mirror of
https://github.com/RPCSX/xed.git
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4eccd7d1a4
Change-Id: I06e7019fbe8d1331751c6ec091817c24c4e1b590 (cherry picked from commit 28d7094f0e2d78c3397a5edf0fbe96085732bedf)
389 lines
14 KiB
Python
Executable File
389 lines
14 KiB
Python
Executable File
#BEGIN_LEGAL
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#
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#Copyright (c) 2016 Intel Corporation
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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#
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#END_LEGAL
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import re
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import ild_nt
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import mbuild
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import genutil
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import ildutil
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import codegen
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import ild_eosz
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import ild_info
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import ild_codegen
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import operand_storage
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_imm_token = 'IMM_WIDTH'
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_ild_t_imm_member = 'imm_width'
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_uimm1_nt = 'UIMM8_1'
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_l3_header_fn = 'xed-ild-imm-l3.h'
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_l3_c_fn = 'xed-ild-imm-l3.c'
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_l2_header_fn = 'xed-ild-imm-l2.h'
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_l1_header_fn = 'xed-ild-imm-l1.h'
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_l2_c_fn = 'xed-ild-imm-l2.c'
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_eosz_const_suffix = 'CONST'
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_imm0_fn = 'xed_lookup_function_0_IMM_WIDTH_CONST_l2'
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_l1_header_fn = 'xed-ild-imm-l1.h'
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_imm_lu_header_fn = 'xed-ild-imm-bytes.h'
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def get_imm_nt_seq(ptrn_wrds, imm_nts):
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"""
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@param ptrn_wrds: list of tokens in instructions pattern
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@type ptrn_wrds: [string]
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@param imm_nts: list of names of IMM_WIDTH-binding NTs
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@type imm_nts: [string]
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@return nt_names: list of names of IMM_WIDTH binding NTs
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@type nt_names: [string]
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Returns a list of names of IMM-binding NTs in the pattern.
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generally there is only one NT for IMM_WIDTH.
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But ENTER, EXTRQ and INSERTQ instructions have two immediate
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NTs in pattern. This strange NT UIMM8_1 doesn't bind IMM_WIDTH.
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We should take special care of it.
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It is also possible to track captured operands and to check if UIMM1
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is among them, that would be a more generic way, but more complicated
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and it seems a waste to implement it for just one rare UIMM_1 NT.
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"""
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return ild_nt.get_nt_seq(ptrn_wrds, list(imm_nts) + [_uimm1_nt])
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def get_all_imm_seq(united_lookup):
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"""
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@param united_lookup: lookup of ild_info.ild_info_t objects representing
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current ISA. This lookup should have been built from storage+grammar
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@type uinted_lookup: ild_info.ild_storage_t
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@return seq_list: list of all variations of IMM-binding NT sequences in
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united_lookup.
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@type seq_list: [ [string] ]
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"""
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all_seq = set()
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infos = united_lookup.get_all_infos()
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for info in infos:
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#lists are unhashable, hence we have to use tuples instead
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all_seq.add(tuple(info.imm_nt_seq))
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#convert back to lists, in order not to surprise user
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return_list = []
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for nt_tuple in all_seq:
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return_list.append(list(nt_tuple))
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return return_list
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def get_imm_binding_nts(agi):
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"""
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@param agi: all generator info object. main data structure of generator.
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@return nt_list: list of names of NTs in the grammar that bind IMM_WIDTH
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operand.
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@type nt_list: [string]
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"""
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nt_names = ild_nt.get_setting_nts(agi, _imm_token)
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#filter ONE nt
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#FIXME: remove ONE nt from grammar
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return list(filter(lambda x: x!='ONE', nt_names))
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def get_target_opname():
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"""
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@return opname: name of the IMM operand - IMM_WIDTH
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@type opname: string
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"""
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return _imm_token
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def get_l2_fn_from_info(info, imm_dict):
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is_const = ild_codegen.is_constant_l2_func(info.imm_nt_seq, imm_dict)
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if is_const:
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l2_fn = ild_codegen.get_l2_fn(info.imm_nt_seq, _imm_token, [], None,
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_imm0_fn, True)
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else:
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l2_fn = ild_codegen.get_l2_fn(info.imm_nt_seq, _imm_token,
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info.eosz_nt_seq,
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ild_eosz.get_target_opname(),
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_imm0_fn, False)
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return l2_fn
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def _gen_imm0_function(agi):
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"""
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for patterns that don't set IMM_WIDTH token
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these patterns have has_im==0
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and we define a L2 lookup function that returns 0
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"""
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#return_type = operand_storage.get_ctype(_imm_token)
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return_type = 'void'
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fo = codegen.function_object_t(_imm0_fn, return_type,
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static=True, inline=True)
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data_name = 'x'
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fo.add_arg(ildutil.ild_c_type + ' %s' % data_name)
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setter_fn = operand_storage.get_op_setter_fn(_ild_t_imm_member)
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fo.add_code_eol('%s(%s, %s)' % (setter_fn, data_name,'0'))
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return fo
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def _is_imm_conflict(info_list, imm_dict):
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"""Check if info list conflicts on imm_bytes property.
