/* Nios II opcode list for GAS, the GNU assembler.
Copyright (C) 2012-2020 Free Software Foundation, Inc.
Contributed by Nigel Gray (ngray@altera.com).
Contributed by Mentor Graphics, Inc.
This file is part of the GNU opcodes library.
GAS/GDB 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, or (at your option)
any later version.
GAS/GDB 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 GAS or GDB; see the file COPYING3. If not, write to
the Free Software Foundation, 51 Franklin Street - Fifth Floor,
Boston, MA 02110-1301, USA. */
#ifndef _NIOS2_H_
#define _NIOS2_H_
#include "bfd.h"
#ifdef __cplusplus
extern "C" {
#endif
/****************************************************************************
* This file contains structures, bit masks and shift counts used
* by the GNU toolchain to define the Nios II instruction set and
* access various opcode fields.
****************************************************************************/
/* Instruction encoding formats. */
enum iw_format_type {
/* R1 formats. */
iw_i_type,
iw_r_type,
iw_j_type,
iw_custom_type,
/* 32-bit R2 formats. */
iw_L26_type,
iw_F2I16_type,
iw_F2X4I12_type,
iw_F1X4I12_type,
iw_F1X4L17_type,
iw_F3X6L5_type,
iw_F2X6L10_type,
iw_F3X6_type,
iw_F3X8_type,
/* 16-bit R2 formats. */
iw_I10_type,
iw_T1I7_type,
iw_T2I4_type,
iw_T1X1I6_type,
iw_X1I7_type,
iw_L5I4X1_type,
iw_T2X1L3_type,
iw_T2X1I3_type,
iw_T3X1_type,
iw_T2X3_type,
iw_F1X1_type,
iw_X2L5_type,
iw_F1I5_type,
iw_F2_type
};
/* Identify different overflow situations for error messages. */
enum overflow_type
{
call_target_overflow = 0,
branch_target_overflow,
address_offset_overflow,
signed_immed16_overflow,
unsigned_immed16_overflow,
unsigned_immed5_overflow,
signed_immed12_overflow,
custom_opcode_overflow,
enumeration_overflow,
no_overflow
};
/* This structure holds information for a particular instruction.
The args field is a string describing the operands. The following
letters can appear in the args:
c - a 5-bit control register index
d - a 5-bit destination register index
s - a 5-bit left source register index
t - a 5-bit right source register index
D - a 3-bit encoded destination register
S - a 3-bit encoded left source register
T - a 3-bit encoded right source register
i - a 16-bit signed immediate
j - a 5-bit unsigned immediate
k - a (second) 5-bit unsigned immediate
l - a 8-bit custom instruction constant
m - a 26-bit unsigned immediate
o - a 16-bit signed pc-relative offset
u - a 16-bit unsigned immediate
I - a 12-bit signed immediate
M - a 6-bit unsigned immediate
N - a 6-bit unsigned immediate with 2-bit shift
O - a 10-bit signed pc-relative offset with 1-bit shift
P - a 7-bit signed pc-relative offset with 1-bit shift
U - a 7-bit unsigned immediate with 2-bit shift
V - a 5-bit unsigned immediate with 2-bit shift
W - a 4-bit unsigned immediate with 2-bit shift
X - a 4-bit unsigned immediate with 1-bit shift
Y - a 4-bit unsigned immediate
e - an immediate coded as an enumeration for addi.n/subi.n
f - an immediate coded as an enumeration for slli.n/srli.n
g - an immediate coded as an enumeration for andi.n
h - an immediate coded as an enumeration for movi.n
R - a reglist for ldwm/stwm or push.n/pop.n
B - a base register specifier and option list for ldwm/stwm
Literal ',', '(', and ')' characters may also appear in the args as
delimiters.
Note that the args describe the semantics and assembly-language syntax
of the operands, not their encoding into the instruction word.
The pinfo field is INSN_MACRO for a macro. Otherwise, it is a collection
of bits describing the instruction, notably any relevant hazard
information.
