, request, context):
        start = time.time_ns()
        if len(request.batches) == 0:
            raise ValueError("Must provide at least one batch")

        batches = []
        for batch_pb in request.batches:
            batch = self.cache.pop(batch_pb.id)
            if batch is None:
                raise ValueError(f"Batch ID {batch_pb.id} not found in cache.")
            batches.append(batch)

        if len(batches) == 0:
            raise ValueError("All batches are empty")

        generations, next_batch, timings = self.model.generate_token(batches)
        self.cache.set(next_batch)

        return generate_pb2.DecodeResponse(
            generations=[generation.to_pb() for generation in generations],
            batch=next_batch.to_pb() if next_batch else None,
            concat_ns=None,
            forward_ns=timings[0],
            decode_ns=timings[1],
            total_ns=time.time_ns() - start,
        )


def serve(
    model_id: str,
    lora_adapters: Optional[List[AdapterInfo]],
    revision: Optional[str],
    sharded: bool,
    quantize: Optional[str],
    speculate: Optional[int],
    dtype: Optional[str],
    trust_remote_code: bool,
    uds_path: Path,
    max_input_tokens: int,
):
    async def serve_inner(
        model_id: str,
        lora_adapters: Optional[List[AdapterInfo]],
        revision: Optional[str],
        sharded: bool = False,
        quantize: Optional[str] = None,
        speculate: Optional[int] = None,
        dtype: Optional[str] = None,
        trust_remote_code: bool = False,
    ):
        if not is_driver_compatible():
            logger.warning(
                f"Current Synapse version is lower than the minimum version supported: {MIN_TGI_GAUDI_SYNAPSE_VERSION}, this could result in failures"
            )

        unix_socket_template = "unix://{}-{}"
        adapter_to_index = {}
        logger.info("Server:server_inner: sharded ={}".format(sharded))

        if sharded:
            rank = int(os.environ["RANK"])
            logger.info("Server:server_inner: rank ={}".format(rank))
            server_urls = [
                unix_socket_template.format(uds_path, rank)
                for rank in range(int(os.environ["WORLD_SIZE"]))
            ]
            local_url = server_urls[int(os.environ["RANK"])]
        else:
            local_url = unix_socket_template.format(uds_path, 0)
            server_urls = [local_url]

        logger.info(
            "Server:server_inner: data type = {}, local_url = {}".format(
                dtype, local_url
            )
        )
        if dtype == "bfloat16" or None:
            data_type = torch.bfloat16
        else:
            data_type = torch.float
        if revision == "None":
            revision = None
        try:
            model = get_model_with_lora_adapters(
                model_id,
                lora_adapters,
                revision,
                sharded,
                quantize,
                speculate,
                data_type,
                trust_remote_code,
                max_input_tokens,
                adapter_to_index,
            )

        except Exception:
            logger.exception("Error when initializing model")
            raise

        set_adapter_to_index(adapter_to_index)
        server = aio.server(
            interceptors=[
                ExceptionInterceptor(),
                UDSOpenTelemetryAioServerInterceptor(),
            ],
            options=[
                # Set the maximum possible message length: i32::MAX
                ("grpc.max_receive_message_length", (1 << 31) - 1)
            ],
        )
        generate_pb2_grpc.add_TextGenerationServiceServicer_to_server(
            TextGenerationService(model, Cache(), server_urls), server
        )
        SERVICE_NAMES = (
            generate_pb2.DESCRIPTOR.services_by_name["TextGenerationService"].full_name,
            reflection.SERVICE_NAME,
        )
        reflection.enable_server_reflection(SERVICE_NAMES, server)
        server.add_insecure_port(local_url)

        await server.start()

        logger.info("Server started at {}".format(local_url))
        signal_handler = SignalHandler()
        while signal_handler.KEEP_PROCESSING:
            await asyncio.sleep(0.5)

    set_model_id(model_id)
    asyncio.run(
        serve_inner(
            model_id,
            lora_adapters,
            revision,
            sharded,
            quantize,
            speculate,
            dtype,
            trust_remote_code,
        )
    )
Add Gaudi Backend (#3055) * wip(gaudi): import server and dockerfile from tgi-gaudi fork * feat(gaudi): new gaudi backend working * fix: fix style * fix prehooks issues * fix(gaudi): refactor server and implement requested changes 2025-02-28 11:14:58 +00:00			`# Copyright (C) 2024 Habana Labs, Ltd. an Intel Company.`

			`import asyncio`
			`import os`
			`import torch`
			`import time`
			`import signal`

			`from grpc import aio`
			`from loguru import logger`

			`from grpc_reflection.v1alpha import reflection`
			`from pathlib import Path`
			`from typing import List, Optional`