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Sometimes info objects conflict on L2 function name, but those
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different functions actually return same values.
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For example:
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L2 functions defined by UIMM8() and SIMM8() NTs have different names
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but both are const functions returning 8. If info list has those
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two L2 functions, we should discover that and return that there is no
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conflict
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@param info_list: list of info objects to check
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@type info_list: [ild_info.ild_info_t
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@param imm_dict: dictionary from IMM-NT names to corresponding
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codegen.array_t objects describing those NTs
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@type imm_dict: { string(nt_name) : codegen.array_t(nt_arr) }
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@return: True|False - if there is a conflict in lookup function name
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"""
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if len(info_list) <= 1:
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return False
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first = info_list[0]
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l2_fn_first = get_l2_fn_from_info(first, imm_dict)
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for info in info_list[1:]:
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l2_fn_cur = get_l2_fn_from_info(info, imm_dict)
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if (l2_fn_first != l2_fn_cur):
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#there are const l3 functions that return only one value:
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#SIMM8 UIMM8 etc. If they return same value, they should not
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#conflict
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nt_seq1 = first.imm_nt_seq
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nt_seq2 = info.imm_nt_seq
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#check if we have double imm patterns
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if len(nt_seq1) > 1 or len(nt_seq2) > 1:
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#function names are different, hence conflict
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return True
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if len(nt_seq1) != len(nt_seq2):
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return True
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imm_arr1 = imm_dict[nt_seq1[0]]
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imm_arr2 = imm_dict[nt_seq2[0]]
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val_space1 = imm_arr1.get_values_space()
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val_space2 = imm_arr2.get_values_space()
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if len(val_space1) == len(val_space2) == 1:
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if val_space1[0] == val_space2[0]:
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continue
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return True
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return False
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#fixme: write a good comment about conflict resolution in eosz and imm
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#a list of conflict resolution functions to use when we have conflicts
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#between info objects in the same map-opcode
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#for example map 0, opcode c7 has xbegin and mov instructions that have
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#different immediate nts - SIMMz for mov and no imm for xbegin
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#and we decide by REG field which lookup function to use
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_resolution_functions = [
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#it seems that one resolution function is enough
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ild_codegen.gen_l1_byreg_resolution_function,
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]
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#these are for second immediate guys.
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#It also happens that AMD second immediate guys define uneasy conflicts
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#so we are killing two birds with one stone
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harcoded_res_functions = {
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#(map, opcode) L1_function_name
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('0x0F', '0x78') : 'xed_ild_hasimm_map0x0F_op0x78_l1',
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('0x0', '0xc8') : 'xed_ild_hasimm_map0x0_op0xc8_l1'
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}
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def _resolve_conflicts(agi, info_list, imm_dict):
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"""Try to resolve conflicts by applying the conflict resolution
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functions defined in _resolution_functions list.
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@param info_list: list of info objects to that have a conflict
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@type info_list: [ild_info.ild_info_t
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@param imm_dict: dictionary from IMM-NT names to corresponding
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codegen.array_t objects describing those NTs
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@type imm_dict: { string(nt_name) : codegen.array_t(nt_arr) }
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@return: codegen.function_object_t defining the conflict resolution (L1)
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function for info_list's map-opcode
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"""
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#FIXME: we can use ild_cdict.constraint_dict_t for resolving
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#conflicts it would work for any patterns (now we try to resolve
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#only by REG operand)
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for func in _resolution_functions:
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fo = func(agi,info_list, imm_dict, _is_imm_conflict,
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get_l2_fn_from_info, _imm_token)
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if fo:
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return fo
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return None
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def gen_l1_functions_and_lookup(agi, united_lookup, imm_dict):
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"""Compute L1(conflict resolution) functions list and imm_bytes
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lookup tables dict.
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@param agi: all generators info
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@param united_lookup: the 2D lookup by map-opcode to info objects list.
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united_lookup['0x0']['0x78'] == [ild_info1, ild_info2, ... ]
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@type united_lookup:
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{string(insn_map) : {string(opcode): [ild_info.ild_info_t]} }
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"""
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l1_resolution_fos = []
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l1_lookup = {}
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for insn_map in ild_info.get_dump_maps():
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l1_lookup[insn_map] = {}
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for opcode in range(0, 256):
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#look in the hard-coded resolution functions
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#they are manually written for the two-immediates instructions
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if (insn_map, hex(opcode)) in harcoded_res_functions:
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l1_fn = harcoded_res_functions[(insn_map, hex(opcode))]
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l1_lookup[insn_map][hex(opcode)] = l1_fn
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continue
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info_list = united_lookup.get_info_list(insn_map, hex(opcode))
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#get only info objects with minimum priority
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info_list = ild_info.get_min_prio_list(info_list)
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is_conflict = _is_imm_conflict(info_list, imm_dict)
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if len(info_list) > 1 and is_conflict:
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l1_fo = _resolve_conflicts(agi, info_list, imm_dict)
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if not l1_fo:
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ildutil.ild_err('FAILED TO GENERATE L1 CONFLICT ' +
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'RESOLUTION FUNCTION FOR IMM\n infos:\n %s' %
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"\n".join([str(info) for info in info_list]))
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l1_resolution_fos.append(l1_fo)
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l1_fn = l1_fo.function_name
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#if map-opcode pair is undefined the lookup function ptr is NULL
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#this will happen for opcodes like 0F in 0F map - totally illegal
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#opcodes, that should never be looked up in runtime.
