/* LoongArch assembler/disassembler support. Copyright (C) 2021 Free Software Foundation, Inc. Contributed by Loongson Ltd. This file is part of GNU Binutils. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the license, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; see the file COPYING3. If not, see . */ #ifndef _LOONGARCH_H_ #define _LOONGARCH_H_ #include #ifdef __cplusplus extern "C" { #endif typedef uint32_t insn_t; struct loongarch_opcode { const insn_t match; const insn_t mask; /* High 1 byte is main opcode and it must be 0xf. */ #define LARCH_INSN_OPC(insn) ((insn & 0xf0000000) >> 28) const char *const name; /* ACTUAL PARAMETER: // BNF with regular expression. args : token* end // just few char separate 'iden' token : ',' | '(' | ')' | iden // maybe a label (include at least one alphabet), maybe a number, maybe a expr | regname regname : '$' iden iden : [a-zA-Z0-9\.\+\-]+ end : '\0' FORMAT: A string to describe the format of actual parameter including bit field infomation. For example, "r5:5,r0:5,sr10:16<<2" matches "$12,$13,12345" and "$4,$7,a_label". That 'sr' means the instruction may need relocate. '10:16' means bit field of instruction. In a 'format', every 'escape's can be replaced to 'iden' or 'regname' acrroding to its meaning. We fill all information needed by disassembing and assembing to 'format'. // BNF with regular expression. format : escape (literal+ escape)* literal* end | (literal+ escape)* literal* end end : '\0' // Get here means parse end. // The intersection between any two among FIRST (end), FIRST // (literal) and FIRST (escape) must be empty. // So we can build a simple parser. literal : ',' | '(' | ')' // Double '<'s means the real number is the immediate after shifting left. escape : esc_ch bit_field '<' '<' dec2 | esc_ch bit_field | esc_ch // for MACRO. non-macro format must indicate 'bit_field' // '|' means to concatenate nonadjacent bit fields // For example, "10:16|0:4" means // "16 bits starting from the 10th bit concatenating with 4 bits // starting from the 0th bit". // This is to say "[25..10]||[3..0]" (little endian). b_field : dec2 ':' dec2 | dec2 ':' dec2 '|' bit_field esc_ch : 's' 'r' // signed immediate or label need relocate | 's' // signed immediate no need relocate | 'u' // unsigned immediate | 'l' // label needed relocate | 'r' // general purpose registers | 'f' // FPU registers | 'v' // 128 bit SIMD register | 'x' // 256 bit SIMD register dec2 : [1-9][0-9]? | 0 */ const char *const format; /* MACRO: Indicate how a macro instruction expand for assembling. The main is to replace the '%num'(means the 'num'th 'escape' in 'format') in 'macro' string to get the real instruction. Maybe need */ const char *const macro; const int *include; const int *exclude; const unsigned long pinfo; #define USELESS 0x0l }; struct hash_control; struct loongarch_ase { const int *enabled; struct loongarch_opcode *const opcodes; const int *include; const int *exclude; /* For disassemble to create main opcode hash table. */ const struct loongarch_opcode *opc_htab[16]; unsigned char opc_htab_inited; /* For GAS to create hash table. */ struct htab *name_hash_entry; }; extern int is_unsigned (const char *); extern int is_signed (const char *); extern int is_branch_label (const char *); extern int loongarch_get_bit_field_width (const char *bit_field, char **end); extern int32_t loongarch_decode_imm (const char *bit_field, insn_t insn, int si); #define MAX_ARG_NUM_PLUS_2 9 extern size_t loongarch_split_args_by_comma (char *args, const char *arg_strs[]); extern char *loongarch_cat_splited_strs (const char *arg_strs[]); extern insn_t loongarch_foreach_args ( const char *format, const char *arg_strs[], int32_t (*helper) (char esc1, char esc2, const char *bit_field, const char *arg, void *context), void *context); extern int loongarch_check_format (const char *format); extern int loongarch_check_macro (const char *format, const char *macro); extern char *loongarch_expand_macro_with_format_map ( const char *format, const char *macro, const char *const arg_strs[], const char *(*map) (char esc1, char esc2, const char *arg), char *(*helper) (const char *const arg_strs[], void *context), void *context); extern char *loongarch_expand_macro ( const char *macro, const char *const arg_strs[], char *(*helper) (const char *const arg_strs[], void *context), void *context); extern size_t loongarch_bits_imm_needed (int64_t imm, int si); extern void loongarch_eliminate_adjacent_repeat_char (char *dest, char c); extern int loongarch_parse_dis_options (const char *opts_in); extern void loongarch_disassemble_one ( int64_t pc, insn_t insn, int (*fprintf_func) (void *stream, const char *format, ...), void *stream); extern const char *const loongarch_r_normal_name[32]; extern const char *const loongarch_r_lp64_name[32]; extern const char *const loongarch_r_lp64_name1[32]; extern const char *const loongarch_f_normal_name[32]; extern const char *const loongarch_f_lp64_name[32]; extern const char *const loongarch_f_lp64_name1[32]; extern const char *const loongarch_c_normal_name[8]; extern const char *const loongarch_cr_normal_name[4]; extern const char *const loongarch_v_normal_name[32]; extern const char *const loongarch_x_normal_name[32]; extern struct loongarch_ase loongarch_ASEs[]; extern struct loongarch_ASEs_option { struct opt_abi { int elf_abi; } abi; #define ase_abi abi.elf_abi struct opt_isa { int use_ilp32; int use_lp64; int use_soft_float; int use_single_float; int use_double_float; int use_lsx; int use_lasx; int use_la_local_with_abs; int use_la_global_with_pcrel; int use_la_global_with_abs; } isa; #define ase_ilp32 isa.use_ilp32 #define ase_lp64 isa.use_lp64 #define ase_nf isa.use_soft_float #define ase_sf isa.use_single_float #define ase_df isa.use_double_float #define ase_lsx isa.use_lsx #define ase_lasx isa.use_lasx #define ase_labs isa.use_la_local_with_abs #define ase_gpcr isa.use_la_global_with_pcrel #define ase_gabs isa.use_la_global_with_abs } LARCH_opts; extern size_t loongarch_insn_length (insn_t insn); #ifdef __cplusplus } #endif #endif /* _LOONGARCH_H_ */