[gpt-oss] Add gpt-oss bf16 support

vllm/compilation/fix_functionalization.py

@@ -0,0 +1,191 @@
+# SPDX-License-Identifier: Apache-2.0
+# SPDX-FileCopyrightText: Copyright contributors to the vLLM project
+
+import operator
+from collections.abc import Iterable
+from typing import Optional, Union
+
+import torch
+from torch._higher_order_ops.auto_functionalize import auto_functionalized
+
+from vllm.logger import init_logger
+
+from .fx_utils import is_func
+from .vllm_inductor_pass import VllmInductorPass
+
+logger = init_logger(__name__)
+
+
+class FixFunctionalizationPass(VllmInductorPass):
+    """
+    This pass defunctionalizes certain nodes to avoid redundant tensor copies.
+    After this pass, DCE (dead-code elimination) should never be run,
+    as de-functionalized nodes may appear as dead code.
+
+    To add new nodes to defunctionalize, add to the if-elif chain in __call__.
+    """
+
+    def __call__(self, graph: torch.fx.Graph):
+        self.begin()
+        self.dump_graph(graph, "before_fix_functionalization")
+
+        self.nodes_to_remove: list[torch.fx.Node] = []
+        count = 0
+        for node in graph.nodes:
+            if not is_func(node, auto_functionalized):
+                continue  # Avoid deep if-elif nesting
+
+            kwargs = node.kwargs
+            at_target = node.args[0]
+
+            if at_target == torch.ops._C.rotary_embedding.default:
+                query = kwargs['query']
+                mm_node = query.args[0].args[0]
+
+                # rotary_embedding is a special case: the two mutating inputs
+                # are query and key, which are slices of mm_node.
+                # While functionalized, results at[1] and at[2] are scattered
+                # back into mm_node. After de-functionalization, we can just
+                # use mm_node directly.
+                for idx, user in self.getitem_users(node).items():
+                    for user_of_getitem in user.users:
+                        if is_func(user_of_getitem,
+                                   torch.ops.aten.slice_scatter.default):
+                            user_of_getitem.replace_all_uses_with(mm_node)
+                            self._remove(user_of_getitem)
+                    self._remove(user)
+
+                self.insert_defunctionalized(graph, node)
+                self._remove(node)
+
+            # rms_norm replacements avoid the most copies for LLaMa.
+            elif at_target == torch.ops._C.fused_add_rms_norm.default:
+                mutated_args = {1: 'input', 2: 'residual'}
+                self.defunctionalize(graph, node, mutated_args)
+            elif at_target == torch.ops._C.fused_add_rms_norm_static_fp8_quant.default:  # noqa: E501
+                mutated_args = {1: 'result', 2: 'residual'}
+                self.defunctionalize(graph, node, mutated_args)
+            elif at_target == torch.ops._C.rms_norm_dynamic_per_token_quant.default:  # noqa: E501
+                mutated_args = {1: 'result', 2: 'scale', 3: 'residual'}
+                self.defunctionalize(graph, node, mutated_args)
+            elif at_target in [
+                    torch.ops._C.rms_norm.default,
+                    torch.ops._C.rms_norm_static_fp8_quant.default,
+            ]:
+                mutated_args = {1: 'result'}
+                self.defunctionalize(graph, node, mutated_args)
+            # For some reason we need to specify the args for both
+            # silu_and_mul and silu_and_mul_quant. The kwargs
+            # pathway gets the wrong answer.