			`from text_generation_server.cache import Cache`
			`from text_generation_server.interceptor import ExceptionInterceptor`
			`from text_generation_server.models import Model, get_model_with_lora_adapters`
			`from text_generation_server.pb import generate_pb2_grpc, generate_pb2`
			`from text_generation_server.tracing import UDSOpenTelemetryAioServerInterceptor`
			`from text_generation_server.models.globals import set_model_id`
			`from text_generation_server.models.globals import set_adapter_to_index`
			`from text_generation_server.utils.adapter import AdapterInfo`
			`from text_generation_server.utils.tokens import make_tokenizer_optional`

			`try:`
			`from text_generation_server.models.pali_gemma import PaliGemmaBatch`
			`from text_generation_server.models.vlm_causal_lm import (`
			`VlmCausalLMBatch,`
			`)`
			`from text_generation_server.models.idefics_causal_lm import IdeficsCausalLMBatch`

			`VLM_BATCH_TYPES = {`
			`PaliGemmaBatch,`
			`VlmCausalLMBatch,`
			`IdeficsCausalLMBatch,`
			`}`
			`except (ImportError, NotImplementedError):`
			`# These imports can fail on CPU/Non flash.`
			`VLM_BATCH_TYPES = set()`
			`from text_generation_server.utils.version import (`
			`is_driver_compatible,`
			`MIN_TGI_GAUDI_SYNAPSE_VERSION,`
			`)`


			`class SignalHandler:`
			`KEEP_PROCESSING = True`

			`def __init__(self):`
			`signal.signal(signal.SIGINT, self.exit_gracefully)`
			`signal.signal(signal.SIGTERM, self.exit_gracefully)`

			`def exit_gracefully(self, signum, frame):`
			`print(f"Exiting gracefully: Signal {signum}")`
			`self.KEEP_PROCESSING = False`


			`class TextGenerationService(generate_pb2_grpc.TextGenerationServiceServicer):`
			`def __init__(`
			`self,`
			`model: Model,`
			`cache: Cache,`
			`server_urls: List[str],`
			`):`
			`self.cache = cache`
			`self.model = model`
			`# Quantize is resolved during model loading`
			`self.quantize = model.quantize`
			`self.server_urls = server_urls`
			`# For some reason, inference_mode does not work well with GLOO which we use on CPU`
			`# TODO: The inferecemode set messes up the autograd op dispatch. And results in aten::matmul`
			`# op not optimized issue. Will investigate further.`
			`# if model.device.type == "hpu":`
			`# Force inference mode for the lifetime of TextGenerationService`
			`# self._inference_mode_raii_guard = torch._C._InferenceMode(True)`

			`async def Info(self, request, context):`
			`return self.model.info`

			`async def Health(self, request, context):`
			`if self.model.device.type == "hpu":`
			`torch.zeros((2, 2)).to("hpu")`
			`return generate_pb2.HealthResponse()`

			`async def ServiceDiscovery(self, request, context):`
			`return generate_pb2.ServiceDiscoveryResponse(urls=self.server_urls)`

			`async def ClearCache(self, request, context):`
			`if request.HasField("id"):`
			`self.cache.delete(request.id)`
			`else:`
			`self.cache.clear()`
			`return generate_pb2.ClearCacheResponse()`

			`async def FilterBatch(self, request, context):`
			`batch = self.cache.pop(request.batch_id)`
			`if batch is None:`
			`raise ValueError(f"Batch ID {request.batch_id} not found in cache.")`
			`filtered_batch = batch.filter(request.request_ids)`
			`self.cache.set(filtered_batch)`

			`return generate_pb2.FilterBatchResponse(batch=filtered_batch.to_pb())`

			`async def Warmup(self, request, context):`
			`max_supported_total_tokens, max_input_tokens, max_total_tokens = (`
			`self.model.warmup(request)`
			`)`

			`# W/A for the skip tokenizer path`
			`# We need to call make_tokenizer_optional after the warmup,`
			`# because router is not aware of that feature`
			`make_tokenizer_optional(self.model.tokenizer)`

			`return generate_pb2.WarmupResponse(`
			`max_supported_total_tokens=max_supported_total_tokens,`
			`max_input_tokens=max_input_tokens,`
			`max_total_tokens=max_total_tokens,`
			`)`

			`async def Prefill(self, request, context):`
			`start = time.time_ns()`
			`if (`
			`self.model.batch_type in VLM_BATCH_TYPES`
			): # Hack, i would rather use kwargs in the `from_pb` call
			`batch = self.model.batch_type.from_pb_processor(`
			`request.batch,`
			`self.model.tokenizer,`
			`self.model.processor,`
			`self.model.model.config,`
			`self.model.dtype,`
			`self.model.device,`
			`)`
			`else:`
			`batch = self.model.batch_type.from_pb(`
			`request.batch, self.model.tokenizer, self.model.dtype, self.model.device`
			`)`

			`generations, next_batch, timings = self.model.generate_token([batch])`
			`self.cache.set(next_batch)`