When assembling, the match field contains the opcode template, which
is modified by the arguments to produce the actual opcode
that is emitted. If pinfo is INSN_MACRO, then this is 0.
If pinfo is INSN_MACRO, the mask field stores the macro identifier.
Otherwise this is a bit mask for the relevant portions of the opcode
when disassembling. If the actual opcode anded with the match field
equals the opcode field, then we have found the correct instruction. */
struct nios2_opcode
{
const char *name; /* The name of the instruction. */
const char *args; /* A string describing the arguments for this
instruction. */
const char *args_test; /* Like args, but with an extra argument for
the expected opcode. */
unsigned long num_args; /* The number of arguments the instruction
takes. */
unsigned size; /* Size in bytes of the instruction. */
enum iw_format_type format; /* Instruction format. */
unsigned long match; /* The basic opcode for the instruction. */
unsigned long mask; /* Mask for the opcode field of the
instruction. */
unsigned long pinfo; /* Is this a real instruction or instruction
macro? */
enum overflow_type overflow_msg; /* Used to generate informative
message when fixup overflows. */
};
/* This value is used in the nios2_opcode.pinfo field to indicate that the
instruction is a macro or pseudo-op. This requires special treatment by
the assembler, and is used by the disassembler to determine whether to
check for a nop. */
#define NIOS2_INSN_MACRO 0x80000000
#define NIOS2_INSN_MACRO_MOV 0x80000001
#define NIOS2_INSN_MACRO_MOVI 0x80000002
#define NIOS2_INSN_MACRO_MOVIA 0x80000004
#define NIOS2_INSN_RELAXABLE 0x40000000
#define NIOS2_INSN_UBRANCH 0x00000010
#define NIOS2_INSN_CBRANCH 0x00000020
#define NIOS2_INSN_CALL 0x00000040
#define NIOS2_INSN_OPTARG 0x00000080
/* Register attributes. */
#define REG_NORMAL (1<<0) /* Normal registers. */
#define REG_CONTROL (1<<1) /* Control registers. */
#define REG_COPROCESSOR (1<<2) /* For custom instructions. */
#define REG_3BIT (1<<3) /* For R2 CDX instructions. */
#define REG_LDWM (1<<4) /* For R2 ldwm/stwm. */
#define REG_POP (1<<5) /* For R2 pop.n/push.n. */
struct nios2_reg
{
const char *name;
const int index;
unsigned long regtype;
};
/* Pull in the instruction field accessors, opcodes, and masks. */
#include "nios2r1.h"
#include "nios2r2.h"
/* These are the data structures used to hold the instruction information. */
extern const struct nios2_opcode nios2_r1_opcodes[];
extern const int nios2_num_r1_opcodes;
extern const struct nios2_opcode nios2_r2_opcodes[];
extern const int nios2_num_r2_opcodes;
extern struct nios2_opcode *nios2_opcodes;
extern int nios2_num_opcodes;
/* These are the data structures used to hold the register information. */
extern const struct nios2_reg nios2_builtin_regs[];
extern struct nios2_reg *nios2_regs;
extern const int nios2_num_builtin_regs;
extern int nios2_num_regs;
/* Return the opcode descriptor for a single instruction. */
extern const struct nios2_opcode *
nios2_find_opcode_hash (unsigned long, unsigned long);
/* Lookup tables for R2 immediate decodings. */
extern unsigned int nios2_r2_asi_n_mappings[];
extern const int nios2_num_r2_asi_n_mappings;
extern unsigned int nios2_r2_shi_n_mappings[];
extern const int nios2_num_r2_shi_n_mappings;
extern unsigned int nios2_r2_andi_n_mappings[];
extern const int nios2_num_r2_andi_n_mappings;
/* Lookup table for 3-bit register decodings. */
extern int nios2_r2_reg3_mappings[];
extern const int nios2_num_r2_reg3_mappings;
/* Lookup table for REG_RANGE value list decodings. */
extern unsigned long nios2_r2_reg_range_mappings[];
extern const int nios2_num_r2_reg_range_mappings;
#ifdef __cplusplus
}
#endif
#endif /* _NIOS2_H */