+            elif at_target == torch.ops._C.silu_and_mul.default:
+                mutated_args = {1: 'result'}
+                self.defunctionalize(graph,
+                                     node,
+                                     mutated_args,
+                                     args=('result', 'input'))
+            elif at_target == torch.ops._C.silu_and_mul_quant.default:
+                mutated_args = {1: 'result'}
+                self.defunctionalize(graph,
+                                     node,
+                                     mutated_args,
+                                     args=('result', 'input', 'scale'))
+            else:
+                continue  # skip the count
+
+            count += 1
+
+        self.dump_graph(graph, "before_fix_functionalization_cleanup")
+
+        # Remove the nodes all at once
+        count_removed = len(self.nodes_to_remove)
+        for node in self.nodes_to_remove:
+            graph.erase_node(node)
+
+        logger.debug("De-functionalized %s nodes, removed %s nodes", count,
+                     count_removed)
+        self.dump_graph(graph, "after_fix_functionalization")
+        self.end_and_log()
+
+    def _remove(self, node_or_nodes: Union[torch.fx.Node,
+                                           Iterable[torch.fx.Node]]):
+        """
+        Stage a node (or nodes) for removal at the end of the pass.
+        """
+        if isinstance(node_or_nodes, torch.fx.Node):
+            self.nodes_to_remove.append(node_or_nodes)
+        else:
+            self.nodes_to_remove.extend(node_or_nodes)
+
+    def defunctionalize(self,
+                        graph: torch.fx.Graph,
+                        node: torch.fx.Node,
+                        mutated_args: dict[int, Union[torch.fx.Node, str]],
+                        args: Optional[tuple[Union[torch.fx.Node, str],
+                                             ...]] = None):
+        """
+        De-functionalize a node by replacing it with a call to the original.
+        It also replaces the getitem users with the mutated arguments.
+        See replace_users_with_mutated_args and insert_defunctionalized.
+        """
+        self.replace_users_with_mutated_args(node, mutated_args)
+        self.insert_defunctionalized(graph, node, args=args)
+        self._remove(node)
+
+    def replace_users_with_mutated_args(self, node: torch.fx.Node,
+                                        mutated_args: dict[int,
+                                                           Union[torch.fx.Node,
+                                                                 str]]):
+        """
+        Replace all getitem users of the auto-functionalized node with the
+        mutated arguments.
+        :param node: The auto-functionalized node
+        :param mutated_args: The mutated arguments, indexed by getitem index.
+        If the value of an arg is a string, `node.kwargs[arg]` is used.
+        """
+        for idx, user in self.getitem_users(node).items():
+            arg = mutated_args[idx]
+            arg = node.kwargs[arg] if isinstance(arg, str) else arg
+            user.replace_all_uses_with(arg)
+            self._remove(user)
+
+    def getitem_users(self, node: torch.fx.Node) -> dict[int, torch.fx.Node]:
+        """
+        Returns the operator.getitem users of the auto-functionalized node,
+        indexed by the index they are getting.
+        """
+        users = {}
+        for user in node.users:
+            if is_func(user, operator.getitem):
+                idx = user.args[1]
+                users[idx] = user
+        return users
+
+    def insert_defunctionalized(self,
+                                graph: torch.fx.Graph,
+                                node: torch.fx.Node,
+                                args: Optional[tuple[Union[torch.fx.Node, str],
+                                                     ...]] = None):
+        """
+        Insert a new defunctionalized node into the graph before node.
+        If one of the kwargs is 'out', provide args directly,
+        as node.kwargs cannot be used.
+        See https://github.com/pytorch/pytorch/blob/a00faf440888ffb724bad413f329a49e2b6388e7/torch/_inductor/lowering.py#L351
+
+        :param graph: Graph to insert the defunctionalized node into
+        :param node: The auto-functionalized node to defunctionalize
+        :param args: If we cannot use kwargs, specify args directly.
+        If an arg is a string, `node.kwargs[arg]` is used.
+        """  # noqa: E501
+        assert is_func(node, auto_functionalized), \
+            f"node must be auto-functionalized, is {node} instead"
+
+        # Create a new call to the original function
+        with graph.inserting_before(node):
+            function = node.args[0]
+            if args is None:
+                graph.call_function(function, kwargs=node.kwargs)
+            else:
+                # Args passed as strings refer to items in node.kwargs
+                args = tuple(node.kwargs[arg] if isinstance(arg, str) else arg
+                             for arg in args)
+                graph.call_function(function, args=args)