			`return generate_pb2.PrefillResponse(`
			`generations=[generation.to_pb() for generation in generations],`
			`batch=next_batch.to_pb() if next_batch else None,`
			`forward_ns=timings[0],`
			`decode_ns=timings[1],`
			`total_ns=time.time_ns() - start,`
			`)`

			`async def Decode(self, request, context):`
			`start = time.time_ns()`
			`if len(request.batches) == 0:`
			`raise ValueError("Must provide at least one batch")`

			`batches = []`
			`for batch_pb in request.batches:`
			`batch = self.cache.pop(batch_pb.id)`
			`if batch is None:`
			`raise ValueError(f"Batch ID {batch_pb.id} not found in cache.")`
			`batches.append(batch)`

			`if len(batches) == 0:`
			`raise ValueError("All batches are empty")`

			`generations, next_batch, timings = self.model.generate_token(batches)`
			`self.cache.set(next_batch)`

			`return generate_pb2.DecodeResponse(`
			`generations=[generation.to_pb() for generation in generations],`
			`batch=next_batch.to_pb() if next_batch else None,`
			`concat_ns=None,`
			`forward_ns=timings[0],`
			`decode_ns=timings[1],`
			`total_ns=time.time_ns() - start,`
			`)`


			`def serve(`
			`model_id: str,`
			`lora_adapters: Optional[List[AdapterInfo]],`
			`revision: Optional[str],`
			`sharded: bool,`
			`quantize: Optional[str],`
			`speculate: Optional[int],`
			`dtype: Optional[str],`
			`trust_remote_code: bool,`
			`uds_path: Path,`
			`max_input_tokens: int,`
			`):`
			`async def serve_inner(`
			`model_id: str,`
			`lora_adapters: Optional[List[AdapterInfo]],`
			`revision: Optional[str],`
			`sharded: bool = False,`
			`quantize: Optional[str] = None,`
			`speculate: Optional[int] = None,`
			`dtype: Optional[str] = None,`
			`trust_remote_code: bool = False,`
			`):`
			`if not is_driver_compatible():`
			`logger.warning(`
			`f"Current Synapse version is lower than the minimum version supported: {MIN_TGI_GAUDI_SYNAPSE_VERSION}, this could result in failures"`
			`)`

			`unix_socket_template = "unix://{}-{}"`
			`adapter_to_index = {}`
			`logger.info("Server:server_inner: sharded ={}".format(sharded))`

			`if sharded:`
			`rank = int(os.environ["RANK"])`
			`logger.info("Server:server_inner: rank ={}".format(rank))`
			`server_urls = [`
			`unix_socket_template.format(uds_path, rank)`
			`for rank in range(int(os.environ["WORLD_SIZE"]))`
			`]`
			`local_url = server_urls[int(os.environ["RANK"])]`
			`else:`
			`local_url = unix_socket_template.format(uds_path, 0)`
			`server_urls = [local_url]`

			`logger.info(`
			`"Server:server_inner: data type = {}, local_url = {}".format(`
			`dtype, local_url`
			`)`
			`)`
			`if dtype == "bfloat16" or None:`
			`data_type = torch.bfloat16`
			`else:`
			`data_type = torch.float`
			`if revision == "None":`
			`revision = None`
			`try:`
			`model = get_model_with_lora_adapters(`
			`model_id,`
			`lora_adapters,`
			`revision,`
			`sharded,`
			`quantize,`
			`speculate,`
			`data_type,`
			`trust_remote_code,`
			`max_input_tokens,`
			`adapter_to_index,`
			`)`

			`except Exception:`
			`logger.exception("Error when initializing model")`
			`raise`

			`set_adapter_to_index(adapter_to_index)`
			`server = aio.server(`
			`interceptors=[`
			`ExceptionInterceptor(),`
			`UDSOpenTelemetryAioServerInterceptor(),`
			`],`
			`options=[`
			`# Set the maximum possible message length: i32::MAX`
			`("grpc.max_receive_message_length", (1 << 31) - 1)`
			`],`
			`)`
			`generate_pb2_grpc.add_TextGenerationServiceServicer_to_server(`
			`TextGenerationService(model, Cache(), server_urls), server`
			`)`
			`SERVICE_NAMES = (`
			`generate_pb2.DESCRIPTOR.services_by_name["TextGenerationService"].full_name,`
			`reflection.SERVICE_NAME,`
			`)`
			`reflection.enable_server_reflection(SERVICE_NAMES, server)`
			`server.add_insecure_port(local_url)`

			`await server.start()`

			`logger.info("Server started at {}".format(local_url))`
			`signal_handler = SignalHandler()`
			`while signal_handler.KEEP_PROCESSING:`
			`await asyncio.sleep(0.5)`

			`set_model_id(model_id)`
			`asyncio.run(`
			`serve_inner(`
			`model_id,`
			`lora_adapters,`
			`revision,`
			`sharded,`
			`quantize,`
			`speculate,`
			`dtype,`
			`trust_remote_code,`
			`)`
			`)`