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elif len(info_list) == 0:
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l1_fn = '(%s)0' % (ildutil.l1_ptr_typename)
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else:
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#there are no conflicts, we can use L2 function as L1
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info = info_list[0]
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l1_fn = get_l2_fn_from_info(info, imm_dict)
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if not l1_fn:
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return None
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l1_lookup[insn_map][hex(opcode)] = l1_fn
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return l1_resolution_fos,l1_lookup
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def _filter_uimm1_nt(imm_nt_names):
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"""Filter UIMM8_1 NT from list"""
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return list(filter(lambda x: x!=_uimm1_nt, imm_nt_names))
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def work(agi, united_lookup, imm_nts, ild_gendir, eosz_dict,
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debug):
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"""
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main entry point of the module.
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"""
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#dump lookup functions for each NT
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#Let's call these function Level3 functions (L3)
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nt_dict = {}
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#generate the L3 functions
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#Every NT, that changes IMM_WIDTH, defines a L3 function.
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#For example SIMM8() NT defines a L3 function that returns 1 (1 byte).
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#And SIMMv() NT defines a function that gets EOSZ and returns IMM_WIDTH
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#value depending on EOSZ.
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#UIMM8_1 doesn't bind IMM_WIDTH operand, it is a special case
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#there is nothing to generate for it.
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for nt_name in _filter_uimm1_nt(imm_nts):
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array = ild_nt.gen_nt_lookup(agi, nt_name, _imm_token,
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target_type=ildutil.ild_c_op_type,
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level='l3')
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nt_dict[nt_name] = array
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#create function that calls all initialization functions for L3
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init_f = ild_nt.gen_init_function(list(nt_dict.values()),
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'xed_ild_imm_l3_init')
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#dump L3 functions
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ild_nt.dump_lu_arrays(agi, list(nt_dict.values()), _l3_c_fn,
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mbuild.join('include-private',_l3_header_fn),
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init_f)
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#get all IMM NT sequences that are used in patterns
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#The only case of IMM sequence is when we have UIMM1() NT - the second
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#immediate NT.
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all_imm_seq = get_all_imm_seq(united_lookup)
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debug.write('IMM SEQS: %s\n' % all_imm_seq)
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# L2 / Level2 functions: set imm_width
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# Now we define functions that compute EOSZ value (using one of
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# the EOSZ-resolution functions) and then use
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# one of the L3 functions(that need EOSZ) to set IMM_WIDTH.
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# The names of these functions should be something like
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# xed_ild_SIMMz_OSZ_NONTERM_DF64 - to define the imm-binding nonterm
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# and to define the EOSZ-resolution NT sequence.
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# L2 functions are defined by single ild_info_t object - by its
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# eosz_nt_seq and imm_nt_seq
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l2_functions = ild_codegen.gen_l2_func_list(agi, nt_dict, eosz_dict,
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_ild_t_imm_member)
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#append function for imm_bytes==0
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l2_functions.append(_gen_imm0_function(agi))
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l2_headers = [ild_eosz.get_ntseq_header_fn(),
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_l3_header_fn, ildutil.ild_header,
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operand_storage.get_operand_accessors_fn()]
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ild_codegen.dump_flist_2_header(agi, _l2_header_fn, l2_headers,
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l2_functions)
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# L1 / Level1 functions:
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# Now we define functions that resolve conflicts (if any)
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# using modrm.reg bits, and that way decide which L2 function to
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# call to set the IMM value.
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# These functions will be the value of map,opcode lookup tables.
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# These functions should be dumped after we have a look on the
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# united_lookup mapping in order to know what conflicts exist and
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# for each conflict to create a resolution lookup table.
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# L1 functions are defined by a list of ild_info_t objects that
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# have same map,opcode.
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res = gen_l1_functions_and_lookup(agi, united_lookup, nt_dict)
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l1_functions,l1_lookup = res
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ild_codegen.dump_flist_2_header(agi, _l1_header_fn, [_l2_header_fn],
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l1_functions)
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headers = [_l1_header_fn, ildutil.ild_private_header,
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operand_storage.get_operand_accessors_fn()]
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ild_codegen.dump_lookup(agi, l1_lookup, _ild_t_imm_member,
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_imm_lu_header_fn, headers,
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ildutil.l1_ptr_typename)
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